From d9c28a178bd5fbab4b949664d9ec48c83d6df092 Mon Sep 17 00:00:00 2001
From: Benjamin Barenblat <bbaren@mit.edu>
Date: Mon, 19 Jan 2015 16:47:31 -0500
Subject: Make DFSG-clean

---
 plugins/ao/eng_dsf/aica.c      |  1281 ----
 plugins/ao/eng_dsf/aica.h      |    52 -
 plugins/ao/eng_dsf/aicadsp.c   |   349 --
 plugins/ao/eng_dsf/aicadsp.h   |    37 -
 plugins/ao/eng_dsf/aicalfo.c   |   159 -
 plugins/ao/eng_dsf/arm7.c      |   278 -
 plugins/ao/eng_dsf/arm7.h      |   171 -
 plugins/ao/eng_dsf/arm7i.c     |  1340 ----
 plugins/ao/eng_dsf/arm7i.h     |    19 -
 plugins/ao/eng_dsf/arm7memil.c |    56 -
 plugins/ao/eng_psf/cpuintrf.h  |   668 --
 plugins/ao/eng_psf/mamemem.h   |   662 --
 plugins/ao/eng_psf/psx.c       |  3140 ----------
 plugins/ao/eng_psf/psx.h       |   486 --
 plugins/ao/eng_qsf/kabuki.c    |   156 -
 plugins/ao/eng_qsf/qsound.c    |   442 --
 plugins/ao/eng_qsf/qsound.h    |   117 -
 plugins/ao/eng_qsf/z80.c       |  4425 -------------
 plugins/ao/eng_qsf/z80.h       |   117 -
 plugins/ao/eng_qsf/z80dasm.c   |   597 --
 plugins/ao/eng_qsf/z80dasm.h   |     2 -
 plugins/ao/eng_ssf/m68k.h      |   347 -
 plugins/ao/eng_ssf/m68k_in.c   | 10336 ------------------------------
 plugins/ao/eng_ssf/m68kconf.h  |   181 -
 plugins/ao/eng_ssf/m68kcpu.c   |   859 ---
 plugins/ao/eng_ssf/m68kcpu.h   |  1989 ------
 plugins/ao/eng_ssf/m68kmake.c  |  1421 -----
 plugins/ao/eng_ssf/m68kmame.h  |   172 -
 plugins/ao/eng_ssf/m68kopac.c  | 12043 -----------------------------------
 plugins/ao/eng_ssf/m68kopdm.c  | 13221 ---------------------------------------
 plugins/ao/eng_ssf/m68kopnz.c  |  8781 --------------------------
 plugins/ao/eng_ssf/m68kops.c   |  2093 -------
 plugins/ao/eng_ssf/m68kops.h   |  1986 ------
 plugins/ao/eng_ssf/scsp.c      |  1277 ----
 plugins/ao/eng_ssf/scsp.h      |    47 -
 plugins/ao/eng_ssf/scspdsp.c   |   349 --
 plugins/ao/eng_ssf/scspdsp.h   |    37 -
 plugins/ao/eng_ssf/scsplfo.c   |   157 -
 plugins/ao/osd_cpu.h           |    70 -
 plugins/shn/array.c            |    41 -
 plugins/shn/shorten.c          |    54 -
 plugins/shn/shorten.h          |   224 -
 plugins/shn/vario.c            |   146 -
 43 files changed, 70385 deletions(-)
 delete mode 100644 plugins/ao/eng_dsf/aica.c
 delete mode 100644 plugins/ao/eng_dsf/aica.h
 delete mode 100644 plugins/ao/eng_dsf/aicadsp.c
 delete mode 100644 plugins/ao/eng_dsf/aicadsp.h
 delete mode 100644 plugins/ao/eng_dsf/aicalfo.c
 delete mode 100644 plugins/ao/eng_dsf/arm7.c
 delete mode 100644 plugins/ao/eng_dsf/arm7.h
 delete mode 100644 plugins/ao/eng_dsf/arm7i.c
 delete mode 100644 plugins/ao/eng_dsf/arm7i.h
 delete mode 100644 plugins/ao/eng_dsf/arm7memil.c
 delete mode 100644 plugins/ao/eng_psf/cpuintrf.h
 delete mode 100644 plugins/ao/eng_psf/mamemem.h
 delete mode 100644 plugins/ao/eng_psf/psx.c
 delete mode 100644 plugins/ao/eng_psf/psx.h
 delete mode 100644 plugins/ao/eng_qsf/kabuki.c
 delete mode 100644 plugins/ao/eng_qsf/qsound.c
 delete mode 100644 plugins/ao/eng_qsf/qsound.h
 delete mode 100644 plugins/ao/eng_qsf/z80.c
 delete mode 100644 plugins/ao/eng_qsf/z80.h
 delete mode 100644 plugins/ao/eng_qsf/z80dasm.c
 delete mode 100644 plugins/ao/eng_qsf/z80dasm.h
 delete mode 100644 plugins/ao/eng_ssf/m68k.h
 delete mode 100644 plugins/ao/eng_ssf/m68k_in.c
 delete mode 100644 plugins/ao/eng_ssf/m68kconf.h
 delete mode 100644 plugins/ao/eng_ssf/m68kcpu.c
 delete mode 100644 plugins/ao/eng_ssf/m68kcpu.h
 delete mode 100644 plugins/ao/eng_ssf/m68kmake.c
 delete mode 100644 plugins/ao/eng_ssf/m68kmame.h
 delete mode 100644 plugins/ao/eng_ssf/m68kopac.c
 delete mode 100644 plugins/ao/eng_ssf/m68kopdm.c
 delete mode 100644 plugins/ao/eng_ssf/m68kopnz.c
 delete mode 100644 plugins/ao/eng_ssf/m68kops.c
 delete mode 100644 plugins/ao/eng_ssf/m68kops.h
 delete mode 100644 plugins/ao/eng_ssf/scsp.c
 delete mode 100644 plugins/ao/eng_ssf/scsp.h
 delete mode 100644 plugins/ao/eng_ssf/scspdsp.c
 delete mode 100644 plugins/ao/eng_ssf/scspdsp.h
 delete mode 100644 plugins/ao/eng_ssf/scsplfo.c
 delete mode 100644 plugins/ao/osd_cpu.h
 delete mode 100644 plugins/shn/array.c
 delete mode 100644 plugins/shn/shorten.c
 delete mode 100644 plugins/shn/shorten.h
 delete mode 100644 plugins/shn/vario.c

diff --git a/plugins/ao/eng_dsf/aica.c b/plugins/ao/eng_dsf/aica.c
deleted file mode 100644
index 02831699..00000000
--- a/plugins/ao/eng_dsf/aica.c
+++ /dev/null
@@ -1,1281 +0,0 @@
-/*
-    Sega/Yamaha AICA emulation
-    By ElSemi, kingshriek, and R. Belmont
-
-    This is effectively a 64-voice SCSP, with the following differences:
-    - No FM mode
-    - A third sample format (ADPCM) has been added
-    - Some minor other tweeks
-*/
-
-#include <math.h>
-#include <string.h>
-#include "ao.h"
-#include "cpuintrf.h"
-#include "aica.h"
-#include "aicadsp.h"
-#include "dc_hw.h"
-
-#define ICLIP16(x) (x<-32768)?-32768:((x>32767)?32767:x)
-
-#define SHIFT	12
-#define FIX(v)	((UINT32) ((float) (1<<SHIFT)*(v)))
-
-
-#define EG_SHIFT	16
-
-#define USEDSP
-
-// include the LFO handling code
-#include "aicalfo.c"
-
-/*
-    AICA features 64 programmable slots
-    that can generate PCM and ADPCM (from ROM/RAM) sound
-*/
-
-//SLOT PARAMETERS
-#define KEYONEX(slot)		((slot->udata.data[0x0]>>0x0)&0x8000)
-#define KEYONB(slot)		((slot->udata.data[0x0]>>0x0)&0x4000)
-#define SSCTL(slot)		((slot->udata.data[0x0]>>0xA)&0x0001)
-#define LPCTL(slot)		((slot->udata.data[0x0]>>0x9)&0x0001)
-#define PCMS(slot)		((slot->udata.data[0x0]>>0x7)&0x0003)
-
-#define SA(slot)		(((slot->udata.data[0x0]&0x7F)<<16)|(slot->udata.data[0x4/2]))
-
-#define LSA(slot)		(slot->udata.data[0x8/2])
-
-#define LEA(slot)		(slot->udata.data[0xc/2])
-
-#define D2R(slot)		((slot->udata.data[0x10/2]>>0xB)&0x001F)
-#define D1R(slot)		((slot->udata.data[0x10/2]>>0x6)&0x001F)
-#define AR(slot)		((slot->udata.data[0x10/2]>>0x0)&0x001F)
-
-#define LPSLNK(slot)		((slot->udata.data[0x14/2]>>0x0)&0x4000)
-#define KRS(slot)		((slot->udata.data[0x14/2]>>0xA)&0x000F)
-#define DL(slot)		((slot->udata.data[0x14/2]>>0x5)&0x001F)
-#define RR(slot)		((slot->udata.data[0x14/2]>>0x0)&0x001F)
-
-#define TL(slot)		((slot->udata.data[0x28/2]>>0x8)&0x00FF)
-
-#define OCT(slot)		((slot->udata.data[0x18/2]>>0xB)&0x000F)
-#define FNS(slot)		((slot->udata.data[0x18/2]>>0x0)&0x03FF)
-
-#define LFORE(slot)		((slot->udata.data[0x1c/2]>>0x0)&0x8000)
-#define LFOF(slot)		((slot->udata.data[0x1c/2]>>0xA)&0x001F)
-#define PLFOWS(slot)		((slot->udata.data[0x1c/2]>>0x8)&0x0003)
-#define PLFOS(slot)		((slot->udata.data[0x1c/2]>>0x5)&0x0007)
-#define ALFOWS(slot)		((slot->udata.data[0x1c/2]>>0x3)&0x0003)
-#define ALFOS(slot)		((slot->udata.data[0x1c/2]>>0x0)&0x0007)
-
-#define ISEL(slot)		((slot->udata.data[0x20/2]>>0x0)&0x000F)
-#define IMXL(slot)		((slot->udata.data[0x20/2]>>0x4)&0x000F)
-
-#define DISDL(slot)		((slot->udata.data[0x24/2]>>0x8)&0x000F)
-#define DIPAN(slot)		((slot->udata.data[0x24/2]>>0x0)&0x001F)
-
-#define EFSDL(slot)		((AICA->EFSPAN[slot*4]>>8)&0x000f)
-#define EFPAN(slot)		((AICA->EFSPAN[slot*4]>>0)&0x001f) 
-
-//Envelope times in ms
-static const double ARTimes[64]={100000/*infinity*/,100000/*infinity*/,8100.0,6900.0,6000.0,4800.0,4000.0,3400.0,3000.0,2400.0,2000.0,1700.0,1500.0,
-					1200.0,1000.0,860.0,760.0,600.0,500.0,430.0,380.0,300.0,250.0,220.0,190.0,150.0,130.0,110.0,95.0,
-					76.0,63.0,55.0,47.0,38.0,31.0,27.0,24.0,19.0,15.0,13.0,12.0,9.4,7.9,6.8,6.0,4.7,3.8,3.4,3.0,2.4,
-					2.0,1.8,1.6,1.3,1.1,0.93,0.85,0.65,0.53,0.44,0.40,0.35,0.0,0.0};
-static const double DRTimes[64]={100000/*infinity*/,100000/*infinity*/,118200.0,101300.0,88600.0,70900.0,59100.0,50700.0,44300.0,35500.0,29600.0,25300.0,22200.0,17700.0,
-					14800.0,12700.0,11100.0,8900.0,7400.0,6300.0,5500.0,4400.0,3700.0,3200.0,2800.0,2200.0,1800.0,1600.0,1400.0,1100.0,
-					920.0,790.0,690.0,550.0,460.0,390.0,340.0,270.0,230.0,200.0,170.0,140.0,110.0,98.0,85.0,68.0,57.0,49.0,43.0,34.0,
-					28.0,25.0,22.0,18.0,14.0,12.0,11.0,8.5,7.1,6.1,5.4,4.3,3.6,3.1};
-static UINT32 FNS_Table[0x400];
-static INT32 EG_TABLE[0x400];
-
-typedef enum {ATTACK,DECAY1,DECAY2,RELEASE} _STATE;
-struct _EG
-{
-	int volume;	//
-	_STATE state;
-	int step;
-	//step vals
-	int AR;		//Attack
-	int D1R;	//Decay1
-	int D2R;	//Decay2
-	int RR;		//Release
-
-	int DL;		//Decay level
-	UINT8 LPLINK;
-};
-
-struct _SLOT
-{
-	union
-	{
-		UINT16 data[0x40];	//only 0x1a bytes used
-		UINT8 datab[0x80];
-	} udata;
-	UINT8 active;	//this slot is currently playing
-	UINT8 *base;		//samples base address
-	UINT32 prv_addr;    // previous play address (for ADPCM)
-	UINT32 cur_addr;	//current play address (24.8)
-	UINT32 nxt_addr;	//next play address
-	UINT32 step;		//pitch step (24.8)
-	UINT8 Backwards;	//the wave is playing backwards
-	struct _EG EG;			//Envelope
-	struct _EG FEG;			//filter envelope
-	struct _LFO PLFO;		//Phase LFO
-	struct _LFO ALFO;		//Amplitude LFO
-	int slot;
-	int cur_sample;       //current ADPCM sample
-	int cur_quant;        //current ADPCM step
-	int curstep;
-	int cur_lpquant, cur_lpsample, cur_lpstep;
-	UINT8 *adbase, *adlpbase;
-	UINT8 mslc;			// monitored?
-};
-
-
-#define MEM4B(aica)		((aica->udata.data[0]>>0x0)&0x0200)
-#define DAC18B(aica)		((aica->udata.data[0]>>0x0)&0x0100)
-#define MVOL(aica)		((aica->udata.data[0]>>0x0)&0x000F)
-#define RBL(aica)		((aica->udata.data[2]>>0xD)&0x0003)
-#define RBP(aica)		((aica->udata.data[2]>>0x0)&0x0fff)
-#define MOFULL(aica)   		((aica->udata.data[4]>>0x0)&0x1000)
-#define MOEMPTY(aica)		((aica->udata.data[4]>>0x0)&0x0800)
-#define MIOVF(aica)		((aica->udata.data[4]>>0x0)&0x0400)
-#define MIFULL(aica)		((aica->udata.data[4]>>0x0)&0x0200)
-#define MIEMPTY(aica)		((aica->udata.data[4]>>0x0)&0x0100)
-
-#define AFSEL(aica)		((aica->udata.data[6]>>0x0)&0x4000)
-#define MSLC(aica)		((aica->udata.data[6]>>0x8)&0x3F)
-
-#define SCILV0(aica)    	((aica->udata.data[0xa8/2]>>0x0)&0xff)
-#define SCILV1(aica)    	((aica->udata.data[0xac/2]>>0x0)&0xff)
-#define SCILV2(aica)    	((aica->udata.data[0xb0/2]>>0x0)&0xff)
-
-#define SCIEX0	0
-#define SCIEX1	1
-#define SCIEX2	2
-#define SCIMID	3
-#define SCIDMA	4
-#define SCIIRQ	5
-#define SCITMA	6
-#define SCITMB	7
-
-struct _AICA
-{
-	union
-	{
-		UINT16 data[0xc0/2];
-		UINT8 datab[0xc0];
-	} udata;
-	UINT16 IRQL, IRQR;
-	UINT16 EFSPAN[0x48];
-	struct _SLOT Slots[64];
-	signed short RINGBUF[64];
-	unsigned char BUFPTR;
-	unsigned char *AICARAM;
-	UINT32 AICARAM_LENGTH;
-	char Master;
-	void (*IntARMCB)(struct sARM7 *cpu, int irq);
-
-	INT32 *buffertmpl, *buffertmpr;
-
-	UINT32 IrqTimA;
-	UINT32 IrqTimBC;
-	UINT32 IrqMidi;
-
-	UINT8 MidiOutW,MidiOutR;
-	UINT8 MidiStack[16];
-	UINT8 MidiW,MidiR;
-
-	int LPANTABLE[0x20000];
-	int RPANTABLE[0x20000];
-
-	int TimPris[3];
-	int TimCnt[3];
-
-	// DMA stuff
-	UINT32 aica_dmea;
-	UINT16 aica_drga;
-	UINT16 aica_dtlg;
-
-	int ARTABLE[64], DRTABLE[64];
-
-	struct _AICADSP DSP;
-
-	struct sARM7 *cpu;
-
-    INT16 *bufferl;
-    INT16 *bufferr;
-
-    int length;
-
-    signed short *RBUFDST;	//this points to where the sample will be stored in the RingBuf
-};
-
-//static struct _AICA *AllocedAICA;
-
-static const float SDLT[16]={-1000000.0,-42.0,-39.0,-36.0,-33.0,-30.0,-27.0,-24.0,-21.0,-18.0,-15.0,-12.0,-9.0,-6.0,-3.0,0.0};
-
-static unsigned char DecodeSCI(struct _AICA *AICA, unsigned char irq)
-{
-	unsigned char SCI=0;
-	unsigned char v;
-	v=(SCILV0((AICA))&(1<<irq))?1:0;
-	SCI|=v;
-	v=(SCILV1((AICA))&(1<<irq))?1:0;
-	SCI|=v<<1;
-	v=(SCILV2((AICA))&(1<<irq))?1:0;
-	SCI|=v<<2;
-	return SCI;
-}
-
-static void ResetInterrupts(struct _AICA *AICA)
-{
-#if 0
-	UINT32 reset = AICA->udata.data[0xa4/2];
-	if (reset & 0x40)
-		AICA->IntARMCB(-AICA->IrqTimA);
-	if (reset & 0x180)
-		AICA->IntARMCB(-AICA->IrqTimBC);
-#endif
-}
-
-static void CheckPendingIRQ(struct _AICA *AICA)
-{
-	UINT32 pend=AICA->udata.data[0xa0/2];
-	UINT32 en=AICA->udata.data[0x9c/2];
-	if(AICA->MidiW!=AICA->MidiR)
-	{
-		AICA->IRQL = AICA->IrqMidi;
-		AICA->IntARMCB(AICA->cpu, 1);
-		return;
-	}
-	if(!pend)
-		return;
-	if(pend&0x40)
-		if(en&0x40)
-		{
-			AICA->IRQL = AICA->IrqTimA;
-			AICA->IntARMCB(AICA->cpu, 1);
-			return;
-		}
-	if(pend&0x80)
-		if(en&0x80)
-		{
-			AICA->IRQL = AICA->IrqTimBC;
-			AICA->IntARMCB(AICA->cpu, 1);
-			return;
-		}
-	if(pend&0x100)
-		if(en&0x100)
-		{
-			AICA->IRQL = AICA->IrqTimBC;
-			AICA->IntARMCB(AICA->cpu, 1);
-			return;
-		}
-}
-
-static int Get_AR(struct _AICA *AICA,int base,int R)
-{
-	int Rate=base+(R<<1);
-	if(Rate>63)	Rate=63;
-	if(Rate<0) Rate=0;
-	return AICA->ARTABLE[Rate];
-}
-
-static int Get_DR(struct _AICA *AICA,int base,int R)
-{
-	int Rate=base+(R<<1);
-	if(Rate>63)	Rate=63;
-	if(Rate<0) Rate=0;
-	return AICA->DRTABLE[Rate];
-}
-
-static int Get_RR(struct _AICA *AICA,int base,int R)
-{
-	int Rate=base+(R<<1);
-	if(Rate>63)	Rate=63;
-	if(Rate<0) Rate=0;
-	return AICA->DRTABLE[Rate];
-}
-
-static void Compute_EG(struct _AICA *AICA,struct _SLOT *slot)
-{
-	int octave=OCT(slot);
-	int rate;
-	if(octave&8) octave=octave-16;
-	if(KRS(slot)!=0xf)
-		rate=octave+2*KRS(slot)+((FNS(slot)>>9)&1);
-	else
-		rate=0; //rate=((FNS(slot)>>9)&1);
-
-	slot->EG.volume=0x17f<<EG_SHIFT;
-	slot->EG.AR=Get_AR(AICA,rate,AR(slot));
-	slot->EG.D1R=Get_DR(AICA,rate,D1R(slot));
-	slot->EG.D2R=Get_DR(AICA,rate,D2R(slot));
-	slot->EG.RR=Get_RR(AICA,rate,RR(slot));
-	slot->EG.DL=0x1f-DL(slot);
-}
-
-static void AICA_StopSlot(struct _SLOT *slot,int keyoff);
-
-static int EG_Update(struct _SLOT *slot)
-{
-	switch(slot->EG.state)
-	{
-		case ATTACK:
-			slot->EG.volume+=slot->EG.AR;
-			if(slot->EG.volume>=(0x3ff<<EG_SHIFT))
-			{
-				if (!LPSLNK(slot)) 
-				{
-					slot->EG.state=DECAY1;
-					if(slot->EG.D1R>=(1024<<EG_SHIFT)) //Skip DECAY1, go directly to DECAY2
-						slot->EG.state=DECAY2;
-				}
-				slot->EG.volume=0x3ff<<EG_SHIFT;
-			}
-			break;
-		case DECAY1:
-			slot->EG.volume-=slot->EG.D1R;
-			if(slot->EG.volume<=0)
-				slot->EG.volume=0;
-			if(slot->EG.volume>>(EG_SHIFT+5)<slot->EG.DL)
-				slot->EG.state=DECAY2;
-			break;
-		case DECAY2:
-			if(D2R(slot)==0)
-				return (slot->EG.volume>>EG_SHIFT)<<(SHIFT-10);
-			slot->EG.volume-=slot->EG.D2R;
-			if(slot->EG.volume<=0)
-				slot->EG.volume=0;
-
-			break;
-		case RELEASE:
-			slot->EG.volume-=slot->EG.RR;
-			if(slot->EG.volume<=0)
-			{
- 				slot->EG.volume=0;
-				AICA_StopSlot(slot,0);
-//				slot->EG.volume=0x17f<<EG_SHIFT;
-//				slot->EG.state=ATTACK;
-			}
-			break;
-		default:
-			return 1<<SHIFT;
-	}
-	return (slot->EG.volume>>EG_SHIFT)<<(SHIFT-10);
-}
-
-static UINT32 AICA_Step(struct _SLOT *slot)
-{
-	int octave=OCT(slot);
-	UINT32 Fn;
-
-	Fn=(FNS_Table[FNS(slot)]);	//24.8
-	if(octave&8)
-		Fn>>=(16-octave);
-	else
-		Fn<<=octave;
-
-	return Fn/(44100);
-}
-
-
-static void Compute_LFO(struct _SLOT *slot)
-{
-	if(PLFOS(slot)!=0)
-		AICALFO_ComputeStep(&(slot->PLFO),LFOF(slot),PLFOWS(slot),PLFOS(slot),0);
-	if(ALFOS(slot)!=0)
-		AICALFO_ComputeStep(&(slot->ALFO),LFOF(slot),ALFOWS(slot),ALFOS(slot),1);
-}
-
-#define ADPCMSHIFT	8
-#define ADFIX(f)	(int) ((float) f*(float) (1<<ADPCMSHIFT))
-
-const int TableQuant[8]={ADFIX(0.8984375),ADFIX(0.8984375),ADFIX(0.8984375),ADFIX(0.8984375),ADFIX(1.19921875),ADFIX(1.59765625),ADFIX(2.0),ADFIX(2.3984375)};
-const int quant_mul[16]= { 1, 3, 5, 7, 9, 11, 13, 15, -1, -3, -5, -7, -9, -11, -13, -15};
-
-void InitADPCM(int *PrevSignal, int *PrevQuant)
-{
-	*PrevSignal=0;
-	*PrevQuant=0x7f;
-}
-
-static INLINE signed short DecodeADPCM(int *PrevSignal, unsigned char Delta, int *PrevQuant)
-{
-	int x = *PrevQuant * quant_mul [Delta & 15];
-        x = *PrevSignal + ((int)(x + ((UINT32)x >> 29)) >> 3);
-	*PrevSignal=ICLIP16(x);
-	*PrevQuant=(*PrevQuant*TableQuant[Delta&7])>>ADPCMSHIFT;
-	*PrevQuant=(*PrevQuant<0x7f)?0x7f:((*PrevQuant>0x6000)?0x6000:*PrevQuant);
-	return *PrevSignal;
-}
-
-static void AICA_StartSlot(struct _AICA *AICA, struct _SLOT *slot)
-{
-	UINT64 start_offset;
-
-	slot->active=1;
-	slot->Backwards=0;
-	slot->cur_addr=0; slot->nxt_addr=1<<SHIFT; slot->prv_addr=-1;
-	start_offset = SA(slot);	// AICA can play 16-bit samples from any boundry
-	slot->base=&AICA->AICARAM[start_offset];
-	slot->step=AICA_Step(slot);
-	Compute_EG(AICA,slot);
-	slot->EG.state=ATTACK;
-	slot->EG.volume=0x17f<<EG_SHIFT;
-	Compute_LFO(slot);
-
-	if (PCMS(slot) >= 2)
-	{
-		UINT8 *base;
-		UINT32 curstep, steps_to_go;
-
-		slot->curstep = 0;
-		slot->adbase = (unsigned char *) (AICA->AICARAM+((SA(slot))&0x7fffff));
-		InitADPCM(&(slot->cur_sample), &(slot->cur_quant));
-		InitADPCM(&(slot->cur_lpsample), &(slot->cur_lpquant));
-
-		// walk to the ADPCM state at LSA
-		curstep = 0;
-		base = slot->adbase;
-		steps_to_go = LSA(slot);
-
-		while (curstep < steps_to_go)
-		{
-			int shift1, delta1;
-			shift1 = 4*((curstep&1));
-			delta1 = (*base>>shift1)&0xf;
-			DecodeADPCM(&(slot->cur_lpsample),delta1,&(slot->cur_lpquant));
-			curstep++;
-			if (!(curstep & 1))
-			{
-				base++;
-			}
-		}
-
-		slot->cur_lpstep = curstep;
-		slot->adlpbase = base;
-
-		// on real hardware this creates undefined behavior.
-		if (LSA(slot) > LEA(slot))
-		{
-			slot->udata.data[0xc/2] = 0xffff;
-		}
-	}
-}
-
-static void AICA_StopSlot(struct _SLOT *slot,int keyoff)
-{
-	if(keyoff /*&& slot->EG.state!=RELEASE*/)
-	{
-		slot->EG.state=RELEASE;
-	}
-	else
-	{
-		slot->active=0;
-	}
-	slot->udata.data[0]&=~0x4000;
-	
-}
-
-#define log_base_2(n) (log((float) n)/log((float) 2))
-
-static void AICA_Init(struct _AICA *AICA, const struct AICAinterface *intf)
-{
-	int i=0;
-
-	AICA->IrqTimA = AICA->IrqTimBC = AICA->IrqMidi = 0;
-	AICA->MidiR=AICA->MidiW=0;
-	AICA->MidiOutR=AICA->MidiOutW=0;
-
-	// get AICA RAM
-	{
-		memset(AICA,0,sizeof(*AICA));
-
-		if (!i)
-		{
-			AICA->Master=1;
-		}
-		else
-		{
-			AICA->Master=0;
-		}
-
-		if (intf->region)
-		{
-			AICA->AICARAM = &intf->cpu->dc_ram[0];
-			AICA->AICARAM_LENGTH = 2*1024*1024;
-			AICA->DSP.AICARAM = (UINT16 *)AICA->AICARAM;
-			AICA->DSP.AICARAM_LENGTH =  (2*1024*1024)/2;
-			AICA->cpu = intf->cpu;
-		}
-	}
-
-	for(i=0;i<0x400;++i)
-	{
-		float fcent=(double) 1200.0*log_base_2((double)(((double) 1024.0+(double)i)/(double)1024.0));
-		fcent=(double) 44100.0*pow(2.0,fcent/1200.0);
-		FNS_Table[i]=(float) (1<<SHIFT) *fcent;
-	}
-
-	for(i=0;i<0x400;++i)
-	{
-		float envDB=((float)(3*(i-0x3ff)))/32.0;
-		float scale=(float)(1<<SHIFT);
-		EG_TABLE[i]=(INT32)(pow(10.0,envDB/20.0)*scale);
-	}
-
-	for(i=0;i<0x20000;++i)
-	{
-		int iTL =(i>>0x0)&0xff;
-		int iPAN=(i>>0x8)&0x1f;
-		int iSDL=(i>>0xD)&0x0F;
-		float TL=1.0;
-		float SegaDB=0;
-		float fSDL=1.0;
-		float PAN=1.0;
-		float LPAN,RPAN;
-
-		if(iTL&0x01) SegaDB-=0.4;
-		if(iTL&0x02) SegaDB-=0.8;
-		if(iTL&0x04) SegaDB-=1.5;
-		if(iTL&0x08) SegaDB-=3;
-		if(iTL&0x10) SegaDB-=6;
-		if(iTL&0x20) SegaDB-=12;
-		if(iTL&0x40) SegaDB-=24;
-		if(iTL&0x80) SegaDB-=48;
-
-		TL=pow(10.0,SegaDB/20.0);
-
-		SegaDB=0;
-		if(iPAN&0x1) SegaDB-=3;
-		if(iPAN&0x2) SegaDB-=6;
-		if(iPAN&0x4) SegaDB-=12;
-		if(iPAN&0x8) SegaDB-=24;
-
-		if((iPAN&0xf)==0xf) PAN=0.0;
-		else PAN=pow(10.0,SegaDB/20.0);
-
-		if(iPAN<0x10)
-		{
-			LPAN=PAN;
-			RPAN=1.0;
-		}
-		else
-		{
-			RPAN=PAN;
-			LPAN=1.0;
-		}
-
-		if(iSDL)
-			fSDL=pow(10.0,(SDLT[iSDL])/20.0);
-		else
-			fSDL=0.0;
-
-		AICA->LPANTABLE[i]=FIX((4.0*LPAN*TL*fSDL));
-		AICA->RPANTABLE[i]=FIX((4.0*RPAN*TL*fSDL));
-	}
-
-	AICA->ARTABLE[0]=AICA->DRTABLE[0]=0;	//Infinite time
-	AICA->ARTABLE[1]=AICA->DRTABLE[1]=0;	//Infinite time
-	for(i=2;i<64;++i)
-	{
-		double t,step,scale;
-		t=ARTimes[i];	//In ms
-		if(t!=0.0)
-		{
-			step=(1023*1000.0)/((float) 44100.0f*t);
-			scale=(double) (1<<EG_SHIFT);
-			AICA->ARTABLE[i]=(int) (step*scale);
-		}
-		else
-			AICA->ARTABLE[i]=1024<<EG_SHIFT;
-
-		t=DRTimes[i];	//In ms
-		step=(1023*1000.0)/((float) 44100.0f*t);
-		scale=(double) (1<<EG_SHIFT);
-		AICA->DRTABLE[i]=(int) (step*scale);
-	}
-
-	// make sure all the slots are off
-	for(i=0;i<64;++i)
-	{
-		AICA->Slots[i].slot=i;
-		AICA->Slots[i].active=0;
-		AICA->Slots[i].base=NULL;
-		AICA->Slots[i].EG.state=RELEASE;
-		AICA->Slots[i].mslc=0;
-	}
-
-	AICALFO_Init();
-	AICA->buffertmpl=(signed int*) malloc(44100*sizeof(signed int));
-	AICA->buffertmpr=(signed int*) malloc(44100*sizeof(signed int));
-	memset(AICA->buffertmpl,0,44100*sizeof(signed int));
-	memset(AICA->buffertmpr,0,44100*sizeof(signed int));
-
-	// no "pend"
-	AICA[0].udata.data[0xa0/2] = 0;
-	//AICA[1].udata.data[0x20/2] = 0;
-	AICA->TimCnt[0] = 0xffff;
-	AICA->TimCnt[1] = 0xffff;
-	AICA->TimCnt[2] = 0xffff;
-}
-
-static void AICA_UpdateSlotReg(struct _AICA *AICA,int s,int r)
-{
-	struct _SLOT *slot=AICA->Slots+s;
-	int sl;
-	switch(r&0x7f)
-	{
-		case 0:
-		case 1:
-			if(KEYONEX(slot))
-			{
-				for(sl=0;sl<64;++sl)
-				{
-					struct _SLOT *s2=AICA->Slots+sl;
-					{
-						if(KEYONB(s2) && s2->EG.state==RELEASE/*&& !s2->active*/)
-						{
-							if(s2->mslc) AICA->udata.data[0x10] &= 0x7FFF; // reset LP at KEY_ON
-							AICA_StartSlot(AICA, s2);
-
-							#if 0
-							printf("StartSlot[%02X]:   SSCTL %01X SA %06X LSA %04X LEA %04X PCMS %01X LPCTL %01X\n",sl,SSCTL(s2),SA(s2),LSA(s2),LEA(s2),PCMS(s2),LPCTL(s2));
-							printf("                 AR %02X D1R %02X D2R %02X RR %02X DL %02X KRS %01X LPSLNK %01X\n",AR(s2),D1R(s2),D2R(s2),RR(s2),DL(s2),KRS(s2),LPSLNK(s2)>>14);
-							printf("                 TL %02X OCT %01X FNS %03X\n",TL(s2),OCT(s2),FNS(s2));
-							printf("                 LFORE %01X LFOF %02X ALFOWS %01X ALFOS %01X PLFOWS %01X PLFOS %01X\n",LFORE(s2),LFOF(s2),ALFOWS(s2),ALFOS(s2),PLFOWS(s2),PLFOS(s2));
-							printf("                 IMXL %01X ISEL %01X DISDL %01X DIPAN %02X\n",IMXL(s2),ISEL(s2),DISDL(s2),DIPAN(s2));
-							printf("\n");
-							fflush(stdout);
-							#endif
-						}
-						if(!KEYONB(s2) /*&& s2->active*/)
-						{
-							AICA_StopSlot(s2,1);
-						}
-					}
-				}
-				slot->udata.data[0]&=~0x8000;
-			}
-			break;
-		case 0x18:
-		case 0x19:
-			slot->step=AICA_Step(slot);
-			break;
-		case 0x14:
-		case 0x15:
-			slot->EG.RR=Get_RR(AICA,0,RR(slot));
-			slot->EG.DL=0x1f-DL(slot);
-			break;
-		case 0x1c:
-		case 0x1d:
-			Compute_LFO(slot);
-			break;
-		case 0x24:
-//			printf("[%02d]: %x to DISDL/DIPAN (PC=%x)\n", s, slot->udata.data[0x24/2], arm7_get_register(15));
-			break;
-	}
-}
-
-static void AICA_UpdateReg(struct _AICA *AICA, int reg)
-{
-	switch(reg&0xff)
-	{
-		case 0x4:
-		case 0x5:
-			{
-				unsigned int v=RBL(AICA);
-				AICA->DSP.RBP=RBP(AICA);
-				if(v==0)
-					AICA->DSP.RBL=8*1024;
-				else if(v==1)
-					AICA->DSP.RBL=16*1024;
-				else if(v==2)
-					AICA->DSP.RBL=32*1024;
-				else if(v==3)
-					AICA->DSP.RBL=64*1024;
-			}
-			break;
-		case 0x8:
-		case 0x9:
-			AICA_MidiIn(AICA, 0, AICA->udata.data[0x8/2]&0xff, 0);
-			break;
-		case 0x12:
-		case 0x13:
-		case 0x14:
-		case 0x15:
-		case 0x16:
-		case 0x17:
-			break;
-		case 0x90:
-		case 0x91:
-			if(AICA->Master)
-			{
-				AICA->TimPris[0]=1<<((AICA->udata.data[0x90/2]>>8)&0x7);
-				AICA->TimCnt[0]=(AICA->udata.data[0x90/2]&0xff)<<8;
-			}
-			break;
-		case 0x94:
-		case 0x95:
-			if(AICA->Master)
-			{
-				AICA->TimPris[1]=1<<((AICA->udata.data[0x94/2]>>8)&0x7);
-				AICA->TimCnt[1]=(AICA->udata.data[0x94/2]&0xff)<<8;
-			}
-			break;
-		case 0x98:
-		case 0x99:
-			if(AICA->Master)
-			{
-				AICA->TimPris[2]=1<<((AICA->udata.data[0x98/2]>>8)&0x7);
-				AICA->TimCnt[2]=(AICA->udata.data[0x98/2]&0xff)<<8;
-			}
-			break;
-		case 0xa4:	//SCIRE
-		case 0xa5:
-
-			if(AICA->Master)		   
-			{
-				AICA->udata.data[0xa0/2] &= ~AICA->udata.data[0xa4/2];
-				ResetInterrupts(AICA);
-
-				// behavior from real hardware (SCSP, assumed to carry over): if you SCIRE a timer that's expired,
-				// it'll immediately pop up again
-				if (AICA->TimCnt[0] >= 0xff00)
-				{
-					AICA->udata.data[0xa0/2] |= 0x40;
-				}
-				if (AICA->TimCnt[1] >= 0xff00)
-				{
-					AICA->udata.data[0xa0/2] |= 0x80;
-				}
-				if (AICA->TimCnt[2] >= 0xff00)
-				{
-					AICA->udata.data[0xa0/2] |= 0x100;
-				}
-			}
-			break;
-		case 0xa8:
-		case 0xa9:
-		case 0xac:
-		case 0xad:
-		case 0xb0:
-		case 0xb1:
-			if(AICA->Master)
-			{
-				AICA->IrqTimA=DecodeSCI(AICA,SCITMA);
-				AICA->IrqTimBC=DecodeSCI(AICA,SCITMB);
-				AICA->IrqMidi=DecodeSCI(AICA,SCIMID);
-			}
-			break;
-	}
-}
-
-static void AICA_UpdateSlotRegR(struct _AICA *AICA, int slot,int reg)
-{
-
-}
-
-static void AICA_UpdateRegR(struct _AICA *AICA, int reg)
-{
-	switch(reg&0xff)
-	{
-		case 8:
-		case 9:
-			{
-				unsigned short v=AICA->udata.data[0x8/2];
-				v&=0xff00;
-				v|=AICA->MidiStack[AICA->MidiR];
-				AICA->IntARMCB(AICA->cpu, 0);	// cancel the IRQ
-				if(AICA->MidiR!=AICA->MidiW)
-				{
-					++AICA->MidiR;
-					AICA->MidiR&=15;
-				}
-				AICA->udata.data[0x8/2]=v;
-			}
-			break;
-
-		case 0x10:	// LP check
-		case 0x11:
-			{
-				//int MSLC = (AICA->udata.data[0xc/2]>>8) & 0x3f;	// which slot are we monitoring?
-			}
-			break;
-			
-		case 0x14:	// CA (slot address)
-		case 0x15:
-			{
-				int MSLC = (AICA->udata.data[0xc/2]>>8) & 0x3f;	// which slot are we monitoring?
-				unsigned int CA = AICA->Slots[MSLC].cur_addr>>(SHIFT+12);
-
-				AICA->udata.data[0x14/2] = CA;
-			}
-			break;
-	}
-}
-
-static void AICA_w16(struct _AICA *AICA,unsigned int addr,unsigned short val)
-{
-	addr&=0xffff;
-	if(addr<0x2000)
-	{
-		int slot=addr/0x80;
-		addr&=0x7f;
-//		printf("%x to slot %d offset %x\n", val, slot, addr);
-		*((unsigned short *) (AICA->Slots[slot].udata.datab+(addr))) = val;
-		AICA_UpdateSlotReg(AICA,slot,addr&0x7f);
-	}
-	else if (addr < 0x2800)
-	{
-		if (addr <= 0x2044)
-		{
-//			printf("%x to EFSxx slot %d (addr %x)\n", val, (addr-0x2000)/4, addr&0x7f);
-			AICA->EFSPAN[addr&0x7f] = val;
-		}
-	}
-	else if(addr<0x3000)
-	{
-		if (addr < 0x28be)
-		{
-//			printf("%x to AICA global @ %x\n", val, addr & 0xff);
-			*((unsigned short *) (AICA->udata.datab+((addr&0xff)))) = val;
-			AICA_UpdateReg(AICA, addr&0xff);
-		}
-		else if (addr == 0x2d00)
-		{
-			AICA->IRQL = val;
-		}
-		else if (addr == 0x2d04)
-		{
-			AICA->IRQR = val;
-
-			if (val)
-			{
-				AICA->IntARMCB(AICA->cpu, 0);
-			}
-		}
-	}
-	else
-	{
-		//DSP
-		if(addr<0x3200)	//COEF
-			*((unsigned short *) (AICA->DSP.COEF+(addr-0x3000)/2))=val;
-		else if(addr<0x3400)
-			*((unsigned short *) (AICA->DSP.MADRS+(addr-0x3200)/2))=val;
-		else if(addr<0x3c00)
-		{
-			*((unsigned short *) (AICA->DSP.MPRO+(addr-0x3400)/2))=val;
-
-			if (addr == 0x3bfe)
-			{
-				AICADSP_Start(&AICA->DSP);
-			}
-		}
-	}
-}
-
-static unsigned short AICA_r16(struct _AICA *AICA, unsigned int addr)
-{
-	unsigned short v=0;
-	addr&=0xffff;
-	if(addr<0x2000)
-	{
-		int slot=addr/0x80;
-		addr&=0x7f;
-		AICA_UpdateSlotRegR(AICA, slot,addr&0x7f);
-		v=*((unsigned short *) (AICA->Slots[slot].udata.datab+(addr)));
-	}
-	else if(addr<0x3000)
-	{
-		if (addr <= 0x2044)
-		{
-			v = AICA->EFSPAN[addr&0x7f];
-		}
-		else if (addr < 0x28be)
-		{
-			AICA_UpdateRegR(AICA, addr&0xff);
-			v= *((unsigned short *) (AICA->udata.datab+((addr&0xff))));
-			if((addr&0xfe)==0x10) AICA->udata.data[0x10/2] &= 0x7FFF;	// reset LP on read
-		}
-		else if (addr == 0x2d00)
-		{
-			return AICA->IRQL;
-		}
-		else if (addr == 0x2d04)
-		{
-			return AICA->IRQR;
-		}
-	}
-//	else if (addr<0x700)
-//		v=AICA->RINGBUF[(addr-0x600)/2];
-	return v;
-}
-
-
-#define REVSIGN(v) ((~v)+1)
-
-void AICA_TimersAddTicks(struct _AICA *AICA, int ticks)
-{
-	if(AICA->TimCnt[0]<=0xff00)
-	{
- 		AICA->TimCnt[0] += ticks << (8-((AICA->udata.data[0x90/2]>>8)&0x7));
-		if (AICA->TimCnt[0] >= 0xFF00)
-		{
-			AICA->TimCnt[0] = 0xFFFF;
-			AICA->udata.data[0xa0/2]|=0x40;
-		}
-		AICA->udata.data[0x90/2]&=0xff00;
-		AICA->udata.data[0x90/2]|=AICA->TimCnt[0]>>8;
-	}
-
-	if(AICA->TimCnt[1]<=0xff00)
-	{
-		AICA->TimCnt[1] += ticks << (8-((AICA->udata.data[0x94/2]>>8)&0x7));
-		if (AICA->TimCnt[1] >= 0xFF00)
-		{
-			AICA->TimCnt[1] = 0xFFFF;
-			AICA->udata.data[0xa0/2]|=0x80;
-		}
-		AICA->udata.data[0x94/2]&=0xff00;
-		AICA->udata.data[0x94/2]|=AICA->TimCnt[1]>>8;
-	}
-
-	if(AICA->TimCnt[2]<=0xff00)
-	{
-		AICA->TimCnt[2] += ticks << (8-((AICA->udata.data[0x98/2]>>8)&0x7));
-		if (AICA->TimCnt[2] >= 0xFF00)
-		{
-			AICA->TimCnt[2] = 0xFFFF;
-			AICA->udata.data[0xa0/2]|=0x100;
-		}
-		AICA->udata.data[0x98/2]&=0xff00;
-		AICA->udata.data[0x98/2]|=AICA->TimCnt[2]>>8;
-	}
-}
-
-static INLINE INT32 AICA_UpdateSlot(struct _AICA *AICA, struct _SLOT *slot)
-{
-	INT32 sample, fpart;
-	int cur_sample;       //current sample
-	int nxt_sample;       //next sample
-	int step=slot->step;
-	UINT32 addr1,addr2;                                   // current and next sample addresses
-
-	if(SSCTL(slot)!=0)	//no FM or noise yet
-		return 0;
-
-	if(PLFOS(slot)!=0)
-	{
-		step=step*AICAPLFO_Step(&(slot->PLFO));
-		step>>=SHIFT;
-	}
-
-	if(PCMS(slot) == 0) 
-	{
-		addr1=(slot->cur_addr>>(SHIFT-1))&0x7ffffe;
-		addr2=(slot->nxt_addr>>(SHIFT-1))&0x7ffffe;
-	}
-	else
-	{
-		addr1=slot->cur_addr>>SHIFT;
-		addr2=slot->nxt_addr>>SHIFT;
-	}
-
-	if(PCMS(slot) == 1)	// 8-bit signed
-	{
-		INT8 *p1=(signed char *) (AICA->AICARAM+(((SA(slot)+addr1))&0x7fffff));
-		INT8 *p2=(signed char *) (AICA->AICARAM+(((SA(slot)+addr2))&0x7fffff));
-		cur_sample = p1[0] << 8;
-		nxt_sample = p2[0] << 8;
-	}
-	else if (PCMS(slot) == 0)	//16 bit signed
-	{
-		INT16 *p1=(signed short *) (AICA->AICARAM+((SA(slot)+addr1)&0x7fffff));
-		INT16 *p2=(signed short *) (AICA->AICARAM+((SA(slot)+addr2)&0x7fffff));
-		cur_sample = LE16(p1[0]);
-		nxt_sample = LE16(p2[0]);
-	}
-	else	// 4-bit ADPCM
-	{
-		UINT8 *base= slot->adbase;
-		UINT32 steps_to_go = addr2, curstep = slot->curstep;
-
-		if (base)
-		{
-			cur_sample = slot->cur_sample; // may already contains current decoded sample 
-
-			// seek to the interpolation sample
-			while (curstep < steps_to_go)
-			{
-				int shift1, delta1;
-				shift1 = 4*((curstep&1));
-				delta1 = (*base>>shift1)&0xf;
-				DecodeADPCM(&(slot->cur_sample),delta1,&(slot->cur_quant));
-				curstep++;
-				if (!(curstep & 1))
-				{
-					base++;
-				}
-				if (curstep == addr1)
-					cur_sample = slot->cur_sample;
-			}
-			nxt_sample = slot->cur_sample;
-
-			slot->adbase = base;
-			slot->curstep = curstep;
-		}
-		else
-		{
-			cur_sample = nxt_sample = 0;
-		}
-	}
-	fpart = slot->cur_addr & ((1<<SHIFT)-1);
-	sample=cur_sample*((1<<SHIFT)-fpart)+nxt_sample*fpart;
-	sample>>=SHIFT;	
-
-	slot->prv_addr=slot->cur_addr;
-	slot->cur_addr+=step;
-	slot->nxt_addr=slot->cur_addr+(1<<SHIFT);
-
-	addr1=slot->cur_addr>>SHIFT;
-	addr2=slot->nxt_addr>>SHIFT;
-
-	if(addr1>=LSA(slot))
-	{
-		if(LPSLNK(slot) && slot->EG.state==ATTACK)
-			slot->EG.state = DECAY1;
-	}
-
-	switch(LPCTL(slot))
-	{
-	case 0:	//no loop
-		if(addr2>=LSA(slot) && addr2>=LEA(slot)) // if next sample exceed then current must exceed too
-		{
-		//slot->active=0;
-		if(slot->mslc) AICA->udata.data[8] |= 0x8000;
-		AICA_StopSlot(slot,0);
-		}
-		break;
-	case 1: //normal loop
-		if(addr2>=LEA(slot))
-		{
-			INT32 rem_addr;
-			if(slot->mslc) AICA->udata.data[8] |= 0x8000;
-			rem_addr = slot->nxt_addr - (LEA(slot)<<SHIFT);
-			slot->nxt_addr = (LSA(slot)<<SHIFT) + rem_addr;
-			if(addr1>=LEA(slot))
-			{
-				rem_addr = slot->cur_addr - (LEA(slot)<<SHIFT);
-				slot->cur_addr = (LSA(slot)<<SHIFT) + rem_addr;
-			}
-				
-			if(PCMS(slot)>=2)
-			{
-				// restore the state @ LSA - the sampler will naturally walk to (LSA + remainder)
-				slot->adbase = &AICA->AICARAM[SA(slot)+(LSA(slot)/2)];
-				slot->curstep = LSA(slot);
-				if (PCMS(slot) == 2)
-				{
-					slot->cur_sample = slot->cur_lpsample;
-					slot->cur_quant = slot->cur_lpquant;
-				}
-//printf("Looping: slot_addr %x LSA %x LEA %x step %x base %x\n", slot->cur_addr>>SHIFT, LSA(slot), LEA(slot), slot->curstep, slot->adbase);
-			}
-		}
-		break;
-	}
-
-	if(ALFOS(slot)!=0)
-	{
-		sample=sample*AICAALFO_Step(&(slot->ALFO));
-		sample>>=SHIFT;
-	}
-
-	if(slot->EG.state==ATTACK)
-		sample=(sample*EG_Update(slot))>>SHIFT;
-	else
-		sample=(sample*EG_TABLE[EG_Update(slot)>>(SHIFT-10)])>>SHIFT;
-		
-	if(slot->mslc) 
-	{
-		AICA->udata.data[0x14/2] = addr1;
-		if (!(AFSEL(AICA)))
-		{
-			UINT16 res;
-
-			AICA->udata.data[0x10/2] |= slot->EG.state<<13;
-
-			res = 0x3FF - (slot->EG.volume>>EG_SHIFT);
-
-			res *= 959;
-			res /= 1024;
-
-			if (res > 959) res = 959;
-
-			AICA->udata.data[0x10/2] = res;
-
-			//AICA->udata.data[0x10/2] |= 0x3FF - (slot->EG.volume>>EG_SHIFT);
-		}
-	}
-
-	return sample;
-}
-
-static void AICA_DoMasterSamples(struct _AICA *AICA, int nsamples)
-{
-	INT16 *bufr,*bufl;
-	int sl, s, i;
-
-	bufr=AICA->bufferr;
-	bufl=AICA->bufferl;
-
-	for(s=0;s<nsamples;++s)
-	{
- 		INT32 smpl, smpr;
-
-		smpl = smpr = 0;
-
-		// mix slots' direct output
-		for(sl=0;sl<64;++sl)
-		{
-			struct _SLOT *slot=AICA->Slots+sl;
-			slot->mslc = (MSLC(AICA)==sl);
-			AICA->RBUFDST=AICA->RINGBUF+AICA->BUFPTR;
-			if(AICA->Slots[sl].active)
-			{
-				unsigned int Enc;
-				signed int sample;
-
-				sample=AICA_UpdateSlot(AICA, slot);
-
-				Enc=((TL(slot))<<0x0)|((IMXL(slot))<<0xd);
-				AICADSP_SetSample(&AICA->DSP,(sample*AICA->LPANTABLE[Enc])>>(SHIFT-2),ISEL(slot),IMXL(slot));
-				Enc=((TL(slot))<<0x0)|((DIPAN(slot))<<0x8)|((DISDL(slot))<<0xd);
-				{
-					smpl+=(sample*AICA->LPANTABLE[Enc])>>SHIFT;
-					smpr+=(sample*AICA->RPANTABLE[Enc])>>SHIFT;
-				}
-			}
-			
-			AICA->BUFPTR&=63;
-		}
-
-		// process the DSP
-		AICADSP_Step(&AICA->DSP);
-
-		// mix DSP output
-		for(i=0;i<16;++i)
-		{
-			if(EFSDL(i))
-			{
-				unsigned int Enc=((EFPAN(i))<<0x8)|((EFSDL(i))<<0xd);
-				smpl+=(AICA->DSP.EFREG[i]*AICA->LPANTABLE[Enc])>>SHIFT;
-				smpr+=(AICA->DSP.EFREG[i]*AICA->RPANTABLE[Enc])>>SHIFT;
-			}
-		}
-
-		*bufl++ = ICLIP16(smpl>>3);
-		*bufr++ = ICLIP16(smpr>>3);
-
-		AICA_TimersAddTicks(AICA, 1);
-		CheckPendingIRQ(AICA);
-	}
-}
-
-int AICA_IRQCB(void *param)
-{
-	CheckPendingIRQ(param);
-	return -1;
-}
-
-void AICA_Update(struct _AICA *AICA, void *param, INT16 **inputs, INT16 **buf, int samples)
-{
-	AICA->bufferl = buf[0];
-	AICA->bufferr = buf[1];
-	AICA->length = samples;
-	AICA_DoMasterSamples(AICA, samples);
-}
-
-void *aica_start(const void *config)
-{
-	const struct AICAinterface *intf;
-
-	struct _AICA *AICA;
-
-	AICA = malloc(sizeof(*AICA));
-	memset(AICA, 0, sizeof(*AICA));
-
-	intf = config;
-
-	// init the emulation
-	AICA_Init(AICA, intf);
-
-	// set up the IRQ callbacks
-	{
-		AICA->IntARMCB = intf->irq_callback[0];
-
-//		AICA->stream = stream_create(0, 2, 44100, AICA, AICA_Update);
-	}
-
-	return AICA;
-}
-
-void aica_stop(struct _AICA *AICA)
-{
-    if (AICA->buffertmpl) {
-        free (AICA->buffertmpl);
-    }
-    if (AICA->buffertmpr) {
-        free (AICA->buffertmpr);
-    }
-	free(AICA);
-}
-
-void AICA_set_ram_base(struct _AICA *AICA, int which, void *base)
-{
-	if (AICA)
-	{
-		AICA->AICARAM = base;
-		AICA->DSP.AICARAM = base;
-	}
-}
-
-READ16_HANDLER( AICA_0_r )
-{
-	UINT16 res = AICA_r16(AICA, offset*2);
-
-//	printf("Read AICA @ %x => %x (PC=%x, R5=%x)\n", offset*2, res, arm7_get_register(15), arm7_get_register(5));
-
-	return res;
-}
-
-extern UINT32* stv_scu;
-
-WRITE16_HANDLER( AICA_0_w )
-{
-	UINT16 tmp;
-
-	tmp = AICA_r16(AICA, offset*2);
-	COMBINE_DATA(&tmp);
-	AICA_w16(AICA,offset*2, tmp);
-}
-
-WRITE16_HANDLER( AICA_MidiIn )
-{
-	AICA->MidiStack[AICA->MidiW++]=data;
-	AICA->MidiW &= 15;
-}
-
-READ16_HANDLER( AICA_MidiOutR )
-{
-	unsigned char val;
-
-	val=AICA->MidiStack[AICA->MidiR++];
-	AICA->MidiR&=7;
-	return val;
-}
-
diff --git a/plugins/ao/eng_dsf/aica.h b/plugins/ao/eng_dsf/aica.h
deleted file mode 100644
index f441064f..00000000
--- a/plugins/ao/eng_dsf/aica.h
+++ /dev/null
@@ -1,52 +0,0 @@
-/*
-
-	Sega/Yamaha AICA emulation	
-*/
-
-#ifndef _AICA_H_
-#define _AICA_H_
-
-#define MAX_AICA	(2)
-
-#define COMBINE_DATA(varptr)	(*(varptr) = (*(varptr) & mem_mask) | (data & ~mem_mask))
-
-// convert AO types
-typedef int8 data8_t;
-typedef int16 data16_t;
-typedef int32 data32_t;
-typedef int offs_t;
-struct sARM7;
-
-struct AICAinterface 
-{
-	int num;
-	struct sARM7 *cpu;
-	void *region[MAX_AICA];
-	int mixing_level[MAX_AICA];			/* volume */
-	void (*irq_callback[MAX_AICA])(struct sARM7 *cpu, int state);	/* irq callback */
-};
-
-struct _AICA;
-
-int AICA_sh_start(struct AICAinterface *intf);
-void AICA_sh_stop(void);
-void scsp_stop(void);
-
-#define READ16_HANDLER(name)	data16_t name(struct _AICA *AICA, offs_t offset, data16_t mem_mask)
-#define WRITE16_HANDLER(name)	void     name(struct _AICA *AICA, offs_t offset, data16_t data, data16_t mem_mask)
-
-// AICA register access
-READ16_HANDLER( AICA_0_r );
-WRITE16_HANDLER( AICA_0_w );
-READ16_HANDLER( AICA_1_r );
-WRITE16_HANDLER( AICA_1_w );
-
-// MIDI I/O access (used for comms on Model 2/3)
-WRITE16_HANDLER( AICA_MidiIn );
-READ16_HANDLER( AICA_MidiOutR );
-
-void *aica_start(const void *config);
-void aica_stop(struct _AICA *AICA);
-void AICA_Update(struct _AICA *AICA, void *param, INT16 **inputs, INT16 **buf, int samples);
-
-#endif
diff --git a/plugins/ao/eng_dsf/aicadsp.c b/plugins/ao/eng_dsf/aicadsp.c
deleted file mode 100644
index b2fb5223..00000000
--- a/plugins/ao/eng_dsf/aicadsp.c
+++ /dev/null
@@ -1,349 +0,0 @@
-#include <assert.h>
-#include <math.h>
-#include "ao.h"
-#include "cpuintrf.h"
-#include "aica.h"
-#include "aicadsp.h"
-
-static UINT16 PACK(INT32 val)
-{
-	UINT32 temp;
-	int sign,exponent,k;
-
-	sign = (val >> 23) & 0x1;
-	temp = (val ^ (val << 1)) & 0xFFFFFF;
-	exponent = 0;
-	for (k=0; k<12; k++)
-	{
-		if (temp & 0x800000)
-			break;
-		temp <<= 1;
-		exponent += 1;
-	}
-	if (exponent < 12)
-		val = (val << exponent) & 0x3FFFFF;
-	else
-		val <<= 11;
-	val >>= 11;
-	val |= sign << 15;
-	val |= exponent << 11;
-
-	return (UINT16)val;
-}
-
-static INT32 UNPACK(UINT16 val)
-{
-	int sign,exponent,mantissa;
-	INT32 uval;
-
-	sign = (val >> 15) & 0x1;
-	exponent = (val >> 11) & 0xF;
-	mantissa = val & 0x7FF;
-	uval = mantissa << 11;
-	if (exponent > 11)
-		exponent = 11;
-	else
-		uval |= (sign ^ 1) << 22;
-	uval |= sign << 23;
-	uval <<= 8;
-	uval >>= 8;
-	uval >>= exponent;
-
-	return uval;
-}
-
-void AICADSP_Init(struct _AICADSP *DSP)
-{
-	memset(DSP,0,sizeof(struct _AICADSP));
-	DSP->RBL=0x8000;
-	DSP->Stopped=1;
-}
-
-void AICADSP_Step(struct _AICADSP *DSP)
-{
-	INT32 ACC=0;	//26 bit
-	INT32 SHIFTED=0;	//24 bit
-	INT32 X=0;	//24 bit
-	INT32 Y=0;	//13 bit
-	INT32 B=0;	//26 bit
-	INT32 INPUTS=0;	//24 bit
-	INT32 MEMVAL=0;
-	INT32 FRC_REG=0;	//13 bit
-	INT32 Y_REG=0;		//24 bit
-	UINT32 ADDR=0;
-	UINT32 ADRS_REG=0;	//13 bit
-	int step;
-
-	if(DSP->Stopped)
-		return;
-
-	memset(DSP->EFREG,0,2*16);
-#if 0
-	int dump=0;
-	FILE *f=NULL;
-	if(dump)
-		f=fopen("dsp.txt","wt");
-#endif
-	for(step=0;step</*128*/DSP->LastStep;++step)
-	{
-		UINT16 *IPtr=DSP->MPRO+step*8;
-				
-//      if(IPtr[0]==0 && IPtr[1]==0 && IPtr[2]==0 && IPtr[3]==0)
-//          break;
-
-		UINT32 TRA=(IPtr[0]>>9)&0x7F;
-		UINT32 TWT=(IPtr[0]>>8)&0x01;
-		UINT32 TWA=(IPtr[0]>>1)&0x7F;
-
-		UINT32 XSEL=(IPtr[2]>>15)&0x01;
-		UINT32 YSEL=(IPtr[2]>>13)&0x03;
-		UINT32 IRA=(IPtr[2]>>7)&0x3F;
-		UINT32 IWT=(IPtr[2]>>6)&0x01;
-		UINT32 IWA=(IPtr[2]>>1)&0x1F;
-
-		UINT32 TABLE=(IPtr[4]>>15)&0x01;
-		UINT32 MWT=(IPtr[4]>>14)&0x01;
-		UINT32 MRD=(IPtr[4]>>13)&0x01;
-		UINT32 EWT=(IPtr[4]>>12)&0x01;
-		UINT32 EWA=(IPtr[4]>>8)&0x0F;
-		UINT32 ADRL=(IPtr[4]>>7)&0x01;
-		UINT32 FRCL=(IPtr[4]>>6)&0x01;
-		UINT32 SHIFT=(IPtr[4]>>4)&0x03;
-		UINT32 YRL=(IPtr[4]>>3)&0x01;
-		UINT32 NEGB=(IPtr[4]>>2)&0x01;
-		UINT32 ZERO=(IPtr[4]>>1)&0x01;
-		UINT32 BSEL=(IPtr[4]>>0)&0x01;
-
-		UINT32 NOFL=(IPtr[6]>>15)&1;		//????
-		UINT32 COEF=step;
-
-		UINT32 MASA=(IPtr[6]>>9)&0x3f;	//???
-		UINT32 ADREB=(IPtr[6]>>8)&0x1;
-		UINT32 NXADR=(IPtr[6]>>7)&0x1;
-		
-		INT64 v;
-
-		//operations are done at 24 bit precision
-#if 0
-		if(MASA)
-			int a=1;
-		if(NOFL)
-			int a=1;
-
-//      int dump=0;
-
-		if(f)
-		{
-#define DUMP(v)	fprintf(f," " #v ": %04X",v);
-
-			fprintf(f,"%d: ",step);
-			DUMP(ACC);
-			DUMP(SHIFTED);
-			DUMP(X);
-			DUMP(Y);
-			DUMP(B);
-			DUMP(INPUTS);
-			DUMP(MEMVAL);
-			DUMP(FRC_REG);
-			DUMP(Y_REG);
-			DUMP(ADDR);
-			DUMP(ADRS_REG);
-			fprintf(f,"\n");
-		}
-#endif
-		//INPUTS RW
-		assert(IRA<0x32);
-		if(IRA<=0x1f)
-			INPUTS=DSP->MEMS[IRA];
-		else if(IRA<=0x2F)
-			INPUTS=DSP->MIXS[IRA-0x20]<<4;	//MIXS is 20 bit
-		else if(IRA<=0x31)
-			INPUTS=0;
-
-		INPUTS<<=8;
-		INPUTS>>=8;
-		//if(INPUTS&0x00800000)
-		//  INPUTS|=0xFF000000;
-
-		if(IWT)
-		{
-			DSP->MEMS[IWA]=MEMVAL;	//MEMVAL was selected in previous MRD
-			if(IRA==IWA)
-				INPUTS=MEMVAL;
-		}
-
-		//Operand sel
-		//B
-		if(!ZERO)
-		{
-			if(BSEL)
-				B=ACC;
-			else
-			{
-				B=DSP->TEMP[(TRA+DSP->DEC)&0x7F];
-				B<<=8;
-				B>>=8;
-				//if(B&0x00800000)
-				//  B|=0xFF000000;  //Sign extend
-			}
-			if(NEGB)
-				B=0-B;
-		}
-		else
-			B=0;
-
-		//X
-		if(XSEL)
-			X=INPUTS;
-		else
-		{
-			X=DSP->TEMP[(TRA+DSP->DEC)&0x7F];
-			X<<=8;
-			X>>=8;
-			//if(X&0x00800000)
-			//  X|=0xFF000000;
-		}
-
-		//Y
-		if(YSEL==0)
-			Y=FRC_REG;
-		else if(YSEL==1)
-			Y=DSP->COEF[COEF<<1]>>3;	//COEF is 16 bits
-		else if(YSEL==2)
-			Y=(Y_REG>>11)&0x1FFF;
-		else if(YSEL==3)
-			Y=(Y_REG>>4)&0x0FFF;
-
-		if(YRL)
-			Y_REG=INPUTS;
-
-		//Shifter
-		if(SHIFT==0)
-		{
-			SHIFTED=ACC;
-			if(SHIFTED>0x007FFFFF)
-				SHIFTED=0x007FFFFF;
-			if(SHIFTED<(-0x00800000))
-				SHIFTED=-0x00800000;
-		}
-		else if(SHIFT==1)
-		{
-			SHIFTED=ACC*2;
-			if(SHIFTED>0x007FFFFF)
-				SHIFTED=0x007FFFFF;
-			if(SHIFTED<(-0x00800000))
-				SHIFTED=-0x00800000;
-		}
-		else if(SHIFT==2)
-		{
-			SHIFTED=ACC*2;
-			SHIFTED<<=8;
-			SHIFTED>>=8;
-			//SHIFTED&=0x00FFFFFF;
-			//if(SHIFTED&0x00800000)
-			//  SHIFTED|=0xFF000000;
-		}
-		else if(SHIFT==3)
-		{
-			SHIFTED=ACC;
-			SHIFTED<<=8;
-			SHIFTED>>=8;
-			//SHIFTED&=0x00FFFFFF;
-			//if(SHIFTED&0x00800000)
-			//  SHIFTED|=0xFF000000;
-		}
-
-		//ACCUM
-		Y<<=19;
-		Y>>=19;
-		//if(Y&0x1000)
-		//  Y|=0xFFFFF000;
-
-		v=(((INT64) X*(INT64) Y)>>12);
-		ACC=(int) v+B;
-
-		if(TWT)
-			DSP->TEMP[(TWA+DSP->DEC)&0x7F]=SHIFTED;
-
-		if(FRCL)
-		{
-			if(SHIFT==3)
-				FRC_REG=SHIFTED&0x0FFF;
-			else
-				FRC_REG=(SHIFTED>>11)&0x1FFF;
-		}
-
-		if(MRD || MWT)
-		//if(0)
-		{
-			ADDR=DSP->MADRS[MASA<<1];
-			if(!TABLE)
-				ADDR+=DSP->DEC;
-			if(ADREB)
-				ADDR+=ADRS_REG&0x0FFF;
-			if(NXADR)
-				ADDR++;
-			if(!TABLE)
-				ADDR&=DSP->RBL-1;
-			else
-				ADDR&=0xFFFF;
-			//ADDR<<=1;
-			//ADDR+=DSP->RBP<<13;
-			//MEMVAL=DSP->AICARAM[ADDR>>1];
-			ADDR+=DSP->RBP<<10;
-			if(MRD && (step&1))	//memory only allowed on odd? DoA inserts NOPs on even
-			{
-				if(NOFL)
-					MEMVAL=DSP->AICARAM[ADDR]<<8;
-				else
-					MEMVAL=UNPACK(DSP->AICARAM[ADDR]);
-			}
-			if(MWT && (step&1))
-			{
-				if(NOFL)
-					DSP->AICARAM[ADDR]=SHIFTED>>8;
-				else
-					DSP->AICARAM[ADDR]=PACK(SHIFTED);
-			}
-		}
-
-		if(ADRL)
-		{
-			if(SHIFT==3)
-				ADRS_REG=(SHIFTED>>12)&0xFFF;
-			else
-				ADRS_REG=(INPUTS>>16);
-		}
-
-		if(EWT)
-			DSP->EFREG[EWA]+=SHIFTED>>8;
-
-	}
-	--DSP->DEC;
-	memset(DSP->MIXS,0,4*16);
-//  if(f)
-//      fclose(f);
-}
-
-void AICADSP_SetSample(struct _AICADSP *DSP,INT32 sample,int SEL,int MXL)
-{
-	//DSP->MIXS[SEL]+=sample<<(MXL+1)/*7*/;
-	DSP->MIXS[SEL]+=sample;
-//  if(MXL)
-//      int a=1;
-}
-
-void AICADSP_Start(struct _AICADSP *DSP)
-{
-	int i;
-	DSP->Stopped=0;
-	for(i=127;i>=0;--i)
-	{
-		UINT16 *IPtr=DSP->MPRO+i*8;
-
-		if(IPtr[0]!=0 || IPtr[2]!=0 || IPtr[4]!=0 || IPtr[6]!=0)
-			break;
-	}
-	DSP->LastStep=i+1;
-
-}
diff --git a/plugins/ao/eng_dsf/aicadsp.h b/plugins/ao/eng_dsf/aicadsp.h
deleted file mode 100644
index b10accff..00000000
--- a/plugins/ao/eng_dsf/aicadsp.h
+++ /dev/null
@@ -1,37 +0,0 @@
-#ifndef AICADSP_H
-#define AICADSP_H
-
-//the DSP Context
-struct _AICADSP
-{
-//Config
-	UINT16 *AICARAM;
-	UINT32 AICARAM_LENGTH;
-	UINT32 RBP;	//Ring buf pointer
-	UINT32 RBL;	//Delay ram (Ring buffer) size in words
-
-//context
-
-	INT16 COEF[128*2];		//16 bit signed
-	UINT16 MADRS[64*2];	//offsets (in words), 16 bit
-	UINT16 MPRO[128*4*2*2];	//128 steps 64 bit
-	INT32 TEMP[128];	//TEMP regs,24 bit signed
-	INT32 MEMS[32];	//MEMS regs,24 bit signed
-	UINT32 DEC;
-
-//input
-	INT32 MIXS[16];	//MIXS, 24 bit signed
-	INT16 EXTS[2];	//External inputs (CDDA)    16 bit signed
-
-//output
-	INT16 EFREG[16];	//EFREG, 16 bit signed
-
-	int Stopped;
-	int LastStep;
-};
-
-void AICADSP_Init(struct _AICADSP *DSP);
-void AICADSP_SetSample(struct _AICADSP *DSP, INT32 sample, INT32 SEL, INT32 MXL);
-void AICADSP_Step(struct _AICADSP *DSP);
-void AICADSP_Start(struct _AICADSP *DSP);
-#endif
diff --git a/plugins/ao/eng_dsf/aicalfo.c b/plugins/ao/eng_dsf/aicalfo.c
deleted file mode 100644
index cc1ea1cc..00000000
--- a/plugins/ao/eng_dsf/aicalfo.c
+++ /dev/null
@@ -1,159 +0,0 @@
-/*
-	AICA LFO handling
-
-	Part of the AICA emulator package.
-	(not compiled directly, #included from aica.c)
-
-	By ElSemi, kingshriek, and R. Belmont
-*/
-
-#define LFO_SHIFT 	8
-
-struct _LFO
-{
-    unsigned short phase;
-    UINT32 phase_step;
-    int *table;
-    int *scale;
-};
-
-#define LFIX(v)	((unsigned int) ((float) (1<<LFO_SHIFT)*(v)))
-
-//Convert DB to multiply amplitude
-#define DB(v) 	LFIX(pow(10.0,v/20.0))
-
-//Convert cents to step increment
-#define CENTS(v) LFIX(pow(2.0,v/1200.0))
-
-static int PLFO_TRI[256],PLFO_SQR[256],PLFO_SAW[256],PLFO_NOI[256];
-static int ALFO_TRI[256],ALFO_SQR[256],ALFO_SAW[256],ALFO_NOI[256];
-static float LFOFreq[32]={0.17,0.19,0.23,0.27,0.34,0.39,0.45,0.55,0.68,0.78,0.92,1.10,1.39,1.60,1.87,2.27,
-			  2.87,3.31,3.92,4.79,6.15,7.18,8.60,10.8,14.4,17.2,21.5,28.7,43.1,57.4,86.1,172.3};
-static float ASCALE[8]={0.0,0.4,0.8,1.5,3.0,6.0,12.0,24.0};
-static float PSCALE[8]={0.0,7.0,13.5,27.0,55.0,112.0,230.0,494};
-static int PSCALES[8][256];
-static int ASCALES[8][256];
-
-void AICALFO_Init(void)
-{
-    int i,s;
-    for(i=0;i<256;++i)
-    {
-		int a,p;
-//		float TL;
-		//Saw
-		a=255-i;
-		if(i<128)
-			p=i;
-		else
-			p=i-256;    
-		ALFO_SAW[i]=a;
-		PLFO_SAW[i]=p;
-	
-		//Square
-		if(i<128)
-		{
-			a=255;
-			p=127;
-		}
-		else
-		{
-			a=0;
-			p=-128;
-		}
-		ALFO_SQR[i]=a;
-		PLFO_SQR[i]=p;
-	
-		//Tri
-		if(i<128)
-			a=255-(i*2);
-		else
-			a=(i*2)-256;
-		if(i<64)
-			p=i*2;
-		else if(i<128)
-			p=255-i*2;
-		else if(i<192)
-			p=256-i*2;
-		else
-			p=i*2-511;
-		ALFO_TRI[i]=a;
-		PLFO_TRI[i]=p;
-	
-		//noise
-		//a=lfo_noise[i];
-		a=rand()&0xff;
-		p=128-a;
-		ALFO_NOI[i]=a;
-		PLFO_NOI[i]=p;
-    }
-
-	for(s=0;s<8;++s)
-	{
-		float limit=PSCALE[s];
-		for(i=-128;i<128;++i)
-		{
-			PSCALES[s][i+128]=CENTS(((limit*(float) i)/128.0));
-		}
-		limit=-ASCALE[s];
-		for(i=0;i<256;++i)
-		{
-			ASCALES[s][i]=DB(((limit*(float) i)/256.0));
-		}
-	}
-}
-
-static signed int INLINE AICAPLFO_Step(struct _LFO *LFO)
-{
-	int p;
-
-    LFO->phase+=LFO->phase_step;    
-#if LFO_SHIFT!=8    
-    LFO->phase&=(1<<(LFO_SHIFT+8))-1;
-#endif    
-    p=LFO->table[LFO->phase>>LFO_SHIFT];
-	p=LFO->scale[p+128];
-	return p<<(SHIFT-LFO_SHIFT);
-}
-
-static signed int INLINE AICAALFO_Step(struct _LFO *LFO)
-{
-	int p;
-    LFO->phase+=LFO->phase_step;    
-#if LFO_SHIFT!=8    
-    LFO->phase&=(1<<(LFO_SHIFT+8))-1;
-#endif    
-    p=LFO->table[LFO->phase>>LFO_SHIFT];
-	p=LFO->scale[p];
-	return p<<(SHIFT-LFO_SHIFT);
-}
-
-void AICALFO_ComputeStep(struct _LFO *LFO,UINT32 LFOF,UINT32 LFOWS,UINT32 LFOS,int ALFO)
-{
-    float step=(float) LFOFreq[LFOF]*256.0/(float)44100.0;
-    LFO->phase_step=(unsigned int) ((float) (1<<LFO_SHIFT)*step);
-    if(ALFO)
-    {
-		switch(LFOWS)
-		{
-			case 0: LFO->table=ALFO_SAW; break;
-			case 1: LFO->table=ALFO_SQR; break;
-			case 2: LFO->table=ALFO_TRI; break;
-			case 3: LFO->table=ALFO_NOI; break;
-			default: printf("Unknown ALFO %d\n", LFOWS);
-		}
-		LFO->scale=ASCALES[LFOS];
-	}
-	else
-	{
-		switch(LFOWS)
-		{
-		    case 0: LFO->table=PLFO_SAW; break;
-		    case 1: LFO->table=PLFO_SQR; break;
-			case 2: LFO->table=PLFO_TRI; break;
-		    case 3: LFO->table=PLFO_NOI; break;
-  		    default: printf("Unknown PLFO %d\n", LFOWS);
-		}
-		LFO->scale=PSCALES[LFOS];
-	}
-}
diff --git a/plugins/ao/eng_dsf/arm7.c b/plugins/ao/eng_dsf/arm7.c
deleted file mode 100644
index b4314948..00000000
--- a/plugins/ao/eng_dsf/arm7.c
+++ /dev/null
@@ -1,278 +0,0 @@
-//
-// ARM7 processor emulator
-// version 1.6 / 2008-02-16
-// (c) Radoslaw Balcewicz
-//
-
-#include "arm7.h"
-#include "arm7i.h"
-
-#ifdef ARM7_THUMB
-#include "arm7thumb.h"
-#endif
-
-  //--------------------------------------------------------------------------
-  // definitions and macros
-
-  /** Macro for accessing banked registers. */
-#define RX_BANK(t,r) (cpu->Rx_bank [t][r - 8])
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  // private functions
-
-  /** CPU Reset. */
-static void Reset (struct sARM7 *cpu);
-  //--------------------------------------------------------------------------
-
-  // private variables
-
-  /** Table for decoding bit-coded mode to zero based index. */
-static const int s_tabTryb [32] = {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
- -1, -1, -1, -1, -1, -1, ARM7_MODE_usr, ARM7_MODE_fiq, ARM7_MODE_irq,
- ARM7_MODE_svc, -1, -1, -1, ARM7_MODE_abt, -1, -1, -1, ARM7_MODE_und,
- -1, -1, -1, ARM7_MODE_sys};
-  //--------------------------------------------------------------------------
-
-
-  // public functions
-
-struct sARM7* ARM7_Alloc ()
-{
-    struct sARM7 *cpu = malloc (sizeof (struct sARM7));
-    memset (cpu, 0, sizeof (struct sARM7));
-    return cpu;
-}
-
-void ARM7_Free (struct sARM7 *cpu) {
-    free (cpu);
-}
-
-  //--------------------------------------------------------------------------
-  /** ARM7 emulator init. */
-void ARM7_Init (struct sARM7 *cpu)
-  {
-  // sane startup values
-  cpu->fiq = 0;
-  cpu->irq = 0;
-  cpu->carry = 0;
-  cpu->overflow = 0;
-  cpu->flagi = FALSE;
-  cpu->cykle = 0;
-
-  // reset will do the rest
-  ARM7_HardReset (cpu);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Power-ON reset. */
-void ARM7_HardReset (struct sARM7 *cpu)
-  {
-  // CPSR that makes sense
-  cpu->Rx [ARM7_CPSR] = ARM7_CPSR_I | ARM7_CPSR_F | ARM7_CPSR_M_svc;
-  Reset (cpu);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Hardware reset via /RESET line. */
-void ARM7_SoftReset (struct sARM7 *cpu)
-  {
-  Reset (cpu);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** CPSR update, possibly changing operating mode. */
-void ARM7_SetCPSR (struct sARM7 *cpu, ARM7_REG sr)
-  {
-  int stary, nowy;
-
-  stary = s_tabTryb [ARM7_CPSR_M (cpu->Rx [ARM7_CPSR])];
-  nowy = s_tabTryb [ARM7_CPSR_M (sr)];
-  // do we have to change modes?
-  if (nowy != stary)
-    {
-    // save this mode registers
-    RX_BANK (stary, ARM7_SP) = cpu->Rx [ARM7_SP],
-    RX_BANK (stary, ARM7_LR) = cpu->Rx [ARM7_LR],
-    RX_BANK (stary, ARM7_SPSR) = cpu->Rx [ARM7_SPSR];
-    if (stary == ARM7_MODE_fiq)
-      {
-      // copy R8-R12
-      RX_BANK (ARM7_MODE_fiq, 8) = cpu->Rx [8],
-      RX_BANK (ARM7_MODE_fiq, 9) = cpu->Rx [9],
-      RX_BANK (ARM7_MODE_fiq, 10) = cpu->Rx [10],
-      RX_BANK (ARM7_MODE_fiq, 11) = cpu->Rx [11],
-      RX_BANK (ARM7_MODE_fiq, 12) = cpu->Rx [12];
-      cpu->Rx [8] = RX_BANK (ARM7_MODE_usr, 8),
-      cpu->Rx [9] = RX_BANK (ARM7_MODE_usr, 9),
-      cpu->Rx [10] = RX_BANK (ARM7_MODE_usr, 10),
-      cpu->Rx [11] = RX_BANK (ARM7_MODE_usr, 11),
-      cpu->Rx [12] = RX_BANK (ARM7_MODE_usr, 12);
-      }
-
-    // fetch new mode registers
-    cpu->Rx [ARM7_SP] = RX_BANK (nowy, ARM7_SP),
-    cpu->Rx [ARM7_LR] = RX_BANK (nowy, ARM7_LR),
-    cpu->Rx [ARM7_SPSR] = RX_BANK (nowy, ARM7_SPSR);
-    if (nowy == ARM7_MODE_fiq)
-      {
-      // copy R8-R12
-      RX_BANK (ARM7_MODE_usr, 8) = cpu->Rx [8],
-      RX_BANK (ARM7_MODE_usr, 9) = cpu->Rx [9],
-      RX_BANK (ARM7_MODE_usr, 10) = cpu->Rx [10],
-      RX_BANK (ARM7_MODE_usr, 11) = cpu->Rx [11],
-      RX_BANK (ARM7_MODE_usr, 12) = cpu->Rx [12];
-      cpu->Rx [8] = RX_BANK (ARM7_MODE_fiq, 8),
-      cpu->Rx [9] = RX_BANK (ARM7_MODE_fiq, 9),
-      cpu->Rx [10] = RX_BANK (ARM7_MODE_fiq, 10),
-      cpu->Rx [11] = RX_BANK (ARM7_MODE_fiq, 11),
-      cpu->Rx [12] = RX_BANK (ARM7_MODE_fiq, 12);
-      }
-    }
-
-  // new CPSR value
-  cpu->Rx [ARM7_CPSR] = sr;
-
-  // mode change could've enabled interrups, so we test for those and set
-  // appropriate flag for the instruction loop to catch
-  if (cpu->fiq)
-    cpu->flagi |= ARM7_FL_FIQ;
-#ifndef ARM7_DREAMCAST
-  if (cpu->irq)
-    cpu->flagi |= ARM7_FL_IRQ;
-#endif
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Sets FIQ line state. */
-void ARM7_SetFIQ (struct sARM7 *cpu, int stan)
-  {
-  stan = stan ? TRUE : FALSE;
-  // we catch changes only
-  if (stan ^ cpu->fiq)
-    {
-    cpu->fiq = stan;
-    if (cpu->fiq)
-      cpu->flagi |= ARM7_FL_FIQ;
-    }
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Sets IRQ line state. */
-void ARM7_SetIRQ (struct sARM7 *cpu, int stan)
-  {
-  stan = stan ? TRUE : FALSE;
-  // we catch changes only
-  if (stan ^ cpu->irq)
-    {
-    cpu->irq = stan;
-    if (cpu->irq)
-      cpu->flagi |= ARM7_FL_IRQ;
-    }
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Tests for pending interrupts, switches to one if possible. */
-void ARM7_CheckIRQ (struct sARM7 *cpu)
-  {
-  UINT32 sr = cpu->Rx [ARM7_CPSR];
-
-  // clear all interrupt flags
-  cpu->flagi &= ~(ARM7_FL_FIQ | ARM7_FL_IRQ);
-  
-  // check for pending interrupts we can switch to
-  // (FIQ can interrupt IRQ, but not the other way around)
-  if (cpu->fiq)
-    {
-    if (!(sr & ARM7_CPSR_F))
-      {
-      // FIQ
-      ARM7_SetCPSR (cpu, ARM7_CPSR_MX (sr, ARM7_CPSR_M_fiq) | ARM7_CPSR_F | ARM7_CPSR_I);
-      cpu->Rx [ARM7_SPSR] = sr;
-      // set new PC (return from interrupt will subtract 4)
-      cpu->Rx [ARM7_LR] = cpu->Rx [ARM7_PC] + 4;
-      cpu->Rx [ARM7_PC] = 0x0000001c;
-      }
-    }
-#ifndef ARM7_DREAMCAST
-  if (cpu->irq)
-    {
-    if (!(sr & ARM7_CPSR_I))
-      {
-      // IRQ
-      ARM7_SetCPSR (cpu, ARM7_CPSR_MX (sr, ARM7_CPSR_M_irq) | ARM7_CPSR_I);
-      cpu->Rx [ARM7_SPSR] = sr;
-      // set new PC (return from interrupt will subtract 4)
-      cpu->Rx [ARM7_LR] = cpu->Rx [ARM7_PC] + 4;
-      cpu->Rx [ARM7_PC] = 0x00000018;
-      cpu->irq = 0;
-      }
-    }
-#endif
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Single step. */
-void ARM7_Step (struct sARM7 *cpu)
-{
-  // make a step
-#ifdef ARM7_THUMB
-  if (cpu->Rx[ARM7_CPSR] & ARM7_CPSR_T)
-  {
-	ARM7i_Thumb_Step(cpu);
-  }
-  else
-#endif
-  {
-        ARM7i_Step (cpu);
-  }
-  // and test interrupts
-  ARM7_CheckIRQ (cpu);
-}
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Runs emulation for at least n cycles, returns actual amount of cycles
- burned - normal interpreter. */
-int ARM7_Execute (struct sARM7 *cpu, int n)
-  {
-  cpu->cykle = 0;
-  while (cpu->cykle < n)
-    {
-    ARM7_CheckIRQ (cpu);
-    while (!cpu->flagi && cpu->cykle < n)
-      // make one step, sum up cycles
-      cpu->cykle += ARM7i_Step (cpu);
-    }
-  return cpu->cykle;
-  }
-  //--------------------------------------------------------------------------
-
-
-  // private functions
-
-
-  //--------------------------------------------------------------------------
-  /** CPU Reset. */
-void Reset (struct sARM7 *cpu)
-  {
-  // clear ALU flags
-  cpu->carry = 0;
-  cpu->overflow = 0;
-  // test CPSR mode and pick a valid one if necessary
-  if (s_tabTryb [ARM7_CPSR_M (cpu->Rx [ARM7_CPSR])] < 0)
-    cpu->Rx [ARM7_CPSR] = ARM7_CPSR_I | ARM7_CPSR_F | ARM7_CPSR_M_svc;
-  // set up registers according to manual
-  RX_BANK (ARM7_MODE_svc, ARM7_LR) = cpu->Rx [ARM7_PC];
-  RX_BANK (ARM7_MODE_svc, ARM7_SPSR) = cpu->Rx [ARM7_CPSR];
-  ARM7_SetCPSR (cpu, ARM7_CPSR_I | ARM7_CPSR_F | ARM7_CPSR_M_svc);
-  cpu->Rx [ARM7_PC] = 0x00000000;
-  }
-  //--------------------------------------------------------------------------
diff --git a/plugins/ao/eng_dsf/arm7.h b/plugins/ao/eng_dsf/arm7.h
deleted file mode 100644
index 37f33a3d..00000000
--- a/plugins/ao/eng_dsf/arm7.h
+++ /dev/null
@@ -1,171 +0,0 @@
-//
-// ARM7 processor emulator
-// version 1.6 / 2008-02-16
-// (c) Radoslaw Balcewicz
-//
-
-#ifndef _ARM7_h_
-#define _ARM7_h_
-
-#include "cpuintrf.h"
-#include "aica.h"
-
-  //--------------------------------------------------------------------------
-  // definitions and macros
-
-  /** If defined, will turn on specific behavior emulation, as well as some
- optimizations that are valid only for Dreamcast AICA. */
-#define ARM7_DREAMCAST
-
-  /** Define to enable Thumb support for ARM7. */
-//#define ARM7_THUMB
-
-  // sanity tests
-#ifdef ARM7_DREAMCAST
- #ifdef ARM7_THUMB
-  #warning "Dreamcast ARM7 is a -DI type, it doesn't support Thumb mode."
- #endif
-#else
-// #warning "Instructions cycle counts might not be correct."
-#endif
-
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  // CPU definitions
-
-  /** Status flags in CPSR register. */
-#define ARM7_CPSR_N (1 << 31)
-#define ARM7_CPSR_Z (1 << 30)
-#define ARM7_CPSR_C (1 << 29)
-#define ARM7_CPSR_V (1 << 28)
-#define ARM7_CPSR_I (1 << 7)
-#define ARM7_CPSR_F (1 << 6)
-#define ARM7_CPSR_T (1 << 5)
-  /** CPSR bit mask for current operating mode. */
-#define ARM7_CPSR_M(x) ((x) & 0x1f)
-#define ARM7_CPSR_MX(sr,x) (((sr) & ~0x1f) | ((x) & 0x1f))
-  /** Bit combinations for each operating mode. */
-#define ARM7_CPSR_M_usr 0x10
-#define ARM7_CPSR_M_fiq 0x11
-#define ARM7_CPSR_M_irq 0x12
-#define ARM7_CPSR_M_svc 0x13
-#define ARM7_CPSR_M_abt 0x17
-#define ARM7_CPSR_M_und 0x11
-#define ARM7_CPSR_M_sys 0x1f
-
-  /** Control flags for ARM7 core. */
-#define ARM7_FL_FIQ (1 << 0)
-#define ARM7_FL_IRQ (1 << 1)
-
-  /** Operating modes. */
-#define ARM7_MODE_usr 0
-#define ARM7_MODE_fiq 1
-#define ARM7_MODE_irq 2
-#define ARM7_MODE_svc 3
-#define ARM7_MODE_abt 4
-#define ARM7_MODE_und 5
-#define ARM7_MODE_sys 0
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  // register definitions
-
-  /** ARM7 register type (all are 32-bit). */
-typedef INT32 ARM7_REG;
-
-enum
-{
-    ARM7_R0 = 0, ARM7_R1, ARM7_R2, ARM7_R3, ARM7_R4, ARM7_R5, ARM7_R6, ARM7_R7,
-    ARM7_R8, ARM7_R9, ARM7_R10, ARM7_R11, ARM7_R12, ARM7_R13, ARM7_R14, ARM7_R15
-};
-
-  /** R13 is stack pointer. */
-#define ARM7_SP 13
-  /** R14 is link/return address. */
-#define ARM7_LR 14
-  /** R15 is program counter. */
-#define ARM7_PC 15
-  /** CPSR control register. */
-#define ARM7_CPSR 16
-  /** SPSR control register. */
-#define ARM7_SPSR 17
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** ARM7 CPU state structure. */
-struct sARM7
-  {
-  /** All-purpose and control registers (for current mode). */
-  ARM7_REG Rx [18];
-  /** Banked registers for all operating modes. */
-  ARM7_REG Rx_bank [6][10];
-
-  /** FIQ and IRQ interrupt requests. */
-  int fiq, irq;
-
-  /** Carry flag for barrel shifter and ALU operations. */
-  int carry;
-  /** Overflow flag for arithmetic instructions. */
-  int overflow;
-
-  /** Emulation control flags. */
-  int flagi;
-
-  /** Instruction code. */
-  UINT32 kod;
-  /** Cycle counter. */
-  int cykle;
-
-  uint8 dc_ram[8*1024*1024];
-
-  struct AICAinterface aica_interface;
-  struct _AICA *AICA;
-  };
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  // public procedures
-
-  /** ARM7 allocate spu state. */
-struct sARM7* ARM7_Alloc (void);
-
-void ARM7_Free (struct sARM7 *cpu);
-
-  /** ARM7 emulator init. */
-void ARM7_Init (struct sARM7 *cpu);
-
-  /** Power-ON reset. */
-void ARM7_HardReset (struct sARM7 *cpu);
-  /** Hardware reset via /RESET line. */
-void ARM7_SoftReset (struct sARM7 *cpu);
-
-  /** CPSR update, possibly changing operating mode. */
-void ARM7_SetCPSR (struct sARM7 *cpu, ARM7_REG sr);
-
-  /** Sets FIQ line state. */
-void ARM7_SetFIQ (struct sARM7 *cpu, int stan);
-  /** Sets IRQ line state. */
-void ARM7_SetIRQ (struct sARM7 *cpu, int stan);
-
-  /** Tests for pending interrupts, switches to one if possible. */
-void ARM7_CheckIRQ (struct sARM7 *cpu);
-
-  /** Single step. */
-void ARM7_Step (struct sARM7 *cpu);
-  /** Runs emulation for at least n cycles, returns actual amount of cycles
- burned - normal interpreter. */
-int ARM7_Execute (struct sARM7 *cpu, int n);
-  //--------------------------------------------------------------------------
-
-enum
-{
-    ARM7_IRQ_LINE=0, ARM7_FIRQ_LINE,
-    ARM7_NUM_LINES
-};
-
-#ifdef ENABLE_DEBUGGER
-extern UINT32 arm7_disasm( struct sARM7 *cpu, char *pBuf, UINT32 pc, UINT32 opcode );
-extern UINT32 thumb_disasm( struct sARM7 *cpu, char *pBuf, UINT32 pc, UINT16 opcode );
-#endif
-#endif
diff --git a/plugins/ao/eng_dsf/arm7i.c b/plugins/ao/eng_dsf/arm7i.c
deleted file mode 100644
index 1b831857..00000000
--- a/plugins/ao/eng_dsf/arm7i.c
+++ /dev/null
@@ -1,1340 +0,0 @@
-//
-// ARM7 processor emulator - interpreter core
-// version 1.6 / 2008-02-16
-// (c) Radoslaw Balcewicz
-//
-
-#include "arm7.h"
-#include "arm7i.h"
-#include "dc_hw.h"
-
-  //--------------------------------------------------------------------------
-  // definitions and macros
-
- /** PC is being incremented after every instruction fetch, so we adjust for
- that on all stores and jumps. */
-#define PC_ADJUSTMENT (-4)
-
-  /** Memory access routines. */
-#include "arm7memil.c"
-
-  /** Bit shifts compatible with IA32. */
-#define SHL(w, k) (((UINT32)(w)) << (k))
-#define SHR(w, k) (((UINT32)(w)) >> (k))
-#define SAR(w, k) (((INT32)(w)) >> (k))
-#define ROR(w, k) (SHR (w, k) | SHL (w, 32 - (k)))
-
-  /** Byte rotation for unaligned 32-bit read. */
-#define RBOD(w, i) (ROR (w, (i) * 8))
-
-  /** Data processing macros. */
-#define NEG(i) ((i) & (1 << 31))
-#define POS(i) (~(i) & (1 << 31))
-#define ADDCARRY(a, b, c) \
-  ((NEG (a) & NEG (b)) |\
-  (NEG (a) & POS (c)) |\
-  (NEG (b) & POS (c))) ? 1 : 0;
-#define ADDOVERFLOW(a, b, c) \
-  ((NEG (a) & NEG (b) & POS (c)) |\
-  (POS (a) & POS (b) & NEG (c))) ? 1 : 0;
-#define SUBCARRY(a, b, c) \
-  ((NEG (a) & POS (b)) |\
-  (NEG (a) & POS (c)) |\
-  (POS (b) & POS (c))) ? 1 : 0;
-#define SUBOVERFLOW(a, b, c)\
-  ((NEG (a) & POS (b) & POS (c)) |\
-  (POS (a) & NEG (b) & NEG (c))) ? 1 : 0;
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  // private functions
-	   
-  /** Condition EQ. */
-static int R_WEQ (struct sARM7 *cpu);
-  /** Condition NE. */
-static int R_WNE (struct sARM7 *cpu);
-  /** Condition CS. */
-static int R_WCS (struct sARM7 *cpu);
-  /** Condition CC. */
-static int R_WCC (struct sARM7 *cpu);
-  /** Condition MI. */
-static int R_WMI (struct sARM7 *cpu);
-  /** Condition PL. */
-static int R_WPL (struct sARM7 *cpu);
-  /** Condition VS. */
-static int R_WVS (struct sARM7 *cpu);
-  /** Condition VC. */
-static int R_WVC (struct sARM7 *cpu);
-  /** Condition HI. */
-static int R_WHI (struct sARM7 *cpu);
-  /** Condition LS. */
-static int R_WLS (struct sARM7 *cpu);
-  /** Condition GE. */
-static int R_WGE (struct sARM7 *cpu);
-  /** Condition LT. */
-static int R_WLT (struct sARM7 *cpu);
-  /** Condition GT. */
-static int R_WGT (struct sARM7 *cpu);
-  /** Condition LE. */
-static int R_WLE (struct sARM7 *cpu);
-  /** Condition AL. */
-static int R_WAL (struct sARM7 *cpu);
-  /** Undefined condition. */
-static int R_Wxx (struct sARM7 *cpu);
-
-  /** Calculates barrel shifter output. */
-static UINT32 WyliczPrzes (struct sARM7 *cpu);
-  /** Logical shift left. */
-static UINT32 LSL_x (struct sARM7 *cpu, UINT32 w, int i);
-  /** Logical shift right. */
-static UINT32 LSR_x (struct sARM7 *cpu, UINT32 w, int i);
-  /** Arithmetic shift right. */
-static UINT32 ASR_x (struct sARM7 *cpu, UINT32 w, int i);
-  /** Rotate right. */
-static UINT32 ROR_x (struct sARM7 *cpu, UINT32 w, int i);
-  /** Rotate right extended. */
-static UINT32 RRX_1 (struct sARM7 *cpu, UINT32 w);
-
-  /** Group 00x opcodes. */
-static void R_G00x (struct sARM7 *cpu);
-  /** Multiply instructions. */
-static void R_MUL_MLA (struct sARM7 *cpu);
-  /** Single data swap. */
-static void R_SWP (struct sARM7 *cpu);
-  /** PSR Transfer. */
-static void R_PSR (struct sARM7 *cpu);
-  /** Data processing instructions. */
-static void R_DP (struct sARM7 *cpu);
-  /** Data processing result writeback. */
-static void R_WynikDP (struct sARM7 *cpu, ARM7_REG w);
-  /** Data processing flags writeback. */
-static void R_FlagiDP (struct sARM7 *cpu, ARM7_REG w);
-  /** Single data transfer. */
-static void R_SDT (struct sARM7 *cpu);
-  /** Rozkaz "Undefined". */
-static void R_Und (struct sARM7 *cpu);
-  /** Block Data Transfer. */
-static void R_BDT (struct sARM7 *cpu);
-  /** Block load instructions. */
-static void R_LDM (struct sARM7 *cpu, int Rn, UINT32 adres);
-  /** Block store instructions. */
-static void R_STM (struct sARM7 *cpu, int Rn, UINT32 adres);
-  /** Branch/Branch with link. */
-static void R_B_BL (struct sARM7 *cpu);
-  /** Group 110 opcodes. */
-static void R_G110 (struct sARM7 *cpu);
-  /** Group 111 opcodes. */
-static void R_G111 (struct sARM7 *cpu);
-
-#ifdef ARM7_THUMB
-  /** Halfword and Signed Data Transfer. */
-static void R_HSDT (struct sARM7 *cpu);
-#endif
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  // private data
-
-  /** Flag testing functions for conditional execution. */
-static int (*s_tabWar [16]) (struct sARM7 *cpu) = {R_WEQ, R_WNE, R_WCS, R_WCC, R_WMI, R_WPL,
- R_WVS, R_WVC, R_WHI, R_WLS, R_WGE, R_WLT, R_WGT, R_WLE, R_WAL, R_Wxx};
-  /** Handler table for instruction groups. */
-static void (*s_tabGrup [8]) (struct sARM7 *cpu) = {R_G00x, R_G00x, R_SDT, R_SDT, R_BDT,
- R_B_BL, R_G110, R_G111};
-  /** Data processing instructions split to arithmetic and logical. */
-static int s_tabAL [16] = {FALSE, FALSE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE,
- FALSE, FALSE, TRUE, TRUE, FALSE, FALSE, FALSE, FALSE};
-
-  /** Cycles it took for current instruction to complete. */
-static int s_cykle;
-  //--------------------------------------------------------------------------
-
-
-  // public functions
-
-
-  //--------------------------------------------------------------------------
-  /** Single step, returns number of burned cycles. */
-int ARM7i_Step (struct sARM7 *cpu)
-  {
-  cpu->kod = arm7_read_32 (cpu, cpu->Rx [ARM7_PC] & ~3);
-
-  // we increment PC here, and if there's a load from memory it will simply
-  // overwrite it (all PC modyfing code should be aware of this)
-  cpu->Rx [ARM7_PC] += 4;
-  s_cykle = 2;
-  // condition test and group selection
-  if (s_tabWar [(cpu->kod >> 28) & 15] (cpu))
-    s_tabGrup [(cpu->kod >> 25) & 7] (cpu);
-  return s_cykle;
-  }
-  //--------------------------------------------------------------------------
-
-
-  // private functions
-
-
-  //--------------------------------------------------------------------------
-  /** Condition EQ. */
-int R_WEQ (struct sARM7 *cpu)
-  {
-  // "Z set"
-  return cpu->Rx [ARM7_CPSR] & ARM7_CPSR_Z;
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition NE. */
-int R_WNE (struct sARM7 *cpu)
-  {
-  // "Z clear"
-  return !(cpu->Rx [ARM7_CPSR] & ARM7_CPSR_Z);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition CS. */
-int R_WCS (struct sARM7 *cpu)
-  {
-  // "C set"
-  return cpu->Rx [ARM7_CPSR] & ARM7_CPSR_C;
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition CC. */
-int R_WCC (struct sARM7 *cpu)
-  {
-  // "C clear"
-  return !(cpu->Rx [ARM7_CPSR] & ARM7_CPSR_C);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition MI. */
-int R_WMI (struct sARM7 *cpu)
-  {
-  // "N set"
-  return cpu->Rx [ARM7_CPSR] & ARM7_CPSR_N;
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition PL. */
-int R_WPL (struct sARM7 *cpu)
-  {
-  // "N clear"
-  return !(cpu->Rx [ARM7_CPSR] & ARM7_CPSR_N);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition VS. */
-int R_WVS (struct sARM7 *cpu)
-  {
-  // "V set"
-  return cpu->Rx [ARM7_CPSR] & ARM7_CPSR_V;
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition VC. */
-int R_WVC (struct sARM7 *cpu)
-  {
-  // "V clear"
-  return !(cpu->Rx [ARM7_CPSR] & ARM7_CPSR_V);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition HI. */
-int R_WHI (struct sARM7 *cpu)
-  {
-  // "C set and Z clear"
-  return (cpu->Rx [ARM7_CPSR] & ARM7_CPSR_C) &&\
- !(cpu->Rx [ARM7_CPSR] & ARM7_CPSR_Z);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition LS. */
-int R_WLS (struct sARM7 *cpu)
-  {
-  // "C clear or Z set"
-  return !(cpu->Rx [ARM7_CPSR] & ARM7_CPSR_C) ||\
- (cpu->Rx [ARM7_CPSR] & ARM7_CPSR_Z);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition GE. */
-int R_WGE (struct sARM7 *cpu)
-  {
-  // "N equals V"
-  return (cpu->Rx [ARM7_CPSR] & ARM7_CPSR_N) &&\
- (cpu->Rx [ARM7_CPSR] & ARM7_CPSR_V) || !(cpu->Rx [ARM7_CPSR] & ARM7_CPSR_N) &&\
- !(cpu->Rx [ARM7_CPSR] & ARM7_CPSR_V);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition LT. */
-int R_WLT (struct sARM7 *cpu)
-  {
-  // "N not equal to V"
-  return !(cpu->Rx [ARM7_CPSR] & ARM7_CPSR_N) &&\
- (cpu->Rx [ARM7_CPSR] & ARM7_CPSR_V) || (cpu->Rx [ARM7_CPSR] & ARM7_CPSR_N) &&\
- !(cpu->Rx [ARM7_CPSR] & ARM7_CPSR_V);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition GT. */
-int R_WGT (struct sARM7 *cpu)
-  {
-  // "Z clear AND (N equals V)"
-  return !(cpu->Rx [ARM7_CPSR] & ARM7_CPSR_Z) && R_WGE (cpu);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition LE. */
-int R_WLE (struct sARM7 *cpu)
-  {
-  // "Z set OR (N not equal to V)"
-  return (cpu->Rx [ARM7_CPSR] & ARM7_CPSR_Z) || R_WLT (cpu);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Condition AL. */
-int R_WAL (struct sARM7 *cpu)
-  {
-  // "(ignored)"
-  return TRUE;
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Undefined condition. */
-int R_Wxx (struct sARM7 *cpu)
-  {
-  // behaviour undefined
-  return FALSE;
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Calculates barrel shifter output. */
-UINT32 WyliczPrzes (struct sARM7 *cpu)
-  {
-  int Rm, Rs, i;
-  UINT32 w;
-
-  // Rm is source for the shift operation
-  Rm = cpu->kod & 15;
-
-  if (cpu->kod & (1 << 4))
-    {
-    s_cykle++;
-    // shift count in Rs (8 lowest bits)
-    if (Rm != ARM7_PC)
-      w = cpu->Rx [Rm];
-    else
-      w = (cpu->Rx [ARM7_PC] & ~3) + 12 + PC_ADJUSTMENT;
-    // Rs can't be PC
-    Rs = (cpu->kod >> 8) & 15;
-    i = (UINT8)cpu->Rx [Rs];
-    if (i == 0)
-      {
-      // special case
-      cpu->carry = (cpu->Rx [ARM7_CPSR] & ARM7_CPSR_C) ? 1 : 0;
-      return w;
-      }
-
-    switch ((cpu->kod >> 5) & 3)
-      {
-      case 0:
-        w = LSL_x (cpu, w, i);
-        break;
-      case 1:
-        w = LSR_x (cpu, w, i);
-        break;
-      case 2:
-        w = ASR_x (cpu, w, i);
-        break;
-      case 3:
-        w = ROR_x (cpu, w, i);
-        break;
-      }
-    }
-  else
-    {
-    // shift count as immediate in opcode
-    if (Rm != ARM7_PC)
-      w = cpu->Rx [Rm];
-    else
-      w = (cpu->Rx [ARM7_PC] & ~3) + 8 + PC_ADJUSTMENT;
-    i = (cpu->kod >> 7) & 31;
-
-    switch ((cpu->kod >> 5) & 3)
-      {
-      case 0:
-        w = LSL_x (cpu, w, i);
-        break;
-      case 1:
-        if (i > 0)
-          w = LSR_x (cpu, w, i);
-        else
-          w = LSR_x (cpu, w, 32);
-        break;
-      case 2:
-        if (i > 0)
-          w = ASR_x (cpu, w, i);
-        else
-          w = ASR_x (cpu, w, 32);
-        break;
-      case 3:
-        if (i > 0)
-          w = ROR_x (cpu, w, i);
-        else
-          w = RRX_1 (cpu, w);
-        break;
-      }
-    }
-  return w;
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Logical shift left. */
-UINT32 LSL_x (struct sARM7 *cpu, UINT32 w, int i)
-{
-	// LSL #0 copies C into carry out and returns unmodified value
-	if (i == 0)
-	{
-		cpu->carry = (cpu->Rx [ARM7_CPSR] & ARM7_CPSR_C) ? 1 : 0;
-		return w;
-	}
-	// LSL #32 copies LSB to carry out and returns zero
-	if (i == 32)
-	{
-		cpu->carry = w & 1;
-		return 0;
-	}
-	// LSL > #32 returns zero for both carry and output
-	if (i > 32)
-	{
-		cpu->carry = 0;
-		return 0;
-	}
-        // normal shift
-	cpu->carry = (w & (1 << (32 - i))) ? 1 : 0;
-	w = SHL (w, i);
-	return w;
-}
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Logical shift right. */
-UINT32 LSR_x (struct sARM7 *cpu, UINT32 w, int i)
-{
-	// LSR #32 copies MSB to carry out and returns zero
-	if (i == 32)
-	{
-		cpu->carry = (w & (1 << 31)) ? 1 : 0;
-		return 0;
-	}
-	// LSR > #32 returns zero for both carry and output
-	if (i > 32)
-	{
-		cpu->carry = 0;
-		return 0;
-	}
-        // normal shift
-	cpu->carry = (w & (1 << (i - 1))) ? 1 : 0;
-	w = SHR (w, i);
-	return w;
-}
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Arithmetic shift right. */
-UINT32 ASR_x (struct sARM7 *cpu, UINT32 w, int i)
-{
-	// ASR >= #32 carry out and output value depends on the minus sign
-	if (i >= 32)
-	{
-		if (w & (1 << 31))
-		{
-			cpu->carry = 1;
-			return ~0;
-		}
-
-		cpu->carry = 0;
-		return 0;
-	}
-	// normal shift
-	cpu->carry = (w & (1 << (i - 1))) ? 1 : 0;
-	w = SAR (w, i);
-	return w;
-}
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Rotate right. */
-UINT32 ROR_x (struct sARM7 *cpu, UINT32 w, int i)
-{
-	// mask count to [0; 31]
-	i &= 0x1f;
-	// ROR #32,#64,etc. copies MSB into carry out and returns unmodified value
-	if (i == 0)
-	{
-		cpu->carry = (w & (1 << 31)) ? 1 : 0;
-		return w;
-	}
-	// normal shift
-	cpu->carry = (w & (1 << (i-1))) ? 1 : 0;
-	w = ROR (w, i);
-	return w;
-}
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Rotate right extended. */
-UINT32 RRX_1 (struct sARM7 *cpu, UINT32 w)
-  {
-  // same as RCR by 1 in IA32
-  cpu->carry = w & 1;
-  return (w >> 1) | ((cpu->Rx [ARM7_CPSR] & ARM7_CPSR_C) << 2);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Group 00x opcodes. */
-void R_G00x (struct sARM7 *cpu)
-  {
-#ifdef ARM7_THUMB
-  // 24 constant bits
-  if ((cpu->kod & 0x0ffffff0) == 0x012fff10)	// BX - branch with possible mode transfer
-  {
-  #ifdef ARM7_THUMB
-  	int Rn = cpu->Rx[cpu->kod & 0xf];
-
-	// switching to Thumb mode?
-	if (Rn & 1)
-	{
-		ARM7_SetCPSR(cpu->Rx[ARM7_CPSR] | ARM7_CPSR_T);
-	}
-       
-	cpu->Rx[ARM7_PC] = Rn & ~1;
-  #endif
-  }
-  // 15 constant bits
-  else if ((cpu->kod & 0x0fb00ff0) == 0x01000090)
-    R_SWP (cpu);
-  // 10 constant bits
-  else if ((cpu->kod & 0x0fc000f0) == 0x00000090)
-    R_MUL_MLA (cpu);
-  // 10 constant bits
-  else if ((cpu->kod & 0x0e400f90) == 0x00000090)
-    R_HSDT (cpu);
-  // 9 constant bits
-  else if ((cpu->kod & 0x0f8000f0) == 0x00800090)
-  {
-//    logerror("G00x / Multiply long\n");
-  }
-  // 6 constant bits	 
-  else if ((cpu->kod & 0x0e400090) == 0x00400090)
-    R_HSDT (cpu);
-  // 2 constant bits
-  else
-    {
-    if ((cpu->kod & 0x01900000) == 0x01000000)
-      // TST, TEQ, CMP & CMN without S bit are "PSR Transfer"
-      R_PSR (cpu);
-    else
-      // the rest is "Data processing"
-      R_DP (cpu);
-    }
-#else
-  if ((cpu->kod & 0x03b00090) == 0x01000090)
-    R_SWP (cpu);
-  else if ((cpu->kod & 0x03c00090) == 0x00000090)
-    R_MUL_MLA (cpu);
-  else
-    {
-    if ((cpu->kod & 0x01900000) == 0x01000000)
-      // TST, TEQ, CMP & CMN without S bit are "PSR Transfer"
-      R_PSR (cpu);
-    else
-      // the rest is "Data processing"
-      R_DP (cpu);
-    }
-#endif
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Single data swap. */
-void R_SWP (struct sARM7 *cpu)
-  {
-  int Rn, Rd, Rm;
-  UINT32 adres, w;
-
-#define BIT_B (cpu->kod & (1 << 21))
-
-  s_cykle += 4;
-  // none of these can be PC
-  Rn = (cpu->kod >> 16) & 15;
-  Rd = (cpu->kod >> 12) & 15;
-  Rm = cpu->kod & 15;
-  adres = cpu->Rx [Rn];
-
-  if (BIT_B)
-    {
-    // "byte"
-    w = arm7_read_8 (cpu, adres);
-    arm7_write_8 (cpu, adres, (UINT8)cpu->Rx [Rm]);
-    }
-  else
-    {
-    // "word"
-    w = RBOD (arm7_read_32 (cpu, adres & ~3), adres & 3);
-    arm7_write_32 (cpu, adres & ~3, cpu->Rx [Rm]);
-    }
-  cpu->Rx [Rd] = w;
-
-#undef BIT_B
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Multiply instructions. */
-void R_MUL_MLA (struct sARM7 *cpu)
-  {
-  int Rm, Rs, Rn, Rd;
-  UINT32 wynik;
-
-#define BIT_A (cpu->kod & (1 << 21))
-#define BIT_S (cpu->kod & (1 << 20))
-
-  s_cykle += 2;
-  // none of these can be PC, also Rd != Rm
-  Rd = (cpu->kod >> 16) & 15,
-  Rs = (cpu->kod >> 8) & 15,
-  Rm = cpu->kod & 15;
-
-  // MUL
-  wynik = cpu->Rx [Rm] * cpu->Rx [Rs];
-  if (BIT_A)
-    {
-    // MLA
-    Rn = (cpu->kod >> 12) & 15;
-    wynik += cpu->Rx [Rn];
-    }
-  cpu->Rx [Rd] = wynik;
-
-  if (BIT_S)
-    {
-    // V remains unchanged, C is undefined
-    cpu->Rx [ARM7_CPSR] &= ~(ARM7_CPSR_N | ARM7_CPSR_Z);
-    if (wynik == 0)
-      cpu->Rx [ARM7_CPSR] |= ARM7_CPSR_Z;
-    cpu->Rx [ARM7_CPSR] |= wynik & 0x80000000;
-    }
-
-#undef BIT_S
-#undef BIT_A
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** PSR Transfer. */
-void R_PSR (struct sARM7 *cpu)
-  {
-  int Rd, Rm;
-  UINT32 w, arg;
-
-#define BIT_I (cpu->kod & (1 << 25))
-#define BIT_P (cpu->kod & (1 << 22))
-
-  // none of the registers involved can be PC
-
-  if (cpu->kod & (1 << 21))
-    {
-    // MSR
-    Rm = cpu->kod & 15;
-    if (BIT_I)
-      // immediate (lower 12 bits)
-      arg = ROR (cpu->kod & 0xff, ((cpu->kod >> 8) & 0xf) * 2);
-    else
-      // register
-      arg = cpu->Rx [Rm];
-
-    // decode mask bits
-    if (BIT_P)
-      {
-      w = cpu->Rx [ARM7_SPSR];
-      if (ARM7_CPSR_M (cpu->Rx [ARM7_CPSR]) > ARM7_CPSR_M_usr &&\
- ARM7_CPSR_M (cpu->Rx [ARM7_CPSR]) < ARM7_CPSR_M_sys)
-        {
-        if (cpu->kod & (1 << 16))
-          w = (w & 0xffffff00) | (arg & 0x000000ff);
-        if (cpu->kod & (1 << 17))
-          w = (w & 0xffff00ff) | (arg & 0x0000ff00);
-        if (cpu->kod & (1 << 18))
-          w = (w & 0xff00ffff) | (arg & 0x00ff0000);
-        if (cpu->kod & (1 << 19))
-          // ARMv5E should have 0xf8000000 argument mask
-          w = (w & 0x00ffffff) | (arg & 0xf0000000);
-        }
-      // force valid mode
-      w |= 0x10;
-      cpu->Rx [ARM7_SPSR] = w;
-      }
-    else
-      {
-      w = cpu->Rx [ARM7_CPSR];
-      // only flags can be changed in User mode
-      if (ARM7_CPSR_M (cpu->Rx [ARM7_CPSR]) != ARM7_CPSR_M_usr)
-        {
-        if (cpu->kod & (1 << 16))
-          w = (w & 0xffffff00) | (arg & 0x000000ff);
-        if (cpu->kod & (1 << 17))
-          w = (w & 0xffff00ff) | (arg & 0x0000ff00);
-        if (cpu->kod & (1 << 18))
-          w = (w & 0xff00ffff) | (arg & 0x00ff0000);
-        }
-      if (cpu->kod & (1 << 19))
-        // ARMv5E should have 0xf8000000 argument mask
-        w = (w & 0x00ffffff) | (arg & 0xf0000000);
-      // force valid mode
-      w |= 0x10;
-      ARM7_SetCPSR (cpu, w);
-      }
-    }
-  else
-    {
-    // MRS
-    Rd = (cpu->kod >> 12) & 15;
-    if (BIT_P)
-      cpu->Rx [Rd] = cpu->Rx [ARM7_SPSR];
-    else
-      cpu->Rx [Rd] = cpu->Rx [ARM7_CPSR];
-    }
-
-#undef BIT_P
-#undef BIT_I
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Data processing instructions. */
-void R_DP (struct sARM7 *cpu)
-  {
-  int Rn;
-  ARM7_REG arg1, arg2, w;
-
-#define BIT_I (cpu->kod & (1 << 25))
-
-  // Rn can be PC, so we need to account for that
-  Rn = (cpu->kod >> 16) & 15;
-
-  if (BIT_I)
-    {
-    if (Rn != ARM7_PC)
-      arg1 = cpu->Rx [Rn];
-    else
-      arg1 = (cpu->Rx [ARM7_PC] & ~3) + 8 + PC_ADJUSTMENT;
-    // immediate in lowest 12 bits
-    arg2 = ROR (cpu->kod & 0xff, ((cpu->kod >> 8) & 0xf) * 2);
-    // preload carry out from C
-    cpu->carry = (cpu->Rx [ARM7_CPSR] & ARM7_CPSR_C) ? 1 : 0;
-    }
-  else
-    {
-    if (Rn != ARM7_PC)
-      arg1 = cpu->Rx [Rn];
-    else
-      // register or immediate shift?
-      if (cpu->kod & (1 << 4))
-        arg1 = (cpu->Rx [ARM7_PC] & ~3) + 12 + PC_ADJUSTMENT;
-      else
-        arg1 = (cpu->Rx [ARM7_PC] & ~3) + 8 + PC_ADJUSTMENT;
-    // calculate in barrel shifter
-    arg2 = WyliczPrzes (cpu);
-    }
-
-  // decode instruction type
-  switch ((cpu->kod >> 21) & 15)
-    {
-    case 0:
-      // AND
-      R_WynikDP (cpu, arg1 & arg2);
-      break;
-
-    case 1:
-      // EOR
-      R_WynikDP (cpu, arg1 ^ arg2);
-      break;
-
-    case 2:
-      // SUB
-      w = arg1 - arg2;
-      cpu->carry = SUBCARRY (arg1, arg2, w);
-      cpu->overflow = SUBOVERFLOW (arg1, arg2, w);
-      R_WynikDP (cpu, w);
-      break;
-
-    case 3:
-      // RSB
-      w = arg2 - arg1;
-      cpu->carry = SUBCARRY (arg2, arg1, w);
-      cpu->overflow = SUBOVERFLOW (arg2, arg1, w);
-      R_WynikDP (cpu, w);
-      break;
-
-    case 4:
-      // ADD
-      w = arg1 + arg2;
-      cpu->carry = ADDCARRY (arg1, arg2, w);
-      cpu->overflow = ADDOVERFLOW (arg1, arg2, w);
-      R_WynikDP (cpu, w);
-      break;
-
-    case 5:
-      // ADC
-      w = arg1 + arg2 + ((cpu->Rx [ARM7_CPSR] & ARM7_CPSR_C) ? 1 : 0);
-      cpu->carry = ADDCARRY (arg1, arg2, w);
-      cpu->overflow = ADDOVERFLOW (arg1, arg2, w);
-      R_WynikDP (cpu, w);
-      break;
-
-    case 6:
-      // SBC
-      w = arg1 - arg2 - ((cpu->Rx [ARM7_CPSR] & ARM7_CPSR_C) ? 0 : 1);
-      cpu->carry = SUBCARRY (arg1, arg2, w);
-      cpu->overflow = SUBOVERFLOW (arg1, arg2, w);
-      R_WynikDP (cpu, w);
-      break;
-
-    case 7:
-      // RSC
-      w = arg2 - arg1 - ((cpu->Rx [ARM7_CPSR] & ARM7_CPSR_C) ? 0 : 1);
-      cpu->carry = SUBCARRY (arg2, arg1, w);
-      cpu->overflow = SUBOVERFLOW (arg2, arg1, w);
-      R_WynikDP (cpu, w);
-      break;
-
-    case 8:
-      // TST
-      R_FlagiDP (cpu, arg1 & arg2);
-      break;
-
-    case 9:
-      // TEQ
-      R_FlagiDP (cpu, arg1 ^ arg2);
-      break;
-
-    case 10:
-      // CMP
-      w = arg1 - arg2;
-      cpu->carry = SUBCARRY (arg1, arg2, w);
-      cpu->overflow = SUBOVERFLOW (arg1, arg2, w);
-      R_FlagiDP (cpu, w);
-      break;
-
-    case 11:
-      // CMN
-      w = arg1 + arg2;
-      cpu->carry = ADDCARRY (arg1, arg2, w);
-      cpu->overflow = ADDOVERFLOW (arg1, arg2, w);
-      R_FlagiDP (cpu, w);
-      break;
-
-    case 12:
-      // ORR
-      R_WynikDP (cpu, arg1 | arg2);
-      break;
-
-    case 13:
-      // MOV
-      R_WynikDP (cpu, arg2);
-      break;
-
-    case 14:
-      // BIC
-      R_WynikDP (cpu, arg1 & ~arg2);
-      break;
-
-    case 15:
-      // MVN
-      R_WynikDP (cpu, ~arg2);
-      break;
-    }
-
-#undef BIT_I
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Data processing result writeback. */
-void R_WynikDP (struct sARM7 *cpu, ARM7_REG w)
-  {
-  int Rd;
-
-#define BIT_S (cpu->kod & (1 << 20))
-
-  Rd = (cpu->kod >> 12) & 15;
-  cpu->Rx [Rd] = w;
-  if (BIT_S)
-    {
-    if (Rd == ARM7_PC)
-      {
-      s_cykle += 4;
-      // copy current SPSR to CPSR
-      ARM7_SetCPSR (cpu, cpu->Rx [ARM7_SPSR]);
-      }
-    else
-      // save new flags
-      R_FlagiDP (cpu, w);
-    }
-
-#undef BIT_S
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Data processing flags writeback. */
-void R_FlagiDP (struct sARM7 *cpu, ARM7_REG w)
-  {
-  // arithmetic or logical instruction?
-  if (s_tabAL [(cpu->kod >> 21) & 15])
-    {
-    cpu->Rx [ARM7_CPSR] &= ~(ARM7_CPSR_N | ARM7_CPSR_Z | ARM7_CPSR_C |\
- ARM7_CPSR_V);
-    cpu->Rx [ARM7_CPSR] |= cpu->overflow << 28;
-    }
-  else
-    cpu->Rx [ARM7_CPSR] &= ~(ARM7_CPSR_N | ARM7_CPSR_Z | ARM7_CPSR_C);
-  cpu->Rx [ARM7_CPSR] |= cpu->carry << 29;
-  if (w == 0)
-    cpu->Rx [ARM7_CPSR] |= ARM7_CPSR_Z;
-  cpu->Rx [ARM7_CPSR] |= w & 0x80000000;
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Single data transfer. */
-void R_SDT (struct sARM7 *cpu)
-  {
-  int Rn, Rd, offset;
-  UINT32 adres, w = 0;
-
-#define BIT_I (cpu->kod & (1 << 25))
-#define BIT_P (cpu->kod & (1 << 24))
-#define BIT_U (cpu->kod & (1 << 23))
-#define BIT_B (cpu->kod & (1 << 22))
-#define BIT_W (cpu->kod & (1 << 21))
-#define BIT_L (cpu->kod & (1 << 20))
-
-  if (BIT_I && (cpu->kod & (1 << 4)))
-    {
-    R_Und (cpu);
-    return;
-    }
-
-  Rn = (cpu->kod >> 16) & 15,
-  Rd = (cpu->kod >> 12) & 15;
-  if (Rn != ARM7_PC)
-    adres = cpu->Rx [Rn];
-  else
-    adres = cpu->Rx [ARM7_PC] & ~3;
-  if (!BIT_L)
-    if (Rd != ARM7_PC)
-      w = cpu->Rx [Rd];
-    else
-      w = (cpu->Rx [ARM7_PC] & ~3) + 12 + PC_ADJUSTMENT;
-
-  if (BIT_I)
-    // calculate value in barrel shifter
-    offset = WyliczPrzes (cpu);
-  else
-    // immediate in lowest 12 bits
-    offset = cpu->kod & 0xfff;
-
-  if (!BIT_U)
-    offset = -offset;
-  if (BIT_P)
-    {
-    // "pre-index"
-    adres += offset;
-    if (BIT_W)
-      // "write-back"
-      cpu->Rx [Rn] = adres;
-    }
-  else
-    // "post-index"
-    cpu->Rx [Rn] += offset;
-  if (Rn == ARM7_PC)
-    adres += 8 + PC_ADJUSTMENT;
-
-  if (BIT_L)
-    {
-    s_cykle += 3;
-    // "load"
-    if (BIT_B)
-      // "byte"
-      cpu->Rx [Rd] = arm7_read_8 (cpu, adres);
-    else
-      // "word"
-      cpu->Rx [Rd] = RBOD (arm7_read_32 (cpu, adres & ~3), adres & 3);
-    }
-  else
-    {
-    s_cykle += 2;
-    // "store"
-    if (BIT_B)
-      // "byte"
-      arm7_write_8 (cpu, adres, (UINT8)w);
-    else
-      // "word"
-      arm7_write_32 (cpu, adres & ~3, w);
-    }
-
-#undef BIT_L
-#undef BIT_W
-#undef BIT_B
-#undef BIT_U
-#undef BIT_P
-#undef BIT_I
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Undefined. */
-void R_Und (struct sARM7 *cpu)
-  {
-  UINT32 sr = cpu->Rx [ARM7_CPSR];
-  ARM7_SetCPSR (cpu, ARM7_CPSR_MX (sr, ARM7_CPSR_M_und) | ARM7_CPSR_I);
-  cpu->Rx [ARM7_SPSR] = sr;
-  cpu->Rx [ARM7_LR] = cpu->Rx [ARM7_PC] + 4;
-  cpu->Rx [ARM7_PC] = 0x00000004;
-  }
-  //--------------------------------------------------------------------------
-
-#define BIT_U (cpu->kod & (1 << 23))
-#define BIT_S (cpu->kod & (1 << 22))
-  //--------------------------------------------------------------------------
-  /** Block Data Transfer. */
-void R_BDT (struct sARM7 *cpu)
-  {
-  int Rn, usr = FALSE;
-  UINT32 adres;
-  ARM7_REG cpsr = 0;
-
-#define BIT_L (cpu->kod & (1 << 20))
-
-  // Rn can't be PC
-  Rn = (cpu->kod >> 16) & 15;
-  adres = cpu->Rx [Rn];
-
-  // transfer in User mode
-  if (BIT_S)
-    if (!BIT_L || !(cpu->kod & (1 << ARM7_PC)))
-      usr = TRUE;
-
-  if (usr)
-    {
-//EMU_BLAD (BLAD_WEWNETRZNY, "BDT: user transfer");
-    cpsr = cpu->Rx [ARM7_CPSR];
-    ARM7_SetCPSR (cpu, ARM7_CPSR_MX (cpsr, ARM7_CPSR_M_usr));
-    }
-
-  if (BIT_L)
-    // "load"
-    R_LDM (cpu, Rn, adres);
-  else
-    // "store"
-    R_STM (cpu, Rn, adres);
-
-  if (usr)
-    ARM7_SetCPSR (cpu, cpsr);
-
-#undef BIT_L
-  }
-  //--------------------------------------------------------------------------
-
-#define BIT_P (cpu->kod & (1 << 24))
-#define BIT_W (cpu->kod & (1 << 21))
-  //--------------------------------------------------------------------------
-  /** Block load instructions. */
-void R_LDM (struct sARM7 *cpu, int Rn, UINT32 adres)
-  {
-  int i, n, sp;
-
-  // count registers on the list
-  for (i = 0, n = 0; i < 16; i++)
-    if (cpu->kod & (1 << i))
-      n++;
-  s_cykle += n * 2 + 1;
-
-  n <<= 2;
-  // transfer type
-  sp = BIT_P;
-  if (!BIT_U)
-    {
-    // "down"
-    n = -n;
-    adres += n;
-    sp = !sp;
-    }
-  if (BIT_W)
-    // "write-back"
-    cpu->Rx [Rn] += n;
-
-  // for all registers in mask
-  if (sp)
-    for (i = 0; i < 16; i++)
-      {
-      if (!(cpu->kod & (1 << i)))
-        continue;
-      adres += 4;
-      cpu->Rx [i] = arm7_read_32 (cpu, adres);
-      }
-  else
-    for (i = 0; i < 16; i++)
-      {
-      if (!(cpu->kod & (1 << i)))
-        continue;
-      cpu->Rx [i] = arm7_read_32 (cpu, adres);
-      adres += 4;
-      }
-
-  // special case - mode change when PC is written
-  if ((cpu->kod & (1 << ARM7_PC)) && BIT_S)
-    ARM7_SetCPSR (cpu, cpu->Rx [ARM7_SPSR]);
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Block store instructions. */
-void R_STM (struct sARM7 *cpu, int Rn, UINT32 adres)
-  {
-  int i, n, p, sp;
-
-  // count registers on the list and remember the first one
-  for (i = 0, n = 0, p = -1; i < 16; i++)
-    if (cpu->kod & (1 << i))
-      {
-      n++;
-      if (p < 0)
-        p = i;
-      }
-  s_cykle += n * 2;
-
-  n <<= 2;
-  // transfer type
-  sp = BIT_P;
-  if (!BIT_U)
-    {
-    // "down"
-    n = -n;
-    adres += n;
-    sp = !sp;
-    }
-  // if base register is not the first one to transfer, writeback happens here
-  if (BIT_W && Rn != p)
-    // "write-back"
-    cpu->Rx [Rn] += n;
-
-  // registers R0-R14
-  if (sp)
-    for (i = 0; i < 15; i++)
-      {
-      if (!(cpu->kod & (1 << i)))
-        continue;
-      adres += 4;
-      arm7_write_32 (cpu, adres, cpu->Rx [i]);
-      }
-  else
-    for (i = 0; i < 15; i++)
-      {
-      if (!(cpu->kod & (1 << i)))
-        continue;
-      arm7_write_32 (cpu, adres, cpu->Rx [i]);
-      adres += 4;
-      }
-
-  // PC is a special case
-  if (cpu->kod & (1 << ARM7_PC))
-  {
-    if (sp)
-      {
-      adres += 4;
-      arm7_write_32 (cpu, adres, (cpu->Rx [ARM7_PC] & ~3) + 12 + PC_ADJUSTMENT);
-      }
-    else
-      {
-      arm7_write_32 (cpu, adres, (cpu->Rx [ARM7_PC] & ~3) + 12 + PC_ADJUSTMENT);
-      adres += 4;
-      }
-   }
-
-  // if base register is the first one to transfer, writeback happens here
-  if (BIT_W && Rn == p)
-    // "write-back"
-    cpu->Rx [Rn] += n;
-  }
-  //--------------------------------------------------------------------------
-#undef BIT_W
-#undef BIT_P
-#undef BIT_S
-#undef BIT_U
-
-  //--------------------------------------------------------------------------
-  /** Branch/Branch with link. */
-void R_B_BL (struct sARM7 *cpu)
-  {
-  INT32 offset;
-
-#define BIT_L (cpu->kod & (1 << 24))
-
-  s_cykle += 4;
-  offset = (cpu->kod & 0x00ffffff) << 2;
-  if (offset & 0x02000000)
-    offset |= 0xfc000000;
-  offset += 8 + PC_ADJUSTMENT;
-  if (BIT_L)
-    // "Branch with link"
-    cpu->Rx [ARM7_LR] = (cpu->Rx [ARM7_PC] & ~3) + 4 + PC_ADJUSTMENT;
-  // "Branch"
-  cpu->Rx [ARM7_PC] += offset;
-
-#undef BIT_L
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Group 110 opcodes. */
-void R_G110 (struct sARM7 *cpu)
-  {
-//	logerror("ARM7: G110 / Coprocessor data transfer\n");
-  }
-  //--------------------------------------------------------------------------
-
-  //--------------------------------------------------------------------------
-  /** Group 111 opcodes. */
-void R_G111 (struct sARM7 *cpu)
-  {
-  if ((cpu->kod & 0xf0000000) == 0xe0000000)
-    {
-/*    if (cpu->kod & (1 << 4))
-	logerror("ARM7: G111 / Coprocessor register transfer\n");
-    else
-	logerror("ARM7: G111 / Coprocessor data operation\n"); */
-    }
-  else
-    {
-    UINT32 sr = cpu->Rx [ARM7_CPSR];
-    ARM7_SetCPSR (cpu, ARM7_CPSR_MX (sr, ARM7_CPSR_M_svc) | ARM7_CPSR_I);
-    cpu->Rx [ARM7_SPSR] = sr;
-    cpu->Rx [ARM7_LR] = cpu->Rx [ARM7_PC];
-    cpu->Rx [ARM7_PC] = 0x00000008;
-    }
-  }
-  //--------------------------------------------------------------------------
-
-#ifdef ARM7_THUMB
-  //--------------------------------------------------------------------------
-  /** Halfword and Signed Data Transfer. */
-void R_HSDT ()
-  {
-  int Rm, Rd, Rn, offset;
-  uint32_t adres, w;
-
-#define BIT_P (cpu->kod & (1 << 24))
-#define BIT_U (cpu->kod & (1 << 23))
-#define BIT_W (cpu->kod & (1 << 21))
-#define BIT_L (cpu->kod & (1 << 20))
-#define BIT_S (cpu->kod & (1 << 6))
-#define BIT_H (cpu->kod & (1 << 5))
-
-  // Rm can't be PC
-  Rn = (cpu->kod >> 16) & 15;
-  Rd = (cpu->kod >> 12) & 15;
-  if (Rn != ARM7_PC)
-    adres = cpu->Rx [Rn];
-  else
-    adres = cpu->Rx [ARM7_PC] & ~3;
-  if (!BIT_L)
-    if (Rd != ARM7_PC)
-      w = cpu->Rx [Rd];
-    else
-      w = (cpu->Rx [ARM7_PC] & ~3) + 12 + POPRAWKA_PC;
-
-  if (1 << 22)
-    // immediate
-    offset = ((cpu->kod >> 4) & 0xf0) | (cpu->kod & 15);
-  else
-    {
-    // register
-    Rm = cpu->kod & 15;
-    offset = cpu->Rx [Rm];
-    }
-
-  if (!BIT_U)
-    offset = -offset;
-  if (BIT_P)
-    {
-    // "pre-index"
-    adres += offset;
-    if (BIT_W)
-      // "write-back"
-      cpu->Rx [Rn] = adres;
-    }
-  else
-    // "post-index"
-    cpu->Rx [Rn] += offset;
-  if (Rn == ARM7_PC)
-    adres += 8 + POPRAWKA_PC;
-
-  if (BIT_L)
-    {
-    // "load"
-    s_cykle += 3;
-    if (BIT_S)
-      {
-      if (BIT_H)
-        // "signed halfword"
-        cpu->Rx [Rd] = (INT32)(INT16)arm7_read_16 (adres);
-      else
-        // "signed byte"
-        cpu->Rx [Rd] = (INT32)(INT8)arm7_read_8 (cpu, adres);
-      }
-    else
-      // "unsigned halfword"
-      cpu->Rx [Rd] = arm7_read_16 (adres);
-    }
-  else
-    {
-    // store
-    s_cykle += 2;
-    if (BIT_H)
-      // "halfword"
-      arm7_write_16 (adres, (UINT16)w);
-    else
-      // "byte"
-      arm7_write_8 (cpu, adres, (UINT8)w);
-    }
-
-#undef BIT_H
-#undef BIT_S
-#undef BIT_L
-#undef BIT_W
-#undef BIT_U
-#undef BIT_P
-  }
-  //--------------------------------------------------------------------------
-#endif
diff --git a/plugins/ao/eng_dsf/arm7i.h b/plugins/ao/eng_dsf/arm7i.h
deleted file mode 100644
index 9ca50188..00000000
--- a/plugins/ao/eng_dsf/arm7i.h
+++ /dev/null
@@ -1,19 +0,0 @@
-//
-// ARM7 processor emulator - interpreter core
-// version 1.6 / 2008-02-16
-// (c) Radoslaw Balcewicz
-//
-
-#ifndef _ARM7i_h_
-#define _ARM7i_h_
-
-#include "arm7.h"
-
-  //--------------------------------------------------------------------------
-  // public functions
-
-  /** Single step, returns number of burned cycles. */
-int ARM7i_Step(struct sARM7 *cpu);
-  //--------------------------------------------------------------------------
-
-#endif
diff --git a/plugins/ao/eng_dsf/arm7memil.c b/plugins/ao/eng_dsf/arm7memil.c
deleted file mode 100644
index c1872a2c..00000000
--- a/plugins/ao/eng_dsf/arm7memil.c
+++ /dev/null
@@ -1,56 +0,0 @@
-// memory inline functions shared by ARM and THUMB modes
-
-static INLINE void arm7_write_32(struct sARM7 *cpu, UINT32 addr, UINT32 data )
-{
-	addr &= ~3;
-	dc_write32(cpu, addr,data);
-}
-
-
-static INLINE void arm7_write_16(struct sARM7 *cpu, UINT32 addr, UINT16 data)
-{
-	addr &= ~1;
-	dc_write16(cpu, addr,data);
-}
-
-static INLINE void arm7_write_8(struct sARM7 *cpu, UINT32 addr, UINT8 data)
-{
-	dc_write8(cpu, addr,data);
-}
-
-static INLINE UINT32 arm7_read_32(struct sARM7 *cpu, UINT32 addr)
-{
-    UINT32 result;
-    int k = (addr & 3) << 3;
-
-    if (k)
-    {
-        result = dc_read32 (cpu, addr & ~3);
-        result = (result >> k) | (result << (32 - k));
-    }
-    else
-    {
-    	result = dc_read32(cpu, addr);
-    }
-    return result;
-}
-
-static INLINE UINT16 arm7_read_16(struct sARM7 *cpu, UINT32 addr)
-{
-	UINT16 result;
-
-	result = dc_read16(cpu, addr & ~1);
-
-	if (addr & 1)
-	{
-		result = ((result>>8) & 0xff) | ((result&0xff)<<8);
-	}
-
-	return result;
-}
-
-static INLINE UINT8 arm7_read_8(struct sARM7 *cpu, UINT32 addr)
-{
-    return dc_read8(cpu, addr);
-}
-
diff --git a/plugins/ao/eng_psf/cpuintrf.h b/plugins/ao/eng_psf/cpuintrf.h
deleted file mode 100644
index 1317f418..00000000
--- a/plugins/ao/eng_psf/cpuintrf.h
+++ /dev/null
@@ -1,668 +0,0 @@
-#ifndef CPUINTRF_H
-#define CPUINTRF_H
-
-#include "osd_cpu.h"
-
-/* The old system is obsolete and no longer supported by the core */
-#define NEW_INTERRUPT_SYSTEM    1
-
-#define MAX_IRQ_LINES   8       /* maximum number of IRQ lines per CPU */
-
-#define CLEAR_LINE		0		/* clear (a fired, held or pulsed) line */
-#define ASSERT_LINE     1       /* assert an interrupt immediately */
-#define HOLD_LINE       2       /* hold interrupt line until enable is true */
-#define PULSE_LINE		3		/* pulse interrupt line for one instruction */
-
-#define MAX_REGS		64		/* maximum number of register of any CPU */
-
-#define	IRQ_LINE_NMI	10
-/* Values passed to the cpu_info function of a core to retrieve information */
-enum {
-	CPU_INFO_REG,
-	CPU_INFO_FLAGS=MAX_REGS,
-	CPU_INFO_NAME,
-    CPU_INFO_FAMILY,
-    CPU_INFO_VERSION,
-    CPU_INFO_FILE,
-    CPU_INFO_CREDITS,
-    CPU_INFO_REG_LAYOUT,
-	CPU_INFO_WIN_LAYOUT
-};
-
-#define CPU_IS_LE		0	/* emulated CPU is little endian */
-#define CPU_IS_BE		1	/* emulated CPU is big endian */
-
-/*
- * This value is passed to cpu_get_reg to retrieve the previous
- * program counter value, ie. before a CPU emulation started
- * to fetch opcodes and arguments for the current instrution.
- */
-#define REG_PREVIOUSPC	-1
-
-/*
- * This value is passed to cpu_get_reg/cpu_set_reg, instead of one of
- * the names from the enum a CPU core defines for it's registers,
- * to get or set the contents of the memory pointed to by a stack pointer.
- * You can specify the n'th element on the stack by (REG_SP_CONTENTS-n),
- * ie. lower negative values. The actual element size (UINT16 or UINT32)
- * depends on the CPU core.
- * This is also used to replace the cpu_geturnpc() function.
- */
-#define REG_SP_CONTENTS -2
-
-/*
- * These flags can be defined in the makefile (or project) to
- * exclude (zero) or include (non zero) specific CPU cores
- */
-#ifndef HAS_GENSYNC
-#define HAS_GENSYNC		0
-#endif
-#ifndef HAS_Z80
-#define HAS_Z80 		0
-#endif
-#ifndef HAS_Z80_VM
-#define HAS_Z80_VM		0
-#endif
-#ifndef HAS_8080
-#define HAS_8080		0
-#endif
-#ifndef HAS_8085A
-#define HAS_8085A		0
-#endif
-#ifndef HAS_M6502
-#define HAS_M6502		0
-#endif
-#ifndef HAS_M65C02
-#define HAS_M65C02		0
-#endif
-#ifndef HAS_M65SC02
-#define HAS_M65SC02		0
-#endif
-#ifndef HAS_M65CE02
-#define HAS_M65CE02		0
-#endif
-#ifndef HAS_M6509
-#define HAS_M6509		0
-#endif
-#ifndef HAS_M6510
-#define HAS_M6510		0
-#endif
-#ifndef HAS_N2A03
-#define HAS_N2A03		0
-#endif
-#ifndef HAS_H6280
-#define HAS_H6280		0
-#endif
-#ifndef HAS_I86
-#define HAS_I86 		0
-#endif
-#ifndef HAS_V20
-#define HAS_V20 		0
-#endif
-#ifndef HAS_V30
-#define HAS_V30 		0
-#endif
-#ifndef HAS_V33
-#define HAS_V33 		0
-#endif
-#ifndef HAS_I8035
-#define HAS_I8035		0
-#endif
-#ifndef HAS_I8039
-#define HAS_I8039		0
-#endif
-#ifndef HAS_I8048
-#define HAS_I8048		0
-#endif
-#ifndef HAS_N7751
-#define HAS_N7751		0
-#endif
-#ifndef HAS_M6800
-#define HAS_M6800		0
-#endif
-#ifndef HAS_M6801
-#define HAS_M6801		0
-#endif
-#ifndef HAS_M6802
-#define HAS_M6802		0
-#endif
-#ifndef HAS_M6803
-#define HAS_M6803		0
-#endif
-#ifndef HAS_M6808
-#define HAS_M6808		0
-#endif
-#ifndef HAS_HD63701
-#define HAS_HD63701 	0
-#endif
-#ifndef HAS_M6805
-#define HAS_M6805		0
-#endif
-#ifndef HAS_M68705
-#define HAS_M68705		0
-#endif
-#ifndef HAS_HD63705
-#define HAS_HD63705 	0
-#endif
-#ifndef HAS_HD6309
-#define HAS_HD6309		0
-#endif
-#ifndef HAS_M6809
-#define HAS_M6809		0
-#endif
-#ifndef HAS_KONAMI
-#define HAS_KONAMI		0
-#endif
-#ifndef HAS_M68000
-#define HAS_M68000		0
-#endif
-#ifndef HAS_M68010
-#define HAS_M68010		0
-#endif
-#ifndef HAS_M68020
-#define HAS_M68020		0
-#endif
-#ifndef HAS_T11
-#define HAS_T11 		0
-#endif
-#ifndef HAS_S2650
-#define HAS_S2650		0
-#endif
-#ifndef HAS_TMS34010
-#define HAS_TMS34010	0
-#endif
-#ifndef HAS_TMS9900
-#define HAS_TMS9900 	0
-#endif
-#ifndef HAS_TMS9940
-#define HAS_TMS9940 	0
-#endif
-#ifndef HAS_TMS9980
-#define HAS_TMS9980 	0
-#endif
-#ifndef HAS_TMS9985
-#define HAS_TMS9985 	0
-#endif
-#ifndef HAS_TMS9989
-#define HAS_TMS9989 	0
-#endif
-#ifndef HAS_TMS9995
-#define HAS_TMS9995 	0
-#endif
-#ifndef HAS_TMS99105A
-#define HAS_TMS99105A 	0
-#endif
-#ifndef HAS_TMS99110A
-#define HAS_TMS99110A 	0
-#endif
-#ifndef HAS_Z8000
-#define HAS_Z8000		0
-#endif
-#ifndef HAS_TMS320C10
-#define HAS_TMS320C10	0
-#endif
-#ifndef HAS_CCPU
-#define HAS_CCPU		0
-#endif
-#ifndef HAS_PDP1
-#define HAS_PDP1		0
-#endif
-#ifndef HAS_ADSP2100
-#define HAS_ADSP2100	0
-#endif
-
-/* ASG 971222 -- added this generic structure */
-struct cpu_interface
-{
-    unsigned cpu_num;
-    void (*reset)(void *param);
-    void (*exit)(void);
-    int (*execute)(int cycles);
-    void (*burn)(int cycles);
-    unsigned (*get_context)(void *reg);
-    void (*set_context)(void *reg);
-    unsigned (*get_pc)(void);
-    void (*set_pc)(unsigned val);
-    unsigned (*get_sp)(void);
-    void (*set_sp)(unsigned val);
-    unsigned (*get_reg)(int regnum);
-    void (*set_reg)(int regnum, unsigned val);
-    void (*set_nmi_line)(int linestate);
-    void (*set_irq_line)(int irqline, int linestate);
-    void (*set_irq_callback)(int(*callback)(int irqline));
-    void (*internal_interrupt)(int type);
-    void (*cpu_state_save)(void *file);
-    void (*cpu_state_load)(void *file);
-    const char* (*cpu_info)(void *context,int regnum);
-    unsigned (*cpu_dasm)(char *buffer,unsigned pc);
-	unsigned num_irqs;
-	int default_vector;
-    int *icount;
-    double overclock;
-    int no_int, irq_int, nmi_int;
-    int (*memory_read)(int offset);
-    void (*memory_write)(int offset, int data);
-    void (*set_op_base)(int pc);
-	int address_shift;
-	unsigned address_bits, endianess, align_unit, max_inst_len;
-    unsigned abits1, abits2, abitsmin;
-};
-
-extern struct cpu_interface cpuintf[];
-
-void cpu_init(void);
-void cpu_run(void);
-
-/* optional watchdog */
-void watchdog_reset_w(int offset,int data);
-int watchdog_reset_r(int offset);
-/* Use this function to reset the machine */
-void machine_reset(void);
-/* Use this function to reset a single CPU */
-void cpu_set_reset_line(int cpu,int state);
-/* Use this function to halt a single CPU */
-void cpu_set_halt_line(int cpu,int state);
-
-/* This function returns CPUNUM current status (running or halted) */
-int cpu_getstatus(int cpunum);
-int cpu_gettotalcpu(void);
-int cpu_getactivecpu(void);
-void cpu_setactivecpu(int cpunum);
-
-/* Returns the current program counter */
-unsigned cpu_get_pc(void);
-/* Set the current program counter */
-void cpu_set_pc(unsigned val);
-
-/* Returns the current stack pointer */
-unsigned cpu_get_sp(void);
-/* Set the current stack pointer */
-void cpu_set_sp(unsigned val);
-
-/* Get the active CPUs context and return it's size */
-unsigned cpu_get_context(void *context);
-/* Set the active CPUs context */
-void cpu_set_context(void *context);
-
-/* Returns a specific register value (mamedbg) */
-unsigned cpu_get_reg(int regnum);
-/* Sets a specific register value (mamedbg) */
-void cpu_set_reg(int regnum, unsigned val);
-
-/* Returns previous pc (start of opcode causing read/write) */
-/* int cpu_getpreviouspc(void); */
-#define cpu_getpreviouspc() cpu_get_reg(REG_PREVIOUSPC)
-
-/* Returns the return address from the top of the stack (Z80 only) */
-/* int cpu_getreturnpc(void); */
-/* This can now be handled with a generic function */
-#define cpu_geturnpc() cpu_get_reg(REG_SP_CONTENTS)
-
-int cycles_currently_ran(void);
-int cycles_left_to_run(void);
-
-/* Returns the number of CPU cycles which take place in one video frame */
-int cpu_gettotalcycles(void);
-/* Returns the number of CPU cycles before the next interrupt handler call */
-int cpu_geticount(void);
-/* Returns the number of CPU cycles before the end of the current video frame */
-int cpu_getfcount(void);
-/* Returns the number of CPU cycles in one video frame */
-int cpu_getfperiod(void);
-/* Scales a given value by the ratio of fcount / fperiod */
-int cpu_scalebyfcount(int value);
-/* Returns the current scanline number */
-int cpu_getscanline(void);
-/* Returns the amount of time until a given scanline */
-double cpu_getscanlinetime(int scanline);
-/* Returns the duration of a single scanline */
-double cpu_getscanlineperiod(void);
-/* Returns the duration of a single scanline in cycles */
-int cpu_getscanlinecycles(void);
-/* Returns the number of cycles since the beginning of this frame */
-int cpu_getcurrentcycles(void);
-/* Returns the current horizontal beam position in pixels */
-int cpu_gethorzbeampos(void);
-/*
-  Returns the number of times the interrupt handler will be called before
-  the end of the current video frame. This is can be useful to interrupt
-  handlers to synchronize their operation. If you call this from outside
-  an interrupt handler, add 1 to the result, i.e. if it returns 0, it means
-  that the interrupt handler will be called once.
-*/
-int cpu_getiloops(void);
-
-/* Returns the current VBLANK state */
-int cpu_getvblank(void);
-
-/* Returns the number of the video frame we are currently playing */
-int cpu_getcurrentframe(void);
-
-
-/* generate a trigger after a specific period of time */
-void cpu_triggertime (double duration, int trigger);
-/* generate a trigger now */
-void cpu_trigger (int trigger);
-
-/* burn CPU cycles until a timer trigger */
-void cpu_spinuntil_trigger (int trigger);
-/* burn CPU cycles until the next interrupt */
-void cpu_spinuntil_int (void);
-/* burn CPU cycles until our timeslice is up */
-void cpu_spin (void);
-/* burn CPU cycles for a specific period of time */
-void cpu_spinuntil_time (double duration);
-
-/* yield our timeslice for a specific period of time */
-void cpu_yielduntil_trigger (int trigger);
-/* yield our timeslice until the next interrupt */
-void cpu_yielduntil_int (void);
-/* yield our current timeslice */
-void cpu_yield (void);
-/* yield our timeslice for a specific period of time */
-void cpu_yielduntil_time (double duration);
-
-/* set the NMI line state for a CPU, normally use PULSE_LINE */
-void cpu_set_nmi_line(int cpunum, int state);
-/* set the IRQ line state for a specific irq line of a CPU */
-/* normally use state HOLD_LINE, irqline 0 for first IRQ type of a cpu */
-void cpu_set_irq_line(int cpunum, int irqline, int state);
-/* this is to be called by CPU cores only! */
-void cpu_generate_internal_interrupt(int cpunum, int type);
-/* set the vector to be returned during a CPU's interrupt acknowledge cycle */
-void cpu_irq_line_vector_w(int cpunum, int irqline, int vector);
-
-/* use these in your write memory/port handles to set an IRQ vector */
-/* offset corresponds to the irq line number here */
-void cpu_0_irq_line_vector_w(int offset, int data);
-void cpu_1_irq_line_vector_w(int offset, int data);
-void cpu_2_irq_line_vector_w(int offset, int data);
-void cpu_3_irq_line_vector_w(int offset, int data);
-void cpu_4_irq_line_vector_w(int offset, int data);
-void cpu_5_irq_line_vector_w(int offset, int data);
-void cpu_6_irq_line_vector_w(int offset, int data);
-void cpu_7_irq_line_vector_w(int offset, int data);
-
-/* Obsolete functions: avoid to use them in new drivers if possible. */
-
-/* cause an interrupt on a CPU */
-void cpu_cause_interrupt(int cpu,int type);
-void cpu_clear_pending_interrupts(int cpu);
-void interrupt_enable_w(int offset,int data);
-void interrupt_vector_w(int offset,int data);
-int interrupt(void);
-int nmi_interrupt(void);
-int m68_level1_irq(void);
-int m68_level2_irq(void);
-int m68_level3_irq(void);
-int m68_level4_irq(void);
-int m68_level5_irq(void);
-int m68_level6_irq(void);
-int m68_level7_irq(void);
-int ignore_interrupt(void);
-
-/* CPU context access */
-void* cpu_getcontext (int _activecpu);
-int cpu_is_saving_context(int _activecpu);
-
-/***************************************************************************
- * Get information for the currently active CPU
- * cputype is a value from the CPU enum in driver.h
- ***************************************************************************/
-/* Return number of address bits */
-unsigned cpu_address_bits(void);
-/* Return address mask */
-unsigned cpu_address_mask(void);
-/* Return address shift factor (TMS34010 bit addressing mode) */
-int cpu_address_shift(void);
-/* Return endianess of the emulated CPU (CPU_IS_LE or CPU_IS_BE) */
-unsigned cpu_endianess(void);
-/* Return opcode align unit (1 byte, 2 word, 4 dword) */
-unsigned cpu_align_unit(void);
-/* Return maximum instruction length */
-unsigned cpu_max_inst_len(void);
-
-/* Return name of the active CPU */
-const char *cpu_name(void);
-/* Return family name of the active CPU */
-const char *cpu_core_family(void);
-/* Return core version of the active CPU */
-const char *cpu_core_version(void);
-/* Return core filename of the active CPU */
-const char *cpu_core_file(void);
-/* Return credits info for of the active CPU */
-const char *cpu_core_credits(void);
-/* Return register layout definition for the active CPU */
-const char *cpu_reg_layout(void);
-/* Return (debugger) window layout definition for the active CPU */
-const char *cpu_win_layout(void);
-
-/* Disassemble an instruction at PC into the given buffer */
-unsigned cpu_dasm(char *buffer, unsigned pc);
-/* Return a string describing the currently set flag (status) bits of the active CPU */
-const char *cpu_flags(void);
-/* Return a string with a register name and hex value for the active CPU */
-/* regnum is a value defined in the CPU cores header files */
-const char *cpu_dump_reg(int regnum);
-/* Return a string describing the active CPUs current state */
-const char *cpu_dump_state(void);
-
-/***************************************************************************
- * Get information for a specific CPU type
- * cputype is a value from the CPU enum in driver.h
- ***************************************************************************/
-/* Return address shift factor */
-/* TMS320C10 -1: word addressing mode, TMS34010 3: bit addressing mode */
-int cputype_address_shift(int cputype);
-/* Return number of address bits */
-unsigned cputype_address_bits(int cputype);
-/* Return address mask */
-unsigned cputype_address_mask(int cputype);
-/* Return endianess of the emulated CPU (CPU_IS_LE or CPU_IS_BE) */
-unsigned cputype_endianess(int cputype);
-/* Return opcode align unit (1 byte, 2 word, 4 dword) */
-unsigned cputype_align_unit(int cputype);
-/* Return maximum instruction length */
-unsigned cputype_max_inst_len(int cputype);
-
-/* Return name of the CPU */
-const char *cputype_name(int cputype);
-/* Return family name of the CPU */
-const char *cputype_core_family(int cputype);
-/* Return core version number of the CPU */
-const char *cputype_core_version(int cputype);
-/* Return core filename of the CPU */
-const char *cputype_core_file(int cputype);
-/* Return credits for the CPU core */
-const char *cputype_core_credits(int cputype);
-/* Return register layout definition for the CPU core */
-const char *cputype_reg_layout(int cputype);
-/* Return (debugger) window layout definition for the CPU core */
-const char *cputype_win_layout(int cputype);
-
-/***************************************************************************
- * Get (or set) information for a numbered CPU of the running machine
- * cpunum is a value between 0 and cpu_gettotalcpu() - 1
- ***************************************************************************/
-/* Return number of address bits */
-unsigned cpunum_address_bits(int cputype);
-/* Return address mask */
-unsigned cpunum_address_mask(int cputype);
-/* Return endianess of the emulated CPU (CPU_LSB_FIRST or CPU_MSB_FIRST) */
-unsigned cpunum_endianess(int cputype);
-/* Return opcode align unit (1 byte, 2 word, 4 dword) */
-unsigned cpunum_align_unit(int cputype);
-/* Return maximum instruction length */
-unsigned cpunum_max_inst_len(int cputype);
-
-/* Get a register value for the specified CPU number of the running machine */
-unsigned cpunum_get_reg(int cpunum, int regnum);
-/* Set a register value for the specified CPU number of the running machine */
-void cpunum_set_reg(int cpunum, int regnum, unsigned val);
-
-/* Return (debugger) register layout definition for the CPU core */
-const char *cpunum_reg_layout(int cpunum);
-/* Return (debugger) window layout definition for the CPU core */
-const char *cpunum_win_layout(int cpunum);
-
-unsigned cpunum_dasm(int cpunum,char *buffer,unsigned pc);
-/* Return a string describing the currently set flag (status) bits of the CPU */
-const char *cpunum_flags(int cpunum);
-/* Return a string with a register name and value */
-/* regnum is a value defined in the CPU cores header files */
-const char *cpunum_dump_reg(int cpunum, int regnum);
-/* Return a string describing the CPUs current state */
-const char *cpunum_dump_state(int cpunum);
-/* Return a name for the specified cpu number */
-const char *cpunum_name(int cpunum);
-/* Return a family name for the specified cpu number */
-const char *cpunum_core_family(int cpunum);
-/* Return a version for the specified cpu number */
-const char *cpunum_core_version(int cpunum);
-/* Return a the source filename for the specified cpu number */
-const char *cpunum_core_file(int cpunum);
-/* Return a the credits for the specified cpu number */
-const char *cpunum_core_credits(int cpunum);
-
-/* Dump all of the running machines CPUs state to stderr */
-void cpu_dump_states(void);
-
-/* daisy-chain link */
-typedef struct {
-    void (*reset)(int);             /* reset callback     */
-    int  (*interrupt_entry)(int);   /* entry callback     */
-    void (*interrupt_reti)(int);    /* reti callback      */
-    int irq_param;                  /* callback paramater */
-}	Z80_DaisyChain;
-
-#define Z80_MAXDAISY	4		/* maximum of daisy chan device */
-
-#define Z80_INT_REQ     0x01    /* interrupt request mask       */
-#define Z80_INT_IEO     0x02    /* interrupt disable mask(IEO)  */
-
-#define Z80_VECTOR(device,state) (((device)<<8)|(state))
-
-#ifndef INLINE
-#define INLINE 		inline
-#endif
-
-#include <string.h>
-#include <stdlib.h>
-#include <stdio.h>
-
-#define cpu_readmem16		memory_read
-#define cpu_readport16		memory_readport
-#define cpu_writeport16		memory_writeport
-#define cpu_writemem16		memory_write
-#define cpu_readop			memory_readop
-#define cpu_readop_arg		memory_read
-#define logerror(x, ...)
-#define change_pc16(x)
-#define CALL_MAME_DEBUG
-
-#define ADDRESS_SPACES			3						/* maximum number of address spaces */
-#define ADDRESS_SPACE_PROGRAM	0						/* program address space */
-#define ADDRESS_SPACE_DATA		1						/* data address space */
-#define ADDRESS_SPACE_IO		2						/* I/O address space */
-
-enum
-{
-	/* internal flags (not for use by drivers!) */
-	INTERNAL_CLEAR_LINE = 100 + CLEAR_LINE,
-	INTERNAL_ASSERT_LINE = 100 + ASSERT_LINE,
-
-	/* input lines */
-	MAX_INPUT_LINES = 32+3,
-	INPUT_LINE_IRQ0 = 0,
-	INPUT_LINE_IRQ1 = 1,
-	INPUT_LINE_IRQ2 = 2,
-	INPUT_LINE_IRQ3 = 3,
-	INPUT_LINE_IRQ4 = 4,
-	INPUT_LINE_IRQ5 = 5,
-	INPUT_LINE_IRQ6 = 6,
-	INPUT_LINE_IRQ7 = 7,
-	INPUT_LINE_IRQ8 = 8,
-	INPUT_LINE_IRQ9 = 9,
-	INPUT_LINE_NMI = MAX_INPUT_LINES - 3,
-
-	/* special input lines that are implemented in the core */
-	INPUT_LINE_RESET = MAX_INPUT_LINES - 2,
-	INPUT_LINE_HALT = MAX_INPUT_LINES - 1,
-
-	/* output lines */
-	MAX_OUTPUT_LINES = 32
-};
-
-enum
-{
-	/* --- the following bits of info are returned as 64-bit signed integers --- */
-	CPUINFO_INT_FIRST = 0x00000,
-
-	CPUINFO_INT_CONTEXT_SIZE = CPUINFO_INT_FIRST,		/* R/O: size of CPU context in bytes */
-	CPUINFO_INT_INPUT_LINES,							/* R/O: number of input lines */
-	CPUINFO_INT_OUTPUT_LINES,							/* R/O: number of output lines */
-	CPUINFO_INT_DEFAULT_IRQ_VECTOR,						/* R/O: default IRQ vector */
-	CPUINFO_INT_ENDIANNESS,								/* R/O: either CPU_IS_BE or CPU_IS_LE */
-	CPUINFO_INT_CLOCK_DIVIDER,							/* R/O: internal clock divider */
-	CPUINFO_INT_MIN_INSTRUCTION_BYTES,					/* R/O: minimum bytes per instruction */
-	CPUINFO_INT_MAX_INSTRUCTION_BYTES,					/* R/O: maximum bytes per instruction */
-	CPUINFO_INT_MIN_CYCLES,								/* R/O: minimum cycles for a single instruction */
-	CPUINFO_INT_MAX_CYCLES,								/* R/O: maximum cycles for a single instruction */
-
-	CPUINFO_INT_DATABUS_WIDTH,							/* R/O: data bus size for each address space (8,16,32,64) */
-	CPUINFO_INT_DATABUS_WIDTH_LAST = CPUINFO_INT_DATABUS_WIDTH + ADDRESS_SPACES - 1,
-	CPUINFO_INT_ADDRBUS_WIDTH,							/* R/O: address bus size for each address space (12-32) */
-	CPUINFO_INT_ADDRBUS_WIDTH_LAST = CPUINFO_INT_ADDRBUS_WIDTH + ADDRESS_SPACES - 1,
-	CPUINFO_INT_ADDRBUS_SHIFT,							/* R/O: shift applied to addresses each address space (+3 means >>3, -1 means <<1) */
-	CPUINFO_INT_ADDRBUS_SHIFT_LAST = CPUINFO_INT_ADDRBUS_SHIFT + ADDRESS_SPACES - 1,
-
-	CPUINFO_INT_SP,										/* R/W: the current stack pointer value */
-	CPUINFO_INT_PC,										/* R/W: the current PC value */
-	CPUINFO_INT_PREVIOUSPC,								/* R/W: the previous PC value */
-	CPUINFO_INT_INPUT_STATE,							/* R/W: states for each input line */
-	CPUINFO_INT_INPUT_STATE_LAST = CPUINFO_INT_INPUT_STATE + MAX_INPUT_LINES - 1,
-	CPUINFO_INT_OUTPUT_STATE,							/* R/W: states for each output line */
-	CPUINFO_INT_OUTPUT_STATE_LAST = CPUINFO_INT_OUTPUT_STATE + MAX_OUTPUT_LINES - 1,
-	CPUINFO_INT_REGISTER,								/* R/W: values of up to MAX_REGs registers */
-	CPUINFO_INT_REGISTER_LAST = CPUINFO_INT_REGISTER + MAX_REGS - 1,
-
-	CPUINFO_INT_CPU_SPECIFIC = 0x08000,					/* R/W: CPU-specific values start here */
-
-	/* --- the following bits of info are returned as pointers to data or functions --- */
-	CPUINFO_PTR_FIRST = 0x10000,
-
-	CPUINFO_PTR_SET_INFO = CPUINFO_PTR_FIRST,			/* R/O: void (*set_info)(UINT32 state, INT64 data, void *ptr) */
-	CPUINFO_PTR_GET_CONTEXT,							/* R/O: void (*get_context)(void *buffer) */
-	CPUINFO_PTR_SET_CONTEXT,							/* R/O: void (*set_context)(void *buffer) */
-	CPUINFO_PTR_INIT,									/* R/O: void (*init)(void) */
-	CPUINFO_PTR_RESET,									/* R/O: void (*reset)(void *param) */
-	CPUINFO_PTR_EXIT,									/* R/O: void (*exit)(void) */
-	CPUINFO_PTR_EXECUTE,								/* R/O: int (*execute)(int cycles) */
-	CPUINFO_PTR_BURN,									/* R/O: void (*burn)(int cycles) */
-	CPUINFO_PTR_DISASSEMBLE,							/* R/O: void (*disassemble)(char *buffer, offs_t pc) */
-	CPUINFO_PTR_IRQ_CALLBACK,							/* R/W: int (*irqcallback)(int state) */
-	CPUINFO_PTR_INSTRUCTION_COUNTER,					/* R/O: int *icount */
-	CPUINFO_PTR_REGISTER_LAYOUT,						/* R/O: struct debug_register_layout *layout */
-	CPUINFO_PTR_WINDOW_LAYOUT,							/* R/O: struct debug_window_layout *layout */
-	CPUINFO_PTR_INTERNAL_MEMORY_MAP,					/* R/O: construct_map_t map */
-	CPUINFO_PTR_INTERNAL_MEMORY_MAP_LAST = CPUINFO_PTR_INTERNAL_MEMORY_MAP + ADDRESS_SPACES - 1,
-	CPUINFO_PTR_DEBUG_REGISTER_LIST,					/* R/O: int *list: list of registers for NEW_DEBUGGER */
-
-	CPUINFO_PTR_CPU_SPECIFIC = 0x18000,					/* R/W: CPU-specific values start here */
-
-	/* --- the following bits of info are returned as NULL-terminated strings --- */
-	CPUINFO_STR_FIRST = 0x20000,
-
-	CPUINFO_STR_NAME = CPUINFO_STR_FIRST,				/* R/O: name of the CPU */
-	CPUINFO_STR_CORE_FAMILY,							/* R/O: family of the CPU */
-	CPUINFO_STR_CORE_VERSION,							/* R/O: version of the CPU core */
-	CPUINFO_STR_CORE_FILE,								/* R/O: file containing the CPU core */
-	CPUINFO_STR_CORE_CREDITS,							/* R/O: credits for the CPU core */
-	CPUINFO_STR_FLAGS,									/* R/O: string representation of the main flags value */
-	CPUINFO_STR_REGISTER,								/* R/O: string representation of up to MAX_REGs registers */
-	CPUINFO_STR_REGISTER_LAST = CPUINFO_STR_REGISTER + MAX_REGS - 1,
-
-	CPUINFO_STR_CPU_SPECIFIC = 0x28000					/* R/W: CPU-specific values start here */
-};
-
-#endif	/* CPUINTRF_H */
diff --git a/plugins/ao/eng_psf/mamemem.h b/plugins/ao/eng_psf/mamemem.h
deleted file mode 100644
index a28deca8..00000000
--- a/plugins/ao/eng_psf/mamemem.h
+++ /dev/null
@@ -1,662 +0,0 @@
-#ifndef _MEMORY_H
-#define _MEMORY_H
-
-#include <stddef.h>
-
-#ifdef __cplusplus
-extern "C" {
-#endif
-
-#ifdef __GNU__
-#define UNUSEDARG __attribute__((__unused__))
-#else
-#define UNUSEDARG
-#endif
-
-#define MAX_BANKS		20
-
-
-/* obsolete, to be removed */
-#define READ_WORD(a)		  (*(UINT16 *)(a))
-#define WRITE_WORD(a,d) 	  (*(UINT16 *)(a) = (d))
-#define COMBINE_WORD(w,d)	  (((w) & ((d) >> 16)) | ((d) & 0xffff))
-#define COMBINE_WORD_MEM(a,d) (WRITE_WORD((a), (READ_WORD(a) & ((d) >> 16)) | (d)))
-
-#define ASSERT_LINE (1)
-#define CLEAR_LINE  (0)
-#define TIME_NEVER (0)
-
-#define TIME_IN_HZ(hz)        (1.0 / (double)(hz))
-#define TIME_IN_MSEC(ms)      ((double)(ms) * (1.0 / 1000.0))
-#define TIME_IN_USEC(us)      ((double)(us) * (1.0 / 1000000.0))
-
-/***************************************************************************
-
-Note that the memory hooks are not passed the actual memory address where
-the operation takes place, but the offset from the beginning of the block
-they are assigned to. This makes handling of mirror addresses easier, and
-makes the handlers a bit more "object oriented". If you handler needs to
-read/write the main memory area, provide a "base" pointer: it will be
-initialized by the main engine to point to the beginning of the memory block
-assigned to the handler. You may also provided a pointer to "size": it
-will be set to the length of the memory area processed by the handler.
-
-***************************************************************************/
-
-#define MEMORY_WIDTH_MASK		0x00000003
-#define MEMORY_WIDTH_8			0x00000001
-#define MEMORY_WIDTH_16 		0x00000002
-#define MEMORY_WIDTH_32 		0x00000003
-
-#define MEMORY_TYPE_MASK		0x30000000
-#define MEMORY_TYPE_MEM 		0x10000000
-#define MEMORY_TYPE_IO			0x20000000
-
-#define MEMORY_DIRECTION_MASK   0xc0000000
-#define MEMORY_DIRECTION_READ   0x40000000
-#define MEMORY_DIRECTION_WRITE  0x80000000
-
-typedef unsigned int offs_t;
-typedef offs_t (*opbase_handler)(UNUSEDARG offs_t address);
-
-/***************************************************************************
-	8-BIT	Core memory read/write/opbase handler types
-***************************************************************************/
-
-typedef unsigned char data8_t;
-typedef unsigned short data16_t;
-
-typedef data8_t (*mem_read_handler)(UNUSEDARG offs_t offset);
-typedef void (*mem_write_handler)(UNUSEDARG offs_t offset, UNUSEDARG data8_t data);
-
-#define READ_HANDLER(name) data8_t name(UNUSEDARG offs_t offset)
-#define WRITE_HANDLER(name) void name(UNUSEDARG offs_t offset, UNUSEDARG data8_t data)
-#define OPBASE_HANDLER(name) offs_t name(UNUSEDARG offs_t address)
-
-#define READ16_HANDLER(name) data16_t name(UNUSEDARG offs_t offset, UNUSEDARG UINT32 mem_mask)
-#define WRITE16_HANDLER(name) void name(UNUSEDARG offs_t offset, UNUSEDARG data16_t data, UNUSEDARG UINT32 mem_mask)
-#define OPBASE16_HANDLER(name) offs_t name(UNUSEDARG offs_t address)
-
-#define MRA_NOP 0                           /* don't care, return 0 */
-#define MWA_NOP 0							/* do nothing */
-#define MRA_RAM ((mem_read_handler)-1)		/* plain RAM location (return its contents) */
-#define MWA_RAM ((mem_write_handler)-1) 	/* plain RAM location (store the value) */
-#define MRA_ROM ((mem_read_handler)-2)		/* plain ROM location (return its contents) */
-#define MWA_ROM ((mem_write_handler)-2) 	/* plain ROM location (do nothing) */
-/**************************************************************************
- * If the CPU opcodes are encrypted, they are fetched from a different
- * memory space. In such a case, if the program dynamically creates code
- * in RAM and executes it, it won't work unless you use MWA_RAMROM
- * to affect both memory spaces.
- **************************************************************************/
-#define MWA_RAMROM ((mem_write_handler)-3)
-
-/* bank memory */
-#define MRA_BANK1 ((mem_read_handler)-10)
-#define MWA_BANK1 ((mem_write_handler)-10)
-#define MRA_BANK2 ((mem_read_handler)-11)
-#define MWA_BANK2 ((mem_write_handler)-11)
-#define MRA_BANK3 ((mem_read_handler)-12)
-#define MWA_BANK3 ((mem_write_handler)-12)
-#define MRA_BANK4 ((mem_read_handler)-13)
-#define MWA_BANK4 ((mem_write_handler)-13)
-#define MRA_BANK5 ((mem_read_handler)-14)
-#define MWA_BANK5 ((mem_write_handler)-14)
-#define MRA_BANK6 ((mem_read_handler)-15)
-#define MWA_BANK6 ((mem_write_handler)-15)
-#define MRA_BANK7 ((mem_read_handler)-16)
-#define MWA_BANK7 ((mem_write_handler)-16)
-#define MRA_BANK8 ((mem_read_handler)-17)
-#define MWA_BANK8 ((mem_write_handler)-17)
-#define MRA_BANK9 ((mem_read_handler)-18)
-#define MWA_BANK9 ((mem_write_handler)-18)
-#define MRA_BANK10 ((mem_read_handler)-19)
-#define MWA_BANK10 ((mem_write_handler)-19)
-#define MRA_BANK11 ((mem_read_handler)-20)
-#define MWA_BANK11 ((mem_write_handler)-20)
-#define MRA_BANK12 ((mem_read_handler)-21)
-#define MWA_BANK12 ((mem_write_handler)-21)
-#define MRA_BANK13 ((mem_read_handler)-22)
-#define MWA_BANK13 ((mem_write_handler)-22)
-#define MRA_BANK14 ((mem_read_handler)-23)
-#define MWA_BANK14 ((mem_write_handler)-23)
-#define MRA_BANK15 ((mem_read_handler)-24)
-#define MWA_BANK15 ((mem_write_handler)-24)
-#define MRA_BANK16 ((mem_read_handler)-25)
-#define MWA_BANK16 ((mem_write_handler)-25)
-#define MRA_BANK17 ((mem_read_handler)-26)
-#define MWA_BANK17 ((mem_write_handler)-26)
-#define MRA_BANK18 ((mem_read_handler)-27)
-#define MWA_BANK18 ((mem_write_handler)-27)
-#define MRA_BANK19 ((mem_read_handler)-28)
-#define MWA_BANK19 ((mem_write_handler)-28)
-#define MRA_BANK20 ((mem_read_handler)-29)
-#define MWA_BANK20 ((mem_write_handler)-29)
-
-struct Memory_ReadAddress
-{
-	offs_t start, end;
-	mem_read_handler handler;				/* see special values above */
-};
-
-struct Memory_WriteAddress
-{
-    offs_t start, end;
-	mem_write_handler handler;				/* see special values above */
-	data8_t **base;							/* optional (see explanation above) */
-    size_t *size;                           /* optional (see explanation above) */
-};
-
-#define MEMORY_MARKER ((offs_t)~0)
-
-#define MEMORY_END { MEMORY_MARKER, 0 } };
-
-#define IS_MEMORY_MARKER( ma ) ((ma)->start == MEMORY_MARKER && (ma)->end < MEMORY_MARKER)
-#define IS_MEMORY_END( ma ) ((ma)->start == MEMORY_MARKER && (ma)->end == 0)
-
-#define MEMORY_READ_START(name) const struct Memory_ReadAddress name[] = { \
-	{ MEMORY_MARKER, MEMORY_DIRECTION_READ | MEMORY_TYPE_MEM | MEMORY_WIDTH_8 },
-#define MEMORY_WRITE_START(name) const struct Memory_WriteAddress name[] = { \
-	{ MEMORY_MARKER, MEMORY_DIRECTION_WRITE | MEMORY_TYPE_MEM | MEMORY_WIDTH_8 },
-
-/***************************************************************************
-	16-BIT	Core memory read/write/opbase handler types
-***************************************************************************/
-
-typedef data16_t (*mem_read16_handler)(UNUSEDARG offs_t offset);
-typedef void (*mem_write16_handler)(UNUSEDARG offs_t offset, UNUSEDARG data16_t data, UNUSEDARG UINT32 mem_mask);
-
-#define READ16_HANDLER(name) data16_t name(UNUSEDARG offs_t offset, UNUSEDARG UINT32 mem_mask)
-#define WRITE16_HANDLER(name) void name(UNUSEDARG offs_t offset, UNUSEDARG data16_t data, UNUSEDARG UINT32 mem_mask)
-#define OPBASE16_HANDLER(name) offs_t name(UNUSEDARG offs_t address)
-
-#define MRA16_NOP 0 						/* don't care, return 0 */
-#define MWA16_NOP 0 						/* do nothing */
-#define MRA16_RAM ((mem_read16_handler)-1)  /* plain RAM location (return its contents) */
-#define MWA16_RAM ((mem_write16_handler)-1) /* plqain RAM location (store the value) */
-#define MRA16_ROM ((mem_read16_handler)-2)	/* plain ROM location (return its contents) */
-#define MWA16_ROM ((mem_write16_handler)-2) /* plain ROM location (do nothing) */
-/**************************************************************************
- * If the CPU opcodes are encrypted, they are fetched from a different
- * memory space. In such a case, if the program dynamically creates code
- * in RAM and executes it, it won't work unless you use MWA_RAMROM
- * to affect both memory spaces.
- **************************************************************************/
-#define MWA16_RAMROM ((mem_write16_handler)-3)
-
-/* bank memory */
-#define MRA16_BANK1 ((mem_read16_handler)-10)
-#define MWA16_BANK1 ((mem_write16_handler)-10)
-#define MRA16_BANK2 ((mem_read16_handler)-11)
-#define MWA16_BANK2 ((mem_write16_handler)-11)
-#define MRA16_BANK3 ((mem_read16_handler)-12)
-#define MWA16_BANK3 ((mem_write16_handler)-12)
-#define MRA16_BANK4 ((mem_read16_handler)-13)
-#define MWA16_BANK4 ((mem_write16_handler)-13)
-#define MRA16_BANK5 ((mem_read16_handler)-14)
-#define MWA16_BANK5 ((mem_write16_handler)-14)
-#define MRA16_BANK6 ((mem_read16_handler)-15)
-#define MWA16_BANK6 ((mem_write16_handler)-15)
-#define MRA16_BANK7 ((mem_read16_handler)-16)
-#define MWA16_BANK7 ((mem_write16_handler)-16)
-#define MRA16_BANK8 ((mem_read16_handler)-17)
-#define MWA16_BANK8 ((mem_write16_handler)-17)
-#define MRA16_BANK9 ((mem_read16_handler)-18)
-#define MWA16_BANK9 ((mem_write16_handler)-18)
-#define MRA16_BANK10 ((mem_read16_handler)-19)
-#define MWA16_BANK10 ((mem_write16_handler)-19)
-#define MRA16_BANK11 ((mem_read16_handler)-20)
-#define MWA16_BANK11 ((mem_write16_handler)-20)
-#define MRA16_BANK12 ((mem_read16_handler)-21)
-#define MWA16_BANK12 ((mem_write16_handler)-21)
-#define MRA16_BANK13 ((mem_read16_handler)-22)
-#define MWA16_BANK13 ((mem_write16_handler)-22)
-#define MRA16_BANK14 ((mem_read16_handler)-23)
-#define MWA16_BANK14 ((mem_write16_handler)-23)
-#define MRA16_BANK15 ((mem_read16_handler)-24)
-#define MWA16_BANK15 ((mem_write16_handler)-24)
-#define MRA16_BANK16 ((mem_read16_handler)-25)
-#define MWA16_BANK16 ((mem_write16_handler)-25)
-#define MRA16_BANK17 ((mem_read16_handler)-26)
-#define MWA16_BANK17 ((mem_write16_handler)-26)
-#define MRA16_BANK18 ((mem_read16_handler)-27)
-#define MWA16_BANK18 ((mem_write16_handler)-27)
-#define MRA16_BANK19 ((mem_read16_handler)-28)
-#define MWA16_BANK19 ((mem_write16_handler)-28)
-#define MRA16_BANK20 ((mem_read16_handler)-29)
-#define MWA16_BANK20 ((mem_write16_handler)-29)
-
-struct Memory_ReadAddress16
-{
-	offs_t start, end;
-	mem_read16_handler handler; 			/* see special values above */
-};
-
-struct Memory_WriteAddress16
-{
-	offs_t start, end;
-	mem_write16_handler handler;			/* see special values above */
-	data16_t **base;						/* optional (see explanation above) */
-    size_t *size;                           /* optional (see explanation above) */
-};
-
-#define MEMORY_READ16_START(name) const struct Memory_ReadAddress16 name[] = { \
-	{ MEMORY_MARKER, MEMORY_DIRECTION_READ | MEMORY_TYPE_MEM | MEMORY_WIDTH_16 },
-#define MEMORY_WRITE16_START(name) const struct Memory_WriteAddress16 name[] = { \
-	{ MEMORY_MARKER, MEMORY_DIRECTION_WRITE | MEMORY_TYPE_MEM | MEMORY_WIDTH_16 },
-
-/***************************************************************************
-	32-BIT	Core memory read/write/opbase handler types
-***************************************************************************/
-
-typedef UINT32 data32_t;
-
-typedef data32_t (*mem_read32_handler)(UNUSEDARG offs_t offset);
-typedef void (*mem_write32_handler)(UNUSEDARG offs_t offset, UNUSEDARG data32_t data, UNUSEDARG UINT32 mem_mask);
-
-#define READ32_HANDLER(name) data32_t name(UNUSEDARG offs_t offset, UNUSEDARG UINT32 mem_mask)
-#define WRITE32_HANDLER(name) void name(UNUSEDARG offs_t offset, UNUSEDARG data32_t data, UNUSEDARG UINT32 mem_mask)
-#define OPBASE32_HANDLER(name) offs_t name(UNUSEDARG offs_t address)
-
-#define MRA32_NOP 0 						/* don't care, return 0 */
-#define MWA32_NOP 0 						/* do nothing */
-#define MRA32_RAM ((mem_read32_handler)-1)  /* plain RAM location (return its contents) */
-#define MWA32_RAM ((mem_write32_handler)-1) /* plain RAM location (store the value) */
-#define MRA32_ROM ((mem_read32_handler)-2)	/* plain ROM location (return its contents) */
-#define MWA32_ROM ((mem_write32_handler)-2) /* plain ROM location (do nothing) */
-/**************************************************************************
- * If the CPU opcodes are encrypted, they are fetched from a different
- * memory space. In such a case, if the program dynamically creates code
- * in RAM and executes it, it won't work unless you use MWA_RAMROM
- * to affect both memory spaces.
- **************************************************************************/
-#define MWA32_RAMROM ((mem_write32_handler)-3)
-
-/* bank memory */
-#define MRA32_BANK1 ((mem_read32_handler)-10)
-#define MWA32_BANK1 ((mem_write32_handler)-10)
-#define MRA32_BANK2 ((mem_read32_handler)-11)
-#define MWA32_BANK2 ((mem_write32_handler)-11)
-#define MRA32_BANK3 ((mem_read32_handler)-12)
-#define MWA32_BANK3 ((mem_write32_handler)-12)
-#define MRA32_BANK4 ((mem_read32_handler)-13)
-#define MWA32_BANK4 ((mem_write32_handler)-13)
-#define MRA32_BANK5 ((mem_read32_handler)-14)
-#define MWA32_BANK5 ((mem_write32_handler)-14)
-#define MRA32_BANK6 ((mem_read32_handler)-15)
-#define MWA32_BANK6 ((mem_write32_handler)-15)
-#define MRA32_BANK7 ((mem_read32_handler)-16)
-#define MWA32_BANK7 ((mem_write32_handler)-16)
-#define MRA32_BANK8 ((mem_read32_handler)-17)
-#define MWA32_BANK8 ((mem_write32_handler)-17)
-#define MRA32_BANK9 ((mem_read32_handler)-18)
-#define MWA32_BANK9 ((mem_write32_handler)-18)
-#define MRA32_BANK10 ((mem_read32_handler)-19)
-#define MWA32_BANK10 ((mem_write32_handler)-19)
-#define MRA32_BANK11 ((mem_read32_handler)-20)
-#define MWA32_BANK11 ((mem_write32_handler)-20)
-#define MRA32_BANK12 ((mem_read32_handler)-21)
-#define MWA32_BANK12 ((mem_write32_handler)-21)
-#define MRA32_BANK13 ((mem_read32_handler)-22)
-#define MWA32_BANK13 ((mem_write32_handler)-22)
-#define MRA32_BANK14 ((mem_read32_handler)-23)
-#define MWA32_BANK14 ((mem_write32_handler)-23)
-#define MRA32_BANK15 ((mem_read32_handler)-24)
-#define MWA32_BANK15 ((mem_write32_handler)-24)
-#define MRA32_BANK32 ((mem_read32_handler)-25)
-#define MWA32_BANK32 ((mem_write32_handler)-25)
-#define MRA32_BANK17 ((mem_read32_handler)-26)
-#define MWA32_BANK17 ((mem_write32_handler)-26)
-#define MRA32_BANK18 ((mem_read32_handler)-27)
-#define MWA32_BANK18 ((mem_write32_handler)-27)
-#define MRA32_BANK19 ((mem_read32_handler)-28)
-#define MWA32_BANK19 ((mem_write32_handler)-28)
-#define MRA32_BANK20 ((mem_read32_handler)-29)
-#define MWA32_BANK20 ((mem_write32_handler)-29)
-
-struct Memory_ReadAddress32
-{
-	offs_t start, end;
-	mem_read32_handler handler; 			/* see special values above */
-};
-
-struct Memory_WriteAddress32
-{
-	offs_t start, end;
-	mem_write32_handler handler;			/* see special values above */
-	data32_t **base;						/* optional (see explanation above) */
-	size_t *size;							/* optional (see explanation above) */
-};
-
-#define MEMORY_READ32_START(name) const struct Memory_ReadAddress32 name[] = { \
-	{ MEMORY_MARKER, MEMORY_DIRECTION_READ | MEMORY_TYPE_MEM | MEMORY_WIDTH_32 },
-#define MEMORY_WRITE32_START(name) const struct Memory_WriteAddress32 name[] = { \
-	{ MEMORY_MARKER, MEMORY_DIRECTION_WRITE | MEMORY_TYPE_MEM | MEMORY_WIDTH_32 },
-
-/***************************************************************************
-
-IN and OUT ports are handled like memory accesses, the hook template is the
-same so you can interchange them. Of course there is no 'base' pointer for
-IO ports.
-
-***************************************************************************/
-
-struct IO_ReadPort
-{
-	offs_t start,end;
-	mem_read_handler handler;				/* see special values below */
-};
-
-#define IORP_NOP 0	/* don't care, return 0 */
-
-
-struct IO_WritePort
-{
-	offs_t start,end;
-	mem_write_handler handler;				/* see special values below */
-};
-
-#define IOWP_NOP 0	/* do nothing */
-
-#define PORT_READ_START(name) const struct IO_ReadPort name[] = { \
-	{ MEMORY_MARKER, MEMORY_DIRECTION_READ | MEMORY_TYPE_IO | MEMORY_WIDTH_8 },
-#define PORT_WRITE_START(name) const struct IO_WritePort name[] = { \
-	{ MEMORY_MARKER, MEMORY_DIRECTION_WRITE | MEMORY_TYPE_IO | MEMORY_WIDTH_8 },
-#define PORT_END	MEMORY_END
-
-/***************************************************************************
-
-If a memory region contains areas that are outside of the ROM region for
-an address space, the memory system will allocate an array of structures
-to track the external areas.
-
-***************************************************************************/
-
-#define MAX_EXT_MEMORY 64
-
-struct ExtMemory
-{
-	offs_t start,end,region;
-    UINT8 *data;
-};
-
-extern struct ExtMemory ext_memory[MAX_EXT_MEMORY];
-
-
-
-/***************************************************************************
-
-For a given number of address bits, we need to determine how many elements
-there are in the first and second-order lookup tables. We also need to know
-how many low-order bits to ignore. The ABITS* values represent these
-constants for each address space type we support.
-
-***************************************************************************/
-
-/* memory element block size */
-#define MH_SBITS		8			/* sub element bank size */
-#define MH_PBITS		8			/* port current element size */
-#define MH_ELEMAX		64			/* sub elements limit */
-#define MH_HARDMAX		64			/* hardware functions limit */
-
-/* 16 bits address */
-#define ABITS1_16		12
-#define ABITS2_16		4
-#define ABITS_MIN_16	0			/* minimum memory block is 1 byte */
-/* 16 bits address (word access) */
-#define ABITS1_16W	12
-#define ABITS2_16W	3
-#define ABITS_MIN_16W 1			/* minimum memory block is 2 bytes */
-/* 20 bits address */
-#define ABITS1_20		12
-#define ABITS2_20		8
-#define ABITS_MIN_20	0			/* minimum memory block is 1 byte */
-/* 21 bits address */
-#define ABITS1_21		13
-#define ABITS2_21		8
-#define ABITS_MIN_21	0			/* minimum memory block is 1 byte */
-/* 24 bits address */
-#define ABITS1_24		16
-#define ABITS2_24		8
-#define ABITS_MIN_24	0			/* minimum memory block is 1 byte */
-/* 24 bits address (word access) */
-#define ABITS1_24W	15
-#define ABITS2_24W	8
-#define ABITS_MIN_24W 1			/* minimum memory block is 2 bytes */
-/* 24 bits address (dword access) */
-#define ABITS1_24DW	14
-#define ABITS2_24DW	8
-#define ABITS_MIN_24DW 2			/* minimum memory block is 4 bytes */
-/* 26 bits address (dword access) */
-#define ABITS1_26DW	16
-#define ABITS2_26DW	8
-#define ABITS_MIN_26DW 2			/* minimum memory block is 4 bytes */
-/* 29 bits address (word access) */
-#define ABITS1_29W	20
-#define ABITS2_29W	8
-#define ABITS_MIN_29W	1			/* minimum memory block is 2 bytes */
-/* 32 bits address (word access) */
-#define ABITS1_32W	23
-#define ABITS2_32W	8
-#define ABITS_MIN_32W	1			/* minimum memory block is 2 bytes */
-/* 32 bits address (dword access) */
-#define ABITS1_32DW	22
-#define ABITS2_32DW	8
-#define ABITS_MIN_32DW	2			/* minimum memory block is 4 bytes */
-/* mask bits */
-#define MHMASK(abits)	 (0xffffffff >> (32 - abits))
-
-
-/***************************************************************************
-
-	Global variables
-
-***************************************************************************/
-
-typedef unsigned char MHELE;
-
-extern MHELE ophw;				/* opcode handler */
-extern MHELE *cur_mrhard;		/* current set of read handlers */
-extern MHELE *cur_mwhard;		/* current set of write handlers */
-
-extern UINT8 *OP_RAM;			/* opcode RAM base */
-extern UINT8 *OP_ROM;			/* opcode ROM base */
-extern UINT8 *cpu_bankbase[];	/* array of bank bases */
-
-
-/* global memory access width and mask (16-bit and 32-bit under-size accesses) */
-//extern UINT32 mem_width;
-//extern UINT32 mem_mask;
-//extern UINT32 mem_offs;
-
-/***************************************************************************
-
-	Macros
-
-***************************************************************************/
-
-/* ----- 16-bit memory accessing ----- */
-#define COMBINE_DATA(varptr)	(*(varptr) = (*(varptr) & mem_mask) | (data & ~mem_mask))
-#define ACCESSING_LSB ((mem_mask & 0x00ff) == 0)
-#define ACCESSING_MSB ((mem_mask & 0xff00) == 0)
-
-//extern unsigned char prgrom[128*1024];
-
-/* ----- opcode reading ----- */
-#define cpu_readop cpu_readmem16
-//#define cpu_readop16(A) 	READ_WORD(&prgrom[A&0x3fff])
-//#define cpu_readop32(A) 	READ_DWORD(&prgrom[A&0x3fff])
-
-/* ----- opcode argument reading ----- */
-#define cpu_readop_arg cpu_readmem16
-//#define cpu_readop_arg16(A) READ_WORD(&prgrom[A&0x3fff])
-//#define cpu_readop_arg32(A) READ_DWORD(&prgrom[A&0x3fff])
-
-/* ----- bank switching for CPU cores ----- */
-#define change_pc_generic(pc,abits2,abitsmin,shift,setop)	\
-{															\
-	if (cur_mrhard[(pc)>>(abits2+abitsmin+shift)] != ophw)	\
-		setop(pc);											\
-}
-#define change_pc16(pc) 	 
-//change_pc_generic(pc, ABITS2_16, ABITS_MIN_16, 0, cpu_setOPbase16)
-#define change_pc20(pc) 	 change_pc_generic(pc, ABITS2_20, ABITS_MIN_20, 0, cpu_setOPbase20)
-#define change_pc21(pc) 	 change_pc_generic(pc, ABITS2_21, ABITS_MIN_21, 0, cpu_setOPbase21)
-#define change_pc24(pc) 	 change_pc_generic(pc, ABITS2_24, ABITS_MIN_24, 0, cpu_setOPbase24)
-#define change_pc16bew(pc)	 change_pc_generic(pc, ABITS2_16W,   ABITS_MIN_16W,   0, cpu_setOPbase16bew)
-#define change_pc16lew(pc)	 change_pc_generic(pc, ABITS2_16W,   ABITS_MIN_16W,   0, cpu_setOPbase16lew)
-#define change_pc24bew(pc)	 change_pc_generic(pc, ABITS2_24W,   ABITS_MIN_24W,   0, cpu_setOPbase24bew)
-#define change_pc29lew(pc)   change_pc_generic(pc, ABITS2_29W,   ABITS_MIN_29W,   3, cpu_setOPbase29lew)
-#define change_pc32bew(pc) 	 change_pc_generic(pc, ABITS2_32W,   ABITS_MIN_32W,   0, cpu_setOPbase32bew)
-#define change_pc32lew(pc)	 change_pc_generic(pc, ABITS2_32W,   ABITS_MIN_32W,   0, cpu_setOPbase32lew)
-#define change_pc24bedw(pc)	 change_pc_generic(pc, ABITS2_24DW,  ABITS_MIN_24DW,  0, cpu_setOPbase24bedw)
-#define change_pc26ledw(pc)	 change_pc_generic(pc, ABITS2_26DW,  ABITS_MIN_26DW,  0, cpu_setOPbase26ledw)
-#define change_pc32bedw(pc)  change_pc_generic(pc, ABITS2_32DW,  ABITS_MIN_32DW,  0, cpu_setOPbase32bedw)
-
-/* backward compatibility */
-#define change_pc(pc)
-// change_pc16(pc)
-
-/* ----- for use OPbaseOverride driver, request override callback to next cpu_setOPbase ----- */
-#define catch_nextBranch()	(ophw = 0xff)
-
-/* -----  bank switching macro ----- */
-#define cpu_setbank(bank, base) 						\
-{														\
-	if (bank >= 1 && bank <= MAX_BANKS) 				\
-	{													\
-		cpu_bankbase[bank] = (UINT8 *)(base);			\
-		if (ophw == bank)								\
-		{												\
-			ophw = 0xff;								\
-			cpu_set_op_base(cpu_get_pc());				\
-		}												\
-	}													\
-}
-
-
-/***************************************************************************
-
-	Function prototypes
-
-***************************************************************************/
-
-/* ----- memory setup function ----- */
-
-/* ----- memory read functions ----- */
-data8_t cpu_readmem16(offs_t address);
-data8_t cpu_readmem20(offs_t address);
-data8_t cpu_readmem21(offs_t address);
-data8_t cpu_readmem24(offs_t address);
-
-data16_t cpu_readmem16bew(offs_t address);
-data16_t cpu_readmem16bew_word(offs_t address);
-data16_t cpu_readmem16lew(offs_t address);
-data16_t cpu_readmem16lew_word(offs_t address);
-data16_t cpu_readmem24bew(offs_t address);
-data16_t cpu_readmem24bew_word(offs_t address);
-data16_t cpu_readmem29lew(offs_t address);
-data16_t cpu_readmem29lew_word(offs_t address);
-data16_t cpu_readmem32bew(offs_t address);
-data16_t cpu_readmem32bew_word(offs_t address);
-data16_t cpu_readmem32lew(offs_t address);
-data16_t cpu_readmem32lew_word(offs_t address);
-
-data32_t cpu_readmem24bedw(offs_t address);
-data32_t cpu_readmem24bedw_word(offs_t address);
-data32_t cpu_readmem24bedw_dword(offs_t address);
-data32_t cpu_readmem26ledw(offs_t address);
-data32_t cpu_readmem26ledw_word(offs_t address);
-data32_t cpu_readmem26ledw_dword(offs_t address);
-data32_t cpu_readmem27bedw(offs_t address);
-data32_t cpu_readmem27bedw_word(offs_t address);
-data32_t cpu_readmem27bedw_dword(offs_t address);
-data32_t cpu_readmem32bedw(offs_t address);
-data32_t cpu_readmem32bedw_word(offs_t address);
-data32_t cpu_readmem32bedw_dword(offs_t address);
-
-/* ----- memory write functions ----- */
-void cpu_writemem16(offs_t address,data8_t data);
-void cpu_writemem20(offs_t address,data8_t data);
-void cpu_writemem21(offs_t address,data8_t data);
-void cpu_writemem24(offs_t address,data8_t data);
-
-void cpu_writemem16bew(offs_t address,data16_t data);
-void cpu_writemem16bew_word(offs_t address,data16_t data);
-void cpu_writemem16lew(offs_t address,data16_t data);
-void cpu_writemem16lew_word(offs_t address,data16_t data);
-void cpu_writemem24bew(offs_t address,data16_t data);
-void cpu_writemem24bew_word(offs_t address,data16_t data);
-void cpu_writemem29lew(offs_t address,data16_t data);
-void cpu_writemem29lew_word(offs_t address,data16_t data);
-void cpu_writemem32bew(offs_t address,data16_t data);
-void cpu_writemem32bew_word(offs_t address,data16_t data);
-void cpu_writemem32lew(offs_t address,data16_t data);
-void cpu_writemem32lew_word(offs_t address,data16_t data);
-
-void cpu_writemem24bedw(offs_t address,data32_t data);
-void cpu_writemem24bedw_word(offs_t address,data32_t data);
-void cpu_writemem24bedw_dword(offs_t address,data32_t data);
-void cpu_writemem26ledw(offs_t address,data32_t data);
-void cpu_writemem26ledw_word(offs_t address,data32_t data);
-void cpu_writemem26ledw_dword(offs_t address,data32_t data);
-void cpu_writemem27bedw(offs_t address,data32_t data);
-void cpu_writemem27bedw_word(offs_t address,data32_t data);
-void cpu_writemem27bedw_dword(offs_t address,data32_t data);
-void cpu_writemem32bedw(offs_t address,data32_t data);
-void cpu_writemem32bedw_word(offs_t address,data32_t data);
-void cpu_writemem32bedw_dword(offs_t address,data32_t data);
-
-/* ----- port I/O functions ----- */
-int cpu_readport(int port);
-void cpu_writeport(int port, int value);
-
-/* ----- dynamic memory/port mapping ----- */
-void *install_mem_read_handler(int cpu, int start, int end, mem_read_handler handler);
-void *install_mem_read16_handler(int cpu, int start, int end, mem_read16_handler handler);
-void *install_mem_read32_handler(int cpu, int start, int end, mem_read32_handler handler);
-void *install_mem_write_handler(int cpu, int start, int end, mem_write_handler handler);
-void *install_mem_write16_handler(int cpu, int start, int end, mem_write16_handler handler);
-void *install_mem_write32_handler(int cpu, int start, int end, mem_write32_handler handler);
-void *install_port_read_handler(int cpu, int start, int end, mem_read_handler handler);
-void *install_port_write_handler(int cpu, int start, int end, mem_write_handler handler);
-
-/* ----- dynamic bank handlers ----- */
-void cpu_setbankhandler_r(int bank, mem_read_handler handler);
-void cpu_setbankhandler_w(int bank, mem_write_handler handler);
-
-/* ----- opcode base control ---- */
-void cpu_setOPbase16(offs_t pc);
-void cpu_setOPbase20(offs_t pc);
-void cpu_setOPbase21(offs_t pc);
-void cpu_setOPbase24(offs_t pc);
-void cpu_setOPbase16bew(offs_t pc);
-void cpu_setOPbase16lew(offs_t pc);
-void cpu_setOPbase24bew(offs_t pc);
-void cpu_setOPbase24bedw(offs_t pc);
-void cpu_setOPbase26ledw(offs_t pc);
-void cpu_setOPbase29lew(offs_t pc);
-void cpu_setOPbase32bew(offs_t pc);
-void cpu_setOPbase32lew(offs_t pc);
-void cpu_setOPbaseoverride(int cpu, opbase_handler function);
-
-/* ----- harder-to-explain functions ---- */
-
-/* use this to set the a different opcode base address when using a CPU with
-   opcodes and data encrypted separately */
-void memory_set_opcode_base(int cpu, void *base);
-
-/* look up a chunk of memory and get its start/end addresses, and its base.
-Pass in the cpu number and the offset. It will find the chunk containing
-that offset and return the start and end addresses, along with a pointer to
-the base of the memory.
-This can be used (carefully!) by drivers that wish to access memory directly
-without going through the readmem/writemem accessors (e.g., blitters). */
-void *findmemorychunk(int cpu, int offset, int *chunkstart, int *chunkend);
-
-#ifdef __cplusplus
-}
-#endif
-
-#endif	/* !_MEMORY_H */
-
diff --git a/plugins/ao/eng_psf/psx.c b/plugins/ao/eng_psf/psx.c
deleted file mode 100644
index 1a0adda1..00000000
--- a/plugins/ao/eng_psf/psx.c
+++ /dev/null
@@ -1,3140 +0,0 @@
-/*
- * Sony CXD8530AQ/CXD8530BQ/CXD8530CQ/CXD8661R
- *
- * PSX CPU emulator for the MAME project written by smf
- * Thanks to Farfetch'd for information on the delay slot bug
- *
- * The PSX CPU is a custom r3000a with a built in
- * geometry transform engine, no mmu & no data cache.
- *
- * There is a stall circuit for load delays, but
- * it doesn't work if the load occurs in a branch
- * delay slot.
- *
- */
-
-#include <stdio.h>
-#include "ao.h"
-#include "cpuintrf.h"
-#include "psx.h"
-
-#define EXC_INT ( 0 )
-#define EXC_ADEL ( 4 )
-#define EXC_ADES ( 5 )
-#define EXC_SYS ( 8 )
-#define EXC_BP ( 9 )
-#define EXC_RI ( 10 )
-#define EXC_CPU ( 11 )
-#define EXC_OVF ( 12 )
-
-#define CP0_RANDOM ( 1 )
-#define CP0_BADVADDR ( 8 )
-#define CP0_SR ( 12 )
-#define CP0_CAUSE ( 13 )
-#define CP0_EPC ( 14 )
-#define CP0_PRID ( 15 )
-
-#define SR_IEC ( 1L << 0 )
-#define SR_KUC ( 1L << 1 )
-#define SR_ISC ( 1L << 16 )
-#define SR_SWC ( 1L << 17 )
-#define SR_TS  ( 1L << 21 )
-#define SR_BEV ( 1L << 22 )
-#define SR_RE ( 1L << 25 )
-#define SR_CU0 ( 1L << 28 )
-#define SR_CU1 ( 1L << 29 )
-#define SR_CU2 ( 1L << 30 )
-#define SR_CU3 ( 1L << 31 )
-
-#define CAUSE_EXC ( 31L << 2 )
-#define CAUSE_IP ( 255L << 8 )
-#define CAUSE_IP2 ( 1L << 10 )
-#define CAUSE_IP3 ( 1L << 11 )
-#define CAUSE_IP4 ( 1L << 12 )
-#define CAUSE_IP5 ( 1L << 13 )
-#define CAUSE_IP6 ( 1L << 14 )
-#define CAUSE_IP7 ( 1L << 15 )
-#define CAUSE_CE ( 3L << 28 )
-#define CAUSE_CE0 ( 0L << 28 )
-#define CAUSE_CE1 ( 1L << 28 )
-#define CAUSE_CE2 ( 2L << 28 )
-#define CAUSE_BD ( 1L << 31 )
-
-static UINT8 mips_reg_layout[] =
-{
-	MIPS_PC, -1,
-	MIPS_DELAYV, MIPS_DELAYR, -1,
-	MIPS_HI, MIPS_LO, -1,
-	-1,
-	MIPS_R0, MIPS_R1, -1,
-	MIPS_R2, MIPS_R3, -1,
-	MIPS_R4, MIPS_R5, -1,
-	MIPS_R6, MIPS_R7, -1,
-	MIPS_R8, MIPS_R9, -1,
-	MIPS_R10, MIPS_R11, -1,
-	MIPS_R12, MIPS_R13, -1,
-	MIPS_R14, MIPS_R15, -1,
-	MIPS_R16, MIPS_R17, -1,
-	MIPS_R18, MIPS_R19, -1,
-	MIPS_R20, MIPS_R21, -1,
-	MIPS_R22, MIPS_R23, -1,
-	MIPS_R24, MIPS_R25, -1,
-	MIPS_R26, MIPS_R27, -1,
-	MIPS_R28, MIPS_R29, -1,
-	MIPS_R30, MIPS_R31, -1,
-	-1,
-	MIPS_CP0R0, MIPS_CP0R1, -1,
-	MIPS_CP0R2, MIPS_CP0R3, -1,
-	MIPS_CP0R4, MIPS_CP0R5, -1,
-	MIPS_CP0R6, MIPS_CP0R7, -1,
-	MIPS_CP0R8, MIPS_CP0R9, -1,
-	MIPS_CP0R10, MIPS_CP0R11, -1,
-	MIPS_CP0R12, MIPS_CP0R13, -1,
-	MIPS_CP0R14, MIPS_CP0R15, -1,
-	MIPS_CP0R16, MIPS_CP0R17, -1,
-	MIPS_CP0R18, MIPS_CP0R19, -1,
-	MIPS_CP0R20, MIPS_CP0R21, -1,
-	MIPS_CP0R22, MIPS_CP0R23, -1,
-	MIPS_CP0R24, MIPS_CP0R25, -1,
-	MIPS_CP0R26, MIPS_CP0R27, -1,
-	MIPS_CP0R28, MIPS_CP0R29, -1,
-	MIPS_CP0R30, MIPS_CP0R31, -1,
-	-1,
-	MIPS_CP2DR0, MIPS_CP2DR1, -1,
-	MIPS_CP2DR2, MIPS_CP2DR3, -1,
-	MIPS_CP2DR4, MIPS_CP2DR5, -1,
-	MIPS_CP2DR6, MIPS_CP2DR7, -1,
-	MIPS_CP2DR8, MIPS_CP2DR9, -1,
-	MIPS_CP2DR10, MIPS_CP2DR11, -1,
-	MIPS_CP2DR12, MIPS_CP2DR13, -1,
-	MIPS_CP2DR14, MIPS_CP2DR15, -1,
-	MIPS_CP2DR16, MIPS_CP2DR17, -1,
-	MIPS_CP2DR18, MIPS_CP2DR19, -1,
-	MIPS_CP2DR20, MIPS_CP2DR21, -1,
-	MIPS_CP2DR22, MIPS_CP2DR23, -1,
-	MIPS_CP2DR24, MIPS_CP2DR25, -1,
-	MIPS_CP2DR26, MIPS_CP2DR27, -1,
-	MIPS_CP2DR28, MIPS_CP2DR29, -1,
-	MIPS_CP2DR30, MIPS_CP2DR31, -1,
-	-1,
-	MIPS_CP2CR0, MIPS_CP2CR1, -1,
-	MIPS_CP2CR2, MIPS_CP2CR3, -1,
-	MIPS_CP2CR4, MIPS_CP2CR5, -1,
-	MIPS_CP2CR6, MIPS_CP2CR7, -1,
-	MIPS_CP2CR8, MIPS_CP2CR9, -1,
-	MIPS_CP2CR10, MIPS_CP2CR11, -1,
-	MIPS_CP2CR12, MIPS_CP2CR13, -1,
-	MIPS_CP2CR14, MIPS_CP2CR15, -1,
-	MIPS_CP2CR16, MIPS_CP2CR17, -1,
-	MIPS_CP2CR18, MIPS_CP2CR19, -1,
-	MIPS_CP2CR20, MIPS_CP2CR21, -1,
-	MIPS_CP2CR22, MIPS_CP2CR23, -1,
-	MIPS_CP2CR24, MIPS_CP2CR25, -1,
-	MIPS_CP2CR26, MIPS_CP2CR27, -1,
-	MIPS_CP2CR28, MIPS_CP2CR29, -1,
-	MIPS_CP2CR30, MIPS_CP2CR31,
-	0
-};
-
-static UINT8 mips_win_layout[] = {
-	45, 0,35,13,	/* register window (top right) */
-	 0, 0,44,13,	/* disassembler window (left, upper) */
-	 0,14,44, 8,	/* memory #1 window (left, middle) */
-	45,14,35, 8,	/* memory #2 window (lower) */
-	 0,23,80, 1 	/* command line window (bottom rows) */
-};
-
-static const char *delayn[] =
-{
-	"pc", "at", "v0", "v1", "a0", "a1", "a2", "a3",
-	"t0", "t1", "t2", "t3", "t4", "t5", "t6", "t7",
-	"s0", "s1", "s2", "s3", "s4", "s5", "s6", "s7",
-	"t8", "t9", "k0", "k1", "gp", "sp", "fp", "ra",
-	"pc"
-};
-
-#define REGPC ( 32 )
-
-//static mips_cpu_context mipscpu;
-
-static UINT32 mips_mtc0_writemask[]=
-{
-	0xffffffff, /* INDEX */
-	0x00000000, /* RANDOM */
-	0xffffff00, /* ENTRYLO */
-	0x00000000,
-	0xffe00000, /* CONTEXT */
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000, /* BADVADDR */
-	0x00000000,
-	0xffffffc0, /* ENTRYHI */
-	0x00000000,
-	0xf27fff3f, /* SR */
-	0x00000300, /* CAUSE */
-	0x00000000, /* EPC */
-	0x00000000, /* PRID */
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000,
-	0x00000000
-};
-
-#if 0
-void GTELOG(const char *a,...)
-{
-	va_list va;
-	char s_text[ 1024 ];
-	va_start( va, a );
-	vsprintf( s_text, a, va );
-	va_end( va );
-	logerror( "%08x: GTE: %08x %s\n", cpu->pc, INS_COFUN( cpu->op ), s_text );
-}
-#else
-static INLINE void GTELOG(const char *a, ...) {}
-#endif
-
-static UINT32 getcp2dr( mips_cpu_context *cpu, int n_reg );
-static void setcp2dr( mips_cpu_context *cpu, int n_reg, UINT32 n_value );
-static UINT32 getcp2cr( mips_cpu_context *cpu, int n_reg );
-static void setcp2cr( mips_cpu_context *cpu, int n_reg, UINT32 n_value );
-static void docop2( mips_cpu_context *cpu, int gteop );
-static void mips_exception(mips_cpu_context *cpu,  int exception );
-
-void mips_stop( void )
-{
-#ifdef MAME_DEBUG
-	extern int debug_key_pressed;
-	debug_key_pressed = 1;
-	CALL_MAME_DEBUG;
-#endif
-}
-
-static INLINE void mips_set_cp0r(mips_cpu_context *cpu, int reg, UINT32 value )
-{
-	cpu->cp0r[ reg ] = value;
-	if( reg == CP0_SR || reg == CP0_CAUSE )
-	{
-		if( ( cpu->cp0r[ CP0_SR ] & SR_IEC ) != 0 && ( cpu->cp0r[ CP0_SR ] & cpu->cp0r[ CP0_CAUSE ] & CAUSE_IP ) != 0 )
-		{
-			mips_exception(cpu, EXC_INT );
-		}
-		else if( cpu->delayr != REGPC && ( cpu->pc & ( ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) | 3 ) ) != 0 )
-		{
-			mips_exception( cpu, EXC_ADEL );
-			mips_set_cp0r( cpu, CP0_BADVADDR, cpu->pc );
-		}
-	}
-}
-
-static INLINE void mips_commit_delayed_load(mips_cpu_context *cpu)
-{
-	if( cpu->delayr != 0 )
-	{
-		cpu->r[ cpu->delayr ] = cpu->delayv;
-		cpu->delayr = 0;
-		cpu->delayv = 0;
-	}
-}
-
-static INLINE void mips_delayed_branch(mips_cpu_context *cpu, UINT32 n_adr )
-{
-	if( ( n_adr & ( ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) | 3 ) ) != 0 )
-	{
-		mips_exception( cpu, EXC_ADEL );
-		mips_set_cp0r( cpu, CP0_BADVADDR, n_adr );
-	}
-	else
-	{
-		mips_commit_delayed_load(cpu);
-		cpu->delayr = REGPC;
-		cpu->delayv = n_adr;
-		cpu->pc += 4;
-	}
-}
-
-static INLINE void mips_set_pc(mips_cpu_context *cpu, unsigned val )
-{
-	cpu->pc = val;
-	change_pc( val );
-	cpu->delayr = 0;
-	cpu->delayv = 0;
-}
-
-static INLINE void mips_advance_pc(mips_cpu_context *cpu)
-{
-	if( cpu->delayr == REGPC )
-	{
-		mips_set_pc( cpu, cpu->delayv );
-	}
-	else
-	{
-		mips_commit_delayed_load(cpu);
-		cpu->pc += 4;
-	}
-}
-
-static INLINE void mips_load(mips_cpu_context *cpu, UINT32 n_r, UINT32 n_v )
-{
-	mips_advance_pc(cpu);
-	if( n_r != 0 )
-	{
-		cpu->r[ n_r ] = n_v;
-	}
-}
-
-static INLINE void mips_delayed_load( mips_cpu_context *cpu, UINT32 n_r, UINT32 n_v )
-{
-	if( cpu->delayr == REGPC )
-	{
-		mips_set_pc( cpu, cpu->delayv );
-		cpu->delayr = n_r;
-		cpu->delayv = n_v;
-	}
-	else
-	{
-		mips_commit_delayed_load(cpu);
-		cpu->pc += 4;
-		if( n_r != 0 )
-		{
-			cpu->r[ n_r ] = n_v;
-		}
-	}
-}
-
-static void mips_exception( mips_cpu_context *cpu, int exception )
-{
-	mips_set_cp0r( cpu, CP0_SR, ( cpu->cp0r[ CP0_SR ] & ~0x3f ) | ( ( cpu->cp0r[ CP0_SR ] << 2 ) & 0x3f ) );
-	if( cpu->delayr == REGPC )
-	{
-		mips_set_cp0r( cpu, CP0_EPC, cpu->pc - 4 );
-		mips_set_cp0r( cpu, CP0_CAUSE, ( cpu->cp0r[ CP0_CAUSE ] & ~CAUSE_EXC ) | CAUSE_BD | ( exception << 2 ) );
-	}
-	else
-	{
-		mips_commit_delayed_load(cpu);
-		mips_set_cp0r( cpu, CP0_EPC, cpu->pc );
-		mips_set_cp0r( cpu, CP0_CAUSE, ( cpu->cp0r[ CP0_CAUSE ] & ~( CAUSE_EXC | CAUSE_BD ) ) | ( exception << 2 ) );
-	}
-	if( cpu->cp0r[ CP0_SR ] & SR_BEV )
-	{
-		mips_set_pc (cpu,  0xbfc00180 );
-	}
-	else
-	{
-		mips_set_pc (cpu,  0x80000080 );
-	}
-}
-
-mips_cpu_context *mips_alloc( void ) {
-    mips_cpu_context *ctx = malloc (sizeof (mips_cpu_context));
-    memset (ctx, 0, sizeof (mips_cpu_context));
-    return ctx;
-}
-
-void mips_init(mips_cpu_context *cpu)
-{
-#if 0
-	int cpu = cpu_getactivecpu();
-
-	state_save_register_UINT32( "psxcpu", cpu, "op", &cpu->op, 1 );
-	state_save_register_UINT32( "psxcpu", cpu, "pc", &cpu->pc, 1 );
-	state_save_register_UINT32( "psxcpu", cpu, "delayv", &cpu->delayv, 1 );
-	state_save_register_UINT32( "psxcpu", cpu, "delayr", &cpu->delayr, 1 );
-	state_save_register_UINT32( "psxcpu", cpu, "hi", &cpu->hi, 1 );
-	state_save_register_UINT32( "psxcpu", cpu, "lo", &cpu->lo, 1 );
-	state_save_register_UINT32( "psxcpu", cpu, "r", &cpu->r[ 0 ], 32 );
-	state_save_register_UINT32( "psxcpu", cpu, "cp0r", &cpu->cp0r[ 0 ], 32 );
-	state_save_register_UINT32( "psxcpu", cpu, "cp2cr", &cpu->cp2cr[ 0 ].d, 32 );
-	state_save_register_UINT32( "psxcpu", cpu, "cp2dr", &cpu->cp2dr[ 0 ].d, 32 );
-#endif
-}
-
-void mips_reset( mips_cpu_context *cpu, void *param )
-{
-	mips_set_cp0r( cpu, CP0_SR, ( cpu->cp0r[ CP0_SR ] & ~( SR_TS | SR_SWC | SR_KUC | SR_IEC ) ) | SR_BEV );
-	mips_set_cp0r( cpu, CP0_RANDOM, 63 ); /* todo: */
-	mips_set_cp0r( cpu, CP0_PRID, 0x00000200 ); /* todo: */
-	mips_set_pc (cpu,  0xbfc00000 );
-	cpu->prevpc = 0xffffffff;
-}
-
-void mips_exit(mips_cpu_context *cpu) {
-    free (cpu);
-}
-
-void mips_shorten_frame(mips_cpu_context *cpu)
-{
-	cpu->mips_ICount = 0;
-}
-
-void psx_hw_runcounters(mips_cpu_context *cpu);
-
-int psxcpu_verbose = 0;
-
-int mips_execute( mips_cpu_context *cpu, int cycles )
-{
-	UINT32 n_res;
-
-	cpu->mips_ICount = cycles;
-	do
-	{
-//		CALL_MAME_DEBUG;
-
-//		psx_hw_runcounters();
-	
-		cpu->op = cpu_readop32( cpu->pc );
-
-#if 0
-		while (cpu->prevpc == cpu->pc)
-		{
-			psx_hw_runcounters();
-			cpu->mips_ICount--;
-
-			if (cpu->mips_ICount == 0) return cycles;
-		}
-
-		// if we're not in a delay slot, update
-		// if we're in a delay slot and the delay instruction is not NOP, update
-		if (( cpu->delayr == 0 ) || ((cpu->delayr != 0) && (cpu->op != 0)))
-		{
-			cpu->prevpc = cpu->pc;
-		}	
-#endif
-#if 0
-		if (1) //psxcpu_verbose)
-		{
-			printf("[%08x: %08x] [SP %08x RA %08x V0 %08x V1 %08x A0 %08x S0 %08x S1 %08x]\n", cpu->pc, cpu->op, cpu->r[29], cpu->r[31], cpu->r[2], cpu->r[3], cpu->r[4], cpu->r[ 16 ], cpu->r[ 17 ]);
-//			psxcpu_verbose--;
-		}
-#endif
-		switch( INS_OP( cpu->op ) )
-		{
-		case OP_SPECIAL:
-			switch( INS_FUNCT( cpu->op ) )
-			{
-			case FUNCT_HLECALL:
-//				printf("HLECALL, PC = %08x\n", cpu->pc);
-				psx_bios_hle(cpu, cpu->pc);
-				break;
-			case FUNCT_SLL:
-				mips_load(cpu,  INS_RD( cpu->op ), cpu->r[ INS_RT( cpu->op ) ] << INS_SHAMT( cpu->op ) );
-				break;
-			case FUNCT_SRL:
-				mips_load(cpu,  INS_RD( cpu->op ), cpu->r[ INS_RT( cpu->op ) ] >> INS_SHAMT( cpu->op ) );
-				break;
-			case FUNCT_SRA:
-				mips_load(cpu,  INS_RD( cpu->op ), (INT32)cpu->r[ INS_RT( cpu->op ) ] >> INS_SHAMT( cpu->op ) );
-				break;
-			case FUNCT_SLLV:
-				mips_load(cpu,  INS_RD( cpu->op ), cpu->r[ INS_RT( cpu->op ) ] << ( cpu->r[ INS_RS( cpu->op ) ] & 31 ) );
-				break;
-			case FUNCT_SRLV:
-				mips_load(cpu,  INS_RD( cpu->op ), cpu->r[ INS_RT( cpu->op ) ] >> ( cpu->r[ INS_RS( cpu->op ) ] & 31 ) );
-				break;
-			case FUNCT_SRAV:
-				mips_load(cpu,  INS_RD( cpu->op ), (INT32)cpu->r[ INS_RT( cpu->op ) ] >> ( cpu->r[ INS_RS( cpu->op ) ] & 31 ) );
-				break;
-			case FUNCT_JR:
-				if( INS_RD( cpu->op ) != 0 )
-				{
-					mips_exception( cpu, EXC_RI );
-				}
-				else
-				{
-					mips_delayed_branch( cpu, cpu->r[ INS_RS( cpu->op ) ] );
-				}
-				break;
-			case FUNCT_JALR:
-				n_res = cpu->pc + 8;
-				mips_delayed_branch( cpu, cpu->r[ INS_RS( cpu->op ) ] );
-				if( INS_RD( cpu->op ) != 0 )
-				{
-					cpu->r[ INS_RD( cpu->op ) ] = n_res;
-				}
-				break;
-			case FUNCT_SYSCALL:
-				mips_exception( cpu, EXC_SYS );
-				break;
-			case FUNCT_BREAK:
-				printf("BREAK!\n");
-				exit(-1);
-//				mips_exception( cpu, EXC_BP );
-				mips_advance_pc(cpu);
-				break;
-			case FUNCT_MFHI:
-				mips_load(cpu,  INS_RD( cpu->op ), cpu->hi );
-				break;
-			case FUNCT_MTHI:
-				if( INS_RD( cpu->op ) != 0 )
-				{
-					mips_exception(cpu, EXC_RI );
-				}
-				else
-				{
-					mips_advance_pc(cpu);
-					cpu->hi = cpu->r[ INS_RS( cpu->op ) ];
-				}
-				break;
-			case FUNCT_MFLO:
-				mips_load(cpu,  INS_RD( cpu->op ),  cpu->lo );
-				break;
-			case FUNCT_MTLO:
-				if( INS_RD( cpu->op ) != 0 )
-				{
-					mips_exception(cpu, EXC_RI );
-				}
-				else
-				{
-					mips_advance_pc(cpu);
-					cpu->lo = cpu->r[ INS_RS( cpu->op ) ];
-				}
-				break;
-			case FUNCT_MULT:
-				if( INS_RD( cpu->op ) != 0 )
-				{
-					mips_exception(cpu, EXC_RI );
-				}
-				else
-				{
-					INT64 n_res64;
-					n_res64 = MUL_64_32_32( (INT32)cpu->r[ INS_RS( cpu->op ) ], (INT32)cpu->r[ INS_RT( cpu->op ) ] );
-					mips_advance_pc(cpu);
-					cpu->lo = LO32_32_64( n_res64 );
-					cpu->hi = HI32_32_64( n_res64 );
-				}
-				break;
-			case FUNCT_MULTU:
-				if( INS_RD( cpu->op ) != 0 )
-				{
-					mips_exception(cpu, EXC_RI );
-				}
-				else
-				{
-					UINT64 n_res64;
-					n_res64 = MUL_U64_U32_U32( cpu->r[ INS_RS( cpu->op ) ], cpu->r[ INS_RT( cpu->op ) ] );
-					mips_advance_pc(cpu);
-					cpu->lo = LO32_U32_U64( n_res64 );
-					cpu->hi = HI32_U32_U64( n_res64 );
-				}
-				break;
-			case FUNCT_DIV:
-				if( INS_RD( cpu->op ) != 0 )
-				{
-					mips_exception(cpu, EXC_RI );
-				}
-				else
-				{
-					UINT32 n_div;
-					UINT32 n_mod;
-					if( cpu->r[ INS_RT( cpu->op ) ] != 0 )
-					{
-						n_div = (INT32)cpu->r[ INS_RS( cpu->op ) ] / (INT32)cpu->r[ INS_RT( cpu->op ) ];
-						n_mod = (INT32)cpu->r[ INS_RS( cpu->op ) ] % (INT32)cpu->r[ INS_RT( cpu->op ) ];
-						mips_advance_pc(cpu);
-						cpu->lo = n_div;
-						cpu->hi = n_mod;
-					}
-					else
-					{
-						mips_advance_pc(cpu);
-					}
-				}
-				break;
-			case FUNCT_DIVU:
-				if( INS_RD( cpu->op ) != 0 )
-				{
-					mips_exception(cpu, EXC_RI );
-				}
-				else
-				{
-					UINT32 n_div;
-					UINT32 n_mod;
-					if( cpu->r[ INS_RT( cpu->op ) ] != 0 )
-					{
-						n_div = cpu->r[ INS_RS( cpu->op ) ] / cpu->r[ INS_RT( cpu->op ) ];
-						n_mod = cpu->r[ INS_RS( cpu->op ) ] % cpu->r[ INS_RT( cpu->op ) ];
-						mips_advance_pc(cpu);
-						cpu->lo = n_div;
-						cpu->hi = n_mod;
-					}
-					else
-					{
-						mips_advance_pc(cpu);
-					}
-				}
-				break;
-			case FUNCT_ADD:
-				{
-					n_res = cpu->r[ INS_RS( cpu->op ) ] + cpu->r[ INS_RT( cpu->op ) ];
-					if( (INT32)( ~( cpu->r[ INS_RS( cpu->op ) ] ^ cpu->r[ INS_RT( cpu->op ) ] ) & ( cpu->r[ INS_RS( cpu->op ) ] ^ n_res ) ) < 0 )
-					{
-						mips_exception(cpu, EXC_OVF );
-					}
-					else
-					{
-						mips_load(cpu,  INS_RD( cpu->op ), n_res );
-					}
-				}
-				break;
-			case FUNCT_ADDU:
-				mips_load(cpu,  INS_RD( cpu->op ), cpu->r[ INS_RS( cpu->op ) ] + cpu->r[ INS_RT( cpu->op ) ] );
-				break;
-			case FUNCT_SUB:
-				n_res = cpu->r[ INS_RS( cpu->op ) ] - cpu->r[ INS_RT( cpu->op ) ];
-				if( (INT32)( ( cpu->r[ INS_RS( cpu->op ) ] ^ cpu->r[ INS_RT( cpu->op ) ] ) & ( cpu->r[ INS_RS( cpu->op ) ] ^ n_res ) ) < 0 )
-				{
-					mips_exception(cpu, EXC_OVF );
-				}
-				else
-				{
-					mips_load(cpu,  INS_RD( cpu->op ), n_res );
-				}
-				break;
-			case FUNCT_SUBU:
-				mips_load(cpu,  INS_RD( cpu->op ), cpu->r[ INS_RS( cpu->op ) ] - cpu->r[ INS_RT( cpu->op ) ] );
-				break;
-			case FUNCT_AND:
-				mips_load(cpu,  INS_RD( cpu->op ), cpu->r[ INS_RS( cpu->op ) ] & cpu->r[ INS_RT( cpu->op ) ] );
-				break;
-			case FUNCT_OR:
-				mips_load(cpu,  INS_RD( cpu->op ), cpu->r[ INS_RS( cpu->op ) ] | cpu->r[ INS_RT( cpu->op ) ] );
-				break;
-			case FUNCT_XOR:
-				mips_load(cpu,  INS_RD( cpu->op ), cpu->r[ INS_RS( cpu->op ) ] ^ cpu->r[ INS_RT( cpu->op ) ] );
-				break;
-			case FUNCT_NOR:
-				mips_load(cpu,  INS_RD( cpu->op ), ~( cpu->r[ INS_RS( cpu->op ) ] | cpu->r[ INS_RT( cpu->op ) ] ) );
-				break;
-			case FUNCT_SLT:
-				mips_load(cpu,  INS_RD( cpu->op ), (INT32)cpu->r[ INS_RS( cpu->op ) ] < (INT32)cpu->r[ INS_RT( cpu->op ) ] );
-				break;
-			case FUNCT_SLTU:
-				mips_load(cpu,  INS_RD( cpu->op ), cpu->r[ INS_RS( cpu->op ) ] < cpu->r[ INS_RT( cpu->op ) ] );
-				break;
-			default:
-				mips_exception(cpu, EXC_RI );
-				break;
-			}
-			break;
-		case OP_REGIMM:
-			switch( INS_RT( cpu->op ) )
-			{
-			case RT_BLTZ:
-				if( (INT32)cpu->r[ INS_RS( cpu->op ) ] < 0 )
-				{
-					mips_delayed_branch( cpu, cpu->pc + 4 + ( MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) ) << 2 ) );
-				}
-				else
-				{
-					mips_advance_pc(cpu);
-				}
-				break;
-			case RT_BGEZ:
-				if( (INT32)cpu->r[ INS_RS( cpu->op ) ] >= 0 )
-				{
-					mips_delayed_branch( cpu, cpu->pc + 4 + ( MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) ) << 2 ) );
-				}
-				else
-				{
-					mips_advance_pc(cpu);
-				}
-				break;
-			case RT_BLTZAL:
-				n_res = cpu->pc + 8;
-				if( (INT32)cpu->r[ INS_RS( cpu->op ) ] < 0 )
-				{
-					mips_delayed_branch( cpu, cpu->pc + 4 + ( MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) ) << 2 ) );
-				}
-				else
-				{
-					mips_advance_pc(cpu);
-				}
-				cpu->r[ 31 ] = n_res;
-				break;
-			case RT_BGEZAL:
-				n_res = cpu->pc + 8;
-				if( (INT32)cpu->r[ INS_RS( cpu->op ) ] >= 0 )
-				{
-					mips_delayed_branch( cpu, cpu->pc + 4 + ( MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) ) << 2 ) );
-				}
-				else
-				{
-					mips_advance_pc(cpu);
-				}
-				cpu->r[ 31 ] = n_res;
-				break;
-			}
-			break;
-		case OP_J:
-			mips_delayed_branch( cpu, ( ( cpu->pc + 4 ) & 0xf0000000 ) + ( INS_TARGET( cpu->op ) << 2 ) );
-			break;
-		case OP_JAL:
-			n_res = cpu->pc + 8;
-			mips_delayed_branch( cpu, ( ( cpu->pc + 4 ) & 0xf0000000 ) + ( INS_TARGET( cpu->op ) << 2 ) );
-			cpu->r[ 31 ] = n_res;
-			break;
-		case OP_BEQ:
-			if( cpu->r[ INS_RS( cpu->op ) ] == cpu->r[ INS_RT( cpu->op ) ] )
-			{
-				mips_delayed_branch( cpu, cpu->pc + 4 + ( MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) ) << 2 ) );
-			}
-			else
-			{
-				mips_advance_pc(cpu);
-			}
-			break;
-		case OP_BNE:
-			if( cpu->r[ INS_RS( cpu->op ) ] != cpu->r[ INS_RT( cpu->op ) ] )
-			{
-				mips_delayed_branch( cpu, cpu->pc + 4 + ( MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) ) << 2 ) );
-			}
-			else
-			{
-				mips_advance_pc(cpu);
-			}
-			break;
-		case OP_BLEZ:
-			if( INS_RT( cpu->op ) != 0 )
-			{
-				mips_exception(cpu, EXC_RI );
-			}
-			else if( (INT32)cpu->r[ INS_RS( cpu->op ) ] <= 0 )
-			{
-				mips_delayed_branch( cpu, cpu->pc + 4 + ( MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) ) << 2 ) );
-			}
-			else
-			{
-				mips_advance_pc(cpu);
-			}
-			break;
-		case OP_BGTZ:
-			if( INS_RT( cpu->op ) != 0 )
-			{
-				mips_exception(cpu, EXC_RI );
-			}
-			else if( (INT32)cpu->r[ INS_RS( cpu->op ) ] > 0 )
-			{
-				mips_delayed_branch( cpu, cpu->pc + 4 + ( MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) ) << 2 ) );
-			}
-			else
-			{
-				mips_advance_pc(cpu);
-			}
-			break;
-		case OP_ADDI:
-			{
-				UINT32 n_imm;
-				n_imm = MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				n_res = cpu->r[ INS_RS( cpu->op ) ] + n_imm;
-				if( (INT32)( ~( cpu->r[ INS_RS( cpu->op ) ] ^ n_imm ) & ( cpu->r[ INS_RS( cpu->op ) ] ^ n_res ) ) < 0 )
-				{
-					mips_exception(cpu, EXC_OVF );
-				}
-				else
-				{
-					mips_load(cpu,  INS_RT( cpu->op ), n_res );
-				}
-			}
-			break;
-		case OP_ADDIU:
-			if (INS_RT( cpu->op ) == 0)
-			{
-				psx_iop_call(cpu, cpu->pc, INS_IMMEDIATE(cpu->op));
-				mips_advance_pc(cpu);
-			}
-			else
-			{
-				mips_load(cpu,  INS_RT( cpu->op ), cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) ) );
-			}
-			break;
-		case OP_SLTI:
-			mips_load(cpu,  INS_RT( cpu->op ), (INT32)cpu->r[ INS_RS( cpu->op ) ] < MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) ) );
-			break;
-		case OP_SLTIU:
-			mips_load(cpu,  INS_RT( cpu->op ), cpu->r[ INS_RS( cpu->op ) ] < (UINT32)MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) ) );
-			break;
-		case OP_ANDI:
-			mips_load(cpu,  INS_RT( cpu->op ), cpu->r[ INS_RS( cpu->op ) ] & INS_IMMEDIATE( cpu->op ) );
-			break;
-		case OP_ORI:
-			mips_load(cpu,  INS_RT( cpu->op ), cpu->r[ INS_RS( cpu->op ) ] | INS_IMMEDIATE( cpu->op ) );
-			break;
-		case OP_XORI:
-			mips_load(cpu,  INS_RT( cpu->op ), cpu->r[ INS_RS( cpu->op ) ] ^ INS_IMMEDIATE( cpu->op ) );
-			break;
-		case OP_LUI:
-			mips_load(cpu,  INS_RT( cpu->op ), INS_IMMEDIATE( cpu->op ) << 16 );
-			break;
-		case OP_COP0:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) != 0 && ( cpu->cp0r[ CP0_SR ] & SR_CU0 ) == 0 )
-			{
-				mips_exception(cpu, EXC_CPU );
-				mips_set_cp0r( cpu, CP0_CAUSE, ( cpu->cp0r[ CP0_CAUSE ] & ~CAUSE_CE ) | CAUSE_CE0 );
-			}
-			else
-			{
-				switch( INS_RS( cpu->op ) )
-				{
-				case RS_MFC:
-					mips_delayed_load( cpu, INS_RT( cpu->op ), cpu->cp0r[ INS_RD( cpu->op ) ] );
-					break;
-				case RS_CFC:
-					/* todo: */
-					logerror( "%08x: COP0 CFC not supported\n", cpu->pc );
-					mips_stop();
-					mips_advance_pc(cpu);
-					break;
-				case RS_MTC:
-					n_res = ( cpu->cp0r[ INS_RD( cpu->op ) ] & ~mips_mtc0_writemask[ INS_RD( cpu->op ) ] ) |
-						( cpu->r[ INS_RT( cpu->op ) ] & mips_mtc0_writemask[ INS_RD( cpu->op ) ] );
-					mips_advance_pc(cpu);
-					mips_set_cp0r(cpu, INS_RD( cpu->op ), n_res );
-					break;
-				case RS_CTC:
-					/* todo: */
-					logerror( "%08x: COP0 CTC not supported\n", cpu->pc );
-					mips_stop();
-					mips_advance_pc(cpu);
-					break;
-				case RS_BC:
-					switch( INS_RT( cpu->op ) )
-					{
-					case RT_BCF:
-						/* todo: */
-						logerror( "%08x: COP0 BCF not supported\n", cpu->pc );
-						mips_stop();
-						mips_advance_pc(cpu);
-						break;
-					case RT_BCT:
-						/* todo: */
-						logerror( "%08x: COP0 BCT not supported\n", cpu->pc );
-						mips_stop();
-						mips_advance_pc(cpu);
-						break;
-					default:
-						/* todo: */
-						logerror( "%08x: COP0 unknown command %08x\n", cpu->pc, cpu->op );
-						mips_stop();
-						mips_advance_pc(cpu);
-						break;
-					}
-					break;
-				default:
-					switch( INS_CO( cpu->op ) )
-					{
-					case 1:
-						switch( INS_CF( cpu->op ) )
-						{
-						case CF_RFE:
-							mips_advance_pc(cpu);
-							mips_set_cp0r(cpu, CP0_SR, ( cpu->cp0r[ CP0_SR ] & ~0xf ) | ( ( cpu->cp0r[ CP0_SR ] >> 2 ) & 0xf ) );
-							break;
-						default:
-							/* todo: */
-							logerror( "%08x: COP0 unknown command %08x\n", cpu->pc, cpu->op );
-							mips_stop();
-							mips_advance_pc(cpu);
-							break;
-						}
-						break;
-					default:
-						/* todo: */
-						logerror( "%08x: COP0 unknown command %08x\n", cpu->pc, cpu->op );
-						mips_stop();
-						mips_advance_pc(cpu);
-						break;
-					}
-					break;
-				}
-			}
-			break;
-		case OP_COP1:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_CU1 ) == 0 )
-			{
-				mips_exception(cpu, EXC_CPU );
-				mips_set_cp0r(cpu, CP0_CAUSE, ( cpu->cp0r[ CP0_CAUSE ] & ~CAUSE_CE ) | CAUSE_CE1 );
-			}
-			else
-			{
-				switch( INS_RS( cpu->op ) )
-				{
-				case RS_MFC:
-					/* todo: */
-					logerror( "%08x: COP1 BCT not supported\n", cpu->pc );
-					mips_stop();
-					mips_advance_pc(cpu);
-					break;
-				case RS_CFC:
-					/* todo: */
-					logerror( "%08x: COP1 CFC not supported\n", cpu->pc );
-					mips_stop();
-					mips_advance_pc(cpu);
-					break;
-				case RS_MTC:
-					/* todo: */
-					logerror( "%08x: COP1 MTC not supported\n", cpu->pc );
-					mips_stop();
-					mips_advance_pc(cpu);
-					break;
-				case RS_CTC:
-					/* todo: */
-					logerror( "%08x: COP1 CTC not supported\n", cpu->pc );
-					mips_stop();
-					mips_advance_pc(cpu);
-					break;
-				case RS_BC:
-					switch( INS_RT( cpu->op ) )
-					{
-					case RT_BCF:
-						/* todo: */
-						logerror( "%08x: COP1 BCF not supported\n", cpu->pc );
-						mips_stop();
-						mips_advance_pc(cpu);
-						break;
-					case RT_BCT:
-						/* todo: */
-						logerror( "%08x: COP1 BCT not supported\n", cpu->pc );
-						mips_stop();
-						mips_advance_pc(cpu);
-						break;
-					default:
-						/* todo: */
-						logerror( "%08x: COP1 unknown command %08x\n", cpu->pc, cpu->op );
-						mips_stop();
-						mips_advance_pc(cpu);
-						break;
-					}
-					break;
-				default:
-					switch( INS_CO( cpu->op ) )
-					{
-					case 1:
-						/* todo: */
-						logerror( "%08x: COP1 unknown command %08x\n", cpu->pc, cpu->op );
-						mips_stop();
-						mips_advance_pc(cpu);
-						break;
-					default:
-						/* todo: */
-						logerror( "%08x: COP1 unknown command %08x\n", cpu->pc, cpu->op );
-						mips_stop();
-						mips_advance_pc(cpu);
-						break;
-					}
-					break;
-				}
-			}
-			break;
-		case OP_COP2:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_CU2 ) == 0 )
-			{
-				mips_exception(cpu, EXC_CPU );
-				mips_set_cp0r(cpu, CP0_CAUSE, ( cpu->cp0r[ CP0_CAUSE ] & ~CAUSE_CE ) | CAUSE_CE2 );
-			}
-			else
-			{
-				switch( INS_RS( cpu->op ) )
-				{
-				case RS_MFC:
-					mips_delayed_load(cpu, INS_RT( cpu->op ), getcp2dr(cpu, INS_RD( cpu->op ) ) );
-					break;
-				case RS_CFC:
-					mips_delayed_load(cpu, INS_RT( cpu->op ), getcp2cr(cpu, INS_RD( cpu->op ) ) );
-					break;
-				case RS_MTC:
-					setcp2dr(cpu, INS_RD( cpu->op ), cpu->r[ INS_RT( cpu->op ) ] );
-					mips_advance_pc(cpu);
-					break;
-				case RS_CTC:
-					setcp2cr(cpu, INS_RD( cpu->op ), cpu->r[ INS_RT( cpu->op ) ] );
-					mips_advance_pc(cpu);
-					break;
-				case RS_BC:
-					switch( INS_RT( cpu->op ) )
-					{
-					case RT_BCF:
-						/* todo: */
-						logerror( "%08x: COP2 BCF not supported\n", cpu->pc );
-						mips_stop();
-						mips_advance_pc(cpu);
-						break;
-					case RT_BCT:
-						/* todo: */
-						logerror( "%08x: COP2 BCT not supported\n", cpu->pc );
-						mips_stop();
-						mips_advance_pc(cpu);
-						break;
-					default:
-						/* todo: */
-						logerror( "%08x: COP2 unknown command %08x\n", cpu->pc, cpu->op );
-						mips_stop();
-						mips_advance_pc(cpu);
-						break;
-					}
-					break;
-				default:
-					switch( INS_CO( cpu->op ) )
-					{
-					case 1:
-						docop2(cpu, INS_COFUN( cpu->op ) );
-						mips_advance_pc(cpu);
-						break;
-					default:
-						/* todo: */
-						logerror( "%08x: COP2 unknown command %08x\n", cpu->pc, cpu->op );
-						mips_stop();
-						mips_advance_pc(cpu);
-						break;
-					}
-					break;
-				}
-			}
-			break;
-		case OP_LB:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-				logerror( "%08x: LB SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-				mips_advance_pc(cpu);
-			}
-			else if( ( cpu->cp0r[ CP0_SR ] & ( SR_RE | SR_KUC ) ) == ( SR_RE | SR_KUC ) )
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					mips_delayed_load(cpu, INS_RT( cpu->op ), MIPS_BYTE_EXTEND( program_read_byte_32le( cpu, n_adr ^ 3 ) ) );
-				}
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					mips_delayed_load(cpu, INS_RT( cpu->op ), MIPS_BYTE_EXTEND( program_read_byte_32le( cpu, n_adr ) ) );
-				}
-			}
-			break;
-		case OP_LH:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-				logerror( "%08x: LH SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-				mips_advance_pc(cpu);
-			}
-			else if( ( cpu->cp0r[ CP0_SR ] & ( SR_RE | SR_KUC ) ) == ( SR_RE | SR_KUC ) )
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) | 1 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					mips_delayed_load(cpu, INS_RT( cpu->op ), MIPS_WORD_EXTEND( program_read_word_32le( cpu, n_adr ^ 2 ) ) );
-				}
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) | 1 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					mips_delayed_load(cpu, INS_RT( cpu->op ), MIPS_WORD_EXTEND( program_read_word_32le( cpu, n_adr ) ) );
-				}
-			}
-			break;
-		case OP_LWL:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-				logerror( "%08x: LWL SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-				mips_advance_pc(cpu);
-			}
-			else if( ( cpu->cp0r[ CP0_SR ] & ( SR_RE | SR_KUC ) ) == ( SR_RE | SR_KUC ) )
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					switch( n_adr & 3 )
-					{
-					case 0:
-						n_res = ( cpu->r[ INS_RT( cpu->op ) ] & 0x00ffffff ) | ( (UINT32)program_read_byte_32le( cpu, n_adr + 3 ) << 24 );
-						break;
-					case 1:
-						n_res = ( cpu->r[ INS_RT( cpu->op ) ] & 0x0000ffff ) | ( (UINT32)program_read_word_32le( cpu, n_adr + 1 ) << 16 );
-						break;
-					case 2:
-						n_res = ( cpu->r[ INS_RT( cpu->op ) ] & 0x000000ff ) | ( (UINT32)program_read_byte_32le( cpu, n_adr - 1 ) << 8 ) | ( (UINT32)program_read_word_32le( cpu, n_adr ) << 16 );
-						break;
-					default:
-						n_res = program_read_dword_32le( cpu, n_adr - 3 );
-						break;
-					}
-					mips_delayed_load(cpu, INS_RT( cpu->op ), n_res );
-				}
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					switch( n_adr & 3 )
-					{
-					case 0:
-						n_res = ( cpu->r[ INS_RT( cpu->op ) ] & 0x00ffffff ) | ( (UINT32)program_read_byte_32le( cpu, n_adr ) << 24 );
-						break;
-					case 1:
-						n_res = ( cpu->r[ INS_RT( cpu->op ) ] & 0x0000ffff ) | ( (UINT32)program_read_word_32le( cpu, n_adr - 1 ) << 16 );
-						break;
-					case 2:
-						n_res = ( cpu->r[ INS_RT( cpu->op ) ] & 0x000000ff ) | ( (UINT32)program_read_word_32le( cpu, n_adr - 2 ) << 8 ) | ( (UINT32)program_read_byte_32le( cpu, n_adr ) << 24 );
-						break;
-					default:
-						n_res = program_read_dword_32le( cpu, n_adr - 3 );
-						break;
-					}
-					mips_delayed_load(cpu, INS_RT( cpu->op ), n_res );
-				}
-			}
-			break;
-		case OP_LW:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-				logerror( "%08x: LW SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-				mips_advance_pc(cpu);
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-#if 0
-				if( ( n_adr & ( ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) | 3 ) ) != 0 )
-				{
-					printf("ADEL\n");
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-#endif
-				{
-					mips_delayed_load(cpu, INS_RT( cpu->op ), program_read_dword_32le( cpu, n_adr ) );
-				}
-			}
-			break;
-		case OP_LBU:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-				logerror( "%08x: LBU SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-				mips_advance_pc(cpu);
-			}
-			else if( ( cpu->cp0r[ CP0_SR ] & ( SR_RE | SR_KUC ) ) == ( SR_RE | SR_KUC ) )
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					mips_delayed_load(cpu, INS_RT( cpu->op ), program_read_byte_32le( cpu, n_adr ^ 3 ) );
-				}
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					mips_delayed_load(cpu, INS_RT( cpu->op ), program_read_byte_32le( cpu, n_adr ) );
-				}
-			}
-			break;
-		case OP_LHU:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-				logerror( "%08x: LHU SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-				mips_advance_pc(cpu);
-			}
-			else if( ( cpu->cp0r[ CP0_SR ] & ( SR_RE | SR_KUC ) ) == ( SR_RE | SR_KUC ) )
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) | 1 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					mips_delayed_load(cpu, INS_RT( cpu->op ), program_read_word_32le( cpu, n_adr ^ 2 ) );
-				}
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) | 1 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					mips_delayed_load(cpu, INS_RT( cpu->op ), program_read_word_32le( cpu, n_adr ) );
-				}
-			}
-			break;
-		case OP_LWR:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-				logerror( "%08x: LWR SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-				mips_advance_pc(cpu);
-			}
-			else if( ( cpu->cp0r[ CP0_SR ] & ( SR_RE | SR_KUC ) ) == ( SR_RE | SR_KUC ) )
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					switch( n_adr & 3 )
-					{
-					case 3:
-						n_res = ( cpu->r[ INS_RT( cpu->op ) ] & 0xffffff00 ) | program_read_byte_32le( cpu, n_adr - 3 );
-						break;
-					case 2:
-						n_res = ( cpu->r[ INS_RT( cpu->op ) ] & 0xffff0000 ) | program_read_word_32le( cpu, n_adr - 2 );
-						break;
-					case 1:
-						n_res = ( cpu->r[ INS_RT( cpu->op ) ] & 0xff000000 ) | program_read_word_32le( cpu, n_adr - 1 ) | ( (UINT32)program_read_byte_32le( cpu, n_adr + 1 ) << 16 );
-						break;
-					default:
-						n_res = program_read_dword_32le( cpu, n_adr );
-						break;
-					}
-					mips_delayed_load(cpu, INS_RT( cpu->op ), n_res );
-				}
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					switch( n_adr & 3 )
-					{
-					case 3:
-						n_res = ( cpu->r[ INS_RT( cpu->op ) ] & 0xffffff00 ) | program_read_byte_32le( cpu, n_adr );
-						break;
-					case 2:
-						n_res = ( cpu->r[ INS_RT( cpu->op ) ] & 0xffff0000 ) | program_read_word_32le( cpu, n_adr );
-						break;
-					case 1:
-						n_res = ( cpu->r[ INS_RT( cpu->op ) ] & 0xff000000 ) | program_read_byte_32le( cpu, n_adr ) | ( (UINT32)program_read_word_32le( cpu, n_adr + 1 ) << 8 );
-						break;
-					default:
-						n_res = program_read_dword_32le( cpu, n_adr );
-						break;
-					}
-					mips_delayed_load(cpu, INS_RT( cpu->op ), n_res );
-				}
-			}
-			break;
-		case OP_SB:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-				logerror( "%08x: SB SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-				mips_advance_pc(cpu);
-			}
-			else if( ( cpu->cp0r[ CP0_SR ] & ( SR_RE | SR_KUC ) ) == ( SR_RE | SR_KUC ) )
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADES );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					program_write_byte_32le( cpu, n_adr ^ 3, cpu->r[ INS_RT( cpu->op ) ] );
-					mips_advance_pc(cpu);
-				}
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADES );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					program_write_byte_32le( cpu, n_adr, cpu->r[ INS_RT( cpu->op ) ] );
-					mips_advance_pc(cpu);
-				}
-			}
-			break;
-		case OP_SH:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-				logerror( "%08x: SH SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-				mips_advance_pc(cpu);
-			}
-			else if( ( cpu->cp0r[ CP0_SR ] & ( SR_RE | SR_KUC ) ) == ( SR_RE | SR_KUC ) )
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) | 1 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADES );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					program_write_word_32le( cpu, n_adr ^ 2, cpu->r[ INS_RT( cpu->op ) ] );
-					mips_advance_pc(cpu);
-				}
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) | 1 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADES );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					program_write_word_32le( cpu, n_adr, cpu->r[ INS_RT( cpu->op ) ] );
-					mips_advance_pc(cpu);
-				}
-			}
-			break;
-		case OP_SWL:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-				printf("SR_ISC not supported\n");
-				logerror( "%08x: SWL SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-				mips_advance_pc(cpu);
-			}
-			else if( ( cpu->cp0r[ CP0_SR ] & ( SR_RE | SR_KUC ) ) == ( SR_RE | SR_KUC ) )
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					printf("permission violation?\n");
-					mips_exception(cpu, EXC_ADES );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					switch( n_adr & 3 )
-					{
-					case 0:
-						program_write_byte_32le( cpu, n_adr + 3, cpu->r[ INS_RT( cpu->op ) ] >> 24 );
-						break;
-					case 1:
-						program_write_word_32le( cpu, n_adr + 1, cpu->r[ INS_RT( cpu->op ) ] >> 16 );
-						break;
-					case 2:
-						program_write_byte_32le( cpu, n_adr - 1, cpu->r[ INS_RT( cpu->op ) ] >> 8 );
-						program_write_word_32le( cpu, n_adr, cpu->r[ INS_RT( cpu->op ) ] >> 16 );
-						break;
-					case 3:
-						program_write_dword_32le( cpu, n_adr - 3, cpu->r[ INS_RT( cpu->op ) ] );
-						break;
-					}
-					mips_advance_pc(cpu);
-				}
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					printf("permission violation 2\n");
-					mips_exception(cpu, EXC_ADES );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					switch( n_adr & 3 )
-					{
-					case 0:
-						program_write_byte_32le( cpu, n_adr, cpu->r[ INS_RT( cpu->op ) ] >> 24 );
-						break;
-					case 1:
-						program_write_word_32le( cpu, n_adr - 1, cpu->r[ INS_RT( cpu->op ) ] >> 16 );
-						break;
-					case 2:
-						program_write_word_32le( cpu, n_adr - 2, cpu->r[ INS_RT( cpu->op ) ] >> 8 );
-						program_write_byte_32le( cpu, n_adr, cpu->r[ INS_RT( cpu->op ) ] >> 24 );
-						break;
-					case 3:
-						program_write_dword_32le( cpu, n_adr - 3, cpu->r[ INS_RT( cpu->op ) ] );
-						break;
-					}
-					mips_advance_pc(cpu);
-				}
-			}
-			break;
-		case OP_SW:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-/* used by bootstrap
-				logerror( "%08x: SW SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-*/
-				mips_advance_pc(cpu);
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if(0) // ( n_adr & ( ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) | 3 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADES );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					program_write_dword_32le( cpu, n_adr, cpu->r[ INS_RT( cpu->op ) ] );
-					mips_advance_pc(cpu);
-				}
-			}
-			break;
-		case OP_SWR:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-				logerror( "%08x: SWR SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-				mips_advance_pc(cpu);
-			}
-			else if( ( cpu->cp0r[ CP0_SR ] & ( SR_RE | SR_KUC ) ) == ( SR_RE | SR_KUC ) )
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADES );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					switch( n_adr & 3 )
-					{
-					case 0:
-						program_write_dword_32le( cpu, n_adr, cpu->r[ INS_RT( cpu->op ) ] );
-						break;
-					case 1:
-						program_write_word_32le( cpu, n_adr - 1, cpu->r[ INS_RT( cpu->op ) ] );
-						program_write_byte_32le( cpu, n_adr + 1, cpu->r[ INS_RT( cpu->op ) ] >> 16 );
-						break;
-					case 2:
-						program_write_word_32le( cpu, n_adr - 2, cpu->r[ INS_RT( cpu->op ) ] );
-						break;
-					case 3:
-						program_write_byte_32le( cpu, n_adr - 3, cpu->r[ INS_RT( cpu->op ) ] );
-						break;
-					}
-					mips_advance_pc(cpu);
-				}
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADES );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					switch( n_adr & 3 )
-					{
-					case 0:
-						program_write_dword_32le( cpu, n_adr, cpu->r[ INS_RT( cpu->op ) ] );
-						break;
-					case 1:
-						program_write_byte_32le( cpu, n_adr, cpu->r[ INS_RT( cpu->op ) ] );
-						program_write_word_32le( cpu, n_adr + 1, cpu->r[ INS_RT( cpu->op ) ] >> 8 );
-						break;
-					case 2:
-						program_write_word_32le( cpu, n_adr, cpu->r[ INS_RT( cpu->op ) ] );
-						break;
-					case 3:
-						program_write_byte_32le( cpu, n_adr, cpu->r[ INS_RT( cpu->op ) ] );
-						break;
-					}
-					mips_advance_pc(cpu);
-				}
-			}
-			break;
-		case OP_LWC1:
-			/* todo: */
-			logerror( "%08x: COP1 LWC not supported\n", cpu->pc );
-			mips_stop();
-			mips_advance_pc(cpu);
-			break;
-		case OP_LWC2:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_CU2 ) == 0 )
-			{
-				mips_exception(cpu, EXC_CPU );
-				mips_set_cp0r(cpu, CP0_CAUSE, ( cpu->cp0r[ CP0_CAUSE ] & ~CAUSE_CE ) | CAUSE_CE2 );
-			}
-			else if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-				logerror( "%08x: LWC2 SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-				mips_advance_pc(cpu);
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) | 3 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADEL );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					/* todo: delay? */
-					setcp2dr(cpu, INS_RT( cpu->op ), program_read_dword_32le( cpu, n_adr ) );
-					mips_advance_pc(cpu);
-				}
-			}
-			break;
-		case OP_SWC1:
-			/* todo: */
-			logerror( "%08x: COP1 SWC not supported\n", cpu->pc );
-			mips_stop();
-			mips_advance_pc(cpu);
-			break;
-		case OP_SWC2:
-			if( ( cpu->cp0r[ CP0_SR ] & SR_CU2 ) == 0 )
-			{
-				mips_exception(cpu, EXC_CPU );
-				mips_set_cp0r(cpu, CP0_CAUSE, ( cpu->cp0r[ CP0_CAUSE ] & ~CAUSE_CE ) | CAUSE_CE2 );
-			}
-			else if( ( cpu->cp0r[ CP0_SR ] & SR_ISC ) != 0 )
-			{
-				/* todo: */
-				logerror( "%08x: SWC2 SR_ISC not supported\n", cpu->pc );
-				mips_stop();
-				mips_advance_pc(cpu);
-			}
-			else
-			{
-				UINT32 n_adr;
-				n_adr = cpu->r[ INS_RS( cpu->op ) ] + MIPS_WORD_EXTEND( INS_IMMEDIATE( cpu->op ) );
-				if( ( n_adr & ( ( ( cpu->cp0r[ CP0_SR ] & SR_KUC ) << 30 ) | 3 ) ) != 0 )
-				{
-					mips_exception(cpu, EXC_ADES );
-					mips_set_cp0r(cpu, CP0_BADVADDR, n_adr );
-				}
-				else
-				{
-					program_write_dword_32le( cpu, n_adr, getcp2dr(cpu, INS_RT( cpu->op ) ) );
-					mips_advance_pc(cpu);
-				}
-			}
-			break;
-		default:
-//			printf( "%08x: unknown opcode %08x (prev %08x, RA %08x)\n", cpu->pc, cpu->op, cpu->prevpc,  cpu->r[31] );
-//			mips_stop();
-//			mips_exception(cpu, EXC_RI );
-  			break;
-		}
-//skipinterp: // unused label
-		cpu->mips_ICount--;
-	} while( cpu->mips_ICount > 0 );
-
-	return cycles - cpu->mips_ICount;
-}
-
-#if 0
-static void mips_get_context( void *dst )
-{
-	if( dst )
-	{
-		*(mips_cpu_context *)dst = mipscpu;
-	}
-}
-
-static void mips_set_context( void *src )
-{
-	if( src )
-	{
-		mipscpu = *(mips_cpu_context *)src;
-		change_pc( cpu->pc );
-	}
-}
-#endif
-
-static void set_irq_line( mips_cpu_context *cpu, int irqline, int state )
-{
-	UINT32 ip;
-
-	switch( irqline )
-	{
-	case MIPS_IRQ0:
-		ip = CAUSE_IP2;
-		break;
-	case MIPS_IRQ1:
-		ip = CAUSE_IP3;
-		break;
-	case MIPS_IRQ2:
-		ip = CAUSE_IP4;
-		break;
-	case MIPS_IRQ3:
-		ip = CAUSE_IP5;
-		break;
-	case MIPS_IRQ4:
-		ip = CAUSE_IP6;
-		break;
-	case MIPS_IRQ5:
-		ip = CAUSE_IP7;
-		break;
-	default:
-		return;
-	}
-
-	switch( state )
-	{
-	case CLEAR_LINE:
-		mips_set_cp0r(cpu, CP0_CAUSE, cpu->cp0r[ CP0_CAUSE ] & ~ip );
-		break;
-	case ASSERT_LINE:
-		mips_set_cp0r(cpu, CP0_CAUSE, cpu->cp0r[ CP0_CAUSE ] |= ip );
-		if( cpu->irq_callback )
-		{
-			/* HOLD_LINE interrupts are not supported by the architecture.
-			By acknowledging the interupt here they are treated like PULSE_LINE
-			interrupts, so if the interrupt isn't enabled it will be ignored.
-			There is also a problem with PULSE_LINE interrupts as the interrupt
-			pending bits aren't latched the emulated code won't know what caused
-			the interrupt. */
-			(*cpu->irq_callback)( cpu, irqline );
-		}
-		break;
-	}
-}
-
-/****************************************************************************
- * Return a formatted string for a register
- ****************************************************************************/
-
-offs_t mips_dasm( mips_cpu_context *cpu, char *buffer, offs_t pc )
-{
-	offs_t ret;
-	change_pc( pc );
-#ifdef MAME_DEBUG
-	ret = DasmMIPS( buffer, pc );
-#else
-	sprintf( buffer, "$%08x", cpu_readop32( pc ) );
-	ret = 4;
-#endif
-	change_pc( cpu->pc );
-	return ret;
-}
-
-/* preliminary gte code */
-
-#define VXY0 ( cpu->cp2dr[ 0 ].d )
-#define VX0  ( cpu->cp2dr[ 0 ].w.l )
-#define VY0  ( cpu->cp2dr[ 0 ].w.h )
-#define VZ0  ( cpu->cp2dr[ 1 ].w.l )
-#define VXY1 ( cpu->cp2dr[ 2 ].d )
-#define VX1  ( cpu->cp2dr[ 2 ].w.l )
-#define VY1  ( cpu->cp2dr[ 2 ].w.h )
-#define VZ1  ( cpu->cp2dr[ 3 ].w.l )
-#define VXY2 ( cpu->cp2dr[ 4 ].d )
-#define VX2  ( cpu->cp2dr[ 4 ].w.l )
-#define VY2  ( cpu->cp2dr[ 4 ].w.h )
-#define VZ2  ( cpu->cp2dr[ 5 ].w.l )
-#define RGB  ( cpu->cp2dr[ 6 ].d )
-#define R    ( cpu->cp2dr[ 6 ].b.l )
-#define G    ( cpu->cp2dr[ 6 ].b.h )
-#define B    ( cpu->cp2dr[ 6 ].b.h2 )
-#define CODE ( cpu->cp2dr[ 6 ].b.h3 )
-#define OTZ  ( cpu->cp2dr[ 7 ].w.l )
-#define IR0  ( cpu->cp2dr[ 8 ].d )
-#define IR1  ( cpu->cp2dr[ 9 ].d )
-#define IR2  ( cpu->cp2dr[ 10 ].d )
-#define IR3  ( cpu->cp2dr[ 11 ].d )
-#define SXY0 ( cpu->cp2dr[ 12 ].d )
-#define SX0  ( cpu->cp2dr[ 12 ].w.l )
-#define SY0  ( cpu->cp2dr[ 12 ].w.h )
-#define SXY1 ( cpu->cp2dr[ 13 ].d )
-#define SX1  ( cpu->cp2dr[ 13 ].w.l )
-#define SY1  ( cpu->cp2dr[ 13 ].w.h )
-#define SXY2 ( cpu->cp2dr[ 14 ].d )
-#define SX2  ( cpu->cp2dr[ 14 ].w.l )
-#define SY2  ( cpu->cp2dr[ 14 ].w.h )
-#define SXYP ( cpu->cp2dr[ 15 ].d )
-#define SXP  ( cpu->cp2dr[ 15 ].w.l )
-#define SYP  ( cpu->cp2dr[ 15 ].w.h )
-#define SZ0  ( cpu->cp2dr[ 16 ].w.l )
-#define SZ1  ( cpu->cp2dr[ 17 ].w.l )
-#define SZ2  ( cpu->cp2dr[ 18 ].w.l )
-#define SZ3  ( cpu->cp2dr[ 19 ].w.l )
-#define RGB0 ( cpu->cp2dr[ 20 ].d )
-#define R0   ( cpu->cp2dr[ 20 ].b.l )
-#define G0   ( cpu->cp2dr[ 20 ].b.h )
-#define B0   ( cpu->cp2dr[ 20 ].b.h2 )
-#define CD0  ( cpu->cp2dr[ 20 ].b.h3 )
-#define RGB1 ( cpu->cp2dr[ 21 ].d )
-#define R1   ( cpu->cp2dr[ 21 ].b.l )
-#define G1   ( cpu->cp2dr[ 21 ].b.h )
-#define B1   ( cpu->cp2dr[ 21 ].b.h2 )
-#define CD1  ( cpu->cp2dr[ 21 ].b.h3 )
-#define RGB2 ( cpu->cp2dr[ 22 ].d )
-#define R2   ( cpu->cp2dr[ 22 ].b.l )
-#define G2   ( cpu->cp2dr[ 22 ].b.h )
-#define B2   ( cpu->cp2dr[ 22 ].b.h2 )
-#define CD2  ( cpu->cp2dr[ 22 ].b.h3 )
-#define RES1 ( cpu->cp2dr[ 23 ].d )
-#define MAC0 ( cpu->cp2dr[ 24 ].d )
-#define MAC1 ( cpu->cp2dr[ 25 ].d )
-#define MAC2 ( cpu->cp2dr[ 26 ].d )
-#define MAC3 ( cpu->cp2dr[ 27 ].d )
-#define IRGB ( cpu->cp2dr[ 28 ].d )
-#define ORGB ( cpu->cp2dr[ 29 ].d )
-#define LZCS ( cpu->cp2dr[ 30 ].d )
-#define LZCR ( cpu->cp2dr[ 31 ].d )
-
-#define D1  ( cpu->cp2cr[ 0 ].d )
-#define R11 ( cpu->cp2cr[ 0 ].w.l )
-#define R12 ( cpu->cp2cr[ 0 ].w.h )
-#define R13 ( cpu->cp2cr[ 1 ].w.l )
-#define R21 ( cpu->cp2cr[ 1 ].w.h )
-#define D2  ( cpu->cp2cr[ 2 ].d )
-#define R22 ( cpu->cp2cr[ 2 ].w.l )
-#define R23 ( cpu->cp2cr[ 2 ].w.h )
-#define R31 ( cpu->cp2cr[ 3 ].w.l )
-#define R32 ( cpu->cp2cr[ 3 ].w.h )
-#define D3  ( cpu->cp2cr[ 4 ].d )
-#define R33 ( cpu->cp2cr[ 4 ].w.l )
-#define TRX ( cpu->cp2cr[ 5 ].d )
-#define TRY ( cpu->cp2cr[ 6 ].d )
-#define TRZ ( cpu->cp2cr[ 7 ].d )
-#define L11 ( cpu->cp2cr[ 8 ].w.l )
-#define L12 ( cpu->cp2cr[ 8 ].w.h )
-#define L13 ( cpu->cp2cr[ 9 ].w.l )
-#define L21 ( cpu->cp2cr[ 9 ].w.h )
-#define L22 ( cpu->cp2cr[ 10 ].w.l )
-#define L23 ( cpu->cp2cr[ 10 ].w.h )
-#define L31 ( cpu->cp2cr[ 11 ].w.l )
-#define L32 ( cpu->cp2cr[ 11 ].w.h )
-#define L33 ( cpu->cp2cr[ 12 ].w.l )
-#define RBK ( cpu->cp2cr[ 13 ].d )
-#define GBK ( cpu->cp2cr[ 14 ].d )
-#define BBK ( cpu->cp2cr[ 15 ].d )
-#define LR1 ( cpu->cp2cr[ 16 ].w.l )
-#define LR2 ( cpu->cp2cr[ 16 ].w.h )
-#define LR3 ( cpu->cp2cr[ 17 ].w.l )
-#define LG1 ( cpu->cp2cr[ 17 ].w.h )
-#define LG2 ( cpu->cp2cr[ 18 ].w.l )
-#define LG3 ( cpu->cp2cr[ 18 ].w.h )
-#define LB1 ( cpu->cp2cr[ 19 ].w.l )
-#define LB2 ( cpu->cp2cr[ 19 ].w.h )
-#define LB3 ( cpu->cp2cr[ 20 ].w.l )
-#define RFC ( cpu->cp2cr[ 21 ].d )
-#define GFC ( cpu->cp2cr[ 22 ].d )
-#define BFC ( cpu->cp2cr[ 23 ].d )
-#define OFX ( cpu->cp2cr[ 24 ].d )
-#define OFY ( cpu->cp2cr[ 25 ].d )
-#define H   ( cpu->cp2cr[ 26 ].w.l )
-#define DQA ( cpu->cp2cr[ 27 ].w.l )
-#define DQB ( cpu->cp2cr[ 28 ].d )
-#define ZSF3 ( cpu->cp2cr[ 29 ].w.l )
-#define ZSF4 ( cpu->cp2cr[ 30 ].w.l )
-#define FLAG ( cpu->cp2cr[ 31 ].d )
-
-static UINT32 getcp2dr(mips_cpu_context *cpu, int n_reg )
-{
-	if( n_reg == 1 || n_reg == 3 || n_reg == 5 || n_reg == 8 || n_reg == 9 || n_reg == 10 || n_reg == 11 )
-	{
-		cpu->cp2dr[ n_reg ].d = (INT32)(INT16)cpu->cp2dr[ n_reg ].d;
-	}
-	else if( n_reg == 17 || n_reg == 18 || n_reg == 19 )
-	{
-		cpu->cp2dr[ n_reg ].d = (UINT32)(UINT16)cpu->cp2dr[ n_reg ].d;
-	}
-	else if( n_reg == 29 )
-	{
-		ORGB = ( ( IR1 >> 7 ) & 0x1f ) | ( ( IR2 >> 2 ) & 0x3e0 ) | ( ( IR3 << 3 ) & 0x7c00 );
-	}
-	GTELOG( "get CP2DR%u=%08x", n_reg, cpu->cp2dr[ n_reg ].d );
-	return cpu->cp2dr[ n_reg ].d;
-}
-
-static void setcp2dr(mips_cpu_context *cpu, int n_reg, UINT32 n_value )
-{
-	GTELOG( "set CP2DR%u=%08x", n_reg, n_value );
-	cpu->cp2dr[ n_reg ].d = n_value;
-
-	if( n_reg == 15 )
-	{
-		SXY0 = SXY1;
-		SXY1 = SXY2;
-		SXY2 = SXYP;
-	}
-	else if( n_reg == 28 )
-	{
-		IR1 = ( IRGB & 0x1f ) << 4;
-		IR2 = ( IRGB & 0x3e0 ) >> 1;
-		IR3 = ( IRGB & 0x7c00 ) >> 6;
-	}
-	else if( n_reg == 30 )
-	{
-		UINT32 n_lzcs = LZCS;
-		UINT32 n_lzcr = 0;
-
-		if( ( n_lzcs & 0x80000000 ) == 0 )
-		{
-			n_lzcs = ~n_lzcs;
-		}
-		while( ( n_lzcs & 0x80000000 ) != 0 )
-		{
-			n_lzcr++;
-			n_lzcs <<= 1;
-		}
-		LZCR = n_lzcr;
-	}
-}
-
-static UINT32 getcp2cr(mips_cpu_context *cpu, int n_reg )
-{
-	GTELOG( "get CP2CR%u=%08x", n_reg, cpu->cp2cr[ n_reg ].d );
-	return cpu->cp2cr[ n_reg ].d;
-}
-
-static void setcp2cr(mips_cpu_context *cpu, int n_reg, UINT32 n_value )
-{
-	GTELOG( "set CP2CR%u=%08x", n_reg, n_value );
-	cpu->cp2cr[ n_reg ].d = n_value;
-}
-
-static INLINE INT32 LIM( mips_cpu_context *cpu, INT32 n_value, INT32 n_max, INT32 n_min, UINT32 n_flag )
-{
-	if( n_value > n_max )
-	{
-		FLAG |= n_flag;
-		return n_max;
-	}
-	else if( n_value < n_min )
-	{
-		FLAG |= n_flag;
-		return n_min;
-	}
-	return n_value;
-}
-
-static INLINE INT64 BOUNDS( mips_cpu_context *cpu, INT64 n_value, INT64 n_max, int n_maxflag, INT64 n_min, int n_minflag )
-{
-	if( n_value > n_max )
-	{
-		FLAG |= n_maxflag;
-	}
-	else if( n_value < n_min )
-	{
-		FLAG |= n_minflag;
-	}
-	return n_value;
-}
-
-#define A1( a ) BOUNDS( cpu, ( a ), 0x7fffffff, 30, -(INT64)0x80000000, ( 1 << 27 ) )
-#define A2( a ) BOUNDS( cpu, ( a ), 0x7fffffff, 29, -(INT64)0x80000000, ( 1 << 26 ) )
-#define A3( a ) BOUNDS( cpu, ( a ), 0x7fffffff, 28, -(INT64)0x80000000, ( 1 << 25 ) )
-#define Lm_B1( a, l ) LIM( cpu, ( a ), 0x7fff, -0x8000 * !l, ( 1 << 31 ) | ( 1 << 24 ) )
-#define Lm_B2( a, l ) LIM( cpu, ( a ), 0x7fff, -0x8000 * !l, ( 1 << 31 ) | ( 1 << 23 ) )
-#define Lm_B3( a, l ) LIM( cpu, ( a ), 0x7fff, -0x8000 * !l, ( 1 << 22 ) )
-#define Lm_C1( a ) LIM( cpu, ( a ), 0x00ff, 0x0000, ( 1 << 21 ) )
-#define Lm_C2( a ) LIM( cpu, ( a ), 0x00ff, 0x0000, ( 1 << 20 ) )
-#define Lm_C3( a ) LIM( cpu, ( a ), 0x00ff, 0x0000, ( 1 << 19 ) )
-#define Lm_D( a ) LIM( cpu, ( a ), 0xffff, 0x0000, ( 1 << 31 ) | ( 1 << 18 ) )
-
-static INLINE UINT32 Lm_E( mips_cpu_context *cpu, UINT32 n_z )
-{
-	if( n_z <= H / 2 )
-	{
-		n_z = H / 2;
-		FLAG |= ( 1 << 31 ) | ( 1 << 17 );
-	}
-	if( n_z == 0 )
-	{
-		n_z = 1;
-	}
-	return n_z;
-}
-
-#define F( a ) BOUNDS( cpu, ( a ), 0x7fffffff, ( 1 << 31 ) | ( 1 << 16 ), -(INT64)0x80000000, ( 1 << 31 ) | ( 1 << 15 ) )
-#define Lm_G1( a ) LIM( cpu, ( a ), 0x3ff, -0x400, ( 1 << 31 ) | ( 1 << 14 ) )
-#define Lm_G2( a ) LIM( cpu, ( a ), 0x3ff, -0x400, ( 1 << 31 ) | ( 1 << 13 ) )
-#define Lm_H( a ) LIM( cpu, ( a ), 0xfff, 0x000, ( 1 << 12 ) )
-
-static void docop2(mips_cpu_context *cpu, int gteop )
-{
-	int n_sf;
-	int n_v;
-	int n_lm;
-	int n_pass;
-	UINT16 n_v1;
-	UINT16 n_v2;
-	UINT16 n_v3;
-	UINT16 **p_n_mx;
-	UINT32 **p_n_cv;
-	UINT16 n_zm = 0;
-	UINT32 n_zc = 0;
-	UINT16 *p_n_vx[] = { &VX0, &VX1, &VX2 };
-	UINT16 *p_n_vy[] = { &VY0, &VY1, &VY2 };
-	UINT16 *p_n_vz[] = { &VZ0, &VZ1, &VZ2 };
-	UINT16 *p_n_rm[] = { &R11, &R12, &R13, &R21, &R22, &R23, &R31, &R32, &R33 };
-	UINT16 *p_n_lm[] = { &L11, &L12, &L13, &L21, &L22, &L23, &L31, &L32, &L33 };
-	UINT16 *p_n_cm[] = { &LR1, &LR2, &LR3, &LG1, &LG2, &LG3, &LB1, &LB2, &LB3 };
-	UINT16 *p_n_zm[] = { &n_zm, &n_zm, &n_zm, &n_zm, &n_zm, &n_zm, &n_zm, &n_zm, &n_zm };
-	UINT16 **p_p_n_mx[] = { p_n_rm, p_n_lm, p_n_cm, p_n_zm };
-	UINT32 *p_n_tr[] = { &TRX, &TRY, &TRZ };
-	UINT32 *p_n_bk[] = { &RBK, &GBK, &BBK };
-	UINT32 *p_n_fc[] = { &RFC, &GFC, &BFC };
-	UINT32 *p_n_zc[] = { &n_zc, &n_zc, &n_zc };
-	UINT32 **p_p_n_cv[] = { p_n_tr, p_n_bk, p_n_fc, p_n_zc };
-
-	switch( GTE_FUNCT( gteop ) )
-	{
-	case 0x01:
-		if( gteop == 0x0180001 )
-		{
-			GTELOG( "RTPS" );
-			FLAG = 0;
-
-			MAC1 = A1( ( ( (INT64)(INT32)TRX << 12 ) + ( (INT16)R11 * (INT16)VX0 ) + ( (INT16)R12 * (INT16)VY0 ) + ( (INT16)R13 * (INT16)VZ0 ) ) >> 12 );
-			MAC2 = A2( ( ( (INT64)(INT32)TRY << 12 ) + ( (INT16)R21 * (INT16)VX0 ) + ( (INT16)R22 * (INT16)VY0 ) + ( (INT16)R23 * (INT16)VZ0 ) ) >> 12 );
-			MAC3 = A3( ( ( (INT64)(INT32)TRZ << 12 ) + ( (INT16)R31 * (INT16)VX0 ) + ( (INT16)R32 * (INT16)VY0 ) + ( (INT16)R33 * (INT16)VZ0 ) ) >> 12 );
-			IR1 = Lm_B1( (INT32)MAC1, 0 );
-			IR2 = Lm_B2( (INT32)MAC2, 0 );
-			IR3 = Lm_B3( (INT32)MAC3, 0 );
-			SZ0 = SZ1;
-			SZ1 = SZ2;
-			SZ2 = SZ3;
-			SZ3 = Lm_D( (INT32)MAC3 );
-			SXY0 = SXY1;
-			SXY1 = SXY2;
-			SX2 = Lm_G1( F( (INT64)(INT32)OFX + ( (INT64)(INT16)IR1 * ( ( (UINT32)H << 16 ) / Lm_E( cpu, SZ3 ) ) ) ) >> 16 );
-			SY2 = Lm_G2( F( (INT64)(INT32)OFY + ( (INT64)(INT16)IR2 * ( ( (UINT32)H << 16 ) / Lm_E( cpu, SZ3 ) ) ) ) >> 16 );
-			MAC0 = F( (INT64)(INT32)DQB + ( (INT64)(INT16)DQA * ( ( (UINT32)H << 16 ) / Lm_E( cpu, SZ3 ) ) ) );
-			IR0 = Lm_H( (INT32)MAC0 >> 12 );
-			return;
-		}
-		break;
-	case 0x06:
-		if( gteop == 0x0400006 ||
-			gteop == 0x1400006 ||
-			gteop == 0x0155cc6 )
-		{
-			GTELOG( "NCLIP" );
-			FLAG = 0;
-
-			MAC0 = F( ( (INT64)(INT16)SX0 * (INT16)SY1 ) + ( (INT16)SX1 * (INT16)SY2 ) + ( (INT16)SX2 * (INT16)SY0 ) - ( (INT16)SX0 * (INT16)SY2 ) - ( (INT16)SX1 * (INT16)SY0 ) - ( (INT16)SX2 * (INT16)SY1 ) );
-			return;
-		}
-		break;
-	case 0x0c:
-		if( GTE_OP( gteop ) == 0x17 )
-		{
-			GTELOG( "OP" );
-			n_sf = 12 * GTE_SF( gteop );
-			FLAG = 0;
-
-			MAC1 = A1( ( ( (INT64)(INT32)D2 * (INT16)IR3 ) - ( (INT64)(INT32)D3 * (INT16)IR2 ) ) >> n_sf );
-			MAC2 = A2( ( ( (INT64)(INT32)D3 * (INT16)IR1 ) - ( (INT64)(INT32)D1 * (INT16)IR3 ) ) >> n_sf );
-			MAC3 = A3( ( ( (INT64)(INT32)D1 * (INT16)IR2 ) - ( (INT64)(INT32)D2 * (INT16)IR1 ) ) >> n_sf );
-			IR1 = Lm_B1( (INT32)MAC1, 0 );
-			IR2 = Lm_B2( (INT32)MAC2, 0 );
-			IR3 = Lm_B3( (INT32)MAC3, 0 );
-			return;
-		}
-		break;
-	case 0x10:
-		if( gteop == 0x0780010 )
-		{
-			GTELOG( "DPCS" );
-			FLAG = 0;
-
-			MAC1 = A1( ( ( (INT64)R << 16 ) + ( (INT64)(INT16)IR0 * ( Lm_B1( (INT32)RFC - ( R << 4 ), 0 ) ) ) ) >> 12 );
-			MAC2 = A2( ( ( (INT64)G << 16 ) + ( (INT64)(INT16)IR0 * ( Lm_B1( (INT32)GFC - ( G << 4 ), 0 ) ) ) ) >> 12 );
-			MAC3 = A3( ( ( (INT64)B << 16 ) + ( (INT64)(INT16)IR0 * ( Lm_B1( (INT32)BFC - ( B << 4 ), 0 ) ) ) ) >> 12 );
-			IR1 = Lm_B1( (INT32)MAC1, 0 );
-			IR2 = Lm_B2( (INT32)MAC2, 0 );
-			IR3 = Lm_B3( (INT32)MAC3, 0 );
-			CD0 = CD1;
-			CD1 = CD2;
-			CD2 = CODE;
-			R0 = R1;
-			R1 = R2;
-			R2 = Lm_C1( (INT32)MAC1 >> 4 );
-			G0 = G1;
-			G1 = G2;
-			G2 = Lm_C2( (INT32)MAC2 >> 4 );
-			B0 = B1;
-			B1 = B2;
-			B2 = Lm_C3( (INT32)MAC3 >> 4 );
-			return;
-		}
-		break;
-	case 0x11:
-		if( gteop == 0x0980011 )
-		{
-			GTELOG( "INTPL" );
-			FLAG = 0;
-
-			MAC1 = A1( ( ( (INT64)(INT16)IR1 << 12 ) + ( (INT64)(INT16)IR0 * ( Lm_B1( (INT32)RFC - (INT16)IR1, 0 ) ) ) ) >> 12 );
-			MAC2 = A2( ( ( (INT64)(INT16)IR2 << 12 ) + ( (INT64)(INT16)IR0 * ( Lm_B1( (INT32)GFC - (INT16)IR2, 0 ) ) ) ) >> 12 );
-			MAC3 = A3( ( ( (INT64)(INT16)IR3 << 12 ) + ( (INT64)(INT16)IR0 * ( Lm_B1( (INT32)BFC - (INT16)IR3, 0 ) ) ) ) >> 12 );
-			IR1 = Lm_B1( (INT32)MAC1, 0 );
-			IR2 = Lm_B2( (INT32)MAC2, 0 );
-			IR3 = Lm_B3( (INT32)MAC3, 0 );
-			CD0 = CD1;
-			CD1 = CD2;
-			CD2 = CODE;
-			R0 = R1;
-			R1 = R2;
-			R2 = Lm_C1( (INT32)MAC1 );
-			G0 = G1;
-			G1 = G2;
-			G2 = Lm_C2( (INT32)MAC2 );
-			B0 = B1;
-			B1 = B2;
-			B2 = Lm_C3( (INT32)MAC3 );
-			return;
-		}
-		break;
-	case 0x12:
-		if( GTE_OP( gteop ) == 0x04 )
-		{
-			GTELOG( "MVMVA" );
-			n_sf = 12 * GTE_SF( gteop );
-			p_n_mx = p_p_n_mx[ GTE_MX( gteop ) ];
-			n_v = GTE_V( gteop );
-			if( n_v < 3 )
-			{
-				n_v1 = *p_n_vx[ n_v ];
-				n_v2 = *p_n_vy[ n_v ];
-				n_v3 = *p_n_vz[ n_v ];
-			}
-			else
-			{
-				n_v1 = IR1;
-				n_v2 = IR2;
-				n_v3 = IR3;
-			}
-			p_n_cv = p_p_n_cv[ GTE_CV( gteop ) ];
-			n_lm = GTE_LM( gteop );
-			FLAG = 0;
-
-			MAC1 = A1( ( ( (INT64)(INT32)*p_n_cv[ 0 ] << 12 ) + ( (INT16)*p_n_mx[ 0 ] * (INT16)n_v1 ) + ( (INT16)*p_n_mx[ 1 ] * (INT16)n_v2 ) + ( (INT16)*p_n_mx[ 2 ] * (INT16)n_v3 ) ) >> n_sf );
-			MAC2 = A2( ( ( (INT64)(INT32)*p_n_cv[ 1 ] << 12 ) + ( (INT16)*p_n_mx[ 3 ] * (INT16)n_v1 ) + ( (INT16)*p_n_mx[ 4 ] * (INT16)n_v2 ) + ( (INT16)*p_n_mx[ 5 ] * (INT16)n_v3 ) ) >> n_sf );
-			MAC3 = A3( ( ( (INT64)(INT32)*p_n_cv[ 2 ] << 12 ) + ( (INT16)*p_n_mx[ 6 ] * (INT16)n_v1 ) + ( (INT16)*p_n_mx[ 7 ] * (INT16)n_v2 ) + ( (INT16)*p_n_mx[ 8 ] * (INT16)n_v3 ) ) >> n_sf );
-
-			IR1 = Lm_B1( (INT32)MAC1, n_lm );
-			IR2 = Lm_B2( (INT32)MAC2, n_lm );
-			IR3 = Lm_B3( (INT32)MAC3, n_lm );
-			return;
-		}
-		break;
-	case 0x13:
-		if( gteop == 0x0e80413 )
-		{
-			GTELOG( "NCDS" );
-			FLAG = 0;
-
-			MAC1 = A1( ( ( (INT64)(INT16)L11 * (INT16)VX0 ) + ( (INT16)L12 * (INT16)VY0 ) + ( (INT16)L13 * (INT16)VZ0 ) ) >> 12 );
-			MAC2 = A2( ( ( (INT64)(INT16)L21 * (INT16)VX0 ) + ( (INT16)L22 * (INT16)VY0 ) + ( (INT16)L23 * (INT16)VZ0 ) ) >> 12 );
-			MAC3 = A3( ( ( (INT64)(INT16)L31 * (INT16)VX0 ) + ( (INT16)L32 * (INT16)VY0 ) + ( (INT16)L33 * (INT16)VZ0 ) ) >> 12 );
-			IR1 = Lm_B1( (INT32)MAC1, 1 );
-			IR2 = Lm_B2( (INT32)MAC2, 1 );
-			IR3 = Lm_B3( (INT32)MAC3, 1 );
-			MAC1 = A1( ( ( (INT64)RBK << 12 ) + ( (INT16)LR1 * (INT16)IR1 ) + ( (INT16)LR2 * (INT16)IR2 ) + ( (INT16)LR3 * (INT16)IR3 ) ) >> 12 );
-			MAC2 = A2( ( ( (INT64)GBK << 12 ) + ( (INT16)LG1 * (INT16)IR1 ) + ( (INT16)LG2 * (INT16)IR2 ) + ( (INT16)LG3 * (INT16)IR3 ) ) >> 12 );
-			MAC3 = A3( ( ( (INT64)BBK << 12 ) + ( (INT16)LB1 * (INT16)IR1 ) + ( (INT16)LB2 * (INT16)IR2 ) + ( (INT16)LB3 * (INT16)IR3 ) ) >> 12 );
-			IR1 = Lm_B1( (INT32)MAC1, 1 );
-			IR2 = Lm_B2( (INT32)MAC2, 1 );
-			IR3 = Lm_B3( (INT32)MAC3, 1 );
-			MAC1 = A1( ( ( ( (INT64)R << 4 ) * (INT16)IR1 ) + ( (INT16)IR0 * Lm_B1( (INT32)RFC - ( ( R * (INT16)IR1 ) >> 8 ), 0 ) ) ) >> 12 );
-			MAC2 = A2( ( ( ( (INT64)G << 4 ) * (INT16)IR2 ) + ( (INT16)IR0 * Lm_B2( (INT32)GFC - ( ( G * (INT16)IR2 ) >> 8 ), 0 ) ) ) >> 12 );
-			MAC3 = A3( ( ( ( (INT64)B << 4 ) * (INT16)IR3 ) + ( (INT16)IR0 * Lm_B3( (INT32)BFC - ( ( B * (INT16)IR3 ) >> 8 ), 0 ) ) ) >> 12 );
-			IR1 = Lm_B1( (INT32)MAC1, 1 );
-			IR2 = Lm_B2( (INT32)MAC2, 1 );
-			IR3 = Lm_B3( (INT32)MAC3, 1 );
-			CD0 = CD1;
-			CD1 = CD2;
-			CD2 = CODE;
-			R0 = R1;
-			R1 = R2;
-			R2 = Lm_C1( (INT32)MAC1 >> 4 );
-			G0 = G1;
-			G1 = G2;
-			G2 = Lm_C2( (INT32)MAC2 >> 4 );
-			B0 = B1;
-			B1 = B2;
-			B2 = Lm_C3( (INT32)MAC3 >> 4 );
-			return;
-		}
-		break;
-	case 0x14:
-		if( gteop == 0x1280414 )
-		{
-			GTELOG( "CDP" );
-			FLAG = 0;
-
-			MAC1 = A1( ( ( (INT64)RBK << 12 ) + ( (INT16)LR1 * (INT16)IR1 ) + ( (INT16)LR2 * (INT16)IR2 ) + ( (INT16)LR3 * (INT16)IR3 ) ) >> 12 );
-			MAC2 = A2( ( ( (INT64)GBK << 12 ) + ( (INT16)LG1 * (INT16)IR1 ) + ( (INT16)LG2 * (INT16)IR2 ) + ( (INT16)LG3 * (INT16)IR3 ) ) >> 12 );
-			MAC3 = A3( ( ( (INT64)BBK << 12 ) + ( (INT16)LB1 * (INT16)IR1 ) + ( (INT16)LB2 * (INT16)IR2 ) + ( (INT16)LB3 * (INT16)IR3 ) ) >> 12 );
-			IR1 = Lm_B1( MAC1, 1 );
-			IR2 = Lm_B2( MAC2, 1 );
-			IR3 = Lm_B3( MAC3, 1 );
-			MAC1 = A1( ( ( ( (INT64)R << 4 ) * (INT16)IR1 ) + ( (INT16)IR0 * Lm_B1( (INT32)RFC - ( ( R * (INT16)IR1 ) >> 8 ), 0 ) ) ) >> 12 );
-			MAC2 = A2( ( ( ( (INT64)G << 4 ) * (INT16)IR2 ) + ( (INT16)IR0 * Lm_B2( (INT32)GFC - ( ( G * (INT16)IR2 ) >> 8 ), 0 ) ) ) >> 12 );
-			MAC3 = A3( ( ( ( (INT64)B << 4 ) * (INT16)IR3 ) + ( (INT16)IR0 * Lm_B3( (INT32)BFC - ( ( B * (INT16)IR3 ) >> 8 ), 0 ) ) ) >> 12 );
-			IR1 = Lm_B1( MAC1, 1 );
-			IR2 = Lm_B2( MAC2, 1 );
-			IR3 = Lm_B3( MAC3, 1 );
-			CD0 = CD1;
-			CD1 = CD2;
-			CD2 = CODE;
-			R0 = R1;
-			R1 = R2;
-			R2 = Lm_C1( (INT32)MAC1 >> 4 );
-			G0 = G1;
-			G1 = G2;
-			G2 = Lm_C2( (INT32)MAC2 >> 4 );
-			B0 = B1;
-			B1 = B2;
-			B2 = Lm_C3( (INT32)MAC3 >> 4 );
-			return;
-		}
-		break;
-	case 0x16:
-		if( gteop == 0x0f80416 )
-		{
-			GTELOG( "NCDT" );
-			FLAG = 0;
-
-			for( n_v = 0; n_v < 3; n_v++ )
-			{
-				MAC1 = A1( ( ( (INT64)(INT16)L11 * (INT16)*p_n_vx[ n_v ] ) + ( (INT16)L12 * (INT16)*p_n_vy[ n_v ] ) + ( (INT16)L13 * (INT16)*p_n_vz[ n_v ] ) ) >> 12 );
-				MAC2 = A2( ( ( (INT64)(INT16)L21 * (INT16)*p_n_vx[ n_v ] ) + ( (INT16)L22 * (INT16)*p_n_vy[ n_v ] ) + ( (INT16)L23 * (INT16)*p_n_vz[ n_v ] ) ) >> 12 );
-				MAC3 = A3( ( ( (INT64)(INT16)L31 * (INT16)*p_n_vx[ n_v ] ) + ( (INT16)L32 * (INT16)*p_n_vy[ n_v ] ) + ( (INT16)L33 * (INT16)*p_n_vz[ n_v ] ) ) >> 12 );
-				IR1 = Lm_B1( (INT32)MAC1, 1 );
-				IR2 = Lm_B2( (INT32)MAC2, 1 );
-				IR3 = Lm_B3( (INT32)MAC3, 1 );
-				MAC1 = A1( ( ( (INT64)RBK << 12 ) + ( (INT16)LR1 * (INT16)IR1 ) + ( (INT16)LR2 * (INT16)IR2 ) + ( (INT16)LR3 * (INT16)IR3 ) ) >> 12 );
-				MAC2 = A2( ( ( (INT64)GBK << 12 ) + ( (INT16)LG1 * (INT16)IR1 ) + ( (INT16)LG2 * (INT16)IR2 ) + ( (INT16)LG3 * (INT16)IR3 ) ) >> 12 );
-				MAC3 = A3( ( ( (INT64)BBK << 12 ) + ( (INT16)LB1 * (INT16)IR1 ) + ( (INT16)LB2 * (INT16)IR2 ) + ( (INT16)LB3 * (INT16)IR3 ) ) >> 12 );
-				IR1 = Lm_B1( (INT32)MAC1, 1 );
-				IR2 = Lm_B2( (INT32)MAC2, 1 );
-				IR3 = Lm_B3( (INT32)MAC3, 1 );
-				MAC1 = A1( ( ( ( (INT64)R << 4 ) * (INT16)IR1 ) + ( (INT16)IR0 * Lm_B1( (INT32)RFC - ( ( R * (INT16)IR1 ) >> 8 ), 0 ) ) ) >> 12 );
-				MAC2 = A2( ( ( ( (INT64)G << 4 ) * (INT16)IR2 ) + ( (INT16)IR0 * Lm_B2( (INT32)GFC - ( ( G * (INT16)IR2 ) >> 8 ), 0 ) ) ) >> 12 );
-				MAC3 = A3( ( ( ( (INT64)B << 4 ) * (INT16)IR3 ) + ( (INT16)IR0 * Lm_B3( (INT32)BFC - ( ( B * (INT16)IR3 ) >> 8 ), 0 ) ) ) >> 12 );
-				IR1 = Lm_B1( (INT32)MAC1, 1 );
-				IR2 = Lm_B2( (INT32)MAC2, 1 );
-				IR3 = Lm_B3( (INT32)MAC3, 1 );
-				CD0 = CD1;
-				CD1 = CD2;
-				CD2 = CODE;
-				R0 = R1;
-				R1 = R2;
-				R2 = Lm_C1( (INT32)MAC1 >> 4 );
-				G0 = G1;
-				G1 = G2;
-				G2 = Lm_C2( (INT32)MAC2 >> 4 );
-				B0 = B1;
-				B1 = B2;
-				B2 = Lm_C3( (INT32)MAC3 >> 4 );
-			}
-			return;
-		}
-		break;
-	case 0x1b:
-		if( gteop == 0x108041b )
-		{
-			GTELOG( "NCCS" );
-			FLAG = 0;
-
-			MAC1 = A1( ( ( (INT64)(INT16)L11 * (INT16)VX0 ) + ( (INT16)L12 * (INT16)VY0 ) + ( (INT16)L13 * (INT16)VZ0 ) ) >> 12 );
-			MAC2 = A2( ( ( (INT64)(INT16)L21 * (INT16)VX0 ) + ( (INT16)L22 * (INT16)VY0 ) + ( (INT16)L23 * (INT16)VZ0 ) ) >> 12 );
-			MAC3 = A3( ( ( (INT64)(INT16)L31 * (INT16)VX0 ) + ( (INT16)L32 * (INT16)VY0 ) + ( (INT16)L33 * (INT16)VZ0 ) ) >> 12 );
-			IR1 = Lm_B1( (INT32)MAC1, 1 );
-			IR2 = Lm_B2( (INT32)MAC2, 1 );
-			IR3 = Lm_B3( (INT32)MAC3, 1 );
-			MAC1 = A1( ( ( (INT64)RBK << 12 ) + ( (INT16)LR1 * (INT16)IR1 ) + ( (INT16)LR2 * (INT16)IR2 ) + ( (INT16)LR3 * (INT16)IR3 ) ) >> 12 );
-			MAC2 = A2( ( ( (INT64)GBK << 12 ) + ( (INT16)LG1 * (INT16)IR1 ) + ( (INT16)LG2 * (INT16)IR2 ) + ( (INT16)LG3 * (INT16)IR3 ) ) >> 12 );
-			MAC3 = A3( ( ( (INT64)BBK << 12 ) + ( (INT16)LB1 * (INT16)IR1 ) + ( (INT16)LB2 * (INT16)IR2 ) + ( (INT16)LB3 * (INT16)IR3 ) ) >> 12 );
-			IR1 = Lm_B1( (INT32)MAC1, 1 );
-			IR2 = Lm_B2( (INT32)MAC2, 1 );
-			IR3 = Lm_B3( (INT32)MAC3, 1 );
-			MAC1 = A1( ( (INT64)R * (INT16)IR1 ) >> 8 );
-			MAC2 = A2( ( (INT64)G * (INT16)IR2 ) >> 8 );
-			MAC3 = A3( ( (INT64)B * (INT16)IR3 ) >> 8 );
-			IR1 = Lm_B1( (INT32)MAC1, 1 );
-			IR2 = Lm_B2( (INT32)MAC2, 1 );
-			IR3 = Lm_B3( (INT32)MAC3, 1 );
-			CD0 = CD1;
-			CD1 = CD2;
-			CD2 = CODE;
-			R0 = R1;
-			R1 = R2;
-			R2 = Lm_C1( (INT32)MAC1 >> 4 );
-			G0 = G1;
-			G1 = G2;
-			G2 = Lm_C2( (INT32)MAC2 >> 4 );
-			B0 = B1;
-			B1 = B2;
-			B2 = Lm_C3( (INT32)MAC3 >> 4 );
-			return;
-		}
-		break;
-	case 0x1c:
-		if( gteop == 0x138041c )
-		{
-			GTELOG( "CC" );
-			FLAG = 0;
-
-			MAC1 = A1( ( ( (INT64)RBK << 12 ) + ( (INT16)LR1 * (INT16)IR1 ) + ( (INT16)LR2 * (INT16)IR2 ) + ( (INT16)LR3 * (INT16)IR3 ) ) >> 12 );
-			MAC2 = A2( ( ( (INT64)GBK << 12 ) + ( (INT16)LG1 * (INT16)IR1 ) + ( (INT16)LG2 * (INT16)IR2 ) + ( (INT16)LG3 * (INT16)IR3 ) ) >> 12 );
-			MAC3 = A3( ( ( (INT64)BBK << 12 ) + ( (INT16)LB1 * (INT16)IR1 ) + ( (INT16)LB2 * (INT16)IR2 ) + ( (INT16)LB3 * (INT16)IR3 ) ) >> 12 );
-			IR1 = Lm_B1( MAC1, 1 );
-			IR2 = Lm_B2( MAC2, 1 );
-			IR3 = Lm_B3( MAC3, 1 );
-			MAC1 = A1( ( (INT64)R * (INT16)IR1 ) >> 8 );
-			MAC2 = A2( ( (INT64)G * (INT16)IR2 ) >> 8 );
-			MAC3 = A3( ( (INT64)B * (INT16)IR3 ) >> 8 );
-			IR1 = Lm_B1( MAC1, 1 );
-			IR2 = Lm_B2( MAC2, 1 );
-			IR3 = Lm_B3( MAC3, 1 );
-			CD0 = CD1;
-			CD1 = CD2;
-			CD2 = CODE;
-			R0 = R1;
-			R1 = R2;
-			R2 = Lm_C1( (INT32)MAC1 >> 4 );
-			G0 = G1;
-			G1 = G2;
-			G2 = Lm_C2( (INT32)MAC2 >> 4 );
-			B0 = B1;
-			B1 = B2;
-			B2 = Lm_C3( (INT32)MAC3 >> 4 );
-			return;
-		}
-		break;
-	case 0x1e:
-		if( gteop == 0x0c8041e )
-		{
-			GTELOG( "NCS" );
-			FLAG = 0;
-
-			MAC1 = A1( ( ( (INT64)(INT16)L11 * (INT16)VX0 ) + ( (INT16)L12 * (INT16)VY0 ) + ( (INT16)L13 * (INT16)VZ0 ) ) >> 12 );
-			MAC2 = A2( ( ( (INT64)(INT16)L21 * (INT16)VX0 ) + ( (INT16)L22 * (INT16)VY0 ) + ( (INT16)L23 * (INT16)VZ0 ) ) >> 12 );
-			MAC3 = A3( ( ( (INT64)(INT16)L31 * (INT16)VX0 ) + ( (INT16)L32 * (INT16)VY0 ) + ( (INT16)L33 * (INT16)VZ0 ) ) >> 12 );
-			IR1 = Lm_B1( (INT32)MAC1, 1 );
-			IR2 = Lm_B2( (INT32)MAC2, 1 );
-			IR3 = Lm_B3( (INT32)MAC3, 1 );
-			MAC1 = A1( ( ( (INT64)RBK << 12 ) + ( (INT16)LR1 * (INT16)IR1 ) + ( (INT16)LR2 * (INT16)IR2 ) + ( (INT16)LR3 * (INT16)IR3 ) ) >> 12 );
-			MAC2 = A2( ( ( (INT64)GBK << 12 ) + ( (INT16)LG1 * (INT16)IR1 ) + ( (INT16)LG2 * (INT16)IR2 ) + ( (INT16)LG3 * (INT16)IR3 ) ) >> 12 );
-			MAC3 = A3( ( ( (INT64)BBK << 12 ) + ( (INT16)LB1 * (INT16)IR1 ) + ( (INT16)LB2 * (INT16)IR2 ) + ( (INT16)LB3 * (INT16)IR3 ) ) >> 12 );
-			IR1 = Lm_B1( (INT32)MAC1, 1 );
-			IR2 = Lm_B2( (INT32)MAC2, 1 );
-			IR3 = Lm_B3( (INT32)MAC3, 1 );
-			CD0 = CD1;
-			CD1 = CD2;
-			CD2 = CODE;
-			R0 = R1;
-			R1 = R2;
-			R2 = Lm_C1( (INT32)MAC1 >> 4 );
-			G0 = G1;
-			G1 = G2;
-			G2 = Lm_C2( (INT32)MAC2 >> 4 );
-			B0 = B1;
-			B1 = B2;
-			B2 = Lm_C3( (INT32)MAC3 >> 4 );
-			return;
-		}
-		break;
-	case 0x20:
-		if( gteop == 0x0d80420 )
-		{
-			GTELOG( "NCT" );
-			FLAG = 0;
-
-			for( n_v = 0; n_v < 3; n_v++ )
-			{
-				MAC1 = A1( ( ( (INT64)(INT16)L11 * (INT16)*p_n_vx[ n_v ] ) + ( (INT16)L12 * (INT16)*p_n_vy[ n_v ] ) + ( (INT16)L13 * (INT16)*p_n_vz[ n_v ] ) ) >> 12 );
-				MAC2 = A2( ( ( (INT64)(INT16)L21 * (INT16)*p_n_vx[ n_v ] ) + ( (INT16)L22 * (INT16)*p_n_vy[ n_v ] ) + ( (INT16)L23 * (INT16)*p_n_vz[ n_v ] ) ) >> 12 );
-				MAC3 = A3( ( ( (INT64)(INT16)L31 * (INT16)*p_n_vx[ n_v ] ) + ( (INT16)L32 * (INT16)*p_n_vy[ n_v ] ) + ( (INT16)L33 * (INT16)*p_n_vz[ n_v ] ) ) >> 12 );
-				IR1 = Lm_B1( (INT32)MAC1, 1 );
-				IR2 = Lm_B2( (INT32)MAC2, 1 );
-				IR3 = Lm_B3( (INT32)MAC3, 1 );
-				MAC1 = A1( ( ( (INT64)RBK << 12 ) + ( (INT16)LR1 * (INT16)IR1 ) + ( (INT16)LR2 * (INT16)IR2 ) + ( (INT16)LR3 * (INT16)IR3 ) ) >> 12 );
-				MAC2 = A2( ( ( (INT64)GBK << 12 ) + ( (INT16)LG1 * (INT16)IR1 ) + ( (INT16)LG2 * (INT16)IR2 ) + ( (INT16)LG3 * (INT16)IR3 ) ) >> 12 );
-				MAC3 = A3( ( ( (INT64)BBK << 12 ) + ( (INT16)LB1 * (INT16)IR1 ) + ( (INT16)LB2 * (INT16)IR2 ) + ( (INT16)LB3 * (INT16)IR3 ) ) >> 12 );
-				IR1 = Lm_B1( (INT32)MAC1, 1 );
-				IR2 = Lm_B2( (INT32)MAC2, 1 );
-				IR3 = Lm_B3( (INT32)MAC3, 1 );
-				CD0 = CD1;
-				CD1 = CD2;
-				CD2 = CODE;
-				R0 = R1;
-				R1 = R2;
-				R2 = Lm_C1( (INT32)MAC1 >> 4 );
-				G0 = G1;
-				G1 = G2;
-				G2 = Lm_C2( (INT32)MAC2 >> 4 );
-				B0 = B1;
-				B1 = B2;
-				B2 = Lm_C3( (INT32)MAC3 >> 4 );
-			}
-			return;
-		}
-		break;
-	case 0x28:
-		if( GTE_OP( gteop ) == 0x0a && GTE_LM( gteop ) == 1 )
-		{
-			GTELOG( "SQR" );
-			n_sf = 12 * GTE_SF( gteop );
-			FLAG = 0;
-
-			MAC1 = A1( ( (INT64)(INT16)IR1 * (INT16)IR1 ) >> n_sf );
-			MAC2 = A2( ( (INT64)(INT16)IR2 * (INT16)IR2 ) >> n_sf );
-			MAC3 = A3( ( (INT64)(INT16)IR3 * (INT16)IR3 ) >> n_sf );
-			IR1 = Lm_B1( MAC1, 1 );
-			IR2 = Lm_B2( MAC2, 1 );
-			IR3 = Lm_B3( MAC3, 1 );
-			return;
-		}
-		break;
-	// DCPL 0x29
-	case 0x2a:
-		if( gteop == 0x0f8002a )
-		{
-			GTELOG( "DPCT" );
-			FLAG = 0;
-
-			for( n_pass = 0; n_pass < 3; n_pass++ )
-			{
-				MAC1 = A1( ( ( (INT64)R0 << 16 ) + ( (INT64)(INT16)IR0 * ( Lm_B1( (INT32)RFC - ( R0 << 4 ), 0 ) ) ) ) >> 12 );
-				MAC2 = A2( ( ( (INT64)G0 << 16 ) + ( (INT64)(INT16)IR0 * ( Lm_B1( (INT32)GFC - ( G0 << 4 ), 0 ) ) ) ) >> 12 );
-				MAC3 = A3( ( ( (INT64)B0 << 16 ) + ( (INT64)(INT16)IR0 * ( Lm_B1( (INT32)BFC - ( B0 << 4 ), 0 ) ) ) ) >> 12 );
-				IR1 = Lm_B1( (INT32)MAC1, 0 );
-				IR2 = Lm_B2( (INT32)MAC2, 0 );
-				IR3 = Lm_B3( (INT32)MAC3, 0 );
-				CD0 = CD1;
-				CD1 = CD2;
-				CD2 = CODE;
-				R0 = R1;
-				R1 = R2;
-				R2 = Lm_C1( (INT32)MAC1 >> 4 );
-				G0 = G1;
-				G1 = G2;
-				G2 = Lm_C2( (INT32)MAC2 >> 4 );
-				B0 = B1;
-				B1 = B2;
-				B2 = Lm_C3( (INT32)MAC3 >> 4 );
-			}
-			return;
-		}
-		break;
-	case 0x2d:
-		if( gteop == 0x158002d )
-		{
-			GTELOG( "AVSZ3" );
-			FLAG = 0;
-
-			MAC0 = F( ( (INT64)(INT16)ZSF3 * SZ1 ) + ( (INT16)ZSF3 * SZ2 ) + ( (INT16)ZSF3 * SZ3 ) );
-			OTZ = Lm_D( (INT32)MAC0 >> 12 );
-			return;
-		}
-		break;
-	case 0x2e:
-		if( gteop == 0x168002e )
-		{
-			GTELOG( "AVSZ4" );
-			FLAG = 0;
-
-			MAC0 = F( ( (INT64)(INT16)ZSF4 * SZ0 ) + ( (INT16)ZSF4 * SZ1 ) + ( (INT16)ZSF4 * SZ2 ) + ( (INT16)ZSF4 * SZ3 ) );
-			OTZ = Lm_D( (INT32)MAC0 >> 12 );
-			return;
-		}
-		break;
-	case 0x30:
-		if( gteop == 0x0280030 )
-		{
-			GTELOG( "RTPT" );
-			FLAG = 0;
-
-			for( n_v = 0; n_v < 3; n_v++ )
-			{
-				MAC1 = A1( ( ( (INT64)(INT32)TRX << 12 ) + ( (INT16)R11 * (INT16)*p_n_vx[ n_v ] ) + ( (INT16)R12 * (INT16)*p_n_vy[ n_v ] ) + ( (INT16)R13 * (INT16)*p_n_vz[ n_v ] ) ) >> 12 );
-				MAC2 = A2( ( ( (INT64)(INT32)TRY << 12 ) + ( (INT16)R21 * (INT16)*p_n_vx[ n_v ] ) + ( (INT16)R22 * (INT16)*p_n_vy[ n_v ] ) + ( (INT16)R23 * (INT16)*p_n_vz[ n_v ] ) ) >> 12 );
-				MAC3 = A3( ( ( (INT64)(INT32)TRZ << 12 ) + ( (INT16)R31 * (INT16)*p_n_vx[ n_v ] ) + ( (INT16)R32 * (INT16)*p_n_vy[ n_v ] ) + ( (INT16)R33 * (INT16)*p_n_vz[ n_v ] ) ) >> 12 );
-				IR1 = Lm_B1( (INT32)MAC1, 0 );
-				IR2 = Lm_B2( (INT32)MAC2, 0 );
-				IR3 = Lm_B3( (INT32)MAC3, 0 );
-				SZ0 = SZ1;
-				SZ1 = SZ2;
-				SZ2 = SZ3;
-				SZ3 = Lm_D( (INT32)MAC3 );
-				SXY0 = SXY1;
-				SXY1 = SXY2;
-				SX2 = Lm_G1( F( ( (INT64)(INT32)OFX + ( (INT64)(INT16)IR1 * ( ( (UINT32)H << 16 ) / Lm_E( cpu, SZ3 ) ) ) ) >> 16 ) );
-				SY2 = Lm_G2( F( ( (INT64)(INT32)OFY + ( (INT64)(INT16)IR2 * ( ( (UINT32)H << 16 ) / Lm_E( cpu, SZ3 ) ) ) ) >> 16 ) );
-				MAC0 = F( (INT64)(INT32)DQB + ( (INT64)(INT16)DQA * ( ( (UINT32)H << 16 ) / Lm_E( cpu, SZ3 ) ) ) );
-				IR0 = Lm_H( (INT32)MAC0 >> 12 );
-			}
-			return;
-		}
-		break;
-	case 0x3d:
-		if( GTE_OP( gteop ) == 0x09 ||
-			GTE_OP( gteop ) == 0x19 )
-		{
-			GTELOG( "GPF" );
-			n_sf = 12 * GTE_SF( gteop );
-			FLAG = 0;
-
-			MAC1 = A1( ( (INT64)(INT16)IR0 * (INT16)IR1 ) >> n_sf );
-			MAC2 = A2( ( (INT64)(INT16)IR0 * (INT16)IR2 ) >> n_sf );
-			MAC3 = A3( ( (INT64)(INT16)IR0 * (INT16)IR3 ) >> n_sf );
-			IR1 = Lm_B1( (INT32)MAC1, 0 );
-			IR2 = Lm_B2( (INT32)MAC2, 0 );
-			IR3 = Lm_B3( (INT32)MAC3, 0 );
-			CD0 = CD1;
-			CD1 = CD2;
-			CD2 = CODE;
-			R0 = R1;
-			R1 = R2;
-			R2 = Lm_C1( (INT32)MAC1 >> 4 );
-			G0 = G1;
-			G1 = G2;
-			G2 = Lm_C2( (INT32)MAC2 >> 4 );
-			B0 = B1;
-			B1 = B2;
-			B2 = Lm_C3( (INT32)MAC3 >> 4 );
-			return;
-		}
-		break;
-	case 0x3e:
-		if( GTE_OP( gteop ) == 0x1a )
-		{
-			GTELOG( "GPL" );
-			n_sf = 12 * GTE_SF( gteop );
-			FLAG = 0;
-
-			MAC1 = A1( ( ( (INT64)(INT32)MAC1 << n_sf ) + ( (INT16)IR0 * (INT16)IR1 ) ) >> n_sf );
-			MAC2 = A2( ( ( (INT64)(INT32)MAC2 << n_sf ) + ( (INT16)IR0 * (INT16)IR2 ) ) >> n_sf );
-			MAC3 = A3( ( ( (INT64)(INT32)MAC3 << n_sf ) + ( (INT16)IR0 * (INT16)IR3 ) ) >> n_sf );
-			IR1 = Lm_B1( (INT32)MAC1, 0 );
-			IR2 = Lm_B2( (INT32)MAC2, 0 );
-			IR3 = Lm_B3( (INT32)MAC3, 0 );
-			CD0 = CD1;
-			CD1 = CD2;
-			CD2 = CODE;
-			R0 = R1;
-			R1 = R2;
-			R2 = Lm_C1( (INT32)MAC1 >> 4 );
-			G0 = G1;
-			G1 = G2;
-			G2 = Lm_C2( (INT32)MAC2 >> 4 );
-			B0 = B1;
-			B1 = B2;
-			B2 = Lm_C3( (INT32)MAC3 >> 4 );
-			return;
-		}
-		break;
-	case 0x3f:
-		if( gteop == 0x108043f ||
-			gteop == 0x118043f )
-		{
-			GTELOG( "NCCT" );
-			FLAG = 0;
-
-			for( n_v = 0; n_v < 3; n_v++ )
-			{
-				MAC1 = A1( ( ( (INT64)(INT16)L11 * (INT16)*p_n_vx[ n_v ] ) + ( (INT16)L12 * (INT16)*p_n_vy[ n_v ] ) + ( (INT16)L13 * (INT16)*p_n_vz[ n_v ] ) ) >> 12 );
-				MAC2 = A2( ( ( (INT64)(INT16)L21 * (INT16)*p_n_vx[ n_v ] ) + ( (INT16)L22 * (INT16)*p_n_vy[ n_v ] ) + ( (INT16)L23 * (INT16)*p_n_vz[ n_v ] ) ) >> 12 );
-				MAC3 = A3( ( ( (INT64)(INT16)L31 * (INT16)*p_n_vx[ n_v ] ) + ( (INT16)L32 * (INT16)*p_n_vy[ n_v ] ) + ( (INT16)L33 * (INT16)*p_n_vz[ n_v ] ) ) >> 12 );
-				IR1 = Lm_B1( (INT32)MAC1, 1 );
-				IR2 = Lm_B2( (INT32)MAC2, 1 );
-				IR3 = Lm_B3( (INT32)MAC3, 1 );
-				MAC1 = A1( ( ( (INT64)RBK << 12 ) + ( (INT16)LR1 * (INT16)IR1 ) + ( (INT16)LR2 * (INT16)IR2 ) + ( (INT16)LR3 * (INT16)IR3 ) ) >> 12 );
-				MAC2 = A2( ( ( (INT64)GBK << 12 ) + ( (INT16)LG1 * (INT16)IR1 ) + ( (INT16)LG2 * (INT16)IR2 ) + ( (INT16)LG3 * (INT16)IR3 ) ) >> 12 );
-				MAC3 = A3( ( ( (INT64)BBK << 12 ) + ( (INT16)LB1 * (INT16)IR1 ) + ( (INT16)LB2 * (INT16)IR2 ) + ( (INT16)LB3 * (INT16)IR3 ) ) >> 12 );
-				IR1 = Lm_B1( (INT32)MAC1, 1 );
-				IR2 = Lm_B2( (INT32)MAC2, 1 );
-				IR3 = Lm_B3( (INT32)MAC3, 1 );
-				MAC1 = A1( ( (INT64)R * (INT16)IR1 ) >> 8 );
-				MAC2 = A2( ( (INT64)G * (INT16)IR2 ) >> 8 );
-				MAC3 = A3( ( (INT64)B * (INT16)IR3 ) >> 8 );
-				IR1 = Lm_B1( (INT32)MAC1, 1 );
-				IR2 = Lm_B2( (INT32)MAC2, 1 );
-				IR3 = Lm_B3( (INT32)MAC3, 1 );
-				CD0 = CD1;
-				CD1 = CD2;
-				CD2 = CODE;
-				R0 = R1;
-				R1 = R2;
-				R2 = Lm_C1( (INT32)MAC1 >> 4 );
-				G0 = G1;
-				G1 = G2;
-				G2 = Lm_C2( (INT32)MAC2 >> 4 );
-				B0 = B1;
-				B1 = B2;
-				B2 = Lm_C3( (INT32)MAC3 >> 4 );
-			}
-			return;
-		}
-		break;
-	}
-//	usrintf_showmessage_secs( 1, "unknown GTE op %08x", gteop );
-	logerror( "%08x: unknown GTE op %08x\n", cpu->pc, gteop );
-	mips_stop();
-}
-
-/**************************************************************************
- * Generic set_info
- **************************************************************************/
-
-void mips_set_info(mips_cpu_context *cpu, UINT32 state, union cpuinfo *info)
-{
-	switch (state)
-	{
-		/* --- the following bits of info are set as 64-bit signed integers --- */
-		case CPUINFO_INT_INPUT_STATE + MIPS_IRQ0:		set_irq_line(cpu, MIPS_IRQ0, info->i);		break;
-		case CPUINFO_INT_INPUT_STATE + MIPS_IRQ1:		set_irq_line(cpu, MIPS_IRQ1, info->i);		break;
-		case CPUINFO_INT_INPUT_STATE + MIPS_IRQ2:		set_irq_line(cpu, MIPS_IRQ2, info->i);		break;
-		case CPUINFO_INT_INPUT_STATE + MIPS_IRQ3:		set_irq_line(cpu, MIPS_IRQ3, info->i);		break;
-		case CPUINFO_INT_INPUT_STATE + MIPS_IRQ4:		set_irq_line(cpu, MIPS_IRQ4, info->i);		break;
-		case CPUINFO_INT_INPUT_STATE + MIPS_IRQ5:		set_irq_line(cpu, MIPS_IRQ5, info->i);		break;
-
-		case CPUINFO_INT_PC:							mips_set_pc (cpu,  info->i );					break;
-		case CPUINFO_INT_REGISTER + MIPS_PC:			mips_set_pc (cpu,  info->i );					break;
-		case CPUINFO_INT_SP:							/* no stack */							break;
-		case CPUINFO_INT_REGISTER + MIPS_DELAYV:		cpu->delayv = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_DELAYR:		if( info->i <= REGPC ) cpu->delayr = info->i; break;
-		case CPUINFO_INT_REGISTER + MIPS_HI:			cpu->hi = info->i;					break;
-		case CPUINFO_INT_REGISTER + MIPS_LO:			cpu->lo = info->i;					break;
-		case CPUINFO_INT_REGISTER + MIPS_R0:			cpu->r[ 0 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R1:			cpu->r[ 1 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R2:			cpu->r[ 2 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R3:			cpu->r[ 3 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R4:			cpu->r[ 4 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R5:			cpu->r[ 5 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R6:			cpu->r[ 6 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R7:			cpu->r[ 7 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R8:			cpu->r[ 8 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R9:			cpu->r[ 9 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R10:			cpu->r[ 10 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R11:			cpu->r[ 11 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R12:			cpu->r[ 12 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R13:			cpu->r[ 13 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R14:			cpu->r[ 14 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R15:			cpu->r[ 15 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R16:			cpu->r[ 16 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R17:			cpu->r[ 17 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R18:			cpu->r[ 18 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R19:			cpu->r[ 19 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R20:			cpu->r[ 20 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R21:			cpu->r[ 21 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R22:			cpu->r[ 22 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R23:			cpu->r[ 23 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R24:			cpu->r[ 24 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R25:			cpu->r[ 25 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R26:			cpu->r[ 26 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R27:			cpu->r[ 27 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R28:			cpu->r[ 28 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R29:			cpu->r[ 29 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R30:			cpu->r[ 30 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_R31:			cpu->r[ 31 ] = info->i;				break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R0:			mips_set_cp0r(cpu, 0, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R1:			mips_set_cp0r(cpu, 1, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R2:			mips_set_cp0r(cpu, 2, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R3:			mips_set_cp0r(cpu, 3, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R4:			mips_set_cp0r(cpu, 4, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R5:			mips_set_cp0r(cpu, 5, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R6:			mips_set_cp0r(cpu, 6, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R7:			mips_set_cp0r(cpu, 7, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R8:			mips_set_cp0r(cpu, 8, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R9:			mips_set_cp0r(cpu, 9, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R10:		mips_set_cp0r(cpu, 10, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R11:		mips_set_cp0r(cpu, 11, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R12:		mips_set_cp0r(cpu, 12, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R13:		mips_set_cp0r(cpu, 13, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R14:		mips_set_cp0r(cpu, 14, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R15:		mips_set_cp0r(cpu, 15, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R16:		mips_set_cp0r(cpu, 16, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R17:		mips_set_cp0r(cpu, 17, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R18:		mips_set_cp0r(cpu, 18, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R19:		mips_set_cp0r(cpu, 19, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R20:		mips_set_cp0r(cpu, 20, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R21:		mips_set_cp0r(cpu, 21, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R22:		mips_set_cp0r(cpu, 22, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R23:		mips_set_cp0r(cpu, 23, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R24:		mips_set_cp0r(cpu, 24, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R25:		mips_set_cp0r(cpu, 25, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R26:		mips_set_cp0r(cpu, 26, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R27:		mips_set_cp0r(cpu, 27, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R28:		mips_set_cp0r(cpu, 28, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R29:		mips_set_cp0r(cpu, 29, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R30:		mips_set_cp0r(cpu, 30, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R31:		mips_set_cp0r(cpu, 31, info->i );			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR0:		cpu->cp2dr[ 0 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR1:		cpu->cp2dr[ 1 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR2:		cpu->cp2dr[ 2 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR3:		cpu->cp2dr[ 3 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR4:		cpu->cp2dr[ 4 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR5:		cpu->cp2dr[ 5 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR6:		cpu->cp2dr[ 6 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR7:		cpu->cp2dr[ 7 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR8:		cpu->cp2dr[ 8 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR9:		cpu->cp2dr[ 9 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR10:		cpu->cp2dr[ 10 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR11:		cpu->cp2dr[ 11 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR12:		cpu->cp2dr[ 12 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR13:		cpu->cp2dr[ 13 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR14:		cpu->cp2dr[ 14 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR15:		cpu->cp2dr[ 15 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR16:		cpu->cp2dr[ 16 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR17:		cpu->cp2dr[ 17 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR18:		cpu->cp2dr[ 18 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR19:		cpu->cp2dr[ 19 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR20:		cpu->cp2dr[ 20 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR21:		cpu->cp2dr[ 21 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR22:		cpu->cp2dr[ 22 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR23:		cpu->cp2dr[ 23 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR24:		cpu->cp2dr[ 24 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR25:		cpu->cp2dr[ 25 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR26:		cpu->cp2dr[ 26 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR27:		cpu->cp2dr[ 27 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR28:		cpu->cp2dr[ 28 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR29:		cpu->cp2dr[ 29 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR30:		cpu->cp2dr[ 30 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR31:		cpu->cp2dr[ 31 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR0:		cpu->cp2cr[ 0 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR1:		cpu->cp2cr[ 1 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR2:		cpu->cp2cr[ 2 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR3:		cpu->cp2cr[ 3 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR4:		cpu->cp2cr[ 4 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR5:		cpu->cp2cr[ 5 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR6:		cpu->cp2cr[ 6 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR7:		cpu->cp2cr[ 7 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR8:		cpu->cp2cr[ 8 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR9:		cpu->cp2cr[ 9 ].d = info->i;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR10:		cpu->cp2cr[ 10 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR11:		cpu->cp2cr[ 11 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR12:		cpu->cp2cr[ 12 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR13:		cpu->cp2cr[ 13 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR14:		cpu->cp2cr[ 14 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR15:		cpu->cp2cr[ 15 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR16:		cpu->cp2cr[ 16 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR17:		cpu->cp2cr[ 17 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR18:		cpu->cp2cr[ 18 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR19:		cpu->cp2cr[ 19 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR20:		cpu->cp2cr[ 20 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR21:		cpu->cp2cr[ 21 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR22:		cpu->cp2cr[ 22 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR23:		cpu->cp2cr[ 23 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR24:		cpu->cp2cr[ 24 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR25:		cpu->cp2cr[ 25 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR26:		cpu->cp2cr[ 26 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR27:		cpu->cp2cr[ 27 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR28:		cpu->cp2cr[ 28 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR29:		cpu->cp2cr[ 29 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR30:		cpu->cp2cr[ 30 ].d = info->i;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR31:		cpu->cp2cr[ 31 ].d = info->i;		break;
-		
-		/* --- the following bits of info are set as pointers to data or functions --- */
-		case CPUINFO_PTR_IRQ_CALLBACK:					cpu->irq_callback = info->irqcallback;			break;
-	}
-}
-
-
-
-/**************************************************************************
- * Generic get_info
- **************************************************************************/
-
-void mips_get_info(mips_cpu_context *cpu, UINT32 state, union cpuinfo *info)
-{
-	switch (state)
-	{
-		/* --- the following bits of info are returned as 64-bit signed integers --- */
-		case CPUINFO_INT_CONTEXT_SIZE:					info->i = sizeof(mips_cpu_context);				break;
-		case CPUINFO_INT_INPUT_LINES:					info->i = 6;							break;
-		case CPUINFO_INT_DEFAULT_IRQ_VECTOR:			info->i = 0;							break;
-		case CPUINFO_INT_ENDIANNESS:					info->i = CPU_IS_LE;					break;
-		case CPUINFO_INT_CLOCK_DIVIDER:					info->i = 1;							break;
-		case CPUINFO_INT_MIN_INSTRUCTION_BYTES:			info->i = 4;							break;
-		case CPUINFO_INT_MAX_INSTRUCTION_BYTES:			info->i = 4;							break;
-		case CPUINFO_INT_MIN_CYCLES:					info->i = 1;							break;
-		case CPUINFO_INT_MAX_CYCLES:					info->i = 40;							break;
-		
-		case CPUINFO_INT_DATABUS_WIDTH + ADDRESS_SPACE_PROGRAM:	info->i = 32;					break;
-		case CPUINFO_INT_ADDRBUS_WIDTH + ADDRESS_SPACE_PROGRAM: info->i = 32;					break;
-		case CPUINFO_INT_ADDRBUS_SHIFT + ADDRESS_SPACE_PROGRAM: info->i = 0;					break;
-		case CPUINFO_INT_DATABUS_WIDTH + ADDRESS_SPACE_DATA:	info->i = 0;					break;
-		case CPUINFO_INT_ADDRBUS_WIDTH + ADDRESS_SPACE_DATA: 	info->i = 0;					break;
-		case CPUINFO_INT_ADDRBUS_SHIFT + ADDRESS_SPACE_DATA: 	info->i = 0;					break;
-		case CPUINFO_INT_DATABUS_WIDTH + ADDRESS_SPACE_IO:		info->i = 0;					break;
-		case CPUINFO_INT_ADDRBUS_WIDTH + ADDRESS_SPACE_IO: 		info->i = 0;					break;
-		case CPUINFO_INT_ADDRBUS_SHIFT + ADDRESS_SPACE_IO: 		info->i = 0;					break;
-
-		case CPUINFO_INT_INPUT_STATE + MIPS_IRQ0:		info->i = (cpu->cp0r[ CP0_CAUSE ] & 0x400) ? ASSERT_LINE : CLEAR_LINE; break;
-		case CPUINFO_INT_INPUT_STATE + MIPS_IRQ1:		info->i = (cpu->cp0r[ CP0_CAUSE ] & 0x800) ? ASSERT_LINE : CLEAR_LINE; break;
-		case CPUINFO_INT_INPUT_STATE + MIPS_IRQ2:		info->i = (cpu->cp0r[ CP0_CAUSE ] & 0x1000) ? ASSERT_LINE : CLEAR_LINE; break;
-		case CPUINFO_INT_INPUT_STATE + MIPS_IRQ3:		info->i = (cpu->cp0r[ CP0_CAUSE ] & 0x2000) ? ASSERT_LINE : CLEAR_LINE; break;
-		case CPUINFO_INT_INPUT_STATE + MIPS_IRQ4:		info->i = (cpu->cp0r[ CP0_CAUSE ] & 0x4000) ? ASSERT_LINE : CLEAR_LINE; break;
-		case CPUINFO_INT_INPUT_STATE + MIPS_IRQ5:		info->i = (cpu->cp0r[ CP0_CAUSE ] & 0x8000) ? ASSERT_LINE : CLEAR_LINE; break;
-
-		case CPUINFO_INT_PREVIOUSPC:					/* not implemented */					break;
-
-		case CPUINFO_INT_PC:							info->i = cpu->pc;					break;
-		case CPUINFO_INT_REGISTER + MIPS_PC:			info->i = cpu->pc;					break;
-		case CPUINFO_INT_SP:
-			/* because there is no hardware stack and the pipeline causes the cpu to execute the
-			instruction after a subroutine call before the subroutine is executed there is little
-			chance of cmd_step_over() in mamedbg.c working. */
-								info->i = 0;													break;
-		case CPUINFO_INT_REGISTER + MIPS_DELAYV:		info->i = cpu->delayv;				break;
-		case CPUINFO_INT_REGISTER + MIPS_DELAYR:		info->i = cpu->delayr;				break;
-		case CPUINFO_INT_REGISTER + MIPS_HI:			info->i = cpu->hi;					break;
-		case CPUINFO_INT_REGISTER + MIPS_LO:			info->i = cpu->lo;					break;
-		case CPUINFO_INT_REGISTER + MIPS_R0:			info->i = cpu->r[ 0 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R1:			info->i = cpu->r[ 1 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R2:			info->i = cpu->r[ 2 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R3:			info->i = cpu->r[ 3 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R4:			info->i = cpu->r[ 4 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R5:			info->i = cpu->r[ 5 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R6:			info->i = cpu->r[ 6 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R7:			info->i = cpu->r[ 7 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R8:			info->i = cpu->r[ 8 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R9:			info->i = cpu->r[ 9 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R10:			info->i = cpu->r[ 10 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R11:			info->i = cpu->r[ 11 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R12:			info->i = cpu->r[ 12 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R13:			info->i = cpu->r[ 13 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R14:			info->i = cpu->r[ 14 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R15:			info->i = cpu->r[ 15 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R16:			info->i = cpu->r[ 16 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R17:			info->i = cpu->r[ 17 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R18:			info->i = cpu->r[ 18 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R19:			info->i = cpu->r[ 19 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R20:			info->i = cpu->r[ 20 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R21:			info->i = cpu->r[ 21 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R22:			info->i = cpu->r[ 22 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R23:			info->i = cpu->r[ 23 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R24:			info->i = cpu->r[ 24 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R25:			info->i = cpu->r[ 25 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R26:			info->i = cpu->r[ 26 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R27:			info->i = cpu->r[ 27 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R28:			info->i = cpu->r[ 28 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R29:			info->i = cpu->r[ 29 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R30:			info->i = cpu->r[ 30 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_R31:			info->i = cpu->r[ 31 ];				break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R0:			info->i = cpu->cp0r[ 0 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R1:			info->i = cpu->cp0r[ 1 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R2:			info->i = cpu->cp0r[ 2 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R3:			info->i = cpu->cp0r[ 3 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R4:			info->i = cpu->cp0r[ 4 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R5:			info->i = cpu->cp0r[ 5 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R6:			info->i = cpu->cp0r[ 6 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R7:			info->i = cpu->cp0r[ 7 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R8:			info->i = cpu->cp0r[ 8 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R9:			info->i = cpu->cp0r[ 9 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R10:		info->i = cpu->cp0r[ 10 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R11:		info->i = cpu->cp0r[ 11 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R12:		info->i = cpu->cp0r[ 12 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R13:		info->i = cpu->cp0r[ 13 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R14:		info->i = cpu->cp0r[ 14 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R15:		info->i = cpu->cp0r[ 15 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R16:		info->i = cpu->cp0r[ 16 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R17:		info->i = cpu->cp0r[ 17 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R18:		info->i = cpu->cp0r[ 18 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R19:		info->i = cpu->cp0r[ 19 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R20:		info->i = cpu->cp0r[ 20 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R21:		info->i = cpu->cp0r[ 21 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R22:		info->i = cpu->cp0r[ 22 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R23:		info->i = cpu->cp0r[ 23 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R24:		info->i = cpu->cp0r[ 24 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R25:		info->i = cpu->cp0r[ 25 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R26:		info->i = cpu->cp0r[ 26 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R27:		info->i = cpu->cp0r[ 27 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R28:		info->i = cpu->cp0r[ 28 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R29:		info->i = cpu->cp0r[ 29 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R30:		info->i = cpu->cp0r[ 30 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP0R31:		info->i = cpu->cp0r[ 31 ];			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR0:		info->i = cpu->cp2dr[ 0 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR1:		info->i = cpu->cp2dr[ 1 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR2:		info->i = cpu->cp2dr[ 2 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR3:		info->i = cpu->cp2dr[ 3 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR4:		info->i = cpu->cp2dr[ 4 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR5:		info->i = cpu->cp2dr[ 5 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR6:		info->i = cpu->cp2dr[ 6 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR7:		info->i = cpu->cp2dr[ 7 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR8:		info->i = cpu->cp2dr[ 8 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR9:		info->i = cpu->cp2dr[ 9 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR10:		info->i = cpu->cp2dr[ 10 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR11:		info->i = cpu->cp2dr[ 11 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR12:		info->i = cpu->cp2dr[ 12 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR13:		info->i = cpu->cp2dr[ 13 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR14:		info->i = cpu->cp2dr[ 14 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR15:		info->i = cpu->cp2dr[ 15 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR16:		info->i = cpu->cp2dr[ 16 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR17:		info->i = cpu->cp2dr[ 17 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR18:		info->i = cpu->cp2dr[ 18 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR19:		info->i = cpu->cp2dr[ 19 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR20:		info->i = cpu->cp2dr[ 20 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR21:		info->i = cpu->cp2dr[ 21 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR22:		info->i = cpu->cp2dr[ 22 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR23:		info->i = cpu->cp2dr[ 23 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR24:		info->i = cpu->cp2dr[ 24 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR25:		info->i = cpu->cp2dr[ 25 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR26:		info->i = cpu->cp2dr[ 26 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR27:		info->i = cpu->cp2dr[ 27 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR28:		info->i = cpu->cp2dr[ 28 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR29:		info->i = cpu->cp2dr[ 29 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR30:		info->i = cpu->cp2dr[ 30 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2DR31:		info->i = cpu->cp2dr[ 31 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR0:		info->i = cpu->cp2cr[ 0 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR1:		info->i = cpu->cp2cr[ 1 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR2:		info->i = cpu->cp2cr[ 2 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR3:		info->i = cpu->cp2cr[ 3 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR4:		info->i = cpu->cp2cr[ 4 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR5:		info->i = cpu->cp2cr[ 5 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR6:		info->i = cpu->cp2cr[ 6 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR7:		info->i = cpu->cp2cr[ 7 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR8:		info->i = cpu->cp2cr[ 8 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR9:		info->i = cpu->cp2cr[ 9 ].d;			break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR10:		info->i = cpu->cp2cr[ 10 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR11:		info->i = cpu->cp2cr[ 11 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR12:		info->i = cpu->cp2cr[ 12 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR13:		info->i = cpu->cp2cr[ 13 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR14:		info->i = cpu->cp2cr[ 14 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR15:		info->i = cpu->cp2cr[ 15 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR16:		info->i = cpu->cp2cr[ 16 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR17:		info->i = cpu->cp2cr[ 17 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR18:		info->i = cpu->cp2cr[ 18 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR19:		info->i = cpu->cp2cr[ 19 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR20:		info->i = cpu->cp2cr[ 20 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR21:		info->i = cpu->cp2cr[ 21 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR22:		info->i = cpu->cp2cr[ 22 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR23:		info->i = cpu->cp2cr[ 23 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR24:		info->i = cpu->cp2cr[ 24 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR25:		info->i = cpu->cp2cr[ 25 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR26:		info->i = cpu->cp2cr[ 26 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR27:		info->i = cpu->cp2cr[ 27 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR28:		info->i = cpu->cp2cr[ 28 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR29:		info->i = cpu->cp2cr[ 29 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR30:		info->i = cpu->cp2cr[ 30 ].d;		break;
-		case CPUINFO_INT_REGISTER + MIPS_CP2CR31:		info->i = cpu->cp2cr[ 31 ].d;		break;
-
-		/* --- the following bits of info are returned as pointers to data or functions --- */
-		case CPUINFO_PTR_SET_INFO:						info->setinfo = mips_set_info;			break;
-//		case CPUINFO_PTR_GET_CONTEXT:					info->getcontext = mips_get_context;	break;
-//		case CPUINFO_PTR_SET_CONTEXT:					info->setcontext = mips_set_context;	break;
-		case CPUINFO_PTR_INIT:							info->init = mips_init;					break;
-		case CPUINFO_PTR_RESET:							info->reset = mips_reset;				break;
-		case CPUINFO_PTR_EXIT:							info->exit = mips_exit;					break;
-		case CPUINFO_PTR_EXECUTE:						info->execute = mips_execute;			break;
-		case CPUINFO_PTR_BURN:							info->burn = NULL;						break;
-		case CPUINFO_PTR_DISASSEMBLE:					info->disassemble = mips_dasm;			break;
-		case CPUINFO_PTR_IRQ_CALLBACK:					info->irqcallback = cpu->irq_callback; break;
-		case CPUINFO_PTR_INSTRUCTION_COUNTER:			info->icount = &cpu->mips_ICount;			break;
-		case CPUINFO_PTR_REGISTER_LAYOUT:				info->p = mips_reg_layout;				break;
-		case CPUINFO_PTR_WINDOW_LAYOUT:					info->p = mips_win_layout;				break;
-
-		/* --- the following bits of info are returned as NULL-terminated strings --- */
-#if 0
-		case CPUINFO_STR_NAME:							strcpy(info->s = cpuintrf_temp_str(), "PSX CPU"); break;
-		case CPUINFO_STR_CORE_FAMILY:					strcpy(info->s = cpuintrf_temp_str(), "mipscpu"); break;
-		case CPUINFO_STR_CORE_VERSION:					strcpy(info->s = cpuintrf_temp_str(), "1.4"); break;
-		case CPUINFO_STR_CORE_FILE:						strcpy(info->s = cpuintrf_temp_str(), __FILE__); break;
-		case CPUINFO_STR_CORE_CREDITS:					strcpy(info->s = cpuintrf_temp_str(), "Copyright 2003 smf"); break;
-
-		case CPUINFO_STR_FLAGS:							strcpy(info->s = cpuintrf_temp_str(), " "); break;
-
-		case CPUINFO_STR_REGISTER + MIPS_PC:			sprintf( info->s = cpuintrf_temp_str(), "pc      :%08x", cpu->pc ); break;
-		case CPUINFO_STR_REGISTER + MIPS_DELAYV:		sprintf( info->s = cpuintrf_temp_str(), "delay   :%08x", cpu->delayv ); break;
-		case CPUINFO_STR_REGISTER + MIPS_DELAYR:		sprintf( info->s = cpuintrf_temp_str(), "delay %s:%02x", delayn[ cpu->delayr ], cpu->delayr ); break;
-		case CPUINFO_STR_REGISTER + MIPS_HI:			sprintf( info->s = cpuintrf_temp_str(), "hi      :%08x", cpu->hi ); break;
-		case CPUINFO_STR_REGISTER + MIPS_LO:			sprintf( info->s = cpuintrf_temp_str(), "lo      :%08x", cpu->lo ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R0:			sprintf( info->s = cpuintrf_temp_str(), "zero    :%08x", cpu->r[ 0 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R1:			sprintf( info->s = cpuintrf_temp_str(), "at      :%08x", cpu->r[ 1 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R2:			sprintf( info->s = cpuintrf_temp_str(), "v0      :%08x", cpu->r[ 2 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R3:			sprintf( info->s = cpuintrf_temp_str(), "v1      :%08x", cpu->r[ 3 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R4:			sprintf( info->s = cpuintrf_temp_str(), "a0      :%08x", cpu->r[ 4 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R5:			sprintf( info->s = cpuintrf_temp_str(), "a1      :%08x", cpu->r[ 5 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R6:			sprintf( info->s = cpuintrf_temp_str(), "a2      :%08x", cpu->r[ 6 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R7:			sprintf( info->s = cpuintrf_temp_str(), "a3      :%08x", cpu->r[ 7 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R8:			sprintf( info->s = cpuintrf_temp_str(), "t0      :%08x", cpu->r[ 8 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R9:			sprintf( info->s = cpuintrf_temp_str(), "t1      :%08x", cpu->r[ 9 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R10:			sprintf( info->s = cpuintrf_temp_str(), "t2      :%08x", cpu->r[ 10 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R11:			sprintf( info->s = cpuintrf_temp_str(), "t3      :%08x", cpu->r[ 11 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R12:			sprintf( info->s = cpuintrf_temp_str(), "t4      :%08x", cpu->r[ 12 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R13:			sprintf( info->s = cpuintrf_temp_str(), "t5      :%08x", cpu->r[ 13 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R14:			sprintf( info->s = cpuintrf_temp_str(), "t6      :%08x", cpu->r[ 14 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R15:			sprintf( info->s = cpuintrf_temp_str(), "t7      :%08x", cpu->r[ 15 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R16:			sprintf( info->s = cpuintrf_temp_str(), "s0      :%08x", cpu->r[ 16 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R17:			sprintf( info->s = cpuintrf_temp_str(), "s1      :%08x", cpu->r[ 17 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R18:			sprintf( info->s = cpuintrf_temp_str(), "s2      :%08x", cpu->r[ 18 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R19:			sprintf( info->s = cpuintrf_temp_str(), "s3      :%08x", cpu->r[ 19 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R20:			sprintf( info->s = cpuintrf_temp_str(), "s4      :%08x", cpu->r[ 20 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R21:			sprintf( info->s = cpuintrf_temp_str(), "s5      :%08x", cpu->r[ 21 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R22:			sprintf( info->s = cpuintrf_temp_str(), "s6      :%08x", cpu->r[ 22 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R23:			sprintf( info->s = cpuintrf_temp_str(), "s7      :%08x", cpu->r[ 23 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R24:			sprintf( info->s = cpuintrf_temp_str(), "t8      :%08x", cpu->r[ 24 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R25:			sprintf( info->s = cpuintrf_temp_str(), "t9      :%08x", cpu->r[ 25 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R26:			sprintf( info->s = cpuintrf_temp_str(), "k0      :%08x", cpu->r[ 26 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R27:			sprintf( info->s = cpuintrf_temp_str(), "k1      :%08x", cpu->r[ 27 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R28:			sprintf( info->s = cpuintrf_temp_str(), "gp      :%08x", cpu->r[ 28 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R29:			sprintf( info->s = cpuintrf_temp_str(), "sp      :%08x", cpu->r[ 29 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R30:			sprintf( info->s = cpuintrf_temp_str(), "fp      :%08x", cpu->r[ 30 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_R31:			sprintf( info->s = cpuintrf_temp_str(), "ra      :%08x", cpu->r[ 31 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R0:			sprintf( info->s = cpuintrf_temp_str(), "Index   :%08x", cpu->cp0r[ 0 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R1:			sprintf( info->s = cpuintrf_temp_str(), "Random  :%08x", cpu->cp0r[ 1 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R2:			sprintf( info->s = cpuintrf_temp_str(), "EntryLo :%08x", cpu->cp0r[ 2 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R3:			sprintf( info->s = cpuintrf_temp_str(), "cp0r3   :%08x", cpu->cp0r[ 3 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R4:			sprintf( info->s = cpuintrf_temp_str(), "Context :%08x", cpu->cp0r[ 4 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R5:			sprintf( info->s = cpuintrf_temp_str(), "cp0r5   :%08x", cpu->cp0r[ 5 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R6:			sprintf( info->s = cpuintrf_temp_str(), "cp0r6   :%08x", cpu->cp0r[ 6 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R7:			sprintf( info->s = cpuintrf_temp_str(), "cp0r7   :%08x", cpu->cp0r[ 7 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R8:			sprintf( info->s = cpuintrf_temp_str(), "BadVAddr:%08x", cpu->cp0r[ 8 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R9:			sprintf( info->s = cpuintrf_temp_str(), "cp0r9   :%08x", cpu->cp0r[ 9 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R10:		sprintf( info->s = cpuintrf_temp_str(), "EntryHi :%08x", cpu->cp0r[ 10 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R11:		sprintf( info->s = cpuintrf_temp_str(), "cp0r11  :%08x", cpu->cp0r[ 11 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R12:		sprintf( info->s = cpuintrf_temp_str(), "SR      :%08x", cpu->cp0r[ 12 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R13:		sprintf( info->s = cpuintrf_temp_str(), "Cause   :%08x", cpu->cp0r[ 13 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R14:		sprintf( info->s = cpuintrf_temp_str(), "EPC     :%08x", cpu->cp0r[ 14 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R15:		sprintf( info->s = cpuintrf_temp_str(), "PRId    :%08x", cpu->cp0r[ 15 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R16:		sprintf( info->s = cpuintrf_temp_str(), "cp0r16  :%08x", cpu->cp0r[ 16 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R17:		sprintf( info->s = cpuintrf_temp_str(), "cp0r17  :%08x", cpu->cp0r[ 17 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R18:		sprintf( info->s = cpuintrf_temp_str(), "cp0r18  :%08x", cpu->cp0r[ 18 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R19:		sprintf( info->s = cpuintrf_temp_str(), "cp0r19  :%08x", cpu->cp0r[ 19 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R20:		sprintf( info->s = cpuintrf_temp_str(), "cp0r20  :%08x", cpu->cp0r[ 20 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R21:		sprintf( info->s = cpuintrf_temp_str(), "cp0r21  :%08x", cpu->cp0r[ 21 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R22:		sprintf( info->s = cpuintrf_temp_str(), "cp0r22  :%08x", cpu->cp0r[ 22 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R23:		sprintf( info->s = cpuintrf_temp_str(), "cp0r23  :%08x", cpu->cp0r[ 23 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R24:		sprintf( info->s = cpuintrf_temp_str(), "cp0r24  :%08x", cpu->cp0r[ 24 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R25:		sprintf( info->s = cpuintrf_temp_str(), "cp0r25  :%08x", cpu->cp0r[ 25 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R26:		sprintf( info->s = cpuintrf_temp_str(), "cp0r26  :%08x", cpu->cp0r[ 26 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R27:		sprintf( info->s = cpuintrf_temp_str(), "cp0r27  :%08x", cpu->cp0r[ 27 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R28:		sprintf( info->s = cpuintrf_temp_str(), "cp0r28  :%08x", cpu->cp0r[ 28 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R29:		sprintf( info->s = cpuintrf_temp_str(), "cp0r29  :%08x", cpu->cp0r[ 29 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R30:		sprintf( info->s = cpuintrf_temp_str(), "cp0r30  :%08x", cpu->cp0r[ 30 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP0R31:		sprintf( info->s = cpuintrf_temp_str(), "cp0r31  :%08x", cpu->cp0r[ 31 ] ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR0:		sprintf( info->s = cpuintrf_temp_str(), "vxy0    :%08x", cpu->cp2dr[ 0 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR1:		sprintf( info->s = cpuintrf_temp_str(), "vz0     :%08x", cpu->cp2dr[ 1 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR2:		sprintf( info->s = cpuintrf_temp_str(), "vxy1    :%08x", cpu->cp2dr[ 2 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR3:		sprintf( info->s = cpuintrf_temp_str(), "vz1     :%08x", cpu->cp2dr[ 3 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR4:		sprintf( info->s = cpuintrf_temp_str(), "vxy2    :%08x", cpu->cp2dr[ 4 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR5:		sprintf( info->s = cpuintrf_temp_str(), "vz2     :%08x", cpu->cp2dr[ 5 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR6:		sprintf( info->s = cpuintrf_temp_str(), "rgb     :%08x", cpu->cp2dr[ 6 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR7:		sprintf( info->s = cpuintrf_temp_str(), "otz     :%08x", cpu->cp2dr[ 7 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR8:		sprintf( info->s = cpuintrf_temp_str(), "ir0     :%08x", cpu->cp2dr[ 8 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR9:		sprintf( info->s = cpuintrf_temp_str(), "ir1     :%08x", cpu->cp2dr[ 9 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR10:		sprintf( info->s = cpuintrf_temp_str(), "ir2     :%08x", cpu->cp2dr[ 10 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR11:		sprintf( info->s = cpuintrf_temp_str(), "ir3     :%08x", cpu->cp2dr[ 11 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR12:		sprintf( info->s = cpuintrf_temp_str(), "sxy0    :%08x", cpu->cp2dr[ 12 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR13:		sprintf( info->s = cpuintrf_temp_str(), "sxy1    :%08x", cpu->cp2dr[ 13 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR14:		sprintf( info->s = cpuintrf_temp_str(), "sxy2    :%08x", cpu->cp2dr[ 14 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR15:		sprintf( info->s = cpuintrf_temp_str(), "sxyp    :%08x", cpu->cp2dr[ 15 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR16:		sprintf( info->s = cpuintrf_temp_str(), "sz0     :%08x", cpu->cp2dr[ 16 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR17:		sprintf( info->s = cpuintrf_temp_str(), "sz1     :%08x", cpu->cp2dr[ 17 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR18:		sprintf( info->s = cpuintrf_temp_str(), "sz2     :%08x", cpu->cp2dr[ 18 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR19:		sprintf( info->s = cpuintrf_temp_str(), "sz3     :%08x", cpu->cp2dr[ 19 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR20:		sprintf( info->s = cpuintrf_temp_str(), "rgb0    :%08x", cpu->cp2dr[ 20 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR21:		sprintf( info->s = cpuintrf_temp_str(), "rgb1    :%08x", cpu->cp2dr[ 21 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR22:		sprintf( info->s = cpuintrf_temp_str(), "rgb2    :%08x", cpu->cp2dr[ 22 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR23:		sprintf( info->s = cpuintrf_temp_str(), "res1    :%08x", cpu->cp2dr[ 23 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR24:		sprintf( info->s = cpuintrf_temp_str(), "mac0    :%08x", cpu->cp2dr[ 24 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR25:		sprintf( info->s = cpuintrf_temp_str(), "mac1    :%08x", cpu->cp2dr[ 25 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR26:		sprintf( info->s = cpuintrf_temp_str(), "mac2    :%08x", cpu->cp2dr[ 26 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR27:		sprintf( info->s = cpuintrf_temp_str(), "mac3    :%08x", cpu->cp2dr[ 27 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR28:		sprintf( info->s = cpuintrf_temp_str(), "irgb    :%08x", cpu->cp2dr[ 28 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR29:		sprintf( info->s = cpuintrf_temp_str(), "orgb    :%08x", cpu->cp2dr[ 29 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR30:		sprintf( info->s = cpuintrf_temp_str(), "lzcs    :%08x", cpu->cp2dr[ 30 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2DR31:		sprintf( info->s = cpuintrf_temp_str(), "lzcr    :%08x", cpu->cp2dr[ 31 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR0:		sprintf( info->s = cpuintrf_temp_str(), "r11r12  :%08x", cpu->cp2cr[ 0 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR1:		sprintf( info->s = cpuintrf_temp_str(), "r13r21  :%08x", cpu->cp2cr[ 1 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR2:		sprintf( info->s = cpuintrf_temp_str(), "r22r23  :%08x", cpu->cp2cr[ 2 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR3:		sprintf( info->s = cpuintrf_temp_str(), "r31r32  :%08x", cpu->cp2cr[ 3 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR4:		sprintf( info->s = cpuintrf_temp_str(), "r33     :%08x", cpu->cp2cr[ 4 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR5:		sprintf( info->s = cpuintrf_temp_str(), "trx     :%08x", cpu->cp2cr[ 5 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR6:		sprintf( info->s = cpuintrf_temp_str(), "try     :%08x", cpu->cp2cr[ 6 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR7:		sprintf( info->s = cpuintrf_temp_str(), "trz     :%08x", cpu->cp2cr[ 7 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR8:		sprintf( info->s = cpuintrf_temp_str(), "l11l12  :%08x", cpu->cp2cr[ 8 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR9:		sprintf( info->s = cpuintrf_temp_str(), "l13l21  :%08x", cpu->cp2cr[ 9 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR10:		sprintf( info->s = cpuintrf_temp_str(), "l22l23  :%08x", cpu->cp2cr[ 10 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR11:		sprintf( info->s = cpuintrf_temp_str(), "l31l32  :%08x", cpu->cp2cr[ 11 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR12:		sprintf( info->s = cpuintrf_temp_str(), "l33     :%08x", cpu->cp2cr[ 12 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR13:		sprintf( info->s = cpuintrf_temp_str(), "rbk     :%08x", cpu->cp2cr[ 13 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR14:		sprintf( info->s = cpuintrf_temp_str(), "gbk     :%08x", cpu->cp2cr[ 14 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR15:		sprintf( info->s = cpuintrf_temp_str(), "bbk     :%08x", cpu->cp2cr[ 15 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR16:		sprintf( info->s = cpuintrf_temp_str(), "lr1lr2  :%08x", cpu->cp2cr[ 16 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR17:		sprintf( info->s = cpuintrf_temp_str(), "lr31g1  :%08x", cpu->cp2cr[ 17 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR18:		sprintf( info->s = cpuintrf_temp_str(), "lg2lg3  :%08x", cpu->cp2cr[ 18 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR19:		sprintf( info->s = cpuintrf_temp_str(), "lb1lb2  :%08x", cpu->cp2cr[ 19 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR20:		sprintf( info->s = cpuintrf_temp_str(), "lb3     :%08x", cpu->cp2cr[ 20 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR21:		sprintf( info->s = cpuintrf_temp_str(), "rfc     :%08x", cpu->cp2cr[ 21 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR22:		sprintf( info->s = cpuintrf_temp_str(), "gfc     :%08x", cpu->cp2cr[ 22 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR23:		sprintf( info->s = cpuintrf_temp_str(), "bfc     :%08x", cpu->cp2cr[ 23 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR24:		sprintf( info->s = cpuintrf_temp_str(), "ofx     :%08x", cpu->cp2cr[ 24 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR25:		sprintf( info->s = cpuintrf_temp_str(), "ofy     :%08x", cpu->cp2cr[ 25 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR26:		sprintf( info->s = cpuintrf_temp_str(), "h       :%08x", cpu->cp2cr[ 26 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR27:		sprintf( info->s = cpuintrf_temp_str(), "dqa     :%08x", cpu->cp2cr[ 27 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR28:		sprintf( info->s = cpuintrf_temp_str(), "dqb     :%08x", cpu->cp2cr[ 28 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR29:		sprintf( info->s = cpuintrf_temp_str(), "zsf3    :%08x", cpu->cp2cr[ 29 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR30:		sprintf( info->s = cpuintrf_temp_str(), "zsf4    :%08x", cpu->cp2cr[ 30 ].d ); break;
-		case CPUINFO_STR_REGISTER + MIPS_CP2CR31:		sprintf( info->s = cpuintrf_temp_str(), "flag    :%08x", cpu->cp2cr[ 31 ].d ); break;
-#endif
-	}
-}
-
-uint32 mips_get_cause(mips_cpu_context *cpu)
-{
-	return cpu->cp0r[ CP0_CAUSE ];
-}
-
-uint32 mips_get_status(mips_cpu_context *cpu)
-{
-	return cpu->cp0r[ CP0_SR ];
-}
-
-void mips_set_status(mips_cpu_context *cpu, uint32 status)
-{
-	cpu->cp0r[ CP0_SR ] = status;
-}
-
-uint32 mips_get_ePC(mips_cpu_context *cpu)
-{
-	return cpu->cp0r[ CP0_EPC ];
-}
-
-int mips_get_icount(mips_cpu_context *cpu)
-{
-	return cpu->mips_ICount;
-}
-
-void mips_set_icount(mips_cpu_context *cpu, int count)
-{
-	cpu->mips_ICount = count;
-}
-
-
-#if (HAS_PSXCPU)
-/**************************************************************************
- * CPU-specific set_info
- **************************************************************************/
-
-void psxcpu_get_info(mips_cpu_context *cpu, UINT32 state, union cpuinfo *info)
-{
-	switch (state)
-	{
-		/* --- the following bits of info are returned as NULL-terminated strings --- */
-//		case CPUINFO_STR_NAME:							strcpy(info->s = cpuintrf_temp_str(), "PSX CPU"); break;
-
-		default:
-			mips_get_info(cpu, state, info);
-			break;
-	}
-}
-#endif
diff --git a/plugins/ao/eng_psf/psx.h b/plugins/ao/eng_psf/psx.h
deleted file mode 100644
index ab27e83f..00000000
--- a/plugins/ao/eng_psf/psx.h
+++ /dev/null
@@ -1,486 +0,0 @@
-#ifndef _MIPS_H
-#define _MIPS_H
-
-#include "ao.h"
-#include "osd_cpu.h"
-//#include "driver.h"
-
-typedef void genf(void);
-typedef int offs_t;
-
-#define cpu_readop32(pc) program_read_dword_32le(cpu, pc)
-#define change_pc(pc)																	\
-
-
-#ifdef __GNUC__
-#if (__GNUC__ < 2) || ((__GNUC__ == 2) && (__GNUC_MINOR__ <= 7))
-#define UNUSEDARG
-#else
-#define UNUSEDARG __attribute__((__unused__))
-#endif
-#else
-#define UNUSEDARG
-#endif
-
-typedef int8		(*read8_handler)  (UNUSEDARG offs_t offset);
-typedef void		(*write8_handler) (UNUSEDARG offs_t offset, UNUSEDARG int8 data);
-typedef int16		(*read16_handler) (UNUSEDARG offs_t offset, UNUSEDARG int16 mem_mask);
-typedef void		(*write16_handler)(UNUSEDARG offs_t offset, UNUSEDARG int16 data, UNUSEDARG int16 mem_mask);
-typedef int32		(*read32_handler) (UNUSEDARG offs_t offset, UNUSEDARG int32 mem_mask);
-typedef void		(*write32_handler)(UNUSEDARG offs_t offset, UNUSEDARG int32 data, UNUSEDARG int32 mem_mask);
-typedef int64		(*read64_handler) (UNUSEDARG offs_t offset, UNUSEDARG int64 mem_mask);
-typedef void		(*write64_handler)(UNUSEDARG offs_t offset, UNUSEDARG int64 data, UNUSEDARG int64 mem_mask);
-
-union read_handlers_t
-{
-	genf *				handler;
-	read8_handler		handler8;
-	read16_handler		handler16;
-	read32_handler		handler32;
-	read64_handler		handler64;
-};
-
-union write_handlers_t
-{
-	genf *				handler;
-	write8_handler		handler8;
-	write16_handler		handler16;
-	write32_handler		handler32;
-	write64_handler		handler64;
-};
-
-struct address_map_t
-{
-	uint32				flags;				/* flags and additional info about this entry */
-	offs_t				start, end;			/* start/end (or mask/match) values */
-	offs_t				mirror;				/* mirror bits */
-	offs_t				mask;				/* mask bits */
-	union read_handlers_t read;				/* read handler callback */
-	union write_handlers_t write;			/* write handler callback */
-	void *				memory;				/* pointer to memory backing this entry */
-	uint32				share;				/* index of a shared memory block */
-	void **				base;				/* receives pointer to memory (optional) */
-	size_t *			size;				/* receives size of area in bytes (optional) */
-};
-typedef struct address_map_t *(*construct_map_t)(struct address_map_t *map);
-
-#define MAX_FILE_SLOTS	(32)
-
-typedef struct
-{
-	char name[10];
-	uint32 dispatch;
-} ExternLibEntries;
-
-typedef struct
-{
-	int32  iState;		// state of thread
-
-	uint32 flags;		// flags
-	uint32 routine;		// start of code for the thread
-	uint32 stackloc;	// stack location in IOP RAM
-	uint32 stacksize;	// stack size
-	uint32 refCon;		// user value passed in at CreateThread time
-
-	uint32 waitparm;	// what we're waiting on if in one the TS_WAIT* states
-	
-	uint32 save_regs[37];	// CPU registers belonging to this thread
-} Thread;
-
-typedef struct
-{
-	uint32 attr;
-	uint32 option;
-	int32 init;
-	int32 current;
-	int32 max;
-	int32 threadsWaiting;
-	int32 inuse;
-} Semaphore;
-
-#define SEMA_MAX	(64)
-
-typedef struct
-{
-	uint32 type;
-	uint32 value;
-	uint32 param;
-	int    inUse;
-} EventFlag;
-
-typedef struct
-{
-	uint32 count;
-	uint32 mode;
-	uint32 target;
-	uint32 sysclock;
-} Counter;
-
-
-typedef struct
-{
-	uint32 desc;
-	int32 status;
-	int32 mode;
-	uint32 fhandler;
-} EvtCtrlBlk[32];
-
-typedef struct
-{
-	int32  iActive;
-	uint32 count;
-	uint32 target;
-	uint32 source;
-	uint32 prescale;
-	uint32 handler;
-	uint32 hparam;
-	uint32 mode;
-} IOPTimer;
-
-typedef struct mips_cpu_context_s
-{
-    int psf_refresh;
-	UINT32 op;
-	UINT32 pc;
-	UINT32 prevpc;
-	UINT32 delayv;
-	UINT32 delayr;
-	UINT32 hi;
-	UINT32 lo;
-	UINT32 r[ 32 ];
-	UINT32 cp0r[ 32 ];
-	PAIR cp2cr[ 32 ];
-	PAIR cp2dr[ 32 ];
-	int (*irq_callback)(struct mips_cpu_context_s *cpu, int irqline);
-    int mips_ICount;
-    // PSX main RAM
-    uint32 psx_ram[(2*1024*1024)/4];
-    uint32 psx_scratch[0x400];
-    // backup image to restart songs
-    uint32 initial_ram[(2*1024*1024)/4];
-    uint32 initial_scratch[0x400];
-
-    // spu
-    struct spu_state_s *spu;
-    struct spu2_state_s *spu2;
-    void (*spu_callback)(unsigned char *, long, void *);
-    void *spu_callback_data;
-
-    // state
-    Counter root_cnts[3];	// 3 of the bastards
-
-    EvtCtrlBlk *Event;
-    EvtCtrlBlk *CounterEvent;
-
-    uint32 spu_delay, dma_icr, irq_data, irq_mask, dma_timer, WAI;
-    uint32 dma4_madr, dma4_bcr, dma4_chcr, dma4_delay;
-    uint32 dma7_madr, dma7_bcr, dma7_chcr, dma7_delay;
-    uint32 dma4_cb, dma7_cb, dma4_fval, dma4_flag, dma7_fval, dma7_flag;
-    uint32 irq9_cb, irq9_fval, irq9_flag;
-
-    volatile int softcall_target;
-    int filestat[MAX_FILE_SLOTS];
-    uint8 *filedata[MAX_FILE_SLOTS];
-    uint32 filesize[MAX_FILE_SLOTS], filepos[MAX_FILE_SLOTS];
-    int intr_susp;
-
-    uint64 sys_time;
-    int timerexp;
-
-    int32 iNumLibs;
-    ExternLibEntries	reglibs[32];
-
-    int32 iNumFlags;
-    EventFlag evflags[32];
-
-    int32 iNumSema;
-    Semaphore semaphores[SEMA_MAX];
-
-    int32 iNumThreads, iCurThread;
-    Thread threads[32];
-    IOPTimer iop_timers[8];
-    int32 iNumTimers;
-    int fcnt;
-    uint32 heap_addr, entry_int;
-    uint32 irq_regs[37];
-    int irq_mutex;
-
-} mips_cpu_context;
-
-union cpuinfo
-{
-	int64	i;											/* generic integers */
-	void *	p;											/* generic pointers */
-	genf *  f;											/* generic function pointers */
-	char *	s;											/* generic strings */
-	mips_cpu_context *cpu;
-
-	void	(*setinfo)(mips_cpu_context *cpu, UINT32 state, union cpuinfo *info);/* CPUINFO_PTR_SET_INFO */
-//	void	(*getcontext)(void *context);				/* CPUINFO_PTR_GET_CONTEXT */
-//	void	(*setcontext)(void *context);				/* CPUINFO_PTR_SET_CONTEXT */
-	void	(*init)(mips_cpu_context *cpu);								/* CPUINFO_PTR_INIT */
-	void	(*reset)(mips_cpu_context *cpu, void *param);						/* CPUINFO_PTR_RESET */
-	void	(*exit)(mips_cpu_context *cpu);								/* CPUINFO_PTR_EXIT */
-	int		(*execute)(mips_cpu_context *cpu, int cycles);						/* CPUINFO_PTR_EXECUTE */
-	void	(*burn)(mips_cpu_context *cpu, int cycles);						/* CPUINFO_PTR_BURN */
-	offs_t	(*disassemble)(mips_cpu_context *cpu, char *buffer, offs_t pc);	/* CPUINFO_PTR_DISASSEMBLE */
-	int		(*irqcallback)(mips_cpu_context *cpu, int state);					/* CPUINFO_PTR_IRQCALLBACK */
-	int *	icount;										/* CPUINFO_PTR_INSTRUCTION_COUNTER */
-	construct_map_t internal_map;						/* CPUINFO_PTR_INTERNAL_MEMORY_MAP */
-};
-
-enum
-{
-	MIPS_PC = 1,
-	MIPS_DELAYV, MIPS_DELAYR,
-	MIPS_HI, MIPS_LO,
-	MIPS_R0, MIPS_R1,
-	MIPS_R2, MIPS_R3,
-	MIPS_R4, MIPS_R5,
-	MIPS_R6, MIPS_R7,
-	MIPS_R8, MIPS_R9,
-	MIPS_R10, MIPS_R11,
-	MIPS_R12, MIPS_R13,
-	MIPS_R14, MIPS_R15,
-	MIPS_R16, MIPS_R17,
-	MIPS_R18, MIPS_R19,
-	MIPS_R20, MIPS_R21,
-	MIPS_R22, MIPS_R23,
-	MIPS_R24, MIPS_R25,
-	MIPS_R26, MIPS_R27,
-	MIPS_R28, MIPS_R29,
-	MIPS_R30, MIPS_R31,
-	MIPS_CP0R0, MIPS_CP0R1,
-	MIPS_CP0R2, MIPS_CP0R3,
-	MIPS_CP0R4, MIPS_CP0R5,
-	MIPS_CP0R6, MIPS_CP0R7,
-	MIPS_CP0R8, MIPS_CP0R9,
-	MIPS_CP0R10, MIPS_CP0R11,
-	MIPS_CP0R12, MIPS_CP0R13,
-	MIPS_CP0R14, MIPS_CP0R15,
-	MIPS_CP0R16, MIPS_CP0R17,
-	MIPS_CP0R18, MIPS_CP0R19,
-	MIPS_CP0R20, MIPS_CP0R21,
-	MIPS_CP0R22, MIPS_CP0R23,
-	MIPS_CP0R24, MIPS_CP0R25,
-	MIPS_CP0R26, MIPS_CP0R27,
-	MIPS_CP0R28, MIPS_CP0R29,
-	MIPS_CP0R30, MIPS_CP0R31,
-	MIPS_CP2DR0, MIPS_CP2DR1,
-	MIPS_CP2DR2, MIPS_CP2DR3,
-	MIPS_CP2DR4, MIPS_CP2DR5,
-	MIPS_CP2DR6, MIPS_CP2DR7,
-	MIPS_CP2DR8, MIPS_CP2DR9,
-	MIPS_CP2DR10, MIPS_CP2DR11,
-	MIPS_CP2DR12, MIPS_CP2DR13,
-	MIPS_CP2DR14, MIPS_CP2DR15,
-	MIPS_CP2DR16, MIPS_CP2DR17,
-	MIPS_CP2DR18, MIPS_CP2DR19,
-	MIPS_CP2DR20, MIPS_CP2DR21,
-	MIPS_CP2DR22, MIPS_CP2DR23,
-	MIPS_CP2DR24, MIPS_CP2DR25,
-	MIPS_CP2DR26, MIPS_CP2DR27,
-	MIPS_CP2DR28, MIPS_CP2DR29,
-	MIPS_CP2DR30, MIPS_CP2DR31,
-	MIPS_CP2CR0, MIPS_CP2CR1,
-	MIPS_CP2CR2, MIPS_CP2CR3,
-	MIPS_CP2CR4, MIPS_CP2CR5,
-	MIPS_CP2CR6, MIPS_CP2CR7,
-	MIPS_CP2CR8, MIPS_CP2CR9,
-	MIPS_CP2CR10, MIPS_CP2CR11,
-	MIPS_CP2CR12, MIPS_CP2CR13,
-	MIPS_CP2CR14, MIPS_CP2CR15,
-	MIPS_CP2CR16, MIPS_CP2CR17,
-	MIPS_CP2CR18, MIPS_CP2CR19,
-	MIPS_CP2CR20, MIPS_CP2CR21,
-	MIPS_CP2CR22, MIPS_CP2CR23,
-	MIPS_CP2CR24, MIPS_CP2CR25,
-	MIPS_CP2CR26, MIPS_CP2CR27,
-	MIPS_CP2CR28, MIPS_CP2CR29,
-	MIPS_CP2CR30, MIPS_CP2CR31
-};
-
-#define MIPS_INT_NONE	( -1 )
-
-#define MIPS_IRQ0	( 0 )
-#define MIPS_IRQ1	( 1 )
-#define MIPS_IRQ2	( 2 )
-#define MIPS_IRQ3	( 3 )
-#define MIPS_IRQ4	( 4 )
-#define MIPS_IRQ5	( 5 )
-
-#define MIPS_BYTE_EXTEND( a ) ( (INT32)(INT8)a )
-#define MIPS_WORD_EXTEND( a ) ( (INT32)(INT16)a )
-
-#define INS_OP( op ) ( ( op >> 26 ) & 63 )
-#define INS_RS( op ) ( ( op >> 21 ) & 31 )
-#define INS_RT( op ) ( ( op >> 16 ) & 31 )
-#define INS_IMMEDIATE( op ) ( op & 0xffff )
-#define INS_TARGET( op ) ( op & 0x3ffffff )
-#define INS_RD( op ) ( ( op >> 11 ) & 31 )
-#define INS_SHAMT( op ) ( ( op >> 6 ) & 31 )
-#define INS_FUNCT( op ) ( op & 63 )
-#define INS_CODE( op ) ( ( op >> 6 ) & 0xfffff )
-#define INS_CO( op ) ( ( op >> 25 ) & 1 )
-#define INS_COFUN( op ) ( op & 0x1ffffff )
-#define INS_CF( op ) ( op & 63 )
-
-#define GTE_OP( op ) ( ( op >> 20 ) & 31 )
-#define GTE_SF( op ) ( ( op >> 19 ) & 1 )
-#define GTE_MX( op ) ( ( op >> 17 ) & 3 )
-#define GTE_V( op ) ( ( op >> 15 ) & 3 )
-#define GTE_CV( op ) ( ( op >> 13 ) & 3 )
-#define GTE_CD( op ) ( ( op >> 11 ) & 3 ) /* not used */
-#define GTE_LM( op ) ( ( op >> 10 ) & 1 )
-#define GTE_CT( op ) ( ( op >> 6 ) & 15 ) /* not used */
-#define GTE_FUNCT( op ) ( op & 63 )
-
-#define OP_SPECIAL ( 0 )
-#define OP_REGIMM ( 1 )
-#define OP_J ( 2 )
-#define OP_JAL ( 3 )
-#define OP_BEQ ( 4 )
-#define OP_BNE ( 5 )
-#define OP_BLEZ ( 6 )
-#define OP_BGTZ ( 7 )
-#define OP_ADDI ( 8 )
-#define OP_ADDIU ( 9 )
-#define OP_SLTI ( 10 )
-#define OP_SLTIU ( 11 )
-#define OP_ANDI ( 12 )
-#define OP_ORI ( 13 )
-#define OP_XORI ( 14 )
-#define OP_LUI ( 15 )
-#define OP_COP0 ( 16 )
-#define OP_COP1 ( 17 )
-#define OP_COP2 ( 18 )
-#define OP_LB ( 32 )
-#define OP_LH ( 33 )
-#define OP_LWL ( 34 )
-#define OP_LW ( 35 )
-#define OP_LBU ( 36 )
-#define OP_LHU ( 37 )
-#define OP_LWR ( 38 )
-#define OP_SB ( 40 )
-#define OP_SH ( 41 )
-#define OP_SWL ( 42 )
-#define OP_SW ( 43 )
-#define OP_SWR ( 46 )
-#define OP_LWC1 ( 49 )
-#define OP_LWC2 ( 50 )
-#define OP_SWC1 ( 57 )
-#define OP_SWC2 ( 58 )
-
-/* OP_SPECIAL */
-#define FUNCT_SLL ( 0 )
-#define FUNCT_SRL ( 2 )
-#define FUNCT_SRA ( 3 )
-#define FUNCT_SLLV ( 4 )
-#define FUNCT_SRLV ( 6 )
-#define FUNCT_SRAV ( 7 )
-#define FUNCT_JR ( 8 )
-#define FUNCT_JALR ( 9 )	   
-#define FUNCT_HLECALL ( 11 )
-#define FUNCT_SYSCALL ( 12 )
-#define FUNCT_BREAK ( 13 )
-#define FUNCT_MFHI ( 16 )
-#define FUNCT_MTHI ( 17 )
-#define FUNCT_MFLO ( 18 )
-#define FUNCT_MTLO ( 19 )
-#define FUNCT_MULT ( 24 )
-#define FUNCT_MULTU ( 25 )
-#define FUNCT_DIV ( 26 )
-#define FUNCT_DIVU ( 27 )
-#define FUNCT_ADD ( 32 )
-#define FUNCT_ADDU ( 33 )
-#define FUNCT_SUB ( 34 )
-#define FUNCT_SUBU ( 35 )
-#define FUNCT_AND ( 36 )
-#define FUNCT_OR ( 37 )
-#define FUNCT_XOR ( 38 )
-#define FUNCT_NOR ( 39 )
-#define FUNCT_SLT ( 42 )
-#define FUNCT_SLTU ( 43 )
-
-/* OP_REGIMM */
-#define RT_BLTZ ( 0 )
-#define RT_BGEZ ( 1 )
-#define RT_BLTZAL ( 16 )
-#define RT_BGEZAL ( 17 )
-
-/* OP_COP0/OP_COP1/OP_COP2 */
-#define RS_MFC ( 0 )
-#define RS_CFC ( 2 )
-#define RS_MTC ( 4 )
-#define RS_CTC ( 6 )
-#define RS_BC ( 8 )
-
-/* RS_BC */
-#define RT_BCF ( 0 )
-#define RT_BCT ( 1 )
-
-/* OP_COP0 */
-#define CF_RFE ( 16 )
-
-#ifdef MAME_DEBUG
-unsigned DasmMIPS(char *buff, unsigned _pc);
-#endif
-
-#if (HAS_PSXCPU)
-void psxcpu_get_info(mips_cpu_context *cpu, UINT32 state, union cpuinfo *info);
-#endif
-
-mips_cpu_context *mips_alloc(void);
-void mips_free (mips_cpu_context *cpu);
-
-void mips_init(mips_cpu_context *cpu);
-void mips_exit(mips_cpu_context *cpu);
-void mips_reset(mips_cpu_context *cpu, void *param );
-int mips_execute(mips_cpu_context *cpu, int cycles );
-void mips_set_info(mips_cpu_context *cpu, UINT32 state, union cpuinfo *info);
-void mips_get_info(mips_cpu_context *cpu, UINT32 state, union cpuinfo *info);
-int mips_execute( mips_cpu_context *cpu, int cycles );
-int mips_get_icount(mips_cpu_context *cpu);
-void mips_set_icount(mips_cpu_context *cpu, int count);
-
-uint32 mips_get_cause(mips_cpu_context *cpu);
-uint32 mips_get_status(mips_cpu_context *cpu);
-void mips_set_status(mips_cpu_context *cpu, uint32 status);
-uint32 mips_get_ePC(mips_cpu_context *cpu);
-
-
-void psx_hw_init(mips_cpu_context *cpu);
-void psx_hw_slice(mips_cpu_context *cpu);
-void psx_hw_frame(mips_cpu_context *cpu);
-void ps2_hw_slice(mips_cpu_context *cpu);
-void ps2_hw_frame(mips_cpu_context *cpu);
-
-void mips_shorten_frame(mips_cpu_context *cpu);
-uint32 psf2_load_file(mips_cpu_context *cpu, char *file, uint8 *buf, uint32 buflen);
-uint32 psf2_load_elf(mips_cpu_context *cpu, uint8 *start, uint32 len);
-void psx_hw_runcounters(mips_cpu_context *cpu);
-
-
-void psx_bios_hle(mips_cpu_context *cpu, uint32 pc);
-void psx_iop_call(mips_cpu_context *cpu, uint32 pc, uint32 callnum);
-uint8 program_read_byte_32le(mips_cpu_context *cpu, offs_t address);
-uint16 program_read_word_32le(mips_cpu_context *cpu, offs_t address);
-uint32 program_read_dword_32le(mips_cpu_context *cpu, offs_t address);
-void program_write_byte_32le(mips_cpu_context *cpu, offs_t address, uint8 data);
-void program_write_word_32le(mips_cpu_context *cpu, offs_t address, uint16 data);
-void program_write_dword_32le(mips_cpu_context *cpu, offs_t address, uint32 data);
-
-// SPU1
-void setlength(struct spu_state_s *spu, s32 stop, s32 fade);
-
-// SPU2
-void SPU2write(mips_cpu_context *cpu, unsigned long reg, unsigned short val);
-unsigned short SPU2read(mips_cpu_context *cpu, unsigned long reg);
-void SPU2readDMA4Mem(mips_cpu_context *cpu, uint32 usPSXMem,int iSize);
-void SPU2writeDMA4Mem(mips_cpu_context *cpu, uint32 usPSXMem,int iSize);
-void SPU2readDMA7Mem(mips_cpu_context *cpu, uint32 usPSXMem,int iSize);
-void SPU2writeDMA7Mem(mips_cpu_context *cpu, uint32 usPSXMem,int iSize);
-void SPU2interruptDMA4(mips_cpu_context *cpu);
-void SPU2interruptDMA7(mips_cpu_context *cpu);
-
-#endif
diff --git a/plugins/ao/eng_qsf/kabuki.c b/plugins/ao/eng_qsf/kabuki.c
deleted file mode 100644
index 61100304..00000000
--- a/plugins/ao/eng_qsf/kabuki.c
+++ /dev/null
@@ -1,156 +0,0 @@
-/***************************************************************************
-
-"Kabuki" Z80 encryption
-
-
-The "Kabuki" is a custom Z80 module which runs encrypted code. The encryption
-key is stored in some battery-backed RAM, therefore the chip has the annoying
-habit of stopping working every few years, when the battery dies.
-Check at the bottom of this text to see a list of all the known games which
-use this chip.
-
-
-How it works:
-The base operation is a bit swap which affects couples of adjacent bits.
-Each of the 4 couples may or may not be swapped, depending on the address of
-the byte and on whether it is an opcode or data.
-The decryption consists of these steps:
-- bitswap
-- ROL
-- bitswap
-- XOR with a key
-- ROL
-- bitswap
-- ROL
-- bitswap
-
-To know how to apply the bit swap, take the address of the byte to decode and:
-- if the byte is an opcode, add addr_key to the address
-- if the byte is data, XOR the address with 1FC0, add 1, and then add addr_key
-You'll get a 16-bit word. The first two bitswaps depend on bits 0-7 of that
-word, while the second two on bits 8-15. When a bit in the word is 1, swap the
-two bits, oherwise don't. The exact couple of bits affected depends on the
-game and is identified in this file with two keys: swap_key1 and swap_key2
-(which are just permutations of the numbers 0-7, not full 32-bit integers).
-
-
-Key space size:
-- swap_key1  8! = 40320
-- swap_key2  8! = 40320
-- addr_key   2^16 = 65536
-- xor_key    2^8 = 256
-- total      2.7274 * 10^16
-
-
-Weaknesses:
-- 0x00 and 0xff, having all the bits set to the same value, are not affected
-  by bit permutations after the XOR. Therefore, their encryption is the same
-  regardless of the high 8 bits of the address, and of the value of
-  swap_key2. If there is a long stream of 0x00 or 0xff in the original data,
-  this can be used to find by brute force all the candidates for swap_key1,
-  xor_key, and for the low 8 bits of addr_key. This is a serious weakness
-  which dramatically reduces the security of the encryption.
-- A 0x00 is always encrypted as a byte with as many 1s as xor_key; a 0xff is
-  always encrypted as a byte with as many 0s as xor_key has 1s. So you just
-  need to know one 0x00 or 0xff in the unencrypted data to know how many 1s
-  there are in xor_key.
-- Once you have restricted the range for swap_key1 and you know the number of
-  1s in the xor_key, you can easily use known plaintext attacks and brute
-  force to find the remaining keys. Long strings like THIS GAME IS FOR USE IN
-  and ABCDEFGHIJKLMNOPQRSTUVWXYZ can be found by comparing the number of 1s
-  in the clear and encrypted data, taking xor_key into account. When you have
-  found where the string is, use brute force to reduce the key space.
-
-
-Known games:
-                                         swap_key1 swap_key2 addr_key xor_key
-Mahjong Gakuen 2 Gakuen-chou no Fukushuu 76543210  01234567    aa55     a5
-Poker Ladies                              "    "    "    "      ""      ""
-Dokaben                                   "    "    "    "      ""      ""
-Dokaben 2                                             unknown
-Pang / Buster Bros / Pomping World       01234567  76543210    6548     24
-Capcom Baseball                           "    "    "    "      ""      ""
-Capcom World                             04152637  40516273    5751     43
-Adventure Quiz 2 Hatena ? no Dai-Bouken  45670123  45670123    5751     43
-Super Pang                               45670123  45670123    5852     43
-Super Buster Bros                        45670123  45670123    2130     12
-Super Marukin-Ban                        54321076  54321076    4854     4f
-Quiz Tonosama no Yabou                   12345670  12345670    1111     11
-Ashita Tenki ni Naare                                 unknown
-Quiz Sangokushi                          23456701  23456701    1828     18
-Block Block                              02461357  64207531    0002     01
-
-Warriors of Fate                         01234567  54163072    5151     51
-Cadillacs and Dinosaurs                  76543210  24601357    4343     43
-Punisher                                 67452103  75316024    2222     22
-Slam Masters                             54321076  65432107    3131     19
-
-***************************************************************************/
-
-#include "cpuintrf.h"
-
-static int bitswap1(int src,int key,int sel)
-{
-	if (sel & (1 << ((key >> 0) & 7)))
-		src = (src & 0xfc) | ((src & 0x01) << 1) | ((src & 0x02) >> 1);
-	if (sel & (1 << ((key >> 4) & 7)))
-		src = (src & 0xf3) | ((src & 0x04) << 1) | ((src & 0x08) >> 1);
-	if (sel & (1 << ((key >> 8) & 7)))
-		src = (src & 0xcf) | ((src & 0x10) << 1) | ((src & 0x20) >> 1);
-	if (sel & (1 << ((key >>12) & 7)))
-		src = (src & 0x3f) | ((src & 0x40) << 1) | ((src & 0x80) >> 1);
-
-	return src;
-}
-
-static int bitswap2(int src,int key,int sel)
-{
-	if (sel & (1 << ((key >>12) & 7)))
-		src = (src & 0xfc) | ((src & 0x01) << 1) | ((src & 0x02) >> 1);
-	if (sel & (1 << ((key >> 8) & 7)))
-		src = (src & 0xf3) | ((src & 0x04) << 1) | ((src & 0x08) >> 1);
-	if (sel & (1 << ((key >> 4) & 7)))
-		src = (src & 0xcf) | ((src & 0x10) << 1) | ((src & 0x20) >> 1);
-	if (sel & (1 << ((key >> 0) & 7)))
-		src = (src & 0x3f) | ((src & 0x40) << 1) | ((src & 0x80) >> 1);
-
-	return src;
-}
-
-static int bytedecode(int src,int swap_key1,int swap_key2,int xor_key,int sel)
-{
-	src = bitswap1(src,swap_key1 & 0xffff,sel & 0xff);
-	src = ((src & 0x7f) << 1) | ((src & 0x80) >> 7);
-	src = bitswap2(src,swap_key1 >> 16,sel & 0xff);
-	src ^= xor_key;
-	src = ((src & 0x7f) << 1) | ((src & 0x80) >> 7);
-	src = bitswap2(src,swap_key2 & 0xffff,sel >> 8);
-	src = ((src & 0x7f) << 1) | ((src & 0x80) >> 7);
-	src = bitswap1(src,swap_key2 >> 16,sel >> 8);
-	return src;
-}
-
-static void kabuki_decode(unsigned char *src,unsigned char *dest_op,unsigned char *dest_data,
-		int base_addr,int length,int swap_key1,int swap_key2,int addr_key,int xor_key)
-{
-	int A;
-	int sel;
-
-	for (A = 0; A < length; A++)
-	{
-		/* decode opcodes */
-		sel = (A + base_addr) + addr_key;
-		dest_op[A] = bytedecode(src[A],swap_key1,swap_key2,xor_key,sel);
-
-		/* decode data */
-		sel = ((A + base_addr) ^ 0x1fc0) + addr_key + 1;
-		dest_data[A] = bytedecode(src[A],swap_key1,swap_key2,xor_key,sel);
-	}
-}
-
-void cps1_decode(unsigned char *rom, int swap_key1,int swap_key2,int addr_key,int xor_key)
-{
-	int diff = (512*1024)/2;
-
-	kabuki_decode(rom, rom+diff, rom, 0x0000, 0x8000, swap_key1, swap_key2, addr_key, xor_key);
-}
diff --git a/plugins/ao/eng_qsf/qsound.c b/plugins/ao/eng_qsf/qsound.c
deleted file mode 100644
index b11829d4..00000000
--- a/plugins/ao/eng_qsf/qsound.c
+++ /dev/null
@@ -1,442 +0,0 @@
-/***************************************************************************
-
-  Capcom System QSound(tm)
-  ========================
-
-  Driver by Paul Leaman (paul@vortexcomputing.demon.co.uk)
-		and Miguel Angel Horna (mahorna@teleline.es)
-
-  A 16 channel stereo sample player.
-
-  QSpace position is simulated by panning the sound in the stereo space.
-
-  Register
-  0	 xxbb	xx = unknown bb = start high address
-  1	 ssss	ssss = sample start address
-  2	 pitch
-  3	 unknown (always 0x8000)
-  4	 loop offset from end address
-  5	 end
-  6	 master channel volume
-  7	 not used
-  8	 Balance (left=0x0110  centre=0x0120 right=0x0130)
-  9	 unknown (most fixed samples use 0 for this register)
-
-  Many thanks to CAB (the author of Amuse), without whom this probably would
-  never have been finished.
-
-  If anybody has some information about this hardware, please send it to me
-  to mahorna@teleline.es or 432937@cepsz.unizar.es.
-  http://teleline.terra.es/personal/mahorna
-
-***************************************************************************/
-
-#include <math.h>
-#include "cpuintrf.h"
-#include "qsound.h"
-
-#if 0
-#if QSOUND_DRIVER2
-void setchannel(int channel,signed short *buffer,int length,int vol,int pan);
-void setchloop(int channel,int loops,int loope);
-void stopchan(int channel);
-void calcula_mix(int channel);
-#endif
-#endif
-
-qsound_state_t *qsound_sh_start( struct QSound_interface *qsintf )
-{
-    qsound_state_t *qs = malloc (sizeof (qsound_state_t));
-    memset (qs, 0, sizeof (qsound_state_t));
-    memcpy (&qs->intf, qsintf, sizeof (struct QSound_interface));
-
-	int i;
-
-	qs->qsound_sample_rom = (QSOUND_SRC_SAMPLE *)qs->intf.sample_rom;
-
-	memset(qs->qsound_channel, 0, sizeof(qs->qsound_channel));
-
-#if QSOUND_DRIVER1
-	qs->qsound_frq_ratio = ((float)qs->intf.clock / (float)QSOUND_CLOCKDIV) /
-						(float) 44100;
-	qs->qsound_frq_ratio *= 16.0;
-
-	/* Create pan table */
-	for (i=0; i<33; i++)
-	{
-		qs->qsound_pan_table[i]=(int)((256/sqrt(32)) * sqrt(i));
-	}
-#else
-	i=0;
-#endif
-
-#if LOG_QSOUND
-	logerror("Pan table\n");
-	for (i=0; i<33; i++)
-		logerror("%02x ", qs->qsound_pan_table[i]);
-#endif
-#if 0
-	{
-		/* Allocate stream */
-#define CHANNELS ( 2 )
-		char buf[CHANNELS][40];
-		const char *name[CHANNELS];
-		int  vol[2];
-		name[0] = buf[0];
-		name[1] = buf[1];
-		sprintf( buf[0], "%s L", sound_name(msound) );
-		sprintf( buf[1], "%s R", sound_name(msound) );
-		vol[0]=MIXER(intf->mixing_level[0], MIXER_PAN_LEFT);
-		vol[1]=MIXER(intf->mixing_level[1], MIXER_PAN_RIGHT);
-		qsound_stream = stream_init_multi(
-			CHANNELS,
-			name,
-			vol,
-			Machine->sample_rate,
-			0,
-			qsound_update );
-	}
-#endif
-#if LOG_WAVE
-	qs->fpRawDataR=fopen("qsoundr.raw", "w+b");
-	qs->fpRawDataL=fopen("qsoundl.raw", "w+b");
-	if (!qs->fpRawDataR || !qs->fpRawDataL)
-	{
-		return NULL;
-	}
-#endif
-
-	return qs;
-}
-
-void qsound_sh_stop (qsound_state_t *qs)
-{
-    if (qs) {
-#if LOG_WAVE
-        if (qs->fpRawDataR)
-        {
-            fclose(qs->fpRawDataR);
-        }
-        if (qs->fpRawDataL)
-        {
-            fclose(qs->fpRawDataL);
-        }
-#endif
-        free (qs);
-    }
-}
-
-void qsound_data_h_w(qsound_state_t *qs, int data)
-{
-	qs->qsound_data=(qs->qsound_data&0xff)|(data<<8);
-}
-
-void qsound_data_l_w(qsound_state_t *qs, int data)
-{
-	qs->qsound_data=(qs->qsound_data&0xff00)|data;
-}
-
-void qsound_cmd_w(qsound_state_t *qs, int data)
-{
-//	printf("QS: cmd %x, data %x\n", data, qs->qsound_data);
-	qsound_set_command(qs, data, qs->qsound_data);
-}
-
-int qsound_status_r(qsound_state_t *qs)
-{
-	/* Port ready bit (0x80 if ready) */
-	return 0x80;
-}
-
-void qsound_set_command(qsound_state_t *qs, int data, int value)
-{
-	int ch=0,reg=0;
-	if (data < 0x80)
-	{
-		ch=data>>3;
-		reg=data & 0x07;
-	}
-	else
-	{
-		if (data < 0x90)
-		{
-			ch=data-0x80;
-			reg=8;
-		}
-		else
-		{
-			if (data >= 0xba && data < 0xca)
-			{
-				ch=data-0xba;
-				reg=9;
-			}
-			else
-			{
-				/* Unknown registers */
-				ch=99;
-				reg=99;
-			}
-		}
-	}
-
-	switch (reg)
-	{
-		case 0: /* Bank */
-			ch=(ch+1)&0x0f;	/* strange ... */
-			qs->qsound_channel[ch].bank=(value&0x7f)<<16;
-			qs->qsound_channel[ch].bank /= LENGTH_DIV;
-#ifdef MAME_DEBUG
-			if (!value & 0x8000)
-			{
-				char baf[40];
-				sprintf(baf,"Register3=%04x",value);
-				usrintf_showmessage(baf);
-			}
-#endif
-
-			break;
-		case 1: /* start */
-//			printf("QS: key on ch %02d\n", ch);
-			qs->qsound_channel[ch].address=value;
-			qs->qsound_channel[ch].address/=LENGTH_DIV;
-			break;
-		case 2: /* pitch */
-#if QSOUND_DRIVER1
-			qs->qsound_channel[ch].pitch=(long)
-					((float)value * qs->qsound_frq_ratio );
-			qs->qsound_channel[ch].pitch/=LENGTH_DIV;
-#else
-			qs->qsound_channel[ch].factor=((float) (value*(6/LENGTH_DIV)) /
-									  (float) Machine->sample_rate)*256.0;
-
-#endif
-			if (!value)
-			{
-				/* Key off */
-//				printf("QS: key off ch %02d\n", ch);
-				qs->qsound_channel[ch].key=0;
-			}
-			break;
-		case 3: /* unknown */
-			qs->qsound_channel[ch].reg3=value;
-#ifdef MAME_DEBUG
-			if (value != 0x8000)
-			{
-				char baf[40];
-				sprintf(baf,"Register3=%04x",value);
-				usrintf_showmessage(baf);
-			}
-#endif
-			break;
-		case 4: /* loop offset */
-			qs->qsound_channel[ch].loop=value/LENGTH_DIV;
-			break;
-		case 5: /* end */
-			qs->qsound_channel[ch].end=value/LENGTH_DIV;
-			break;
-		case 6: /* master volume */
-			if (value==0)
-			{
-				/* Key off */
-				qs->qsound_channel[ch].key=0;
-			}
-			else if (qs->qsound_channel[ch].key==0)
-			{
-				/* Key on */
-				qs->qsound_channel[ch].key=1;
-#if QSOUND_DRIVER1
-				qs->qsound_channel[ch].offset=0;
-				qs->qsound_channel[ch].lastdt=0;
-#else
-				qs->qsound_channel[ch].cursor=qs->qsound_channel[ch].address <<8 ;
-				qs->qsound_channel[ch].buffer=qsound_sample_rom+
-										 qs->qsound_channel[ch].bank;
-#endif
-			}
-			qs->qsound_channel[ch].vol=value;
-#if QSOUND_DRIVER2
-			calcula_mix(ch);
-#endif
-			break;
-
-		case 7:  /* unused */
-#ifdef MAME_DEBUG
-			{
-				char baf[40];
-				sprintf(baf,"UNUSED QSOUND REG 7=%04x",value);
-				usrintf_showmessage(baf);
-			}
-#endif
-
-			break;
-		case 8:
-			{
-#if QSOUND_DRIVER1
-			   int pandata=(value-0x10)&0x3f;
-			   if (pandata > 32)
-			   {
-					pandata=32;
-			   }
-			   qs->qsound_channel[ch].rvol=qs->qsound_pan_table[pandata];
-			   qs->qsound_channel[ch].lvol=qs->qsound_pan_table[32-pandata];
-#endif
-			   qs->qsound_channel[ch].pan = value;
-#if QSOUND_DRIVER2
-			   calcula_mix(ch);
-#endif
-			}
-			break;
-		 case 9:
-			qs->qsound_channel[ch].reg9=value;
-/*
-#ifdef MAME_DEBUG
-			{
-				char baf[40];
-				sprintf(baf,"QSOUND REG 9=%04x",value);
-				usrintf_showmessage(baf);
-			}
-#endif
-*/
-			break;
-	}
-#if LOG_QSOUND
-	logerror("QSOUND WRITE %02x CH%02d-R%02d =%04x\n", data, ch, reg, value);
-#endif
-}
-
-#if QSOUND_DRIVER1
-
-/* Driver 1 - based on the Amuse source */
-
-void qsound_update(qsound_state_t *qs, int num, INT16 **buffer, int length )
-{
-	int i,j;
-	int rvol, lvol, count;
-	struct QSOUND_CHANNEL *pC=&qs->qsound_channel[0];
-	QSOUND_SRC_SAMPLE * pST;
-	QSOUND_SAMPLE  *datap[2];
-
-	datap[0] = buffer[0];
-	datap[1] = buffer[1];
-	memset( datap[0], 0x00, length * sizeof(QSOUND_SAMPLE) );
-	memset( datap[1], 0x00, length * sizeof(QSOUND_SAMPLE) );
-
-
-	for (i=0; i<QSOUND_CHANNELS; i++)
-	{
-		if (pC->key)
-		{
-			QSOUND_SAMPLE *pOutL=datap[0];
-			QSOUND_SAMPLE *pOutR=datap[1];
-			pST=qs->qsound_sample_rom+pC->bank;
-
-			rvol=(pC->rvol*pC->vol)>>(8*LENGTH_DIV);
-			lvol=(pC->lvol*pC->vol)>>(8*LENGTH_DIV);
-
-			for (j=length-1; j>=0; j--)
-			{
-				count=(pC->offset)>>16;
-				pC->offset &= 0xffff;
-				if (count)
-				{
-					pC->address += count;
-					if (pC->address >= pC->end)
-					{
-						if (!pC->loop)
-						{
-							/* Reached the end of a non-looped sample */
-							pC->key=0;
-							break;
-						}
-						/* Reached the end, restart the loop */
-						pC->address = (pC->end - pC->loop) & 0xffff;
-					}
-					pC->lastdt = pST[pC->address];
-				}
-
-				(*pOutL) += ((pC->lastdt * lvol) >> 6);
-				(*pOutR) += ((pC->lastdt * rvol) >> 6);
-				pOutL++;
-				pOutR++;
-				pC->offset += pC->pitch;
-			}
-		}
-		pC++;
-	}
-
-#if LOG_WAVE
-	fwrite(datap[0], length*sizeof(QSOUND_SAMPLE), 1, fpRawDataL);
-	fwrite(datap[1], length*sizeof(QSOUND_SAMPLE), 1, fpRawDataR);
-#endif
-}
-
-#else
-
-/* ----------------------------------------------------------------
-		QSound Sample Mixer (Slow)
-		Miguel Angel Horna mahorna@teleline.es
-
- ------------------------------------------------------------------ */
-
-
-void calcula_mix(int channel)
-{
-	int factl,factr;
-	struct qs->qsound_channel *pC=&qs->qsound_channel[channel];
-	int vol=pC->vol>>5;
-	int pan=((pC->pan&0xFF)-0x10)<<3;
-	pC->mixl=vol;
-	pC->mixr=vol;
-	factr=pan;
-	factl=255-factr;
-	pC->mixl=(pC->mixl * factl)>>8;
-	pC->mixr=(pC->mixr * factr)>>8;
-#if QSOUND_8BIT_SAMPLES
-	pC->mixl<<=8;
-	pC->mixr<<=8;
-#endif
-}
-
-void qsound_update(int num,void **buffer,int length)
-{
-	int i,j;
-	QSOUND_SAMPLE *bufL,*bufR, sample;
-	struct qs->qsound_channel *pC=qs->qsound_channel;
-
-	memset( buffer[0], 0x00, length * sizeof(QSOUND_SAMPLE) );
-	memset( buffer[1], 0x00, length * sizeof(QSOUND_SAMPLE) );
-
-	for(j=0;j<qs->qsound_channelS;++j)
-	{
-		  bufL=(QSOUND_SAMPLE *) buffer[0];
-		  bufR=(QSOUND_SAMPLE *) buffer[1];
-		  if(pC->key)
-		  {
-				for(i=0;i<length;++i)
-				{
-						   int pos=pC->cursor>>8;
-						   if(pos!=pC->lpos)	/*next sample*/
-						   {
-								sample=pC->buffer[pos];
-								pC->lastsaml=(sample*pC->mixl)>>8;
-								pC->lastsamr=(sample*pC->mixr)>>8;
-								pC->lpos=pos;
-						   }
-						   (*bufL++)+=pC->lastsaml;
-						   (*bufR++)+=pC->lastsamr;
-						   pC->cursor+=pC->factor;
-						   if(pC->loop && (pC->cursor>>8) > pC->end)
-						   {
-								 pC->cursor=(pC->end-pC->loop)<<8;
-						   }
-						   else if((pC->cursor>>8) > pC->end)
-								   pC->key=0;
-				 }
-		  }
-		  pC++;
-	 }
-}
-#endif
-
-
-/**************** end of file ****************/
diff --git a/plugins/ao/eng_qsf/qsound.h b/plugins/ao/eng_qsf/qsound.h
deleted file mode 100644
index 3d4538a6..00000000
--- a/plugins/ao/eng_qsf/qsound.h
+++ /dev/null
@@ -1,117 +0,0 @@
-/*********************************************************
-
-    Capcom Q-Sound system
-
-*********************************************************/
-
-#ifndef __QSOUND_H__
-#define __QSOUND_H__
-
-#define QSOUND_CLOCK    4000000   /* default 4MHz clock */
-
-struct QSound_interface 
-{
-	int clock;			/* clock */
-	char *sample_rom;		/* sample data */
-};
-
-
-/*
-Two Q sound drivers:
-DRIVER1 Based on the Amuse source
-DRIVER2 Miguel Angel Horna (mahorna@teleline.es)
-*/
-#define QSOUND_DRIVER1	  1
-/*
-I don't know whether this system uses 8 bit or 16 bit samples.
-If it uses 16 bit samples then the sample ROM loading macros need
-to be modified to work with non-intel machines.
-*/
-#define QSOUND_8BIT_SAMPLES 1
-
-/*
-Debug defines
-*/
-#define LOG_WAVE	0
-#define LOG_QSOUND  0
-
-/* Typedefs & defines */
-
-#define QSOUND_DRIVER2 !QSOUND_DRIVER1
-
-#if QSOUND_8BIT_SAMPLES
-/* 8 bit source ROM samples */
-typedef signed char QSOUND_SRC_SAMPLE;
-#define LENGTH_DIV 1
-#else
-/* 8 bit source ROM samples */
-typedef signed short QSOUND_SRC_SAMPLE;
-#define LENGTH_DIV 2
-#endif
-
-#define QSOUND_CLOCKDIV 166			 /* Clock divider */
-#define QSOUND_CHANNELS 16
-typedef INT16 QSOUND_SAMPLE;
-
-struct QSOUND_CHANNEL
-{
-	int bank;	   /* bank (x16)	*/
-	int address;	/* start address */
-	int pitch;	  /* pitch */
-	int reg3;	   /* unknown (always 0x8000) */
-	int loop;	   /* loop address */
-	int end;		/* end address */
-	int vol;		/* master volume */
-	int pan;		/* Pan value */
-	int reg9;	   /* unknown */
-
-	/* Work variables */
-	int key;		/* Key on / key off */
-
-#if QSOUND_DRIVER1
-	int lvol;	   /* left volume */
-	int rvol;	   /* right volume */
-	int lastdt;	 /* last sample value */
-	int offset;	 /* current offset counter */
-#else
-	QSOUND_SRC_SAMPLE *buffer;
-	int factor;		   /*step factor (fixed point 8-bit)*/
-	int mixl,mixr;		/*mixing factor (fixed point)*/
-	int cursor;		   /*current sample position (fixed point)*/
-	int lpos;			 /*last cursor pos*/
-	int lastsaml;		 /*last left sample (to avoid any calculation)*/
-	int lastsamr;		 /*last right sample*/
-#endif
-};
-
-
-typedef struct {
-    /* Private variables */
-    struct QSound_interface intf;	/* Interface  */
-    int qsound_stream;				/* Audio stream */
-    struct QSOUND_CHANNEL qsound_channel[QSOUND_CHANNELS];
-    int qsound_data;				  /* register latch data */
-    QSOUND_SRC_SAMPLE *qsound_sample_rom;	/* Q sound sample ROM */
-
-#if QSOUND_DRIVER1
-    int qsound_pan_table[33];		 /* Pan volume table */
-    float qsound_frq_ratio;		   /* Frequency ratio */
-#endif
-
-#if LOG_WAVE
-    FILE *fpRawDataL;
-    FILE *fpRawDataR;
-#endif
-} qsound_state_t;
-
-qsound_state_t *qsound_sh_start(struct QSound_interface *qsintf);
-void qsound_sh_stop(qsound_state_t *qs);
-
-void qsound_data_h_w(qsound_state_t *qs, int data);
-void qsound_data_l_w(qsound_state_t *qs, int data);
-void qsound_cmd_w(qsound_state_t *qs, int data);
-int qsound_status_r(qsound_state_t *qs);
-void qsound_update(qsound_state_t *qs, int num, INT16 **buffer, int length);
-void qsound_set_command(qsound_state_t *qs, int data, int value);
-
-#endif /* __QSOUND_H__ */
diff --git a/plugins/ao/eng_qsf/z80.c b/plugins/ao/eng_qsf/z80.c
deleted file mode 100644
index 91e873a3..00000000
--- a/plugins/ao/eng_qsf/z80.c
+++ /dev/null
@@ -1,4425 +0,0 @@
-/*****************************************************************************
- *
- *	 z80.c
- *	 Portable Z80 emulator V3.5
- *
- *	 Copyright (C) 1998,1999,2000 Juergen Buchmueller, all rights reserved.
- *
- *	 - This source code is released as freeware for non-commercial purposes.
- *	 - You are free to use and redistribute this code in modified or
- *	   unmodified form, provided you list me in the credits.
- *	 - If you modify this source code, you must add a notice to each modified
- *	   source file that it has been changed.  If you're a nice person, you
- *	   will clearly mark each change too.  :)
- *	 - If you wish to use this for commercial purposes, please contact me at
- *	   pullmoll@t-online.de
- *	 - The author of this copywritten work reserves the right to change the
- *	   terms of its usage and license at any time, including retroactively
- *	 - This entire notice must remain in the source code.
- *
- *	 Changes in 3.5
- *	 - Implemented OTIR, INIR, etc. without look-up table for PF flag.
- *	   [Ramsoft, Sean Young]
- *	 Changes in 3.4
- *	 - Removed Z80-MSX specific code as it's not needed any more.
- *	 - Implemented DAA without look-up table [Ramsoft, Sean Young]
- *	 Changes in 3.3
- *	 - Fixed undocumented flags XF & YF in the non-asm versions of CP,
- *	   and all the 16 bit arithmetic instructions. [Sean Young]
- *	 Changes in 3.2
- *	 - Fixed undocumented flags XF & YF of RRCA, and CF and HF of
- *	   INI/IND/OUTI/OUTD/INIR/INDR/OTIR/OTDR [Sean Young]
- *	 Changes in 3.1
- *	 - removed the REPEAT_AT_ONCE execution of LDIR/CPIR etc. opcodes
- *	   for readabilities sake and because the implementation was buggy
- *	   (and I was not able to find the difference)
- *	 Changes in 3.0
- *	 - 'finished' switch to dynamically overrideable cycle count tables
- *	 Changes in 2.9:
- *	 - added methods to access and override the cycle count tables
- *	 - fixed handling and timing of multiple DD/FD prefixed opcodes
- *	 Changes in 2.8:
- *	 - OUTI/OUTD/OTIR/OTDR also pre-decrement the B register now.
- *	   This was wrong because of a bug fix on the wrong side
- *	   (astrocade sound driver).
- *	 Changes in 2.7:
- *	  - removed z80_vm specific code, it's not needed (and never was).
- *	 Changes in 2.6:
- *	  - BUSY_LOOP_HACKS needed to call change_pc16() earlier, before
- *		checking the opcodes at the new address, because otherwise they
- *		might access the old (wrong or even NULL) banked memory region.
- *		Thanks to Sean Young for finding this nasty bug.
- *	 Changes in 2.5:
- *	  - Burning cycles always adjusts the ICount by a multiple of 4.
- *	  - In REPEAT_AT_ONCE cases the R register wasn't incremented twice
- *		per repetition as it should have been. Those repeated opcodes
- *		could also underflow the ICount.
- *	  - Simplified TIME_LOOP_HACKS for BC and added two more for DE + HL
- *		timing loops. I think those hacks weren't endian safe before too.
- *	 Changes in 2.4:
- *	  - z80_reset zaps the entire context, sets IX and IY to 0xffff(!) and
- *		sets the Z flag. With these changes the Tehkan World Cup driver
- *		_seems_ to work again.
- *	 Changes in 2.3:
- *	  - External termination of the execution loop calls z80_burn() and
- *		z80_vm_burn() to burn an amount of cycles (R adjustment)
- *	  - Shortcuts which burn CPU cycles (BUSY_LOOP_HACKS and TIME_LOOP_HACKS)
- *		now also adjust the R register depending on the skipped opcodes.
- *	 Changes in 2.2:
- *	  - Fixed bugs in CPL, SCF and CCF instructions flag handling.
- *	  - Changed variable EA and ARG16() function to UINT32; this
- *		produces slightly more efficient code.
- *	  - The DD/FD XY CB opcodes where XY is 40-7F and Y is not 6/E
- *		are changed to calls to the X6/XE opcodes to reduce object size.
- *		They're hardly ever used so this should not yield a speed penalty.
- *	 New in 2.0:
- *	  - Optional more exact Z80 emulation (#define Z80_EXACT 1) according
- *		to a detailed description by Sean Young which can be found at:
- *		http://www.msxnet.org/tech/z80-documented.pdf
- *****************************************************************************/
-
-#include "ao.h"
-
-#include "cpuintrf.h"
-#include "z80.h"
-
-#include "mem.h"
-
-static UINT8 z80_reg_layout[] = {
-	Z80_PC, Z80_SP, Z80_AF, Z80_BC, Z80_DE, Z80_HL, -1,
-	Z80_IX, Z80_IY, Z80_AF2,Z80_BC2,Z80_DE2,Z80_HL2,-1,
-	Z80_R,	Z80_I,	Z80_IM, Z80_IFF1,Z80_IFF2, -1,
-	Z80_NMI_STATE,Z80_IRQ_STATE,Z80_DC0,Z80_DC1,Z80_DC2,Z80_DC3, 0
-};
-
-static UINT8 z80_win_layout[] = {
-	27, 0,53, 4,	/* register window (top rows) */
-	 0, 0,26,22,	/* disassembler window (left colums) */
-	27, 5,53, 8,	/* memory #1 window (right, upper middle) */
-	27,14,53, 8,	/* memory #2 window (right, lower middle) */
-	 0,23,80, 1,	/* command line window (bottom rows) */
-};
-
-#define CF	0x01
-#define NF	0x02
-#define PF	0x04
-#define VF	PF
-#define XF	0x08
-#define HF	0x10
-#define YF	0x20
-#define ZF	0x40
-#define SF	0x80
-
-#define INT_IRQ 0x01
-#define NMI_IRQ 0x02
-
-#define _PPC	z80->Z80.PREPC.d		/* previous program counter */
-
-#define _PCD	z80->Z80.PC.d
-#define _PC		z80->Z80.PC.w.l
-
-#define _SPD	z80->Z80.SP.d
-#define _SP		z80->Z80.SP.w.l
-
-#define _AFD	z80->Z80.AF.d
-#define _AF		z80->Z80.AF.w.l
-#define _Z80_A		z80->Z80.AF.b.h
-#define _F		z80->Z80.AF.b.l
-
-#define _BCD	z80->Z80.BC.d
-#define _BC		z80->Z80.BC.w.l
-#define _Z80_B		z80->Z80.BC.b.h
-#define _Z80_C		z80->Z80.BC.b.l
-
-#define _DED	z80->Z80.DE.d
-#define _DE		z80->Z80.DE.w.l
-#define _Z80_D		z80->Z80.DE.b.h
-#define _Z80_E		z80->Z80.DE.b.l
-
-#define _HLD	z80->Z80.HL.d
-#define _HL		z80->Z80.HL.w.l
-#define _Z80_H		z80->Z80.HL.b.h
-#define _Z80_L		z80->Z80.HL.b.l
-
-#define _IXD	z80->Z80.IX.d
-#define _IX		z80->Z80.IX.w.l
-#define _HX		z80->Z80.IX.b.h
-#define _LX		z80->Z80.IX.b.l
-
-#define _IYD	z80->Z80.IY.d
-#define _IY		z80->Z80.IY.w.l
-#define _HY		z80->Z80.IY.b.h
-#define _LY		z80->Z80.IY.b.l
-
-#define _Z80_I		z80->Z80.I
-#define _Z80_R		z80->Z80.R
-#define _R2		z80->Z80.R2
-#define _IM		z80->Z80.IM
-#define _IFF1	z80->Z80.IFF1
-#define _IFF2	z80->Z80.IFF2
-#define _HALT	z80->Z80.HALT
-
-static const UINT8 cc_op[0x100] = {
- 4,10, 7, 6, 4, 4, 7, 4, 4,11, 7, 6, 4, 4, 7, 4,
- 8,10, 7, 6, 4, 4, 7, 4,12,11, 7, 6, 4, 4, 7, 4,
- 7,10,16, 6, 4, 4, 7, 4, 7,11,16, 6, 4, 4, 7, 4,
- 7,10,13, 6,11,11,10, 4, 7,11,13, 6, 4, 4, 7, 4,
- 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4,
- 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4,
- 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4,
- 7, 7, 7, 7, 7, 7, 4, 7, 4, 4, 4, 4, 4, 4, 7, 4,
- 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4,
- 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4,
- 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4,
- 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4,
- 5,10,10,10,10,11, 7,11, 5,10,10, 0,10,17, 7,11,
- 5,10,10,11,10,11, 7,11, 5, 4,10,11,10, 0, 7,11,
- 5,10,10,19,10,11, 7,11, 5, 4,10, 4,10, 0, 7,11,
- 5,10,10, 4,10,11, 7,11, 5, 6,10, 4,10, 0, 7,11};
-
-static const UINT8 cc_cb[0x100] = {
- 8, 8, 8, 8, 8, 8,15, 8, 8, 8, 8, 8, 8, 8,15, 8,
- 8, 8, 8, 8, 8, 8,15, 8, 8, 8, 8, 8, 8, 8,15, 8,
- 8, 8, 8, 8, 8, 8,15, 8, 8, 8, 8, 8, 8, 8,15, 8,
- 8, 8, 8, 8, 8, 8,15, 8, 8, 8, 8, 8, 8, 8,15, 8,
- 8, 8, 8, 8, 8, 8,12, 8, 8, 8, 8, 8, 8, 8,12, 8,
- 8, 8, 8, 8, 8, 8,12, 8, 8, 8, 8, 8, 8, 8,12, 8,
- 8, 8, 8, 8, 8, 8,12, 8, 8, 8, 8, 8, 8, 8,12, 8,
- 8, 8, 8, 8, 8, 8,12, 8, 8, 8, 8, 8, 8, 8,12, 8,
- 8, 8, 8, 8, 8, 8,15, 8, 8, 8, 8, 8, 8, 8,15, 8,
- 8, 8, 8, 8, 8, 8,15, 8, 8, 8, 8, 8, 8, 8,15, 8,
- 8, 8, 8, 8, 8, 8,15, 8, 8, 8, 8, 8, 8, 8,15, 8,
- 8, 8, 8, 8, 8, 8,15, 8, 8, 8, 8, 8, 8, 8,15, 8,
- 8, 8, 8, 8, 8, 8,15, 8, 8, 8, 8, 8, 8, 8,15, 8,
- 8, 8, 8, 8, 8, 8,15, 8, 8, 8, 8, 8, 8, 8,15, 8,
- 8, 8, 8, 8, 8, 8,15, 8, 8, 8, 8, 8, 8, 8,15, 8,
- 8, 8, 8, 8, 8, 8,15, 8, 8, 8, 8, 8, 8, 8,15, 8};
-
-static const UINT8 cc_ed[0x100] = {
- 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8,
- 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8,
- 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8,
- 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8,
-12,12,15,20, 8, 8, 8, 9,12,12,15,20, 8, 8, 8, 9,
-12,12,15,20, 8, 8, 8, 9,12,12,15,20, 8, 8, 8, 9,
-12,12,15,20, 8, 8, 8,18,12,12,15,20, 8, 8, 8,18,
-12,12,15,20, 8, 8, 8, 8,12,12,15,20, 8, 8, 8, 8,
- 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8,
- 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8,
-16,16,16,16, 8, 8, 8, 8,16,16,16,16, 8, 8, 8, 8,
-16,16,16,16, 8, 8, 8, 8,16,16,16,16, 8, 8, 8, 8,
- 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8,
- 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8,
- 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8,
- 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8};
-
-static const UINT8 cc_xy[0x100] = {
- 4, 4, 4, 4, 4, 4, 4, 4, 4,15, 4, 4, 4, 4, 4, 4,
- 4, 4, 4, 4, 4, 4, 4, 4, 4,15, 4, 4, 4, 4, 4, 4,
- 4,14,20,10, 9, 9, 9, 4, 4,15,20,10, 9, 9, 9, 4,
- 4, 4, 4, 4,23,23,19, 4, 4,15, 4, 4, 4, 4, 4, 4,
- 4, 4, 4, 4, 9, 9,19, 4, 4, 4, 4, 4, 9, 9,19, 4,
- 4, 4, 4, 4, 9, 9,19, 4, 4, 4, 4, 4, 9, 9,19, 4,
- 9, 9, 9, 9, 9, 9,19, 9, 9, 9, 9, 9, 9, 9,19, 9,
-19,19,19,19,19,19, 4,19, 4, 4, 4, 4, 9, 9,19, 4,
- 4, 4, 4, 4, 9, 9,19, 4, 4, 4, 4, 4, 9, 9,19, 4,
- 4, 4, 4, 4, 9, 9,19, 4, 4, 4, 4, 4, 9, 9,19, 4,
- 4, 4, 4, 4, 9, 9,19, 4, 4, 4, 4, 4, 9, 9,19, 4,
- 4, 4, 4, 4, 9, 9,19, 4, 4, 4, 4, 4, 9, 9,19, 4,
- 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 0, 4, 4, 4, 4,
- 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4,
- 4,14, 4,23, 4,15, 4, 4, 4, 8, 4, 4, 4, 4, 4, 4,
- 4, 4, 4, 4, 4, 4, 4, 4, 4,10, 4, 4, 4, 4, 4, 4};
-
-static const UINT8 cc_xycb[0x100] = {
-23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,
-23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,
-23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,
-23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,
-20,20,20,20,20,20,20,20,20,20,20,20,20,20,20,20,
-20,20,20,20,20,20,20,20,20,20,20,20,20,20,20,20,
-20,20,20,20,20,20,20,20,20,20,20,20,20,20,20,20,
-20,20,20,20,20,20,20,20,20,20,20,20,20,20,20,20,
-23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,
-23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,
-23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,
-23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,
-23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,
-23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,
-23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,
-23,23,23,23,23,23,23,23,23,23,23,23,23,23,23,23};
-
-/* extra cycles if jr/jp/call taken and 'interrupt latency' on rst 0-7 */
-static const UINT8 cc_ex[0x100] = {
- 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
- 5, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,	/* DJNZ */
- 5, 0, 0, 0, 0, 0, 0, 0, 5, 0, 0, 0, 0, 0, 0, 0,	/* JR NZ/JR Z */
- 5, 0, 0, 0, 0, 0, 0, 0, 5, 0, 0, 0, 0, 0, 0, 0,	/* JR NC/JR C */
- 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
- 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
- 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
- 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
- 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
- 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
- 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
- 5, 5, 5, 5, 0, 0, 0, 0, 5, 5, 5, 5, 0, 0, 0, 0,	/* LDIR/CPIR/INIR/OTIR LDDR/CPDR/INDR/OTDR */
- 6, 0, 0, 0, 7, 0, 0, 2, 6, 0, 0, 0, 7, 0, 0, 2,
- 6, 0, 0, 0, 7, 0, 0, 2, 6, 0, 0, 0, 7, 0, 0, 2,
- 6, 0, 0, 0, 7, 0, 0, 2, 6, 0, 0, 0, 7, 0, 0, 2,
- 6, 0, 0, 0, 7, 0, 0, 2, 6, 0, 0, 0, 7, 0, 0, 2};
-
-static const UINT8 *cc[6] = { cc_op, cc_cb, cc_ed, cc_xy, cc_xycb, cc_ex };
-#define Z80_TABLE_dd	Z80_TABLE_xy
-#define Z80_TABLE_fd	Z80_TABLE_xy
-
-static void take_interrupt(z80_state_t *z80);
-
-typedef void (*funcptr)(z80_state_t *z80);
-
-#define PROTOTYPES(tablename,prefix) \
-	static INLINE void prefix##_00(z80_state_t *z80); static INLINE void prefix##_01(z80_state_t *z80); static INLINE void prefix##_02(z80_state_t *z80); static INLINE void prefix##_03(z80_state_t *z80); \
-	static INLINE void prefix##_04(z80_state_t *z80); static INLINE void prefix##_05(z80_state_t *z80); static INLINE void prefix##_06(z80_state_t *z80); static INLINE void prefix##_07(z80_state_t *z80); \
-	static INLINE void prefix##_08(z80_state_t *z80); static INLINE void prefix##_09(z80_state_t *z80); static INLINE void prefix##_0a(z80_state_t *z80); static INLINE void prefix##_0b(z80_state_t *z80); \
-	static INLINE void prefix##_0c(z80_state_t *z80); static INLINE void prefix##_0d(z80_state_t *z80); static INLINE void prefix##_0e(z80_state_t *z80); static INLINE void prefix##_0f(z80_state_t *z80); \
-	static INLINE void prefix##_10(z80_state_t *z80); static INLINE void prefix##_11(z80_state_t *z80); static INLINE void prefix##_12(z80_state_t *z80); static INLINE void prefix##_13(z80_state_t *z80); \
-	static INLINE void prefix##_14(z80_state_t *z80); static INLINE void prefix##_15(z80_state_t *z80); static INLINE void prefix##_16(z80_state_t *z80); static INLINE void prefix##_17(z80_state_t *z80); \
-	static INLINE void prefix##_18(z80_state_t *z80); static INLINE void prefix##_19(z80_state_t *z80); static INLINE void prefix##_1a(z80_state_t *z80); static INLINE void prefix##_1b(z80_state_t *z80); \
-	static INLINE void prefix##_1c(z80_state_t *z80); static INLINE void prefix##_1d(z80_state_t *z80); static INLINE void prefix##_1e(z80_state_t *z80); static INLINE void prefix##_1f(z80_state_t *z80); \
-	static INLINE void prefix##_20(z80_state_t *z80); static INLINE void prefix##_21(z80_state_t *z80); static INLINE void prefix##_22(z80_state_t *z80); static INLINE void prefix##_23(z80_state_t *z80); \
-	static INLINE void prefix##_24(z80_state_t *z80); static INLINE void prefix##_25(z80_state_t *z80); static INLINE void prefix##_26(z80_state_t *z80); static INLINE void prefix##_27(z80_state_t *z80); \
-	static INLINE void prefix##_28(z80_state_t *z80); static INLINE void prefix##_29(z80_state_t *z80); static INLINE void prefix##_2a(z80_state_t *z80); static INLINE void prefix##_2b(z80_state_t *z80); \
-	static INLINE void prefix##_2c(z80_state_t *z80); static INLINE void prefix##_2d(z80_state_t *z80); static INLINE void prefix##_2e(z80_state_t *z80); static INLINE void prefix##_2f(z80_state_t *z80); \
-	static INLINE void prefix##_30(z80_state_t *z80); static INLINE void prefix##_31(z80_state_t *z80); static INLINE void prefix##_32(z80_state_t *z80); static INLINE void prefix##_33(z80_state_t *z80); \
-	static INLINE void prefix##_34(z80_state_t *z80); static INLINE void prefix##_35(z80_state_t *z80); static INLINE void prefix##_36(z80_state_t *z80); static INLINE void prefix##_37(z80_state_t *z80); \
-	static INLINE void prefix##_38(z80_state_t *z80); static INLINE void prefix##_39(z80_state_t *z80); static INLINE void prefix##_3a(z80_state_t *z80); static INLINE void prefix##_3b(z80_state_t *z80); \
-	static INLINE void prefix##_3c(z80_state_t *z80); static INLINE void prefix##_3d(z80_state_t *z80); static INLINE void prefix##_3e(z80_state_t *z80); static INLINE void prefix##_3f(z80_state_t *z80); \
-	static INLINE void prefix##_40(z80_state_t *z80); static INLINE void prefix##_41(z80_state_t *z80); static INLINE void prefix##_42(z80_state_t *z80); static INLINE void prefix##_43(z80_state_t *z80); \
-	static INLINE void prefix##_44(z80_state_t *z80); static INLINE void prefix##_45(z80_state_t *z80); static INLINE void prefix##_46(z80_state_t *z80); static INLINE void prefix##_47(z80_state_t *z80); \
-	static INLINE void prefix##_48(z80_state_t *z80); static INLINE void prefix##_49(z80_state_t *z80); static INLINE void prefix##_4a(z80_state_t *z80); static INLINE void prefix##_4b(z80_state_t *z80); \
-	static INLINE void prefix##_4c(z80_state_t *z80); static INLINE void prefix##_4d(z80_state_t *z80); static INLINE void prefix##_4e(z80_state_t *z80); static INLINE void prefix##_4f(z80_state_t *z80); \
-	static INLINE void prefix##_50(z80_state_t *z80); static INLINE void prefix##_51(z80_state_t *z80); static INLINE void prefix##_52(z80_state_t *z80); static INLINE void prefix##_53(z80_state_t *z80); \
-	static INLINE void prefix##_54(z80_state_t *z80); static INLINE void prefix##_55(z80_state_t *z80); static INLINE void prefix##_56(z80_state_t *z80); static INLINE void prefix##_57(z80_state_t *z80); \
-	static INLINE void prefix##_58(z80_state_t *z80); static INLINE void prefix##_59(z80_state_t *z80); static INLINE void prefix##_5a(z80_state_t *z80); static INLINE void prefix##_5b(z80_state_t *z80); \
-	static INLINE void prefix##_5c(z80_state_t *z80); static INLINE void prefix##_5d(z80_state_t *z80); static INLINE void prefix##_5e(z80_state_t *z80); static INLINE void prefix##_5f(z80_state_t *z80); \
-	static INLINE void prefix##_60(z80_state_t *z80); static INLINE void prefix##_61(z80_state_t *z80); static INLINE void prefix##_62(z80_state_t *z80); static INLINE void prefix##_63(z80_state_t *z80); \
-	static INLINE void prefix##_64(z80_state_t *z80); static INLINE void prefix##_65(z80_state_t *z80); static INLINE void prefix##_66(z80_state_t *z80); static INLINE void prefix##_67(z80_state_t *z80); \
-	static INLINE void prefix##_68(z80_state_t *z80); static INLINE void prefix##_69(z80_state_t *z80); static INLINE void prefix##_6a(z80_state_t *z80); static INLINE void prefix##_6b(z80_state_t *z80); \
-	static INLINE void prefix##_6c(z80_state_t *z80); static INLINE void prefix##_6d(z80_state_t *z80); static INLINE void prefix##_6e(z80_state_t *z80); static INLINE void prefix##_6f(z80_state_t *z80); \
-	static INLINE void prefix##_70(z80_state_t *z80); static INLINE void prefix##_71(z80_state_t *z80); static INLINE void prefix##_72(z80_state_t *z80); static INLINE void prefix##_73(z80_state_t *z80); \
-	static INLINE void prefix##_74(z80_state_t *z80); static INLINE void prefix##_75(z80_state_t *z80); static INLINE void prefix##_76(z80_state_t *z80); static INLINE void prefix##_77(z80_state_t *z80); \
-	static INLINE void prefix##_78(z80_state_t *z80); static INLINE void prefix##_79(z80_state_t *z80); static INLINE void prefix##_7a(z80_state_t *z80); static INLINE void prefix##_7b(z80_state_t *z80); \
-	static INLINE void prefix##_7c(z80_state_t *z80); static INLINE void prefix##_7d(z80_state_t *z80); static INLINE void prefix##_7e(z80_state_t *z80); static INLINE void prefix##_7f(z80_state_t *z80); \
-	static INLINE void prefix##_80(z80_state_t *z80); static INLINE void prefix##_81(z80_state_t *z80); static INLINE void prefix##_82(z80_state_t *z80); static INLINE void prefix##_83(z80_state_t *z80); \
-	static INLINE void prefix##_84(z80_state_t *z80); static INLINE void prefix##_85(z80_state_t *z80); static INLINE void prefix##_86(z80_state_t *z80); static INLINE void prefix##_87(z80_state_t *z80); \
-	static INLINE void prefix##_88(z80_state_t *z80); static INLINE void prefix##_89(z80_state_t *z80); static INLINE void prefix##_8a(z80_state_t *z80); static INLINE void prefix##_8b(z80_state_t *z80); \
-	static INLINE void prefix##_8c(z80_state_t *z80); static INLINE void prefix##_8d(z80_state_t *z80); static INLINE void prefix##_8e(z80_state_t *z80); static INLINE void prefix##_8f(z80_state_t *z80); \
-	static INLINE void prefix##_90(z80_state_t *z80); static INLINE void prefix##_91(z80_state_t *z80); static INLINE void prefix##_92(z80_state_t *z80); static INLINE void prefix##_93(z80_state_t *z80); \
-	static INLINE void prefix##_94(z80_state_t *z80); static INLINE void prefix##_95(z80_state_t *z80); static INLINE void prefix##_96(z80_state_t *z80); static INLINE void prefix##_97(z80_state_t *z80); \
-	static INLINE void prefix##_98(z80_state_t *z80); static INLINE void prefix##_99(z80_state_t *z80); static INLINE void prefix##_9a(z80_state_t *z80); static INLINE void prefix##_9b(z80_state_t *z80); \
-	static INLINE void prefix##_9c(z80_state_t *z80); static INLINE void prefix##_9d(z80_state_t *z80); static INLINE void prefix##_9e(z80_state_t *z80); static INLINE void prefix##_9f(z80_state_t *z80); \
-	static INLINE void prefix##_a0(z80_state_t *z80); static INLINE void prefix##_a1(z80_state_t *z80); static INLINE void prefix##_a2(z80_state_t *z80); static INLINE void prefix##_a3(z80_state_t *z80); \
-	static INLINE void prefix##_a4(z80_state_t *z80); static INLINE void prefix##_a5(z80_state_t *z80); static INLINE void prefix##_a6(z80_state_t *z80); static INLINE void prefix##_a7(z80_state_t *z80); \
-	static INLINE void prefix##_a8(z80_state_t *z80); static INLINE void prefix##_a9(z80_state_t *z80); static INLINE void prefix##_aa(z80_state_t *z80); static INLINE void prefix##_ab(z80_state_t *z80); \
-	static INLINE void prefix##_ac(z80_state_t *z80); static INLINE void prefix##_ad(z80_state_t *z80); static INLINE void prefix##_ae(z80_state_t *z80); static INLINE void prefix##_af(z80_state_t *z80); \
-	static INLINE void prefix##_b0(z80_state_t *z80); static INLINE void prefix##_b1(z80_state_t *z80); static INLINE void prefix##_b2(z80_state_t *z80); static INLINE void prefix##_b3(z80_state_t *z80); \
-	static INLINE void prefix##_b4(z80_state_t *z80); static INLINE void prefix##_b5(z80_state_t *z80); static INLINE void prefix##_b6(z80_state_t *z80); static INLINE void prefix##_b7(z80_state_t *z80); \
-	static INLINE void prefix##_b8(z80_state_t *z80); static INLINE void prefix##_b9(z80_state_t *z80); static INLINE void prefix##_ba(z80_state_t *z80); static INLINE void prefix##_bb(z80_state_t *z80); \
-	static INLINE void prefix##_bc(z80_state_t *z80); static INLINE void prefix##_bd(z80_state_t *z80); static INLINE void prefix##_be(z80_state_t *z80); static INLINE void prefix##_bf(z80_state_t *z80); \
-	static INLINE void prefix##_c0(z80_state_t *z80); static INLINE void prefix##_c1(z80_state_t *z80); static INLINE void prefix##_c2(z80_state_t *z80); static INLINE void prefix##_c3(z80_state_t *z80); \
-	static INLINE void prefix##_c4(z80_state_t *z80); static INLINE void prefix##_c5(z80_state_t *z80); static INLINE void prefix##_c6(z80_state_t *z80); static INLINE void prefix##_c7(z80_state_t *z80); \
-	static INLINE void prefix##_c8(z80_state_t *z80); static INLINE void prefix##_c9(z80_state_t *z80); static INLINE void prefix##_ca(z80_state_t *z80); static INLINE void prefix##_cb(z80_state_t *z80); \
-	static INLINE void prefix##_cc(z80_state_t *z80); static INLINE void prefix##_cd(z80_state_t *z80); static INLINE void prefix##_ce(z80_state_t *z80); static INLINE void prefix##_cf(z80_state_t *z80); \
-	static INLINE void prefix##_d0(z80_state_t *z80); static INLINE void prefix##_d1(z80_state_t *z80); static INLINE void prefix##_d2(z80_state_t *z80); static INLINE void prefix##_d3(z80_state_t *z80); \
-	static INLINE void prefix##_d4(z80_state_t *z80); static INLINE void prefix##_d5(z80_state_t *z80); static INLINE void prefix##_d6(z80_state_t *z80); static INLINE void prefix##_d7(z80_state_t *z80); \
-	static INLINE void prefix##_d8(z80_state_t *z80); static INLINE void prefix##_d9(z80_state_t *z80); static INLINE void prefix##_da(z80_state_t *z80); static INLINE void prefix##_db(z80_state_t *z80); \
-	static INLINE void prefix##_dc(z80_state_t *z80); static INLINE void prefix##_dd(z80_state_t *z80); static INLINE void prefix##_de(z80_state_t *z80); static INLINE void prefix##_df(z80_state_t *z80); \
-	static INLINE void prefix##_e0(z80_state_t *z80); static INLINE void prefix##_e1(z80_state_t *z80); static INLINE void prefix##_e2(z80_state_t *z80); static INLINE void prefix##_e3(z80_state_t *z80); \
-	static INLINE void prefix##_e4(z80_state_t *z80); static INLINE void prefix##_e5(z80_state_t *z80); static INLINE void prefix##_e6(z80_state_t *z80); static INLINE void prefix##_e7(z80_state_t *z80); \
-	static INLINE void prefix##_e8(z80_state_t *z80); static INLINE void prefix##_e9(z80_state_t *z80); static INLINE void prefix##_ea(z80_state_t *z80); static INLINE void prefix##_eb(z80_state_t *z80); \
-	static INLINE void prefix##_ec(z80_state_t *z80); static INLINE void prefix##_ed(z80_state_t *z80); static INLINE void prefix##_ee(z80_state_t *z80); static INLINE void prefix##_ef(z80_state_t *z80); \
-	static INLINE void prefix##_f0(z80_state_t *z80); static INLINE void prefix##_f1(z80_state_t *z80); static INLINE void prefix##_f2(z80_state_t *z80); static INLINE void prefix##_f3(z80_state_t *z80); \
-	static INLINE void prefix##_f4(z80_state_t *z80); static INLINE void prefix##_f5(z80_state_t *z80); static INLINE void prefix##_f6(z80_state_t *z80); static INLINE void prefix##_f7(z80_state_t *z80); \
-	static INLINE void prefix##_f8(z80_state_t *z80); static INLINE void prefix##_f9(z80_state_t *z80); static INLINE void prefix##_fa(z80_state_t *z80); static INLINE void prefix##_fb(z80_state_t *z80); \
-	static INLINE void prefix##_fc(z80_state_t *z80); static INLINE void prefix##_fd(z80_state_t *z80); static INLINE void prefix##_fe(z80_state_t *z80); static INLINE void prefix##_ff(z80_state_t *z80); \
-static const funcptr tablename[0x100] = {	\
-	prefix##_00,prefix##_01,prefix##_02,prefix##_03,prefix##_04,prefix##_05,prefix##_06,prefix##_07, \
-	prefix##_08,prefix##_09,prefix##_0a,prefix##_0b,prefix##_0c,prefix##_0d,prefix##_0e,prefix##_0f, \
-	prefix##_10,prefix##_11,prefix##_12,prefix##_13,prefix##_14,prefix##_15,prefix##_16,prefix##_17, \
-	prefix##_18,prefix##_19,prefix##_1a,prefix##_1b,prefix##_1c,prefix##_1d,prefix##_1e,prefix##_1f, \
-	prefix##_20,prefix##_21,prefix##_22,prefix##_23,prefix##_24,prefix##_25,prefix##_26,prefix##_27, \
-	prefix##_28,prefix##_29,prefix##_2a,prefix##_2b,prefix##_2c,prefix##_2d,prefix##_2e,prefix##_2f, \
-	prefix##_30,prefix##_31,prefix##_32,prefix##_33,prefix##_34,prefix##_35,prefix##_36,prefix##_37, \
-	prefix##_38,prefix##_39,prefix##_3a,prefix##_3b,prefix##_3c,prefix##_3d,prefix##_3e,prefix##_3f, \
-	prefix##_40,prefix##_41,prefix##_42,prefix##_43,prefix##_44,prefix##_45,prefix##_46,prefix##_47, \
-	prefix##_48,prefix##_49,prefix##_4a,prefix##_4b,prefix##_4c,prefix##_4d,prefix##_4e,prefix##_4f, \
-	prefix##_50,prefix##_51,prefix##_52,prefix##_53,prefix##_54,prefix##_55,prefix##_56,prefix##_57, \
-	prefix##_58,prefix##_59,prefix##_5a,prefix##_5b,prefix##_5c,prefix##_5d,prefix##_5e,prefix##_5f, \
-	prefix##_60,prefix##_61,prefix##_62,prefix##_63,prefix##_64,prefix##_65,prefix##_66,prefix##_67, \
-	prefix##_68,prefix##_69,prefix##_6a,prefix##_6b,prefix##_6c,prefix##_6d,prefix##_6e,prefix##_6f, \
-	prefix##_70,prefix##_71,prefix##_72,prefix##_73,prefix##_74,prefix##_75,prefix##_76,prefix##_77, \
-	prefix##_78,prefix##_79,prefix##_7a,prefix##_7b,prefix##_7c,prefix##_7d,prefix##_7e,prefix##_7f, \
-	prefix##_80,prefix##_81,prefix##_82,prefix##_83,prefix##_84,prefix##_85,prefix##_86,prefix##_87, \
-	prefix##_88,prefix##_89,prefix##_8a,prefix##_8b,prefix##_8c,prefix##_8d,prefix##_8e,prefix##_8f, \
-	prefix##_90,prefix##_91,prefix##_92,prefix##_93,prefix##_94,prefix##_95,prefix##_96,prefix##_97, \
-	prefix##_98,prefix##_99,prefix##_9a,prefix##_9b,prefix##_9c,prefix##_9d,prefix##_9e,prefix##_9f, \
-	prefix##_a0,prefix##_a1,prefix##_a2,prefix##_a3,prefix##_a4,prefix##_a5,prefix##_a6,prefix##_a7, \
-	prefix##_a8,prefix##_a9,prefix##_aa,prefix##_ab,prefix##_ac,prefix##_ad,prefix##_ae,prefix##_af, \
-	prefix##_b0,prefix##_b1,prefix##_b2,prefix##_b3,prefix##_b4,prefix##_b5,prefix##_b6,prefix##_b7, \
-	prefix##_b8,prefix##_b9,prefix##_ba,prefix##_bb,prefix##_bc,prefix##_bd,prefix##_be,prefix##_bf, \
-	prefix##_c0,prefix##_c1,prefix##_c2,prefix##_c3,prefix##_c4,prefix##_c5,prefix##_c6,prefix##_c7, \
-	prefix##_c8,prefix##_c9,prefix##_ca,prefix##_cb,prefix##_cc,prefix##_cd,prefix##_ce,prefix##_cf, \
-	prefix##_d0,prefix##_d1,prefix##_d2,prefix##_d3,prefix##_d4,prefix##_d5,prefix##_d6,prefix##_d7, \
-	prefix##_d8,prefix##_d9,prefix##_da,prefix##_db,prefix##_dc,prefix##_dd,prefix##_de,prefix##_df, \
-	prefix##_e0,prefix##_e1,prefix##_e2,prefix##_e3,prefix##_e4,prefix##_e5,prefix##_e6,prefix##_e7, \
-	prefix##_e8,prefix##_e9,prefix##_ea,prefix##_eb,prefix##_ec,prefix##_ed,prefix##_ee,prefix##_ef, \
-	prefix##_f0,prefix##_f1,prefix##_f2,prefix##_f3,prefix##_f4,prefix##_f5,prefix##_f6,prefix##_f7, \
-	prefix##_f8,prefix##_f9,prefix##_fa,prefix##_fb,prefix##_fc,prefix##_fd,prefix##_fe,prefix##_ff  \
-}
-
-PROTOTYPES(Z80op,op);
-PROTOTYPES(Z80cb,cb);
-PROTOTYPES(Z80dd,dd);
-PROTOTYPES(Z80ed,ed);
-PROTOTYPES(Z80fd,fd);
-PROTOTYPES(Z80xycb,xycb);
-
-/****************************************************************************/
-/* Burn an odd amount of cycles, that is instructions taking something		*/
-/* different from 4 T-states per opcode (and R increment)					*/
-/****************************************************************************/
-static INLINE void BURNODD(z80_state_t *z80, int cycles, int opcodes, int cyclesum)
-{
-	if( cycles > 0 )
-	{
-		_Z80_R += (cycles / cyclesum) * opcodes;
-		z80->z80_ICount -= (cycles / cyclesum) * cyclesum;
-	}
-}
-
-/***************************************************************
- * define an opcode function
- ***************************************************************/
-#define OP(prefix,opcode)  static INLINE void prefix##_##opcode(z80_state_t *z80)
-
-/***************************************************************
- * adjust cycle count by n T-states
- ***************************************************************/
-#define CC(prefix,opcode) z80->z80_ICount -= cc[Z80_TABLE_##prefix][opcode]
-
-/***************************************************************
- * execute an opcode
- ***************************************************************/
-#define EXEC(prefix,opcode)										\
-{																\
-	unsigned op = opcode;										\
-	CC(prefix,op);												\
-	(*Z80##prefix[op])(z80);										\
-}
-
-#if BIG_SWITCH
-#define EXEC_INLINE(prefix,opcode)								\
-{																\
-	unsigned op = opcode;										\
-	CC(prefix,op);												\
-	switch(op)													\
-	{															\
-	case 0x00:prefix##_##00(z80);break; case 0x01:prefix##_##01(z80);break; case 0x02:prefix##_##02(z80);break; case 0x03:prefix##_##03(z80);break; \
-	case 0x04:prefix##_##04(z80);break; case 0x05:prefix##_##05(z80);break; case 0x06:prefix##_##06(z80);break; case 0x07:prefix##_##07(z80);break; \
-	case 0x08:prefix##_##08(z80);break; case 0x09:prefix##_##09(z80);break; case 0x0a:prefix##_##0a(z80);break; case 0x0b:prefix##_##0b(z80);break; \
-	case 0x0c:prefix##_##0c(z80);break; case 0x0d:prefix##_##0d(z80);break; case 0x0e:prefix##_##0e(z80);break; case 0x0f:prefix##_##0f(z80);break; \
-	case 0x10:prefix##_##10(z80);break; case 0x11:prefix##_##11(z80);break; case 0x12:prefix##_##12(z80);break; case 0x13:prefix##_##13(z80);break; \
-	case 0x14:prefix##_##14(z80);break; case 0x15:prefix##_##15(z80);break; case 0x16:prefix##_##16(z80);break; case 0x17:prefix##_##17(z80);break; \
-	case 0x18:prefix##_##18(z80);break; case 0x19:prefix##_##19(z80);break; case 0x1a:prefix##_##1a(z80);break; case 0x1b:prefix##_##1b(z80);break; \
-	case 0x1c:prefix##_##1c(z80);break; case 0x1d:prefix##_##1d(z80);break; case 0x1e:prefix##_##1e(z80);break; case 0x1f:prefix##_##1f(z80);break; \
-	case 0x20:prefix##_##20(z80);break; case 0x21:prefix##_##21(z80);break; case 0x22:prefix##_##22(z80);break; case 0x23:prefix##_##23(z80);break; \
-	case 0x24:prefix##_##24(z80);break; case 0x25:prefix##_##25(z80);break; case 0x26:prefix##_##26(z80);break; case 0x27:prefix##_##27(z80);break; \
-	case 0x28:prefix##_##28(z80);break; case 0x29:prefix##_##29(z80);break; case 0x2a:prefix##_##2a(z80);break; case 0x2b:prefix##_##2b(z80);break; \
-	case 0x2c:prefix##_##2c(z80);break; case 0x2d:prefix##_##2d(z80);break; case 0x2e:prefix##_##2e(z80);break; case 0x2f:prefix##_##2f(z80);break; \
-	case 0x30:prefix##_##30(z80);break; case 0x31:prefix##_##31(z80);break; case 0x32:prefix##_##32(z80);break; case 0x33:prefix##_##33(z80);break; \
-	case 0x34:prefix##_##34(z80);break; case 0x35:prefix##_##35(z80);break; case 0x36:prefix##_##36(z80);break; case 0x37:prefix##_##37(z80);break; \
-	case 0x38:prefix##_##38(z80);break; case 0x39:prefix##_##39(z80);break; case 0x3a:prefix##_##3a(z80);break; case 0x3b:prefix##_##3b(z80);break; \
-	case 0x3c:prefix##_##3c(z80);break; case 0x3d:prefix##_##3d(z80);break; case 0x3e:prefix##_##3e(z80);break; case 0x3f:prefix##_##3f(z80);break; \
-	case 0x40:prefix##_##40(z80);break; case 0x41:prefix##_##41(z80);break; case 0x42:prefix##_##42(z80);break; case 0x43:prefix##_##43(z80);break; \
-	case 0x44:prefix##_##44(z80);break; case 0x45:prefix##_##45(z80);break; case 0x46:prefix##_##46(z80);break; case 0x47:prefix##_##47(z80);break; \
-	case 0x48:prefix##_##48(z80);break; case 0x49:prefix##_##49(z80);break; case 0x4a:prefix##_##4a(z80);break; case 0x4b:prefix##_##4b(z80);break; \
-	case 0x4c:prefix##_##4c(z80);break; case 0x4d:prefix##_##4d(z80);break; case 0x4e:prefix##_##4e(z80);break; case 0x4f:prefix##_##4f(z80);break; \
-	case 0x50:prefix##_##50(z80);break; case 0x51:prefix##_##51(z80);break; case 0x52:prefix##_##52(z80);break; case 0x53:prefix##_##53(z80);break; \
-	case 0x54:prefix##_##54(z80);break; case 0x55:prefix##_##55(z80);break; case 0x56:prefix##_##56(z80);break; case 0x57:prefix##_##57(z80);break; \
-	case 0x58:prefix##_##58(z80);break; case 0x59:prefix##_##59(z80);break; case 0x5a:prefix##_##5a(z80);break; case 0x5b:prefix##_##5b(z80);break; \
-	case 0x5c:prefix##_##5c(z80);break; case 0x5d:prefix##_##5d(z80);break; case 0x5e:prefix##_##5e(z80);break; case 0x5f:prefix##_##5f(z80);break; \
-	case 0x60:prefix##_##60(z80);break; case 0x61:prefix##_##61(z80);break; case 0x62:prefix##_##62(z80);break; case 0x63:prefix##_##63(z80);break; \
-	case 0x64:prefix##_##64(z80);break; case 0x65:prefix##_##65(z80);break; case 0x66:prefix##_##66(z80);break; case 0x67:prefix##_##67(z80);break; \
-	case 0x68:prefix##_##68(z80);break; case 0x69:prefix##_##69(z80);break; case 0x6a:prefix##_##6a(z80);break; case 0x6b:prefix##_##6b(z80);break; \
-	case 0x6c:prefix##_##6c(z80);break; case 0x6d:prefix##_##6d(z80);break; case 0x6e:prefix##_##6e(z80);break; case 0x6f:prefix##_##6f(z80);break; \
-	case 0x70:prefix##_##70(z80);break; case 0x71:prefix##_##71(z80);break; case 0x72:prefix##_##72(z80);break; case 0x73:prefix##_##73(z80);break; \
-	case 0x74:prefix##_##74(z80);break; case 0x75:prefix##_##75(z80);break; case 0x76:prefix##_##76(z80);break; case 0x77:prefix##_##77(z80);break; \
-	case 0x78:prefix##_##78(z80);break; case 0x79:prefix##_##79(z80);break; case 0x7a:prefix##_##7a(z80);break; case 0x7b:prefix##_##7b(z80);break; \
-	case 0x7c:prefix##_##7c(z80);break; case 0x7d:prefix##_##7d(z80);break; case 0x7e:prefix##_##7e(z80);break; case 0x7f:prefix##_##7f(z80);break; \
-	case 0x80:prefix##_##80(z80);break; case 0x81:prefix##_##81(z80);break; case 0x82:prefix##_##82(z80);break; case 0x83:prefix##_##83(z80);break; \
-	case 0x84:prefix##_##84(z80);break; case 0x85:prefix##_##85(z80);break; case 0x86:prefix##_##86(z80);break; case 0x87:prefix##_##87(z80);break; \
-	case 0x88:prefix##_##88(z80);break; case 0x89:prefix##_##89(z80);break; case 0x8a:prefix##_##8a(z80);break; case 0x8b:prefix##_##8b(z80);break; \
-	case 0x8c:prefix##_##8c(z80);break; case 0x8d:prefix##_##8d(z80);break; case 0x8e:prefix##_##8e(z80);break; case 0x8f:prefix##_##8f(z80);break; \
-	case 0x90:prefix##_##90(z80);break; case 0x91:prefix##_##91(z80);break; case 0x92:prefix##_##92(z80);break; case 0x93:prefix##_##93(z80);break; \
-	case 0x94:prefix##_##94(z80);break; case 0x95:prefix##_##95(z80);break; case 0x96:prefix##_##96(z80);break; case 0x97:prefix##_##97(z80);break; \
-	case 0x98:prefix##_##98(z80);break; case 0x99:prefix##_##99(z80);break; case 0x9a:prefix##_##9a(z80);break; case 0x9b:prefix##_##9b(z80);break; \
-	case 0x9c:prefix##_##9c(z80);break; case 0x9d:prefix##_##9d(z80);break; case 0x9e:prefix##_##9e(z80);break; case 0x9f:prefix##_##9f(z80);break; \
-	case 0xa0:prefix##_##a0(z80);break; case 0xa1:prefix##_##a1(z80);break; case 0xa2:prefix##_##a2(z80);break; case 0xa3:prefix##_##a3(z80);break; \
-	case 0xa4:prefix##_##a4(z80);break; case 0xa5:prefix##_##a5(z80);break; case 0xa6:prefix##_##a6(z80);break; case 0xa7:prefix##_##a7(z80);break; \
-	case 0xa8:prefix##_##a8(z80);break; case 0xa9:prefix##_##a9(z80);break; case 0xaa:prefix##_##aa(z80);break; case 0xab:prefix##_##ab(z80);break; \
-	case 0xac:prefix##_##ac(z80);break; case 0xad:prefix##_##ad(z80);break; case 0xae:prefix##_##ae(z80);break; case 0xaf:prefix##_##af(z80);break; \
-	case 0xb0:prefix##_##b0(z80);break; case 0xb1:prefix##_##b1(z80);break; case 0xb2:prefix##_##b2(z80);break; case 0xb3:prefix##_##b3(z80);break; \
-	case 0xb4:prefix##_##b4(z80);break; case 0xb5:prefix##_##b5(z80);break; case 0xb6:prefix##_##b6(z80);break; case 0xb7:prefix##_##b7(z80);break; \
-	case 0xb8:prefix##_##b8(z80);break; case 0xb9:prefix##_##b9(z80);break; case 0xba:prefix##_##ba(z80);break; case 0xbb:prefix##_##bb(z80);break; \
-	case 0xbc:prefix##_##bc(z80);break; case 0xbd:prefix##_##bd(z80);break; case 0xbe:prefix##_##be(z80);break; case 0xbf:prefix##_##bf(z80);break; \
-	case 0xc0:prefix##_##c0(z80);break; case 0xc1:prefix##_##c1(z80);break; case 0xc2:prefix##_##c2(z80);break; case 0xc3:prefix##_##c3(z80);break; \
-	case 0xc4:prefix##_##c4(z80);break; case 0xc5:prefix##_##c5(z80);break; case 0xc6:prefix##_##c6(z80);break; case 0xc7:prefix##_##c7(z80);break; \
-	case 0xc8:prefix##_##c8(z80);break; case 0xc9:prefix##_##c9(z80);break; case 0xca:prefix##_##ca(z80);break; case 0xcb:prefix##_##cb(z80);break; \
-	case 0xcc:prefix##_##cc(z80);break; case 0xcd:prefix##_##cd(z80);break; case 0xce:prefix##_##ce(z80);break; case 0xcf:prefix##_##cf(z80);break; \
-	case 0xd0:prefix##_##d0(z80);break; case 0xd1:prefix##_##d1(z80);break; case 0xd2:prefix##_##d2(z80);break; case 0xd3:prefix##_##d3(z80);break; \
-	case 0xd4:prefix##_##d4(z80);break; case 0xd5:prefix##_##d5(z80);break; case 0xd6:prefix##_##d6(z80);break; case 0xd7:prefix##_##d7(z80);break; \
-	case 0xd8:prefix##_##d8(z80);break; case 0xd9:prefix##_##d9(z80);break; case 0xda:prefix##_##da(z80);break; case 0xdb:prefix##_##db(z80);break; \
-	case 0xdc:prefix##_##dc(z80);break; case 0xdd:prefix##_##dd(z80);break; case 0xde:prefix##_##de(z80);break; case 0xdf:prefix##_##df(z80);break; \
-	case 0xe0:prefix##_##e0(z80);break; case 0xe1:prefix##_##e1(z80);break; case 0xe2:prefix##_##e2(z80);break; case 0xe3:prefix##_##e3(z80);break; \
-	case 0xe4:prefix##_##e4(z80);break; case 0xe5:prefix##_##e5(z80);break; case 0xe6:prefix##_##e6(z80);break; case 0xe7:prefix##_##e7(z80);break; \
-	case 0xe8:prefix##_##e8(z80);break; case 0xe9:prefix##_##e9(z80);break; case 0xea:prefix##_##ea(z80);break; case 0xeb:prefix##_##eb(z80);break; \
-	case 0xec:prefix##_##ec(z80);break; case 0xed:prefix##_##ed(z80);break; case 0xee:prefix##_##ee(z80);break; case 0xef:prefix##_##ef(z80);break; \
-	case 0xf0:prefix##_##f0(z80);break; case 0xf1:prefix##_##f1(z80);break; case 0xf2:prefix##_##f2(z80);break; case 0xf3:prefix##_##f3(z80);break; \
-	case 0xf4:prefix##_##f4(z80);break; case 0xf5:prefix##_##f5(z80);break; case 0xf6:prefix##_##f6(z80);break; case 0xf7:prefix##_##f7(z80);break; \
-	case 0xf8:prefix##_##f8(z80);break; case 0xf9:prefix##_##f9(z80);break; case 0xfa:prefix##_##fa(z80);break; case 0xfb:prefix##_##fb(z80);break; \
-	case 0xfc:prefix##_##fc(z80);break; case 0xfd:prefix##_##fd(z80);break; case 0xfe:prefix##_##fe(z80);break; case 0xff:prefix##_##ff(z80);break; \
-	}																																	\
-}
-#else
-#define EXEC_INLINE EXEC
-#endif
-
-
-/***************************************************************
- * Enter HALT state; write 1 to fake port on first execution
- ***************************************************************/
-#define ENTER_HALT {											\
-	_PC--;														\
-	_HALT = 1;													\
-	if( !z80->after_EI )												\
-		z80_burn( z80, z80->z80_ICount );									\
-}
-
-/***************************************************************
- * Leave HALT state; write 0 to fake port
- ***************************************************************/
-#define LEAVE_HALT {											\
-	if( _HALT )													\
-	{															\
-		_HALT = 0;												\
-		_PC++;													\
-	}															\
-}
-
-/***************************************************************
- * Input a byte from given I/O port
- ***************************************************************/
-#define IN(port)   ((UINT8)cpu_readport16(z80->userdata,port))
-
-/***************************************************************
- * Output a byte to given I/O port
- ***************************************************************/
-#define OUT(port,value) cpu_writeport16(z80->userdata,port,value)
-
-/***************************************************************
- * Read a byte from given memory location
- ***************************************************************/
-#define RM(addr) (UINT8)cpu_readmem16(z80->userdata,addr)
-
-/***************************************************************
- * Read a word from given memory location
- ***************************************************************/
-static INLINE void RM16( z80_state_t *z80, UINT32 addr, PAIR *r )
-{
-	r->b.l = RM(addr);
-	r->b.h = RM((addr+1)&0xffff);
-}
-
-/***************************************************************
- * Write a byte to given memory location
- ***************************************************************/
-#define WM(addr,value) cpu_writemem16(z80->userdata,addr,value)
-
-/***************************************************************
- * Write a word to given memory location
- ***************************************************************/
-static INLINE void WM16( z80_state_t *z80, UINT32 addr, PAIR *r )
-{
-	WM(addr,r->b.l);
-	WM((addr+1)&0xffff,r->b.h);
-}
-
-/***************************************************************
- * ROP() is identical to RM() except it is used for
- * reading opcodes. In case of system with memory mapped I/O,
- * this function can be used to greatly speed up emulation
- ***************************************************************/
-static INLINE UINT8 ROP(z80_state_t *z80)
-{
-	unsigned pc = _PCD;
-	_PC++;
-	return cpu_readop(z80->userdata,pc);
-}
-
-/****************************************************************
- * ARG() is identical to ROP() except it is used
- * for reading opcode arguments. This difference can be used to
- * support systems that use different encoding mechanisms for
- * opcodes and opcode arguments
- ***************************************************************/
-static INLINE UINT8 ARG(z80_state_t *z80)
-{
-	unsigned pc = _PCD;
-	_PC++;
-	return cpu_readop_arg(z80->userdata, pc);
-}
-
-static INLINE UINT32 ARG16(z80_state_t *z80)
-{
-	unsigned pc = _PCD;
-	_PC += 2;
-	return cpu_readop_arg(z80->userdata,pc) | (cpu_readop_arg(z80->userdata,(pc+1)&0xffff) << 8);
-}
-
-/***************************************************************
- * Calculate the effective address EA of an opcode using
- * IX+offset resp. IY+offset addressing.
- ***************************************************************/
-#define EAX z80->EA = (UINT32)(UINT16)(_IX+(INT8)ARG(z80))
-#define EAY z80->EA = (UINT32)(UINT16)(_IY+(INT8)ARG(z80))
-
-/***************************************************************
- * POP
- ***************************************************************/
-#define POP(DR) { RM16(z80, _SPD, &z80->Z80.DR ); _SP += 2; }
-
-/***************************************************************
- * PUSH
- ***************************************************************/
-#define PUSH(SR) { _SP -= 2; WM16( z80, _SPD, &z80->Z80.SR ); }
-
-/***************************************************************
- * JP
- ***************************************************************/
-#if BUSY_LOOP_HACKS
-#define JP {													\
-	unsigned oldpc = _PCD-1;									\
-	_PCD = ARG16(z80);												\
-	change_pc16(_PCD);											\
-	/* speed up busy loop */									\
-	if( _PCD == oldpc )											\
-	{															\
-		if( !z80->after_EI )											\
-			BURNODD( z80, z80->z80_ICount, 1, cc[Z80_TABLE_op][0xc3] );	\
-	}															\
-	else														\
-	{															\
-		UINT8 op = cpu_readop(z80->userdata,_PCD);							\
-		if( _PCD == oldpc-1 )									\
-		{														\
-			/* NOP - JP $-1 or EI - JP $-1 */					\
-			if ( op == 0x00 || op == 0xfb )						\
-			{													\
-				if( !z80->after_EI )									\
-					BURNODD( z80, z80->z80_ICount-cc[Z80_TABLE_op][0x00], \
-						2, cc[Z80_TABLE_op][0x00]+cc[Z80_TABLE_op][0xc3]); \
-			}													\
-		}														\
-		else													\
-		/* LD SP,#xxxx - JP $-3 (Galaga) */						\
-		if( _PCD == oldpc-3 && op == 0x31 )						\
-		{														\
-			if( !z80->after_EI )										\
-				BURNODD( z80, z80->z80_ICount-cc[Z80_TABLE_op][0x31],		\
-					2, cc[Z80_TABLE_op][0x31]+cc[Z80_TABLE_op][0xc3]); \
-		}														\
-	}															\
-}
-#else
-#define JP {													\
-	_PCD = ARG16(z80);												\
-	change_pc16(_PCD);											\
-}
-#endif
-
-/***************************************************************
- * JP_COND
- ***************************************************************/
-
-#define JP_COND(cond)											\
-	if( cond )													\
-	{															\
-		_PCD = ARG16(z80);											\
-		change_pc16(_PCD);										\
-	}															\
-	else														\
-	{															\
-		_PC += 2;												\
-	}
-
-/***************************************************************
- * JR
- ***************************************************************/
-#define JR()													\
-{																\
-	unsigned oldpc = _PCD-1;									\
-	INT8 arg = (INT8)ARG(z80); /* ARG() also increments _PC */		\
-	_PC += arg;				/* so don't do _PC += ARG() */		\
-	change_pc16(_PCD);											\
-	/* speed up busy loop */									\
-	if( _PCD == oldpc )											\
-	{															\
-		if( !z80->after_EI )											\
-			BURNODD( z80, z80->z80_ICount, 1, cc[Z80_TABLE_op][0x18] );	\
-	}															\
-	else														\
-	{															\
-		UINT8 op = cpu_readop(z80->userdata,_PCD);							\
-		if( _PCD == oldpc-1 )									\
-		{														\
-			/* NOP - JR $-1 or EI - JR $-1 */					\
-			if ( op == 0x00 || op == 0xfb )						\
-			{													\
-				if( !z80->after_EI )									\
-				   BURNODD( z80, z80->z80_ICount-cc[Z80_TABLE_op][0x00],	\
-					   2, cc[Z80_TABLE_op][0x00]+cc[Z80_TABLE_op][0x18]); \
-			}													\
-		}														\
-		else													\
-		/* LD SP,#xxxx - JR $-3 */								\
-		if( _PCD == oldpc-3 && op == 0x31 )						\
-		{														\
-			if( !z80->after_EI )										\
-			   BURNODD( z80, z80->z80_ICount-cc[Z80_TABLE_op][0x31],		\
-				   2, cc[Z80_TABLE_op][0x31]+cc[Z80_TABLE_op][0x18]); \
-		}														\
-	}															\
-}
-
-/***************************************************************
- * JR_COND
- ***************************************************************/
-#define JR_COND(cond,opcode)									\
-	if( cond )													\
-	{															\
-		INT8 arg = (INT8)ARG(z80); /* ARG() also increments _PC */ \
-		_PC += arg;				/* so don't do _PC += ARG() */	\
-		CC(ex,opcode);											\
-		change_pc16(_PCD);										\
-	}															\
-	else _PC++;													\
-
-/***************************************************************
- * CALL
- ***************************************************************/
-#define CALL()													\
-	z80->EA = ARG16(z80);												\
-	PUSH( PC );													\
-	_PCD = z80->EA;													\
-	change_pc16(_PCD)
-
-/***************************************************************
- * CALL_COND
- ***************************************************************/
-#define CALL_COND(cond,opcode)									\
-	if( cond )													\
-	{															\
-		z80->EA = ARG16(z80);											\
-		PUSH( PC );												\
-		_PCD = z80->EA;												\
-		CC(ex,opcode);											\
-		change_pc16(_PCD);										\
-	}															\
-	else														\
-	{															\
-		_PC+=2;													\
-	}
-
-/***************************************************************
- * RET_COND
- ***************************************************************/
-#define RET_COND(cond,opcode)									\
-	if( cond )													\
-	{															\
-		POP(PC);												\
-		change_pc16(_PCD);										\
-		CC(ex,opcode);											\
-	}
-
-/***************************************************************
- * RETN
- ***************************************************************/
-#define RETN	{												\
-	POP(PC);													\
-	change_pc16(_PCD);											\
-	if( _IFF1 == 0 && _IFF2 == 1 )								\
-	{															\
-		_IFF1 = 1;												\
-		if( z80->Z80.irq_state != CLEAR_LINE ||						\
-			z80->Z80.request_irq >= 0 )								\
-		{														\
-			take_interrupt(z80);									\
-		}														\
-	}															\
-	else _IFF1 = _IFF2;											\
-}
-
-/***************************************************************
- * RETI
- ***************************************************************/
-#define RETI	{												\
-	int device = z80->Z80.service_irq;								\
-	POP(PC);													\
-	change_pc16(_PCD);											\
-/* according to http://www.msxnet.org/tech/z80-documented.pdf */\
-/*	_IFF1 = _IFF2;	*/											\
-	if( device >= 0 )											\
-	{															\
-		z80->Z80.irq[device].interrupt_reti(z80->Z80.irq[device].irq_param); \
-	}															\
-}
-
-/***************************************************************
- * LD	R,A
- ***************************************************************/
-#define LD_R_A {												\
-	_Z80_R = _Z80_A;													\
-	_R2 = _Z80_A & 0x80;				/* keep bit 7 of R */		\
-}
-
-/***************************************************************
- * LD	A,R
- ***************************************************************/
-#define LD_A_R {												\
-	_Z80_A = (_Z80_R & 0x7f) | _R2;										\
-	_F = (_F & CF) | z80->SZ[_Z80_A] | ( _IFF2 << 2 );					\
-}
-
-/***************************************************************
- * LD	I,A
- ***************************************************************/
-#define LD_I_A {												\
-	_Z80_I = _Z80_A;													\
-}
-
-/***************************************************************
- * LD	A,I
- ***************************************************************/
-#define LD_A_I {												\
-	_Z80_A = _Z80_I;													\
-	_F = (_F & CF) | z80->SZ[_Z80_A] | ( _IFF2 << 2 );					\
-}
-
-/***************************************************************
- * RST
- ***************************************************************/
-#define RST(addr)												\
-	PUSH( PC );													\
-	_PCD = addr;												\
-	change_pc16(_PCD)
-
-/***************************************************************
- * INC	r8
- ***************************************************************/
-static INLINE UINT8 INC(z80_state_t *z80, UINT8 value)
-{
-	UINT8 res = value + 1;
-	_F = (_F & CF) | z80->SZHV_inc[res];
-	return (UINT8)res;
-}
-
-/***************************************************************
- * DEC	r8
- ***************************************************************/
-static INLINE UINT8 DEC(z80_state_t *z80, UINT8 value)
-{
-	UINT8 res = value - 1;
-	_F = (_F & CF) | z80->SZHV_dec[res];
-	return res;
-}
-
-/***************************************************************
- * RLCA
- ***************************************************************/
-#if Z80_EXACT
-#define RLCA													\
-	_Z80_A = (_Z80_A << 1) | (_Z80_A >> 7);									\
-	_F = (_F & (SF | ZF | PF)) | (_Z80_A & (YF | XF | CF))
-#else
-#define RLCA													\
-	_Z80_A = (_Z80_A << 1) | (_Z80_A >> 7);									\
-	_F = (_F & (SF | ZF | YF | XF | PF)) | (_Z80_A & CF)
-#endif
-
-/***************************************************************
- * RRCA
- ***************************************************************/
-#if Z80_EXACT
-#define RRCA													\
-	_F = (_F & (SF | ZF | PF)) | (_Z80_A & CF);						\
-	_Z80_A = (_Z80_A >> 1) | (_Z80_A << 7);									\
-	_F |= (_Z80_A & (YF | XF) )
-#else
-#define RRCA													\
-	_F = (_F & (SF | ZF | YF | XF | PF)) | (_Z80_A & CF);			\
-	_Z80_A = (_Z80_A >> 1) | (_Z80_A << 7)
-#endif
-
-/***************************************************************
- * RLA
- ***************************************************************/
-#if Z80_EXACT
-#define RLA {													\
-	UINT8 res = (_Z80_A << 1) | (_F & CF);							\
-	UINT8 c = (_Z80_A & 0x80) ? CF : 0;								\
-	_F = (_F & (SF | ZF | PF)) | c | (res & (YF | XF));			\
-	_Z80_A = res;													\
-}
-#else
-#define RLA {													\
-	UINT8 res = (_Z80_A << 1) | (_F & CF);							\
-	UINT8 c = (_Z80_A & 0x80) ? CF : 0;								\
-	_F = (_F & (SF | ZF | YF | XF | PF)) | c;					\
-	_Z80_A = res;													\
-}
-#endif
-
-/***************************************************************
- * RRA
- ***************************************************************/
-#if Z80_EXACT
-#define RRA {													\
-	UINT8 res = (_Z80_A >> 1) | (_F << 7);							\
-	UINT8 c = (_Z80_A & 0x01) ? CF : 0;								\
-	_F = (_F & (SF | ZF | PF)) | c | (res & (YF | XF));			\
-	_Z80_A = res;													\
-}
-#else
-#define RRA {													\
-	UINT8 res = (_Z80_A >> 1) | (_F << 7);							\
-	UINT8 c = (_Z80_A & 0x01) ? CF : 0;								\
-	_F = (_F & (SF | ZF | YF | XF | PF)) | c;					\
-	_Z80_A = res;													\
-}
-#endif
-
-/***************************************************************
- * RRD
- ***************************************************************/
-#define RRD {													\
-	UINT8 n = RM(_HL);											\
-	WM( _HL, (n >> 4) | (_Z80_A << 4) );							\
-	_Z80_A = (_Z80_A & 0xf0) | (n & 0x0f);								\
-	_F = (_F & CF) | z80->SZP[_Z80_A];									\
-}
-
-/***************************************************************
- * RLD
- ***************************************************************/
-#define RLD {													\
-	UINT8 n = RM(_HL);											\
-	WM( _HL, (n << 4) | (_Z80_A & 0x0f) );							\
-	_Z80_A = (_Z80_A & 0xf0) | (n >> 4);								\
-	_F = (_F & CF) | z80->SZP[_Z80_A];									\
-}
-
-/***************************************************************
- * ADD	A,n
- ***************************************************************/
-#ifdef X86_ASM
-#if Z80_EXACT
-#define ADD(value)												\
- asm (															\
- " addb %2,%0			\n"										\
- " lahf					\n"										\
- " setob %1				\n" /* al = 1 if overflow */			\
- " addb %1,%1			\n"										\
- " addb %1,%1			\n" /* shift to P/V bit position */		\
- " andb $0xd1,%%ah		\n" /* sign, zero, half carry, carry */ \
- " orb %%ah,%1			\n"										\
- " movb %0,%%ah			\n" /* get result */					\
- " andb $0x28,%%ah		\n" /* maks flags 5+3 */				\
- " orb %%ah,%1			\n" /* put them into flags */			\
- :"=q" (_Z80_A), "=q" (_F)											\
- :"q" (value), "1" (_F), "0" (_Z80_A)								\
- )
-#else
-#define ADD(value)												\
- asm (															\
- " addb %2,%0			\n"										\
- " lahf					\n"										\
- " setob %1				\n" /* al = 1 if overflow */			\
- " addb %1,%1			\n"										\
- " addb %1,%1			\n" /* shift to P/V bit position */		\
- " andb $0xd1,%%ah		\n" /* sign, zero, half carry, carry */ \
- " orb %%ah,%1			\n"										\
- :"=q" (_Z80_A), "=q" (_F)											\
- :"q" (value), "1" (_F), "0" (_Z80_A)								\
- )
-#endif
-#else
-#if BIG_FLAGS_ARRAY
-#define ADD(z80,value)												\
-{																\
-	UINT32 ah = _AFD & 0xff00;									\
-	UINT32 res = (UINT8)((ah >> 8) + value);					\
-	_F = z80->SZHVC_add[ah | res];									\
-	_Z80_A = res;													\
-}
-#else
-#define ADD(value)												\
-{																\
-	unsigned val = value;										\
-	unsigned res = _Z80_A + val;									\
-	_F = SZ[(UINT8)res] | ((res >> 8) & CF) |					\
-		((_Z80_A ^ res ^ val) & HF) |								\
-		(((val ^ _Z80_A ^ 0x80) & (val ^ res) & 0x80) >> 5);		\
-	_Z80_A = (UINT8)res;											\
-}
-#endif
-#endif
-
-/***************************************************************
- * ADC	A,n
- ***************************************************************/
-#ifdef X86_ASM
-#if Z80_EXACT
-#define ADC(value)												\
- asm (															\
- " shrb $1,%1			\n"										\
- " adcb %2,%0			\n"										\
- " lahf					\n"										\
- " setob %1				\n" /* al = 1 if overflow */			\
- " addb %1,%1			\n" /* shift to P/V bit position */		\
- " addb %1,%1			\n"										\
- " andb $0xd1,%%ah		\n" /* sign, zero, half carry, carry */ \
- " orb %%ah,%1			\n" /* combine with P/V */				\
- " movb %0,%%ah			\n" /* get result */					\
- " andb $0x28,%%ah		\n" /* maks flags 5+3 */				\
- " orb %%ah,%1			\n" /* put them into flags */			\
- :"=q" (_Z80_A), "=q" (_F)											\
- :"q" (value), "1" (_F), "0" (_Z80_A)								\
- )
-#else
-#define ADC(value)												\
- asm (															\
- " shrb $1,%1			\n"										\
- " adcb %2,%0			\n"										\
- " lahf					\n"										\
- " setob %1				\n" /* al = 1 if overflow */			\
- " addb %1,%1			\n" /* shift to P/V bit position */		\
- " addb %1,%1			\n"										\
- " andb $0xd1,%%ah		\n" /* sign, zero, half carry, carry */ \
- " orb %%ah,%1			\n" /* combine with P/V */				\
- :"=q" (_Z80_A), "=q" (_F)											\
- :"q" (value), "1" (_F), "0" (_Z80_A)								\
- )
-#endif
-#else
-#if BIG_FLAGS_ARRAY
-#define ADC(value)												\
-{																\
-	UINT32 ah = _AFD & 0xff00, c = _AFD & 1;					\
-	UINT32 res = (UINT8)((ah >> 8) + value + c);				\
-	_F = z80->SZHVC_add[(c << 16) | ah | res];						\
-	_Z80_A = res;													\
-}
-#else
-#define ADC(value)												\
-{																\
-	unsigned val = value;										\
-	unsigned res = _Z80_A + val + (_F & CF);						\
-	_F = SZ[res & 0xff] | ((res >> 8) & CF) |					\
-		((_Z80_A ^ res ^ val) & HF) |								\
-		(((val ^ _Z80_A ^ 0x80) & (val ^ res) & 0x80) >> 5);		\
-	_Z80_A = res;													\
-}
-#endif
-#endif
-
-/***************************************************************
- * SUB	n
- ***************************************************************/
-#ifdef X86_ASM
-#if Z80_EXACT
-#define SUB(value)												\
- asm (															\
- " subb %2,%0			\n"										\
- " lahf					\n"										\
- " setob %1				\n" /* al = 1 if overflow */			\
- " stc					\n" /* prepare to set N flag */			\
- " adcb %1,%1			\n" /* shift to P/V bit position */		\
- " addb %1,%1			\n"										\
- " andb $0xd1,%%ah		\n" /* sign, zero, half carry, carry */ \
- " orb %%ah,%1			\n" /* combine with P/V */				\
- " movb %0,%%ah			\n" /* get result */					\
- " andb $0x28,%%ah		\n" /* maks flags 5+3 */				\
- " orb %%ah,%1			\n" /* put them into flags */			\
- :"=q" (_Z80_A), "=q" (_F)											\
- :"q" (value), "1" (_F), "0" (_Z80_A)								\
- )
-#else
-#define SUB(value)												\
- asm (															\
- " subb %2,%0			\n"										\
- " lahf					\n"										\
- " setob %1				\n" /* al = 1 if overflow */			\
- " stc					\n" /* prepare to set N flag */			\
- " adcb %1,%1			\n" /* shift to P/V bit position */		\
- " addb %1,%1			\n"										\
- " andb $0xd1,%%ah		\n" /* sign, zero, half carry, carry */ \
- " orb %%ah,%1			\n" /* combine with P/V */				\
- :"=q" (_Z80_A), "=q" (_F)											\
- :"q" (value), "1" (_F), "0" (_Z80_A)								\
- )
-#endif
-#else
-#if BIG_FLAGS_ARRAY
-#define SUB(value)												\
-{																\
-	UINT32 ah = _AFD & 0xff00;									\
-	UINT32 res = (UINT8)((ah >> 8) - value);					\
-	_F = z80->SZHVC_sub[ah | res];									\
-	_Z80_A = res;													\
-}
-#else
-#define SUB(value)												\
-{																\
-	unsigned val = value;										\
-	unsigned res = _Z80_A - val;									\
-	_F = SZ[res & 0xff] | ((res >> 8) & CF) | NF |				\
-		((_Z80_A ^ res ^ val) & HF) |								\
-		(((val ^ _Z80_A) & (_Z80_A ^ res) & 0x80) >> 5);				\
-	_Z80_A = res;													\
-}
-#endif
-#endif
-
-/***************************************************************
- * SBC	A,n
- ***************************************************************/
-#ifdef X86_ASM
-#if Z80_EXACT
-#define SBC(value)												\
- asm (															\
- " shrb $1,%1			\n"										\
- " sbbb %2,%0			\n"										\
- " lahf					\n"										\
- " setob %1				\n" /* al = 1 if overflow */			\
- " stc					\n" /* prepare to set N flag */			\
- " adcb %1,%1			\n" /* shift to P/V bit position */		\
- " addb %1,%1			\n"										\
- " andb $0xd1,%%ah		\n" /* sign, zero, half carry, carry */ \
- " orb %%ah,%1			\n" /* combine with P/V */				\
- " movb %0,%%ah			\n" /* get result */					\
- " andb $0x28,%%ah		\n" /* maks flags 5+3 */				\
- " orb %%ah,%1			\n" /* put them into flags */			\
- :"=q" (_Z80_A), "=q" (_F)											\
- :"q" (value), "1" (_F), "0" (_Z80_A)								\
- )
-#else
-#define SBC(value)												\
- asm (															\
- " shrb $1,%1			\n"										\
- " sbbb %2,%0			\n"										\
- " lahf					\n"										\
- " setob %1				\n" /* al = 1 if overflow */			\
- " stc					\n" /* prepare to set N flag */			\
- " adcb %1,%1			\n" /* shift to P/V bit position */		\
- " addb %1,%1			\n"										\
- " andb $0xd1,%%ah		\n" /* sign, zero, half carry, carry */ \
- " orb %%ah,%1			\n" /* combine with P/V */				\
- :"=q" (_Z80_A), "=q" (_F)											\
- :"q" (value), "1" (_F), "0" (_Z80_A)								\
- )
-#endif
-#else
-#if BIG_FLAGS_ARRAY
-#define SBC(value)												\
-{																\
-	UINT32 ah = _AFD & 0xff00, c = _AFD & 1;					\
-	UINT32 res = (UINT8)((ah >> 8) - value - c);				\
-	_F = z80->SZHVC_sub[(c<<16) | ah | res];							\
-	_Z80_A = res;													\
-}
-#else
-#define SBC(value)												\
-{																\
-	unsigned val = value;										\
-	unsigned res = _Z80_A - val - (_F & CF);						\
-	_F = SZ[res & 0xff] | ((res >> 8) & CF) | NF |				\
-		((_Z80_A ^ res ^ val) & HF) |								\
-		(((val ^ _Z80_A) & (_Z80_A ^ res) & 0x80) >> 5);				\
-	_Z80_A = res;													\
-}
-#endif
-#endif
-
-/***************************************************************
- * NEG
- ***************************************************************/
-#define NEG {													\
-	UINT8 value = _Z80_A;											\
-	_Z80_A = 0;														\
-	SUB(value);													\
-}
-
-/***************************************************************
- * DAA
- ***************************************************************/
-#define DAA {													\
-	UINT8 cf, nf, hf, lo, hi, diff;								\
-	cf = _F & CF;												\
-	nf = _F & NF;												\
-	hf = _F & HF;												\
-	lo = _Z80_A & 15;												\
-	hi = _Z80_A / 16;												\
-																\
-	if (cf)														\
-	{															\
-		diff = (lo <= 9 && !hf) ? 0x60 : 0x66;					\
-	}															\
-	else														\
-	{															\
-		if (lo >= 10)											\
-		{														\
-			diff = hi <= 8 ? 0x06 : 0x66;						\
-		}														\
-		else													\
-		{														\
-			if (hi >= 10)										\
-			{													\
-				diff = hf ? 0x66 : 0x60;						\
-			}													\
-			else												\
-			{													\
-				diff = hf ? 0x06 : 0x00;						\
-			}													\
-		}														\
-	}															\
-	if (nf) _Z80_A -= diff;											\
-	else _Z80_A += diff;											\
-																\
-	_F = z80->SZP[_Z80_A] | (_F & NF);									\
-	if (cf || (lo <= 9 ? hi >= 10 : hi >= 9)) _F |= CF;			\
-	if (nf ? hf && lo <= 5 : lo >= 10)	_F |= HF;				\
-}
-
-/***************************************************************
- * AND	n
- ***************************************************************/
-#define AND(value)												\
-	_Z80_A &= value;												\
-	_F = z80->SZP[_Z80_A] | HF
-
-/***************************************************************
- * OR	n
- ***************************************************************/
-#define OR(value)												\
-	_Z80_A |= value;												\
-	_F = z80->SZP[_Z80_A]
-
-/***************************************************************
- * XOR	n
- ***************************************************************/
-#define XOR(value)												\
-	_Z80_A ^= value;												\
-	_F = z80->SZP[_Z80_A]
-
-/***************************************************************
- * CP	n
- ***************************************************************/
-#ifdef X86_ASM
-#if Z80_EXACT
-#define CP(value)												\
- asm (															\
- " cmpb %2,%0			\n"										\
- " lahf					\n"										\
- " setob %1				\n" /* al = 1 if overflow */			\
- " stc					\n" /* prepare to set N flag */			\
- " adcb %1,%1			\n" /* shift to P/V bit position */		\
- " addb %1,%1			\n"										\
- " andb $0xd1,%%ah		\n" /* sign, zero, half carry, carry */ \
- " orb %%ah,%1			\n" /* combine with P/V */				\
- " movb %2,%%ah			\n" /* get result */					\
- " andb $0x28,%%ah		\n" /* maks flags 5+3 */				\
- " orb %%ah,%1			\n" /* put them into flags */			\
- :"=q" (_Z80_A), "=q" (_F)											\
- :"q" (value), "1" (_F), "0" (_Z80_A)								\
- )
-#else
-#define CP(value)												\
- asm (															\
- " cmpb %2,%0			\n"										\
- " lahf					\n"										\
- " setob %1				\n" /* al = 1 if overflow */			\
- " stc					\n" /* prepare to set N flag */			\
- " adcb %1,%1			\n" /* shift to P/V bit position */		\
- " addb %1,%1			\n"										\
- " andb $0xd1,%%ah		\n" /* sign, zero, half carry, carry */ \
- " orb %%ah,%1			\n" /* combine with P/V */				\
- :"=q" (_Z80_A), "=q" (_F)											\
- :"q" (value), "1" (_F), "0" (_Z80_A)								\
- )
-#endif
-#else
-#if BIG_FLAGS_ARRAY
-#define CP(value)												\
-{																\
-	unsigned val = value;										\
-	UINT32 ah = _AFD & 0xff00;									\
-	UINT32 res = (UINT8)((ah >> 8) - val);						\
-	_F = (z80->SZHVC_sub[ah | res] & ~(YF | XF)) |					\
-		(val & (YF | XF));										\
-}
-#else
-#define CP(value)												\
-{																\
-	unsigned val = value;										\
-	unsigned res = _Z80_A - val;									\
-	_F = (SZ[res & 0xff] & (SF | ZF)) |							\
-		(val & (YF | XF)) | ((res >> 8) & CF) | NF |			\
-		((_Z80_A ^ res ^ val) & HF) |								\
-		((((val ^ _Z80_A) & (_Z80_A ^ res)) >> 5) & VF);				\
-}
-#endif
-#endif
-
-/***************************************************************
- * EX	AF,AF'
- ***************************************************************/
-#define EX_AF {													\
-	PAIR tmp;													\
-	tmp = z80->Z80.AF; z80->Z80.AF = z80->Z80.AF2; z80->Z80.AF2 = tmp;				\
-}
-
-/***************************************************************
- * EX	DE,HL
- ***************************************************************/
-#define EX_DE_HL {												\
-	PAIR tmp;													\
-	tmp = z80->Z80.DE; z80->Z80.DE = z80->Z80.HL; z80->Z80.HL = tmp;				\
-}
-
-/***************************************************************
- * EXX
- ***************************************************************/
-#define EXX {													\
-	PAIR tmp;													\
-	tmp = z80->Z80.BC; z80->Z80.BC = z80->Z80.BC2; z80->Z80.BC2 = tmp;				\
-	tmp = z80->Z80.DE; z80->Z80.DE = z80->Z80.DE2; z80->Z80.DE2 = tmp;				\
-	tmp = z80->Z80.HL; z80->Z80.HL = z80->Z80.HL2; z80->Z80.HL2 = tmp;				\
-}
-
-/***************************************************************
- * EX	(SP),r16
- ***************************************************************/
-#define EXSP(DR)												\
-{																\
-	PAIR tmp = { { 0, 0, 0, 0 } };								\
-	RM16(z80, _SPD, &tmp );											\
-	WM16( z80, _SPD, &z80->Z80.DR );										\
-	z80->Z80.DR = tmp;												\
-}
-
-
-/***************************************************************
- * ADD16
- ***************************************************************/
-#ifdef	X86_ASM
-#if Z80_EXACT
-#define ADD16(z80,DR,SR)											\
- asm (															\
- " andb $0xc4,%1		\n"										\
- " addb %%dl,%%cl		\n"										\
- " adcb %%dh,%%ch		\n"										\
- " lahf					\n"										\
- " andb $0x11,%%ah		\n"										\
- " orb %%ah,%1			\n"										\
- " movb %%ch,%%ah		\n" /* get result MSB */				\
- " andb $0x28,%%ah		\n" /* maks flags 5+3 */				\
- " orb %%ah,%1			\n" /* put them into flags */			\
- :"=c" (z80->Z80.DR.d), "=q" (_F)									\
- :"0" (z80->Z80.DR.d), "1" (_F), "d" (Z80.SR.d)						\
- )
-#else
-#define ADD16(z80,DR,SR)											\
- asm (															\
- " andb $0xc4,%1		\n"										\
- " addb %%dl,%%cl		\n"										\
- " adcb %%dh,%%ch		\n"										\
- " lahf					\n"										\
- " andb $0x11,%%ah		\n"										\
- " orb %%ah,%1			\n"										\
- :"=c" (z80->Z80.DR.d), "=q" (_F)									\
- :"0" (z80->Z80.DR.d), "1" (_F), "d" (Z80.SR.d)						\
- )
-#endif
-#else
-#define ADD16(z80,DR,SR)											\
-{																\
-	UINT32 res = z80->Z80.DR.d + z80->Z80.SR.d;							\
-	_F = (_F & (SF | ZF | VF)) |								\
-		(((z80->Z80.DR.d ^ res ^ z80->Z80.SR.d) >> 8) & HF) |				\
-		((res >> 16) & CF) | ((res >> 8) & (YF | XF));			\
-	z80->Z80.DR.w.l = (UINT16)res;									\
-}
-#endif
-
-/***************************************************************
- * ADC	r16,r16
- ***************************************************************/
-#ifdef	X86_ASM
-#if Z80_EXACT
-#define ADC16(Reg)												\
- asm (															\
- " shrb $1,%1			\n"										\
- " adcb %%dl,%%cl		\n"										\
- " lahf					\n"										\
- " movb %%ah,%%dl		\n"										\
- " adcb %%dh,%%ch		\n"										\
- " lahf					\n"										\
- " setob %1				\n"										\
- " orb $0xbf,%%dl		\n" /* set all but zero */				\
- " addb %1,%1			\n"										\
- " andb $0xd1,%%ah		\n" /* sign,zero,half carry and carry */\
- " addb %1,%1			\n"										\
- " orb %%ah,%1			\n" /* overflow into P/V */				\
- " andb %%dl,%1			\n" /* mask zero */						\
- " movb %%ch,%%ah		\n" /* get result MSB */				\
- " andb $0x28,%%ah		\n" /* maks flags 5+3 */				\
- " orb %%ah,%1			\n" /* put them into flags */			\
- :"=c" (_HLD), "=q" (_F)										\
- :"0" (_HLD), "1" (_F), "d" (Z80.Reg.d)							\
- )
-#else
-#define ADC16(Reg)												\
- asm (															\
- " shrb $1,%1			\n"										\
- " adcb %%dl,%%cl		\n"										\
- " lahf					\n"										\
- " movb %%ah,%%dl		\n"										\
- " adcb %%dh,%%ch		\n"										\
- " lahf					\n"										\
- " setob %1				\n"										\
- " orb $0xbf,%%dl		\n" /* set all but zero */				\
- " addb %1,%1			\n"										\
- " andb $0xd1,%%ah		\n" /* sign,zero,half carry and carry */\
- " addb %1,%1			\n"										\
- " orb %%ah,%1			\n" /* overflow into P/V */				\
- " andb %%dl,%1			\n" /* mask zero */						\
- :"=c" (_HLD), "=q" (_F)										\
- :"0" (_HLD), "1" (_F), "d" (Z80.Reg.d)							\
- )
-#endif
-#else
-#define ADC16(Reg)												\
-{																\
-	UINT32 res = _HLD + z80->Z80.Reg.d + (_F & CF);					\
-	_F = (((_HLD ^ res ^ z80->Z80.Reg.d) >> 8) & HF) |				\
-		((res >> 16) & CF) |									\
-		((res >> 8) & (SF | YF | XF)) |							\
-		((res & 0xffff) ? 0 : ZF) |								\
-		(((z80->Z80.Reg.d ^ _HLD ^ 0x8000) & (z80->Z80.Reg.d ^ res) & 0x8000) >> 13); \
-	_HL = (UINT16)res;											\
-}
-#endif
-
-/***************************************************************
- * SBC	r16,r16
- ***************************************************************/
-#ifdef	X86_ASM
-#if Z80_EXACT
-#define SBC16(Reg)												\
-asm (															\
- " shrb $1,%1			\n"										\
- " sbbb %%dl,%%cl		\n"										\
- " lahf					\n"										\
- " movb %%ah,%%dl		\n"										\
- " sbbb %%dh,%%ch		\n"										\
- " lahf					\n"										\
- " setob %1				\n"										\
- " orb $0xbf,%%dl		\n" /* set all but zero */				\
- " stc					\n"										\
- " adcb %1,%1			\n"										\
- " andb $0xd1,%%ah		\n" /* sign,zero,half carry and carry */\
- " addb %1,%1			\n"										\
- " orb %%ah,%1			\n" /* overflow into P/V */				\
- " andb %%dl,%1			\n" /* mask zero */						\
- " movb %%ch,%%ah		\n" /* get result MSB */				\
- " andb $0x28,%%ah		\n" /* maks flags 5+3 */				\
- " orb %%ah,%1			\n" /* put them into flags */			\
- :"=c" (_HLD), "=q" (_F)										\
- :"0" (_HLD), "1" (_F), "d" (Z80.Reg.d)							\
- )
-#else
-#define SBC16(Reg)												\
-asm (															\
- " shrb $1,%1			\n"										\
- " sbbb %%dl,%%cl		\n"										\
- " lahf					\n"										\
- " movb %%ah,%%dl		\n"										\
- " sbbb %%dh,%%ch		\n"										\
- " lahf					\n"										\
- " setob %1				\n"										\
- " orb $0xbf,%%dl		\n" /* set all but zero */				\
- " stc					\n"										\
- " adcb %1,%1			\n"										\
- " andb $0xd1,%%ah		\n" /* sign,zero,half carry and carry */\
- " addb %1,%1			\n"										\
- " orb %%ah,%1			\n" /* overflow into P/V */				\
- " andb %%dl,%1			\n" /* mask zero */						\
- :"=c" (_HLD), "=q" (_F)										\
- :"0" (_HLD), "1" (_F), "d" (Z80.Reg.d)							\
- )
-#endif
-#else
-#define SBC16(Reg)												\
-{																\
-	UINT32 res = _HLD - z80->Z80.Reg.d - (_F & CF);					\
-	_F = (((_HLD ^ res ^ z80->Z80.Reg.d) >> 8) & HF) | NF |			\
-		((res >> 16) & CF) |									\
-		((res >> 8) & (SF | YF | XF)) |							\
-		((res & 0xffff) ? 0 : ZF) |								\
-		(((z80->Z80.Reg.d ^ _HLD) & (_HLD ^ res) &0x8000) >> 13);	\
-	_HL = (UINT16)res;											\
-}
-#endif
-
-/***************************************************************
- * RLC	r8
- ***************************************************************/
-static INLINE UINT8 RLC(z80_state_t *z80, UINT8 value)
-{
-	unsigned res = value;
-	unsigned c = (res & 0x80) ? CF : 0;
-	res = ((res << 1) | (res >> 7)) & 0xff;
-	_F = z80->SZP[res] | c;
-	return res;
-}
-
-/***************************************************************
- * RRC	r8
- ***************************************************************/
-static INLINE UINT8 RRC(z80_state_t *z80, UINT8 value)
-{
-	unsigned res = value;
-	unsigned c = (res & 0x01) ? CF : 0;
-	res = ((res >> 1) | (res << 7)) & 0xff;
-	_F = z80->SZP[res] | c;
-	return res;
-}
-
-/***************************************************************
- * RL	r8
- ***************************************************************/
-static INLINE UINT8 RL(z80_state_t *z80, UINT8 value)
-{
-	unsigned res = value;
-	unsigned c = (res & 0x80) ? CF : 0;
-	res = ((res << 1) | (_F & CF)) & 0xff;
-	_F = z80->SZP[res] | c;
-	return res;
-}
-
-/***************************************************************
- * RR	r8
- ***************************************************************/
-static INLINE UINT8 RR(z80_state_t *z80, UINT8 value)
-{
-	unsigned res = value;
-	unsigned c = (res & 0x01) ? CF : 0;
-	res = ((res >> 1) | (_F << 7)) & 0xff;
-	_F = z80->SZP[res] | c;
-	return res;
-}
-
-/***************************************************************
- * SLA	r8
- ***************************************************************/
-static INLINE UINT8 SLA(z80_state_t *z80, UINT8 value)
-{
-	unsigned res = value;
-	unsigned c = (res & 0x80) ? CF : 0;
-	res = (res << 1) & 0xff;
-	_F = z80->SZP[res] | c;
-	return res;
-}
-
-/***************************************************************
- * SRA	r8
- ***************************************************************/
-static INLINE UINT8 SRA(z80_state_t *z80, UINT8 value)
-{
-	unsigned res = value;
-	unsigned c = (res & 0x01) ? CF : 0;
-	res = ((res >> 1) | (res & 0x80)) & 0xff;
-	_F = z80->SZP[res] | c;
-	return res;
-}
-
-/***************************************************************
- * SLL	r8
- ***************************************************************/
-static INLINE UINT8 SLL(z80_state_t *z80, UINT8 value)
-{
-	unsigned res = value;
-	unsigned c = (res & 0x80) ? CF : 0;
-	res = ((res << 1) | 0x01) & 0xff;
-	_F = z80->SZP[res] | c;
-	return res;
-}
-
-/***************************************************************
- * SRL	r8
- ***************************************************************/
-static INLINE UINT8 SRL(z80_state_t *z80, UINT8 value)
-{
-	unsigned res = value;
-	unsigned c = (res & 0x01) ? CF : 0;
-	res = (res >> 1) & 0xff;
-	_F = z80->SZP[res] | c;
-	return res;
-}
-
-/***************************************************************
- * BIT	bit,r8
- ***************************************************************/
-#undef BIT
-#define BIT(z80,bit,reg)											\
-	_F = (_F & CF) | HF | z80->SZ_BIT[reg & (1<<bit)]
-
-/***************************************************************
- * BIT	bit,(IX/Y+o)
- ***************************************************************/
-#if Z80_EXACT
-#define BIT_XY(z80,bit,reg)											\
-	_F = (_F & CF) | HF | (z80->SZ_BIT[reg & (1<<bit)] & ~(YF|XF)) | ((z80->EA>>8) & (YF|XF))
-#else
-#define BIT_XY	BIT
-#endif
-
-/***************************************************************
- * RES	bit,r8
- ***************************************************************/
-static INLINE UINT8 RES(z80_state_t *z80, UINT8 bit, UINT8 value)
-{
-	return value & ~(1<<bit);
-}
-
-/***************************************************************
- * SET	bit,r8
- ***************************************************************/
-static INLINE UINT8 SET(z80_state_t *z80, UINT8 bit, UINT8 value)
-{
-	return value | (1<<bit);
-}
-
-/***************************************************************
- * LDI
- ***************************************************************/
-#if Z80_EXACT
-#define LDI {													\
-	UINT8 io = RM(_HL);											\
-	WM( _DE, io );												\
-	_F &= SF | ZF | CF;											\
-	if( (_Z80_A + io) & 0x02 ) _F |= YF; /* bit 1 -> flag 5 */		\
-	if( (_Z80_A + io) & 0x08 ) _F |= XF; /* bit 3 -> flag 3 */		\
-	_HL++; _DE++; _BC--;										\
-	if( _BC ) _F |= VF;											\
-}
-#else
-#define LDI {													\
-	WM( _DE, RM(_HL) );											\
-	_F &= SF | ZF | YF | XF | CF;								\
-	_HL++; _DE++; _BC--;										\
-	if( _BC ) _F |= VF;											\
-}
-#endif
-
-/***************************************************************
- * CPI
- ***************************************************************/
-#if Z80_EXACT
-#define CPI {													\
-	UINT8 val = RM(_HL);										\
-	UINT8 res = _Z80_A - val;										\
-	_HL++; _BC--;												\
-	_F = (_F & CF) | (z80->SZ[res] & ~(YF|XF)) | ((_Z80_A ^ val ^ res) & HF) | NF;  \
-	if( _F & HF ) res -= 1;										\
-	if( res & 0x02 ) _F |= YF; /* bit 1 -> flag 5 */			\
-	if( res & 0x08 ) _F |= XF; /* bit 3 -> flag 3 */			\
-	if( _BC ) _F |= VF;											\
-}
-#else
-#define CPI {													\
-	UINT8 val = RM(_HL);										\
-	UINT8 res = _Z80_A - val;										\
-	_HL++; _BC--;												\
-	_F = (_F & CF) | z80->SZ[res] | ((_Z80_A ^ val ^ res) & HF) | NF;	\
-	if( _BC ) _F |= VF;											\
-}
-#endif
-
-/***************************************************************
- * INI
- ***************************************************************/
-#if Z80_EXACT
-#define INI {													\
-	unsigned t;													\
-	UINT8 io = IN(_BC);											\
-	_Z80_B--;														\
-	WM( _HL, io );												\
-	_HL++;														\
-	_F = z80->SZ[_Z80_B];												\
-	t = (unsigned)((_Z80_C + 1) & 0xff) + (unsigned)io;				\
-	if( io & SF ) _F |= NF;										\
-	if( t & 0x100 ) _F |= HF | CF;								\
-	_F |= z80->SZP[(UINT8)(t & 0x07) ^ _Z80_B] & PF;						\
-}
-#else
-#define INI {													\
-	_Z80_B--;														\
-	WM( _HL, IN(_BC) );											\
-	_HL++;														\
-	_F = (_Z80_B) ? NF : NF | ZF;									\
-}
-#endif
-
-/***************************************************************
- * OUTI
- ***************************************************************/
-#if Z80_EXACT
-#define OUTI {													\
-	unsigned t;													\
-	UINT8 io = RM(_HL);											\
-	_Z80_B--;														\
-	OUT( _BC, io );												\
-	_HL++;														\
-	_F = z80->SZ[_Z80_B];												\
-	t = (unsigned)_Z80_L + (unsigned)io;							\
-	if( io & SF ) _F |= NF;										\
-	if( t & 0x100 ) _F |= HF | CF;								\
-	_F |= z80->SZP[(UINT8)(t & 0x07) ^ _Z80_B] & PF;						\
-}
-#else
-#define OUTI {													\
-	_Z80_B--;														\
-	OUT( _BC, RM(_HL) );										\
-	_HL++;														\
-	_F = (_Z80_B) ? NF : NF | ZF;									\
-}
-#endif
-
-/***************************************************************
- * LDD
- ***************************************************************/
-#if Z80_EXACT
-#define LDD {													\
-	UINT8 io = RM(_HL);											\
-	WM( _DE, io );												\
-	_F &= SF | ZF | CF;											\
-	if( (_Z80_A + io) & 0x02 ) _F |= YF; /* bit 1 -> flag 5 */		\
-	if( (_Z80_A + io) & 0x08 ) _F |= XF; /* bit 3 -> flag 3 */		\
-	_HL--; _DE--; _BC--;										\
-	if( _BC ) _F |= VF;											\
-}
-#else
-#define LDD {													\
-	WM( _DE, RM(_HL) );											\
-	_F &= SF | ZF | YF | XF | CF;								\
-	_HL--; _DE--; _BC--;										\
-	if( _BC ) _F |= VF;											\
-}
-#endif
-
-/***************************************************************
- * CPD
- ***************************************************************/
-#if Z80_EXACT
-#define CPD {													\
-	UINT8 val = RM(_HL);										\
-	UINT8 res = _Z80_A - val;										\
-	_HL--; _BC--;												\
-	_F = (_F & CF) | (z80->SZ[res] & ~(YF|XF)) | ((_Z80_A ^ val ^ res) & HF) | NF;  \
-	if( _F & HF ) res -= 1;										\
-	if( res & 0x02 ) _F |= YF; /* bit 1 -> flag 5 */			\
-	if( res & 0x08 ) _F |= XF; /* bit 3 -> flag 3 */			\
-	if( _BC ) _F |= VF;											\
-}
-#else
-#define CPD {													\
-	UINT8 val = RM(_HL);										\
-	UINT8 res = _Z80_A - val;										\
-	_HL--; _BC--;												\
-	_F = (_F & CF) | z80->SZ[res] | ((_Z80_A ^ val ^ res) & HF) | NF;	\
-	if( _BC ) _F |= VF;											\
-}
-#endif
-
-/***************************************************************
- * IND
- ***************************************************************/
-#if Z80_EXACT
-#define IND {													\
-	unsigned t;													\
-	UINT8 io = IN(_BC);											\
-	_Z80_B--;														\
-	WM( _HL, io );												\
-	_HL--;														\
-	_F = z80->SZ[_Z80_B];												\
-	t = ((unsigned)(_Z80_C - 1) & 0xff) + (unsigned)io;				\
-	if( io & SF ) _F |= NF;										\
-	if( t & 0x100 ) _F |= HF | CF;								\
-	_F |= z80->SZP[(UINT8)(t & 0x07) ^ _Z80_B] & PF;						\
-}
-#else
-#define IND {													\
-	_Z80_B--;														\
-	WM( _HL, IN(_BC) );											\
-	_HL--;														\
-	_F = (_Z80_B) ? NF : NF | ZF;									\
-}
-#endif
-
-/***************************************************************
- * OUTD
- ***************************************************************/
-#if Z80_EXACT
-#define OUTD {													\
-	unsigned t;													\
-	UINT8 io = RM(_HL);											\
-	_Z80_B--;														\
-	OUT( _BC, io );												\
-	_HL--;														\
-	_F = z80->SZ[_Z80_B];												\
-	t = (unsigned)_Z80_L + (unsigned)io;							\
-	if( io & SF ) _F |= NF;										\
-	if( t & 0x100 ) _F |= HF | CF;								\
-	_F |= z80->SZP[(UINT8)(t & 0x07) ^ _Z80_B] & PF;						\
-}
-#else
-#define OUTD {													\
-	_Z80_B--;														\
-	OUT( _BC, RM(_HL) );										\
-	_HL--;														\
-	_F = (_Z80_B) ? NF : NF | ZF;									\
-}
-#endif
-
-/***************************************************************
- * LDIR
- ***************************************************************/
-#define LDIR													\
-	LDI;														\
-	if( _BC )													\
-	{															\
-		_PC -= 2;												\
-		CC(ex,0xb0);											\
-	}
-
-/***************************************************************
- * CPIR
- ***************************************************************/
-#define CPIR													\
-	CPI;														\
-	if( _BC && !(_F & ZF) )										\
-	{															\
-		_PC -= 2;												\
-		CC(ex,0xb1);											\
-	}
-
-/***************************************************************
- * INIR
- ***************************************************************/
-#define INIR													\
-	INI;														\
-	if( _Z80_B )													\
-	{															\
-		_PC -= 2;												\
-		CC(ex,0xb2);											\
-	}
-
-/***************************************************************
- * OTIR
- ***************************************************************/
-#define OTIR													\
-	OUTI;														\
-	if( _Z80_B )													\
-	{															\
-		_PC -= 2;												\
-		CC(ex,0xb3);											\
-	}
-
-/***************************************************************
- * LDDR
- ***************************************************************/
-#define LDDR													\
-	LDD;														\
-	if( _BC )													\
-	{															\
-		_PC -= 2;												\
-		CC(ex,0xb8);											\
-	}
-
-/***************************************************************
- * CPDR
- ***************************************************************/
-#define CPDR													\
-	CPD;														\
-	if( _BC && !(_F & ZF) )										\
-	{															\
-		_PC -= 2;												\
-		CC(ex,0xb9);											\
-	}
-
-/***************************************************************
- * INDR
- ***************************************************************/
-#define INDR													\
-	IND;														\
-	if( _Z80_B )													\
-	{															\
-		_PC -= 2;												\
-		CC(ex,0xba);											\
-	}
-
-/***************************************************************
- * OTDR
- ***************************************************************/
-#define OTDR													\
-	OUTD;														\
-	if( _Z80_B )													\
-	{															\
-		_PC -= 2;												\
-		CC(ex,0xbb);											\
-	}
-
-/***************************************************************
- * EI
- ***************************************************************/
-#define EI {													\
-	/* If interrupts were disabled, execute one more			\
-	 * instruction and check the IRQ line.						\
-	 * If not, simply set interrupt flip-flop 2					\
-	 */															\
-	if( _IFF1 == 0 )											\
-	{															\
-		_IFF1 = _IFF2 = 1;										\
-		_PPC = _PCD;											\
-		CALL_MAME_DEBUG;										\
-		_Z80_R++;													\
-		while( cpu_readop(z80->userdata,_PCD) == 0xfb ) /* more EIs? */		\
-		{														\
-			CC(op,0xfb);										\
-			_PPC =_PCD;											\
-			CALL_MAME_DEBUG;									\
-			_PC++;												\
-			_Z80_R++;												\
-		}														\
-		if( z80->Z80.irq_state != CLEAR_LINE ||						\
-			z80->Z80.request_irq >= 0 )								\
-		{														\
-			z80->after_EI = 1;	/* avoid cycle skip hacks */		\
-			EXEC(op,ROP(z80));										\
-			z80->after_EI = 0;										\
-			take_interrupt(z80);									\
-		} else EXEC(op,ROP(z80));									\
-	} else _IFF2 = 1;											\
-}
-
-/**********************************************************
- * opcodes with CB prefix
- * rotate, shift and bit operations
- **********************************************************/
-OP(cb,00) { _Z80_B = RLC(z80, _Z80_B);											} /* RLC  B			  */
-OP(cb,01) { _Z80_C = RLC(z80, _Z80_C);											} /* RLC  C			  */
-OP(cb,02) { _Z80_D = RLC(z80, _Z80_D);											} /* RLC  D			  */
-OP(cb,03) { _Z80_E = RLC(z80, _Z80_E);											} /* RLC  E			  */
-OP(cb,04) { _Z80_H = RLC(z80, _Z80_H);											} /* RLC  H			  */
-OP(cb,05) { _Z80_L = RLC(z80, _Z80_L);											} /* RLC  L			  */
-OP(cb,06) { WM( _HL, RLC(z80, RM(_HL)) );								} /* RLC  (HL)		  */
-OP(cb,07) { _Z80_A = RLC(z80, _Z80_A);											} /* RLC  A			  */
-
-OP(cb,08) { _Z80_B = RRC(z80, _Z80_B);											} /* RRC  B			  */
-OP(cb,09) { _Z80_C = RRC(z80, _Z80_C);											} /* RRC  C			  */
-OP(cb,0a) { _Z80_D = RRC(z80, _Z80_D);											} /* RRC  D			  */
-OP(cb,0b) { _Z80_E = RRC(z80, _Z80_E);											} /* RRC  E			  */
-OP(cb,0c) { _Z80_H = RRC(z80, _Z80_H);											} /* RRC  H			  */
-OP(cb,0d) { _Z80_L = RRC(z80, _Z80_L);											} /* RRC  L			  */
-OP(cb,0e) { WM( _HL, RRC(z80, RM(_HL)) );								} /* RRC  (HL)		  */
-OP(cb,0f) { _Z80_A = RRC(z80, _Z80_A);											} /* RRC  A			  */
-
-OP(cb,10) { _Z80_B = RL(z80, _Z80_B);											} /* RL   B			  */
-OP(cb,11) { _Z80_C = RL(z80, _Z80_C);											} /* RL   C			  */
-OP(cb,12) { _Z80_D = RL(z80, _Z80_D);											} /* RL   D			  */
-OP(cb,13) { _Z80_E = RL(z80, _Z80_E);											} /* RL   E			  */
-OP(cb,14) { _Z80_H = RL(z80, _Z80_H);											} /* RL   H			  */
-OP(cb,15) { _Z80_L = RL(z80, _Z80_L);											} /* RL   L			  */
-OP(cb,16) { WM( _HL, RL(z80, RM(_HL)) );									} /* RL   (HL)		  */
-OP(cb,17) { _Z80_A = RL(z80, _Z80_A);											} /* RL   A			  */
-
-OP(cb,18) { _Z80_B = RR(z80, _Z80_B);											} /* RR   B			  */
-OP(cb,19) { _Z80_C = RR(z80, _Z80_C);											} /* RR   C			  */
-OP(cb,1a) { _Z80_D = RR(z80, _Z80_D);											} /* RR   D			  */
-OP(cb,1b) { _Z80_E = RR(z80, _Z80_E);											} /* RR   E			  */
-OP(cb,1c) { _Z80_H = RR(z80, _Z80_H);											} /* RR   H			  */
-OP(cb,1d) { _Z80_L = RR(z80, _Z80_L);											} /* RR   L			  */
-OP(cb,1e) { WM( _HL, RR(z80, RM(_HL)) );									} /* RR   (HL)		  */
-OP(cb,1f) { _Z80_A = RR(z80, _Z80_A);											} /* RR   A			  */
-
-OP(cb,20) { _Z80_B = SLA(z80, _Z80_B);											} /* SLA  B			  */
-OP(cb,21) { _Z80_C = SLA(z80, _Z80_C);											} /* SLA  C			  */
-OP(cb,22) { _Z80_D = SLA(z80, _Z80_D);											} /* SLA  D			  */
-OP(cb,23) { _Z80_E = SLA(z80, _Z80_E);											} /* SLA  E			  */
-OP(cb,24) { _Z80_H = SLA(z80, _Z80_H);											} /* SLA  H			  */
-OP(cb,25) { _Z80_L = SLA(z80, _Z80_L);											} /* SLA  L			  */
-OP(cb,26) { WM( _HL, SLA(z80, RM(_HL)) );								} /* SLA  (HL)		  */
-OP(cb,27) { _Z80_A = SLA(z80, _Z80_A);											} /* SLA  A			  */
-
-OP(cb,28) { _Z80_B = SRA(z80, _Z80_B);											} /* SRA  B			  */
-OP(cb,29) { _Z80_C = SRA(z80, _Z80_C);											} /* SRA  C			  */
-OP(cb,2a) { _Z80_D = SRA(z80, _Z80_D);											} /* SRA  D			  */
-OP(cb,2b) { _Z80_E = SRA(z80, _Z80_E);											} /* SRA  E			  */
-OP(cb,2c) { _Z80_H = SRA(z80, _Z80_H);											} /* SRA  H			  */
-OP(cb,2d) { _Z80_L = SRA(z80, _Z80_L);											} /* SRA  L			  */
-OP(cb,2e) { WM( _HL, SRA(z80, RM(_HL)) );								} /* SRA  (HL)		  */
-OP(cb,2f) { _Z80_A = SRA(z80, _Z80_A);											} /* SRA  A			  */
-
-OP(cb,30) { _Z80_B = SLL(z80, _Z80_B);											} /* SLL  B			  */
-OP(cb,31) { _Z80_C = SLL(z80, _Z80_C);											} /* SLL  C			  */
-OP(cb,32) { _Z80_D = SLL(z80, _Z80_D);											} /* SLL  D			  */
-OP(cb,33) { _Z80_E = SLL(z80, _Z80_E);											} /* SLL  E			  */
-OP(cb,34) { _Z80_H = SLL(z80, _Z80_H);											} /* SLL  H			  */
-OP(cb,35) { _Z80_L = SLL(z80, _Z80_L);											} /* SLL  L			  */
-OP(cb,36) { WM( _HL, SLL(z80, RM(_HL)) );								} /* SLL  (HL)		  */
-OP(cb,37) { _Z80_A = SLL(z80, _Z80_A);											} /* SLL  A			  */
-
-OP(cb,38) { _Z80_B = SRL(z80, _Z80_B);											} /* SRL  B			  */
-OP(cb,39) { _Z80_C = SRL(z80, _Z80_C);											} /* SRL  C			  */
-OP(cb,3a) { _Z80_D = SRL(z80, _Z80_D);											} /* SRL  D			  */
-OP(cb,3b) { _Z80_E = SRL(z80, _Z80_E);											} /* SRL  E			  */
-OP(cb,3c) { _Z80_H = SRL(z80, _Z80_H);											} /* SRL  H			  */
-OP(cb,3d) { _Z80_L = SRL(z80, _Z80_L);											} /* SRL  L			  */
-OP(cb,3e) { WM( _HL, SRL(z80, RM(_HL)) );								} /* SRL  (HL)		  */
-OP(cb,3f) { _Z80_A = SRL(z80, _Z80_A);											} /* SRL  A			  */
-
-OP(cb,40) { BIT(z80, 0,_Z80_B);												} /* BIT  0,B		  */
-OP(cb,41) { BIT(z80, 0,_Z80_C);												} /* BIT  0,C		  */
-OP(cb,42) { BIT(z80, 0,_Z80_D);												} /* BIT  0,D		  */
-OP(cb,43) { BIT(z80, 0,_Z80_E);												} /* BIT  0,E		  */
-OP(cb,44) { BIT(z80, 0,_Z80_H);												} /* BIT  0,H		  */
-OP(cb,45) { BIT(z80, 0,_Z80_L);												} /* BIT  0,L		  */
-OP(cb,46) { BIT(z80, 0,RM(_HL));											} /* BIT  0,(HL)	  */
-OP(cb,47) { BIT(z80, 0,_Z80_A);												} /* BIT  0,A		  */
-
-OP(cb,48) { BIT(z80, 1,_Z80_B);												} /* BIT  1,B		  */
-OP(cb,49) { BIT(z80, 1,_Z80_C);												} /* BIT  1,C		  */
-OP(cb,4a) { BIT(z80, 1,_Z80_D);												} /* BIT  1,D		  */
-OP(cb,4b) { BIT(z80, 1,_Z80_E);												} /* BIT  1,E		  */
-OP(cb,4c) { BIT(z80, 1,_Z80_H);												} /* BIT  1,H		  */
-OP(cb,4d) { BIT(z80, 1,_Z80_L);												} /* BIT  1,L		  */
-OP(cb,4e) { BIT(z80, 1,RM(_HL));											} /* BIT  1,(HL)	  */
-OP(cb,4f) { BIT(z80, 1,_Z80_A);												} /* BIT  1,A		  */
-
-OP(cb,50) { BIT(z80, 2,_Z80_B);												} /* BIT  2,B		  */
-OP(cb,51) { BIT(z80, 2,_Z80_C);												} /* BIT  2,C		  */
-OP(cb,52) { BIT(z80, 2,_Z80_D);												} /* BIT  2,D		  */
-OP(cb,53) { BIT(z80, 2,_Z80_E);												} /* BIT  2,E		  */
-OP(cb,54) { BIT(z80, 2,_Z80_H);												} /* BIT  2,H		  */
-OP(cb,55) { BIT(z80, 2,_Z80_L);												} /* BIT  2,L		  */
-OP(cb,56) { BIT(z80, 2,RM(_HL));											} /* BIT  2,(HL)	  */
-OP(cb,57) { BIT(z80, 2,_Z80_A);												} /* BIT  2,A		  */
-
-OP(cb,58) { BIT(z80, 3,_Z80_B);												} /* BIT  3,B		  */
-OP(cb,59) { BIT(z80, 3,_Z80_C);												} /* BIT  3,C		  */
-OP(cb,5a) { BIT(z80, 3,_Z80_D);												} /* BIT  3,D		  */
-OP(cb,5b) { BIT(z80, 3,_Z80_E);												} /* BIT  3,E		  */
-OP(cb,5c) { BIT(z80, 3,_Z80_H);												} /* BIT  3,H		  */
-OP(cb,5d) { BIT(z80, 3,_Z80_L);												} /* BIT  3,L		  */
-OP(cb,5e) { BIT(z80, 3,RM(_HL));											} /* BIT  3,(HL)	  */
-OP(cb,5f) { BIT(z80, 3,_Z80_A);												} /* BIT  3,A		  */
-
-OP(cb,60) { BIT(z80, 4,_Z80_B);												} /* BIT  4,B		  */
-OP(cb,61) { BIT(z80, 4,_Z80_C);												} /* BIT  4,C		  */
-OP(cb,62) { BIT(z80, 4,_Z80_D);												} /* BIT  4,D		  */
-OP(cb,63) { BIT(z80, 4,_Z80_E);												} /* BIT  4,E		  */
-OP(cb,64) { BIT(z80, 4,_Z80_H);												} /* BIT  4,H		  */
-OP(cb,65) { BIT(z80, 4,_Z80_L);												} /* BIT  4,L		  */
-OP(cb,66) { BIT(z80, 4,RM(_HL));											} /* BIT  4,(HL)	  */
-OP(cb,67) { BIT(z80, 4,_Z80_A);												} /* BIT  4,A		  */
-
-OP(cb,68) { BIT(z80, 5,_Z80_B);												} /* BIT  5,B		  */
-OP(cb,69) { BIT(z80, 5,_Z80_C);												} /* BIT  5,C		  */
-OP(cb,6a) { BIT(z80, 5,_Z80_D);												} /* BIT  5,D		  */
-OP(cb,6b) { BIT(z80, 5,_Z80_E);												} /* BIT  5,E		  */
-OP(cb,6c) { BIT(z80, 5,_Z80_H);												} /* BIT  5,H		  */
-OP(cb,6d) { BIT(z80, 5,_Z80_L);												} /* BIT  5,L		  */
-OP(cb,6e) { BIT(z80, 5,RM(_HL));											} /* BIT  5,(HL)	  */
-OP(cb,6f) { BIT(z80, 5,_Z80_A);												} /* BIT  5,A		  */
-
-OP(cb,70) { BIT(z80, 6,_Z80_B);												} /* BIT  6,B		  */
-OP(cb,71) { BIT(z80, 6,_Z80_C);												} /* BIT  6,C		  */
-OP(cb,72) { BIT(z80, 6,_Z80_D);												} /* BIT  6,D		  */
-OP(cb,73) { BIT(z80, 6,_Z80_E);												} /* BIT  6,E		  */
-OP(cb,74) { BIT(z80, 6,_Z80_H);												} /* BIT  6,H		  */
-OP(cb,75) { BIT(z80, 6,_Z80_L);												} /* BIT  6,L		  */
-OP(cb,76) { BIT(z80, 6,RM(_HL));											} /* BIT  6,(HL)	  */
-OP(cb,77) { BIT(z80, 6,_Z80_A);												} /* BIT  6,A		  */
-
-OP(cb,78) { BIT(z80, 7,_Z80_B);												} /* BIT  7,B		  */
-OP(cb,79) { BIT(z80, 7,_Z80_C);												} /* BIT  7,C		  */
-OP(cb,7a) { BIT(z80, 7,_Z80_D);												} /* BIT  7,D		  */
-OP(cb,7b) { BIT(z80, 7,_Z80_E);												} /* BIT  7,E		  */
-OP(cb,7c) { BIT(z80, 7,_Z80_H);												} /* BIT  7,H		  */
-OP(cb,7d) { BIT(z80, 7,_Z80_L);												} /* BIT  7,L		  */
-OP(cb,7e) { BIT(z80, 7,RM(_HL));											} /* BIT  7,(HL)	  */
-OP(cb,7f) { BIT(z80, 7,_Z80_A);												} /* BIT  7,A		  */
-
-OP(cb,80) { _Z80_B = RES(z80, 0,_Z80_B);											} /* RES  0,B		  */
-OP(cb,81) { _Z80_C = RES(z80, 0,_Z80_C);											} /* RES  0,C		  */
-OP(cb,82) { _Z80_D = RES(z80, 0,_Z80_D);											} /* RES  0,D		  */
-OP(cb,83) { _Z80_E = RES(z80, 0,_Z80_E);											} /* RES  0,E		  */
-OP(cb,84) { _Z80_H = RES(z80, 0,_Z80_H);											} /* RES  0,H		  */
-OP(cb,85) { _Z80_L = RES(z80, 0,_Z80_L);											} /* RES  0,L		  */
-OP(cb,86) { WM( _HL, RES(z80, 0,RM(_HL)) );								} /* RES  0,(HL)	  */
-OP(cb,87) { _Z80_A = RES(z80, 0,_Z80_A);											} /* RES  0,A		  */
-
-OP(cb,88) { _Z80_B = RES(z80, 1,_Z80_B);											} /* RES  1,B		  */
-OP(cb,89) { _Z80_C = RES(z80, 1,_Z80_C);											} /* RES  1,C		  */
-OP(cb,8a) { _Z80_D = RES(z80, 1,_Z80_D);											} /* RES  1,D		  */
-OP(cb,8b) { _Z80_E = RES(z80, 1,_Z80_E);											} /* RES  1,E		  */
-OP(cb,8c) { _Z80_H = RES(z80, 1,_Z80_H);											} /* RES  1,H		  */
-OP(cb,8d) { _Z80_L = RES(z80, 1,_Z80_L);											} /* RES  1,L		  */
-OP(cb,8e) { WM( _HL, RES(z80, 1,RM(_HL)) );								} /* RES  1,(HL)	  */
-OP(cb,8f) { _Z80_A = RES(z80, 1,_Z80_A);											} /* RES  1,A		  */
-
-OP(cb,90) { _Z80_B = RES(z80, 2,_Z80_B);											} /* RES  2,B		  */
-OP(cb,91) { _Z80_C = RES(z80, 2,_Z80_C);											} /* RES  2,C		  */
-OP(cb,92) { _Z80_D = RES(z80, 2,_Z80_D);											} /* RES  2,D		  */
-OP(cb,93) { _Z80_E = RES(z80, 2,_Z80_E);											} /* RES  2,E		  */
-OP(cb,94) { _Z80_H = RES(z80, 2,_Z80_H);											} /* RES  2,H		  */
-OP(cb,95) { _Z80_L = RES(z80, 2,_Z80_L);											} /* RES  2,L		  */
-OP(cb,96) { WM( _HL, RES(z80, 2,RM(_HL)) );								} /* RES  2,(HL)	  */
-OP(cb,97) { _Z80_A = RES(z80, 2,_Z80_A);											} /* RES  2,A		  */
-
-OP(cb,98) { _Z80_B = RES(z80, 3,_Z80_B);											} /* RES  3,B		  */
-OP(cb,99) { _Z80_C = RES(z80, 3,_Z80_C);											} /* RES  3,C		  */
-OP(cb,9a) { _Z80_D = RES(z80, 3,_Z80_D);											} /* RES  3,D		  */
-OP(cb,9b) { _Z80_E = RES(z80, 3,_Z80_E);											} /* RES  3,E		  */
-OP(cb,9c) { _Z80_H = RES(z80, 3,_Z80_H);											} /* RES  3,H		  */
-OP(cb,9d) { _Z80_L = RES(z80, 3,_Z80_L);											} /* RES  3,L		  */
-OP(cb,9e) { WM( _HL, RES(z80, 3,RM(_HL)) );								} /* RES  3,(HL)	  */
-OP(cb,9f) { _Z80_A = RES(z80, 3,_Z80_A);											} /* RES  3,A		  */
-
-OP(cb,a0) { _Z80_B = RES(z80, 4,_Z80_B);											} /* RES  4,B		  */
-OP(cb,a1) { _Z80_C = RES(z80, 4,_Z80_C);											} /* RES  4,C		  */
-OP(cb,a2) { _Z80_D = RES(z80, 4,_Z80_D);											} /* RES  4,D		  */
-OP(cb,a3) { _Z80_E = RES(z80, 4,_Z80_E);											} /* RES  4,E		  */
-OP(cb,a4) { _Z80_H = RES(z80, 4,_Z80_H);											} /* RES  4,H		  */
-OP(cb,a5) { _Z80_L = RES(z80, 4,_Z80_L);											} /* RES  4,L		  */
-OP(cb,a6) { WM( _HL, RES(z80, 4,RM(_HL)) );								} /* RES  4,(HL)	  */
-OP(cb,a7) { _Z80_A = RES(z80, 4,_Z80_A);											} /* RES  4,A		  */
-
-OP(cb,a8) { _Z80_B = RES(z80, 5,_Z80_B);											} /* RES  5,B		  */
-OP(cb,a9) { _Z80_C = RES(z80, 5,_Z80_C);											} /* RES  5,C		  */
-OP(cb,aa) { _Z80_D = RES(z80, 5,_Z80_D);											} /* RES  5,D		  */
-OP(cb,ab) { _Z80_E = RES(z80, 5,_Z80_E);											} /* RES  5,E		  */
-OP(cb,ac) { _Z80_H = RES(z80, 5,_Z80_H);											} /* RES  5,H		  */
-OP(cb,ad) { _Z80_L = RES(z80, 5,_Z80_L);											} /* RES  5,L		  */
-OP(cb,ae) { WM( _HL, RES(z80, 5,RM(_HL)) );								} /* RES  5,(HL)	  */
-OP(cb,af) { _Z80_A = RES(z80, 5,_Z80_A);											} /* RES  5,A		  */
-
-OP(cb,b0) { _Z80_B = RES(z80, 6,_Z80_B);											} /* RES  6,B		  */
-OP(cb,b1) { _Z80_C = RES(z80, 6,_Z80_C);											} /* RES  6,C		  */
-OP(cb,b2) { _Z80_D = RES(z80, 6,_Z80_D);											} /* RES  6,D		  */
-OP(cb,b3) { _Z80_E = RES(z80, 6,_Z80_E);											} /* RES  6,E		  */
-OP(cb,b4) { _Z80_H = RES(z80, 6,_Z80_H);											} /* RES  6,H		  */
-OP(cb,b5) { _Z80_L = RES(z80, 6,_Z80_L);											} /* RES  6,L		  */
-OP(cb,b6) { WM( _HL, RES(z80, 6,RM(_HL)) );								} /* RES  6,(HL)	  */
-OP(cb,b7) { _Z80_A = RES(z80, 6,_Z80_A);											} /* RES  6,A		  */
-
-OP(cb,b8) { _Z80_B = RES(z80, 7,_Z80_B);											} /* RES  7,B		  */
-OP(cb,b9) { _Z80_C = RES(z80, 7,_Z80_C);											} /* RES  7,C		  */
-OP(cb,ba) { _Z80_D = RES(z80, 7,_Z80_D);											} /* RES  7,D		  */
-OP(cb,bb) { _Z80_E = RES(z80, 7,_Z80_E);											} /* RES  7,E		  */
-OP(cb,bc) { _Z80_H = RES(z80, 7,_Z80_H);											} /* RES  7,H		  */
-OP(cb,bd) { _Z80_L = RES(z80, 7,_Z80_L);											} /* RES  7,L		  */
-OP(cb,be) { WM( _HL, RES(z80, 7,RM(_HL)) );								} /* RES  7,(HL)	  */
-OP(cb,bf) { _Z80_A = RES(z80, 7,_Z80_A);											} /* RES  7,A		  */
-
-OP(cb,c0) { _Z80_B = SET(z80, 0,_Z80_B);											} /* SET  0,B		  */
-OP(cb,c1) { _Z80_C = SET(z80, 0,_Z80_C);											} /* SET  0,C		  */
-OP(cb,c2) { _Z80_D = SET(z80, 0,_Z80_D);											} /* SET  0,D		  */
-OP(cb,c3) { _Z80_E = SET(z80, 0,_Z80_E);											} /* SET  0,E		  */
-OP(cb,c4) { _Z80_H = SET(z80, 0,_Z80_H);											} /* SET  0,H		  */
-OP(cb,c5) { _Z80_L = SET(z80, 0,_Z80_L);											} /* SET  0,L		  */
-OP(cb,c6) { WM( _HL, SET(z80, 0,RM(_HL)) );								} /* SET  0,(HL)	  */
-OP(cb,c7) { _Z80_A = SET(z80, 0,_Z80_A);											} /* SET  0,A		  */
-
-OP(cb,c8) { _Z80_B = SET(z80, 1,_Z80_B);											} /* SET  1,B		  */
-OP(cb,c9) { _Z80_C = SET(z80, 1,_Z80_C);											} /* SET  1,C		  */
-OP(cb,ca) { _Z80_D = SET(z80, 1,_Z80_D);											} /* SET  1,D		  */
-OP(cb,cb) { _Z80_E = SET(z80, 1,_Z80_E);											} /* SET  1,E		  */
-OP(cb,cc) { _Z80_H = SET(z80, 1,_Z80_H);											} /* SET  1,H		  */
-OP(cb,cd) { _Z80_L = SET(z80, 1,_Z80_L);											} /* SET  1,L		  */
-OP(cb,ce) { WM( _HL, SET(z80, 1,RM(_HL)) );								} /* SET  1,(HL)	  */
-OP(cb,cf) { _Z80_A = SET(z80, 1,_Z80_A);											} /* SET  1,A		  */
-
-OP(cb,d0) { _Z80_B = SET(z80, 2,_Z80_B);											} /* SET  2,B		  */
-OP(cb,d1) { _Z80_C = SET(z80, 2,_Z80_C);											} /* SET  2,C		  */
-OP(cb,d2) { _Z80_D = SET(z80, 2,_Z80_D);											} /* SET  2,D		  */
-OP(cb,d3) { _Z80_E = SET(z80, 2,_Z80_E);											} /* SET  2,E		  */
-OP(cb,d4) { _Z80_H = SET(z80, 2,_Z80_H);											} /* SET  2,H		  */
-OP(cb,d5) { _Z80_L = SET(z80, 2,_Z80_L);											} /* SET  2,L		  */
-OP(cb,d6) { WM( _HL, SET(z80, 2,RM(_HL)) );								}/* SET  2,(HL)		 */
-OP(cb,d7) { _Z80_A = SET(z80, 2,_Z80_A);											} /* SET  2,A		  */
-
-OP(cb,d8) { _Z80_B = SET(z80, 3,_Z80_B);											} /* SET  3,B		  */
-OP(cb,d9) { _Z80_C = SET(z80, 3,_Z80_C);											} /* SET  3,C		  */
-OP(cb,da) { _Z80_D = SET(z80, 3,_Z80_D);											} /* SET  3,D		  */
-OP(cb,db) { _Z80_E = SET(z80, 3,_Z80_E);											} /* SET  3,E		  */
-OP(cb,dc) { _Z80_H = SET(z80, 3,_Z80_H);											} /* SET  3,H		  */
-OP(cb,dd) { _Z80_L = SET(z80, 3,_Z80_L);											} /* SET  3,L		  */
-OP(cb,de) { WM( _HL, SET(z80, 3,RM(_HL)) );								} /* SET  3,(HL)	  */
-OP(cb,df) { _Z80_A = SET(z80, 3,_Z80_A);											} /* SET  3,A		  */
-
-OP(cb,e0) { _Z80_B = SET(z80, 4,_Z80_B);											} /* SET  4,B		  */
-OP(cb,e1) { _Z80_C = SET(z80, 4,_Z80_C);											} /* SET  4,C		  */
-OP(cb,e2) { _Z80_D = SET(z80, 4,_Z80_D);											} /* SET  4,D		  */
-OP(cb,e3) { _Z80_E = SET(z80, 4,_Z80_E);											} /* SET  4,E		  */
-OP(cb,e4) { _Z80_H = SET(z80, 4,_Z80_H);											} /* SET  4,H		  */
-OP(cb,e5) { _Z80_L = SET(z80, 4,_Z80_L);											} /* SET  4,L		  */
-OP(cb,e6) { WM( _HL, SET(z80, 4,RM(_HL)) );								} /* SET  4,(HL)	  */
-OP(cb,e7) { _Z80_A = SET(z80, 4,_Z80_A);											} /* SET  4,A		  */
-
-OP(cb,e8) { _Z80_B = SET(z80, 5,_Z80_B);											} /* SET  5,B		  */
-OP(cb,e9) { _Z80_C = SET(z80, 5,_Z80_C);											} /* SET  5,C		  */
-OP(cb,ea) { _Z80_D = SET(z80, 5,_Z80_D);											} /* SET  5,D		  */
-OP(cb,eb) { _Z80_E = SET(z80, 5,_Z80_E);											} /* SET  5,E		  */
-OP(cb,ec) { _Z80_H = SET(z80, 5,_Z80_H);											} /* SET  5,H		  */
-OP(cb,ed) { _Z80_L = SET(z80, 5,_Z80_L);											} /* SET  5,L		  */
-OP(cb,ee) { WM( _HL, SET(z80, 5,RM(_HL)) );								} /* SET  5,(HL)	  */
-OP(cb,ef) { _Z80_A = SET(z80, 5,_Z80_A);											} /* SET  5,A		  */
-
-OP(cb,f0) { _Z80_B = SET(z80, 6,_Z80_B);											} /* SET  6,B		  */
-OP(cb,f1) { _Z80_C = SET(z80, 6,_Z80_C);											} /* SET  6,C		  */
-OP(cb,f2) { _Z80_D = SET(z80, 6,_Z80_D);											} /* SET  6,D		  */
-OP(cb,f3) { _Z80_E = SET(z80, 6,_Z80_E);											} /* SET  6,E		  */
-OP(cb,f4) { _Z80_H = SET(z80, 6,_Z80_H);											} /* SET  6,H		  */
-OP(cb,f5) { _Z80_L = SET(z80, 6,_Z80_L);											} /* SET  6,L		  */
-OP(cb,f6) { WM( _HL, SET(z80, 6,RM(_HL)) );								} /* SET  6,(HL)	  */
-OP(cb,f7) { _Z80_A = SET(z80, 6,_Z80_A);											} /* SET  6,A		  */
-
-OP(cb,f8) { _Z80_B = SET(z80, 7,_Z80_B);											} /* SET  7,B		  */
-OP(cb,f9) { _Z80_C = SET(z80, 7,_Z80_C);											} /* SET  7,C		  */
-OP(cb,fa) { _Z80_D = SET(z80, 7,_Z80_D);											} /* SET  7,D		  */
-OP(cb,fb) { _Z80_E = SET(z80, 7,_Z80_E);											} /* SET  7,E		  */
-OP(cb,fc) { _Z80_H = SET(z80, 7,_Z80_H);											} /* SET  7,H		  */
-OP(cb,fd) { _Z80_L = SET(z80, 7,_Z80_L);											} /* SET  7,L		  */
-OP(cb,fe) { WM( _HL, SET(z80, 7,RM(_HL)) );								} /* SET  7,(HL)	  */
-OP(cb,ff) { _Z80_A = SET(z80, 7,_Z80_A);											} /* SET  7,A		  */
-
-
-/**********************************************************
-* opcodes with DD/FD CB prefix
-* rotate, shift and bit operations with (IX+o)
-**********************************************************/
-OP(xycb,00) { _Z80_B = RLC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_B );						} /* RLC  B=(XY+o)	  */
-OP(xycb,01) { _Z80_C = RLC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_C );						} /* RLC  C=(XY+o)	  */
-OP(xycb,02) { _Z80_D = RLC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_D );						} /* RLC  D=(XY+o)	  */
-OP(xycb,03) { _Z80_E = RLC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_E );						} /* RLC  E=(XY+o)	  */
-OP(xycb,04) { _Z80_H = RLC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_H );						} /* RLC  H=(XY+o)	  */
-OP(xycb,05) { _Z80_L = RLC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_L );						} /* RLC  L=(XY+o)	  */
-OP(xycb,06) { WM( z80->EA, RLC(z80, RM(z80->EA) ) );								} /* RLC  (XY+o)	  */
-OP(xycb,07) { _Z80_A = RLC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_A );						} /* RLC  A=(XY+o)	  */
-
-OP(xycb,08) { _Z80_B = RRC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_B );						} /* RRC  B=(XY+o)	  */
-OP(xycb,09) { _Z80_C = RRC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_C );						} /* RRC  C=(XY+o)	  */
-OP(xycb,0a) { _Z80_D = RRC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_D );						} /* RRC  D=(XY+o)	  */
-OP(xycb,0b) { _Z80_E = RRC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_E );						} /* RRC  E=(XY+o)	  */
-OP(xycb,0c) { _Z80_H = RRC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_H );						} /* RRC  H=(XY+o)	  */
-OP(xycb,0d) { _Z80_L = RRC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_L );						} /* RRC  L=(XY+o)	  */
-OP(xycb,0e) { WM( z80->EA,RRC(z80, RM(z80->EA) ) );								} /* RRC  (XY+o)	  */
-OP(xycb,0f) { _Z80_A = RRC(z80, RM(z80->EA) ); WM( z80->EA,_Z80_A );						} /* RRC  A=(XY+o)	  */
-
-OP(xycb,10) { _Z80_B = RL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_B );						} /* RL   B=(XY+o)	  */
-OP(xycb,11) { _Z80_C = RL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_C );						} /* RL   C=(XY+o)	  */
-OP(xycb,12) { _Z80_D = RL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_D );						} /* RL   D=(XY+o)	  */
-OP(xycb,13) { _Z80_E = RL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_E );						} /* RL   E=(XY+o)	  */
-OP(xycb,14) { _Z80_H = RL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_H );						} /* RL   H=(XY+o)	  */
-OP(xycb,15) { _Z80_L = RL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_L );						} /* RL   L=(XY+o)	  */
-OP(xycb,16) { WM( z80->EA,RL(z80, RM(z80->EA) ) );								} /* RL   (XY+o)	  */
-OP(xycb,17) { _Z80_A = RL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_A );						} /* RL   A=(XY+o)	  */
-
-OP(xycb,18) { _Z80_B = RR(z80, RM(z80->EA) ); WM( z80->EA,_Z80_B );						} /* RR   B=(XY+o)	  */
-OP(xycb,19) { _Z80_C = RR(z80, RM(z80->EA) ); WM( z80->EA,_Z80_C );						} /* RR   C=(XY+o)	  */
-OP(xycb,1a) { _Z80_D = RR(z80, RM(z80->EA) ); WM( z80->EA,_Z80_D );						} /* RR   D=(XY+o)	  */
-OP(xycb,1b) { _Z80_E = RR(z80, RM(z80->EA) ); WM( z80->EA,_Z80_E );						} /* RR   E=(XY+o)	  */
-OP(xycb,1c) { _Z80_H = RR(z80, RM(z80->EA) ); WM( z80->EA,_Z80_H );						} /* RR   H=(XY+o)	  */
-OP(xycb,1d) { _Z80_L = RR(z80, RM(z80->EA) ); WM( z80->EA,_Z80_L );						} /* RR   L=(XY+o)	  */
-OP(xycb,1e) { WM( z80->EA,RR(z80, RM(z80->EA) ) );								} /* RR   (XY+o)	  */
-OP(xycb,1f) { _Z80_A = RR(z80, RM(z80->EA) ); WM( z80->EA,_Z80_A );						} /* RR   A=(XY+o)	  */
-
-OP(xycb,20) { _Z80_B = SLA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_B );						} /* SLA  B=(XY+o)	  */
-OP(xycb,21) { _Z80_C = SLA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_C );						} /* SLA  C=(XY+o)	  */
-OP(xycb,22) { _Z80_D = SLA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_D );						} /* SLA  D=(XY+o)	  */
-OP(xycb,23) { _Z80_E = SLA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_E );						} /* SLA  E=(XY+o)	  */
-OP(xycb,24) { _Z80_H = SLA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_H );						} /* SLA  H=(XY+o)	  */
-OP(xycb,25) { _Z80_L = SLA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_L );						} /* SLA  L=(XY+o)	  */
-OP(xycb,26) { WM( z80->EA,SLA(z80, RM(z80->EA) ) );								} /* SLA  (XY+o)	  */
-OP(xycb,27) { _Z80_A = SLA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_A );						} /* SLA  A=(XY+o)	  */
-
-OP(xycb,28) { _Z80_B = SRA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_B );						} /* SRA  B=(XY+o)	  */
-OP(xycb,29) { _Z80_C = SRA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_C );						} /* SRA  C=(XY+o)	  */
-OP(xycb,2a) { _Z80_D = SRA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_D );						} /* SRA  D=(XY+o)	  */
-OP(xycb,2b) { _Z80_E = SRA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_E );						} /* SRA  E=(XY+o)	  */
-OP(xycb,2c) { _Z80_H = SRA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_H );						} /* SRA  H=(XY+o)	  */
-OP(xycb,2d) { _Z80_L = SRA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_L );						} /* SRA  L=(XY+o)	  */
-OP(xycb,2e) { WM( z80->EA,SRA(z80, RM(z80->EA) ) );								} /* SRA  (XY+o)	  */
-OP(xycb,2f) { _Z80_A = SRA(z80, RM(z80->EA) ); WM( z80->EA,_Z80_A );						} /* SRA  A=(XY+o)	  */
-
-OP(xycb,30) { _Z80_B = SLL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_B );						} /* SLL  B=(XY+o)	  */
-OP(xycb,31) { _Z80_C = SLL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_C );						} /* SLL  C=(XY+o)	  */
-OP(xycb,32) { _Z80_D = SLL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_D );						} /* SLL  D=(XY+o)	  */
-OP(xycb,33) { _Z80_E = SLL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_E );						} /* SLL  E=(XY+o)	  */
-OP(xycb,34) { _Z80_H = SLL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_H );						} /* SLL  H=(XY+o)	  */
-OP(xycb,35) { _Z80_L = SLL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_L );						} /* SLL  L=(XY+o)	  */
-OP(xycb,36) { WM( z80->EA,SLL(z80, RM(z80->EA) ) );								} /* SLL  (XY+o)	  */
-OP(xycb,37) { _Z80_A = SLL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_A );						} /* SLL  A=(XY+o)	  */
-
-OP(xycb,38) { _Z80_B = SRL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_B );						} /* SRL  B=(XY+o)	  */
-OP(xycb,39) { _Z80_C = SRL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_C );						} /* SRL  C=(XY+o)	  */
-OP(xycb,3a) { _Z80_D = SRL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_D );						} /* SRL  D=(XY+o)	  */
-OP(xycb,3b) { _Z80_E = SRL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_E );						} /* SRL  E=(XY+o)	  */
-OP(xycb,3c) { _Z80_H = SRL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_H );						} /* SRL  H=(XY+o)	  */
-OP(xycb,3d) { _Z80_L = SRL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_L );						} /* SRL  L=(XY+o)	  */
-OP(xycb,3e) { WM( z80->EA,SRL(z80, RM(z80->EA) ) );								} /* SRL  (XY+o)	  */
-OP(xycb,3f) { _Z80_A = SRL(z80, RM(z80->EA) ); WM( z80->EA,_Z80_A );						} /* SRL  A=(XY+o)	  */
-
-OP(xycb,40) { xycb_46(z80);											} /* BIT  0,B=(XY+o)  */
-OP(xycb,41) { xycb_46(z80);													  } /* BIT	0,C=(XY+o)	*/
-OP(xycb,42) { xycb_46(z80);											} /* BIT  0,D=(XY+o)  */
-OP(xycb,43) { xycb_46(z80);											} /* BIT  0,E=(XY+o)  */
-OP(xycb,44) { xycb_46(z80);											} /* BIT  0,H=(XY+o)  */
-OP(xycb,45) { xycb_46(z80);											} /* BIT  0,L=(XY+o)  */
-OP(xycb,46) { BIT_XY(z80,0,RM(z80->EA));										} /* BIT  0,(XY+o)	  */
-OP(xycb,47) { xycb_46(z80);											} /* BIT  0,A=(XY+o)  */
-
-OP(xycb,48) { xycb_4e(z80);											} /* BIT  1,B=(XY+o)  */
-OP(xycb,49) { xycb_4e(z80);													  } /* BIT	1,C=(XY+o)	*/
-OP(xycb,4a) { xycb_4e(z80);											} /* BIT  1,D=(XY+o)  */
-OP(xycb,4b) { xycb_4e(z80);											} /* BIT  1,E=(XY+o)  */
-OP(xycb,4c) { xycb_4e(z80);											} /* BIT  1,H=(XY+o)  */
-OP(xycb,4d) { xycb_4e(z80);											} /* BIT  1,L=(XY+o)  */
-OP(xycb,4e) { BIT_XY(z80,1,RM(z80->EA));										} /* BIT  1,(XY+o)	  */
-OP(xycb,4f) { xycb_4e(z80);											} /* BIT  1,A=(XY+o)  */
-
-OP(xycb,50) { xycb_56(z80);											} /* BIT  2,B=(XY+o)  */
-OP(xycb,51) { xycb_56(z80);													  } /* BIT	2,C=(XY+o)	*/
-OP(xycb,52) { xycb_56(z80);											} /* BIT  2,D=(XY+o)  */
-OP(xycb,53) { xycb_56(z80);											} /* BIT  2,E=(XY+o)  */
-OP(xycb,54) { xycb_56(z80);											} /* BIT  2,H=(XY+o)  */
-OP(xycb,55) { xycb_56(z80);											} /* BIT  2,L=(XY+o)  */
-OP(xycb,56) { BIT_XY(z80,2,RM(z80->EA));										} /* BIT  2,(XY+o)	  */
-OP(xycb,57) { xycb_56(z80);											} /* BIT  2,A=(XY+o)  */
-
-OP(xycb,58) { xycb_5e(z80);											} /* BIT  3,B=(XY+o)  */
-OP(xycb,59) { xycb_5e(z80);													  } /* BIT	3,C=(XY+o)	*/
-OP(xycb,5a) { xycb_5e(z80);											} /* BIT  3,D=(XY+o)  */
-OP(xycb,5b) { xycb_5e(z80);											} /* BIT  3,E=(XY+o)  */
-OP(xycb,5c) { xycb_5e(z80);											} /* BIT  3,H=(XY+o)  */
-OP(xycb,5d) { xycb_5e(z80);											} /* BIT  3,L=(XY+o)  */
-OP(xycb,5e) { BIT_XY(z80,3,RM(z80->EA));										} /* BIT  3,(XY+o)	  */
-OP(xycb,5f) { xycb_5e(z80);											} /* BIT  3,A=(XY+o)  */
-
-OP(xycb,60) { xycb_66(z80);											} /* BIT  4,B=(XY+o)  */
-OP(xycb,61) { xycb_66(z80);													  } /* BIT	4,C=(XY+o)	*/
-OP(xycb,62) { xycb_66(z80);											} /* BIT  4,D=(XY+o)  */
-OP(xycb,63) { xycb_66(z80);											} /* BIT  4,E=(XY+o)  */
-OP(xycb,64) { xycb_66(z80);											} /* BIT  4,H=(XY+o)  */
-OP(xycb,65) { xycb_66(z80);											} /* BIT  4,L=(XY+o)  */
-OP(xycb,66) { BIT_XY(z80,4,RM(z80->EA));										} /* BIT  4,(XY+o)	  */
-OP(xycb,67) { xycb_66(z80);											} /* BIT  4,A=(XY+o)  */
-
-OP(xycb,68) { xycb_6e(z80);											} /* BIT  5,B=(XY+o)  */
-OP(xycb,69) { xycb_6e(z80);													  } /* BIT	5,C=(XY+o)	*/
-OP(xycb,6a) { xycb_6e(z80);											} /* BIT  5,D=(XY+o)  */
-OP(xycb,6b) { xycb_6e(z80);											} /* BIT  5,E=(XY+o)  */
-OP(xycb,6c) { xycb_6e(z80);											} /* BIT  5,H=(XY+o)  */
-OP(xycb,6d) { xycb_6e(z80);											} /* BIT  5,L=(XY+o)  */
-OP(xycb,6e) { BIT_XY(z80,5,RM(z80->EA));										} /* BIT  5,(XY+o)	  */
-OP(xycb,6f) { xycb_6e(z80);											} /* BIT  5,A=(XY+o)  */
-
-OP(xycb,70) { xycb_76(z80);											} /* BIT  6,B=(XY+o)  */
-OP(xycb,71) { xycb_76(z80);													  } /* BIT	6,C=(XY+o)	*/
-OP(xycb,72) { xycb_76(z80);											} /* BIT  6,D=(XY+o)  */
-OP(xycb,73) { xycb_76(z80);											} /* BIT  6,E=(XY+o)  */
-OP(xycb,74) { xycb_76(z80);											} /* BIT  6,H=(XY+o)  */
-OP(xycb,75) { xycb_76(z80);											} /* BIT  6,L=(XY+o)  */
-OP(xycb,76) { BIT_XY(z80,6,RM(z80->EA));										} /* BIT  6,(XY+o)	  */
-OP(xycb,77) { xycb_76(z80);											} /* BIT  6,A=(XY+o)  */
-
-OP(xycb,78) { xycb_7e(z80);											} /* BIT  7,B=(XY+o)  */
-OP(xycb,79) { xycb_7e(z80);													  } /* BIT	7,C=(XY+o)	*/
-OP(xycb,7a) { xycb_7e(z80);											} /* BIT  7,D=(XY+o)  */
-OP(xycb,7b) { xycb_7e(z80);											} /* BIT  7,E=(XY+o)  */
-OP(xycb,7c) { xycb_7e(z80);											} /* BIT  7,H=(XY+o)  */
-OP(xycb,7d) { xycb_7e(z80);											} /* BIT  7,L=(XY+o)  */
-OP(xycb,7e) { BIT_XY(z80,7,RM(z80->EA));										} /* BIT  7,(XY+o)	  */
-OP(xycb,7f) { xycb_7e(z80);											} /* BIT  7,A=(XY+o)  */
-
-OP(xycb,80) { _Z80_B = RES(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* RES  0,B=(XY+o)  */
-OP(xycb,81) { _Z80_C = RES(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* RES  0,C=(XY+o)  */
-OP(xycb,82) { _Z80_D = RES(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* RES  0,D=(XY+o)  */
-OP(xycb,83) { _Z80_E = RES(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* RES  0,E=(XY+o)  */
-OP(xycb,84) { _Z80_H = RES(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* RES  0,H=(XY+o)  */
-OP(xycb,85) { _Z80_L = RES(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* RES  0,L=(XY+o)  */
-OP(xycb,86) { WM( z80->EA, RES(z80, 0,RM(z80->EA)) );								} /* RES  0,(XY+o)	  */
-OP(xycb,87) { _Z80_A = RES(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* RES  0,A=(XY+o)  */
-
-OP(xycb,88) { _Z80_B = RES(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* RES  1,B=(XY+o)  */
-OP(xycb,89) { _Z80_C = RES(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* RES  1,C=(XY+o)  */
-OP(xycb,8a) { _Z80_D = RES(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* RES  1,D=(XY+o)  */
-OP(xycb,8b) { _Z80_E = RES(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* RES  1,E=(XY+o)  */
-OP(xycb,8c) { _Z80_H = RES(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* RES  1,H=(XY+o)  */
-OP(xycb,8d) { _Z80_L = RES(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* RES  1,L=(XY+o)  */
-OP(xycb,8e) { WM( z80->EA, RES(z80, 1,RM(z80->EA)) );								} /* RES  1,(XY+o)	  */
-OP(xycb,8f) { _Z80_A = RES(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* RES  1,A=(XY+o)  */
-
-OP(xycb,90) { _Z80_B = RES(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* RES  2,B=(XY+o)  */
-OP(xycb,91) { _Z80_C = RES(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* RES  2,C=(XY+o)  */
-OP(xycb,92) { _Z80_D = RES(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* RES  2,D=(XY+o)  */
-OP(xycb,93) { _Z80_E = RES(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* RES  2,E=(XY+o)  */
-OP(xycb,94) { _Z80_H = RES(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* RES  2,H=(XY+o)  */
-OP(xycb,95) { _Z80_L = RES(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* RES  2,L=(XY+o)  */
-OP(xycb,96) { WM( z80->EA, RES(z80, 2,RM(z80->EA)) );								} /* RES  2,(XY+o)	  */
-OP(xycb,97) { _Z80_A = RES(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* RES  2,A=(XY+o)  */
-
-OP(xycb,98) { _Z80_B = RES(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* RES  3,B=(XY+o)  */
-OP(xycb,99) { _Z80_C = RES(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* RES  3,C=(XY+o)  */
-OP(xycb,9a) { _Z80_D = RES(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* RES  3,D=(XY+o)  */
-OP(xycb,9b) { _Z80_E = RES(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* RES  3,E=(XY+o)  */
-OP(xycb,9c) { _Z80_H = RES(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* RES  3,H=(XY+o)  */
-OP(xycb,9d) { _Z80_L = RES(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* RES  3,L=(XY+o)  */
-OP(xycb,9e) { WM( z80->EA, RES(z80, 3,RM(z80->EA)) );								} /* RES  3,(XY+o)	  */
-OP(xycb,9f) { _Z80_A = RES(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* RES  3,A=(XY+o)  */
-
-OP(xycb,a0) { _Z80_B = RES(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* RES  4,B=(XY+o)  */
-OP(xycb,a1) { _Z80_C = RES(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* RES  4,C=(XY+o)  */
-OP(xycb,a2) { _Z80_D = RES(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* RES  4,D=(XY+o)  */
-OP(xycb,a3) { _Z80_E = RES(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* RES  4,E=(XY+o)  */
-OP(xycb,a4) { _Z80_H = RES(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* RES  4,H=(XY+o)  */
-OP(xycb,a5) { _Z80_L = RES(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* RES  4,L=(XY+o)  */
-OP(xycb,a6) { WM( z80->EA, RES(z80, 4,RM(z80->EA)) );								} /* RES  4,(XY+o)	  */
-OP(xycb,a7) { _Z80_A = RES(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* RES  4,A=(XY+o)  */
-
-OP(xycb,a8) { _Z80_B = RES(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* RES  5,B=(XY+o)  */
-OP(xycb,a9) { _Z80_C = RES(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* RES  5,C=(XY+o)  */
-OP(xycb,aa) { _Z80_D = RES(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* RES  5,D=(XY+o)  */
-OP(xycb,ab) { _Z80_E = RES(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* RES  5,E=(XY+o)  */
-OP(xycb,ac) { _Z80_H = RES(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* RES  5,H=(XY+o)  */
-OP(xycb,ad) { _Z80_L = RES(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* RES  5,L=(XY+o)  */
-OP(xycb,ae) { WM( z80->EA, RES(z80, 5,RM(z80->EA)) );								} /* RES  5,(XY+o)	  */
-OP(xycb,af) { _Z80_A = RES(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* RES  5,A=(XY+o)  */
-
-OP(xycb,b0) { _Z80_B = RES(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* RES  6,B=(XY+o)  */
-OP(xycb,b1) { _Z80_C = RES(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* RES  6,C=(XY+o)  */
-OP(xycb,b2) { _Z80_D = RES(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* RES  6,D=(XY+o)  */
-OP(xycb,b3) { _Z80_E = RES(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* RES  6,E=(XY+o)  */
-OP(xycb,b4) { _Z80_H = RES(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* RES  6,H=(XY+o)  */
-OP(xycb,b5) { _Z80_L = RES(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* RES  6,L=(XY+o)  */
-OP(xycb,b6) { WM( z80->EA, RES(z80, 6,RM(z80->EA)) );								} /* RES  6,(XY+o)	  */
-OP(xycb,b7) { _Z80_A = RES(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* RES  6,A=(XY+o)  */
-
-OP(xycb,b8) { _Z80_B = RES(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* RES  7,B=(XY+o)  */
-OP(xycb,b9) { _Z80_C = RES(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* RES  7,C=(XY+o)  */
-OP(xycb,ba) { _Z80_D = RES(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* RES  7,D=(XY+o)  */
-OP(xycb,bb) { _Z80_E = RES(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* RES  7,E=(XY+o)  */
-OP(xycb,bc) { _Z80_H = RES(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* RES  7,H=(XY+o)  */
-OP(xycb,bd) { _Z80_L = RES(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* RES  7,L=(XY+o)  */
-OP(xycb,be) { WM( z80->EA, RES(z80, 7,RM(z80->EA)) );								} /* RES  7,(XY+o)	  */
-OP(xycb,bf) { _Z80_A = RES(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* RES  7,A=(XY+o)  */
-
-OP(xycb,c0) { _Z80_B = SET(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* SET  0,B=(XY+o)  */
-OP(xycb,c1) { _Z80_C = SET(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* SET  0,C=(XY+o)  */
-OP(xycb,c2) { _Z80_D = SET(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* SET  0,D=(XY+o)  */
-OP(xycb,c3) { _Z80_E = SET(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* SET  0,E=(XY+o)  */
-OP(xycb,c4) { _Z80_H = SET(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* SET  0,H=(XY+o)  */
-OP(xycb,c5) { _Z80_L = SET(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* SET  0,L=(XY+o)  */
-OP(xycb,c6) { WM( z80->EA, SET(z80, 0,RM(z80->EA)) );								} /* SET  0,(XY+o)	  */
-OP(xycb,c7) { _Z80_A = SET(z80, 0, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* SET  0,A=(XY+o)  */
-
-OP(xycb,c8) { _Z80_B = SET(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* SET  1,B=(XY+o)  */
-OP(xycb,c9) { _Z80_C = SET(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* SET  1,C=(XY+o)  */
-OP(xycb,ca) { _Z80_D = SET(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* SET  1,D=(XY+o)  */
-OP(xycb,cb) { _Z80_E = SET(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* SET  1,E=(XY+o)  */
-OP(xycb,cc) { _Z80_H = SET(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* SET  1,H=(XY+o)  */
-OP(xycb,cd) { _Z80_L = SET(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* SET  1,L=(XY+o)  */
-OP(xycb,ce) { WM( z80->EA, SET(z80, 1,RM(z80->EA)) );								} /* SET  1,(XY+o)	  */
-OP(xycb,cf) { _Z80_A = SET(z80, 1, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* SET  1,A=(XY+o)  */
-
-OP(xycb,d0) { _Z80_B = SET(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* SET  2,B=(XY+o)  */
-OP(xycb,d1) { _Z80_C = SET(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* SET  2,C=(XY+o)  */
-OP(xycb,d2) { _Z80_D = SET(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* SET  2,D=(XY+o)  */
-OP(xycb,d3) { _Z80_E = SET(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* SET  2,E=(XY+o)  */
-OP(xycb,d4) { _Z80_H = SET(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* SET  2,H=(XY+o)  */
-OP(xycb,d5) { _Z80_L = SET(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* SET  2,L=(XY+o)  */
-OP(xycb,d6) { WM( z80->EA, SET(z80, 2,RM(z80->EA)) );								} /* SET  2,(XY+o)	  */
-OP(xycb,d7) { _Z80_A = SET(z80, 2, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* SET  2,A=(XY+o)  */
-
-OP(xycb,d8) { _Z80_B = SET(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* SET  3,B=(XY+o)  */
-OP(xycb,d9) { _Z80_C = SET(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* SET  3,C=(XY+o)  */
-OP(xycb,da) { _Z80_D = SET(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* SET  3,D=(XY+o)  */
-OP(xycb,db) { _Z80_E = SET(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* SET  3,E=(XY+o)  */
-OP(xycb,dc) { _Z80_H = SET(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* SET  3,H=(XY+o)  */
-OP(xycb,dd) { _Z80_L = SET(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* SET  3,L=(XY+o)  */
-OP(xycb,de) { WM( z80->EA, SET(z80, 3,RM(z80->EA)) );								} /* SET  3,(XY+o)	  */
-OP(xycb,df) { _Z80_A = SET(z80, 3, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* SET  3,A=(XY+o)  */
-
-OP(xycb,e0) { _Z80_B = SET(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* SET  4,B=(XY+o)  */
-OP(xycb,e1) { _Z80_C = SET(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* SET  4,C=(XY+o)  */
-OP(xycb,e2) { _Z80_D = SET(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* SET  4,D=(XY+o)  */
-OP(xycb,e3) { _Z80_E = SET(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* SET  4,E=(XY+o)  */
-OP(xycb,e4) { _Z80_H = SET(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* SET  4,H=(XY+o)  */
-OP(xycb,e5) { _Z80_L = SET(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* SET  4,L=(XY+o)  */
-OP(xycb,e6) { WM( z80->EA, SET(z80, 4,RM(z80->EA)) );								} /* SET  4,(XY+o)	  */
-OP(xycb,e7) { _Z80_A = SET(z80, 4, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* SET  4,A=(XY+o)  */
-
-OP(xycb,e8) { _Z80_B = SET(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* SET  5,B=(XY+o)  */
-OP(xycb,e9) { _Z80_C = SET(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* SET  5,C=(XY+o)  */
-OP(xycb,ea) { _Z80_D = SET(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* SET  5,D=(XY+o)  */
-OP(xycb,eb) { _Z80_E = SET(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* SET  5,E=(XY+o)  */
-OP(xycb,ec) { _Z80_H = SET(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* SET  5,H=(XY+o)  */
-OP(xycb,ed) { _Z80_L = SET(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* SET  5,L=(XY+o)  */
-OP(xycb,ee) { WM( z80->EA, SET(z80, 5,RM(z80->EA)) );								} /* SET  5,(XY+o)	  */
-OP(xycb,ef) { _Z80_A = SET(z80, 5, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* SET  5,A=(XY+o)  */
-
-OP(xycb,f0) { _Z80_B = SET(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* SET  6,B=(XY+o)  */
-OP(xycb,f1) { _Z80_C = SET(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* SET  6,C=(XY+o)  */
-OP(xycb,f2) { _Z80_D = SET(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* SET  6,D=(XY+o)  */
-OP(xycb,f3) { _Z80_E = SET(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* SET  6,E=(XY+o)  */
-OP(xycb,f4) { _Z80_H = SET(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* SET  6,H=(XY+o)  */
-OP(xycb,f5) { _Z80_L = SET(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* SET  6,L=(XY+o)  */
-OP(xycb,f6) { WM( z80->EA, SET(z80, 6,RM(z80->EA)) );								} /* SET  6,(XY+o)	  */
-OP(xycb,f7) { _Z80_A = SET(z80, 6, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* SET  6,A=(XY+o)  */
-
-OP(xycb,f8) { _Z80_B = SET(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_B );					} /* SET  7,B=(XY+o)  */
-OP(xycb,f9) { _Z80_C = SET(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_C );					} /* SET  7,C=(XY+o)  */
-OP(xycb,fa) { _Z80_D = SET(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_D );					} /* SET  7,D=(XY+o)  */
-OP(xycb,fb) { _Z80_E = SET(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_E );					} /* SET  7,E=(XY+o)  */
-OP(xycb,fc) { _Z80_H = SET(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_H );					} /* SET  7,H=(XY+o)  */
-OP(xycb,fd) { _Z80_L = SET(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_L );					} /* SET  7,L=(XY+o)  */
-OP(xycb,fe) { WM( z80->EA, SET(z80, 7,RM(z80->EA)) );								} /* SET  7,(XY+o)	  */
-OP(xycb,ff) { _Z80_A = SET(z80, 7, RM(z80->EA) ); WM( z80->EA,_Z80_A );					} /* SET  7,A=(XY+o)  */
-
-OP(illegal,1) {
-	logerror("Z80 #%d ill. opcode $%02x $%02x\n",
-			cpu_getactivecpu(), cpu_readop(z80->userdata,(_PCD-1)&0xffff), cpu_readop(z80->userdata,_PCD));
-}
-
-/**********************************************************
- * IX register related opcodes (DD prefix)
- **********************************************************/
-OP(dd,00) { illegal_1(z80); op_00(z80);									} /* DB   DD		  */
-OP(dd,01) { illegal_1(z80); op_01(z80);									} /* DB   DD		  */
-OP(dd,02) { illegal_1(z80); op_02(z80);									} /* DB   DD		  */
-OP(dd,03) { illegal_1(z80); op_03(z80);									} /* DB   DD		  */
-OP(dd,04) { illegal_1(z80); op_04(z80);									} /* DB   DD		  */
-OP(dd,05) { illegal_1(z80); op_05(z80);									} /* DB   DD		  */
-OP(dd,06) { illegal_1(z80); op_06(z80);									} /* DB   DD		  */
-OP(dd,07) { illegal_1(z80); op_07(z80);									} /* DB   DD		  */
-
-OP(dd,08) { illegal_1(z80); op_08(z80);									} /* DB   DD		  */
-OP(dd,09) { _Z80_R++; ADD16(z80,IX,BC);										} /* ADD  IX,BC		  */
-OP(dd,0a) { illegal_1(z80); op_0a(z80);									} /* DB   DD		  */
-OP(dd,0b) { illegal_1(z80); op_0b(z80);									} /* DB   DD		  */
-OP(dd,0c) { illegal_1(z80); op_0c(z80);									} /* DB   DD		  */
-OP(dd,0d) { illegal_1(z80); op_0d(z80);									} /* DB   DD		  */
-OP(dd,0e) { illegal_1(z80); op_0e(z80);									} /* DB   DD		  */
-OP(dd,0f) { illegal_1(z80); op_0f(z80);									} /* DB   DD		  */
-
-OP(dd,10) { illegal_1(z80); op_10(z80);									} /* DB   DD		  */
-OP(dd,11) { illegal_1(z80); op_11(z80);									} /* DB   DD		  */
-OP(dd,12) { illegal_1(z80); op_12(z80);									} /* DB   DD		  */
-OP(dd,13) { illegal_1(z80); op_13(z80);									} /* DB   DD		  */
-OP(dd,14) { illegal_1(z80); op_14(z80);									} /* DB   DD		  */
-OP(dd,15) { illegal_1(z80); op_15(z80);									} /* DB   DD		  */
-OP(dd,16) { illegal_1(z80); op_16(z80);									} /* DB   DD		  */
-OP(dd,17) { illegal_1(z80); op_17(z80);									} /* DB   DD		  */
-
-OP(dd,18) { illegal_1(z80); op_18(z80);									} /* DB   DD		  */
-OP(dd,19) { _Z80_R++; ADD16(z80,IX,DE);										} /* ADD  IX,DE		  */
-OP(dd,1a) { illegal_1(z80); op_1a(z80);									} /* DB   DD		  */
-OP(dd,1b) { illegal_1(z80); op_1b(z80);									} /* DB   DD		  */
-OP(dd,1c) { illegal_1(z80); op_1c(z80);									} /* DB   DD		  */
-OP(dd,1d) { illegal_1(z80); op_1d(z80);									} /* DB   DD		  */
-OP(dd,1e) { illegal_1(z80); op_1e(z80);									} /* DB   DD		  */
-OP(dd,1f) { illegal_1(z80); op_1f(z80);									} /* DB   DD		  */
-
-OP(dd,20) { illegal_1(z80); op_20(z80);									} /* DB   DD		  */
-OP(dd,21) { _Z80_R++; _IX = ARG16(z80);									} /* LD   IX,w		  */
-OP(dd,22) { _Z80_R++; z80->EA = ARG16(z80); WM16(z80, z80->EA, &z80->Z80.IX );				} /* LD   (w),IX	  */
-OP(dd,23) { _Z80_R++; _IX++;											} /* INC  IX		  */
-OP(dd,24) { _Z80_R++; _HX = INC(z80,_HX);									} /* INC  HX		  */
-OP(dd,25) { _Z80_R++; _HX = DEC(z80,_HX);									} /* DEC  HX		  */
-OP(dd,26) { _Z80_R++; _HX = ARG(z80);										} /* LD   HX,n		  */
-OP(dd,27) { illegal_1(z80); op_27(z80);									} /* DB   DD		  */
-
-OP(dd,28) { illegal_1(z80); op_28(z80);									} /* DB   DD		  */
-OP(dd,29) { _Z80_R++; ADD16(z80,IX,IX);										} /* ADD  IX,IX		  */
-OP(dd,2a) { _Z80_R++; z80->EA = ARG16(z80); RM16(z80, z80->EA, &z80->Z80.IX );				} /* LD   IX,(w)	  */
-OP(dd,2b) { _Z80_R++; _IX--;											} /* DEC  IX		  */
-OP(dd,2c) { _Z80_R++; _LX = INC(z80,_LX);									} /* INC  LX		  */
-OP(dd,2d) { _Z80_R++; _LX = DEC(z80,_LX);									} /* DEC  LX		  */
-OP(dd,2e) { _Z80_R++; _LX = ARG(z80);										} /* LD   LX,n		  */
-OP(dd,2f) { illegal_1(z80); op_2f(z80);									} /* DB   DD		  */
-
-OP(dd,30) { illegal_1(z80); op_30(z80);									} /* DB   DD		  */
-OP(dd,31) { illegal_1(z80); op_31(z80);									} /* DB   DD		  */
-OP(dd,32) { illegal_1(z80); op_32(z80);									} /* DB   DD		  */
-OP(dd,33) { illegal_1(z80); op_33(z80);									} /* DB   DD		  */
-OP(dd,34) { _Z80_R++; EAX; WM( z80->EA, INC(z80,RM(z80->EA)) );						} /* INC  (IX+o)	  */
-OP(dd,35) { _Z80_R++; EAX; WM( z80->EA, DEC(z80,RM(z80->EA)) );						} /* DEC  (IX+o)	  */
-OP(dd,36) { _Z80_R++; EAX; WM( z80->EA, ARG(z80) );								} /* LD   (IX+o),n	  */
-OP(dd,37) { illegal_1(z80); op_37(z80);									} /* DB   DD		  */
-
-OP(dd,38) { illegal_1(z80); op_38(z80);									} /* DB   DD		  */
-OP(dd,39) { _Z80_R++; ADD16(z80,IX,SP);										} /* ADD  IX,SP		  */
-OP(dd,3a) { illegal_1(z80); op_3a(z80);									} /* DB   DD		  */
-OP(dd,3b) { illegal_1(z80); op_3b(z80);									} /* DB   DD		  */
-OP(dd,3c) { illegal_1(z80); op_3c(z80);									} /* DB   DD		  */
-OP(dd,3d) { illegal_1(z80); op_3d(z80);									} /* DB   DD		  */
-OP(dd,3e) { illegal_1(z80); op_3e(z80);									} /* DB   DD		  */
-OP(dd,3f) { illegal_1(z80); op_3f(z80);									} /* DB   DD		  */
-
-OP(dd,40) { illegal_1(z80); op_40(z80);									} /* DB   DD		  */
-OP(dd,41) { illegal_1(z80); op_41(z80);									} /* DB   DD		  */
-OP(dd,42) { illegal_1(z80); op_42(z80);									} /* DB   DD		  */
-OP(dd,43) { illegal_1(z80); op_43(z80);									} /* DB   DD		  */
-OP(dd,44) { _Z80_R++; _Z80_B = _HX;											} /* LD   B,HX		  */
-OP(dd,45) { _Z80_R++; _Z80_B = _LX;											} /* LD   B,LX		  */
-OP(dd,46) { _Z80_R++; EAX; _Z80_B = RM(z80->EA);									} /* LD   B,(IX+o)	  */
-OP(dd,47) { illegal_1(z80); op_47(z80);									} /* DB   DD		  */
-
-OP(dd,48) { illegal_1(z80); op_48(z80);									} /* DB   DD		  */
-OP(dd,49) { illegal_1(z80); op_49(z80);									} /* DB   DD		  */
-OP(dd,4a) { illegal_1(z80); op_4a(z80);									} /* DB   DD		  */
-OP(dd,4b) { illegal_1(z80); op_4b(z80);									} /* DB   DD		  */
-OP(dd,4c) { _Z80_R++; _Z80_C = _HX;											} /* LD   C,HX		  */
-OP(dd,4d) { _Z80_R++; _Z80_C = _LX;											} /* LD   C,LX		  */
-OP(dd,4e) { _Z80_R++; EAX; _Z80_C = RM(z80->EA);									} /* LD   C,(IX+o)	  */
-OP(dd,4f) { illegal_1(z80); op_4f(z80);									} /* DB   DD		  */
-
-OP(dd,50) { illegal_1(z80); op_50(z80);									} /* DB   DD		  */
-OP(dd,51) { illegal_1(z80); op_51(z80);									} /* DB   DD		  */
-OP(dd,52) { illegal_1(z80); op_52(z80);									} /* DB   DD		  */
-OP(dd,53) { illegal_1(z80); op_53(z80);									} /* DB   DD		  */
-OP(dd,54) { _Z80_R++; _Z80_D = _HX;											} /* LD   D,HX		  */
-OP(dd,55) { _Z80_R++; _Z80_D = _LX;											} /* LD   D,LX		  */
-OP(dd,56) { _Z80_R++; EAX; _Z80_D = RM(z80->EA);									} /* LD   D,(IX+o)	  */
-OP(dd,57) { illegal_1(z80); op_57(z80);									} /* DB   DD		  */
-
-OP(dd,58) { illegal_1(z80); op_58(z80);									} /* DB   DD		  */
-OP(dd,59) { illegal_1(z80); op_59(z80);									} /* DB   DD		  */
-OP(dd,5a) { illegal_1(z80); op_5a(z80);									} /* DB   DD		  */
-OP(dd,5b) { illegal_1(z80); op_5b(z80);									} /* DB   DD		  */
-OP(dd,5c) { _Z80_R++; _Z80_E = _HX;											} /* LD   E,HX		  */
-OP(dd,5d) { _Z80_R++; _Z80_E = _LX;											} /* LD   E,LX		  */
-OP(dd,5e) { _Z80_R++; EAX; _Z80_E = RM(z80->EA);									} /* LD   E,(IX+o)	  */
-OP(dd,5f) { illegal_1(z80); op_5f(z80);									} /* DB   DD		  */
-
-OP(dd,60) { _Z80_R++; _HX = _Z80_B;											} /* LD   HX,B		  */
-OP(dd,61) { _Z80_R++; _HX = _Z80_C;											} /* LD   HX,C		  */
-OP(dd,62) { _Z80_R++; _HX = _Z80_D;											} /* LD   HX,D		  */
-OP(dd,63) { _Z80_R++; _HX = _Z80_E;											} /* LD   HX,E		  */
-OP(dd,64) {															} /* LD   HX,HX		  */
-OP(dd,65) { _Z80_R++; _HX = _LX;										} /* LD   HX,LX		  */
-OP(dd,66) { _Z80_R++; EAX; _Z80_H = RM(z80->EA);									} /* LD   H,(IX+o)	  */
-OP(dd,67) { _Z80_R++; _HX = _Z80_A;											} /* LD   HX,A		  */
-
-OP(dd,68) { _Z80_R++; _LX = _Z80_B;											} /* LD   LX,B		  */
-OP(dd,69) { _Z80_R++; _LX = _Z80_C;											} /* LD   LX,C		  */
-OP(dd,6a) { _Z80_R++; _LX = _Z80_D;											} /* LD   LX,D		  */
-OP(dd,6b) { _Z80_R++; _LX = _Z80_E;											} /* LD   LX,E		  */
-OP(dd,6c) { _Z80_R++; _LX = _HX;										} /* LD   LX,HX		  */
-OP(dd,6d) {															} /* LD   LX,LX		  */
-OP(dd,6e) { _Z80_R++; EAX; _Z80_L = RM(z80->EA);									} /* LD   L,(IX+o)	  */
-OP(dd,6f) { _Z80_R++; _LX = _Z80_A;											} /* LD   LX,A		  */
-
-OP(dd,70) { _Z80_R++; EAX; WM( z80->EA, _Z80_B );								} /* LD   (IX+o),B	  */
-OP(dd,71) { _Z80_R++; EAX; WM( z80->EA, _Z80_C );								} /* LD   (IX+o),C	  */
-OP(dd,72) { _Z80_R++; EAX; WM( z80->EA, _Z80_D );								} /* LD   (IX+o),D	  */
-OP(dd,73) { _Z80_R++; EAX; WM( z80->EA, _Z80_E );								} /* LD   (IX+o),E	  */
-OP(dd,74) { _Z80_R++; EAX; WM( z80->EA, _Z80_H );								} /* LD   (IX+o),H	  */
-OP(dd,75) { _Z80_R++; EAX; WM( z80->EA, _Z80_L );								} /* LD   (IX+o),L	  */
-OP(dd,76) { illegal_1(z80); op_76(z80);									}		  /* DB   DD		  */
-OP(dd,77) { _Z80_R++; EAX; WM( z80->EA, _Z80_A );								} /* LD   (IX+o),A	  */
-
-OP(dd,78) { illegal_1(z80); op_78(z80);									} /* DB   DD		  */
-OP(dd,79) { illegal_1(z80); op_79(z80);									} /* DB   DD		  */
-OP(dd,7a) { illegal_1(z80); op_7a(z80);									} /* DB   DD		  */
-OP(dd,7b) { illegal_1(z80); op_7b(z80);									} /* DB   DD		  */
-OP(dd,7c) { _Z80_R++; _Z80_A = _HX;											} /* LD   A,HX		  */
-OP(dd,7d) { _Z80_R++; _Z80_A = _LX;											} /* LD   A,LX		  */
-OP(dd,7e) { _Z80_R++; EAX; _Z80_A = RM(z80->EA);									} /* LD   A,(IX+o)	  */
-OP(dd,7f) { illegal_1(z80); op_7f(z80);									} /* DB   DD		  */
-
-OP(dd,80) { illegal_1(z80); op_80(z80);									} /* DB   DD		  */
-OP(dd,81) { illegal_1(z80); op_81(z80);									} /* DB   DD		  */
-OP(dd,82) { illegal_1(z80); op_82(z80);									} /* DB   DD		  */
-OP(dd,83) { illegal_1(z80); op_83(z80);									} /* DB   DD		  */
-OP(dd,84) { _Z80_R++; ADD(z80,_HX);											} /* ADD  A,HX		  */
-OP(dd,85) { _Z80_R++; ADD(z80,_LX);											} /* ADD  A,LX		  */
-OP(dd,86) { _Z80_R++; EAX; ADD(z80,RM(z80->EA));									} /* ADD  A,(IX+o)	  */
-OP(dd,87) { illegal_1(z80); op_87(z80);									} /* DB   DD		  */
-
-OP(dd,88) { illegal_1(z80); op_88(z80);									} /* DB   DD		  */
-OP(dd,89) { illegal_1(z80); op_89(z80);									} /* DB   DD		  */
-OP(dd,8a) { illegal_1(z80); op_8a(z80);									} /* DB   DD		  */
-OP(dd,8b) { illegal_1(z80); op_8b(z80);									} /* DB   DD		  */
-OP(dd,8c) { _Z80_R++; ADC(_HX);											} /* ADC  A,HX		  */
-OP(dd,8d) { _Z80_R++; ADC(_LX);											} /* ADC  A,LX		  */
-OP(dd,8e) { _Z80_R++; EAX; ADC(RM(z80->EA));									} /* ADC  A,(IX+o)	  */
-OP(dd,8f) { illegal_1(z80); op_8f(z80);									} /* DB   DD		  */
-
-OP(dd,90) { illegal_1(z80); op_90(z80);									} /* DB   DD		  */
-OP(dd,91) { illegal_1(z80); op_91(z80);									} /* DB   DD		  */
-OP(dd,92) { illegal_1(z80); op_92(z80);									} /* DB   DD		  */
-OP(dd,93) { illegal_1(z80); op_93(z80);									} /* DB   DD		  */
-OP(dd,94) { _Z80_R++; SUB(_HX);											} /* SUB  HX		  */
-OP(dd,95) { _Z80_R++; SUB(_LX);											} /* SUB  LX		  */
-OP(dd,96) { _Z80_R++; EAX; SUB(RM(z80->EA));									} /* SUB  (IX+o)	  */
-OP(dd,97) { illegal_1(z80); op_97(z80);									} /* DB   DD		  */
-
-OP(dd,98) { illegal_1(z80); op_98(z80);									} /* DB   DD		  */
-OP(dd,99) { illegal_1(z80); op_99(z80);									} /* DB   DD		  */
-OP(dd,9a) { illegal_1(z80); op_9a(z80);									} /* DB   DD		  */
-OP(dd,9b) { illegal_1(z80); op_9b(z80);									} /* DB   DD		  */
-OP(dd,9c) { _Z80_R++; SBC(_HX);											} /* SBC  A,HX		  */
-OP(dd,9d) { _Z80_R++; SBC(_LX);											} /* SBC  A,LX		  */
-OP(dd,9e) { _Z80_R++; EAX; SBC(RM(z80->EA));									} /* SBC  A,(IX+o)	  */
-OP(dd,9f) { illegal_1(z80); op_9f(z80);									} /* DB   DD		  */
-
-OP(dd,a0) { illegal_1(z80); op_a0(z80);									} /* DB   DD		  */
-OP(dd,a1) { illegal_1(z80); op_a1(z80);									} /* DB   DD		  */
-OP(dd,a2) { illegal_1(z80); op_a2(z80);									} /* DB   DD		  */
-OP(dd,a3) { illegal_1(z80); op_a3(z80);									} /* DB   DD		  */
-OP(dd,a4) { _Z80_R++; AND(_HX);											} /* AND  HX		  */
-OP(dd,a5) { _Z80_R++; AND(_LX);											} /* AND  LX		  */
-OP(dd,a6) { _Z80_R++; EAX; AND(RM(z80->EA));									} /* AND  (IX+o)	  */
-OP(dd,a7) { illegal_1(z80); op_a7(z80);									} /* DB   DD		  */
-
-OP(dd,a8) { illegal_1(z80); op_a8(z80);									} /* DB   DD		  */
-OP(dd,a9) { illegal_1(z80); op_a9(z80);									} /* DB   DD		  */
-OP(dd,aa) { illegal_1(z80); op_aa(z80);									} /* DB   DD		  */
-OP(dd,ab) { illegal_1(z80); op_ab(z80);									} /* DB   DD		  */
-OP(dd,ac) { _Z80_R++; XOR(_HX);											} /* XOR  HX		  */
-OP(dd,ad) { _Z80_R++; XOR(_LX);											} /* XOR  LX		  */
-OP(dd,ae) { _Z80_R++; EAX; XOR(RM(z80->EA));									} /* XOR  (IX+o)	  */
-OP(dd,af) { illegal_1(z80); op_af(z80);									} /* DB   DD		  */
-
-OP(dd,b0) { illegal_1(z80); op_b0(z80);									} /* DB   DD		  */
-OP(dd,b1) { illegal_1(z80); op_b1(z80);									} /* DB   DD		  */
-OP(dd,b2) { illegal_1(z80); op_b2(z80);									} /* DB   DD		  */
-OP(dd,b3) { illegal_1(z80); op_b3(z80);									} /* DB   DD		  */
-OP(dd,b4) { _Z80_R++; OR(_HX);											} /* OR   HX		  */
-OP(dd,b5) { _Z80_R++; OR(_LX);											} /* OR   LX		  */
-OP(dd,b6) { _Z80_R++; EAX; OR(RM(z80->EA));									} /* OR   (IX+o)	  */
-OP(dd,b7) { illegal_1(z80); op_b7(z80);									} /* DB   DD		  */
-
-OP(dd,b8) { illegal_1(z80); op_b8(z80);									} /* DB   DD		  */
-OP(dd,b9) { illegal_1(z80); op_b9(z80);									} /* DB   DD		  */
-OP(dd,ba) { illegal_1(z80); op_ba(z80);									} /* DB   DD		  */
-OP(dd,bb) { illegal_1(z80); op_bb(z80);									} /* DB   DD		  */
-OP(dd,bc) { _Z80_R++; CP(_HX);											} /* CP   HX		  */
-OP(dd,bd) { _Z80_R++; CP(_LX);											} /* CP   LX		  */
-OP(dd,be) { _Z80_R++; EAX; CP(RM(z80->EA));									} /* CP   (IX+o)	  */
-OP(dd,bf) { illegal_1(z80); op_bf(z80);									} /* DB   DD		  */
-
-OP(dd,c0) { illegal_1(z80); op_c0(z80);									} /* DB   DD		  */
-OP(dd,c1) { illegal_1(z80); op_c1(z80);									} /* DB   DD		  */
-OP(dd,c2) { illegal_1(z80); op_c2(z80);									} /* DB   DD		  */
-OP(dd,c3) { illegal_1(z80); op_c3(z80);									} /* DB   DD		  */
-OP(dd,c4) { illegal_1(z80); op_c4(z80);									} /* DB   DD		  */
-OP(dd,c5) { illegal_1(z80); op_c5(z80);									} /* DB   DD		  */
-OP(dd,c6) { illegal_1(z80); op_c6(z80);									} /* DB   DD		  */
-OP(dd,c7) { illegal_1(z80); op_c7(z80);									}		  /* DB   DD		  */
-
-OP(dd,c8) { illegal_1(z80); op_c8(z80);									} /* DB   DD		  */
-OP(dd,c9) { illegal_1(z80); op_c9(z80);									} /* DB   DD		  */
-OP(dd,ca) { illegal_1(z80); op_ca(z80);									} /* DB   DD		  */
-OP(dd,cb) { _Z80_R++; EAX; EXEC(xycb,ARG(z80));							} /* **   DD CB xx	  */
-OP(dd,cc) { illegal_1(z80); op_cc(z80);									} /* DB   DD		  */
-OP(dd,cd) { illegal_1(z80); op_cd(z80);									} /* DB   DD		  */
-OP(dd,ce) { illegal_1(z80); op_ce(z80);									} /* DB   DD		  */
-OP(dd,cf) { illegal_1(z80); op_cf(z80);									} /* DB   DD		  */
-
-OP(dd,d0) { illegal_1(z80); op_d0(z80);									} /* DB   DD		  */
-OP(dd,d1) { illegal_1(z80); op_d1(z80);									} /* DB   DD		  */
-OP(dd,d2) { illegal_1(z80); op_d2(z80);									} /* DB   DD		  */
-OP(dd,d3) { illegal_1(z80); op_d3(z80);									} /* DB   DD		  */
-OP(dd,d4) { illegal_1(z80); op_d4(z80);									} /* DB   DD		  */
-OP(dd,d5) { illegal_1(z80); op_d5(z80);									} /* DB   DD		  */
-OP(dd,d6) { illegal_1(z80); op_d6(z80);									} /* DB   DD		  */
-OP(dd,d7) { illegal_1(z80); op_d7(z80);									} /* DB   DD		  */
-
-OP(dd,d8) { illegal_1(z80); op_d8(z80);									} /* DB   DD		  */
-OP(dd,d9) { illegal_1(z80); op_d9(z80);									} /* DB   DD		  */
-OP(dd,da) { illegal_1(z80); op_da(z80);									} /* DB   DD		  */
-OP(dd,db) { illegal_1(z80); op_db(z80);									} /* DB   DD		  */
-OP(dd,dc) { illegal_1(z80); op_dc(z80);									} /* DB   DD		  */
-OP(dd,dd) { illegal_1(z80); op_dd(z80);									} /* DB   DD		  */
-OP(dd,de) { illegal_1(z80); op_de(z80);									} /* DB   DD		  */
-OP(dd,df) { illegal_1(z80); op_df(z80);									} /* DB   DD		  */
-
-OP(dd,e0) { illegal_1(z80); op_e0(z80);									} /* DB   DD		  */
-OP(dd,e1) { _Z80_R++; POP(IX);											} /* POP  IX		  */
-OP(dd,e2) { illegal_1(z80); op_e2(z80);									} /* DB   DD		  */
-OP(dd,e3) { _Z80_R++; EXSP(IX);											} /* EX   (SP),IX	  */
-OP(dd,e4) { illegal_1(z80); op_e4(z80);									} /* DB   DD		  */
-OP(dd,e5) { _Z80_R++; PUSH( IX );										} /* PUSH IX		  */
-OP(dd,e6) { illegal_1(z80); op_e6(z80);									} /* DB   DD		  */
-OP(dd,e7) { illegal_1(z80); op_e7(z80);									} /* DB   DD		  */
-
-OP(dd,e8) { illegal_1(z80); op_e8(z80);									} /* DB   DD		  */
-OP(dd,e9) { _Z80_R++; _PC = _IX; change_pc16(_PCD);						} /* JP   (IX)		  */
-OP(dd,ea) { illegal_1(z80); op_ea(z80);									} /* DB   DD		  */
-OP(dd,eb) { illegal_1(z80); op_eb(z80);									} /* DB   DD		  */
-OP(dd,ec) { illegal_1(z80); op_ec(z80);									} /* DB   DD		  */
-OP(dd,ed) { illegal_1(z80); op_ed(z80);									} /* DB   DD		  */
-OP(dd,ee) { illegal_1(z80); op_ee(z80);									} /* DB   DD		  */
-OP(dd,ef) { illegal_1(z80); op_ef(z80);									} /* DB   DD		  */
-
-OP(dd,f0) { illegal_1(z80); op_f0(z80);									} /* DB   DD		  */
-OP(dd,f1) { illegal_1(z80); op_f1(z80);									} /* DB   DD		  */
-OP(dd,f2) { illegal_1(z80); op_f2(z80);									} /* DB   DD		  */
-OP(dd,f3) { illegal_1(z80); op_f3(z80);									} /* DB   DD		  */
-OP(dd,f4) { illegal_1(z80); op_f4(z80);									} /* DB   DD		  */
-OP(dd,f5) { illegal_1(z80); op_f5(z80);									} /* DB   DD		  */
-OP(dd,f6) { illegal_1(z80); op_f6(z80);									} /* DB   DD		  */
-OP(dd,f7) { illegal_1(z80); op_f7(z80);									} /* DB   DD		  */
-
-OP(dd,f8) { illegal_1(z80); op_f8(z80);									} /* DB   DD		  */
-OP(dd,f9) { _Z80_R++; _SP = _IX;										} /* LD   SP,IX		  */
-OP(dd,fa) { illegal_1(z80); op_fa(z80);									} /* DB   DD		  */
-OP(dd,fb) { illegal_1(z80); op_fb(z80);									} /* DB   DD		  */
-OP(dd,fc) { illegal_1(z80); op_fc(z80);									} /* DB   DD		  */
-OP(dd,fd) { illegal_1(z80); op_fd(z80);									} /* DB   DD		  */
-OP(dd,fe) { illegal_1(z80); op_fe(z80);									} /* DB   DD		  */
-OP(dd,ff) { illegal_1(z80); op_ff(z80);									} /* DB   DD		  */
-
-/**********************************************************
- * IY register related opcodes (FD prefix)
- **********************************************************/
-OP(fd,00) { illegal_1(z80); op_00(z80);									} /* DB   FD		  */
-OP(fd,01) { illegal_1(z80); op_01(z80);									} /* DB   FD		  */
-OP(fd,02) { illegal_1(z80); op_02(z80);									} /* DB   FD		  */
-OP(fd,03) { illegal_1(z80); op_03(z80);									} /* DB   FD		  */
-OP(fd,04) { illegal_1(z80); op_04(z80);									} /* DB   FD		  */
-OP(fd,05) { illegal_1(z80); op_05(z80);									} /* DB   FD		  */
-OP(fd,06) { illegal_1(z80); op_06(z80);									} /* DB   FD		  */
-OP(fd,07) { illegal_1(z80); op_07(z80);									} /* DB   FD		  */
-
-OP(fd,08) { illegal_1(z80); op_08(z80);									} /* DB   FD		  */
-OP(fd,09) { _Z80_R++; ADD16(z80,IY,BC);										} /* ADD  IY,BC		  */
-OP(fd,0a) { illegal_1(z80); op_0a(z80);									} /* DB   FD		  */
-OP(fd,0b) { illegal_1(z80); op_0b(z80);									} /* DB   FD		  */
-OP(fd,0c) { illegal_1(z80); op_0c(z80);									} /* DB   FD		  */
-OP(fd,0d) { illegal_1(z80); op_0d(z80);									} /* DB   FD		  */
-OP(fd,0e) { illegal_1(z80); op_0e(z80);									} /* DB   FD		  */
-OP(fd,0f) { illegal_1(z80); op_0f(z80);									} /* DB   FD		  */
-
-OP(fd,10) { illegal_1(z80); op_10(z80);									} /* DB   FD		  */
-OP(fd,11) { illegal_1(z80); op_11(z80);									} /* DB   FD		  */
-OP(fd,12) { illegal_1(z80); op_12(z80);									} /* DB   FD		  */
-OP(fd,13) { illegal_1(z80); op_13(z80);									} /* DB   FD		  */
-OP(fd,14) { illegal_1(z80); op_14(z80);									} /* DB   FD		  */
-OP(fd,15) { illegal_1(z80); op_15(z80);									} /* DB   FD		  */
-OP(fd,16) { illegal_1(z80); op_16(z80);									} /* DB   FD		  */
-OP(fd,17) { illegal_1(z80); op_17(z80);									} /* DB   FD		  */
-
-OP(fd,18) { illegal_1(z80); op_18(z80);									} /* DB   FD		  */
-OP(fd,19) { _Z80_R++; ADD16(z80,IY,DE);										} /* ADD  IY,DE		  */
-OP(fd,1a) { illegal_1(z80); op_1a(z80);									} /* DB   FD		  */
-OP(fd,1b) { illegal_1(z80); op_1b(z80);									} /* DB   FD		  */
-OP(fd,1c) { illegal_1(z80); op_1c(z80);									} /* DB   FD		  */
-OP(fd,1d) { illegal_1(z80); op_1d(z80);									} /* DB   FD		  */
-OP(fd,1e) { illegal_1(z80); op_1e(z80);									} /* DB   FD		  */
-OP(fd,1f) { illegal_1(z80); op_1f(z80);									} /* DB   FD		  */
-
-OP(fd,20) { illegal_1(z80); op_20(z80);									} /* DB   FD		  */
-OP(fd,21) { _Z80_R++; _IY = ARG16(z80);									} /* LD   IY,w		  */
-OP(fd,22) { _Z80_R++; z80->EA = ARG16(z80); WM16(z80, z80->EA, &z80->Z80.IY );				} /* LD   (w),IY	  */
-OP(fd,23) { _Z80_R++; _IY++;											} /* INC  IY		  */
-OP(fd,24) { _Z80_R++; _HY = INC(z80,_HY);									} /* INC  HY		  */
-OP(fd,25) { _Z80_R++; _HY = DEC(z80,_HY);									} /* DEC  HY		  */
-OP(fd,26) { _Z80_R++; _HY = ARG(z80);										} /* LD   HY,n		  */
-OP(fd,27) { illegal_1(z80); op_27(z80);									} /* DB   FD		  */
-
-OP(fd,28) { illegal_1(z80); op_28(z80);									} /* DB   FD		  */
-OP(fd,29) { _Z80_R++; ADD16(z80,IY,IY);										} /* ADD  IY,IY		  */
-OP(fd,2a) { _Z80_R++; z80->EA = ARG16(z80); RM16(z80, z80->EA, &z80->Z80.IY );				} /* LD   IY,(w)	  */
-OP(fd,2b) { _Z80_R++; _IY--;											} /* DEC  IY		  */
-OP(fd,2c) { _Z80_R++; _LY = INC(z80,_LY);									} /* INC  LY		  */
-OP(fd,2d) { _Z80_R++; _LY = DEC(z80,_LY);									} /* DEC  LY		  */
-OP(fd,2e) { _Z80_R++; _LY = ARG(z80);										} /* LD   LY,n		  */
-OP(fd,2f) { illegal_1(z80); op_2f(z80);									} /* DB   FD		  */
-
-OP(fd,30) { illegal_1(z80); op_30(z80);									} /* DB   FD		  */
-OP(fd,31) { illegal_1(z80); op_31(z80);									} /* DB   FD		  */
-OP(fd,32) { illegal_1(z80); op_32(z80);									} /* DB   FD		  */
-OP(fd,33) { illegal_1(z80); op_33(z80);									} /* DB   FD		  */
-OP(fd,34) { _Z80_R++; EAY; WM( z80->EA, INC(z80,RM(z80->EA)) );						} /* INC  (IY+o)	  */
-OP(fd,35) { _Z80_R++; EAY; WM( z80->EA, DEC(z80,RM(z80->EA)) );						} /* DEC  (IY+o)	  */
-OP(fd,36) { _Z80_R++; EAY; WM( z80->EA, ARG(z80) );								} /* LD   (IY+o),n	  */
-OP(fd,37) { illegal_1(z80); op_37(z80);									} /* DB   FD		  */
-
-OP(fd,38) { illegal_1(z80); op_38(z80);									} /* DB   FD		  */
-OP(fd,39) { _Z80_R++; ADD16(z80,IY,SP);										} /* ADD  IY,SP		  */
-OP(fd,3a) { illegal_1(z80); op_3a(z80);									} /* DB   FD		  */
-OP(fd,3b) { illegal_1(z80); op_3b(z80);									} /* DB   FD		  */
-OP(fd,3c) { illegal_1(z80); op_3c(z80);									} /* DB   FD		  */
-OP(fd,3d) { illegal_1(z80); op_3d(z80);									} /* DB   FD		  */
-OP(fd,3e) { illegal_1(z80); op_3e(z80);									} /* DB   FD		  */
-OP(fd,3f) { illegal_1(z80); op_3f(z80);									} /* DB   FD		  */
-
-OP(fd,40) { illegal_1(z80); op_40(z80);									} /* DB   FD		  */
-OP(fd,41) { illegal_1(z80); op_41(z80);									} /* DB   FD		  */
-OP(fd,42) { illegal_1(z80); op_42(z80);									} /* DB   FD		  */
-OP(fd,43) { illegal_1(z80); op_43(z80);									} /* DB   FD		  */
-OP(fd,44) { _Z80_R++; _Z80_B = _HY;											} /* LD   B,HY		  */
-OP(fd,45) { _Z80_R++; _Z80_B = _LY;											} /* LD   B,LY		  */
-OP(fd,46) { _Z80_R++; EAY; _Z80_B = RM(z80->EA);									} /* LD   B,(IY+o)	  */
-OP(fd,47) { illegal_1(z80); op_47(z80);									} /* DB   FD		  */
-
-OP(fd,48) { illegal_1(z80); op_48(z80);									} /* DB   FD		  */
-OP(fd,49) { illegal_1(z80); op_49(z80);									} /* DB   FD		  */
-OP(fd,4a) { illegal_1(z80); op_4a(z80);									} /* DB   FD		  */
-OP(fd,4b) { illegal_1(z80); op_4b(z80);									} /* DB   FD		  */
-OP(fd,4c) { _Z80_R++; _Z80_C = _HY;											} /* LD   C,HY		  */
-OP(fd,4d) { _Z80_R++; _Z80_C = _LY;											} /* LD   C,LY		  */
-OP(fd,4e) { _Z80_R++; EAY; _Z80_C = RM(z80->EA);									} /* LD   C,(IY+o)	  */
-OP(fd,4f) { illegal_1(z80); op_4f(z80);									} /* DB   FD		  */
-
-OP(fd,50) { illegal_1(z80); op_50(z80);									} /* DB   FD		  */
-OP(fd,51) { illegal_1(z80); op_51(z80);									} /* DB   FD		  */
-OP(fd,52) { illegal_1(z80); op_52(z80);									} /* DB   FD		  */
-OP(fd,53) { illegal_1(z80); op_53(z80);									} /* DB   FD		  */
-OP(fd,54) { _Z80_R++; _Z80_D = _HY;											} /* LD   D,HY		  */
-OP(fd,55) { _Z80_R++; _Z80_D = _LY;											} /* LD   D,LY		  */
-OP(fd,56) { _Z80_R++; EAY; _Z80_D = RM(z80->EA);									} /* LD   D,(IY+o)	  */
-OP(fd,57) { illegal_1(z80); op_57(z80);									} /* DB   FD		  */
-
-OP(fd,58) { illegal_1(z80); op_58(z80);									} /* DB   FD		  */
-OP(fd,59) { illegal_1(z80); op_59(z80);									} /* DB   FD		  */
-OP(fd,5a) { illegal_1(z80); op_5a(z80);									} /* DB   FD		  */
-OP(fd,5b) { illegal_1(z80); op_5b(z80);									} /* DB   FD		  */
-OP(fd,5c) { _Z80_R++; _Z80_E = _HY;											} /* LD   E,HY		  */
-OP(fd,5d) { _Z80_R++; _Z80_E = _LY;											} /* LD   E,LY		  */
-OP(fd,5e) { _Z80_R++; EAY; _Z80_E = RM(z80->EA);									} /* LD   E,(IY+o)	  */
-OP(fd,5f) { illegal_1(z80); op_5f(z80);									} /* DB   FD		  */
-
-OP(fd,60) { _Z80_R++; _HY = _Z80_B;											} /* LD   HY,B		  */
-OP(fd,61) { _Z80_R++; _HY = _Z80_C;											} /* LD   HY,C		  */
-OP(fd,62) { _Z80_R++; _HY = _Z80_D;											} /* LD   HY,D		  */
-OP(fd,63) { _Z80_R++; _HY = _Z80_E;											} /* LD   HY,E		  */
-OP(fd,64) { _Z80_R++;													} /* LD   HY,HY		  */
-OP(fd,65) { _Z80_R++; _HY = _LY;										} /* LD   HY,LY		  */
-OP(fd,66) { _Z80_R++; EAY; _Z80_H = RM(z80->EA);									} /* LD   H,(IY+o)	  */
-OP(fd,67) { _Z80_R++; _HY = _Z80_A;											} /* LD   HY,A		  */
-
-OP(fd,68) { _Z80_R++; _LY = _Z80_B;											} /* LD   LY,B		  */
-OP(fd,69) { _Z80_R++; _LY = _Z80_C;											} /* LD   LY,C		  */
-OP(fd,6a) { _Z80_R++; _LY = _Z80_D;											} /* LD   LY,D		  */
-OP(fd,6b) { _Z80_R++; _LY = _Z80_E;											} /* LD   LY,E		  */
-OP(fd,6c) { _Z80_R++; _LY = _HY;										} /* LD   LY,HY		  */
-OP(fd,6d) { _Z80_R++;													} /* LD   LY,LY		  */
-OP(fd,6e) { _Z80_R++; EAY; _Z80_L = RM(z80->EA);									} /* LD   L,(IY+o)	  */
-OP(fd,6f) { _Z80_R++; _LY = _Z80_A;											} /* LD   LY,A		  */
-
-OP(fd,70) { _Z80_R++; EAY; WM( z80->EA, _Z80_B );								} /* LD   (IY+o),B	  */
-OP(fd,71) { _Z80_R++; EAY; WM( z80->EA, _Z80_C );								} /* LD   (IY+o),C	  */
-OP(fd,72) { _Z80_R++; EAY; WM( z80->EA, _Z80_D );								} /* LD   (IY+o),D	  */
-OP(fd,73) { _Z80_R++; EAY; WM( z80->EA, _Z80_E );								} /* LD   (IY+o),E	  */
-OP(fd,74) { _Z80_R++; EAY; WM( z80->EA, _Z80_H );								} /* LD   (IY+o),H	  */
-OP(fd,75) { _Z80_R++; EAY; WM( z80->EA, _Z80_L );								} /* LD   (IY+o),L	  */
-OP(fd,76) { illegal_1(z80); op_76(z80);									}		  /* DB   FD		  */
-OP(fd,77) { _Z80_R++; EAY; WM( z80->EA, _Z80_A );								} /* LD   (IY+o),A	  */
-
-OP(fd,78) { illegal_1(z80); op_78(z80);									} /* DB   FD		  */
-OP(fd,79) { illegal_1(z80); op_79(z80);									} /* DB   FD		  */
-OP(fd,7a) { illegal_1(z80); op_7a(z80);									} /* DB   FD		  */
-OP(fd,7b) { illegal_1(z80); op_7b(z80);									} /* DB   FD		  */
-OP(fd,7c) { _Z80_R++; _Z80_A = _HY;											} /* LD   A,HY		  */
-OP(fd,7d) { _Z80_R++; _Z80_A = _LY;											} /* LD   A,LY		  */
-OP(fd,7e) { _Z80_R++; EAY; _Z80_A = RM(z80->EA);									} /* LD   A,(IY+o)	  */
-OP(fd,7f) { illegal_1(z80); op_7f(z80);									} /* DB   FD		  */
-
-OP(fd,80) { illegal_1(z80); op_80(z80);									} /* DB   FD		  */
-OP(fd,81) { illegal_1(z80); op_81(z80);									} /* DB   FD		  */
-OP(fd,82) { illegal_1(z80); op_82(z80);									} /* DB   FD		  */
-OP(fd,83) { illegal_1(z80); op_83(z80);									} /* DB   FD		  */
-OP(fd,84) { _Z80_R++; ADD(z80,_HY);											} /* ADD  A,HY		  */
-OP(fd,85) { _Z80_R++; ADD(z80,_LY);											} /* ADD  A,LY		  */
-OP(fd,86) { _Z80_R++; EAY; ADD(z80,RM(z80->EA));									} /* ADD  A,(IY+o)	  */
-OP(fd,87) { illegal_1(z80); op_87(z80);									} /* DB   FD		  */
-
-OP(fd,88) { illegal_1(z80); op_88(z80);									} /* DB   FD		  */
-OP(fd,89) { illegal_1(z80); op_89(z80);									} /* DB   FD		  */
-OP(fd,8a) { illegal_1(z80); op_8a(z80);									} /* DB   FD		  */
-OP(fd,8b) { illegal_1(z80); op_8b(z80);									} /* DB   FD		  */
-OP(fd,8c) { _Z80_R++; ADC(_HY);											} /* ADC  A,HY		  */
-OP(fd,8d) { _Z80_R++; ADC(_LY);											} /* ADC  A,LY		  */
-OP(fd,8e) { _Z80_R++; EAY; ADC(RM(z80->EA));									} /* ADC  A,(IY+o)	  */
-OP(fd,8f) { illegal_1(z80); op_8f(z80);									} /* DB   FD		  */
-
-OP(fd,90) { illegal_1(z80); op_90(z80);									} /* DB   FD		  */
-OP(fd,91) { illegal_1(z80); op_91(z80);									} /* DB   FD		  */
-OP(fd,92) { illegal_1(z80); op_92(z80);									} /* DB   FD		  */
-OP(fd,93) { illegal_1(z80); op_93(z80);									} /* DB   FD		  */
-OP(fd,94) { _Z80_R++; SUB(_HY);											} /* SUB  HY		  */
-OP(fd,95) { _Z80_R++; SUB(_LY);											} /* SUB  LY		  */
-OP(fd,96) { _Z80_R++; EAY; SUB(RM(z80->EA));									} /* SUB  (IY+o)	  */
-OP(fd,97) { illegal_1(z80); op_97(z80);									} /* DB   FD		  */
-
-OP(fd,98) { illegal_1(z80); op_98(z80);									} /* DB   FD		  */
-OP(fd,99) { illegal_1(z80); op_99(z80);									} /* DB   FD		  */
-OP(fd,9a) { illegal_1(z80); op_9a(z80);									} /* DB   FD		  */
-OP(fd,9b) { illegal_1(z80); op_9b(z80);									} /* DB   FD		  */
-OP(fd,9c) { _Z80_R++; SBC(_HY);											} /* SBC  A,HY		  */
-OP(fd,9d) { _Z80_R++; SBC(_LY);											} /* SBC  A,LY		  */
-OP(fd,9e) { _Z80_R++; EAY; SBC(RM(z80->EA));									} /* SBC  A,(IY+o)	  */
-OP(fd,9f) { illegal_1(z80); op_9f(z80);									} /* DB   FD		  */
-
-OP(fd,a0) { illegal_1(z80); op_a0(z80);									} /* DB   FD		  */
-OP(fd,a1) { illegal_1(z80); op_a1(z80);									} /* DB   FD		  */
-OP(fd,a2) { illegal_1(z80); op_a2(z80);									} /* DB   FD		  */
-OP(fd,a3) { illegal_1(z80); op_a3(z80);									} /* DB   FD		  */
-OP(fd,a4) { _Z80_R++; AND(_HY);											} /* AND  HY		  */
-OP(fd,a5) { _Z80_R++; AND(_LY);											} /* AND  LY		  */
-OP(fd,a6) { _Z80_R++; EAY; AND(RM(z80->EA));									} /* AND  (IY+o)	  */
-OP(fd,a7) { illegal_1(z80); op_a7(z80);									} /* DB   FD		  */
-
-OP(fd,a8) { illegal_1(z80); op_a8(z80);									} /* DB   FD		  */
-OP(fd,a9) { illegal_1(z80); op_a9(z80);									} /* DB   FD		  */
-OP(fd,aa) { illegal_1(z80); op_aa(z80);									} /* DB   FD		  */
-OP(fd,ab) { illegal_1(z80); op_ab(z80);									} /* DB   FD		  */
-OP(fd,ac) { _Z80_R++; XOR(_HY);											} /* XOR  HY		  */
-OP(fd,ad) { _Z80_R++; XOR(_LY);											} /* XOR  LY		  */
-OP(fd,ae) { _Z80_R++; EAY; XOR(RM(z80->EA));									} /* XOR  (IY+o)	  */
-OP(fd,af) { illegal_1(z80); op_af(z80);									} /* DB   FD		  */
-
-OP(fd,b0) { illegal_1(z80); op_b0(z80);									} /* DB   FD		  */
-OP(fd,b1) { illegal_1(z80); op_b1(z80);									} /* DB   FD		  */
-OP(fd,b2) { illegal_1(z80); op_b2(z80);									} /* DB   FD		  */
-OP(fd,b3) { illegal_1(z80); op_b3(z80);									} /* DB   FD		  */
-OP(fd,b4) { _Z80_R++; OR(_HY);											} /* OR   HY		  */
-OP(fd,b5) { _Z80_R++; OR(_LY);											} /* OR   LY		  */
-OP(fd,b6) { _Z80_R++; EAY; OR(RM(z80->EA));									} /* OR   (IY+o)	  */
-OP(fd,b7) { illegal_1(z80); op_b7(z80);									} /* DB   FD		  */
-
-OP(fd,b8) { illegal_1(z80); op_b8(z80);									} /* DB   FD		  */
-OP(fd,b9) { illegal_1(z80); op_b9(z80);									} /* DB   FD		  */
-OP(fd,ba) { illegal_1(z80); op_ba(z80);									} /* DB   FD		  */
-OP(fd,bb) { illegal_1(z80); op_bb(z80);									} /* DB   FD		  */
-OP(fd,bc) { _Z80_R++; CP(_HY);											} /* CP   HY		  */
-OP(fd,bd) { _Z80_R++; CP(_LY);											} /* CP   LY		  */
-OP(fd,be) { _Z80_R++; EAY; CP(RM(z80->EA));									} /* CP   (IY+o)	  */
-OP(fd,bf) { illegal_1(z80); op_bf(z80);									} /* DB   FD		  */
-
-OP(fd,c0) { illegal_1(z80); op_c0(z80);									} /* DB   FD		  */
-OP(fd,c1) { illegal_1(z80); op_c1(z80);									} /* DB   FD		  */
-OP(fd,c2) { illegal_1(z80); op_c2(z80);									} /* DB   FD		  */
-OP(fd,c3) { illegal_1(z80); op_c3(z80);									} /* DB   FD		  */
-OP(fd,c4) { illegal_1(z80); op_c4(z80);									} /* DB   FD		  */
-OP(fd,c5) { illegal_1(z80); op_c5(z80);									} /* DB   FD		  */
-OP(fd,c6) { illegal_1(z80); op_c6(z80);									} /* DB   FD		  */
-OP(fd,c7) { illegal_1(z80); op_c7(z80);									} /* DB   FD		  */
-
-OP(fd,c8) { illegal_1(z80); op_c8(z80);									} /* DB   FD		  */
-OP(fd,c9) { illegal_1(z80); op_c9(z80);									} /* DB   FD		  */
-OP(fd,ca) { illegal_1(z80); op_ca(z80);									} /* DB   FD		  */
-OP(fd,cb) { _Z80_R++; EAY; EXEC(xycb,ARG(z80));							} /* **   FD CB xx	  */
-OP(fd,cc) { illegal_1(z80); op_cc(z80);									} /* DB   FD		  */
-OP(fd,cd) { illegal_1(z80); op_cd(z80);									} /* DB   FD		  */
-OP(fd,ce) { illegal_1(z80); op_ce(z80);									} /* DB   FD		  */
-OP(fd,cf) { illegal_1(z80); op_cf(z80);									} /* DB   FD		  */
-
-OP(fd,d0) { illegal_1(z80); op_d0(z80);									} /* DB   FD		  */
-OP(fd,d1) { illegal_1(z80); op_d1(z80);									} /* DB   FD		  */
-OP(fd,d2) { illegal_1(z80); op_d2(z80);									} /* DB   FD		  */
-OP(fd,d3) { illegal_1(z80); op_d3(z80);									} /* DB   FD		  */
-OP(fd,d4) { illegal_1(z80); op_d4(z80);									} /* DB   FD		  */
-OP(fd,d5) { illegal_1(z80); op_d5(z80);									} /* DB   FD		  */
-OP(fd,d6) { illegal_1(z80); op_d6(z80);									} /* DB   FD		  */
-OP(fd,d7) { illegal_1(z80); op_d7(z80);									} /* DB   FD		  */
-
-OP(fd,d8) { illegal_1(z80); op_d8(z80);									} /* DB   FD		  */
-OP(fd,d9) { illegal_1(z80); op_d9(z80);									} /* DB   FD		  */
-OP(fd,da) { illegal_1(z80); op_da(z80);									} /* DB   FD		  */
-OP(fd,db) { illegal_1(z80); op_db(z80);									} /* DB   FD		  */
-OP(fd,dc) { illegal_1(z80); op_dc(z80);									} /* DB   FD		  */
-OP(fd,dd) { illegal_1(z80); op_dd(z80);									} /* DB   FD		  */
-OP(fd,de) { illegal_1(z80); op_de(z80);									} /* DB   FD		  */
-OP(fd,df) { illegal_1(z80); op_df(z80);									} /* DB   FD		  */
-
-OP(fd,e0) { illegal_1(z80); op_e0(z80);									} /* DB   FD		  */
-OP(fd,e1) { _Z80_R++; POP(IY);											} /* POP  IY		  */
-OP(fd,e2) { illegal_1(z80); op_e2(z80);									} /* DB   FD		  */
-OP(fd,e3) { _Z80_R++; EXSP(IY);											} /* EX   (SP),IY	  */
-OP(fd,e4) { illegal_1(z80); op_e4(z80);									} /* DB   FD		  */
-OP(fd,e5) { _Z80_R++; PUSH( IY );										} /* PUSH IY		  */
-OP(fd,e6) { illegal_1(z80); op_e6(z80);									} /* DB   FD		  */
-OP(fd,e7) { illegal_1(z80); op_e7(z80);									} /* DB   FD		  */
-
-OP(fd,e8) { illegal_1(z80); op_e8(z80);									} /* DB   FD		  */
-OP(fd,e9) { _Z80_R++; _PC = _IY; change_pc16(_PCD);						} /* JP   (IY)		  */
-OP(fd,ea) { illegal_1(z80); op_ea(z80);									} /* DB   FD		  */
-OP(fd,eb) { illegal_1(z80); op_eb(z80);									} /* DB   FD		  */
-OP(fd,ec) { illegal_1(z80); op_ec(z80);									} /* DB   FD		  */
-OP(fd,ed) { illegal_1(z80); op_ed(z80);									} /* DB   FD		  */
-OP(fd,ee) { illegal_1(z80); op_ee(z80);									} /* DB   FD		  */
-OP(fd,ef) { illegal_1(z80); op_ef(z80);									} /* DB   FD		  */
-
-OP(fd,f0) { illegal_1(z80); op_f0(z80);									} /* DB   FD		  */
-OP(fd,f1) { illegal_1(z80); op_f1(z80);									} /* DB   FD		  */
-OP(fd,f2) { illegal_1(z80); op_f2(z80);									} /* DB   FD		  */
-OP(fd,f3) { illegal_1(z80); op_f3(z80);									} /* DB   FD		  */
-OP(fd,f4) { illegal_1(z80); op_f4(z80);									} /* DB   FD		  */
-OP(fd,f5) { illegal_1(z80); op_f5(z80);									} /* DB   FD		  */
-OP(fd,f6) { illegal_1(z80); op_f6(z80);									} /* DB   FD		  */
-OP(fd,f7) { illegal_1(z80); op_f7(z80);									} /* DB   FD		  */
-
-OP(fd,f8) { illegal_1(z80); op_f8(z80);									} /* DB   FD		  */
-OP(fd,f9) { _Z80_R++; _SP = _IY;										} /* LD   SP,IY		  */
-OP(fd,fa) { illegal_1(z80); op_fa(z80);									} /* DB   FD		  */
-OP(fd,fb) { illegal_1(z80); op_fb(z80);									} /* DB   FD		  */
-OP(fd,fc) { illegal_1(z80); op_fc(z80);									} /* DB   FD		  */
-OP(fd,fd) { illegal_1(z80); op_fd(z80);									} /* DB   FD		  */
-OP(fd,fe) { illegal_1(z80); op_fe(z80);									} /* DB   FD		  */
-OP(fd,ff) { illegal_1(z80); op_ff(z80);									} /* DB   FD		  */
-
-OP(illegal,2)
-{
-	logerror("Z80 #%d ill. opcode $ed $%02x\n",
-			cpu_getactivecpu(), cpu_readop(z80->userdata,(_PCD-1)&0xffff));
-}
-
-/**********************************************************
- * special opcodes (ED prefix)
- **********************************************************/
-OP(ed,00) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,01) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,02) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,03) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,04) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,05) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,06) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,07) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,08) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,09) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,0a) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,0b) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,0c) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,0d) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,0e) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,0f) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,10) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,11) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,12) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,13) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,14) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,15) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,16) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,17) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,18) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,19) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,1a) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,1b) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,1c) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,1d) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,1e) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,1f) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,20) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,21) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,22) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,23) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,24) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,25) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,26) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,27) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,28) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,29) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,2a) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,2b) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,2c) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,2d) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,2e) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,2f) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,30) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,31) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,32) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,33) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,34) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,35) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,36) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,37) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,38) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,39) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,3a) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,3b) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,3c) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,3d) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,3e) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,3f) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,40) { _Z80_B = IN(_BC); _F = (_F & CF) | z80->SZP[_Z80_B];					} /* IN   B,(C)		  */
-OP(ed,41) { OUT(_BC,_Z80_B);											} /* OUT  (C),B		  */
-OP(ed,42) { SBC16( BC );											} /* SBC  HL,BC		  */
-OP(ed,43) { z80->EA = ARG16(z80); WM16(z80, z80->EA, &z80->Z80.BC );						} /* LD   (w),BC	  */
-OP(ed,44) { NEG;													} /* NEG			  */
-OP(ed,45) { RETN;													} /* RETN;			  */
-OP(ed,46) { _IM = 0;												} /* IM   0			  */
-OP(ed,47) { LD_I_A;													} /* LD   I,A		  */
-
-OP(ed,48) { _Z80_C = IN(_BC); _F = (_F & CF) | z80->SZP[_Z80_C];					} /* IN   C,(C)		  */
-OP(ed,49) { OUT(_BC,_Z80_C);											} /* OUT  (C),C		  */
-OP(ed,4a) { ADC16( BC );											} /* ADC  HL,BC		  */
-OP(ed,4b) { z80->EA = ARG16(z80); RM16(z80, z80->EA, &z80->Z80.BC );						} /* LD   BC,(w)	  */
-OP(ed,4c) { NEG;													} /* NEG			  */
-OP(ed,4d) { RETI;													} /* RETI			  */
-OP(ed,4e) { _IM = 0;												} /* IM   0			  */
-OP(ed,4f) { LD_R_A;													} /* LD   R,A		  */
-
-OP(ed,50) { _Z80_D = IN(_BC); _F = (_F & CF) | z80->SZP[_Z80_D];					} /* IN   D,(C)		  */
-OP(ed,51) { OUT(_BC,_Z80_D);											} /* OUT  (C),D		  */
-OP(ed,52) { SBC16( DE );											} /* SBC  HL,DE		  */
-OP(ed,53) { z80->EA = ARG16(z80); WM16(z80, z80->EA, &z80->Z80.DE );						} /* LD   (w),DE	  */
-OP(ed,54) { NEG;													} /* NEG			  */
-OP(ed,55) { RETN;													} /* RETN;			  */
-OP(ed,56) { _IM = 1;												} /* IM   1			  */
-OP(ed,57) { LD_A_I;													} /* LD   A,I		  */
-
-OP(ed,58) { _Z80_E = IN(_BC); _F = (_F & CF) | z80->SZP[_Z80_E];					} /* IN   E,(C)		  */
-OP(ed,59) { OUT(_BC,_Z80_E);											} /* OUT  (C),E		  */
-OP(ed,5a) { ADC16( DE );											} /* ADC  HL,DE		  */
-OP(ed,5b) { z80->EA = ARG16(z80); RM16(z80, z80->EA, &z80->Z80.DE );						} /* LD   DE,(w)	  */
-OP(ed,5c) { NEG;													} /* NEG			  */
-OP(ed,5d) { RETI;													} /* RETI			  */
-OP(ed,5e) { _IM = 2;												} /* IM   2			  */
-OP(ed,5f) { LD_A_R;													} /* LD   A,R		  */
-
-OP(ed,60) { _Z80_H = IN(_BC); _F = (_F & CF) | z80->SZP[_Z80_H];					} /* IN   H,(C)		  */
-OP(ed,61) { OUT(_BC,_Z80_H);											} /* OUT  (C),H		  */
-OP(ed,62) { SBC16( HL );											} /* SBC  HL,HL		  */
-OP(ed,63) { z80->EA = ARG16(z80); WM16(z80, z80->EA, &z80->Z80.HL );						} /* LD   (w),HL	  */
-OP(ed,64) { NEG;													} /* NEG			  */
-OP(ed,65) { RETN;													} /* RETN;			  */
-OP(ed,66) { _IM = 0;												} /* IM   0			  */
-OP(ed,67) { RRD;													} /* RRD  (HL)		  */
-
-OP(ed,68) { _Z80_L = IN(_BC); _F = (_F & CF) | z80->SZP[_Z80_L];					} /* IN   L,(C)		  */
-OP(ed,69) { OUT(_BC,_Z80_L);											} /* OUT  (C),L		  */
-OP(ed,6a) { ADC16( HL );											} /* ADC  HL,HL		  */
-OP(ed,6b) { z80->EA = ARG16(z80); RM16(z80, z80->EA, &z80->Z80.HL );						} /* LD   HL,(w)	  */
-OP(ed,6c) { NEG;													} /* NEG			  */
-OP(ed,6d) { RETI;													} /* RETI			  */
-OP(ed,6e) { _IM = 0;												} /* IM   0			  */
-OP(ed,6f) { RLD;													} /* RLD  (HL)		  */
-
-OP(ed,70) { UINT8 res = IN(_BC); _F = (_F & CF) | z80->SZP[res];			} /* IN   0,(C)		  */
-OP(ed,71) { OUT(_BC,0);												} /* OUT  (C),0		  */
-OP(ed,72) { SBC16( SP );											} /* SBC  HL,SP		  */
-OP(ed,73) { z80->EA = ARG16(z80); WM16(z80, z80->EA, &z80->Z80.SP );						} /* LD   (w),SP	  */
-OP(ed,74) { NEG;													} /* NEG			  */
-OP(ed,75) { RETN;													} /* RETN;			  */
-OP(ed,76) { _IM = 1;												} /* IM   1			  */
-OP(ed,77) { illegal_2(z80);											} /* DB   ED,77		  */
-
-OP(ed,78) { _Z80_A = IN(_BC); _F = (_F & CF) | z80->SZP[_Z80_A];					} /* IN   E,(C)		  */
-OP(ed,79) { OUT(_BC,_Z80_A);											} /* OUT  (C),E		  */
-OP(ed,7a) { ADC16( SP );											} /* ADC  HL,SP		  */
-OP(ed,7b) { z80->EA = ARG16(z80); RM16(z80, z80->EA, &z80->Z80.SP );						} /* LD   SP,(w)	  */
-OP(ed,7c) { NEG;													} /* NEG			  */
-OP(ed,7d) { RETI;													} /* RETI			  */
-OP(ed,7e) { _IM = 2;												} /* IM   2			  */
-OP(ed,7f) { illegal_2(z80);											} /* DB   ED,7F		  */
-
-OP(ed,80) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,81) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,82) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,83) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,84) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,85) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,86) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,87) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,88) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,89) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,8a) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,8b) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,8c) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,8d) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,8e) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,8f) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,90) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,91) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,92) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,93) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,94) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,95) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,96) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,97) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,98) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,99) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,9a) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,9b) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,9c) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,9d) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,9e) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,9f) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,a0) { LDI;													} /* LDI			  */
-OP(ed,a1) { CPI;													} /* CPI			  */
-OP(ed,a2) { INI;													} /* INI			  */
-OP(ed,a3) { OUTI;													} /* OUTI			  */
-OP(ed,a4) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,a5) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,a6) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,a7) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,a8) { LDD;													} /* LDD			  */
-OP(ed,a9) { CPD;													} /* CPD			  */
-OP(ed,aa) { IND;													} /* IND			  */
-OP(ed,ab) { OUTD;													} /* OUTD			  */
-OP(ed,ac) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,ad) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,ae) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,af) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,b0) { LDIR;													} /* LDIR			  */
-OP(ed,b1) { CPIR;													} /* CPIR			  */
-OP(ed,b2) { INIR;													} /* INIR			  */
-OP(ed,b3) { OTIR;													} /* OTIR			  */
-OP(ed,b4) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,b5) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,b6) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,b7) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,b8) { LDDR;													} /* LDDR			  */
-OP(ed,b9) { CPDR;													} /* CPDR			  */
-OP(ed,ba) { INDR;													} /* INDR			  */
-OP(ed,bb) { OTDR;													} /* OTDR			  */
-OP(ed,bc) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,bd) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,be) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,bf) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,c0) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,c1) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,c2) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,c3) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,c4) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,c5) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,c6) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,c7) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,c8) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,c9) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,ca) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,cb) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,cc) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,cd) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,ce) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,cf) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,d0) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,d1) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,d2) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,d3) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,d4) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,d5) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,d6) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,d7) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,d8) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,d9) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,da) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,db) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,dc) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,dd) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,de) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,df) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,e0) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,e1) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,e2) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,e3) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,e4) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,e5) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,e6) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,e7) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,e8) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,e9) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,ea) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,eb) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,ec) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,ed) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,ee) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,ef) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,f0) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,f1) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,f2) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,f3) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,f4) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,f5) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,f6) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,f7) { illegal_2(z80);											} /* DB   ED		  */
-
-OP(ed,f8) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,f9) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,fa) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,fb) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,fc) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,fd) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,fe) { illegal_2(z80);											} /* DB   ED		  */
-OP(ed,ff) { illegal_2(z80);											} /* DB   ED		  */
-
-#if TIME_LOOP_HACKS
-
-#define CHECK_BC_LOOP												\
-if( _BC > 1 && _PCD < 0xfffc ) {									\
-	UINT8 op1 = cpu_readop(z80->userdata,_PCD);									\
-	UINT8 op2 = cpu_readop(z80->userdata,_PCD+1);									\
-	if( (op1==0x78 && op2==0xb1) || (op1==0x79 && op2==0xb0) )		\
-	{																\
-		UINT8 op3 = cpu_readop(z80->userdata,_PCD+2);								\
-		UINT8 op4 = cpu_readop(z80->userdata,_PCD+3);								\
-		if( op3==0x20 && op4==0xfb )								\
-		{															\
-			int cnt =												\
-				cc[Z80_TABLE_op][0x78] +							\
-				cc[Z80_TABLE_op][0xb1] +							\
-				cc[Z80_TABLE_op][0x20] +							\
-				cc[Z80_TABLE_ex][0x20];								\
-			while( _BC > 0 && z80->z80_ICount > cnt )					\
-			{														\
-				BURNODD( z80, cnt, 4, cnt );								\
-				_BC--;												\
-			}														\
-		}															\
-		else														\
-		if( op3 == 0xc2 )											\
-		{															\
-			UINT8 ad1 = cpu_readop_arg(z80->userdata,_PCD+3);						\
-			UINT8 ad2 = cpu_readop_arg(z80->userdata,_PCD+4);						\
-			if( (ad1 + 256 * ad2) == (_PCD - 1) )					\
-			{														\
-				int cnt =											\
-					cc[Z80_TABLE_op][0x78] +						\
-					cc[Z80_TABLE_op][0xb1] +						\
-					cc[Z80_TABLE_op][0xc2] +						\
-					cc[Z80_TABLE_ex][0xc2];							\
-				while( _BC > 0 && z80->z80_ICount > cnt )				\
-				{													\
-					BURNODD( z80, cnt, 4, cnt );							\
-					_BC--;											\
-				}													\
-			}														\
-		}															\
-	}																\
-}
-
-#define CHECK_DE_LOOP												\
-if( _DE > 1 && _PCD < 0xfffc ) {									\
-	UINT8 op1 = cpu_readop(z80->userdata,_PCD);									\
-	UINT8 op2 = cpu_readop(z80->userdata,_PCD+1);									\
-	if( (op1==0x7a && op2==0xb3) || (op1==0x7b && op2==0xb2) )		\
-	{																\
-		UINT8 op3 = cpu_readop(z80->userdata,_PCD+2);								\
-		UINT8 op4 = cpu_readop(z80->userdata,_PCD+3);								\
-		if( op3==0x20 && op4==0xfb )								\
-		{															\
-			int cnt =												\
-				cc[Z80_TABLE_op][0x7a] +							\
-				cc[Z80_TABLE_op][0xb3] +							\
-				cc[Z80_TABLE_op][0x20] +							\
-				cc[Z80_TABLE_ex][0x20];								\
-			while( _DE > 0 && z80->z80_ICount > cnt )					\
-			{														\
-				BURNODD( z80, cnt, 4, cnt );								\
-				_DE--;												\
-			}														\
-		}															\
-		else														\
-		if( op3==0xc2 )												\
-		{															\
-			UINT8 ad1 = cpu_readop_arg(z80->userdata,_PCD+3);						\
-			UINT8 ad2 = cpu_readop_arg(z80->userdata,_PCD+4);						\
-			if( (ad1 + 256 * ad2) == (_PCD - 1) )					\
-			{														\
-				int cnt =											\
-					cc[Z80_TABLE_op][0x7a] +						\
-					cc[Z80_TABLE_op][0xb3] +						\
-					cc[Z80_TABLE_op][0xc2] +						\
-					cc[Z80_TABLE_ex][0xc2];							\
-				while( _DE > 0 && z80->z80_ICount > cnt )				\
-				{													\
-					BURNODD( z80, cnt, 4, cnt );							\
-					_DE--;											\
-				}													\
-			}														\
-		}															\
-	}																\
-}
-
-#define CHECK_HL_LOOP												\
-if( _HL > 1 && _PCD < 0xfffc ) {									\
-	UINT8 op1 = cpu_readop(z80->userdata,_PCD);									\
-	UINT8 op2 = cpu_readop(z80->userdata,_PCD+1);									\
-	if( (op1==0x7c && op2==0xb5) || (op1==0x7d && op2==0xb4) )		\
-	{																\
-		UINT8 op3 = cpu_readop(z80->userdata,_PCD+2);								\
-		UINT8 op4 = cpu_readop(z80->userdata,_PCD+3);								\
-		if( op3==0x20 && op4==0xfb )								\
-		{															\
-			int cnt =												\
-				cc[Z80_TABLE_op][0x7c] +							\
-				cc[Z80_TABLE_op][0xb5] +							\
-				cc[Z80_TABLE_op][0x20] +							\
-				cc[Z80_TABLE_ex][0x20];								\
-			while( _HL > 0 && z80->z80_ICount > cnt )					\
-			{														\
-				BURNODD( z80, cnt, 4, cnt );								\
-				_HL--;												\
-			}														\
-		}															\
-		else														\
-		if( op3==0xc2 )												\
-		{															\
-			UINT8 ad1 = cpu_readop_arg(z80->userdata,_PCD+3);						\
-			UINT8 ad2 = cpu_readop_arg(z80->userdata,_PCD+4);						\
-			if( (ad1 + 256 * ad2) == (_PCD - 1) )					\
-			{														\
-				int cnt =											\
-					cc[Z80_TABLE_op][0x7c] +						\
-					cc[Z80_TABLE_op][0xb5] +						\
-					cc[Z80_TABLE_op][0xc2] +						\
-					cc[Z80_TABLE_ex][0xc2];							\
-				while( _HL > 0 && z80->z80_ICount > cnt )				\
-				{													\
-					BURNODD( z80, cnt, 4, cnt );							\
-					_HL--;											\
-				}													\
-			}														\
-		}															\
-	}																\
-}
-
-#else
-
-#define CHECK_BC_LOOP
-#define CHECK_DE_LOOP
-#define CHECK_HL_LOOP
-
-#endif
-
-/**********************************************************
- * main opcodes
- **********************************************************/
-OP(op,00) {															} /* NOP			  */
-OP(op,01) { _BC = ARG16(z80);											} /* LD   BC,w		  */
-OP(op,02) { WM( _BC, _Z80_A );											} /* LD   (BC),A	  */
-OP(op,03) { _BC++;													} /* INC  BC		  */
-OP(op,04) { _Z80_B = INC(z80,_Z80_B);											} /* INC  B			  */
-OP(op,05) { _Z80_B = DEC(z80,_Z80_B);											} /* DEC  B			  */
-OP(op,06) { _Z80_B = ARG(z80);												} /* LD   B,n		  */
-OP(op,07) { RLCA;													} /* RLCA			  */
-
-OP(op,08) { EX_AF;													} /* EX   AF,AF'	  */
-OP(op,09) { ADD16(z80,HL,BC);											} /* ADD  HL,BC		  */
-OP(op,0a) { _Z80_A = RM(_BC);											} /* LD   A,(BC)	  */
-OP(op,0b) { _BC--; CHECK_BC_LOOP;									} /* DEC  BC		  */
-OP(op,0c) { _Z80_C = INC(z80,_Z80_C);											} /* INC  C			  */
-OP(op,0d) { _Z80_C = DEC(z80,_Z80_C);											} /* DEC  C			  */
-OP(op,0e) { _Z80_C = ARG(z80);												} /* LD   C,n		  */
-OP(op,0f) { RRCA;													} /* RRCA			  */
-
-OP(op,10) { _Z80_B--; JR_COND( _Z80_B, 0x10 );								} /* DJNZ o			  */
-OP(op,11) { _DE = ARG16(z80);											} /* LD   DE,w		  */
-OP(op,12) { WM( _DE, _Z80_A );											} /* LD   (DE),A	  */
-OP(op,13) { _DE++;													} /* INC  DE		  */
-OP(op,14) { _Z80_D = INC(z80,_Z80_D);											} /* INC  D			  */
-OP(op,15) { _Z80_D = DEC(z80,_Z80_D);											} /* DEC  D			  */
-OP(op,16) { _Z80_D = ARG(z80);												} /* LD   D,n		  */
-OP(op,17) { RLA;													} /* RLA			  */
-
-OP(op,18) { JR();													} /* JR   o			  */
-OP(op,19) { ADD16(z80,HL,DE);											} /* ADD  HL,DE		  */
-OP(op,1a) { _Z80_A = RM(_DE);											} /* LD   A,(DE)	  */
-OP(op,1b) { _DE--; CHECK_DE_LOOP;									} /* DEC  DE		  */
-OP(op,1c) { _Z80_E = INC(z80,_Z80_E);											} /* INC  E			  */
-OP(op,1d) { _Z80_E = DEC(z80,_Z80_E);											} /* DEC  E			  */
-OP(op,1e) { _Z80_E = ARG(z80);												} /* LD   E,n		  */
-OP(op,1f) { RRA;													} /* RRA			  */
-
-OP(op,20) { JR_COND( !(_F & ZF), 0x20 );							} /* JR   NZ,o		  */
-OP(op,21) { _HL = ARG16(z80);											} /* LD   HL,w		  */
-OP(op,22) { z80->EA = ARG16(z80); WM16(z80, z80->EA, &z80->Z80.HL );						} /* LD   (w),HL	  */
-OP(op,23) { _HL++;													} /* INC  HL		  */
-OP(op,24) { _Z80_H = INC(z80,_Z80_H);											} /* INC  H			  */
-OP(op,25) { _Z80_H = DEC(z80,_Z80_H);											} /* DEC  H			  */
-OP(op,26) { _Z80_H = ARG(z80);												} /* LD   H,n		  */
-OP(op,27) { DAA;													} /* DAA			  */
-
-OP(op,28) { JR_COND( _F & ZF, 0x28 );								} /* JR   Z,o		  */
-OP(op,29) { ADD16(z80,HL,HL);											} /* ADD  HL,HL		  */
-OP(op,2a) { z80->EA = ARG16(z80); RM16(z80, z80->EA, &z80->Z80.HL );						} /* LD   HL,(w)	  */
-OP(op,2b) { _HL--; CHECK_HL_LOOP;									} /* DEC  HL		  */
-OP(op,2c) { _Z80_L = INC(z80,_Z80_L);											} /* INC  L			  */
-OP(op,2d) { _Z80_L = DEC(z80,_Z80_L);											} /* DEC  L			  */
-OP(op,2e) { _Z80_L = ARG(z80);												} /* LD   L,n		  */
-OP(op,2f) { _Z80_A ^= 0xff; _F = (_F&(SF|ZF|PF|CF))|HF|NF|(_Z80_A&(YF|XF)); } /* CPL			  */
-
-OP(op,30) { JR_COND( !(_F & CF), 0x30 );							} /* JR   NC,o		  */
-OP(op,31) { _SP = ARG16(z80);											} /* LD   SP,w		  */
-OP(op,32) { z80->EA = ARG16(z80); WM( z80->EA, _Z80_A );								} /* LD   (w),A		  */
-OP(op,33) { _SP++;													} /* INC  SP		  */
-OP(op,34) { WM( _HL, INC(z80,RM(_HL)) );								} /* INC  (HL)		  */
-OP(op,35) { WM( _HL, DEC(z80,RM(_HL)) );								} /* DEC  (HL)		  */
-OP(op,36) { WM( _HL, ARG(z80) );										} /* LD   (HL),n	  */
-OP(op,37) { _F = (_F & (SF|ZF|PF)) | CF | (_Z80_A & (YF|XF));			} /* SCF			  */
-
-OP(op,38) { JR_COND( _F & CF, 0x38 );								} /* JR   C,o		  */
-OP(op,39) { ADD16(z80,HL,SP);											} /* ADD  HL,SP		  */
-OP(op,3a) { z80->EA = ARG16(z80); _Z80_A = RM( z80->EA );							} /* LD   A,(w)		  */
-OP(op,3b) { _SP--;													} /* DEC  SP		  */
-OP(op,3c) { _Z80_A = INC(z80,_Z80_A);											} /* INC  A			  */
-OP(op,3d) { _Z80_A = DEC(z80,_Z80_A);											} /* DEC  A			  */
-OP(op,3e) { _Z80_A = ARG(z80);												} /* LD   A,n		  */
-OP(op,3f) { _F = ((_F&(SF|ZF|PF|CF))|((_F&CF)<<4)|(_Z80_A&(YF|XF)))^CF; } /* CCF			  */
-/*OP(op,3f) { _F = ((_F & ~(HF|NF)) | ((_F & CF)<<4)) ^ CF;			  }    CCF				   */
-
-OP(op,40) {															} /* LD   B,B		  */
-OP(op,41) { _Z80_B = _Z80_C;												} /* LD   B,C		  */
-OP(op,42) { _Z80_B = _Z80_D;												} /* LD   B,D		  */
-OP(op,43) { _Z80_B = _Z80_E;												} /* LD   B,E		  */
-OP(op,44) { _Z80_B = _Z80_H;												} /* LD   B,H		  */
-OP(op,45) { _Z80_B = _Z80_L;												} /* LD   B,L		  */
-OP(op,46) { _Z80_B = RM(_HL);											} /* LD   B,(HL)	  */
-OP(op,47) { _Z80_B = _Z80_A;												} /* LD   B,A		  */
-
-OP(op,48) { _Z80_C = _Z80_B;												} /* LD   C,B		  */
-OP(op,49) {															} /* LD   C,C		  */
-OP(op,4a) { _Z80_C = _Z80_D;												} /* LD   C,D		  */
-OP(op,4b) { _Z80_C = _Z80_E;												} /* LD   C,E		  */
-OP(op,4c) { _Z80_C = _Z80_H;												} /* LD   C,H		  */
-OP(op,4d) { _Z80_C = _Z80_L;												} /* LD   C,L		  */
-OP(op,4e) { _Z80_C = RM(_HL);											} /* LD   C,(HL)	  */
-OP(op,4f) { _Z80_C = _Z80_A;												} /* LD   C,A		  */
-
-OP(op,50) { _Z80_D = _Z80_B;												} /* LD   D,B		  */
-OP(op,51) { _Z80_D = _Z80_C;												} /* LD   D,C		  */
-OP(op,52) {															} /* LD   D,D		  */
-OP(op,53) { _Z80_D = _Z80_E;												} /* LD   D,E		  */
-OP(op,54) { _Z80_D = _Z80_H;												} /* LD   D,H		  */
-OP(op,55) { _Z80_D = _Z80_L;												} /* LD   D,L		  */
-OP(op,56) { _Z80_D = RM(_HL);											} /* LD   D,(HL)	  */
-OP(op,57) { _Z80_D = _Z80_A;												} /* LD   D,A		  */
-
-OP(op,58) { _Z80_E = _Z80_B;												} /* LD   E,B		  */
-OP(op,59) { _Z80_E = _Z80_C;												} /* LD   E,C		  */
-OP(op,5a) { _Z80_E = _Z80_D;												} /* LD   E,D		  */
-OP(op,5b) {															} /* LD   E,E		  */
-OP(op,5c) { _Z80_E = _Z80_H;												} /* LD   E,H		  */
-OP(op,5d) { _Z80_E = _Z80_L;												} /* LD   E,L		  */
-OP(op,5e) { _Z80_E = RM(_HL);											} /* LD   E,(HL)	  */
-OP(op,5f) { _Z80_E = _Z80_A;												} /* LD   E,A		  */
-
-OP(op,60) { _Z80_H = _Z80_B;												} /* LD   H,B		  */
-OP(op,61) { _Z80_H = _Z80_C;												} /* LD   H,C		  */
-OP(op,62) { _Z80_H = _Z80_D;												} /* LD   H,D		  */
-OP(op,63) { _Z80_H = _Z80_E;												} /* LD   H,E		  */
-OP(op,64) {															} /* LD   H,H		  */
-OP(op,65) { _Z80_H = _Z80_L;												} /* LD   H,L		  */
-OP(op,66) { _Z80_H = RM(_HL);											} /* LD   H,(HL)	  */
-OP(op,67) { _Z80_H = _Z80_A;												} /* LD   H,A		  */
-
-OP(op,68) { _Z80_L = _Z80_B;												} /* LD   L,B		  */
-OP(op,69) { _Z80_L = _Z80_C;												} /* LD   L,C		  */
-OP(op,6a) { _Z80_L = _Z80_D;												} /* LD   L,D		  */
-OP(op,6b) { _Z80_L = _Z80_E;												} /* LD   L,E		  */
-OP(op,6c) { _Z80_L = _Z80_H;												} /* LD   L,H		  */
-OP(op,6d) {															} /* LD   L,L		  */
-OP(op,6e) { _Z80_L = RM(_HL);											} /* LD   L,(HL)	  */
-OP(op,6f) { _Z80_L = _Z80_A;												} /* LD   L,A		  */
-
-OP(op,70) { WM( _HL, _Z80_B );											} /* LD   (HL),B	  */
-OP(op,71) { WM( _HL, _Z80_C );											} /* LD   (HL),C	  */
-OP(op,72) { WM( _HL, _Z80_D );											} /* LD   (HL),D	  */
-OP(op,73) { WM( _HL, _Z80_E );											} /* LD   (HL),E	  */
-OP(op,74) { WM( _HL, _Z80_H );											} /* LD   (HL),H	  */
-OP(op,75) { WM( _HL, _Z80_L );											} /* LD   (HL),L	  */
-OP(op,76) { ENTER_HALT;												} /* HALT			  */
-OP(op,77) { WM( _HL, _Z80_A );											} /* LD   (HL),A	  */
-
-OP(op,78) { _Z80_A = _Z80_B;												} /* LD   A,B		  */
-OP(op,79) { _Z80_A = _Z80_C;												} /* LD   A,C		  */
-OP(op,7a) { _Z80_A = _Z80_D;												} /* LD   A,D		  */
-OP(op,7b) { _Z80_A = _Z80_E;												} /* LD   A,E		  */
-OP(op,7c) { _Z80_A = _Z80_H;												} /* LD   A,H		  */
-OP(op,7d) { _Z80_A = _Z80_L;												} /* LD   A,L		  */
-OP(op,7e) { _Z80_A = RM(_HL);											} /* LD   A,(HL)	  */
-OP(op,7f) {															} /* LD   A,A		  */
-
-OP(op,80) { ADD(z80,_Z80_B);												} /* ADD  A,B		  */
-OP(op,81) { ADD(z80,_Z80_C);												} /* ADD  A,C		  */
-OP(op,82) { ADD(z80,_Z80_D);												} /* ADD  A,D		  */
-OP(op,83) { ADD(z80,_Z80_E);												} /* ADD  A,E		  */
-OP(op,84) { ADD(z80,_Z80_H);												} /* ADD  A,H		  */
-OP(op,85) { ADD(z80,_Z80_L);												} /* ADD  A,L		  */
-OP(op,86) { ADD(z80,RM(_HL));											} /* ADD  A,(HL)	  */
-OP(op,87) { ADD(z80,_Z80_A);												} /* ADD  A,A		  */
-
-OP(op,88) { ADC(_Z80_B);												} /* ADC  A,B		  */
-OP(op,89) { ADC(_Z80_C);												} /* ADC  A,C		  */
-OP(op,8a) { ADC(_Z80_D);												} /* ADC  A,D		  */
-OP(op,8b) { ADC(_Z80_E);												} /* ADC  A,E		  */
-OP(op,8c) { ADC(_Z80_H);												} /* ADC  A,H		  */
-OP(op,8d) { ADC(_Z80_L);												} /* ADC  A,L		  */
-OP(op,8e) { ADC(RM(_HL));											} /* ADC  A,(HL)	  */
-OP(op,8f) { ADC(_Z80_A);												} /* ADC  A,A		  */
-
-OP(op,90) { SUB(_Z80_B);												} /* SUB  B			  */
-OP(op,91) { SUB(_Z80_C);												} /* SUB  C			  */
-OP(op,92) { SUB(_Z80_D);												} /* SUB  D			  */
-OP(op,93) { SUB(_Z80_E);												} /* SUB  E			  */
-OP(op,94) { SUB(_Z80_H);												} /* SUB  H			  */
-OP(op,95) { SUB(_Z80_L);												} /* SUB  L			  */
-OP(op,96) { SUB(RM(_HL));											} /* SUB  (HL)		  */
-OP(op,97) { SUB(_Z80_A);												} /* SUB  A			  */
-
-OP(op,98) { SBC(_Z80_B);												} /* SBC  A,B		  */
-OP(op,99) { SBC(_Z80_C);												} /* SBC  A,C		  */
-OP(op,9a) { SBC(_Z80_D);												} /* SBC  A,D		  */
-OP(op,9b) { SBC(_Z80_E);												} /* SBC  A,E		  */
-OP(op,9c) { SBC(_Z80_H);												} /* SBC  A,H		  */
-OP(op,9d) { SBC(_Z80_L);												} /* SBC  A,L		  */
-OP(op,9e) { SBC(RM(_HL));											} /* SBC  A,(HL)	  */
-OP(op,9f) { SBC(_Z80_A);												} /* SBC  A,A		  */
-
-OP(op,a0) { AND(_Z80_B);												} /* AND  B			  */
-OP(op,a1) { AND(_Z80_C);												} /* AND  C			  */
-OP(op,a2) { AND(_Z80_D);												} /* AND  D			  */
-OP(op,a3) { AND(_Z80_E);												} /* AND  E			  */
-OP(op,a4) { AND(_Z80_H);												} /* AND  H			  */
-OP(op,a5) { AND(_Z80_L);												} /* AND  L			  */
-OP(op,a6) { AND(RM(_HL));											} /* AND  (HL)		  */
-OP(op,a7) { AND(_Z80_A);												} /* AND  A			  */
-
-OP(op,a8) { XOR(_Z80_B);												} /* XOR  B			  */
-OP(op,a9) { XOR(_Z80_C);												} /* XOR  C			  */
-OP(op,aa) { XOR(_Z80_D);												} /* XOR  D			  */
-OP(op,ab) { XOR(_Z80_E);												} /* XOR  E			  */
-OP(op,ac) { XOR(_Z80_H);												} /* XOR  H			  */
-OP(op,ad) { XOR(_Z80_L);												} /* XOR  L			  */
-OP(op,ae) { XOR(RM(_HL));											} /* XOR  (HL)		  */
-OP(op,af) { XOR(_Z80_A);												} /* XOR  A			  */
-
-OP(op,b0) { OR(_Z80_B);													} /* OR   B			  */
-OP(op,b1) { OR(_Z80_C);													} /* OR   C			  */
-OP(op,b2) { OR(_Z80_D);													} /* OR   D			  */
-OP(op,b3) { OR(_Z80_E);													} /* OR   E			  */
-OP(op,b4) { OR(_Z80_H);													} /* OR   H			  */
-OP(op,b5) { OR(_Z80_L);													} /* OR   L			  */
-OP(op,b6) { OR(RM(_HL));											} /* OR   (HL)		  */
-OP(op,b7) { OR(_Z80_A);													} /* OR   A			  */
-
-OP(op,b8) { CP(_Z80_B);													} /* CP   B			  */
-OP(op,b9) { CP(_Z80_C);													} /* CP   C			  */
-OP(op,ba) { CP(_Z80_D);													} /* CP   D			  */
-OP(op,bb) { CP(_Z80_E);													} /* CP   E			  */
-OP(op,bc) { CP(_Z80_H);													} /* CP   H			  */
-OP(op,bd) { CP(_Z80_L);													} /* CP   L			  */
-OP(op,be) { CP(RM(_HL));											} /* CP   (HL)		  */
-OP(op,bf) { CP(_Z80_A);													} /* CP   A			  */
-
-OP(op,c0) { RET_COND( !(_F & ZF), 0xc0 );							} /* RET  NZ		  */
-OP(op,c1) { POP(BC);												} /* POP  BC		  */
-OP(op,c2) { JP_COND( !(_F & ZF) );									} /* JP   NZ,a		  */
-OP(op,c3) { JP;														} /* JP   a			  */
-OP(op,c4) { CALL_COND( !(_F & ZF), 0xc4 );							} /* CALL NZ,a		  */
-OP(op,c5) { PUSH( BC );												} /* PUSH BC		  */
-OP(op,c6) { ADD(z80,ARG(z80));												} /* ADD  A,n		  */
-OP(op,c7) { RST(0x00);												} /* RST  0			  */
-
-OP(op,c8) { RET_COND( _F & ZF, 0xc8 );								} /* RET  Z			  */
-OP(op,c9) { POP(PC); change_pc16(_PCD);								} /* RET			  */
-OP(op,ca) { JP_COND( _F & ZF );										} /* JP   Z,a		  */
-OP(op,cb) { _Z80_R++; EXEC(cb,ROP(z80));									} /* **** CB xx		  */
-OP(op,cc) { CALL_COND( _F & ZF, 0xcc );								} /* CALL Z,a		  */
-OP(op,cd) { CALL();													} /* CALL a			  */
-OP(op,ce) { ADC(ARG(z80));												} /* ADC  A,n		  */
-OP(op,cf) { RST(0x08);												} /* RST  1			  */
-
-OP(op,d0) { RET_COND( !(_F & CF), 0xd0 );							} /* RET  NC		  */
-OP(op,d1) { POP(DE);												} /* POP  DE		  */
-OP(op,d2) { JP_COND( !(_F & CF) );									} /* JP   NC,a		  */
-OP(op,d3) { unsigned n = ARG(z80) | (_Z80_A << 8); OUT( n, _Z80_A );			} /* OUT  (n),A		  */
-OP(op,d4) { CALL_COND( !(_F & CF), 0xd4 );							} /* CALL NC,a		  */
-OP(op,d5) { PUSH( DE );												} /* PUSH DE		  */
-OP(op,d6) { SUB(ARG(z80));												} /* SUB  n			  */
-OP(op,d7) { RST(0x10);												} /* RST  2			  */
-
-OP(op,d8) { RET_COND( _F & CF, 0xd8 );								} /* RET  C			  */
-OP(op,d9) { EXX;													} /* EXX			  */
-OP(op,da) { JP_COND( _F & CF );										} /* JP   C,a		  */
-OP(op,db) { unsigned n = ARG(z80) | (_Z80_A << 8); _Z80_A = IN( n );			} /* IN   A,(n)		  */
-OP(op,dc) { CALL_COND( _F & CF, 0xdc );								} /* CALL C,a		  */
-OP(op,dd) { _Z80_R++; EXEC(dd,ROP(z80));									} /* **** DD xx		  */
-OP(op,de) { SBC(ARG(z80));												} /* SBC  A,n		  */
-OP(op,df) { RST(0x18);												} /* RST  3			  */
-
-OP(op,e0) { RET_COND( !(_F & PF), 0xe0 );							} /* RET  PO		  */
-OP(op,e1) { POP(HL);												} /* POP  HL		  */
-OP(op,e2) { JP_COND( !(_F & PF) );									} /* JP   PO,a		  */
-OP(op,e3) { EXSP(HL);												} /* EX   HL,(SP)	  */
-OP(op,e4) { CALL_COND( !(_F & PF), 0xe4 );							} /* CALL PO,a		  */
-OP(op,e5) { PUSH( HL );												} /* PUSH HL		  */
-OP(op,e6) { AND(ARG(z80));												} /* AND  n			  */
-OP(op,e7) { RST(0x20);												} /* RST  4			  */
-
-OP(op,e8) { RET_COND( _F & PF, 0xe8 );								} /* RET  PE		  */
-OP(op,e9) { _PC = _HL; change_pc16(_PCD);							} /* JP   (HL)		  */
-OP(op,ea) { JP_COND( _F & PF );										} /* JP   PE,a		  */
-OP(op,eb) { EX_DE_HL;												} /* EX   DE,HL		  */
-OP(op,ec) { CALL_COND( _F & PF, 0xec );								} /* CALL PE,a		  */
-OP(op,ed) { _Z80_R++; EXEC(ed,ROP(z80));									} /* **** ED xx		  */
-OP(op,ee) { XOR(ARG(z80));												} /* XOR  n			  */
-OP(op,ef) { RST(0x28);												} /* RST  5			  */
-
-OP(op,f0) { RET_COND( !(_F & SF), 0xf0 );							} /* RET  P			  */
-OP(op,f1) { POP(AF);												} /* POP  AF		  */
-OP(op,f2) { JP_COND( !(_F & SF) );									} /* JP   P,a		  */
-OP(op,f3) { _IFF1 = _IFF2 = 0;										} /* DI				  */
-OP(op,f4) { CALL_COND( !(_F & SF), 0xf4 );							} /* CALL P,a		  */
-OP(op,f5) { PUSH( AF );												} /* PUSH AF		  */
-OP(op,f6) { OR(ARG(z80));												} /* OR   n			  */
-OP(op,f7) { RST(0x30);												} /* RST  6			  */
-
-OP(op,f8) { RET_COND( _F & SF, 0xf8 );								} /* RET  M			  */
-OP(op,f9) { _SP = _HL;												} /* LD   SP,HL		  */
-OP(op,fa) { JP_COND(_F & SF);										} /* JP   M,a		  */
-OP(op,fb) { EI;														} /* EI				  */
-OP(op,fc) { CALL_COND( _F & SF, 0xfc );								} /* CALL M,a		  */
-OP(op,fd) { _Z80_R++; EXEC(fd,ROP(z80));									} /* **** FD xx		  */
-OP(op,fe) { CP(ARG(z80));												} /* CP   n			  */
-OP(op,ff) { RST(0x38);												} /* RST  7			  */
-
-
-static void take_interrupt(z80_state_t *z80)
-{
-	if( _IFF1 )
-	{
-		int irq_vector;
-
-		/* there isn't a valid previous program counter */
-		_PPC = -1;
-
-		/* Check if processor was halted */
-		LEAVE_HALT;
-
-		if( z80->Z80.irq_max )			/* daisy chain mode */
-		{
-			if( z80->Z80.request_irq >= 0 )
-			{
-				/* Clear both interrupt flip flops */
-				_IFF1 = _IFF2 = 0;
-				irq_vector = z80->Z80.irq[z80->Z80.request_irq].interrupt_entry(z80->Z80.irq[z80->Z80.request_irq].irq_param);
-				LOG(("Z80 #%d daisy chain irq_vector $%02x\n", cpu_getactivecpu(), irq_vector));
-				z80->Z80.request_irq = -1;
-			} else return;
-		}
-		else
-		{
-			/* Clear both interrupt flip flops */
-			_IFF1 = _IFF2 = 0;
-			/* call back the cpu interface to retrieve the vector */
-			irq_vector = (*z80->Z80.irq_callback)(0);
-			LOG(("Z80 #%d single int. irq_vector $%02x\n", cpu_getactivecpu(), irq_vector));
-		}
-
-		/* Interrupt mode 2. Call [z80->Z80.I:databyte] */
-		if( _IM == 2 )
-		{
-			irq_vector = (irq_vector & 0xff) | (_Z80_I << 8);
-			PUSH( PC );
-			RM16(z80, irq_vector, &z80->Z80.PC );
-			LOG(("Z80 #%d IM2 [$%04x] = $%04x\n",cpu_getactivecpu() , irq_vector, _PCD));
-			/* CALL opcode timing */
-			z80->Z80.extra_cycles += cc[Z80_TABLE_op][0xcd];
-		}
-		else
-		/* Interrupt mode 1. RST 38h */
-		if( _IM == 1 )
-		{
-			LOG(("Z80 #%d IM1 $0038\n",cpu_getactivecpu() ));
-			PUSH( PC );
-			_PCD = 0x0038;
-			/* RST $38 + 'interrupt latency' cycles */
-			z80->Z80.extra_cycles += cc[Z80_TABLE_op][0xff] + cc[Z80_TABLE_ex][0xff];
-		}
-		else
-		{
-			/* Interrupt mode 0. We check for CALL and JP instructions, */
-			/* if neither of these were found we assume a 1 byte opcode */
-			/* was placed on the databus								*/
-			LOG(("Z80 #%d IM0 $%04x\n",cpu_getactivecpu() , irq_vector));
-			switch (irq_vector & 0xff0000)
-			{
-				case 0xcd0000:	/* call */
-					PUSH( PC );
-					_PCD = irq_vector & 0xffff;
-					 /* CALL $xxxx + 'interrupt latency' cycles */
-					z80->Z80.extra_cycles += cc[Z80_TABLE_op][0xcd] + cc[Z80_TABLE_ex][0xff];
-					break;
-				case 0xc30000:	/* jump */
-					_PCD = irq_vector & 0xffff;
-					/* JP $xxxx + 2 cycles */
-					z80->Z80.extra_cycles += cc[Z80_TABLE_op][0xc3] + cc[Z80_TABLE_ex][0xff];
-					break;
-				default:		/* rst (or other opcodes?) */
-					PUSH( PC );
-					_PCD = irq_vector & 0x0038;
-					/* RST $xx + 2 cycles */
-					z80->Z80.extra_cycles += cc[Z80_TABLE_op][_PCD] + cc[Z80_TABLE_ex][_PCD];
-					break;
-			}
-		}
-		change_pc16(_PCD);
-	}
-}
-
-/****************************************************************************
- * Processor initialization
- ****************************************************************************/
-z80_state_t *z80_init(void)
-{
-//	int cpu = 0;//cpu_getactivecpu();
-	int i, p;
-	z80_state_t *z80 = malloc (sizeof (z80_state_t));
-	memset (z80, 0, sizeof (z80_state_t));
-#if BIG_FLAGS_ARRAY
-	if( !z80->SZHVC_add || !z80->SZHVC_sub )
-	{
-		int oldval, newval, val;
-		UINT8 *padd, *padc, *psub, *psbc;
-		/* allocate big flag arrays once */
-		z80->SZHVC_add = (UINT8 *)malloc(2*256*256);
-		z80->SZHVC_sub = (UINT8 *)malloc(2*256*256);
-		if( !z80->SZHVC_add || !z80->SZHVC_sub )
-		{
-			LOG(("Z80: failed to allocate 2 * 128K flags arrays!!!\n"));
-			exit(1);
-		}
-		padd = &z80->SZHVC_add[	0*256];
-		padc = &z80->SZHVC_add[256*256];
-		psub = &z80->SZHVC_sub[	0*256];
-		psbc = &z80->SZHVC_sub[256*256];
-		for (oldval = 0; oldval < 256; oldval++)
-		{
-			for (newval = 0; newval < 256; newval++)
-			{
-				/* add or adc w/o carry set */
-				val = newval - oldval;
-				*padd = (newval) ? ((newval & 0x80) ? SF : 0) : ZF;
-#if Z80_EXACT
-				*padd |= (newval & (YF | XF));	/* undocumented flag bits 5+3 */
-#endif
-				if( (newval & 0x0f) < (oldval & 0x0f) ) *padd |= HF;
-				if( newval < oldval ) *padd |= CF;
-				if( (val^oldval^0x80) & (val^newval) & 0x80 ) *padd |= VF;
-				padd++;
-
-				/* adc with carry set */
-				val = newval - oldval - 1;
-				*padc = (newval) ? ((newval & 0x80) ? SF : 0) : ZF;
-#if Z80_EXACT
-				*padc |= (newval & (YF | XF));	/* undocumented flag bits 5+3 */
-#endif
-				if( (newval & 0x0f) <= (oldval & 0x0f) ) *padc |= HF;
-				if( newval <= oldval ) *padc |= CF;
-				if( (val^oldval^0x80) & (val^newval) & 0x80 ) *padc |= VF;
-				padc++;
-
-				/* cp, sub or sbc w/o carry set */
-				val = oldval - newval;
-				*psub = NF | ((newval) ? ((newval & 0x80) ? SF : 0) : ZF);
-#if Z80_EXACT
-				*psub |= (newval & (YF | XF));	/* undocumented flag bits 5+3 */
-#endif
-				if( (newval & 0x0f) > (oldval & 0x0f) ) *psub |= HF;
-				if( newval > oldval ) *psub |= CF;
-				if( (val^oldval) & (oldval^newval) & 0x80 ) *psub |= VF;
-				psub++;
-
-				/* sbc with carry set */
-				val = oldval - newval - 1;
-				*psbc = NF | ((newval) ? ((newval & 0x80) ? SF : 0) : ZF);
-#if Z80_EXACT
-				*psbc |= (newval & (YF | XF));	/* undocumented flag bits 5+3 */
-#endif
-				if( (newval & 0x0f) >= (oldval & 0x0f) ) *psbc |= HF;
-				if( newval >= oldval ) *psbc |= CF;
-				if( (val^oldval) & (oldval^newval) & 0x80 ) *psbc |= VF;
-				psbc++;
-			}
-		}
-	}
-#endif
-	for (i = 0; i < 256; i++)
-	{
-		p = 0;
-		if( i&0x01 ) ++p;
-		if( i&0x02 ) ++p;
-		if( i&0x04 ) ++p;
-		if( i&0x08 ) ++p;
-		if( i&0x10 ) ++p;
-		if( i&0x20 ) ++p;
-		if( i&0x40 ) ++p;
-		if( i&0x80 ) ++p;
-		z80->SZ[i] = i ? i & SF : ZF;
-#if Z80_EXACT
-		z80->SZ[i] |= (i & (YF | XF));		/* undocumented flag bits 5+3 */
-#endif
-		z80->SZ_BIT[i] = i ? i & SF : ZF | PF;
-#if Z80_EXACT
-		z80->SZ_BIT[i] |= (i & (YF | XF));	/* undocumented flag bits 5+3 */
-#endif
-		z80->SZP[i] = z80->SZ[i] | ((p & 1) ? 0 : PF);
-		z80->SZHV_inc[i] = z80->SZ[i];
-		if( i == 0x80 ) z80->SZHV_inc[i] |= VF;
-		if( (i & 0x0f) == 0x00 ) z80->SZHV_inc[i] |= HF;
-		z80->SZHV_dec[i] = z80->SZ[i] | NF;
-		if( i == 0x7f ) z80->SZHV_dec[i] |= VF;
-		if( (i & 0x0f) == 0x0f ) z80->SZHV_dec[i] |= HF;
-	}
-
-/*
-	state_save_register_UINT16("z80", cpu, "AF", &z80->Z80.AF.w.l, 1);
-	state_save_register_UINT16("z80", cpu, "BC", &z80->Z80.BC.w.l, 1);
-	state_save_register_UINT16("z80", cpu, "DE", &z80->Z80.DE.w.l, 1);
-	state_save_register_UINT16("z80", cpu, "HL", &z80->Z80.HL.w.l, 1);
-	state_save_register_UINT16("z80", cpu, "IX", &z80->Z80.IX.w.l, 1);
-	state_save_register_UINT16("z80", cpu, "IY", &z80->Z80.IY.w.l, 1);
-	state_save_register_UINT16("z80", cpu, "PC", &z80->Z80.PC.w.l, 1);
-	state_save_register_UINT16("z80", cpu, "SP", &z80->Z80.SP.w.l, 1);
-	state_save_register_UINT16("z80", cpu, "AF2", &z80->Z80.AF2.w.l, 1);
-	state_save_register_UINT16("z80", cpu, "BC2", &z80->Z80.BC2.w.l, 1);
-	state_save_register_UINT16("z80", cpu, "DE2", &z80->Z80.DE2.w.l, 1);
-	state_save_register_UINT16("z80", cpu, "HL2", &z80->Z80.HL2.w.l, 1);
-	state_save_register_UINT8("z80", cpu, "R", &z80->Z80.R, 1);
-	state_save_register_UINT8("z80", cpu, "R2", &z80->Z80.R2, 1);
-	state_save_register_UINT8("z80", cpu, "IFF1", &z80->Z80.IFF1, 1);
-	state_save_register_UINT8("z80", cpu, "IFF2", &z80->Z80.IFF2, 1);
-	state_save_register_UINT8("z80", cpu, "HALT", &z80->Z80.HALT, 1);
-	state_save_register_UINT8("z80", cpu, "IM", &z80->Z80.IM, 1);
-	state_save_register_UINT8("z80", cpu, "I", &z80->Z80.I, 1);
-	state_save_register_UINT8("z80", cpu, "irq_max", &z80->Z80.irq_max, 1);
-	state_save_register_INT8("z80", cpu, "request_irq", &z80->Z80.request_irq, 1);
-	state_save_register_INT8("z80", cpu, "service_irq", &z80->Z80.service_irq, 1);
-	state_save_register_UINT8("z80", cpu, "int_state", z80->Z80.int_state, 4);
-	state_save_register_UINT8("z80", cpu, "nmi_state", &z80->Z80.nmi_state, 1);
-	state_save_register_UINT8("z80", cpu, "irq_state", &z80->Z80.irq_state, 1);
-*/
-	/* daisy chain needs to be saved by z80ctc.c somehow */
-
-	return z80;
-}
-
-void z80_free (z80_state_t *z80) {
-    if (z80) {
-        if( z80->SZHVC_add) {
-            free (z80->SZHVC_add);
-        }
-        if (z80->SZHVC_sub) {
-            free (z80->SZHVC_sub);
-        }
-        free (z80);
-    }
-}
-
-/****************************************************************************
- * Reset registers to their initial values
- ****************************************************************************/
-void z80_reset(z80_state_t *z80, void *param)
-{
-	Z80_DaisyChain *daisy_chain = (Z80_DaisyChain *)param;
-	memset(&z80->Z80, 0, sizeof(z80->Z80));
-	_IX = _IY = 0xffff; /* IX and IY are FFFF after a reset! */
-	_F = ZF;			/* Zero flag is set */
-	z80->Z80.request_irq = -1;
-	z80->Z80.service_irq = -1;
-	z80->Z80.nmi_state = CLEAR_LINE;
-	z80->Z80.irq_state = CLEAR_LINE;
-
-	if( daisy_chain )
-	{
-		while( daisy_chain->irq_param != -1 && z80->Z80.irq_max < Z80_MAXDAISY )
-		{
-			/* set callbackhandler after reti */
-			z80->Z80.irq[z80->Z80.irq_max] = *daisy_chain;
-			/* device reset */
-			if( z80->Z80.irq[z80->Z80.irq_max].reset )
-				z80->Z80.irq[z80->Z80.irq_max].reset(z80->Z80.irq[z80->Z80.irq_max].irq_param);
-			z80->Z80.irq_max++;
-			daisy_chain++;
-		}
-	}
-
-	change_pc16(_PCD);
-}
-
-void z80_exit(z80_state_t *z80)
-{
-#if BIG_FLAGS_ARRAY
-	if (z80->SZHVC_add) free(z80->SZHVC_add);
-	z80->SZHVC_add = NULL;
-	if (z80->SZHVC_sub) free(z80->SZHVC_sub);
-	z80->SZHVC_sub = NULL;
-#endif
-}
-
-/****************************************************************************
- * Execute 'cycles' T-states. Return number of T-states really executed
- ****************************************************************************/
-int z80_execute(z80_state_t *z80, int cycles)
-{
-	z80->z80_ICount = cycles - z80->Z80.extra_cycles;
-	z80->Z80.extra_cycles = 0;
-
-	do
-	{
-		_PPC = _PCD;
-		CALL_MAME_DEBUG;
-		_Z80_R++;
-		EXEC_INLINE(op,ROP(z80));
-	} while( z80->z80_ICount > 0 );
-
-	z80->z80_ICount -= z80->Z80.extra_cycles;
-	z80->Z80.extra_cycles = 0;
-
-	return cycles - z80->z80_ICount;
-}
-
-/****************************************************************************
- * Burn 'cycles' T-states. Adjust R register for the lost time
- ****************************************************************************/
-void z80_burn(z80_state_t *z80, int cycles)
-{
-	if( cycles > 0 )
-	{
-		/* NOP takes 4 cycles per instruction */
-		int n = (cycles + 3) / 4;
-		_Z80_R += n;
-		z80->z80_ICount -= 4 * n;
-	}
-}
-
-/****************************************************************************
- * Get all registers in given buffer
- ****************************************************************************/
-unsigned z80_get_context (z80_state_t *z80, void *dst)
-{
-	if( dst )
-		*(Z80_Regs*)dst = z80->Z80;
-	return sizeof(Z80_Regs);
-}
-
-/****************************************************************************
- * Set all registers to given values
- ****************************************************************************/
-void z80_set_context (z80_state_t *z80, void *src)
-{
-	if( src )
-		z80->Z80 = *(Z80_Regs*)src;
-	change_pc16(_PCD);
-}
-
-/****************************************************************************
- * Get a pointer to a cycle count table
- ****************************************************************************/
-const void *z80_get_cycle_table (z80_state_t *z80, int which)
-{
-	if (which >= 0 && which <= Z80_TABLE_xycb)
-		return cc[which];
-	return NULL;
-}
-
-/****************************************************************************
- * Set a new cycle count table
- ****************************************************************************/
-void z80_set_cycle_table (z80_state_t *z80, int which, void *new_table)
-{
-	if (which >= 0 && which <= Z80_TABLE_ex)
-		cc[which] = new_table;
-}
-
-/****************************************************************************
- * Return a specific register
- ****************************************************************************/
-unsigned z80_get_reg (z80_state_t *z80, int regnum)
-{
-	switch( regnum )
-	{
-		//case REG_PC: return _PCD;
-		case Z80_PC: return z80->Z80.PC.w.l;
-		//case REG_SP: return _SPD;
-		case Z80_SP: return z80->Z80.SP.w.l;
-		case Z80_AF: return z80->Z80.AF.w.l;
-		case Z80_BC: return z80->Z80.BC.w.l;
-		case Z80_DE: return z80->Z80.DE.w.l;
-		case Z80_HL: return z80->Z80.HL.w.l;
-		case Z80_IX: return z80->Z80.IX.w.l;
-		case Z80_IY: return z80->Z80.IY.w.l;
-		case Z80_R: return (z80->Z80.R & 0x7f) | (z80->Z80.R2 & 0x80);
-		case Z80_I: return z80->Z80.I;
-		case Z80_AF2: return z80->Z80.AF2.w.l;
-		case Z80_BC2: return z80->Z80.BC2.w.l;
-		case Z80_DE2: return z80->Z80.DE2.w.l;
-		case Z80_HL2: return z80->Z80.HL2.w.l;
-		case Z80_IM: return z80->Z80.IM;
-		case Z80_IFF1: return z80->Z80.IFF1;
-		case Z80_IFF2: return z80->Z80.IFF2;
-		case Z80_HALT: return z80->Z80.HALT;
-		case Z80_NMI_STATE: return z80->Z80.nmi_state;
-		case Z80_IRQ_STATE: return z80->Z80.irq_state;
-		case Z80_DC0: return z80->Z80.int_state[0];
-		case Z80_DC1: return z80->Z80.int_state[1];
-		case Z80_DC2: return z80->Z80.int_state[2];
-		case Z80_DC3: return z80->Z80.int_state[3];
-		case REG_PREVIOUSPC: return z80->Z80.PREPC.w.l;
-		default:
-			if( regnum <= REG_SP_CONTENTS )
-			{
-				unsigned offset = _SPD + 2 * (REG_SP_CONTENTS - regnum);
-				if( offset < 0xffff )
-					return RM( offset ) | ( RM( offset + 1) << 8 );
-			}
-	}
-	return 0;
-}
-
-/****************************************************************************
- * Set a specific register
- ****************************************************************************/
-void z80_set_reg (z80_state_t *z80, int regnum, unsigned val)
-{
-	switch( regnum )
-	{
-		//case REG_PC: _PC = val; change_pc16(_PCD); break;
-		case Z80_PC: z80->Z80.PC.w.l = val; break;
-		//case REG_SP: _SP = val; break;
-		case Z80_SP: z80->Z80.SP.w.l = val; break;
-		case Z80_AF: z80->Z80.AF.w.l = val; break;
-		case Z80_BC: z80->Z80.BC.w.l = val; break;
-		case Z80_DE: z80->Z80.DE.w.l = val; break;
-		case Z80_HL: z80->Z80.HL.w.l = val; break;
-		case Z80_IX: z80->Z80.IX.w.l = val; break;
-		case Z80_IY: z80->Z80.IY.w.l = val; break;
-		case Z80_R: z80->Z80.R = val; z80->Z80.R2 = val & 0x80; break;
-		case Z80_I: z80->Z80.I = val; break;
-		case Z80_AF2: z80->Z80.AF2.w.l = val; break;
-		case Z80_BC2: z80->Z80.BC2.w.l = val; break;
-		case Z80_DE2: z80->Z80.DE2.w.l = val; break;
-		case Z80_HL2: z80->Z80.HL2.w.l = val; break;
-		case Z80_IM: z80->Z80.IM = val; break;
-		case Z80_IFF1: z80->Z80.IFF1 = val; break;
-		case Z80_IFF2: z80->Z80.IFF2 = val; break;
-		case Z80_HALT: z80->Z80.HALT = val; break;
-		case Z80_NMI_STATE: z80_set_irq_line(z80,IRQ_LINE_NMI,val); break;
-		case Z80_IRQ_STATE: z80_set_irq_line(z80,0,val); break;
-		case Z80_DC0: z80->Z80.int_state[0] = val; break;
-		case Z80_DC1: z80->Z80.int_state[1] = val; break;
-		case Z80_DC2: z80->Z80.int_state[2] = val; break;
-		case Z80_DC3: z80->Z80.int_state[3] = val; break;
-		default:
-			if( regnum <= REG_SP_CONTENTS )
-			{
-				unsigned offset = _SPD + 2 * (REG_SP_CONTENTS - regnum);
-				if( offset < 0xffff )
-				{
-					WM( offset, val & 0xff );
-					WM( offset+1, (val >> 8) & 0xff );
-				}
-			}
-	}
-}
-
-/****************************************************************************
- * Set IRQ line state
- ****************************************************************************/
-void z80_set_irq_line(z80_state_t *z80, int irqline, int state)
-{
-	if (irqline == IRQ_LINE_NMI)
-	{
-		if( z80->Z80.nmi_state == state ) return;
-
-		LOG(("Z80 #%d set_irq_line (NMI) %d\n", cpu_getactivecpu(), state));
-		z80->Z80.nmi_state = state;
-		if( state == CLEAR_LINE ) return;
-
-		LOG(("Z80 #%d take NMI\n", cpu_getactivecpu()));
-		_PPC = -1;			/* there isn't a valid previous program counter */
-		LEAVE_HALT;			/* Check if processor was halted */
-
-		_IFF1 = 0;
-		PUSH( PC );
-		_PCD = 0x0066;
-		z80->Z80.extra_cycles += 11;
-	}
-	else
-	{
-		LOG(("Z80 #%d set_irq_line %d\n",cpu_getactivecpu() , state));
-		z80->Z80.irq_state = state;
-		if( state == CLEAR_LINE ) return;
-
-		if( z80->Z80.irq_max )
-		{
-			int daisychain, device, int_state;
-			daisychain = (*z80->Z80.irq_callback)(irqline);
-			device = daisychain >> 8;
-			int_state = daisychain & 0xff;
-			LOG(("Z80 #%d daisy chain $%04x -> device %d, state $%02x",cpu_getactivecpu(), daisychain, device, int_state));
-
-			if( z80->Z80.int_state[device] != int_state )
-			{
-				LOG((" change\n"));
-				/* set new interrupt status */
-				z80->Z80.int_state[device] = int_state;
-				/* check interrupt status */
-				z80->Z80.request_irq = z80->Z80.service_irq = -1;
-
-				/* search higher IRQ or IEO */
-				for( device = 0 ; device < z80->Z80.irq_max ; device ++ )
-				{
-					/* IEO = disable ? */
-					if( z80->Z80.int_state[device] & Z80_INT_IEO )
-					{
-						z80->Z80.request_irq = -1;		/* if IEO is disable , masking lower IRQ */
-						z80->Z80.service_irq = device;	/* set highest interrupt service device */
-					}
-					/* IRQ = request ? */
-					if( z80->Z80.int_state[device] & Z80_INT_REQ )
-						z80->Z80.request_irq = device;
-				}
-				LOG(("Z80 #%d daisy chain service_irq $%02x, request_irq $%02x\n", cpu_getactivecpu(), z80->Z80.service_irq, z80->Z80.request_irq));
-				if( z80->Z80.request_irq < 0 ) return;
-			}
-			else
-			{
-				LOG((" no change\n"));
-				return;
-			}
-		}
-		take_interrupt(z80);
-	}
-}
-
-/****************************************************************************
- * Set IRQ vector callback
- ****************************************************************************/
-void z80_set_irq_callback(z80_state_t *z80, int (*callback)(int))
-{
-	LOG(("Z80 #%d set_irq_callback $%08x\n",cpu_getactivecpu() , (int)callback));
-	z80->Z80.irq_callback = callback;
-}
-
-/****************************************************************************
- * Return a formatted string for a register
- ****************************************************************************/
-const char *z80_info(z80_state_t *z80, void *context, int regnum)
-{
-	static char buffer[32][47+1];
-	static int which = 0;
-	Z80_Regs *r = context;
-
-	which = (which+1) % 32;
-	buffer[which][0] = '\0';
-	if( !context )
-		r = &z80->Z80;
-
-	switch( regnum )
-	{
-		case CPU_INFO_REG+Z80_PC: sprintf(buffer[which], "PC:%04X", r->PC.w.l); break;
-		case CPU_INFO_REG+Z80_SP: sprintf(buffer[which], "SP:%04X", r->SP.w.l); break;
-		case CPU_INFO_REG+Z80_AF: sprintf(buffer[which], "AF:%04X", r->AF.w.l); break;
-		case CPU_INFO_REG+Z80_BC: sprintf(buffer[which], "BC:%04X", r->BC.w.l); break;
-		case CPU_INFO_REG+Z80_DE: sprintf(buffer[which], "DE:%04X", r->DE.w.l); break;
-		case CPU_INFO_REG+Z80_HL: sprintf(buffer[which], "HL:%04X", r->HL.w.l); break;
-		case CPU_INFO_REG+Z80_IX: sprintf(buffer[which], "IX:%04X", r->IX.w.l); break;
-		case CPU_INFO_REG+Z80_IY: sprintf(buffer[which], "IY:%04X", r->IY.w.l); break;
-		case CPU_INFO_REG+Z80_R: sprintf(buffer[which], "R:%02X", (r->R & 0x7f) | (r->R2 & 0x80)); break;
-		case CPU_INFO_REG+Z80_I: sprintf(buffer[which], "I:%02X", r->I); break;
-		case CPU_INFO_REG+Z80_AF2: sprintf(buffer[which], "AF'%04X", r->AF2.w.l); break;
-		case CPU_INFO_REG+Z80_BC2: sprintf(buffer[which], "BC'%04X", r->BC2.w.l); break;
-		case CPU_INFO_REG+Z80_DE2: sprintf(buffer[which], "DE'%04X", r->DE2.w.l); break;
-		case CPU_INFO_REG+Z80_HL2: sprintf(buffer[which], "HL'%04X", r->HL2.w.l); break;
-		case CPU_INFO_REG+Z80_IM: sprintf(buffer[which], "IM:%X", r->IM); break;
-		case CPU_INFO_REG+Z80_IFF1: sprintf(buffer[which], "IFF1:%X", r->IFF1); break;
-		case CPU_INFO_REG+Z80_IFF2: sprintf(buffer[which], "IFF2:%X", r->IFF2); break;
-		case CPU_INFO_REG+Z80_HALT: sprintf(buffer[which], "HALT:%X", r->HALT); break;
-		case CPU_INFO_REG+Z80_NMI_STATE: sprintf(buffer[which], "NMI:%X", r->nmi_state); break;
-		case CPU_INFO_REG+Z80_IRQ_STATE: sprintf(buffer[which], "IRQ:%X", r->irq_state); break;
-		case CPU_INFO_REG+Z80_DC0: if(z80->Z80.irq_max >= 1) sprintf(buffer[which], "DC0:%X", r->int_state[0]); break;
-		case CPU_INFO_REG+Z80_DC1: if(z80->Z80.irq_max >= 2) sprintf(buffer[which], "DC1:%X", r->int_state[1]); break;
-		case CPU_INFO_REG+Z80_DC2: if(z80->Z80.irq_max >= 3) sprintf(buffer[which], "DC2:%X", r->int_state[2]); break;
-		case CPU_INFO_REG+Z80_DC3: if(z80->Z80.irq_max >= 4) sprintf(buffer[which], "DC3:%X", r->int_state[3]); break;
-		case CPU_INFO_FLAGS:
-			sprintf(buffer[which], "%c%c%c%c%c%c%c%c",
-				r->AF.b.l & 0x80 ? 'S':'.',
-				r->AF.b.l & 0x40 ? 'Z':'.',
-				r->AF.b.l & 0x20 ? '5':'.',
-				r->AF.b.l & 0x10 ? 'H':'.',
-				r->AF.b.l & 0x08 ? '3':'.',
-				r->AF.b.l & 0x04 ? 'P':'.',
-				r->AF.b.l & 0x02 ? 'N':'.',
-				r->AF.b.l & 0x01 ? 'C':'.');
-			break;
-		case CPU_INFO_NAME: return "Z80";
-		case CPU_INFO_FAMILY: return "Zilog Z80";
-		case CPU_INFO_VERSION: return "3.5";
-		case CPU_INFO_FILE: return __FILE__;
-		case CPU_INFO_CREDITS: return "Copyright (C) 1998,1999,2000 Juergen Buchmueller, all rights reserved.";
-		case CPU_INFO_REG_LAYOUT: return (const char *)z80_reg_layout;
-		case CPU_INFO_WIN_LAYOUT: return (const char *)z80_win_layout;
-	}
-	return buffer[which];
-}
-
-unsigned z80_dasm( z80_state_t *z80, char *buffer, unsigned pc )
-{
-#ifdef MAME_DEBUG
-	return DasmZ80( buffer, pc );
-#else
-	sprintf( buffer, "$%02X", cpu_readop(z80->userdata,pc) );
-	return 1;
-#endif
-}
-
diff --git a/plugins/ao/eng_qsf/z80.h b/plugins/ao/eng_qsf/z80.h
deleted file mode 100644
index 17808cfc..00000000
--- a/plugins/ao/eng_qsf/z80.h
+++ /dev/null
@@ -1,117 +0,0 @@
-#ifndef Z80_H
-#define Z80_H
-
-#include "cpuintrf.h"
-#include "osd_cpu.h"
-
-#undef VERBOSE
-#define VERBOSE 0
-
-#if VERBOSE
-#define LOG(x)	logerror x
-#else
-#define LOG(x)
-#endif
-
-/* execute main opcodes inside a big switch statement */
-#ifndef BIG_SWITCH
-#define BIG_SWITCH			1
-#endif
-
-/* big flags array for ADD/ADC/SUB/SBC/CP results */
-#define BIG_FLAGS_ARRAY		1
-
-/* Set to 1 for a more exact (but somewhat slower) Z80 emulation */
-#define Z80_EXACT			1
-
-/* on JP and JR opcodes check for tight loops */
-#define BUSY_LOOP_HACKS		1
-
-/* check for delay loops counting down BC */
-#define TIME_LOOP_HACKS		1
-
-#ifdef X86_ASM
-#undef	BIG_FLAGS_ARRAY
-#define BIG_FLAGS_ARRAY		0
-#endif
-
-enum {
-	Z80_PC=1, Z80_SP, Z80_AF, Z80_BC, Z80_DE, Z80_HL,
-	Z80_IX, Z80_IY,	Z80_AF2, Z80_BC2, Z80_DE2, Z80_HL2,
-	Z80_R, Z80_I, Z80_IM, Z80_IFF1, Z80_IFF2, Z80_HALT,
-	Z80_NMI_STATE, Z80_IRQ_STATE, Z80_DC0, Z80_DC1, Z80_DC2, Z80_DC3
-};
-
-enum {
-	Z80_TABLE_op,
-	Z80_TABLE_cb,
-	Z80_TABLE_ed,
-	Z80_TABLE_xy,
-	Z80_TABLE_xycb,
-	Z80_TABLE_ex	/* cycles counts for taken jr/jp/call and interrupt latency (rst opcodes) */
-};
-
-/****************************************************************************/
-/* The Z80 registers. HALT is set to 1 when the CPU is halted, the refresh	*/
-/* register is calculated as follows: refresh=(Regs.R&127)|(Regs.R2&128)	*/
-/****************************************************************************/
-typedef struct {
-/* 00 */	PAIR	PREPC,PC,SP,AF,BC,DE,HL,IX,IY;
-/* 24 */	PAIR	AF2,BC2,DE2,HL2;
-/* 34 */	UINT8	R,R2,IFF1,IFF2,HALT,IM,I;
-/* 3B */	UINT8	irq_max;			/* number of daisy chain devices		*/
-/* 3C */	INT8	request_irq;		/* daisy chain next request device		*/
-/* 3D */	INT8	service_irq;		/* daisy chain next reti handling device */
-/* 3E */	UINT8	nmi_state;			/* nmi line state */
-/* 3F */	UINT8	irq_state;			/* irq line state */
-/* 40 */	UINT8	int_state[Z80_MAXDAISY];
-/* 44 */	Z80_DaisyChain irq[Z80_MAXDAISY];
-/* 84 */	int		(*irq_callback)(int irqline);
-/* 88 */	int		extra_cycles;		/* extra cycles for interrupts */
-}	Z80_Regs;
-
-
-typedef struct {
-    int z80_ICount;              /* T-state count                        */
-    Z80_Regs Z80;
-    UINT32 EA;
-    int after_EI;
-
-    UINT8 SZ[256];		/* zero and sign flags */
-    UINT8 SZ_BIT[256];	/* zero, sign and parity/overflow (=zero) flags for BIT opcode */
-    UINT8 SZP[256];		/* zero, sign and parity flags */
-    UINT8 SZHV_inc[256]; /* zero, sign, half carry and overflow flags INC r8 */
-    UINT8 SZHV_dec[256]; /* zero, sign, half carry and overflow flags DEC r8 */
-
-#if BIG_FLAGS_ARRAY
-    UINT8 *SZHVC_add;
-    UINT8 *SZHVC_sub;
-#endif
-
-    void *userdata;
-} z80_state_t;
-
-z80_state_t *z80_init(void);
-void z80_free (z80_state_t *z80);
-void z80_reset (z80_state_t *z80, void *param);
-void z80_exit (z80_state_t *z80);
-int z80_execute(z80_state_t *z80, int cycles);
-void z80_burn(z80_state_t *z80, int cycles);
-unsigned z80_get_context (z80_state_t *z80, void *dst);
-void z80_set_context (z80_state_t *z80, void *src);
-const void *z80_get_cycle_table (z80_state_t *z80, int which);
-void z80_set_cycle_table (z80_state_t *z80, int which, void *new_tbl);
-unsigned z80_get_reg (z80_state_t *z80, int regnum);
-void z80_set_reg (z80_state_t *z80, int regnum, unsigned val);
-void z80_set_irq_line(z80_state_t *z80, int irqline, int state);
-void z80_set_irq_callback(z80_state_t *z80, int (*irq_callback)(int));
-const char *z80_info(z80_state_t *z80, void *context, int regnum);
-unsigned z80_dasm(z80_state_t *z80, char *buffer, unsigned pc);
-
-#ifdef MAME_DEBUG
-unsigned DasmZ80(z80_state_t *z80, char *buffer, unsigned pc);
-#endif
-
-void cps1_decode(unsigned char *rom, int swap_key1,int swap_key2,int addr_key,int xor_key);
-#endif
-
diff --git a/plugins/ao/eng_qsf/z80dasm.c b/plugins/ao/eng_qsf/z80dasm.c
deleted file mode 100644
index 29cbb769..00000000
--- a/plugins/ao/eng_qsf/z80dasm.c
+++ /dev/null
@@ -1,597 +0,0 @@
-/*****************************************************************************
- *
- *	 z80dasm.c
- *	 Portable Z80 disassembler
- *
- *	 Copyright (C) 1998 Juergen Buchmueller, all rights reserved.
- *
- *	 - This source code is released as freeware for non-commercial purposes.
- *	 - You are free to use and redistribute this code in modified or
- *	   unmodified form, provided you list me in the credits.
- *	 - If you modify this source code, you must add a notice to each modified
- *	   source file that it has been changed.  If you're a nice person, you
- *	   will clearly mark each change too.  :)
- *	 - If you wish to use this for commercial purposes, please contact me at
- *	   pullmoll@t-online.de
- *	 - The author of this copywritten work reserves the right to change the
- *     terms of its usage and license at any time, including retroactively
- *   - This entire notice must remain in the source code.
- *
- *****************************************************************************/
-
-#include <stdio.h>
-#include <string.h>
-#ifdef	MAME_DEBUG
-#include "driver.h"
-#include "mamedbg.h"
-#include "z80.h"
-
-enum e_mnemonics {
-	zADC  ,zADD  ,zAND	,zBIT  ,zCALL ,zCCF  ,zCP	,zCPD  ,
-	zCPDR ,zCPI  ,zCPIR ,zCPL  ,zDAA  ,zDB	 ,zDEC	,zDI   ,
-	zDJNZ ,zEI	 ,zEX	,zEXX  ,zHLT  ,zIM	 ,zIN	,zINC  ,
-	zIND  ,zINDR ,zINI	,zINIR ,zJP   ,zJR	 ,zLD	,zLDD  ,
-	zLDDR ,zLDI  ,zLDIR ,zNEG  ,zNOP  ,zOR	 ,zOTDR ,zOTIR ,
-	zOUT  ,zOUTD ,zOUTI ,zPOP  ,zPUSH ,zRES  ,zRET	,zRETI ,
-	zRETN ,zRL	 ,zRLA	,zRLC  ,zRLCA ,zRLD  ,zRR	,zRRA  ,
-	zRRC  ,zRRCA ,zRRD	,zRST  ,zSBC  ,zSCF  ,zSET	,zSLA  ,
-	zSLL  ,zSRA  ,zSRL	,zSUB  ,zXOR
-};
-
-static const char *s_mnemonic[] = {
-	"adc", "add", "and", "bit", "call","ccf", "cp",  "cpd",
-	"cpdr","cpi", "cpir","cpl", "daa", "db",  "dec", "di",
-	"djnz","ei",  "ex",  "exx", "halt","im",  "in",  "inc",
-	"ind", "indr","ini", "inir","jp",  "jr",  "ld",  "ldd",
-	"lddr","ldi", "ldir","neg", "nop", "or",  "otdr","otir",
-	"out", "outd","outi","pop", "push","res", "ret", "reti",
-	"retn","rl",  "rla", "rlc", "rlca","rld", "rr",  "rra",
-	"rrc", "rrca","rrd", "rst", "sbc", "scf", "set", "sla",
-	"sll", "sra", "srl", "sub", "xor "
-};
-
-typedef struct {
-	UINT8	access;
-	UINT8	mnemonic;
-	const char *arguments;
-}	z80dasm;
-
-#define _0	EA_NONE
-#define _JP EA_ABS_PC
-#define _JR EA_REL_PC
-#define _RM EA_MEM_RD
-#define _WM EA_MEM_WR
-#define _RW EA_MEM_RDWR
-#define _RP EA_PORT_RD
-#define _WP EA_PORT_WR
-
-static z80dasm mnemonic_xx_cb[256]= {
-	{_RW,zRLC,"b=Y"},   {_RW,zRLC,"c=Y"},   {_RW,zRLC,"d=Y"},   {_RW,zRLC,"e=Y"},
-	{_RW,zRLC,"h=Y"},   {_RW,zRLC,"l=Y"},   {_RW,zRLC,"Y"},     {_RW,zRLC,"a=Y"},
-	{_RW,zRRC,"b=Y"},   {_RW,zRRC,"c=Y"},   {_RW,zRRC,"d=Y"},   {_RW,zRRC,"e=Y"},
-	{_RW,zRRC,"h=Y"},   {_RW,zRRC,"l=Y"},   {_RW,zRRC,"Y"},     {_RW,zRRC,"a=Y"},
-	{_RW,zRL,"b=Y"},    {_RW,zRL,"c=Y"},    {_RW,zRL,"d=Y"},    {_RW,zRL,"e=Y"},
-	{_RW,zRL,"h=Y"},    {_RW,zRL,"l=Y"},    {_RW,zRL,"Y"},      {_RW,zRL,"a=Y"},
-	{_RW,zRR,"b=Y"},    {_RW,zRR,"c=Y"},    {_RW,zRR,"d=Y"},    {_RW,zRR,"e=Y"},
-	{_RW,zRR,"h=Y"},    {_RW,zRR,"l=Y"},    {_RW,zRR,"Y"},      {_RW,zRR,"a=Y"},
-	{_RW,zSLA,"b=Y"},   {_RW,zSLA,"c=Y"},   {_RW,zSLA,"d=Y"},   {_RW,zSLA,"e=Y"},
-	{_RW,zSLA,"h=Y"},   {_RW,zSLA,"l=Y"},   {_RW,zSLA,"Y"},     {_RW,zSLA,"a=Y"},
-	{_RW,zSRA,"b=Y"},   {_RW,zSRA,"c=Y"},   {_RW,zSRA,"d=Y"},   {_RW,zSRA,"e=Y"},
-	{_RW,zSRA,"h=Y"},   {_RW,zSRA,"l=Y"},   {_RW,zSRA,"Y"},     {_RW,zSRA,"a=Y"},
-	{_RW,zSLL,"b=Y"},   {_RW,zSLL,"c=Y"},   {_RW,zSLL,"d=Y"},   {_RW,zSLL,"e=Y"},
-	{_RW,zSLL,"h=Y"},   {_RW,zSLL,"l=Y"},   {_RW,zSLL,"Y"},     {_RW,zSLL,"a=Y"},
-	{_RW,zSRL,"b=Y"},   {_RW,zSRL,"c=Y"},   {_RW,zSRL,"d=Y"},   {_RW,zSRL,"e=Y"},
-	{_RW,zSRL,"h=Y"},   {_RW,zSRL,"l=Y"},   {_RW,zSRL,"Y"},     {_RW,zSRL,"a=Y"},
-	{_RM,zBIT,"b=0,Y"}, {_RM,zBIT,"c=0,Y"}, {_RM,zBIT,"d=0,Y"}, {_RM,zBIT,"e=0,Y"},
-	{_RM,zBIT,"h=0,Y"}, {_RM,zBIT,"l=0,Y"}, {_RM,zBIT,"0,Y"},   {_RM,zBIT,"a=0,Y"},
-	{_RM,zBIT,"b=1,Y"}, {_RM,zBIT,"c=1,Y"}, {_RM,zBIT,"d=1,Y"}, {_RM,zBIT,"e=1,Y"},
-	{_RM,zBIT,"h=1,Y"}, {_RM,zBIT,"l=1,Y"}, {_RM,zBIT,"1,Y"},   {_RM,zBIT,"a=1,Y"},
-	{_RM,zBIT,"b=2,Y"}, {_RM,zBIT,"c=2,Y"}, {_RM,zBIT,"d=2,Y"}, {_RM,zBIT,"e=2,Y"},
-	{_RM,zBIT,"h=2,Y"}, {_RM,zBIT,"l=2,Y"}, {_RM,zBIT,"2,Y"},   {_RM,zBIT,"a=2,Y"},
-	{_RM,zBIT,"b=3,Y"}, {_RM,zBIT,"c=3,Y"}, {_RM,zBIT,"d=3,Y"}, {_RM,zBIT,"e=3,Y"},
-	{_RM,zBIT,"h=3,Y"}, {_RM,zBIT,"l=3,Y"}, {_RM,zBIT,"3,Y"},   {_RM,zBIT,"a=3,Y"},
-	{_RM,zBIT,"b=4,Y"}, {_RM,zBIT,"c=4,Y"}, {_RM,zBIT,"d=4,Y"}, {_RM,zBIT,"e=4,Y"},
-	{_RM,zBIT,"h=4,Y"}, {_RM,zBIT,"l=4,Y"}, {_RM,zBIT,"4,Y"},   {_RM,zBIT,"a=4,Y"},
-	{_RM,zBIT,"b=5,Y"}, {_RM,zBIT,"c=5,Y"}, {_RM,zBIT,"d=5,Y"}, {_RM,zBIT,"e=5,Y"},
-	{_RM,zBIT,"h=5,Y"}, {_RM,zBIT,"l=5,Y"}, {_RM,zBIT,"5,Y"},   {_RM,zBIT,"a=5,Y"},
-	{_RM,zBIT,"b=6,Y"}, {_RM,zBIT,"c=6,Y"}, {_RM,zBIT,"d=6,Y"}, {_RM,zBIT,"e=6,Y"},
-	{_RM,zBIT,"h=6,Y"}, {_RM,zBIT,"l=6,Y"}, {_RM,zBIT,"6,Y"},   {_RM,zBIT,"a=6,Y"},
-	{_RM,zBIT,"b=7,Y"}, {_RM,zBIT,"c=7,Y"}, {_RM,zBIT,"d=7,Y"}, {_RM,zBIT,"e=7,Y"},
-	{_RM,zBIT,"h=7,Y"}, {_RM,zBIT,"l=7,Y"}, {_RM,zBIT,"7,Y"},   {_RM,zBIT,"a=7,Y"},
-	{_WM,zRES,"b=0,Y"}, {_WM,zRES,"c=0,Y"}, {_WM,zRES,"d=0,Y"}, {_WM,zRES,"e=0,Y"},
-	{_WM,zRES,"h=0,Y"}, {_WM,zRES,"l=0,Y"}, {_WM,zRES,"0,Y"},   {_WM,zRES,"a=0,Y"},
-	{_WM,zRES,"b=1,Y"}, {_WM,zRES,"c=1,Y"}, {_WM,zRES,"d=1,Y"}, {_WM,zRES,"e=1,Y"},
-	{_WM,zRES,"h=1,Y"}, {_WM,zRES,"l=1,Y"}, {_WM,zRES,"1,Y"},   {_WM,zRES,"a=1,Y"},
-	{_WM,zRES,"b=2,Y"}, {_WM,zRES,"c=2,Y"}, {_WM,zRES,"d=2,Y"}, {_WM,zRES,"e=2,Y"},
-	{_WM,zRES,"h=2,Y"}, {_WM,zRES,"l=2,Y"}, {_WM,zRES,"2,Y"},   {_WM,zRES,"a=2,Y"},
-	{_WM,zRES,"b=3,Y"}, {_WM,zRES,"c=3,Y"}, {_WM,zRES,"d=3,Y"}, {_WM,zRES,"e=3,Y"},
-	{_WM,zRES,"h=3,Y"}, {_WM,zRES,"l=3,Y"}, {_WM,zRES,"3,Y"},   {_WM,zRES,"a=3,Y"},
-	{_WM,zRES,"b=4,Y"}, {_WM,zRES,"c=4,Y"}, {_WM,zRES,"d=4,Y"}, {_WM,zRES,"e=4,Y"},
-	{_WM,zRES,"h=4,Y"}, {_WM,zRES,"l=4,Y"}, {_WM,zRES,"4,Y"},   {_WM,zRES,"a=4,Y"},
-	{_WM,zRES,"b=5,Y"}, {_WM,zRES,"c=5,Y"}, {_WM,zRES,"d=5,Y"}, {_WM,zRES,"e=5,Y"},
-	{_WM,zRES,"h=5,Y"}, {_WM,zRES,"l=5,Y"}, {_WM,zRES,"5,Y"},   {_WM,zRES,"a=5,Y"},
-	{_WM,zRES,"b=6,Y"}, {_WM,zRES,"c=6,Y"}, {_WM,zRES,"d=6,Y"}, {_WM,zRES,"e=6,Y"},
-	{_WM,zRES,"h=6,Y"}, {_WM,zRES,"l=6,Y"}, {_WM,zRES,"6,Y"},   {_WM,zRES,"a=6,Y"},
-	{_WM,zRES,"b=7,Y"}, {_WM,zRES,"c=7,Y"}, {_WM,zRES,"d=7,Y"}, {_WM,zRES,"e=7,Y"},
-	{_WM,zRES,"h=7,Y"}, {_WM,zRES,"l=7,Y"}, {_WM,zRES,"7,Y"},   {_WM,zRES,"a=7,Y"},
-	{_WM,zSET,"b=0,Y"}, {_WM,zSET,"c=0,Y"}, {_WM,zSET,"d=0,Y"}, {_WM,zSET,"e=0,Y"},
-	{_WM,zSET,"h=0,Y"}, {_WM,zSET,"l=0,Y"}, {_WM,zSET,"0,Y"},   {_WM,zSET,"a=0,Y"},
-	{_WM,zSET,"b=1,Y"}, {_WM,zSET,"c=1,Y"}, {_WM,zSET,"d=1,Y"}, {_WM,zSET,"e=1,Y"},
-	{_WM,zSET,"h=1,Y"}, {_WM,zSET,"l=1,Y"}, {_WM,zSET,"1,Y"},   {_WM,zSET,"a=1,Y"},
-	{_WM,zSET,"b=2,Y"}, {_WM,zSET,"c=2,Y"}, {_WM,zSET,"d=2,Y"}, {_WM,zSET,"e=2,Y"},
-	{_WM,zSET,"h=2,Y"}, {_WM,zSET,"l=2,Y"}, {_WM,zSET,"2,Y"},   {_WM,zSET,"a=2,Y"},
-	{_WM,zSET,"b=3,Y"}, {_WM,zSET,"c=3,Y"}, {_WM,zSET,"d=3,Y"}, {_WM,zSET,"e=3,Y"},
-	{_WM,zSET,"h=3,Y"}, {_WM,zSET,"l=3,Y"}, {_WM,zSET,"3,Y"},   {_WM,zSET,"a=3,Y"},
-	{_WM,zSET,"b=4,Y"}, {_WM,zSET,"c=4,Y"}, {_WM,zSET,"d=4,Y"}, {_WM,zSET,"e=4,Y"},
-	{_WM,zSET,"h=4,Y"}, {_WM,zSET,"l=4,Y"}, {_WM,zSET,"4,Y"},   {_WM,zSET,"a=4,Y"},
-	{_WM,zSET,"b=5,Y"}, {_WM,zSET,"c=5,Y"}, {_WM,zSET,"d=5,Y"}, {_WM,zSET,"e=5,Y"},
-	{_WM,zSET,"h=5,Y"}, {_WM,zSET,"l=5,Y"}, {_WM,zSET,"5,Y"},   {_WM,zSET,"a=5,Y"},
-	{_WM,zSET,"b=6,Y"}, {_WM,zSET,"c=6,Y"}, {_WM,zSET,"d=6,Y"}, {_WM,zSET,"e=6,Y"},
-	{_WM,zSET,"h=6,Y"}, {_WM,zSET,"l=6,Y"}, {_WM,zSET,"6,Y"},   {_WM,zSET,"a=6,Y"},
-	{_WM,zSET,"b=7,Y"}, {_WM,zSET,"c=7,Y"}, {_WM,zSET,"d=7,Y"}, {_WM,zSET,"e=7,Y"},
-	{_WM,zSET,"h=7,Y"}, {_WM,zSET,"l=7,Y"}, {_WM,zSET,"7,Y"},   {_WM,zSET,"a=7,Y"}
-};
-
-static z80dasm mnemonic_cb[256] = {
-	{_0, zRLC,"b"},     {_0, zRLC,"c"},     {_0, zRLC,"d"},     {_0, zRLC,"e"},
-	{_0, zRLC,"h"},     {_0, zRLC,"l"},     {_RW,zRLC,"(hl)"},  {_0, zRLC,"a"},
-	{_0, zRRC,"b"},     {_0, zRRC,"c"},     {_0, zRRC,"d"},     {_0, zRRC,"e"},
-	{_0, zRRC,"h"},     {_0, zRRC,"l"},     {_RW,zRRC,"(hl)"},  {_0, zRRC,"a"},
-	{_0, zRL,"b"},      {_0, zRL,"c"},      {_0, zRL,"d"},      {_0, zRL,"e"},
-	{_0, zRL,"h"},      {_0, zRL,"l"},      {_RW,zRL,"(hl)"},   {_0, zRL,"a"},
-	{_0, zRR,"b"},      {_0, zRR,"c"},      {_0, zRR,"d"},      {_0, zRR,"e"},
-	{_0, zRR,"h"},      {_0, zRR,"l"},      {_RW,zRR,"(hl)"},   {_0, zRR,"a"},
-	{_0, zSLA,"b"},     {_0, zSLA,"c"},     {_0, zSLA,"d"},     {_0, zSLA,"e"},
-	{_0, zSLA,"h"},     {_0, zSLA,"l"},     {_RW,zSLA,"(hl)"},  {_0, zSLA,"a"},
-	{_0, zSRA,"b"},     {_0, zSRA,"c"},     {_0, zSRA,"d"},     {_0, zSRA,"e"},
-	{_0, zSRA,"h"},     {_0, zSRA,"l"},     {_RW,zSRA,"(hl)"},  {_0, zSRA,"a"},
-	{_0, zSLL,"b"},     {_0, zSLL,"c"},     {_0, zSLL,"d"},     {_0, zSLL,"e"},
-	{_0, zSLL,"h"},     {_0, zSLL,"l"},     {_RW,zSLL,"(hl)"},  {_0, zSLL,"a"},
-	{_0, zSRL,"b"},     {_0, zSRL,"c"},     {_0, zSRL,"d"},     {_0, zSRL,"e"},
-	{_0, zSRL,"h"},     {_0, zSRL,"l"},     {_RW,zSRL,"(hl)"},  {_0, zSRL,"a"},
-	{_0, zBIT,"0,b"},   {_0, zBIT,"0,c"},   {_0, zBIT,"0,d"},   {_0, zBIT,"0,e"},
-	{_0, zBIT,"0,h"},   {_0, zBIT,"0,l"},   {_RM,zBIT,"0,(hl)"},{_0, zBIT,"0,a"},
-	{_0, zBIT,"1,b"},   {_0, zBIT,"1,c"},   {_0, zBIT,"1,d"},   {_0, zBIT,"1,e"},
-	{_0, zBIT,"1,h"},   {_0, zBIT,"1,l"},   {_RM,zBIT,"1,(hl)"},{_0, zBIT,"1,a"},
-	{_0, zBIT,"2,b"},   {_0, zBIT,"2,c"},   {_0, zBIT,"2,d"},   {_0, zBIT,"2,e"},
-	{_0, zBIT,"2,h"},   {_0, zBIT,"2,l"},   {_RM,zBIT,"2,(hl)"},{_0, zBIT,"2,a"},
-	{_0, zBIT,"3,b"},   {_0, zBIT,"3,c"},   {_0, zBIT,"3,d"},   {_0, zBIT,"3,e"},
-	{_0, zBIT,"3,h"},   {_0, zBIT,"3,l"},   {_RM,zBIT,"3,(hl)"},{_0, zBIT,"3,a"},
-	{_0, zBIT,"4,b"},   {_0, zBIT,"4,c"},   {_0, zBIT,"4,d"},   {_0, zBIT,"4,e"},
-	{_0, zBIT,"4,h"},   {_0, zBIT,"4,l"},   {_RM,zBIT,"4,(hl)"},{_0, zBIT,"4,a"},
-	{_0, zBIT,"5,b"},   {_0, zBIT,"5,c"},   {_0, zBIT,"5,d"},   {_0, zBIT,"5,e"},
-	{_0, zBIT,"5,h"},   {_0, zBIT,"5,l"},   {_RM,zBIT,"5,(hl)"},{_0, zBIT,"5,a"},
-	{_0, zBIT,"6,b"},   {_0, zBIT,"6,c"},   {_0, zBIT,"6,d"},   {_0, zBIT,"6,e"},
-	{_0, zBIT,"6,h"},   {_0, zBIT,"6,l"},   {_RM,zBIT,"6,(hl)"},{_0, zBIT,"6,a"},
-	{_0, zBIT,"7,b"},   {_0, zBIT,"7,c"},   {_0, zBIT,"7,d"},   {_0, zBIT,"7,e"},
-	{_0, zBIT,"7,h"},   {_0, zBIT,"7,l"},   {_RM,zBIT,"7,(hl)"},{_0, zBIT,"7,a"},
-	{_0, zRES,"0,b"},   {_0, zRES,"0,c"},   {_0, zRES,"0,d"},   {_0, zRES,"0,e"},
-	{_0, zRES,"0,h"},   {_0, zRES,"0,l"},   {_WM,zRES,"0,(hl)"},{_0, zRES,"0,a"},
-	{_0, zRES,"1,b"},   {_0, zRES,"1,c"},   {_0, zRES,"1,d"},   {_0, zRES,"1,e"},
-	{_0, zRES,"1,h"},   {_0, zRES,"1,l"},   {_WM,zRES,"1,(hl)"},{_0, zRES,"1,a"},
-	{_0, zRES,"2,b"},   {_0, zRES,"2,c"},   {_0, zRES,"2,d"},   {_0, zRES,"2,e"},
-	{_0, zRES,"2,h"},   {_0, zRES,"2,l"},   {_WM,zRES,"2,(hl)"},{_0, zRES,"2,a"},
-	{_0, zRES,"3,b"},   {_0, zRES,"3,c"},   {_0, zRES,"3,d"},   {_0, zRES,"3,e"},
-	{_0, zRES,"3,h"},   {_0, zRES,"3,l"},   {_WM,zRES,"3,(hl)"},{_0, zRES,"3,a"},
-	{_0, zRES,"4,b"},   {_0, zRES,"4,c"},   {_0, zRES,"4,d"},   {_0, zRES,"4,e"},
-	{_0, zRES,"4,h"},   {_0, zRES,"4,l"},   {_WM,zRES,"4,(hl)"},{_0, zRES,"4,a"},
-	{_0, zRES,"5,b"},   {_0, zRES,"5,c"},   {_0, zRES,"5,d"},   {_0, zRES,"5,e"},
-	{_0, zRES,"5,h"},   {_0, zRES,"5,l"},   {_WM,zRES,"5,(hl)"},{_0, zRES,"5,a"},
-	{_0, zRES,"6,b"},   {_0, zRES,"6,c"},   {_0, zRES,"6,d"},   {_0, zRES,"6,e"},
-	{_0, zRES,"6,h"},   {_0, zRES,"6,l"},   {_WM,zRES,"6,(hl)"},{_0, zRES,"6,a"},
-	{_0, zRES,"7,b"},   {_0, zRES,"7,c"},   {_0, zRES,"7,d"},   {_0, zRES,"7,e"},
-	{_0, zRES,"7,h"},   {_0, zRES,"7,l"},   {_WM,zRES,"7,(hl)"},{_0, zRES,"7,a"},
-	{_0, zSET,"0,b"},   {_0, zSET,"0,c"},   {_0, zSET,"0,d"},   {_0, zSET,"0,e"},
-	{_0, zSET,"0,h"},   {_0, zSET,"0,l"},   {_WM,zSET,"0,(hl)"},{_0, zSET,"0,a"},
-	{_0, zSET,"1,b"},   {_0, zSET,"1,c"},   {_0, zSET,"1,d"},   {_0, zSET,"1,e"},
-	{_0, zSET,"1,h"},   {_0, zSET,"1,l"},   {_WM,zSET,"1,(hl)"},{_0, zSET,"1,a"},
-	{_0, zSET,"2,b"},   {_0, zSET,"2,c"},   {_0, zSET,"2,d"},   {_0, zSET,"2,e"},
-	{_0, zSET,"2,h"},   {_0, zSET,"2,l"},   {_WM,zSET,"2,(hl)"},{_0, zSET,"2,a"},
-	{_0, zSET,"3,b"},   {_0, zSET,"3,c"},   {_0, zSET,"3,d"},   {_0, zSET,"3,e"},
-	{_0, zSET,"3,h"},   {_0, zSET,"3,l"},   {_WM,zSET,"3,(hl)"},{_0, zSET,"3,a"},
-	{_0, zSET,"4,b"},   {_0, zSET,"4,c"},   {_0, zSET,"4,d"},   {_0, zSET,"4,e"},
-	{_0, zSET,"4,h"},   {_0, zSET,"4,l"},   {_WM,zSET,"4,(hl)"},{_0, zSET,"4,a"},
-	{_0, zSET,"5,b"},   {_0, zSET,"5,c"},   {_0, zSET,"5,d"},   {_0, zSET,"5,e"},
-	{_0, zSET,"5,h"},   {_0, zSET,"5,l"},   {_WM,zSET,"5,(hl)"},{_0, zSET,"5,a"},
-	{_0, zSET,"6,b"},   {_0, zSET,"6,c"},   {_0, zSET,"6,d"},   {_0, zSET,"6,e"},
-	{_0, zSET,"6,h"},   {_0, zSET,"6,l"},   {_WM,zSET,"6,(hl)"},{_0, zSET,"6,a"},
-	{_0, zSET,"7,b"},   {_0, zSET,"7,c"},   {_0, zSET,"7,d"},   {_0, zSET,"7,e"},
-	{_0, zSET,"7,h"},   {_0, zSET,"7,l"},   {_WM,zSET,"7,(hl)"},{_0, zSET,"7,a"}
-};
-
-static z80dasm mnemonic_ed[256]= {
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_RP,zIN,"b,(c)"},  {_WP,zOUT,"(c),b"}, {_0, zSBC,"hl,bc"}, {_WM,zLD,"(W),bc"},
-	{_0, zNEG,0},		{_0, zRETN,0},		{_0, zIM,"0"},      {_0, zLD,"i,a"},
-	{_RP,zIN,"c,(c)"},  {_WP,zOUT,"(c),c"}, {_0, zADC,"hl,bc"}, {_RM,zLD,"bc,(W)"},
-	{_0, zNEG,"*"},     {_0, zRETI,0},      {_0, zIM,"0"},      {_0, zLD,"r,a"},
-	{_RP,zIN,"d,(c)"},  {_WP,zOUT,"(c),d"}, {_0, zSBC,"hl,de"}, {_WM,zLD,"(W),de"},
-	{_0, zNEG,"*"},     {_0, zRETN,0},      {_0, zIM,"1"},      {_0, zLD,"a,i"},
-	{_RP,zIN,"e,(c)"},  {_WP,zOUT,"(c),e"}, {_0, zADC,"hl,de"}, {_RM,zLD,"de,(W)"},
-	{_0, zNEG,"*"},     {_0, zRETI,0},      {_0, zIM,"2"},      {_0, zLD,"a,r"},
-	{_RP,zIN,"h,(c)"},  {_WP,zOUT,"(c),h"}, {_0, zSBC,"hl,hl"}, {_WM,zLD,"(W),hl"},
-	{_0, zNEG,"*"},     {_0, zRETN,0},      {_0, zIM,"0"},      {_RW,zRRD,"(hl)"},
-	{_RP,zIN,"l,(c)"},  {_WP,zOUT,"(c),l"}, {_0, zADC,"hl,hl"}, {_RM,zLD,"hl,(W)"},
-	{_0, zNEG,"*"},     {_0, zRETI,0},      {_0, zIM,"0"},      {_RW,zRLD,"(hl)"},
-	{_RP,zIN,"0,(c)"},  {_WP,zOUT,"(c),0"}, {_0, zSBC,"hl,sp"}, {_WM,zLD,"(W),sp"},
-	{_0, zNEG,"*"},     {_0, zRETN,0},      {_0, zIM,"1"},      {_0, zDB,"?"},
-	{_RP,zIN,"a,(c)"},  {_WP,zOUT,"(c),a"}, {_0, zADC,"hl,sp"}, {_RM,zLD,"sp,(W)"},
-	{_0, zNEG,"*"},     {_0, zRETI,0},      {_0, zIM,"2"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_RW,zLDI,0},		{_RM,zCPI,0},		{_RP,zINI,0},		{_WP,zOUTI,0},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_RW,zLDD,0},		{_RM,zCPD,0},		{_RP,zIND,0},		{_WP,zOUTD,0},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_RW,zLDIR,0},		{_RM,zCPIR,0},		{_RP,zINIR,0},		{_WP,zOTIR,0},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_RW,zLDDR,0},		{_RM,zCPDR,0},		{_RP,zINDR,0},		{_WP,zOTDR,0},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"}
-};
-
-static z80dasm mnemonic_xx[256]= {
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zADD,"I,bc"},  {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zADD,"I,de"},  {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zLD,"I,N"},    {_WM,zLD,"(W),I"},  {_0, zINC,"I"},
-	{_0, zINC,"Ih"},    {_0, zDEC,"Ih"},    {_0, zLD,"Ih,B"},   {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zADD,"I,I"},   {_RM,zLD,"I,(W)"},  {_0, zDEC,"I"},
-	{_0, zINC,"Il"},    {_0, zDEC,"Il"},    {_0, zLD,"Il,B"},   {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_RW,zINC,"X"},     {_RW,zDEC,"X"},     {_WM,zLD,"X,B"},    {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zADD,"I,sp"},  {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zLD,"b,Ih"},   {_0, zLD,"b,Il"},   {_RM,zLD,"b,X"},    {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zLD,"c,Ih"},   {_0, zLD,"c,Il"},   {_RM,zLD,"c,X"},    {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zLD,"d,Ih"},   {_0, zLD,"d,Il"},   {_RM,zLD,"d,X"},    {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zLD,"e,Ih"},   {_0, zLD,"e,Il"},   {_RM,zLD,"e,X"},    {_0, zDB,"?"},
-	{_0, zLD,"Ih,b"},   {_0, zLD,"Ih,c"},   {_0, zLD,"Ih,d"},   {_0, zLD,"Ih,e"},
-	{_0, zLD,"Ih,Ih"},  {_0, zLD,"Ih,Il"},  {_RM,zLD,"h,X"},    {_0, zLD,"Ih,a"},
-	{_0, zLD,"Il,b"},   {_0, zLD,"Il,c"},   {_0, zLD,"Il,d"},   {_0, zLD,"Il,e"},
-	{_0, zLD,"Il,Ih"},  {_0, zLD,"Il,Il"},  {_RM,zLD,"l,X"},    {_0, zLD,"Il,a"},
-	{_WM,zLD,"X,b"},    {_WM,zLD,"X,c"},    {_WM,zLD,"X,d"},    {_WM,zLD,"X,e"},
-	{_WM,zLD,"X,h"},    {_WM,zLD,"X,l"},    {_0, zDB,"?"},      {_WM,zLD,"X,a"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zLD,"a,Ih"},   {_0, zLD,"a,Il"},   {_RM,zLD,"a,X"},    {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zADD,"a,Ih"},  {_0, zADD,"a,Il"},  {_RM,zADD,"a,X"},   {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zADC,"a,Ih"},  {_0, zADC,"a,Il"},  {_RM,zADC,"a,X"},   {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zSUB,"Ih"},    {_0, zSUB,"Il"},    {_RM,zSUB,"X"},     {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zSBC,"a,Ih"},  {_0, zSBC,"a,Il"},  {_RM,zSBC,"a,X"},   {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zAND,"Ih"},    {_0, zAND,"Il"},    {_RM,zAND,"X"},     {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zXOR,"Ih"},    {_0, zXOR,"Il"},    {_RM,zXOR,"X"},     {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zOR,"Ih"},     {_0, zOR,"Il"},     {_RM,zOR,"X"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zCP,"Ih"},     {_0, zCP,"Il"},     {_RM,zCP,"X"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"cb"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zPOP,"I"},     {_0, zDB,"?"},      {_RW,zEX,"(sp),I"},
-	{_0, zDB,"?"},      {_0, zPUSH,"I"},    {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_JP,zJP,"(I)"},    {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zLD,"sp,I"},   {_0, zDB,"?"},      {_0, zDB,"?"},
-	{_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"},      {_0, zDB,"?"}
-};
-
-static z80dasm mnemonic_main[256]= {
-	{_0, zNOP,0},		{_0, zLD,"bc,N"},   {_WM,zLD,"(bc),a"}, {_0, zINC,"bc"},
-	{_0, zINC,"b"},     {_0, zDEC,"b"},     {_0, zLD,"b,B"},    {_0, zRLCA,0},
-	{_0, zEX,"af,af'"}, {_0, zADD,"hl,bc"}, {_RM,zLD,"a,(bc)"}, {_0, zDEC,"bc"},
-	{_0, zINC,"c"},     {_0, zDEC,"c"},     {_0, zLD,"c,B"},    {_0, zRRCA,0},
-	{_JR,zDJNZ,"O"},    {_0, zLD,"de,N"},   {_WM,zLD,"(de),a"}, {_0, zINC,"de"},
-	{_0, zINC,"d"},     {_0, zDEC,"d"},     {_0, zLD,"d,B"},    {_0, zRLA,0},
-	{_JR,zJR,"O"},      {_0, zADD,"hl,de"}, {_RM,zLD,"a,(de)"}, {_0, zDEC,"de"},
-	{_0, zINC,"e"},     {_0, zDEC,"e"},     {_0, zLD,"e,B"},    {_0, zRRA,0},
-	{_JR,zJR,"nz,O"},   {_0, zLD,"hl,N"},   {_WM,zLD,"(W),hl"}, {_0, zINC,"hl"},
-	{_0, zINC,"h"},     {_0, zDEC,"h"},     {_0, zLD,"h,B"},    {_0, zDAA,0},
-	{_JR,zJR,"z,O"},    {_0, zADD,"hl,hl"}, {_RM,zLD,"hl,(W)"}, {_0, zDEC,"hl"},
-	{_0, zINC,"l"},     {_0, zDEC,"l"},     {_0, zLD,"l,B"},    {_0, zCPL,0},
-	{_JR,zJR,"nc,O"},   {_0, zLD,"sp,N"},   {_WM,zLD,"(W),a"},  {_0, zINC,"sp"},
-	{_RW,zINC,"(hl)"},  {_RW,zDEC,"(hl)"},  {_WM,zLD,"(hl),B"}, {_0, zSCF,0},
-	{_JR,zJR,"c,O"},    {_0, zADD,"hl,sp"}, {_RM,zLD,"a,(W)"},  {_0, zDEC,"sp"},
-	{_0, zINC,"a"},     {_0, zDEC,"a"},     {_0, zLD,"a,B"},    {_0, zCCF,0},
-	{_0, zLD,"b,b"},    {_0, zLD,"b,c"},    {_0, zLD,"b,d"},    {_0, zLD,"b,e"},
-	{_0, zLD,"b,h"},    {_0, zLD,"b,l"},    {_RM,zLD,"b,(hl)"}, {_0, zLD,"b,a"},
-	{_0, zLD,"c,b"},    {_0, zLD,"c,c"},    {_0, zLD,"c,d"},    {_0, zLD,"c,e"},
-	{_0, zLD,"c,h"},    {_0, zLD,"c,l"},    {_RM,zLD,"c,(hl)"}, {_0, zLD,"c,a"},
-	{_0, zLD,"d,b"},    {_0, zLD,"d,c"},    {_0, zLD,"d,d"},    {_0, zLD,"d,e"},
-	{_0, zLD,"d,h"},    {_0, zLD,"d,l"},    {_RM,zLD,"d,(hl)"}, {_0, zLD,"d,a"},
-	{_0, zLD,"e,b"},    {_0, zLD,"e,c"},    {_0, zLD,"e,d"},    {_0, zLD,"e,e"},
-	{_0, zLD,"e,h"},    {_0, zLD,"e,l"},    {_RM,zLD,"e,(hl)"}, {_0, zLD,"e,a"},
-	{_0, zLD,"h,b"},    {_0, zLD,"h,c"},    {_0, zLD,"h,d"},    {_0, zLD,"h,e"},
-	{_0, zLD,"h,h"},    {_0, zLD,"h,l"},    {_RM,zLD,"h,(hl)"}, {_0, zLD,"h,a"},
-	{_0, zLD,"l,b"},    {_0, zLD,"l,c"},    {_0, zLD,"l,d"},    {_0, zLD,"l,e"},
-	{_0, zLD,"l,h"},    {_0, zLD,"l,l"},    {_RM,zLD,"l,(hl)"}, {_0, zLD,"l,a"},
-	{_WM,zLD,"(hl),b"}, {_WM,zLD,"(hl),c"}, {_WM,zLD,"(hl),d"}, {_WM,zLD,"(hl),e"},
-	{_WM,zLD,"(hl),h"}, {_WM,zLD,"(hl),l"}, {_0, zHLT,0},       {_WM,zLD,"(hl),a"},
-	{_0, zLD,"a,b"},    {_0, zLD,"a,c"},    {_0, zLD,"a,d"},    {_0, zLD,"a,e"},
-	{_0, zLD,"a,h"},    {_0, zLD,"a,l"},    {_RM,zLD,"a,(hl)"}, {_0, zLD,"a,a"},
-	{_0, zADD,"a,b"},   {_0, zADD,"a,c"},   {_0, zADD,"a,d"},   {_0, zADD,"a,e"},
-	{_0, zADD,"a,h"},   {_0, zADD,"a,l"},   {_RM,zADD,"a,(hl)"},{_0, zADD,"a,a"},
-	{_0, zADC,"a,b"},   {_0, zADC,"a,c"},   {_0, zADC,"a,d"},   {_0, zADC,"a,e"},
-	{_0, zADC,"a,h"},   {_0, zADC,"a,l"},   {_RM,zADC,"a,(hl)"},{_0, zADC,"a,a"},
-	{_0, zSUB,"b"},     {_0, zSUB,"c"},     {_0, zSUB,"d"},     {_0, zSUB,"e"},
-	{_0, zSUB,"h"},     {_0, zSUB,"l"},     {_RM,zSUB,"(hl)"},  {_0, zSUB,"a"},
-	{_0, zSBC,"a,b"},   {_0, zSBC,"a,c"},   {_0, zSBC,"a,d"},   {_0, zSBC,"a,e"},
-	{_0, zSBC,"a,h"},   {_0, zSBC,"a,l"},   {_RM,zSBC,"a,(hl)"},{_0, zSBC,"a,a"},
-	{_0, zAND,"b"},     {_0, zAND,"c"},     {_0, zAND,"d"},     {_0, zAND,"e"},
-	{_0, zAND,"h"},     {_0, zAND,"l"},     {_RM,zAND,"(hl)"},  {_0, zAND,"a"},
-	{_0, zXOR,"b"},     {_0, zXOR,"c"},     {_0, zXOR,"d"},     {_0, zXOR,"e"},
-	{_0, zXOR,"h"},     {_0, zXOR,"l"},     {_RM,zXOR,"(hl)"},  {_0, zXOR,"a"},
-	{_0, zOR,"b"},      {_0, zOR,"c"},      {_0, zOR,"d"},      {_0, zOR,"e"},
-	{_0, zOR,"h"},      {_0, zOR,"l"},      {_RM,zOR,"(hl)"},   {_0, zOR,"a"},
-	{_0, zCP,"b"},      {_0, zCP,"c"},      {_0, zCP,"d"},      {_0, zCP,"e"},
-	{_0, zCP,"h"},      {_0, zCP,"l"},      {_RM,zCP,"(hl)"},   {_0, zCP,"a"},
-	{_0, zRET,"nz"},    {_0, zPOP,"bc"},    {_JP,zJP,"nz,A"},   {_JP,zJP,"A"},
-	{_JP,zCALL,"nz,A"}, {_0, zPUSH,"bc"},   {_0, zADD,"a,B"},   {_JP,zRST,"V"},
-	{_0, zRET,"z"},     {_0, zRET,0},       {_JP,zJP,"z,A"},    {_0, zDB,"cb"},
-	{_JP,zCALL,"z,A"},  {_JP,zCALL,"A"},    {_0, zADC,"a,B"},   {_JP,zRST,"V"},
-	{_0, zRET,"nc"},    {_0, zPOP,"de"},    {_JP,zJP,"nc,A"},   {_WP,zOUT,"(P),a"},
-	{_JP,zCALL,"nc,A"}, {_0, zPUSH,"de"},   {_0, zSUB,"B"},     {_JP,zRST,"V"},
-	{_0, zRET,"c"},     {_0, zEXX,0},       {_JP,zJP,"c,A"},    {_RP,zIN,"a,(P)"},
-	{_JP,zCALL,"c,A"},  {_0, zDB,"dd"},     {_0, zSBC,"a,B"},   {_JP,zRST,"V"},
-	{_0, zRET,"po"},    {_0, zPOP,"hl"},    {_JP,zJP,"po,A"},   {_RW,zEX,"(sp),hl"},
-	{_JP,zCALL,"po,A"}, {_0, zPUSH,"hl"},   {_0, zAND,"B"},     {_JP,zRST,"V"},
-	{_0, zRET,"pe"},    {_JP,zJP,"(hl)"},   {_JP,zJP,"pe,A"},   {_0, zEX,"de,hl"},
-	{_JP,zCALL,"pe,A"}, {_0, zDB,"ed"},     {_0, zXOR,"B"},     {_JP,zRST,"V"},
-	{_0, zRET,"p"},     {_0, zPOP,"af"},    {_JP,zJP,"p,A"},    {_0, zDI,0},
-	{_JP,zCALL,"p,A"},  {_0, zPUSH,"af"},   {_0, zOR,"B"},      {_JP,zRST,"V"},
-	{_0, zRET,"m"},     {_0, zLD,"sp,hl"},  {_JP,zJP,"m,A"},    {_0, zEI,0},
-	{_JP,zCALL,"m,A"},  {_0, zDB,"fd"},     {_0, zCP,"B"},      {_JP,zRST,"V"}
-};
-
-static char sign(INT8 offset)
-{
- return (offset < 0)? '-':'+';
-}
-
-static int offs(INT8 offset)
-{
-	if (offset < 0) return -offset;
-	return offset;
-}
-
-/****************************************************************************
- * Disassemble opcode at PC and return number of bytes it takes
- ****************************************************************************/
-unsigned DasmZ80( char *buffer, unsigned pc )
-{
-    z80dasm *d;
-	const char *symbol, *src;
-	const char *ixy;
-	char *dst;
-	unsigned PC = pc;
-	INT8 offset = 0;
-	UINT8 op, op1;
-	UINT16 ea = 0, xy = 0;
-
-	ixy = "oops!!";
-	dst = buffer;
-	symbol = NULL;
-
-	op = cpu_readop( pc++ );
-    op1 = 0; /* keep GCC happy */
-
-    switch (op)
-	{
-	case 0xcb:
-		op = cpu_readop(pc++);
-        d = &mnemonic_cb[op];
-		break;
-	case 0xed:
-		op1 = cpu_readop(pc++);
-        d = &mnemonic_ed[op1];
-		break;
-	case 0xdd:
-		ixy = "ix";
-		op1 = cpu_readop(pc++);
-		if( op1 == 0xcb )
-		{
-			offset = (INT8) cpu_readop_arg(pc++);
-			op1 = cpu_readop_arg(pc++); /* fourth byte from OP_RAM! */
-			xy = z80_get_reg( Z80_IX );
-			ea = (xy + offset) & 0xffff;
-			d = &mnemonic_xx_cb[op1];
-		}
-		else d = &mnemonic_xx[op1];
-        break;
-	case 0xfd:
-		ixy = "iy";
-		op1 = cpu_readop(pc++);
-		if( op1 == 0xcb )
-		{
-			offset = (INT8) cpu_readop_arg(pc++);
-			op1 = cpu_readop_arg(pc++); /* fourth byte from OP_RAM! */
-			xy = z80_get_reg( Z80_IY );
-			ea = (ea + offset) & 0xffff;
-			d = &mnemonic_xx_cb[op1];
-		}
-		else d = &mnemonic_xx[op1];
-        break;
-	default:
-		d = &mnemonic_main[op];
-		break;
-	}
-
-    if( d->arguments )
-	{
-		dst += sprintf(dst, "%-4s ", s_mnemonic[d->mnemonic]);
-		src = d->arguments;
-		while( *src )
-		{
-			switch( *src )
-			{
-			case '?':   /* illegal opcode */
-				dst += sprintf( dst, "$%02x,$%02x", op, op1);
-				break;
-			case 'A':
-				ea = cpu_readop_arg(pc) + ( cpu_readop_arg((pc+1)&0xffff) << 8);
-				pc += 2;
-				symbol = set_ea_info(0, ea, EA_UINT16, d->access);
-				dst += sprintf( dst, "%s", symbol );
-                break;
-            case 'B':   /* Byte op arg */
-				ea = cpu_readop_arg( pc++ );
-				symbol = set_ea_info(1, ea, EA_UINT8, EA_VALUE);
-				dst += sprintf( dst, "%s", symbol );
-				break;
-			case '(':   /* Memory byte at (HL) */
-                *dst++ = *src;
-				if( !strncmp( src, "(bc)", 4) )
-				{
-					ea = z80_get_reg( Z80_BC );
-					set_ea_info(0, ea, EA_UINT8, d->access);
-				}
-                else
-				if( !strncmp( src, "(de)", 4) )
-				{
-					ea = z80_get_reg( Z80_DE );
-					set_ea_info(0, ea, EA_UINT8, d->access);
-                }
-                else
-                if( !strncmp( src, "(hl)", 4) )
-				{
-					ea = z80_get_reg( Z80_HL );
-					if( d->access == EA_ABS_PC )
-						set_ea_info(0, ea, EA_DEFAULT, EA_ABS_PC);
-					else
-						set_ea_info(0, ea, EA_UINT8, d->access);
-                }
-				else
-				if( !strncmp( src, "(sp)", 4) )
-				{
-					ea = z80_get_reg( Z80_SP );
-					set_ea_info(0, ea, EA_UINT16, d->access);
-                }
-				else
-				if( !strncmp( src, "(P)", 3) )
-				{
-					ea = (z80_get_reg( Z80_AF ) & 0xff00) | cpu_readop_arg( pc );
-                    set_ea_info(0, ea, EA_UINT16, d->access);
-                }
-                else
-                if( !strncmp( src, "(c)", 3) )
-				{
-					ea = z80_get_reg( Z80_BC );
-					set_ea_info(0, ea, EA_UINT16, d->access);
-                }
-                else
-				if( !strncmp( src, "(I)", 3) )
-				{
-					ea = xy;
-					set_ea_info(0, ea, EA_DEFAULT, d->access);
-                }
-                break;
-			case 'N':   /* Immediate 16 bit */
-				ea = cpu_readop_arg(pc) + ( cpu_readop_arg((pc+1)&0xffff) << 8 );
-				pc += 2;
-				symbol = set_ea_info(1, ea, EA_UINT16, EA_VALUE );
-				dst += sprintf( dst, "%s", symbol );
-                break;
-			case 'O':   /* Offset relative to PC */
-				offset = (INT8) cpu_readop_arg(pc++);
-				symbol = set_ea_info(0, PC, offset + 2, d->access);
-				dst += sprintf( dst, "%s", symbol );
-				break;
-			case 'P':   /* Port number */
-				ea = cpu_readop_arg( pc++ );
-				dst += sprintf( dst, "$%02X", ea );
-                break;
-            case 'V':   /* Restart vector */
-				ea = op & 0x38;
-				symbol = set_ea_info(0, ea, EA_UINT8, d->access);
-				dst += sprintf( dst, "%s", symbol );
-				break;
-			case 'W':   /* Memory address word */
-				ea = cpu_readop_arg(pc) + ( cpu_readop_arg((pc+1)&0xffff) << 8);
-				pc += 2;
-				symbol = set_ea_info(0, ea, EA_UINT16, d->access);
-				dst += sprintf( dst, "%s", symbol );
-				break;
-			case 'X':
-				offset = (INT8) cpu_readop_arg(pc++);
-                ea = (xy + offset) & 0xffff;
-            case 'Y':
-				symbol = set_ea_info(0, ea, EA_UINT8, d->access);
-				dst += sprintf( dst,"(%s%c$%02x)", ixy, sign(offset), offs(offset) );
-				break;
-			case 'I':
-				dst += sprintf( dst, "%s", ixy);
-				break;
-			default:
-				*dst++ = *src;
-			}
-			src++;
-		}
-		*dst = '\0';
-	}
-	else
-	{
-		dst += sprintf(dst, "%s", s_mnemonic[d->mnemonic]);
-    }
-
-    return pc - PC;
-}
-
-#endif
-
diff --git a/plugins/ao/eng_qsf/z80dasm.h b/plugins/ao/eng_qsf/z80dasm.h
deleted file mode 100644
index aaca5204..00000000
--- a/plugins/ao/eng_qsf/z80dasm.h
+++ /dev/null
@@ -1,2 +0,0 @@
-extern int DasmZ80(char *buffer, int PC);
-
diff --git a/plugins/ao/eng_ssf/m68k.h b/plugins/ao/eng_ssf/m68k.h
deleted file mode 100644
index 851c7132..00000000
--- a/plugins/ao/eng_ssf/m68k.h
+++ /dev/null
@@ -1,347 +0,0 @@
-#ifndef M68K__HEADER
-#define M68K__HEADER
-
-struct m68ki_cpu_core_s;
-
-/* ======================================================================== */
-/* ========================= LICENSING & COPYRIGHT ======================== */
-/* ======================================================================== */
-/*
- *                                  MUSASHI
- *                                Version 3.3
- *
- * A portable Motorola M680x0 processor emulation engine.
- * Copyright 1998-2001 Karl Stenerud.  All rights reserved.
- *
- * This code may be freely used for non-commercial purposes as long as this
- * copyright notice remains unaltered in the source code and any binary files
- * containing this code in compiled form.
- *
- * All other lisencing terms must be negotiated with the author
- * (Karl Stenerud).
- *
- * The latest version of this code can be obtained at:
- * http://kstenerud.cjb.net
- */
-
-
-
-/* ======================================================================== */
-/* ============================ GENERAL DEFINES =========================== */
-
-/* ======================================================================== */
-
-/* There are 7 levels of interrupt to the 68K.
- * A transition from < 7 to 7 will cause a non-maskable interrupt (NMI).
- */
-#define M68K_IRQ_NONE 0
-#define M68K_IRQ_1    1
-#define M68K_IRQ_2    2
-#define M68K_IRQ_3    3
-#define M68K_IRQ_4    4
-#define M68K_IRQ_5    5
-#define M68K_IRQ_6    6
-#define M68K_IRQ_7    7
-
-
-/* Special interrupt acknowledge values.
- * Use these as special returns from the interrupt acknowledge callback
- * (specified later in this header).
- */
-
-/* Causes an interrupt autovector (0x18 + interrupt level) to be taken.
- * This happens in a real 68K if VPA or AVEC is asserted during an interrupt
- * acknowledge cycle instead of DTACK.
- */
-#define M68K_INT_ACK_AUTOVECTOR    0xffffffff
-
-/* Causes the spurious interrupt vector (0x18) to be taken
- * This happens in a real 68K if BERR is asserted during the interrupt
- * acknowledge cycle (i.e. no devices responded to the acknowledge).
- */
-#define M68K_INT_ACK_SPURIOUS      0xfffffffe
-
-
-/* CPU types for use in m68k_set_cpu_type() */
-enum
-{
-	M68K_CPU_TYPE_INVALID,
-	M68K_CPU_TYPE_68000,
-	M68K_CPU_TYPE_68010,
-	M68K_CPU_TYPE_68EC020,
-	M68K_CPU_TYPE_68020,
-	M68K_CPU_TYPE_68030,	/* Supported by disassembler ONLY */
-	M68K_CPU_TYPE_68040		/* Supported by disassembler ONLY */
-};
-
-/* Registers used by m68k_get_reg() and m68k_set_reg() */
-typedef enum
-{
-	/* Real registers */
-	M68K_REG_D0,		/* Data registers */
-	M68K_REG_D1,
-	M68K_REG_D2,
-	M68K_REG_D3,
-	M68K_REG_D4,
-	M68K_REG_D5,
-	M68K_REG_D6,
-	M68K_REG_D7,
-	M68K_REG_A0,		/* Address registers */
-	M68K_REG_A1,
-	M68K_REG_A2,
-	M68K_REG_A3,
-	M68K_REG_A4,
-	M68K_REG_A5,
-	M68K_REG_A6,
-	M68K_REG_A7,
-	M68K_REG_PC,		/* Program Counter */
-	M68K_REG_SR,		/* Status Register */
-	M68K_REG_SP,		/* The current Stack Pointer (located in A7) */
-	M68K_REG_USP,		/* User Stack Pointer */
-	M68K_REG_ISP,		/* Interrupt Stack Pointer */
-	M68K_REG_MSP,		/* Master Stack Pointer */
-	M68K_REG_SFC,		/* Source Function Code */
-	M68K_REG_DFC,		/* Destination Function Code */
-	M68K_REG_VBR,		/* Vector Base Register */
-	M68K_REG_CACR,		/* Cache Control Register */
-	M68K_REG_CAAR,		/* Cache Address Register */
-
-	/* Assumed registers */
-	/* These are cheat registers which emulate the 1-longword prefetch
-	 * present in the 68000 and 68010.
-	 */
-	M68K_REG_PREF_ADDR,	/* Last prefetch address */
-	M68K_REG_PREF_DATA,	/* Last prefetch data */
-
-	/* Convenience registers */
-	M68K_REG_PPC,		/* Previous value in the program counter */
-	M68K_REG_IR,		/* Instruction register */
-	M68K_REG_CPU_TYPE	/* Type of CPU being run */
-} m68k_register_t;
-
-/* ======================================================================== */
-/* ====================== FUNCTIONS CALLED BY THE CPU ===================== */
-/* ======================================================================== */
-
-/* You will have to implement these functions */
-
-/* read/write functions called by the CPU to access memory.
- * while values used are 32 bits, only the appropriate number
- * of bits are relevant (i.e. in write_memory_8, only the lower 8 bits
- * of value should be written to memory).
- *
- * NOTE: I have separated the immediate and PC-relative memory fetches
- *       from the other memory fetches because some systems require
- *       differentiation between PROGRAM and DATA fetches (usually
- *       for security setups such as encryption).
- *       This separation can either be achieved by setting
- *       M68K_SEPARATE_READS in m68kconf.h and defining
- *       the read functions, or by setting M68K_EMULATE_FC and
- *       making a function code callback function.
- *       Using the callback offers better emulation coverage
- *       because you can also monitor whether the CPU is in SYSTEM or
- *       USER mode, but it is also slower.
- */
-
-/* Read from anywhere */
-unsigned int  m68k_read_memory_8(struct m68ki_cpu_core_s *cpu, unsigned int address);
-unsigned int  m68k_read_memory_16(struct m68ki_cpu_core_s *cpu, unsigned int address);
-unsigned int  m68k_read_memory_32(struct m68ki_cpu_core_s *cpu, unsigned int address);
-
-/* Read data immediately following the PC */
-//INLINE unsigned int  m68k_read_immediate_16(unsigned int address);
-//INLINE unsigned int  m68k_read_immediate_32(unsigned int address);
-
-/* Read data relative to the PC */
-//INLINE unsigned int  m68k_read_pcrelative_8(unsigned int address);
-//INLINE unsigned int  m68k_read_pcrelative_16(unsigned int address);
-//INLINE unsigned int  m68k_read_pcrelative_32(unsigned int address);
-
-/* Memory access for the disassembler */
-unsigned int m68k_read_disassembler_8  (struct m68ki_cpu_core_s *cpu, unsigned int address);
-unsigned int m68k_read_disassembler_16 (struct m68ki_cpu_core_s *cpu, unsigned int address);
-unsigned int m68k_read_disassembler_32 (struct m68ki_cpu_core_s *cpu, unsigned int address);
-
-/* Write to anywhere */
-void m68k_write_memory_8(struct m68ki_cpu_core_s *cpu, unsigned int address, unsigned int value);
-void m68k_write_memory_16(struct m68ki_cpu_core_s *cpu, unsigned int address, unsigned int value);
-void m68k_write_memory_32(struct m68ki_cpu_core_s *cpu, unsigned int address, unsigned int value);
-
-/* Special call to simulate undocumented 68k behavior when move.l with a
- * predecrement destination mode is executed.
- * To simulate real 68k behavior, first write the high word to
- * [address+2], and then write the low word to [address].
- *
- * Enable this functionality with M68K_SIMULATE_PD_WRITES in m68kconf.h.
- */
-//INLINE void m68k_write_memory_32_pd(unsigned int address, unsigned int value);
-
-
-
-/* ======================================================================== */
-/* ============================== CALLBACKS =============================== */
-/* ======================================================================== */
-
-/* These functions allow you to set callbacks to the host when specific events
- * occur.  Note that you must enable the corresponding value in m68kconf.h
- * in order for these to do anything useful.
- * Note: I have defined default callbacks which are used if you have enabled
- * the corresponding #define in m68kconf.h but either haven't assigned a
- * callback or have assigned a callback of NULL.
- */
-
-/* Set the callback for an interrupt acknowledge.
- * You must enable M68K_EMULATE_INT_ACK in m68kconf.h.
- * The CPU will call the callback with the interrupt level being acknowledged.
- * The host program must return either a vector from 0x02-0xff, or one of the
- * special interrupt acknowledge values specified earlier in this header.
- * If this is not implemented, the CPU will always assume an autovectored
- * interrupt, and will automatically clear the interrupt request when it
- * services the interrupt.
- * Default behavior: return M68K_INT_ACK_AUTOVECTOR.
- */
-void m68k_set_int_ack_callback(struct m68ki_cpu_core_s *cpu, int  (*callback)(struct m68ki_cpu_core_s *cpu, int int_level));
-
-
-/* Set the callback for a breakpoint acknowledge (68010+).
- * You must enable M68K_EMULATE_BKPT_ACK in m68kconf.h.
- * The CPU will call the callback with whatever was in the data field of the
- * BKPT instruction for 68020+, or 0 for 68010.
- * Default behavior: do nothing.
- */
-void m68k_set_bkpt_ack_callback(struct m68ki_cpu_core_s *cpu, void (*callback)(struct m68ki_cpu_core_s *cpu, unsigned int data));
-
-
-/* Set the callback for the RESET instruction.
- * You must enable M68K_EMULATE_RESET in m68kconf.h.
- * The CPU calls this callback every time it encounters a RESET instruction.
- * Default behavior: do nothing.
- */
-void m68k_set_reset_instr_callback(struct m68ki_cpu_core_s *cpu, void  (*callback)(struct m68ki_cpu_core_s *cpu));
-
-
-/* Set the callback for informing of a large PC change.
- * You must enable M68K_MONITOR_PC in m68kconf.h.
- * The CPU calls this callback with the new PC value every time the PC changes
- * by a large value (currently set for changes by longwords).
- * Default behavior: do nothing.
- */
-void m68k_set_pc_changed_callback(struct m68ki_cpu_core_s *cpu, void  (*callback)(struct m68ki_cpu_core_s *cpu, unsigned int new_pc));
-
-
-/* Set the callback for CPU function code changes.
- * You must enable M68K_EMULATE_FC in m68kconf.h.
- * The CPU calls this callback with the function code before every memory
- * access to set the CPU's function code according to what kind of memory
- * access it is (supervisor/user, program/data and such).
- * Default behavior: do nothing.
- */
-void m68k_set_fc_callback(struct m68ki_cpu_core_s *cpu, void  (*callback)(struct m68ki_cpu_core_s *cpu, unsigned int new_fc));
-
-
-/* Set a callback for the instruction cycle of the CPU.
- * You must enable M68K_INSTRUCTION_HOOK in m68kconf.h.
- * The CPU calls this callback just before fetching the opcode in the
- * instruction cycle.
- * Default behavior: do nothing.
- */
-void m68k_set_instr_hook_callback(struct m68ki_cpu_core_s *cpu, void  (*callback)(struct m68ki_cpu_core_s *cpu));
-
-
-
-/* ======================================================================== */
-/* ====================== FUNCTIONS TO ACCESS THE CPU ===================== */
-/* ======================================================================== */
-
-/* Use this function to set the CPU type you want to emulate.
- * Currently supported types are: M68K_CPU_TYPE_68000, M68K_CPU_TYPE_68010,
- * M68K_CPU_TYPE_EC020, and M68K_CPU_TYPE_68020.
- */
-void m68k_set_cpu_type(struct m68ki_cpu_core_s *cpu, unsigned int cpu_type);
-
-/* Do whatever initialisations the core requires.  Should be called
- * at least once at init time.
- */
-struct m68ki_cpu_core_s *m68k_init(void);
-
-/* Pulse the RESET pin on the CPU.
- * You *MUST* reset the CPU at least once to initialize the emulation
- * Note: If you didn't call m68k_set_cpu_type() before resetting
- *       the CPU for the first time, the CPU will be set to
- *       M68K_CPU_TYPE_68000.
- */
-void m68k_pulse_reset(struct m68ki_cpu_core_s *cpu);
-
-/* execute num_cycles worth of instructions.  returns number of cycles used */
-int m68k_execute(struct m68ki_cpu_core_s *cpu, int num_cycles);
-
-/* These functions let you read/write/modify the number of cycles left to run
- * while m68k_execute() is running.
- * These are useful if the 68k accesses a memory-mapped port on another device
- * that requires immediate processing by another CPU.
- */
-int m68k_cycles_run(struct m68ki_cpu_core_s *cpu);              /* Number of cycles run so far */
-int m68k_cycles_remaining(struct m68ki_cpu_core_s *cpu);        /* Number of cycles left */
-void m68k_modify_timeslice(struct m68ki_cpu_core_s *cpu, int cycles); /* Modify cycles left */
-void m68k_end_timeslice(struct m68ki_cpu_core_s *cpu);          /* End timeslice now */
-
-/* Set the IPL0-IPL2 pins on the CPU (IRQ).
- * A transition from < 7 to 7 will cause a non-maskable interrupt (NMI).
- * Setting IRQ to 0 will clear an interrupt request.
- */
-void m68k_set_irq(struct m68ki_cpu_core_s *cpu, unsigned int int_level);
-
-
-/* Halt the CPU as if you pulsed the HALT pin. */
-void m68k_pulse_halt(struct m68ki_cpu_core_s *cpu);
-
-
-#if 0
-/* Context switching to allow multiple CPUs */
-
-/* Get the size of the cpu context in bytes */
-unsigned int m68k_context_size(struct m68ki_cpu_core_s *cpu);
-
-/* Get a cpu context */
-unsigned int m68k_get_context(struct m68ki_cpu_core_s *cpu, void* dst);
-
-/* set the current cpu context */
-void m68k_set_context(struct m68ki_cpu_core_s *cpu, void* dst);
-#endif
-
-/* Register the CPU state information */
-void m68k_state_register(struct m68ki_cpu_core_s *cpu, const char *type);
-
-
-/* Peek at the internals of a CPU context.  This can either be a context
- * retrieved using m68k_get_context() or the currently running context.
- * If context is NULL, the currently running CPU context will be used.
- */
-unsigned int m68k_get_reg(struct m68ki_cpu_core_s *cpu, void* context, m68k_register_t reg);
-
-/* Poke values into the internals of the currently running CPU context */
-void m68k_set_reg(struct m68ki_cpu_core_s *cpu, m68k_register_t reg, unsigned int value);
-
-/* Check if an instruction is valid for the specified CPU type */
-unsigned int m68k_is_valid_instruction(struct m68ki_cpu_core_s *cpu, unsigned int instruction, unsigned int cpu_type);
-
-/* Disassemble 1 instruction using the epecified CPU type at pc.  Stores
- * disassembly in str_buff and returns the size of the instruction in bytes.
- */
-unsigned int m68k_disassemble(struct m68ki_cpu_core_s *cpu, char* str_buff, unsigned int pc, unsigned int cpu_type);
-
-
-/* ======================================================================== */
-/* ============================= CONFIGURATION ============================ */
-/* ======================================================================== */
-
-/* Import the configuration for this build */
-#include "m68kconf.h"
-
-
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
-
-#endif /* M68K__HEADER */
diff --git a/plugins/ao/eng_ssf/m68k_in.c b/plugins/ao/eng_ssf/m68k_in.c
deleted file mode 100644
index 65e317ef..00000000
--- a/plugins/ao/eng_ssf/m68k_in.c
+++ /dev/null
@@ -1,10336 +0,0 @@
-/*
-must fix:
-	callm
-	chk
-*/
-/* ======================================================================== */
-/* ========================= LICENSING & COPYRIGHT ======================== */
-/* ======================================================================== */
-/*
- *                                  MUSASHI
- *                                Version 3.3
- *
- * A portable Motorola M680x0 processor emulation engine.
- * Copyright 1998-2001 Karl Stenerud.  All rights reserved.
- *
- * This code may be freely used for non-commercial purposes as long as this
- * copyright notice remains unaltered in the source code and any binary files
- * containing this code in compiled form.
- *
- * All other lisencing terms must be negotiated with the author
- * (Karl Stenerud).
- *
- * The latest version of this code can be obtained at:
- * http://kstenerud.cjb.net
- */
-
-/* Special thanks to Bart Trzynadlowski for his insight into the
- * undocumented features of this chip:
- *
- * http://dynarec.com/~bart/files/68knotes.txt
- */
-
-
-/* Input file for m68kmake
- * -----------------------
- *
- * All sections begin with 80 X's in a row followed by an end-of-line
- * sequence.
- * After this, m68kmake will expect to find one of the following section
- * identifiers:
- *    M68KMAKE_PROTOTYPE_HEADER      - header for opcode handler prototypes
- *    M68KMAKE_PROTOTYPE_FOOTER      - footer for opcode handler prototypes
- *    M68KMAKE_TABLE_HEADER          - header for opcode handler jumptable
- *    M68KMAKE_TABLE_FOOTER          - footer for opcode handler jumptable
- *    M68KMAKE_TABLE_BODY            - the table itself
- *    M68KMAKE_OPCODE_HANDLER_HEADER - header for opcode handler implementation
- *    M68KMAKE_OPCODE_HANDLER_FOOTER - footer for opcode handler implementation
- *    M68KMAKE_OPCODE_HANDLER_BODY   - body section for opcode handler implementation
- *
- * NOTE: M68KMAKE_OPCODE_HANDLER_BODY must be last in the file and
- *       M68KMAKE_TABLE_BODY must be second last in the file.
- *
- * The M68KMAKE_OPHANDLER_BODY section contains the opcode handler
- * primitives themselves.  Each opcode handler begins with:
- *    M68KMAKE_OP(A, B, C, D)
- *
- * where A is the opcode handler name, B is the size of the operation,
- * C denotes any special processing mode, and D denotes a specific
- * addressing mode.
- * For C and D where nothing is specified, use "."
- *
- * Example:
- *     M68KMAKE_OP(abcd, 8, rr, .)   abcd, size 8, register to register, default EA
- *     M68KMAKE_OP(abcd, 8, mm, ax7) abcd, size 8, memory to memory, register X is A7
- *     M68KMAKE_OP(tst, 16, ., pcix) tst, size 16, PCIX addressing
- *
- * All opcode handler primitives end with a closing curly brace "}" at column 1
- *
- * NOTE: Do not place a M68KMAKE_OP() directive inside the opcode handler,
- *       and do not put a closing curly brace at column 1 unless it is
- *       marking the end of the handler!
- *
- * Inside the handler, m68kmake will recognize M68KMAKE_GET_OPER_xx_xx,
- * M68KMAKE_GET_EA_xx_xx, and M68KMAKE_CC directives, and create multiple
- * opcode handlers to handle variations in the opcode handler.
- * Note: M68KMAKE_CC will only be interpreted in condition code opcodes.
- * As well, M68KMAKE_GET_EA_xx_xx and M68KMAKE_GET_OPER_xx_xx will only
- * be interpreted on instructions where the corresponding table entry
- * specifies multiple effective addressing modes.
- * Example:
- * clr       32  .     .     0100001010......  A+-DXWL...  U U U   12   6   4
- *
- * This table entry says that the clr.l opcde has 7 variations (A+-DXWL).
- * It is run in user or supervisor mode for all CPUs, and uses 12 cycles for
- * 68000, 6 cycles for 68010, and 4 cycles for 68020.
- */
-
-XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
-M68KMAKE_PROTOTYPE_HEADER
-
-#ifndef M68KOPS__HEADER
-#define M68KOPS__HEADER
-
-/* ======================================================================== */
-/* ============================ OPCODE HANDLERS =========================== */
-/* ======================================================================== */
-
-
-
-XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
-M68KMAKE_PROTOTYPE_FOOTER
-
-
-/* Build the opcode handler table */
-void m68ki_build_opcode_table(void);
-
-extern void (*m68ki_instruction_jump_table[0x10000])(void); /* opcode handler jump table */
-extern unsigned char m68ki_cycles[][0x10000];
-
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
-
-#endif /* M68KOPS__HEADER */
-
-
-
-XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
-M68KMAKE_TABLE_HEADER
-
-/* ======================================================================== */
-/* ========================= OPCODE TABLE BUILDER ========================= */
-/* ======================================================================== */
-
-#include "m68kops.h"
-
-#define NUM_CPU_TYPES 3
-
-void  (*m68ki_instruction_jump_table[0x10000])(void); /* opcode handler jump table */
-unsigned char m68ki_cycles[NUM_CPU_TYPES][0x10000]; /* Cycles used by CPU type */
-
-/* This is used to generate the opcode handler jump table */
-typedef struct
-{
-	void (*opcode_handler)(void);        /* handler function */
-	unsigned int  mask;                  /* mask on opcode */
-	unsigned int  match;                 /* what to match after masking */
-	unsigned char cycles[NUM_CPU_TYPES]; /* cycles each cpu type takes */
-} opcode_handler_struct;
-
-
-/* Opcode handler table */
-static opcode_handler_struct m68k_opcode_handler_table[] =
-{
-/*   function                      mask    match    000  010  020 */
-
-
-
-XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
-M68KMAKE_TABLE_FOOTER
-
-	{0, 0, 0, {0, 0, 0}}
-};
-
-
-/* Build the opcode handler jump table */
-void m68ki_build_opcode_table(void)
-{
-	opcode_handler_struct *ostruct;
-	int instr;
-	int i;
-	int j;
-	int k;
-
-	for(i = 0; i < 0x10000; i++)
-	{
-		/* default to illegal */
-		m68ki_instruction_jump_table[i] = m68k_op_illegal;
-		for(k=0;k<NUM_CPU_TYPES;k++)
-			m68ki_cycles[k][i] = 0;
-	}
-
-	ostruct = m68k_opcode_handler_table;
-	while(ostruct->mask != 0xff00)
-	{
-		for(i = 0;i < 0x10000;i++)
-		{
-			if((i & ostruct->mask) == ostruct->match)
-			{
-				m68ki_instruction_jump_table[i] = ostruct->opcode_handler;
-				for(k=0;k<NUM_CPU_TYPES;k++)
-					m68ki_cycles[k][i] = ostruct->cycles[k];
-			}
-		}
-		ostruct++;
-	}
-	while(ostruct->mask == 0xff00)
-	{
-		for(i = 0;i <= 0xff;i++)
-		{
-			m68ki_instruction_jump_table[ostruct->match | i] = ostruct->opcode_handler;
-			for(k=0;k<NUM_CPU_TYPES;k++)
-				m68ki_cycles[k][ostruct->match | i] = ostruct->cycles[k];
-		}
-		ostruct++;
-	}
-	while(ostruct->mask == 0xf1f8)
-	{
-		for(i = 0;i < 8;i++)
-		{
-			for(j = 0;j < 8;j++)
-			{
-				instr = ostruct->match | (i << 9) | j;
-				m68ki_instruction_jump_table[instr] = ostruct->opcode_handler;
-				for(k=0;k<NUM_CPU_TYPES;k++)
-					m68ki_cycles[k][instr] = ostruct->cycles[k];
-				if((instr & 0xf000) == 0xe000 && (!(instr & 0x20)))
-					m68ki_cycles[0][instr] = m68ki_cycles[1][instr] = ostruct->cycles[k] + ((((j-1)&7)+1)<<1);
-			}
-		}
-		ostruct++;
-	}
-	while(ostruct->mask == 0xfff0)
-	{
-		for(i = 0;i <= 0x0f;i++)
-		{
-			m68ki_instruction_jump_table[ostruct->match | i] = ostruct->opcode_handler;
-			for(k=0;k<NUM_CPU_TYPES;k++)
-				m68ki_cycles[k][ostruct->match | i] = ostruct->cycles[k];
-		}
-		ostruct++;
-	}
-	while(ostruct->mask == 0xf1ff)
-	{
-		for(i = 0;i <= 0x07;i++)
-		{
-			m68ki_instruction_jump_table[ostruct->match | (i << 9)] = ostruct->opcode_handler;
-			for(k=0;k<NUM_CPU_TYPES;k++)
-				m68ki_cycles[k][ostruct->match | (i << 9)] = ostruct->cycles[k];
-		}
-		ostruct++;
-	}
-	while(ostruct->mask == 0xfff8)
-	{
-		for(i = 0;i <= 0x07;i++)
-		{
-			m68ki_instruction_jump_table[ostruct->match | i] = ostruct->opcode_handler;
-			for(k=0;k<NUM_CPU_TYPES;k++)
-				m68ki_cycles[k][ostruct->match | i] = ostruct->cycles[k];
-		}
-		ostruct++;
-	}
-	while(ostruct->mask == 0xffff)
-	{
-		m68ki_instruction_jump_table[ostruct->match] = ostruct->opcode_handler;
-		for(k=0;k<NUM_CPU_TYPES;k++)
-			m68ki_cycles[k][ostruct->match] = ostruct->cycles[k];
-		ostruct++;
-	}
-}
-
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
-
-
-
-XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
-M68KMAKE_OPCODE_HANDLER_HEADER
-
-#include "m68kcpu.h"
-
-/* ======================================================================== */
-/* ========================= INSTRUCTION HANDLERS ========================= */
-/* ======================================================================== */
-
-
-
-XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
-M68KMAKE_OPCODE_HANDLER_FOOTER
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
-
-
-
-XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
-M68KMAKE_TABLE_BODY
-
-The following table is arranged as follows:
-
-name:        Opcode mnemonic
-
-size:        Operation size
-
-spec proc:   Special processing mode:
-                 .:    normal
-                 s:    static operand
-                 r:    register operand
-                 rr:   register to register
-                 mm:   memory to memory
-                 er:   effective address to register
-                 re:   register to effective address
-                 dd:   data register to data register
-                 da:   data register to address register
-                 aa:   address register to address register
-                 cr:   control register to register
-                 rc:   register to control register
-                 toc:  to condition code register
-                 tos:  to status register
-                 tou:  to user stack pointer
-                 frc:  from condition code register
-                 frs:  from status register
-                 fru:  from user stack pointer
-                 * for move.x, the special processing mode is a specific
-                   destination effective addressing mode.
-
-spec ea:     Specific effective addressing mode:
-                 .:    normal
-                 i:    immediate
-                 d:    data register
-                 a:    address register
-                 ai:   address register indirect
-                 pi:   address register indirect with postincrement
-                 pd:   address register indirect with predecrement
-                 di:   address register indirect with displacement
-                 ix:   address register indirect with index
-                 aw:   absolute word address
-                 al:   absolute long address
-                 pcdi: program counter relative with displacement
-                 pcix: program counter relative with index
-                 a7:   register specified in instruction is A7
-                 ax7:  register field X of instruction is A7
-                 ay7:  register field Y of instruction is A7
-                 axy7: register fields X and Y of instruction are A7
-
-bit pattern: Pattern to recognize this opcode.  "." means don't care.
-
-allowed ea:  List of allowed addressing modes:
-                 .: not present
-                 A: address register indirect
-                 +: ARI (address register indirect) with postincrement
-                 -: ARI with predecrement
-                 D: ARI with displacement
-                 X: ARI with index
-                 W: absolute word address
-                 L: absolute long address
-                 d: program counter indirect with displacement
-                 x: program counter indirect with index
-                 I: immediate
-mode:        CPU operating mode for each cpu type.  U = user or supervisor,
-             S = supervisor only, "." = opcode not present.
-
-cpu cycles:  Base number of cycles required to execute this opcode on the
-             specified CPU type.
-             Use "." if CPU does not have this opcode.
-
-
-
-              spec  spec                    allowed ea  mode   cpu cycles
-name    size  proc   ea   bit pattern       A+-DXWLdxI  0 1 2  000 010 020  comments
-======  ====  ====  ====  ================  ==========  = = =  === === ===  =============
-M68KMAKE_TABLE_START
-1010       0  .     .     1010............  ..........  U U U    4   4   4
-1111       0  .     .     1111............  ..........  U U U    4   4   4
-abcd       8  rr    .     1100...100000...  ..........  U U U    6   6   4
-abcd       8  mm    ax7   1100111100001...  ..........  U U U   18  18  16
-abcd       8  mm    ay7   1100...100001111  ..........  U U U   18  18  16
-abcd       8  mm    axy7  1100111100001111  ..........  U U U   18  18  16
-abcd       8  mm    .     1100...100001...  ..........  U U U   18  18  16
-add        8  er    d     1101...000000...  ..........  U U U    4   4   2
-add        8  er    .     1101...000......  A+-DXWLdxI  U U U    4   4   2
-add       16  er    d     1101...001000...  ..........  U U U    4   4   2
-add       16  er    a     1101...001001...  ..........  U U U    4   4   2
-add       16  er    .     1101...001......  A+-DXWLdxI  U U U    4   4   2
-add       32  er    d     1101...010000...  ..........  U U U    6   6   2
-add       32  er    a     1101...010001...  ..........  U U U    6   6   2
-add       32  er    .     1101...010......  A+-DXWLdxI  U U U    6   6   2
-add        8  re    .     1101...100......  A+-DXWL...  U U U    8   8   4
-add       16  re    .     1101...101......  A+-DXWL...  U U U    8   8   4
-add       32  re    .     1101...110......  A+-DXWL...  U U U   12  12   4
-adda      16  .     d     1101...011000...  ..........  U U U    8   8   2
-adda      16  .     a     1101...011001...  ..........  U U U    8   8   2
-adda      16  .     .     1101...011......  A+-DXWLdxI  U U U    8   8   2
-adda      32  .     d     1101...111000...  ..........  U U U    6   6   2
-adda      32  .     a     1101...111001...  ..........  U U U    6   6   2
-adda      32  .     .     1101...111......  A+-DXWLdxI  U U U    6   6   2
-addi       8  .     d     0000011000000...  ..........  U U U    8   8   2
-addi       8  .     .     0000011000......  A+-DXWL...  U U U   12  12   4
-addi      16  .     d     0000011001000...  ..........  U U U    8   8   2
-addi      16  .     .     0000011001......  A+-DXWL...  U U U   12  12   4
-addi      32  .     d     0000011010000...  ..........  U U U   16  14   2
-addi      32  .     .     0000011010......  A+-DXWL...  U U U   20  20   4
-addq       8  .     d     0101...000000...  ..........  U U U    4   4   2
-addq       8  .     .     0101...000......  A+-DXWL...  U U U    8   8   4
-addq      16  .     d     0101...001000...  ..........  U U U    4   4   2
-addq      16  .     a     0101...001001...  ..........  U U U    4   4   2
-addq      16  .     .     0101...001......  A+-DXWL...  U U U    8   8   4
-addq      32  .     d     0101...010000...  ..........  U U U    8   8   2
-addq      32  .     a     0101...010001...  ..........  U U U    8   8   2
-addq      32  .     .     0101...010......  A+-DXWL...  U U U   12  12   4
-addx       8  rr    .     1101...100000...  ..........  U U U    4   4   2
-addx      16  rr    .     1101...101000...  ..........  U U U    4   4   2
-addx      32  rr    .     1101...110000...  ..........  U U U    8   6   2
-addx       8  mm    ax7   1101111100001...  ..........  U U U   18  18  12
-addx       8  mm    ay7   1101...100001111  ..........  U U U   18  18  12
-addx       8  mm    axy7  1101111100001111  ..........  U U U   18  18  12
-addx       8  mm    .     1101...100001...  ..........  U U U   18  18  12
-addx      16  mm    .     1101...101001...  ..........  U U U   18  18  12
-addx      32  mm    .     1101...110001...  ..........  U U U   30  30  12
-and        8  er    d     1100...000000...  ..........  U U U    4   4   2
-and        8  er    .     1100...000......  A+-DXWLdxI  U U U    4   4   2
-and       16  er    d     1100...001000...  ..........  U U U    4   4   2
-and       16  er    .     1100...001......  A+-DXWLdxI  U U U    4   4   2
-and       32  er    d     1100...010000...  ..........  U U U    6   6   2
-and       32  er    .     1100...010......  A+-DXWLdxI  U U U    6   6   2
-and        8  re    .     1100...100......  A+-DXWL...  U U U    8   8   4
-and       16  re    .     1100...101......  A+-DXWL...  U U U    8   8   4
-and       32  re    .     1100...110......  A+-DXWL...  U U U   12  12   4
-andi      16  toc   .     0000001000111100  ..........  U U U   20  16  12
-andi      16  tos   .     0000001001111100  ..........  S S S   20  16  12
-andi       8  .     d     0000001000000...  ..........  U U U    8   8   2
-andi       8  .     .     0000001000......  A+-DXWL...  U U U   12  12   4
-andi      16  .     d     0000001001000...  ..........  U U U    8   8   2
-andi      16  .     .     0000001001......  A+-DXWL...  U U U   12  12   4
-andi      32  .     d     0000001010000...  ..........  U U U   14  14   2
-andi      32  .     .     0000001010......  A+-DXWL...  U U U   20  20   4
-asr        8  s     .     1110...000000...  ..........  U U U    6   6   6
-asr       16  s     .     1110...001000...  ..........  U U U    6   6   6
-asr       32  s     .     1110...010000...  ..........  U U U    8   8   6
-asr        8  r     .     1110...000100...  ..........  U U U    6   6   6
-asr       16  r     .     1110...001100...  ..........  U U U    6   6   6
-asr       32  r     .     1110...010100...  ..........  U U U    8   8   6
-asr       16  .     .     1110000011......  A+-DXWL...  U U U    8   8   5
-asl        8  s     .     1110...100000...  ..........  U U U    6   6   8
-asl       16  s     .     1110...101000...  ..........  U U U    6   6   8
-asl       32  s     .     1110...110000...  ..........  U U U    8   8   8
-asl        8  r     .     1110...100100...  ..........  U U U    6   6   8
-asl       16  r     .     1110...101100...  ..........  U U U    6   6   8
-asl       32  r     .     1110...110100...  ..........  U U U    8   8   8
-asl       16  .     .     1110000111......  A+-DXWL...  U U U    8   8   6
-bcc        8  .     .     0110............  ..........  U U U    8   8   6
-bcc       16  .     .     0110....00000000  ..........  U U U   10  10   6
-bcc       32  .     .     0110....11111111  ..........  . . U    .   .   6
-bchg       8  r     .     0000...101......  A+-DXWL...  U U U    8   8   4
-bchg      32  r     d     0000...101000...  ..........  U U U    8   8   4
-bchg       8  s     .     0000100001......  A+-DXWL...  U U U   12  12   4
-bchg      32  s     d     0000100001000...  ..........  U U U   12  12   4
-bclr       8  r     .     0000...110......  A+-DXWL...  U U U    8  10   4
-bclr      32  r     d     0000...110000...  ..........  U U U   10  10   4
-bclr       8  s     .     0000100010......  A+-DXWL...  U U U   12  12   4
-bclr      32  s     d     0000100010000...  ..........  U U U   14  14   4
-bfchg     32  .     d     1110101011000...  ..........  . . U    .   .  12  timing not quite correct
-bfchg     32  .     .     1110101011......  A..DXWL...  . . U    .   .  20
-bfclr     32  .     d     1110110011000...  ..........  . . U    .   .  12
-bfclr     32  .     .     1110110011......  A..DXWL...  . . U    .   .  20
-bfexts    32  .     d     1110101111000...  ..........  . . U    .   .   8
-bfexts    32  .     .     1110101111......  A..DXWLdx.  . . U    .   .  15
-bfextu    32  .     d     1110100111000...  ..........  . . U    .   .   8
-bfextu    32  .     .     1110100111......  A..DXWLdx.  . . U    .   .  15
-bfffo     32  .     d     1110110111000...  ..........  . . U    .   .  18
-bfffo     32  .     .     1110110111......  A..DXWLdx.  . . U    .   .  28
-bfins     32  .     d     1110111111000...  ..........  . . U    .   .  10
-bfins     32  .     .     1110111111......  A..DXWL...  . . U    .   .  17
-bfset     32  .     d     1110111011000...  ..........  . . U    .   .  12
-bfset     32  .     .     1110111011......  A..DXWL...  . . U    .   .  20
-bftst     32  .     d     1110100011000...  ..........  . . U    .   .   6
-bftst     32  .     .     1110100011......  A..DXWLdx.  . . U    .   .  13
-bkpt       0  .     .     0100100001001...  ..........  . U U    .  10  10
-bra        8  .     .     01100000........  ..........  U U U   10  10  10
-bra       16  .     .     0110000000000000  ..........  U U U   10  10  10
-bra       32  .     .     0110000011111111  ..........  U U U    .   .  10
-bset      32  r     d     0000...111000...  ..........  U U U    8   8   4
-bset       8  r     .     0000...111......  A+-DXWL...  U U U    8   8   4
-bset       8  s     .     0000100011......  A+-DXWL...  U U U   12  12   4
-bset      32  s     d     0000100011000...  ..........  U U U   12  12   4
-bsr        8  .     .     01100001........  ..........  U U U   18  18   7
-bsr       16  .     .     0110000100000000  ..........  U U U   18  18   7
-bsr       32  .     .     0110000111111111  ..........  . . U    .   .   7
-btst       8  r     .     0000...100......  A+-DXWLdxI  U U U    4   4   4
-btst      32  r     d     0000...100000...  ..........  U U U    6   6   4
-btst       8  s     .     0000100000......  A+-DXWLdx.  U U U    8   8   4
-btst      32  s     d     0000100000000...  ..........  U U U   10  10   4
-callm     32  .     .     0000011011......  A..DXWLdx.  . . U    .   .  60  not properly emulated
-cas        8  .     .     0000101011......  A+-DXWL...  . . U    .   .  12
-cas       16  .     .     0000110011......  A+-DXWL...  . . U    .   .  12
-cas       32  .     .     0000111011......  A+-DXWL...  . . U    .   .  12
-cas2      16  .     .     0000110011111100  ..........  . . U    .   .  12
-cas2      32  .     .     0000111011111100  ..........  . . U    .   .  12
-chk       16  .     d     0100...110000...  ..........  U U U   10   8   8
-chk       16  .     .     0100...110......  A+-DXWLdxI  U U U   10   8   8
-chk       32  .     d     0100...100000...  ..........  . . U    .   .   8
-chk       32  .     .     0100...100......  A+-DXWLdxI  . . U    .   .   8
-chk2cmp2   8  .     pcdi  0000000011111010  ..........  . . U    .   .  23
-chk2cmp2   8  .     pcix  0000000011111011  ..........  . . U    .   .  23
-chk2cmp2   8  .     .     0000000011......  A..DXWL...  . . U    .   .  18
-chk2cmp2  16  .     pcdi  0000001011111010  ..........  . . U    .   .  23
-chk2cmp2  16  .     pcix  0000001011111011  ..........  . . U    .   .  23
-chk2cmp2  16  .     .     0000001011......  A..DXWL...  . . U    .   .  18
-chk2cmp2  32  .     pcdi  0000010011111010  ..........  . . U    .   .  23
-chk2cmp2  32  .     pcix  0000010011111011  ..........  . . U    .   .  23
-chk2cmp2  32  .     .     0000010011......  A..DXWL...  . . U    .   .  18
-clr        8  .     d     0100001000000...  ..........  U U U    4   4   2
-clr        8  .     .     0100001000......  A+-DXWL...  U U U    8   4   4
-clr       16  .     d     0100001001000...  ..........  U U U    4   4   2
-clr       16  .     .     0100001001......  A+-DXWL...  U U U    8   4   4
-clr       32  .     d     0100001010000...  ..........  U U U    6   6   2
-clr       32  .     .     0100001010......  A+-DXWL...  U U U   12   6   4
-cmp        8  .     d     1011...000000...  ..........  U U U    4   4   2
-cmp        8  .     .     1011...000......  A+-DXWLdxI  U U U    4   4   2
-cmp       16  .     d     1011...001000...  ..........  U U U    4   4   2
-cmp       16  .     a     1011...001001...  ..........  U U U    4   4   2
-cmp       16  .     .     1011...001......  A+-DXWLdxI  U U U    4   4   2
-cmp       32  .     d     1011...010000...  ..........  U U U    6   6   2
-cmp       32  .     a     1011...010001...  ..........  U U U    6   6   2
-cmp       32  .     .     1011...010......  A+-DXWLdxI  U U U    6   6   2
-cmpa      16  .     d     1011...011000...  ..........  U U U    6   6   4
-cmpa      16  .     a     1011...011001...  ..........  U U U    6   6   4
-cmpa      16  .     .     1011...011......  A+-DXWLdxI  U U U    6   6   4
-cmpa      32  .     d     1011...111000...  ..........  U U U    6   6   4
-cmpa      32  .     a     1011...111001...  ..........  U U U    6   6   4
-cmpa      32  .     .     1011...111......  A+-DXWLdxI  U U U    6   6   4
-cmpi       8  .     d     0000110000000...  ..........  U U U    8   8   2
-cmpi       8  .     .     0000110000......  A+-DXWL...  U U U    8   8   2
-cmpi       8  .     pcdi  0000110000111010  ..........  . . U    .   .   7
-cmpi       8  .     pcix  0000110000111011  ..........  . . U    .   .   9
-cmpi      16  .     d     0000110001000...  ..........  U U U    8   8   2
-cmpi      16  .     .     0000110001......  A+-DXWL...  U U U    8   8   2
-cmpi      16  .     pcdi  0000110001111010  ..........  . . U    .   .   7
-cmpi      16  .     pcix  0000110001111011  ..........  . . U    .   .   9
-cmpi      32  .     d     0000110010000...  ..........  U U U   14  12   2
-cmpi      32  .     .     0000110010......  A+-DXWL...  U U U   12  12   2
-cmpi      32  .     pcdi  0000110010111010  ..........  . . U    .   .   7
-cmpi      32  .     pcix  0000110010111011  ..........  . . U    .   .   9
-cmpm       8  .     ax7   1011111100001...  ..........  U U U   12  12   9
-cmpm       8  .     ay7   1011...100001111  ..........  U U U   12  12   9
-cmpm       8  .     axy7  1011111100001111  ..........  U U U   12  12   9
-cmpm       8  .     .     1011...100001...  ..........  U U U   12  12   9
-cmpm      16  .     .     1011...101001...  ..........  U U U   12  12   9
-cmpm      32  .     .     1011...110001...  ..........  U U U   20  20   9
-cpbcc     32  .     .     1111...01.......  ..........  . . U    .   .   4  unemulated
-cpdbcc    32  .     .     1111...001001...  ..........  . . U    .   .   4  unemulated
-cpgen     32  .     .     1111...000......  ..........  . . U    .   .   4  unemulated
-cpscc     32  .     .     1111...001......  ..........  . . U    .   .   4  unemulated
-cptrapcc  32  .     .     1111...001111...  ..........  . . U    .   .   4  unemulated
-dbt       16  .     .     0101000011001...  ..........  U U U   12  12   6
-dbf       16  .     .     0101000111001...  ..........  U U U   14  14   6
-dbcc      16  .     .     0101....11001...  ..........  U U U   12  12   6
-divs      16  .     d     1000...111000...  ..........  U U U  158 122  56
-divs      16  .     .     1000...111......  A+-DXWLdxI  U U U  158 122  56
-divu      16  .     d     1000...011000...  ..........  U U U  140 108  44
-divu      16  .     .     1000...011......  A+-DXWLdxI  U U U  140 108  44
-divl      32  .     d     0100110001000...  ..........  . . U    .   .  84
-divl      32  .     .     0100110001......  A+-DXWLdxI  . . U    .   .  84
-eor        8  .     d     1011...100000...  ..........  U U U    4   4   2
-eor        8  .     .     1011...100......  A+-DXWL...  U U U    8   8   4
-eor       16  .     d     1011...101000...  ..........  U U U    4   4   2
-eor       16  .     .     1011...101......  A+-DXWL...  U U U    8   8   4
-eor       32  .     d     1011...110000...  ..........  U U U    8   6   2
-eor       32  .     .     1011...110......  A+-DXWL...  U U U   12  12   4
-eori      16  toc   .     0000101000111100  ..........  U U U   20  16  12
-eori      16  tos   .     0000101001111100  ..........  S S S   20  16  12
-eori       8  .     d     0000101000000...  ..........  U U U    8   8   2
-eori       8  .     .     0000101000......  A+-DXWL...  U U U   12  12   4
-eori      16  .     d     0000101001000...  ..........  U U U    8   8   2
-eori      16  .     .     0000101001......  A+-DXWL...  U U U   12  12   4
-eori      32  .     d     0000101010000...  ..........  U U U   16  14   2
-eori      32  .     .     0000101010......  A+-DXWL...  U U U   20  20   4
-exg       32  dd    .     1100...101000...  ..........  U U U    6   6   2
-exg       32  aa    .     1100...101001...  ..........  U U U    6   6   2
-exg       32  da    .     1100...110001...  ..........  U U U    6   6   2
-ext       16  .     .     0100100010000...  ..........  U U U    4   4   4
-ext       32  .     .     0100100011000...  ..........  U U U    4   4   4
-extb      32  .     .     0100100111000...  ..........  . . U    .   .   4
-illegal    0  .     .     0100101011111100  ..........  U U U    4   4   4
-jmp       32  .     .     0100111011......  A..DXWLdx.  U U U    4   4   0
-jsr       32  .     .     0100111010......  A..DXWLdx.  U U U   12  12   0
-lea       32  .     .     0100...111......  A..DXWLdx.  U U U    0   0   2
-link      16  .     a7    0100111001010111  ..........  U U U   16  16   5
-link      16  .     .     0100111001010...  ..........  U U U   16  16   5
-link      32  .     a7    0100100000001111  ..........  . . U    .   .   6
-link      32  .     .     0100100000001...  ..........  . . U    .   .   6
-lsr        8  s     .     1110...000001...  ..........  U U U    6   6   4
-lsr       16  s     .     1110...001001...  ..........  U U U    6   6   4
-lsr       32  s     .     1110...010001...  ..........  U U U    8   8   4
-lsr        8  r     .     1110...000101...  ..........  U U U    6   6   6
-lsr       16  r     .     1110...001101...  ..........  U U U    6   6   6
-lsr       32  r     .     1110...010101...  ..........  U U U    8   8   6
-lsr       16  .     .     1110001011......  A+-DXWL...  U U U    8   8   5
-lsl        8  s     .     1110...100001...  ..........  U U U    6   6   4
-lsl       16  s     .     1110...101001...  ..........  U U U    6   6   4
-lsl       32  s     .     1110...110001...  ..........  U U U    8   8   4
-lsl        8  r     .     1110...100101...  ..........  U U U    6   6   6
-lsl       16  r     .     1110...101101...  ..........  U U U    6   6   6
-lsl       32  r     .     1110...110101...  ..........  U U U    8   8   6
-lsl       16  .     .     1110001111......  A+-DXWL...  U U U    8   8   5
-move       8  d     d     0001...000000...  ..........  U U U    4   4   2
-move       8  d     .     0001...000......  A+-DXWLdxI  U U U    4   4   2
-move       8  ai    d     0001...010000...  ..........  U U U    8   8   4
-move       8  ai    .     0001...010......  A+-DXWLdxI  U U U    8   8   4
-move       8  pi    d     0001...011000...  ..........  U U U    8   8   4
-move       8  pi    .     0001...011......  A+-DXWLdxI  U U U    8   8   4
-move       8  pi7   d     0001111011000...  ..........  U U U    8   8   4
-move       8  pi7   .     0001111011......  A+-DXWLdxI  U U U    8   8   4
-move       8  pd    d     0001...100000...  ..........  U U U    8   8   5
-move       8  pd    .     0001...100......  A+-DXWLdxI  U U U    8   8   5
-move       8  pd7   d     0001111100000...  ..........  U U U    8   8   5
-move       8  pd7   .     0001111100......  A+-DXWLdxI  U U U    8   8   5
-move       8  di    d     0001...101000...  ..........  U U U   12  12   5
-move       8  di    .     0001...101......  A+-DXWLdxI  U U U   12  12   5
-move       8  ix    d     0001...110000...  ..........  U U U   14  14   7
-move       8  ix    .     0001...110......  A+-DXWLdxI  U U U   14  14   7
-move       8  aw    d     0001000111000...  ..........  U U U   12  12   4
-move       8  aw    .     0001000111......  A+-DXWLdxI  U U U   12  12   4
-move       8  al    d     0001001111000...  ..........  U U U   16  16   6
-move       8  al    .     0001001111......  A+-DXWLdxI  U U U   16  16   6
-move      16  d     d     0011...000000...  ..........  U U U    4   4   2
-move      16  d     a     0011...000001...  ..........  U U U    4   4   2
-move      16  d     .     0011...000......  A+-DXWLdxI  U U U    4   4   2
-move      16  ai    d     0011...010000...  ..........  U U U    8   8   4
-move      16  ai    a     0011...010001...  ..........  U U U    8   8   4
-move      16  ai    .     0011...010......  A+-DXWLdxI  U U U    8   8   4
-move      16  pi    d     0011...011000...  ..........  U U U    8   8   4
-move      16  pi    a     0011...011001...  ..........  U U U    8   8   4
-move      16  pi    .     0011...011......  A+-DXWLdxI  U U U    8   8   4
-move      16  pd    d     0011...100000...  ..........  U U U    8   8   5
-move      16  pd    a     0011...100001...  ..........  U U U    8   8   5
-move      16  pd    .     0011...100......  A+-DXWLdxI  U U U    8   8   5
-move      16  di    d     0011...101000...  ..........  U U U   12  12   5
-move      16  di    a     0011...101001...  ..........  U U U   12  12   5
-move      16  di    .     0011...101......  A+-DXWLdxI  U U U   12  12   5
-move      16  ix    d     0011...110000...  ..........  U U U   14  14   7
-move      16  ix    a     0011...110001...  ..........  U U U   14  14   7
-move      16  ix    .     0011...110......  A+-DXWLdxI  U U U   14  14   7
-move      16  aw    d     0011000111000...  ..........  U U U   12  12   4
-move      16  aw    a     0011000111001...  ..........  U U U   12  12   4
-move      16  aw    .     0011000111......  A+-DXWLdxI  U U U   12  12   4
-move      16  al    d     0011001111000...  ..........  U U U   16  16   6
-move      16  al    a     0011001111001...  ..........  U U U   16  16   6
-move      16  al    .     0011001111......  A+-DXWLdxI  U U U   16  16   6
-move      32  d     d     0010...000000...  ..........  U U U    4   4   2
-move      32  d     a     0010...000001...  ..........  U U U    4   4   2
-move      32  d     .     0010...000......  A+-DXWLdxI  U U U    4   4   2
-move      32  ai    d     0010...010000...  ..........  U U U   12  12   4
-move      32  ai    a     0010...010001...  ..........  U U U   12  12   4
-move      32  ai    .     0010...010......  A+-DXWLdxI  U U U   12  12   4
-move      32  pi    d     0010...011000...  ..........  U U U   12  12   4
-move      32  pi    a     0010...011001...  ..........  U U U   12  12   4
-move      32  pi    .     0010...011......  A+-DXWLdxI  U U U   12  12   4
-move      32  pd    d     0010...100000...  ..........  U U U   12  14   5
-move      32  pd    a     0010...100001...  ..........  U U U   12  14   5
-move      32  pd    .     0010...100......  A+-DXWLdxI  U U U   12  14   5
-move      32  di    d     0010...101000...  ..........  U U U   16  16   5
-move      32  di    a     0010...101001...  ..........  U U U   16  16   5
-move      32  di    .     0010...101......  A+-DXWLdxI  U U U   16  16   5
-move      32  ix    d     0010...110000...  ..........  U U U   18  18   7
-move      32  ix    a     0010...110001...  ..........  U U U   18  18   7
-move      32  ix    .     0010...110......  A+-DXWLdxI  U U U   18  18   7
-move      32  aw    d     0010000111000...  ..........  U U U   16  16   4
-move      32  aw    a     0010000111001...  ..........  U U U   16  16   4
-move      32  aw    .     0010000111......  A+-DXWLdxI  U U U   16  16   4
-move      32  al    d     0010001111000...  ..........  U U U   20  20   6
-move      32  al    a     0010001111001...  ..........  U U U   20  20   6
-move      32  al    .     0010001111......  A+-DXWLdxI  U U U   20  20   6
-movea     16  .     d     0011...001000...  ..........  U U U    4   4   2
-movea     16  .     a     0011...001001...  ..........  U U U    4   4   2
-movea     16  .     .     0011...001......  A+-DXWLdxI  U U U    4   4   2
-movea     32  .     d     0010...001000...  ..........  U U U    4   4   2
-movea     32  .     a     0010...001001...  ..........  U U U    4   4   2
-movea     32  .     .     0010...001......  A+-DXWLdxI  U U U    4   4   2
-move      16  frc   d     0100001011000...  ..........  . U U    .   4   4
-move      16  frc   .     0100001011......  A+-DXWL...  . U U    .   8   4
-move      16  toc   d     0100010011000...  ..........  U U U   12  12   4
-move      16  toc   .     0100010011......  A+-DXWLdxI  U U U   12  12   4
-move      16  frs   d     0100000011000...  ..........  U S S    6   4   8 U only for 000
-move      16  frs   .     0100000011......  A+-DXWL...  U S S    8   8   8 U only for 000
-move      16  tos   d     0100011011000...  ..........  S S S   12  12   8
-move      16  tos   .     0100011011......  A+-DXWLdxI  S S S   12  12   8
-move      32  fru   .     0100111001101...  ..........  S S S    4   6   2
-move      32  tou   .     0100111001100...  ..........  S S S    4   6   2
-movec     32  cr    .     0100111001111010  ..........  . S S    .  12   6
-movec     32  rc    .     0100111001111011  ..........  . S S    .  10  12
-movem     16  re    pd    0100100010100...  ..........  U U U    8   8   4
-movem     16  re    .     0100100010......  A..DXWL...  U U U    8   8   4
-movem     32  re    pd    0100100011100...  ..........  U U U    8   8   4
-movem     32  re    .     0100100011......  A..DXWL...  U U U    8   8   4
-movem     16  er    pi    0100110010011...  ..........  U U U   12  12   8
-movem     16  er    pcdi  0100110010111010  ..........  U U U   16  16   9
-movem     16  er    pcix  0100110010111011  ..........  U U U   18  18  11
-movem     16  er    .     0100110010......  A..DXWL...  U U U   12  12   8
-movem     32  er    pi    0100110011011...  ..........  U U U   12  12   8
-movem     32  er    pcdi  0100110011111010  ..........  U U U   20  20   9
-movem     32  er    pcix  0100110011111011  ..........  U U U   22  22  11
-movem     32  er    .     0100110011......  A..DXWL...  U U U   12  12   8
-movep     16  er    .     0000...100001...  ..........  U U U   16  16  12
-movep     32  er    .     0000...101001...  ..........  U U U   24  24  18
-movep     16  re    .     0000...110001...  ..........  U U U   16  16  11
-movep     32  re    .     0000...111001...  ..........  U U U   24  24  17
-moveq     32  .     .     0111...0........  ..........  U U U    4   4   2
-moves      8  .     .     0000111000......  A+-DXWL...  . S S    .  14   5
-moves     16  .     .     0000111001......  A+-DXWL...  . S S    .  14   5
-moves     32  .     .     0000111010......  A+-DXWL...  . S S    .  16   5
-muls      16  .     d     1100...111000...  ..........  U U U   54  32  27
-muls      16  .     .     1100...111......  A+-DXWLdxI  U U U   54  32  27
-mulu      16  .     d     1100...011000...  ..........  U U U   54  30  27
-mulu      16  .     .     1100...011......  A+-DXWLdxI  U U U   54  30  27
-mull      32  .     d     0100110000000...  ..........  . . U    .   .  43
-mull      32  .     .     0100110000......  A+-DXWLdxI  . . U    .   .  43
-nbcd       8  .     d     0100100000000...  ..........  U U U    6   6   6
-nbcd       8  .     .     0100100000......  A+-DXWL...  U U U    8   8   6
-neg        8  .     d     0100010000000...  ..........  U U U    4   4   2
-neg        8  .     .     0100010000......  A+-DXWL...  U U U    8   8   4
-neg       16  .     d     0100010001000...  ..........  U U U    4   4   2
-neg       16  .     .     0100010001......  A+-DXWL...  U U U    8   8   4
-neg       32  .     d     0100010010000...  ..........  U U U    6   6   2
-neg       32  .     .     0100010010......  A+-DXWL...  U U U   12  12   4
-negx       8  .     d     0100000000000...  ..........  U U U    4   4   2
-negx       8  .     .     0100000000......  A+-DXWL...  U U U    8   8   4
-negx      16  .     d     0100000001000...  ..........  U U U    4   4   2
-negx      16  .     .     0100000001......  A+-DXWL...  U U U    8   8   4
-negx      32  .     d     0100000010000...  ..........  U U U    6   6   2
-negx      32  .     .     0100000010......  A+-DXWL...  U U U   12  12   4
-nop        0  .     .     0100111001110001  ..........  U U U    4   4   2
-not        8  .     d     0100011000000...  ..........  U U U    4   4   2
-not        8  .     .     0100011000......  A+-DXWL...  U U U    8   8   4
-not       16  .     d     0100011001000...  ..........  U U U    4   4   2
-not       16  .     .     0100011001......  A+-DXWL...  U U U    8   8   4
-not       32  .     d     0100011010000...  ..........  U U U    6   6   2
-not       32  .     .     0100011010......  A+-DXWL...  U U U   12  12   4
-or         8  er    d     1000...000000...  ..........  U U U    4   4   2
-or         8  er    .     1000...000......  A+-DXWLdxI  U U U    4   4   2
-or        16  er    d     1000...001000...  ..........  U U U    4   4   2
-or        16  er    .     1000...001......  A+-DXWLdxI  U U U    4   4   2
-or        32  er    d     1000...010000...  ..........  U U U    6   6   2
-or        32  er    .     1000...010......  A+-DXWLdxI  U U U    6   6   2
-or         8  re    .     1000...100......  A+-DXWL...  U U U    8   8   4
-or        16  re    .     1000...101......  A+-DXWL...  U U U    8   8   4
-or        32  re    .     1000...110......  A+-DXWL...  U U U   12  12   4
-ori       16  toc   .     0000000000111100  ..........  U U U   20  16  12
-ori       16  tos   .     0000000001111100  ..........  S S S   20  16  12
-ori        8  .     d     0000000000000...  ..........  U U U    8   8   2
-ori        8  .     .     0000000000......  A+-DXWL...  U U U   12  12   4
-ori       16  .     d     0000000001000...  ..........  U U U    8   8   2
-ori       16  .     .     0000000001......  A+-DXWL...  U U U   12  12   4
-ori       32  .     d     0000000010000...  ..........  U U U   16  14   2
-ori       32  .     .     0000000010......  A+-DXWL...  U U U   20  20   4
-pack      16  rr    .     1000...101000...  ..........  . . U    .   .   6
-pack      16  mm    ax7   1000111101001...  ..........  . . U    .   .  13
-pack      16  mm    ay7   1000...101001111  ..........  . . U    .   .  13
-pack      16  mm    axy7  1000111101001111  ..........  . . U    .   .  13
-pack      16  mm    .     1000...101001...  ..........  . . U    .   .  13
-pea       32  .     .     0100100001......  A..DXWLdx.  U U U    6   6   5
-reset      0  .     .     0100111001110000  ..........  S S S    0   0   0
-ror        8  s     .     1110...000011...  ..........  U U U    6   6   8
-ror       16  s     .     1110...001011...  ..........  U U U    6   6   8
-ror       32  s     .     1110...010011...  ..........  U U U    8   8   8
-ror        8  r     .     1110...000111...  ..........  U U U    6   6   8
-ror       16  r     .     1110...001111...  ..........  U U U    6   6   8
-ror       32  r     .     1110...010111...  ..........  U U U    8   8   8
-ror       16  .     .     1110011011......  A+-DXWL...  U U U    8   8   7
-rol        8  s     .     1110...100011...  ..........  U U U    6   6   8
-rol       16  s     .     1110...101011...  ..........  U U U    6   6   8
-rol       32  s     .     1110...110011...  ..........  U U U    8   8   8
-rol        8  r     .     1110...100111...  ..........  U U U    6   6   8
-rol       16  r     .     1110...101111...  ..........  U U U    6   6   8
-rol       32  r     .     1110...110111...  ..........  U U U    8   8   8
-rol       16  .     .     1110011111......  A+-DXWL...  U U U    8   8   7
-roxr       8  s     .     1110...000010...  ..........  U U U    6   6  12
-roxr      16  s     .     1110...001010...  ..........  U U U    6   6  12
-roxr      32  s     .     1110...010010...  ..........  U U U    8   8  12
-roxr       8  r     .     1110...000110...  ..........  U U U    6   6  12
-roxr      16  r     .     1110...001110...  ..........  U U U    6   6  12
-roxr      32  r     .     1110...010110...  ..........  U U U    8   8  12
-roxr      16  .     .     1110010011......  A+-DXWL...  U U U    8   8   5
-roxl       8  s     .     1110...100010...  ..........  U U U    6   6  12
-roxl      16  s     .     1110...101010...  ..........  U U U    6   6  12
-roxl      32  s     .     1110...110010...  ..........  U U U    8   8  12
-roxl       8  r     .     1110...100110...  ..........  U U U    6   6  12
-roxl      16  r     .     1110...101110...  ..........  U U U    6   6  12
-roxl      32  r     .     1110...110110...  ..........  U U U    8   8  12
-roxl      16  .     .     1110010111......  A+-DXWL...  U U U    8   8   5
-rtd       32  .     .     0100111001110100  ..........  . U U    .  16  10
-rte       32  .     .     0100111001110011  ..........  S S S   20  24  20  bus fault not emulated
-rtm       32  .     .     000001101100....  ..........  . . U    .   .  19  not properly emulated
-rtr       32  .     .     0100111001110111  ..........  U U U   20  20  14
-rts       32  .     .     0100111001110101  ..........  U U U   16  16  10
-sbcd       8  rr    .     1000...100000...  ..........  U U U    6   6   4
-sbcd       8  mm    ax7   1000111100001...  ..........  U U U   18  18  16
-sbcd       8  mm    ay7   1000...100001111  ..........  U U U   18  18  16
-sbcd       8  mm    axy7  1000111100001111  ..........  U U U   18  18  16
-sbcd       8  mm    .     1000...100001...  ..........  U U U   18  18  16
-st         8  .     d     0101000011000...  ..........  U U U    6   4   4
-st         8  .     .     0101000011......  A+-DXWL...  U U U    8   8   6
-sf         8  .     d     0101000111000...  ..........  U U U    4   4   4
-sf         8  .     .     0101000111......  A+-DXWL...  U U U    8   8   6
-scc        8  .     d     0101....11000...  ..........  U U U    4   4   4
-scc        8  .     .     0101....11......  A+-DXWL...  U U U    8   8   6
-stop       0  .     .     0100111001110010  ..........  S S S    4   4   8
-sub        8  er    d     1001...000000...  ..........  U U U    4   4   2
-sub        8  er    .     1001...000......  A+-DXWLdxI  U U U    4   4   2
-sub       16  er    d     1001...001000...  ..........  U U U    4   4   2
-sub       16  er    a     1001...001001...  ..........  U U U    4   4   2
-sub       16  er    .     1001...001......  A+-DXWLdxI  U U U    4   4   2
-sub       32  er    d     1001...010000...  ..........  U U U    6   6   2
-sub       32  er    a     1001...010001...  ..........  U U U    6   6   2
-sub       32  er    .     1001...010......  A+-DXWLdxI  U U U    6   6   2
-sub        8  re    .     1001...100......  A+-DXWL...  U U U    8   8   4
-sub       16  re    .     1001...101......  A+-DXWL...  U U U    8   8   4
-sub       32  re    .     1001...110......  A+-DXWL...  U U U   12  12   4
-suba      16  .     d     1001...011000...  ..........  U U U    8   8   2
-suba      16  .     a     1001...011001...  ..........  U U U    8   8   2
-suba      16  .     .     1001...011......  A+-DXWLdxI  U U U    8   8   2
-suba      32  .     d     1001...111000...  ..........  U U U    6   6   2
-suba      32  .     a     1001...111001...  ..........  U U U    6   6   2
-suba      32  .     .     1001...111......  A+-DXWLdxI  U U U    6   6   2
-subi       8  .     d     0000010000000...  ..........  U U U    8   8   2
-subi       8  .     .     0000010000......  A+-DXWL...  U U U   12  12   4
-subi      16  .     d     0000010001000...  ..........  U U U    8   8   2
-subi      16  .     .     0000010001......  A+-DXWL...  U U U   12  12   4
-subi      32  .     d     0000010010000...  ..........  U U U   16  14   2
-subi      32  .     .     0000010010......  A+-DXWL...  U U U   20  20   4
-subq       8  .     d     0101...100000...  ..........  U U U    4   4   2
-subq       8  .     .     0101...100......  A+-DXWL...  U U U    8   8   4
-subq      16  .     d     0101...101000...  ..........  U U U    4   4   2
-subq      16  .     a     0101...101001...  ..........  U U U    8   4   2
-subq      16  .     .     0101...101......  A+-DXWL...  U U U    8   8   4
-subq      32  .     d     0101...110000...  ..........  U U U    8   8   2
-subq      32  .     a     0101...110001...  ..........  U U U    8   8   2
-subq      32  .     .     0101...110......  A+-DXWL...  U U U   12  12   4
-subx       8  rr    .     1001...100000...  ..........  U U U    4   4   2
-subx      16  rr    .     1001...101000...  ..........  U U U    4   4   2
-subx      32  rr    .     1001...110000...  ..........  U U U    8   6   2
-subx       8  mm    ax7   1001111100001...  ..........  U U U   18  18  12
-subx       8  mm    ay7   1001...100001111  ..........  U U U   18  18  12
-subx       8  mm    axy7  1001111100001111  ..........  U U U   18  18  12
-subx       8  mm    .     1001...100001...  ..........  U U U   18  18  12
-subx      16  mm    .     1001...101001...  ..........  U U U   18  18  12
-subx      32  mm    .     1001...110001...  ..........  U U U   30  30  12
-swap      32  .     .     0100100001000...  ..........  U U U    4   4   4
-tas        8  .     d     0100101011000...  ..........  U U U    4   4   4
-tas        8  .     .     0100101011......  A+-DXWL...  U U U   14  14  12
-trap       0  .     .     010011100100....  ..........  U U U    4   4   4
-trapt      0  .     .     0101000011111100  ..........  . . U    .   .   4
-trapt     16  .     .     0101000011111010  ..........  . . U    .   .   6
-trapt     32  .     .     0101000011111011  ..........  . . U    .   .   8
-trapf      0  .     .     0101000111111100  ..........  . . U    .   .   4
-trapf     16  .     .     0101000111111010  ..........  . . U    .   .   6
-trapf     32  .     .     0101000111111011  ..........  . . U    .   .   8
-trapcc     0  .     .     0101....11111100  ..........  . . U    .   .   4
-trapcc    16  .     .     0101....11111010  ..........  . . U    .   .   6
-trapcc    32  .     .     0101....11111011  ..........  . . U    .   .   8
-trapv      0  .     .     0100111001110110  ..........  U U U    4   4   4
-tst        8  .     d     0100101000000...  ..........  U U U    4   4   2
-tst        8  .     .     0100101000......  A+-DXWL...  U U U    4   4   2
-tst        8  .     pcdi  0100101000111010  ..........  . . U    .   .   7
-tst        8  .     pcix  0100101000111011  ..........  . . U    .   .   9
-tst        8  .     i     0100101000111100  ..........  . . U    .   .   6
-tst       16  .     d     0100101001000...  ..........  U U U    4   4   2
-tst       16  .     a     0100101001001...  ..........  . . U    .   .   2
-tst       16  .     .     0100101001......  A+-DXWL...  U U U    4   4   2
-tst       16  .     pcdi  0100101001111010  ..........  . . U    .   .   7
-tst       16  .     pcix  0100101001111011  ..........  . . U    .   .   9
-tst       16  .     i     0100101001111100  ..........  . . U    .   .   6
-tst       32  .     d     0100101010000...  ..........  U U U    4   4   2
-tst       32  .     a     0100101010001...  ..........  . . U    .   .   2
-tst       32  .     .     0100101010......  A+-DXWL...  U U U    4   4   2
-tst       32  .     pcdi  0100101010111010  ..........  . . U    .   .   7
-tst       32  .     pcix  0100101010111011  ..........  . . U    .   .   9
-tst       32  .     i     0100101010111100  ..........  . . U    .   .   6
-unlk      32  .     a7    0100111001011111  ..........  U U U   12  12   6
-unlk      32  .     .     0100111001011...  ..........  U U U   12  12   6
-unpk      16  rr    .     1000...110000...  ..........  . . U    .   .   8
-unpk      16  mm    ax7   1000111110001...  ..........  . . U    .   .  13
-unpk      16  mm    ay7   1000...110001111  ..........  . . U    .   .  13
-unpk      16  mm    axy7  1000111110001111  ..........  . . U    .   .  13
-unpk      16  mm    .     1000...110001...  ..........  . . U    .   .  13
-
-
-
-XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
-M68KMAKE_OPCODE_HANDLER_BODY
-
-M68KMAKE_OP(1010, 0, ., .)
-{
-	m68ki_exception_1010();
-}
-
-
-M68KMAKE_OP(1111, 0, ., .)
-{
-	m68ki_exception_1111();
-}
-
-
-M68KMAKE_OP(abcd, 8, rr, .)
-{
-	uint* r_dst = &DX;
-	uint src = DY;
-	uint dst = *r_dst;
-	uint res = LOW_NIBBLE(src) + LOW_NIBBLE(dst) + XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res += 6;
-	res += HIGH_NIBBLE(src) + HIGH_NIBBLE(dst);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res -= 0xa0;
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-}
-
-
-M68KMAKE_OP(abcd, 8, mm, ax7)
-{
-	uint src = OPER_AY_PD_8();
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(src) + LOW_NIBBLE(dst) + XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res += 6;
-	res += HIGH_NIBBLE(src) + HIGH_NIBBLE(dst);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res -= 0xa0;
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(abcd, 8, mm, ay7)
-{
-	uint src = OPER_A7_PD_8();
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(src) + LOW_NIBBLE(dst) + XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res += 6;
-	res += HIGH_NIBBLE(src) + HIGH_NIBBLE(dst);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res -= 0xa0;
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(abcd, 8, mm, axy7)
-{
-	uint src = OPER_A7_PD_8();
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(src) + LOW_NIBBLE(dst) + XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res += 6;
-	res += HIGH_NIBBLE(src) + HIGH_NIBBLE(dst);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res -= 0xa0;
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(abcd, 8, mm, .)
-{
-	uint src = OPER_AY_PD_8();
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(src) + LOW_NIBBLE(dst) + XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res += 6;
-	res += HIGH_NIBBLE(src) + HIGH_NIBBLE(dst);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res -= 0xa0;
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(add, 8, er, d)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_8(DY);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(add, 8, er, .)
-{
-	uint* r_dst = &DX;
-	uint src = M68KMAKE_GET_OPER_AY_8;
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(add, 16, er, d)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(DY);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(add, 16, er, a)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(AY);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(add, 16, er, .)
-{
-	uint* r_dst = &DX;
-	uint src = M68KMAKE_GET_OPER_AY_16;
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(add, 32, er, d)
-{
-	uint* r_dst = &DX;
-	uint src = DY;
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-M68KMAKE_OP(add, 32, er, a)
-{
-	uint* r_dst = &DX;
-	uint src = AY;
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-M68KMAKE_OP(add, 32, er, .)
-{
-	uint* r_dst = &DX;
-	uint src = M68KMAKE_GET_OPER_AY_32;
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-M68KMAKE_OP(add, 8, re, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(add, 16, re, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(add, 32, re, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(adda, 16, ., d)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(DY));
-}
-
-
-M68KMAKE_OP(adda, 16, ., a)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(AY));
-}
-
-
-M68KMAKE_OP(adda, 16, ., .)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(M68KMAKE_GET_OPER_AY_16));
-}
-
-
-M68KMAKE_OP(adda, 32, ., d)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + DY);
-}
-
-
-M68KMAKE_OP(adda, 32, ., a)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + AY);
-}
-
-
-M68KMAKE_OP(adda, 32, ., .)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + M68KMAKE_GET_OPER_AY_32);
-}
-
-
-M68KMAKE_OP(addi, 8, ., d)
-{
-	uint* r_dst = &DY;
-	uint src = OPER_I_8();
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(addi, 8, ., .)
-{
-	uint src = OPER_I_8();
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(addi, 16, ., d)
-{
-	uint* r_dst = &DY;
-	uint src = OPER_I_16();
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(addi, 16, ., .)
-{
-	uint src = OPER_I_16();
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(addi, 32, ., d)
-{
-	uint* r_dst = &DY;
-	uint src = OPER_I_32();
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-M68KMAKE_OP(addi, 32, ., .)
-{
-	uint src = OPER_I_32();
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(addq, 8, ., d)
-{
-	uint* r_dst = &DY;
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(addq, 8, ., .)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(addq, 16, ., d)
-{
-	uint* r_dst = &DY;
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(addq, 16, ., a)
-{
-	uint* r_dst = &AY;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + (((REG_IR >> 9) - 1) & 7) + 1);
-}
-
-
-M68KMAKE_OP(addq, 16, ., .)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(addq, 32, ., d)
-{
-	uint* r_dst = &DY;
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-M68KMAKE_OP(addq, 32, ., a)
-{
-	uint* r_dst = &AY;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + (((REG_IR >> 9) - 1) & 7) + 1);
-}
-
-
-M68KMAKE_OP(addq, 32, ., .)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(addx, 8, rr, .)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_8(DY);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-}
-
-
-M68KMAKE_OP(addx, 16, rr, .)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(DY);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-}
-
-
-M68KMAKE_OP(addx, 32, rr, .)
-{
-	uint* r_dst = &DX;
-	uint src = DY;
-	uint dst = *r_dst;
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	*r_dst = res;
-}
-
-
-M68KMAKE_OP(addx, 8, mm, ax7)
-{
-	uint src = OPER_AY_PD_8();
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(addx, 8, mm, ay7)
-{
-	uint src = OPER_A7_PD_8();
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(addx, 8, mm, axy7)
-{
-	uint src = OPER_A7_PD_8();
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(addx, 8, mm, .)
-{
-	uint src = OPER_AY_PD_8();
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(addx, 16, mm, .)
-{
-	uint src = OPER_AY_PD_16();
-	uint ea  = EA_AX_PD_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	m68ki_write_16(ea, res);
-}
-
-
-M68KMAKE_OP(addx, 32, mm, .)
-{
-	uint src = OPER_AY_PD_32();
-	uint ea  = EA_AX_PD_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	m68ki_write_32(ea, res);
-}
-
-
-M68KMAKE_OP(and, 8, er, d)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (DY | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(and, 8, er, .)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (M68KMAKE_GET_OPER_AY_8 | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(and, 16, er, d)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DX &= (DY | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(and, 16, er, .)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DX &= (M68KMAKE_GET_OPER_AY_16 | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(and, 32, er, d)
-{
-	FLAG_Z = DX &= DY;
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(and, 32, er, .)
-{
-	FLAG_Z = DX &= M68KMAKE_GET_OPER_AY_32;
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(and, 8, re, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint res = DX & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(and, 16, re, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint res = DX & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(and, 32, re, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint res = DX & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-M68KMAKE_OP(andi, 8, ., d)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DY &= (OPER_I_8() | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(andi, 8, ., .)
-{
-	uint src = OPER_I_8();
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint res = src & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(andi, 16, ., d)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DY &= (OPER_I_16() | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(andi, 16, ., .)
-{
-	uint src = OPER_I_16();
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint res = src & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_16(ea, res);
-}
-
-
-M68KMAKE_OP(andi, 32, ., d)
-{
-	FLAG_Z = DY &= (OPER_I_32());
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(andi, 32, ., .)
-{
-	uint src = OPER_I_32();
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint res = src & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-M68KMAKE_OP(andi, 16, toc, .)
-{
-	m68ki_set_ccr(m68ki_get_ccr() & OPER_I_16());
-}
-
-
-M68KMAKE_OP(andi, 16, tos, .)
-{
-	if(FLAG_S)
-	{
-		uint src = OPER_I_16();
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(m68ki_get_sr() & src);
-		return;
-	}
-	m68ki_exception_privilege_violation();
-}
-
-
-M68KMAKE_OP(asr, 8, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src >> shift;
-
-	if(GET_MSB_8(src))
-		res |= m68ki_shift_8_table[shift];
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_X = FLAG_C = src << (9-shift);
-}
-
-
-M68KMAKE_OP(asr, 16, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src >> shift;
-
-	if(GET_MSB_16(src))
-		res |= m68ki_shift_16_table[shift];
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_X = FLAG_C = src << (9-shift);
-}
-
-
-M68KMAKE_OP(asr, 32, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = *r_dst;
-	uint res = src >> shift;
-
-	if(GET_MSB_32(src))
-		res |= m68ki_shift_32_table[shift];
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_X = FLAG_C = src << (9-shift);
-}
-
-
-M68KMAKE_OP(asr, 8, r, .)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src >> shift;
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 8)
-		{
-			if(GET_MSB_8(src))
-				res |= m68ki_shift_8_table[shift];
-
-			*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-			FLAG_X = FLAG_C = src << (9-shift);
-			FLAG_N = NFLAG_8(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		if(GET_MSB_8(src))
-		{
-			*r_dst |= 0xff;
-			FLAG_C = CFLAG_SET;
-			FLAG_X = XFLAG_SET;
-			FLAG_N = NFLAG_SET;
-			FLAG_Z = ZFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst &= 0xffffff00;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_8(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(asr, 16, r, .)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src >> shift;
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 16)
-		{
-			if(GET_MSB_16(src))
-				res |= m68ki_shift_16_table[shift];
-
-			*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-			FLAG_C = FLAG_X = (src >> (shift - 1))<<8;
-			FLAG_N = NFLAG_16(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		if(GET_MSB_16(src))
-		{
-			*r_dst |= 0xffff;
-			FLAG_C = CFLAG_SET;
-			FLAG_X = XFLAG_SET;
-			FLAG_N = NFLAG_SET;
-			FLAG_Z = ZFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst &= 0xffff0000;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_16(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(asr, 32, r, .)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = *r_dst;
-	uint res = src >> shift;
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 32)
-		{
-			if(GET_MSB_32(src))
-				res |= m68ki_shift_32_table[shift];
-
-			*r_dst = res;
-
-			FLAG_C = FLAG_X = (src >> (shift - 1))<<8;
-			FLAG_N = NFLAG_32(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		if(GET_MSB_32(src))
-		{
-			*r_dst = 0xffffffff;
-			FLAG_C = CFLAG_SET;
-			FLAG_X = XFLAG_SET;
-			FLAG_N = NFLAG_SET;
-			FLAG_Z = ZFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst = 0;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_32(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(asr, 16, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	if(GET_MSB_16(src))
-		res |= 0x8000;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = FLAG_X = src << 8;
-}
-
-
-M68KMAKE_OP(asl, 8, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = MASK_OUT_ABOVE_8(src << shift);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_X = FLAG_C = src << shift;
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	src &= m68ki_shift_8_table[shift + 1];
-	FLAG_V = (!(src == 0 || (src == m68ki_shift_8_table[shift + 1] && shift < 8)))<<7;
-}
-
-
-M68KMAKE_OP(asl, 16, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = MASK_OUT_ABOVE_16(src << shift);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> (8-shift);
-	src &= m68ki_shift_16_table[shift + 1];
-	FLAG_V = (!(src == 0 || src == m68ki_shift_16_table[shift + 1]))<<7;
-}
-
-
-M68KMAKE_OP(asl, 32, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32(src << shift);
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> (24-shift);
-	src &= m68ki_shift_32_table[shift + 1];
-	FLAG_V = (!(src == 0 || src == m68ki_shift_32_table[shift + 1]))<<7;
-}
-
-
-M68KMAKE_OP(asl, 8, r, .)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = MASK_OUT_ABOVE_8(src << shift);
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 8)
-		{
-			*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-			FLAG_X = FLAG_C = src << shift;
-			FLAG_N = NFLAG_8(res);
-			FLAG_Z = res;
-			src &= m68ki_shift_8_table[shift + 1];
-			FLAG_V = (!(src == 0 || src == m68ki_shift_8_table[shift + 1]))<<7;
-			return;
-		}
-
-		*r_dst &= 0xffffff00;
-		FLAG_X = FLAG_C = ((shift == 8 ? src & 1 : 0))<<8;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = (!(src == 0))<<7;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_8(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(asl, 16, r, .)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = MASK_OUT_ABOVE_16(src << shift);
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 16)
-		{
-			*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-			FLAG_X = FLAG_C = (src << shift) >> 8;
-			FLAG_N = NFLAG_16(res);
-			FLAG_Z = res;
-			src &= m68ki_shift_16_table[shift + 1];
-			FLAG_V = (!(src == 0 || src == m68ki_shift_16_table[shift + 1]))<<7;
-			return;
-		}
-
-		*r_dst &= 0xffff0000;
-		FLAG_X = FLAG_C = ((shift == 16 ? src & 1 : 0))<<8;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = (!(src == 0))<<7;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_16(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(asl, 32, r, .)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32(src << shift);
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 32)
-		{
-			*r_dst = res;
-			FLAG_X = FLAG_C = (src >> (32 - shift)) << 8;
-			FLAG_N = NFLAG_32(res);
-			FLAG_Z = res;
-			src &= m68ki_shift_32_table[shift + 1];
-			FLAG_V = (!(src == 0 || src == m68ki_shift_32_table[shift + 1]))<<7;
-			return;
-		}
-
-		*r_dst = 0;
-		FLAG_X = FLAG_C = ((shift == 32 ? src & 1 : 0))<<8;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = (!(src == 0))<<7;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_32(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(asl, 16, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	src &= 0xc000;
-	FLAG_V = (!(src == 0 || src == 0xc000))<<7;
-}
-
-
-M68KMAKE_OP(bcc, 8, ., .)
-{
-	if(M68KMAKE_CC)
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-M68KMAKE_OP(bcc, 16, ., .)
-{
-	if(M68KMAKE_CC)
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-M68KMAKE_OP(bcc, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(M68KMAKE_CC)
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bchg, 32, r, d)
-{
-	uint* r_dst = &DY;
-	uint mask = 1 << (DX & 0x1f);
-
-	FLAG_Z = *r_dst & mask;
-	*r_dst ^= mask;
-}
-
-
-M68KMAKE_OP(bchg, 8, r, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-M68KMAKE_OP(bchg, 32, s, d)
-{
-	uint* r_dst = &DY;
-	uint mask = 1 << (OPER_I_8() & 0x1f);
-
-	FLAG_Z = *r_dst & mask;
-	*r_dst ^= mask;
-}
-
-
-M68KMAKE_OP(bchg, 8, s, .)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-M68KMAKE_OP(bclr, 32, r, d)
-{
-	uint* r_dst = &DY;
-	uint mask = 1 << (DX & 0x1f);
-
-	FLAG_Z = *r_dst & mask;
-	*r_dst &= ~mask;
-}
-
-
-M68KMAKE_OP(bclr, 8, r, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-M68KMAKE_OP(bclr, 32, s, d)
-{
-	uint* r_dst = &DY;
-	uint mask = 1 << (OPER_I_8() & 0x1f);
-
-	FLAG_Z = *r_dst & mask;
-	*r_dst &= ~mask;
-}
-
-
-M68KMAKE_OP(bclr, 8, s, .)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-M68KMAKE_OP(bfchg, 32, ., d)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint* data = &DY;
-		uint64 mask;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-		mask = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask = ROR_32(mask, offset);
-
-		FLAG_N = NFLAG_32(*data<<offset);
-		FLAG_Z = *data & mask;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		*data ^= mask;
-
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bfchg, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = M68KMAKE_GET_EA_AY_8;
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long ^ mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte ^ mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bfclr, 32, ., d)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint* data = &DY;
-		uint64 mask;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-
-		mask = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask = ROR_32(mask, offset);
-
-		FLAG_N = NFLAG_32(*data<<offset);
-		FLAG_Z = *data & mask;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		*data &= ~mask;
-
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bfclr, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = M68KMAKE_GET_EA_AY_8;
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long & ~mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte & ~mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bfexts, 32, ., d)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint64 data = DY;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-		data = ROL_32(data, offset);
-		FLAG_N = NFLAG_32(data);
-		data = MAKE_INT_32(data) >> (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2>>12)&7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bfexts, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = M68KMAKE_GET_EA_AY_8;
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  = MAKE_INT_32(data) >> (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bfextu, 32, ., d)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint64 data = DY;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-		data = ROL_32(data, offset);
-		FLAG_N = NFLAG_32(data);
-		data >>= 32 - width;
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2>>12)&7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bfextu, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = M68KMAKE_GET_EA_AY_8;
-
-
-		if(BIT_B(word2))
-		offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bfffo, 32, ., d)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint64 data = DY;
-		uint bit;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-		data = ROL_32(data, offset);
-		FLAG_N = NFLAG_32(data);
-		data >>= 32 - width;
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		for(bit = 1<<(width-1);bit && !(data & bit);bit>>= 1)
-			offset++;
-
-		REG_D[(word2>>12)&7] = offset;
-
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bfffo, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		sint local_offset;
-		uint width = word2;
-		uint data;
-		uint bit;
-		uint ea = M68KMAKE_GET_EA_AY_8;
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		local_offset = offset % 8;
-		if(local_offset < 0)
-		{
-			local_offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<local_offset);
-
-		if((local_offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << local_offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		for(bit = 1<<(width-1);bit && !(data & bit);bit>>= 1)
-			offset++;
-
-		REG_D[(word2>>12)&7] = offset;
-
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bfins, 32, ., d)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint* data = &DY;
-		uint64 mask;
-		uint64 insert = REG_D[(word2>>12)&7];
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-
-		mask = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask = ROR_32(mask, offset);
-
-		insert = MASK_OUT_ABOVE_32(insert << (32 - width));
-		FLAG_N = NFLAG_32(insert);
-		FLAG_Z = insert;
-		insert = ROR_32(insert, offset);
-
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		*data &= ~mask;
-		*data |= insert;
-
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bfins, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint insert_base = REG_D[(word2>>12)&7];
-		uint insert_long;
-		uint insert_byte;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = M68KMAKE_GET_EA_AY_8;
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		insert_base = MASK_OUT_ABOVE_32(insert_base << (32 - width));
-		FLAG_N = NFLAG_32(insert_base);
-		FLAG_Z = insert_base;
-		insert_long = insert_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, (data_long & ~mask_long) | insert_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			insert_byte = MASK_OUT_ABOVE_8(insert_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, (data_byte & ~mask_byte) | insert_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bfset, 32, ., d)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint* data = &DY;
-		uint64 mask;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-
-		mask = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask = ROR_32(mask, offset);
-
-		FLAG_N = NFLAG_32(*data<<offset);
-		FLAG_Z = *data & mask;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		*data |= mask;
-
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bfset, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = M68KMAKE_GET_EA_AY_8;
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long | mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte | mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bftst, 32, ., d)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint* data = &DY;
-		uint64 mask;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-
-		mask = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask = ROR_32(mask, offset);
-
-		FLAG_N = NFLAG_32(*data<<offset);
-		FLAG_Z = *data & mask;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bftst, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = M68KMAKE_GET_EA_AY_8;
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = ((data_long & (0x80000000 >> offset))<<offset)>>24;
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bkpt, 0, ., .)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		m68ki_bkpt_ack(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE) ? REG_IR & 7 : 0);	/* auto-disable (see m68kcpu.h) */
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bra, 8, ., .)
-{
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_branch_8(MASK_OUT_ABOVE_8(REG_IR));
-	if(REG_PC == REG_PPC)
-		USE_ALL_CYCLES();
-}
-
-
-M68KMAKE_OP(bra, 16, ., .)
-{
-	uint offset = OPER_I_16();
-	REG_PC -= 2;
-	m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-	m68ki_branch_16(offset);
-	if(REG_PC == REG_PPC)
-		USE_ALL_CYCLES();
-}
-
-
-M68KMAKE_OP(bra, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint offset = OPER_I_32();
-		REG_PC -= 4;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_32(offset);
-		if(REG_PC == REG_PPC)
-			USE_ALL_CYCLES();
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(bset, 32, r, d)
-{
-	uint* r_dst = &DY;
-	uint mask = 1 << (DX & 0x1f);
-
-	FLAG_Z = *r_dst & mask;
-	*r_dst |= mask;
-}
-
-
-M68KMAKE_OP(bset, 8, r, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-M68KMAKE_OP(bset, 32, s, d)
-{
-	uint* r_dst = &DY;
-	uint mask = 1 << (OPER_I_8() & 0x1f);
-
-	FLAG_Z = *r_dst & mask;
-	*r_dst |= mask;
-}
-
-
-M68KMAKE_OP(bset, 8, s, .)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-M68KMAKE_OP(bsr, 8, ., .)
-{
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_push_32(REG_PC);
-	m68ki_branch_8(MASK_OUT_ABOVE_8(REG_IR));
-}
-
-
-M68KMAKE_OP(bsr, 16, ., .)
-{
-	uint offset = OPER_I_16();
-	m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-	m68ki_push_32(REG_PC);
-	REG_PC -= 2;
-	m68ki_branch_16(offset);
-}
-
-
-M68KMAKE_OP(bsr, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint offset = OPER_I_32();
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_push_32(REG_PC);
-		REG_PC -= 4;
-		m68ki_branch_32(offset);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(btst, 32, r, d)
-{
-	FLAG_Z = DY & (1 << (DX & 0x1f));
-}
-
-
-M68KMAKE_OP(btst, 8, r, .)
-{
-	FLAG_Z = M68KMAKE_GET_OPER_AY_8 & (1 << (DX & 7));
-}
-
-
-M68KMAKE_OP(btst, 32, s, d)
-{
-	FLAG_Z = DY & (1 << (OPER_I_8() & 0x1f));
-}
-
-
-M68KMAKE_OP(btst, 8, s, .)
-{
-	uint bit = OPER_I_8() & 7;
-
-	FLAG_Z = M68KMAKE_GET_OPER_AY_8 & (1 << bit);
-}
-
-
-M68KMAKE_OP(callm, 32, ., .)
-{
-	/* note: watch out for pcrelative modes */
-	if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-	{
-		uint ea = M68KMAKE_GET_EA_AY_32;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		REG_PC += 2;
-(void)ea;	/* just to avoid an 'unused variable' warning */
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(cas, 8, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = M68KMAKE_GET_EA_AY_8;
-		uint dest = m68ki_read_8(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_8(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(*compare, dest, res);
-		FLAG_C = CFLAG_8(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_8(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_8(ea, MASK_OUT_ABOVE_8(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(cas, 16, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = M68KMAKE_GET_EA_AY_16;
-		uint dest = m68ki_read_16(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_16(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = MASK_OUT_ABOVE_16(res);
-		FLAG_V = VFLAG_SUB_16(*compare, dest, res);
-		FLAG_C = CFLAG_16(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_16(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(cas, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = M68KMAKE_GET_EA_AY_32;
-		uint dest = m68ki_read_32(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - *compare;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = MASK_OUT_ABOVE_32(res);
-		FLAG_V = VFLAG_SUB_32(*compare, dest, res);
-		FLAG_C = CFLAG_SUB_32(*compare, dest, res);
-
-		if(COND_NE())
-			*compare = dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_32(ea, REG_D[(word2 >> 6) & 7]);
-		}
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(cas2, 16, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_32();
-		uint* compare1 = &REG_D[(word2 >> 16) & 7];
-		uint ea1 = REG_DA[(word2 >> 28) & 15];
-		uint dest1 = m68ki_read_16(ea1);
-		uint res1 = dest1 - MASK_OUT_ABOVE_16(*compare1);
-		uint* compare2 = &REG_D[word2 & 7];
-		uint ea2 = REG_DA[(word2 >> 12) & 15];
-		uint dest2 = m68ki_read_16(ea2);
-		uint res2;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_16(res1);
-		FLAG_Z = MASK_OUT_ABOVE_16(res1);
-		FLAG_V = VFLAG_SUB_16(*compare1, dest1, res1);
-		FLAG_C = CFLAG_16(res1);
-
-		if(COND_EQ())
-		{
-			res2 = dest2 - MASK_OUT_ABOVE_16(*compare2);
-
-			FLAG_N = NFLAG_16(res2);
-			FLAG_Z = MASK_OUT_ABOVE_16(res2);
-			FLAG_V = VFLAG_SUB_16(*compare2, dest2, res2);
-			FLAG_C = CFLAG_16(res2);
-
-			if(COND_EQ())
-			{
-				USE_CYCLES(3);
-				m68ki_write_16(ea1, REG_D[(word2 >> 22) & 7]);
-				m68ki_write_16(ea2, REG_D[(word2 >> 6) & 7]);
-				return;
-			}
-		}
-		*compare1 = BIT_1F(word2) ? MAKE_INT_16(dest1) : MASK_OUT_BELOW_16(*compare1) | dest1;
-		*compare2 = BIT_F(word2) ? MAKE_INT_16(dest2) : MASK_OUT_BELOW_16(*compare2) | dest2;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(cas2, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_32();
-		uint* compare1 = &REG_D[(word2 >> 16) & 7];
-		uint ea1 = REG_DA[(word2 >> 28) & 15];
-		uint dest1 = m68ki_read_32(ea1);
-		uint res1 = dest1 - *compare1;
-		uint* compare2 = &REG_D[word2 & 7];
-		uint ea2 = REG_DA[(word2 >> 12) & 15];
-		uint dest2 = m68ki_read_32(ea2);
-		uint res2;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_32(res1);
-		FLAG_Z = MASK_OUT_ABOVE_32(res1);
-		FLAG_V = VFLAG_SUB_32(*compare1, dest1, res1);
-		FLAG_C = CFLAG_SUB_32(*compare1, dest1, res1);
-
-		if(COND_EQ())
-		{
-			res2 = dest2 - *compare2;
-
-			FLAG_N = NFLAG_32(res2);
-			FLAG_Z = MASK_OUT_ABOVE_32(res2);
-			FLAG_V = VFLAG_SUB_32(*compare2, dest2, res2);
-			FLAG_C = CFLAG_SUB_32(*compare2, dest2, res2);
-
-			if(COND_EQ())
-			{
-				USE_CYCLES(3);
-				m68ki_write_32(ea1, REG_D[(word2 >> 22) & 7]);
-				m68ki_write_32(ea2, REG_D[(word2 >> 6) & 7]);
-				return;
-			}
-		}
-		*compare1 = dest1;
-		*compare2 = dest2;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(chk, 16, ., d)
-{
-	sint src = MAKE_INT_16(DX);
-	sint bound = MAKE_INT_16(DY);
-
-	FLAG_Z = ZFLAG_16(src); /* Undocumented */
-	FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-	FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-	if(src >= 0 && src <= bound)
-	{
-		return;
-	}
-	FLAG_N = (src < 0)<<7;
-	m68ki_exception_trap(EXCEPTION_CHK);
-}
-
-
-M68KMAKE_OP(chk, 16, ., .)
-{
-	sint src = MAKE_INT_16(DX);
-	sint bound = MAKE_INT_16(M68KMAKE_GET_OPER_AY_16);
-
-	FLAG_Z = ZFLAG_16(src); /* Undocumented */
-	FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-	FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-	if(src >= 0 && src <= bound)
-	{
-		return;
-	}
-	FLAG_N = (src < 0)<<7;
-	m68ki_exception_trap(EXCEPTION_CHK);
-}
-
-
-M68KMAKE_OP(chk, 32, ., d)
-{
-	logerror("%08x: Chk 32d\n",activecpu_get_pc());
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		sint src = MAKE_INT_32(DX);
-		sint bound = MAKE_INT_32(DY);
-
-		FLAG_Z = ZFLAG_32(src); /* Undocumented */
-		FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-		FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-		if(src >= 0 && src <= bound)
-		{
-			return;
-		}
-		FLAG_N = (src < 0)<<7;
-		m68ki_exception_trap(EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(chk, 32, ., .)
-{
-		logerror("%08x: Chk 32\n",activecpu_get_pc());
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		sint src = MAKE_INT_32(DX);
-		sint bound = MAKE_INT_32(M68KMAKE_GET_OPER_AY_32);
-
-		FLAG_Z = ZFLAG_32(src); /* Undocumented */
-		FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-		FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-		if(src >= 0 && src <= bound)
-		{
-			return;
-		}
-		FLAG_N = (src < 0)<<7;
-		m68ki_exception_trap(EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(chk2cmp2, 8, ., pcdi)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xff;
-		uint ea = EA_PCDI_8();
-		uint lower_bound = m68ki_read_pcrel_8(ea);
-		uint upper_bound = m68ki_read_pcrel_8(ea + 1);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_8(compare) - MAKE_INT_8(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(chk2cmp2, 8, ., pcix)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xff;
-		uint ea = EA_PCIX_8();
-		uint lower_bound = m68ki_read_pcrel_8(ea);
-		uint upper_bound = m68ki_read_pcrel_8(ea + 1);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_8(compare) - MAKE_INT_8(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(chk2cmp2, 8, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xff;
-		uint ea = M68KMAKE_GET_EA_AY_8;
-		uint lower_bound = m68ki_read_8(ea);
-		uint upper_bound = m68ki_read_8(ea + 1);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_8(compare) - MAKE_INT_8(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(chk2cmp2, 16, ., pcdi)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xffff;
-		uint ea = EA_PCDI_16();
-		uint lower_bound = m68ki_read_pcrel_16(ea);
-		uint upper_bound = m68ki_read_pcrel_16(ea + 2);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(compare) - MAKE_INT_16(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-			return;
-		}
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(upper_bound) - MAKE_INT_16(compare);
-		else
-			FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(chk2cmp2, 16, ., pcix)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xffff;
-		uint ea = EA_PCIX_16();
-		uint lower_bound = m68ki_read_pcrel_16(ea);
-		uint upper_bound = m68ki_read_pcrel_16(ea + 2);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(compare) - MAKE_INT_16(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-			return;
-		}
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(upper_bound) - MAKE_INT_16(compare);
-		else
-			FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(chk2cmp2, 16, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xffff;
-		uint ea = M68KMAKE_GET_EA_AY_16;
-		uint lower_bound = m68ki_read_16(ea);
-		uint upper_bound = m68ki_read_16(ea + 2);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(compare) - MAKE_INT_16(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-			return;
-		}
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(upper_bound) - MAKE_INT_16(compare);
-		else
-			FLAG_C = upper_bound - compare;
-
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(chk2cmp2, 32, ., pcdi)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15];
-		uint ea = EA_PCDI_32();
-		uint lower_bound = m68ki_read_pcrel_32(ea);
-		uint upper_bound = m68ki_read_pcrel_32(ea + 4);
-
-		FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_SUB_32(lower_bound, compare, FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_SUB_32(compare, upper_bound, FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(chk2cmp2, 32, ., pcix)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15];
-		uint ea = EA_PCIX_32();
-		uint lower_bound = m68ki_read_pcrel_32(ea);
-		uint upper_bound = m68ki_read_pcrel_32(ea + 4);
-
-		FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_SUB_32(lower_bound, compare, FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_SUB_32(compare, upper_bound, FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(chk2cmp2, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15];
-		uint ea = M68KMAKE_GET_EA_AY_32;
-		uint lower_bound = m68ki_read_32(ea);
-		uint upper_bound = m68ki_read_32(ea + 4);
-
-		FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_SUB_32(lower_bound, compare, FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_SUB_32(compare, upper_bound, FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(clr, 8, ., d)
-{
-	DY &= 0xffffff00;
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-M68KMAKE_OP(clr, 8, ., .)
-{
-	m68ki_write_8(M68KMAKE_GET_EA_AY_8, 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-M68KMAKE_OP(clr, 16, ., d)
-{
-	DY &= 0xffff0000;
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-M68KMAKE_OP(clr, 16, ., .)
-{
-	m68ki_write_16(M68KMAKE_GET_EA_AY_16, 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-M68KMAKE_OP(clr, 32, ., d)
-{
-	DY = 0;
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-M68KMAKE_OP(clr, 32, ., .)
-{
-	m68ki_write_32(M68KMAKE_GET_EA_AY_32, 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-M68KMAKE_OP(cmp, 8, ., d)
-{
-	uint src = MASK_OUT_ABOVE_8(DY);
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-M68KMAKE_OP(cmp, 8, ., .)
-{
-	uint src = M68KMAKE_GET_OPER_AY_8;
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-M68KMAKE_OP(cmp, 16, ., d)
-{
-	uint src = MASK_OUT_ABOVE_16(DY);
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-M68KMAKE_OP(cmp, 16, ., a)
-{
-	uint src = MASK_OUT_ABOVE_16(AY);
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-M68KMAKE_OP(cmp, 16, ., .)
-{
-	uint src = M68KMAKE_GET_OPER_AY_16;
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-M68KMAKE_OP(cmp, 32, ., d)
-{
-	uint src = DY;
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-M68KMAKE_OP(cmp, 32, ., a)
-{
-	uint src = AY;
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-M68KMAKE_OP(cmp, 32, ., .)
-{
-	uint src = M68KMAKE_GET_OPER_AY_32;
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-M68KMAKE_OP(cmpa, 16, ., d)
-{
-	uint src = MAKE_INT_16(DY);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-M68KMAKE_OP(cmpa, 16, ., a)
-{
-	uint src = MAKE_INT_16(AY);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-M68KMAKE_OP(cmpa, 16, ., .)
-{
-	uint src = MAKE_INT_16(M68KMAKE_GET_OPER_AY_16);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-M68KMAKE_OP(cmpa, 32, ., d)
-{
-	uint src = DY;
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-M68KMAKE_OP(cmpa, 32, ., a)
-{
-	uint src = AY;
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-M68KMAKE_OP(cmpa, 32, ., .)
-{
-	uint src = M68KMAKE_GET_OPER_AY_32;
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-M68KMAKE_OP(cmpi, 8, ., d)
-{
-	uint src = OPER_I_8();
-	uint dst = MASK_OUT_ABOVE_8(DY);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-M68KMAKE_OP(cmpi, 8, ., .)
-{
-	uint src = OPER_I_8();
-	uint dst = M68KMAKE_GET_OPER_AY_8;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-M68KMAKE_OP(cmpi, 8, ., pcdi)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_I_8();
-		uint dst = OPER_PCDI_8();
-		uint res = dst - src;
-
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(src, dst, res);
-		FLAG_C = CFLAG_8(res);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(cmpi, 8, ., pcix)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_I_8();
-		uint dst = OPER_PCIX_8();
-		uint res = dst - src;
-
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(src, dst, res);
-		FLAG_C = CFLAG_8(res);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(cmpi, 16, ., d)
-{
-	uint src = OPER_I_16();
-	uint dst = MASK_OUT_ABOVE_16(DY);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-M68KMAKE_OP(cmpi, 16, ., .)
-{
-	uint src = OPER_I_16();
-	uint dst = M68KMAKE_GET_OPER_AY_16;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-M68KMAKE_OP(cmpi, 16, ., pcdi)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_I_16();
-		uint dst = OPER_PCDI_16();
-		uint res = dst - src;
-
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = MASK_OUT_ABOVE_16(res);
-		FLAG_V = VFLAG_SUB_16(src, dst, res);
-		FLAG_C = CFLAG_16(res);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(cmpi, 16, ., pcix)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_I_16();
-		uint dst = OPER_PCIX_16();
-		uint res = dst - src;
-
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = MASK_OUT_ABOVE_16(res);
-		FLAG_V = VFLAG_SUB_16(src, dst, res);
-		FLAG_C = CFLAG_16(res);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(cmpi, 32, ., d)
-{
-	uint src = OPER_I_32();
-	uint dst = DY;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-M68KMAKE_OP(cmpi, 32, ., .)
-{
-	uint src = OPER_I_32();
-	uint dst = M68KMAKE_GET_OPER_AY_32;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-M68KMAKE_OP(cmpi, 32, ., pcdi)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_I_32();
-		uint dst = OPER_PCDI_32();
-		uint res = dst - src;
-
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = MASK_OUT_ABOVE_32(res);
-		FLAG_V = VFLAG_SUB_32(src, dst, res);
-		FLAG_C = CFLAG_SUB_32(src, dst, res);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(cmpi, 32, ., pcix)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_I_32();
-		uint dst = OPER_PCIX_32();
-		uint res = dst - src;
-
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = MASK_OUT_ABOVE_32(res);
-		FLAG_V = VFLAG_SUB_32(src, dst, res);
-		FLAG_C = CFLAG_SUB_32(src, dst, res);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(cmpm, 8, ., ax7)
-{
-	uint src = OPER_AY_PI_8();
-	uint dst = OPER_A7_PI_8();
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-M68KMAKE_OP(cmpm, 8, ., ay7)
-{
-	uint src = OPER_A7_PI_8();
-	uint dst = OPER_AX_PI_8();
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-M68KMAKE_OP(cmpm, 8, ., axy7)
-{
-	uint src = OPER_A7_PI_8();
-	uint dst = OPER_A7_PI_8();
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-M68KMAKE_OP(cmpm, 8, ., .)
-{
-	uint src = OPER_AY_PI_8();
-	uint dst = OPER_AX_PI_8();
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-M68KMAKE_OP(cmpm, 16, ., .)
-{
-	uint src = OPER_AY_PI_16();
-	uint dst = OPER_AX_PI_16();
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-M68KMAKE_OP(cmpm, 32, ., .)
-{
-	uint src = OPER_AY_PI_32();
-	uint dst = OPER_AX_PI_32();
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-M68KMAKE_OP(cpbcc, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_1111();
-}
-
-
-M68KMAKE_OP(cpdbcc, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_1111();
-}
-
-
-M68KMAKE_OP(cpgen, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_1111();
-}
-
-
-M68KMAKE_OP(cpscc, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_1111();
-}
-
-
-M68KMAKE_OP(cptrapcc, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_1111();
-}
-
-
-M68KMAKE_OP(dbt, 16, ., .)
-{
-	REG_PC += 2;
-}
-
-
-M68KMAKE_OP(dbf, 16, ., .)
-{
-	uint* r_dst = &DY;
-	uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-	if(res != 0xffff)
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(offset);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-M68KMAKE_OP(dbcc, 16, ., .)
-{
-	if(M68KMAKE_NOT_CC)
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-M68KMAKE_OP(divs, 16, ., d)
-{
-	uint* r_dst = &DX;
-	sint src = MAKE_INT_16(DY);
-	sint quotient;
-	sint remainder;
-
-	if(src != 0)
-	{
-		if((uint32)*r_dst == 0x80000000 && src == -1)
-		{
-			FLAG_Z = 0;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = 0;
-			return;
-		}
-
-		quotient = MAKE_INT_32(*r_dst) / src;
-		remainder = MAKE_INT_32(*r_dst) % src;
-
-		if(quotient == MAKE_INT_16(quotient))
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(EXCEPTION_ZERO_DIVIDE);
-}
-
-
-M68KMAKE_OP(divs, 16, ., .)
-{
-	uint* r_dst = &DX;
-	sint src = MAKE_INT_16(M68KMAKE_GET_OPER_AY_16);
-	sint quotient;
-	sint remainder;
-
-	if(src != 0)
-	{
-		if((uint32)*r_dst == 0x80000000 && src == -1)
-		{
-			FLAG_Z = 0;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = 0;
-			return;
-		}
-
-		quotient = MAKE_INT_32(*r_dst) / src;
-		remainder = MAKE_INT_32(*r_dst) % src;
-
-		if(quotient == MAKE_INT_16(quotient))
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(EXCEPTION_ZERO_DIVIDE);
-}
-
-
-M68KMAKE_OP(divu, 16, ., d)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(DY);
-
-	if(src != 0)
-	{
-		uint quotient = *r_dst / src;
-		uint remainder = *r_dst % src;
-
-		if(quotient < 0x10000)
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(EXCEPTION_ZERO_DIVIDE);
-}
-
-
-M68KMAKE_OP(divu, 16, ., .)
-{
-	uint* r_dst = &DX;
-	uint src = M68KMAKE_GET_OPER_AY_16;
-
-	if(src != 0)
-	{
-		uint quotient = *r_dst / src;
-		uint remainder = *r_dst % src;
-
-		if(quotient < 0x10000)
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(EXCEPTION_ZERO_DIVIDE);
-}
-
-
-M68KMAKE_OP(divl, 32, ., d)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 divisor   = DY;
-		uint64 dividend  = 0;
-		uint64 quotient  = 0;
-		uint64 remainder = 0;
-
-		if(divisor != 0)
-		{
-			if(BIT_A(word2))	/* 64 bit */
-			{
-				dividend = REG_D[word2 & 7];
-				dividend <<= 32;
-				dividend |= REG_D[(word2 >> 12) & 7];
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)dividend / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)dividend % (sint64)((sint32)divisor));
-					if((sint64)quotient != (sint64)((sint32)quotient))
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					if(quotient > 0xffffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					remainder = dividend % divisor;
-				}
-			}
-			else	/* 32 bit */
-			{
-				dividend = REG_D[(word2 >> 12) & 7];
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)((sint32)dividend) / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)((sint32)dividend) % (sint64)((sint32)divisor));
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					remainder = dividend % divisor;
-				}
-			}
-
-			REG_D[word2 & 7] = remainder;
-			REG_D[(word2 >> 12) & 7] = quotient;
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal();
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint divisor = DY;
-		uint dividend_hi = REG_D[word2 & 7];
-		uint dividend_lo = REG_D[(word2 >> 12) & 7];
-		uint quotient = 0;
-		uint remainder = 0;
-		uint dividend_neg = 0;
-		uint divisor_neg = 0;
-		sint i;
-		uint overflow;
-
-		if(divisor != 0)
-		{
-			/* quad / long : long quotient, long remainder */
-			if(BIT_A(word2))
-			{
-				if(BIT_B(word2))	   /* signed */
-				{
-					/* special case in signed divide */
-					if(dividend_hi == 0 && dividend_lo == 0x80000000 && divisor == 0xffffffff)
-					{
-						REG_D[word2 & 7] = 0;
-						REG_D[(word2 >> 12) & 7] = 0x80000000;
-
-						FLAG_N = NFLAG_SET;
-						FLAG_Z = ZFLAG_CLEAR;
-						FLAG_V = VFLAG_CLEAR;
-						FLAG_C = CFLAG_CLEAR;
-						return;
-					}
-					if(GET_MSB_32(dividend_hi))
-					{
-						dividend_neg = 1;
-						dividend_hi = (uint)MASK_OUT_ABOVE_32((-(sint)dividend_hi) - (dividend_lo != 0));
-						dividend_lo = (uint)MASK_OUT_ABOVE_32(-(sint)dividend_lo);
-					}
-					if(GET_MSB_32(divisor))
-					{
-						divisor_neg = 1;
-						divisor = (uint)MASK_OUT_ABOVE_32(-(sint)divisor);
-
-					}
-				}
-
-				/* if the upper long is greater than the divisor, we're overflowing. */
-				if(dividend_hi >= divisor)
-				{
-					FLAG_V = VFLAG_SET;
-					return;
-				}
-
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					remainder = (remainder << 1) + ((dividend_hi >> i) & 1);
-					if(remainder >= divisor)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					overflow = GET_MSB_32(remainder);
-					remainder = (remainder << 1) + ((dividend_lo >> i) & 1);
-					if(remainder >= divisor || overflow)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					if(quotient > 0x7fffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					if(dividend_neg)
-					{
-						remainder = (uint)MASK_OUT_ABOVE_32(-(sint)remainder);
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-					}
-					if(divisor_neg)
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-				}
-
-				REG_D[word2 & 7] = remainder;
-				REG_D[(word2 >> 12) & 7] = quotient;
-
-				FLAG_N = NFLAG_32(quotient);
-				FLAG_Z = quotient;
-				FLAG_V = VFLAG_CLEAR;
-				FLAG_C = CFLAG_CLEAR;
-				return;
-			}
-
-			/* long / long: long quotient, maybe long remainder */
-			if(BIT_B(word2))	   /* signed */
-			{
-				/* Special case in divide */
-				if(dividend_lo == 0x80000000 && divisor == 0xffffffff)
-				{
-					FLAG_N = NFLAG_SET;
-					FLAG_Z = ZFLAG_CLEAR;
-					FLAG_V = VFLAG_CLEAR;
-					FLAG_C = CFLAG_CLEAR;
-					REG_D[(word2 >> 12) & 7] = 0x80000000;
-					REG_D[word2 & 7] = 0;
-					return;
-				}
-				REG_D[word2 & 7] = MAKE_INT_32(dividend_lo) % MAKE_INT_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MAKE_INT_32(dividend_lo) / MAKE_INT_32(divisor);
-			}
-			else
-			{
-				REG_D[word2 & 7] = MASK_OUT_ABOVE_32(dividend_lo) % MASK_OUT_ABOVE_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(dividend_lo) / MASK_OUT_ABOVE_32(divisor);
-			}
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal();
-
-#endif
-}
-
-
-M68KMAKE_OP(divl, 32, ., .)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 divisor = M68KMAKE_GET_OPER_AY_32;
-		uint64 dividend  = 0;
-		uint64 quotient  = 0;
-		uint64 remainder = 0;
-
-		if(divisor != 0)
-		{
-			if(BIT_A(word2))	/* 64 bit */
-			{
-				dividend = REG_D[word2 & 7];
-				dividend <<= 32;
-				dividend |= REG_D[(word2 >> 12) & 7];
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)dividend / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)dividend % (sint64)((sint32)divisor));
-					if((sint64)quotient != (sint64)((sint32)quotient))
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					if(quotient > 0xffffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					remainder = dividend % divisor;
-				}
-			}
-			else	/* 32 bit */
-			{
-				dividend = REG_D[(word2 >> 12) & 7];
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)((sint32)dividend) / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)((sint32)dividend) % (sint64)((sint32)divisor));
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					remainder = dividend % divisor;
-				}
-			}
-
-			REG_D[word2 & 7] = remainder;
-			REG_D[(word2 >> 12) & 7] = quotient;
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal();
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint divisor = M68KMAKE_GET_OPER_AY_32;
-		uint dividend_hi = REG_D[word2 & 7];
-		uint dividend_lo = REG_D[(word2 >> 12) & 7];
-		uint quotient = 0;
-		uint remainder = 0;
-		uint dividend_neg = 0;
-		uint divisor_neg = 0;
-		sint i;
-		uint overflow;
-
-		if(divisor != 0)
-		{
-			/* quad / long : long quotient, long remainder */
-			if(BIT_A(word2))
-			{
-				if(BIT_B(word2))	   /* signed */
-				{
-					/* special case in signed divide */
-					if(dividend_hi == 0 && dividend_lo == 0x80000000 && divisor == 0xffffffff)
-					{
-						REG_D[word2 & 7] = 0;
-						REG_D[(word2 >> 12) & 7] = 0x80000000;
-
-						FLAG_N = NFLAG_SET;
-						FLAG_Z = ZFLAG_CLEAR;
-						FLAG_V = VFLAG_CLEAR;
-						FLAG_C = CFLAG_CLEAR;
-						return;
-					}
-					if(GET_MSB_32(dividend_hi))
-					{
-						dividend_neg = 1;
-						dividend_hi = (uint)MASK_OUT_ABOVE_32((-(sint)dividend_hi) - (dividend_lo != 0));
-						dividend_lo = (uint)MASK_OUT_ABOVE_32(-(sint)dividend_lo);
-					}
-					if(GET_MSB_32(divisor))
-					{
-						divisor_neg = 1;
-						divisor = (uint)MASK_OUT_ABOVE_32(-(sint)divisor);
-
-					}
-				}
-
-				/* if the upper long is greater than the divisor, we're overflowing. */
-				if(dividend_hi >= divisor)
-				{
-					FLAG_V = VFLAG_SET;
-					return;
-				}
-
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					remainder = (remainder << 1) + ((dividend_hi >> i) & 1);
-					if(remainder >= divisor)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					overflow = GET_MSB_32(remainder);
-					remainder = (remainder << 1) + ((dividend_lo >> i) & 1);
-					if(remainder >= divisor || overflow)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					if(quotient > 0x7fffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					if(dividend_neg)
-					{
-						remainder = (uint)MASK_OUT_ABOVE_32(-(sint)remainder);
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-					}
-					if(divisor_neg)
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-				}
-
-				REG_D[word2 & 7] = remainder;
-				REG_D[(word2 >> 12) & 7] = quotient;
-
-				FLAG_N = NFLAG_32(quotient);
-				FLAG_Z = quotient;
-				FLAG_V = VFLAG_CLEAR;
-				FLAG_C = CFLAG_CLEAR;
-				return;
-			}
-
-			/* long / long: long quotient, maybe long remainder */
-			if(BIT_B(word2))	   /* signed */
-			{
-				/* Special case in divide */
-				if(dividend_lo == 0x80000000 && divisor == 0xffffffff)
-				{
-					FLAG_N = NFLAG_SET;
-					FLAG_Z = ZFLAG_CLEAR;
-					FLAG_V = VFLAG_CLEAR;
-					FLAG_C = CFLAG_CLEAR;
-					REG_D[(word2 >> 12) & 7] = 0x80000000;
-					REG_D[word2 & 7] = 0;
-					return;
-				}
-				REG_D[word2 & 7] = MAKE_INT_32(dividend_lo) % MAKE_INT_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MAKE_INT_32(dividend_lo) / MAKE_INT_32(divisor);
-			}
-			else
-			{
-				REG_D[word2 & 7] = MASK_OUT_ABOVE_32(dividend_lo) % MASK_OUT_ABOVE_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(dividend_lo) / MASK_OUT_ABOVE_32(divisor);
-			}
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal();
-
-#endif
-}
-
-
-M68KMAKE_OP(eor, 8, ., d)
-{
-	uint res = MASK_OUT_ABOVE_8(DY ^= MASK_OUT_ABOVE_8(DX));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(eor, 8, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint res = MASK_OUT_ABOVE_8(DX ^ m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(eor, 16, ., d)
-{
-	uint res = MASK_OUT_ABOVE_16(DY ^= MASK_OUT_ABOVE_16(DX));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(eor, 16, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint res = MASK_OUT_ABOVE_16(DX ^ m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(eor, 32, ., d)
-{
-	uint res = DY ^= DX;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(eor, 32, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint res = DX ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(eori, 8, ., d)
-{
-	uint res = MASK_OUT_ABOVE_8(DY ^= OPER_I_8());
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(eori, 8, ., .)
-{
-	uint src = OPER_I_8();
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint res = src ^ m68ki_read_8(ea);
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(eori, 16, ., d)
-{
-	uint res = MASK_OUT_ABOVE_16(DY ^= OPER_I_16());
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(eori, 16, ., .)
-{
-	uint src = OPER_I_16();
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint res = src ^ m68ki_read_16(ea);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(eori, 32, ., d)
-{
-	uint res = DY ^= OPER_I_32();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(eori, 32, ., .)
-{
-	uint src = OPER_I_32();
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint res = src ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(eori, 16, toc, .)
-{
-	m68ki_set_ccr(m68ki_get_ccr() ^ OPER_I_16());
-}
-
-
-M68KMAKE_OP(eori, 16, tos, .)
-{
-	if(FLAG_S)
-	{
-		uint src = OPER_I_16();
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(m68ki_get_sr() ^ src);
-		return;
-	}
-	m68ki_exception_privilege_violation();
-}
-
-
-M68KMAKE_OP(exg, 32, dd, .)
-{
-	uint* reg_a = &DX;
-	uint* reg_b = &DY;
-	uint tmp = *reg_a;
-	*reg_a = *reg_b;
-	*reg_b = tmp;
-}
-
-
-M68KMAKE_OP(exg, 32, aa, .)
-{
-	uint* reg_a = &AX;
-	uint* reg_b = &AY;
-	uint tmp = *reg_a;
-	*reg_a = *reg_b;
-	*reg_b = tmp;
-}
-
-
-M68KMAKE_OP(exg, 32, da, .)
-{
-	uint* reg_a = &DX;
-	uint* reg_b = &AY;
-	uint tmp = *reg_a;
-	*reg_a = *reg_b;
-	*reg_b = tmp;
-}
-
-
-M68KMAKE_OP(ext, 16, ., .)
-{
-	uint* r_dst = &DY;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | MASK_OUT_ABOVE_8(*r_dst) | (GET_MSB_8(*r_dst) ? 0xff00 : 0);
-
-	FLAG_N = NFLAG_16(*r_dst);
-	FLAG_Z = MASK_OUT_ABOVE_16(*r_dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ext, 32, ., .)
-{
-	uint* r_dst = &DY;
-
-	*r_dst = MASK_OUT_ABOVE_16(*r_dst) | (GET_MSB_16(*r_dst) ? 0xffff0000 : 0);
-
-	FLAG_N = NFLAG_32(*r_dst);
-	FLAG_Z = *r_dst;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(extb, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint* r_dst = &DY;
-
-		*r_dst = MASK_OUT_ABOVE_8(*r_dst) | (GET_MSB_8(*r_dst) ? 0xffffff00 : 0);
-
-		FLAG_N = NFLAG_32(*r_dst);
-		FLAG_Z = *r_dst;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(illegal, 0, ., .)
-{
-	m68ki_exception_illegal();
-}
-
-M68KMAKE_OP(jmp, 32, ., .)
-{
-	m68ki_jump(M68KMAKE_GET_EA_AY_32);
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	if(REG_PC == REG_PPC)
-		USE_ALL_CYCLES();
-}
-
-
-M68KMAKE_OP(jsr, 32, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_push_32(REG_PC);
-	m68ki_jump(ea);
-}
-
-
-M68KMAKE_OP(lea, 32, ., .)
-{
-	AX = M68KMAKE_GET_EA_AY_32;
-}
-
-
-M68KMAKE_OP(link, 16, ., a7)
-{
-	REG_A[7] -= 4;
-	m68ki_write_32(REG_A[7], REG_A[7]);
-	REG_A[7] = MASK_OUT_ABOVE_32(REG_A[7] + MAKE_INT_16(OPER_I_16()));
-}
-
-
-M68KMAKE_OP(link, 16, ., .)
-{
-	uint* r_dst = &AY;
-
-	m68ki_push_32(*r_dst);
-	*r_dst = REG_A[7];
-	REG_A[7] = MASK_OUT_ABOVE_32(REG_A[7] + MAKE_INT_16(OPER_I_16()));
-}
-
-
-M68KMAKE_OP(link, 32, ., a7)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		REG_A[7] -= 4;
-		m68ki_write_32(REG_A[7], REG_A[7]);
-		REG_A[7] = MASK_OUT_ABOVE_32(REG_A[7] + OPER_I_32());
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(link, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint* r_dst = &AY;
-
-		m68ki_push_32(*r_dst);
-		*r_dst = REG_A[7];
-		REG_A[7] = MASK_OUT_ABOVE_32(REG_A[7] + OPER_I_32());
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(lsr, 8, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src >> shift;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src << (9-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(lsr, 16, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src >> shift;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src << (9-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(lsr, 32, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = *r_dst;
-	uint res = src >> shift;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src << (9-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(lsr, 8, r, .)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src >> shift;
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift <= 8)
-		{
-			*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-			FLAG_X = FLAG_C = src << (9-shift);
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst &= 0xffffff00;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_8(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(lsr, 16, r, .)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src >> shift;
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift <= 16)
-		{
-			*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-			FLAG_C = FLAG_X = (src >> (shift - 1))<<8;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst &= 0xffff0000;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_16(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(lsr, 32, r, .)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = *r_dst;
-	uint res = src >> shift;
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 32)
-		{
-			*r_dst = res;
-			FLAG_C = FLAG_X = (src >> (shift - 1))<<8;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst = 0;
-		FLAG_X = FLAG_C = (shift == 32 ? GET_MSB_32(src)>>23 : 0);
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_32(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(lsr, 16, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_C = FLAG_X = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(lsl, 8, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = MASK_OUT_ABOVE_8(src << shift);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src << shift;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(lsl, 16, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = MASK_OUT_ABOVE_16(src << shift);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> (8-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(lsl, 32, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32(src << shift);
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> (24-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(lsl, 8, r, .)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = MASK_OUT_ABOVE_8(src << shift);
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift <= 8)
-		{
-			*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-			FLAG_X = FLAG_C = src << shift;
-			FLAG_N = NFLAG_8(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst &= 0xffffff00;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_8(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(lsl, 16, r, .)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = MASK_OUT_ABOVE_16(src << shift);
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift <= 16)
-		{
-			*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-			FLAG_X = FLAG_C = (src << shift) >> 8;
-			FLAG_N = NFLAG_16(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst &= 0xffff0000;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_16(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(lsl, 32, r, .)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32(src << shift);
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 32)
-		{
-			*r_dst = res;
-			FLAG_X = FLAG_C = (src >> (32 - shift)) << 8;
-			FLAG_N = NFLAG_32(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst = 0;
-		FLAG_X = FLAG_C = ((shift == 32 ? src & 1 : 0))<<8;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_32(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(lsl, 16, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, d, d)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, d, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_8;
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, ai, d)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, ai, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_8;
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, pi7, d)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, pi, d)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, pi7, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_8;
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, pi, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_8;
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, pd7, d)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, pd, d)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, pd7, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_8;
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, pd, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_8;
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, di, d)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, di, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_8;
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, ix, d)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, ix, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_8;
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, aw, d)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, aw, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_8;
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, al, d)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 8, al, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_8;
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, d, d)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, d, a)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, d, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_16;
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, ai, d)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, ai, a)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, ai, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_16;
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, pi, d)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, pi, a)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, pi, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_16;
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, pd, d)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, pd, a)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, pd, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_16;
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, di, d)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, di, a)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, di, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_16;
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, ix, d)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, ix, a)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, ix, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_16;
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, aw, d)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, aw, a)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, aw, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_16;
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, al, d)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, al, a)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 16, al, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_16;
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, d, d)
-{
-	uint res = DY;
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, d, a)
-{
-	uint res = AY;
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, d, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_32;
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, ai, d)
-{
-	uint res = DY;
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, ai, a)
-{
-	uint res = AY;
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, ai, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_32;
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, pi, d)
-{
-	uint res = DY;
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, pi, a)
-{
-	uint res = AY;
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, pi, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_32;
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, pd, d)
-{
-	uint res = DY;
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, pd, a)
-{
-	uint res = AY;
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, pd, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_32;
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, di, d)
-{
-	uint res = DY;
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, di, a)
-{
-	uint res = AY;
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, di, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_32;
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, ix, d)
-{
-	uint res = DY;
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, ix, a)
-{
-	uint res = AY;
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, ix, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_32;
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, aw, d)
-{
-	uint res = DY;
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, aw, a)
-{
-	uint res = AY;
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, aw, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_32;
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, al, d)
-{
-	uint res = DY;
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, al, a)
-{
-	uint res = AY;
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(move, 32, al, .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_32;
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(movea, 16, ., d)
-{
-	AX = MAKE_INT_16(DY);
-}
-
-
-M68KMAKE_OP(movea, 16, ., a)
-{
-	AX = MAKE_INT_16(AY);
-}
-
-
-M68KMAKE_OP(movea, 16, ., .)
-{
-	AX = MAKE_INT_16(M68KMAKE_GET_OPER_AY_16);
-}
-
-
-M68KMAKE_OP(movea, 32, ., d)
-{
-	AX = DY;
-}
-
-
-M68KMAKE_OP(movea, 32, ., a)
-{
-	AX = AY;
-}
-
-
-M68KMAKE_OP(movea, 32, ., .)
-{
-	AX = M68KMAKE_GET_OPER_AY_32;
-}
-
-
-M68KMAKE_OP(move, 16, frc, d)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		DY = MASK_OUT_BELOW_16(DY) | m68ki_get_ccr();
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(move, 16, frc, .)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		m68ki_write_16(M68KMAKE_GET_EA_AY_16, m68ki_get_ccr());
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(move, 16, toc, d)
-{
-	m68ki_set_ccr(DY);
-}
-
-
-M68KMAKE_OP(move, 16, toc, .)
-{
-	m68ki_set_ccr(M68KMAKE_GET_OPER_AY_16);
-}
-
-
-M68KMAKE_OP(move, 16, frs, d)
-{
-	if(CPU_TYPE_IS_000(CPU_TYPE) || FLAG_S)	/* NS990408 */
-	{
-		DY = MASK_OUT_BELOW_16(DY) | m68ki_get_sr();
-		return;
-	}
-	m68ki_exception_privilege_violation();
-}
-
-
-M68KMAKE_OP(move, 16, frs, .)
-{
-	if(CPU_TYPE_IS_000(CPU_TYPE) || FLAG_S)	/* NS990408 */
-	{
-		uint ea = M68KMAKE_GET_EA_AY_16;
-		m68ki_write_16(ea, m68ki_get_sr());
-		return;
-	}
-	m68ki_exception_privilege_violation();
-}
-
-
-M68KMAKE_OP(move, 16, tos, d)
-{
-	if(FLAG_S)
-	{
-		m68ki_set_sr(DY);
-		return;
-	}
-	m68ki_exception_privilege_violation();
-}
-
-
-M68KMAKE_OP(move, 16, tos, .)
-{
-	if(FLAG_S)
-	{
-		uint new_sr = M68KMAKE_GET_OPER_AY_16;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(new_sr);
-		return;
-	}
-	m68ki_exception_privilege_violation();
-}
-
-
-M68KMAKE_OP(move, 32, fru, .)
-{
-	if(FLAG_S)
-	{
-		AY = REG_USP;
-		return;
-	}
-	m68ki_exception_privilege_violation();
-}
-
-
-M68KMAKE_OP(move, 32, tou, .)
-{
-	if(FLAG_S)
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		REG_USP = AY;
-		return;
-	}
-	m68ki_exception_privilege_violation();
-}
-
-
-M68KMAKE_OP(movec, 32, cr, .)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-
-			m68ki_trace_t0();		   /* auto-disable (see m68kcpu.h) */
-			switch (word2 & 0xfff)
-			{
-			case 0x000:			   /* SFC */
-				REG_DA[(word2 >> 12) & 15] = REG_SFC;
-				return;
-			case 0x001:			   /* DFC */
-				REG_DA[(word2 >> 12) & 15] = REG_DFC;
-				return;
-			case 0x002:			   /* CACR */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					REG_DA[(word2 >> 12) & 15] = REG_CACR;
-					return;
-				}
-				return;
-			case 0x800:			   /* USP */
-				REG_DA[(word2 >> 12) & 15] = REG_USP;
-				return;
-			case 0x801:			   /* VBR */
-				REG_DA[(word2 >> 12) & 15] = REG_VBR;
-				return;
-			case 0x802:			   /* CAAR */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					REG_DA[(word2 >> 12) & 15] = REG_CAAR;
-					return;
-				}
-				m68ki_exception_illegal();
-				break;
-			case 0x803:			   /* MSP */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					REG_DA[(word2 >> 12) & 15] = FLAG_M ? REG_SP : REG_MSP;
-					return;
-				}
-				m68ki_exception_illegal();
-				return;
-			case 0x804:			   /* ISP */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					REG_DA[(word2 >> 12) & 15] = FLAG_M ? REG_ISP : REG_SP;
-					return;
-				}
-				m68ki_exception_illegal();
-				return;
-			default:
-				m68ki_exception_illegal();
-				return;
-			}
-		}
-		m68ki_exception_privilege_violation();
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(movec, 32, rc, .)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-
-			m68ki_trace_t0();		   /* auto-disable (see m68kcpu.h) */
-			switch (word2 & 0xfff)
-			{
-			case 0x000:			   /* SFC */
-				REG_SFC = REG_DA[(word2 >> 12) & 15] & 7;
-				return;
-			case 0x001:			   /* DFC */
-				REG_DFC = REG_DA[(word2 >> 12) & 15] & 7;
-				return;
-			case 0x002:			   /* CACR */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					REG_CACR = REG_DA[(word2 >> 12) & 15];
-					return;
-				}
-				m68ki_exception_illegal();
-				return;
-			case 0x800:			   /* USP */
-				REG_USP = REG_DA[(word2 >> 12) & 15];
-				return;
-			case 0x801:			   /* VBR */
-				REG_VBR = REG_DA[(word2 >> 12) & 15];
-				return;
-			case 0x802:			   /* CAAR */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					REG_CAAR = REG_DA[(word2 >> 12) & 15];
-					return;
-				}
-				m68ki_exception_illegal();
-				return;
-			case 0x803:			   /* MSP */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					/* we are in supervisor mode so just check for M flag */
-					if(!FLAG_M)
-					{
-						REG_MSP = REG_DA[(word2 >> 12) & 15];
-						return;
-					}
-					REG_SP = REG_DA[(word2 >> 12) & 15];
-					return;
-				}
-				m68ki_exception_illegal();
-				return;
-			case 0x804:			   /* ISP */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					if(!FLAG_M)
-					{
-						REG_SP = REG_DA[(word2 >> 12) & 15];
-						return;
-					}
-					REG_ISP = REG_DA[(word2 >> 12) & 15];
-					return;
-				}
-				m68ki_exception_illegal();
-				return;
-			default:
-				m68ki_exception_illegal();
-				return;
-			}
-		}
-		m68ki_exception_privilege_violation();
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(movem, 16, re, pd)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = AY;
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			ea -= 2;
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_DA[15-i]));
-			count++;
-		}
-	AY = ea;
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-M68KMAKE_OP(movem, 16, re, .)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_DA[i]));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-M68KMAKE_OP(movem, 32, re, pd)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = AY;
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			ea -= 4;
-			m68ki_write_32(ea, REG_DA[15-i]);
-			count++;
-		}
-	AY = ea;
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-M68KMAKE_OP(movem, 32, re, .)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			m68ki_write_32(ea, REG_DA[i]);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-M68KMAKE_OP(movem, 16, er, pi)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = AY;
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = MAKE_INT_16(MASK_OUT_ABOVE_16(m68ki_read_16(ea)));
-			ea += 2;
-			count++;
-		}
-	AY = ea;
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-M68KMAKE_OP(movem, 16, er, pcdi)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_PCDI_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = MAKE_INT_16(MASK_OUT_ABOVE_16(m68ki_read_pcrel_16(ea)));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-M68KMAKE_OP(movem, 16, er, pcix)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_PCIX_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = MAKE_INT_16(MASK_OUT_ABOVE_16(m68ki_read_pcrel_16(ea)));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-M68KMAKE_OP(movem, 16, er, .)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = MAKE_INT_16(MASK_OUT_ABOVE_16(m68ki_read_16(ea)));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-M68KMAKE_OP(movem, 32, er, pi)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = AY;
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = m68ki_read_32(ea);
-			ea += 4;
-			count++;
-		}
-	AY = ea;
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-M68KMAKE_OP(movem, 32, er, pcdi)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_PCDI_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = m68ki_read_pcrel_32(ea);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-M68KMAKE_OP(movem, 32, er, pcix)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_PCIX_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = m68ki_read_pcrel_32(ea);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-M68KMAKE_OP(movem, 32, er, .)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = m68ki_read_32(ea);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-M68KMAKE_OP(movep, 16, re, .)
-{
-	uint ea = EA_AY_DI_16();
-	uint src = DX;
-
-	m68ki_write_8(ea, MASK_OUT_ABOVE_8(src >> 8));
-	m68ki_write_8(ea += 2, MASK_OUT_ABOVE_8(src));
-}
-
-
-M68KMAKE_OP(movep, 32, re, .)
-{
-	uint ea = EA_AY_DI_32();
-	uint src = DX;
-
-	m68ki_write_8(ea, MASK_OUT_ABOVE_8(src >> 24));
-	m68ki_write_8(ea += 2, MASK_OUT_ABOVE_8(src >> 16));
-	m68ki_write_8(ea += 2, MASK_OUT_ABOVE_8(src >> 8));
-	m68ki_write_8(ea += 2, MASK_OUT_ABOVE_8(src));
-}
-
-
-M68KMAKE_OP(movep, 16, er, .)
-{
-	uint ea = EA_AY_DI_16();
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | ((m68ki_read_8(ea) << 8) + m68ki_read_8(ea + 2));
-}
-
-
-M68KMAKE_OP(movep, 32, er, .)
-{
-	uint ea = EA_AY_DI_32();
-
-	DX = (m68ki_read_8(ea) << 24) + (m68ki_read_8(ea + 2) << 16)
-		+ (m68ki_read_8(ea + 4) << 8) + m68ki_read_8(ea + 6);
-}
-
-
-M68KMAKE_OP(moves, 8, ., .)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = M68KMAKE_GET_EA_AY_8;
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_8_fc(ea, REG_DFC, MASK_OUT_ABOVE_8(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_8(m68ki_read_8_fc(ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_8(REG_D[(word2 >> 12) & 7]) | m68ki_read_8_fc(ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation();
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(moves, 16, ., .)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = M68KMAKE_GET_EA_AY_16;
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_16_fc(ea, REG_DFC, MASK_OUT_ABOVE_16(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_16(m68ki_read_16_fc(ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_16(REG_D[(word2 >> 12) & 7]) | m68ki_read_16_fc(ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation();
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(moves, 32, ., .)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = M68KMAKE_GET_EA_AY_32;
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_32_fc(ea, REG_DFC, REG_DA[(word2 >> 12) & 15]);
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to register */
-			REG_DA[(word2 >> 12) & 15] = m68ki_read_32_fc(ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation();
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(moveq, 32, ., .)
-{
-	uint res = DX = MAKE_INT_8(MASK_OUT_ABOVE_8(REG_IR));
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(muls, 16, ., d)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_32(MAKE_INT_16(DY) * MAKE_INT_16(MASK_OUT_ABOVE_16(*r_dst)));
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(muls, 16, ., .)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_32(MAKE_INT_16(M68KMAKE_GET_OPER_AY_16) * MAKE_INT_16(MASK_OUT_ABOVE_16(*r_dst)));
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(mulu, 16, ., d)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_16(DY) * MASK_OUT_ABOVE_16(*r_dst);
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(mulu, 16, ., .)
-{
-	uint* r_dst = &DX;
-	uint res = M68KMAKE_GET_OPER_AY_16 * MASK_OUT_ABOVE_16(*r_dst);
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(mull, 32, ., d)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 src = DY;
-		uint64 dst = REG_D[(word2 >> 12) & 7];
-		uint64 res;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			res = (sint64)((sint32)src) * (sint64)((sint32)dst);
-			if(!BIT_A(word2))
-			{
-				FLAG_Z = MASK_OUT_ABOVE_32(res);
-				FLAG_N = NFLAG_32(res);
-				FLAG_V = ((sint64)res != (sint32)res)<<7;
-				REG_D[(word2 >> 12) & 7] = FLAG_Z;
-				return;
-			}
-			FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-			FLAG_N = NFLAG_64(res);
-			FLAG_V = VFLAG_CLEAR;
-			REG_D[word2 & 7] = (res >> 32);
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-			return;
-		}
-
-		res = src * dst;
-		if(!BIT_A(word2))
-		{
-			FLAG_Z = MASK_OUT_ABOVE_32(res);
-			FLAG_N = NFLAG_32(res);
-			FLAG_V = (res > 0xffffffff)<<7;
-			REG_D[(word2 >> 12) & 7] = FLAG_Z;
-			return;
-		}
-		FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-		FLAG_N = NFLAG_64(res);
-		FLAG_V = VFLAG_CLEAR;
-		REG_D[word2 & 7] = (res >> 32);
-		REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-		return;
-	}
-	m68ki_exception_illegal();
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint src = DY;
-		uint dst = REG_D[(word2 >> 12) & 7];
-		uint neg = GET_MSB_32(src ^ dst);
-		uint src1;
-		uint src2;
-		uint dst1;
-		uint dst2;
-		uint r1;
-		uint r2;
-		uint r3;
-		uint r4;
-		uint lo;
-		uint hi;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			if(GET_MSB_32(src))
-				src = (uint)MASK_OUT_ABOVE_32(-(sint)src);
-			if(GET_MSB_32(dst))
-				dst = (uint)MASK_OUT_ABOVE_32(-(sint)dst);
-		}
-
-		src1 = MASK_OUT_ABOVE_16(src);
-		src2 = src>>16;
-		dst1 = MASK_OUT_ABOVE_16(dst);
-		dst2 = dst>>16;
-
-
-		r1 = src1 * dst1;
-		r2 = src1 * dst2;
-		r3 = src2 * dst1;
-		r4 = src2 * dst2;
-
-		lo = r1 + (MASK_OUT_ABOVE_16(r2)<<16) + (MASK_OUT_ABOVE_16(r3)<<16);
-		hi = r4 + (r2>>16) + (r3>>16) + (((r1>>16) + MASK_OUT_ABOVE_16(r2) + MASK_OUT_ABOVE_16(r3)) >> 16);
-
-		if(BIT_B(word2) && neg)
-		{
-			hi = (uint)MASK_OUT_ABOVE_32((-(sint)hi) - (lo != 0));
-			lo = (uint)MASK_OUT_ABOVE_32(-(sint)lo);
-		}
-
-		if(BIT_A(word2))
-		{
-			REG_D[word2 & 7] = hi;
-			REG_D[(word2 >> 12) & 7] = lo;
-			FLAG_N = NFLAG_32(hi);
-			FLAG_Z = hi | lo;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		REG_D[(word2 >> 12) & 7] = lo;
-		FLAG_N = NFLAG_32(lo);
-		FLAG_Z = lo;
-		if(BIT_B(word2))
-			FLAG_V = (!((GET_MSB_32(lo) && hi == 0xffffffff) || (!GET_MSB_32(lo) && !hi)))<<7;
-		else
-			FLAG_V = (hi != 0) << 7;
-		return;
-	}
-	m68ki_exception_illegal();
-
-#endif
-}
-
-
-M68KMAKE_OP(mull, 32, ., .)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 src = M68KMAKE_GET_OPER_AY_32;
-		uint64 dst = REG_D[(word2 >> 12) & 7];
-		uint64 res;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			res = (sint64)((sint32)src) * (sint64)((sint32)dst);
-			if(!BIT_A(word2))
-			{
-				FLAG_Z = MASK_OUT_ABOVE_32(res);
-				FLAG_N = NFLAG_32(res);
-				FLAG_V = ((sint64)res != (sint32)res)<<7;
-				REG_D[(word2 >> 12) & 7] = FLAG_Z;
-				return;
-			}
-			FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-			FLAG_N = NFLAG_64(res);
-			FLAG_V = VFLAG_CLEAR;
-			REG_D[word2 & 7] = (res >> 32);
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-			return;
-		}
-
-		res = src * dst;
-		if(!BIT_A(word2))
-		{
-			FLAG_Z = MASK_OUT_ABOVE_32(res);
-			FLAG_N = NFLAG_32(res);
-			FLAG_V = (res > 0xffffffff)<<7;
-			REG_D[(word2 >> 12) & 7] = FLAG_Z;
-			return;
-		}
-		FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-		FLAG_N = NFLAG_64(res);
-		FLAG_V = VFLAG_CLEAR;
-		REG_D[word2 & 7] = (res >> 32);
-		REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-		return;
-	}
-	m68ki_exception_illegal();
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint src = M68KMAKE_GET_OPER_AY_32;
-		uint dst = REG_D[(word2 >> 12) & 7];
-		uint neg = GET_MSB_32(src ^ dst);
-		uint src1;
-		uint src2;
-		uint dst1;
-		uint dst2;
-		uint r1;
-		uint r2;
-		uint r3;
-		uint r4;
-		uint lo;
-		uint hi;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			if(GET_MSB_32(src))
-				src = (uint)MASK_OUT_ABOVE_32(-(sint)src);
-			if(GET_MSB_32(dst))
-				dst = (uint)MASK_OUT_ABOVE_32(-(sint)dst);
-		}
-
-		src1 = MASK_OUT_ABOVE_16(src);
-		src2 = src>>16;
-		dst1 = MASK_OUT_ABOVE_16(dst);
-		dst2 = dst>>16;
-
-
-		r1 = src1 * dst1;
-		r2 = src1 * dst2;
-		r3 = src2 * dst1;
-		r4 = src2 * dst2;
-
-		lo = r1 + (MASK_OUT_ABOVE_16(r2)<<16) + (MASK_OUT_ABOVE_16(r3)<<16);
-		hi = r4 + (r2>>16) + (r3>>16) + (((r1>>16) + MASK_OUT_ABOVE_16(r2) + MASK_OUT_ABOVE_16(r3)) >> 16);
-
-		if(BIT_B(word2) && neg)
-		{
-			hi = (uint)MASK_OUT_ABOVE_32((-(sint)hi) - (lo != 0));
-			lo = (uint)MASK_OUT_ABOVE_32(-(sint)lo);
-		}
-
-		if(BIT_A(word2))
-		{
-			REG_D[word2 & 7] = hi;
-			REG_D[(word2 >> 12) & 7] = lo;
-			FLAG_N = NFLAG_32(hi);
-			FLAG_Z = hi | lo;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		REG_D[(word2 >> 12) & 7] = lo;
-		FLAG_N = NFLAG_32(lo);
-		FLAG_Z = lo;
-		if(BIT_B(word2))
-			FLAG_V = (!((GET_MSB_32(lo) && hi == 0xffffffff) || (!GET_MSB_32(lo) && !hi)))<<7;
-		else
-			FLAG_V = (hi != 0) << 7;
-		return;
-	}
-	m68ki_exception_illegal();
-
-#endif
-}
-
-
-M68KMAKE_OP(nbcd, 8, ., d)
-{
-	uint* r_dst = &DY;
-	uint dst = *r_dst;
-	uint res = MASK_OUT_ABOVE_8(0x9a - dst - XFLAG_AS_1());
-
-	if(res != 0x9a)
-	{
-		FLAG_V = ~res; /* Undefined V behavior */
-
-		if((res & 0x0f) == 0xa)
-			res = (res & 0xf0) + 0x10;
-
-		res = MASK_OUT_ABOVE_8(res);
-
-		FLAG_V &= res; /* Undefined V behavior part II */
-
-		*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-		FLAG_Z |= res;
-		FLAG_C = CFLAG_SET;
-		FLAG_X = XFLAG_SET;
-	}
-	else
-	{
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-	}
-	FLAG_N = NFLAG_8(res);	/* Undefined N behavior */
-}
-
-
-M68KMAKE_OP(nbcd, 8, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint dst = m68ki_read_8(ea);
-	uint res = MASK_OUT_ABOVE_8(0x9a - dst - XFLAG_AS_1());
-
-	if(res != 0x9a)
-	{
-		FLAG_V = ~res; /* Undefined V behavior */
-
-		if((res & 0x0f) == 0xa)
-			res = (res & 0xf0) + 0x10;
-
-		res = MASK_OUT_ABOVE_8(res);
-
-		FLAG_V &= res; /* Undefined V behavior part II */
-
-		m68ki_write_8(ea, MASK_OUT_ABOVE_8(res));
-
-		FLAG_Z |= res;
-		FLAG_C = CFLAG_SET;
-		FLAG_X = XFLAG_SET;
-	}
-	else
-	{
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-	}
-	FLAG_N = NFLAG_8(res);	/* Undefined N behavior */
-}
-
-
-M68KMAKE_OP(neg, 8, ., d)
-{
-	uint* r_dst = &DY;
-	uint res = 0 - MASK_OUT_ABOVE_8(*r_dst);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = FLAG_X = CFLAG_8(res);
-	FLAG_V = *r_dst & res;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(neg, 8, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = FLAG_X = CFLAG_8(res);
-	FLAG_V = src & res;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(neg, 16, ., d)
-{
-	uint* r_dst = &DY;
-	uint res = 0 - MASK_OUT_ABOVE_16(*r_dst);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = FLAG_X = CFLAG_16(res);
-	FLAG_V = (*r_dst & res)>>8;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(neg, 16, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = FLAG_X = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(neg, 32, ., d)
-{
-	uint* r_dst = &DY;
-	uint res = 0 - *r_dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_C = FLAG_X = CFLAG_SUB_32(*r_dst, 0, res);
-	FLAG_V = (*r_dst & res)>>24;
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-M68KMAKE_OP(neg, 32, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_C = FLAG_X = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(negx, 8, ., d)
-{
-	uint* r_dst = &DY;
-	uint res = 0 - MASK_OUT_ABOVE_8(*r_dst) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = *r_dst & res;
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-}
-
-
-M68KMAKE_OP(negx, 8, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = src & res;
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(negx, 16, ., d)
-{
-	uint* r_dst = &DY;
-	uint res = 0 - MASK_OUT_ABOVE_16(*r_dst) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = (*r_dst & res)>>8;
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-}
-
-
-M68KMAKE_OP(negx, 16, ., .)
-{
-	uint ea  = M68KMAKE_GET_EA_AY_16;
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - MASK_OUT_ABOVE_16(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	m68ki_write_16(ea, res);
-}
-
-
-M68KMAKE_OP(negx, 32, ., d)
-{
-	uint* r_dst = &DY;
-	uint res = 0 - MASK_OUT_ABOVE_32(*r_dst) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(*r_dst, 0, res);
-	FLAG_V = (*r_dst & res)>>24;
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	*r_dst = res;
-}
-
-
-M68KMAKE_OP(negx, 32, ., .)
-{
-	uint ea  = M68KMAKE_GET_EA_AY_32;
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - MASK_OUT_ABOVE_32(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	m68ki_write_32(ea, res);
-}
-
-
-M68KMAKE_OP(nop, 0, ., .)
-{
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-}
-
-
-M68KMAKE_OP(not, 8, ., d)
-{
-	uint* r_dst = &DY;
-	uint res = MASK_OUT_ABOVE_8(~*r_dst);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(not, 8, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint res = MASK_OUT_ABOVE_8(~m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(not, 16, ., d)
-{
-	uint* r_dst = &DY;
-	uint res = MASK_OUT_ABOVE_16(~*r_dst);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(not, 16, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint res = MASK_OUT_ABOVE_16(~m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(not, 32, ., d)
-{
-	uint* r_dst = &DY;
-	uint res = *r_dst = MASK_OUT_ABOVE_32(~*r_dst);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(not, 32, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint res = MASK_OUT_ABOVE_32(~m68ki_read_32(ea));
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(or, 8, er, d)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= MASK_OUT_ABOVE_8(DY)));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(or, 8, er, .)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= M68KMAKE_GET_OPER_AY_8));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(or, 16, er, d)
-{
-	uint res = MASK_OUT_ABOVE_16((DX |= MASK_OUT_ABOVE_16(DY)));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(or, 16, er, .)
-{
-	uint res = MASK_OUT_ABOVE_16((DX |= M68KMAKE_GET_OPER_AY_16));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(or, 32, er, d)
-{
-	uint res = DX |= DY;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(or, 32, er, .)
-{
-	uint res = DX |= M68KMAKE_GET_OPER_AY_32;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(or, 8, re, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint res = MASK_OUT_ABOVE_8(DX | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(or, 16, re, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint res = MASK_OUT_ABOVE_16(DX | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(or, 32, re, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint res = DX | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ori, 8, ., d)
-{
-	uint res = MASK_OUT_ABOVE_8((DY |= OPER_I_8()));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ori, 8, ., .)
-{
-	uint src = OPER_I_8();
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint res = MASK_OUT_ABOVE_8(src | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ori, 16, ., d)
-{
-	uint res = MASK_OUT_ABOVE_16(DY |= OPER_I_16());
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ori, 16, ., .)
-{
-	uint src = OPER_I_16();
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint res = MASK_OUT_ABOVE_16(src | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ori, 32, ., d)
-{
-	uint res = DY |= OPER_I_32();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ori, 32, ., .)
-{
-	uint src = OPER_I_32();
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint res = src | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ori, 16, toc, .)
-{
-	m68ki_set_ccr(m68ki_get_ccr() | OPER_I_16());
-}
-
-
-M68KMAKE_OP(ori, 16, tos, .)
-{
-	if(FLAG_S)
-	{
-		uint src = OPER_I_16();
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(m68ki_get_sr() | src);
-		return;
-	}
-	m68ki_exception_privilege_violation();
-}
-
-
-M68KMAKE_OP(pack, 16, rr, .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: DX and DY are reversed in Motorola's docs */
-		uint src = DY + OPER_I_16();
-		uint* r_dst = &DX;
-
-		*r_dst = MASK_OUT_BELOW_8(*r_dst) | ((src >> 4) & 0x00f0) | (src & 0x000f);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(pack, 16, mm, ax7)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: AX and AY are reversed in Motorola's docs */
-		uint ea_src = EA_AY_PD_8();
-		uint src = m68ki_read_8(ea_src);
-		ea_src = EA_AY_PD_8();
-		src = ((src << 8) | m68ki_read_8(ea_src)) + OPER_I_16();
-
-		m68ki_write_8(EA_A7_PD_8(), ((src >> 4) & 0x00f0) | (src & 0x000f));
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(pack, 16, mm, ay7)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: AX and AY are reversed in Motorola's docs */
-		uint ea_src = EA_A7_PD_8();
-		uint src = m68ki_read_8(ea_src);
-		ea_src = EA_A7_PD_8();
-		src = ((src << 8) | m68ki_read_8(ea_src)) + OPER_I_16();
-
-		m68ki_write_8(EA_AX_PD_8(), ((src >> 4) & 0x00f0) | (src & 0x000f));
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(pack, 16, mm, axy7)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint ea_src = EA_A7_PD_8();
-		uint src = m68ki_read_8(ea_src);
-		ea_src = EA_A7_PD_8();
-		src = ((src << 8) | m68ki_read_8(ea_src)) + OPER_I_16();
-
-		m68ki_write_8(EA_A7_PD_8(), ((src >> 4) & 0x00f0) | (src & 0x000f));
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(pack, 16, mm, .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: AX and AY are reversed in Motorola's docs */
-		uint ea_src = EA_AY_PD_8();
-		uint src = m68ki_read_8(ea_src);
-		ea_src = EA_AY_PD_8();
-		src = ((src << 8) | m68ki_read_8(ea_src)) + OPER_I_16();
-
-		m68ki_write_8(EA_AX_PD_8(), ((src >> 4) & 0x00f0) | (src & 0x000f));
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(pea, 32, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_32;
-
-	m68ki_push_32(ea);
-}
-
-
-M68KMAKE_OP(reset, 0, ., .)
-{
-	if(FLAG_S)
-	{
-		m68ki_output_reset();		   /* auto-disable (see m68kcpu.h) */
-		USE_CYCLES(CYC_RESET);
-		return;
-	}
-	m68ki_exception_privilege_violation();
-}
-
-
-M68KMAKE_OP(ror, 8, s, .)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint shift = orig_shift & 7;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = ROR_8(src, shift);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = src << (9-orig_shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ror, 16, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = ROR_16(src, shift);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src << (9-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ror, 32, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint64 src = *r_dst;
-	uint res = ROR_32(src, shift);
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = src << (9-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ror, 8, r, .)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift & 7;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = ROR_8(src, shift);
-
-	if(orig_shift != 0)
-	{
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-		FLAG_C = src << (8-((shift-1)&7));
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_8(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ror, 16, r, .)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift & 15;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = ROR_16(src, shift);
-
-	if(orig_shift != 0)
-	{
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		FLAG_C = (src >> ((shift - 1) & 15)) << 8;
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_16(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ror, 32, r, .)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift & 31;
-	uint64 src = *r_dst;
-	uint res = ROR_32(src, shift);
-
-	if(orig_shift != 0)
-	{
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		*r_dst = res;
-		FLAG_C = (src >> ((shift - 1) & 31)) << 8;
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_32(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(ror, 16, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_16(src, 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(rol, 8, s, .)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint shift = orig_shift & 7;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = ROL_8(src, shift);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = src << orig_shift;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(rol, 16, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = ROL_16(src, shift);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src >> (8-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(rol, 32, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint64 src = *r_dst;
-	uint res = ROL_32(src, shift);
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = src >> (24-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(rol, 8, r, .)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift & 7;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = ROL_8(src, shift);
-
-	if(orig_shift != 0)
-	{
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		if(shift != 0)
-		{
-			*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-			FLAG_C = src << shift;
-			FLAG_N = NFLAG_8(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-		FLAG_C = (src & 1)<<8;
-		FLAG_N = NFLAG_8(src);
-		FLAG_Z = src;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_8(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(rol, 16, r, .)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift & 15;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = MASK_OUT_ABOVE_16(ROL_16(src, shift));
-
-	if(orig_shift != 0)
-	{
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		if(shift != 0)
-		{
-			*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-			FLAG_C = (src << shift) >> 8;
-			FLAG_N = NFLAG_16(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-		FLAG_C = (src & 1)<<8;
-		FLAG_N = NFLAG_16(src);
-		FLAG_Z = src;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_16(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(rol, 32, r, .)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift & 31;
-	uint64 src = *r_dst;
-	uint res = ROL_32(src, shift);
-
-	if(orig_shift != 0)
-	{
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		*r_dst = res;
-
-		FLAG_C = (src >> (32 - shift)) << 8;
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_32(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(rol, 16, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(ROL_16(src, 1));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(roxr, 8, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = ROR_9(src | (XFLAG_AS_1() << 8), shift);
-
-	FLAG_C = FLAG_X = res;
-	res = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(roxr, 16, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = ROR_17(src | (XFLAG_AS_1() << 16), shift);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(roxr, 32, s, .)
-{
-#if M68K_USE_64_BIT
-
-	uint*  r_dst = &DY;
-	uint   shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint64 src   = *r_dst;
-	uint64 res   = src | (((uint64)XFLAG_AS_1()) << 32);
-
-	res = ROR_33_64(res, shift);
-
-	FLAG_C = FLAG_X = res >> 24;
-	res = MASK_OUT_ABOVE_32(res);
-
-	*r_dst =  res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-
-#else
-
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32((ROR_33(src, shift) & ~(1 << (32 - shift))) | (XFLAG_AS_1() << (32 - shift)));
-	uint new_x_flag = src & (1 << (shift - 1));
-
-	*r_dst = res;
-
-	FLAG_C = FLAG_X = (new_x_flag != 0)<<8;
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-
-#endif
-}
-
-
-M68KMAKE_OP(roxr, 8, r, .)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-
-	if(orig_shift != 0)
-	{
-		uint shift = orig_shift % 9;
-		uint src   = MASK_OUT_ABOVE_8(*r_dst);
-		uint res   = ROR_9(src | (XFLAG_AS_1() << 8), shift);
-
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		FLAG_C = FLAG_X = res;
-		res = MASK_OUT_ABOVE_8(res);
-
-		*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_8(*r_dst);
-	FLAG_Z = MASK_OUT_ABOVE_8(*r_dst);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(roxr, 16, r, .)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-
-	if(orig_shift != 0)
-	{
-		uint shift = orig_shift % 17;
-		uint src   = MASK_OUT_ABOVE_16(*r_dst);
-		uint res   = ROR_17(src | (XFLAG_AS_1() << 16), shift);
-
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		FLAG_C = FLAG_X = res >> 8;
-		res = MASK_OUT_ABOVE_16(res);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_16(*r_dst);
-	FLAG_Z = MASK_OUT_ABOVE_16(*r_dst);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(roxr, 32, r, .)
-{
-#if M68K_USE_64_BIT
-
-	uint*  r_dst = &DY;
-	uint   orig_shift = DX & 0x3f;
-
-	if(orig_shift != 0)
-	{
-		uint   shift = orig_shift % 33;
-		uint64 src   = *r_dst;
-		uint64 res   = src | (((uint64)XFLAG_AS_1()) << 32);
-
-		res = ROR_33_64(res, shift);
-
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		FLAG_C = FLAG_X = res >> 24;
-		res = MASK_OUT_ABOVE_32(res);
-
-		*r_dst = res;
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_32(*r_dst);
-	FLAG_Z = *r_dst;
-	FLAG_V = VFLAG_CLEAR;
-
-#else
-
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift % 33;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32((ROR_33(src, shift) & ~(1 << (32 - shift))) | (XFLAG_AS_1() << (32 - shift)));
-	uint new_x_flag = src & (1 << (shift - 1));
-
-	if(orig_shift != 0)
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-	if(shift != 0)
-	{
-		*r_dst = res;
-		FLAG_X = (new_x_flag != 0)<<8;
-	}
-	else
-		res = src;
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-
-#endif
-}
-
-
-M68KMAKE_OP(roxr, 16, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(roxl, 8, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = ROL_9(src | (XFLAG_AS_1() << 8), shift);
-
-	FLAG_C = FLAG_X = res;
-	res = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(roxl, 16, s, .)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = ROL_17(src | (XFLAG_AS_1() << 16), shift);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(roxl, 32, s, .)
-{
-#if M68K_USE_64_BIT
-
-	uint*  r_dst = &DY;
-	uint   shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint64 src   = *r_dst;
-	uint64 res   = src | (((uint64)XFLAG_AS_1()) << 32);
-
-	res = ROL_33_64(res, shift);
-
-	FLAG_C = FLAG_X = res >> 24;
-	res = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-
-#else
-
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32((ROL_33(src, shift) & ~(1 << (shift - 1))) | (XFLAG_AS_1() << (shift - 1)));
-	uint new_x_flag = src & (1 << (32 - shift));
-
-	*r_dst = res;
-
-	FLAG_C = FLAG_X = (new_x_flag != 0)<<8;
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-
-#endif
-}
-
-
-M68KMAKE_OP(roxl, 8, r, .)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-
-
-	if(orig_shift != 0)
-	{
-		uint shift = orig_shift % 9;
-		uint src   = MASK_OUT_ABOVE_8(*r_dst);
-		uint res   = ROL_9(src | (XFLAG_AS_1() << 8), shift);
-
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		FLAG_C = FLAG_X = res;
-		res = MASK_OUT_ABOVE_8(res);
-
-		*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_8(*r_dst);
-	FLAG_Z = MASK_OUT_ABOVE_8(*r_dst);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(roxl, 16, r, .)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-
-	if(orig_shift != 0)
-	{
-		uint shift = orig_shift % 17;
-		uint src   = MASK_OUT_ABOVE_16(*r_dst);
-		uint res   = ROL_17(src | (XFLAG_AS_1() << 16), shift);
-
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		FLAG_C = FLAG_X = res >> 8;
-		res = MASK_OUT_ABOVE_16(res);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_16(*r_dst);
-	FLAG_Z = MASK_OUT_ABOVE_16(*r_dst);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(roxl, 32, r, .)
-{
-#if M68K_USE_64_BIT
-
-	uint*  r_dst = &DY;
-	uint   orig_shift = DX & 0x3f;
-
-	if(orig_shift != 0)
-	{
-		uint   shift = orig_shift % 33;
-		uint64 src   = *r_dst;
-		uint64 res   = src | (((uint64)XFLAG_AS_1()) << 32);
-
-		res = ROL_33_64(res, shift);
-
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		FLAG_C = FLAG_X = res >> 24;
-		res = MASK_OUT_ABOVE_32(res);
-
-		*r_dst = res;
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_32(*r_dst);
-	FLAG_Z = *r_dst;
-	FLAG_V = VFLAG_CLEAR;
-
-#else
-
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift % 33;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32((ROL_33(src, shift) & ~(1 << (shift - 1))) | (XFLAG_AS_1() << (shift - 1)));
-	uint new_x_flag = src & (1 << (32 - shift));
-
-	if(orig_shift != 0)
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-	if(shift != 0)
-	{
-		*r_dst = res;
-		FLAG_X = (new_x_flag != 0)<<8;
-	}
-	else
-		res = src;
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-
-#endif
-}
-
-
-M68KMAKE_OP(roxl, 16, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint src = m68ki_read_16(ea);
-	uint res = ROL_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(rtd, 32, ., .)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		uint new_pc = m68ki_pull_32();
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		REG_A[7] = MASK_OUT_ABOVE_32(REG_A[7] + MAKE_INT_16(OPER_I_16()));
-		m68ki_jump(new_pc);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(rte, 32, ., .)
-{
-	if(FLAG_S)
-	{
-		uint new_sr;
-		uint new_pc;
-		uint format_word;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-
-		if(CPU_TYPE_IS_000(CPU_TYPE))
-		{
-			new_sr = m68ki_pull_16();
-			new_pc = m68ki_pull_32();
-			m68ki_jump(new_pc);
-			m68ki_set_sr(new_sr);
-			return;
-		}
-
-		if(CPU_TYPE_IS_010(CPU_TYPE))
-		{
-			format_word = m68ki_read_16(REG_A[7]+6) >> 12;
-			if(format_word == 0)
-			{
-				new_sr = m68ki_pull_16();
-				new_pc = m68ki_pull_32();
-				m68ki_fake_pull_16();	/* format word */
-				m68ki_jump(new_pc);
-				m68ki_set_sr(new_sr);
-				return;
-			}
-			/* Not handling bus fault (9) */
-			m68ki_exception_format_error();
-			return;
-		}
-
-		/* Otherwise it's 020 */
-rte_loop:
-		format_word = m68ki_read_16(REG_A[7]+6) >> 12;
-		switch(format_word)
-		{
-			case 0: /* Normal */
-				new_sr = m68ki_pull_16();
-				new_pc = m68ki_pull_32();
-				m68ki_fake_pull_16();	/* format word */
-				m68ki_jump(new_pc);
-				m68ki_set_sr(new_sr);
-				return;
-			case 1: /* Throwaway */
-				new_sr = m68ki_pull_16();
-				m68ki_fake_pull_32();	/* program counter */
-				m68ki_fake_pull_16();	/* format word */
-				m68ki_set_sr_noint(new_sr);
-				goto rte_loop;
-			case 2: /* Trap */
-				new_sr = m68ki_pull_16();
-				new_pc = m68ki_pull_32();
-				m68ki_fake_pull_16();	/* format word */
-				m68ki_fake_pull_32();	/* address */
-				m68ki_jump(new_pc);
-				m68ki_set_sr(new_sr);
-				return;
-		}
-		/* Not handling long or short bus fault */
-		m68ki_exception_format_error();
-		return;
-	}
-	m68ki_exception_privilege_violation();
-}
-
-
-M68KMAKE_OP(rtm, 32, ., .)
-{
-	if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(rtr, 32, ., .)
-{
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_set_ccr(m68ki_pull_16());
-	m68ki_jump(m68ki_pull_32());
-}
-
-
-M68KMAKE_OP(rts, 32, ., .)
-{
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_jump(m68ki_pull_32());
-}
-
-
-M68KMAKE_OP(sbcd, 8, rr, .)
-{
-	uint* r_dst = &DX;
-	uint src = DY;
-	uint dst = *r_dst;
-	uint res = LOW_NIBBLE(dst) - LOW_NIBBLE(src) - XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res -= 6;
-	res += HIGH_NIBBLE(dst) - HIGH_NIBBLE(src);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res += 0xa0;
-
-	res = MASK_OUT_ABOVE_8(res);
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-}
-
-
-M68KMAKE_OP(sbcd, 8, mm, ax7)
-{
-	uint src = OPER_AY_PD_8();
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(dst) - LOW_NIBBLE(src) - XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res -= 6;
-	res += HIGH_NIBBLE(dst) - HIGH_NIBBLE(src);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res += 0xa0;
-
-	res = MASK_OUT_ABOVE_8(res);
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(sbcd, 8, mm, ay7)
-{
-	uint src = OPER_A7_PD_8();
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(dst) - LOW_NIBBLE(src) - XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res -= 6;
-	res += HIGH_NIBBLE(dst) - HIGH_NIBBLE(src);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res += 0xa0;
-
-	res = MASK_OUT_ABOVE_8(res);
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(sbcd, 8, mm, axy7)
-{
-	uint src = OPER_A7_PD_8();
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(dst) - LOW_NIBBLE(src) - XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res -= 6;
-	res += HIGH_NIBBLE(dst) - HIGH_NIBBLE(src);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res += 0xa0;
-
-	res = MASK_OUT_ABOVE_8(res);
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(sbcd, 8, mm, .)
-{
-	uint src = OPER_AY_PD_8();
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(dst) - LOW_NIBBLE(src) - XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res -= 6;
-	res += HIGH_NIBBLE(dst) - HIGH_NIBBLE(src);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res += 0xa0;
-
-	res = MASK_OUT_ABOVE_8(res);
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(st, 8, ., d)
-{
-	DY |= 0xff;
-}
-
-
-M68KMAKE_OP(st, 8, ., .)
-{
-	m68ki_write_8(M68KMAKE_GET_EA_AY_8, 0xff);
-}
-
-
-M68KMAKE_OP(sf, 8, ., d)
-{
-	DY &= 0xffffff00;
-}
-
-
-M68KMAKE_OP(sf, 8, ., .)
-{
-	m68ki_write_8(M68KMAKE_GET_EA_AY_8, 0);
-}
-
-
-M68KMAKE_OP(scc, 8, ., d)
-{
-	if(M68KMAKE_CC)
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-M68KMAKE_OP(scc, 8, ., .)
-{
-	m68ki_write_8(M68KMAKE_GET_EA_AY_8, M68KMAKE_CC ? 0xff : 0);
-}
-
-
-M68KMAKE_OP(stop, 0, ., .)
-{
-	if(FLAG_S)
-	{
-		uint new_sr = OPER_I_16();
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		CPU_STOPPED |= STOP_LEVEL_STOP;
-		m68ki_set_sr(new_sr);
-		m68ki_remaining_cycles = 0;
-		return;
-	}
-	m68ki_exception_privilege_violation();
-}
-
-
-M68KMAKE_OP(sub, 8, er, d)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_8(DY);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(sub, 8, er, .)
-{
-	uint* r_dst = &DX;
-	uint src = M68KMAKE_GET_OPER_AY_8;
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(sub, 16, er, d)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(DY);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(sub, 16, er, a)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(AY);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(sub, 16, er, .)
-{
-	uint* r_dst = &DX;
-	uint src = M68KMAKE_GET_OPER_AY_16;
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(sub, 32, er, d)
-{
-	uint* r_dst = &DX;
-	uint src = DY;
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-M68KMAKE_OP(sub, 32, er, a)
-{
-	uint* r_dst = &DX;
-	uint src = AY;
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-M68KMAKE_OP(sub, 32, er, .)
-{
-	uint* r_dst = &DX;
-	uint src = M68KMAKE_GET_OPER_AY_32;
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-M68KMAKE_OP(sub, 8, re, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(sub, 16, re, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(sub, 32, re, .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(suba, 16, ., d)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(DY));
-}
-
-
-M68KMAKE_OP(suba, 16, ., a)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(AY));
-}
-
-
-M68KMAKE_OP(suba, 16, ., .)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(M68KMAKE_GET_OPER_AY_16));
-}
-
-
-M68KMAKE_OP(suba, 32, ., d)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - DY);
-}
-
-
-M68KMAKE_OP(suba, 32, ., a)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - AY);
-}
-
-
-M68KMAKE_OP(suba, 32, ., .)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - M68KMAKE_GET_OPER_AY_32);
-}
-
-
-M68KMAKE_OP(subi, 8, ., d)
-{
-	uint* r_dst = &DY;
-	uint src = OPER_I_8();
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(subi, 8, ., .)
-{
-	uint src = OPER_I_8();
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(subi, 16, ., d)
-{
-	uint* r_dst = &DY;
-	uint src = OPER_I_16();
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(subi, 16, ., .)
-{
-	uint src = OPER_I_16();
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(subi, 32, ., d)
-{
-	uint* r_dst = &DY;
-	uint src = OPER_I_32();
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-M68KMAKE_OP(subi, 32, ., .)
-{
-	uint src = OPER_I_32();
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(subq, 8, ., d)
-{
-	uint* r_dst = &DY;
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(subq, 8, ., .)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(subq, 16, ., d)
-{
-	uint* r_dst = &DY;
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-M68KMAKE_OP(subq, 16, ., a)
-{
-	uint* r_dst = &AY;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - ((((REG_IR >> 9) - 1) & 7) + 1));
-}
-
-
-M68KMAKE_OP(subq, 16, ., .)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = M68KMAKE_GET_EA_AY_16;
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(subq, 32, ., d)
-{
-	uint* r_dst = &DY;
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-M68KMAKE_OP(subq, 32, ., a)
-{
-	uint* r_dst = &AY;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - ((((REG_IR >> 9) - 1) & 7) + 1));
-}
-
-
-M68KMAKE_OP(subq, 32, ., .)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = M68KMAKE_GET_EA_AY_32;
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-M68KMAKE_OP(subx, 8, rr, .)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_8(DY);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-}
-
-
-M68KMAKE_OP(subx, 16, rr, .)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(DY);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-}
-
-
-M68KMAKE_OP(subx, 32, rr, .)
-{
-	uint* r_dst = &DX;
-	uint src = DY;
-	uint dst = *r_dst;
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	*r_dst = res;
-}
-
-
-M68KMAKE_OP(subx, 8, mm, ax7)
-{
-	uint src = OPER_AY_PD_8();
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(subx, 8, mm, ay7)
-{
-	uint src = OPER_A7_PD_8();
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(subx, 8, mm, axy7)
-{
-	uint src = OPER_A7_PD_8();
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(subx, 8, mm, .)
-{
-	uint src = OPER_AY_PD_8();
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-M68KMAKE_OP(subx, 16, mm, .)
-{
-	uint src = OPER_AY_PD_16();
-	uint ea  = EA_AX_PD_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	m68ki_write_16(ea, res);
-}
-
-
-M68KMAKE_OP(subx, 32, mm, .)
-{
-	uint src = OPER_AY_PD_32();
-	uint ea  = EA_AX_PD_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	m68ki_write_32(ea, res);
-}
-
-
-M68KMAKE_OP(swap, 32, ., .)
-{
-	uint* r_dst = &DY;
-
-	FLAG_Z = MASK_OUT_ABOVE_32(*r_dst<<16);
-	*r_dst = (*r_dst>>16) | FLAG_Z;
-
-	FLAG_Z = *r_dst;
-	FLAG_N = NFLAG_32(*r_dst);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(tas, 8, ., d)
-{
-	uint* r_dst = &DY;
-
-	FLAG_Z = MASK_OUT_ABOVE_8(*r_dst);
-	FLAG_N = NFLAG_8(*r_dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	*r_dst |= 0x80;
-}
-
-
-M68KMAKE_OP(tas, 8, ., .)
-{
-	uint ea = M68KMAKE_GET_EA_AY_8;
-	uint dst = m68ki_read_8(ea);
-
-	FLAG_Z = dst;
-	FLAG_N = NFLAG_8(dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	m68ki_write_8(ea, dst | 0x80);
-}
-
-
-M68KMAKE_OP(trap, 0, ., .)
-{
-	/* Trap#n stacks exception frame type 0 */
-	m68ki_exception_trapN(EXCEPTION_TRAP_BASE + (REG_IR & 0xf));	/* HJB 990403 */
-}
-
-
-M68KMAKE_OP(trapt, 0, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		m68ki_exception_trap(EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(trapt, 16, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		m68ki_exception_trap(EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(trapt, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		m68ki_exception_trap(EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(trapf, 0, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(trapf, 16, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(trapf, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(trapcc, 0, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(M68KMAKE_CC)
-			m68ki_exception_trap(EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(trapcc, 16, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(M68KMAKE_CC)
-		{
-			m68ki_exception_trap(EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(trapcc, 32, ., .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(M68KMAKE_CC)
-		{
-			m68ki_exception_trap(EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(trapv, 0, ., .)
-{
-	if(COND_VC())
-	{
-		return;
-	}
-	m68ki_exception_trap(EXCEPTION_TRAPV);  /* HJB 990403 */
-}
-
-
-M68KMAKE_OP(tst, 8, ., d)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(tst, 8, ., .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_8;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(tst, 8, ., pcdi)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_PCDI_8();
-
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(tst, 8, ., pcix)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_PCIX_8();
-
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(tst, 8, ., i)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_I_8();
-
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(tst, 16, ., d)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(tst, 16, ., a)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = MAKE_INT_16(AY);
-
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(tst, 16, ., .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_16;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(tst, 16, ., pcdi)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_PCDI_16();
-
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(tst, 16, ., pcix)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_PCIX_16();
-
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(tst, 16, ., i)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_I_16();
-
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(tst, 32, ., d)
-{
-	uint res = DY;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(tst, 32, ., a)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = AY;
-
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(tst, 32, ., .)
-{
-	uint res = M68KMAKE_GET_OPER_AY_32;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-M68KMAKE_OP(tst, 32, ., pcdi)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_PCDI_32();
-
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(tst, 32, ., pcix)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_PCIX_32();
-
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(tst, 32, ., i)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_I_32();
-
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(unlk, 32, ., a7)
-{
-	REG_A[7] = m68ki_read_32(REG_A[7]);
-}
-
-
-M68KMAKE_OP(unlk, 32, ., .)
-{
-	uint* r_dst = &AY;
-
-	REG_A[7] = *r_dst;
-	*r_dst = m68ki_pull_32();
-}
-
-
-M68KMAKE_OP(unpk, 16, rr, .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: DX and DY are reversed in Motorola's docs */
-		uint src = DY;
-		uint* r_dst = &DX;
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | (((((src << 4) & 0x0f00) | (src & 0x000f)) + OPER_I_16()) & 0xffff);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(unpk, 16, mm, ax7)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: AX and AY are reversed in Motorola's docs */
-		uint src = OPER_AY_PD_8();
-		uint ea_dst;
-
-		src = (((src << 4) & 0x0f00) | (src & 0x000f)) + OPER_I_16();
-		ea_dst = EA_A7_PD_8();
-		m68ki_write_8(ea_dst, (src >> 8) & 0xff);
-		ea_dst = EA_A7_PD_8();
-		m68ki_write_8(ea_dst, src & 0xff);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(unpk, 16, mm, ay7)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: AX and AY are reversed in Motorola's docs */
-		uint src = OPER_A7_PD_8();
-		uint ea_dst;
-
-		src = (((src << 4) & 0x0f00) | (src & 0x000f)) + OPER_I_16();
-		ea_dst = EA_AX_PD_8();
-		m68ki_write_8(ea_dst, (src >> 8) & 0xff);
-		ea_dst = EA_AX_PD_8();
-		m68ki_write_8(ea_dst, src & 0xff);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(unpk, 16, mm, axy7)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_A7_PD_8();
-		uint ea_dst;
-
-		src = (((src << 4) & 0x0f00) | (src & 0x000f)) + OPER_I_16();
-		ea_dst = EA_A7_PD_8();
-		m68ki_write_8(ea_dst, (src >> 8) & 0xff);
-		ea_dst = EA_A7_PD_8();
-		m68ki_write_8(ea_dst, src & 0xff);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-M68KMAKE_OP(unpk, 16, mm, .)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: AX and AY are reversed in Motorola's docs */
-		uint src = OPER_AY_PD_8();
-		uint ea_dst;
-
-		src = (((src << 4) & 0x0f00) | (src & 0x000f)) + OPER_I_16();
-		ea_dst = EA_AX_PD_8();
-		m68ki_write_8(ea_dst, (src >> 8) & 0xff);
-		ea_dst = EA_AX_PD_8();
-		m68ki_write_8(ea_dst, src & 0xff);
-		return;
-	}
-	m68ki_exception_illegal();
-}
-
-
-
-XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX
-M68KMAKE_END
diff --git a/plugins/ao/eng_ssf/m68kconf.h b/plugins/ao/eng_ssf/m68kconf.h
deleted file mode 100644
index 74c2dd22..00000000
--- a/plugins/ao/eng_ssf/m68kconf.h
+++ /dev/null
@@ -1,181 +0,0 @@
-/* ======================================================================== */
-/* ========================= LICENSING & COPYRIGHT ======================== */
-/* ======================================================================== */
-/*
- *                                  MUSASHI
- *                                Version 3.3
- *
- * A portable Motorola M680x0 processor emulation engine.
- * Copyright 1998-2001 Karl Stenerud.  All rights reserved.
- *
- * This code may be freely used for non-commercial purposes as long as this
- * copyright notice remains unaltered in the source code and any binary files
- * containing this code in compiled form.
- *
- * All other lisencing terms must be negotiated with the author
- * (Karl Stenerud).
- *
- * The latest version of this code can be obtained at:
- * http://kstenerud.cjb.net
- */
-
-
-
-#ifndef M68KCONF__HEADER
-#define M68KCONF__HEADER
-
-
-/* Configuration switches.
- * Use OPT_SPECIFY_HANDLER for configuration options that allow callbacks.
- * OPT_SPECIFY_HANDLER causes the core to link directly to the function
- * or macro you specify, rather than using callback functions whose pointer
- * must be passed in using m68k_set_xxx_callback().
- */
-#define OPT_OFF             0
-#define OPT_ON              1
-#define OPT_SPECIFY_HANDLER 2
-
-
-/* ======================================================================== */
-/* ============================== MAME STUFF ============================== */
-/* ======================================================================== */
-
-/* If you're compiling this for MAME, only change M68K_COMPILE_FOR_MAME
- * to OPT_ON and use m68kmame.h to configure the 68k core.
- */
-#ifndef M68K_COMPILE_FOR_MAME
-#define M68K_COMPILE_FOR_MAME      OPT_OFF
-#endif /* M68K_COMPILE_FOR_MAME */
-
-#if M68K_COMPILE_FOR_MAME == OPT_ON
-#include "m68kmame.h"
-#else
-
-
-
-/* ======================================================================== */
-/* ============================= CONFIGURATION ============================ */
-/* ======================================================================== */
-
-/* Turn ON if you want to use the following M68K variants */
-#define M68K_EMULATE_010            OPT_OFF
-#define M68K_EMULATE_EC020          OPT_OFF
-#define M68K_EMULATE_020            OPT_OFF
-
-
-/* If ON, the CPU will call m68k_read_immediate_xx() for immediate addressing
- * and m68k_read_pcrelative_xx() for PC-relative addressing.
- * If off, all read requests from the CPU will be redirected to m68k_read_xx()
- */
-#define M68K_SEPARATE_READS         OPT_OFF
-
-/* If ON, the CPU will call m68k_write_32_pd() when it executes move.l with a
- * predecrement destination EA mode instead of m68k_write_32().
- * To simulate real 68k behavior, m68k_write_32_pd() must first write the high
- * word to [address+2], and then write the low word to [address].
- */
-#define M68K_SIMULATE_PD_WRITES     OPT_OFF
-
-/* If ON, CPU will call the interrupt acknowledge callback when it services an
- * interrupt.
- * If off, all interrupts will be autovectored and all interrupt requests will
- * auto-clear when the interrupt is serviced.
- */
-#define M68K_EMULATE_INT_ACK        OPT_ON
-#define M68K_INT_ACK_CALLBACK(A)    your_int_ack_handler_function(A)
-
-
-/* If ON, CPU will call the breakpoint acknowledge callback when it encounters
- * a breakpoint instruction and it is running a 68010+.
- */
-#define M68K_EMULATE_BKPT_ACK       OPT_OFF
-#define M68K_BKPT_ACK_CALLBACK()    your_bkpt_ack_handler_function()
-
-
-/* If ON, the CPU will monitor the trace flags and take trace exceptions
- */
-#define M68K_EMULATE_TRACE          OPT_OFF
-
-
-/* If ON, CPU will call the output reset callback when it encounters a reset
- * instruction.
- */
-#define M68K_EMULATE_RESET          OPT_OFF
-#define M68K_RESET_CALLBACK()       your_reset_handler_function()
-
-
-/* If ON, CPU will call the set fc callback on every memory access to
- * differentiate between user/supervisor, program/data access like a real
- * 68000 would.  This should be enabled and the callback should be set if you
- * want to properly emulate the m68010 or higher. (moves uses function codes
- * to read/write data from different address spaces)
- */
-#define M68K_EMULATE_FC             OPT_OFF
-#define M68K_SET_FC_CALLBACK(A)     your_set_fc_handler_function(A)
-
-
-/* If ON, CPU will call the pc changed callback when it changes the PC by a
- * large value.  This allows host programs to be nicer when it comes to
- * fetching immediate data and instructions on a banked memory system.
- */
-#define M68K_MONITOR_PC             OPT_OFF
-#define M68K_SET_PC_CALLBACK(A)     your_pc_changed_handler_function(A)
-
-
-/* If ON, CPU will call the instruction hook callback before every
- * instruction.
- */
-#define M68K_INSTRUCTION_HOOK       OPT_OFF
-#define M68K_INSTRUCTION_CALLBACK() your_instruction_hook_function()
-
-
-/* If ON, the CPU will emulate the 4-byte prefetch queue of a real 68000 */
-#define M68K_EMULATE_PREFETCH       OPT_ON
-
-
-/* If ON, the CPU will generate address error exceptions if it tries to
- * access a word or longword at an odd address.
- * NOTE: Do not enable this!  It is not working!
- */
-#define M68K_EMULATE_ADDRESS_ERROR  OPT_OFF
-
-
-/* Turn ON to enable logging of illegal instruction calls.
- * M68K_LOG_FILEHANDLE must be #defined to a stdio file stream.
- * Turn on M68K_LOG_1010_1111 to log all 1010 and 1111 calls.
- */
-#define M68K_LOG_ENABLE             OPT_OFF
-#define M68K_LOG_1010_1111          OPT_OFF
-#define M68K_LOG_FILEHANDLE         some_file_handle
-
-
-/* ----------------------------- COMPATIBILITY ---------------------------- */
-
-/* The following options set optimizations that violate the current ANSI
- * standard, but will be compliant under the forthcoming C9X standard.
- */
-
-
-/* If ON, the enulation core will use 64-bit integers to speed up some
- * operations.
-*/
-#define M68K_USE_64_BIT  OPT_OFF
-
-
-/* Set to your compiler's static inline keyword to enable it, or
- * set it to blank to disable it.
- * If you define INLINE in the makefile, it will override this value.
- * NOTE: not enabling inline functions will SEVERELY slow down emulation.
- */
-#ifndef INLINE
-#define INLINE static __inline__
-#endif /* INLINE */
-
-#endif /* M68K_COMPILE_FOR_MAME */
-
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
-
-#endif /* M68KCONF__HEADER */
diff --git a/plugins/ao/eng_ssf/m68kcpu.c b/plugins/ao/eng_ssf/m68kcpu.c
deleted file mode 100644
index f9b442bc..00000000
--- a/plugins/ao/eng_ssf/m68kcpu.c
+++ /dev/null
@@ -1,859 +0,0 @@
-/* ======================================================================== */
-/* ========================= LICENSING & COPYRIGHT ======================== */
-/* ======================================================================== */
-
-#if 0
-static const char* copyright_notice =
-"MUSASHI\n"
-"Version 3.3 (2001-01-29)\n"
-"A portable Motorola M680x0 processor emulation engine.\n"
-"Copyright 1998-2001 Karl Stenerud.  All rights reserved.\n"
-"\n"
-"This code may be freely used for non-commercial purpooses as long as this\n"
-"copyright notice remains unaltered in the source code and any binary files\n"
-"containing this code in compiled form.\n"
-"\n"
-"All other lisencing terms must be negotiated with the author\n"
-"(Karl Stenerud).\n"
-"\n"
-"The latest version of this code can be obtained at:\n"
-"http://kstenerud.cjb.net\n"
-;
-#endif
-
-
-/* ======================================================================== */
-/* ================================= NOTES ================================ */
-/* ======================================================================== */
-
-
-
-/* ======================================================================== */
-/* ================================ INCLUDES ============================== */
-/* ======================================================================== */
-
-#include <stdlib.h>
-#include <string.h>
-#include "m68kops.h"
-#include "m68kcpu.h"
-
-/* ======================================================================== */
-/* ================================= DATA ================================= */
-/* ======================================================================== */
-
-#ifdef M68K_LOG_ENABLE
-char* m68ki_cpu_names[9] =
-{
-	"Invalid CPU",
-	"M68000",
-	"M68010",
-	"Invalid CPU",
-	"M68EC020"
-	"Invalid CPU",
-	"Invalid CPU",
-	"Invalid CPU",
-	"M68020"
-};
-#endif /* M68K_LOG_ENABLE */
-
-/* Used by shift & rotate instructions */
-uint8 m68ki_shift_8_table[65] =
-{
-	0x00, 0x80, 0xc0, 0xe0, 0xf0, 0xf8, 0xfc, 0xfe, 0xff, 0xff, 0xff, 0xff,
-	0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
-	0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
-	0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
-	0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff,
-	0xff, 0xff, 0xff, 0xff, 0xff
-};
-uint16 m68ki_shift_16_table[65] =
-{
-	0x0000, 0x8000, 0xc000, 0xe000, 0xf000, 0xf800, 0xfc00, 0xfe00, 0xff00,
-	0xff80, 0xffc0, 0xffe0, 0xfff0, 0xfff8, 0xfffc, 0xfffe, 0xffff, 0xffff,
-	0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff,
-	0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff,
-	0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff,
-	0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff,
-	0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff,
-	0xffff, 0xffff
-};
-uint m68ki_shift_32_table[65] =
-{
-	0x00000000, 0x80000000, 0xc0000000, 0xe0000000, 0xf0000000, 0xf8000000,
-	0xfc000000, 0xfe000000, 0xff000000, 0xff800000, 0xffc00000, 0xffe00000,
-	0xfff00000, 0xfff80000, 0xfffc0000, 0xfffe0000, 0xffff0000, 0xffff8000,
-	0xffffc000, 0xffffe000, 0xfffff000, 0xfffff800, 0xfffffc00, 0xfffffe00,
-	0xffffff00, 0xffffff80, 0xffffffc0, 0xffffffe0, 0xfffffff0, 0xfffffff8,
-	0xfffffffc, 0xfffffffe, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff,
-	0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff,
-	0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff,
-	0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff,
-	0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff,
-	0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff
-};
-
-
-/* Number of clock cycles to use for exception processing.
- * I used 4 for any vectors that are undocumented for processing times.
- */
-uint8 m68ki_exception_cycle_table[3][256] =
-{
-	{ /* 000 */
-		  4, /*  0: Reset - Initial Stack Pointer                      */
-		  4, /*  1: Reset - Initial Program Counter                    */
-		 50, /*  2: Bus Error                             (unemulated) */
-		 50, /*  3: Address Error                         (unemulated) */
-		 34, /*  4: Illegal Instruction                                */
-		 38, /*  5: Divide by Zero -- ASG: changed from 42             */
-		 40, /*  6: CHK -- ASG: chanaged from 44                       */
-		 34, /*  7: TRAPV                                              */
-		 34, /*  8: Privilege Violation                                */
-		 34, /*  9: Trace                                              */
-		  4, /* 10: 1010                                               */
-		  4, /* 11: 1111                                               */
-		  4, /* 12: RESERVED                                           */
-		  4, /* 13: Coprocessor Protocol Violation        (unemulated) */
-		  4, /* 14: Format Error                                       */
-		 44, /* 15: Uninitialized Interrupt                            */
-		  4, /* 16: RESERVED                                           */
-		  4, /* 17: RESERVED                                           */
-		  4, /* 18: RESERVED                                           */
-		  4, /* 19: RESERVED                                           */
-		  4, /* 20: RESERVED                                           */
-		  4, /* 21: RESERVED                                           */
-		  4, /* 22: RESERVED                                           */
-		  4, /* 23: RESERVED                                           */
-		 44, /* 24: Spurious Interrupt                                 */
-		 44, /* 25: Level 1 Interrupt Autovector                       */
-		 44, /* 26: Level 2 Interrupt Autovector                       */
-		 44, /* 27: Level 3 Interrupt Autovector                       */
-		 44, /* 28: Level 4 Interrupt Autovector                       */
-		 44, /* 29: Level 5 Interrupt Autovector                       */
-		 44, /* 30: Level 6 Interrupt Autovector                       */
-		 44, /* 31: Level 7 Interrupt Autovector                       */
-		 34, /* 32: TRAP #0 -- ASG: chanaged from 38                   */
-		 34, /* 33: TRAP #1                                            */
-		 34, /* 34: TRAP #2                                            */
-		 34, /* 35: TRAP #3                                            */
-		 34, /* 36: TRAP #4                                            */
-		 34, /* 37: TRAP #5                                            */
-		 34, /* 38: TRAP #6                                            */
-		 34, /* 39: TRAP #7                                            */
-		 34, /* 40: TRAP #8                                            */
-		 34, /* 41: TRAP #9                                            */
-		 34, /* 42: TRAP #10                                           */
-		 34, /* 43: TRAP #11                                           */
-		 34, /* 44: TRAP #12                                           */
-		 34, /* 45: TRAP #13                                           */
-		 34, /* 46: TRAP #14                                           */
-		 34, /* 47: TRAP #15                                           */
-		  4, /* 48: FP Branch or Set on Unknown Condition (unemulated) */
-		  4, /* 49: FP Inexact Result                     (unemulated) */
-		  4, /* 50: FP Divide by Zero                     (unemulated) */
-		  4, /* 51: FP Underflow                          (unemulated) */
-		  4, /* 52: FP Operand Error                      (unemulated) */
-		  4, /* 53: FP Overflow                           (unemulated) */
-		  4, /* 54: FP Signaling NAN                      (unemulated) */
-		  4, /* 55: FP Unimplemented Data Type            (unemulated) */
-		  4, /* 56: MMU Configuration Error               (unemulated) */
-		  4, /* 57: MMU Illegal Operation Error           (unemulated) */
-		  4, /* 58: MMU Access Level Violation Error      (unemulated) */
-		  4, /* 59: RESERVED                                           */
-		  4, /* 60: RESERVED                                           */
-		  4, /* 61: RESERVED                                           */
-		  4, /* 62: RESERVED                                           */
-		  4, /* 63: RESERVED                                           */
-		     /* 64-255: User Defined                                   */
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4
-	},
-	{ /* 010 */
-		  4, /*  0: Reset - Initial Stack Pointer                      */
-		  4, /*  1: Reset - Initial Program Counter                    */
-		126, /*  2: Bus Error                             (unemulated) */
-		126, /*  3: Address Error                         (unemulated) */
-		 38, /*  4: Illegal Instruction                                */
-		 44, /*  5: Divide by Zero                                     */
-		 44, /*  6: CHK                                                */
-		 34, /*  7: TRAPV                                              */
-		 38, /*  8: Privilege Violation                                */
-		 38, /*  9: Trace                                              */
-		  4, /* 10: 1010                                               */
-		  4, /* 11: 1111                                               */
-		  4, /* 12: RESERVED                                           */
-		  4, /* 13: Coprocessor Protocol Violation        (unemulated) */
-		  4, /* 14: Format Error                                       */
-		 44, /* 15: Uninitialized Interrupt                            */
-		  4, /* 16: RESERVED                                           */
-		  4, /* 17: RESERVED                                           */
-		  4, /* 18: RESERVED                                           */
-		  4, /* 19: RESERVED                                           */
-		  4, /* 20: RESERVED                                           */
-		  4, /* 21: RESERVED                                           */
-		  4, /* 22: RESERVED                                           */
-		  4, /* 23: RESERVED                                           */
-		 46, /* 24: Spurious Interrupt                                 */
-		 46, /* 25: Level 1 Interrupt Autovector                       */
-		 46, /* 26: Level 2 Interrupt Autovector                       */
-		 46, /* 27: Level 3 Interrupt Autovector                       */
-		 46, /* 28: Level 4 Interrupt Autovector                       */
-		 46, /* 29: Level 5 Interrupt Autovector                       */
-		 46, /* 30: Level 6 Interrupt Autovector                       */
-		 46, /* 31: Level 7 Interrupt Autovector                       */
-		 38, /* 32: TRAP #0                                            */
-		 38, /* 33: TRAP #1                                            */
-		 38, /* 34: TRAP #2                                            */
-		 38, /* 35: TRAP #3                                            */
-		 38, /* 36: TRAP #4                                            */
-		 38, /* 37: TRAP #5                                            */
-		 38, /* 38: TRAP #6                                            */
-		 38, /* 39: TRAP #7                                            */
-		 38, /* 40: TRAP #8                                            */
-		 38, /* 41: TRAP #9                                            */
-		 38, /* 42: TRAP #10                                           */
-		 38, /* 43: TRAP #11                                           */
-		 38, /* 44: TRAP #12                                           */
-		 38, /* 45: TRAP #13                                           */
-		 38, /* 46: TRAP #14                                           */
-		 38, /* 47: TRAP #15                                           */
-		  4, /* 48: FP Branch or Set on Unknown Condition (unemulated) */
-		  4, /* 49: FP Inexact Result                     (unemulated) */
-		  4, /* 50: FP Divide by Zero                     (unemulated) */
-		  4, /* 51: FP Underflow                          (unemulated) */
-		  4, /* 52: FP Operand Error                      (unemulated) */
-		  4, /* 53: FP Overflow                           (unemulated) */
-		  4, /* 54: FP Signaling NAN                      (unemulated) */
-		  4, /* 55: FP Unimplemented Data Type            (unemulated) */
-		  4, /* 56: MMU Configuration Error               (unemulated) */
-		  4, /* 57: MMU Illegal Operation Error           (unemulated) */
-		  4, /* 58: MMU Access Level Violation Error      (unemulated) */
-		  4, /* 59: RESERVED                                           */
-		  4, /* 60: RESERVED                                           */
-		  4, /* 61: RESERVED                                           */
-		  4, /* 62: RESERVED                                           */
-		  4, /* 63: RESERVED                                           */
-		     /* 64-255: User Defined                                   */
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4
-	},
-	{ /* 020 */
-		  4, /*  0: Reset - Initial Stack Pointer                      */
-		  4, /*  1: Reset - Initial Program Counter                    */
-		 50, /*  2: Bus Error                             (unemulated) */
-		 50, /*  3: Address Error                         (unemulated) */
-		 20, /*  4: Illegal Instruction                                */
-		 38, /*  5: Divide by Zero                                     */
-		 40, /*  6: CHK                                                */
-		 20, /*  7: TRAPV                                              */
-		 34, /*  8: Privilege Violation                                */
-		 25, /*  9: Trace                                              */
-		 20, /* 10: 1010                                               */
-		 20, /* 11: 1111                                               */
-		  4, /* 12: RESERVED                                           */
-		  4, /* 13: Coprocessor Protocol Violation        (unemulated) */
-		  4, /* 14: Format Error                                       */
-		 30, /* 15: Uninitialized Interrupt                            */
-		  4, /* 16: RESERVED                                           */
-		  4, /* 17: RESERVED                                           */
-		  4, /* 18: RESERVED                                           */
-		  4, /* 19: RESERVED                                           */
-		  4, /* 20: RESERVED                                           */
-		  4, /* 21: RESERVED                                           */
-		  4, /* 22: RESERVED                                           */
-		  4, /* 23: RESERVED                                           */
-		 30, /* 24: Spurious Interrupt                                 */
-		 30, /* 25: Level 1 Interrupt Autovector                       */
-		 30, /* 26: Level 2 Interrupt Autovector                       */
-		 30, /* 27: Level 3 Interrupt Autovector                       */
-		 30, /* 28: Level 4 Interrupt Autovector                       */
-		 30, /* 29: Level 5 Interrupt Autovector                       */
-		 30, /* 30: Level 6 Interrupt Autovector                       */
-		 30, /* 31: Level 7 Interrupt Autovector                       */
-		 20, /* 32: TRAP #0                                            */
-		 20, /* 33: TRAP #1                                            */
-		 20, /* 34: TRAP #2                                            */
-		 20, /* 35: TRAP #3                                            */
-		 20, /* 36: TRAP #4                                            */
-		 20, /* 37: TRAP #5                                            */
-		 20, /* 38: TRAP #6                                            */
-		 20, /* 39: TRAP #7                                            */
-		 20, /* 40: TRAP #8                                            */
-		 20, /* 41: TRAP #9                                            */
-		 20, /* 42: TRAP #10                                           */
-		 20, /* 43: TRAP #11                                           */
-		 20, /* 44: TRAP #12                                           */
-		 20, /* 45: TRAP #13                                           */
-		 20, /* 46: TRAP #14                                           */
-		 20, /* 47: TRAP #15                                           */
-		  4, /* 48: FP Branch or Set on Unknown Condition (unemulated) */
-		  4, /* 49: FP Inexact Result                     (unemulated) */
-		  4, /* 50: FP Divide by Zero                     (unemulated) */
-		  4, /* 51: FP Underflow                          (unemulated) */
-		  4, /* 52: FP Operand Error                      (unemulated) */
-		  4, /* 53: FP Overflow                           (unemulated) */
-		  4, /* 54: FP Signaling NAN                      (unemulated) */
-		  4, /* 55: FP Unimplemented Data Type            (unemulated) */
-		  4, /* 56: MMU Configuration Error               (unemulated) */
-		  4, /* 57: MMU Illegal Operation Error           (unemulated) */
-		  4, /* 58: MMU Access Level Violation Error      (unemulated) */
-		  4, /* 59: RESERVED                                           */
-		  4, /* 60: RESERVED                                           */
-		  4, /* 61: RESERVED                                           */
-		  4, /* 62: RESERVED                                           */
-		  4, /* 63: RESERVED                                           */
-		     /* 64-255: User Defined                                   */
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,
-		  4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4
-	}
-};
-
-uint8 m68ki_ea_idx_cycle_table[64] =
-{
-	 0,  0,  0,  0,  0,  0,  0,  0,  0,  0,  0,  0,  0,  0,  0,  0,
-	 0, /* ..01.000 no memory indirect, base NULL             */
-	 5, /* ..01..01 memory indirect,    base NULL, outer NULL */
-	 7, /* ..01..10 memory indirect,    base NULL, outer 16   */
-	 7, /* ..01..11 memory indirect,    base NULL, outer 32   */
-	 0,  5,  7,  7,  0,  5,  7,  7,  0,  5,  7,  7,
-	 2, /* ..10.000 no memory indirect, base 16               */
-	 7, /* ..10..01 memory indirect,    base 16,   outer NULL */
-	 9, /* ..10..10 memory indirect,    base 16,   outer 16   */
-	 9, /* ..10..11 memory indirect,    base 16,   outer 32   */
-	 0,  7,  9,  9,  0,  7,  9,  9,  0,  7,  9,  9,
-	 6, /* ..11.000 no memory indirect, base 32               */
-	11, /* ..11..01 memory indirect,    base 32,   outer NULL */
-	13, /* ..11..10 memory indirect,    base 32,   outer 16   */
-	13, /* ..11..11 memory indirect,    base 32,   outer 32   */
-	 0, 11, 13, 13,  0, 11, 13, 13,  0, 11, 13, 13
-};
-
-
-
-/* ======================================================================== */
-/* =============================== CALLBACKS ============================== */
-/* ======================================================================== */
-
-/* Default callbacks used if the callback hasn't been set yet, or if the
- * callback is set to NULL
- */
-
-/* Interrupt acknowledge */
-static int default_int_ack_callback(m68ki_cpu_core *cpu, int int_level)
-{
-	cpu->default_int_ack_callback_data = int_level;
-	CPU_INT_LEVEL = 0;
-	return M68K_INT_ACK_AUTOVECTOR;
-}
-
-/* Breakpoint acknowledge */
-static void default_bkpt_ack_callback(m68ki_cpu_core *cpu, unsigned int data)
-{
-	cpu->default_bkpt_ack_callback_data = data;
-}
-
-/* Called when a reset instruction is executed */
-static void default_reset_instr_callback(m68ki_cpu_core *cpu)
-{
-}
-
-/* Called when the program counter changed by a large value */
-static void default_pc_changed_callback(m68ki_cpu_core *cpu, unsigned int new_pc)
-{
-	cpu->default_pc_changed_callback_data = new_pc;
-}
-
-/* Called every time there's bus activity (read/write to/from memory */
-static void default_set_fc_callback(m68ki_cpu_core *cpu, unsigned int new_fc)
-{
-	cpu->default_set_fc_callback_data = new_fc;
-}
-
-/* Called every instruction cycle prior to execution */
-static void default_instr_hook_callback(m68ki_cpu_core *cpu)
-{
-}
-
-
-
-/* ======================================================================== */
-/* ================================= API ================================== */
-/* ======================================================================== */
-
-/* Access the internals of the CPU */
-unsigned int m68k_get_reg(m68ki_cpu_core *_cpu, void* context, m68k_register_t regnum)
-{
-	m68ki_cpu_core* cpu = context != NULL ?(m68ki_cpu_core*)context : _cpu;
-
-	switch(regnum)
-	{
-		case M68K_REG_D0:	return cpu->dar[0];
-		case M68K_REG_D1:	return cpu->dar[1];
-		case M68K_REG_D2:	return cpu->dar[2];
-		case M68K_REG_D3:	return cpu->dar[3];
-		case M68K_REG_D4:	return cpu->dar[4];
-		case M68K_REG_D5:	return cpu->dar[5];
-		case M68K_REG_D6:	return cpu->dar[6];
-		case M68K_REG_D7:	return cpu->dar[7];
-		case M68K_REG_A0:	return cpu->dar[8];
-		case M68K_REG_A1:	return cpu->dar[9];
-		case M68K_REG_A2:	return cpu->dar[10];
-		case M68K_REG_A3:	return cpu->dar[11];
-		case M68K_REG_A4:	return cpu->dar[12];
-		case M68K_REG_A5:	return cpu->dar[13];
-		case M68K_REG_A6:	return cpu->dar[14];
-		case M68K_REG_A7:	return cpu->dar[15];
-		case M68K_REG_PC:	return MASK_OUT_ABOVE_32(cpu->pc);
-		case M68K_REG_SR:	return	cpu->t1_flag						|
-									cpu->t0_flag						|
-									(cpu->s_flag << 11)					|
-									(cpu->m_flag << 11)					|
-									cpu->int_mask						|
-									((cpu->x_flag & XFLAG_SET) >> 4)	|
-									((cpu->n_flag & NFLAG_SET) >> 4)	|
-									((!cpu->not_z_flag) << 2)			|
-									((cpu->v_flag & VFLAG_SET) >> 6)	|
-									((cpu->c_flag & CFLAG_SET) >> 8);
-		case M68K_REG_SP:	return cpu->dar[15];
-		case M68K_REG_USP:	return cpu->s_flag ? cpu->sp[0] : cpu->dar[15];
-		case M68K_REG_ISP:	return cpu->s_flag && !cpu->m_flag ? cpu->dar[15] : cpu->sp[4];
-		case M68K_REG_MSP:	return cpu->s_flag && cpu->m_flag ? cpu->dar[15] : cpu->sp[6];
-		case M68K_REG_SFC:	return cpu->sfc;
-		case M68K_REG_DFC:	return cpu->dfc;
-		case M68K_REG_VBR:	return cpu->vbr;
-		case M68K_REG_CACR:	return cpu->cacr;
-		case M68K_REG_CAAR:	return cpu->caar;
-		case M68K_REG_PREF_ADDR:	return cpu->pref_addr;
-		case M68K_REG_PREF_DATA:	return cpu->pref_data;
-		case M68K_REG_PPC:	return MASK_OUT_ABOVE_32(cpu->ppc);
-		case M68K_REG_IR:	return cpu->ir;
-		case M68K_REG_CPU_TYPE:
-			switch(cpu->cpu_type)
-			{
-				case CPU_TYPE_000:		return (unsigned int)M68K_CPU_TYPE_68000;
-				case CPU_TYPE_010:		return (unsigned int)M68K_CPU_TYPE_68010;
-				case CPU_TYPE_EC020:	return (unsigned int)M68K_CPU_TYPE_68EC020;
-				case CPU_TYPE_020:		return (unsigned int)M68K_CPU_TYPE_68020;
-			}
-			return M68K_CPU_TYPE_INVALID;
-		default:			return 0;
-	}
-	return 0;
-}
-
-void m68k_set_reg(m68ki_cpu_core *cpu, m68k_register_t regnum, unsigned int value)
-{
-	switch(regnum)
-	{
-		case M68K_REG_D0:	REG_D[0] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_D1:	REG_D[1] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_D2:	REG_D[2] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_D3:	REG_D[3] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_D4:	REG_D[4] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_D5:	REG_D[5] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_D6:	REG_D[6] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_D7:	REG_D[7] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_A0:	REG_A[0] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_A1:	REG_A[1] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_A2:	REG_A[2] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_A3:	REG_A[3] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_A4:	REG_A[4] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_A5:	REG_A[5] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_A6:	REG_A[6] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_A7:	REG_A[7] = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_PC:	m68ki_jump(cpu, MASK_OUT_ABOVE_32(value)); return;
-		case M68K_REG_SR:	m68ki_set_sr(cpu, value); return;
-		case M68K_REG_SP:	REG_SP = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_USP:	if(FLAG_S)
-								REG_USP = MASK_OUT_ABOVE_32(value);
-							else
-								REG_SP = MASK_OUT_ABOVE_32(value);
-							return;
-		case M68K_REG_ISP:	if(FLAG_S && !FLAG_M)
-								REG_SP = MASK_OUT_ABOVE_32(value);
-							else
-								REG_ISP = MASK_OUT_ABOVE_32(value);
-							return;
-		case M68K_REG_MSP:	if(FLAG_S && FLAG_M)
-								REG_SP = MASK_OUT_ABOVE_32(value);
-							else
-								REG_MSP = MASK_OUT_ABOVE_32(value);
-							return;
-		case M68K_REG_VBR:	REG_VBR = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_SFC:	REG_SFC = value & 7; return;
-		case M68K_REG_DFC:	REG_DFC = value & 7; return;
-		case M68K_REG_CACR:	REG_CACR = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_CAAR:	REG_CAAR = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_PPC:	REG_PPC = MASK_OUT_ABOVE_32(value); return;
-		case M68K_REG_IR:	REG_IR = MASK_OUT_ABOVE_16(value); return;
-		case M68K_REG_CPU_TYPE: m68k_set_cpu_type(cpu, value); return;
-		default:			return;
-	}
-}
-
-/* Set the callbacks */
-void m68k_set_int_ack_callback(m68ki_cpu_core *cpu, int  (*callback)(m68ki_cpu_core *cpu, int int_level))
-{
-	CALLBACK_INT_ACK = callback ? callback : default_int_ack_callback;
-}
-
-void m68k_set_bkpt_ack_callback(m68ki_cpu_core *cpu, void  (*callback)(m68ki_cpu_core *cpu, unsigned int data))
-{
-	CALLBACK_BKPT_ACK = callback ? callback : default_bkpt_ack_callback;
-}
-
-void m68k_set_reset_instr_callback(m68ki_cpu_core *cpu, void  (*callback)(m68ki_cpu_core *cpu))
-{
-	CALLBACK_RESET_INSTR = callback ? callback : default_reset_instr_callback;
-}
-
-void m68k_set_pc_changed_callback(m68ki_cpu_core *cpu, void  (*callback)(m68ki_cpu_core *cpu, unsigned int new_pc))
-{
-	CALLBACK_PC_CHANGED = callback ? callback : default_pc_changed_callback;
-}
-
-void m68k_set_fc_callback(m68ki_cpu_core *cpu, void  (*callback)(m68ki_cpu_core *cpu, unsigned int new_fc))
-{
-	CALLBACK_SET_FC = callback ? callback : default_set_fc_callback;
-}
-
-void m68k_set_instr_hook_callback(m68ki_cpu_core *cpu, void  (*callback)(m68ki_cpu_core *cpu))
-{
-	CALLBACK_INSTR_HOOK = callback ? callback : default_instr_hook_callback;
-}
-
-#include <stdio.h>
-/* Set the CPU type. */
-void m68k_set_cpu_type(m68ki_cpu_core *cpu, unsigned int cpu_type)
-{
-	switch(cpu_type)
-	{
-		case M68K_CPU_TYPE_68000:
-			CPU_TYPE         = CPU_TYPE_000;
-			CPU_ADDRESS_MASK = 0x00ffffff;
-			CPU_SR_MASK      = 0xa71f; /* T1 -- S  -- -- I2 I1 I0 -- -- -- X  N  Z  V  C  */
-			CYC_INSTRUCTION  = m68ki_cycles[0];
-			CYC_EXCEPTION    = m68ki_exception_cycle_table[0];
-			CYC_BCC_NOTAKE_B = -2;
-			CYC_BCC_NOTAKE_W = 2;
-			CYC_DBCC_F_NOEXP = -2;
-			CYC_DBCC_F_EXP   = 2;
-			CYC_SCC_R_FALSE  = 2;
-			CYC_MOVEM_W      = 2;
-			CYC_MOVEM_L      = 3;
-			CYC_SHIFT        = 1;
-			CYC_RESET        = 132;
-			return;
-		case M68K_CPU_TYPE_68010:
-			CPU_TYPE         = CPU_TYPE_010;
-			CPU_ADDRESS_MASK = 0x00ffffff;
-			CPU_SR_MASK      = 0xa71f; /* T1 -- S  -- -- I2 I1 I0 -- -- -- X  N  Z  V  C  */
-			CYC_INSTRUCTION  = m68ki_cycles[1];
-			CYC_EXCEPTION    = m68ki_exception_cycle_table[1];
-			CYC_BCC_NOTAKE_B = -4;
-			CYC_BCC_NOTAKE_W = 0;
-			CYC_DBCC_F_NOEXP = 0;
-			CYC_DBCC_F_EXP   = 6;
-			CYC_SCC_R_FALSE  = 0;
-			CYC_MOVEM_W      = 2;
-			CYC_MOVEM_L      = 3;
-			CYC_SHIFT        = 1;
-			CYC_RESET        = 130;
-			return;
-		case M68K_CPU_TYPE_68EC020:
-			CPU_TYPE         = CPU_TYPE_EC020;
-			CPU_ADDRESS_MASK = 0x00ffffff;
-			CPU_SR_MASK      = 0xf71f; /* T1 T0 S  M  -- I2 I1 I0 -- -- -- X  N  Z  V  C  */
-			CYC_INSTRUCTION  = m68ki_cycles[2];
-			CYC_EXCEPTION    = m68ki_exception_cycle_table[2];
-			CYC_BCC_NOTAKE_B = -2;
-			CYC_BCC_NOTAKE_W = 0;
-			CYC_DBCC_F_NOEXP = 0;
-			CYC_DBCC_F_EXP   = 4;
-			CYC_SCC_R_FALSE  = 0;
-			CYC_MOVEM_W      = 2;
-			CYC_MOVEM_L      = 2;
-			CYC_SHIFT        = 0;
-			CYC_RESET        = 518;
-			return;
-		case M68K_CPU_TYPE_68020:
-			CPU_TYPE         = CPU_TYPE_020;
-			CPU_ADDRESS_MASK = 0xffffffff;
-			CPU_SR_MASK      = 0xf71f; /* T1 T0 S  M  -- I2 I1 I0 -- -- -- X  N  Z  V  C  */
-			CYC_INSTRUCTION  = m68ki_cycles[2];
-			CYC_EXCEPTION    = m68ki_exception_cycle_table[2];
-			CYC_BCC_NOTAKE_B = -2;
-			CYC_BCC_NOTAKE_W = 0;
-			CYC_DBCC_F_NOEXP = 0;
-			CYC_DBCC_F_EXP   = 4;
-			CYC_SCC_R_FALSE  = 0;
-			CYC_MOVEM_W      = 2;
-			CYC_MOVEM_L      = 2;
-			CYC_SHIFT        = 0;
-			CYC_RESET        = 518;
-			return;
-	}
-}
-
-/* Execute some instructions until we use up num_cycles clock cycles */
-/* ASG: removed per-instruction interrupt checks */
-int m68k_execute(m68ki_cpu_core *cpu, int num_cycles)
-{
-	/* Make sure we're not stopped */
-	if(!CPU_STOPPED)
-	{
-		/* Set our pool of clock cycles available */
-		SET_CYCLES(num_cycles);
-		cpu->m68ki_initial_cycles = num_cycles;
-
-		/* ASG: update cycles */
-		USE_CYCLES(CPU_INT_CYCLES);
-		CPU_INT_CYCLES = 0;
-
-		/* Return point if we had an address error */
-		m68ki_set_address_error_trap(); /* auto-disable (see m68kcpu.h) */
-
-		/* Main loop.  Keep going until we run out of clock cycles */
-		do
-		{
-			/* Set tracing accodring to T1. (T0 is done inside instruction) */
-			m68ki_trace_t1(); /* auto-disable (see m68kcpu.h) */
-
-			/* Set the address space for reads */
-			m68ki_use_data_space(); /* auto-disable (see m68kcpu.h) */
-
-			/* Call external hook to peek at CPU */
-			m68ki_instr_hook(); /* auto-disable (see m68kcpu.h) */
-
-//			if (REG_PC == m68k_trap0) printf("at trap0 (crash), prev_pc = %x\n", REG_PPC);
-
-			/* Record previous program counter */
-			REG_PPC = REG_PC;
-
-			/* Read an instruction and call its handler */
-			REG_IR = m68ki_read_imm_16(cpu);
-			m68ki_instruction_jump_table[REG_IR](cpu);
-			USE_CYCLES(CYC_INSTRUCTION[REG_IR]);
-
-			/* Trace m68k_exception, if necessary */
-			m68ki_exception_if_trace(); /* auto-disable (see m68kcpu.h) */
-		} while(GET_CYCLES() > 0);
-
-		/* set previous PC to current PC for the next entry into the loop */
-		REG_PPC = REG_PC;
-
-		/* ASG: update cycles */
-		USE_CYCLES(CPU_INT_CYCLES);
-		CPU_INT_CYCLES = 0;
-
-		/* return how many clocks we used */
-		return cpu->m68ki_initial_cycles - GET_CYCLES();
-	}
-
-	/* We get here if the CPU is stopped or halted */
-	SET_CYCLES(0);
-	CPU_INT_CYCLES = 0;
-
-	return num_cycles;
-}
-
-
-int m68k_cycles_run(m68ki_cpu_core *cpu)
-{
-	return cpu->m68ki_initial_cycles - GET_CYCLES();
-}
-
-int m68k_cycles_remaining(m68ki_cpu_core *cpu)
-{
-	return GET_CYCLES();
-}
-
-/* Change the timeslice */
-void m68k_modify_timeslice(m68ki_cpu_core *cpu, int cycles)
-{
-	cpu->m68ki_initial_cycles += cycles;
-	ADD_CYCLES(cycles);
-}
-
-
-void m68k_end_timeslice(m68ki_cpu_core *cpu)
-{
-	cpu->m68ki_initial_cycles = GET_CYCLES();
-	SET_CYCLES(0);
-}
-
-
-/* ASG: rewrote so that the int_level is a mask of the IPL0/IPL1/IPL2 bits */
-/* KS: Modified so that IPL* bits match with mask positions in the SR
- *     and cleaned out remenants of the interrupt controller.
- */
-void m68k_set_irq(m68ki_cpu_core *cpu, unsigned int int_level)
-{
-	uint old_level = CPU_INT_LEVEL;
-	CPU_INT_LEVEL = int_level << 8;
-
-	/* A transition from < 7 to 7 always interrupts (NMI) */
-	/* Note: Level 7 can also level trigger like a normal IRQ */
-	if(old_level != 0x0700 && CPU_INT_LEVEL == 0x0700)
-		m68ki_exception_interrupt(cpu, 7); /* Edge triggered level 7 (NMI) */
-	else
-		m68ki_check_interrupts(cpu); /* Level triggered (IRQ) */
-}
-
-m68ki_cpu_core *m68k_init(void)
-{
-	static uint emulation_initialized = 0;
-
-	/* The first call to this function initializes the opcode handler jump table */
-	if(!emulation_initialized)
-		{
-		m68ki_build_opcode_table();
-		emulation_initialized = 1;
-	}
-
-	m68ki_cpu_core *cpu = malloc (sizeof (m68ki_cpu_core));
-	memset (cpu, 0, sizeof (m68ki_cpu_core));
-
-	m68k_set_int_ack_callback(cpu, NULL);
-	m68k_set_bkpt_ack_callback(cpu, NULL);
-	m68k_set_reset_instr_callback(cpu, NULL);
-	m68k_set_pc_changed_callback(cpu, NULL);
-	m68k_set_fc_callback(cpu, NULL);
-	m68k_set_instr_hook_callback(cpu, NULL);
-	return cpu;
-}
-
-/* Pulse the RESET line on the CPU */
-void m68k_pulse_reset(m68ki_cpu_core *cpu)
-{
-	/* Clear all stop levels and eat up all remaining cycles */
-	CPU_STOPPED = 0;
-	SET_CYCLES(0);
-
-	CPU_RUN_MODE = RUN_MODE_BERR_AERR_RESET;
-
-	/* Turn off tracing */
-	FLAG_T1 = FLAG_T0 = 0;
-	m68ki_clear_trace();
-	/* Interrupt mask to level 7 */
-	FLAG_INT_MASK = 0x0700;
-	/* Reset VBR */
-	REG_VBR = 0;
-	/* Go to supervisor mode */
-	m68ki_set_sm_flag(cpu, SFLAG_SET | MFLAG_CLEAR);
-
-	/* Invalidate the prefetch queue */
-#if M68K_EMULATE_PREFETCH
-	/* Set to arbitrary number since our first fetch is from 0 */
-	CPU_PREF_ADDR = 0x1000;
-#endif /* M68K_EMULATE_PREFETCH */
-
-	/* Read the initial stack pointer and program counter */
-	m68ki_jump(cpu, 0);
-	REG_SP = m68ki_read_imm_32(cpu);
-	REG_PC = m68ki_read_imm_32(cpu);
-	m68ki_jump(cpu, REG_PC);
-
-	CPU_RUN_MODE = RUN_MODE_NORMAL;
-}
-
-/* Pulse the HALT line on the CPU */
-void m68k_pulse_halt(m68ki_cpu_core *cpu)
-{
-	CPU_STOPPED |= STOP_LEVEL_HALT;
-}
-
-#if 0
-
-/* Get and set the current CPU context */
-/* This is to allow for multiple CPUs */
-unsigned int m68k_context_size(m68ki_cpu_core *cpu)
-{
-	return sizeof(m68ki_cpu_core);
-}
-
-unsigned int m68k_get_context(m68ki_cpu_core *cpu, void* dst)
-{
-	if(dst) *(m68ki_cpu_core*)dst = cpu;
-	return sizeof(m68ki_cpu_core);
-}
-
-void m68k_set_context(void* src)
-{
-	if(src) m68ki_cpu = *(m68ki_cpu_core*)src;
-}
-
-#endif
-
-/* ======================================================================== */
-/* ============================== MAME STUFF ============================== */
-/* ======================================================================== */
-
-#if M68K_COMPILE_FOR_MAME == OPT_ON
-
-#include "state.h"
-
-static struct {
-	UINT16 sr;
-	int stopped;
-	int halted;
-} m68k_substate;
-
-static void m68k_prepare_substate(void)
-{
-	m68k_substate.sr = m68ki_get_sr();
-	m68k_substate.stopped = (CPU_STOPPED & STOP_LEVEL_STOP) != 0;
-	m68k_substate.halted  = (CPU_STOPPED & STOP_LEVEL_HALT) != 0;
-}
-
-static void m68k_post_load(void)
-{
-	m68ki_set_sr_noint_nosp(m68k_substate.sr);
-	CPU_STOPPED = m68k_substate.stopped ? STOP_LEVEL_STOP : 0
-		        | m68k_substate.halted  ? STOP_LEVEL_HALT : 0;
-	m68ki_jump(REG_PC);
-}
-
-void m68k_state_register(const char *type)
-{
-	int cpu = cpu_getactivecpu();
-
-	state_save_register_UINT32(type, cpu, "D"         , REG_D, 8);
-	state_save_register_UINT32(type, cpu, "A"         , REG_A, 8);
-	state_save_register_UINT32(type, cpu, "PPC"       , &REG_PPC, 1);
-	state_save_register_UINT32(type, cpu, "PC"        , &REG_PC, 1);
-	state_save_register_UINT32(type, cpu, "USP"       , &REG_USP, 1);
-	state_save_register_UINT32(type, cpu, "ISP"       , &REG_ISP, 1);
-	state_save_register_UINT32(type, cpu, "MSP"       , &REG_MSP, 1);
-	state_save_register_UINT32(type, cpu, "VBR"       , &REG_VBR, 1);
-	state_save_register_UINT32(type, cpu, "SFC"       , &REG_SFC, 1);
-	state_save_register_UINT32(type, cpu, "DFC"       , &REG_DFC, 1);
-	state_save_register_UINT32(type, cpu, "CACR"      , &REG_CACR, 1);
-	state_save_register_UINT32(type, cpu, "CAAR"      , &REG_CAAR, 1);
-	state_save_register_UINT16(type, cpu, "SR"        , &m68k_substate.sr, 1);
-	state_save_register_UINT32(type, cpu, "INT_LEVEL" , &CPU_INT_LEVEL, 1);
-	state_save_register_UINT32(type, cpu, "INT_CYCLES", &CPU_INT_CYCLES, 1);
-	state_save_register_int   (type, cpu, "STOPPED"   , &m68k_substate.stopped);
-	state_save_register_int   (type, cpu, "HALTED"    , &m68k_substate.halted);
-	state_save_register_UINT32(type, cpu, "PREF_ADDR" , &CPU_PREF_ADDR, 1);
-	state_save_register_UINT32(type, cpu, "PREF_DATA" , &CPU_PREF_DATA, 1);
-	state_save_register_func_presave(m68k_prepare_substate);
-	state_save_register_func_postload(m68k_post_load);
-}
-
-#endif /* M68K_COMPILE_FOR_MAME */
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
diff --git a/plugins/ao/eng_ssf/m68kcpu.h b/plugins/ao/eng_ssf/m68kcpu.h
deleted file mode 100644
index ab626999..00000000
--- a/plugins/ao/eng_ssf/m68kcpu.h
+++ /dev/null
@@ -1,1989 +0,0 @@
-#include <stdio.h>
-#ifdef _MSC_VER
-#include "ao.h"
-#else
-#undef INLINE
-#define INLINE static inline
-#endif
-/* ======================================================================== */
-/* ========================= LICENSING & COPYRIGHT ======================== */
-/* ======================================================================== */
-/*
- *                                  MUSASHI
- *                                Version 3.3
- *
- * A portable Motorola M680x0 processor emulation engine.
- * Copyright 1998-2001 Karl Stenerud.  All rights reserved.
- *
- * This code may be freely used for non-commercial purposes as long as this
- * copyright notice remains unaltered in the source code and any binary files
- * containing this code in compiled form.
- *
- * All other lisencing terms must be negotiated with the author
- * (Karl Stenerud).
- *
- * The latest version of this code can be obtained at:
- * http://kstenerud.cjb.net
- */
-
-
-
-
-#ifndef M68KCPU__HEADER
-#define M68KCPU__HEADER
-
-#include "m68k.h"
-#include <limits.h>
-
-#if M68K_EMULATE_ADDRESS_ERROR
-#include <setjmp.h>
-#endif /* M68K_EMULATE_ADDRESS_ERROR */
-
-/* ======================================================================== */
-/* ==================== ARCHITECTURE-DEPENDANT DEFINES ==================== */
-/* ======================================================================== */
-
-/* Check for > 32bit sizes */
-#if UINT_MAX > 0xffffffff
-	#define M68K_INT_GT_32_BIT  1
-#else
-	#define M68K_INT_GT_32_BIT  0
-#endif
-
-/* Data types used in this emulation core */
-#undef sint8
-#undef sint16
-#undef sint32
-#undef sint64
-#undef uint8
-#undef uint16
-#undef uint32
-#undef uint64
-#undef sint
-#undef uint
-
-#define sint8  signed   char			/* ASG: changed from char to signed char */
-#define sint16 signed   short
-#define sint32 signed   long
-#define uint8  unsigned char
-#define uint16 unsigned short
-#define uint32 unsigned int
-/* signed and unsigned int must be at least 32 bits wide */
-#define sint   signed   int
-#define uint   unsigned int
-
-
-#if 0
-#if M68K_USE_64_BIT
-#define sint64 signed   long long
-#define uint64 unsigned long long
-#else
-#define sint64 sint32
-#define uint64 uint32
-#endif /* M68K_USE_64_BIT */
-#endif
-
-
-/* Allow for architectures that don't have 8-bit sizes */
-#if UCHAR_MAX == 0xff
-	#define MAKE_INT_8(A) (sint8)(A)
-#else
-	#undef  sint8
-	#define sint8  signed   int
-	#undef  uint8
-	#define uint8  unsigned int
-	INLINE sint MAKE_INT_8(uint value)
-	{
-		return (value & 0x80) ? value | ~0xff : value & 0xff;
-	}
-#endif /* UCHAR_MAX == 0xff */
-
-
-/* Allow for architectures that don't have 16-bit sizes */
-#if USHRT_MAX == 0xffff
-	#define MAKE_INT_16(A) (sint16)(A)
-#else
-	#undef  sint16
-	#define sint16 signed   int
-	#undef  uint16
-	#define uint16 unsigned int
-	INLINE sint MAKE_INT_16(uint value)
-	{
-		return (value & 0x8000) ? value | ~0xffff : value & 0xffff;
-	}
-#endif /* USHRT_MAX == 0xffff */
-
-
-/* Allow for architectures that don't have 32-bit sizes */
-#if ULONG_MAX == 0xffffffff
-	#define MAKE_INT_32(A) (sint32)(A)
-#else
-	#undef  sint32
-	#define sint32  signed   int
-	#undef  uint32
-	#define uint32  unsigned int
-	INLINE sint MAKE_INT_32(uint value)
-	{
-		return (value & 0x80000000) ? value | ~0xffffffff : value & 0xffffffff;
-	}
-#endif /* ULONG_MAX == 0xffffffff */
-
-/* ======================================================================== */
-/* =============================== PROTOTYPES ============================= */
-/* ======================================================================== */
-
-
-typedef struct m68ki_cpu_core_s
-{
-	uint cpu_type;     /* CPU Type: 68000, 68010, 68EC020, or 68020 */
-	uint dar[16];      /* Data and Address Registers */
-	uint ppc;		   /* Previous program counter */
-	uint pc;           /* Program Counter */
-	uint sp[7];        /* User, Interrupt, and Master Stack Pointers */
-	uint vbr;          /* Vector Base Register (m68010+) */
-	uint sfc;          /* Source Function Code Register (m68010+) */
-	uint dfc;          /* Destination Function Code Register (m68010+) */
-	uint cacr;         /* Cache Control Register (m68020, unemulated) */
-	uint caar;         /* Cache Address Register (m68020, unemulated) */
-	uint ir;           /* Instruction Register */
-	uint t1_flag;      /* Trace 1 */
-	uint t0_flag;      /* Trace 0 */
-	uint s_flag;       /* Supervisor */
-	uint m_flag;       /* Master/Interrupt state */
-	uint x_flag;       /* Extend */
-	uint n_flag;       /* Negative */
-	uint not_z_flag;   /* Zero, inverted for speedups */
-	uint v_flag;       /* Overflow */
-	uint c_flag;       /* Carry */
-	uint int_mask;     /* I0-I2 */
-	uint int_level;    /* State of interrupt pins IPL0-IPL2 -- ASG: changed from ints_pending */
-	uint int_cycles;   /* ASG: extra cycles from generated interrupts */
-	uint stopped;      /* Stopped state */
-	uint pref_addr;    /* Last prefetch address */
-	uint pref_data;    /* Data in the prefetch queue */
-	uint address_mask; /* Available address pins */
-	uint sr_mask;      /* Implemented status register bits */
-	uint instr_mode;   /* Stores whether we are in instruction mode or group 0/1 exception mode */
-	uint run_mode;     /* Stores whether we are processing a reset, bus error, address error, or something else */
-
-	/* Clocks required for instructions / exceptions */
-	uint cyc_bcc_notake_b;
-	uint cyc_bcc_notake_w;
-	uint cyc_dbcc_f_noexp;
-	uint cyc_dbcc_f_exp;
-	uint cyc_scc_r_false;
-	uint cyc_movem_w;
-	uint cyc_movem_l;
-	uint cyc_shift;
-	uint cyc_reset;
-	uint8* cyc_instruction;
-	uint8* cyc_exception;
-
-	/* Callbacks to host */
-	int  (*int_ack_callback)(struct m68ki_cpu_core_s *cpu, int int_line);           /* Interrupt Acknowledge */
-	void (*bkpt_ack_callback)(struct m68ki_cpu_core_s *cpu, unsigned int data);     /* Breakpoint Acknowledge */
-	void (*reset_instr_callback)(struct m68ki_cpu_core_s *cpu);               /* Called when a RESET instruction is encountered */
-	void (*pc_changed_callback)(struct m68ki_cpu_core_s *cpu, unsigned int new_pc); /* Called when the PC changes by a large amount */
-	void (*set_fc_callback)(struct m68ki_cpu_core_s *cpu, unsigned int new_fc);     /* Called when the CPU function code changes */
-	void (*instr_hook_callback)(struct m68ki_cpu_core_s *cpu);                /* Called every instruction cycle prior to execution */
-
-#if M68K_EMULATE_ADDRESS_ERROR
-    jmp_buf m68ki_aerr_trap;
-#endif /* M68K_EMULATE_ADDRESS_ERROR */
-
-    uint    m68ki_aerr_address;
-    uint    m68ki_aerr_write_mode;
-    uint    m68ki_aerr_fc;
-
-    int default_int_ack_callback_data;
-    unsigned int default_bkpt_ack_callback_data;
-    unsigned int default_pc_changed_callback_data;
-    unsigned int default_set_fc_callback_data;
-    int m68k_trap0;
-    int  m68ki_initial_cycles;
-    int  m68ki_remaining_cycles;                     /* Number of clocks remaining */
-    uint m68ki_tracing;
-    uint m68ki_address_space;
-
-    uint8 sat_ram[512*1024];
-
-    void *SCSP;
-} m68ki_cpu_core;
-
-
-extern uint8          m68ki_shift_8_table[];
-extern uint16         m68ki_shift_16_table[];
-extern uint           m68ki_shift_32_table[];
-extern uint8          m68ki_exception_cycle_table[][256];
-extern uint8          m68ki_ea_idx_cycle_table[];
-
-m68ki_cpu_core *m68k_init(void);
-/* Execute some instructions until we use up num_cycles clock cycles */
-/* ASG: removed per-instruction interrupt checks */
-int m68k_execute(m68ki_cpu_core *cpu, int num_cycles);
-
-
-/* ======================================================================== */
-/* ============================ GENERAL DEFINES =========================== */
-/* ======================================================================== */
-
-/* Exception Vectors handled by emulation */
-#define EXCEPTION_BUS_ERROR                2 /* This one is not emulated! */
-#define EXCEPTION_ADDRESS_ERROR            3 /* This one is partially emulated (doesn't stack a proper frame yet) */
-#define EXCEPTION_ILLEGAL_INSTRUCTION      4
-#define EXCEPTION_ZERO_DIVIDE              5
-#define EXCEPTION_CHK                      6
-#define EXCEPTION_TRAPV                    7
-#define EXCEPTION_PRIVILEGE_VIOLATION      8
-#define EXCEPTION_TRACE                    9
-#define EXCEPTION_1010                    10
-#define EXCEPTION_1111                    11
-#define EXCEPTION_FORMAT_ERROR            14
-#define EXCEPTION_UNINITIALIZED_INTERRUPT 15
-#define EXCEPTION_SPURIOUS_INTERRUPT      24
-#define EXCEPTION_INTERRUPT_AUTOVECTOR    24
-#define EXCEPTION_TRAP_BASE               32
-
-/* Function codes set by CPU during data/address bus activity */
-#define FUNCTION_CODE_USER_DATA          1
-#define FUNCTION_CODE_USER_PROGRAM       2
-#define FUNCTION_CODE_SUPERVISOR_DATA    5
-#define FUNCTION_CODE_SUPERVISOR_PROGRAM 6
-#define FUNCTION_CODE_CPU_SPACE          7
-
-/* CPU types for deciding what to emulate */
-#define CPU_TYPE_000   1
-#define CPU_TYPE_010   2
-#define CPU_TYPE_EC020 4
-#define CPU_TYPE_020   8
-
-/* Different ways to stop the CPU */
-#define STOP_LEVEL_STOP 1
-#define STOP_LEVEL_HALT 2
-
-/* Used for 68000 address error processing */
-#define INSTRUCTION_YES 0
-#define INSTRUCTION_NO  0x08
-#define MODE_READ       0x10
-#define MODE_WRITE      0
-
-#define RUN_MODE_NORMAL          0
-#define RUN_MODE_BERR_AERR_RESET 1
-
-#ifndef NULL
-#define NULL ((void*)0)
-#endif
-
-/* ======================================================================== */
-/* ================================ MACROS ================================ */
-/* ======================================================================== */
-
-
-/* ---------------------------- General Macros ---------------------------- */
-
-/* Bit Isolation Macros */
-#define BIT_0(A)  ((A) & 0x00000001)
-#define BIT_1(A)  ((A) & 0x00000002)
-#define BIT_2(A)  ((A) & 0x00000004)
-#define BIT_3(A)  ((A) & 0x00000008)
-#define BIT_4(A)  ((A) & 0x00000010)
-#define BIT_5(A)  ((A) & 0x00000020)
-#define BIT_6(A)  ((A) & 0x00000040)
-#define BIT_7(A)  ((A) & 0x00000080)
-#define BIT_8(A)  ((A) & 0x00000100)
-#define BIT_9(A)  ((A) & 0x00000200)
-#define BIT_A(A)  ((A) & 0x00000400)
-#define BIT_B(A)  ((A) & 0x00000800)
-#define BIT_C(A)  ((A) & 0x00001000)
-#define BIT_D(A)  ((A) & 0x00002000)
-#define BIT_E(A)  ((A) & 0x00004000)
-#define BIT_F(A)  ((A) & 0x00008000)
-#define BIT_10(A) ((A) & 0x00010000)
-#define BIT_11(A) ((A) & 0x00020000)
-#define BIT_12(A) ((A) & 0x00040000)
-#define BIT_13(A) ((A) & 0x00080000)
-#define BIT_14(A) ((A) & 0x00100000)
-#define BIT_15(A) ((A) & 0x00200000)
-#define BIT_16(A) ((A) & 0x00400000)
-#define BIT_17(A) ((A) & 0x00800000)
-#define BIT_18(A) ((A) & 0x01000000)
-#define BIT_19(A) ((A) & 0x02000000)
-#define BIT_1A(A) ((A) & 0x04000000)
-#define BIT_1B(A) ((A) & 0x08000000)
-#define BIT_1C(A) ((A) & 0x10000000)
-#define BIT_1D(A) ((A) & 0x20000000)
-#define BIT_1E(A) ((A) & 0x40000000)
-#define BIT_1F(A) ((A) & 0x80000000)
-
-/* Get the most significant bit for specific sizes */
-#define GET_MSB_8(A)  ((A) & 0x80)
-#define GET_MSB_9(A)  ((A) & 0x100)
-#define GET_MSB_16(A) ((A) & 0x8000)
-#define GET_MSB_17(A) ((A) & 0x10000)
-#define GET_MSB_32(A) ((A) & 0x80000000)
-#if M68K_USE_64_BIT
-#define GET_MSB_33(A) ((A) & 0x100000000)
-#endif /* M68K_USE_64_BIT */
-
-/* Isolate nibbles */
-#define LOW_NIBBLE(A)  ((A) & 0x0f)
-#define HIGH_NIBBLE(A) ((A) & 0xf0)
-
-/* These are used to isolate 8, 16, and 32 bit sizes */
-#define MASK_OUT_ABOVE_2(A)  ((A) & 3)
-#define MASK_OUT_ABOVE_8(A)  ((A) & 0xff)
-#define MASK_OUT_ABOVE_16(A) ((A) & 0xffff)
-#define MASK_OUT_BELOW_2(A)  ((A) & ~3)
-#define MASK_OUT_BELOW_8(A)  ((A) & ~0xff)
-#define MASK_OUT_BELOW_16(A) ((A) & ~0xffff)
-
-/* No need to mask if we are 32 bit */
-#if M68K_INT_GT_32_BIT || M68K_USE_64_BIT
-	#define MASK_OUT_ABOVE_32(A) ((A) & 0xffffffff)
-	#define MASK_OUT_BELOW_32(A) ((A) & ~0xffffffff)
-#else
-	#define MASK_OUT_ABOVE_32(A) (A)
-	#define MASK_OUT_BELOW_32(A) 0
-#endif /* M68K_INT_GT_32_BIT || M68K_USE_64_BIT */
-
-/* Simulate address lines of 68k family */
-#define ADDRESS_68K(A) ((A)&CPU_ADDRESS_MASK)
-
-
-/* Shift & Rotate Macros. */
-#define LSL(A, C) ((A) << (C))
-#define LSR(A, C) ((A) >> (C))
-
-/* Some > 32-bit optimizations */
-#if M68K_INT_GT_32_BIT
-	/* Shift left and right */
-	#define LSR_32(A, C) ((A) >> (C))
-	#define LSL_32(A, C) ((A) << (C))
-#else
-	/* We have to do this because the morons at ANSI decided that shifts
-	 * by >= data size are undefined.
-	 */
-	#define LSR_32(A, C) ((C) < 32 ? (A) >> (C) : 0)
-	#define LSL_32(A, C) ((C) < 32 ? (A) << (C) : 0)
-#endif /* M68K_INT_GT_32_BIT */
-
-#if M68K_USE_64_BIT
-	#define LSL_32_64(A, C) ((A) << (C))
-	#define LSR_32_64(A, C) ((A) >> (C))
-	#define ROL_33_64(A, C) (LSL_32_64(A, C) | LSR_32_64(A, 33-(C)))
-	#define ROR_33_64(A, C) (LSR_32_64(A, C) | LSL_32_64(A, 33-(C)))
-#endif /* M68K_USE_64_BIT */
-
-#define ROL_8(A, C)      MASK_OUT_ABOVE_8(LSL(A, C) | LSR(A, 8-(C)))
-#define ROL_9(A, C)                      (LSL(A, C) | LSR(A, 9-(C)))
-#define ROL_16(A, C)    MASK_OUT_ABOVE_16(LSL(A, C) | LSR(A, 16-(C)))
-#define ROL_17(A, C)                     (LSL(A, C) | LSR(A, 17-(C)))
-#define ROL_32(A, C)    MASK_OUT_ABOVE_32(LSL_32(A, C) | LSR_32(A, 32-(C)))
-#define ROL_33(A, C)                     (LSL_32(A, C) | LSR_32(A, 33-(C)))
-
-#define ROR_8(A, C)      MASK_OUT_ABOVE_8(LSR(A, C) | LSL(A, 8-(C)))
-#define ROR_9(A, C)                      (LSR(A, C) | LSL(A, 9-(C)))
-#define ROR_16(A, C)    MASK_OUT_ABOVE_16(LSR(A, C) | LSL(A, 16-(C)))
-#define ROR_17(A, C)                     (LSR(A, C) | LSL(A, 17-(C)))
-#define ROR_32(A, C)    MASK_OUT_ABOVE_32(LSR_32(A, C) | LSL_32(A, 32-(C)))
-#define ROR_33(A, C)                     (LSR_32(A, C) | LSL_32(A, 33-(C)))
-
-
-
-/* ------------------------------ CPU Access ------------------------------ */
-
-/* Access the CPU registers */
-#define CPU_TYPE         cpu->cpu_type
-
-#define REG_DA           cpu->dar /* easy access to data and address regs */
-#define REG_D            cpu->dar
-#define REG_A            (cpu->dar+8)
-#define REG_PPC 		 cpu->ppc
-#define REG_PC           cpu->pc
-#define REG_SP_BASE      cpu->sp
-#define REG_USP          cpu->sp[0]
-#define REG_ISP          cpu->sp[4]
-#define REG_MSP          cpu->sp[6]
-#define REG_SP           cpu->dar[15]
-#define REG_VBR          cpu->vbr
-#define REG_SFC          cpu->sfc
-#define REG_DFC          cpu->dfc
-#define REG_CACR         cpu->cacr
-#define REG_CAAR         cpu->caar
-#define REG_IR           cpu->ir
-
-#define FLAG_T1          cpu->t1_flag
-#define FLAG_T0          cpu->t0_flag
-#define FLAG_S           cpu->s_flag
-#define FLAG_M           cpu->m_flag
-#define FLAG_X           cpu->x_flag
-#define FLAG_N           cpu->n_flag
-#define FLAG_Z           cpu->not_z_flag
-#define FLAG_V           cpu->v_flag
-#define FLAG_C           cpu->c_flag
-#define FLAG_INT_MASK    cpu->int_mask
-
-#define CPU_INT_LEVEL    cpu->int_level /* ASG: changed from CPU_INTS_PENDING */
-#define CPU_INT_CYCLES   cpu->int_cycles /* ASG */
-#define CPU_STOPPED      cpu->stopped
-#define CPU_PREF_ADDR    cpu->pref_addr
-#define CPU_PREF_DATA    cpu->pref_data
-#define CPU_ADDRESS_MASK cpu->address_mask
-#define CPU_SR_MASK      cpu->sr_mask
-#define CPU_INSTR_MODE   cpu->instr_mode
-#define CPU_RUN_MODE     cpu->run_mode
-
-#define CYC_INSTRUCTION  cpu->cyc_instruction
-#define CYC_EXCEPTION    cpu->cyc_exception
-#define CYC_BCC_NOTAKE_B cpu->cyc_bcc_notake_b
-#define CYC_BCC_NOTAKE_W cpu->cyc_bcc_notake_w
-#define CYC_DBCC_F_NOEXP cpu->cyc_dbcc_f_noexp
-#define CYC_DBCC_F_EXP   cpu->cyc_dbcc_f_exp
-#define CYC_SCC_R_FALSE  cpu->cyc_scc_r_false
-#define CYC_MOVEM_W      cpu->cyc_movem_w
-#define CYC_MOVEM_L      cpu->cyc_movem_l
-#define CYC_SHIFT        cpu->cyc_shift
-#define CYC_RESET        cpu->cyc_reset
-
-
-#define CALLBACK_INT_ACK     cpu->int_ack_callback
-#define CALLBACK_BKPT_ACK    cpu->bkpt_ack_callback
-#define CALLBACK_RESET_INSTR cpu->reset_instr_callback
-#define CALLBACK_PC_CHANGED  cpu->pc_changed_callback
-#define CALLBACK_SET_FC      cpu->set_fc_callback
-#define CALLBACK_INSTR_HOOK  cpu->instr_hook_callback
-
-
-
-/* ----------------------------- Configuration ---------------------------- */
-
-/* These defines are dependant on the configuration defines in m68kconf.h */
-
-/* Disable certain comparisons if we're not using all CPU types */
-#if M68K_EMULATE_020
-	#define CPU_TYPE_IS_020_PLUS(A)    ((A) & CPU_TYPE_020)
-	#define CPU_TYPE_IS_020_LESS(A)    1
-#else
-	#define CPU_TYPE_IS_020_PLUS(A)    0
-	#define CPU_TYPE_IS_020_LESS(A)    1
-#endif
-
-#if M68K_EMULATE_EC020
-	#define CPU_TYPE_IS_EC020_PLUS(A)  ((A) & (CPU_TYPE_EC020 | CPU_TYPE_020))
-	#define CPU_TYPE_IS_EC020_LESS(A)  ((A) & (CPU_TYPE_000 | CPU_TYPE_010 | CPU_TYPE_EC020))
-#else
-	#define CPU_TYPE_IS_EC020_PLUS(A)  CPU_TYPE_IS_020_PLUS(A)
-	#define CPU_TYPE_IS_EC020_LESS(A)  CPU_TYPE_IS_020_LESS(A)
-#endif
-
-#if M68K_EMULATE_010
-	#define CPU_TYPE_IS_010(A)         ((A) == CPU_TYPE_010)
-	#define CPU_TYPE_IS_010_PLUS(A)    ((A) & (CPU_TYPE_010 | CPU_TYPE_EC020 | CPU_TYPE_020))
-	#define CPU_TYPE_IS_010_LESS(A)    ((A) & (CPU_TYPE_000 | CPU_TYPE_010))
-#else
-	#define CPU_TYPE_IS_010(A)         0
-	#define CPU_TYPE_IS_010_PLUS(A)    CPU_TYPE_IS_EC020_PLUS(A)
-	#define CPU_TYPE_IS_010_LESS(A)    CPU_TYPE_IS_EC020_LESS(A)
-#endif
-
-#if M68K_EMULATE_020 || M68K_EMULATE_EC020
-	#define CPU_TYPE_IS_020_VARIANT(A) ((A) & (CPU_TYPE_EC020 | CPU_TYPE_020))
-#else
-	#define CPU_TYPE_IS_020_VARIANT(A) 0
-#endif
-
-#if M68K_EMULATE_020 || M68K_EMULATE_EC020 || M68K_EMULATE_010
-	#define CPU_TYPE_IS_000(A)         ((A) == CPU_TYPE_000)
-#else
-	#define CPU_TYPE_IS_000(A)         1
-#endif
-
-
-#if !M68K_SEPARATE_READS
-#define m68k_read_immediate_16(A) m68ki_read_program_16(A)
-#define m68k_read_immediate_32(A) m68ki_read_program_32(A)
-
-#define m68k_read_pcrelative_8(A) m68ki_read_program_8(A)
-#define m68k_read_pcrelative_16(A) m68ki_read_program_16(A)
-#define m68k_read_pcrelative_32(A) m68ki_read_program_32(A)
-#endif /* M68K_SEPARATE_READS */
-
-
-/* Enable or disable callback functions */
-#if M68K_EMULATE_INT_ACK
-	#if M68K_EMULATE_INT_ACK == OPT_SPECIFY_HANDLER
-		#define m68ki_int_ack(cpu, A) M68K_INT_ACK_CALLBACK(cpu, A)
-	#else
-		#define m68ki_int_ack(cpu, A) CALLBACK_INT_ACK(cpu, A)
-	#endif
-#else
-	/* Default action is to used autovector mode, which is most common */
-	#define m68ki_int_ack(cpu, A) M68K_INT_ACK_AUTOVECTOR
-#endif /* M68K_EMULATE_INT_ACK */
-
-#if M68K_EMULATE_BKPT_ACK
-	#if M68K_EMULATE_BKPT_ACK == OPT_SPECIFY_HANDLER
-		#define m68ki_bkpt_ack(A) M68K_BKPT_ACK_CALLBACK(A)
-	#else
-		#define m68ki_bkpt_ack(A) CALLBACK_BKPT_ACK(A)
-	#endif
-#else
-	#define m68ki_bkpt_ack(A)
-#endif /* M68K_EMULATE_BKPT_ACK */
-
-#if M68K_EMULATE_RESET
-	#if M68K_EMULATE_RESET == OPT_SPECIFY_HANDLER
-		#define m68ki_output_reset() M68K_RESET_CALLBACK()
-	#else
-		#define m68ki_output_reset() CALLBACK_RESET_INSTR()
-	#endif
-#else
-	#define m68ki_output_reset()
-#endif /* M68K_EMULATE_RESET */
-
-#if M68K_INSTRUCTION_HOOK
-	#if M68K_INSTRUCTION_HOOK == OPT_SPECIFY_HANDLER
-		#define m68ki_instr_hook() M68K_INSTRUCTION_CALLBACK()
-	#else
-		#define m68ki_instr_hook() CALLBACK_INSTR_HOOK()
-	#endif
-#else
-	#define m68ki_instr_hook()
-#endif /* M68K_INSTRUCTION_HOOK */
-
-#if M68K_MONITOR_PC
-	#if M68K_MONITOR_PC == OPT_SPECIFY_HANDLER
-		#define m68ki_pc_changed(A) M68K_SET_PC_CALLBACK(ADDRESS_68K(A))
-	#else
-		#define m68ki_pc_changed(A) CALLBACK_PC_CHANGED(ADDRESS_68K(A))
-	#endif
-#else
-	#define m68ki_pc_changed(A)
-#endif /* M68K_MONITOR_PC */
-
-
-/* Enable or disable function code emulation */
-#if M68K_EMULATE_FC
-	#if M68K_EMULATE_FC == OPT_SPECIFY_HANDLER
-		#define m68ki_set_fc(A) M68K_SET_FC_CALLBACK(A)
-	#else
-		#define m68ki_set_fc(A) CALLBACK_SET_FC(A)
-	#endif
-	#define m68ki_use_data_space() m68ki_address_space = FUNCTION_CODE_USER_DATA
-	#define m68ki_use_program_space() m68ki_address_space = FUNCTION_CODE_USER_PROGRAM
-	#define m68ki_get_address_space() m68ki_address_space
-#else
-	#define m68ki_set_fc(A)
-	#define m68ki_use_data_space()
-	#define m68ki_use_program_space()
-	#define m68ki_get_address_space() FUNCTION_CODE_USER_DATA
-#endif /* M68K_EMULATE_FC */
-
-
-/* Enable or disable trace emulation */
-#if M68K_EMULATE_TRACE
-	/* Initiates trace checking before each instruction (t1) */
-	#define m68ki_trace_t1() m68ki_tracing = FLAG_T1
-	/* adds t0 to trace checking if we encounter change of flow */
-	#define m68ki_trace_t0() m68ki_tracing |= FLAG_T0
-	/* Clear all tracing */
-	#define m68ki_clear_trace() m68ki_tracing = 0
-	/* Cause a trace exception if we are tracing */
-	#define m68ki_exception_if_trace() if(m68ki_tracing) m68ki_exception_trace()
-#else
-	#define m68ki_trace_t1()
-	#define m68ki_trace_t0()
-	#define m68ki_clear_trace()
-	#define m68ki_exception_if_trace()
-#endif /* M68K_EMULATE_TRACE */
-
-
-
-/* Address error */
-#if M68K_EMULATE_ADDRESS_ERROR
-	#include <setjmp.h>
-	extern jmp_buf m68ki_aerr_trap;
-
-	#define m68ki_set_address_error_trap() \
-		if(setjmp(m68ki_aerr_trap) != 0) \
-		{ \
-			m68ki_exception_address_error(); \
-			if(CPU_STOPPED) \
-			{ \
-				SET_CYCLES(0); \
-				CPU_INT_CYCLES = 0; \
-				return m68ki_initial_cycles; \
-			} \
-		}
-
-	#define m68ki_check_address_error(ADDR, WRITE_MODE, FC) \
-		if((ADDR)&1) \
-		{ \
-			m68ki_aerr_address = ADDR; \
-			m68ki_aerr_write_mode = WRITE_MODE; \
-			m68ki_aerr_fc = FC; \
-			longjmp(m68ki_aerr_trap, 1); \
-		}
-#else
-	#define m68ki_set_address_error_trap()
-	#define m68ki_check_address_error(ADDR, WRITE_MODE, FC)
-#endif /* M68K_ADDRESS_ERROR */
-
-/* Logging */
-#if M68K_LOG_ENABLE
-	#include <stdio.h>
-	extern FILE* M68K_LOG_FILEHANDLE
-	extern char* m68ki_cpu_names[];
-
-	#define M68K_DO_LOG(A) if(M68K_LOG_FILEHANDLE) fprintf A
-	#if M68K_LOG_1010_1111
-		#define M68K_DO_LOG_EMU(A) if(M68K_LOG_FILEHANDLE) fprintf A
-	#else
-		#define M68K_DO_LOG_EMU(A)
-	#endif
-#else
-	#define M68K_DO_LOG(A)
-	#define M68K_DO_LOG_EMU(A)
-#endif
-
-
-
-/* -------------------------- EA / Operand Access ------------------------- */
-
-/*
- * The general instruction format follows this pattern:
- * .... XXX. .... .YYY
- * where XXX is register X and YYY is register Y
- */
-/* Data Register Isolation */
-#define DX (REG_D[(REG_IR >> 9) & 7])
-#define DY (REG_D[REG_IR & 7])
-/* Address Register Isolation */
-#define AX (REG_A[(REG_IR >> 9) & 7])
-#define AY (REG_A[REG_IR & 7])
-
-
-/* Effective Address Calculations */
-#define EA_AY_AI_8()   AY                                    /* address register indirect */
-#define EA_AY_AI_16()  EA_AY_AI_8()
-#define EA_AY_AI_32()  EA_AY_AI_8()
-#define EA_AY_PI_8()   (AY++)                                /* postincrement (size = byte) */
-#define EA_AY_PI_16()  ((AY+=2)-2)                           /* postincrement (size = word) */
-#define EA_AY_PI_32()  ((AY+=4)-4)                           /* postincrement (size = long) */
-#define EA_AY_PD_8()   (--AY)                                /* predecrement (size = byte) */
-#define EA_AY_PD_16()  (AY-=2)                               /* predecrement (size = word) */
-#define EA_AY_PD_32()  (AY-=4)                               /* predecrement (size = long) */
-#define EA_AY_DI_8()   (AY+MAKE_INT_16(m68ki_read_imm_16(cpu))) /* displacement */
-#define EA_AY_DI_16()  EA_AY_DI_8()
-#define EA_AY_DI_32()  EA_AY_DI_8()
-#define EA_AY_IX_8()   m68ki_get_ea_ix(cpu, AY)                   /* indirect + index */
-#define EA_AY_IX_16()  EA_AY_IX_8()
-#define EA_AY_IX_32()  EA_AY_IX_8()
-
-#define EA_AX_AI_8()   AX
-#define EA_AX_AI_16()  EA_AX_AI_8()
-#define EA_AX_AI_32()  EA_AX_AI_8()
-#define EA_AX_PI_8()   (AX++)
-#define EA_AX_PI_16()  ((AX+=2)-2)
-#define EA_AX_PI_32()  ((AX+=4)-4)
-#define EA_AX_PD_8()   (--AX)
-#define EA_AX_PD_16()  (AX-=2)
-#define EA_AX_PD_32()  (AX-=4)
-#define EA_AX_DI_8()   (AX+MAKE_INT_16(m68ki_read_imm_16(cpu)))
-#define EA_AX_DI_16()  EA_AX_DI_8()
-#define EA_AX_DI_32()  EA_AX_DI_8()
-#define EA_AX_IX_8()   m68ki_get_ea_ix(cpu, AX)
-#define EA_AX_IX_16()  EA_AX_IX_8()
-#define EA_AX_IX_32()  EA_AX_IX_8()
-
-#define EA_A7_PI_8()   ((REG_A[7]+=2)-2)
-#define EA_A7_PD_8()   (REG_A[7]-=2)
-
-#define EA_AW_8()      MAKE_INT_16(m68ki_read_imm_16(cpu))      /* absolute word */
-#define EA_AW_16()     EA_AW_8()
-#define EA_AW_32()     EA_AW_8()
-#define EA_AL_8()      m68ki_read_imm_32(cpu)                   /* absolute long */
-#define EA_AL_16()     EA_AL_8()
-#define EA_AL_32()     EA_AL_8()
-#define EA_PCDI_8()    m68ki_get_ea_pcdi(cpu)                   /* pc indirect + displacement */
-#define EA_PCDI_16()   EA_PCDI_8()
-#define EA_PCDI_32()   EA_PCDI_8()
-#define EA_PCIX_8()    m68ki_get_ea_pcix(cpu)                   /* pc indirect + index */
-#define EA_PCIX_16()   EA_PCIX_8()
-#define EA_PCIX_32()   EA_PCIX_8()
-
-
-#define OPER_I_8()     m68ki_read_imm_8()
-#define OPER_I_16()    m68ki_read_imm_16(cpu)
-#define OPER_I_32()    m68ki_read_imm_32(cpu)
-
-
-
-/* --------------------------- Status Register ---------------------------- */
-
-/* Flag Calculation Macros */
-#define CFLAG_8(A) (A)
-#define CFLAG_16(A) ((A)>>8)
-
-#if M68K_INT_GT_32_BIT
-	#define CFLAG_ADD_32(S, D, R) ((R)>>24)
-	#define CFLAG_SUB_32(S, D, R) ((R)>>24)
-#else
-	#define CFLAG_ADD_32(S, D, R) (((S & D) | (~R & (S | D)))>>23)
-	#define CFLAG_SUB_32(S, D, R) (((S & R) | (~D & (S | R)))>>23)
-#endif /* M68K_INT_GT_32_BIT */
-
-#define VFLAG_ADD_8(S, D, R) ((S^R) & (D^R))
-#define VFLAG_ADD_16(S, D, R) (((S^R) & (D^R))>>8)
-#define VFLAG_ADD_32(S, D, R) (((S^R) & (D^R))>>24)
-
-#define VFLAG_SUB_8(S, D, R) ((S^D) & (R^D))
-#define VFLAG_SUB_16(S, D, R) (((S^D) & (R^D))>>8)
-#define VFLAG_SUB_32(S, D, R) (((S^D) & (R^D))>>24)
-
-#define NFLAG_8(A) (A)
-#define NFLAG_16(A) ((A)>>8)
-#define NFLAG_32(A) ((A)>>24)
-#define NFLAG_64(A) ((A)>>56)
-
-#define ZFLAG_8(A) MASK_OUT_ABOVE_8(A)
-#define ZFLAG_16(A) MASK_OUT_ABOVE_16(A)
-#define ZFLAG_32(A) MASK_OUT_ABOVE_32(A)
-
-
-/* Flag values */
-#define NFLAG_SET   0x80
-#define NFLAG_CLEAR 0
-#define CFLAG_SET   0x100
-#define CFLAG_CLEAR 0
-#define XFLAG_SET   0x100
-#define XFLAG_CLEAR 0
-#define VFLAG_SET   0x80
-#define VFLAG_CLEAR 0
-#define ZFLAG_SET   0
-#define ZFLAG_CLEAR 0xffffffff
-
-#define SFLAG_SET   4
-#define SFLAG_CLEAR 0
-#define MFLAG_SET   2
-#define MFLAG_CLEAR 0
-
-/* Turn flag values into 1 or 0 */
-#define XFLAG_AS_1() ((FLAG_X>>8)&1)
-#define NFLAG_AS_1() ((FLAG_N>>7)&1)
-#define VFLAG_AS_1() ((FLAG_V>>7)&1)
-#define ZFLAG_AS_1() (!FLAG_Z)
-#define CFLAG_AS_1() ((FLAG_C>>8)&1)
-
-
-/* Conditions */
-#define COND_CS() (FLAG_C&0x100)
-#define COND_CC() (!COND_CS())
-#define COND_VS() (FLAG_V&0x80)
-#define COND_VC() (!COND_VS())
-#define COND_NE() FLAG_Z
-#define COND_EQ() (!COND_NE())
-#define COND_MI() (FLAG_N&0x80)
-#define COND_PL() (!COND_MI())
-#define COND_LT() ((FLAG_N^FLAG_V)&0x80)
-#define COND_GE() (!COND_LT())
-#define COND_HI() (COND_CC() && COND_NE())
-#define COND_LS() (COND_CS() || COND_EQ())
-#define COND_GT() (COND_GE() && COND_NE())
-#define COND_LE() (COND_LT() || COND_EQ())
-
-/* Reversed conditions */
-#define COND_NOT_CS() COND_CC()
-#define COND_NOT_CC() COND_CS()
-#define COND_NOT_VS() COND_VC()
-#define COND_NOT_VC() COND_VS()
-#define COND_NOT_NE() COND_EQ()
-#define COND_NOT_EQ() COND_NE()
-#define COND_NOT_MI() COND_PL()
-#define COND_NOT_PL() COND_MI()
-#define COND_NOT_LT() COND_GE()
-#define COND_NOT_GE() COND_LT()
-#define COND_NOT_HI() COND_LS()
-#define COND_NOT_LS() COND_HI()
-#define COND_NOT_GT() COND_LE()
-#define COND_NOT_LE() COND_GT()
-
-/* Not real conditions, but here for convenience */
-#define COND_XS() (FLAG_X&0x100)
-#define COND_XC() (!COND_XS)
-
-
-/* Get the condition code register */
-#define m68ki_get_ccr() ((COND_XS() >> 4) | \
-						 (COND_MI() >> 4) | \
-						 (COND_EQ() << 2) | \
-						 (COND_VS() >> 6) | \
-						 (COND_CS() >> 8))
-
-/* Get the status register */
-#define m68ki_get_sr() ( FLAG_T1              | \
-						 FLAG_T0              | \
-						(FLAG_S        << 11) | \
-						(FLAG_M        << 11) | \
-						 FLAG_INT_MASK        | \
-						 m68ki_get_ccr())
-
-
-
-/* ---------------------------- Cycle Counting ---------------------------- */
-
-#define ADD_CYCLES(A)    cpu->m68ki_remaining_cycles += (A)
-#define USE_CYCLES(A)    cpu->m68ki_remaining_cycles -= (A)
-#define SET_CYCLES(A)    cpu->m68ki_remaining_cycles = A
-#define GET_CYCLES()     cpu->m68ki_remaining_cycles
-#define USE_ALL_CYCLES() cpu->m68ki_remaining_cycles = 0
-
-
-
-/* ----------------------------- Read / Write ----------------------------- */
-
-/* Read from the current address space */
-#define m68ki_read_8(A)  m68ki_read_8_fc (cpu, A, FLAG_S | m68ki_get_address_space())
-#define m68ki_read_16(A) m68ki_read_16_fc(cpu, A, FLAG_S | m68ki_get_address_space())
-#define m68ki_read_32(A) m68ki_read_32_fc(cpu, A, FLAG_S | m68ki_get_address_space())
-
-/* Write to the current data space */
-#define m68ki_write_8(A, V)  m68ki_write_8_fc (cpu, A, FLAG_S | FUNCTION_CODE_USER_DATA, V)
-#define m68ki_write_16(A, V) m68ki_write_16_fc(cpu, A, FLAG_S | FUNCTION_CODE_USER_DATA, V)
-#define m68ki_write_32(A, V) m68ki_write_32_fc(cpu, A, FLAG_S | FUNCTION_CODE_USER_DATA, V)
-
-#if M68K_SIMULATE_PD_WRITES
-#define m68ki_write_32_pd(A, V) m68ki_write_32_pd_fc(cpu, A, FLAG_S | FUNCTION_CODE_USER_DATA, V)
-#else
-#define m68ki_write_32_pd(A, V) m68ki_write_32_fc(cpu, A, FLAG_S | FUNCTION_CODE_USER_DATA, V)
-#endif
-
-/* map read immediate 8 to read immediate 16 */
-#define m68ki_read_imm_8() MASK_OUT_ABOVE_8(m68ki_read_imm_16(cpu))
-
-/* Map PC-relative reads */
-#define m68ki_read_pcrel_8(A) m68k_read_pcrelative_8(A)
-#define m68ki_read_pcrel_16(A) m68k_read_pcrelative_16(A)
-#define m68ki_read_pcrel_32(A) m68k_read_pcrelative_32(A)
-
-/* Read from the program space */
-#define m68ki_read_program_8(A) 	m68ki_read_8_fc(cpu, A, FLAG_S | FUNCTION_CODE_USER_PROGRAM)
-#define m68ki_read_program_16(A) 	m68ki_read_16_fc(cpu, A, FLAG_S | FUNCTION_CODE_USER_PROGRAM)
-#define m68ki_read_program_32(A) 	m68ki_read_32_fc(cpu, A, FLAG_S | FUNCTION_CODE_USER_PROGRAM)
-
-/* Read from the data space */
-#define m68ki_read_data_8(A) 	m68ki_read_8_fc(cpu, A, FLAG_S | FUNCTION_CODE_USER_DATA)
-#define m68ki_read_data_16(A) 	m68ki_read_16_fc(cpu, A, FLAG_S | FUNCTION_CODE_USER_DATA)
-#define m68ki_read_data_32(A) 	m68ki_read_32_fc(cpu, A, FLAG_S | FUNCTION_CODE_USER_DATA)
-
-/* Read data immediately after the program counter */
-INLINE uint m68ki_read_imm_16(m68ki_cpu_core *cpu);
-INLINE uint m68ki_read_imm_32(m68ki_cpu_core *cpu);
-
-/* Read data with specific function code */
-INLINE uint m68ki_read_8_fc  (m68ki_cpu_core *cpu, uint address, uint fc);
-INLINE uint m68ki_read_16_fc (m68ki_cpu_core *cpu, uint address, uint fc);
-INLINE uint m68ki_read_32_fc (m68ki_cpu_core *cpu, uint address, uint fc);
-
-/* Write data with specific function code */
-INLINE void m68ki_write_8_fc (m68ki_cpu_core *cpu, uint address, uint fc, uint value);
-INLINE void m68ki_write_16_fc(m68ki_cpu_core *cpu, uint address, uint fc, uint value);
-INLINE void m68ki_write_32_fc(m68ki_cpu_core *cpu, uint address, uint fc, uint value);
-#if M68K_SIMULATE_PD_WRITES
-INLINE void m68ki_write_32_pd_fc(m68ki_cpu_core *cpu, uint address, uint fc, uint value);
-#endif /* M68K_SIMULATE_PD_WRITES */
-
-/* Indexed and PC-relative ea fetching */
-INLINE uint m68ki_get_ea_pcdi(m68ki_cpu_core *cpu);
-INLINE uint m68ki_get_ea_pcix(m68ki_cpu_core *cpu);
-INLINE uint m68ki_get_ea_ix(m68ki_cpu_core *cpu, uint An);
-
-/* Operand fetching */
-INLINE uint OPER_AY_AI_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_AI_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_AI_32(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_PI_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_PI_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_PI_32(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_PD_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_PD_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_PD_32(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_DI_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_DI_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_DI_32(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_IX_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_IX_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_AY_IX_32(m68ki_cpu_core *cpu);
-
-INLINE uint OPER_AX_AI_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_AI_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_AI_32(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_PI_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_PI_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_PI_32(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_PD_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_PD_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_PD_32(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_DI_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_DI_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_DI_32(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_IX_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_IX_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_AX_IX_32(m68ki_cpu_core *cpu);
-
-INLINE uint OPER_A7_PI_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_A7_PD_8(m68ki_cpu_core *cpu);
-
-INLINE uint OPER_AW_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_AW_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_AW_32(m68ki_cpu_core *cpu);
-INLINE uint OPER_AL_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_AL_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_AL_32(m68ki_cpu_core *cpu);
-INLINE uint OPER_PCDI_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_PCDI_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_PCDI_32(m68ki_cpu_core *cpu);
-INLINE uint OPER_PCIX_8(m68ki_cpu_core *cpu);
-INLINE uint OPER_PCIX_16(m68ki_cpu_core *cpu);
-INLINE uint OPER_PCIX_32(m68ki_cpu_core *cpu);
-
-/* Stack operations */
-INLINE void m68ki_push_16(m68ki_cpu_core *cpu, uint value);
-INLINE void m68ki_push_32(m68ki_cpu_core *cpu, uint value);
-INLINE uint m68ki_pull_16(m68ki_cpu_core *cpu);
-INLINE uint m68ki_pull_32(m68ki_cpu_core *cpu);
-
-/* Program flow operations */
-INLINE void m68ki_jump(m68ki_cpu_core *cpu, uint new_pc);
-INLINE void m68ki_jump_vector(m68ki_cpu_core *cpu, uint vector);
-INLINE void m68ki_branch_8(m68ki_cpu_core *cpu, uint offset);
-INLINE void m68ki_branch_16(m68ki_cpu_core *cpu, uint offset);
-INLINE void m68ki_branch_32(m68ki_cpu_core *cpu, uint offset);
-
-/* Status register operations. */
-INLINE void m68ki_set_s_flag(m68ki_cpu_core *cpu, uint value);            /* Only bit 2 of value should be set (i.e. 4 or 0) */
-INLINE void m68ki_set_sm_flag(m68ki_cpu_core *cpu, uint value);           /* only bits 1 and 2 of value should be set */
-INLINE void m68ki_set_ccr(m68ki_cpu_core *cpu, uint value);               /* set the condition code register */
-INLINE void m68ki_set_sr(m68ki_cpu_core *cpu, uint value);                /* set the status register */
-INLINE void m68ki_set_sr_noint(m68ki_cpu_core *cpu, uint value);          /* set the status register */
-
-/* Exception processing */
-INLINE uint m68ki_init_exception(m68ki_cpu_core *cpu);              /* Initial exception processing */
-
-INLINE void m68ki_stack_frame_3word(m68ki_cpu_core *cpu, uint pc, uint sr); /* Stack various frame types */
-INLINE void m68ki_stack_frame_buserr(m68ki_cpu_core *cpu, uint sr);
-
-INLINE void m68ki_stack_frame_0000(m68ki_cpu_core *cpu, uint pc, uint sr, uint vector);
-INLINE void m68ki_stack_frame_0001(m68ki_cpu_core *cpu, uint pc, uint sr, uint vector);
-INLINE void m68ki_stack_frame_0010(m68ki_cpu_core *cpu, uint sr, uint vector);
-INLINE void m68ki_stack_frame_1000(m68ki_cpu_core *cpu, uint pc, uint sr, uint vector);
-INLINE void m68ki_stack_frame_1010(m68ki_cpu_core *cpu, uint sr, uint vector, uint pc);
-INLINE void m68ki_stack_frame_1011(m68ki_cpu_core *cpu, uint sr, uint vector, uint pc);
-
-INLINE void m68ki_exception_trap(m68ki_cpu_core *cpu, uint vector);
-INLINE void m68ki_exception_trapN(m68ki_cpu_core *cpu, uint vector);
-INLINE void m68ki_exception_trace(m68ki_cpu_core *cpu);
-INLINE void m68ki_exception_privilege_violation(m68ki_cpu_core *cpu);
-INLINE void m68ki_exception_1010(m68ki_cpu_core *cpu);
-INLINE void m68ki_exception_1111(m68ki_cpu_core *cpu);
-INLINE void m68ki_exception_illegal(m68ki_cpu_core *cpu);
-INLINE void m68ki_exception_format_error(m68ki_cpu_core *cpu);
-INLINE void m68ki_exception_address_error(m68ki_cpu_core *cpu);
-INLINE void m68ki_exception_interrupt(m68ki_cpu_core *cpu, uint int_level);
-INLINE void m68ki_check_interrupts(m68ki_cpu_core *cpu);            /* ASG: check for interrupts */
-
-/* quick disassembly (used for logging) */
-char* m68ki_disassemble_quick(unsigned int pc, unsigned int cpu_type);
-
-
-/* ======================================================================== */
-/* =========================== UTILITY FUNCTIONS ========================== */
-/* ======================================================================== */
-
-
-/* ---------------------------- Read Immediate ---------------------------- */
-
-/* Handles all immediate reads, does address error check, function code setting,
- * and prefetching if they are enabled in m68kconf.h
- */
-INLINE uint m68ki_read_imm_16(m68ki_cpu_core *cpu)
-{
-	m68ki_set_fc(FLAG_S | FUNCTION_CODE_USER_PROGRAM); /* auto-disable (see m68kcpu.h) */
-	m68ki_check_address_error(REG_PC, MODE_READ, FLAG_S | FUNCTION_CODE_USER_PROGRAM); /* auto-disable (see m68kcpu.h) */
-#if M68K_EMULATE_PREFETCH
-	if(MASK_OUT_BELOW_2(REG_PC) != CPU_PREF_ADDR)
-	{
-		CPU_PREF_ADDR = MASK_OUT_BELOW_2(REG_PC);
-		CPU_PREF_DATA = m68k_read_immediate_32(ADDRESS_68K(CPU_PREF_ADDR));
-	}
-	REG_PC += 2;
-	return MASK_OUT_ABOVE_16(CPU_PREF_DATA >> ((2-((REG_PC-2)&2))<<3));
-#else
-	REG_PC += 2;
-	return m68k_read_immediate_16(ADDRESS_68K(REG_PC-2));
-#endif /* M68K_EMULATE_PREFETCH */
-}
-INLINE uint m68ki_read_imm_32(m68ki_cpu_core *cpu)
-{
-#if M68K_EMULATE_PREFETCH
-	uint temp_val;
-
-	m68ki_set_fc(FLAG_S | FUNCTION_CODE_USER_PROGRAM); /* auto-disable (see m68kcpu.h) */
-	m68ki_check_address_error(REG_PC, MODE_READ, FLAG_S | FUNCTION_CODE_USER_PROGRAM); /* auto-disable (see m68kcpu.h) */
-	if(MASK_OUT_BELOW_2(REG_PC) != CPU_PREF_ADDR)
-	{
-		CPU_PREF_ADDR = MASK_OUT_BELOW_2(REG_PC);
-		CPU_PREF_DATA = m68k_read_immediate_32(ADDRESS_68K(CPU_PREF_ADDR));
-	}
-	temp_val = CPU_PREF_DATA;
-	REG_PC += 2;
-	if(MASK_OUT_BELOW_2(REG_PC) != CPU_PREF_ADDR)
-	{
-		CPU_PREF_ADDR = MASK_OUT_BELOW_2(REG_PC);
-		CPU_PREF_DATA = m68k_read_immediate_32(ADDRESS_68K(CPU_PREF_ADDR));
-		temp_val = MASK_OUT_ABOVE_32((temp_val << 16) | (CPU_PREF_DATA >> 16));
-	}
-	REG_PC += 2;
-
-	return temp_val;
-#else
-	m68ki_set_fc(FLAG_S | FUNCTION_CODE_USER_PROGRAM); /* auto-disable (see m68kcpu.h) */
-	m68ki_check_address_error(REG_PC, MODE_READ, FLAG_S | FUNCTION_CODE_USER_PROGRAM); /* auto-disable (see m68kcpu.h) */
-	REG_PC += 4;
-	return m68k_read_immediate_32(ADDRESS_68K(REG_PC-4));
-#endif /* M68K_EMULATE_PREFETCH */
-}
-
-
-
-/* ------------------------- Top level read/write ------------------------- */
-
-/* Handles all memory accesses (except for immediate reads if they are
- * configured to use separate functions in m68kconf.h).
- * All memory accesses must go through these top level functions.
- * These functions will also check for address error and set the function
- * code if they are enabled in m68kconf.h.
- */
-INLINE uint m68ki_read_8_fc(m68ki_cpu_core *cpu, uint address, uint fc)
-{
-	m68ki_set_fc(fc); /* auto-disable (see m68kcpu.h) */
-	return m68k_read_memory_8(cpu, ADDRESS_68K(address));
-}
-INLINE uint m68ki_read_16_fc(m68ki_cpu_core *cpu, uint address, uint fc)
-{
-	m68ki_set_fc(fc); /* auto-disable (see m68kcpu.h) */
-	m68ki_check_address_error(address, MODE_READ, fc); /* auto-disable (see m68kcpu.h) */
-	return m68k_read_memory_16(cpu, ADDRESS_68K(address));
-}
-INLINE uint m68ki_read_32_fc(m68ki_cpu_core *cpu, uint address, uint fc)
-{
-	m68ki_set_fc(fc); /* auto-disable (see m68kcpu.h) */
-	m68ki_check_address_error(address, MODE_READ, fc); /* auto-disable (see m68kcpu.h) */
-	return m68k_read_memory_32(cpu, ADDRESS_68K(address));
-}
-
-INLINE void m68ki_write_8_fc(m68ki_cpu_core *cpu, uint address, uint fc, uint value)
-{
-	m68ki_set_fc(fc); /* auto-disable (see m68kcpu.h) */
-	m68k_write_memory_8(cpu, ADDRESS_68K(address), value);
-}
-INLINE void m68ki_write_16_fc(m68ki_cpu_core *cpu, uint address, uint fc, uint value)
-{
-	m68ki_set_fc(fc); /* auto-disable (see m68kcpu.h) */
-	m68ki_check_address_error(address, MODE_WRITE, fc); /* auto-disable (see m68kcpu.h) */
-	m68k_write_memory_16(cpu, ADDRESS_68K(address), value);
-}
-INLINE void m68ki_write_32_fc(m68ki_cpu_core *cpu, uint address, uint fc, uint value)
-{
-	m68ki_set_fc(fc); /* auto-disable (see m68kcpu.h) */
-	m68ki_check_address_error(address, MODE_WRITE, fc); /* auto-disable (see m68kcpu.h) */
-	m68k_write_memory_32(cpu, ADDRESS_68K(address), value);
-}
-
-#if M68K_SIMULATE_PD_WRITES
-INLINE void m68ki_write_32_pd_fc(m68ki_cpu_core *cpu, uint address, uint fc, uint value)
-{
-	m68ki_set_fc(fc); /* auto-disable (see m68kcpu.h) */
-	m68ki_check_address_error(address, MODE_WRITE, fc); /* auto-disable (see m68kcpu.h) */
-	m68k_write_memory_32_pd(ADDRESS_68K(address), value);
-}
-#endif
-
-
-/* --------------------- Effective Address Calculation -------------------- */
-
-/* The program counter relative addressing modes cause operands to be
- * retrieved from program space, not data space.
- */
-INLINE uint m68ki_get_ea_pcdi(m68ki_cpu_core *cpu)
-{
-	uint old_pc = REG_PC;
-	m68ki_use_program_space(); /* auto-disable */
-	return old_pc + MAKE_INT_16(m68ki_read_imm_16(cpu));
-}
-
-
-INLINE uint m68ki_get_ea_pcix(m68ki_cpu_core *cpu)
-{
-	m68ki_use_program_space(); /* auto-disable */
-	return m68ki_get_ea_ix(cpu, REG_PC);
-}
-
-/* Indexed addressing modes are encoded as follows:
- *
- * Base instruction format:
- * F E D C B A 9 8 7 6 | 5 4 3 | 2 1 0
- * x x x x x x x x x x | 1 1 0 | BASE REGISTER      (An)
- *
- * Base instruction format for destination EA in move instructions:
- * F E D C | B A 9    | 8 7 6 | 5 4 3 2 1 0
- * x x x x | BASE REG | 1 1 0 | X X X X X X       (An)
- *
- * Brief extension format:
- *  F  |  E D C   |  B  |  A 9  | 8 | 7 6 5 4 3 2 1 0
- * D/A | REGISTER | W/L | SCALE | 0 |  DISPLACEMENT
- *
- * Full extension format:
- *  F     E D C      B     A 9    8   7    6    5 4       3   2 1 0
- * D/A | REGISTER | W/L | SCALE | 1 | BS | IS | BD SIZE | 0 | I/IS
- * BASE DISPLACEMENT (0, 16, 32 bit)                (bd)
- * OUTER DISPLACEMENT (0, 16, 32 bit)               (od)
- *
- * D/A:     0 = Dn, 1 = An                          (Xn)
- * W/L:     0 = W (sign extend), 1 = L              (.SIZE)
- * SCALE:   00=1, 01=2, 10=4, 11=8                  (*SCALE)
- * BS:      0=add base reg, 1=suppress base reg     (An suppressed)
- * IS:      0=add index, 1=suppress index           (Xn suppressed)
- * BD SIZE: 00=reserved, 01=NULL, 10=Word, 11=Long  (size of bd)
- *
- * IS I/IS Operation
- * 0  000  No Memory Indirect
- * 0  001  indir prex with null outer
- * 0  010  indir prex with word outer
- * 0  011  indir prex with long outer
- * 0  100  reserved
- * 0  101  indir postx with null outer
- * 0  110  indir postx with word outer
- * 0  111  indir postx with long outer
- * 1  000  no memory indirect
- * 1  001  mem indir with null outer
- * 1  010  mem indir with word outer
- * 1  011  mem indir with long outer
- * 1  100-111  reserved
- */
-INLINE uint m68ki_get_ea_ix(m68ki_cpu_core *cpu, uint An)
-{
-	/* An = base register */
-	uint extension = m68ki_read_imm_16(cpu);
-	uint Xn = 0;                        /* Index register */
-	uint bd = 0;                        /* Base Displacement */
-	uint od = 0;                        /* Outer Displacement */
-
-	if(CPU_TYPE_IS_010_LESS(CPU_TYPE))
-	{
-		/* Calculate index */
-		Xn = REG_DA[extension>>12];     /* Xn */
-		if(!BIT_B(extension))           /* W/L */
-			Xn = MAKE_INT_16(Xn);
-
-		/* Add base register and displacement and return */
-		return An + Xn + MAKE_INT_8(extension);
-	}
-
-	/* Brief extension format */
-	if(!BIT_8(extension))
-	{
-		/* Calculate index */
-		Xn = REG_DA[extension>>12];     /* Xn */
-		if(!BIT_B(extension))           /* W/L */
-			Xn = MAKE_INT_16(Xn);
-		/* Add scale if proper CPU type */
-		if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-			Xn <<= (extension>>9) & 3;  /* SCALE */
-
-		/* Add base register and displacement and return */
-		return An + Xn + MAKE_INT_8(extension);
-	}
-
-	/* Full extension format */
-
-	USE_CYCLES(m68ki_ea_idx_cycle_table[extension&0x3f]);
-
-	/* Check if base register is present */
-	if(BIT_7(extension))                /* BS */
-		An = 0;                         /* An */
-
-	/* Check if index is present */
-	if(!BIT_6(extension))               /* IS */
-	{
-		Xn = REG_DA[extension>>12];     /* Xn */
-		if(!BIT_B(extension))           /* W/L */
-			Xn = MAKE_INT_16(Xn);
-		Xn <<= (extension>>9) & 3;      /* SCALE */
-	}
-
-	/* Check if base displacement is present */
-	if(BIT_5(extension))                /* BD SIZE */
-		bd = BIT_4(extension) ? m68ki_read_imm_32(cpu) : MAKE_INT_16(m68ki_read_imm_16(cpu));
-
-	/* If no indirect action, we are done */
-	if(!(extension&7))                  /* No Memory Indirect */
-		return An + bd + Xn;
-
-	/* Check if outer displacement is present */
-	if(BIT_1(extension))                /* I/IS:  od */
-		od = BIT_0(extension) ? m68ki_read_imm_32(cpu) : MAKE_INT_16(m68ki_read_imm_16(cpu));
-
-	/* Postindex */
-	if(BIT_2(extension))                /* I/IS:  0 = preindex, 1 = postindex */
-		return m68ki_read_32(An + bd) + Xn + od;
-
-	/* Preindex */
-	return m68ki_read_32(An + bd + Xn) + od;
-}
-
-
-/* Fetch operands */
-INLINE uint OPER_AY_AI_8(m68ki_cpu_core *cpu)  {uint ea = EA_AY_AI_8();  return m68ki_read_8(ea); }
-INLINE uint OPER_AY_AI_16(m68ki_cpu_core *cpu) {uint ea = EA_AY_AI_16(); return m68ki_read_16(ea);}
-INLINE uint OPER_AY_AI_32(m68ki_cpu_core *cpu) {uint ea = EA_AY_AI_32(); return m68ki_read_32(ea);}
-INLINE uint OPER_AY_PI_8(m68ki_cpu_core *cpu)  {uint ea = EA_AY_PI_8();  return m68ki_read_8(ea); }
-INLINE uint OPER_AY_PI_16(m68ki_cpu_core *cpu) {uint ea = EA_AY_PI_16(); return m68ki_read_16(ea);}
-INLINE uint OPER_AY_PI_32(m68ki_cpu_core *cpu) {uint ea = EA_AY_PI_32(); return m68ki_read_32(ea);}
-INLINE uint OPER_AY_PD_8(m68ki_cpu_core *cpu)  {uint ea = EA_AY_PD_8();  return m68ki_read_8(ea); }
-INLINE uint OPER_AY_PD_16(m68ki_cpu_core *cpu) {uint ea = EA_AY_PD_16(); return m68ki_read_16(ea);}
-INLINE uint OPER_AY_PD_32(m68ki_cpu_core *cpu) {uint ea = EA_AY_PD_32(); return m68ki_read_32(ea);}
-INLINE uint OPER_AY_DI_8(m68ki_cpu_core *cpu)  {uint ea = EA_AY_DI_8();  return m68ki_read_8(ea); }
-INLINE uint OPER_AY_DI_16(m68ki_cpu_core *cpu) {uint ea = EA_AY_DI_16(); return m68ki_read_16(ea);}
-INLINE uint OPER_AY_DI_32(m68ki_cpu_core *cpu) {uint ea = EA_AY_DI_32(); return m68ki_read_32(ea);}
-INLINE uint OPER_AY_IX_8(m68ki_cpu_core *cpu)  {uint ea = EA_AY_IX_8();  return m68ki_read_8(ea); }
-INLINE uint OPER_AY_IX_16(m68ki_cpu_core *cpu) {uint ea = EA_AY_IX_16(); return m68ki_read_16(ea);}
-INLINE uint OPER_AY_IX_32(m68ki_cpu_core *cpu) {uint ea = EA_AY_IX_32(); return m68ki_read_32(ea);}
-
-INLINE uint OPER_AX_AI_8(m68ki_cpu_core *cpu)  {uint ea = EA_AX_AI_8();  return m68ki_read_8(ea); }
-INLINE uint OPER_AX_AI_16(m68ki_cpu_core *cpu) {uint ea = EA_AX_AI_16(); return m68ki_read_16(ea);}
-INLINE uint OPER_AX_AI_32(m68ki_cpu_core *cpu) {uint ea = EA_AX_AI_32(); return m68ki_read_32(ea);}
-INLINE uint OPER_AX_PI_8(m68ki_cpu_core *cpu)  {uint ea = EA_AX_PI_8();  return m68ki_read_8(ea); }
-INLINE uint OPER_AX_PI_16(m68ki_cpu_core *cpu) {uint ea = EA_AX_PI_16(); return m68ki_read_16(ea);}
-INLINE uint OPER_AX_PI_32(m68ki_cpu_core *cpu) {uint ea = EA_AX_PI_32(); return m68ki_read_32(ea);}
-INLINE uint OPER_AX_PD_8(m68ki_cpu_core *cpu)  {uint ea = EA_AX_PD_8();  return m68ki_read_8(ea); }
-INLINE uint OPER_AX_PD_16(m68ki_cpu_core *cpu) {uint ea = EA_AX_PD_16(); return m68ki_read_16(ea);}
-INLINE uint OPER_AX_PD_32(m68ki_cpu_core *cpu) {uint ea = EA_AX_PD_32(); return m68ki_read_32(ea);}
-INLINE uint OPER_AX_DI_8(m68ki_cpu_core *cpu)  {uint ea = EA_AX_DI_8();  return m68ki_read_8(ea); }
-INLINE uint OPER_AX_DI_16(m68ki_cpu_core *cpu) {uint ea = EA_AX_DI_16(); return m68ki_read_16(ea);}
-INLINE uint OPER_AX_DI_32(m68ki_cpu_core *cpu) {uint ea = EA_AX_DI_32(); return m68ki_read_32(ea);}
-INLINE uint OPER_AX_IX_8(m68ki_cpu_core *cpu)  {uint ea = EA_AX_IX_8();  return m68ki_read_8(ea); }
-INLINE uint OPER_AX_IX_16(m68ki_cpu_core *cpu) {uint ea = EA_AX_IX_16(); return m68ki_read_16(ea);}
-INLINE uint OPER_AX_IX_32(m68ki_cpu_core *cpu) {uint ea = EA_AX_IX_32(); return m68ki_read_32(ea);}
-
-INLINE uint OPER_A7_PI_8(m68ki_cpu_core *cpu)  {uint ea = EA_A7_PI_8();  return m68ki_read_8(ea); }
-INLINE uint OPER_A7_PD_8(m68ki_cpu_core *cpu)  {uint ea = EA_A7_PD_8();  return m68ki_read_8(ea); }
-
-INLINE uint OPER_AW_8(m68ki_cpu_core *cpu)     {uint ea = EA_AW_8();     return m68ki_read_8(ea); }
-INLINE uint OPER_AW_16(m68ki_cpu_core *cpu)    {uint ea = EA_AW_16();    return m68ki_read_16(ea);}
-INLINE uint OPER_AW_32(m68ki_cpu_core *cpu)    {uint ea = EA_AW_32();    return m68ki_read_32(ea);}
-INLINE uint OPER_AL_8(m68ki_cpu_core *cpu)     {uint ea = EA_AL_8();     return m68ki_read_8(ea); }
-INLINE uint OPER_AL_16(m68ki_cpu_core *cpu)    {uint ea = EA_AL_16();    return m68ki_read_16(ea);}
-INLINE uint OPER_AL_32(m68ki_cpu_core *cpu)    {uint ea = EA_AL_32();    return m68ki_read_32(ea);}
-INLINE uint OPER_PCDI_8(m68ki_cpu_core *cpu)   {uint ea = EA_PCDI_8();   return m68ki_read_pcrel_8(ea); }
-INLINE uint OPER_PCDI_16(m68ki_cpu_core *cpu)  {uint ea = EA_PCDI_16();  return m68ki_read_pcrel_16(ea);}
-INLINE uint OPER_PCDI_32(m68ki_cpu_core *cpu)  {uint ea = EA_PCDI_32();  return m68ki_read_pcrel_32(ea);}
-INLINE uint OPER_PCIX_8(m68ki_cpu_core *cpu)   {uint ea = EA_PCIX_8();   return m68ki_read_pcrel_8(ea); }
-INLINE uint OPER_PCIX_16(m68ki_cpu_core *cpu)  {uint ea = EA_PCIX_16();  return m68ki_read_pcrel_16(ea);}
-INLINE uint OPER_PCIX_32(m68ki_cpu_core *cpu)  {uint ea = EA_PCIX_32();  return m68ki_read_pcrel_32(ea);}
-
-
-
-/* ---------------------------- Stack Functions --------------------------- */
-
-/* Push/pull data from the stack */
-INLINE void m68ki_push_16(m68ki_cpu_core *cpu, uint value)
-{
-	REG_SP = MASK_OUT_ABOVE_32(REG_SP - 2);
-	m68ki_write_16(REG_SP, value);
-}
-
-INLINE void m68ki_push_32(m68ki_cpu_core *cpu, uint value)
-{
-	REG_SP = MASK_OUT_ABOVE_32(REG_SP - 4);
-	m68ki_write_32(REG_SP, value);
-}
-
-INLINE uint m68ki_pull_16(m68ki_cpu_core *cpu)
-{
-	REG_SP = MASK_OUT_ABOVE_32(REG_SP + 2);
-	return m68ki_read_16(REG_SP-2);
-}
-
-INLINE uint m68ki_pull_32(m68ki_cpu_core *cpu)
-{
-	REG_SP = MASK_OUT_ABOVE_32(REG_SP + 4);
-	return m68ki_read_32(REG_SP-4);
-}
-
-
-/* Increment/decrement the stack as if doing a push/pull but
- * don't do any memory access.
- */
-INLINE void m68ki_fake_push_16(m68ki_cpu_core *cpu)
-{
-	REG_SP = MASK_OUT_ABOVE_32(REG_SP - 2);
-}
-
-INLINE void m68ki_fake_push_32(m68ki_cpu_core *cpu)
-{
-	REG_SP = MASK_OUT_ABOVE_32(REG_SP - 4);
-}
-
-INLINE void m68ki_fake_pull_16(m68ki_cpu_core *cpu)
-{
-	REG_SP = MASK_OUT_ABOVE_32(REG_SP + 2);
-}
-
-INLINE void m68ki_fake_pull_32(m68ki_cpu_core *cpu)
-{
-	REG_SP = MASK_OUT_ABOVE_32(REG_SP + 4);
-}
-
-
-/* ----------------------------- Program Flow ----------------------------- */
-
-/* Jump to a new program location or vector.
- * These functions will also call the pc_changed callback if it was enabled
- * in m68kconf.h.
- */
-INLINE void m68ki_jump(m68ki_cpu_core *cpu, uint new_pc)
-{
-	REG_PC = new_pc;
-	m68ki_pc_changed(REG_PC);
-}
-
-INLINE void m68ki_jump_vector(m68ki_cpu_core *cpu, uint vector)
-{
-	REG_PC = (vector<<2) + REG_VBR;
-	REG_PC = m68ki_read_data_32(REG_PC);
-	m68ki_pc_changed(REG_PC);
-}
-
-
-/* Branch to a new memory location.
- * The 32-bit branch will call pc_changed if it was enabled in m68kconf.h.
- * So far I've found no problems with not calling pc_changed for 8 or 16
- * bit branches.
- */
-INLINE void m68ki_branch_8(m68ki_cpu_core *cpu, uint offset)
-{
-	REG_PC += MAKE_INT_8(offset);
-}
-
-INLINE void m68ki_branch_16(m68ki_cpu_core *cpu, uint offset)
-{
-	REG_PC += MAKE_INT_16(offset);
-}
-
-INLINE void m68ki_branch_32(m68ki_cpu_core *cpu, uint offset)
-{
-	REG_PC += offset;
-	m68ki_pc_changed(REG_PC);
-}
-
-
-
-/* ---------------------------- Status Register --------------------------- */
-
-/* Set the S flag and change the active stack pointer.
- * Note that value MUST be 4 or 0.
- */
-INLINE void m68ki_set_s_flag(m68ki_cpu_core *cpu, uint value)
-{
-	/* Backup the old stack pointer */
-	REG_SP_BASE[FLAG_S | ((FLAG_S>>1) & FLAG_M)] = REG_SP;
-	/* Set the S flag */
-	FLAG_S = value;
-	/* Set the new stack pointer */
-	REG_SP = REG_SP_BASE[FLAG_S | ((FLAG_S>>1) & FLAG_M)];
-}
-
-/* Set the S and M flags and change the active stack pointer.
- * Note that value MUST be 0, 2, 4, or 6 (bit2 = S, bit1 = M).
- */
-INLINE void m68ki_set_sm_flag(m68ki_cpu_core *cpu, uint value)
-{
-	/* Backup the old stack pointer */
-	REG_SP_BASE[FLAG_S | ((FLAG_S>>1) & FLAG_M)] = REG_SP;
-	/* Set the S and M flags */
-	FLAG_S = value & SFLAG_SET;
-	FLAG_M = value & MFLAG_SET;
-	/* Set the new stack pointer */
-	REG_SP = REG_SP_BASE[FLAG_S | ((FLAG_S>>1) & FLAG_M)];
-}
-
-/* Set the S and M flags.  Don't touch the stack pointer. */
-INLINE void m68ki_set_sm_flag_nosp(m68ki_cpu_core *cpu, uint value)
-{
-	/* Set the S and M flags */
-	FLAG_S = value & SFLAG_SET;
-	FLAG_M = value & MFLAG_SET;
-}
-
-
-/* Set the condition code register */
-INLINE void m68ki_set_ccr(m68ki_cpu_core *cpu, uint value)
-{
-	FLAG_X = BIT_4(value)  << 4;
-	FLAG_N = BIT_3(value)  << 4;
-	FLAG_Z = !BIT_2(value);
-	FLAG_V = BIT_1(value)  << 6;
-	FLAG_C = BIT_0(value)  << 8;
-}
-
-/* Set the status register but don't check for interrupts */
-INLINE void m68ki_set_sr_noint(m68ki_cpu_core *cpu, uint value)
-{
-	/* Mask out the "unimplemented" bits */
-	value &= CPU_SR_MASK;
-
-	/* Now set the status register */
-	FLAG_T1 = BIT_F(value);
-	FLAG_T0 = BIT_E(value);
-	FLAG_INT_MASK = value & 0x0700;
-	m68ki_set_ccr(cpu, value);
-	m68ki_set_sm_flag(cpu, (value >> 11) & 6);
-}
-
-/* Set the status register but don't check for interrupts nor
- * change the stack pointer
- */
-INLINE void m68ki_set_sr_noint_nosp(m68ki_cpu_core *cpu, uint value)
-{
-	/* Mask out the "unimplemented" bits */
-	value &= CPU_SR_MASK;
-
-	/* Now set the status register */
-	FLAG_T1 = BIT_F(value);
-	FLAG_T0 = BIT_E(value);
-	FLAG_INT_MASK = value & 0x0700;
-	m68ki_set_ccr(cpu, value);
-	m68ki_set_sm_flag_nosp(cpu, (value >> 11) & 6);
-}
-
-/* Set the status register and check for interrupts */
-INLINE void m68ki_set_sr(m68ki_cpu_core *cpu, uint value)
-{
-	m68ki_set_sr_noint(cpu, value);
-	m68ki_check_interrupts(cpu);
-}
-
-
-/* ------------------------- Exception Processing ------------------------- */
-
-/* Initiate exception processing */
-INLINE uint m68ki_init_exception(m68ki_cpu_core *cpu)
-{
-	/* Save the old status register */
-	uint sr = m68ki_get_sr();
-
-	/* Turn off trace flag, clear pending traces */
-	FLAG_T1 = FLAG_T0 = 0;
-	m68ki_clear_trace();
-	/* Enter supervisor mode */
-	m68ki_set_s_flag(cpu, SFLAG_SET);
-
-	return sr;
-}
-
-/* 3 word stack frame (68000 only) */
-INLINE void m68ki_stack_frame_3word(m68ki_cpu_core *cpu, uint pc, uint sr)
-{
-	m68ki_push_32(cpu, pc);
-	m68ki_push_16(cpu, sr);
-}
-
-/* Format 0 stack frame.
- * This is the standard stack frame for 68010+.
- */
-INLINE void m68ki_stack_frame_0000(m68ki_cpu_core *cpu, uint pc, uint sr, uint vector)
-{
-	/* Stack a 3-word frame if we are 68000 */
-	if(CPU_TYPE == CPU_TYPE_000)
-	{
-		m68ki_stack_frame_3word(cpu, pc, sr);
-		return;
-	}
-	m68ki_push_16(cpu, vector<<2);
-	m68ki_push_32(cpu, pc);
-	m68ki_push_16(cpu, sr);
-}
-
-/* Format 1 stack frame (68020).
- * For 68020, this is the 4 word throwaway frame.
- */
-INLINE void m68ki_stack_frame_0001(m68ki_cpu_core *cpu, uint pc, uint sr, uint vector)
-{
-	m68ki_push_16(cpu, 0x1000 | (vector<<2));
-	m68ki_push_32(cpu, pc);
-	m68ki_push_16(cpu, sr);
-}
-
-/* Format 2 stack frame.
- * This is used only by 68020 for trap exceptions.
- */
-INLINE void m68ki_stack_frame_0010(m68ki_cpu_core *cpu, uint sr, uint vector)
-{
-	m68ki_push_32(cpu, REG_PPC);
-	m68ki_push_16(cpu, 0x2000 | (vector<<2));
-	m68ki_push_32(cpu, REG_PC);
-	m68ki_push_16(cpu, sr);
-}
-
-
-/* Bus error stack frame (68000 only).
- */
-INLINE void m68ki_stack_frame_buserr(m68ki_cpu_core *cpu, uint sr)
-{
-	m68ki_push_32(cpu,REG_PC);
-	m68ki_push_16(cpu,sr);
-	m68ki_push_16(cpu,REG_IR);
-	m68ki_push_32(cpu,cpu->m68ki_aerr_address);	/* access address */
-	/* 0 0 0 0 0 0 0 0 0 0 0 R/W I/N FC
-	 * R/W  0 = write, 1 = read
-	 * I/N  0 = instruction, 1 = not
-	 * FC   3-bit function code
-	 */
-	m68ki_push_16(cpu,cpu->m68ki_aerr_write_mode | CPU_INSTR_MODE | cpu->m68ki_aerr_fc);
-}
-
-/* Format 8 stack frame (68010).
- * 68010 only.  This is the 29 word bus/address error frame.
- */
-void m68ki_stack_frame_1000(m68ki_cpu_core *cpu, uint pc, uint sr, uint vector)
-{
-	/* VERSION
-	 * NUMBER
-	 * INTERNAL INFORMATION, 16 WORDS
-	 */
-	m68ki_fake_push_32(cpu);
-	m68ki_fake_push_32(cpu);
-	m68ki_fake_push_32(cpu);
-	m68ki_fake_push_32(cpu);
-	m68ki_fake_push_32(cpu);
-	m68ki_fake_push_32(cpu);
-	m68ki_fake_push_32(cpu);
-	m68ki_fake_push_32(cpu);
-
-	/* INSTRUCTION INPUT BUFFER */
-	m68ki_push_16(cpu,0);
-
-	/* UNUSED, RESERVED (not written) */
-	m68ki_fake_push_16(cpu);
-
-	/* DATA INPUT BUFFER */
-	m68ki_push_16(cpu,0);
-
-	/* UNUSED, RESERVED (not written) */
-	m68ki_fake_push_16(cpu);
-
-	/* DATA OUTPUT BUFFER */
-	m68ki_push_16(cpu,0);
-
-	/* UNUSED, RESERVED (not written) */
-	m68ki_fake_push_16(cpu);
-
-	/* FAULT ADDRESS */
-	m68ki_push_32(cpu,0);
-
-	/* SPECIAL STATUS WORD */
-	m68ki_push_16(cpu,0);
-
-	/* 1000, VECTOR OFFSET */
-	m68ki_push_16(cpu,0x8000 | (vector<<2));
-
-	/* PROGRAM COUNTER */
-	m68ki_push_32(cpu,pc);
-
-	/* STATUS REGISTER */
-	m68ki_push_16(cpu,sr);
-}
-
-/* Format A stack frame (short bus fault).
- * This is used only by 68020 for bus fault and address error
- * if the error happens at an instruction boundary.
- * PC stacked is address of next instruction.
- */
-void m68ki_stack_frame_1010(m68ki_cpu_core *cpu, uint sr, uint vector, uint pc)
-{
-	/* INTERNAL REGISTER */
-	m68ki_push_16(cpu,0);
-
-	/* INTERNAL REGISTER */
-	m68ki_push_16(cpu,0);
-
-	/* DATA OUTPUT BUFFER (2 words) */
-	m68ki_push_32(cpu,0);
-
-	/* INTERNAL REGISTER */
-	m68ki_push_16(cpu,0);
-
-	/* INTERNAL REGISTER */
-	m68ki_push_16(cpu,0);
-
-	/* DATA CYCLE FAULT ADDRESS (2 words) */
-	m68ki_push_32(cpu,0);
-
-	/* INSTRUCTION PIPE STAGE B */
-	m68ki_push_16(cpu,0);
-
-	/* INSTRUCTION PIPE STAGE C */
-	m68ki_push_16(cpu,0);
-
-	/* SPECIAL STATUS REGISTER */
-	m68ki_push_16(cpu,0);
-
-	/* INTERNAL REGISTER */
-	m68ki_push_16(cpu,0);
-
-	/* 1010, VECTOR OFFSET */
-	m68ki_push_16(cpu,0xa000 | (vector<<2));
-
-	/* PROGRAM COUNTER */
-	m68ki_push_32(cpu,pc);
-
-	/* STATUS REGISTER */
-	m68ki_push_16(cpu,sr);
-}
-
-/* Format B stack frame (long bus fault).
- * This is used only by 68020 for bus fault and address error
- * if the error happens during instruction execution.
- * PC stacked is address of instruction in progress.
- */
-void m68ki_stack_frame_1011(m68ki_cpu_core *cpu, uint sr, uint vector, uint pc)
-{
-	/* INTERNAL REGISTERS (18 words) */
-	m68ki_push_32(cpu,0);
-	m68ki_push_32(cpu,0);
-	m68ki_push_32(cpu,0);
-	m68ki_push_32(cpu,0);
-	m68ki_push_32(cpu,0);
-	m68ki_push_32(cpu,0);
-	m68ki_push_32(cpu,0);
-	m68ki_push_32(cpu,0);
-	m68ki_push_32(cpu,0);
-
-	/* VERSION# (4 bits), INTERNAL INFORMATION */
-	m68ki_push_16(cpu,0);
-
-	/* INTERNAL REGISTERS (3 words) */
-	m68ki_push_32(cpu,0);
-	m68ki_push_16(cpu,0);
-
-	/* DATA INTPUT BUFFER (2 words) */
-	m68ki_push_32(cpu,0);
-
-	/* INTERNAL REGISTERS (2 words) */
-	m68ki_push_32(cpu,0);
-
-	/* STAGE B ADDRESS (2 words) */
-	m68ki_push_32(cpu,0);
-
-	/* INTERNAL REGISTER (4 words) */
-	m68ki_push_32(cpu,0);
-	m68ki_push_32(cpu,0);
-
-	/* DATA OUTPUT BUFFER (2 words) */
-	m68ki_push_32(cpu,0);
-
-	/* INTERNAL REGISTER */
-	m68ki_push_16(cpu,0);
-
-	/* INTERNAL REGISTER */
-	m68ki_push_16(cpu,0);
-
-	/* DATA CYCLE FAULT ADDRESS (2 words) */
-	m68ki_push_32(cpu,0);
-
-	/* INSTRUCTION PIPE STAGE B */
-	m68ki_push_16(cpu,0);
-
-	/* INSTRUCTION PIPE STAGE C */
-	m68ki_push_16(cpu,0);
-
-	/* SPECIAL STATUS REGISTER */
-	m68ki_push_16(cpu,0);
-
-	/* INTERNAL REGISTER */
-	m68ki_push_16(cpu,0);
-
-	/* 1011, VECTOR OFFSET */
-	m68ki_push_16(cpu,0xb000 | (vector<<2));
-
-	/* PROGRAM COUNTER */
-	m68ki_push_32(cpu,pc);
-
-	/* STATUS REGISTER */
-	m68ki_push_16(cpu,sr);
-}
-
-
-/* Used for Group 2 exceptions.
- * These stack a type 2 frame on the 020.
- */
-INLINE void m68ki_exception_trap(m68ki_cpu_core *cpu, uint vector)
-{
-	uint sr = m68ki_init_exception(cpu);
-
-	if(CPU_TYPE_IS_010_LESS(CPU_TYPE))
-		m68ki_stack_frame_0000(cpu, REG_PC, sr, vector);
-	else
-		m68ki_stack_frame_0010(cpu, sr, vector);
-
-	m68ki_jump_vector(cpu, vector);
-
-	/* Use up some clock cycles */
-	USE_CYCLES(CYC_EXCEPTION[vector]);
-}
-
-/* Trap#n stacks a 0 frame but behaves like group2 otherwise */
-INLINE void m68ki_exception_trapN(m68ki_cpu_core *cpu, uint vector)
-{
-	uint sr = m68ki_init_exception(cpu);
-	m68ki_stack_frame_0000(cpu, REG_PC, sr, vector);
-	m68ki_jump_vector(cpu, vector);
-
-	/* Use up some clock cycles */
-	USE_CYCLES(CYC_EXCEPTION[vector]);
-}
-
-/* Exception for trace mode */
-INLINE void m68ki_exception_trace(m68ki_cpu_core *cpu)
-{
-	uint sr = m68ki_init_exception(cpu);
-
-	if(CPU_TYPE_IS_010_LESS(CPU_TYPE))
-	{
-		#if M68K_EMULATE_ADDRESS_ERROR == OPT_ON
-		if(CPU_TYPE_IS_000(CPU_TYPE))
-		{
-			CPU_INSTR_MODE = INSTRUCTION_NO;
-		}
-		#endif /* M68K_EMULATE_ADDRESS_ERROR */
-		m68ki_stack_frame_0000(cpu, REG_PC, sr, EXCEPTION_TRACE);
-	}
-	else
-		m68ki_stack_frame_0010(cpu, sr, EXCEPTION_TRACE);
-
-	m68ki_jump_vector(cpu, EXCEPTION_TRACE);
-
-	/* Trace nullifies a STOP instruction */
-	CPU_STOPPED &= ~STOP_LEVEL_STOP;
-
-	/* Use up some clock cycles */
-	USE_CYCLES(CYC_EXCEPTION[EXCEPTION_TRACE]);
-}
-
-/* Exception for privilege violation */
-INLINE void m68ki_exception_privilege_violation(m68ki_cpu_core *cpu)
-{
-	uint sr = m68ki_init_exception(cpu);
-
-	#if M68K_EMULATE_ADDRESS_ERROR == OPT_ON
-	if(CPU_TYPE_IS_000(CPU_TYPE))
-	{
-		CPU_INSTR_MODE = INSTRUCTION_NO;
-	}
-	#endif /* M68K_EMULATE_ADDRESS_ERROR */
-
-	m68ki_stack_frame_0000(cpu, REG_PPC, sr, EXCEPTION_PRIVILEGE_VIOLATION);
-	m68ki_jump_vector(cpu, EXCEPTION_PRIVILEGE_VIOLATION);
-
-	/* Use up some clock cycles and undo the instruction's cycles */
-	USE_CYCLES(CYC_EXCEPTION[EXCEPTION_PRIVILEGE_VIOLATION] - CYC_INSTRUCTION[REG_IR]);
-}
-
-/* Exception for A-Line instructions */
-INLINE void m68ki_exception_1010(m68ki_cpu_core *cpu)
-{
-	uint sr;
-#if M68K_LOG_1010_1111 == OPT_ON
-	M68K_DO_LOG_EMU((M68K_LOG_FILEHANDLE "%s at %08x: called 1010 instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PPC), REG_IR,
-					 m68ki_disassemble_quick(ADDRESS_68K(REG_PPC))));
-#endif
-
-	sr = m68ki_init_exception(cpu);
-	m68ki_stack_frame_0000(cpu, REG_PPC, sr, EXCEPTION_1010);
-	m68ki_jump_vector(cpu, EXCEPTION_1010);
-
-	/* Use up some clock cycles and undo the instruction's cycles */
-	USE_CYCLES(CYC_EXCEPTION[EXCEPTION_1010] - CYC_INSTRUCTION[REG_IR]);
-}
-
-/* Exception for F-Line instructions */
-INLINE void m68ki_exception_1111(m68ki_cpu_core *cpu)
-{
-	uint sr;
-
-#if M68K_LOG_1010_1111 == OPT_ON
-	M68K_DO_LOG_EMU((M68K_LOG_FILEHANDLE "%s at %08x: called 1111 instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PPC), REG_IR,
-					 m68ki_disassemble_quick(ADDRESS_68K(REG_PPC))));
-#endif
-
-	sr = m68ki_init_exception(cpu);
-	m68ki_stack_frame_0000(cpu, REG_PPC, sr, EXCEPTION_1111);
-	m68ki_jump_vector(cpu, EXCEPTION_1111);
-
-	/* Use up some clock cycles and undo the instruction's cycles */
-	USE_CYCLES(CYC_EXCEPTION[EXCEPTION_1111] - CYC_INSTRUCTION[REG_IR]);
-}
-
-/* Exception for illegal instructions */
-INLINE void m68ki_exception_illegal(m68ki_cpu_core *cpu)
-{
-	uint sr;
-
-	M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: illegal instruction %04x (%s)\n",
-				 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PPC), REG_IR,
-				 m68ki_disassemble_quick(ADDRESS_68K(REG_PPC))));
-
-	sr = m68ki_init_exception(cpu);
-
-	#if M68K_EMULATE_ADDRESS_ERROR == OPT_ON
-	if(CPU_TYPE_IS_000(CPU_TYPE))
-	{
-		CPU_INSTR_MODE = INSTRUCTION_NO;
-	}
-	#endif /* M68K_EMULATE_ADDRESS_ERROR */
-
-	m68ki_stack_frame_0000(cpu, REG_PPC, sr, EXCEPTION_ILLEGAL_INSTRUCTION);
-	m68ki_jump_vector(cpu, EXCEPTION_ILLEGAL_INSTRUCTION);
-
-	/* Use up some clock cycles and undo the instruction's cycles */
-	USE_CYCLES(CYC_EXCEPTION[EXCEPTION_ILLEGAL_INSTRUCTION] - CYC_INSTRUCTION[REG_IR]);
-}
-
-/* Exception for format errror in RTE */
-INLINE void m68ki_exception_format_error(m68ki_cpu_core *cpu)
-{
-	uint sr = m68ki_init_exception(cpu);
-	m68ki_stack_frame_0000(cpu, REG_PC, sr, EXCEPTION_FORMAT_ERROR);
-	m68ki_jump_vector(cpu, EXCEPTION_FORMAT_ERROR);
-
-	/* Use up some clock cycles and undo the instruction's cycles */
-	USE_CYCLES(CYC_EXCEPTION[EXCEPTION_FORMAT_ERROR] - CYC_INSTRUCTION[REG_IR]);
-}
-
-/* Exception for address error */
-INLINE void m68ki_exception_address_error(m68ki_cpu_core *cpu)
-{
-	uint sr = m68ki_init_exception(cpu);
-
-	/* If we were processing a bus error, address error, or reset,
-	 * this is a catastrophic failure.
-	 * Halt the CPU
-	 */
-	if(CPU_RUN_MODE == RUN_MODE_BERR_AERR_RESET)
-	{
-        m68k_read_memory_8(cpu, 0x00ffff01);
-		CPU_STOPPED = STOP_LEVEL_HALT;
-		return;
-	}
-	CPU_RUN_MODE = RUN_MODE_BERR_AERR_RESET;
-
-	/* Note: This is implemented for 68000 only! */
-	m68ki_stack_frame_buserr(cpu, sr);
-
-	m68ki_jump_vector(cpu, EXCEPTION_ADDRESS_ERROR);
-
-	/* Use up some clock cycles and undo the instruction's cycles */
-	USE_CYCLES(CYC_EXCEPTION[EXCEPTION_ADDRESS_ERROR] - CYC_INSTRUCTION[REG_IR]);
-}
-
-
-/* Service an interrupt request and start exception processing */
-void m68ki_exception_interrupt(m68ki_cpu_core *cpu, uint int_level)
-{
-	uint vector;
-	uint sr;
-	uint new_pc;
-
-	#if M68K_EMULATE_ADDRESS_ERROR == OPT_ON
-	if(CPU_TYPE_IS_000(CPU_TYPE))
-	{
-		CPU_INSTR_MODE = INSTRUCTION_NO;
-	}
-	#endif /* M68K_EMULATE_ADDRESS_ERROR */
-
-	/* Turn off the stopped state */
-	CPU_STOPPED &= ~STOP_LEVEL_STOP;
-
-	/* If we are halted, don't do anything */
-	if(CPU_STOPPED)
-		return;
-
-	/* Acknowledge the interrupt */
-	vector = m68ki_int_ack(cpu, int_level);
-
-	/* Get the interrupt vector */
-	if(vector == M68K_INT_ACK_AUTOVECTOR)
-		/* Use the autovectors.  This is the most commonly used implementation */
-		vector = EXCEPTION_INTERRUPT_AUTOVECTOR+int_level;
-	else if(vector == M68K_INT_ACK_SPURIOUS)
-		/* Called if no devices respond to the interrupt acknowledge */
-		vector = EXCEPTION_SPURIOUS_INTERRUPT;
-	else if(vector > 255)
-	{
-		M68K_DO_LOG_EMU((M68K_LOG_FILEHANDLE "%s at %08x: Interrupt acknowledge returned invalid vector $%x\n",
-				 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC), vector));
-		return;
-	}
-
-	/* Start exception processing */
-	sr = m68ki_init_exception(cpu);
-
-	/* Set the interrupt mask to the level of the one being serviced */
-	FLAG_INT_MASK = int_level<<8;
-
-	/* Get the new PC */
-	new_pc = m68ki_read_data_32((vector<<2) + REG_VBR);
-
-	/* If vector is uninitialized, call the uninitialized interrupt vector */
-	if(new_pc == 0)
-		new_pc = m68ki_read_data_32((EXCEPTION_UNINITIALIZED_INTERRUPT<<2) + REG_VBR);
-
-	/* Generate a stack frame */
-	m68ki_stack_frame_0000(cpu, REG_PC, sr, vector);
-	if(FLAG_M && CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Create throwaway frame */
-		m68ki_set_sm_flag(cpu, FLAG_S);	/* clear M */
-		sr |= 0x2000; /* Same as SR in master stack frame except S is forced high */
-		m68ki_stack_frame_0001(cpu, REG_PC, sr, vector);
-	}
-
-	m68ki_jump(cpu, new_pc);
-
-	/* Defer cycle counting until later */
-	CPU_INT_CYCLES += CYC_EXCEPTION[vector];
-
-#if !M68K_EMULATE_INT_ACK
-	/* Automatically clear IRQ if we are not using an acknowledge scheme */
-	CPU_INT_LEVEL = 0;
-#endif /* M68K_EMULATE_INT_ACK */
-}
-
-
-/* ASG: Check for interrupts */
-INLINE void m68ki_check_interrupts(m68ki_cpu_core *cpu)
-{
-	if(CPU_INT_LEVEL > FLAG_INT_MASK)
-		m68ki_exception_interrupt(cpu, CPU_INT_LEVEL>>8);
-}
-
-
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
-
-#endif /* M68KCPU__HEADER */
diff --git a/plugins/ao/eng_ssf/m68kmake.c b/plugins/ao/eng_ssf/m68kmake.c
deleted file mode 100644
index 00e244b9..00000000
--- a/plugins/ao/eng_ssf/m68kmake.c
+++ /dev/null
@@ -1,1421 +0,0 @@
-/* ======================================================================== */
-/* ========================= LICENSING & COPYRIGHT ======================== */
-/* ======================================================================== */
-/*
- *                                  MUSASHI
- *                                Version 3.3
- *
- * A portable Motorola M680x0 processor emulation engine.
- * Copyright 1998-2001 Karl Stenerud.  All rights reserved.
- *
- * This code may be freely used for non-commercial purposes as long as this
- * copyright notice remains unaltered in the source code and any binary files
- * containing this code in compiled form.
- *
- * All other lisencing terms must be negotiated with the author
- * (Karl Stenerud).
- *
- * The latest version of this code can be obtained at:
- * http://kstenerud.cjb.net
- */
-
-
-
-/* ======================================================================== */
-/* ============================ CODE GENERATOR ============================ */
-/* ======================================================================== */
-/*
- * This is the code generator program which will generate the opcode table
- * and the final opcode handlers.
- *
- * It requires an input file to function (default m68k_in.c), but you can
- * specify your own like so:
- *
- * m68kmake <output path> <input file>
- *
- * where output path is the path where the output files should be placed, and
- * input file is the file to use for input.
- *
- * If you modify the input file greatly from its released form, you may have
- * to tweak the configuration section a bit since I'm using static allocation
- * to keep things simple.
- *
- *
- * TODO: - build a better code generator for the move instruction.
- *       - Add callm and rtm instructions
- *       - Fix RTE to handle other format words
- *       - Add address error (and bus error?) handling
- */
-
-
-char* g_version = "3.3";
-
-/* ======================================================================== */
-/* =============================== INCLUDES =============================== */
-/* ======================================================================== */
-
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-#include <ctype.h>
-#include <stdarg.h>
-
-
-
-/* ======================================================================== */
-/* ============================= CONFIGURATION ============================ */
-/* ======================================================================== */
-
-#define M68K_MAX_PATH 1024
-#define M68K_MAX_DIR  1024
-
-#define NUM_CPUS                          3	/* 000, 010, 020 */
-#define MAX_LINE_LENGTH                 200	/* length of 1 line */
-#define MAX_BODY_LENGTH                 300	/* Number of lines in 1 function */
-#define MAX_REPLACE_LENGTH               30	/* Max number of replace strings */
-#define MAX_INSERT_LENGTH              5000	/* Max size of insert piece */
-#define MAX_NAME_LENGTH                  30	/* Max length of ophandler name */
-#define MAX_SPEC_PROC_LENGTH              4	/* Max length of special processing str */
-#define MAX_SPEC_EA_LENGTH                5	/* Max length of specified EA str */
-#define EA_ALLOWED_LENGTH                11	/* Max length of ea allowed str */
-#define MAX_OPCODE_INPUT_TABLE_LENGTH  1000	/* Max length of opcode handler tbl */
-#define MAX_OPCODE_OUTPUT_TABLE_LENGTH 3000	/* Max length of opcode handler tbl */
-
-/* Default filenames */
-#define FILENAME_INPUT      "m68k_in.c"
-#define FILENAME_PROTOTYPE  "m68kops.h"
-#define FILENAME_TABLE      "m68kops.c"
-#define FILENAME_OPS_AC     "m68kopac.c"
-#define FILENAME_OPS_DM     "m68kopdm.c"
-#define FILENAME_OPS_NZ     "m68kopnz.c"
-
-
-/* Identifier sequences recognized by this program */
-
-#define ID_INPUT_SEPARATOR "XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX"
-
-#define ID_BASE                 "M68KMAKE"
-#define ID_PROTOTYPE_HEADER     ID_BASE "_PROTOTYPE_HEADER"
-#define ID_PROTOTYPE_FOOTER     ID_BASE "_PROTOTYPE_FOOTER"
-#define ID_TABLE_HEADER         ID_BASE "_TABLE_HEADER"
-#define ID_TABLE_FOOTER         ID_BASE "_TABLE_FOOTER"
-#define ID_TABLE_BODY           ID_BASE "_TABLE_BODY"
-#define ID_TABLE_START          ID_BASE "_TABLE_START"
-#define ID_OPHANDLER_HEADER     ID_BASE "_OPCODE_HANDLER_HEADER"
-#define ID_OPHANDLER_FOOTER     ID_BASE "_OPCODE_HANDLER_FOOTER"
-#define ID_OPHANDLER_BODY       ID_BASE "_OPCODE_HANDLER_BODY"
-#define ID_END                  ID_BASE "_END"
-
-#define ID_OPHANDLER_NAME       ID_BASE "_OP"
-#define ID_OPHANDLER_EA_AY_8    ID_BASE "_GET_EA_AY_8"
-#define ID_OPHANDLER_EA_AY_16   ID_BASE "_GET_EA_AY_16"
-#define ID_OPHANDLER_EA_AY_32   ID_BASE "_GET_EA_AY_32"
-#define ID_OPHANDLER_OPER_AY_8  ID_BASE "_GET_OPER_AY_8"
-#define ID_OPHANDLER_OPER_AY_16 ID_BASE "_GET_OPER_AY_16"
-#define ID_OPHANDLER_OPER_AY_32 ID_BASE "_GET_OPER_AY_32"
-#define ID_OPHANDLER_CC         ID_BASE "_CC"
-#define ID_OPHANDLER_NOT_CC     ID_BASE "_NOT_CC"
-
-
-#ifndef DECL_SPEC
-#define DECL_SPEC
-#endif /* DECL_SPEC */
-
-
-
-/* ======================================================================== */
-/* ============================== PROTOTYPES ============================== */
-/* ======================================================================== */
-
-#define CPU_TYPE_000 0
-#define CPU_TYPE_010 1
-#define CPU_TYPE_020 2
-
-#define UNSPECIFIED "."
-#define UNSPECIFIED_CH '.'
-
-#define HAS_NO_EA_MODE(A) (strcmp(A, "..........") == 0)
-#define HAS_EA_AI(A)   ((A)[0] == 'A')
-#define HAS_EA_PI(A)   ((A)[1] == '+')
-#define HAS_EA_PD(A)   ((A)[2] == '-')
-#define HAS_EA_DI(A)   ((A)[3] == 'D')
-#define HAS_EA_IX(A)   ((A)[4] == 'X')
-#define HAS_EA_AW(A)   ((A)[5] == 'W')
-#define HAS_EA_AL(A)   ((A)[6] == 'L')
-#define HAS_EA_PCDI(A) ((A)[7] == 'd')
-#define HAS_EA_PCIX(A) ((A)[8] == 'x')
-#define HAS_EA_I(A)    ((A)[9] == 'I')
-
-enum
-{
-	EA_MODE_NONE,	/* No special addressing mode */
-	EA_MODE_AI,		/* Address register indirect */
-	EA_MODE_PI,		/* Address register indirect with postincrement */
-	EA_MODE_PI7,	/* Address register 7 indirect with postincrement */
-	EA_MODE_PD,		/* Address register indirect with predecrement */
-	EA_MODE_PD7,	/* Address register 7 indirect with predecrement */
-	EA_MODE_DI,		/* Address register indirect with displacement */
-	EA_MODE_IX,		/* Address register indirect with index */
-	EA_MODE_AW,		/* Absolute word */
-	EA_MODE_AL,		/* Absolute long */
-	EA_MODE_PCDI,	/* Program counter indirect with displacement */
-	EA_MODE_PCIX,	/* Program counter indirect with index */
-	EA_MODE_I		/* Immediate */
-};
-
-
-/* Everything we need to know about an opcode */
-typedef struct
-{
-	char name[MAX_NAME_LENGTH];           /* opcode handler name */
-	unsigned char size;                   /* Size of operation */
-	char spec_proc[MAX_SPEC_PROC_LENGTH]; /* Special processing mode */
-	char spec_ea[MAX_SPEC_EA_LENGTH];     /* Specified effective addressing mode */
-	unsigned char bits;                   /* Number of significant bits (used for sorting the table) */
-	unsigned short op_mask;               /* Mask to apply for matching an opcode to a handler */
-	unsigned short op_match;              /* Value to match after masking */
-	char ea_allowed[EA_ALLOWED_LENGTH];   /* Effective addressing modes allowed */
-	char cpu_mode[NUM_CPUS];              /* User or supervisor mode */
-	char cpus[NUM_CPUS+1];                /* Allowed CPUs */
-	unsigned char cycles[NUM_CPUS];       /* cycles for 000, 010, 020 */
-} opcode_struct;
-
-
-/* All modifications necessary for a specific EA mode of an instruction */
-typedef struct
-{
-	char* fname_add;
-	char* ea_add;
-	unsigned int mask_add;
-	unsigned int match_add;
-} ea_info_struct;
-
-
-/* Holds the body of a function */
-typedef struct
-{
-	char body[MAX_BODY_LENGTH][MAX_LINE_LENGTH+1];
-	int length;
-} body_struct;
-
-
-/* Holds a sequence of search / replace strings */
-typedef struct
-{
-	char replace[MAX_REPLACE_LENGTH][2][MAX_LINE_LENGTH+1];
-	int length;
-} replace_struct;
-
-
-/* Function Prototypes */
-void error_exit(char* fmt, ...);
-void perror_exit(char* fmt, ...);
-int check_strsncpy(char* dst, char* src, int maxlength);
-int check_atoi(char* str, int *result);
-int skip_spaces(char* str);
-int num_bits(int value);
-int atoh(char* buff);
-int fgetline(char* buff, int nchars, FILE* file);
-int get_oper_cycles(opcode_struct* op, int ea_mode, int cpu_type);
-opcode_struct* find_opcode(char* name, int size, char* spec_proc, char* spec_ea);
-opcode_struct* find_illegal_opcode(void);
-int extract_opcode_info(char* src, char* name, int* size, char* spec_proc, char* spec_ea);
-void add_replace_string(replace_struct* replace, char* search_str, char* replace_str);
-void write_body(FILE* filep, body_struct* body, replace_struct* replace);
-void get_base_name(char* base_name, opcode_struct* op);
-void write_prototype(FILE* filep, char* base_name);
-void write_function_name(FILE* filep, char* base_name);
-void add_opcode_output_table_entry(opcode_struct* op, char* name);
-static int DECL_SPEC compare_nof_true_bits(const void* aptr, const void* bptr);
-void print_opcode_output_table(FILE* filep);
-void write_table_entry(FILE* filep, opcode_struct* op);
-void set_opcode_struct(opcode_struct* src, opcode_struct* dst, int ea_mode);
-void generate_opcode_handler(FILE* filep, body_struct* body, replace_struct* replace, opcode_struct* opinfo, int ea_mode);
-void generate_opcode_ea_variants(FILE* filep, body_struct* body, replace_struct* replace, opcode_struct* op);
-void generate_opcode_cc_variants(FILE* filep, body_struct* body, replace_struct* replace, opcode_struct* op_in, int offset);
-void process_opcode_handlers(void);
-void populate_table(void);
-void read_insert(char* insert);
-
-
-
-/* ======================================================================== */
-/* ================================= DATA ================================= */
-/* ======================================================================== */
-
-/* Name of the input file */
-char g_input_filename[M68K_MAX_PATH] = FILENAME_INPUT;
-
-/* File handles */
-FILE* g_input_file = NULL;
-FILE* g_prototype_file = NULL;
-FILE* g_table_file = NULL;
-FILE* g_ops_ac_file = NULL;
-FILE* g_ops_dm_file = NULL;
-FILE* g_ops_nz_file = NULL;
-
-int g_num_functions = 0;  /* Number of functions processed */
-int g_num_primitives = 0; /* Number of function primitives read */
-int g_line_number = 1;    /* Current line number */
-
-/* Opcode handler table */
-opcode_struct g_opcode_input_table[MAX_OPCODE_INPUT_TABLE_LENGTH];
-
-opcode_struct g_opcode_output_table[MAX_OPCODE_OUTPUT_TABLE_LENGTH];
-int g_opcode_output_table_length = 0;
-
-ea_info_struct g_ea_info_table[13] =
-{/* fname    ea        mask  match */
-	{"",     "",       0x00, 0x00}, /* EA_MODE_NONE */
-	{"ai",   "AY_AI",  0x38, 0x10}, /* EA_MODE_AI   */
-	{"pi",   "AY_PI",  0x38, 0x18}, /* EA_MODE_PI   */
-	{"pi7",  "A7_PI",  0x3f, 0x1f}, /* EA_MODE_PI7  */
-	{"pd",   "AY_PD",  0x38, 0x20}, /* EA_MODE_PD   */
-	{"pd7",  "A7_PD",  0x3f, 0x27}, /* EA_MODE_PD7  */
-	{"di",   "AY_DI",  0x38, 0x28}, /* EA_MODE_DI   */
-	{"ix",   "AY_IX",  0x38, 0x30}, /* EA_MODE_IX   */
-	{"aw",   "AW",     0x3f, 0x38}, /* EA_MODE_AW   */
-	{"al",   "AL",     0x3f, 0x39}, /* EA_MODE_AL   */
-	{"pcdi", "PCDI",   0x3f, 0x3a}, /* EA_MODE_PCDI */
-	{"pcix", "PCIX",   0x3f, 0x3b}, /* EA_MODE_PCIX */
-	{"i",    "I",      0x3f, 0x3c}, /* EA_MODE_I    */
-};
-
-
-char* g_cc_table[16][2] =
-{
-	{ "t",  "T"}, /* 0000 */
-	{ "f",  "F"}, /* 0001 */
-	{"hi", "HI"}, /* 0010 */
-	{"ls", "LS"}, /* 0011 */
-	{"cc", "CC"}, /* 0100 */
-	{"cs", "CS"}, /* 0101 */
-	{"ne", "NE"}, /* 0110 */
-	{"eq", "EQ"}, /* 0111 */
-	{"vc", "VC"}, /* 1000 */
-	{"vs", "VS"}, /* 1001 */
-	{"pl", "PL"}, /* 1010 */
-	{"mi", "MI"}, /* 1011 */
-	{"ge", "GE"}, /* 1100 */
-	{"lt", "LT"}, /* 1101 */
-	{"gt", "GT"}, /* 1110 */
-	{"le", "LE"}, /* 1111 */
-};
-
-/* size to index translator (0 -> 0, 8 and 16 -> 1, 32 -> 2) */
-int g_size_select_table[33] =
-{
-	0,												/* unsized */
-	0, 0, 0, 0, 0, 0, 0, 1,							/*    8    */
-	0, 0, 0, 0, 0, 0, 0, 1,							/*   16    */
-	0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2	/*   32    */
-};
-
-/* Extra cycles required for certain EA modes */
-int g_ea_cycle_table[13][NUM_CPUS][3] =
-{/*       000           010           020   */
-	{{ 0,  0,  0}, { 0,  0,  0}, { 0,  0,  0}}, /* EA_MODE_NONE */
-	{{ 0,  4,  8}, { 0,  4,  8}, { 0,  4,  4}}, /* EA_MODE_AI   */
-	{{ 0,  4,  8}, { 0,  4,  8}, { 0,  4,  4}}, /* EA_MODE_PI   */
-	{{ 0,  4,  8}, { 0,  4,  8}, { 0,  4,  4}}, /* EA_MODE_PI7  */
-	{{ 0,  6, 10}, { 0,  6, 10}, { 0,  5,  5}}, /* EA_MODE_PD   */
-	{{ 0,  6, 10}, { 0,  6, 10}, { 0,  5,  5}}, /* EA_MODE_PD7  */
-	{{ 0,  8, 12}, { 0,  8, 12}, { 0,  5,  5}}, /* EA_MODE_DI   */
-	{{ 0, 10, 14}, { 0, 10, 14}, { 0,  7,  7}}, /* EA_MODE_IX   */
-	{{ 0,  8, 12}, { 0,  8, 12}, { 0,  4,  4}}, /* EA_MODE_AW   */
-	{{ 0, 12, 16}, { 0, 12, 16}, { 0,  4,  4}}, /* EA_MODE_AL   */
-	{{ 0,  8, 12}, { 0,  8, 12}, { 0,  5,  5}}, /* EA_MODE_PCDI */
-	{{ 0, 10, 14}, { 0, 10, 14}, { 0,  7,  7}}, /* EA_MODE_PCIX */
-	{{ 0,  4,  8}, { 0,  4,  8}, { 0,  2,  4}}, /* EA_MODE_I    */
-};
-
-/* Extra cycles for JMP instruction (000, 010) */
-int g_jmp_cycle_table[13] =
-{
-	 0, /* EA_MODE_NONE */
-	 4, /* EA_MODE_AI   */
-	 0, /* EA_MODE_PI   */
-	 0, /* EA_MODE_PI7  */
-	 0, /* EA_MODE_PD   */
-	 0, /* EA_MODE_PD7  */
-	 6, /* EA_MODE_DI   */
-	 8, /* EA_MODE_IX   */
-	 6, /* EA_MODE_AW   */
-	 8, /* EA_MODE_AL   */
-	 6, /* EA_MODE_PCDI */
-	10, /* EA_MODE_PCIX */
-	 0, /* EA_MODE_I    */
-};
-
-/* Extra cycles for JSR instruction (000, 010) */
-int g_jsr_cycle_table[13] =
-{
-	 0, /* EA_MODE_NONE */
-	 4, /* EA_MODE_AI   */
-	 0, /* EA_MODE_PI   */
-	 0, /* EA_MODE_PI7  */
-	 0, /* EA_MODE_PD   */
-	 0, /* EA_MODE_PD7  */
-	 6, /* EA_MODE_DI   */
-	10, /* EA_MODE_IX   */
-	 6, /* EA_MODE_AW   */
-	 8, /* EA_MODE_AL   */
-	 6, /* EA_MODE_PCDI */
-	10, /* EA_MODE_PCIX */
-	 0, /* EA_MODE_I    */
-};
-
-/* Extra cycles for LEA instruction (000, 010) */
-int g_lea_cycle_table[13] =
-{
-	 0, /* EA_MODE_NONE */
-	 4, /* EA_MODE_AI   */
-	 0, /* EA_MODE_PI   */
-	 0, /* EA_MODE_PI7  */
-	 0, /* EA_MODE_PD   */
-	 0, /* EA_MODE_PD7  */
-	 8, /* EA_MODE_DI   */
-	12, /* EA_MODE_IX   */
-	 8, /* EA_MODE_AW   */
-	12, /* EA_MODE_AL   */
-	 8, /* EA_MODE_PCDI */
-	12, /* EA_MODE_PCIX */
-	 0, /* EA_MODE_I    */
-};
-
-/* Extra cycles for PEA instruction (000, 010) */
-int g_pea_cycle_table[13] =
-{
-	 0, /* EA_MODE_NONE */
-	 4, /* EA_MODE_AI   */
-	 0, /* EA_MODE_PI   */
-	 0, /* EA_MODE_PI7  */
-	 0, /* EA_MODE_PD   */
-	 0, /* EA_MODE_PD7  */
-	10, /* EA_MODE_DI   */
-	14, /* EA_MODE_IX   */
-	10, /* EA_MODE_AW   */
-	14, /* EA_MODE_AL   */
-	10, /* EA_MODE_PCDI */
-	14, /* EA_MODE_PCIX */
-	 0, /* EA_MODE_I    */
-};
-
-/* Extra cycles for MOVES instruction (010) */
-int g_moves_cycle_table[13][3] =
-{
-	{ 0,  0,  0}, /* EA_MODE_NONE */
-	{ 0,  4,  6}, /* EA_MODE_AI   */
-	{ 0,  4,  6}, /* EA_MODE_PI   */
-	{ 0,  4,  6}, /* EA_MODE_PI7  */
-	{ 0,  6, 12}, /* EA_MODE_PD   */
-	{ 0,  6, 12}, /* EA_MODE_PD7  */
-	{ 0, 12, 16}, /* EA_MODE_DI   */
-	{ 0, 16, 20}, /* EA_MODE_IX   */
-	{ 0, 12, 16}, /* EA_MODE_AW   */
-	{ 0, 16, 20}, /* EA_MODE_AL   */
-	{ 0,  0,  0}, /* EA_MODE_PCDI */
-	{ 0,  0,  0}, /* EA_MODE_PCIX */
-	{ 0,  0,  0}, /* EA_MODE_I    */
-};
-
-/* Extra cycles for CLR instruction (010) */
-int g_clr_cycle_table[13][3] =
-{
-	{ 0,  0,  0}, /* EA_MODE_NONE */
-	{ 0,  4,  6}, /* EA_MODE_AI   */
-	{ 0,  4,  6}, /* EA_MODE_PI   */
-	{ 0,  4,  6}, /* EA_MODE_PI7  */
-	{ 0,  6,  8}, /* EA_MODE_PD   */
-	{ 0,  6,  8}, /* EA_MODE_PD7  */
-	{ 0,  8, 10}, /* EA_MODE_DI   */
-	{ 0, 10, 14}, /* EA_MODE_IX   */
-	{ 0,  8, 10}, /* EA_MODE_AW   */
-	{ 0, 10, 14}, /* EA_MODE_AL   */
-	{ 0,  0,  0}, /* EA_MODE_PCDI */
-	{ 0,  0,  0}, /* EA_MODE_PCIX */
-	{ 0,  0,  0}, /* EA_MODE_I    */
-};
-
-
-
-/* ======================================================================== */
-/* =========================== UTILITY FUNCTIONS ========================== */
-/* ======================================================================== */
-
-/* Print an error message and exit with status error */
-void error_exit(char* fmt, ...)
-{
-	va_list args;
-	fprintf(stderr, "In %s, near or on line %d:\n\t", g_input_filename, g_line_number);
-	va_start(args, fmt);
-	vfprintf(stderr, fmt, args);
-	va_end(args);
-	fprintf(stderr, "\n");
-
-	if(g_prototype_file) fclose(g_prototype_file);
-	if(g_table_file) fclose(g_table_file);
-	if(g_ops_ac_file) fclose(g_ops_ac_file);
-	if(g_ops_dm_file) fclose(g_ops_dm_file);
-	if(g_ops_nz_file) fclose(g_ops_nz_file);
-	if(g_input_file) fclose(g_input_file);
-
-	exit(EXIT_FAILURE);
-}
-
-/* Print an error message, call perror(), and exit with status error */
-void perror_exit(char* fmt, ...)
-{
-	va_list args;
-	va_start(args, fmt);
-	vfprintf(stderr, fmt, args);
-	va_end(args);
-	perror("");
-
-	if(g_prototype_file) fclose(g_prototype_file);
-	if(g_table_file) fclose(g_table_file);
-	if(g_ops_ac_file) fclose(g_ops_ac_file);
-	if(g_ops_dm_file) fclose(g_ops_dm_file);
-	if(g_ops_nz_file) fclose(g_ops_nz_file);
-	if(g_input_file) fclose(g_input_file);
-
-	exit(EXIT_FAILURE);
-}
-
-
-/* copy until 0 or space and exit with error if we read too far */
-int check_strsncpy(char* dst, char* src, int maxlength)
-{
-	char* p = dst;
-	while(*src && *src != ' ')
-	{
-		*p++ = *src++;
-		if(p - dst > maxlength)
-			error_exit("Field too long");
-	}
-	*p = 0;
-	return p - dst;
-}
-
-/* copy until 0 or specified character and exit with error if we read too far */
-int check_strcncpy(char* dst, char* src, char delim, int maxlength)
-{
-	char* p = dst;
-	while(*src && *src != delim)
-	{
-		*p++ = *src++;
-		if(p - dst > maxlength)
-			error_exit("Field too long");
-	}
-	*p = 0;
-	return p - dst;
-}
-
-/* convert ascii to integer and exit with error if we find invalid data */
-int check_atoi(char* str, int *result)
-{
-	int accum = 0;
-	char* p = str;
-	while(*p >= '0' && *p <= '9')
-	{
-		accum *= 10;
-		accum += *p++ - '0';
-	}
-	if(*p != ' ' && *p != 0)
-		error_exit("Malformed integer value (%c)", *p);
-	*result = accum;
-	return p - str;
-}
-
-/* Skip past spaces in a string */
-int skip_spaces(char* str)
-{
-	char* p = str;
-
-	while(*p == ' ')
-		p++;
-
-	return p - str;
-}
-
-/* Count the number of set bits in a value */
-int num_bits(int value)
-{
-    value = ((value & 0xaaaa) >> 1) + (value & 0x5555);
-    value = ((value & 0xcccc) >> 2) + (value & 0x3333);
-    value = ((value & 0xf0f0) >> 4) + (value & 0x0f0f);
-    value = ((value & 0xff00) >> 8) + (value & 0x00ff);
-	return value;
-}
-
-/* Convert a hex value written in ASCII */
-int atoh(char* buff)
-{
-	int accum = 0;
-
-	for(;;buff++)
-	{
-		if(*buff >= '0' && *buff <= '9')
-		{
-			accum <<= 4;
-			accum += *buff - '0';
-		}
-		else if(*buff >= 'a' && *buff <= 'f')
-		{
-			accum <<= 4;
-			accum += *buff - 'a' + 10;
-		}
-		else break;
-	}
-	return accum;
-}
-
-/* Get a line of text from a file, discarding any end-of-line characters */
-int fgetline(char* buff, int nchars, FILE* file)
-{
-	int length;
-
-	if(fgets(buff, nchars, file) == NULL)
-		return -1;
-	if(buff[0] == '\r')
-		memcpy(buff, buff + 1, nchars - 1);
-
-	length = strlen(buff);
-	while(length && (buff[length-1] == '\r' || buff[length-1] == '\n'))
-		length--;
-	buff[length] = 0;
-	g_line_number++;
-
-	return length;
-}
-
-
-
-/* ======================================================================== */
-/* =========================== HELPER FUNCTIONS =========================== */
-/* ======================================================================== */
-
-/* Calculate the number of cycles an opcode requires */
-int get_oper_cycles(opcode_struct* op, int ea_mode, int cpu_type)
-{
-	int size = g_size_select_table[op->size];
-
-	if(op->cpus[cpu_type] == '.')
-		return 0;
-
-	if(cpu_type < CPU_TYPE_020)
-	{
-		if(cpu_type == CPU_TYPE_010)
-		{
-			if(strcmp(op->name, "moves") == 0)
-				return op->cycles[cpu_type] + g_moves_cycle_table[ea_mode][size];
-			if(strcmp(op->name, "clr") == 0)
-				return op->cycles[cpu_type] + g_clr_cycle_table[ea_mode][size];
-		}
-
-		/* ASG: added these cases -- immediate modes take 2 extra cycles here */
-		if(cpu_type == CPU_TYPE_000 && ea_mode == EA_MODE_I &&
-		   ((strcmp(op->name, "add") == 0 && strcmp(op->spec_proc, "er") == 0) ||
-			strcmp(op->name, "adda")   == 0                                    ||
-			(strcmp(op->name, "and") == 0 && strcmp(op->spec_proc, "er") == 0) ||
-			(strcmp(op->name, "or") == 0 && strcmp(op->spec_proc, "er") == 0)  ||
-			(strcmp(op->name, "sub") == 0 && strcmp(op->spec_proc, "er") == 0) ||
-			strcmp(op->name, "suba")   == 0))
-			return op->cycles[cpu_type] + g_ea_cycle_table[ea_mode][cpu_type][size] + 2;
-
-		if(strcmp(op->name, "jmp") == 0)
-			return op->cycles[cpu_type] + g_jmp_cycle_table[ea_mode];
-		if(strcmp(op->name, "jsr") == 0)
-			return op->cycles[cpu_type] + g_jsr_cycle_table[ea_mode];
-		if(strcmp(op->name, "lea") == 0)
-			return op->cycles[cpu_type] + g_lea_cycle_table[ea_mode];
-		if(strcmp(op->name, "pea") == 0)
-			return op->cycles[cpu_type] + g_pea_cycle_table[ea_mode];
-	}
-	return op->cycles[cpu_type] + g_ea_cycle_table[ea_mode][cpu_type][size];
-}
-
-/* Find an opcode in the opcode handler list */
-opcode_struct* find_opcode(char* name, int size, char* spec_proc, char* spec_ea)
-{
-	opcode_struct* op;
-
-
-	for(op = g_opcode_input_table;op->name != NULL;op++)
-	{
-		if(	strcmp(name, op->name) == 0 &&
-			(size == op->size) &&
-			strcmp(spec_proc, op->spec_proc) == 0 &&
-			strcmp(spec_ea, op->spec_ea) == 0)
-				return op;
-	}
-	return NULL;
-}
-
-/* Specifically find the illegal opcode in the list */
-opcode_struct* find_illegal_opcode(void)
-{
-	opcode_struct* op;
-
-	for(op = g_opcode_input_table;op->name != NULL;op++)
-	{
-		if(strcmp(op->name, "illegal") == 0)
-			return op;
-	}
-	return NULL;
-}
-
-/* Parse an opcode handler name */
-int extract_opcode_info(char* src, char* name, int* size, char* spec_proc, char* spec_ea)
-{
-	char* ptr = strstr(src, ID_OPHANDLER_NAME);
-
-	if(ptr == NULL)
-		return 0;
-
-	ptr += strlen(ID_OPHANDLER_NAME) + 1;
-
-	ptr += check_strcncpy(name, ptr, ',', MAX_NAME_LENGTH);
-	if(*ptr != ',') return 0;
-	ptr++;
-	ptr += skip_spaces(ptr);
-
-	*size = atoi(ptr);
-	ptr = strstr(ptr, ",");
-	if(ptr == NULL) return 0;
-    ptr++;
-	ptr += skip_spaces(ptr);
-
-	ptr += check_strcncpy(spec_proc, ptr, ',', MAX_SPEC_PROC_LENGTH);
-	if(*ptr != ',') return 0;
-	ptr++;
-	ptr += skip_spaces(ptr);
-
-	ptr += check_strcncpy(spec_ea, ptr, ')', MAX_SPEC_EA_LENGTH);
-	if(*ptr != ')') return 0;
-	ptr++;
-	ptr += skip_spaces(ptr);
-
-	return 1;
-}
-
-
-/* Add a search/replace pair to a replace structure */
-void add_replace_string(replace_struct* replace, char* search_str, char* replace_str)
-{
-	if(replace->length >= MAX_REPLACE_LENGTH)
-		error_exit("overflow in replace structure");
-
-	strcpy(replace->replace[replace->length][0], search_str);
-	strcpy(replace->replace[replace->length++][1], replace_str);
-}
-
-/* Write a function body while replacing any selected strings */
-void write_body(FILE* filep, body_struct* body, replace_struct* replace)
-{
-	int i;
-	int j;
-	char* ptr;
-	char output[MAX_LINE_LENGTH+1];
-	char temp_buff[MAX_LINE_LENGTH+1];
-	int found;
-
-	for(i=0;i<body->length;i++)
-	{
-		strcpy(output, body->body[i]);
-		/* Check for the base directive header */
-		if(strstr(output, ID_BASE) != NULL)
-		{
-			/* Search for any text we need to replace */
-			found = 0;
-			for(j=0;j<replace->length;j++)
-			{
-				ptr = strstr(output, replace->replace[j][0]);
-				if(ptr)
-				{
-					/* We found something to replace */
-					found = 1;
-					strcpy(temp_buff, ptr+strlen(replace->replace[j][0]));
-					strcpy(ptr, replace->replace[j][1]);
-					strcat(ptr, temp_buff);
-				}
-			}
-			/* Found a directive with no matching replace string */
-			if(!found)
-				error_exit("Unknown " ID_BASE " directive");
-		}
-		fprintf(filep, "%s\n", output);
-	}
-	fprintf(filep, "\n\n");
-}
-
-/* Generate a base function name from an opcode struct */
-void get_base_name(char* base_name, opcode_struct* op)
-{
-	sprintf(base_name, "m68k_op_%s", op->name);
-	if(op->size > 0)
-		sprintf(base_name+strlen(base_name), "_%d", op->size);
-	if(strcmp(op->spec_proc, UNSPECIFIED) != 0)
-		sprintf(base_name+strlen(base_name), "_%s", op->spec_proc);
-	if(strcmp(op->spec_ea, UNSPECIFIED) != 0)
-		sprintf(base_name+strlen(base_name), "_%s", op->spec_ea);
-}
-
-/* Write the prototype of an opcode handler function */
-void write_prototype(FILE* filep, char* base_name)
-{
-	fprintf(filep, "void %s(void);\n", base_name);
-}
-
-/* Write the name of an opcode handler function */
-void write_function_name(FILE* filep, char* base_name)
-{
-	fprintf(filep, "void %s(void)\n", base_name);
-}
-
-void add_opcode_output_table_entry(opcode_struct* op, char* name)
-{
-	opcode_struct* ptr;
-	if(g_opcode_output_table_length > MAX_OPCODE_OUTPUT_TABLE_LENGTH)
-		error_exit("Opcode output table overflow");
-
-	ptr = g_opcode_output_table + g_opcode_output_table_length++;
-
-	*ptr = *op;
-	strcpy(ptr->name, name);
-	ptr->bits = num_bits(ptr->op_mask);
-}
-
-/*
- * Comparison function for qsort()
- * For entries with an equal number of set bits in
- * the mask compare the match values
- */
-static int DECL_SPEC compare_nof_true_bits(const void* aptr, const void* bptr)
-{
-	const opcode_struct *a = aptr, *b = bptr;
-	if(a->bits != b->bits)
-		return a->bits - b->bits;
-	if(a->op_mask != b->op_mask)
-		return a->op_mask - b->op_mask;
-	return a->op_match - b->op_match;
-}
-
-void print_opcode_output_table(FILE* filep)
-{
-	int i;
-	qsort((void *)g_opcode_output_table, g_opcode_output_table_length, sizeof(g_opcode_output_table[0]), compare_nof_true_bits);
-
-	for(i=0;i<g_opcode_output_table_length;i++)
-		write_table_entry(filep, g_opcode_output_table+i);
-}
-
-/* Write an entry in the opcode handler table */
-void write_table_entry(FILE* filep, opcode_struct* op)
-{
-	int i;
-
-	fprintf(filep, "\t{%-28s, 0x%04x, 0x%04x, {",
-		op->name, op->op_mask, op->op_match);
-
-	for(i=0;i<NUM_CPUS;i++)
-	{
-		fprintf(filep, "%3d", op->cycles[i]);
-		if(i < NUM_CPUS-1)
-			fprintf(filep, ", ");
-	}
-
-	fprintf(filep, "}},\n");
-}
-
-/* Fill out an opcode struct with a specific addressing mode of the source opcode struct */
-void set_opcode_struct(opcode_struct* src, opcode_struct* dst, int ea_mode)
-{
-	int i;
-
-	*dst = *src;
-
-	for(i=0;i<NUM_CPUS;i++)
-		dst->cycles[i] = get_oper_cycles(dst, ea_mode, i);
-	if(strcmp(dst->spec_ea, UNSPECIFIED) == 0 && ea_mode != EA_MODE_NONE)
-		sprintf(dst->spec_ea, "%s", g_ea_info_table[ea_mode].fname_add);
-	dst->op_mask |= g_ea_info_table[ea_mode].mask_add;
-	dst->op_match |= g_ea_info_table[ea_mode].match_add;
-}
-
-
-/* Generate a final opcode handler from the provided data */
-void generate_opcode_handler(FILE* filep, body_struct* body, replace_struct* replace, opcode_struct* opinfo, int ea_mode)
-{
-	char str[MAX_LINE_LENGTH+1];
-	opcode_struct* op = malloc(sizeof(opcode_struct));
-
-	/* Set the opcode structure and write the tables, prototypes, etc */
-	set_opcode_struct(opinfo, op, ea_mode);
-	get_base_name(str, op);
-	write_prototype(g_prototype_file, str);
-	add_opcode_output_table_entry(op, str);
-	write_function_name(filep, str);
-
-	/* Add any replace strings needed */
-	if(ea_mode != EA_MODE_NONE)
-	{
-		sprintf(str, "EA_%s_8()", g_ea_info_table[ea_mode].ea_add);
-		add_replace_string(replace, ID_OPHANDLER_EA_AY_8, str);
-		sprintf(str, "EA_%s_16()", g_ea_info_table[ea_mode].ea_add);
-		add_replace_string(replace, ID_OPHANDLER_EA_AY_16, str);
-		sprintf(str, "EA_%s_32()", g_ea_info_table[ea_mode].ea_add);
-		add_replace_string(replace, ID_OPHANDLER_EA_AY_32, str);
-		sprintf(str, "OPER_%s_8()", g_ea_info_table[ea_mode].ea_add);
-		add_replace_string(replace, ID_OPHANDLER_OPER_AY_8, str);
-		sprintf(str, "OPER_%s_16()", g_ea_info_table[ea_mode].ea_add);
-		add_replace_string(replace, ID_OPHANDLER_OPER_AY_16, str);
-		sprintf(str, "OPER_%s_32()", g_ea_info_table[ea_mode].ea_add);
-		add_replace_string(replace, ID_OPHANDLER_OPER_AY_32, str);
-	}
-
-	/* Now write the function body with the selected replace strings */
-	write_body(filep, body, replace);
-	g_num_functions++;
-	free(op);
-}
-
-/* Generate opcode variants based on available addressing modes */
-void generate_opcode_ea_variants(FILE* filep, body_struct* body, replace_struct* replace, opcode_struct* op)
-{
-	int old_length = replace->length;
-
-	/* No ea modes available for this opcode */
-	if(HAS_NO_EA_MODE(op->ea_allowed))
-	{
-		generate_opcode_handler(filep, body, replace, op, EA_MODE_NONE);
-		return;
-	}
-
-	/* Check for and create specific opcodes for each available addressing mode */
-	if(HAS_EA_AI(op->ea_allowed))
-		generate_opcode_handler(filep, body, replace, op, EA_MODE_AI);
-	replace->length = old_length;
-	if(HAS_EA_PI(op->ea_allowed))
-	{
-		generate_opcode_handler(filep, body, replace, op, EA_MODE_PI);
-		replace->length = old_length;
-		if(op->size == 8)
-			generate_opcode_handler(filep, body, replace, op, EA_MODE_PI7);
-	}
-	replace->length = old_length;
-	if(HAS_EA_PD(op->ea_allowed))
-	{
-		generate_opcode_handler(filep, body, replace, op, EA_MODE_PD);
-		replace->length = old_length;
-		if(op->size == 8)
-			generate_opcode_handler(filep, body, replace, op, EA_MODE_PD7);
-	}
-	replace->length = old_length;
-	if(HAS_EA_DI(op->ea_allowed))
-		generate_opcode_handler(filep, body, replace, op, EA_MODE_DI);
-	replace->length = old_length;
-	if(HAS_EA_IX(op->ea_allowed))
-		generate_opcode_handler(filep, body, replace, op, EA_MODE_IX);
-	replace->length = old_length;
-	if(HAS_EA_AW(op->ea_allowed))
-		generate_opcode_handler(filep, body, replace, op, EA_MODE_AW);
-	replace->length = old_length;
-	if(HAS_EA_AL(op->ea_allowed))
-		generate_opcode_handler(filep, body, replace, op, EA_MODE_AL);
-	replace->length = old_length;
-	if(HAS_EA_PCDI(op->ea_allowed))
-		generate_opcode_handler(filep, body, replace, op, EA_MODE_PCDI);
-	replace->length = old_length;
-	if(HAS_EA_PCIX(op->ea_allowed))
-		generate_opcode_handler(filep, body, replace, op, EA_MODE_PCIX);
-	replace->length = old_length;
-	if(HAS_EA_I(op->ea_allowed))
-		generate_opcode_handler(filep, body, replace, op, EA_MODE_I);
-	replace->length = old_length;
-}
-
-/* Generate variants of condition code opcodes */
-void generate_opcode_cc_variants(FILE* filep, body_struct* body, replace_struct* replace, opcode_struct* op_in, int offset)
-{
-	char repl[20];
-	char replnot[20];
-	int i;
-	int old_length = replace->length;
-	opcode_struct* op = malloc(sizeof(opcode_struct));
-
-	*op = *op_in;
-
-	op->op_mask |= 0x0f00;
-
-	/* Do all condition codes except t and f */
-	for(i=2;i<16;i++)
-	{
-		/* Add replace strings for this condition code */
-		sprintf(repl, "COND_%s()", g_cc_table[i][1]);
-		sprintf(replnot, "COND_NOT_%s()", g_cc_table[i][1]);
-
-		add_replace_string(replace, ID_OPHANDLER_CC, repl);
-		add_replace_string(replace, ID_OPHANDLER_NOT_CC, replnot);
-
-		/* Set the new opcode info */
-		strcpy(op->name+offset, g_cc_table[i][0]);
-
-		op->op_match = (op->op_match & 0xf0ff) | (i<<8);
-
-		/* Generate all opcode variants for this modified opcode */
-		generate_opcode_ea_variants(filep, body, replace, op);
-		/* Remove the above replace strings */
-		replace->length = old_length;
-	}
-	free(op);
-}
-
-/* Process the opcode handlers section of the input file */
-void process_opcode_handlers(void)
-{
-	FILE* input_file = g_input_file;
-	FILE* output_file;
-	char func_name[MAX_LINE_LENGTH+1];
-	char oper_name[MAX_LINE_LENGTH+1];
-	int  oper_size;
-	char oper_spec_proc[MAX_LINE_LENGTH+1];
-	char oper_spec_ea[MAX_LINE_LENGTH+1];
-	opcode_struct* opinfo;
-	replace_struct* replace = malloc(sizeof(replace_struct));
-	body_struct* body = malloc(sizeof(body_struct));
-
-
-	output_file = g_ops_ac_file;
-
-	for(;;)
-	{
-		/* Find the first line of the function */
-		func_name[0] = 0;
-		while(strstr(func_name, ID_OPHANDLER_NAME) == NULL)
-		{
-			if(strcmp(func_name, ID_INPUT_SEPARATOR) == 0)
-			{
-				free(replace);
-				free(body);
-				return; /* all done */
-			}
-			if(fgetline(func_name, MAX_LINE_LENGTH, input_file) < 0)
-				error_exit("Premature end of file when getting function name");
-		}
-		/* Get the rest of the function */
-		for(body->length=0;;body->length++)
-		{
-			if(body->length > MAX_BODY_LENGTH)
-				error_exit("Function too long");
-
-			if(fgetline(body->body[body->length], MAX_LINE_LENGTH, input_file) < 0)
-				error_exit("Premature end of file when getting function body");
-
-			if(body->body[body->length][0] == '}')
-			{
-				body->length++;
-				break;
-			}
-		}
-
-		g_num_primitives++;
-
-		/* Extract the function name information */
-		if(!extract_opcode_info(func_name, oper_name, &oper_size, oper_spec_proc, oper_spec_ea))
-			error_exit("Invalid " ID_OPHANDLER_NAME " format");
-
-		/* Find the corresponding table entry */
-		opinfo = find_opcode(oper_name, oper_size, oper_spec_proc, oper_spec_ea);
-		if(opinfo == NULL)
-			error_exit("Unable to find matching table entry for %s", func_name);
-
-        /* Change output files if we pass 'c' or 'n' */
-		if(output_file == g_ops_ac_file && oper_name[0] > 'c')
-			output_file = g_ops_dm_file;
-		else if(output_file == g_ops_dm_file && oper_name[0] > 'm')
-			output_file = g_ops_nz_file;
-
-		replace->length = 0;
-
-		/* Generate opcode variants */
-		if(strcmp(opinfo->name, "bcc") == 0 || strcmp(opinfo->name, "scc") == 0)
-			generate_opcode_cc_variants(output_file, body, replace, opinfo, 1);
-		else if(strcmp(opinfo->name, "dbcc") == 0)
-			generate_opcode_cc_variants(output_file, body, replace, opinfo, 2);
-		else if(strcmp(opinfo->name, "trapcc") == 0)
-			generate_opcode_cc_variants(output_file, body, replace, opinfo, 4);
-		else
-			generate_opcode_ea_variants(output_file, body, replace, opinfo);
-	}
-
-	free(replace);
-	free(body);
-}
-
-
-/* Populate the opcode handler table from the input file */
-void populate_table(void)
-{
-	char* ptr;
-	char bitpattern[17];
-	opcode_struct* op;
-	char buff[MAX_LINE_LENGTH];
-	int i;
-	int temp;
-
-	buff[0] = 0;
-
-	/* Find the start of the table */
-	while(strcmp(buff, ID_TABLE_START) != 0)
-		if(fgetline(buff, MAX_LINE_LENGTH, g_input_file) < 0)
-			error_exit("Premature EOF while reading table");
-
-	/* Process the entire table */
-	for(op = g_opcode_input_table;;op++)
-	{
-		if(fgetline(buff, MAX_LINE_LENGTH, g_input_file) < 0)
-			error_exit("Premature EOF while reading table");
-		if(strlen(buff) == 0)
-			continue;
-		/* We finish when we find an input separator */
-		if(strcmp(buff, ID_INPUT_SEPARATOR) == 0)
-			break;
-
-		/* Extract the info from the table */
-		ptr = buff;
-
-		/* Name */
-		ptr += skip_spaces(ptr);
-		ptr += check_strsncpy(op->name, ptr, MAX_NAME_LENGTH);
-
-		/* Size */
-		ptr += skip_spaces(ptr);
-		ptr += check_atoi(ptr, &temp);
-		op->size = (unsigned char)temp;
-
-		/* Special processing */
-		ptr += skip_spaces(ptr);
-		ptr += check_strsncpy(op->spec_proc, ptr, MAX_SPEC_PROC_LENGTH);
-
-		/* Specified EA Mode */
-		ptr += skip_spaces(ptr);
-		ptr += check_strsncpy(op->spec_ea, ptr, MAX_SPEC_EA_LENGTH);
-
-		/* Bit Pattern (more processing later) */
-		ptr += skip_spaces(ptr);
-		ptr += check_strsncpy(bitpattern, ptr, 17);
-
-		/* Allowed Addressing Mode List */
-		ptr += skip_spaces(ptr);
-		ptr += check_strsncpy(op->ea_allowed, ptr, EA_ALLOWED_LENGTH);
-
-		/* CPU operating mode (U = user or supervisor, S = supervisor only */
-		ptr += skip_spaces(ptr);
-		for(i=0;i<NUM_CPUS;i++)
-		{
-			op->cpu_mode[i] = *ptr++;
-			ptr += skip_spaces(ptr);
-		}
-
-		/* Allowed CPUs for this instruction */
-		for(i=0;i<NUM_CPUS;i++)
-		{
-			ptr += skip_spaces(ptr);
-			if(*ptr == UNSPECIFIED_CH)
-			{
-				op->cpus[i] = UNSPECIFIED_CH;
-				op->cycles[i] = 0;
-				ptr++;
-			}
-			else
-			{
-				op->cpus[i] = '0' + i;
-				ptr += check_atoi(ptr, &temp);
-				op->cycles[i] = (unsigned char)temp;
-			}
-		}
-
-		/* generate mask and match from bitpattern */
-		op->op_mask = 0;
-		op->op_match = 0;
-		for(i=0;i<16;i++)
-		{
-			op->op_mask |= (bitpattern[i] != '.') << (15-i);
-			op->op_match |= (bitpattern[i] == '1') << (15-i);
-		}
-	}
-	/* Terminate the list */
-	op->name[0] = 0;
-}
-
-/* Read a header or footer insert from the input file */
-void read_insert(char* insert)
-{
-	char* ptr = insert;
-	char* overflow = insert + MAX_INSERT_LENGTH - MAX_LINE_LENGTH;
-	int length;
-	char* first_blank = NULL;
-
-	first_blank = NULL;
-
-	/* Skip any leading blank lines */
-	for(length = 0;length == 0;length = fgetline(ptr, MAX_LINE_LENGTH, g_input_file))
-		if(ptr >= overflow)
-			error_exit("Buffer overflow reading inserts");
-	if(length < 0)
-		error_exit("Premature EOF while reading inserts");
-
-	/* Advance and append newline */
-	ptr += length;
-	strcpy(ptr++, "\n");
-
-	/* Read until next separator */
-	for(;;)
-	{
-		/* Read a new line */
-		if(ptr >= overflow)
-			error_exit("Buffer overflow reading inserts");
-		if((length = fgetline(ptr, MAX_LINE_LENGTH, g_input_file)) < 0)
-			error_exit("Premature EOF while reading inserts");
-
-		/* Stop if we read a separator */
-		if(strcmp(ptr, ID_INPUT_SEPARATOR) == 0)
-			break;
-
-		/* keep track in case there are trailing blanks */
-		if(length == 0)
-		{
-			if(first_blank == NULL)
-				first_blank = ptr;
-		}
-		else
-			first_blank = NULL;
-
-		/* Advance and append newline */
-		ptr += length;
-		strcpy(ptr++, "\n");
-	}
-
-	/* kill any trailing blank lines */
-	if(first_blank)
-		ptr = first_blank;
-	*ptr++ = 0;
-}
-
-
-
-/* ======================================================================== */
-/* ============================= MAIN FUNCTION ============================ */
-/* ======================================================================== */
-
-int main(int argc, char **argv)
-{
-	/* File stuff */
-	char output_path[M68K_MAX_DIR] = "";
-	char filename[M68K_MAX_PATH];
-	/* Section identifier */
-	char section_id[MAX_LINE_LENGTH+1];
-	/* Inserts */
-	char temp_insert[MAX_INSERT_LENGTH+1];
-	char prototype_footer_insert[MAX_INSERT_LENGTH+1];
-	char table_footer_insert[MAX_INSERT_LENGTH+1];
-	char ophandler_footer_insert[MAX_INSERT_LENGTH+1];
-	/* Flags if we've processed certain parts already */
-	int prototype_header_read = 0;
-	int prototype_footer_read = 0;
-	int table_header_read = 0;
-	int table_footer_read = 0;
-	int ophandler_header_read = 0;
-	int ophandler_footer_read = 0;
-	int table_body_read = 0;
-	int ophandler_body_read = 0;
-
-	printf("\n\t\tMusashi v%s 68000, 68010, 68EC020, 68020 emulator\n", g_version);
-	printf("\t\tCopyright 1998-2000 Karl Stenerud (karl@mame.net)\n\n");
-
-	/* Check if output path and source for the input file are given */
-    if(argc > 1)
-	{
-		char *ptr;
-		strcpy(output_path, argv[1]);
-
-		for(ptr = strchr(output_path, '\\'); ptr; ptr = strchr(ptr, '\\'))
-			*ptr = '/';
-        if(output_path[strlen(output_path)-1] != '/')
-			strcat(output_path, "/");
-		if(argc > 2)
-			strcpy(g_input_filename, argv[2]);
-	}
-
-
-	/* Open the files we need */
-	sprintf(filename, "%s%s", output_path, FILENAME_PROTOTYPE);
-	if((g_prototype_file = fopen(filename, "wt")) == NULL)
-		perror_exit("Unable to create prototype file (%s)\n", filename);
-
-	sprintf(filename, "%s%s", output_path, FILENAME_TABLE);
-	if((g_table_file = fopen(filename, "wt")) == NULL)
-		perror_exit("Unable to create table file (%s)\n", filename);
-
-	sprintf(filename, "%s%s", output_path, FILENAME_OPS_AC);
-	if((g_ops_ac_file = fopen(filename, "wt")) == NULL)
-		perror_exit("Unable to create ops ac file (%s)\n", filename);
-
-	sprintf(filename, "%s%s", output_path, FILENAME_OPS_DM);
-	if((g_ops_dm_file = fopen(filename, "wt")) == NULL)
-		perror_exit("Unable to create ops dm file (%s)\n", filename);
-
-	sprintf(filename, "%s%s", output_path, FILENAME_OPS_NZ);
-	if((g_ops_nz_file = fopen(filename, "wt")) == NULL)
-		perror_exit("Unable to create ops nz file (%s)\n", filename);
-
-	if((g_input_file=fopen(g_input_filename, "rt")) == NULL)
-		perror_exit("can't open %s for input", g_input_filename);
-
-
-	/* Get to the first section of the input file */
-	section_id[0] = 0;
-	while(strcmp(section_id, ID_INPUT_SEPARATOR) != 0)
-		if(fgetline(section_id, MAX_LINE_LENGTH, g_input_file) < 0)
-			error_exit("Premature EOF while reading input file");
-
-	/* Now process all sections */
-	for(;;)
-	{
-		if(fgetline(section_id, MAX_LINE_LENGTH, g_input_file) < 0)
-			error_exit("Premature EOF while reading input file");
-		if(strcmp(section_id, ID_PROTOTYPE_HEADER) == 0)
-		{
-			if(prototype_header_read)
-				error_exit("Duplicate prototype header");
-			read_insert(temp_insert);
-			fprintf(g_prototype_file, "%s\n\n", temp_insert);
-			prototype_header_read = 1;
-		}
-		else if(strcmp(section_id, ID_TABLE_HEADER) == 0)
-		{
-			if(table_header_read)
-				error_exit("Duplicate table header");
-			read_insert(temp_insert);
-			fprintf(g_table_file, "%s", temp_insert);
-			table_header_read = 1;
-		}
-		else if(strcmp(section_id, ID_OPHANDLER_HEADER) == 0)
-		{
-			if(ophandler_header_read)
-				error_exit("Duplicate opcode handler header");
-			read_insert(temp_insert);
-			fprintf(g_ops_ac_file, "%s\n\n", temp_insert);
-			fprintf(g_ops_dm_file, "%s\n\n", temp_insert);
-			fprintf(g_ops_nz_file, "%s\n\n", temp_insert);
-			ophandler_header_read = 1;
-		}
-		else if(strcmp(section_id, ID_PROTOTYPE_FOOTER) == 0)
-		{
-			if(prototype_footer_read)
-				error_exit("Duplicate prototype footer");
-			read_insert(prototype_footer_insert);
-			prototype_footer_read = 1;
-		}
-		else if(strcmp(section_id, ID_TABLE_FOOTER) == 0)
-		{
-			if(table_footer_read)
-				error_exit("Duplicate table footer");
-			read_insert(table_footer_insert);
-			table_footer_read = 1;
-		}
-		else if(strcmp(section_id, ID_OPHANDLER_FOOTER) == 0)
-		{
-			if(ophandler_footer_read)
-				error_exit("Duplicate opcode handler footer");
-			read_insert(ophandler_footer_insert);
-			ophandler_footer_read = 1;
-		}
-		else if(strcmp(section_id, ID_TABLE_BODY) == 0)
-		{
-			if(!prototype_header_read)
-				error_exit("Table body encountered before prototype header");
-			if(!table_header_read)
-				error_exit("Table body encountered before table header");
-			if(!ophandler_header_read)
-				error_exit("Table body encountered before opcode handler header");
-
-			if(table_body_read)
-				error_exit("Duplicate table body");
-
-			populate_table();
-			table_body_read = 1;
-		}
-		else if(strcmp(section_id, ID_OPHANDLER_BODY) == 0)
-		{
-			if(!prototype_header_read)
-				error_exit("Opcode handlers encountered before prototype header");
-			if(!table_header_read)
-				error_exit("Opcode handlers encountered before table header");
-			if(!ophandler_header_read)
-				error_exit("Opcode handlers encountered before opcode handler header");
-			if(!table_body_read)
-				error_exit("Opcode handlers encountered before table body");
-
-			if(ophandler_body_read)
-				error_exit("Duplicate opcode handler section");
-
-			process_opcode_handlers();
-
-			ophandler_body_read = 1;
-		}
-		else if(strcmp(section_id, ID_END) == 0)
-		{
-			/* End of input file.  Do a sanity check and then write footers */
-			if(!prototype_header_read)
-				error_exit("Missing prototype header");
-			if(!prototype_footer_read)
-				error_exit("Missing prototype footer");
-			if(!table_header_read)
-				error_exit("Missing table header");
-			if(!table_footer_read)
-				error_exit("Missing table footer");
-			if(!table_body_read)
-				error_exit("Missing table body");
-			if(!ophandler_header_read)
-				error_exit("Missing opcode handler header");
-			if(!ophandler_footer_read)
-				error_exit("Missing opcode handler footer");
-			if(!ophandler_body_read)
-				error_exit("Missing opcode handler body");
-
-			print_opcode_output_table(g_table_file);
-
-			fprintf(g_prototype_file, "%s\n\n", prototype_footer_insert);
-			fprintf(g_table_file, "%s\n\n", table_footer_insert);
-			fprintf(g_ops_ac_file, "%s\n\n", ophandler_footer_insert);
-			fprintf(g_ops_dm_file, "%s\n\n", ophandler_footer_insert);
-			fprintf(g_ops_nz_file, "%s\n\n", ophandler_footer_insert);
-
-			break;
-		}
-		else
-		{
-			error_exit("Unknown section identifier: %s", section_id);
-		}
-	}
-
-	/* Close all files and exit */
-	fclose(g_prototype_file);
-	fclose(g_table_file);
-	fclose(g_ops_ac_file);
-	fclose(g_ops_dm_file);
-	fclose(g_ops_nz_file);
-	fclose(g_input_file);
-
-	printf("Generated %d opcode handlers from %d primitives\n", g_num_functions, g_num_primitives);
-
-	return 0;
-}
-
-
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
diff --git a/plugins/ao/eng_ssf/m68kmame.h b/plugins/ao/eng_ssf/m68kmame.h
deleted file mode 100644
index 6ac0ec59..00000000
--- a/plugins/ao/eng_ssf/m68kmame.h
+++ /dev/null
@@ -1,172 +0,0 @@
-#ifndef M68KMAME__HEADER
-#define M68KMAME__HEADER
-
-/* ======================================================================== */
-/* ============================== MAME STUFF ============================== */
-/* ======================================================================== */
-
-#include "cpuintrf.h"
-#include "memory.h"
-#include "mamedbg.h"
-#include "m68000.h"
-
-extern int m68ki_remaining_cycles;
-
-/* Configuration switches (see m68kconf.h for explanation) */
-#define M68K_SEPARATE_READS         OPT_ON
-
-#define M68K_SIMULATE_PD_WRITES     OPT_ON
-
-#define M68K_EMULATE_INT_ACK        OPT_ON
-#define M68K_INT_ACK_CALLBACK(A)
-
-#define M68K_EMULATE_BKPT_ACK       OPT_OFF
-#define M68K_BKPT_ACK_CALLBACK()
-
-#define M68K_EMULATE_TRACE          OPT_OFF
-
-#define M68K_EMULATE_RESET          OPT_ON
-#define M68K_RESET_CALLBACK()
-
-#define M68K_EMULATE_FC             OPT_OFF
-#define M68K_SET_FC_CALLBACK(A)
-
-#define M68K_MONITOR_PC             OPT_SPECIFY_HANDLER
-#define M68K_SET_PC_CALLBACK(A)     (*m68k_memory_intf.changepc)(A)
-
-#define M68K_INSTRUCTION_HOOK       OPT_SPECIFY_HANDLER
-#define M68K_INSTRUCTION_CALLBACK() CALL_MAME_DEBUG
-
-#define M68K_EMULATE_PREFETCH       OPT_ON
-
-#define M68K_LOG_ENABLE             OPT_OFF
-#define M68K_LOG_1010_1111          OPT_OFF
-#define M68K_LOG_FILEHANDLE         errorlog
-
-#define M68K_EMULATE_ADDRESS_ERROR  OPT_OFF
-
-#define M68K_USE_64_BIT             OPT_OFF
-
-extern struct m68k_memory_interface m68k_memory_intf;
-
-#define m68k_read_memory_8(address)          (*m68k_memory_intf.read8)(address)
-#define m68k_read_memory_16(address)         (*m68k_memory_intf.read16)(address)
-#define m68k_read_memory_32(address)         (*m68k_memory_intf.read32)(address)
-
-INLINE unsigned int m68k_read_immediate_16(unsigned int address)
-{
-	return cpu_readop16((address) ^ m68k_memory_intf.opcode_xor);
-}
-
-INLINE unsigned int m68k_read_immediate_32(unsigned int address)
-{
-	return ((m68k_read_immediate_16(address) << 16) | m68k_read_immediate_16((address)+2));
-}
-
-INLINE unsigned int m68k_read_pcrelative_8(unsigned int address)
-{
-	if (address >= encrypted_opcode_start[cpu_getactivecpu()] &&
-			address < encrypted_opcode_end[cpu_getactivecpu()])
-		return ((m68k_read_immediate_16(address&~1)>>(8*(1-(address & 1))))&0xff);
-	else
-		return m68k_read_memory_8(address);
-}
-
-INLINE unsigned int m68k_read_pcrelative_16(unsigned int address)
-{
-	if (address >= encrypted_opcode_start[cpu_getactivecpu()] &&
-			address < encrypted_opcode_end[cpu_getactivecpu()])
-		return m68k_read_immediate_16(address);
-	else
-		return m68k_read_memory_16(address);
-}
-
-INLINE unsigned int m68k_read_pcrelative_32(unsigned int address)
-{
-	if (address >= encrypted_opcode_start[cpu_getactivecpu()] &&
-			address < encrypted_opcode_end[cpu_getactivecpu()])
-		return m68k_read_immediate_32(address);
-	else
-		return m68k_read_memory_32(address);
-}
-
-#define m68k_read_disassembler_16(address)   m68k_read_immediate_16(address)
-#define m68k_read_disassembler_32(address)   m68k_read_immediate_32(address)
-
-
-#define m68k_write_memory_8(address, value)  (*m68k_memory_intf.write8)(address, value)
-#define m68k_write_memory_16(address, value) (*m68k_memory_intf.write16)(address, value)
-#define m68k_write_memory_32(address, value) (*m68k_memory_intf.write32)(address, value)
-
-/* Special call to simulate undocumented 68k behavior when move.l with a
- * predecrement destination mode is executed.
- * A real 68k first writes the high word to [address+2], and then writes the
- * low word to [address].
- */
-INLINE void m68k_write_memory_32_pd(unsigned int address, unsigned int value)
-{
-	(*m68k_memory_intf.write16)(address+2, value>>16);
-	(*m68k_memory_intf.write16)(address, value&0xffff);
-}
-
-
-#ifdef A68K0
-#define M68K_EMULATE_010            OPT_OFF
-#else
-
-// The PPC 68k core defines A68K0 internal to itself to avoid recompiling
-// all of MAME when you want to disable it. The downside is that the C and x86
-// cores can't agree on the same name for the icount variable, so we force the
-// issue with a Mac-specific hack.
-#ifdef macintosh
-extern int m68k_ICount;
-#else
-#define m68ki_remaining_cycles m68k_ICount
-#endif
-
-/* M68K Variants */
-#if HAS_M68010
-#define M68K_EMULATE_010            OPT_ON
-#else
-#define M68K_EMULATE_010            OPT_OFF
-#endif
-
-#endif	// A68K0
-
-#ifdef A68K2
-#define M68K_EMULATE_EC020          OPT_OFF
-#define M68K_EMULATE_020            OPT_OFF
-#else
-
-// The PPC 68k core defines A68K2 internal to itself to avoid recompiling
-// all of MAME when you want to disable it. The downside is that the C and x86
-// cores can't agree on the same name for the icount variable, so we force the
-// issue with a Mac-specific hack.
-#ifdef macintosh
-extern int M68020_ICount;
-#else
-#define m68ki_remaining_cycles m68k_ICount
-#endif
-
-#undef  M68K_EMULATE_010
-#define M68K_EMULATE_010            OPT_ON
-
-#if HAS_M68EC020
-#define M68K_EMULATE_EC020          OPT_ON
-#else
-#define M68K_EMULATE_EC020          OPT_OFF
-#endif
-
-#if HAS_M68020
-#define M68K_EMULATE_020            OPT_ON
-#else
-#define M68K_EMULATE_020            OPT_OFF
-#endif
-
-#endif // A68K2
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
-
-#endif /* M68KMAME__HEADER */
diff --git a/plugins/ao/eng_ssf/m68kopac.c b/plugins/ao/eng_ssf/m68kopac.c
deleted file mode 100644
index 405b6bbd..00000000
--- a/plugins/ao/eng_ssf/m68kopac.c
+++ /dev/null
@@ -1,12043 +0,0 @@
-#include "ao.h"
-#include "m68kcpu.h"
-
-/* ======================================================================== */
-/* ========================= INSTRUCTION HANDLERS ========================= */
-/* ======================================================================== */
-
-
-void m68k_op_1010(m68ki_cpu_core *cpu)
-{
-	m68ki_exception_1010(cpu);
-}
-
-
-void m68k_op_1111(m68ki_cpu_core *cpu)
-{
-	m68ki_exception_1111(cpu);
-}
-
-
-void m68k_op_abcd_8_rr(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = DY;
-	uint dst = *r_dst;
-	uint res = LOW_NIBBLE(src) + LOW_NIBBLE(dst) + XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res += 6;
-	res += HIGH_NIBBLE(src) + HIGH_NIBBLE(dst);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res -= 0xa0;
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-}
-
-
-void m68k_op_abcd_8_mm_ax7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_8(cpu);
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(src) + LOW_NIBBLE(dst) + XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res += 6;
-	res += HIGH_NIBBLE(src) + HIGH_NIBBLE(dst);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res -= 0xa0;
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_abcd_8_mm_ay7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_A7_PD_8(cpu);
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(src) + LOW_NIBBLE(dst) + XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res += 6;
-	res += HIGH_NIBBLE(src) + HIGH_NIBBLE(dst);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res -= 0xa0;
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_abcd_8_mm_axy7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_A7_PD_8(cpu);
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(src) + LOW_NIBBLE(dst) + XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res += 6;
-	res += HIGH_NIBBLE(src) + HIGH_NIBBLE(dst);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res -= 0xa0;
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_abcd_8_mm(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_8(cpu);
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(src) + LOW_NIBBLE(dst) + XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res += 6;
-	res += HIGH_NIBBLE(src) + HIGH_NIBBLE(dst);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res -= 0xa0;
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_add_8_er_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_8(DY);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_8_er_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_AI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_8_er_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_8_er_pi7(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_A7_PI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_8_er_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PD_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_8_er_pd7(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_A7_PD_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_8_er_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_DI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_8_er_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_IX_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_8_er_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AW_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_8_er_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AL_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_8_er_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCDI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_8_er_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCIX_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_8_er_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_I_8();
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_16_er_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(DY);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_16_er_a(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(AY);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_16_er_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_AI_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_16_er_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PI_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_16_er_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PD_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_16_er_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_DI_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_16_er_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_IX_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_16_er_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AW_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_16_er_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AL_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_16_er_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCDI_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_16_er_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCIX_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_16_er_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_I_16();
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_add_32_er_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = DY;
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_add_32_er_a(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = AY;
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_add_32_er_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_AI_32(cpu);
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_add_32_er_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PI_32(cpu);
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_add_32_er_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PD_32(cpu);
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_add_32_er_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_DI_32(cpu);
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_add_32_er_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_IX_32(cpu);
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_add_32_er_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AW_32(cpu);
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_add_32_er_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AL_32(cpu);
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_add_32_er_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCDI_32(cpu);
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_add_32_er_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCIX_32(cpu);
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_add_32_er_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_I_32();
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_add_8_re_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_8_re_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_8_re_pi7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PI_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_8_re_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_8_re_pd7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PD_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_8_re_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_8_re_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_8_re_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_8_re_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_16_re_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_16_re_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_16_re_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_16_re_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_16_re_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_16_re_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_16_re_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_32_re_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_32_re_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_32_re_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_32_re_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_32_re_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_32_re_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_add_32_re_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_adda_16_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(DY));
-}
-
-
-void m68k_op_adda_16_a(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(AY));
-}
-
-
-void m68k_op_adda_16_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(OPER_AY_AI_16(cpu)));
-}
-
-
-void m68k_op_adda_16_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(OPER_AY_PI_16(cpu)));
-}
-
-
-void m68k_op_adda_16_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(OPER_AY_PD_16(cpu)));
-}
-
-
-void m68k_op_adda_16_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(OPER_AY_DI_16(cpu)));
-}
-
-
-void m68k_op_adda_16_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(OPER_AY_IX_16(cpu)));
-}
-
-
-void m68k_op_adda_16_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(OPER_AW_16(cpu)));
-}
-
-
-void m68k_op_adda_16_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(OPER_AL_16(cpu)));
-}
-
-
-void m68k_op_adda_16_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(OPER_PCDI_16(cpu)));
-}
-
-
-void m68k_op_adda_16_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(OPER_PCIX_16(cpu)));
-}
-
-
-void m68k_op_adda_16_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + MAKE_INT_16(OPER_I_16()));
-}
-
-
-void m68k_op_adda_32_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + DY);
-}
-
-
-void m68k_op_adda_32_a(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + AY);
-}
-
-
-void m68k_op_adda_32_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + OPER_AY_AI_32(cpu));
-}
-
-
-void m68k_op_adda_32_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + OPER_AY_PI_32(cpu));
-}
-
-
-void m68k_op_adda_32_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + OPER_AY_PD_32(cpu));
-}
-
-
-void m68k_op_adda_32_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + OPER_AY_DI_32(cpu));
-}
-
-
-void m68k_op_adda_32_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + OPER_AY_IX_32(cpu));
-}
-
-
-void m68k_op_adda_32_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + OPER_AW_32(cpu));
-}
-
-
-void m68k_op_adda_32_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + OPER_AL_32(cpu));
-}
-
-
-void m68k_op_adda_32_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + OPER_PCDI_32(cpu));
-}
-
-
-void m68k_op_adda_32_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + OPER_PCIX_32(cpu));
-}
-
-
-void m68k_op_adda_32_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + OPER_I_32());
-}
-
-
-void m68k_op_addi_8_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint src = OPER_I_8();
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_addi_8_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_AI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_8_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_PI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_A7_PI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_8_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_8_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_DI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_8_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_IX_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_8_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AW_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_8_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AL_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_16_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint src = OPER_I_16();
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_addi_16_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_AI_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_16_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_PI_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_16_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_PD_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_16_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_DI_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_16_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_IX_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_16_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AW_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_16_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AL_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_32_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint src = OPER_I_32();
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_addi_32_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_AI_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_32_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_PI_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_32_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_PD_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_32_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_DI_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_32_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_IX_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_32_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AW_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addi_32_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AL_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_8_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_addq_8_ai(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_AI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_8_pi(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_PI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_A7_PI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_8_pd(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_8_di(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_DI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_8_ix(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_IX_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_8_aw(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AW_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_8_al(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AL_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_16_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_addq_16_a(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AY;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + (((REG_IR >> 9) - 1) & 7) + 1);
-}
-
-
-void m68k_op_addq_16_ai(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_AI_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_16_pi(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_PI_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_16_pd(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_PD_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_16_di(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_DI_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_16_ix(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_IX_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_16_aw(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AW_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_16_al(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AL_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_32_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint dst = *r_dst;
-	uint res = src + dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_addq_32_a(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AY;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst + (((REG_IR >> 9) - 1) & 7) + 1);
-}
-
-
-void m68k_op_addq_32_ai(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_AI_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_32_pi(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_PI_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_32_pd(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_PD_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_32_di(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_DI_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_32_ix(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_IX_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_32_aw(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AW_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addq_32_al(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AL_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst;
-
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_addx_8_rr(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_8(DY);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-}
-
-
-void m68k_op_addx_16_rr(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(DY);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-}
-
-
-void m68k_op_addx_32_rr(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = DY;
-	uint dst = *r_dst;
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	*r_dst = res;
-}
-
-
-void m68k_op_addx_8_mm_ax7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_8(cpu);
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_addx_8_mm_ay7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_A7_PD_8(cpu);
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_addx_8_mm_axy7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_A7_PD_8(cpu);
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_addx_8_mm(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_8(cpu);
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_V = VFLAG_ADD_8(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_addx_16_mm(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_16(cpu);
-	uint ea  = EA_AX_PD_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_V = VFLAG_ADD_16(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_addx_32_mm(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_32(cpu);
-	uint ea  = EA_AX_PD_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = src + dst + XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_ADD_32(src, dst, res);
-	FLAG_X = FLAG_C = CFLAG_ADD_32(src, dst, res);
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_and_8_er_d(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (DY | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_8_er_ai(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (OPER_AY_AI_8(cpu) | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_8_er_pi(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (OPER_AY_PI_8(cpu) | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_8_er_pi7(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (OPER_A7_PI_8(cpu) | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_8_er_pd(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (OPER_AY_PD_8(cpu) | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_8_er_pd7(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (OPER_A7_PD_8(cpu) | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_8_er_di(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (OPER_AY_DI_8(cpu) | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_8_er_ix(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (OPER_AY_IX_8(cpu) | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_8_er_aw(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (OPER_AW_8(cpu) | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_8_er_al(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (OPER_AL_8(cpu) | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_8_er_pcdi(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (OPER_PCDI_8(cpu) | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_8_er_pcix(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (OPER_PCIX_8(cpu) | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_8_er_i(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DX &= (OPER_I_8() | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_16_er_d(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DX &= (DY | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_16_er_ai(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DX &= (OPER_AY_AI_16(cpu) | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_16_er_pi(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DX &= (OPER_AY_PI_16(cpu) | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_16_er_pd(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DX &= (OPER_AY_PD_16(cpu) | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_16_er_di(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DX &= (OPER_AY_DI_16(cpu) | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_16_er_ix(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DX &= (OPER_AY_IX_16(cpu) | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_16_er_aw(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DX &= (OPER_AW_16(cpu) | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_16_er_al(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DX &= (OPER_AL_16(cpu) | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_16_er_pcdi(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DX &= (OPER_PCDI_16(cpu) | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_16_er_pcix(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DX &= (OPER_PCIX_16(cpu) | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_16_er_i(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DX &= (OPER_I_16() | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_32_er_d(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DX &= DY;
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_32_er_ai(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DX &= OPER_AY_AI_32(cpu);
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_32_er_pi(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DX &= OPER_AY_PI_32(cpu);
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_32_er_pd(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DX &= OPER_AY_PD_32(cpu);
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_32_er_di(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DX &= OPER_AY_DI_32(cpu);
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_32_er_ix(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DX &= OPER_AY_IX_32(cpu);
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_32_er_aw(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DX &= OPER_AW_32(cpu);
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_32_er_al(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DX &= OPER_AL_32(cpu);
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_32_er_pcdi(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DX &= OPER_PCDI_32(cpu);
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_32_er_pcix(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DX &= OPER_PCIX_32(cpu);
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_32_er_i(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DX &= OPER_I_32();
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_and_8_re_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_8();
-	uint res = DX & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_8_re_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_8();
-	uint res = DX & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_8_re_pi7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PI_8();
-	uint res = DX & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_8_re_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_8();
-	uint res = DX & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_8_re_pd7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PD_8();
-	uint res = DX & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_8_re_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_8();
-	uint res = DX & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_8_re_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_8();
-	uint res = DX & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_8_re_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_8();
-	uint res = DX & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_8_re_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_8();
-	uint res = DX & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_16_re_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint res = DX & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_16_re_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint res = DX & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_16_re_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint res = DX & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_16_re_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint res = DX & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_16_re_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint res = DX & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_16_re_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint res = DX & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_16_re_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint res = DX & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_and_32_re_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_32();
-	uint res = DX & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_and_32_re_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_32();
-	uint res = DX & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_and_32_re_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_32();
-	uint res = DX & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_and_32_re_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_32();
-	uint res = DX & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_and_32_re_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_32();
-	uint res = DX & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_and_32_re_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_32();
-	uint res = DX & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_and_32_re_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_32();
-	uint res = DX & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_andi_8_d(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_8(DY &= (OPER_I_8() | 0xffffff00));
-
-	FLAG_N = NFLAG_8(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_andi_8_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_AI_8();
-	uint res = src & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_andi_8_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_PI_8();
-	uint res = src & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_andi_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_A7_PI_8();
-	uint res = src & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_andi_8_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_PD_8();
-	uint res = src & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_andi_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_A7_PD_8();
-	uint res = src & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_andi_8_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_DI_8();
-	uint res = src & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_andi_8_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_IX_8();
-	uint res = src & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_andi_8_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AW_8();
-	uint res = src & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_andi_8_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AL_8();
-	uint res = src & m68ki_read_8(ea);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_andi_16_d(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = MASK_OUT_ABOVE_16(DY &= (OPER_I_16() | 0xffff0000));
-
-	FLAG_N = NFLAG_16(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_andi_16_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_AI_16();
-	uint res = src & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_andi_16_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_PI_16();
-	uint res = src & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_andi_16_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_PD_16();
-	uint res = src & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_andi_16_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_DI_16();
-	uint res = src & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_andi_16_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_IX_16();
-	uint res = src & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_andi_16_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AW_16();
-	uint res = src & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_andi_16_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AL_16();
-	uint res = src & m68ki_read_16(ea);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_andi_32_d(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DY &= (OPER_I_32());
-
-	FLAG_N = NFLAG_32(FLAG_Z);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_andi_32_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_AI_32();
-	uint res = src & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_andi_32_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_PI_32();
-	uint res = src & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_andi_32_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_PD_32();
-	uint res = src & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_andi_32_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_DI_32();
-	uint res = src & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_andi_32_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_IX_32();
-	uint res = src & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_andi_32_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AW_32();
-	uint res = src & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_andi_32_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AL_32();
-	uint res = src & m68ki_read_32(ea);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_andi_16_toc(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, m68ki_get_ccr() & OPER_I_16());
-}
-
-
-void m68k_op_andi_16_tos(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint src = OPER_I_16();
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(cpu, m68ki_get_sr() & src);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_asr_8_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src >> shift;
-
-	if(GET_MSB_8(src))
-		res |= m68ki_shift_8_table[shift];
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_X = FLAG_C = src << (9-shift);
-}
-
-
-void m68k_op_asr_16_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src >> shift;
-
-	if(GET_MSB_16(src))
-		res |= m68ki_shift_16_table[shift];
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_X = FLAG_C = src << (9-shift);
-}
-
-
-void m68k_op_asr_32_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = *r_dst;
-	uint res = src >> shift;
-
-	if(GET_MSB_32(src))
-		res |= m68ki_shift_32_table[shift];
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_X = FLAG_C = src << (9-shift);
-}
-
-
-void m68k_op_asr_8_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src >> shift;
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 8)
-		{
-			if(GET_MSB_8(src))
-				res |= m68ki_shift_8_table[shift];
-
-			*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-			FLAG_X = FLAG_C = src << (9-shift);
-			FLAG_N = NFLAG_8(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		if(GET_MSB_8(src))
-		{
-			*r_dst |= 0xff;
-			FLAG_C = CFLAG_SET;
-			FLAG_X = XFLAG_SET;
-			FLAG_N = NFLAG_SET;
-			FLAG_Z = ZFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst &= 0xffffff00;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_8(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_asr_16_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src >> shift;
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 16)
-		{
-			if(GET_MSB_16(src))
-				res |= m68ki_shift_16_table[shift];
-
-			*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-			FLAG_C = FLAG_X = (src >> (shift - 1))<<8;
-			FLAG_N = NFLAG_16(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		if(GET_MSB_16(src))
-		{
-			*r_dst |= 0xffff;
-			FLAG_C = CFLAG_SET;
-			FLAG_X = XFLAG_SET;
-			FLAG_N = NFLAG_SET;
-			FLAG_Z = ZFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst &= 0xffff0000;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_16(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_asr_32_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = *r_dst;
-	uint res = src >> shift;
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 32)
-		{
-			if(GET_MSB_32(src))
-				res |= m68ki_shift_32_table[shift];
-
-			*r_dst = res;
-
-			FLAG_C = FLAG_X = (src >> (shift - 1))<<8;
-			FLAG_N = NFLAG_32(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		if(GET_MSB_32(src))
-		{
-			*r_dst = 0xffffffff;
-			FLAG_C = CFLAG_SET;
-			FLAG_X = XFLAG_SET;
-			FLAG_N = NFLAG_SET;
-			FLAG_Z = ZFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst = 0;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_32(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_asr_16_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	if(GET_MSB_16(src))
-		res |= 0x8000;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = FLAG_X = src << 8;
-}
-
-
-void m68k_op_asr_16_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	if(GET_MSB_16(src))
-		res |= 0x8000;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = FLAG_X = src << 8;
-}
-
-
-void m68k_op_asr_16_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	if(GET_MSB_16(src))
-		res |= 0x8000;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = FLAG_X = src << 8;
-}
-
-
-void m68k_op_asr_16_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	if(GET_MSB_16(src))
-		res |= 0x8000;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = FLAG_X = src << 8;
-}
-
-
-void m68k_op_asr_16_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	if(GET_MSB_16(src))
-		res |= 0x8000;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = FLAG_X = src << 8;
-}
-
-
-void m68k_op_asr_16_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	if(GET_MSB_16(src))
-		res |= 0x8000;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = FLAG_X = src << 8;
-}
-
-
-void m68k_op_asr_16_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	if(GET_MSB_16(src))
-		res |= 0x8000;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = FLAG_X = src << 8;
-}
-
-
-void m68k_op_asl_8_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = MASK_OUT_ABOVE_8(src << shift);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_X = FLAG_C = src << shift;
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	src &= m68ki_shift_8_table[shift + 1];
-	FLAG_V = (!(src == 0 || (src == m68ki_shift_8_table[shift + 1] && shift < 8)))<<7;
-}
-
-
-void m68k_op_asl_16_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = MASK_OUT_ABOVE_16(src << shift);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> (8-shift);
-	src &= m68ki_shift_16_table[shift + 1];
-	FLAG_V = (!(src == 0 || src == m68ki_shift_16_table[shift + 1]))<<7;
-}
-
-
-void m68k_op_asl_32_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32(src << shift);
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> (24-shift);
-	src &= m68ki_shift_32_table[shift + 1];
-	FLAG_V = (!(src == 0 || src == m68ki_shift_32_table[shift + 1]))<<7;
-}
-
-
-void m68k_op_asl_8_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = MASK_OUT_ABOVE_8(src << shift);
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 8)
-		{
-			*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-			FLAG_X = FLAG_C = src << shift;
-			FLAG_N = NFLAG_8(res);
-			FLAG_Z = res;
-			src &= m68ki_shift_8_table[shift + 1];
-			FLAG_V = (!(src == 0 || src == m68ki_shift_8_table[shift + 1]))<<7;
-			return;
-		}
-
-		*r_dst &= 0xffffff00;
-		FLAG_X = FLAG_C = ((shift == 8 ? src & 1 : 0))<<8;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = (!(src == 0))<<7;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_8(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_asl_16_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = MASK_OUT_ABOVE_16(src << shift);
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 16)
-		{
-			*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-			FLAG_X = FLAG_C = (src << shift) >> 8;
-			FLAG_N = NFLAG_16(res);
-			FLAG_Z = res;
-			src &= m68ki_shift_16_table[shift + 1];
-			FLAG_V = (!(src == 0 || src == m68ki_shift_16_table[shift + 1]))<<7;
-			return;
-		}
-
-		*r_dst &= 0xffff0000;
-		FLAG_X = FLAG_C = ((shift == 16 ? src & 1 : 0))<<8;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = (!(src == 0))<<7;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_16(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_asl_32_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32(src << shift);
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 32)
-		{
-			*r_dst = res;
-			FLAG_X = FLAG_C = (src >> (32 - shift)) << 8;
-			FLAG_N = NFLAG_32(res);
-			FLAG_Z = res;
-			src &= m68ki_shift_32_table[shift + 1];
-			FLAG_V = (!(src == 0 || src == m68ki_shift_32_table[shift + 1]))<<7;
-			return;
-		}
-
-		*r_dst = 0;
-		FLAG_X = FLAG_C = ((shift == 32 ? src & 1 : 0))<<8;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = (!(src == 0))<<7;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_32(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_asl_16_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	src &= 0xc000;
-	FLAG_V = (!(src == 0 || src == 0xc000))<<7;
-}
-
-
-void m68k_op_asl_16_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	src &= 0xc000;
-	FLAG_V = (!(src == 0 || src == 0xc000))<<7;
-}
-
-
-void m68k_op_asl_16_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	src &= 0xc000;
-	FLAG_V = (!(src == 0 || src == 0xc000))<<7;
-}
-
-
-void m68k_op_asl_16_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	src &= 0xc000;
-	FLAG_V = (!(src == 0 || src == 0xc000))<<7;
-}
-
-
-void m68k_op_asl_16_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	src &= 0xc000;
-	FLAG_V = (!(src == 0 || src == 0xc000))<<7;
-}
-
-
-void m68k_op_asl_16_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	src &= 0xc000;
-	FLAG_V = (!(src == 0 || src == 0xc000))<<7;
-}
-
-
-void m68k_op_asl_16_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	src &= 0xc000;
-	FLAG_V = (!(src == 0 || src == 0xc000))<<7;
-}
-
-
-void m68k_op_bhi_8(m68ki_cpu_core *cpu)
-{
-	if(COND_HI())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_bls_8(m68ki_cpu_core *cpu)
-{
-	if(COND_LS())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_bcc_8(m68ki_cpu_core *cpu)
-{
-	if(COND_CC())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_bcs_8(m68ki_cpu_core *cpu)
-{
-	if(COND_CS())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_bne_8(m68ki_cpu_core *cpu)
-{
-	if(COND_NE())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_beq_8(m68ki_cpu_core *cpu)
-{
-	if(COND_EQ())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_bvc_8(m68ki_cpu_core *cpu)
-{
-	if(COND_VC())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_bvs_8(m68ki_cpu_core *cpu)
-{
-	if(COND_VS())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_bpl_8(m68ki_cpu_core *cpu)
-{
-	if(COND_PL())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_bmi_8(m68ki_cpu_core *cpu)
-{
-	if(COND_MI())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_bge_8(m68ki_cpu_core *cpu)
-{
-	if(COND_GE())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_blt_8(m68ki_cpu_core *cpu)
-{
-	if(COND_LT())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_bgt_8(m68ki_cpu_core *cpu)
-{
-	if(COND_GT())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_ble_8(m68ki_cpu_core *cpu)
-{
-	if(COND_LE())
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-		return;
-	}
-	USE_CYCLES(CYC_BCC_NOTAKE_B);
-}
-
-
-void m68k_op_bhi_16(m68ki_cpu_core *cpu)
-{
-	if(COND_HI())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_bls_16(m68ki_cpu_core *cpu)
-{
-	if(COND_LS())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_bcc_16(m68ki_cpu_core *cpu)
-{
-	if(COND_CC())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_bcs_16(m68ki_cpu_core *cpu)
-{
-	if(COND_CS())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_bne_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NE())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_beq_16(m68ki_cpu_core *cpu)
-{
-	if(COND_EQ())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_bvc_16(m68ki_cpu_core *cpu)
-{
-	if(COND_VC())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_bvs_16(m68ki_cpu_core *cpu)
-{
-	if(COND_VS())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_bpl_16(m68ki_cpu_core *cpu)
-{
-	if(COND_PL())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_bmi_16(m68ki_cpu_core *cpu)
-{
-	if(COND_MI())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_bge_16(m68ki_cpu_core *cpu)
-{
-	if(COND_GE())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_blt_16(m68ki_cpu_core *cpu)
-{
-	if(COND_LT())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_bgt_16(m68ki_cpu_core *cpu)
-{
-	if(COND_GT())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_ble_16(m68ki_cpu_core *cpu)
-{
-	if(COND_LE())
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-	USE_CYCLES(CYC_BCC_NOTAKE_W);
-}
-
-
-void m68k_op_bhi_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_HI())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bls_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_LS())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bcc_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_CC())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bcs_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_CS())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bne_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_NE())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_beq_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_EQ())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bvc_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_VC())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bvs_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_VS())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bpl_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_PL())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bmi_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_MI())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bge_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_GE())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_blt_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_LT())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bgt_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_GT())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_ble_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_LE())
-		{
-			uint offset = OPER_I_32();
-			REG_PC -= 4;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_32(cpu, offset);
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bchg_32_r_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint mask = 1 << (DX & 0x1f);
-
-	FLAG_Z = *r_dst & mask;
-	*r_dst ^= mask;
-}
-
-
-void m68k_op_bchg_8_r_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_r_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_r_pi7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PI_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_r_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_r_pd7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PD_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_r_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_r_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_r_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_r_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_32_s_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint mask = 1 << (OPER_I_8() & 0x1f);
-
-	FLAG_Z = *r_dst & mask;
-	*r_dst ^= mask;
-}
-
-
-void m68k_op_bchg_8_s_ai(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_AI_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_s_pi(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_PI_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_s_pi7(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_A7_PI_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_s_pd(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_PD_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_s_pd7(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_A7_PD_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_s_di(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_DI_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_s_ix(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_IX_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_s_aw(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AW_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bchg_8_s_al(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AL_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src ^ mask);
-}
-
-
-void m68k_op_bclr_32_r_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint mask = 1 << (DX & 0x1f);
-
-	FLAG_Z = *r_dst & mask;
-	*r_dst &= ~mask;
-}
-
-
-void m68k_op_bclr_8_r_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_r_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_r_pi7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PI_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_r_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_r_pd7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PD_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_r_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_r_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_r_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_r_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_32_s_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint mask = 1 << (OPER_I_8() & 0x1f);
-
-	FLAG_Z = *r_dst & mask;
-	*r_dst &= ~mask;
-}
-
-
-void m68k_op_bclr_8_s_ai(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_AI_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_s_pi(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_PI_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_s_pi7(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_A7_PI_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_s_pd(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_PD_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_s_pd7(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_A7_PD_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_s_di(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_DI_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_s_ix(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_IX_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_s_aw(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AW_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bclr_8_s_al(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AL_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src & ~mask);
-}
-
-
-void m68k_op_bfchg_32_d(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint* data = &DY;
-		uint64 mask;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-		mask = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask = ROR_32(mask, offset);
-
-		FLAG_N = NFLAG_32(*data<<offset);
-		FLAG_Z = *data & mask;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		*data ^= mask;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfchg_32_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_AI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long ^ mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte ^ mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfchg_32_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_DI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long ^ mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte ^ mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfchg_32_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_IX_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long ^ mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte ^ mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfchg_32_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AW_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long ^ mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte ^ mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfchg_32_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AL_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long ^ mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte ^ mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfclr_32_d(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint* data = &DY;
-		uint64 mask;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-
-		mask = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask = ROR_32(mask, offset);
-
-		FLAG_N = NFLAG_32(*data<<offset);
-		FLAG_Z = *data & mask;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		*data &= ~mask;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfclr_32_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_AI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long & ~mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte & ~mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfclr_32_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_DI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long & ~mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte & ~mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfclr_32_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_IX_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long & ~mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte & ~mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfclr_32_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AW_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long & ~mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte & ~mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfclr_32_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AL_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long & ~mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte & ~mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfexts_32_d(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint64 data = DY;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-		data = ROL_32(data, offset);
-		FLAG_N = NFLAG_32(data);
-		data = MAKE_INT_32(data) >> (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2>>12)&7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfexts_32_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_AY_AI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  = MAKE_INT_32(data) >> (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfexts_32_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_AY_DI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  = MAKE_INT_32(data) >> (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfexts_32_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_AY_IX_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  = MAKE_INT_32(data) >> (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfexts_32_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_AW_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  = MAKE_INT_32(data) >> (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfexts_32_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_AL_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  = MAKE_INT_32(data) >> (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfexts_32_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_PCDI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  = MAKE_INT_32(data) >> (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfexts_32_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_PCIX_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  = MAKE_INT_32(data) >> (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfextu_32_d(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint64 data = DY;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-		data = ROL_32(data, offset);
-		FLAG_N = NFLAG_32(data);
-		data >>= 32 - width;
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2>>12)&7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfextu_32_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_AY_AI_8();
-
-
-		if(BIT_B(word2))
-		offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfextu_32_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_AY_DI_8();
-
-
-		if(BIT_B(word2))
-		offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfextu_32_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_AY_IX_8();
-
-
-		if(BIT_B(word2))
-		offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfextu_32_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_AW_8();
-
-
-		if(BIT_B(word2))
-		offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfextu_32_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_AL_8();
-
-
-		if(BIT_B(word2))
-		offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfextu_32_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_PCDI_8();
-
-
-		if(BIT_B(word2))
-		offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfextu_32_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint data;
-		uint ea = EA_PCIX_8();
-
-
-		if(BIT_B(word2))
-		offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<offset);
-
-		if((offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		REG_D[(word2 >> 12) & 7] = data;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfffo_32_d(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint64 data = DY;
-		uint bit;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-		data = ROL_32(data, offset);
-		FLAG_N = NFLAG_32(data);
-		data >>= 32 - width;
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		for(bit = 1<<(width-1);bit && !(data & bit);bit>>= 1)
-			offset++;
-
-		REG_D[(word2>>12)&7] = offset;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfffo_32_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		sint local_offset;
-		uint width = word2;
-		uint data;
-		uint bit;
-		uint ea = EA_AY_AI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		local_offset = offset % 8;
-		if(local_offset < 0)
-		{
-			local_offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<local_offset);
-
-		if((local_offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << local_offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		for(bit = 1<<(width-1);bit && !(data & bit);bit>>= 1)
-			offset++;
-
-		REG_D[(word2>>12)&7] = offset;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfffo_32_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		sint local_offset;
-		uint width = word2;
-		uint data;
-		uint bit;
-		uint ea = EA_AY_DI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		local_offset = offset % 8;
-		if(local_offset < 0)
-		{
-			local_offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<local_offset);
-
-		if((local_offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << local_offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		for(bit = 1<<(width-1);bit && !(data & bit);bit>>= 1)
-			offset++;
-
-		REG_D[(word2>>12)&7] = offset;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfffo_32_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		sint local_offset;
-		uint width = word2;
-		uint data;
-		uint bit;
-		uint ea = EA_AY_IX_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		local_offset = offset % 8;
-		if(local_offset < 0)
-		{
-			local_offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<local_offset);
-
-		if((local_offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << local_offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		for(bit = 1<<(width-1);bit && !(data & bit);bit>>= 1)
-			offset++;
-
-		REG_D[(word2>>12)&7] = offset;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfffo_32_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		sint local_offset;
-		uint width = word2;
-		uint data;
-		uint bit;
-		uint ea = EA_AW_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		local_offset = offset % 8;
-		if(local_offset < 0)
-		{
-			local_offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<local_offset);
-
-		if((local_offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << local_offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		for(bit = 1<<(width-1);bit && !(data & bit);bit>>= 1)
-			offset++;
-
-		REG_D[(word2>>12)&7] = offset;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfffo_32_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		sint local_offset;
-		uint width = word2;
-		uint data;
-		uint bit;
-		uint ea = EA_AL_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		local_offset = offset % 8;
-		if(local_offset < 0)
-		{
-			local_offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<local_offset);
-
-		if((local_offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << local_offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		for(bit = 1<<(width-1);bit && !(data & bit);bit>>= 1)
-			offset++;
-
-		REG_D[(word2>>12)&7] = offset;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfffo_32_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		sint local_offset;
-		uint width = word2;
-		uint data;
-		uint bit;
-		uint ea = EA_PCDI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		local_offset = offset % 8;
-		if(local_offset < 0)
-		{
-			local_offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<local_offset);
-
-		if((local_offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << local_offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		for(bit = 1<<(width-1);bit && !(data & bit);bit>>= 1)
-			offset++;
-
-		REG_D[(word2>>12)&7] = offset;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfffo_32_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		sint local_offset;
-		uint width = word2;
-		uint data;
-		uint bit;
-		uint ea = EA_PCIX_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		local_offset = offset % 8;
-		if(local_offset < 0)
-		{
-			local_offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		data = m68ki_read_32(ea);
-		data = MASK_OUT_ABOVE_32(data<<local_offset);
-
-		if((local_offset+width) > 32)
-			data |= (m68ki_read_8(ea+4) << local_offset) >> 8;
-
-		FLAG_N = NFLAG_32(data);
-		data  >>= (32 - width);
-
-		FLAG_Z = data;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		for(bit = 1<<(width-1);bit && !(data & bit);bit>>= 1)
-			offset++;
-
-		REG_D[(word2>>12)&7] = offset;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfins_32_d(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint* data = &DY;
-		uint64 mask;
-		uint64 insert = REG_D[(word2>>12)&7];
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-
-		mask = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask = ROR_32(mask, offset);
-
-		insert = MASK_OUT_ABOVE_32(insert << (32 - width));
-		FLAG_N = NFLAG_32(insert);
-		FLAG_Z = insert;
-		insert = ROR_32(insert, offset);
-
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		*data &= ~mask;
-		*data |= insert;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfins_32_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint insert_base = REG_D[(word2>>12)&7];
-		uint insert_long;
-		uint insert_byte;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_AI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		insert_base = MASK_OUT_ABOVE_32(insert_base << (32 - width));
-		FLAG_N = NFLAG_32(insert_base);
-		FLAG_Z = insert_base;
-		insert_long = insert_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, (data_long & ~mask_long) | insert_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			insert_byte = MASK_OUT_ABOVE_8(insert_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, (data_byte & ~mask_byte) | insert_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfins_32_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint insert_base = REG_D[(word2>>12)&7];
-		uint insert_long;
-		uint insert_byte;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_DI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		insert_base = MASK_OUT_ABOVE_32(insert_base << (32 - width));
-		FLAG_N = NFLAG_32(insert_base);
-		FLAG_Z = insert_base;
-		insert_long = insert_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, (data_long & ~mask_long) | insert_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			insert_byte = MASK_OUT_ABOVE_8(insert_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, (data_byte & ~mask_byte) | insert_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfins_32_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint insert_base = REG_D[(word2>>12)&7];
-		uint insert_long;
-		uint insert_byte;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_IX_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		insert_base = MASK_OUT_ABOVE_32(insert_base << (32 - width));
-		FLAG_N = NFLAG_32(insert_base);
-		FLAG_Z = insert_base;
-		insert_long = insert_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, (data_long & ~mask_long) | insert_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			insert_byte = MASK_OUT_ABOVE_8(insert_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, (data_byte & ~mask_byte) | insert_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfins_32_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint insert_base = REG_D[(word2>>12)&7];
-		uint insert_long;
-		uint insert_byte;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AW_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		insert_base = MASK_OUT_ABOVE_32(insert_base << (32 - width));
-		FLAG_N = NFLAG_32(insert_base);
-		FLAG_Z = insert_base;
-		insert_long = insert_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, (data_long & ~mask_long) | insert_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			insert_byte = MASK_OUT_ABOVE_8(insert_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, (data_byte & ~mask_byte) | insert_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfins_32_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint insert_base = REG_D[(word2>>12)&7];
-		uint insert_long;
-		uint insert_byte;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AL_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		insert_base = MASK_OUT_ABOVE_32(insert_base << (32 - width));
-		FLAG_N = NFLAG_32(insert_base);
-		FLAG_Z = insert_base;
-		insert_long = insert_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, (data_long & ~mask_long) | insert_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			insert_byte = MASK_OUT_ABOVE_8(insert_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, (data_byte & ~mask_byte) | insert_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfset_32_d(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint* data = &DY;
-		uint64 mask;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-
-		mask = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask = ROR_32(mask, offset);
-
-		FLAG_N = NFLAG_32(*data<<offset);
-		FLAG_Z = *data & mask;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		*data |= mask;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfset_32_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_AI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long | mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte | mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfset_32_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_DI_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long | mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte | mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfset_32_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_IX_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long | mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte | mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfset_32_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AW_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long | mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte | mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bfset_32_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AL_8();
-
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = NFLAG_32(data_long << offset);
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		m68ki_write_32(ea, data_long | mask_long);
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-			m68ki_write_8(ea+4, data_byte | mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bftst_32_d(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint offset = (word2>>6)&31;
-		uint width = word2;
-		uint* data = &DY;
-		uint64 mask;
-
-
-		if(BIT_B(word2))
-			offset = REG_D[offset&7];
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-
-		offset &= 31;
-		width = ((width-1) & 31) + 1;
-
-
-		mask = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask = ROR_32(mask, offset);
-
-		FLAG_N = NFLAG_32(*data<<offset);
-		FLAG_Z = *data & mask;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bftst_32_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_AI_8();
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = ((data_long & (0x80000000 >> offset))<<offset)>>24;
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bftst_32_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_DI_8();
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = ((data_long & (0x80000000 >> offset))<<offset)>>24;
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bftst_32_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AY_IX_8();
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = ((data_long & (0x80000000 >> offset))<<offset)>>24;
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bftst_32_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AW_8();
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = ((data_long & (0x80000000 >> offset))<<offset)>>24;
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bftst_32_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_AL_8();
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = ((data_long & (0x80000000 >> offset))<<offset)>>24;
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bftst_32_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_PCDI_8();
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = ((data_long & (0x80000000 >> offset))<<offset)>>24;
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bftst_32_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		sint offset = (word2>>6)&31;
-		uint width = word2;
-		uint mask_base;
-		uint data_long;
-		uint mask_long;
-		uint data_byte = 0;
-		uint mask_byte = 0;
-		uint ea = EA_PCIX_8();
-
-		if(BIT_B(word2))
-			offset = MAKE_INT_32(REG_D[offset&7]);
-		if(BIT_5(word2))
-			width = REG_D[width&7];
-
-		/* Offset is signed so we have to use ugly math =( */
-		ea += offset / 8;
-		offset %= 8;
-		if(offset < 0)
-		{
-			offset += 8;
-			ea--;
-		}
-		width = ((width-1) & 31) + 1;
-
-
-		mask_base = MASK_OUT_ABOVE_32(0xffffffff << (32 - width));
-		mask_long = mask_base >> offset;
-
-		data_long = m68ki_read_32(ea);
-		FLAG_N = ((data_long & (0x80000000 >> offset))<<offset)>>24;
-		FLAG_Z = data_long & mask_long;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-
-		if((width + offset) > 32)
-		{
-			mask_byte = MASK_OUT_ABOVE_8(mask_base);
-			data_byte = m68ki_read_8(ea+4);
-			FLAG_Z |= (data_byte & mask_byte);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bkpt(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		m68ki_bkpt_ack(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE) ? REG_IR & 7 : 0);	/* auto-disable (see m68kcpu.h) */
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bra_8(m68ki_cpu_core *cpu)
-{
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-	if(REG_PC == REG_PPC)
-		USE_ALL_CYCLES();
-}
-
-
-void m68k_op_bra_16(m68ki_cpu_core *cpu)
-{
-	uint offset = OPER_I_16();
-	REG_PC -= 2;
-	m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-	m68ki_branch_16(cpu, offset);
-	if(REG_PC == REG_PPC)
-		USE_ALL_CYCLES();
-}
-
-
-void m68k_op_bra_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint offset = OPER_I_32();
-		REG_PC -= 4;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_32(cpu, offset);
-		if(REG_PC == REG_PPC)
-			USE_ALL_CYCLES();
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_bset_32_r_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint mask = 1 << (DX & 0x1f);
-
-	FLAG_Z = *r_dst & mask;
-	*r_dst |= mask;
-}
-
-
-void m68k_op_bset_8_r_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_r_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_r_pi7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PI_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_r_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_r_pd7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PD_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_r_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_r_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_r_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_r_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_8();
-	uint src = m68ki_read_8(ea);
-	uint mask = 1 << (DX & 7);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_32_s_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint mask = 1 << (OPER_I_8() & 0x1f);
-
-	FLAG_Z = *r_dst & mask;
-	*r_dst |= mask;
-}
-
-
-void m68k_op_bset_8_s_ai(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_AI_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_s_pi(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_PI_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_s_pi7(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_A7_PI_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_s_pd(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_PD_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_s_pd7(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_A7_PD_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_s_di(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_DI_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_s_ix(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AY_IX_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_s_aw(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AW_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bset_8_s_al(m68ki_cpu_core *cpu)
-{
-	uint mask = 1 << (OPER_I_8() & 7);
-	uint ea = EA_AL_8();
-	uint src = m68ki_read_8(ea);
-
-	FLAG_Z = src & mask;
-	m68ki_write_8(ea, src | mask);
-}
-
-
-void m68k_op_bsr_8(m68ki_cpu_core *cpu)
-{
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_push_32(cpu, REG_PC);
-	m68ki_branch_8(cpu, MASK_OUT_ABOVE_8(REG_IR));
-}
-
-
-void m68k_op_bsr_16(m68ki_cpu_core *cpu)
-{
-	uint offset = OPER_I_16();
-	m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-	m68ki_push_32(cpu, REG_PC);
-	REG_PC -= 2;
-	m68ki_branch_16(cpu, offset);
-}
-
-
-void m68k_op_bsr_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint offset = OPER_I_32();
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_push_32(cpu, REG_PC);
-		REG_PC -= 4;
-		m68ki_branch_32(cpu, offset);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_btst_32_r_d(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DY & (1 << (DX & 0x1f));
-}
-
-
-void m68k_op_btst_8_r_ai(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = OPER_AY_AI_8(cpu) & (1 << (DX & 7));
-}
-
-
-void m68k_op_btst_8_r_pi(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = OPER_AY_PI_8(cpu) & (1 << (DX & 7));
-}
-
-
-void m68k_op_btst_8_r_pi7(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = OPER_A7_PI_8(cpu) & (1 << (DX & 7));
-}
-
-
-void m68k_op_btst_8_r_pd(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = OPER_AY_PD_8(cpu) & (1 << (DX & 7));
-}
-
-
-void m68k_op_btst_8_r_pd7(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = OPER_A7_PD_8(cpu) & (1 << (DX & 7));
-}
-
-
-void m68k_op_btst_8_r_di(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = OPER_AY_DI_8(cpu) & (1 << (DX & 7));
-}
-
-
-void m68k_op_btst_8_r_ix(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = OPER_AY_IX_8(cpu) & (1 << (DX & 7));
-}
-
-
-void m68k_op_btst_8_r_aw(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = OPER_AW_8(cpu) & (1 << (DX & 7));
-}
-
-
-void m68k_op_btst_8_r_al(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = OPER_AL_8(cpu) & (1 << (DX & 7));
-}
-
-
-void m68k_op_btst_8_r_pcdi(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = OPER_PCDI_8(cpu) & (1 << (DX & 7));
-}
-
-
-void m68k_op_btst_8_r_pcix(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = OPER_PCIX_8(cpu) & (1 << (DX & 7));
-}
-
-
-void m68k_op_btst_8_r_i(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = OPER_I_8() & (1 << (DX & 7));
-}
-
-
-void m68k_op_btst_32_s_d(m68ki_cpu_core *cpu)
-{
-	FLAG_Z = DY & (1 << (OPER_I_8() & 0x1f));
-}
-
-
-void m68k_op_btst_8_s_ai(m68ki_cpu_core *cpu)
-{
-	uint bit = OPER_I_8() & 7;
-
-	FLAG_Z = OPER_AY_AI_8(cpu) & (1 << bit);
-}
-
-
-void m68k_op_btst_8_s_pi(m68ki_cpu_core *cpu)
-{
-	uint bit = OPER_I_8() & 7;
-
-	FLAG_Z = OPER_AY_PI_8(cpu) & (1 << bit);
-}
-
-
-void m68k_op_btst_8_s_pi7(m68ki_cpu_core *cpu)
-{
-	uint bit = OPER_I_8() & 7;
-
-	FLAG_Z = OPER_A7_PI_8(cpu) & (1 << bit);
-}
-
-
-void m68k_op_btst_8_s_pd(m68ki_cpu_core *cpu)
-{
-	uint bit = OPER_I_8() & 7;
-
-	FLAG_Z = OPER_AY_PD_8(cpu) & (1 << bit);
-}
-
-
-void m68k_op_btst_8_s_pd7(m68ki_cpu_core *cpu)
-{
-	uint bit = OPER_I_8() & 7;
-
-	FLAG_Z = OPER_A7_PD_8(cpu) & (1 << bit);
-}
-
-
-void m68k_op_btst_8_s_di(m68ki_cpu_core *cpu)
-{
-	uint bit = OPER_I_8() & 7;
-
-	FLAG_Z = OPER_AY_DI_8(cpu) & (1 << bit);
-}
-
-
-void m68k_op_btst_8_s_ix(m68ki_cpu_core *cpu)
-{
-	uint bit = OPER_I_8() & 7;
-
-	FLAG_Z = OPER_AY_IX_8(cpu) & (1 << bit);
-}
-
-
-void m68k_op_btst_8_s_aw(m68ki_cpu_core *cpu)
-{
-	uint bit = OPER_I_8() & 7;
-
-	FLAG_Z = OPER_AW_8(cpu) & (1 << bit);
-}
-
-
-void m68k_op_btst_8_s_al(m68ki_cpu_core *cpu)
-{
-	uint bit = OPER_I_8() & 7;
-
-	FLAG_Z = OPER_AL_8(cpu) & (1 << bit);
-}
-
-
-void m68k_op_btst_8_s_pcdi(m68ki_cpu_core *cpu)
-{
-	uint bit = OPER_I_8() & 7;
-
-	FLAG_Z = OPER_PCDI_8(cpu) & (1 << bit);
-}
-
-
-void m68k_op_btst_8_s_pcix(m68ki_cpu_core *cpu)
-{
-	uint bit = OPER_I_8() & 7;
-
-	FLAG_Z = OPER_PCIX_8(cpu) & (1 << bit);
-}
-
-
-void m68k_op_callm_32_ai(m68ki_cpu_core *cpu)
-{
-	/* note: watch out for pcrelative modes */
-	if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-	{
-		uint ea = EA_AY_AI_32();
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		REG_PC += 2;
-        (uint)ea;	/* just to avoid an 'unused variable' warning */
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_callm_32_di(m68ki_cpu_core *cpu)
-{
-	/* note: watch out for pcrelative modes */
-	if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-	{
-		uint ea = EA_AY_DI_32();
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		REG_PC += 2;
-        (uint)ea;	/* just to avoid an 'unused variable' warning */
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_callm_32_ix(m68ki_cpu_core *cpu)
-{
-	/* note: watch out for pcrelative modes */
-	if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-	{
-		uint ea = EA_AY_IX_32();
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		REG_PC += 2;
-        (uint)ea;	/* just to avoid an 'unused variable' warning */
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_callm_32_aw(m68ki_cpu_core *cpu)
-{
-	/* note: watch out for pcrelative modes */
-	if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-	{
-		uint ea = EA_AW_32();
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		REG_PC += 2;
-        (uint)ea;	/* just to avoid an 'unused variable' warning */
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_callm_32_al(m68ki_cpu_core *cpu)
-{
-	/* note: watch out for pcrelative modes */
-	if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-	{
-		uint ea = EA_AL_32();
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		REG_PC += 2;
-        (uint)ea;	/* just to avoid an 'unused variable' warning */
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_callm_32_pcdi(m68ki_cpu_core *cpu)
-{
-	/* note: watch out for pcrelative modes */
-	if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-	{
-		uint ea = EA_PCDI_32();
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		REG_PC += 2;
-        (uint)ea;	/* just to avoid an 'unused variable' warning */
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_callm_32_pcix(m68ki_cpu_core *cpu)
-{
-	/* note: watch out for pcrelative modes */
-	if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-	{
-		uint ea = EA_PCIX_32();
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		REG_PC += 2;
-        (uint)ea;	/* just to avoid an 'unused variable' warning */
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_8_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_AI_8();
-		uint dest = m68ki_read_8(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_8(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(*compare, dest, res);
-		FLAG_C = CFLAG_8(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_8(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_8(ea, MASK_OUT_ABOVE_8(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_8_pi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_PI_8();
-		uint dest = m68ki_read_8(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_8(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(*compare, dest, res);
-		FLAG_C = CFLAG_8(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_8(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_8(ea, MASK_OUT_ABOVE_8(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_8_pi7(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_A7_PI_8();
-		uint dest = m68ki_read_8(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_8(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(*compare, dest, res);
-		FLAG_C = CFLAG_8(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_8(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_8(ea, MASK_OUT_ABOVE_8(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_8_pd(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_PD_8();
-		uint dest = m68ki_read_8(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_8(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(*compare, dest, res);
-		FLAG_C = CFLAG_8(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_8(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_8(ea, MASK_OUT_ABOVE_8(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_8_pd7(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_A7_PD_8();
-		uint dest = m68ki_read_8(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_8(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(*compare, dest, res);
-		FLAG_C = CFLAG_8(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_8(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_8(ea, MASK_OUT_ABOVE_8(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_8_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_DI_8();
-		uint dest = m68ki_read_8(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_8(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(*compare, dest, res);
-		FLAG_C = CFLAG_8(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_8(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_8(ea, MASK_OUT_ABOVE_8(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_8_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_IX_8();
-		uint dest = m68ki_read_8(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_8(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(*compare, dest, res);
-		FLAG_C = CFLAG_8(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_8(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_8(ea, MASK_OUT_ABOVE_8(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_8_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AW_8();
-		uint dest = m68ki_read_8(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_8(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(*compare, dest, res);
-		FLAG_C = CFLAG_8(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_8(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_8(ea, MASK_OUT_ABOVE_8(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_8_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AL_8();
-		uint dest = m68ki_read_8(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_8(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(*compare, dest, res);
-		FLAG_C = CFLAG_8(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_8(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_8(ea, MASK_OUT_ABOVE_8(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_16_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_AI_16();
-		uint dest = m68ki_read_16(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_16(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = MASK_OUT_ABOVE_16(res);
-		FLAG_V = VFLAG_SUB_16(*compare, dest, res);
-		FLAG_C = CFLAG_16(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_16(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_16_pi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_PI_16();
-		uint dest = m68ki_read_16(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_16(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = MASK_OUT_ABOVE_16(res);
-		FLAG_V = VFLAG_SUB_16(*compare, dest, res);
-		FLAG_C = CFLAG_16(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_16(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_16_pd(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_PD_16();
-		uint dest = m68ki_read_16(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_16(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = MASK_OUT_ABOVE_16(res);
-		FLAG_V = VFLAG_SUB_16(*compare, dest, res);
-		FLAG_C = CFLAG_16(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_16(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_16_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_DI_16();
-		uint dest = m68ki_read_16(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_16(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = MASK_OUT_ABOVE_16(res);
-		FLAG_V = VFLAG_SUB_16(*compare, dest, res);
-		FLAG_C = CFLAG_16(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_16(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_16_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_IX_16();
-		uint dest = m68ki_read_16(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_16(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = MASK_OUT_ABOVE_16(res);
-		FLAG_V = VFLAG_SUB_16(*compare, dest, res);
-		FLAG_C = CFLAG_16(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_16(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_16_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AW_16();
-		uint dest = m68ki_read_16(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_16(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = MASK_OUT_ABOVE_16(res);
-		FLAG_V = VFLAG_SUB_16(*compare, dest, res);
-		FLAG_C = CFLAG_16(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_16(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_16_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AL_16();
-		uint dest = m68ki_read_16(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - MASK_OUT_ABOVE_16(*compare);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = MASK_OUT_ABOVE_16(res);
-		FLAG_V = VFLAG_SUB_16(*compare, dest, res);
-		FLAG_C = CFLAG_16(res);
-
-		if(COND_NE())
-			*compare = MASK_OUT_BELOW_16(*compare) | dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_D[(word2 >> 6) & 7]));
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_32_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_AI_32();
-		uint dest = m68ki_read_32(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - *compare;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = MASK_OUT_ABOVE_32(res);
-		FLAG_V = VFLAG_SUB_32(*compare, dest, res);
-		FLAG_C = CFLAG_SUB_32(*compare, dest, res);
-
-		if(COND_NE())
-			*compare = dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_32(ea, REG_D[(word2 >> 6) & 7]);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_32_pi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_PI_32();
-		uint dest = m68ki_read_32(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - *compare;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = MASK_OUT_ABOVE_32(res);
-		FLAG_V = VFLAG_SUB_32(*compare, dest, res);
-		FLAG_C = CFLAG_SUB_32(*compare, dest, res);
-
-		if(COND_NE())
-			*compare = dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_32(ea, REG_D[(word2 >> 6) & 7]);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_32_pd(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_PD_32();
-		uint dest = m68ki_read_32(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - *compare;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = MASK_OUT_ABOVE_32(res);
-		FLAG_V = VFLAG_SUB_32(*compare, dest, res);
-		FLAG_C = CFLAG_SUB_32(*compare, dest, res);
-
-		if(COND_NE())
-			*compare = dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_32(ea, REG_D[(word2 >> 6) & 7]);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_32_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_DI_32();
-		uint dest = m68ki_read_32(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - *compare;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = MASK_OUT_ABOVE_32(res);
-		FLAG_V = VFLAG_SUB_32(*compare, dest, res);
-		FLAG_C = CFLAG_SUB_32(*compare, dest, res);
-
-		if(COND_NE())
-			*compare = dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_32(ea, REG_D[(word2 >> 6) & 7]);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_32_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AY_IX_32();
-		uint dest = m68ki_read_32(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - *compare;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = MASK_OUT_ABOVE_32(res);
-		FLAG_V = VFLAG_SUB_32(*compare, dest, res);
-		FLAG_C = CFLAG_SUB_32(*compare, dest, res);
-
-		if(COND_NE())
-			*compare = dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_32(ea, REG_D[(word2 >> 6) & 7]);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_32_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AW_32();
-		uint dest = m68ki_read_32(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - *compare;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = MASK_OUT_ABOVE_32(res);
-		FLAG_V = VFLAG_SUB_32(*compare, dest, res);
-		FLAG_C = CFLAG_SUB_32(*compare, dest, res);
-
-		if(COND_NE())
-			*compare = dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_32(ea, REG_D[(word2 >> 6) & 7]);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas_32_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint ea = EA_AL_32();
-		uint dest = m68ki_read_32(ea);
-		uint* compare = &REG_D[word2 & 7];
-		uint res = dest - *compare;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = MASK_OUT_ABOVE_32(res);
-		FLAG_V = VFLAG_SUB_32(*compare, dest, res);
-		FLAG_C = CFLAG_SUB_32(*compare, dest, res);
-
-		if(COND_NE())
-			*compare = dest;
-		else
-		{
-			USE_CYCLES(3);
-			m68ki_write_32(ea, REG_D[(word2 >> 6) & 7]);
-		}
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas2_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_32();
-		uint* compare1 = &REG_D[(word2 >> 16) & 7];
-		uint ea1 = REG_DA[(word2 >> 28) & 15];
-		uint dest1 = m68ki_read_16(ea1);
-		uint res1 = dest1 - MASK_OUT_ABOVE_16(*compare1);
-		uint* compare2 = &REG_D[word2 & 7];
-		uint ea2 = REG_DA[(word2 >> 12) & 15];
-		uint dest2 = m68ki_read_16(ea2);
-		uint res2;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_16(res1);
-		FLAG_Z = MASK_OUT_ABOVE_16(res1);
-		FLAG_V = VFLAG_SUB_16(*compare1, dest1, res1);
-		FLAG_C = CFLAG_16(res1);
-
-		if(COND_EQ())
-		{
-			res2 = dest2 - MASK_OUT_ABOVE_16(*compare2);
-
-			FLAG_N = NFLAG_16(res2);
-			FLAG_Z = MASK_OUT_ABOVE_16(res2);
-			FLAG_V = VFLAG_SUB_16(*compare2, dest2, res2);
-			FLAG_C = CFLAG_16(res2);
-
-			if(COND_EQ())
-			{
-				USE_CYCLES(3);
-				m68ki_write_16(ea1, REG_D[(word2 >> 22) & 7]);
-				m68ki_write_16(ea2, REG_D[(word2 >> 6) & 7]);
-				return;
-			}
-		}
-		*compare1 = BIT_1F(word2) ? MAKE_INT_16(dest1) : MASK_OUT_BELOW_16(*compare1) | dest1;
-		*compare2 = BIT_F(word2) ? MAKE_INT_16(dest2) : MASK_OUT_BELOW_16(*compare2) | dest2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cas2_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_32();
-		uint* compare1 = &REG_D[(word2 >> 16) & 7];
-		uint ea1 = REG_DA[(word2 >> 28) & 15];
-		uint dest1 = m68ki_read_32(ea1);
-		uint res1 = dest1 - *compare1;
-		uint* compare2 = &REG_D[word2 & 7];
-		uint ea2 = REG_DA[(word2 >> 12) & 15];
-		uint dest2 = m68ki_read_32(ea2);
-		uint res2;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		FLAG_N = NFLAG_32(res1);
-		FLAG_Z = MASK_OUT_ABOVE_32(res1);
-		FLAG_V = VFLAG_SUB_32(*compare1, dest1, res1);
-		FLAG_C = CFLAG_SUB_32(*compare1, dest1, res1);
-
-		if(COND_EQ())
-		{
-			res2 = dest2 - *compare2;
-
-			FLAG_N = NFLAG_32(res2);
-			FLAG_Z = MASK_OUT_ABOVE_32(res2);
-			FLAG_V = VFLAG_SUB_32(*compare2, dest2, res2);
-			FLAG_C = CFLAG_SUB_32(*compare2, dest2, res2);
-
-			if(COND_EQ())
-			{
-				USE_CYCLES(3);
-				m68ki_write_32(ea1, REG_D[(word2 >> 22) & 7]);
-				m68ki_write_32(ea2, REG_D[(word2 >> 6) & 7]);
-				return;
-			}
-		}
-		*compare1 = dest1;
-		*compare2 = dest2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk_16_d(m68ki_cpu_core *cpu)
-{
-	sint src = MAKE_INT_16(DX);
-	sint bound = MAKE_INT_16(DY);
-
-	FLAG_Z = ZFLAG_16(src); /* Undocumented */
-	FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-	FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-	if(src >= 0 && src <= bound)
-	{
-		return;
-	}
-	FLAG_N = (src < 0)<<7;
-	m68ki_exception_trap(cpu, EXCEPTION_CHK);
-}
-
-
-void m68k_op_chk_16_ai(m68ki_cpu_core *cpu)
-{
-	sint src = MAKE_INT_16(DX);
-	sint bound = MAKE_INT_16(OPER_AY_AI_16(cpu));
-
-	FLAG_Z = ZFLAG_16(src); /* Undocumented */
-	FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-	FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-	if(src >= 0 && src <= bound)
-	{
-		return;
-	}
-	FLAG_N = (src < 0)<<7;
-	m68ki_exception_trap(cpu, EXCEPTION_CHK);
-}
-
-
-void m68k_op_chk_16_pi(m68ki_cpu_core *cpu)
-{
-	sint src = MAKE_INT_16(DX);
-	sint bound = MAKE_INT_16(OPER_AY_PI_16(cpu));
-
-	FLAG_Z = ZFLAG_16(src); /* Undocumented */
-	FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-	FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-	if(src >= 0 && src <= bound)
-	{
-		return;
-	}
-	FLAG_N = (src < 0)<<7;
-	m68ki_exception_trap(cpu, EXCEPTION_CHK);
-}
-
-
-void m68k_op_chk_16_pd(m68ki_cpu_core *cpu)
-{
-	sint src = MAKE_INT_16(DX);
-	sint bound = MAKE_INT_16(OPER_AY_PD_16(cpu));
-
-	FLAG_Z = ZFLAG_16(src); /* Undocumented */
-	FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-	FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-	if(src >= 0 && src <= bound)
-	{
-		return;
-	}
-	FLAG_N = (src < 0)<<7;
-	m68ki_exception_trap(cpu, EXCEPTION_CHK);
-}
-
-
-void m68k_op_chk_16_di(m68ki_cpu_core *cpu)
-{
-	sint src = MAKE_INT_16(DX);
-	sint bound = MAKE_INT_16(OPER_AY_DI_16(cpu));
-
-	FLAG_Z = ZFLAG_16(src); /* Undocumented */
-	FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-	FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-	if(src >= 0 && src <= bound)
-	{
-		return;
-	}
-	FLAG_N = (src < 0)<<7;
-	m68ki_exception_trap(cpu, EXCEPTION_CHK);
-}
-
-
-void m68k_op_chk_16_ix(m68ki_cpu_core *cpu)
-{
-	sint src = MAKE_INT_16(DX);
-	sint bound = MAKE_INT_16(OPER_AY_IX_16(cpu));
-
-	FLAG_Z = ZFLAG_16(src); /* Undocumented */
-	FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-	FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-	if(src >= 0 && src <= bound)
-	{
-		return;
-	}
-	FLAG_N = (src < 0)<<7;
-	m68ki_exception_trap(cpu, EXCEPTION_CHK);
-}
-
-
-void m68k_op_chk_16_aw(m68ki_cpu_core *cpu)
-{
-	sint src = MAKE_INT_16(DX);
-	sint bound = MAKE_INT_16(OPER_AW_16(cpu));
-
-	FLAG_Z = ZFLAG_16(src); /* Undocumented */
-	FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-	FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-	if(src >= 0 && src <= bound)
-	{
-		return;
-	}
-	FLAG_N = (src < 0)<<7;
-	m68ki_exception_trap(cpu, EXCEPTION_CHK);
-}
-
-
-void m68k_op_chk_16_al(m68ki_cpu_core *cpu)
-{
-	sint src = MAKE_INT_16(DX);
-	sint bound = MAKE_INT_16(OPER_AL_16(cpu));
-
-	FLAG_Z = ZFLAG_16(src); /* Undocumented */
-	FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-	FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-	if(src >= 0 && src <= bound)
-	{
-		return;
-	}
-	FLAG_N = (src < 0)<<7;
-	m68ki_exception_trap(cpu, EXCEPTION_CHK);
-}
-
-
-void m68k_op_chk_16_pcdi(m68ki_cpu_core *cpu)
-{
-	sint src = MAKE_INT_16(DX);
-	sint bound = MAKE_INT_16(OPER_PCDI_16(cpu));
-
-	FLAG_Z = ZFLAG_16(src); /* Undocumented */
-	FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-	FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-	if(src >= 0 && src <= bound)
-	{
-		return;
-	}
-	FLAG_N = (src < 0)<<7;
-	m68ki_exception_trap(cpu, EXCEPTION_CHK);
-}
-
-
-void m68k_op_chk_16_pcix(m68ki_cpu_core *cpu)
-{
-	sint src = MAKE_INT_16(DX);
-	sint bound = MAKE_INT_16(OPER_PCIX_16(cpu));
-
-	FLAG_Z = ZFLAG_16(src); /* Undocumented */
-	FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-	FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-	if(src >= 0 && src <= bound)
-	{
-		return;
-	}
-	FLAG_N = (src < 0)<<7;
-	m68ki_exception_trap(cpu, EXCEPTION_CHK);
-}
-
-
-void m68k_op_chk_16_i(m68ki_cpu_core *cpu)
-{
-	sint src = MAKE_INT_16(DX);
-	sint bound = MAKE_INT_16(OPER_I_16());
-
-	FLAG_Z = ZFLAG_16(src); /* Undocumented */
-	FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-	FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-	if(src >= 0 && src <= bound)
-	{
-		return;
-	}
-	FLAG_N = (src < 0)<<7;
-	m68ki_exception_trap(cpu, EXCEPTION_CHK);
-}
-
-
-void m68k_op_chk_32_d(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		sint src = MAKE_INT_32(DX);
-		sint bound = MAKE_INT_32(DY);
-
-		FLAG_Z = ZFLAG_32(src); /* Undocumented */
-		FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-		FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-		if(src >= 0 && src <= bound)
-		{
-			return;
-		}
-		FLAG_N = (src < 0)<<7;
-		m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk_32_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		sint src = MAKE_INT_32(DX);
-		sint bound = MAKE_INT_32(OPER_AY_AI_32(cpu));
-
-		FLAG_Z = ZFLAG_32(src); /* Undocumented */
-		FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-		FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-		if(src >= 0 && src <= bound)
-		{
-			return;
-		}
-		FLAG_N = (src < 0)<<7;
-		m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk_32_pi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		sint src = MAKE_INT_32(DX);
-		sint bound = MAKE_INT_32(OPER_AY_PI_32(cpu));
-
-		FLAG_Z = ZFLAG_32(src); /* Undocumented */
-		FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-		FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-		if(src >= 0 && src <= bound)
-		{
-			return;
-		}
-		FLAG_N = (src < 0)<<7;
-		m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk_32_pd(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		sint src = MAKE_INT_32(DX);
-		sint bound = MAKE_INT_32(OPER_AY_PD_32(cpu));
-
-		FLAG_Z = ZFLAG_32(src); /* Undocumented */
-		FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-		FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-		if(src >= 0 && src <= bound)
-		{
-			return;
-		}
-		FLAG_N = (src < 0)<<7;
-		m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk_32_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		sint src = MAKE_INT_32(DX);
-		sint bound = MAKE_INT_32(OPER_AY_DI_32(cpu));
-
-		FLAG_Z = ZFLAG_32(src); /* Undocumented */
-		FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-		FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-		if(src >= 0 && src <= bound)
-		{
-			return;
-		}
-		FLAG_N = (src < 0)<<7;
-		m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk_32_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		sint src = MAKE_INT_32(DX);
-		sint bound = MAKE_INT_32(OPER_AY_IX_32(cpu));
-
-		FLAG_Z = ZFLAG_32(src); /* Undocumented */
-		FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-		FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-		if(src >= 0 && src <= bound)
-		{
-			return;
-		}
-		FLAG_N = (src < 0)<<7;
-		m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk_32_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		sint src = MAKE_INT_32(DX);
-		sint bound = MAKE_INT_32(OPER_AW_32(cpu));
-
-		FLAG_Z = ZFLAG_32(src); /* Undocumented */
-		FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-		FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-		if(src >= 0 && src <= bound)
-		{
-			return;
-		}
-		FLAG_N = (src < 0)<<7;
-		m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk_32_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		sint src = MAKE_INT_32(DX);
-		sint bound = MAKE_INT_32(OPER_AL_32(cpu));
-
-		FLAG_Z = ZFLAG_32(src); /* Undocumented */
-		FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-		FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-		if(src >= 0 && src <= bound)
-		{
-			return;
-		}
-		FLAG_N = (src < 0)<<7;
-		m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk_32_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		sint src = MAKE_INT_32(DX);
-		sint bound = MAKE_INT_32(OPER_PCDI_32(cpu));
-
-		FLAG_Z = ZFLAG_32(src); /* Undocumented */
-		FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-		FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-		if(src >= 0 && src <= bound)
-		{
-			return;
-		}
-		FLAG_N = (src < 0)<<7;
-		m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk_32_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		sint src = MAKE_INT_32(DX);
-		sint bound = MAKE_INT_32(OPER_PCIX_32(cpu));
-
-		FLAG_Z = ZFLAG_32(src); /* Undocumented */
-		FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-		FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-		if(src >= 0 && src <= bound)
-		{
-			return;
-		}
-		FLAG_N = (src < 0)<<7;
-		m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk_32_i(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		sint src = MAKE_INT_32(DX);
-		sint bound = MAKE_INT_32(OPER_I_32());
-
-		FLAG_Z = ZFLAG_32(src); /* Undocumented */
-		FLAG_V = VFLAG_CLEAR;   /* Undocumented */
-		FLAG_C = CFLAG_CLEAR;   /* Undocumented */
-
-		if(src >= 0 && src <= bound)
-		{
-			return;
-		}
-		FLAG_N = (src < 0)<<7;
-		m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_8_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xff;
-		uint ea = EA_PCDI_8();
-		uint lower_bound = m68ki_read_pcrel_8(ea);
-		uint upper_bound = m68ki_read_pcrel_8(ea + 1);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_8(compare) - MAKE_INT_8(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_8_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xff;
-		uint ea = EA_PCIX_8();
-		uint lower_bound = m68ki_read_pcrel_8(ea);
-		uint upper_bound = m68ki_read_pcrel_8(ea + 1);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_8(compare) - MAKE_INT_8(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_8_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xff;
-		uint ea = EA_AY_AI_8();
-		uint lower_bound = m68ki_read_8(ea);
-		uint upper_bound = m68ki_read_8(ea + 1);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_8(compare) - MAKE_INT_8(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_8_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xff;
-		uint ea = EA_AY_DI_8();
-		uint lower_bound = m68ki_read_8(ea);
-		uint upper_bound = m68ki_read_8(ea + 1);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_8(compare) - MAKE_INT_8(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_8_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xff;
-		uint ea = EA_AY_IX_8();
-		uint lower_bound = m68ki_read_8(ea);
-		uint upper_bound = m68ki_read_8(ea + 1);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_8(compare) - MAKE_INT_8(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_8_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xff;
-		uint ea = EA_AW_8();
-		uint lower_bound = m68ki_read_8(ea);
-		uint upper_bound = m68ki_read_8(ea + 1);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_8(compare) - MAKE_INT_8(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_8_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xff;
-		uint ea = EA_AL_8();
-		uint lower_bound = m68ki_read_8(ea);
-		uint upper_bound = m68ki_read_8(ea + 1);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_8(compare) - MAKE_INT_8(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_16_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xffff;
-		uint ea = EA_PCDI_16();
-		uint lower_bound = m68ki_read_pcrel_16(ea);
-		uint upper_bound = m68ki_read_pcrel_16(ea + 2);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(compare) - MAKE_INT_16(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(upper_bound) - MAKE_INT_16(compare);
-		else
-			FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_16_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xffff;
-		uint ea = EA_PCIX_16();
-		uint lower_bound = m68ki_read_pcrel_16(ea);
-		uint upper_bound = m68ki_read_pcrel_16(ea + 2);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(compare) - MAKE_INT_16(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(upper_bound) - MAKE_INT_16(compare);
-		else
-			FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_16_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xffff;
-		uint ea = EA_AY_AI_16();
-		uint lower_bound = m68ki_read_16(ea);
-		uint upper_bound = m68ki_read_16(ea + 2);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(compare) - MAKE_INT_16(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(upper_bound) - MAKE_INT_16(compare);
-		else
-			FLAG_C = upper_bound - compare;
-
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_16_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xffff;
-		uint ea = EA_AY_DI_16();
-		uint lower_bound = m68ki_read_16(ea);
-		uint upper_bound = m68ki_read_16(ea + 2);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(compare) - MAKE_INT_16(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(upper_bound) - MAKE_INT_16(compare);
-		else
-			FLAG_C = upper_bound - compare;
-
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_16_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xffff;
-		uint ea = EA_AY_IX_16();
-		uint lower_bound = m68ki_read_16(ea);
-		uint upper_bound = m68ki_read_16(ea + 2);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(compare) - MAKE_INT_16(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(upper_bound) - MAKE_INT_16(compare);
-		else
-			FLAG_C = upper_bound - compare;
-
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_16_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xffff;
-		uint ea = EA_AW_16();
-		uint lower_bound = m68ki_read_16(ea);
-		uint upper_bound = m68ki_read_16(ea + 2);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(compare) - MAKE_INT_16(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(upper_bound) - MAKE_INT_16(compare);
-		else
-			FLAG_C = upper_bound - compare;
-
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_16_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15]&0xffff;
-		uint ea = EA_AL_16();
-		uint lower_bound = m68ki_read_16(ea);
-		uint upper_bound = m68ki_read_16(ea + 2);
-
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(compare) - MAKE_INT_16(lower_bound);
-		else
-			FLAG_C = compare - lower_bound;
-
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-		if(!BIT_F(word2))
-			FLAG_C = MAKE_INT_16(upper_bound) - MAKE_INT_16(compare);
-		else
-			FLAG_C = upper_bound - compare;
-
-		FLAG_C = CFLAG_16(FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_32_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15];
-		uint ea = EA_PCDI_32();
-		uint lower_bound = m68ki_read_pcrel_32(ea);
-		uint upper_bound = m68ki_read_pcrel_32(ea + 4);
-
-		FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_SUB_32(lower_bound, compare, FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_SUB_32(compare, upper_bound, FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_32_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15];
-		uint ea = EA_PCIX_32();
-		uint lower_bound = m68ki_read_pcrel_32(ea);
-		uint upper_bound = m68ki_read_pcrel_32(ea + 4);
-
-		FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_SUB_32(lower_bound, compare, FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_SUB_32(compare, upper_bound, FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_32_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15];
-		uint ea = EA_AY_AI_32();
-		uint lower_bound = m68ki_read_32(ea);
-		uint upper_bound = m68ki_read_32(ea + 4);
-
-		FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_SUB_32(lower_bound, compare, FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_SUB_32(compare, upper_bound, FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_32_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15];
-		uint ea = EA_AY_DI_32();
-		uint lower_bound = m68ki_read_32(ea);
-		uint upper_bound = m68ki_read_32(ea + 4);
-
-		FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_SUB_32(lower_bound, compare, FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_SUB_32(compare, upper_bound, FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_32_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15];
-		uint ea = EA_AY_IX_32();
-		uint lower_bound = m68ki_read_32(ea);
-		uint upper_bound = m68ki_read_32(ea + 4);
-
-		FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_SUB_32(lower_bound, compare, FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_SUB_32(compare, upper_bound, FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_32_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15];
-		uint ea = EA_AW_32();
-		uint lower_bound = m68ki_read_32(ea);
-		uint upper_bound = m68ki_read_32(ea + 4);
-
-		FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_SUB_32(lower_bound, compare, FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_SUB_32(compare, upper_bound, FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_chk2cmp2_32_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint compare = REG_DA[(word2 >> 12) & 15];
-		uint ea = EA_AL_32();
-		uint lower_bound = m68ki_read_32(ea);
-		uint upper_bound = m68ki_read_32(ea + 4);
-
-		FLAG_C = compare - lower_bound;
-		FLAG_Z = !((upper_bound==compare) | (lower_bound==compare));
-		FLAG_C = CFLAG_SUB_32(lower_bound, compare, FLAG_C);
-		if(COND_CS())
-		{
-			if(BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-			return;
-		}
-
-		FLAG_C = upper_bound - compare;
-		FLAG_C = CFLAG_SUB_32(compare, upper_bound, FLAG_C);
-		if(COND_CS() && BIT_B(word2))
-				m68ki_exception_trap(cpu, EXCEPTION_CHK);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_clr_8_d(m68ki_cpu_core *cpu)
-{
-	DY &= 0xffffff00;
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_16_d(m68ki_cpu_core *cpu)
-{
-	DY &= 0xffff0000;
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_16_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_16(EA_AY_AI_16(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_16_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_16(EA_AY_PI_16(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_16_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_16(EA_AY_PD_16(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_16_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_16(EA_AY_DI_16(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_16_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_16(EA_AY_IX_16(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_16_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_16(EA_AW_16(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_16_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_16(EA_AL_16(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_32_d(m68ki_cpu_core *cpu)
-{
-	DY = 0;
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_32_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_32(EA_AY_AI_32(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_32_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_32(EA_AY_PI_32(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_32_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_32(EA_AY_PD_32(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_32_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_32(EA_AY_DI_32(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_32_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_32(EA_AY_IX_32(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_32_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_32(EA_AW_32(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_clr_32_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_32(EA_AL_32(), 0);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_Z = ZFLAG_SET;
-}
-
-
-void m68k_op_cmp_8_d(m68ki_cpu_core *cpu)
-{
-	uint src = MASK_OUT_ABOVE_8(DY);
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmp_8_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_AI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmp_8_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmp_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_A7_PI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmp_8_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmp_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_A7_PD_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmp_8_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_DI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmp_8_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_IX_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmp_8_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AW_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmp_8_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AL_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmp_8_pcdi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_PCDI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmp_8_pcix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_PCIX_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmp_8_i(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint dst = MASK_OUT_ABOVE_8(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmp_16_d(m68ki_cpu_core *cpu)
-{
-	uint src = MASK_OUT_ABOVE_16(DY);
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmp_16_a(m68ki_cpu_core *cpu)
-{
-	uint src = MASK_OUT_ABOVE_16(AY);
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmp_16_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_AI_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmp_16_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PI_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmp_16_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmp_16_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_DI_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmp_16_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_IX_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmp_16_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AW_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmp_16_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AL_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmp_16_pcdi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_PCDI_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmp_16_pcix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_PCIX_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmp_16_i(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint dst = MASK_OUT_ABOVE_16(DX);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmp_32_d(m68ki_cpu_core *cpu)
-{
-	uint src = DY;
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmp_32_a(m68ki_cpu_core *cpu)
-{
-	uint src = AY;
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmp_32_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_AI_32(cpu);
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmp_32_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PI_32(cpu);
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmp_32_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_32(cpu);
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmp_32_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_DI_32(cpu);
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmp_32_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_IX_32(cpu);
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmp_32_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AW_32(cpu);
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmp_32_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AL_32(cpu);
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmp_32_pcdi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_PCDI_32(cpu);
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmp_32_pcix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_PCIX_32(cpu);
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmp_32_i(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint dst = DX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_16_d(m68ki_cpu_core *cpu)
-{
-	uint src = MAKE_INT_16(DY);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_16_a(m68ki_cpu_core *cpu)
-{
-	uint src = MAKE_INT_16(AY);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_16_ai(m68ki_cpu_core *cpu)
-{
-	uint src = MAKE_INT_16(OPER_AY_AI_16(cpu));
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_16_pi(m68ki_cpu_core *cpu)
-{
-	uint src = MAKE_INT_16(OPER_AY_PI_16(cpu));
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_16_pd(m68ki_cpu_core *cpu)
-{
-	uint src = MAKE_INT_16(OPER_AY_PD_16(cpu));
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_16_di(m68ki_cpu_core *cpu)
-{
-	uint src = MAKE_INT_16(OPER_AY_DI_16(cpu));
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_16_ix(m68ki_cpu_core *cpu)
-{
-	uint src = MAKE_INT_16(OPER_AY_IX_16(cpu));
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_16_aw(m68ki_cpu_core *cpu)
-{
-	uint src = MAKE_INT_16(OPER_AW_16(cpu));
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_16_al(m68ki_cpu_core *cpu)
-{
-	uint src = MAKE_INT_16(OPER_AL_16(cpu));
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_16_pcdi(m68ki_cpu_core *cpu)
-{
-	uint src = MAKE_INT_16(OPER_PCDI_16(cpu));
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_16_pcix(m68ki_cpu_core *cpu)
-{
-	uint src = MAKE_INT_16(OPER_PCIX_16(cpu));
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_16_i(m68ki_cpu_core *cpu)
-{
-	uint src = MAKE_INT_16(OPER_I_16());
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_32_d(m68ki_cpu_core *cpu)
-{
-	uint src = DY;
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_32_a(m68ki_cpu_core *cpu)
-{
-	uint src = AY;
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_32_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_AI_32(cpu);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_32_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PI_32(cpu);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_32_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_32(cpu);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_32_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_DI_32(cpu);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_32_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_IX_32(cpu);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_32_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AW_32(cpu);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_32_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AL_32(cpu);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_32_pcdi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_PCDI_32(cpu);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_32_pcix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_PCIX_32(cpu);
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpa_32_i(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint dst = AX;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpi_8_d(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint dst = MASK_OUT_ABOVE_8(DY);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpi_8_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint dst = OPER_AY_AI_8(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpi_8_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint dst = OPER_AY_PI_8(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpi_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint dst = OPER_A7_PI_8(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpi_8_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint dst = OPER_AY_PD_8(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpi_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint dst = OPER_A7_PD_8(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpi_8_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint dst = OPER_AY_DI_8(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpi_8_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint dst = OPER_AY_IX_8(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpi_8_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint dst = OPER_AW_8(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpi_8_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint dst = OPER_AL_8(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpi_8_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_I_8();
-		uint dst = OPER_PCDI_8(cpu);
-		uint res = dst - src;
-
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(src, dst, res);
-		FLAG_C = CFLAG_8(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cmpi_8_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_I_8();
-		uint dst = OPER_PCIX_8(cpu);
-		uint res = dst - src;
-
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = MASK_OUT_ABOVE_8(res);
-		FLAG_V = VFLAG_SUB_8(src, dst, res);
-		FLAG_C = CFLAG_8(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cmpi_16_d(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint dst = MASK_OUT_ABOVE_16(DY);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmpi_16_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint dst = OPER_AY_AI_16(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmpi_16_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint dst = OPER_AY_PI_16(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmpi_16_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint dst = OPER_AY_PD_16(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmpi_16_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint dst = OPER_AY_DI_16(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmpi_16_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint dst = OPER_AY_IX_16(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmpi_16_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint dst = OPER_AW_16(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmpi_16_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint dst = OPER_AL_16(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmpi_16_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_I_16();
-		uint dst = OPER_PCDI_16(cpu);
-		uint res = dst - src;
-
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = MASK_OUT_ABOVE_16(res);
-		FLAG_V = VFLAG_SUB_16(src, dst, res);
-		FLAG_C = CFLAG_16(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cmpi_16_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_I_16();
-		uint dst = OPER_PCIX_16(cpu);
-		uint res = dst - src;
-
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = MASK_OUT_ABOVE_16(res);
-		FLAG_V = VFLAG_SUB_16(src, dst, res);
-		FLAG_C = CFLAG_16(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cmpi_32_d(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint dst = DY;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpi_32_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint dst = OPER_AY_AI_32(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpi_32_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint dst = OPER_AY_PI_32(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpi_32_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint dst = OPER_AY_PD_32(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpi_32_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint dst = OPER_AY_DI_32(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpi_32_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint dst = OPER_AY_IX_32(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpi_32_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint dst = OPER_AW_32(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpi_32_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint dst = OPER_AL_32(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cmpi_32_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_I_32();
-		uint dst = OPER_PCDI_32(cpu);
-		uint res = dst - src;
-
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = MASK_OUT_ABOVE_32(res);
-		FLAG_V = VFLAG_SUB_32(src, dst, res);
-		FLAG_C = CFLAG_SUB_32(src, dst, res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cmpi_32_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_I_32();
-		uint dst = OPER_PCIX_32(cpu);
-		uint res = dst - src;
-
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = MASK_OUT_ABOVE_32(res);
-		FLAG_V = VFLAG_SUB_32(src, dst, res);
-		FLAG_C = CFLAG_SUB_32(src, dst, res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_cmpm_8_ax7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PI_8(cpu);
-	uint dst = OPER_A7_PI_8(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpm_8_ay7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_A7_PI_8(cpu);
-	uint dst = OPER_AX_PI_8(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpm_8_axy7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_A7_PI_8(cpu);
-	uint dst = OPER_A7_PI_8(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpm_8(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PI_8(cpu);
-	uint dst = OPER_AX_PI_8(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_C = CFLAG_8(res);
-}
-
-
-void m68k_op_cmpm_16(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PI_16(cpu);
-	uint dst = OPER_AX_PI_16(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_C = CFLAG_16(res);
-}
-
-
-void m68k_op_cmpm_32(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PI_32(cpu);
-	uint dst = OPER_AX_PI_32(cpu);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_C = CFLAG_SUB_32(src, dst, res);
-}
-
-
-void m68k_op_cpbcc_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_1111(cpu);
-}
-
-
-void m68k_op_cpdbcc_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_1111(cpu);
-}
-
-
-void m68k_op_cpgen_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_1111(cpu);
-}
-
-
-void m68k_op_cpscc_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_1111(cpu);
-}
-
-
-void m68k_op_cptrapcc_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_1111(cpu);
-}
-
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
-
-
diff --git a/plugins/ao/eng_ssf/m68kopdm.c b/plugins/ao/eng_ssf/m68kopdm.c
deleted file mode 100644
index 509435a1..00000000
--- a/plugins/ao/eng_ssf/m68kopdm.c
+++ /dev/null
@@ -1,13221 +0,0 @@
-#include "m68kcpu.h"
-
-/* ======================================================================== */
-/* ========================= INSTRUCTION HANDLERS ========================= */
-/* ======================================================================== */
-
-
-void m68k_op_dbt_16(m68ki_cpu_core *cpu)
-{
-	REG_PC += 2;
-}
-
-
-void m68k_op_dbf_16(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-	if(res != 0xffff)
-	{
-		uint offset = OPER_I_16();
-		REG_PC -= 2;
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_branch_16(cpu, offset);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dbhi_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_HI())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dbls_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_LS())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dbcc_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_CC())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dbcs_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_CS())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dbne_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_NE())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dbeq_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_EQ())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dbvc_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_VC())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dbvs_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_VS())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dbpl_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_PL())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dbmi_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_MI())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dbge_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_GE())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dblt_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_LT())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dbgt_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_GT())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_dble_16(m68ki_cpu_core *cpu)
-{
-	if(COND_NOT_LE())
-	{
-		uint* r_dst = &DY;
-		uint res = MASK_OUT_ABOVE_16(*r_dst - 1);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		if(res != 0xffff)
-		{
-			uint offset = OPER_I_16();
-			REG_PC -= 2;
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			m68ki_branch_16(cpu, offset);
-			USE_CYCLES(CYC_DBCC_F_NOEXP);
-			return;
-		}
-		REG_PC += 2;
-		USE_CYCLES(CYC_DBCC_F_EXP);
-		return;
-	}
-	REG_PC += 2;
-}
-
-
-void m68k_op_divs_16_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	sint src = MAKE_INT_16(DY);
-	sint quotient;
-	sint remainder;
-
-	if(src != 0)
-	{
-		if((uint32)*r_dst == 0x80000000 && src == -1)
-		{
-			FLAG_Z = 0;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = 0;
-			return;
-		}
-
-		quotient = MAKE_INT_32(*r_dst) / src;
-		remainder = MAKE_INT_32(*r_dst) % src;
-
-		if(quotient == MAKE_INT_16(quotient))
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divs_16_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	sint src = MAKE_INT_16(OPER_AY_AI_16(cpu));
-	sint quotient;
-	sint remainder;
-
-	if(src != 0)
-	{
-		if((uint32)*r_dst == 0x80000000 && src == -1)
-		{
-			FLAG_Z = 0;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = 0;
-			return;
-		}
-
-		quotient = MAKE_INT_32(*r_dst) / src;
-		remainder = MAKE_INT_32(*r_dst) % src;
-
-		if(quotient == MAKE_INT_16(quotient))
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divs_16_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	sint src = MAKE_INT_16(OPER_AY_PI_16(cpu));
-	sint quotient;
-	sint remainder;
-
-	if(src != 0)
-	{
-		if((uint32)*r_dst == 0x80000000 && src == -1)
-		{
-			FLAG_Z = 0;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = 0;
-			return;
-		}
-
-		quotient = MAKE_INT_32(*r_dst) / src;
-		remainder = MAKE_INT_32(*r_dst) % src;
-
-		if(quotient == MAKE_INT_16(quotient))
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divs_16_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	sint src = MAKE_INT_16(OPER_AY_PD_16(cpu));
-	sint quotient;
-	sint remainder;
-
-	if(src != 0)
-	{
-		if((uint32)*r_dst == 0x80000000 && src == -1)
-		{
-			FLAG_Z = 0;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = 0;
-			return;
-		}
-
-		quotient = MAKE_INT_32(*r_dst) / src;
-		remainder = MAKE_INT_32(*r_dst) % src;
-
-		if(quotient == MAKE_INT_16(quotient))
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divs_16_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	sint src = MAKE_INT_16(OPER_AY_DI_16(cpu));
-	sint quotient;
-	sint remainder;
-
-	if(src != 0)
-	{
-		if((uint32)*r_dst == 0x80000000 && src == -1)
-		{
-			FLAG_Z = 0;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = 0;
-			return;
-		}
-
-		quotient = MAKE_INT_32(*r_dst) / src;
-		remainder = MAKE_INT_32(*r_dst) % src;
-
-		if(quotient == MAKE_INT_16(quotient))
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divs_16_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	sint src = MAKE_INT_16(OPER_AY_IX_16(cpu));
-	sint quotient;
-	sint remainder;
-
-	if(src != 0)
-	{
-		if((uint32)*r_dst == 0x80000000 && src == -1)
-		{
-			FLAG_Z = 0;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = 0;
-			return;
-		}
-
-		quotient = MAKE_INT_32(*r_dst) / src;
-		remainder = MAKE_INT_32(*r_dst) % src;
-
-		if(quotient == MAKE_INT_16(quotient))
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divs_16_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	sint src = MAKE_INT_16(OPER_AW_16(cpu));
-	sint quotient;
-	sint remainder;
-
-	if(src != 0)
-	{
-		if((uint32)*r_dst == 0x80000000 && src == -1)
-		{
-			FLAG_Z = 0;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = 0;
-			return;
-		}
-
-		quotient = MAKE_INT_32(*r_dst) / src;
-		remainder = MAKE_INT_32(*r_dst) % src;
-
-		if(quotient == MAKE_INT_16(quotient))
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divs_16_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	sint src = MAKE_INT_16(OPER_AL_16(cpu));
-	sint quotient;
-	sint remainder;
-
-	if(src != 0)
-	{
-		if((uint32)*r_dst == 0x80000000 && src == -1)
-		{
-			FLAG_Z = 0;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = 0;
-			return;
-		}
-
-		quotient = MAKE_INT_32(*r_dst) / src;
-		remainder = MAKE_INT_32(*r_dst) % src;
-
-		if(quotient == MAKE_INT_16(quotient))
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divs_16_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	sint src = MAKE_INT_16(OPER_PCDI_16(cpu));
-	sint quotient;
-	sint remainder;
-
-	if(src != 0)
-	{
-		if((uint32)*r_dst == 0x80000000 && src == -1)
-		{
-			FLAG_Z = 0;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = 0;
-			return;
-		}
-
-		quotient = MAKE_INT_32(*r_dst) / src;
-		remainder = MAKE_INT_32(*r_dst) % src;
-
-		if(quotient == MAKE_INT_16(quotient))
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divs_16_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	sint src = MAKE_INT_16(OPER_PCIX_16(cpu));
-	sint quotient;
-	sint remainder;
-
-	if(src != 0)
-	{
-		if((uint32)*r_dst == 0x80000000 && src == -1)
-		{
-			FLAG_Z = 0;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = 0;
-			return;
-		}
-
-		quotient = MAKE_INT_32(*r_dst) / src;
-		remainder = MAKE_INT_32(*r_dst) % src;
-
-		if(quotient == MAKE_INT_16(quotient))
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divs_16_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	sint src = MAKE_INT_16(OPER_I_16());
-	sint quotient;
-	sint remainder;
-
-	if(src != 0)
-	{
-		if((uint32)*r_dst == 0x80000000 && src == -1)
-		{
-			FLAG_Z = 0;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = 0;
-			return;
-		}
-
-		quotient = MAKE_INT_32(*r_dst) / src;
-		remainder = MAKE_INT_32(*r_dst) % src;
-
-		if(quotient == MAKE_INT_16(quotient))
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divu_16_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(DY);
-
-	if(src != 0)
-	{
-		uint quotient = *r_dst / src;
-		uint remainder = *r_dst % src;
-
-		if(quotient < 0x10000)
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divu_16_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_AI_16(cpu);
-
-	if(src != 0)
-	{
-		uint quotient = *r_dst / src;
-		uint remainder = *r_dst % src;
-
-		if(quotient < 0x10000)
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divu_16_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PI_16(cpu);
-
-	if(src != 0)
-	{
-		uint quotient = *r_dst / src;
-		uint remainder = *r_dst % src;
-
-		if(quotient < 0x10000)
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divu_16_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PD_16(cpu);
-
-	if(src != 0)
-	{
-		uint quotient = *r_dst / src;
-		uint remainder = *r_dst % src;
-
-		if(quotient < 0x10000)
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divu_16_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_DI_16(cpu);
-
-	if(src != 0)
-	{
-		uint quotient = *r_dst / src;
-		uint remainder = *r_dst % src;
-
-		if(quotient < 0x10000)
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divu_16_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_IX_16(cpu);
-
-	if(src != 0)
-	{
-		uint quotient = *r_dst / src;
-		uint remainder = *r_dst % src;
-
-		if(quotient < 0x10000)
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divu_16_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AW_16(cpu);
-
-	if(src != 0)
-	{
-		uint quotient = *r_dst / src;
-		uint remainder = *r_dst % src;
-
-		if(quotient < 0x10000)
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divu_16_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AL_16(cpu);
-
-	if(src != 0)
-	{
-		uint quotient = *r_dst / src;
-		uint remainder = *r_dst % src;
-
-		if(quotient < 0x10000)
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divu_16_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCDI_16(cpu);
-
-	if(src != 0)
-	{
-		uint quotient = *r_dst / src;
-		uint remainder = *r_dst % src;
-
-		if(quotient < 0x10000)
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divu_16_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCIX_16(cpu);
-
-	if(src != 0)
-	{
-		uint quotient = *r_dst / src;
-		uint remainder = *r_dst % src;
-
-		if(quotient < 0x10000)
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divu_16_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_I_16();
-
-	if(src != 0)
-	{
-		uint quotient = *r_dst / src;
-		uint remainder = *r_dst % src;
-
-		if(quotient < 0x10000)
-		{
-			FLAG_Z = quotient;
-			FLAG_N = NFLAG_16(quotient);
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			*r_dst = MASK_OUT_ABOVE_32(MASK_OUT_ABOVE_16(quotient) | (remainder << 16));
-			return;
-		}
-		FLAG_V = VFLAG_SET;
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-}
-
-
-void m68k_op_divl_32_d(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 divisor   = DY;
-		uint64 dividend  = 0;
-		uint64 quotient  = 0;
-		uint64 remainder = 0;
-
-		if(divisor != 0)
-		{
-			if(BIT_A(word2))	/* 64 bit */
-			{
-				dividend = REG_D[word2 & 7];
-				dividend <<= 32;
-				dividend |= REG_D[(word2 >> 12) & 7];
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)dividend / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)dividend % (sint64)((sint32)divisor));
-					if((sint64)quotient != (sint64)((sint32)quotient))
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					if(quotient > 0xffffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					remainder = dividend % divisor;
-				}
-			}
-			else	/* 32 bit */
-			{
-				dividend = REG_D[(word2 >> 12) & 7];
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)((sint32)dividend) / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)((sint32)dividend) % (sint64)((sint32)divisor));
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					remainder = dividend % divisor;
-				}
-			}
-
-			REG_D[word2 & 7] = remainder;
-			REG_D[(word2 >> 12) & 7] = quotient;
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint divisor = DY;
-		uint dividend_hi = REG_D[word2 & 7];
-		uint dividend_lo = REG_D[(word2 >> 12) & 7];
-		uint quotient = 0;
-		uint remainder = 0;
-		uint dividend_neg = 0;
-		uint divisor_neg = 0;
-		sint i;
-		uint overflow;
-
-		if(divisor != 0)
-		{
-			/* quad / long : long quotient, long remainder */
-			if(BIT_A(word2))
-			{
-				if(BIT_B(word2))	   /* signed */
-				{
-					/* special case in signed divide */
-					if(dividend_hi == 0 && dividend_lo == 0x80000000 && divisor == 0xffffffff)
-					{
-						REG_D[word2 & 7] = 0;
-						REG_D[(word2 >> 12) & 7] = 0x80000000;
-
-						FLAG_N = NFLAG_SET;
-						FLAG_Z = ZFLAG_CLEAR;
-						FLAG_V = VFLAG_CLEAR;
-						FLAG_C = CFLAG_CLEAR;
-						return;
-					}
-					if(GET_MSB_32(dividend_hi))
-					{
-						dividend_neg = 1;
-						dividend_hi = (uint)MASK_OUT_ABOVE_32((-(sint)dividend_hi) - (dividend_lo != 0));
-						dividend_lo = (uint)MASK_OUT_ABOVE_32(-(sint)dividend_lo);
-					}
-					if(GET_MSB_32(divisor))
-					{
-						divisor_neg = 1;
-						divisor = (uint)MASK_OUT_ABOVE_32(-(sint)divisor);
-
-					}
-				}
-
-				/* if the upper long is greater than the divisor, we're overflowing. */
-				if(dividend_hi >= divisor)
-				{
-					FLAG_V = VFLAG_SET;
-					return;
-				}
-
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					remainder = (remainder << 1) + ((dividend_hi >> i) & 1);
-					if(remainder >= divisor)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					overflow = GET_MSB_32(remainder);
-					remainder = (remainder << 1) + ((dividend_lo >> i) & 1);
-					if(remainder >= divisor || overflow)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					if(quotient > 0x7fffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					if(dividend_neg)
-					{
-						remainder = (uint)MASK_OUT_ABOVE_32(-(sint)remainder);
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-					}
-					if(divisor_neg)
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-				}
-
-				REG_D[word2 & 7] = remainder;
-				REG_D[(word2 >> 12) & 7] = quotient;
-
-				FLAG_N = NFLAG_32(quotient);
-				FLAG_Z = quotient;
-				FLAG_V = VFLAG_CLEAR;
-				FLAG_C = CFLAG_CLEAR;
-				return;
-			}
-
-			/* long / long: long quotient, maybe long remainder */
-			if(BIT_B(word2))	   /* signed */
-			{
-				/* Special case in divide */
-				if(dividend_lo == 0x80000000 && divisor == 0xffffffff)
-				{
-					FLAG_N = NFLAG_SET;
-					FLAG_Z = ZFLAG_CLEAR;
-					FLAG_V = VFLAG_CLEAR;
-					FLAG_C = CFLAG_CLEAR;
-					REG_D[(word2 >> 12) & 7] = 0x80000000;
-					REG_D[word2 & 7] = 0;
-					return;
-				}
-				REG_D[word2 & 7] = MAKE_INT_32(dividend_lo) % MAKE_INT_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MAKE_INT_32(dividend_lo) / MAKE_INT_32(divisor);
-			}
-			else
-			{
-				REG_D[word2 & 7] = MASK_OUT_ABOVE_32(dividend_lo) % MASK_OUT_ABOVE_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(dividend_lo) / MASK_OUT_ABOVE_32(divisor);
-			}
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_divl_32_ai(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 divisor = OPER_AY_AI_32(cpu);
-		uint64 dividend  = 0;
-		uint64 quotient  = 0;
-		uint64 remainder = 0;
-
-		if(divisor != 0)
-		{
-			if(BIT_A(word2))	/* 64 bit */
-			{
-				dividend = REG_D[word2 & 7];
-				dividend <<= 32;
-				dividend |= REG_D[(word2 >> 12) & 7];
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)dividend / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)dividend % (sint64)((sint32)divisor));
-					if((sint64)quotient != (sint64)((sint32)quotient))
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					if(quotient > 0xffffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					remainder = dividend % divisor;
-				}
-			}
-			else	/* 32 bit */
-			{
-				dividend = REG_D[(word2 >> 12) & 7];
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)((sint32)dividend) / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)((sint32)dividend) % (sint64)((sint32)divisor));
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					remainder = dividend % divisor;
-				}
-			}
-
-			REG_D[word2 & 7] = remainder;
-			REG_D[(word2 >> 12) & 7] = quotient;
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint divisor = OPER_AY_AI_32(cpu);
-		uint dividend_hi = REG_D[word2 & 7];
-		uint dividend_lo = REG_D[(word2 >> 12) & 7];
-		uint quotient = 0;
-		uint remainder = 0;
-		uint dividend_neg = 0;
-		uint divisor_neg = 0;
-		sint i;
-		uint overflow;
-
-		if(divisor != 0)
-		{
-			/* quad / long : long quotient, long remainder */
-			if(BIT_A(word2))
-			{
-				if(BIT_B(word2))	   /* signed */
-				{
-					/* special case in signed divide */
-					if(dividend_hi == 0 && dividend_lo == 0x80000000 && divisor == 0xffffffff)
-					{
-						REG_D[word2 & 7] = 0;
-						REG_D[(word2 >> 12) & 7] = 0x80000000;
-
-						FLAG_N = NFLAG_SET;
-						FLAG_Z = ZFLAG_CLEAR;
-						FLAG_V = VFLAG_CLEAR;
-						FLAG_C = CFLAG_CLEAR;
-						return;
-					}
-					if(GET_MSB_32(dividend_hi))
-					{
-						dividend_neg = 1;
-						dividend_hi = (uint)MASK_OUT_ABOVE_32((-(sint)dividend_hi) - (dividend_lo != 0));
-						dividend_lo = (uint)MASK_OUT_ABOVE_32(-(sint)dividend_lo);
-					}
-					if(GET_MSB_32(divisor))
-					{
-						divisor_neg = 1;
-						divisor = (uint)MASK_OUT_ABOVE_32(-(sint)divisor);
-
-					}
-				}
-
-				/* if the upper long is greater than the divisor, we're overflowing. */
-				if(dividend_hi >= divisor)
-				{
-					FLAG_V = VFLAG_SET;
-					return;
-				}
-
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					remainder = (remainder << 1) + ((dividend_hi >> i) & 1);
-					if(remainder >= divisor)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					overflow = GET_MSB_32(remainder);
-					remainder = (remainder << 1) + ((dividend_lo >> i) & 1);
-					if(remainder >= divisor || overflow)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					if(quotient > 0x7fffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					if(dividend_neg)
-					{
-						remainder = (uint)MASK_OUT_ABOVE_32(-(sint)remainder);
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-					}
-					if(divisor_neg)
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-				}
-
-				REG_D[word2 & 7] = remainder;
-				REG_D[(word2 >> 12) & 7] = quotient;
-
-				FLAG_N = NFLAG_32(quotient);
-				FLAG_Z = quotient;
-				FLAG_V = VFLAG_CLEAR;
-				FLAG_C = CFLAG_CLEAR;
-				return;
-			}
-
-			/* long / long: long quotient, maybe long remainder */
-			if(BIT_B(word2))	   /* signed */
-			{
-				/* Special case in divide */
-				if(dividend_lo == 0x80000000 && divisor == 0xffffffff)
-				{
-					FLAG_N = NFLAG_SET;
-					FLAG_Z = ZFLAG_CLEAR;
-					FLAG_V = VFLAG_CLEAR;
-					FLAG_C = CFLAG_CLEAR;
-					REG_D[(word2 >> 12) & 7] = 0x80000000;
-					REG_D[word2 & 7] = 0;
-					return;
-				}
-				REG_D[word2 & 7] = MAKE_INT_32(dividend_lo) % MAKE_INT_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MAKE_INT_32(dividend_lo) / MAKE_INT_32(divisor);
-			}
-			else
-			{
-				REG_D[word2 & 7] = MASK_OUT_ABOVE_32(dividend_lo) % MASK_OUT_ABOVE_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(dividend_lo) / MASK_OUT_ABOVE_32(divisor);
-			}
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_divl_32_pi(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 divisor = OPER_AY_PI_32(cpu);
-		uint64 dividend  = 0;
-		uint64 quotient  = 0;
-		uint64 remainder = 0;
-
-		if(divisor != 0)
-		{
-			if(BIT_A(word2))	/* 64 bit */
-			{
-				dividend = REG_D[word2 & 7];
-				dividend <<= 32;
-				dividend |= REG_D[(word2 >> 12) & 7];
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)dividend / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)dividend % (sint64)((sint32)divisor));
-					if((sint64)quotient != (sint64)((sint32)quotient))
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					if(quotient > 0xffffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					remainder = dividend % divisor;
-				}
-			}
-			else	/* 32 bit */
-			{
-				dividend = REG_D[(word2 >> 12) & 7];
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)((sint32)dividend) / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)((sint32)dividend) % (sint64)((sint32)divisor));
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					remainder = dividend % divisor;
-				}
-			}
-
-			REG_D[word2 & 7] = remainder;
-			REG_D[(word2 >> 12) & 7] = quotient;
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint divisor = OPER_AY_PI_32(cpu);
-		uint dividend_hi = REG_D[word2 & 7];
-		uint dividend_lo = REG_D[(word2 >> 12) & 7];
-		uint quotient = 0;
-		uint remainder = 0;
-		uint dividend_neg = 0;
-		uint divisor_neg = 0;
-		sint i;
-		uint overflow;
-
-		if(divisor != 0)
-		{
-			/* quad / long : long quotient, long remainder */
-			if(BIT_A(word2))
-			{
-				if(BIT_B(word2))	   /* signed */
-				{
-					/* special case in signed divide */
-					if(dividend_hi == 0 && dividend_lo == 0x80000000 && divisor == 0xffffffff)
-					{
-						REG_D[word2 & 7] = 0;
-						REG_D[(word2 >> 12) & 7] = 0x80000000;
-
-						FLAG_N = NFLAG_SET;
-						FLAG_Z = ZFLAG_CLEAR;
-						FLAG_V = VFLAG_CLEAR;
-						FLAG_C = CFLAG_CLEAR;
-						return;
-					}
-					if(GET_MSB_32(dividend_hi))
-					{
-						dividend_neg = 1;
-						dividend_hi = (uint)MASK_OUT_ABOVE_32((-(sint)dividend_hi) - (dividend_lo != 0));
-						dividend_lo = (uint)MASK_OUT_ABOVE_32(-(sint)dividend_lo);
-					}
-					if(GET_MSB_32(divisor))
-					{
-						divisor_neg = 1;
-						divisor = (uint)MASK_OUT_ABOVE_32(-(sint)divisor);
-
-					}
-				}
-
-				/* if the upper long is greater than the divisor, we're overflowing. */
-				if(dividend_hi >= divisor)
-				{
-					FLAG_V = VFLAG_SET;
-					return;
-				}
-
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					remainder = (remainder << 1) + ((dividend_hi >> i) & 1);
-					if(remainder >= divisor)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					overflow = GET_MSB_32(remainder);
-					remainder = (remainder << 1) + ((dividend_lo >> i) & 1);
-					if(remainder >= divisor || overflow)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					if(quotient > 0x7fffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					if(dividend_neg)
-					{
-						remainder = (uint)MASK_OUT_ABOVE_32(-(sint)remainder);
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-					}
-					if(divisor_neg)
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-				}
-
-				REG_D[word2 & 7] = remainder;
-				REG_D[(word2 >> 12) & 7] = quotient;
-
-				FLAG_N = NFLAG_32(quotient);
-				FLAG_Z = quotient;
-				FLAG_V = VFLAG_CLEAR;
-				FLAG_C = CFLAG_CLEAR;
-				return;
-			}
-
-			/* long / long: long quotient, maybe long remainder */
-			if(BIT_B(word2))	   /* signed */
-			{
-				/* Special case in divide */
-				if(dividend_lo == 0x80000000 && divisor == 0xffffffff)
-				{
-					FLAG_N = NFLAG_SET;
-					FLAG_Z = ZFLAG_CLEAR;
-					FLAG_V = VFLAG_CLEAR;
-					FLAG_C = CFLAG_CLEAR;
-					REG_D[(word2 >> 12) & 7] = 0x80000000;
-					REG_D[word2 & 7] = 0;
-					return;
-				}
-				REG_D[word2 & 7] = MAKE_INT_32(dividend_lo) % MAKE_INT_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MAKE_INT_32(dividend_lo) / MAKE_INT_32(divisor);
-			}
-			else
-			{
-				REG_D[word2 & 7] = MASK_OUT_ABOVE_32(dividend_lo) % MASK_OUT_ABOVE_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(dividend_lo) / MASK_OUT_ABOVE_32(divisor);
-			}
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_divl_32_pd(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 divisor = OPER_AY_PD_32(cpu);
-		uint64 dividend  = 0;
-		uint64 quotient  = 0;
-		uint64 remainder = 0;
-
-		if(divisor != 0)
-		{
-			if(BIT_A(word2))	/* 64 bit */
-			{
-				dividend = REG_D[word2 & 7];
-				dividend <<= 32;
-				dividend |= REG_D[(word2 >> 12) & 7];
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)dividend / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)dividend % (sint64)((sint32)divisor));
-					if((sint64)quotient != (sint64)((sint32)quotient))
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					if(quotient > 0xffffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					remainder = dividend % divisor;
-				}
-			}
-			else	/* 32 bit */
-			{
-				dividend = REG_D[(word2 >> 12) & 7];
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)((sint32)dividend) / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)((sint32)dividend) % (sint64)((sint32)divisor));
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					remainder = dividend % divisor;
-				}
-			}
-
-			REG_D[word2 & 7] = remainder;
-			REG_D[(word2 >> 12) & 7] = quotient;
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint divisor = OPER_AY_PD_32(cpu);
-		uint dividend_hi = REG_D[word2 & 7];
-		uint dividend_lo = REG_D[(word2 >> 12) & 7];
-		uint quotient = 0;
-		uint remainder = 0;
-		uint dividend_neg = 0;
-		uint divisor_neg = 0;
-		sint i;
-		uint overflow;
-
-		if(divisor != 0)
-		{
-			/* quad / long : long quotient, long remainder */
-			if(BIT_A(word2))
-			{
-				if(BIT_B(word2))	   /* signed */
-				{
-					/* special case in signed divide */
-					if(dividend_hi == 0 && dividend_lo == 0x80000000 && divisor == 0xffffffff)
-					{
-						REG_D[word2 & 7] = 0;
-						REG_D[(word2 >> 12) & 7] = 0x80000000;
-
-						FLAG_N = NFLAG_SET;
-						FLAG_Z = ZFLAG_CLEAR;
-						FLAG_V = VFLAG_CLEAR;
-						FLAG_C = CFLAG_CLEAR;
-						return;
-					}
-					if(GET_MSB_32(dividend_hi))
-					{
-						dividend_neg = 1;
-						dividend_hi = (uint)MASK_OUT_ABOVE_32((-(sint)dividend_hi) - (dividend_lo != 0));
-						dividend_lo = (uint)MASK_OUT_ABOVE_32(-(sint)dividend_lo);
-					}
-					if(GET_MSB_32(divisor))
-					{
-						divisor_neg = 1;
-						divisor = (uint)MASK_OUT_ABOVE_32(-(sint)divisor);
-
-					}
-				}
-
-				/* if the upper long is greater than the divisor, we're overflowing. */
-				if(dividend_hi >= divisor)
-				{
-					FLAG_V = VFLAG_SET;
-					return;
-				}
-
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					remainder = (remainder << 1) + ((dividend_hi >> i) & 1);
-					if(remainder >= divisor)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					overflow = GET_MSB_32(remainder);
-					remainder = (remainder << 1) + ((dividend_lo >> i) & 1);
-					if(remainder >= divisor || overflow)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					if(quotient > 0x7fffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					if(dividend_neg)
-					{
-						remainder = (uint)MASK_OUT_ABOVE_32(-(sint)remainder);
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-					}
-					if(divisor_neg)
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-				}
-
-				REG_D[word2 & 7] = remainder;
-				REG_D[(word2 >> 12) & 7] = quotient;
-
-				FLAG_N = NFLAG_32(quotient);
-				FLAG_Z = quotient;
-				FLAG_V = VFLAG_CLEAR;
-				FLAG_C = CFLAG_CLEAR;
-				return;
-			}
-
-			/* long / long: long quotient, maybe long remainder */
-			if(BIT_B(word2))	   /* signed */
-			{
-				/* Special case in divide */
-				if(dividend_lo == 0x80000000 && divisor == 0xffffffff)
-				{
-					FLAG_N = NFLAG_SET;
-					FLAG_Z = ZFLAG_CLEAR;
-					FLAG_V = VFLAG_CLEAR;
-					FLAG_C = CFLAG_CLEAR;
-					REG_D[(word2 >> 12) & 7] = 0x80000000;
-					REG_D[word2 & 7] = 0;
-					return;
-				}
-				REG_D[word2 & 7] = MAKE_INT_32(dividend_lo) % MAKE_INT_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MAKE_INT_32(dividend_lo) / MAKE_INT_32(divisor);
-			}
-			else
-			{
-				REG_D[word2 & 7] = MASK_OUT_ABOVE_32(dividend_lo) % MASK_OUT_ABOVE_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(dividend_lo) / MASK_OUT_ABOVE_32(divisor);
-			}
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_divl_32_di(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 divisor = OPER_AY_DI_32(cpu);
-		uint64 dividend  = 0;
-		uint64 quotient  = 0;
-		uint64 remainder = 0;
-
-		if(divisor != 0)
-		{
-			if(BIT_A(word2))	/* 64 bit */
-			{
-				dividend = REG_D[word2 & 7];
-				dividend <<= 32;
-				dividend |= REG_D[(word2 >> 12) & 7];
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)dividend / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)dividend % (sint64)((sint32)divisor));
-					if((sint64)quotient != (sint64)((sint32)quotient))
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					if(quotient > 0xffffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					remainder = dividend % divisor;
-				}
-			}
-			else	/* 32 bit */
-			{
-				dividend = REG_D[(word2 >> 12) & 7];
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)((sint32)dividend) / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)((sint32)dividend) % (sint64)((sint32)divisor));
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					remainder = dividend % divisor;
-				}
-			}
-
-			REG_D[word2 & 7] = remainder;
-			REG_D[(word2 >> 12) & 7] = quotient;
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint divisor = OPER_AY_DI_32(cpu);
-		uint dividend_hi = REG_D[word2 & 7];
-		uint dividend_lo = REG_D[(word2 >> 12) & 7];
-		uint quotient = 0;
-		uint remainder = 0;
-		uint dividend_neg = 0;
-		uint divisor_neg = 0;
-		sint i;
-		uint overflow;
-
-		if(divisor != 0)
-		{
-			/* quad / long : long quotient, long remainder */
-			if(BIT_A(word2))
-			{
-				if(BIT_B(word2))	   /* signed */
-				{
-					/* special case in signed divide */
-					if(dividend_hi == 0 && dividend_lo == 0x80000000 && divisor == 0xffffffff)
-					{
-						REG_D[word2 & 7] = 0;
-						REG_D[(word2 >> 12) & 7] = 0x80000000;
-
-						FLAG_N = NFLAG_SET;
-						FLAG_Z = ZFLAG_CLEAR;
-						FLAG_V = VFLAG_CLEAR;
-						FLAG_C = CFLAG_CLEAR;
-						return;
-					}
-					if(GET_MSB_32(dividend_hi))
-					{
-						dividend_neg = 1;
-						dividend_hi = (uint)MASK_OUT_ABOVE_32((-(sint)dividend_hi) - (dividend_lo != 0));
-						dividend_lo = (uint)MASK_OUT_ABOVE_32(-(sint)dividend_lo);
-					}
-					if(GET_MSB_32(divisor))
-					{
-						divisor_neg = 1;
-						divisor = (uint)MASK_OUT_ABOVE_32(-(sint)divisor);
-
-					}
-				}
-
-				/* if the upper long is greater than the divisor, we're overflowing. */
-				if(dividend_hi >= divisor)
-				{
-					FLAG_V = VFLAG_SET;
-					return;
-				}
-
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					remainder = (remainder << 1) + ((dividend_hi >> i) & 1);
-					if(remainder >= divisor)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					overflow = GET_MSB_32(remainder);
-					remainder = (remainder << 1) + ((dividend_lo >> i) & 1);
-					if(remainder >= divisor || overflow)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					if(quotient > 0x7fffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					if(dividend_neg)
-					{
-						remainder = (uint)MASK_OUT_ABOVE_32(-(sint)remainder);
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-					}
-					if(divisor_neg)
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-				}
-
-				REG_D[word2 & 7] = remainder;
-				REG_D[(word2 >> 12) & 7] = quotient;
-
-				FLAG_N = NFLAG_32(quotient);
-				FLAG_Z = quotient;
-				FLAG_V = VFLAG_CLEAR;
-				FLAG_C = CFLAG_CLEAR;
-				return;
-			}
-
-			/* long / long: long quotient, maybe long remainder */
-			if(BIT_B(word2))	   /* signed */
-			{
-				/* Special case in divide */
-				if(dividend_lo == 0x80000000 && divisor == 0xffffffff)
-				{
-					FLAG_N = NFLAG_SET;
-					FLAG_Z = ZFLAG_CLEAR;
-					FLAG_V = VFLAG_CLEAR;
-					FLAG_C = CFLAG_CLEAR;
-					REG_D[(word2 >> 12) & 7] = 0x80000000;
-					REG_D[word2 & 7] = 0;
-					return;
-				}
-				REG_D[word2 & 7] = MAKE_INT_32(dividend_lo) % MAKE_INT_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MAKE_INT_32(dividend_lo) / MAKE_INT_32(divisor);
-			}
-			else
-			{
-				REG_D[word2 & 7] = MASK_OUT_ABOVE_32(dividend_lo) % MASK_OUT_ABOVE_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(dividend_lo) / MASK_OUT_ABOVE_32(divisor);
-			}
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_divl_32_ix(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 divisor = OPER_AY_IX_32(cpu);
-		uint64 dividend  = 0;
-		uint64 quotient  = 0;
-		uint64 remainder = 0;
-
-		if(divisor != 0)
-		{
-			if(BIT_A(word2))	/* 64 bit */
-			{
-				dividend = REG_D[word2 & 7];
-				dividend <<= 32;
-				dividend |= REG_D[(word2 >> 12) & 7];
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)dividend / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)dividend % (sint64)((sint32)divisor));
-					if((sint64)quotient != (sint64)((sint32)quotient))
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					if(quotient > 0xffffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					remainder = dividend % divisor;
-				}
-			}
-			else	/* 32 bit */
-			{
-				dividend = REG_D[(word2 >> 12) & 7];
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)((sint32)dividend) / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)((sint32)dividend) % (sint64)((sint32)divisor));
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					remainder = dividend % divisor;
-				}
-			}
-
-			REG_D[word2 & 7] = remainder;
-			REG_D[(word2 >> 12) & 7] = quotient;
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint divisor = OPER_AY_IX_32(cpu);
-		uint dividend_hi = REG_D[word2 & 7];
-		uint dividend_lo = REG_D[(word2 >> 12) & 7];
-		uint quotient = 0;
-		uint remainder = 0;
-		uint dividend_neg = 0;
-		uint divisor_neg = 0;
-		sint i;
-		uint overflow;
-
-		if(divisor != 0)
-		{
-			/* quad / long : long quotient, long remainder */
-			if(BIT_A(word2))
-			{
-				if(BIT_B(word2))	   /* signed */
-				{
-					/* special case in signed divide */
-					if(dividend_hi == 0 && dividend_lo == 0x80000000 && divisor == 0xffffffff)
-					{
-						REG_D[word2 & 7] = 0;
-						REG_D[(word2 >> 12) & 7] = 0x80000000;
-
-						FLAG_N = NFLAG_SET;
-						FLAG_Z = ZFLAG_CLEAR;
-						FLAG_V = VFLAG_CLEAR;
-						FLAG_C = CFLAG_CLEAR;
-						return;
-					}
-					if(GET_MSB_32(dividend_hi))
-					{
-						dividend_neg = 1;
-						dividend_hi = (uint)MASK_OUT_ABOVE_32((-(sint)dividend_hi) - (dividend_lo != 0));
-						dividend_lo = (uint)MASK_OUT_ABOVE_32(-(sint)dividend_lo);
-					}
-					if(GET_MSB_32(divisor))
-					{
-						divisor_neg = 1;
-						divisor = (uint)MASK_OUT_ABOVE_32(-(sint)divisor);
-
-					}
-				}
-
-				/* if the upper long is greater than the divisor, we're overflowing. */
-				if(dividend_hi >= divisor)
-				{
-					FLAG_V = VFLAG_SET;
-					return;
-				}
-
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					remainder = (remainder << 1) + ((dividend_hi >> i) & 1);
-					if(remainder >= divisor)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					overflow = GET_MSB_32(remainder);
-					remainder = (remainder << 1) + ((dividend_lo >> i) & 1);
-					if(remainder >= divisor || overflow)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					if(quotient > 0x7fffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					if(dividend_neg)
-					{
-						remainder = (uint)MASK_OUT_ABOVE_32(-(sint)remainder);
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-					}
-					if(divisor_neg)
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-				}
-
-				REG_D[word2 & 7] = remainder;
-				REG_D[(word2 >> 12) & 7] = quotient;
-
-				FLAG_N = NFLAG_32(quotient);
-				FLAG_Z = quotient;
-				FLAG_V = VFLAG_CLEAR;
-				FLAG_C = CFLAG_CLEAR;
-				return;
-			}
-
-			/* long / long: long quotient, maybe long remainder */
-			if(BIT_B(word2))	   /* signed */
-			{
-				/* Special case in divide */
-				if(dividend_lo == 0x80000000 && divisor == 0xffffffff)
-				{
-					FLAG_N = NFLAG_SET;
-					FLAG_Z = ZFLAG_CLEAR;
-					FLAG_V = VFLAG_CLEAR;
-					FLAG_C = CFLAG_CLEAR;
-					REG_D[(word2 >> 12) & 7] = 0x80000000;
-					REG_D[word2 & 7] = 0;
-					return;
-				}
-				REG_D[word2 & 7] = MAKE_INT_32(dividend_lo) % MAKE_INT_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MAKE_INT_32(dividend_lo) / MAKE_INT_32(divisor);
-			}
-			else
-			{
-				REG_D[word2 & 7] = MASK_OUT_ABOVE_32(dividend_lo) % MASK_OUT_ABOVE_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(dividend_lo) / MASK_OUT_ABOVE_32(divisor);
-			}
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_divl_32_aw(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 divisor = OPER_AW_32(cpu);
-		uint64 dividend  = 0;
-		uint64 quotient  = 0;
-		uint64 remainder = 0;
-
-		if(divisor != 0)
-		{
-			if(BIT_A(word2))	/* 64 bit */
-			{
-				dividend = REG_D[word2 & 7];
-				dividend <<= 32;
-				dividend |= REG_D[(word2 >> 12) & 7];
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)dividend / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)dividend % (sint64)((sint32)divisor));
-					if((sint64)quotient != (sint64)((sint32)quotient))
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					if(quotient > 0xffffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					remainder = dividend % divisor;
-				}
-			}
-			else	/* 32 bit */
-			{
-				dividend = REG_D[(word2 >> 12) & 7];
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)((sint32)dividend) / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)((sint32)dividend) % (sint64)((sint32)divisor));
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					remainder = dividend % divisor;
-				}
-			}
-
-			REG_D[word2 & 7] = remainder;
-			REG_D[(word2 >> 12) & 7] = quotient;
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint divisor = OPER_AW_32(cpu);
-		uint dividend_hi = REG_D[word2 & 7];
-		uint dividend_lo = REG_D[(word2 >> 12) & 7];
-		uint quotient = 0;
-		uint remainder = 0;
-		uint dividend_neg = 0;
-		uint divisor_neg = 0;
-		sint i;
-		uint overflow;
-
-		if(divisor != 0)
-		{
-			/* quad / long : long quotient, long remainder */
-			if(BIT_A(word2))
-			{
-				if(BIT_B(word2))	   /* signed */
-				{
-					/* special case in signed divide */
-					if(dividend_hi == 0 && dividend_lo == 0x80000000 && divisor == 0xffffffff)
-					{
-						REG_D[word2 & 7] = 0;
-						REG_D[(word2 >> 12) & 7] = 0x80000000;
-
-						FLAG_N = NFLAG_SET;
-						FLAG_Z = ZFLAG_CLEAR;
-						FLAG_V = VFLAG_CLEAR;
-						FLAG_C = CFLAG_CLEAR;
-						return;
-					}
-					if(GET_MSB_32(dividend_hi))
-					{
-						dividend_neg = 1;
-						dividend_hi = (uint)MASK_OUT_ABOVE_32((-(sint)dividend_hi) - (dividend_lo != 0));
-						dividend_lo = (uint)MASK_OUT_ABOVE_32(-(sint)dividend_lo);
-					}
-					if(GET_MSB_32(divisor))
-					{
-						divisor_neg = 1;
-						divisor = (uint)MASK_OUT_ABOVE_32(-(sint)divisor);
-
-					}
-				}
-
-				/* if the upper long is greater than the divisor, we're overflowing. */
-				if(dividend_hi >= divisor)
-				{
-					FLAG_V = VFLAG_SET;
-					return;
-				}
-
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					remainder = (remainder << 1) + ((dividend_hi >> i) & 1);
-					if(remainder >= divisor)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					overflow = GET_MSB_32(remainder);
-					remainder = (remainder << 1) + ((dividend_lo >> i) & 1);
-					if(remainder >= divisor || overflow)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					if(quotient > 0x7fffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					if(dividend_neg)
-					{
-						remainder = (uint)MASK_OUT_ABOVE_32(-(sint)remainder);
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-					}
-					if(divisor_neg)
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-				}
-
-				REG_D[word2 & 7] = remainder;
-				REG_D[(word2 >> 12) & 7] = quotient;
-
-				FLAG_N = NFLAG_32(quotient);
-				FLAG_Z = quotient;
-				FLAG_V = VFLAG_CLEAR;
-				FLAG_C = CFLAG_CLEAR;
-				return;
-			}
-
-			/* long / long: long quotient, maybe long remainder */
-			if(BIT_B(word2))	   /* signed */
-			{
-				/* Special case in divide */
-				if(dividend_lo == 0x80000000 && divisor == 0xffffffff)
-				{
-					FLAG_N = NFLAG_SET;
-					FLAG_Z = ZFLAG_CLEAR;
-					FLAG_V = VFLAG_CLEAR;
-					FLAG_C = CFLAG_CLEAR;
-					REG_D[(word2 >> 12) & 7] = 0x80000000;
-					REG_D[word2 & 7] = 0;
-					return;
-				}
-				REG_D[word2 & 7] = MAKE_INT_32(dividend_lo) % MAKE_INT_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MAKE_INT_32(dividend_lo) / MAKE_INT_32(divisor);
-			}
-			else
-			{
-				REG_D[word2 & 7] = MASK_OUT_ABOVE_32(dividend_lo) % MASK_OUT_ABOVE_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(dividend_lo) / MASK_OUT_ABOVE_32(divisor);
-			}
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_divl_32_al(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 divisor = OPER_AL_32(cpu);
-		uint64 dividend  = 0;
-		uint64 quotient  = 0;
-		uint64 remainder = 0;
-
-		if(divisor != 0)
-		{
-			if(BIT_A(word2))	/* 64 bit */
-			{
-				dividend = REG_D[word2 & 7];
-				dividend <<= 32;
-				dividend |= REG_D[(word2 >> 12) & 7];
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)dividend / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)dividend % (sint64)((sint32)divisor));
-					if((sint64)quotient != (sint64)((sint32)quotient))
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					if(quotient > 0xffffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					remainder = dividend % divisor;
-				}
-			}
-			else	/* 32 bit */
-			{
-				dividend = REG_D[(word2 >> 12) & 7];
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)((sint32)dividend) / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)((sint32)dividend) % (sint64)((sint32)divisor));
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					remainder = dividend % divisor;
-				}
-			}
-
-			REG_D[word2 & 7] = remainder;
-			REG_D[(word2 >> 12) & 7] = quotient;
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint divisor = OPER_AL_32(cpu);
-		uint dividend_hi = REG_D[word2 & 7];
-		uint dividend_lo = REG_D[(word2 >> 12) & 7];
-		uint quotient = 0;
-		uint remainder = 0;
-		uint dividend_neg = 0;
-		uint divisor_neg = 0;
-		sint i;
-		uint overflow;
-
-		if(divisor != 0)
-		{
-			/* quad / long : long quotient, long remainder */
-			if(BIT_A(word2))
-			{
-				if(BIT_B(word2))	   /* signed */
-				{
-					/* special case in signed divide */
-					if(dividend_hi == 0 && dividend_lo == 0x80000000 && divisor == 0xffffffff)
-					{
-						REG_D[word2 & 7] = 0;
-						REG_D[(word2 >> 12) & 7] = 0x80000000;
-
-						FLAG_N = NFLAG_SET;
-						FLAG_Z = ZFLAG_CLEAR;
-						FLAG_V = VFLAG_CLEAR;
-						FLAG_C = CFLAG_CLEAR;
-						return;
-					}
-					if(GET_MSB_32(dividend_hi))
-					{
-						dividend_neg = 1;
-						dividend_hi = (uint)MASK_OUT_ABOVE_32((-(sint)dividend_hi) - (dividend_lo != 0));
-						dividend_lo = (uint)MASK_OUT_ABOVE_32(-(sint)dividend_lo);
-					}
-					if(GET_MSB_32(divisor))
-					{
-						divisor_neg = 1;
-						divisor = (uint)MASK_OUT_ABOVE_32(-(sint)divisor);
-
-					}
-				}
-
-				/* if the upper long is greater than the divisor, we're overflowing. */
-				if(dividend_hi >= divisor)
-				{
-					FLAG_V = VFLAG_SET;
-					return;
-				}
-
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					remainder = (remainder << 1) + ((dividend_hi >> i) & 1);
-					if(remainder >= divisor)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					overflow = GET_MSB_32(remainder);
-					remainder = (remainder << 1) + ((dividend_lo >> i) & 1);
-					if(remainder >= divisor || overflow)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					if(quotient > 0x7fffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					if(dividend_neg)
-					{
-						remainder = (uint)MASK_OUT_ABOVE_32(-(sint)remainder);
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-					}
-					if(divisor_neg)
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-				}
-
-				REG_D[word2 & 7] = remainder;
-				REG_D[(word2 >> 12) & 7] = quotient;
-
-				FLAG_N = NFLAG_32(quotient);
-				FLAG_Z = quotient;
-				FLAG_V = VFLAG_CLEAR;
-				FLAG_C = CFLAG_CLEAR;
-				return;
-			}
-
-			/* long / long: long quotient, maybe long remainder */
-			if(BIT_B(word2))	   /* signed */
-			{
-				/* Special case in divide */
-				if(dividend_lo == 0x80000000 && divisor == 0xffffffff)
-				{
-					FLAG_N = NFLAG_SET;
-					FLAG_Z = ZFLAG_CLEAR;
-					FLAG_V = VFLAG_CLEAR;
-					FLAG_C = CFLAG_CLEAR;
-					REG_D[(word2 >> 12) & 7] = 0x80000000;
-					REG_D[word2 & 7] = 0;
-					return;
-				}
-				REG_D[word2 & 7] = MAKE_INT_32(dividend_lo) % MAKE_INT_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MAKE_INT_32(dividend_lo) / MAKE_INT_32(divisor);
-			}
-			else
-			{
-				REG_D[word2 & 7] = MASK_OUT_ABOVE_32(dividend_lo) % MASK_OUT_ABOVE_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(dividend_lo) / MASK_OUT_ABOVE_32(divisor);
-			}
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_divl_32_pcdi(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 divisor = OPER_PCDI_32(cpu);
-		uint64 dividend  = 0;
-		uint64 quotient  = 0;
-		uint64 remainder = 0;
-
-		if(divisor != 0)
-		{
-			if(BIT_A(word2))	/* 64 bit */
-			{
-				dividend = REG_D[word2 & 7];
-				dividend <<= 32;
-				dividend |= REG_D[(word2 >> 12) & 7];
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)dividend / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)dividend % (sint64)((sint32)divisor));
-					if((sint64)quotient != (sint64)((sint32)quotient))
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					if(quotient > 0xffffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					remainder = dividend % divisor;
-				}
-			}
-			else	/* 32 bit */
-			{
-				dividend = REG_D[(word2 >> 12) & 7];
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)((sint32)dividend) / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)((sint32)dividend) % (sint64)((sint32)divisor));
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					remainder = dividend % divisor;
-				}
-			}
-
-			REG_D[word2 & 7] = remainder;
-			REG_D[(word2 >> 12) & 7] = quotient;
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint divisor = OPER_PCDI_32(cpu);
-		uint dividend_hi = REG_D[word2 & 7];
-		uint dividend_lo = REG_D[(word2 >> 12) & 7];
-		uint quotient = 0;
-		uint remainder = 0;
-		uint dividend_neg = 0;
-		uint divisor_neg = 0;
-		sint i;
-		uint overflow;
-
-		if(divisor != 0)
-		{
-			/* quad / long : long quotient, long remainder */
-			if(BIT_A(word2))
-			{
-				if(BIT_B(word2))	   /* signed */
-				{
-					/* special case in signed divide */
-					if(dividend_hi == 0 && dividend_lo == 0x80000000 && divisor == 0xffffffff)
-					{
-						REG_D[word2 & 7] = 0;
-						REG_D[(word2 >> 12) & 7] = 0x80000000;
-
-						FLAG_N = NFLAG_SET;
-						FLAG_Z = ZFLAG_CLEAR;
-						FLAG_V = VFLAG_CLEAR;
-						FLAG_C = CFLAG_CLEAR;
-						return;
-					}
-					if(GET_MSB_32(dividend_hi))
-					{
-						dividend_neg = 1;
-						dividend_hi = (uint)MASK_OUT_ABOVE_32((-(sint)dividend_hi) - (dividend_lo != 0));
-						dividend_lo = (uint)MASK_OUT_ABOVE_32(-(sint)dividend_lo);
-					}
-					if(GET_MSB_32(divisor))
-					{
-						divisor_neg = 1;
-						divisor = (uint)MASK_OUT_ABOVE_32(-(sint)divisor);
-
-					}
-				}
-
-				/* if the upper long is greater than the divisor, we're overflowing. */
-				if(dividend_hi >= divisor)
-				{
-					FLAG_V = VFLAG_SET;
-					return;
-				}
-
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					remainder = (remainder << 1) + ((dividend_hi >> i) & 1);
-					if(remainder >= divisor)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					overflow = GET_MSB_32(remainder);
-					remainder = (remainder << 1) + ((dividend_lo >> i) & 1);
-					if(remainder >= divisor || overflow)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					if(quotient > 0x7fffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					if(dividend_neg)
-					{
-						remainder = (uint)MASK_OUT_ABOVE_32(-(sint)remainder);
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-					}
-					if(divisor_neg)
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-				}
-
-				REG_D[word2 & 7] = remainder;
-				REG_D[(word2 >> 12) & 7] = quotient;
-
-				FLAG_N = NFLAG_32(quotient);
-				FLAG_Z = quotient;
-				FLAG_V = VFLAG_CLEAR;
-				FLAG_C = CFLAG_CLEAR;
-				return;
-			}
-
-			/* long / long: long quotient, maybe long remainder */
-			if(BIT_B(word2))	   /* signed */
-			{
-				/* Special case in divide */
-				if(dividend_lo == 0x80000000 && divisor == 0xffffffff)
-				{
-					FLAG_N = NFLAG_SET;
-					FLAG_Z = ZFLAG_CLEAR;
-					FLAG_V = VFLAG_CLEAR;
-					FLAG_C = CFLAG_CLEAR;
-					REG_D[(word2 >> 12) & 7] = 0x80000000;
-					REG_D[word2 & 7] = 0;
-					return;
-				}
-				REG_D[word2 & 7] = MAKE_INT_32(dividend_lo) % MAKE_INT_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MAKE_INT_32(dividend_lo) / MAKE_INT_32(divisor);
-			}
-			else
-			{
-				REG_D[word2 & 7] = MASK_OUT_ABOVE_32(dividend_lo) % MASK_OUT_ABOVE_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(dividend_lo) / MASK_OUT_ABOVE_32(divisor);
-			}
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_divl_32_pcix(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 divisor = OPER_PCIX_32(cpu);
-		uint64 dividend  = 0;
-		uint64 quotient  = 0;
-		uint64 remainder = 0;
-
-		if(divisor != 0)
-		{
-			if(BIT_A(word2))	/* 64 bit */
-			{
-				dividend = REG_D[word2 & 7];
-				dividend <<= 32;
-				dividend |= REG_D[(word2 >> 12) & 7];
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)dividend / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)dividend % (sint64)((sint32)divisor));
-					if((sint64)quotient != (sint64)((sint32)quotient))
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					if(quotient > 0xffffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					remainder = dividend % divisor;
-				}
-			}
-			else	/* 32 bit */
-			{
-				dividend = REG_D[(word2 >> 12) & 7];
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)((sint32)dividend) / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)((sint32)dividend) % (sint64)((sint32)divisor));
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					remainder = dividend % divisor;
-				}
-			}
-
-			REG_D[word2 & 7] = remainder;
-			REG_D[(word2 >> 12) & 7] = quotient;
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint divisor = OPER_PCIX_32(cpu);
-		uint dividend_hi = REG_D[word2 & 7];
-		uint dividend_lo = REG_D[(word2 >> 12) & 7];
-		uint quotient = 0;
-		uint remainder = 0;
-		uint dividend_neg = 0;
-		uint divisor_neg = 0;
-		sint i;
-		uint overflow;
-
-		if(divisor != 0)
-		{
-			/* quad / long : long quotient, long remainder */
-			if(BIT_A(word2))
-			{
-				if(BIT_B(word2))	   /* signed */
-				{
-					/* special case in signed divide */
-					if(dividend_hi == 0 && dividend_lo == 0x80000000 && divisor == 0xffffffff)
-					{
-						REG_D[word2 & 7] = 0;
-						REG_D[(word2 >> 12) & 7] = 0x80000000;
-
-						FLAG_N = NFLAG_SET;
-						FLAG_Z = ZFLAG_CLEAR;
-						FLAG_V = VFLAG_CLEAR;
-						FLAG_C = CFLAG_CLEAR;
-						return;
-					}
-					if(GET_MSB_32(dividend_hi))
-					{
-						dividend_neg = 1;
-						dividend_hi = (uint)MASK_OUT_ABOVE_32((-(sint)dividend_hi) - (dividend_lo != 0));
-						dividend_lo = (uint)MASK_OUT_ABOVE_32(-(sint)dividend_lo);
-					}
-					if(GET_MSB_32(divisor))
-					{
-						divisor_neg = 1;
-						divisor = (uint)MASK_OUT_ABOVE_32(-(sint)divisor);
-
-					}
-				}
-
-				/* if the upper long is greater than the divisor, we're overflowing. */
-				if(dividend_hi >= divisor)
-				{
-					FLAG_V = VFLAG_SET;
-					return;
-				}
-
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					remainder = (remainder << 1) + ((dividend_hi >> i) & 1);
-					if(remainder >= divisor)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					overflow = GET_MSB_32(remainder);
-					remainder = (remainder << 1) + ((dividend_lo >> i) & 1);
-					if(remainder >= divisor || overflow)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					if(quotient > 0x7fffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					if(dividend_neg)
-					{
-						remainder = (uint)MASK_OUT_ABOVE_32(-(sint)remainder);
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-					}
-					if(divisor_neg)
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-				}
-
-				REG_D[word2 & 7] = remainder;
-				REG_D[(word2 >> 12) & 7] = quotient;
-
-				FLAG_N = NFLAG_32(quotient);
-				FLAG_Z = quotient;
-				FLAG_V = VFLAG_CLEAR;
-				FLAG_C = CFLAG_CLEAR;
-				return;
-			}
-
-			/* long / long: long quotient, maybe long remainder */
-			if(BIT_B(word2))	   /* signed */
-			{
-				/* Special case in divide */
-				if(dividend_lo == 0x80000000 && divisor == 0xffffffff)
-				{
-					FLAG_N = NFLAG_SET;
-					FLAG_Z = ZFLAG_CLEAR;
-					FLAG_V = VFLAG_CLEAR;
-					FLAG_C = CFLAG_CLEAR;
-					REG_D[(word2 >> 12) & 7] = 0x80000000;
-					REG_D[word2 & 7] = 0;
-					return;
-				}
-				REG_D[word2 & 7] = MAKE_INT_32(dividend_lo) % MAKE_INT_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MAKE_INT_32(dividend_lo) / MAKE_INT_32(divisor);
-			}
-			else
-			{
-				REG_D[word2 & 7] = MASK_OUT_ABOVE_32(dividend_lo) % MASK_OUT_ABOVE_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(dividend_lo) / MASK_OUT_ABOVE_32(divisor);
-			}
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_divl_32_i(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 divisor = OPER_I_32();
-		uint64 dividend  = 0;
-		uint64 quotient  = 0;
-		uint64 remainder = 0;
-
-		if(divisor != 0)
-		{
-			if(BIT_A(word2))	/* 64 bit */
-			{
-				dividend = REG_D[word2 & 7];
-				dividend <<= 32;
-				dividend |= REG_D[(word2 >> 12) & 7];
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)dividend / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)dividend % (sint64)((sint32)divisor));
-					if((sint64)quotient != (sint64)((sint32)quotient))
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					if(quotient > 0xffffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					remainder = dividend % divisor;
-				}
-			}
-			else	/* 32 bit */
-			{
-				dividend = REG_D[(word2 >> 12) & 7];
-				if(BIT_B(word2))	   /* signed */
-				{
-					quotient  = (uint64)((sint64)((sint32)dividend) / (sint64)((sint32)divisor));
-					remainder = (uint64)((sint64)((sint32)dividend) % (sint64)((sint32)divisor));
-				}
-				else					/* unsigned */
-				{
-					quotient = dividend / divisor;
-					remainder = dividend % divisor;
-				}
-			}
-
-			REG_D[word2 & 7] = remainder;
-			REG_D[(word2 >> 12) & 7] = quotient;
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint divisor = OPER_I_32();
-		uint dividend_hi = REG_D[word2 & 7];
-		uint dividend_lo = REG_D[(word2 >> 12) & 7];
-		uint quotient = 0;
-		uint remainder = 0;
-		uint dividend_neg = 0;
-		uint divisor_neg = 0;
-		sint i;
-		uint overflow;
-
-		if(divisor != 0)
-		{
-			/* quad / long : long quotient, long remainder */
-			if(BIT_A(word2))
-			{
-				if(BIT_B(word2))	   /* signed */
-				{
-					/* special case in signed divide */
-					if(dividend_hi == 0 && dividend_lo == 0x80000000 && divisor == 0xffffffff)
-					{
-						REG_D[word2 & 7] = 0;
-						REG_D[(word2 >> 12) & 7] = 0x80000000;
-
-						FLAG_N = NFLAG_SET;
-						FLAG_Z = ZFLAG_CLEAR;
-						FLAG_V = VFLAG_CLEAR;
-						FLAG_C = CFLAG_CLEAR;
-						return;
-					}
-					if(GET_MSB_32(dividend_hi))
-					{
-						dividend_neg = 1;
-						dividend_hi = (uint)MASK_OUT_ABOVE_32((-(sint)dividend_hi) - (dividend_lo != 0));
-						dividend_lo = (uint)MASK_OUT_ABOVE_32(-(sint)dividend_lo);
-					}
-					if(GET_MSB_32(divisor))
-					{
-						divisor_neg = 1;
-						divisor = (uint)MASK_OUT_ABOVE_32(-(sint)divisor);
-
-					}
-				}
-
-				/* if the upper long is greater than the divisor, we're overflowing. */
-				if(dividend_hi >= divisor)
-				{
-					FLAG_V = VFLAG_SET;
-					return;
-				}
-
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					remainder = (remainder << 1) + ((dividend_hi >> i) & 1);
-					if(remainder >= divisor)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-				for(i = 31; i >= 0; i--)
-				{
-					quotient <<= 1;
-					overflow = GET_MSB_32(remainder);
-					remainder = (remainder << 1) + ((dividend_lo >> i) & 1);
-					if(remainder >= divisor || overflow)
-					{
-						remainder -= divisor;
-						quotient++;
-					}
-				}
-
-				if(BIT_B(word2))	   /* signed */
-				{
-					if(quotient > 0x7fffffff)
-					{
-						FLAG_V = VFLAG_SET;
-						return;
-					}
-					if(dividend_neg)
-					{
-						remainder = (uint)MASK_OUT_ABOVE_32(-(sint)remainder);
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-					}
-					if(divisor_neg)
-						quotient = (uint)MASK_OUT_ABOVE_32(-(sint)quotient);
-				}
-
-				REG_D[word2 & 7] = remainder;
-				REG_D[(word2 >> 12) & 7] = quotient;
-
-				FLAG_N = NFLAG_32(quotient);
-				FLAG_Z = quotient;
-				FLAG_V = VFLAG_CLEAR;
-				FLAG_C = CFLAG_CLEAR;
-				return;
-			}
-
-			/* long / long: long quotient, maybe long remainder */
-			if(BIT_B(word2))	   /* signed */
-			{
-				/* Special case in divide */
-				if(dividend_lo == 0x80000000 && divisor == 0xffffffff)
-				{
-					FLAG_N = NFLAG_SET;
-					FLAG_Z = ZFLAG_CLEAR;
-					FLAG_V = VFLAG_CLEAR;
-					FLAG_C = CFLAG_CLEAR;
-					REG_D[(word2 >> 12) & 7] = 0x80000000;
-					REG_D[word2 & 7] = 0;
-					return;
-				}
-				REG_D[word2 & 7] = MAKE_INT_32(dividend_lo) % MAKE_INT_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MAKE_INT_32(dividend_lo) / MAKE_INT_32(divisor);
-			}
-			else
-			{
-				REG_D[word2 & 7] = MASK_OUT_ABOVE_32(dividend_lo) % MASK_OUT_ABOVE_32(divisor);
-				quotient = REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(dividend_lo) / MASK_OUT_ABOVE_32(divisor);
-			}
-
-			FLAG_N = NFLAG_32(quotient);
-			FLAG_Z = quotient;
-			FLAG_V = VFLAG_CLEAR;
-			FLAG_C = CFLAG_CLEAR;
-			return;
-		}
-		m68ki_exception_trap(cpu, EXCEPTION_ZERO_DIVIDE);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_eor_8_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8(DY ^= MASK_OUT_ABOVE_8(DX));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_8_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_8();
-	uint res = MASK_OUT_ABOVE_8(DX ^ m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_8_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_8();
-	uint res = MASK_OUT_ABOVE_8(DX ^ m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PI_8();
-	uint res = MASK_OUT_ABOVE_8(DX ^ m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_8_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_8();
-	uint res = MASK_OUT_ABOVE_8(DX ^ m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PD_8();
-	uint res = MASK_OUT_ABOVE_8(DX ^ m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_8_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_8();
-	uint res = MASK_OUT_ABOVE_8(DX ^ m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_8_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_8();
-	uint res = MASK_OUT_ABOVE_8(DX ^ m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_8_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_8();
-	uint res = MASK_OUT_ABOVE_8(DX ^ m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_8_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_8();
-	uint res = MASK_OUT_ABOVE_8(DX ^ m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_16_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(DY ^= MASK_OUT_ABOVE_16(DX));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_16_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint res = MASK_OUT_ABOVE_16(DX ^ m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_16_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint res = MASK_OUT_ABOVE_16(DX ^ m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_16_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint res = MASK_OUT_ABOVE_16(DX ^ m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_16_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint res = MASK_OUT_ABOVE_16(DX ^ m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_16_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint res = MASK_OUT_ABOVE_16(DX ^ m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_16_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint res = MASK_OUT_ABOVE_16(DX ^ m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_16_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint res = MASK_OUT_ABOVE_16(DX ^ m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_32_d(m68ki_cpu_core *cpu)
-{
-	uint res = DY ^= DX;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_32_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_32();
-	uint res = DX ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_32_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_32();
-	uint res = DX ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_32_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_32();
-	uint res = DX ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_32_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_32();
-	uint res = DX ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_32_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_32();
-	uint res = DX ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_32_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_32();
-	uint res = DX ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eor_32_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_32();
-	uint res = DX ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_8_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8(DY ^= OPER_I_8());
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_8_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_AI_8();
-	uint res = src ^ m68ki_read_8(ea);
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_8_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_PI_8();
-	uint res = src ^ m68ki_read_8(ea);
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_A7_PI_8();
-	uint res = src ^ m68ki_read_8(ea);
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_8_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_PD_8();
-	uint res = src ^ m68ki_read_8(ea);
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_A7_PD_8();
-	uint res = src ^ m68ki_read_8(ea);
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_8_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_DI_8();
-	uint res = src ^ m68ki_read_8(ea);
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_8_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_IX_8();
-	uint res = src ^ m68ki_read_8(ea);
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_8_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AW_8();
-	uint res = src ^ m68ki_read_8(ea);
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_8_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AL_8();
-	uint res = src ^ m68ki_read_8(ea);
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_16_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(DY ^= OPER_I_16());
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_16_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_AI_16();
-	uint res = src ^ m68ki_read_16(ea);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_16_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_PI_16();
-	uint res = src ^ m68ki_read_16(ea);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_16_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_PD_16();
-	uint res = src ^ m68ki_read_16(ea);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_16_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_DI_16();
-	uint res = src ^ m68ki_read_16(ea);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_16_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_IX_16();
-	uint res = src ^ m68ki_read_16(ea);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_16_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AW_16();
-	uint res = src ^ m68ki_read_16(ea);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_16_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AL_16();
-	uint res = src ^ m68ki_read_16(ea);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_32_d(m68ki_cpu_core *cpu)
-{
-	uint res = DY ^= OPER_I_32();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_32_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_AI_32();
-	uint res = src ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_32_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_PI_32();
-	uint res = src ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_32_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_PD_32();
-	uint res = src ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_32_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_DI_32();
-	uint res = src ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_32_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_IX_32();
-	uint res = src ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_32_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AW_32();
-	uint res = src ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_32_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AL_32();
-	uint res = src ^ m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_eori_16_toc(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, m68ki_get_ccr() ^ OPER_I_16());
-}
-
-
-void m68k_op_eori_16_tos(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint src = OPER_I_16();
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(cpu, m68ki_get_sr() ^ src);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_exg_32_dd(m68ki_cpu_core *cpu)
-{
-	uint* reg_a = &DX;
-	uint* reg_b = &DY;
-	uint tmp = *reg_a;
-	*reg_a = *reg_b;
-	*reg_b = tmp;
-}
-
-
-void m68k_op_exg_32_aa(m68ki_cpu_core *cpu)
-{
-	uint* reg_a = &AX;
-	uint* reg_b = &AY;
-	uint tmp = *reg_a;
-	*reg_a = *reg_b;
-	*reg_b = tmp;
-}
-
-
-void m68k_op_exg_32_da(m68ki_cpu_core *cpu)
-{
-	uint* reg_a = &DX;
-	uint* reg_b = &AY;
-	uint tmp = *reg_a;
-	*reg_a = *reg_b;
-	*reg_b = tmp;
-}
-
-
-void m68k_op_ext_16(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | MASK_OUT_ABOVE_8(*r_dst) | (GET_MSB_8(*r_dst) ? 0xff00 : 0);
-
-	FLAG_N = NFLAG_16(*r_dst);
-	FLAG_Z = MASK_OUT_ABOVE_16(*r_dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_ext_32(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-
-	*r_dst = MASK_OUT_ABOVE_16(*r_dst) | (GET_MSB_16(*r_dst) ? 0xffff0000 : 0);
-
-	FLAG_N = NFLAG_32(*r_dst);
-	FLAG_Z = *r_dst;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_extb_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint* r_dst = &DY;
-
-		*r_dst = MASK_OUT_ABOVE_8(*r_dst) | (GET_MSB_8(*r_dst) ? 0xffffff00 : 0);
-
-		FLAG_N = NFLAG_32(*r_dst);
-		FLAG_Z = *r_dst;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_illegal(m68ki_cpu_core *cpu)
-{
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_jmp_32_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_jump(cpu, EA_AY_AI_32());
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	if(REG_PC == REG_PPC)
-		USE_ALL_CYCLES();
-}
-
-
-void m68k_op_jmp_32_di(m68ki_cpu_core *cpu)
-{
-	m68ki_jump(cpu, EA_AY_DI_32());
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	if(REG_PC == REG_PPC)
-		USE_ALL_CYCLES();
-}
-
-
-void m68k_op_jmp_32_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_jump(cpu, EA_AY_IX_32());
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	if(REG_PC == REG_PPC)
-		USE_ALL_CYCLES();
-}
-
-
-void m68k_op_jmp_32_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_jump(cpu, EA_AW_32());
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	if(REG_PC == REG_PPC)
-		USE_ALL_CYCLES();
-}
-
-
-void m68k_op_jmp_32_al(m68ki_cpu_core *cpu)
-{
-	m68ki_jump(cpu, EA_AL_32());
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	if(REG_PC == REG_PPC)
-		USE_ALL_CYCLES();
-}
-
-
-void m68k_op_jmp_32_pcdi(m68ki_cpu_core *cpu)
-{
-	m68ki_jump(cpu, EA_PCDI_32());
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	if(REG_PC == REG_PPC)
-		USE_ALL_CYCLES();
-}
-
-
-void m68k_op_jmp_32_pcix(m68ki_cpu_core *cpu)
-{
-	m68ki_jump(cpu, EA_PCIX_32());
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	if(REG_PC == REG_PPC)
-		USE_ALL_CYCLES();
-}
-
-
-void m68k_op_jsr_32_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_32();
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_push_32(cpu, REG_PC);
-	m68ki_jump(cpu, ea);
-}
-
-
-void m68k_op_jsr_32_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_32();
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_push_32(cpu, REG_PC);
-	m68ki_jump(cpu, ea);
-}
-
-
-void m68k_op_jsr_32_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_32();
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_push_32(cpu, REG_PC);
-	m68ki_jump(cpu, ea);
-}
-
-
-void m68k_op_jsr_32_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_32();
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_push_32(cpu, REG_PC);
-	m68ki_jump(cpu, ea);
-}
-
-
-void m68k_op_jsr_32_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_32();
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_push_32(cpu, REG_PC);
-	m68ki_jump(cpu, ea);
-}
-
-
-void m68k_op_jsr_32_pcdi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_PCDI_32();
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_push_32(cpu, REG_PC);
-	m68ki_jump(cpu, ea);
-}
-
-
-void m68k_op_jsr_32_pcix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_PCIX_32();
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_push_32(cpu, REG_PC);
-	m68ki_jump(cpu, ea);
-}
-
-
-void m68k_op_lea_32_ai(m68ki_cpu_core *cpu)
-{
-	AX = EA_AY_AI_32();
-}
-
-
-void m68k_op_lea_32_di(m68ki_cpu_core *cpu)
-{
-	AX = EA_AY_DI_32();
-}
-
-
-void m68k_op_lea_32_ix(m68ki_cpu_core *cpu)
-{
-	AX = EA_AY_IX_32();
-}
-
-
-void m68k_op_lea_32_aw(m68ki_cpu_core *cpu)
-{
-	AX = EA_AW_32();
-}
-
-
-void m68k_op_lea_32_al(m68ki_cpu_core *cpu)
-{
-	AX = EA_AL_32();
-}
-
-
-void m68k_op_lea_32_pcdi(m68ki_cpu_core *cpu)
-{
-	AX = EA_PCDI_32();
-}
-
-
-void m68k_op_lea_32_pcix(m68ki_cpu_core *cpu)
-{
-	AX = EA_PCIX_32();
-}
-
-
-void m68k_op_link_16_a7(m68ki_cpu_core *cpu)
-{
-	REG_A[7] -= 4;
-	m68ki_write_32(REG_A[7], REG_A[7]);
-	REG_A[7] = MASK_OUT_ABOVE_32(REG_A[7] + MAKE_INT_16(OPER_I_16()));
-}
-
-
-void m68k_op_link_16(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AY;
-
-	m68ki_push_32(cpu, *r_dst);
-	*r_dst = REG_A[7];
-	REG_A[7] = MASK_OUT_ABOVE_32(REG_A[7] + MAKE_INT_16(OPER_I_16()));
-}
-
-
-void m68k_op_link_32_a7(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		REG_A[7] -= 4;
-		m68ki_write_32(REG_A[7], REG_A[7]);
-		REG_A[7] = MASK_OUT_ABOVE_32(REG_A[7] + OPER_I_32());
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_link_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint* r_dst = &AY;
-
-		m68ki_push_32(cpu, *r_dst);
-		*r_dst = REG_A[7];
-		REG_A[7] = MASK_OUT_ABOVE_32(REG_A[7] + OPER_I_32());
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_lsr_8_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src >> shift;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src << (9-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsr_16_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src >> shift;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src << (9-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsr_32_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = *r_dst;
-	uint res = src >> shift;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src << (9-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsr_8_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = src >> shift;
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift <= 8)
-		{
-			*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-			FLAG_X = FLAG_C = src << (9-shift);
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst &= 0xffffff00;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_8(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsr_16_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = src >> shift;
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift <= 16)
-		{
-			*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-			FLAG_C = FLAG_X = (src >> (shift - 1))<<8;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst &= 0xffff0000;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_16(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsr_32_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = *r_dst;
-	uint res = src >> shift;
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 32)
-		{
-			*r_dst = res;
-			FLAG_C = FLAG_X = (src >> (shift - 1))<<8;
-			FLAG_N = NFLAG_CLEAR;
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst = 0;
-		FLAG_X = FLAG_C = (shift == 32 ? GET_MSB_32(src)>>23 : 0);
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_32(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsr_16_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_C = FLAG_X = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsr_16_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_C = FLAG_X = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsr_16_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_C = FLAG_X = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsr_16_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_C = FLAG_X = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsr_16_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_C = FLAG_X = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsr_16_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_C = FLAG_X = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsr_16_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint src = m68ki_read_16(ea);
-	uint res = src >> 1;
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_CLEAR;
-	FLAG_Z = res;
-	FLAG_C = FLAG_X = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsl_8_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = MASK_OUT_ABOVE_8(src << shift);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src << shift;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsl_16_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = MASK_OUT_ABOVE_16(src << shift);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> (8-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsl_32_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32(src << shift);
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> (24-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsl_8_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = MASK_OUT_ABOVE_8(src << shift);
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift <= 8)
-		{
-			*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-			FLAG_X = FLAG_C = src << shift;
-			FLAG_N = NFLAG_8(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst &= 0xffffff00;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_8(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsl_16_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = MASK_OUT_ABOVE_16(src << shift);
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift <= 16)
-		{
-			*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-			FLAG_X = FLAG_C = (src << shift) >> 8;
-			FLAG_N = NFLAG_16(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst &= 0xffff0000;
-		FLAG_X = XFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_16(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsl_32_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = DX & 0x3f;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32(src << shift);
-
-	if(shift != 0)
-	{
-		USE_CYCLES(shift<<CYC_SHIFT);
-
-		if(shift < 32)
-		{
-			*r_dst = res;
-			FLAG_X = FLAG_C = (src >> (32 - shift)) << 8;
-			FLAG_N = NFLAG_32(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		*r_dst = 0;
-		FLAG_X = FLAG_C = ((shift == 32 ? src & 1 : 0))<<8;
-		FLAG_N = NFLAG_CLEAR;
-		FLAG_Z = ZFLAG_SET;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_32(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsl_16_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsl_16_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsl_16_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsl_16_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsl_16_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsl_16_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_lsl_16_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(src << 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_X = FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_d_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_d_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_8(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_d_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_8(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_d_pi7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PI_8(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_d_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_8(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_d_pd7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PD_8(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_d_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_8(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_d_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_8(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_d_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_8(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_d_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_8(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_d_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_8(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_d_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_8(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_d_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_8();
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ai_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ai_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_8(cpu);
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ai_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_8(cpu);
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ai_pi7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PI_8(cpu);
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ai_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_8(cpu);
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ai_pd7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PD_8(cpu);
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ai_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_8(cpu);
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ai_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_8(cpu);
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ai_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_8(cpu);
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ai_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_8(cpu);
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ai_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_8(cpu);
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ai_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_8(cpu);
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ai_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_8();
-	uint ea = EA_AX_AI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi7_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi7_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_8(cpu);
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi7_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_8(cpu);
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi7_pi7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PI_8(cpu);
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi7_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_8(cpu);
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi7_pd7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PD_8(cpu);
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi7_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_8(cpu);
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi7_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_8(cpu);
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi7_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_8(cpu);
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi7_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_8(cpu);
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi7_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_8(cpu);
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi7_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_8(cpu);
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi7_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_8();
-	uint ea = EA_A7_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_8(cpu);
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_8(cpu);
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi_pi7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PI_8(cpu);
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_8(cpu);
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi_pd7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PD_8(cpu);
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_8(cpu);
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_8(cpu);
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_8(cpu);
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_8(cpu);
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_8(cpu);
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_8(cpu);
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pi_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_8();
-	uint ea = EA_AX_PI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd7_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd7_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_8(cpu);
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd7_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_8(cpu);
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd7_pi7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PI_8(cpu);
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd7_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_8(cpu);
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd7_pd7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PD_8(cpu);
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd7_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_8(cpu);
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd7_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_8(cpu);
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd7_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_8(cpu);
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd7_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_8(cpu);
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd7_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_8(cpu);
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd7_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_8(cpu);
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd7_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_8();
-	uint ea = EA_A7_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_8(cpu);
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_8(cpu);
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd_pi7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PI_8(cpu);
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_8(cpu);
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd_pd7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PD_8(cpu);
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_8(cpu);
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_8(cpu);
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_8(cpu);
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_8(cpu);
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_8(cpu);
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_8(cpu);
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_pd_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_8();
-	uint ea = EA_AX_PD_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_di_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_di_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_8(cpu);
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_di_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_8(cpu);
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_di_pi7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PI_8(cpu);
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_di_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_8(cpu);
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_di_pd7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PD_8(cpu);
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_di_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_8(cpu);
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_di_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_8(cpu);
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_di_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_8(cpu);
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_di_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_8(cpu);
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_di_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_8(cpu);
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_di_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_8(cpu);
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_di_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_8();
-	uint ea = EA_AX_DI_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ix_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ix_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_8(cpu);
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ix_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_8(cpu);
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ix_pi7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PI_8(cpu);
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ix_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_8(cpu);
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ix_pd7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PD_8(cpu);
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ix_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_8(cpu);
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ix_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_8(cpu);
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ix_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_8(cpu);
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ix_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_8(cpu);
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ix_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_8(cpu);
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ix_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_8(cpu);
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_ix_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_8();
-	uint ea = EA_AX_IX_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_aw_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_aw_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_8(cpu);
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_aw_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_8(cpu);
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_aw_pi7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PI_8(cpu);
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_aw_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_8(cpu);
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_aw_pd7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PD_8(cpu);
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_aw_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_8(cpu);
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_aw_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_8(cpu);
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_aw_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_8(cpu);
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_aw_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_8(cpu);
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_aw_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_8(cpu);
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_aw_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_8(cpu);
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_aw_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_8();
-	uint ea = EA_AW_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_al_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_al_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_8(cpu);
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_al_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_8(cpu);
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_al_pi7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PI_8(cpu);
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_al_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_8(cpu);
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_al_pd7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PD_8(cpu);
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_al_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_8(cpu);
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_al_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_8(cpu);
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_al_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_8(cpu);
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_al_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_8(cpu);
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_al_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_8(cpu);
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_al_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_8(cpu);
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_8_al_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_8();
-	uint ea = EA_AL_8();
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_d_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_d_a(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_d_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_16(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_d_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_16(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_d_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_16(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_d_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_16(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_d_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_16(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_d_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_16(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_d_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_16(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_d_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_16(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_d_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_16(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_d_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_16();
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ai_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ai_a(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ai_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_16(cpu);
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ai_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_16(cpu);
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ai_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_16(cpu);
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ai_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_16(cpu);
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ai_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_16(cpu);
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ai_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_16(cpu);
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ai_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_16(cpu);
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ai_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_16(cpu);
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ai_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_16(cpu);
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ai_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_16();
-	uint ea = EA_AX_AI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pi_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pi_a(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pi_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_16(cpu);
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pi_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_16(cpu);
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pi_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_16(cpu);
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pi_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_16(cpu);
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pi_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_16(cpu);
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pi_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_16(cpu);
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pi_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_16(cpu);
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pi_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_16(cpu);
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pi_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_16(cpu);
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pi_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_16();
-	uint ea = EA_AX_PI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pd_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pd_a(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pd_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_16(cpu);
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pd_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_16(cpu);
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pd_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_16(cpu);
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pd_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_16(cpu);
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pd_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_16(cpu);
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pd_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_16(cpu);
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pd_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_16(cpu);
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pd_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_16(cpu);
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pd_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_16(cpu);
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_pd_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_16();
-	uint ea = EA_AX_PD_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_di_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_di_a(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_di_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_16(cpu);
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_di_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_16(cpu);
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_di_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_16(cpu);
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_di_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_16(cpu);
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_di_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_16(cpu);
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_di_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_16(cpu);
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_di_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_16(cpu);
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_di_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_16(cpu);
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_di_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_16(cpu);
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_di_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_16();
-	uint ea = EA_AX_DI_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ix_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ix_a(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ix_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_16(cpu);
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ix_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_16(cpu);
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ix_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_16(cpu);
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ix_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_16(cpu);
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ix_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_16(cpu);
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ix_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_16(cpu);
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ix_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_16(cpu);
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ix_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_16(cpu);
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ix_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_16(cpu);
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_ix_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_16();
-	uint ea = EA_AX_IX_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_aw_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_aw_a(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_aw_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_16(cpu);
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_aw_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_16(cpu);
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_aw_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_16(cpu);
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_aw_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_16(cpu);
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_aw_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_16(cpu);
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_aw_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_16(cpu);
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_aw_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_16(cpu);
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_aw_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_16(cpu);
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_aw_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_16(cpu);
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_aw_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_16();
-	uint ea = EA_AW_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_al_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_al_a(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(AY);
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_al_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_16(cpu);
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_al_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_16(cpu);
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_al_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_16(cpu);
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_al_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_16(cpu);
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_al_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_16(cpu);
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_al_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_16(cpu);
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_al_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_16(cpu);
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_al_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_16(cpu);
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_al_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_16(cpu);
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_16_al_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_16();
-	uint ea = EA_AL_16();
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_d_d(m68ki_cpu_core *cpu)
-{
-	uint res = DY;
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_d_a(m68ki_cpu_core *cpu)
-{
-	uint res = AY;
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_d_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_32(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_d_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_32(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_d_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_32(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_d_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_32(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_d_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_32(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_d_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_32(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_d_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_32(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_d_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_32(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_d_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_32(cpu);
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_d_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_32();
-	uint* r_dst = &DX;
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ai_d(m68ki_cpu_core *cpu)
-{
-	uint res = DY;
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ai_a(m68ki_cpu_core *cpu)
-{
-	uint res = AY;
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ai_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_32(cpu);
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ai_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_32(cpu);
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ai_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_32(cpu);
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ai_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_32(cpu);
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ai_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_32(cpu);
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ai_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_32(cpu);
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ai_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_32(cpu);
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ai_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_32(cpu);
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ai_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_32(cpu);
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ai_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_32();
-	uint ea = EA_AX_AI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pi_d(m68ki_cpu_core *cpu)
-{
-	uint res = DY;
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pi_a(m68ki_cpu_core *cpu)
-{
-	uint res = AY;
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pi_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_32(cpu);
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pi_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_32(cpu);
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pi_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_32(cpu);
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pi_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_32(cpu);
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pi_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_32(cpu);
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pi_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_32(cpu);
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pi_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_32(cpu);
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pi_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_32(cpu);
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pi_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_32(cpu);
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pi_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_32();
-	uint ea = EA_AX_PI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pd_d(m68ki_cpu_core *cpu)
-{
-	uint res = DY;
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pd_a(m68ki_cpu_core *cpu)
-{
-	uint res = AY;
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pd_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_32(cpu);
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pd_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_32(cpu);
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pd_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_32(cpu);
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pd_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_32(cpu);
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pd_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_32(cpu);
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pd_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_32(cpu);
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pd_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_32(cpu);
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pd_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_32(cpu);
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pd_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_32(cpu);
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_pd_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_32();
-	uint ea = EA_AX_PD_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_di_d(m68ki_cpu_core *cpu)
-{
-	uint res = DY;
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_di_a(m68ki_cpu_core *cpu)
-{
-	uint res = AY;
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_di_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_32(cpu);
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_di_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_32(cpu);
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_di_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_32(cpu);
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_di_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_32(cpu);
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_di_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_32(cpu);
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_di_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_32(cpu);
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_di_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_32(cpu);
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_di_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_32(cpu);
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_di_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_32(cpu);
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_di_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_32();
-	uint ea = EA_AX_DI_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ix_d(m68ki_cpu_core *cpu)
-{
-	uint res = DY;
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ix_a(m68ki_cpu_core *cpu)
-{
-	uint res = AY;
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ix_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_32(cpu);
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ix_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_32(cpu);
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ix_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_32(cpu);
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ix_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_32(cpu);
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ix_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_32(cpu);
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ix_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_32(cpu);
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ix_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_32(cpu);
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ix_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_32(cpu);
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ix_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_32(cpu);
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_ix_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_32();
-	uint ea = EA_AX_IX_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_aw_d(m68ki_cpu_core *cpu)
-{
-	uint res = DY;
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_aw_a(m68ki_cpu_core *cpu)
-{
-	uint res = AY;
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_aw_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_32(cpu);
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_aw_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_32(cpu);
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_aw_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_32(cpu);
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_aw_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_32(cpu);
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_aw_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_32(cpu);
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_aw_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_32(cpu);
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_aw_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_32(cpu);
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_aw_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_32(cpu);
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_aw_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_32(cpu);
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_aw_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_32();
-	uint ea = EA_AW_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_al_d(m68ki_cpu_core *cpu)
-{
-	uint res = DY;
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_al_a(m68ki_cpu_core *cpu)
-{
-	uint res = AY;
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_al_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_32(cpu);
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_al_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_32(cpu);
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_al_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_32(cpu);
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_al_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_32(cpu);
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_al_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_32(cpu);
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_al_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_32(cpu);
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_al_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_32(cpu);
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_al_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCDI_32(cpu);
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_al_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_PCIX_32(cpu);
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_move_32_al_i(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_I_32();
-	uint ea = EA_AL_32();
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_movea_16_d(m68ki_cpu_core *cpu)
-{
-	AX = MAKE_INT_16(DY);
-}
-
-
-void m68k_op_movea_16_a(m68ki_cpu_core *cpu)
-{
-	AX = MAKE_INT_16(AY);
-}
-
-
-void m68k_op_movea_16_ai(m68ki_cpu_core *cpu)
-{
-	AX = MAKE_INT_16(OPER_AY_AI_16(cpu));
-}
-
-
-void m68k_op_movea_16_pi(m68ki_cpu_core *cpu)
-{
-	AX = MAKE_INT_16(OPER_AY_PI_16(cpu));
-}
-
-
-void m68k_op_movea_16_pd(m68ki_cpu_core *cpu)
-{
-	AX = MAKE_INT_16(OPER_AY_PD_16(cpu));
-}
-
-
-void m68k_op_movea_16_di(m68ki_cpu_core *cpu)
-{
-	AX = MAKE_INT_16(OPER_AY_DI_16(cpu));
-}
-
-
-void m68k_op_movea_16_ix(m68ki_cpu_core *cpu)
-{
-	AX = MAKE_INT_16(OPER_AY_IX_16(cpu));
-}
-
-
-void m68k_op_movea_16_aw(m68ki_cpu_core *cpu)
-{
-	AX = MAKE_INT_16(OPER_AW_16(cpu));
-}
-
-
-void m68k_op_movea_16_al(m68ki_cpu_core *cpu)
-{
-	AX = MAKE_INT_16(OPER_AL_16(cpu));
-}
-
-
-void m68k_op_movea_16_pcdi(m68ki_cpu_core *cpu)
-{
-	AX = MAKE_INT_16(OPER_PCDI_16(cpu));
-}
-
-
-void m68k_op_movea_16_pcix(m68ki_cpu_core *cpu)
-{
-	AX = MAKE_INT_16(OPER_PCIX_16(cpu));
-}
-
-
-void m68k_op_movea_16_i(m68ki_cpu_core *cpu)
-{
-	AX = MAKE_INT_16(OPER_I_16());
-}
-
-
-void m68k_op_movea_32_d(m68ki_cpu_core *cpu)
-{
-	AX = DY;
-}
-
-
-void m68k_op_movea_32_a(m68ki_cpu_core *cpu)
-{
-	AX = AY;
-}
-
-
-void m68k_op_movea_32_ai(m68ki_cpu_core *cpu)
-{
-	AX = OPER_AY_AI_32(cpu);
-}
-
-
-void m68k_op_movea_32_pi(m68ki_cpu_core *cpu)
-{
-	AX = OPER_AY_PI_32(cpu);
-}
-
-
-void m68k_op_movea_32_pd(m68ki_cpu_core *cpu)
-{
-	AX = OPER_AY_PD_32(cpu);
-}
-
-
-void m68k_op_movea_32_di(m68ki_cpu_core *cpu)
-{
-	AX = OPER_AY_DI_32(cpu);
-}
-
-
-void m68k_op_movea_32_ix(m68ki_cpu_core *cpu)
-{
-	AX = OPER_AY_IX_32(cpu);
-}
-
-
-void m68k_op_movea_32_aw(m68ki_cpu_core *cpu)
-{
-	AX = OPER_AW_32(cpu);
-}
-
-
-void m68k_op_movea_32_al(m68ki_cpu_core *cpu)
-{
-	AX = OPER_AL_32(cpu);
-}
-
-
-void m68k_op_movea_32_pcdi(m68ki_cpu_core *cpu)
-{
-	AX = OPER_PCDI_32(cpu);
-}
-
-
-void m68k_op_movea_32_pcix(m68ki_cpu_core *cpu)
-{
-	AX = OPER_PCIX_32(cpu);
-}
-
-
-void m68k_op_movea_32_i(m68ki_cpu_core *cpu)
-{
-	AX = OPER_I_32();
-}
-
-
-void m68k_op_move_16_frc_d(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		DY = MASK_OUT_BELOW_16(DY) | m68ki_get_ccr();
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_move_16_frc_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		m68ki_write_16(EA_AY_AI_16(), m68ki_get_ccr());
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_move_16_frc_pi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		m68ki_write_16(EA_AY_PI_16(), m68ki_get_ccr());
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_move_16_frc_pd(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		m68ki_write_16(EA_AY_PD_16(), m68ki_get_ccr());
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_move_16_frc_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		m68ki_write_16(EA_AY_DI_16(), m68ki_get_ccr());
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_move_16_frc_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		m68ki_write_16(EA_AY_IX_16(), m68ki_get_ccr());
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_move_16_frc_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		m68ki_write_16(EA_AW_16(), m68ki_get_ccr());
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_move_16_frc_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		m68ki_write_16(EA_AL_16(), m68ki_get_ccr());
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_move_16_toc_d(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, DY);
-}
-
-
-void m68k_op_move_16_toc_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, OPER_AY_AI_16(cpu));
-}
-
-
-void m68k_op_move_16_toc_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, OPER_AY_PI_16(cpu));
-}
-
-
-void m68k_op_move_16_toc_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, OPER_AY_PD_16(cpu));
-}
-
-
-void m68k_op_move_16_toc_di(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, OPER_AY_DI_16(cpu));
-}
-
-
-void m68k_op_move_16_toc_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, OPER_AY_IX_16(cpu));
-}
-
-
-void m68k_op_move_16_toc_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, OPER_AW_16(cpu));
-}
-
-
-void m68k_op_move_16_toc_al(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, OPER_AL_16(cpu));
-}
-
-
-void m68k_op_move_16_toc_pcdi(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, OPER_PCDI_16(cpu));
-}
-
-
-void m68k_op_move_16_toc_pcix(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, OPER_PCIX_16(cpu));
-}
-
-
-void m68k_op_move_16_toc_i(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, OPER_I_16());
-}
-
-
-void m68k_op_move_16_frs_d(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_000(CPU_TYPE) || FLAG_S)	/* NS990408 */
-	{
-		DY = MASK_OUT_BELOW_16(DY) | m68ki_get_sr();
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_frs_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_000(CPU_TYPE) || FLAG_S)	/* NS990408 */
-	{
-		uint ea = EA_AY_AI_16();
-		m68ki_write_16(ea, m68ki_get_sr());
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_frs_pi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_000(CPU_TYPE) || FLAG_S)	/* NS990408 */
-	{
-		uint ea = EA_AY_PI_16();
-		m68ki_write_16(ea, m68ki_get_sr());
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_frs_pd(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_000(CPU_TYPE) || FLAG_S)	/* NS990408 */
-	{
-		uint ea = EA_AY_PD_16();
-		m68ki_write_16(ea, m68ki_get_sr());
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_frs_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_000(CPU_TYPE) || FLAG_S)	/* NS990408 */
-	{
-		uint ea = EA_AY_DI_16();
-		m68ki_write_16(ea, m68ki_get_sr());
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_frs_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_000(CPU_TYPE) || FLAG_S)	/* NS990408 */
-	{
-		uint ea = EA_AY_IX_16();
-		m68ki_write_16(ea, m68ki_get_sr());
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_frs_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_000(CPU_TYPE) || FLAG_S)	/* NS990408 */
-	{
-		uint ea = EA_AW_16();
-		m68ki_write_16(ea, m68ki_get_sr());
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_frs_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_000(CPU_TYPE) || FLAG_S)	/* NS990408 */
-	{
-		uint ea = EA_AL_16();
-		m68ki_write_16(ea, m68ki_get_sr());
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_tos_d(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		m68ki_set_sr(cpu, DY);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_tos_ai(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint new_sr = OPER_AY_AI_16(cpu);
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(cpu, new_sr);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_tos_pi(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint new_sr = OPER_AY_PI_16(cpu);
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(cpu, new_sr);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_tos_pd(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint new_sr = OPER_AY_PD_16(cpu);
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(cpu, new_sr);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_tos_di(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint new_sr = OPER_AY_DI_16(cpu);
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(cpu, new_sr);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_tos_ix(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint new_sr = OPER_AY_IX_16(cpu);
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(cpu, new_sr);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_tos_aw(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint new_sr = OPER_AW_16(cpu);
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(cpu, new_sr);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_tos_al(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint new_sr = OPER_AL_16(cpu);
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(cpu, new_sr);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_tos_pcdi(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint new_sr = OPER_PCDI_16(cpu);
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(cpu, new_sr);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_tos_pcix(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint new_sr = OPER_PCIX_16(cpu);
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(cpu, new_sr);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_16_tos_i(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint new_sr = OPER_I_16();
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(cpu, new_sr);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_32_fru(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		AY = REG_USP;
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_move_32_tou(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		REG_USP = AY;
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_movec_32_cr(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-
-			m68ki_trace_t0();		   /* auto-disable (see m68kcpu.h) */
-			switch (word2 & 0xfff)
-			{
-			case 0x000:			   /* SFC */
-				REG_DA[(word2 >> 12) & 15] = REG_SFC;
-				return;
-			case 0x001:			   /* DFC */
-				REG_DA[(word2 >> 12) & 15] = REG_DFC;
-				return;
-			case 0x002:			   /* CACR */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					REG_DA[(word2 >> 12) & 15] = REG_CACR;
-					return;
-				}
-				return;
-			case 0x800:			   /* USP */
-				REG_DA[(word2 >> 12) & 15] = REG_USP;
-				return;
-			case 0x801:			   /* VBR */
-				REG_DA[(word2 >> 12) & 15] = REG_VBR;
-				return;
-			case 0x802:			   /* CAAR */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					REG_DA[(word2 >> 12) & 15] = REG_CAAR;
-					return;
-				}
-				m68ki_exception_illegal(cpu);
-				break;
-			case 0x803:			   /* MSP */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					REG_DA[(word2 >> 12) & 15] = FLAG_M ? REG_SP : REG_MSP;
-					return;
-				}
-				m68ki_exception_illegal(cpu);
-				return;
-			case 0x804:			   /* ISP */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					REG_DA[(word2 >> 12) & 15] = FLAG_M ? REG_ISP : REG_SP;
-					return;
-				}
-				m68ki_exception_illegal(cpu);
-				return;
-			default:
-				m68ki_exception_illegal(cpu);
-				return;
-			}
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_movec_32_rc(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-
-			m68ki_trace_t0();		   /* auto-disable (see m68kcpu.h) */
-			switch (word2 & 0xfff)
-			{
-			case 0x000:			   /* SFC */
-				REG_SFC = REG_DA[(word2 >> 12) & 15] & 7;
-				return;
-			case 0x001:			   /* DFC */
-				REG_DFC = REG_DA[(word2 >> 12) & 15] & 7;
-				return;
-			case 0x002:			   /* CACR */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					REG_CACR = REG_DA[(word2 >> 12) & 15];
-					return;
-				}
-				m68ki_exception_illegal(cpu);
-				return;
-			case 0x800:			   /* USP */
-				REG_USP = REG_DA[(word2 >> 12) & 15];
-				return;
-			case 0x801:			   /* VBR */
-				REG_VBR = REG_DA[(word2 >> 12) & 15];
-				return;
-			case 0x802:			   /* CAAR */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					REG_CAAR = REG_DA[(word2 >> 12) & 15];
-					return;
-				}
-				m68ki_exception_illegal(cpu);
-				return;
-			case 0x803:			   /* MSP */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					/* we are in supervisor mode so just check for M flag */
-					if(!FLAG_M)
-					{
-						REG_MSP = REG_DA[(word2 >> 12) & 15];
-						return;
-					}
-					REG_SP = REG_DA[(word2 >> 12) & 15];
-					return;
-				}
-				m68ki_exception_illegal(cpu);
-				return;
-			case 0x804:			   /* ISP */
-				if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-				{
-					if(!FLAG_M)
-					{
-						REG_SP = REG_DA[(word2 >> 12) & 15];
-						return;
-					}
-					REG_ISP = REG_DA[(word2 >> 12) & 15];
-					return;
-				}
-				m68ki_exception_illegal(cpu);
-				return;
-			default:
-				m68ki_exception_illegal(cpu);
-				return;
-			}
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_movem_16_re_pd(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = AY;
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			ea -= 2;
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_DA[15-i]));
-			count++;
-		}
-	AY = ea;
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_16_re_ai(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AY_AI_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_DA[i]));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_16_re_di(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AY_DI_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_DA[i]));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_16_re_ix(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AY_IX_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_DA[i]));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_16_re_aw(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AW_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_DA[i]));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_16_re_al(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AL_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			m68ki_write_16(ea, MASK_OUT_ABOVE_16(REG_DA[i]));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_32_re_pd(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = AY;
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			ea -= 4;
-			m68ki_write_32(ea, REG_DA[15-i]);
-			count++;
-		}
-	AY = ea;
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movem_32_re_ai(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AY_AI_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			m68ki_write_32(ea, REG_DA[i]);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movem_32_re_di(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AY_DI_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			m68ki_write_32(ea, REG_DA[i]);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movem_32_re_ix(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AY_IX_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			m68ki_write_32(ea, REG_DA[i]);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movem_32_re_aw(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AW_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			m68ki_write_32(ea, REG_DA[i]);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movem_32_re_al(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AL_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			m68ki_write_32(ea, REG_DA[i]);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movem_16_er_pi(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = AY;
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = MAKE_INT_16(MASK_OUT_ABOVE_16(m68ki_read_16(ea)));
-			ea += 2;
-			count++;
-		}
-	AY = ea;
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_16_er_pcdi(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_PCDI_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = MAKE_INT_16(MASK_OUT_ABOVE_16(m68ki_read_pcrel_16(ea)));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_16_er_pcix(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_PCIX_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = MAKE_INT_16(MASK_OUT_ABOVE_16(m68ki_read_pcrel_16(ea)));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_16_er_ai(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AY_AI_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = MAKE_INT_16(MASK_OUT_ABOVE_16(m68ki_read_16(ea)));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_16_er_di(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AY_DI_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = MAKE_INT_16(MASK_OUT_ABOVE_16(m68ki_read_16(ea)));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_16_er_ix(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AY_IX_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = MAKE_INT_16(MASK_OUT_ABOVE_16(m68ki_read_16(ea)));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_16_er_aw(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AW_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = MAKE_INT_16(MASK_OUT_ABOVE_16(m68ki_read_16(ea)));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_16_er_al(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AL_16();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = MAKE_INT_16(MASK_OUT_ABOVE_16(m68ki_read_16(ea)));
-			ea += 2;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_W);
-}
-
-
-void m68k_op_movem_32_er_pi(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = AY;
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = m68ki_read_32(ea);
-			ea += 4;
-			count++;
-		}
-	AY = ea;
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movem_32_er_pcdi(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_PCDI_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = m68ki_read_pcrel_32(ea);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movem_32_er_pcix(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_PCIX_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = m68ki_read_pcrel_32(ea);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movem_32_er_ai(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AY_AI_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = m68ki_read_32(ea);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movem_32_er_di(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AY_DI_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = m68ki_read_32(ea);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movem_32_er_ix(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AY_IX_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = m68ki_read_32(ea);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movem_32_er_aw(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AW_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = m68ki_read_32(ea);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movem_32_er_al(m68ki_cpu_core *cpu)
-{
-	uint i = 0;
-	uint register_list = OPER_I_16();
-	uint ea = EA_AL_32();
-	uint count = 0;
-
-	for(; i < 16; i++)
-		if(register_list & (1 << i))
-		{
-			REG_DA[i] = m68ki_read_32(ea);
-			ea += 4;
-			count++;
-		}
-
-	USE_CYCLES(count<<CYC_MOVEM_L);
-}
-
-
-void m68k_op_movep_16_re(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint src = DX;
-
-	m68ki_write_8(ea, MASK_OUT_ABOVE_8(src >> 8));
-	m68ki_write_8(ea += 2, MASK_OUT_ABOVE_8(src));
-}
-
-
-void m68k_op_movep_32_re(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_32();
-	uint src = DX;
-
-	m68ki_write_8(ea, MASK_OUT_ABOVE_8(src >> 24));
-	m68ki_write_8(ea += 2, MASK_OUT_ABOVE_8(src >> 16));
-	m68ki_write_8(ea += 2, MASK_OUT_ABOVE_8(src >> 8));
-	m68ki_write_8(ea += 2, MASK_OUT_ABOVE_8(src));
-}
-
-
-void m68k_op_movep_16_er(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint* r_dst = &DX;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | ((m68ki_read_8(ea) << 8) + m68ki_read_8(ea + 2));
-}
-
-
-void m68k_op_movep_32_er(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_32();
-
-	DX = (m68ki_read_8(ea) << 24) + (m68ki_read_8(ea + 2) << 16)
-		+ (m68ki_read_8(ea + 4) << 8) + m68ki_read_8(ea + 6);
-}
-
-
-void m68k_op_moves_8_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_AI_8();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_8_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_8(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_8(m68ki_read_8_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_8(REG_D[(word2 >> 12) & 7]) | m68ki_read_8_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_8_pi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_PI_8();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_8_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_8(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_8(m68ki_read_8_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_8(REG_D[(word2 >> 12) & 7]) | m68ki_read_8_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_8_pi7(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_A7_PI_8();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_8_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_8(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_8(m68ki_read_8_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_8(REG_D[(word2 >> 12) & 7]) | m68ki_read_8_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_8_pd(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_PD_8();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_8_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_8(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_8(m68ki_read_8_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_8(REG_D[(word2 >> 12) & 7]) | m68ki_read_8_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_8_pd7(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_A7_PD_8();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_8_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_8(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_8(m68ki_read_8_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_8(REG_D[(word2 >> 12) & 7]) | m68ki_read_8_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_8_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_DI_8();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_8_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_8(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_8(m68ki_read_8_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_8(REG_D[(word2 >> 12) & 7]) | m68ki_read_8_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_8_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_IX_8();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_8_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_8(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_8(m68ki_read_8_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_8(REG_D[(word2 >> 12) & 7]) | m68ki_read_8_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_8_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AW_8();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_8_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_8(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_8(m68ki_read_8_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_8(REG_D[(word2 >> 12) & 7]) | m68ki_read_8_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_8_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AL_8();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_8_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_8(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_8(m68ki_read_8_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_8(REG_D[(word2 >> 12) & 7]) | m68ki_read_8_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_16_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_AI_16();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_16_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_16(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_16(m68ki_read_16_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_16(REG_D[(word2 >> 12) & 7]) | m68ki_read_16_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_16_pi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_PI_16();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_16_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_16(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_16(m68ki_read_16_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_16(REG_D[(word2 >> 12) & 7]) | m68ki_read_16_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_16_pd(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_PD_16();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_16_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_16(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_16(m68ki_read_16_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_16(REG_D[(word2 >> 12) & 7]) | m68ki_read_16_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_16_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_DI_16();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_16_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_16(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_16(m68ki_read_16_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_16(REG_D[(word2 >> 12) & 7]) | m68ki_read_16_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_16_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_IX_16();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_16_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_16(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_16(m68ki_read_16_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_16(REG_D[(word2 >> 12) & 7]) | m68ki_read_16_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_16_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AW_16();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_16_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_16(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_16(m68ki_read_16_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_16(REG_D[(word2 >> 12) & 7]) | m68ki_read_16_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_16_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AL_16();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_16_fc(cpu, ea, REG_DFC, MASK_OUT_ABOVE_16(REG_DA[(word2 >> 12) & 15]));
-				return;
-			}
-			if(BIT_F(word2))		   /* Memory to address register */
-			{
-				REG_A[(word2 >> 12) & 7] = MAKE_INT_16(m68ki_read_16_fc(cpu, ea, REG_SFC));
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to data register */
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_BELOW_16(REG_D[(word2 >> 12) & 7]) | m68ki_read_16_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_32_ai(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_AI_32();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_32_fc(cpu, ea, REG_DFC, REG_DA[(word2 >> 12) & 15]);
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to register */
-			REG_DA[(word2 >> 12) & 15] = m68ki_read_32_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_32_pi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_PI_32();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_32_fc(cpu, ea, REG_DFC, REG_DA[(word2 >> 12) & 15]);
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to register */
-			REG_DA[(word2 >> 12) & 15] = m68ki_read_32_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_32_pd(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_PD_32();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_32_fc(cpu, ea, REG_DFC, REG_DA[(word2 >> 12) & 15]);
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to register */
-			REG_DA[(word2 >> 12) & 15] = m68ki_read_32_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_32_di(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_DI_32();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_32_fc(cpu, ea, REG_DFC, REG_DA[(word2 >> 12) & 15]);
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to register */
-			REG_DA[(word2 >> 12) & 15] = m68ki_read_32_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_32_ix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AY_IX_32();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_32_fc(cpu, ea, REG_DFC, REG_DA[(word2 >> 12) & 15]);
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to register */
-			REG_DA[(word2 >> 12) & 15] = m68ki_read_32_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_32_aw(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AW_32();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_32_fc(cpu, ea, REG_DFC, REG_DA[(word2 >> 12) & 15]);
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to register */
-			REG_DA[(word2 >> 12) & 15] = m68ki_read_32_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moves_32_al(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		if(FLAG_S)
-		{
-			uint word2 = OPER_I_16();
-			uint ea = EA_AL_32();
-
-			m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-			if(BIT_B(word2))		   /* Register to memory */
-			{
-				m68ki_write_32_fc(cpu, ea, REG_DFC, REG_DA[(word2 >> 12) & 15]);
-				if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-					USE_CYCLES(2);
-				return;
-			}
-			/* Memory to register */
-			REG_DA[(word2 >> 12) & 15] = m68ki_read_32_fc(cpu, ea, REG_SFC);
-			if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-				USE_CYCLES(2);
-			return;
-		}
-		m68ki_exception_privilege_violation(cpu);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_moveq_32(m68ki_cpu_core *cpu)
-{
-	uint res = DX = MAKE_INT_8(MASK_OUT_ABOVE_8(REG_IR));
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_muls_16_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_32(MAKE_INT_16(DY) * MAKE_INT_16(MASK_OUT_ABOVE_16(*r_dst)));
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_muls_16_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_32(MAKE_INT_16(OPER_AY_AI_16(cpu)) * MAKE_INT_16(MASK_OUT_ABOVE_16(*r_dst)));
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_muls_16_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_32(MAKE_INT_16(OPER_AY_PI_16(cpu)) * MAKE_INT_16(MASK_OUT_ABOVE_16(*r_dst)));
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_muls_16_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_32(MAKE_INT_16(OPER_AY_PD_16(cpu)) * MAKE_INT_16(MASK_OUT_ABOVE_16(*r_dst)));
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_muls_16_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_32(MAKE_INT_16(OPER_AY_DI_16(cpu)) * MAKE_INT_16(MASK_OUT_ABOVE_16(*r_dst)));
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_muls_16_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_32(MAKE_INT_16(OPER_AY_IX_16(cpu)) * MAKE_INT_16(MASK_OUT_ABOVE_16(*r_dst)));
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_muls_16_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_32(MAKE_INT_16(OPER_AW_16(cpu)) * MAKE_INT_16(MASK_OUT_ABOVE_16(*r_dst)));
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_muls_16_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_32(MAKE_INT_16(OPER_AL_16(cpu)) * MAKE_INT_16(MASK_OUT_ABOVE_16(*r_dst)));
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_muls_16_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_32(MAKE_INT_16(OPER_PCDI_16(cpu)) * MAKE_INT_16(MASK_OUT_ABOVE_16(*r_dst)));
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_muls_16_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_32(MAKE_INT_16(OPER_PCIX_16(cpu)) * MAKE_INT_16(MASK_OUT_ABOVE_16(*r_dst)));
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_muls_16_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_32(MAKE_INT_16(OPER_I_16()) * MAKE_INT_16(MASK_OUT_ABOVE_16(*r_dst)));
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_mulu_16_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = MASK_OUT_ABOVE_16(DY) * MASK_OUT_ABOVE_16(*r_dst);
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_mulu_16_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = OPER_AY_AI_16(cpu) * MASK_OUT_ABOVE_16(*r_dst);
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_mulu_16_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = OPER_AY_PI_16(cpu) * MASK_OUT_ABOVE_16(*r_dst);
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_mulu_16_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = OPER_AY_PD_16(cpu) * MASK_OUT_ABOVE_16(*r_dst);
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_mulu_16_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = OPER_AY_DI_16(cpu) * MASK_OUT_ABOVE_16(*r_dst);
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_mulu_16_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = OPER_AY_IX_16(cpu) * MASK_OUT_ABOVE_16(*r_dst);
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_mulu_16_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = OPER_AW_16(cpu) * MASK_OUT_ABOVE_16(*r_dst);
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_mulu_16_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = OPER_AL_16(cpu) * MASK_OUT_ABOVE_16(*r_dst);
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_mulu_16_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = OPER_PCDI_16(cpu) * MASK_OUT_ABOVE_16(*r_dst);
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_mulu_16_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = OPER_PCIX_16(cpu) * MASK_OUT_ABOVE_16(*r_dst);
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_mulu_16_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint res = OPER_I_16() * MASK_OUT_ABOVE_16(*r_dst);
-
-	*r_dst = res;
-
-	FLAG_Z = res;
-	FLAG_N = NFLAG_32(res);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_mull_32_d(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 src = DY;
-		uint64 dst = REG_D[(word2 >> 12) & 7];
-		uint64 res;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			res = (sint64)((sint32)src) * (sint64)((sint32)dst);
-			if(!BIT_A(word2))
-			{
-				FLAG_Z = MASK_OUT_ABOVE_32(res);
-				FLAG_N = NFLAG_32(res);
-				FLAG_V = ((sint64)res != (sint32)res)<<7;
-				REG_D[(word2 >> 12) & 7] = FLAG_Z;
-				return;
-			}
-			FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-			FLAG_N = NFLAG_64(res);
-			FLAG_V = VFLAG_CLEAR;
-			REG_D[word2 & 7] = (res >> 32);
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-			return;
-		}
-
-		res = src * dst;
-		if(!BIT_A(word2))
-		{
-			FLAG_Z = MASK_OUT_ABOVE_32(res);
-			FLAG_N = NFLAG_32(res);
-			FLAG_V = (res > 0xffffffff)<<7;
-			REG_D[(word2 >> 12) & 7] = FLAG_Z;
-			return;
-		}
-		FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-		FLAG_N = NFLAG_64(res);
-		FLAG_V = VFLAG_CLEAR;
-		REG_D[word2 & 7] = (res >> 32);
-		REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint src = DY;
-		uint dst = REG_D[(word2 >> 12) & 7];
-		uint neg = GET_MSB_32(src ^ dst);
-		uint src1;
-		uint src2;
-		uint dst1;
-		uint dst2;
-		uint r1;
-		uint r2;
-		uint r3;
-		uint r4;
-		uint lo;
-		uint hi;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			if(GET_MSB_32(src))
-				src = (uint)MASK_OUT_ABOVE_32(-(sint)src);
-			if(GET_MSB_32(dst))
-				dst = (uint)MASK_OUT_ABOVE_32(-(sint)dst);
-		}
-
-		src1 = MASK_OUT_ABOVE_16(src);
-		src2 = src>>16;
-		dst1 = MASK_OUT_ABOVE_16(dst);
-		dst2 = dst>>16;
-
-
-		r1 = src1 * dst1;
-		r2 = src1 * dst2;
-		r3 = src2 * dst1;
-		r4 = src2 * dst2;
-
-		lo = r1 + (MASK_OUT_ABOVE_16(r2)<<16) + (MASK_OUT_ABOVE_16(r3)<<16);
-		hi = r4 + (r2>>16) + (r3>>16) + (((r1>>16) + MASK_OUT_ABOVE_16(r2) + MASK_OUT_ABOVE_16(r3)) >> 16);
-
-		if(BIT_B(word2) && neg)
-		{
-			hi = (uint)MASK_OUT_ABOVE_32((-(sint)hi) - (lo != 0));
-			lo = (uint)MASK_OUT_ABOVE_32(-(sint)lo);
-		}
-
-		if(BIT_A(word2))
-		{
-			REG_D[word2 & 7] = hi;
-			REG_D[(word2 >> 12) & 7] = lo;
-			FLAG_N = NFLAG_32(hi);
-			FLAG_Z = hi | lo;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		REG_D[(word2 >> 12) & 7] = lo;
-		FLAG_N = NFLAG_32(lo);
-		FLAG_Z = lo;
-		if(BIT_B(word2))
-			FLAG_V = (!((GET_MSB_32(lo) && hi == 0xffffffff) || (!GET_MSB_32(lo) && !hi)))<<7;
-		else
-			FLAG_V = (hi != 0) << 7;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_mull_32_ai(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 src = OPER_AY_AI_32(cpu);
-		uint64 dst = REG_D[(word2 >> 12) & 7];
-		uint64 res;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			res = (sint64)((sint32)src) * (sint64)((sint32)dst);
-			if(!BIT_A(word2))
-			{
-				FLAG_Z = MASK_OUT_ABOVE_32(res);
-				FLAG_N = NFLAG_32(res);
-				FLAG_V = ((sint64)res != (sint32)res)<<7;
-				REG_D[(word2 >> 12) & 7] = FLAG_Z;
-				return;
-			}
-			FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-			FLAG_N = NFLAG_64(res);
-			FLAG_V = VFLAG_CLEAR;
-			REG_D[word2 & 7] = (res >> 32);
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-			return;
-		}
-
-		res = src * dst;
-		if(!BIT_A(word2))
-		{
-			FLAG_Z = MASK_OUT_ABOVE_32(res);
-			FLAG_N = NFLAG_32(res);
-			FLAG_V = (res > 0xffffffff)<<7;
-			REG_D[(word2 >> 12) & 7] = FLAG_Z;
-			return;
-		}
-		FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-		FLAG_N = NFLAG_64(res);
-		FLAG_V = VFLAG_CLEAR;
-		REG_D[word2 & 7] = (res >> 32);
-		REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint src = OPER_AY_AI_32(cpu);
-		uint dst = REG_D[(word2 >> 12) & 7];
-		uint neg = GET_MSB_32(src ^ dst);
-		uint src1;
-		uint src2;
-		uint dst1;
-		uint dst2;
-		uint r1;
-		uint r2;
-		uint r3;
-		uint r4;
-		uint lo;
-		uint hi;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			if(GET_MSB_32(src))
-				src = (uint)MASK_OUT_ABOVE_32(-(sint)src);
-			if(GET_MSB_32(dst))
-				dst = (uint)MASK_OUT_ABOVE_32(-(sint)dst);
-		}
-
-		src1 = MASK_OUT_ABOVE_16(src);
-		src2 = src>>16;
-		dst1 = MASK_OUT_ABOVE_16(dst);
-		dst2 = dst>>16;
-
-
-		r1 = src1 * dst1;
-		r2 = src1 * dst2;
-		r3 = src2 * dst1;
-		r4 = src2 * dst2;
-
-		lo = r1 + (MASK_OUT_ABOVE_16(r2)<<16) + (MASK_OUT_ABOVE_16(r3)<<16);
-		hi = r4 + (r2>>16) + (r3>>16) + (((r1>>16) + MASK_OUT_ABOVE_16(r2) + MASK_OUT_ABOVE_16(r3)) >> 16);
-
-		if(BIT_B(word2) && neg)
-		{
-			hi = (uint)MASK_OUT_ABOVE_32((-(sint)hi) - (lo != 0));
-			lo = (uint)MASK_OUT_ABOVE_32(-(sint)lo);
-		}
-
-		if(BIT_A(word2))
-		{
-			REG_D[word2 & 7] = hi;
-			REG_D[(word2 >> 12) & 7] = lo;
-			FLAG_N = NFLAG_32(hi);
-			FLAG_Z = hi | lo;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		REG_D[(word2 >> 12) & 7] = lo;
-		FLAG_N = NFLAG_32(lo);
-		FLAG_Z = lo;
-		if(BIT_B(word2))
-			FLAG_V = (!((GET_MSB_32(lo) && hi == 0xffffffff) || (!GET_MSB_32(lo) && !hi)))<<7;
-		else
-			FLAG_V = (hi != 0) << 7;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_mull_32_pi(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 src = OPER_AY_PI_32(cpu);
-		uint64 dst = REG_D[(word2 >> 12) & 7];
-		uint64 res;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			res = (sint64)((sint32)src) * (sint64)((sint32)dst);
-			if(!BIT_A(word2))
-			{
-				FLAG_Z = MASK_OUT_ABOVE_32(res);
-				FLAG_N = NFLAG_32(res);
-				FLAG_V = ((sint64)res != (sint32)res)<<7;
-				REG_D[(word2 >> 12) & 7] = FLAG_Z;
-				return;
-			}
-			FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-			FLAG_N = NFLAG_64(res);
-			FLAG_V = VFLAG_CLEAR;
-			REG_D[word2 & 7] = (res >> 32);
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-			return;
-		}
-
-		res = src * dst;
-		if(!BIT_A(word2))
-		{
-			FLAG_Z = MASK_OUT_ABOVE_32(res);
-			FLAG_N = NFLAG_32(res);
-			FLAG_V = (res > 0xffffffff)<<7;
-			REG_D[(word2 >> 12) & 7] = FLAG_Z;
-			return;
-		}
-		FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-		FLAG_N = NFLAG_64(res);
-		FLAG_V = VFLAG_CLEAR;
-		REG_D[word2 & 7] = (res >> 32);
-		REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint src = OPER_AY_PI_32(cpu);
-		uint dst = REG_D[(word2 >> 12) & 7];
-		uint neg = GET_MSB_32(src ^ dst);
-		uint src1;
-		uint src2;
-		uint dst1;
-		uint dst2;
-		uint r1;
-		uint r2;
-		uint r3;
-		uint r4;
-		uint lo;
-		uint hi;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			if(GET_MSB_32(src))
-				src = (uint)MASK_OUT_ABOVE_32(-(sint)src);
-			if(GET_MSB_32(dst))
-				dst = (uint)MASK_OUT_ABOVE_32(-(sint)dst);
-		}
-
-		src1 = MASK_OUT_ABOVE_16(src);
-		src2 = src>>16;
-		dst1 = MASK_OUT_ABOVE_16(dst);
-		dst2 = dst>>16;
-
-
-		r1 = src1 * dst1;
-		r2 = src1 * dst2;
-		r3 = src2 * dst1;
-		r4 = src2 * dst2;
-
-		lo = r1 + (MASK_OUT_ABOVE_16(r2)<<16) + (MASK_OUT_ABOVE_16(r3)<<16);
-		hi = r4 + (r2>>16) + (r3>>16) + (((r1>>16) + MASK_OUT_ABOVE_16(r2) + MASK_OUT_ABOVE_16(r3)) >> 16);
-
-		if(BIT_B(word2) && neg)
-		{
-			hi = (uint)MASK_OUT_ABOVE_32((-(sint)hi) - (lo != 0));
-			lo = (uint)MASK_OUT_ABOVE_32(-(sint)lo);
-		}
-
-		if(BIT_A(word2))
-		{
-			REG_D[word2 & 7] = hi;
-			REG_D[(word2 >> 12) & 7] = lo;
-			FLAG_N = NFLAG_32(hi);
-			FLAG_Z = hi | lo;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		REG_D[(word2 >> 12) & 7] = lo;
-		FLAG_N = NFLAG_32(lo);
-		FLAG_Z = lo;
-		if(BIT_B(word2))
-			FLAG_V = (!((GET_MSB_32(lo) && hi == 0xffffffff) || (!GET_MSB_32(lo) && !hi)))<<7;
-		else
-			FLAG_V = (hi != 0) << 7;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_mull_32_pd(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 src = OPER_AY_PD_32(cpu);
-		uint64 dst = REG_D[(word2 >> 12) & 7];
-		uint64 res;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			res = (sint64)((sint32)src) * (sint64)((sint32)dst);
-			if(!BIT_A(word2))
-			{
-				FLAG_Z = MASK_OUT_ABOVE_32(res);
-				FLAG_N = NFLAG_32(res);
-				FLAG_V = ((sint64)res != (sint32)res)<<7;
-				REG_D[(word2 >> 12) & 7] = FLAG_Z;
-				return;
-			}
-			FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-			FLAG_N = NFLAG_64(res);
-			FLAG_V = VFLAG_CLEAR;
-			REG_D[word2 & 7] = (res >> 32);
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-			return;
-		}
-
-		res = src * dst;
-		if(!BIT_A(word2))
-		{
-			FLAG_Z = MASK_OUT_ABOVE_32(res);
-			FLAG_N = NFLAG_32(res);
-			FLAG_V = (res > 0xffffffff)<<7;
-			REG_D[(word2 >> 12) & 7] = FLAG_Z;
-			return;
-		}
-		FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-		FLAG_N = NFLAG_64(res);
-		FLAG_V = VFLAG_CLEAR;
-		REG_D[word2 & 7] = (res >> 32);
-		REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint src = OPER_AY_PD_32(cpu);
-		uint dst = REG_D[(word2 >> 12) & 7];
-		uint neg = GET_MSB_32(src ^ dst);
-		uint src1;
-		uint src2;
-		uint dst1;
-		uint dst2;
-		uint r1;
-		uint r2;
-		uint r3;
-		uint r4;
-		uint lo;
-		uint hi;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			if(GET_MSB_32(src))
-				src = (uint)MASK_OUT_ABOVE_32(-(sint)src);
-			if(GET_MSB_32(dst))
-				dst = (uint)MASK_OUT_ABOVE_32(-(sint)dst);
-		}
-
-		src1 = MASK_OUT_ABOVE_16(src);
-		src2 = src>>16;
-		dst1 = MASK_OUT_ABOVE_16(dst);
-		dst2 = dst>>16;
-
-
-		r1 = src1 * dst1;
-		r2 = src1 * dst2;
-		r3 = src2 * dst1;
-		r4 = src2 * dst2;
-
-		lo = r1 + (MASK_OUT_ABOVE_16(r2)<<16) + (MASK_OUT_ABOVE_16(r3)<<16);
-		hi = r4 + (r2>>16) + (r3>>16) + (((r1>>16) + MASK_OUT_ABOVE_16(r2) + MASK_OUT_ABOVE_16(r3)) >> 16);
-
-		if(BIT_B(word2) && neg)
-		{
-			hi = (uint)MASK_OUT_ABOVE_32((-(sint)hi) - (lo != 0));
-			lo = (uint)MASK_OUT_ABOVE_32(-(sint)lo);
-		}
-
-		if(BIT_A(word2))
-		{
-			REG_D[word2 & 7] = hi;
-			REG_D[(word2 >> 12) & 7] = lo;
-			FLAG_N = NFLAG_32(hi);
-			FLAG_Z = hi | lo;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		REG_D[(word2 >> 12) & 7] = lo;
-		FLAG_N = NFLAG_32(lo);
-		FLAG_Z = lo;
-		if(BIT_B(word2))
-			FLAG_V = (!((GET_MSB_32(lo) && hi == 0xffffffff) || (!GET_MSB_32(lo) && !hi)))<<7;
-		else
-			FLAG_V = (hi != 0) << 7;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_mull_32_di(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 src = OPER_AY_DI_32(cpu);
-		uint64 dst = REG_D[(word2 >> 12) & 7];
-		uint64 res;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			res = (sint64)((sint32)src) * (sint64)((sint32)dst);
-			if(!BIT_A(word2))
-			{
-				FLAG_Z = MASK_OUT_ABOVE_32(res);
-				FLAG_N = NFLAG_32(res);
-				FLAG_V = ((sint64)res != (sint32)res)<<7;
-				REG_D[(word2 >> 12) & 7] = FLAG_Z;
-				return;
-			}
-			FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-			FLAG_N = NFLAG_64(res);
-			FLAG_V = VFLAG_CLEAR;
-			REG_D[word2 & 7] = (res >> 32);
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-			return;
-		}
-
-		res = src * dst;
-		if(!BIT_A(word2))
-		{
-			FLAG_Z = MASK_OUT_ABOVE_32(res);
-			FLAG_N = NFLAG_32(res);
-			FLAG_V = (res > 0xffffffff)<<7;
-			REG_D[(word2 >> 12) & 7] = FLAG_Z;
-			return;
-		}
-		FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-		FLAG_N = NFLAG_64(res);
-		FLAG_V = VFLAG_CLEAR;
-		REG_D[word2 & 7] = (res >> 32);
-		REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint src = OPER_AY_DI_32(cpu);
-		uint dst = REG_D[(word2 >> 12) & 7];
-		uint neg = GET_MSB_32(src ^ dst);
-		uint src1;
-		uint src2;
-		uint dst1;
-		uint dst2;
-		uint r1;
-		uint r2;
-		uint r3;
-		uint r4;
-		uint lo;
-		uint hi;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			if(GET_MSB_32(src))
-				src = (uint)MASK_OUT_ABOVE_32(-(sint)src);
-			if(GET_MSB_32(dst))
-				dst = (uint)MASK_OUT_ABOVE_32(-(sint)dst);
-		}
-
-		src1 = MASK_OUT_ABOVE_16(src);
-		src2 = src>>16;
-		dst1 = MASK_OUT_ABOVE_16(dst);
-		dst2 = dst>>16;
-
-
-		r1 = src1 * dst1;
-		r2 = src1 * dst2;
-		r3 = src2 * dst1;
-		r4 = src2 * dst2;
-
-		lo = r1 + (MASK_OUT_ABOVE_16(r2)<<16) + (MASK_OUT_ABOVE_16(r3)<<16);
-		hi = r4 + (r2>>16) + (r3>>16) + (((r1>>16) + MASK_OUT_ABOVE_16(r2) + MASK_OUT_ABOVE_16(r3)) >> 16);
-
-		if(BIT_B(word2) && neg)
-		{
-			hi = (uint)MASK_OUT_ABOVE_32((-(sint)hi) - (lo != 0));
-			lo = (uint)MASK_OUT_ABOVE_32(-(sint)lo);
-		}
-
-		if(BIT_A(word2))
-		{
-			REG_D[word2 & 7] = hi;
-			REG_D[(word2 >> 12) & 7] = lo;
-			FLAG_N = NFLAG_32(hi);
-			FLAG_Z = hi | lo;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		REG_D[(word2 >> 12) & 7] = lo;
-		FLAG_N = NFLAG_32(lo);
-		FLAG_Z = lo;
-		if(BIT_B(word2))
-			FLAG_V = (!((GET_MSB_32(lo) && hi == 0xffffffff) || (!GET_MSB_32(lo) && !hi)))<<7;
-		else
-			FLAG_V = (hi != 0) << 7;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_mull_32_ix(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 src = OPER_AY_IX_32(cpu);
-		uint64 dst = REG_D[(word2 >> 12) & 7];
-		uint64 res;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			res = (sint64)((sint32)src) * (sint64)((sint32)dst);
-			if(!BIT_A(word2))
-			{
-				FLAG_Z = MASK_OUT_ABOVE_32(res);
-				FLAG_N = NFLAG_32(res);
-				FLAG_V = ((sint64)res != (sint32)res)<<7;
-				REG_D[(word2 >> 12) & 7] = FLAG_Z;
-				return;
-			}
-			FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-			FLAG_N = NFLAG_64(res);
-			FLAG_V = VFLAG_CLEAR;
-			REG_D[word2 & 7] = (res >> 32);
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-			return;
-		}
-
-		res = src * dst;
-		if(!BIT_A(word2))
-		{
-			FLAG_Z = MASK_OUT_ABOVE_32(res);
-			FLAG_N = NFLAG_32(res);
-			FLAG_V = (res > 0xffffffff)<<7;
-			REG_D[(word2 >> 12) & 7] = FLAG_Z;
-			return;
-		}
-		FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-		FLAG_N = NFLAG_64(res);
-		FLAG_V = VFLAG_CLEAR;
-		REG_D[word2 & 7] = (res >> 32);
-		REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint src = OPER_AY_IX_32(cpu);
-		uint dst = REG_D[(word2 >> 12) & 7];
-		uint neg = GET_MSB_32(src ^ dst);
-		uint src1;
-		uint src2;
-		uint dst1;
-		uint dst2;
-		uint r1;
-		uint r2;
-		uint r3;
-		uint r4;
-		uint lo;
-		uint hi;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			if(GET_MSB_32(src))
-				src = (uint)MASK_OUT_ABOVE_32(-(sint)src);
-			if(GET_MSB_32(dst))
-				dst = (uint)MASK_OUT_ABOVE_32(-(sint)dst);
-		}
-
-		src1 = MASK_OUT_ABOVE_16(src);
-		src2 = src>>16;
-		dst1 = MASK_OUT_ABOVE_16(dst);
-		dst2 = dst>>16;
-
-
-		r1 = src1 * dst1;
-		r2 = src1 * dst2;
-		r3 = src2 * dst1;
-		r4 = src2 * dst2;
-
-		lo = r1 + (MASK_OUT_ABOVE_16(r2)<<16) + (MASK_OUT_ABOVE_16(r3)<<16);
-		hi = r4 + (r2>>16) + (r3>>16) + (((r1>>16) + MASK_OUT_ABOVE_16(r2) + MASK_OUT_ABOVE_16(r3)) >> 16);
-
-		if(BIT_B(word2) && neg)
-		{
-			hi = (uint)MASK_OUT_ABOVE_32((-(sint)hi) - (lo != 0));
-			lo = (uint)MASK_OUT_ABOVE_32(-(sint)lo);
-		}
-
-		if(BIT_A(word2))
-		{
-			REG_D[word2 & 7] = hi;
-			REG_D[(word2 >> 12) & 7] = lo;
-			FLAG_N = NFLAG_32(hi);
-			FLAG_Z = hi | lo;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		REG_D[(word2 >> 12) & 7] = lo;
-		FLAG_N = NFLAG_32(lo);
-		FLAG_Z = lo;
-		if(BIT_B(word2))
-			FLAG_V = (!((GET_MSB_32(lo) && hi == 0xffffffff) || (!GET_MSB_32(lo) && !hi)))<<7;
-		else
-			FLAG_V = (hi != 0) << 7;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_mull_32_aw(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 src = OPER_AW_32(cpu);
-		uint64 dst = REG_D[(word2 >> 12) & 7];
-		uint64 res;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			res = (sint64)((sint32)src) * (sint64)((sint32)dst);
-			if(!BIT_A(word2))
-			{
-				FLAG_Z = MASK_OUT_ABOVE_32(res);
-				FLAG_N = NFLAG_32(res);
-				FLAG_V = ((sint64)res != (sint32)res)<<7;
-				REG_D[(word2 >> 12) & 7] = FLAG_Z;
-				return;
-			}
-			FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-			FLAG_N = NFLAG_64(res);
-			FLAG_V = VFLAG_CLEAR;
-			REG_D[word2 & 7] = (res >> 32);
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-			return;
-		}
-
-		res = src * dst;
-		if(!BIT_A(word2))
-		{
-			FLAG_Z = MASK_OUT_ABOVE_32(res);
-			FLAG_N = NFLAG_32(res);
-			FLAG_V = (res > 0xffffffff)<<7;
-			REG_D[(word2 >> 12) & 7] = FLAG_Z;
-			return;
-		}
-		FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-		FLAG_N = NFLAG_64(res);
-		FLAG_V = VFLAG_CLEAR;
-		REG_D[word2 & 7] = (res >> 32);
-		REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint src = OPER_AW_32(cpu);
-		uint dst = REG_D[(word2 >> 12) & 7];
-		uint neg = GET_MSB_32(src ^ dst);
-		uint src1;
-		uint src2;
-		uint dst1;
-		uint dst2;
-		uint r1;
-		uint r2;
-		uint r3;
-		uint r4;
-		uint lo;
-		uint hi;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			if(GET_MSB_32(src))
-				src = (uint)MASK_OUT_ABOVE_32(-(sint)src);
-			if(GET_MSB_32(dst))
-				dst = (uint)MASK_OUT_ABOVE_32(-(sint)dst);
-		}
-
-		src1 = MASK_OUT_ABOVE_16(src);
-		src2 = src>>16;
-		dst1 = MASK_OUT_ABOVE_16(dst);
-		dst2 = dst>>16;
-
-
-		r1 = src1 * dst1;
-		r2 = src1 * dst2;
-		r3 = src2 * dst1;
-		r4 = src2 * dst2;
-
-		lo = r1 + (MASK_OUT_ABOVE_16(r2)<<16) + (MASK_OUT_ABOVE_16(r3)<<16);
-		hi = r4 + (r2>>16) + (r3>>16) + (((r1>>16) + MASK_OUT_ABOVE_16(r2) + MASK_OUT_ABOVE_16(r3)) >> 16);
-
-		if(BIT_B(word2) && neg)
-		{
-			hi = (uint)MASK_OUT_ABOVE_32((-(sint)hi) - (lo != 0));
-			lo = (uint)MASK_OUT_ABOVE_32(-(sint)lo);
-		}
-
-		if(BIT_A(word2))
-		{
-			REG_D[word2 & 7] = hi;
-			REG_D[(word2 >> 12) & 7] = lo;
-			FLAG_N = NFLAG_32(hi);
-			FLAG_Z = hi | lo;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		REG_D[(word2 >> 12) & 7] = lo;
-		FLAG_N = NFLAG_32(lo);
-		FLAG_Z = lo;
-		if(BIT_B(word2))
-			FLAG_V = (!((GET_MSB_32(lo) && hi == 0xffffffff) || (!GET_MSB_32(lo) && !hi)))<<7;
-		else
-			FLAG_V = (hi != 0) << 7;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_mull_32_al(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 src = OPER_AL_32(cpu);
-		uint64 dst = REG_D[(word2 >> 12) & 7];
-		uint64 res;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			res = (sint64)((sint32)src) * (sint64)((sint32)dst);
-			if(!BIT_A(word2))
-			{
-				FLAG_Z = MASK_OUT_ABOVE_32(res);
-				FLAG_N = NFLAG_32(res);
-				FLAG_V = ((sint64)res != (sint32)res)<<7;
-				REG_D[(word2 >> 12) & 7] = FLAG_Z;
-				return;
-			}
-			FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-			FLAG_N = NFLAG_64(res);
-			FLAG_V = VFLAG_CLEAR;
-			REG_D[word2 & 7] = (res >> 32);
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-			return;
-		}
-
-		res = src * dst;
-		if(!BIT_A(word2))
-		{
-			FLAG_Z = MASK_OUT_ABOVE_32(res);
-			FLAG_N = NFLAG_32(res);
-			FLAG_V = (res > 0xffffffff)<<7;
-			REG_D[(word2 >> 12) & 7] = FLAG_Z;
-			return;
-		}
-		FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-		FLAG_N = NFLAG_64(res);
-		FLAG_V = VFLAG_CLEAR;
-		REG_D[word2 & 7] = (res >> 32);
-		REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint src = OPER_AL_32(cpu);
-		uint dst = REG_D[(word2 >> 12) & 7];
-		uint neg = GET_MSB_32(src ^ dst);
-		uint src1;
-		uint src2;
-		uint dst1;
-		uint dst2;
-		uint r1;
-		uint r2;
-		uint r3;
-		uint r4;
-		uint lo;
-		uint hi;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			if(GET_MSB_32(src))
-				src = (uint)MASK_OUT_ABOVE_32(-(sint)src);
-			if(GET_MSB_32(dst))
-				dst = (uint)MASK_OUT_ABOVE_32(-(sint)dst);
-		}
-
-		src1 = MASK_OUT_ABOVE_16(src);
-		src2 = src>>16;
-		dst1 = MASK_OUT_ABOVE_16(dst);
-		dst2 = dst>>16;
-
-
-		r1 = src1 * dst1;
-		r2 = src1 * dst2;
-		r3 = src2 * dst1;
-		r4 = src2 * dst2;
-
-		lo = r1 + (MASK_OUT_ABOVE_16(r2)<<16) + (MASK_OUT_ABOVE_16(r3)<<16);
-		hi = r4 + (r2>>16) + (r3>>16) + (((r1>>16) + MASK_OUT_ABOVE_16(r2) + MASK_OUT_ABOVE_16(r3)) >> 16);
-
-		if(BIT_B(word2) && neg)
-		{
-			hi = (uint)MASK_OUT_ABOVE_32((-(sint)hi) - (lo != 0));
-			lo = (uint)MASK_OUT_ABOVE_32(-(sint)lo);
-		}
-
-		if(BIT_A(word2))
-		{
-			REG_D[word2 & 7] = hi;
-			REG_D[(word2 >> 12) & 7] = lo;
-			FLAG_N = NFLAG_32(hi);
-			FLAG_Z = hi | lo;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		REG_D[(word2 >> 12) & 7] = lo;
-		FLAG_N = NFLAG_32(lo);
-		FLAG_Z = lo;
-		if(BIT_B(word2))
-			FLAG_V = (!((GET_MSB_32(lo) && hi == 0xffffffff) || (!GET_MSB_32(lo) && !hi)))<<7;
-		else
-			FLAG_V = (hi != 0) << 7;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_mull_32_pcdi(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 src = OPER_PCDI_32(cpu);
-		uint64 dst = REG_D[(word2 >> 12) & 7];
-		uint64 res;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			res = (sint64)((sint32)src) * (sint64)((sint32)dst);
-			if(!BIT_A(word2))
-			{
-				FLAG_Z = MASK_OUT_ABOVE_32(res);
-				FLAG_N = NFLAG_32(res);
-				FLAG_V = ((sint64)res != (sint32)res)<<7;
-				REG_D[(word2 >> 12) & 7] = FLAG_Z;
-				return;
-			}
-			FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-			FLAG_N = NFLAG_64(res);
-			FLAG_V = VFLAG_CLEAR;
-			REG_D[word2 & 7] = (res >> 32);
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-			return;
-		}
-
-		res = src * dst;
-		if(!BIT_A(word2))
-		{
-			FLAG_Z = MASK_OUT_ABOVE_32(res);
-			FLAG_N = NFLAG_32(res);
-			FLAG_V = (res > 0xffffffff)<<7;
-			REG_D[(word2 >> 12) & 7] = FLAG_Z;
-			return;
-		}
-		FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-		FLAG_N = NFLAG_64(res);
-		FLAG_V = VFLAG_CLEAR;
-		REG_D[word2 & 7] = (res >> 32);
-		REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint src = OPER_PCDI_32(cpu);
-		uint dst = REG_D[(word2 >> 12) & 7];
-		uint neg = GET_MSB_32(src ^ dst);
-		uint src1;
-		uint src2;
-		uint dst1;
-		uint dst2;
-		uint r1;
-		uint r2;
-		uint r3;
-		uint r4;
-		uint lo;
-		uint hi;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			if(GET_MSB_32(src))
-				src = (uint)MASK_OUT_ABOVE_32(-(sint)src);
-			if(GET_MSB_32(dst))
-				dst = (uint)MASK_OUT_ABOVE_32(-(sint)dst);
-		}
-
-		src1 = MASK_OUT_ABOVE_16(src);
-		src2 = src>>16;
-		dst1 = MASK_OUT_ABOVE_16(dst);
-		dst2 = dst>>16;
-
-
-		r1 = src1 * dst1;
-		r2 = src1 * dst2;
-		r3 = src2 * dst1;
-		r4 = src2 * dst2;
-
-		lo = r1 + (MASK_OUT_ABOVE_16(r2)<<16) + (MASK_OUT_ABOVE_16(r3)<<16);
-		hi = r4 + (r2>>16) + (r3>>16) + (((r1>>16) + MASK_OUT_ABOVE_16(r2) + MASK_OUT_ABOVE_16(r3)) >> 16);
-
-		if(BIT_B(word2) && neg)
-		{
-			hi = (uint)MASK_OUT_ABOVE_32((-(sint)hi) - (lo != 0));
-			lo = (uint)MASK_OUT_ABOVE_32(-(sint)lo);
-		}
-
-		if(BIT_A(word2))
-		{
-			REG_D[word2 & 7] = hi;
-			REG_D[(word2 >> 12) & 7] = lo;
-			FLAG_N = NFLAG_32(hi);
-			FLAG_Z = hi | lo;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		REG_D[(word2 >> 12) & 7] = lo;
-		FLAG_N = NFLAG_32(lo);
-		FLAG_Z = lo;
-		if(BIT_B(word2))
-			FLAG_V = (!((GET_MSB_32(lo) && hi == 0xffffffff) || (!GET_MSB_32(lo) && !hi)))<<7;
-		else
-			FLAG_V = (hi != 0) << 7;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_mull_32_pcix(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 src = OPER_PCIX_32(cpu);
-		uint64 dst = REG_D[(word2 >> 12) & 7];
-		uint64 res;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			res = (sint64)((sint32)src) * (sint64)((sint32)dst);
-			if(!BIT_A(word2))
-			{
-				FLAG_Z = MASK_OUT_ABOVE_32(res);
-				FLAG_N = NFLAG_32(res);
-				FLAG_V = ((sint64)res != (sint32)res)<<7;
-				REG_D[(word2 >> 12) & 7] = FLAG_Z;
-				return;
-			}
-			FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-			FLAG_N = NFLAG_64(res);
-			FLAG_V = VFLAG_CLEAR;
-			REG_D[word2 & 7] = (res >> 32);
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-			return;
-		}
-
-		res = src * dst;
-		if(!BIT_A(word2))
-		{
-			FLAG_Z = MASK_OUT_ABOVE_32(res);
-			FLAG_N = NFLAG_32(res);
-			FLAG_V = (res > 0xffffffff)<<7;
-			REG_D[(word2 >> 12) & 7] = FLAG_Z;
-			return;
-		}
-		FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-		FLAG_N = NFLAG_64(res);
-		FLAG_V = VFLAG_CLEAR;
-		REG_D[word2 & 7] = (res >> 32);
-		REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint src = OPER_PCIX_32(cpu);
-		uint dst = REG_D[(word2 >> 12) & 7];
-		uint neg = GET_MSB_32(src ^ dst);
-		uint src1;
-		uint src2;
-		uint dst1;
-		uint dst2;
-		uint r1;
-		uint r2;
-		uint r3;
-		uint r4;
-		uint lo;
-		uint hi;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			if(GET_MSB_32(src))
-				src = (uint)MASK_OUT_ABOVE_32(-(sint)src);
-			if(GET_MSB_32(dst))
-				dst = (uint)MASK_OUT_ABOVE_32(-(sint)dst);
-		}
-
-		src1 = MASK_OUT_ABOVE_16(src);
-		src2 = src>>16;
-		dst1 = MASK_OUT_ABOVE_16(dst);
-		dst2 = dst>>16;
-
-
-		r1 = src1 * dst1;
-		r2 = src1 * dst2;
-		r3 = src2 * dst1;
-		r4 = src2 * dst2;
-
-		lo = r1 + (MASK_OUT_ABOVE_16(r2)<<16) + (MASK_OUT_ABOVE_16(r3)<<16);
-		hi = r4 + (r2>>16) + (r3>>16) + (((r1>>16) + MASK_OUT_ABOVE_16(r2) + MASK_OUT_ABOVE_16(r3)) >> 16);
-
-		if(BIT_B(word2) && neg)
-		{
-			hi = (uint)MASK_OUT_ABOVE_32((-(sint)hi) - (lo != 0));
-			lo = (uint)MASK_OUT_ABOVE_32(-(sint)lo);
-		}
-
-		if(BIT_A(word2))
-		{
-			REG_D[word2 & 7] = hi;
-			REG_D[(word2 >> 12) & 7] = lo;
-			FLAG_N = NFLAG_32(hi);
-			FLAG_Z = hi | lo;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		REG_D[(word2 >> 12) & 7] = lo;
-		FLAG_N = NFLAG_32(lo);
-		FLAG_Z = lo;
-		if(BIT_B(word2))
-			FLAG_V = (!((GET_MSB_32(lo) && hi == 0xffffffff) || (!GET_MSB_32(lo) && !hi)))<<7;
-		else
-			FLAG_V = (hi != 0) << 7;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-void m68k_op_mull_32_i(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint64 src = OPER_I_32();
-		uint64 dst = REG_D[(word2 >> 12) & 7];
-		uint64 res;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			res = (sint64)((sint32)src) * (sint64)((sint32)dst);
-			if(!BIT_A(word2))
-			{
-				FLAG_Z = MASK_OUT_ABOVE_32(res);
-				FLAG_N = NFLAG_32(res);
-				FLAG_V = ((sint64)res != (sint32)res)<<7;
-				REG_D[(word2 >> 12) & 7] = FLAG_Z;
-				return;
-			}
-			FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-			FLAG_N = NFLAG_64(res);
-			FLAG_V = VFLAG_CLEAR;
-			REG_D[word2 & 7] = (res >> 32);
-			REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-			return;
-		}
-
-		res = src * dst;
-		if(!BIT_A(word2))
-		{
-			FLAG_Z = MASK_OUT_ABOVE_32(res);
-			FLAG_N = NFLAG_32(res);
-			FLAG_V = (res > 0xffffffff)<<7;
-			REG_D[(word2 >> 12) & 7] = FLAG_Z;
-			return;
-		}
-		FLAG_Z = MASK_OUT_ABOVE_32(res) | (res>>32);
-		FLAG_N = NFLAG_64(res);
-		FLAG_V = VFLAG_CLEAR;
-		REG_D[word2 & 7] = (res >> 32);
-		REG_D[(word2 >> 12) & 7] = MASK_OUT_ABOVE_32(res);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#else
-
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint word2 = OPER_I_16();
-		uint src = OPER_I_32();
-		uint dst = REG_D[(word2 >> 12) & 7];
-		uint neg = GET_MSB_32(src ^ dst);
-		uint src1;
-		uint src2;
-		uint dst1;
-		uint dst2;
-		uint r1;
-		uint r2;
-		uint r3;
-		uint r4;
-		uint lo;
-		uint hi;
-
-		FLAG_C = CFLAG_CLEAR;
-
-		if(BIT_B(word2))			   /* signed */
-		{
-			if(GET_MSB_32(src))
-				src = (uint)MASK_OUT_ABOVE_32(-(sint)src);
-			if(GET_MSB_32(dst))
-				dst = (uint)MASK_OUT_ABOVE_32(-(sint)dst);
-		}
-
-		src1 = MASK_OUT_ABOVE_16(src);
-		src2 = src>>16;
-		dst1 = MASK_OUT_ABOVE_16(dst);
-		dst2 = dst>>16;
-
-
-		r1 = src1 * dst1;
-		r2 = src1 * dst2;
-		r3 = src2 * dst1;
-		r4 = src2 * dst2;
-
-		lo = r1 + (MASK_OUT_ABOVE_16(r2)<<16) + (MASK_OUT_ABOVE_16(r3)<<16);
-		hi = r4 + (r2>>16) + (r3>>16) + (((r1>>16) + MASK_OUT_ABOVE_16(r2) + MASK_OUT_ABOVE_16(r3)) >> 16);
-
-		if(BIT_B(word2) && neg)
-		{
-			hi = (uint)MASK_OUT_ABOVE_32((-(sint)hi) - (lo != 0));
-			lo = (uint)MASK_OUT_ABOVE_32(-(sint)lo);
-		}
-
-		if(BIT_A(word2))
-		{
-			REG_D[word2 & 7] = hi;
-			REG_D[(word2 >> 12) & 7] = lo;
-			FLAG_N = NFLAG_32(hi);
-			FLAG_Z = hi | lo;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-
-		REG_D[(word2 >> 12) & 7] = lo;
-		FLAG_N = NFLAG_32(lo);
-		FLAG_Z = lo;
-		if(BIT_B(word2))
-			FLAG_V = (!((GET_MSB_32(lo) && hi == 0xffffffff) || (!GET_MSB_32(lo) && !hi)))<<7;
-		else
-			FLAG_V = (hi != 0) << 7;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-
-#endif
-}
-
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
-
-
diff --git a/plugins/ao/eng_ssf/m68kopnz.c b/plugins/ao/eng_ssf/m68kopnz.c
deleted file mode 100644
index 35a6ed16..00000000
--- a/plugins/ao/eng_ssf/m68kopnz.c
+++ /dev/null
@@ -1,8781 +0,0 @@
-#include "ao.h"
-#include "m68kcpu.h"
-
-/* ======================================================================== */
-/* ========================= INSTRUCTION HANDLERS ========================= */
-/* ======================================================================== */
-
-
-void m68k_op_nbcd_8_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint dst = *r_dst;
-	uint res = MASK_OUT_ABOVE_8(0x9a - dst - XFLAG_AS_1());
-
-	if(res != 0x9a)
-	{
-		FLAG_V = ~res; /* Undefined V behavior */
-
-		if((res & 0x0f) == 0xa)
-			res = (res & 0xf0) + 0x10;
-
-		res = MASK_OUT_ABOVE_8(res);
-
-		FLAG_V &= res; /* Undefined V behavior part II */
-
-		*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-		FLAG_Z |= res;
-		FLAG_C = CFLAG_SET;
-		FLAG_X = XFLAG_SET;
-	}
-	else
-	{
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-	}
-	FLAG_N = NFLAG_8(res);	/* Undefined N behavior */
-}
-
-
-void m68k_op_nbcd_8_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = MASK_OUT_ABOVE_8(0x9a - dst - XFLAG_AS_1());
-
-	if(res != 0x9a)
-	{
-		FLAG_V = ~res; /* Undefined V behavior */
-
-		if((res & 0x0f) == 0xa)
-			res = (res & 0xf0) + 0x10;
-
-		res = MASK_OUT_ABOVE_8(res);
-
-		FLAG_V &= res; /* Undefined V behavior part II */
-
-		m68ki_write_8(ea, MASK_OUT_ABOVE_8(res));
-
-		FLAG_Z |= res;
-		FLAG_C = CFLAG_SET;
-		FLAG_X = XFLAG_SET;
-	}
-	else
-	{
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-	}
-	FLAG_N = NFLAG_8(res);	/* Undefined N behavior */
-}
-
-
-void m68k_op_nbcd_8_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = MASK_OUT_ABOVE_8(0x9a - dst - XFLAG_AS_1());
-
-	if(res != 0x9a)
-	{
-		FLAG_V = ~res; /* Undefined V behavior */
-
-		if((res & 0x0f) == 0xa)
-			res = (res & 0xf0) + 0x10;
-
-		res = MASK_OUT_ABOVE_8(res);
-
-		FLAG_V &= res; /* Undefined V behavior part II */
-
-		m68ki_write_8(ea, MASK_OUT_ABOVE_8(res));
-
-		FLAG_Z |= res;
-		FLAG_C = CFLAG_SET;
-		FLAG_X = XFLAG_SET;
-	}
-	else
-	{
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-	}
-	FLAG_N = NFLAG_8(res);	/* Undefined N behavior */
-}
-
-
-void m68k_op_nbcd_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = MASK_OUT_ABOVE_8(0x9a - dst - XFLAG_AS_1());
-
-	if(res != 0x9a)
-	{
-		FLAG_V = ~res; /* Undefined V behavior */
-
-		if((res & 0x0f) == 0xa)
-			res = (res & 0xf0) + 0x10;
-
-		res = MASK_OUT_ABOVE_8(res);
-
-		FLAG_V &= res; /* Undefined V behavior part II */
-
-		m68ki_write_8(ea, MASK_OUT_ABOVE_8(res));
-
-		FLAG_Z |= res;
-		FLAG_C = CFLAG_SET;
-		FLAG_X = XFLAG_SET;
-	}
-	else
-	{
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-	}
-	FLAG_N = NFLAG_8(res);	/* Undefined N behavior */
-}
-
-
-void m68k_op_nbcd_8_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = MASK_OUT_ABOVE_8(0x9a - dst - XFLAG_AS_1());
-
-	if(res != 0x9a)
-	{
-		FLAG_V = ~res; /* Undefined V behavior */
-
-		if((res & 0x0f) == 0xa)
-			res = (res & 0xf0) + 0x10;
-
-		res = MASK_OUT_ABOVE_8(res);
-
-		FLAG_V &= res; /* Undefined V behavior part II */
-
-		m68ki_write_8(ea, MASK_OUT_ABOVE_8(res));
-
-		FLAG_Z |= res;
-		FLAG_C = CFLAG_SET;
-		FLAG_X = XFLAG_SET;
-	}
-	else
-	{
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-	}
-	FLAG_N = NFLAG_8(res);	/* Undefined N behavior */
-}
-
-
-void m68k_op_nbcd_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = MASK_OUT_ABOVE_8(0x9a - dst - XFLAG_AS_1());
-
-	if(res != 0x9a)
-	{
-		FLAG_V = ~res; /* Undefined V behavior */
-
-		if((res & 0x0f) == 0xa)
-			res = (res & 0xf0) + 0x10;
-
-		res = MASK_OUT_ABOVE_8(res);
-
-		FLAG_V &= res; /* Undefined V behavior part II */
-
-		m68ki_write_8(ea, MASK_OUT_ABOVE_8(res));
-
-		FLAG_Z |= res;
-		FLAG_C = CFLAG_SET;
-		FLAG_X = XFLAG_SET;
-	}
-	else
-	{
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-	}
-	FLAG_N = NFLAG_8(res);	/* Undefined N behavior */
-}
-
-
-void m68k_op_nbcd_8_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = MASK_OUT_ABOVE_8(0x9a - dst - XFLAG_AS_1());
-
-	if(res != 0x9a)
-	{
-		FLAG_V = ~res; /* Undefined V behavior */
-
-		if((res & 0x0f) == 0xa)
-			res = (res & 0xf0) + 0x10;
-
-		res = MASK_OUT_ABOVE_8(res);
-
-		FLAG_V &= res; /* Undefined V behavior part II */
-
-		m68ki_write_8(ea, MASK_OUT_ABOVE_8(res));
-
-		FLAG_Z |= res;
-		FLAG_C = CFLAG_SET;
-		FLAG_X = XFLAG_SET;
-	}
-	else
-	{
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-	}
-	FLAG_N = NFLAG_8(res);	/* Undefined N behavior */
-}
-
-
-void m68k_op_nbcd_8_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = MASK_OUT_ABOVE_8(0x9a - dst - XFLAG_AS_1());
-
-	if(res != 0x9a)
-	{
-		FLAG_V = ~res; /* Undefined V behavior */
-
-		if((res & 0x0f) == 0xa)
-			res = (res & 0xf0) + 0x10;
-
-		res = MASK_OUT_ABOVE_8(res);
-
-		FLAG_V &= res; /* Undefined V behavior part II */
-
-		m68ki_write_8(ea, MASK_OUT_ABOVE_8(res));
-
-		FLAG_Z |= res;
-		FLAG_C = CFLAG_SET;
-		FLAG_X = XFLAG_SET;
-	}
-	else
-	{
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-	}
-	FLAG_N = NFLAG_8(res);	/* Undefined N behavior */
-}
-
-
-void m68k_op_nbcd_8_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = MASK_OUT_ABOVE_8(0x9a - dst - XFLAG_AS_1());
-
-	if(res != 0x9a)
-	{
-		FLAG_V = ~res; /* Undefined V behavior */
-
-		if((res & 0x0f) == 0xa)
-			res = (res & 0xf0) + 0x10;
-
-		res = MASK_OUT_ABOVE_8(res);
-
-		FLAG_V &= res; /* Undefined V behavior part II */
-
-		m68ki_write_8(ea, MASK_OUT_ABOVE_8(res));
-
-		FLAG_Z |= res;
-		FLAG_C = CFLAG_SET;
-		FLAG_X = XFLAG_SET;
-	}
-	else
-	{
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-	}
-	FLAG_N = NFLAG_8(res);	/* Undefined N behavior */
-}
-
-
-void m68k_op_nbcd_8_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = MASK_OUT_ABOVE_8(0x9a - dst - XFLAG_AS_1());
-
-	if(res != 0x9a)
-	{
-		FLAG_V = ~res; /* Undefined V behavior */
-
-		if((res & 0x0f) == 0xa)
-			res = (res & 0xf0) + 0x10;
-
-		res = MASK_OUT_ABOVE_8(res);
-
-		FLAG_V &= res; /* Undefined V behavior part II */
-
-		m68ki_write_8(ea, MASK_OUT_ABOVE_8(res));
-
-		FLAG_Z |= res;
-		FLAG_C = CFLAG_SET;
-		FLAG_X = XFLAG_SET;
-	}
-	else
-	{
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		FLAG_X = XFLAG_CLEAR;
-	}
-	FLAG_N = NFLAG_8(res);	/* Undefined N behavior */
-}
-
-
-void m68k_op_neg_8_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint res = 0 - MASK_OUT_ABOVE_8(*r_dst);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = FLAG_X = CFLAG_8(res);
-	FLAG_V = *r_dst & res;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_neg_8_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = FLAG_X = CFLAG_8(res);
-	FLAG_V = src & res;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_8_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = FLAG_X = CFLAG_8(res);
-	FLAG_V = src & res;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PI_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = FLAG_X = CFLAG_8(res);
-	FLAG_V = src & res;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_8_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = FLAG_X = CFLAG_8(res);
-	FLAG_V = src & res;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PD_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = FLAG_X = CFLAG_8(res);
-	FLAG_V = src & res;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_8_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = FLAG_X = CFLAG_8(res);
-	FLAG_V = src & res;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_8_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = FLAG_X = CFLAG_8(res);
-	FLAG_V = src & res;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_8_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = FLAG_X = CFLAG_8(res);
-	FLAG_V = src & res;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_8_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_C = FLAG_X = CFLAG_8(res);
-	FLAG_V = src & res;
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_16_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint res = 0 - MASK_OUT_ABOVE_16(*r_dst);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = FLAG_X = CFLAG_16(res);
-	FLAG_V = (*r_dst & res)>>8;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_neg_16_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = FLAG_X = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_16_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = FLAG_X = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_16_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = FLAG_X = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_16_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = FLAG_X = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_16_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = FLAG_X = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_16_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = FLAG_X = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_16_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_C = FLAG_X = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_32_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint res = 0 - *r_dst;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_C = FLAG_X = CFLAG_SUB_32(*r_dst, 0, res);
-	FLAG_V = (*r_dst & res)>>24;
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_neg_32_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_C = FLAG_X = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_32_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_C = FLAG_X = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_32_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_C = FLAG_X = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_32_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_C = FLAG_X = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_32_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_C = FLAG_X = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_32_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_C = FLAG_X = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_neg_32_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_C = FLAG_X = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_negx_8_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint res = 0 - MASK_OUT_ABOVE_8(*r_dst) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = *r_dst & res;
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-}
-
-
-void m68k_op_negx_8_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = src & res;
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_negx_8_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = src & res;
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_negx_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PI_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = src & res;
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_negx_8_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = src & res;
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_negx_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PD_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = src & res;
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_negx_8_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = src & res;
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_negx_8_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = src & res;
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_negx_8_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = src & res;
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_negx_8_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_8();
-	uint src = m68ki_read_8(ea);
-	uint res = 0 - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = src & res;
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_negx_16_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint res = 0 - MASK_OUT_ABOVE_16(*r_dst) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = (*r_dst & res)>>8;
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-}
-
-
-void m68k_op_negx_16_ai(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AY_AI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - MASK_OUT_ABOVE_16(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_negx_16_pi(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AY_PI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - MASK_OUT_ABOVE_16(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_negx_16_pd(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AY_PD_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - MASK_OUT_ABOVE_16(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_negx_16_di(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AY_DI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - MASK_OUT_ABOVE_16(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_negx_16_ix(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AY_IX_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - MASK_OUT_ABOVE_16(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_negx_16_aw(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AW_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - MASK_OUT_ABOVE_16(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_negx_16_al(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AL_16();
-	uint src = m68ki_read_16(ea);
-	uint res = 0 - MASK_OUT_ABOVE_16(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = (src & res)>>8;
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_negx_32_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint res = 0 - MASK_OUT_ABOVE_32(*r_dst) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(*r_dst, 0, res);
-	FLAG_V = (*r_dst & res)>>24;
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	*r_dst = res;
-}
-
-
-void m68k_op_negx_32_ai(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AY_AI_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - MASK_OUT_ABOVE_32(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_negx_32_pi(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AY_PI_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - MASK_OUT_ABOVE_32(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_negx_32_pd(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AY_PD_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - MASK_OUT_ABOVE_32(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_negx_32_di(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AY_DI_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - MASK_OUT_ABOVE_32(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_negx_32_ix(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AY_IX_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - MASK_OUT_ABOVE_32(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_negx_32_aw(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AW_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - MASK_OUT_ABOVE_32(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_negx_32_al(m68ki_cpu_core *cpu)
-{
-	uint ea  = EA_AL_32();
-	uint src = m68ki_read_32(ea);
-	uint res = 0 - MASK_OUT_ABOVE_32(src) - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, 0, res);
-	FLAG_V = (src & res)>>24;
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_nop(m68ki_cpu_core *cpu)
-{
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-}
-
-
-void m68k_op_not_8_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint res = MASK_OUT_ABOVE_8(~*r_dst);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_8_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_8();
-	uint res = MASK_OUT_ABOVE_8(~m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_8_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_8();
-	uint res = MASK_OUT_ABOVE_8(~m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PI_8();
-	uint res = MASK_OUT_ABOVE_8(~m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_8_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_8();
-	uint res = MASK_OUT_ABOVE_8(~m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PD_8();
-	uint res = MASK_OUT_ABOVE_8(~m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_8_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_8();
-	uint res = MASK_OUT_ABOVE_8(~m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_8_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_8();
-	uint res = MASK_OUT_ABOVE_8(~m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_8_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_8();
-	uint res = MASK_OUT_ABOVE_8(~m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_8_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_8();
-	uint res = MASK_OUT_ABOVE_8(~m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_16_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint res = MASK_OUT_ABOVE_16(~*r_dst);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_16_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint res = MASK_OUT_ABOVE_16(~m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_16_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint res = MASK_OUT_ABOVE_16(~m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_16_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint res = MASK_OUT_ABOVE_16(~m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_16_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint res = MASK_OUT_ABOVE_16(~m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_16_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint res = MASK_OUT_ABOVE_16(~m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_16_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint res = MASK_OUT_ABOVE_16(~m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_16_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint res = MASK_OUT_ABOVE_16(~m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_32_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint res = *r_dst = MASK_OUT_ABOVE_32(~*r_dst);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_32_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_32();
-	uint res = MASK_OUT_ABOVE_32(~m68ki_read_32(ea));
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_32_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_32();
-	uint res = MASK_OUT_ABOVE_32(~m68ki_read_32(ea));
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_32_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_32();
-	uint res = MASK_OUT_ABOVE_32(~m68ki_read_32(ea));
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_32_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_32();
-	uint res = MASK_OUT_ABOVE_32(~m68ki_read_32(ea));
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_32_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_32();
-	uint res = MASK_OUT_ABOVE_32(~m68ki_read_32(ea));
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_32_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_32();
-	uint res = MASK_OUT_ABOVE_32(~m68ki_read_32(ea));
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_not_32_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_32();
-	uint res = MASK_OUT_ABOVE_32(~m68ki_read_32(ea));
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_er_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= MASK_OUT_ABOVE_8(DY)));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_er_ai(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= OPER_AY_AI_8(cpu)));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_er_pi(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= OPER_AY_PI_8(cpu)));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_er_pi7(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= OPER_A7_PI_8(cpu)));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_er_pd(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= OPER_AY_PD_8(cpu)));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_er_pd7(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= OPER_A7_PD_8(cpu)));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_er_di(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= OPER_AY_DI_8(cpu)));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_er_ix(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= OPER_AY_IX_8(cpu)));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_er_aw(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= OPER_AW_8(cpu)));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_er_al(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= OPER_AL_8(cpu)));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_er_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= OPER_PCDI_8(cpu)));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_er_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= OPER_PCIX_8(cpu)));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_er_i(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DX |= OPER_I_8()));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_er_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16((DX |= MASK_OUT_ABOVE_16(DY)));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_er_ai(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16((DX |= OPER_AY_AI_16(cpu)));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_er_pi(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16((DX |= OPER_AY_PI_16(cpu)));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_er_pd(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16((DX |= OPER_AY_PD_16(cpu)));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_er_di(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16((DX |= OPER_AY_DI_16(cpu)));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_er_ix(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16((DX |= OPER_AY_IX_16(cpu)));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_er_aw(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16((DX |= OPER_AW_16(cpu)));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_er_al(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16((DX |= OPER_AL_16(cpu)));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_er_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16((DX |= OPER_PCDI_16(cpu)));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_er_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16((DX |= OPER_PCIX_16(cpu)));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_er_i(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16((DX |= OPER_I_16()));
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_er_d(m68ki_cpu_core *cpu)
-{
-	uint res = DX |= DY;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_er_ai(m68ki_cpu_core *cpu)
-{
-	uint res = DX |= OPER_AY_AI_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_er_pi(m68ki_cpu_core *cpu)
-{
-	uint res = DX |= OPER_AY_PI_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_er_pd(m68ki_cpu_core *cpu)
-{
-	uint res = DX |= OPER_AY_PD_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_er_di(m68ki_cpu_core *cpu)
-{
-	uint res = DX |= OPER_AY_DI_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_er_ix(m68ki_cpu_core *cpu)
-{
-	uint res = DX |= OPER_AY_IX_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_er_aw(m68ki_cpu_core *cpu)
-{
-	uint res = DX |= OPER_AW_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_er_al(m68ki_cpu_core *cpu)
-{
-	uint res = DX |= OPER_AL_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_er_pcdi(m68ki_cpu_core *cpu)
-{
-	uint res = DX |= OPER_PCDI_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_er_pcix(m68ki_cpu_core *cpu)
-{
-	uint res = DX |= OPER_PCIX_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_er_i(m68ki_cpu_core *cpu)
-{
-	uint res = DX |= OPER_I_32();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_re_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_8();
-	uint res = MASK_OUT_ABOVE_8(DX | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_re_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_8();
-	uint res = MASK_OUT_ABOVE_8(DX | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_re_pi7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PI_8();
-	uint res = MASK_OUT_ABOVE_8(DX | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_re_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_8();
-	uint res = MASK_OUT_ABOVE_8(DX | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_re_pd7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PD_8();
-	uint res = MASK_OUT_ABOVE_8(DX | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_re_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_8();
-	uint res = MASK_OUT_ABOVE_8(DX | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_re_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_8();
-	uint res = MASK_OUT_ABOVE_8(DX | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_re_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_8();
-	uint res = MASK_OUT_ABOVE_8(DX | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_8_re_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_8();
-	uint res = MASK_OUT_ABOVE_8(DX | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_re_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint res = MASK_OUT_ABOVE_16(DX | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_re_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint res = MASK_OUT_ABOVE_16(DX | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_re_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint res = MASK_OUT_ABOVE_16(DX | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_re_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint res = MASK_OUT_ABOVE_16(DX | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_re_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint res = MASK_OUT_ABOVE_16(DX | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_re_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint res = MASK_OUT_ABOVE_16(DX | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_16_re_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint res = MASK_OUT_ABOVE_16(DX | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_re_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_32();
-	uint res = DX | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_re_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_32();
-	uint res = DX | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_re_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_32();
-	uint res = DX | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_re_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_32();
-	uint res = DX | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_re_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_32();
-	uint res = DX | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_re_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_32();
-	uint res = DX | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_or_32_re_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_32();
-	uint res = DX | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_8_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8((DY |= OPER_I_8()));
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_8_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_AI_8();
-	uint res = MASK_OUT_ABOVE_8(src | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_8_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_PI_8();
-	uint res = MASK_OUT_ABOVE_8(src | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_A7_PI_8();
-	uint res = MASK_OUT_ABOVE_8(src | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_8_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_PD_8();
-	uint res = MASK_OUT_ABOVE_8(src | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_A7_PD_8();
-	uint res = MASK_OUT_ABOVE_8(src | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_8_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_DI_8();
-	uint res = MASK_OUT_ABOVE_8(src | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_8_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_IX_8();
-	uint res = MASK_OUT_ABOVE_8(src | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_8_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AW_8();
-	uint res = MASK_OUT_ABOVE_8(src | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_8_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AL_8();
-	uint res = MASK_OUT_ABOVE_8(src | m68ki_read_8(ea));
-
-	m68ki_write_8(ea, res);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_16_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(DY |= OPER_I_16());
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_16_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_AI_16();
-	uint res = MASK_OUT_ABOVE_16(src | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_16_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_PI_16();
-	uint res = MASK_OUT_ABOVE_16(src | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_16_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_PD_16();
-	uint res = MASK_OUT_ABOVE_16(src | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_16_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_DI_16();
-	uint res = MASK_OUT_ABOVE_16(src | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_16_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_IX_16();
-	uint res = MASK_OUT_ABOVE_16(src | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_16_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AW_16();
-	uint res = MASK_OUT_ABOVE_16(src | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_16_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AL_16();
-	uint res = MASK_OUT_ABOVE_16(src | m68ki_read_16(ea));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_32_d(m68ki_cpu_core *cpu)
-{
-	uint res = DY |= OPER_I_32();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_32_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_AI_32();
-	uint res = src | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_32_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_PI_32();
-	uint res = src | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_32_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_PD_32();
-	uint res = src | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_32_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_DI_32();
-	uint res = src | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_32_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_IX_32();
-	uint res = src | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_32_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AW_32();
-	uint res = src | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_32_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AL_32();
-	uint res = src | m68ki_read_32(ea);
-
-	m68ki_write_32(ea, res);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ori_16_toc(m68ki_cpu_core *cpu)
-{
-	m68ki_set_ccr(cpu, m68ki_get_ccr() | OPER_I_16());
-}
-
-
-void m68k_op_ori_16_tos(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint src = OPER_I_16();
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		m68ki_set_sr(cpu, m68ki_get_sr() | src);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_pack_16_rr(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: DX and DY are reversed in Motorola's docs */
-		uint src = DY + OPER_I_16();
-		uint* r_dst = &DX;
-
-		*r_dst = MASK_OUT_BELOW_8(*r_dst) | ((src >> 4) & 0x00f0) | (src & 0x000f);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_pack_16_mm_ax7(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: AX and AY are reversed in Motorola's docs */
-		uint ea_src = EA_AY_PD_8();
-		uint src = m68ki_read_8(ea_src);
-		ea_src = EA_AY_PD_8();
-		src = ((src << 8) | m68ki_read_8(ea_src)) + OPER_I_16();
-
-		m68ki_write_8(EA_A7_PD_8(), ((src >> 4) & 0x00f0) | (src & 0x000f));
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_pack_16_mm_ay7(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: AX and AY are reversed in Motorola's docs */
-		uint ea_src = EA_A7_PD_8();
-		uint src = m68ki_read_8(ea_src);
-		ea_src = EA_A7_PD_8();
-		src = ((src << 8) | m68ki_read_8(ea_src)) + OPER_I_16();
-
-		m68ki_write_8(EA_AX_PD_8(), ((src >> 4) & 0x00f0) | (src & 0x000f));
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_pack_16_mm_axy7(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint ea_src = EA_A7_PD_8();
-		uint src = m68ki_read_8(ea_src);
-		ea_src = EA_A7_PD_8();
-		src = ((src << 8) | m68ki_read_8(ea_src)) + OPER_I_16();
-
-		m68ki_write_8(EA_A7_PD_8(), ((src >> 4) & 0x00f0) | (src & 0x000f));
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_pack_16_mm(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: AX and AY are reversed in Motorola's docs */
-		uint ea_src = EA_AY_PD_8();
-		uint src = m68ki_read_8(ea_src);
-		ea_src = EA_AY_PD_8();
-		src = ((src << 8) | m68ki_read_8(ea_src)) + OPER_I_16();
-
-		m68ki_write_8(EA_AX_PD_8(), ((src >> 4) & 0x00f0) | (src & 0x000f));
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_pea_32_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_32();
-
-	m68ki_push_32(cpu, ea);
-}
-
-
-void m68k_op_pea_32_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_32();
-
-	m68ki_push_32(cpu, ea);
-}
-
-
-void m68k_op_pea_32_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_32();
-
-	m68ki_push_32(cpu, ea);
-}
-
-
-void m68k_op_pea_32_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_32();
-
-	m68ki_push_32(cpu, ea);
-}
-
-
-void m68k_op_pea_32_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_32();
-
-	m68ki_push_32(cpu, ea);
-}
-
-
-void m68k_op_pea_32_pcdi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_PCDI_32();
-
-	m68ki_push_32(cpu, ea);
-}
-
-
-void m68k_op_pea_32_pcix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_PCIX_32();
-
-	m68ki_push_32(cpu, ea);
-}
-
-
-void m68k_op_reset(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		m68ki_output_reset();		   /* auto-disable (see m68kcpu.h) */
-		USE_CYCLES(CYC_RESET);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_ror_8_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint shift = orig_shift & 7;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = ROR_8(src, shift);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = src << (9-orig_shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ror_16_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = ROR_16(src, shift);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src << (9-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ror_32_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint64 src = *r_dst;
-	uint res = ROR_32(src, shift);
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = src << (9-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ror_8_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift & 7;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = ROR_8(src, shift);
-
-	if(orig_shift != 0)
-	{
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-		FLAG_C = src << (8-((shift-1)&7));
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_8(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ror_16_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift & 15;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = ROR_16(src, shift);
-
-	if(orig_shift != 0)
-	{
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		FLAG_C = (src >> ((shift - 1) & 15)) << 8;
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_16(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ror_32_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift & 31;
-	uint64 src = *r_dst;
-	uint res = ROR_32(src, shift);
-
-	if(orig_shift != 0)
-	{
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		*r_dst = res;
-		FLAG_C = (src >> ((shift - 1) & 31)) << 8;
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_32(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ror_16_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_16(src, 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ror_16_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_16(src, 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ror_16_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_16(src, 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ror_16_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_16(src, 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ror_16_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_16(src, 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ror_16_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_16(src, 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_ror_16_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_16(src, 1);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src << 8;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rol_8_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint shift = orig_shift & 7;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = ROL_8(src, shift);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_C = src << orig_shift;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rol_16_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = ROL_16(src, shift);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src >> (8-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rol_32_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint64 src = *r_dst;
-	uint res = ROL_32(src, shift);
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_C = src >> (24-shift);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rol_8_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift & 7;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = ROL_8(src, shift);
-
-	if(orig_shift != 0)
-	{
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		if(shift != 0)
-		{
-			*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-			FLAG_C = src << shift;
-			FLAG_N = NFLAG_8(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-		FLAG_C = (src & 1)<<8;
-		FLAG_N = NFLAG_8(src);
-		FLAG_Z = src;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_8(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rol_16_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift & 15;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = MASK_OUT_ABOVE_16(ROL_16(src, shift));
-
-	if(orig_shift != 0)
-	{
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		if(shift != 0)
-		{
-			*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-			FLAG_C = (src << shift) >> 8;
-			FLAG_N = NFLAG_16(res);
-			FLAG_Z = res;
-			FLAG_V = VFLAG_CLEAR;
-			return;
-		}
-		FLAG_C = (src & 1)<<8;
-		FLAG_N = NFLAG_16(src);
-		FLAG_Z = src;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_16(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rol_32_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift & 31;
-	uint64 src = *r_dst;
-	uint res = ROL_32(src, shift);
-
-	if(orig_shift != 0)
-	{
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		*r_dst = res;
-
-		FLAG_C = (src >> (32 - shift)) << 8;
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_N = NFLAG_32(src);
-	FLAG_Z = src;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rol_16_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(ROL_16(src, 1));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rol_16_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(ROL_16(src, 1));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rol_16_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(ROL_16(src, 1));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rol_16_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(ROL_16(src, 1));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rol_16_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(ROL_16(src, 1));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rol_16_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(ROL_16(src, 1));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rol_16_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint src = m68ki_read_16(ea);
-	uint res = MASK_OUT_ABOVE_16(ROL_16(src, 1));
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_C = src >> 7;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxr_8_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = ROR_9(src | (XFLAG_AS_1() << 8), shift);
-
-	FLAG_C = FLAG_X = res;
-	res = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxr_16_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = ROR_17(src | (XFLAG_AS_1() << 16), shift);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxr_32_s(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	uint*  r_dst = &DY;
-	uint   shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint64 src   = *r_dst;
-	uint64 res   = src | (((uint64)XFLAG_AS_1()) << 32);
-
-	res = ROR_33_64(res, shift);
-
-	FLAG_C = FLAG_X = res >> 24;
-	res = MASK_OUT_ABOVE_32(res);
-
-	*r_dst =  res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-
-#else
-
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32((ROR_33(src, shift) & ~(1 << (32 - shift))) | (XFLAG_AS_1() << (32 - shift)));
-	uint new_x_flag = src & (1 << (shift - 1));
-
-	*r_dst = res;
-
-	FLAG_C = FLAG_X = (new_x_flag != 0)<<8;
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-
-#endif
-}
-
-
-void m68k_op_roxr_8_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-
-	if(orig_shift != 0)
-	{
-		uint shift = orig_shift % 9;
-		uint src   = MASK_OUT_ABOVE_8(*r_dst);
-		uint res   = ROR_9(src | (XFLAG_AS_1() << 8), shift);
-
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		FLAG_C = FLAG_X = res;
-		res = MASK_OUT_ABOVE_8(res);
-
-		*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_8(*r_dst);
-	FLAG_Z = MASK_OUT_ABOVE_8(*r_dst);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxr_16_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-
-	if(orig_shift != 0)
-	{
-		uint shift = orig_shift % 17;
-		uint src   = MASK_OUT_ABOVE_16(*r_dst);
-		uint res   = ROR_17(src | (XFLAG_AS_1() << 16), shift);
-
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		FLAG_C = FLAG_X = res >> 8;
-		res = MASK_OUT_ABOVE_16(res);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_16(*r_dst);
-	FLAG_Z = MASK_OUT_ABOVE_16(*r_dst);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxr_32_r(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	uint*  r_dst = &DY;
-	uint   orig_shift = DX & 0x3f;
-
-	if(orig_shift != 0)
-	{
-		uint   shift = orig_shift % 33;
-		uint64 src   = *r_dst;
-		uint64 res   = src | (((uint64)XFLAG_AS_1()) << 32);
-
-		res = ROR_33_64(res, shift);
-
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		FLAG_C = FLAG_X = res >> 24;
-		res = MASK_OUT_ABOVE_32(res);
-
-		*r_dst = res;
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_32(*r_dst);
-	FLAG_Z = *r_dst;
-	FLAG_V = VFLAG_CLEAR;
-
-#else
-
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift % 33;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32((ROR_33(src, shift) & ~(1 << (32 - shift))) | (XFLAG_AS_1() << (32 - shift)));
-	uint new_x_flag = src & (1 << (shift - 1));
-
-	if(orig_shift != 0)
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-	if(shift != 0)
-	{
-		*r_dst = res;
-		FLAG_X = (new_x_flag != 0)<<8;
-	}
-	else
-		res = src;
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-
-#endif
-}
-
-
-void m68k_op_roxr_16_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxr_16_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxr_16_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxr_16_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxr_16_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxr_16_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxr_16_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROR_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxl_8_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = ROL_9(src | (XFLAG_AS_1() << 8), shift);
-
-	FLAG_C = FLAG_X = res;
-	res = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxl_16_s(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = ROL_17(src | (XFLAG_AS_1() << 16), shift);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxl_32_s(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	uint*  r_dst = &DY;
-	uint   shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint64 src   = *r_dst;
-	uint64 res   = src | (((uint64)XFLAG_AS_1()) << 32);
-
-	res = ROL_33_64(res, shift);
-
-	FLAG_C = FLAG_X = res >> 24;
-	res = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = res;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-
-#else
-
-	uint* r_dst = &DY;
-	uint shift = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32((ROL_33(src, shift) & ~(1 << (shift - 1))) | (XFLAG_AS_1() << (shift - 1)));
-	uint new_x_flag = src & (1 << (32 - shift));
-
-	*r_dst = res;
-
-	FLAG_C = FLAG_X = (new_x_flag != 0)<<8;
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-
-#endif
-}
-
-
-void m68k_op_roxl_8_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-
-
-	if(orig_shift != 0)
-	{
-		uint shift = orig_shift % 9;
-		uint src   = MASK_OUT_ABOVE_8(*r_dst);
-		uint res   = ROL_9(src | (XFLAG_AS_1() << 8), shift);
-
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		FLAG_C = FLAG_X = res;
-		res = MASK_OUT_ABOVE_8(res);
-
-		*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_8(*r_dst);
-	FLAG_Z = MASK_OUT_ABOVE_8(*r_dst);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxl_16_r(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-
-	if(orig_shift != 0)
-	{
-		uint shift = orig_shift % 17;
-		uint src   = MASK_OUT_ABOVE_16(*r_dst);
-		uint res   = ROL_17(src | (XFLAG_AS_1() << 16), shift);
-
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		FLAG_C = FLAG_X = res >> 8;
-		res = MASK_OUT_ABOVE_16(res);
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_16(*r_dst);
-	FLAG_Z = MASK_OUT_ABOVE_16(*r_dst);
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxl_32_r(m68ki_cpu_core *cpu)
-{
-#if M68K_USE_64_BIT
-
-	uint*  r_dst = &DY;
-	uint   orig_shift = DX & 0x3f;
-
-	if(orig_shift != 0)
-	{
-		uint   shift = orig_shift % 33;
-		uint64 src   = *r_dst;
-		uint64 res   = src | (((uint64)XFLAG_AS_1()) << 32);
-
-		res = ROL_33_64(res, shift);
-
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-		FLAG_C = FLAG_X = res >> 24;
-		res = MASK_OUT_ABOVE_32(res);
-
-		*r_dst = res;
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		return;
-	}
-
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_32(*r_dst);
-	FLAG_Z = *r_dst;
-	FLAG_V = VFLAG_CLEAR;
-
-#else
-
-	uint* r_dst = &DY;
-	uint orig_shift = DX & 0x3f;
-	uint shift = orig_shift % 33;
-	uint src = *r_dst;
-	uint res = MASK_OUT_ABOVE_32((ROL_33(src, shift) & ~(1 << (shift - 1))) | (XFLAG_AS_1() << (shift - 1)));
-	uint new_x_flag = src & (1 << (32 - shift));
-
-	if(orig_shift != 0)
-		USE_CYCLES(orig_shift<<CYC_SHIFT);
-
-	if(shift != 0)
-	{
-		*r_dst = res;
-		FLAG_X = (new_x_flag != 0)<<8;
-	}
-	else
-		res = src;
-	FLAG_C = FLAG_X;
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-
-#endif
-}
-
-
-void m68k_op_roxl_16_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROL_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxl_16_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROL_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxl_16_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROL_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxl_16_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROL_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxl_16_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROL_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxl_16_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROL_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_roxl_16_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint src = m68ki_read_16(ea);
-	uint res = ROL_17(src | (XFLAG_AS_1() << 16), 1);
-
-	FLAG_C = FLAG_X = res >> 8;
-	res = MASK_OUT_ABOVE_16(res);
-
-	m68ki_write_16(ea, res);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_rtd_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_010_PLUS(CPU_TYPE))
-	{
-		uint new_pc = m68ki_pull_32(cpu);
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		REG_A[7] = MASK_OUT_ABOVE_32(REG_A[7] + MAKE_INT_16(OPER_I_16()));
-		m68ki_jump(cpu, new_pc);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_rte_32(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint new_sr;
-		uint new_pc;
-		uint format_word;
-
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-
-		if(CPU_TYPE_IS_000(CPU_TYPE))
-		{
-			new_sr = m68ki_pull_16(cpu);
-			new_pc = m68ki_pull_32(cpu);
-			m68ki_jump(cpu, new_pc);
-			m68ki_set_sr(cpu, new_sr);
-
-			CPU_INSTR_MODE = INSTRUCTION_YES;
-			CPU_RUN_MODE = RUN_MODE_NORMAL;
-
-			return;
-		}
-
-		if(CPU_TYPE_IS_010(CPU_TYPE))
-		{
-			format_word = m68ki_read_16(REG_A[7]+6) >> 12;
-			if(format_word == 0)
-			{
-				new_sr = m68ki_pull_16(cpu);
-				new_pc = m68ki_pull_32(cpu);
-				m68ki_fake_pull_16(cpu);	/* format word */
-				m68ki_jump(cpu, new_pc);
-				m68ki_set_sr(cpu, new_sr);
-				CPU_INSTR_MODE = INSTRUCTION_YES;
-				CPU_RUN_MODE = RUN_MODE_NORMAL;
-				return;
-			}
-			CPU_INSTR_MODE = INSTRUCTION_YES;
-			CPU_RUN_MODE = RUN_MODE_NORMAL;
-			/* Not handling bus fault (9) */
-			m68ki_exception_format_error(cpu);
-			return;
-		}
-
-		/* Otherwise it's 020 */
-rte_loop:
-		format_word = m68ki_read_16(REG_A[7]+6) >> 12;
-		switch(format_word)
-		{
-			case 0: /* Normal */
-				new_sr = m68ki_pull_16(cpu);
-				new_pc = m68ki_pull_32(cpu);
-				m68ki_fake_pull_16(cpu);	/* format word */
-				m68ki_jump(cpu, new_pc);
-				m68ki_set_sr(cpu, new_sr);
-				CPU_INSTR_MODE = INSTRUCTION_YES;
-				CPU_RUN_MODE = RUN_MODE_NORMAL;
-				return;
-			case 1: /* Throwaway */
-				new_sr = m68ki_pull_16(cpu);
-				m68ki_fake_pull_32(cpu);	/* program counter */
-				m68ki_fake_pull_16(cpu);	/* format word */
-				m68ki_set_sr_noint(cpu, new_sr);
-				goto rte_loop;
-			case 2: /* Trap */
-				new_sr = m68ki_pull_16(cpu);
-				new_pc = m68ki_pull_32(cpu);
-				m68ki_fake_pull_16(cpu);	/* format word */
-				m68ki_fake_pull_32(cpu);	/* address */
-				m68ki_jump(cpu, new_pc);
-				m68ki_set_sr(cpu, new_sr);
-				CPU_INSTR_MODE = INSTRUCTION_YES;
-				CPU_RUN_MODE = RUN_MODE_NORMAL;
-				return;
-		}
-		/* Not handling long or short bus fault */
-		CPU_INSTR_MODE = INSTRUCTION_YES;
-		CPU_RUN_MODE = RUN_MODE_NORMAL;
-		m68ki_exception_format_error(cpu);
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_rtm_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_020_VARIANT(CPU_TYPE))
-	{
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		M68K_DO_LOG((M68K_LOG_FILEHANDLE "%s at %08x: called unimplemented instruction %04x (%s)\n",
-					 m68ki_cpu_names[CPU_TYPE], ADDRESS_68K(REG_PC - 2), REG_IR,
-					 m68k_disassemble_quick(ADDRESS_68K(REG_PC - 2))));
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_rtr_32(m68ki_cpu_core *cpu)
-{
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_set_ccr(cpu, m68ki_pull_16(cpu));
-	m68ki_jump(cpu, m68ki_pull_32(cpu));
-}
-
-
-void m68k_op_rts_32(m68ki_cpu_core *cpu)
-{
-	m68ki_trace_t0();				   /* auto-disable (see m68kcpu.h) */
-	m68ki_jump(cpu, m68ki_pull_32(cpu));
-}
-
-
-void m68k_op_sbcd_8_rr(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = DY;
-	uint dst = *r_dst;
-	uint res = LOW_NIBBLE(dst) - LOW_NIBBLE(src) - XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res -= 6;
-	res += HIGH_NIBBLE(dst) - HIGH_NIBBLE(src);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res += 0xa0;
-
-	res = MASK_OUT_ABOVE_8(res);
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-}
-
-
-void m68k_op_sbcd_8_mm_ax7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_8(cpu);
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(dst) - LOW_NIBBLE(src) - XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res -= 6;
-	res += HIGH_NIBBLE(dst) - HIGH_NIBBLE(src);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res += 0xa0;
-
-	res = MASK_OUT_ABOVE_8(res);
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_sbcd_8_mm_ay7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_A7_PD_8(cpu);
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(dst) - LOW_NIBBLE(src) - XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res -= 6;
-	res += HIGH_NIBBLE(dst) - HIGH_NIBBLE(src);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res += 0xa0;
-
-	res = MASK_OUT_ABOVE_8(res);
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_sbcd_8_mm_axy7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_A7_PD_8(cpu);
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(dst) - LOW_NIBBLE(src) - XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res -= 6;
-	res += HIGH_NIBBLE(dst) - HIGH_NIBBLE(src);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res += 0xa0;
-
-	res = MASK_OUT_ABOVE_8(res);
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_sbcd_8_mm(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_8(cpu);
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = LOW_NIBBLE(dst) - LOW_NIBBLE(src) - XFLAG_AS_1();
-
-	FLAG_V = ~res; /* Undefined V behavior */
-
-	if(res > 9)
-		res -= 6;
-	res += HIGH_NIBBLE(dst) - HIGH_NIBBLE(src);
-	FLAG_X = FLAG_C = (res > 0x99) << 8;
-	if(FLAG_C)
-		res += 0xa0;
-
-	res = MASK_OUT_ABOVE_8(res);
-
-	FLAG_V &= res; /* Undefined V behavior part II */
-	FLAG_N = NFLAG_8(res); /* Undefined N behavior */
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_st_8_d(m68ki_cpu_core *cpu)
-{
-	DY |= 0xff;
-}
-
-
-void m68k_op_st_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), 0xff);
-}
-
-
-void m68k_op_st_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), 0xff);
-}
-
-
-void m68k_op_st_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), 0xff);
-}
-
-
-void m68k_op_st_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), 0xff);
-}
-
-
-void m68k_op_st_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), 0xff);
-}
-
-
-void m68k_op_st_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), 0xff);
-}
-
-
-void m68k_op_st_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), 0xff);
-}
-
-
-void m68k_op_st_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), 0xff);
-}
-
-
-void m68k_op_st_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), 0xff);
-}
-
-
-void m68k_op_sf_8_d(m68ki_cpu_core *cpu)
-{
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_sf_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), 0);
-}
-
-
-void m68k_op_sf_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), 0);
-}
-
-
-void m68k_op_sf_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), 0);
-}
-
-
-void m68k_op_sf_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), 0);
-}
-
-
-void m68k_op_sf_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), 0);
-}
-
-
-void m68k_op_sf_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), 0);
-}
-
-
-void m68k_op_sf_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), 0);
-}
-
-
-void m68k_op_sf_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), 0);
-}
-
-
-void m68k_op_sf_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), 0);
-}
-
-
-void m68k_op_shi_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_HI())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_sls_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_LS())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_scc_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_CC())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_scs_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_CS())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_sne_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_NE())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_seq_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_EQ())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_svc_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_VC())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_svs_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_VS())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_spl_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_PL())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_smi_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_MI())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_sge_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_GE())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_slt_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_LT())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_sgt_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_GT())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_sle_8_d(m68ki_cpu_core *cpu)
-{
-	if(COND_LE())
-	{
-		DY |= 0xff;
-		return;
-	}
-	DY &= 0xffffff00;
-}
-
-
-void m68k_op_shi_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_HI() ? 0xff : 0);
-}
-
-
-void m68k_op_shi_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_HI() ? 0xff : 0);
-}
-
-
-void m68k_op_shi_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_HI() ? 0xff : 0);
-}
-
-
-void m68k_op_shi_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_HI() ? 0xff : 0);
-}
-
-
-void m68k_op_shi_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_HI() ? 0xff : 0);
-}
-
-
-void m68k_op_shi_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_HI() ? 0xff : 0);
-}
-
-
-void m68k_op_shi_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_HI() ? 0xff : 0);
-}
-
-
-void m68k_op_shi_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_HI() ? 0xff : 0);
-}
-
-
-void m68k_op_shi_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_HI() ? 0xff : 0);
-}
-
-
-void m68k_op_sls_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_LS() ? 0xff : 0);
-}
-
-
-void m68k_op_sls_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_LS() ? 0xff : 0);
-}
-
-
-void m68k_op_sls_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_LS() ? 0xff : 0);
-}
-
-
-void m68k_op_sls_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_LS() ? 0xff : 0);
-}
-
-
-void m68k_op_sls_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_LS() ? 0xff : 0);
-}
-
-
-void m68k_op_sls_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_LS() ? 0xff : 0);
-}
-
-
-void m68k_op_sls_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_LS() ? 0xff : 0);
-}
-
-
-void m68k_op_sls_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_LS() ? 0xff : 0);
-}
-
-
-void m68k_op_sls_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_LS() ? 0xff : 0);
-}
-
-
-void m68k_op_scc_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_CC() ? 0xff : 0);
-}
-
-
-void m68k_op_scc_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_CC() ? 0xff : 0);
-}
-
-
-void m68k_op_scc_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_CC() ? 0xff : 0);
-}
-
-
-void m68k_op_scc_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_CC() ? 0xff : 0);
-}
-
-
-void m68k_op_scc_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_CC() ? 0xff : 0);
-}
-
-
-void m68k_op_scc_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_CC() ? 0xff : 0);
-}
-
-
-void m68k_op_scc_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_CC() ? 0xff : 0);
-}
-
-
-void m68k_op_scc_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_CC() ? 0xff : 0);
-}
-
-
-void m68k_op_scc_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_CC() ? 0xff : 0);
-}
-
-
-void m68k_op_scs_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_CS() ? 0xff : 0);
-}
-
-
-void m68k_op_scs_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_CS() ? 0xff : 0);
-}
-
-
-void m68k_op_scs_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_CS() ? 0xff : 0);
-}
-
-
-void m68k_op_scs_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_CS() ? 0xff : 0);
-}
-
-
-void m68k_op_scs_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_CS() ? 0xff : 0);
-}
-
-
-void m68k_op_scs_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_CS() ? 0xff : 0);
-}
-
-
-void m68k_op_scs_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_CS() ? 0xff : 0);
-}
-
-
-void m68k_op_scs_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_CS() ? 0xff : 0);
-}
-
-
-void m68k_op_scs_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_CS() ? 0xff : 0);
-}
-
-
-void m68k_op_sne_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_NE() ? 0xff : 0);
-}
-
-
-void m68k_op_sne_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_NE() ? 0xff : 0);
-}
-
-
-void m68k_op_sne_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_NE() ? 0xff : 0);
-}
-
-
-void m68k_op_sne_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_NE() ? 0xff : 0);
-}
-
-
-void m68k_op_sne_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_NE() ? 0xff : 0);
-}
-
-
-void m68k_op_sne_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_NE() ? 0xff : 0);
-}
-
-
-void m68k_op_sne_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_NE() ? 0xff : 0);
-}
-
-
-void m68k_op_sne_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_NE() ? 0xff : 0);
-}
-
-
-void m68k_op_sne_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_NE() ? 0xff : 0);
-}
-
-
-void m68k_op_seq_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_EQ() ? 0xff : 0);
-}
-
-
-void m68k_op_seq_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_EQ() ? 0xff : 0);
-}
-
-
-void m68k_op_seq_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_EQ() ? 0xff : 0);
-}
-
-
-void m68k_op_seq_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_EQ() ? 0xff : 0);
-}
-
-
-void m68k_op_seq_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_EQ() ? 0xff : 0);
-}
-
-
-void m68k_op_seq_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_EQ() ? 0xff : 0);
-}
-
-
-void m68k_op_seq_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_EQ() ? 0xff : 0);
-}
-
-
-void m68k_op_seq_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_EQ() ? 0xff : 0);
-}
-
-
-void m68k_op_seq_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_EQ() ? 0xff : 0);
-}
-
-
-void m68k_op_svc_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_VC() ? 0xff : 0);
-}
-
-
-void m68k_op_svc_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_VC() ? 0xff : 0);
-}
-
-
-void m68k_op_svc_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_VC() ? 0xff : 0);
-}
-
-
-void m68k_op_svc_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_VC() ? 0xff : 0);
-}
-
-
-void m68k_op_svc_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_VC() ? 0xff : 0);
-}
-
-
-void m68k_op_svc_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_VC() ? 0xff : 0);
-}
-
-
-void m68k_op_svc_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_VC() ? 0xff : 0);
-}
-
-
-void m68k_op_svc_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_VC() ? 0xff : 0);
-}
-
-
-void m68k_op_svc_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_VC() ? 0xff : 0);
-}
-
-
-void m68k_op_svs_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_VS() ? 0xff : 0);
-}
-
-
-void m68k_op_svs_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_VS() ? 0xff : 0);
-}
-
-
-void m68k_op_svs_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_VS() ? 0xff : 0);
-}
-
-
-void m68k_op_svs_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_VS() ? 0xff : 0);
-}
-
-
-void m68k_op_svs_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_VS() ? 0xff : 0);
-}
-
-
-void m68k_op_svs_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_VS() ? 0xff : 0);
-}
-
-
-void m68k_op_svs_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_VS() ? 0xff : 0);
-}
-
-
-void m68k_op_svs_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_VS() ? 0xff : 0);
-}
-
-
-void m68k_op_svs_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_VS() ? 0xff : 0);
-}
-
-
-void m68k_op_spl_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_PL() ? 0xff : 0);
-}
-
-
-void m68k_op_spl_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_PL() ? 0xff : 0);
-}
-
-
-void m68k_op_spl_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_PL() ? 0xff : 0);
-}
-
-
-void m68k_op_spl_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_PL() ? 0xff : 0);
-}
-
-
-void m68k_op_spl_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_PL() ? 0xff : 0);
-}
-
-
-void m68k_op_spl_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_PL() ? 0xff : 0);
-}
-
-
-void m68k_op_spl_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_PL() ? 0xff : 0);
-}
-
-
-void m68k_op_spl_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_PL() ? 0xff : 0);
-}
-
-
-void m68k_op_spl_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_PL() ? 0xff : 0);
-}
-
-
-void m68k_op_smi_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_MI() ? 0xff : 0);
-}
-
-
-void m68k_op_smi_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_MI() ? 0xff : 0);
-}
-
-
-void m68k_op_smi_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_MI() ? 0xff : 0);
-}
-
-
-void m68k_op_smi_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_MI() ? 0xff : 0);
-}
-
-
-void m68k_op_smi_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_MI() ? 0xff : 0);
-}
-
-
-void m68k_op_smi_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_MI() ? 0xff : 0);
-}
-
-
-void m68k_op_smi_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_MI() ? 0xff : 0);
-}
-
-
-void m68k_op_smi_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_MI() ? 0xff : 0);
-}
-
-
-void m68k_op_smi_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_MI() ? 0xff : 0);
-}
-
-
-void m68k_op_sge_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_GE() ? 0xff : 0);
-}
-
-
-void m68k_op_sge_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_GE() ? 0xff : 0);
-}
-
-
-void m68k_op_sge_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_GE() ? 0xff : 0);
-}
-
-
-void m68k_op_sge_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_GE() ? 0xff : 0);
-}
-
-
-void m68k_op_sge_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_GE() ? 0xff : 0);
-}
-
-
-void m68k_op_sge_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_GE() ? 0xff : 0);
-}
-
-
-void m68k_op_sge_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_GE() ? 0xff : 0);
-}
-
-
-void m68k_op_sge_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_GE() ? 0xff : 0);
-}
-
-
-void m68k_op_sge_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_GE() ? 0xff : 0);
-}
-
-
-void m68k_op_slt_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_LT() ? 0xff : 0);
-}
-
-
-void m68k_op_slt_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_LT() ? 0xff : 0);
-}
-
-
-void m68k_op_slt_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_LT() ? 0xff : 0);
-}
-
-
-void m68k_op_slt_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_LT() ? 0xff : 0);
-}
-
-
-void m68k_op_slt_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_LT() ? 0xff : 0);
-}
-
-
-void m68k_op_slt_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_LT() ? 0xff : 0);
-}
-
-
-void m68k_op_slt_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_LT() ? 0xff : 0);
-}
-
-
-void m68k_op_slt_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_LT() ? 0xff : 0);
-}
-
-
-void m68k_op_slt_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_LT() ? 0xff : 0);
-}
-
-
-void m68k_op_sgt_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_GT() ? 0xff : 0);
-}
-
-
-void m68k_op_sgt_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_GT() ? 0xff : 0);
-}
-
-
-void m68k_op_sgt_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_GT() ? 0xff : 0);
-}
-
-
-void m68k_op_sgt_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_GT() ? 0xff : 0);
-}
-
-
-void m68k_op_sgt_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_GT() ? 0xff : 0);
-}
-
-
-void m68k_op_sgt_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_GT() ? 0xff : 0);
-}
-
-
-void m68k_op_sgt_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_GT() ? 0xff : 0);
-}
-
-
-void m68k_op_sgt_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_GT() ? 0xff : 0);
-}
-
-
-void m68k_op_sgt_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_GT() ? 0xff : 0);
-}
-
-
-void m68k_op_sle_8_ai(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_AI_8(), COND_LE() ? 0xff : 0);
-}
-
-
-void m68k_op_sle_8_pi(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PI_8(), COND_LE() ? 0xff : 0);
-}
-
-
-void m68k_op_sle_8_pi7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PI_8(), COND_LE() ? 0xff : 0);
-}
-
-
-void m68k_op_sle_8_pd(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_PD_8(), COND_LE() ? 0xff : 0);
-}
-
-
-void m68k_op_sle_8_pd7(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_A7_PD_8(), COND_LE() ? 0xff : 0);
-}
-
-
-void m68k_op_sle_8_di(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_DI_8(), COND_LE() ? 0xff : 0);
-}
-
-
-void m68k_op_sle_8_ix(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AY_IX_8(), COND_LE() ? 0xff : 0);
-}
-
-
-void m68k_op_sle_8_aw(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AW_8(), COND_LE() ? 0xff : 0);
-}
-
-
-void m68k_op_sle_8_al(m68ki_cpu_core *cpu)
-{
-	m68ki_write_8(EA_AL_8(), COND_LE() ? 0xff : 0);
-}
-
-
-void m68k_op_stop(m68ki_cpu_core *cpu)
-{
-	if(FLAG_S)
-	{
-		uint new_sr = OPER_I_16();
-		m68ki_trace_t0();			   /* auto-disable (see m68kcpu.h) */
-		CPU_STOPPED |= STOP_LEVEL_STOP;
-		m68ki_set_sr(cpu, new_sr);
-		cpu->m68ki_remaining_cycles = 0;
-		return;
-	}
-	m68ki_exception_privilege_violation(cpu);
-}
-
-
-void m68k_op_sub_8_er_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_8(DY);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_8_er_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_AI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_8_er_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_8_er_pi7(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_A7_PI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_8_er_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PD_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_8_er_pd7(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_A7_PD_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_8_er_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_DI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_8_er_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_IX_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_8_er_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AW_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_8_er_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AL_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_8_er_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCDI_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_8_er_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCIX_8(cpu);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_8_er_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_I_8();
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_16_er_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(DY);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_16_er_a(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(AY);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_16_er_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_AI_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_16_er_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PI_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_16_er_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PD_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_16_er_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_DI_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_16_er_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_IX_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_16_er_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AW_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_16_er_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AL_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_16_er_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCDI_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_16_er_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCIX_16(cpu);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_16_er_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_I_16();
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_sub_32_er_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = DY;
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_sub_32_er_a(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = AY;
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_sub_32_er_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_AI_32(cpu);
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_sub_32_er_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PI_32(cpu);
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_sub_32_er_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_PD_32(cpu);
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_sub_32_er_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_DI_32(cpu);
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_sub_32_er_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AY_IX_32(cpu);
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_sub_32_er_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AW_32(cpu);
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_sub_32_er_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_AL_32(cpu);
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_sub_32_er_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCDI_32(cpu);
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_sub_32_er_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_PCIX_32(cpu);
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_sub_32_er_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = OPER_I_32();
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_sub_8_re_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_8_re_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_8_re_pi7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PI_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_8_re_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_8_re_pd7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PD_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_8_re_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_8_re_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_8_re_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_8_re_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_8();
-	uint src = MASK_OUT_ABOVE_8(DX);
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_16_re_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_16_re_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_16_re_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_16_re_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_16_re_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_16_re_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_16_re_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_16();
-	uint src = MASK_OUT_ABOVE_16(DX);
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_32_re_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_32_re_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_32_re_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_32_re_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_32_re_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_32_re_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_sub_32_re_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_32();
-	uint src = DX;
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_suba_16_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(DY));
-}
-
-
-void m68k_op_suba_16_a(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(AY));
-}
-
-
-void m68k_op_suba_16_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(OPER_AY_AI_16(cpu)));
-}
-
-
-void m68k_op_suba_16_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(OPER_AY_PI_16(cpu)));
-}
-
-
-void m68k_op_suba_16_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(OPER_AY_PD_16(cpu)));
-}
-
-
-void m68k_op_suba_16_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(OPER_AY_DI_16(cpu)));
-}
-
-
-void m68k_op_suba_16_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(OPER_AY_IX_16(cpu)));
-}
-
-
-void m68k_op_suba_16_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(OPER_AW_16(cpu)));
-}
-
-
-void m68k_op_suba_16_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(OPER_AL_16(cpu)));
-}
-
-
-void m68k_op_suba_16_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(OPER_PCDI_16(cpu)));
-}
-
-
-void m68k_op_suba_16_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(OPER_PCIX_16(cpu)));
-}
-
-
-void m68k_op_suba_16_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - MAKE_INT_16(OPER_I_16()));
-}
-
-
-void m68k_op_suba_32_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - DY);
-}
-
-
-void m68k_op_suba_32_a(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - AY);
-}
-
-
-void m68k_op_suba_32_ai(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - OPER_AY_AI_32(cpu));
-}
-
-
-void m68k_op_suba_32_pi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - OPER_AY_PI_32(cpu));
-}
-
-
-void m68k_op_suba_32_pd(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - OPER_AY_PD_32(cpu));
-}
-
-
-void m68k_op_suba_32_di(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - OPER_AY_DI_32(cpu));
-}
-
-
-void m68k_op_suba_32_ix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - OPER_AY_IX_32(cpu));
-}
-
-
-void m68k_op_suba_32_aw(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - OPER_AW_32(cpu));
-}
-
-
-void m68k_op_suba_32_al(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - OPER_AL_32(cpu));
-}
-
-
-void m68k_op_suba_32_pcdi(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - OPER_PCDI_32(cpu));
-}
-
-
-void m68k_op_suba_32_pcix(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - OPER_PCIX_32(cpu));
-}
-
-
-void m68k_op_suba_32_i(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AX;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - OPER_I_32());
-}
-
-
-void m68k_op_subi_8_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint src = OPER_I_8();
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_subi_8_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_AI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_8_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_PI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_A7_PI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_8_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_8_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_DI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_8_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AY_IX_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_8_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AW_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_8_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_8();
-	uint ea = EA_AL_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_16_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint src = OPER_I_16();
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_subi_16_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_AI_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_16_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_PI_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_16_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_PD_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_16_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_DI_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_16_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AY_IX_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_16_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AW_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_16_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_16();
-	uint ea = EA_AL_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_32_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint src = OPER_I_32();
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_subi_32_ai(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_AI_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_32_pi(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_PI_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_32_pd(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_PD_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_32_di(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_DI_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_32_ix(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AY_IX_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_32_aw(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AW_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subi_32_al(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_I_32();
-	uint ea = EA_AL_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_8_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_subq_8_ai(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_AI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_8_pi(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_PI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_A7_PI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_8_pd(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_8_di(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_DI_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_8_ix(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_IX_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_8_aw(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AW_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_8_al(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AL_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = MASK_OUT_ABOVE_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	m68ki_write_8(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_16_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | FLAG_Z;
-}
-
-
-void m68k_op_subq_16_a(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AY;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - ((((REG_IR >> 9) - 1) & 7) + 1));
-}
-
-
-void m68k_op_subq_16_ai(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_AI_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_16_pi(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_PI_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_16_pd(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_PD_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_16_di(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_DI_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_16_ix(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_IX_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_16_aw(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AW_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_16_al(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AL_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = MASK_OUT_ABOVE_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	m68ki_write_16(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_32_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint dst = *r_dst;
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	*r_dst = FLAG_Z;
-}
-
-
-void m68k_op_subq_32_a(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AY;
-
-	*r_dst = MASK_OUT_ABOVE_32(*r_dst - ((((REG_IR >> 9) - 1) & 7) + 1));
-}
-
-
-void m68k_op_subq_32_ai(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_AI_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_32_pi(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_PI_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_32_pd(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_PD_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_32_di(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_DI_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_32_ix(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AY_IX_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_32_aw(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AW_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subq_32_al(m68ki_cpu_core *cpu)
-{
-	uint src = (((REG_IR >> 9) - 1) & 7) + 1;
-	uint ea = EA_AL_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = MASK_OUT_ABOVE_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	m68ki_write_32(ea, FLAG_Z);
-}
-
-
-void m68k_op_subx_8_rr(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_8(DY);
-	uint dst = MASK_OUT_ABOVE_8(*r_dst);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_8(*r_dst) | res;
-}
-
-
-void m68k_op_subx_16_rr(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = MASK_OUT_ABOVE_16(DY);
-	uint dst = MASK_OUT_ABOVE_16(*r_dst);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	*r_dst = MASK_OUT_BELOW_16(*r_dst) | res;
-}
-
-
-void m68k_op_subx_32_rr(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DX;
-	uint src = DY;
-	uint dst = *r_dst;
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	*r_dst = res;
-}
-
-
-void m68k_op_subx_8_mm_ax7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_8(cpu);
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_subx_8_mm_ay7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_A7_PD_8(cpu);
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_subx_8_mm_axy7(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_A7_PD_8(cpu);
-	uint ea  = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_subx_8_mm(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_8(cpu);
-	uint ea  = EA_AX_PD_8();
-	uint dst = m68ki_read_8(ea);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_X = FLAG_C = CFLAG_8(res);
-	FLAG_V = VFLAG_SUB_8(src, dst, res);
-
-	res = MASK_OUT_ABOVE_8(res);
-	FLAG_Z |= res;
-
-	m68ki_write_8(ea, res);
-}
-
-
-void m68k_op_subx_16_mm(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_16(cpu);
-	uint ea  = EA_AX_PD_16();
-	uint dst = m68ki_read_16(ea);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_X = FLAG_C = CFLAG_16(res);
-	FLAG_V = VFLAG_SUB_16(src, dst, res);
-
-	res = MASK_OUT_ABOVE_16(res);
-	FLAG_Z |= res;
-
-	m68ki_write_16(ea, res);
-}
-
-
-void m68k_op_subx_32_mm(m68ki_cpu_core *cpu)
-{
-	uint src = OPER_AY_PD_32(cpu);
-	uint ea  = EA_AX_PD_32();
-	uint dst = m68ki_read_32(ea);
-	uint res = dst - src - XFLAG_AS_1();
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_X = FLAG_C = CFLAG_SUB_32(src, dst, res);
-	FLAG_V = VFLAG_SUB_32(src, dst, res);
-
-	res = MASK_OUT_ABOVE_32(res);
-	FLAG_Z |= res;
-
-	m68ki_write_32(ea, res);
-}
-
-
-void m68k_op_swap_32(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-
-	FLAG_Z = MASK_OUT_ABOVE_32(*r_dst<<16);
-	*r_dst = (*r_dst>>16) | FLAG_Z;
-
-	FLAG_Z = *r_dst;
-	FLAG_N = NFLAG_32(*r_dst);
-	FLAG_C = CFLAG_CLEAR;
-	FLAG_V = VFLAG_CLEAR;
-}
-
-
-void m68k_op_tas_8_d(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &DY;
-
-	FLAG_Z = MASK_OUT_ABOVE_8(*r_dst);
-	FLAG_N = NFLAG_8(*r_dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	*r_dst |= 0x80;
-}
-
-
-void m68k_op_tas_8_ai(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_AI_8();
-	uint dst = m68ki_read_8(ea);
-
-	FLAG_Z = dst;
-	FLAG_N = NFLAG_8(dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	m68ki_write_8(ea, dst | 0x80);
-}
-
-
-void m68k_op_tas_8_pi(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PI_8();
-	uint dst = m68ki_read_8(ea);
-
-	FLAG_Z = dst;
-	FLAG_N = NFLAG_8(dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	m68ki_write_8(ea, dst | 0x80);
-}
-
-
-void m68k_op_tas_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PI_8();
-	uint dst = m68ki_read_8(ea);
-
-	FLAG_Z = dst;
-	FLAG_N = NFLAG_8(dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	m68ki_write_8(ea, dst | 0x80);
-}
-
-
-void m68k_op_tas_8_pd(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_PD_8();
-	uint dst = m68ki_read_8(ea);
-
-	FLAG_Z = dst;
-	FLAG_N = NFLAG_8(dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	m68ki_write_8(ea, dst | 0x80);
-}
-
-
-void m68k_op_tas_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_A7_PD_8();
-	uint dst = m68ki_read_8(ea);
-
-	FLAG_Z = dst;
-	FLAG_N = NFLAG_8(dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	m68ki_write_8(ea, dst | 0x80);
-}
-
-
-void m68k_op_tas_8_di(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_DI_8();
-	uint dst = m68ki_read_8(ea);
-
-	FLAG_Z = dst;
-	FLAG_N = NFLAG_8(dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	m68ki_write_8(ea, dst | 0x80);
-}
-
-
-void m68k_op_tas_8_ix(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AY_IX_8();
-	uint dst = m68ki_read_8(ea);
-
-	FLAG_Z = dst;
-	FLAG_N = NFLAG_8(dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	m68ki_write_8(ea, dst | 0x80);
-}
-
-
-void m68k_op_tas_8_aw(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AW_8();
-	uint dst = m68ki_read_8(ea);
-
-	FLAG_Z = dst;
-	FLAG_N = NFLAG_8(dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	m68ki_write_8(ea, dst | 0x80);
-}
-
-
-void m68k_op_tas_8_al(m68ki_cpu_core *cpu)
-{
-	uint ea = EA_AL_8();
-	uint dst = m68ki_read_8(ea);
-
-	FLAG_Z = dst;
-	FLAG_N = NFLAG_8(dst);
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-	m68ki_write_8(ea, dst | 0x80);
-}
-
-
-void m68k_op_trap(m68ki_cpu_core *cpu)
-{
-	/* Trap#n stacks exception frame type 0 */
-	m68ki_exception_trapN(cpu, EXCEPTION_TRAP_BASE + (REG_IR & 0xf));	/* HJB 990403 */
-}
-
-
-void m68k_op_trapt(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapt_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapt_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapf(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapf_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapf_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_traphi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_HI())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapls(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_LS())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapcc(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_CC())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapcs(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_CS())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapne(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_NE())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapeq(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_EQ())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapvc(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_VC())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapvs(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_VS())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trappl(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_PL())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapmi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_MI())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapge(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_GE())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_traplt(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_LT())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapgt(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_GT())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_traple(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_LE())
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_traphi_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_HI())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapls_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_LS())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapcc_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_CC())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapcs_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_CS())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapne_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_NE())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapeq_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_EQ())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapvc_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_VC())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapvs_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_VS())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trappl_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_PL())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapmi_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_MI())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapge_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_GE())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_traplt_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_LT())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapgt_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_GT())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_traple_16(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_LE())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 2;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_traphi_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_HI())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapls_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_LS())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapcc_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_CC())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapcs_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_CS())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapne_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_NE())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapeq_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_EQ())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapvc_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_VC())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapvs_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_VS())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trappl_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_PL())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapmi_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_MI())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapge_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_GE())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_traplt_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_LT())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapgt_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_GT())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_traple_32(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		if(COND_LE())
-		{
-			m68ki_exception_trap(cpu, EXCEPTION_TRAPV);	/* HJB 990403 */
-			return;
-		}
-		REG_PC += 4;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_trapv(m68ki_cpu_core *cpu)
-{
-	if(COND_VC())
-	{
-		return;
-	}
-	m68ki_exception_trap(cpu, EXCEPTION_TRAPV);  /* HJB 990403 */
-}
-
-
-void m68k_op_tst_8_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_8(DY);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_8_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_8(cpu);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_8_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_8(cpu);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_8_pi7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PI_8(cpu);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_8_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_8(cpu);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_8_pd7(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_A7_PD_8(cpu);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_8_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_8(cpu);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_8_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_8(cpu);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_8_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_8(cpu);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_8_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_8(cpu);
-
-	FLAG_N = NFLAG_8(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_8_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_PCDI_8(cpu);
-
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_tst_8_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_PCIX_8(cpu);
-
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_tst_8_i(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_I_8();
-
-		FLAG_N = NFLAG_8(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_tst_16_d(m68ki_cpu_core *cpu)
-{
-	uint res = MASK_OUT_ABOVE_16(DY);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_16_a(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = MAKE_INT_16(AY);
-
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_tst_16_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_16(cpu);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_16_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_16(cpu);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_16_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_16(cpu);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_16_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_16(cpu);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_16_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_16(cpu);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_16_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_16(cpu);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_16_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_16(cpu);
-
-	FLAG_N = NFLAG_16(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_16_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_PCDI_16(cpu);
-
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_tst_16_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_PCIX_16(cpu);
-
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_tst_16_i(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_I_16();
-
-		FLAG_N = NFLAG_16(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_tst_32_d(m68ki_cpu_core *cpu)
-{
-	uint res = DY;
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_32_a(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = AY;
-
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_tst_32_ai(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_AI_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_32_pi(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PI_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_32_pd(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_PD_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_32_di(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_DI_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_32_ix(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AY_IX_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_32_aw(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AW_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_32_al(m68ki_cpu_core *cpu)
-{
-	uint res = OPER_AL_32(cpu);
-
-	FLAG_N = NFLAG_32(res);
-	FLAG_Z = res;
-	FLAG_V = VFLAG_CLEAR;
-	FLAG_C = CFLAG_CLEAR;
-}
-
-
-void m68k_op_tst_32_pcdi(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_PCDI_32(cpu);
-
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_tst_32_pcix(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_PCIX_32(cpu);
-
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_tst_32_i(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint res = OPER_I_32();
-
-		FLAG_N = NFLAG_32(res);
-		FLAG_Z = res;
-		FLAG_V = VFLAG_CLEAR;
-		FLAG_C = CFLAG_CLEAR;
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_unlk_32_a7(m68ki_cpu_core *cpu)
-{
-	REG_A[7] = m68ki_read_32(REG_A[7]);
-}
-
-
-void m68k_op_unlk_32(m68ki_cpu_core *cpu)
-{
-	uint* r_dst = &AY;
-
-	REG_A[7] = *r_dst;
-	*r_dst = m68ki_pull_32(cpu);
-}
-
-
-void m68k_op_unpk_16_rr(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: DX and DY are reversed in Motorola's docs */
-		uint src = DY;
-		uint* r_dst = &DX;
-
-		*r_dst = MASK_OUT_BELOW_16(*r_dst) | (((((src << 4) & 0x0f00) | (src & 0x000f)) + OPER_I_16()) & 0xffff);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_unpk_16_mm_ax7(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: AX and AY are reversed in Motorola's docs */
-		uint src = OPER_AY_PD_8(cpu);
-		uint ea_dst;
-
-		src = (((src << 4) & 0x0f00) | (src & 0x000f)) + OPER_I_16();
-		ea_dst = EA_A7_PD_8();
-		m68ki_write_8(ea_dst, (src >> 8) & 0xff);
-		ea_dst = EA_A7_PD_8();
-		m68ki_write_8(ea_dst, src & 0xff);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_unpk_16_mm_ay7(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: AX and AY are reversed in Motorola's docs */
-		uint src = OPER_A7_PD_8(cpu);
-		uint ea_dst;
-
-		src = (((src << 4) & 0x0f00) | (src & 0x000f)) + OPER_I_16();
-		ea_dst = EA_AX_PD_8();
-		m68ki_write_8(ea_dst, (src >> 8) & 0xff);
-		ea_dst = EA_AX_PD_8();
-		m68ki_write_8(ea_dst, src & 0xff);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_unpk_16_mm_axy7(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		uint src = OPER_A7_PD_8(cpu);
-		uint ea_dst;
-
-		src = (((src << 4) & 0x0f00) | (src & 0x000f)) + OPER_I_16();
-		ea_dst = EA_A7_PD_8();
-		m68ki_write_8(ea_dst, (src >> 8) & 0xff);
-		ea_dst = EA_A7_PD_8();
-		m68ki_write_8(ea_dst, src & 0xff);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-void m68k_op_unpk_16_mm(m68ki_cpu_core *cpu)
-{
-	if(CPU_TYPE_IS_EC020_PLUS(CPU_TYPE))
-	{
-		/* Note: AX and AY are reversed in Motorola's docs */
-		uint src = OPER_AY_PD_8(cpu);
-		uint ea_dst;
-
-		src = (((src << 4) & 0x0f00) | (src & 0x000f)) + OPER_I_16();
-		ea_dst = EA_AX_PD_8();
-		m68ki_write_8(ea_dst, (src >> 8) & 0xff);
-		ea_dst = EA_AX_PD_8();
-		m68ki_write_8(ea_dst, src & 0xff);
-		return;
-	}
-	m68ki_exception_illegal(cpu);
-}
-
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
-
-
diff --git a/plugins/ao/eng_ssf/m68kops.c b/plugins/ao/eng_ssf/m68kops.c
deleted file mode 100644
index 77c93816..00000000
--- a/plugins/ao/eng_ssf/m68kops.c
+++ /dev/null
@@ -1,2093 +0,0 @@
-/* ======================================================================== */
-/* ========================= OPCODE TABLE BUILDER ========================= */
-/* ======================================================================== */
-
-#include "m68kops.h"
-
-#define NUM_CPU_TYPES 3
-
-void  (*m68ki_instruction_jump_table[0x10000])(m68ki_cpu_core *cpu); /* opcode handler jump table */
-unsigned char m68ki_cycles[NUM_CPU_TYPES][0x10000]; /* Cycles used by CPU type */
-
-/* This is used to generate the opcode handler jump table */
-typedef struct
-{
-	void (*opcode_handler)(m68ki_cpu_core *cpu);        /* handler function */
-	unsigned int  mask;                  /* mask on opcode */
-	unsigned int  match;                 /* what to match after masking */
-	unsigned char cycles[NUM_CPU_TYPES]; /* cycles each cpu type takes */
-} opcode_handler_struct;
-
-
-/* Opcode handler table */
-static opcode_handler_struct m68k_opcode_handler_table[] =
-{
-/*   function                      mask    match    000  010  020 */
-	{m68k_op_1010                , 0xf000, 0xa000, {  4,   4,   4}},
-	{m68k_op_1111                , 0xf000, 0xf000, {  4,   4,   4}},
-	{m68k_op_moveq_32            , 0xf100, 0x7000, {  4,   4,   2}},
-	{m68k_op_cpbcc_32            , 0xf180, 0xf080, {  0,   0,   4}},
-	{m68k_op_cpgen_32            , 0xf1c0, 0xf000, {  0,   0,   4}},
-	{m68k_op_cpscc_32            , 0xf1c0, 0xf040, {  0,   0,   4}},
-	{m68k_op_bra_8               , 0xff00, 0x6000, { 10,  10,  10}},
-	{m68k_op_bsr_8               , 0xff00, 0x6100, { 18,  18,   7}},
-	{m68k_op_bhi_8               , 0xff00, 0x6200, {  8,   8,   6}},
-	{m68k_op_bls_8               , 0xff00, 0x6300, {  8,   8,   6}},
-	{m68k_op_bcc_8               , 0xff00, 0x6400, {  8,   8,   6}},
-	{m68k_op_bcs_8               , 0xff00, 0x6500, {  8,   8,   6}},
-	{m68k_op_bne_8               , 0xff00, 0x6600, {  8,   8,   6}},
-	{m68k_op_beq_8               , 0xff00, 0x6700, {  8,   8,   6}},
-	{m68k_op_bvc_8               , 0xff00, 0x6800, {  8,   8,   6}},
-	{m68k_op_bvs_8               , 0xff00, 0x6900, {  8,   8,   6}},
-	{m68k_op_bpl_8               , 0xff00, 0x6a00, {  8,   8,   6}},
-	{m68k_op_bmi_8               , 0xff00, 0x6b00, {  8,   8,   6}},
-	{m68k_op_bge_8               , 0xff00, 0x6c00, {  8,   8,   6}},
-	{m68k_op_blt_8               , 0xff00, 0x6d00, {  8,   8,   6}},
-	{m68k_op_bgt_8               , 0xff00, 0x6e00, {  8,   8,   6}},
-	{m68k_op_ble_8               , 0xff00, 0x6f00, {  8,   8,   6}},
-	{m68k_op_btst_32_r_d         , 0xf1f8, 0x0100, {  6,   6,   4}},
-	{m68k_op_movep_16_er         , 0xf1f8, 0x0108, { 16,  16,  12}},
-	{m68k_op_btst_8_r_ai         , 0xf1f8, 0x0110, {  8,   8,   8}},
-	{m68k_op_btst_8_r_pi         , 0xf1f8, 0x0118, {  8,   8,   8}},
-	{m68k_op_btst_8_r_pd         , 0xf1f8, 0x0120, { 10,  10,   9}},
-	{m68k_op_btst_8_r_di         , 0xf1f8, 0x0128, { 12,  12,   9}},
-	{m68k_op_btst_8_r_ix         , 0xf1f8, 0x0130, { 14,  14,  11}},
-	{m68k_op_bchg_32_r_d         , 0xf1f8, 0x0140, {  8,   8,   4}},
-	{m68k_op_movep_32_er         , 0xf1f8, 0x0148, { 24,  24,  18}},
-	{m68k_op_bchg_8_r_ai         , 0xf1f8, 0x0150, { 12,  12,   8}},
-	{m68k_op_bchg_8_r_pi         , 0xf1f8, 0x0158, { 12,  12,   8}},
-	{m68k_op_bchg_8_r_pd         , 0xf1f8, 0x0160, { 14,  14,   9}},
-	{m68k_op_bchg_8_r_di         , 0xf1f8, 0x0168, { 16,  16,   9}},
-	{m68k_op_bchg_8_r_ix         , 0xf1f8, 0x0170, { 18,  18,  11}},
-	{m68k_op_bclr_32_r_d         , 0xf1f8, 0x0180, { 10,  10,   4}},
-	{m68k_op_movep_16_re         , 0xf1f8, 0x0188, { 16,  16,  11}},
-	{m68k_op_bclr_8_r_ai         , 0xf1f8, 0x0190, { 12,  14,   8}},
-	{m68k_op_bclr_8_r_pi         , 0xf1f8, 0x0198, { 12,  14,   8}},
-	{m68k_op_bclr_8_r_pd         , 0xf1f8, 0x01a0, { 14,  16,   9}},
-	{m68k_op_bclr_8_r_di         , 0xf1f8, 0x01a8, { 16,  18,   9}},
-	{m68k_op_bclr_8_r_ix         , 0xf1f8, 0x01b0, { 18,  20,  11}},
-	{m68k_op_bset_32_r_d         , 0xf1f8, 0x01c0, {  8,   8,   4}},
-	{m68k_op_movep_32_re         , 0xf1f8, 0x01c8, { 24,  24,  17}},
-	{m68k_op_bset_8_r_ai         , 0xf1f8, 0x01d0, { 12,  12,   8}},
-	{m68k_op_bset_8_r_pi         , 0xf1f8, 0x01d8, { 12,  12,   8}},
-	{m68k_op_bset_8_r_pd         , 0xf1f8, 0x01e0, { 14,  14,   9}},
-	{m68k_op_bset_8_r_di         , 0xf1f8, 0x01e8, { 16,  16,   9}},
-	{m68k_op_bset_8_r_ix         , 0xf1f8, 0x01f0, { 18,  18,  11}},
-	{m68k_op_move_8_d_d          , 0xf1f8, 0x1000, {  4,   4,   2}},
-	{m68k_op_move_8_d_ai         , 0xf1f8, 0x1010, {  8,   8,   6}},
-	{m68k_op_move_8_d_pi         , 0xf1f8, 0x1018, {  8,   8,   6}},
-	{m68k_op_move_8_d_pd         , 0xf1f8, 0x1020, { 10,  10,   7}},
-	{m68k_op_move_8_d_di         , 0xf1f8, 0x1028, { 12,  12,   7}},
-	{m68k_op_move_8_d_ix         , 0xf1f8, 0x1030, { 14,  14,   9}},
-	{m68k_op_move_8_ai_d         , 0xf1f8, 0x1080, {  8,   8,   4}},
-	{m68k_op_move_8_ai_ai        , 0xf1f8, 0x1090, { 12,  12,   8}},
-	{m68k_op_move_8_ai_pi        , 0xf1f8, 0x1098, { 12,  12,   8}},
-	{m68k_op_move_8_ai_pd        , 0xf1f8, 0x10a0, { 14,  14,   9}},
-	{m68k_op_move_8_ai_di        , 0xf1f8, 0x10a8, { 16,  16,   9}},
-	{m68k_op_move_8_ai_ix        , 0xf1f8, 0x10b0, { 18,  18,  11}},
-	{m68k_op_move_8_pi_d         , 0xf1f8, 0x10c0, {  8,   8,   4}},
-	{m68k_op_move_8_pi_ai        , 0xf1f8, 0x10d0, { 12,  12,   8}},
-	{m68k_op_move_8_pi_pi        , 0xf1f8, 0x10d8, { 12,  12,   8}},
-	{m68k_op_move_8_pi_pd        , 0xf1f8, 0x10e0, { 14,  14,   9}},
-	{m68k_op_move_8_pi_di        , 0xf1f8, 0x10e8, { 16,  16,   9}},
-	{m68k_op_move_8_pi_ix        , 0xf1f8, 0x10f0, { 18,  18,  11}},
-	{m68k_op_move_8_pd_d         , 0xf1f8, 0x1100, {  8,   8,   5}},
-	{m68k_op_move_8_pd_ai        , 0xf1f8, 0x1110, { 12,  12,   9}},
-	{m68k_op_move_8_pd_pi        , 0xf1f8, 0x1118, { 12,  12,   9}},
-	{m68k_op_move_8_pd_pd        , 0xf1f8, 0x1120, { 14,  14,  10}},
-	{m68k_op_move_8_pd_di        , 0xf1f8, 0x1128, { 16,  16,  10}},
-	{m68k_op_move_8_pd_ix        , 0xf1f8, 0x1130, { 18,  18,  12}},
-	{m68k_op_move_8_di_d         , 0xf1f8, 0x1140, { 12,  12,   5}},
-	{m68k_op_move_8_di_ai        , 0xf1f8, 0x1150, { 16,  16,   9}},
-	{m68k_op_move_8_di_pi        , 0xf1f8, 0x1158, { 16,  16,   9}},
-	{m68k_op_move_8_di_pd        , 0xf1f8, 0x1160, { 18,  18,  10}},
-	{m68k_op_move_8_di_di        , 0xf1f8, 0x1168, { 20,  20,  10}},
-	{m68k_op_move_8_di_ix        , 0xf1f8, 0x1170, { 22,  22,  12}},
-	{m68k_op_move_8_ix_d         , 0xf1f8, 0x1180, { 14,  14,   7}},
-	{m68k_op_move_8_ix_ai        , 0xf1f8, 0x1190, { 18,  18,  11}},
-	{m68k_op_move_8_ix_pi        , 0xf1f8, 0x1198, { 18,  18,  11}},
-	{m68k_op_move_8_ix_pd        , 0xf1f8, 0x11a0, { 20,  20,  12}},
-	{m68k_op_move_8_ix_di        , 0xf1f8, 0x11a8, { 22,  22,  12}},
-	{m68k_op_move_8_ix_ix        , 0xf1f8, 0x11b0, { 24,  24,  14}},
-	{m68k_op_move_32_d_d         , 0xf1f8, 0x2000, {  4,   4,   2}},
-	{m68k_op_move_32_d_a         , 0xf1f8, 0x2008, {  4,   4,   2}},
-	{m68k_op_move_32_d_ai        , 0xf1f8, 0x2010, { 12,  12,   6}},
-	{m68k_op_move_32_d_pi        , 0xf1f8, 0x2018, { 12,  12,   6}},
-	{m68k_op_move_32_d_pd        , 0xf1f8, 0x2020, { 14,  14,   7}},
-	{m68k_op_move_32_d_di        , 0xf1f8, 0x2028, { 16,  16,   7}},
-	{m68k_op_move_32_d_ix        , 0xf1f8, 0x2030, { 18,  18,   9}},
-	{m68k_op_movea_32_d          , 0xf1f8, 0x2040, {  4,   4,   2}},
-	{m68k_op_movea_32_a          , 0xf1f8, 0x2048, {  4,   4,   2}},
-	{m68k_op_movea_32_ai         , 0xf1f8, 0x2050, { 12,  12,   6}},
-	{m68k_op_movea_32_pi         , 0xf1f8, 0x2058, { 12,  12,   6}},
-	{m68k_op_movea_32_pd         , 0xf1f8, 0x2060, { 14,  14,   7}},
-	{m68k_op_movea_32_di         , 0xf1f8, 0x2068, { 16,  16,   7}},
-	{m68k_op_movea_32_ix         , 0xf1f8, 0x2070, { 18,  18,   9}},
-	{m68k_op_move_32_ai_d        , 0xf1f8, 0x2080, { 12,  12,   4}},
-	{m68k_op_move_32_ai_a        , 0xf1f8, 0x2088, { 12,  12,   4}},
-	{m68k_op_move_32_ai_ai       , 0xf1f8, 0x2090, { 20,  20,   8}},
-	{m68k_op_move_32_ai_pi       , 0xf1f8, 0x2098, { 20,  20,   8}},
-	{m68k_op_move_32_ai_pd       , 0xf1f8, 0x20a0, { 22,  22,   9}},
-	{m68k_op_move_32_ai_di       , 0xf1f8, 0x20a8, { 24,  24,   9}},
-	{m68k_op_move_32_ai_ix       , 0xf1f8, 0x20b0, { 26,  26,  11}},
-	{m68k_op_move_32_pi_d        , 0xf1f8, 0x20c0, { 12,  12,   4}},
-	{m68k_op_move_32_pi_a        , 0xf1f8, 0x20c8, { 12,  12,   4}},
-	{m68k_op_move_32_pi_ai       , 0xf1f8, 0x20d0, { 20,  20,   8}},
-	{m68k_op_move_32_pi_pi       , 0xf1f8, 0x20d8, { 20,  20,   8}},
-	{m68k_op_move_32_pi_pd       , 0xf1f8, 0x20e0, { 22,  22,   9}},
-	{m68k_op_move_32_pi_di       , 0xf1f8, 0x20e8, { 24,  24,   9}},
-	{m68k_op_move_32_pi_ix       , 0xf1f8, 0x20f0, { 26,  26,  11}},
-	{m68k_op_move_32_pd_d        , 0xf1f8, 0x2100, { 12,  14,   5}},
-	{m68k_op_move_32_pd_a        , 0xf1f8, 0x2108, { 12,  14,   5}},
-	{m68k_op_move_32_pd_ai       , 0xf1f8, 0x2110, { 20,  22,   9}},
-	{m68k_op_move_32_pd_pi       , 0xf1f8, 0x2118, { 20,  22,   9}},
-	{m68k_op_move_32_pd_pd       , 0xf1f8, 0x2120, { 22,  24,  10}},
-	{m68k_op_move_32_pd_di       , 0xf1f8, 0x2128, { 24,  26,  10}},
-	{m68k_op_move_32_pd_ix       , 0xf1f8, 0x2130, { 26,  28,  12}},
-	{m68k_op_move_32_di_d        , 0xf1f8, 0x2140, { 16,  16,   5}},
-	{m68k_op_move_32_di_a        , 0xf1f8, 0x2148, { 16,  16,   5}},
-	{m68k_op_move_32_di_ai       , 0xf1f8, 0x2150, { 24,  24,   9}},
-	{m68k_op_move_32_di_pi       , 0xf1f8, 0x2158, { 24,  24,   9}},
-	{m68k_op_move_32_di_pd       , 0xf1f8, 0x2160, { 26,  26,  10}},
-	{m68k_op_move_32_di_di       , 0xf1f8, 0x2168, { 28,  28,  10}},
-	{m68k_op_move_32_di_ix       , 0xf1f8, 0x2170, { 30,  30,  12}},
-	{m68k_op_move_32_ix_d        , 0xf1f8, 0x2180, { 18,  18,   7}},
-	{m68k_op_move_32_ix_a        , 0xf1f8, 0x2188, { 18,  18,   7}},
-	{m68k_op_move_32_ix_ai       , 0xf1f8, 0x2190, { 26,  26,  11}},
-	{m68k_op_move_32_ix_pi       , 0xf1f8, 0x2198, { 26,  26,  11}},
-	{m68k_op_move_32_ix_pd       , 0xf1f8, 0x21a0, { 28,  28,  12}},
-	{m68k_op_move_32_ix_di       , 0xf1f8, 0x21a8, { 30,  30,  12}},
-	{m68k_op_move_32_ix_ix       , 0xf1f8, 0x21b0, { 32,  32,  14}},
-	{m68k_op_move_16_d_d         , 0xf1f8, 0x3000, {  4,   4,   2}},
-	{m68k_op_move_16_d_a         , 0xf1f8, 0x3008, {  4,   4,   2}},
-	{m68k_op_move_16_d_ai        , 0xf1f8, 0x3010, {  8,   8,   6}},
-	{m68k_op_move_16_d_pi        , 0xf1f8, 0x3018, {  8,   8,   6}},
-	{m68k_op_move_16_d_pd        , 0xf1f8, 0x3020, { 10,  10,   7}},
-	{m68k_op_move_16_d_di        , 0xf1f8, 0x3028, { 12,  12,   7}},
-	{m68k_op_move_16_d_ix        , 0xf1f8, 0x3030, { 14,  14,   9}},
-	{m68k_op_movea_16_d          , 0xf1f8, 0x3040, {  4,   4,   2}},
-	{m68k_op_movea_16_a          , 0xf1f8, 0x3048, {  4,   4,   2}},
-	{m68k_op_movea_16_ai         , 0xf1f8, 0x3050, {  8,   8,   6}},
-	{m68k_op_movea_16_pi         , 0xf1f8, 0x3058, {  8,   8,   6}},
-	{m68k_op_movea_16_pd         , 0xf1f8, 0x3060, { 10,  10,   7}},
-	{m68k_op_movea_16_di         , 0xf1f8, 0x3068, { 12,  12,   7}},
-	{m68k_op_movea_16_ix         , 0xf1f8, 0x3070, { 14,  14,   9}},
-	{m68k_op_move_16_ai_d        , 0xf1f8, 0x3080, {  8,   8,   4}},
-	{m68k_op_move_16_ai_a        , 0xf1f8, 0x3088, {  8,   8,   4}},
-	{m68k_op_move_16_ai_ai       , 0xf1f8, 0x3090, { 12,  12,   8}},
-	{m68k_op_move_16_ai_pi       , 0xf1f8, 0x3098, { 12,  12,   8}},
-	{m68k_op_move_16_ai_pd       , 0xf1f8, 0x30a0, { 14,  14,   9}},
-	{m68k_op_move_16_ai_di       , 0xf1f8, 0x30a8, { 16,  16,   9}},
-	{m68k_op_move_16_ai_ix       , 0xf1f8, 0x30b0, { 18,  18,  11}},
-	{m68k_op_move_16_pi_d        , 0xf1f8, 0x30c0, {  8,   8,   4}},
-	{m68k_op_move_16_pi_a        , 0xf1f8, 0x30c8, {  8,   8,   4}},
-	{m68k_op_move_16_pi_ai       , 0xf1f8, 0x30d0, { 12,  12,   8}},
-	{m68k_op_move_16_pi_pi       , 0xf1f8, 0x30d8, { 12,  12,   8}},
-	{m68k_op_move_16_pi_pd       , 0xf1f8, 0x30e0, { 14,  14,   9}},
-	{m68k_op_move_16_pi_di       , 0xf1f8, 0x30e8, { 16,  16,   9}},
-	{m68k_op_move_16_pi_ix       , 0xf1f8, 0x30f0, { 18,  18,  11}},
-	{m68k_op_move_16_pd_d        , 0xf1f8, 0x3100, {  8,   8,   5}},
-	{m68k_op_move_16_pd_a        , 0xf1f8, 0x3108, {  8,   8,   5}},
-	{m68k_op_move_16_pd_ai       , 0xf1f8, 0x3110, { 12,  12,   9}},
-	{m68k_op_move_16_pd_pi       , 0xf1f8, 0x3118, { 12,  12,   9}},
-	{m68k_op_move_16_pd_pd       , 0xf1f8, 0x3120, { 14,  14,  10}},
-	{m68k_op_move_16_pd_di       , 0xf1f8, 0x3128, { 16,  16,  10}},
-	{m68k_op_move_16_pd_ix       , 0xf1f8, 0x3130, { 18,  18,  12}},
-	{m68k_op_move_16_di_d        , 0xf1f8, 0x3140, { 12,  12,   5}},
-	{m68k_op_move_16_di_a        , 0xf1f8, 0x3148, { 12,  12,   5}},
-	{m68k_op_move_16_di_ai       , 0xf1f8, 0x3150, { 16,  16,   9}},
-	{m68k_op_move_16_di_pi       , 0xf1f8, 0x3158, { 16,  16,   9}},
-	{m68k_op_move_16_di_pd       , 0xf1f8, 0x3160, { 18,  18,  10}},
-	{m68k_op_move_16_di_di       , 0xf1f8, 0x3168, { 20,  20,  10}},
-	{m68k_op_move_16_di_ix       , 0xf1f8, 0x3170, { 22,  22,  12}},
-	{m68k_op_move_16_ix_d        , 0xf1f8, 0x3180, { 14,  14,   7}},
-	{m68k_op_move_16_ix_a        , 0xf1f8, 0x3188, { 14,  14,   7}},
-	{m68k_op_move_16_ix_ai       , 0xf1f8, 0x3190, { 18,  18,  11}},
-	{m68k_op_move_16_ix_pi       , 0xf1f8, 0x3198, { 18,  18,  11}},
-	{m68k_op_move_16_ix_pd       , 0xf1f8, 0x31a0, { 20,  20,  12}},
-	{m68k_op_move_16_ix_di       , 0xf1f8, 0x31a8, { 22,  22,  12}},
-	{m68k_op_move_16_ix_ix       , 0xf1f8, 0x31b0, { 24,  24,  14}},
-	{m68k_op_chk_32_d            , 0xf1f8, 0x4100, {  0,   0,   8}},
-	{m68k_op_chk_32_ai           , 0xf1f8, 0x4110, {  0,   0,  12}},
-	{m68k_op_chk_32_pi           , 0xf1f8, 0x4118, {  0,   0,  12}},
-	{m68k_op_chk_32_pd           , 0xf1f8, 0x4120, {  0,   0,  13}},
-	{m68k_op_chk_32_di           , 0xf1f8, 0x4128, {  0,   0,  13}},
-	{m68k_op_chk_32_ix           , 0xf1f8, 0x4130, {  0,   0,  15}},
-	{m68k_op_chk_16_d            , 0xf1f8, 0x4180, { 10,   8,   8}},
-	{m68k_op_chk_16_ai           , 0xf1f8, 0x4190, { 14,  12,  12}},
-	{m68k_op_chk_16_pi           , 0xf1f8, 0x4198, { 14,  12,  12}},
-	{m68k_op_chk_16_pd           , 0xf1f8, 0x41a0, { 16,  14,  13}},
-	{m68k_op_chk_16_di           , 0xf1f8, 0x41a8, { 18,  16,  13}},
-	{m68k_op_chk_16_ix           , 0xf1f8, 0x41b0, { 20,  18,  15}},
-	{m68k_op_lea_32_ai           , 0xf1f8, 0x41d0, {  4,   4,   6}},
-	{m68k_op_lea_32_di           , 0xf1f8, 0x41e8, {  8,   8,   7}},
-	{m68k_op_lea_32_ix           , 0xf1f8, 0x41f0, { 12,  12,   9}},
-	{m68k_op_addq_8_d            , 0xf1f8, 0x5000, {  4,   4,   2}},
-	{m68k_op_addq_8_ai           , 0xf1f8, 0x5010, { 12,  12,   8}},
-	{m68k_op_addq_8_pi           , 0xf1f8, 0x5018, { 12,  12,   8}},
-	{m68k_op_addq_8_pd           , 0xf1f8, 0x5020, { 14,  14,   9}},
-	{m68k_op_addq_8_di           , 0xf1f8, 0x5028, { 16,  16,   9}},
-	{m68k_op_addq_8_ix           , 0xf1f8, 0x5030, { 18,  18,  11}},
-	{m68k_op_addq_16_d           , 0xf1f8, 0x5040, {  4,   4,   2}},
-	{m68k_op_addq_16_a           , 0xf1f8, 0x5048, {  4,   4,   2}},
-	{m68k_op_addq_16_ai          , 0xf1f8, 0x5050, { 12,  12,   8}},
-	{m68k_op_addq_16_pi          , 0xf1f8, 0x5058, { 12,  12,   8}},
-	{m68k_op_addq_16_pd          , 0xf1f8, 0x5060, { 14,  14,   9}},
-	{m68k_op_addq_16_di          , 0xf1f8, 0x5068, { 16,  16,   9}},
-	{m68k_op_addq_16_ix          , 0xf1f8, 0x5070, { 18,  18,  11}},
-	{m68k_op_addq_32_d           , 0xf1f8, 0x5080, {  8,   8,   2}},
-	{m68k_op_addq_32_a           , 0xf1f8, 0x5088, {  8,   8,   2}},
-	{m68k_op_addq_32_ai          , 0xf1f8, 0x5090, { 20,  20,   8}},
-	{m68k_op_addq_32_pi          , 0xf1f8, 0x5098, { 20,  20,   8}},
-	{m68k_op_addq_32_pd          , 0xf1f8, 0x50a0, { 22,  22,   9}},
-	{m68k_op_addq_32_di          , 0xf1f8, 0x50a8, { 24,  24,   9}},
-	{m68k_op_addq_32_ix          , 0xf1f8, 0x50b0, { 26,  26,  11}},
-	{m68k_op_subq_8_d            , 0xf1f8, 0x5100, {  4,   4,   2}},
-	{m68k_op_subq_8_ai           , 0xf1f8, 0x5110, { 12,  12,   8}},
-	{m68k_op_subq_8_pi           , 0xf1f8, 0x5118, { 12,  12,   8}},
-	{m68k_op_subq_8_pd           , 0xf1f8, 0x5120, { 14,  14,   9}},
-	{m68k_op_subq_8_di           , 0xf1f8, 0x5128, { 16,  16,   9}},
-	{m68k_op_subq_8_ix           , 0xf1f8, 0x5130, { 18,  18,  11}},
-	{m68k_op_subq_16_d           , 0xf1f8, 0x5140, {  4,   4,   2}},
-	{m68k_op_subq_16_a           , 0xf1f8, 0x5148, {  8,   4,   2}},
-	{m68k_op_subq_16_ai          , 0xf1f8, 0x5150, { 12,  12,   8}},
-	{m68k_op_subq_16_pi          , 0xf1f8, 0x5158, { 12,  12,   8}},
-	{m68k_op_subq_16_pd          , 0xf1f8, 0x5160, { 14,  14,   9}},
-	{m68k_op_subq_16_di          , 0xf1f8, 0x5168, { 16,  16,   9}},
-	{m68k_op_subq_16_ix          , 0xf1f8, 0x5170, { 18,  18,  11}},
-	{m68k_op_subq_32_d           , 0xf1f8, 0x5180, {  8,   8,   2}},
-	{m68k_op_subq_32_a           , 0xf1f8, 0x5188, {  8,   8,   2}},
-	{m68k_op_subq_32_ai          , 0xf1f8, 0x5190, { 20,  20,   8}},
-	{m68k_op_subq_32_pi          , 0xf1f8, 0x5198, { 20,  20,   8}},
-	{m68k_op_subq_32_pd          , 0xf1f8, 0x51a0, { 22,  22,   9}},
-	{m68k_op_subq_32_di          , 0xf1f8, 0x51a8, { 24,  24,   9}},
-	{m68k_op_subq_32_ix          , 0xf1f8, 0x51b0, { 26,  26,  11}},
-	{m68k_op_or_8_er_d           , 0xf1f8, 0x8000, {  4,   4,   2}},
-	{m68k_op_or_8_er_ai          , 0xf1f8, 0x8010, {  8,   8,   6}},
-	{m68k_op_or_8_er_pi          , 0xf1f8, 0x8018, {  8,   8,   6}},
-	{m68k_op_or_8_er_pd          , 0xf1f8, 0x8020, { 10,  10,   7}},
-	{m68k_op_or_8_er_di          , 0xf1f8, 0x8028, { 12,  12,   7}},
-	{m68k_op_or_8_er_ix          , 0xf1f8, 0x8030, { 14,  14,   9}},
-	{m68k_op_or_16_er_d          , 0xf1f8, 0x8040, {  4,   4,   2}},
-	{m68k_op_or_16_er_ai         , 0xf1f8, 0x8050, {  8,   8,   6}},
-	{m68k_op_or_16_er_pi         , 0xf1f8, 0x8058, {  8,   8,   6}},
-	{m68k_op_or_16_er_pd         , 0xf1f8, 0x8060, { 10,  10,   7}},
-	{m68k_op_or_16_er_di         , 0xf1f8, 0x8068, { 12,  12,   7}},
-	{m68k_op_or_16_er_ix         , 0xf1f8, 0x8070, { 14,  14,   9}},
-	{m68k_op_or_32_er_d          , 0xf1f8, 0x8080, {  6,   6,   2}},
-	{m68k_op_or_32_er_ai         , 0xf1f8, 0x8090, { 14,  14,   6}},
-	{m68k_op_or_32_er_pi         , 0xf1f8, 0x8098, { 14,  14,   6}},
-	{m68k_op_or_32_er_pd         , 0xf1f8, 0x80a0, { 16,  16,   7}},
-	{m68k_op_or_32_er_di         , 0xf1f8, 0x80a8, { 18,  18,   7}},
-	{m68k_op_or_32_er_ix         , 0xf1f8, 0x80b0, { 20,  20,   9}},
-	{m68k_op_divu_16_d           , 0xf1f8, 0x80c0, {140, 108,  44}},
-	{m68k_op_divu_16_ai          , 0xf1f8, 0x80d0, {144, 112,  48}},
-	{m68k_op_divu_16_pi          , 0xf1f8, 0x80d8, {144, 112,  48}},
-	{m68k_op_divu_16_pd          , 0xf1f8, 0x80e0, {146, 114,  49}},
-	{m68k_op_divu_16_di          , 0xf1f8, 0x80e8, {148, 116,  49}},
-	{m68k_op_divu_16_ix          , 0xf1f8, 0x80f0, {150, 118,  51}},
-	{m68k_op_sbcd_8_rr           , 0xf1f8, 0x8100, {  6,   6,   4}},
-	{m68k_op_sbcd_8_mm           , 0xf1f8, 0x8108, { 18,  18,  16}},
-	{m68k_op_or_8_re_ai          , 0xf1f8, 0x8110, { 12,  12,   8}},
-	{m68k_op_or_8_re_pi          , 0xf1f8, 0x8118, { 12,  12,   8}},
-	{m68k_op_or_8_re_pd          , 0xf1f8, 0x8120, { 14,  14,   9}},
-	{m68k_op_or_8_re_di          , 0xf1f8, 0x8128, { 16,  16,   9}},
-	{m68k_op_or_8_re_ix          , 0xf1f8, 0x8130, { 18,  18,  11}},
-	{m68k_op_pack_16_rr          , 0xf1f8, 0x8140, {  0,   0,   6}},
-	{m68k_op_pack_16_mm          , 0xf1f8, 0x8148, {  0,   0,  13}},
-	{m68k_op_or_16_re_ai         , 0xf1f8, 0x8150, { 12,  12,   8}},
-	{m68k_op_or_16_re_pi         , 0xf1f8, 0x8158, { 12,  12,   8}},
-	{m68k_op_or_16_re_pd         , 0xf1f8, 0x8160, { 14,  14,   9}},
-	{m68k_op_or_16_re_di         , 0xf1f8, 0x8168, { 16,  16,   9}},
-	{m68k_op_or_16_re_ix         , 0xf1f8, 0x8170, { 18,  18,  11}},
-	{m68k_op_unpk_16_rr          , 0xf1f8, 0x8180, {  0,   0,   8}},
-	{m68k_op_unpk_16_mm          , 0xf1f8, 0x8188, {  0,   0,  13}},
-	{m68k_op_or_32_re_ai         , 0xf1f8, 0x8190, { 20,  20,   8}},
-	{m68k_op_or_32_re_pi         , 0xf1f8, 0x8198, { 20,  20,   8}},
-	{m68k_op_or_32_re_pd         , 0xf1f8, 0x81a0, { 22,  22,   9}},
-	{m68k_op_or_32_re_di         , 0xf1f8, 0x81a8, { 24,  24,   9}},
-	{m68k_op_or_32_re_ix         , 0xf1f8, 0x81b0, { 26,  26,  11}},
-	{m68k_op_divs_16_d           , 0xf1f8, 0x81c0, {158, 122,  56}},
-	{m68k_op_divs_16_ai          , 0xf1f8, 0x81d0, {162, 126,  60}},
-	{m68k_op_divs_16_pi          , 0xf1f8, 0x81d8, {162, 126,  60}},
-	{m68k_op_divs_16_pd          , 0xf1f8, 0x81e0, {164, 128,  61}},
-	{m68k_op_divs_16_di          , 0xf1f8, 0x81e8, {166, 130,  61}},
-	{m68k_op_divs_16_ix          , 0xf1f8, 0x81f0, {168, 132,  63}},
-	{m68k_op_sub_8_er_d          , 0xf1f8, 0x9000, {  4,   4,   2}},
-	{m68k_op_sub_8_er_ai         , 0xf1f8, 0x9010, {  8,   8,   6}},
-	{m68k_op_sub_8_er_pi         , 0xf1f8, 0x9018, {  8,   8,   6}},
-	{m68k_op_sub_8_er_pd         , 0xf1f8, 0x9020, { 10,  10,   7}},
-	{m68k_op_sub_8_er_di         , 0xf1f8, 0x9028, { 12,  12,   7}},
-	{m68k_op_sub_8_er_ix         , 0xf1f8, 0x9030, { 14,  14,   9}},
-	{m68k_op_sub_16_er_d         , 0xf1f8, 0x9040, {  4,   4,   2}},
-	{m68k_op_sub_16_er_a         , 0xf1f8, 0x9048, {  4,   4,   2}},
-	{m68k_op_sub_16_er_ai        , 0xf1f8, 0x9050, {  8,   8,   6}},
-	{m68k_op_sub_16_er_pi        , 0xf1f8, 0x9058, {  8,   8,   6}},
-	{m68k_op_sub_16_er_pd        , 0xf1f8, 0x9060, { 10,  10,   7}},
-	{m68k_op_sub_16_er_di        , 0xf1f8, 0x9068, { 12,  12,   7}},
-	{m68k_op_sub_16_er_ix        , 0xf1f8, 0x9070, { 14,  14,   9}},
-	{m68k_op_sub_32_er_d         , 0xf1f8, 0x9080, {  6,   6,   2}},
-	{m68k_op_sub_32_er_a         , 0xf1f8, 0x9088, {  6,   6,   2}},
-	{m68k_op_sub_32_er_ai        , 0xf1f8, 0x9090, { 14,  14,   6}},
-	{m68k_op_sub_32_er_pi        , 0xf1f8, 0x9098, { 14,  14,   6}},
-	{m68k_op_sub_32_er_pd        , 0xf1f8, 0x90a0, { 16,  16,   7}},
-	{m68k_op_sub_32_er_di        , 0xf1f8, 0x90a8, { 18,  18,   7}},
-	{m68k_op_sub_32_er_ix        , 0xf1f8, 0x90b0, { 20,  20,   9}},
-	{m68k_op_suba_16_d           , 0xf1f8, 0x90c0, {  8,   8,   2}},
-	{m68k_op_suba_16_a           , 0xf1f8, 0x90c8, {  8,   8,   2}},
-	{m68k_op_suba_16_ai          , 0xf1f8, 0x90d0, { 12,  12,   6}},
-	{m68k_op_suba_16_pi          , 0xf1f8, 0x90d8, { 12,  12,   6}},
-	{m68k_op_suba_16_pd          , 0xf1f8, 0x90e0, { 14,  14,   7}},
-	{m68k_op_suba_16_di          , 0xf1f8, 0x90e8, { 16,  16,   7}},
-	{m68k_op_suba_16_ix          , 0xf1f8, 0x90f0, { 18,  18,   9}},
-	{m68k_op_subx_8_rr           , 0xf1f8, 0x9100, {  4,   4,   2}},
-	{m68k_op_subx_8_mm           , 0xf1f8, 0x9108, { 18,  18,  12}},
-	{m68k_op_sub_8_re_ai         , 0xf1f8, 0x9110, { 12,  12,   8}},
-	{m68k_op_sub_8_re_pi         , 0xf1f8, 0x9118, { 12,  12,   8}},
-	{m68k_op_sub_8_re_pd         , 0xf1f8, 0x9120, { 14,  14,   9}},
-	{m68k_op_sub_8_re_di         , 0xf1f8, 0x9128, { 16,  16,   9}},
-	{m68k_op_sub_8_re_ix         , 0xf1f8, 0x9130, { 18,  18,  11}},
-	{m68k_op_subx_16_rr          , 0xf1f8, 0x9140, {  4,   4,   2}},
-	{m68k_op_subx_16_mm          , 0xf1f8, 0x9148, { 18,  18,  12}},
-	{m68k_op_sub_16_re_ai        , 0xf1f8, 0x9150, { 12,  12,   8}},
-	{m68k_op_sub_16_re_pi        , 0xf1f8, 0x9158, { 12,  12,   8}},
-	{m68k_op_sub_16_re_pd        , 0xf1f8, 0x9160, { 14,  14,   9}},
-	{m68k_op_sub_16_re_di        , 0xf1f8, 0x9168, { 16,  16,   9}},
-	{m68k_op_sub_16_re_ix        , 0xf1f8, 0x9170, { 18,  18,  11}},
-	{m68k_op_subx_32_rr          , 0xf1f8, 0x9180, {  8,   6,   2}},
-	{m68k_op_subx_32_mm          , 0xf1f8, 0x9188, { 30,  30,  12}},
-	{m68k_op_sub_32_re_ai        , 0xf1f8, 0x9190, { 20,  20,   8}},
-	{m68k_op_sub_32_re_pi        , 0xf1f8, 0x9198, { 20,  20,   8}},
-	{m68k_op_sub_32_re_pd        , 0xf1f8, 0x91a0, { 22,  22,   9}},
-	{m68k_op_sub_32_re_di        , 0xf1f8, 0x91a8, { 24,  24,   9}},
-	{m68k_op_sub_32_re_ix        , 0xf1f8, 0x91b0, { 26,  26,  11}},
-	{m68k_op_suba_32_d           , 0xf1f8, 0x91c0, {  6,   6,   2}},
-	{m68k_op_suba_32_a           , 0xf1f8, 0x91c8, {  6,   6,   2}},
-	{m68k_op_suba_32_ai          , 0xf1f8, 0x91d0, { 14,  14,   6}},
-	{m68k_op_suba_32_pi          , 0xf1f8, 0x91d8, { 14,  14,   6}},
-	{m68k_op_suba_32_pd          , 0xf1f8, 0x91e0, { 16,  16,   7}},
-	{m68k_op_suba_32_di          , 0xf1f8, 0x91e8, { 18,  18,   7}},
-	{m68k_op_suba_32_ix          , 0xf1f8, 0x91f0, { 20,  20,   9}},
-	{m68k_op_cmp_8_d             , 0xf1f8, 0xb000, {  4,   4,   2}},
-	{m68k_op_cmp_8_ai            , 0xf1f8, 0xb010, {  8,   8,   6}},
-	{m68k_op_cmp_8_pi            , 0xf1f8, 0xb018, {  8,   8,   6}},
-	{m68k_op_cmp_8_pd            , 0xf1f8, 0xb020, { 10,  10,   7}},
-	{m68k_op_cmp_8_di            , 0xf1f8, 0xb028, { 12,  12,   7}},
-	{m68k_op_cmp_8_ix            , 0xf1f8, 0xb030, { 14,  14,   9}},
-	{m68k_op_cmp_16_d            , 0xf1f8, 0xb040, {  4,   4,   2}},
-	{m68k_op_cmp_16_a            , 0xf1f8, 0xb048, {  4,   4,   2}},
-	{m68k_op_cmp_16_ai           , 0xf1f8, 0xb050, {  8,   8,   6}},
-	{m68k_op_cmp_16_pi           , 0xf1f8, 0xb058, {  8,   8,   6}},
-	{m68k_op_cmp_16_pd           , 0xf1f8, 0xb060, { 10,  10,   7}},
-	{m68k_op_cmp_16_di           , 0xf1f8, 0xb068, { 12,  12,   7}},
-	{m68k_op_cmp_16_ix           , 0xf1f8, 0xb070, { 14,  14,   9}},
-	{m68k_op_cmp_32_d            , 0xf1f8, 0xb080, {  6,   6,   2}},
-	{m68k_op_cmp_32_a            , 0xf1f8, 0xb088, {  6,   6,   2}},
-	{m68k_op_cmp_32_ai           , 0xf1f8, 0xb090, { 14,  14,   6}},
-	{m68k_op_cmp_32_pi           , 0xf1f8, 0xb098, { 14,  14,   6}},
-	{m68k_op_cmp_32_pd           , 0xf1f8, 0xb0a0, { 16,  16,   7}},
-	{m68k_op_cmp_32_di           , 0xf1f8, 0xb0a8, { 18,  18,   7}},
-	{m68k_op_cmp_32_ix           , 0xf1f8, 0xb0b0, { 20,  20,   9}},
-	{m68k_op_cmpa_16_d           , 0xf1f8, 0xb0c0, {  6,   6,   4}},
-	{m68k_op_cmpa_16_a           , 0xf1f8, 0xb0c8, {  6,   6,   4}},
-	{m68k_op_cmpa_16_ai          , 0xf1f8, 0xb0d0, { 10,  10,   8}},
-	{m68k_op_cmpa_16_pi          , 0xf1f8, 0xb0d8, { 10,  10,   8}},
-	{m68k_op_cmpa_16_pd          , 0xf1f8, 0xb0e0, { 12,  12,   9}},
-	{m68k_op_cmpa_16_di          , 0xf1f8, 0xb0e8, { 14,  14,   9}},
-	{m68k_op_cmpa_16_ix          , 0xf1f8, 0xb0f0, { 16,  16,  11}},
-	{m68k_op_eor_8_d             , 0xf1f8, 0xb100, {  4,   4,   2}},
-	{m68k_op_cmpm_8              , 0xf1f8, 0xb108, { 12,  12,   9}},
-	{m68k_op_eor_8_ai            , 0xf1f8, 0xb110, { 12,  12,   8}},
-	{m68k_op_eor_8_pi            , 0xf1f8, 0xb118, { 12,  12,   8}},
-	{m68k_op_eor_8_pd            , 0xf1f8, 0xb120, { 14,  14,   9}},
-	{m68k_op_eor_8_di            , 0xf1f8, 0xb128, { 16,  16,   9}},
-	{m68k_op_eor_8_ix            , 0xf1f8, 0xb130, { 18,  18,  11}},
-	{m68k_op_eor_16_d            , 0xf1f8, 0xb140, {  4,   4,   2}},
-	{m68k_op_cmpm_16             , 0xf1f8, 0xb148, { 12,  12,   9}},
-	{m68k_op_eor_16_ai           , 0xf1f8, 0xb150, { 12,  12,   8}},
-	{m68k_op_eor_16_pi           , 0xf1f8, 0xb158, { 12,  12,   8}},
-	{m68k_op_eor_16_pd           , 0xf1f8, 0xb160, { 14,  14,   9}},
-	{m68k_op_eor_16_di           , 0xf1f8, 0xb168, { 16,  16,   9}},
-	{m68k_op_eor_16_ix           , 0xf1f8, 0xb170, { 18,  18,  11}},
-	{m68k_op_eor_32_d            , 0xf1f8, 0xb180, {  8,   6,   2}},
-	{m68k_op_cmpm_32             , 0xf1f8, 0xb188, { 20,  20,   9}},
-	{m68k_op_eor_32_ai           , 0xf1f8, 0xb190, { 20,  20,   8}},
-	{m68k_op_eor_32_pi           , 0xf1f8, 0xb198, { 20,  20,   8}},
-	{m68k_op_eor_32_pd           , 0xf1f8, 0xb1a0, { 22,  22,   9}},
-	{m68k_op_eor_32_di           , 0xf1f8, 0xb1a8, { 24,  24,   9}},
-	{m68k_op_eor_32_ix           , 0xf1f8, 0xb1b0, { 26,  26,  11}},
-	{m68k_op_cmpa_32_d           , 0xf1f8, 0xb1c0, {  6,   6,   4}},
-	{m68k_op_cmpa_32_a           , 0xf1f8, 0xb1c8, {  6,   6,   4}},
-	{m68k_op_cmpa_32_ai          , 0xf1f8, 0xb1d0, { 14,  14,   8}},
-	{m68k_op_cmpa_32_pi          , 0xf1f8, 0xb1d8, { 14,  14,   8}},
-	{m68k_op_cmpa_32_pd          , 0xf1f8, 0xb1e0, { 16,  16,   9}},
-	{m68k_op_cmpa_32_di          , 0xf1f8, 0xb1e8, { 18,  18,   9}},
-	{m68k_op_cmpa_32_ix          , 0xf1f8, 0xb1f0, { 20,  20,  11}},
-	{m68k_op_and_8_er_d          , 0xf1f8, 0xc000, {  4,   4,   2}},
-	{m68k_op_and_8_er_ai         , 0xf1f8, 0xc010, {  8,   8,   6}},
-	{m68k_op_and_8_er_pi         , 0xf1f8, 0xc018, {  8,   8,   6}},
-	{m68k_op_and_8_er_pd         , 0xf1f8, 0xc020, { 10,  10,   7}},
-	{m68k_op_and_8_er_di         , 0xf1f8, 0xc028, { 12,  12,   7}},
-	{m68k_op_and_8_er_ix         , 0xf1f8, 0xc030, { 14,  14,   9}},
-	{m68k_op_and_16_er_d         , 0xf1f8, 0xc040, {  4,   4,   2}},
-	{m68k_op_and_16_er_ai        , 0xf1f8, 0xc050, {  8,   8,   6}},
-	{m68k_op_and_16_er_pi        , 0xf1f8, 0xc058, {  8,   8,   6}},
-	{m68k_op_and_16_er_pd        , 0xf1f8, 0xc060, { 10,  10,   7}},
-	{m68k_op_and_16_er_di        , 0xf1f8, 0xc068, { 12,  12,   7}},
-	{m68k_op_and_16_er_ix        , 0xf1f8, 0xc070, { 14,  14,   9}},
-	{m68k_op_and_32_er_d         , 0xf1f8, 0xc080, {  6,   6,   2}},
-	{m68k_op_and_32_er_ai        , 0xf1f8, 0xc090, { 14,  14,   6}},
-	{m68k_op_and_32_er_pi        , 0xf1f8, 0xc098, { 14,  14,   6}},
-	{m68k_op_and_32_er_pd        , 0xf1f8, 0xc0a0, { 16,  16,   7}},
-	{m68k_op_and_32_er_di        , 0xf1f8, 0xc0a8, { 18,  18,   7}},
-	{m68k_op_and_32_er_ix        , 0xf1f8, 0xc0b0, { 20,  20,   9}},
-	{m68k_op_mulu_16_d           , 0xf1f8, 0xc0c0, { 54,  30,  27}},
-	{m68k_op_mulu_16_ai          , 0xf1f8, 0xc0d0, { 58,  34,  31}},
-	{m68k_op_mulu_16_pi          , 0xf1f8, 0xc0d8, { 58,  34,  31}},
-	{m68k_op_mulu_16_pd          , 0xf1f8, 0xc0e0, { 60,  36,  32}},
-	{m68k_op_mulu_16_di          , 0xf1f8, 0xc0e8, { 62,  38,  32}},
-	{m68k_op_mulu_16_ix          , 0xf1f8, 0xc0f0, { 64,  40,  34}},
-	{m68k_op_abcd_8_rr           , 0xf1f8, 0xc100, {  6,   6,   4}},
-	{m68k_op_abcd_8_mm           , 0xf1f8, 0xc108, { 18,  18,  16}},
-	{m68k_op_and_8_re_ai         , 0xf1f8, 0xc110, { 12,  12,   8}},
-	{m68k_op_and_8_re_pi         , 0xf1f8, 0xc118, { 12,  12,   8}},
-	{m68k_op_and_8_re_pd         , 0xf1f8, 0xc120, { 14,  14,   9}},
-	{m68k_op_and_8_re_di         , 0xf1f8, 0xc128, { 16,  16,   9}},
-	{m68k_op_and_8_re_ix         , 0xf1f8, 0xc130, { 18,  18,  11}},
-	{m68k_op_exg_32_dd           , 0xf1f8, 0xc140, {  6,   6,   2}},
-	{m68k_op_exg_32_aa           , 0xf1f8, 0xc148, {  6,   6,   2}},
-	{m68k_op_and_16_re_ai        , 0xf1f8, 0xc150, { 12,  12,   8}},
-	{m68k_op_and_16_re_pi        , 0xf1f8, 0xc158, { 12,  12,   8}},
-	{m68k_op_and_16_re_pd        , 0xf1f8, 0xc160, { 14,  14,   9}},
-	{m68k_op_and_16_re_di        , 0xf1f8, 0xc168, { 16,  16,   9}},
-	{m68k_op_and_16_re_ix        , 0xf1f8, 0xc170, { 18,  18,  11}},
-	{m68k_op_exg_32_da           , 0xf1f8, 0xc188, {  6,   6,   2}},
-	{m68k_op_and_32_re_ai        , 0xf1f8, 0xc190, { 20,  20,   8}},
-	{m68k_op_and_32_re_pi        , 0xf1f8, 0xc198, { 20,  20,   8}},
-	{m68k_op_and_32_re_pd        , 0xf1f8, 0xc1a0, { 22,  22,   9}},
-	{m68k_op_and_32_re_di        , 0xf1f8, 0xc1a8, { 24,  24,   9}},
-	{m68k_op_and_32_re_ix        , 0xf1f8, 0xc1b0, { 26,  26,  11}},
-	{m68k_op_muls_16_d           , 0xf1f8, 0xc1c0, { 54,  32,  27}},
-	{m68k_op_muls_16_ai          , 0xf1f8, 0xc1d0, { 58,  36,  31}},
-	{m68k_op_muls_16_pi          , 0xf1f8, 0xc1d8, { 58,  36,  31}},
-	{m68k_op_muls_16_pd          , 0xf1f8, 0xc1e0, { 60,  38,  32}},
-	{m68k_op_muls_16_di          , 0xf1f8, 0xc1e8, { 62,  40,  32}},
-	{m68k_op_muls_16_ix          , 0xf1f8, 0xc1f0, { 64,  42,  34}},
-	{m68k_op_add_8_er_d          , 0xf1f8, 0xd000, {  4,   4,   2}},
-	{m68k_op_add_8_er_ai         , 0xf1f8, 0xd010, {  8,   8,   6}},
-	{m68k_op_add_8_er_pi         , 0xf1f8, 0xd018, {  8,   8,   6}},
-	{m68k_op_add_8_er_pd         , 0xf1f8, 0xd020, { 10,  10,   7}},
-	{m68k_op_add_8_er_di         , 0xf1f8, 0xd028, { 12,  12,   7}},
-	{m68k_op_add_8_er_ix         , 0xf1f8, 0xd030, { 14,  14,   9}},
-	{m68k_op_add_16_er_d         , 0xf1f8, 0xd040, {  4,   4,   2}},
-	{m68k_op_add_16_er_a         , 0xf1f8, 0xd048, {  4,   4,   2}},
-	{m68k_op_add_16_er_ai        , 0xf1f8, 0xd050, {  8,   8,   6}},
-	{m68k_op_add_16_er_pi        , 0xf1f8, 0xd058, {  8,   8,   6}},
-	{m68k_op_add_16_er_pd        , 0xf1f8, 0xd060, { 10,  10,   7}},
-	{m68k_op_add_16_er_di        , 0xf1f8, 0xd068, { 12,  12,   7}},
-	{m68k_op_add_16_er_ix        , 0xf1f8, 0xd070, { 14,  14,   9}},
-	{m68k_op_add_32_er_d         , 0xf1f8, 0xd080, {  6,   6,   2}},
-	{m68k_op_add_32_er_a         , 0xf1f8, 0xd088, {  6,   6,   2}},
-	{m68k_op_add_32_er_ai        , 0xf1f8, 0xd090, { 14,  14,   6}},
-	{m68k_op_add_32_er_pi        , 0xf1f8, 0xd098, { 14,  14,   6}},
-	{m68k_op_add_32_er_pd        , 0xf1f8, 0xd0a0, { 16,  16,   7}},
-	{m68k_op_add_32_er_di        , 0xf1f8, 0xd0a8, { 18,  18,   7}},
-	{m68k_op_add_32_er_ix        , 0xf1f8, 0xd0b0, { 20,  20,   9}},
-	{m68k_op_adda_16_d           , 0xf1f8, 0xd0c0, {  8,   8,   2}},
-	{m68k_op_adda_16_a           , 0xf1f8, 0xd0c8, {  8,   8,   2}},
-	{m68k_op_adda_16_ai          , 0xf1f8, 0xd0d0, { 12,  12,   6}},
-	{m68k_op_adda_16_pi          , 0xf1f8, 0xd0d8, { 12,  12,   6}},
-	{m68k_op_adda_16_pd          , 0xf1f8, 0xd0e0, { 14,  14,   7}},
-	{m68k_op_adda_16_di          , 0xf1f8, 0xd0e8, { 16,  16,   7}},
-	{m68k_op_adda_16_ix          , 0xf1f8, 0xd0f0, { 18,  18,   9}},
-	{m68k_op_addx_8_rr           , 0xf1f8, 0xd100, {  4,   4,   2}},
-	{m68k_op_addx_8_mm           , 0xf1f8, 0xd108, { 18,  18,  12}},
-	{m68k_op_add_8_re_ai         , 0xf1f8, 0xd110, { 12,  12,   8}},
-	{m68k_op_add_8_re_pi         , 0xf1f8, 0xd118, { 12,  12,   8}},
-	{m68k_op_add_8_re_pd         , 0xf1f8, 0xd120, { 14,  14,   9}},
-	{m68k_op_add_8_re_di         , 0xf1f8, 0xd128, { 16,  16,   9}},
-	{m68k_op_add_8_re_ix         , 0xf1f8, 0xd130, { 18,  18,  11}},
-	{m68k_op_addx_16_rr          , 0xf1f8, 0xd140, {  4,   4,   2}},
-	{m68k_op_addx_16_mm          , 0xf1f8, 0xd148, { 18,  18,  12}},
-	{m68k_op_add_16_re_ai        , 0xf1f8, 0xd150, { 12,  12,   8}},
-	{m68k_op_add_16_re_pi        , 0xf1f8, 0xd158, { 12,  12,   8}},
-	{m68k_op_add_16_re_pd        , 0xf1f8, 0xd160, { 14,  14,   9}},
-	{m68k_op_add_16_re_di        , 0xf1f8, 0xd168, { 16,  16,   9}},
-	{m68k_op_add_16_re_ix        , 0xf1f8, 0xd170, { 18,  18,  11}},
-	{m68k_op_addx_32_rr          , 0xf1f8, 0xd180, {  8,   6,   2}},
-	{m68k_op_addx_32_mm          , 0xf1f8, 0xd188, { 30,  30,  12}},
-	{m68k_op_add_32_re_ai        , 0xf1f8, 0xd190, { 20,  20,   8}},
-	{m68k_op_add_32_re_pi        , 0xf1f8, 0xd198, { 20,  20,   8}},
-	{m68k_op_add_32_re_pd        , 0xf1f8, 0xd1a0, { 22,  22,   9}},
-	{m68k_op_add_32_re_di        , 0xf1f8, 0xd1a8, { 24,  24,   9}},
-	{m68k_op_add_32_re_ix        , 0xf1f8, 0xd1b0, { 26,  26,  11}},
-	{m68k_op_adda_32_d           , 0xf1f8, 0xd1c0, {  6,   6,   2}},
-	{m68k_op_adda_32_a           , 0xf1f8, 0xd1c8, {  6,   6,   2}},
-	{m68k_op_adda_32_ai          , 0xf1f8, 0xd1d0, { 14,  14,   6}},
-	{m68k_op_adda_32_pi          , 0xf1f8, 0xd1d8, { 14,  14,   6}},
-	{m68k_op_adda_32_pd          , 0xf1f8, 0xd1e0, { 16,  16,   7}},
-	{m68k_op_adda_32_di          , 0xf1f8, 0xd1e8, { 18,  18,   7}},
-	{m68k_op_adda_32_ix          , 0xf1f8, 0xd1f0, { 20,  20,   9}},
-	{m68k_op_asr_8_s             , 0xf1f8, 0xe000, {  6,   6,   6}},
-	{m68k_op_lsr_8_s             , 0xf1f8, 0xe008, {  6,   6,   4}},
-	{m68k_op_roxr_8_s            , 0xf1f8, 0xe010, {  6,   6,  12}},
-	{m68k_op_ror_8_s             , 0xf1f8, 0xe018, {  6,   6,   8}},
-	{m68k_op_asr_8_r             , 0xf1f8, 0xe020, {  6,   6,   6}},
-	{m68k_op_lsr_8_r             , 0xf1f8, 0xe028, {  6,   6,   6}},
-	{m68k_op_roxr_8_r            , 0xf1f8, 0xe030, {  6,   6,  12}},
-	{m68k_op_ror_8_r             , 0xf1f8, 0xe038, {  6,   6,   8}},
-	{m68k_op_asr_16_s            , 0xf1f8, 0xe040, {  6,   6,   6}},
-	{m68k_op_lsr_16_s            , 0xf1f8, 0xe048, {  6,   6,   4}},
-	{m68k_op_roxr_16_s           , 0xf1f8, 0xe050, {  6,   6,  12}},
-	{m68k_op_ror_16_s            , 0xf1f8, 0xe058, {  6,   6,   8}},
-	{m68k_op_asr_16_r            , 0xf1f8, 0xe060, {  6,   6,   6}},
-	{m68k_op_lsr_16_r            , 0xf1f8, 0xe068, {  6,   6,   6}},
-	{m68k_op_roxr_16_r           , 0xf1f8, 0xe070, {  6,   6,  12}},
-	{m68k_op_ror_16_r            , 0xf1f8, 0xe078, {  6,   6,   8}},
-	{m68k_op_asr_32_s            , 0xf1f8, 0xe080, {  8,   8,   6}},
-	{m68k_op_lsr_32_s            , 0xf1f8, 0xe088, {  8,   8,   4}},
-	{m68k_op_roxr_32_s           , 0xf1f8, 0xe090, {  8,   8,  12}},
-	{m68k_op_ror_32_s            , 0xf1f8, 0xe098, {  8,   8,   8}},
-	{m68k_op_asr_32_r            , 0xf1f8, 0xe0a0, {  8,   8,   6}},
-	{m68k_op_lsr_32_r            , 0xf1f8, 0xe0a8, {  8,   8,   6}},
-	{m68k_op_roxr_32_r           , 0xf1f8, 0xe0b0, {  8,   8,  12}},
-	{m68k_op_ror_32_r            , 0xf1f8, 0xe0b8, {  8,   8,   8}},
-	{m68k_op_asl_8_s             , 0xf1f8, 0xe100, {  6,   6,   8}},
-	{m68k_op_lsl_8_s             , 0xf1f8, 0xe108, {  6,   6,   4}},
-	{m68k_op_roxl_8_s            , 0xf1f8, 0xe110, {  6,   6,  12}},
-	{m68k_op_rol_8_s             , 0xf1f8, 0xe118, {  6,   6,   8}},
-	{m68k_op_asl_8_r             , 0xf1f8, 0xe120, {  6,   6,   8}},
-	{m68k_op_lsl_8_r             , 0xf1f8, 0xe128, {  6,   6,   6}},
-	{m68k_op_roxl_8_r            , 0xf1f8, 0xe130, {  6,   6,  12}},
-	{m68k_op_rol_8_r             , 0xf1f8, 0xe138, {  6,   6,   8}},
-	{m68k_op_asl_16_s            , 0xf1f8, 0xe140, {  6,   6,   8}},
-	{m68k_op_lsl_16_s            , 0xf1f8, 0xe148, {  6,   6,   4}},
-	{m68k_op_roxl_16_s           , 0xf1f8, 0xe150, {  6,   6,  12}},
-	{m68k_op_rol_16_s            , 0xf1f8, 0xe158, {  6,   6,   8}},
-	{m68k_op_asl_16_r            , 0xf1f8, 0xe160, {  6,   6,   8}},
-	{m68k_op_lsl_16_r            , 0xf1f8, 0xe168, {  6,   6,   6}},
-	{m68k_op_roxl_16_r           , 0xf1f8, 0xe170, {  6,   6,  12}},
-	{m68k_op_rol_16_r            , 0xf1f8, 0xe178, {  6,   6,   8}},
-	{m68k_op_asl_32_s            , 0xf1f8, 0xe180, {  8,   8,   8}},
-	{m68k_op_lsl_32_s            , 0xf1f8, 0xe188, {  8,   8,   4}},
-	{m68k_op_roxl_32_s           , 0xf1f8, 0xe190, {  8,   8,  12}},
-	{m68k_op_rol_32_s            , 0xf1f8, 0xe198, {  8,   8,   8}},
-	{m68k_op_asl_32_r            , 0xf1f8, 0xe1a0, {  8,   8,   8}},
-	{m68k_op_lsl_32_r            , 0xf1f8, 0xe1a8, {  8,   8,   6}},
-	{m68k_op_roxl_32_r           , 0xf1f8, 0xe1b0, {  8,   8,  12}},
-	{m68k_op_rol_32_r            , 0xf1f8, 0xe1b8, {  8,   8,   8}},
-	{m68k_op_cpdbcc_32           , 0xf1f8, 0xf048, {  0,   0,   4}},
-	{m68k_op_cptrapcc_32         , 0xf1f8, 0xf078, {  0,   0,   4}},
-	{m68k_op_rtm_32              , 0xfff0, 0x06c0, {  0,   0,  19}},
-	{m68k_op_trap                , 0xfff0, 0x4e40, {  4,   4,   4}},
-	{m68k_op_btst_8_r_pi7        , 0xf1ff, 0x011f, {  8,   8,   8}},
-	{m68k_op_btst_8_r_pd7        , 0xf1ff, 0x0127, { 10,  10,   9}},
-	{m68k_op_btst_8_r_aw         , 0xf1ff, 0x0138, { 12,  12,   8}},
-	{m68k_op_btst_8_r_al         , 0xf1ff, 0x0139, { 16,  16,   8}},
-	{m68k_op_btst_8_r_pcdi       , 0xf1ff, 0x013a, { 12,  12,   9}},
-	{m68k_op_btst_8_r_pcix       , 0xf1ff, 0x013b, { 14,  14,  11}},
-	{m68k_op_btst_8_r_i          , 0xf1ff, 0x013c, {  8,   8,   6}},
-	{m68k_op_bchg_8_r_pi7        , 0xf1ff, 0x015f, { 12,  12,   8}},
-	{m68k_op_bchg_8_r_pd7        , 0xf1ff, 0x0167, { 14,  14,   9}},
-	{m68k_op_bchg_8_r_aw         , 0xf1ff, 0x0178, { 16,  16,   8}},
-	{m68k_op_bchg_8_r_al         , 0xf1ff, 0x0179, { 20,  20,   8}},
-	{m68k_op_bclr_8_r_pi7        , 0xf1ff, 0x019f, { 12,  14,   8}},
-	{m68k_op_bclr_8_r_pd7        , 0xf1ff, 0x01a7, { 14,  16,   9}},
-	{m68k_op_bclr_8_r_aw         , 0xf1ff, 0x01b8, { 16,  18,   8}},
-	{m68k_op_bclr_8_r_al         , 0xf1ff, 0x01b9, { 20,  22,   8}},
-	{m68k_op_bset_8_r_pi7        , 0xf1ff, 0x01df, { 12,  12,   8}},
-	{m68k_op_bset_8_r_pd7        , 0xf1ff, 0x01e7, { 14,  14,   9}},
-	{m68k_op_bset_8_r_aw         , 0xf1ff, 0x01f8, { 16,  16,   8}},
-	{m68k_op_bset_8_r_al         , 0xf1ff, 0x01f9, { 20,  20,   8}},
-	{m68k_op_move_8_d_pi7        , 0xf1ff, 0x101f, {  8,   8,   6}},
-	{m68k_op_move_8_d_pd7        , 0xf1ff, 0x1027, { 10,  10,   7}},
-	{m68k_op_move_8_d_aw         , 0xf1ff, 0x1038, { 12,  12,   6}},
-	{m68k_op_move_8_d_al         , 0xf1ff, 0x1039, { 16,  16,   6}},
-	{m68k_op_move_8_d_pcdi       , 0xf1ff, 0x103a, { 12,  12,   7}},
-	{m68k_op_move_8_d_pcix       , 0xf1ff, 0x103b, { 14,  14,   9}},
-	{m68k_op_move_8_d_i          , 0xf1ff, 0x103c, {  8,   8,   4}},
-	{m68k_op_move_8_ai_pi7       , 0xf1ff, 0x109f, { 12,  12,   8}},
-	{m68k_op_move_8_ai_pd7       , 0xf1ff, 0x10a7, { 14,  14,   9}},
-	{m68k_op_move_8_ai_aw        , 0xf1ff, 0x10b8, { 16,  16,   8}},
-	{m68k_op_move_8_ai_al        , 0xf1ff, 0x10b9, { 20,  20,   8}},
-	{m68k_op_move_8_ai_pcdi      , 0xf1ff, 0x10ba, { 16,  16,   9}},
-	{m68k_op_move_8_ai_pcix      , 0xf1ff, 0x10bb, { 18,  18,  11}},
-	{m68k_op_move_8_ai_i         , 0xf1ff, 0x10bc, { 12,  12,   6}},
-	{m68k_op_move_8_pi_pi7       , 0xf1ff, 0x10df, { 12,  12,   8}},
-	{m68k_op_move_8_pi_pd7       , 0xf1ff, 0x10e7, { 14,  14,   9}},
-	{m68k_op_move_8_pi_aw        , 0xf1ff, 0x10f8, { 16,  16,   8}},
-	{m68k_op_move_8_pi_al        , 0xf1ff, 0x10f9, { 20,  20,   8}},
-	{m68k_op_move_8_pi_pcdi      , 0xf1ff, 0x10fa, { 16,  16,   9}},
-	{m68k_op_move_8_pi_pcix      , 0xf1ff, 0x10fb, { 18,  18,  11}},
-	{m68k_op_move_8_pi_i         , 0xf1ff, 0x10fc, { 12,  12,   6}},
-	{m68k_op_move_8_pd_pi7       , 0xf1ff, 0x111f, { 12,  12,   9}},
-	{m68k_op_move_8_pd_pd7       , 0xf1ff, 0x1127, { 14,  14,  10}},
-	{m68k_op_move_8_pd_aw        , 0xf1ff, 0x1138, { 16,  16,   9}},
-	{m68k_op_move_8_pd_al        , 0xf1ff, 0x1139, { 20,  20,   9}},
-	{m68k_op_move_8_pd_pcdi      , 0xf1ff, 0x113a, { 16,  16,  10}},
-	{m68k_op_move_8_pd_pcix      , 0xf1ff, 0x113b, { 18,  18,  12}},
-	{m68k_op_move_8_pd_i         , 0xf1ff, 0x113c, { 12,  12,   7}},
-	{m68k_op_move_8_di_pi7       , 0xf1ff, 0x115f, { 16,  16,   9}},
-	{m68k_op_move_8_di_pd7       , 0xf1ff, 0x1167, { 18,  18,  10}},
-	{m68k_op_move_8_di_aw        , 0xf1ff, 0x1178, { 20,  20,   9}},
-	{m68k_op_move_8_di_al        , 0xf1ff, 0x1179, { 24,  24,   9}},
-	{m68k_op_move_8_di_pcdi      , 0xf1ff, 0x117a, { 20,  20,  10}},
-	{m68k_op_move_8_di_pcix      , 0xf1ff, 0x117b, { 22,  22,  12}},
-	{m68k_op_move_8_di_i         , 0xf1ff, 0x117c, { 16,  16,   7}},
-	{m68k_op_move_8_ix_pi7       , 0xf1ff, 0x119f, { 18,  18,  11}},
-	{m68k_op_move_8_ix_pd7       , 0xf1ff, 0x11a7, { 20,  20,  12}},
-	{m68k_op_move_8_ix_aw        , 0xf1ff, 0x11b8, { 22,  22,  11}},
-	{m68k_op_move_8_ix_al        , 0xf1ff, 0x11b9, { 26,  26,  11}},
-	{m68k_op_move_8_ix_pcdi      , 0xf1ff, 0x11ba, { 22,  22,  12}},
-	{m68k_op_move_8_ix_pcix      , 0xf1ff, 0x11bb, { 24,  24,  14}},
-	{m68k_op_move_8_ix_i         , 0xf1ff, 0x11bc, { 18,  18,   9}},
-	{m68k_op_move_32_d_aw        , 0xf1ff, 0x2038, { 16,  16,   6}},
-	{m68k_op_move_32_d_al        , 0xf1ff, 0x2039, { 20,  20,   6}},
-	{m68k_op_move_32_d_pcdi      , 0xf1ff, 0x203a, { 16,  16,   7}},
-	{m68k_op_move_32_d_pcix      , 0xf1ff, 0x203b, { 18,  18,   9}},
-	{m68k_op_move_32_d_i         , 0xf1ff, 0x203c, { 12,  12,   6}},
-	{m68k_op_movea_32_aw         , 0xf1ff, 0x2078, { 16,  16,   6}},
-	{m68k_op_movea_32_al         , 0xf1ff, 0x2079, { 20,  20,   6}},
-	{m68k_op_movea_32_pcdi       , 0xf1ff, 0x207a, { 16,  16,   7}},
-	{m68k_op_movea_32_pcix       , 0xf1ff, 0x207b, { 18,  18,   9}},
-	{m68k_op_movea_32_i          , 0xf1ff, 0x207c, { 12,  12,   6}},
-	{m68k_op_move_32_ai_aw       , 0xf1ff, 0x20b8, { 24,  24,   8}},
-	{m68k_op_move_32_ai_al       , 0xf1ff, 0x20b9, { 28,  28,   8}},
-	{m68k_op_move_32_ai_pcdi     , 0xf1ff, 0x20ba, { 24,  24,   9}},
-	{m68k_op_move_32_ai_pcix     , 0xf1ff, 0x20bb, { 26,  26,  11}},
-	{m68k_op_move_32_ai_i        , 0xf1ff, 0x20bc, { 20,  20,   8}},
-	{m68k_op_move_32_pi_aw       , 0xf1ff, 0x20f8, { 24,  24,   8}},
-	{m68k_op_move_32_pi_al       , 0xf1ff, 0x20f9, { 28,  28,   8}},
-	{m68k_op_move_32_pi_pcdi     , 0xf1ff, 0x20fa, { 24,  24,   9}},
-	{m68k_op_move_32_pi_pcix     , 0xf1ff, 0x20fb, { 26,  26,  11}},
-	{m68k_op_move_32_pi_i        , 0xf1ff, 0x20fc, { 20,  20,   8}},
-	{m68k_op_move_32_pd_aw       , 0xf1ff, 0x2138, { 24,  26,   9}},
-	{m68k_op_move_32_pd_al       , 0xf1ff, 0x2139, { 28,  30,   9}},
-	{m68k_op_move_32_pd_pcdi     , 0xf1ff, 0x213a, { 24,  26,  10}},
-	{m68k_op_move_32_pd_pcix     , 0xf1ff, 0x213b, { 26,  28,  12}},
-	{m68k_op_move_32_pd_i        , 0xf1ff, 0x213c, { 20,  22,   9}},
-	{m68k_op_move_32_di_aw       , 0xf1ff, 0x2178, { 28,  28,   9}},
-	{m68k_op_move_32_di_al       , 0xf1ff, 0x2179, { 32,  32,   9}},
-	{m68k_op_move_32_di_pcdi     , 0xf1ff, 0x217a, { 28,  28,  10}},
-	{m68k_op_move_32_di_pcix     , 0xf1ff, 0x217b, { 30,  30,  12}},
-	{m68k_op_move_32_di_i        , 0xf1ff, 0x217c, { 24,  24,   9}},
-	{m68k_op_move_32_ix_aw       , 0xf1ff, 0x21b8, { 30,  30,  11}},
-	{m68k_op_move_32_ix_al       , 0xf1ff, 0x21b9, { 34,  34,  11}},
-	{m68k_op_move_32_ix_pcdi     , 0xf1ff, 0x21ba, { 30,  30,  12}},
-	{m68k_op_move_32_ix_pcix     , 0xf1ff, 0x21bb, { 32,  32,  14}},
-	{m68k_op_move_32_ix_i        , 0xf1ff, 0x21bc, { 26,  26,  11}},
-	{m68k_op_move_16_d_aw        , 0xf1ff, 0x3038, { 12,  12,   6}},
-	{m68k_op_move_16_d_al        , 0xf1ff, 0x3039, { 16,  16,   6}},
-	{m68k_op_move_16_d_pcdi      , 0xf1ff, 0x303a, { 12,  12,   7}},
-	{m68k_op_move_16_d_pcix      , 0xf1ff, 0x303b, { 14,  14,   9}},
-	{m68k_op_move_16_d_i         , 0xf1ff, 0x303c, {  8,   8,   4}},
-	{m68k_op_movea_16_aw         , 0xf1ff, 0x3078, { 12,  12,   6}},
-	{m68k_op_movea_16_al         , 0xf1ff, 0x3079, { 16,  16,   6}},
-	{m68k_op_movea_16_pcdi       , 0xf1ff, 0x307a, { 12,  12,   7}},
-	{m68k_op_movea_16_pcix       , 0xf1ff, 0x307b, { 14,  14,   9}},
-	{m68k_op_movea_16_i          , 0xf1ff, 0x307c, {  8,   8,   4}},
-	{m68k_op_move_16_ai_aw       , 0xf1ff, 0x30b8, { 16,  16,   8}},
-	{m68k_op_move_16_ai_al       , 0xf1ff, 0x30b9, { 20,  20,   8}},
-	{m68k_op_move_16_ai_pcdi     , 0xf1ff, 0x30ba, { 16,  16,   9}},
-	{m68k_op_move_16_ai_pcix     , 0xf1ff, 0x30bb, { 18,  18,  11}},
-	{m68k_op_move_16_ai_i        , 0xf1ff, 0x30bc, { 12,  12,   6}},
-	{m68k_op_move_16_pi_aw       , 0xf1ff, 0x30f8, { 16,  16,   8}},
-	{m68k_op_move_16_pi_al       , 0xf1ff, 0x30f9, { 20,  20,   8}},
-	{m68k_op_move_16_pi_pcdi     , 0xf1ff, 0x30fa, { 16,  16,   9}},
-	{m68k_op_move_16_pi_pcix     , 0xf1ff, 0x30fb, { 18,  18,  11}},
-	{m68k_op_move_16_pi_i        , 0xf1ff, 0x30fc, { 12,  12,   6}},
-	{m68k_op_move_16_pd_aw       , 0xf1ff, 0x3138, { 16,  16,   9}},
-	{m68k_op_move_16_pd_al       , 0xf1ff, 0x3139, { 20,  20,   9}},
-	{m68k_op_move_16_pd_pcdi     , 0xf1ff, 0x313a, { 16,  16,  10}},
-	{m68k_op_move_16_pd_pcix     , 0xf1ff, 0x313b, { 18,  18,  12}},
-	{m68k_op_move_16_pd_i        , 0xf1ff, 0x313c, { 12,  12,   7}},
-	{m68k_op_move_16_di_aw       , 0xf1ff, 0x3178, { 20,  20,   9}},
-	{m68k_op_move_16_di_al       , 0xf1ff, 0x3179, { 24,  24,   9}},
-	{m68k_op_move_16_di_pcdi     , 0xf1ff, 0x317a, { 20,  20,  10}},
-	{m68k_op_move_16_di_pcix     , 0xf1ff, 0x317b, { 22,  22,  12}},
-	{m68k_op_move_16_di_i        , 0xf1ff, 0x317c, { 16,  16,   7}},
-	{m68k_op_move_16_ix_aw       , 0xf1ff, 0x31b8, { 22,  22,  11}},
-	{m68k_op_move_16_ix_al       , 0xf1ff, 0x31b9, { 26,  26,  11}},
-	{m68k_op_move_16_ix_pcdi     , 0xf1ff, 0x31ba, { 22,  22,  12}},
-	{m68k_op_move_16_ix_pcix     , 0xf1ff, 0x31bb, { 24,  24,  14}},
-	{m68k_op_move_16_ix_i        , 0xf1ff, 0x31bc, { 18,  18,   9}},
-	{m68k_op_chk_32_aw           , 0xf1ff, 0x4138, {  0,   0,  12}},
-	{m68k_op_chk_32_al           , 0xf1ff, 0x4139, {  0,   0,  12}},
-	{m68k_op_chk_32_pcdi         , 0xf1ff, 0x413a, {  0,   0,  13}},
-	{m68k_op_chk_32_pcix         , 0xf1ff, 0x413b, {  0,   0,  15}},
-	{m68k_op_chk_32_i            , 0xf1ff, 0x413c, {  0,   0,  12}},
-	{m68k_op_chk_16_aw           , 0xf1ff, 0x41b8, { 18,  16,  12}},
-	{m68k_op_chk_16_al           , 0xf1ff, 0x41b9, { 22,  20,  12}},
-	{m68k_op_chk_16_pcdi         , 0xf1ff, 0x41ba, { 18,  16,  13}},
-	{m68k_op_chk_16_pcix         , 0xf1ff, 0x41bb, { 20,  18,  15}},
-	{m68k_op_chk_16_i            , 0xf1ff, 0x41bc, { 14,  12,  10}},
-	{m68k_op_lea_32_aw           , 0xf1ff, 0x41f8, {  8,   8,   6}},
-	{m68k_op_lea_32_al           , 0xf1ff, 0x41f9, { 12,  12,   6}},
-	{m68k_op_lea_32_pcdi         , 0xf1ff, 0x41fa, {  8,   8,   7}},
-	{m68k_op_lea_32_pcix         , 0xf1ff, 0x41fb, { 12,  12,   9}},
-	{m68k_op_addq_8_pi7          , 0xf1ff, 0x501f, { 12,  12,   8}},
-	{m68k_op_addq_8_pd7          , 0xf1ff, 0x5027, { 14,  14,   9}},
-	{m68k_op_addq_8_aw           , 0xf1ff, 0x5038, { 16,  16,   8}},
-	{m68k_op_addq_8_al           , 0xf1ff, 0x5039, { 20,  20,   8}},
-	{m68k_op_addq_16_aw          , 0xf1ff, 0x5078, { 16,  16,   8}},
-	{m68k_op_addq_16_al          , 0xf1ff, 0x5079, { 20,  20,   8}},
-	{m68k_op_addq_32_aw          , 0xf1ff, 0x50b8, { 24,  24,   8}},
-	{m68k_op_addq_32_al          , 0xf1ff, 0x50b9, { 28,  28,   8}},
-	{m68k_op_subq_8_pi7          , 0xf1ff, 0x511f, { 12,  12,   8}},
-	{m68k_op_subq_8_pd7          , 0xf1ff, 0x5127, { 14,  14,   9}},
-	{m68k_op_subq_8_aw           , 0xf1ff, 0x5138, { 16,  16,   8}},
-	{m68k_op_subq_8_al           , 0xf1ff, 0x5139, { 20,  20,   8}},
-	{m68k_op_subq_16_aw          , 0xf1ff, 0x5178, { 16,  16,   8}},
-	{m68k_op_subq_16_al          , 0xf1ff, 0x5179, { 20,  20,   8}},
-	{m68k_op_subq_32_aw          , 0xf1ff, 0x51b8, { 24,  24,   8}},
-	{m68k_op_subq_32_al          , 0xf1ff, 0x51b9, { 28,  28,   8}},
-	{m68k_op_or_8_er_pi7         , 0xf1ff, 0x801f, {  8,   8,   6}},
-	{m68k_op_or_8_er_pd7         , 0xf1ff, 0x8027, { 10,  10,   7}},
-	{m68k_op_or_8_er_aw          , 0xf1ff, 0x8038, { 12,  12,   6}},
-	{m68k_op_or_8_er_al          , 0xf1ff, 0x8039, { 16,  16,   6}},
-	{m68k_op_or_8_er_pcdi        , 0xf1ff, 0x803a, { 12,  12,   7}},
-	{m68k_op_or_8_er_pcix        , 0xf1ff, 0x803b, { 14,  14,   9}},
-	{m68k_op_or_8_er_i           , 0xf1ff, 0x803c, { 10,   8,   4}},
-	{m68k_op_or_16_er_aw         , 0xf1ff, 0x8078, { 12,  12,   6}},
-	{m68k_op_or_16_er_al         , 0xf1ff, 0x8079, { 16,  16,   6}},
-	{m68k_op_or_16_er_pcdi       , 0xf1ff, 0x807a, { 12,  12,   7}},
-	{m68k_op_or_16_er_pcix       , 0xf1ff, 0x807b, { 14,  14,   9}},
-	{m68k_op_or_16_er_i          , 0xf1ff, 0x807c, { 10,   8,   4}},
-	{m68k_op_or_32_er_aw         , 0xf1ff, 0x80b8, { 18,  18,   6}},
-	{m68k_op_or_32_er_al         , 0xf1ff, 0x80b9, { 22,  22,   6}},
-	{m68k_op_or_32_er_pcdi       , 0xf1ff, 0x80ba, { 18,  18,   7}},
-	{m68k_op_or_32_er_pcix       , 0xf1ff, 0x80bb, { 20,  20,   9}},
-	{m68k_op_or_32_er_i          , 0xf1ff, 0x80bc, { 16,  14,   6}},
-	{m68k_op_divu_16_aw          , 0xf1ff, 0x80f8, {148, 116,  48}},
-	{m68k_op_divu_16_al          , 0xf1ff, 0x80f9, {152, 120,  48}},
-	{m68k_op_divu_16_pcdi        , 0xf1ff, 0x80fa, {148, 116,  49}},
-	{m68k_op_divu_16_pcix        , 0xf1ff, 0x80fb, {150, 118,  51}},
-	{m68k_op_divu_16_i           , 0xf1ff, 0x80fc, {144, 112,  46}},
-	{m68k_op_sbcd_8_mm_ay7       , 0xf1ff, 0x810f, { 18,  18,  16}},
-	{m68k_op_or_8_re_pi7         , 0xf1ff, 0x811f, { 12,  12,   8}},
-	{m68k_op_or_8_re_pd7         , 0xf1ff, 0x8127, { 14,  14,   9}},
-	{m68k_op_or_8_re_aw          , 0xf1ff, 0x8138, { 16,  16,   8}},
-	{m68k_op_or_8_re_al          , 0xf1ff, 0x8139, { 20,  20,   8}},
-	{m68k_op_pack_16_mm_ay7      , 0xf1ff, 0x814f, {  0,   0,  13}},
-	{m68k_op_or_16_re_aw         , 0xf1ff, 0x8178, { 16,  16,   8}},
-	{m68k_op_or_16_re_al         , 0xf1ff, 0x8179, { 20,  20,   8}},
-	{m68k_op_unpk_16_mm_ay7      , 0xf1ff, 0x818f, {  0,   0,  13}},
-	{m68k_op_or_32_re_aw         , 0xf1ff, 0x81b8, { 24,  24,   8}},
-	{m68k_op_or_32_re_al         , 0xf1ff, 0x81b9, { 28,  28,   8}},
-	{m68k_op_divs_16_aw          , 0xf1ff, 0x81f8, {166, 130,  60}},
-	{m68k_op_divs_16_al          , 0xf1ff, 0x81f9, {170, 134,  60}},
-	{m68k_op_divs_16_pcdi        , 0xf1ff, 0x81fa, {166, 130,  61}},
-	{m68k_op_divs_16_pcix        , 0xf1ff, 0x81fb, {168, 132,  63}},
-	{m68k_op_divs_16_i           , 0xf1ff, 0x81fc, {162, 126,  58}},
-	{m68k_op_sub_8_er_pi7        , 0xf1ff, 0x901f, {  8,   8,   6}},
-	{m68k_op_sub_8_er_pd7        , 0xf1ff, 0x9027, { 10,  10,   7}},
-	{m68k_op_sub_8_er_aw         , 0xf1ff, 0x9038, { 12,  12,   6}},
-	{m68k_op_sub_8_er_al         , 0xf1ff, 0x9039, { 16,  16,   6}},
-	{m68k_op_sub_8_er_pcdi       , 0xf1ff, 0x903a, { 12,  12,   7}},
-	{m68k_op_sub_8_er_pcix       , 0xf1ff, 0x903b, { 14,  14,   9}},
-	{m68k_op_sub_8_er_i          , 0xf1ff, 0x903c, { 10,   8,   4}},
-	{m68k_op_sub_16_er_aw        , 0xf1ff, 0x9078, { 12,  12,   6}},
-	{m68k_op_sub_16_er_al        , 0xf1ff, 0x9079, { 16,  16,   6}},
-	{m68k_op_sub_16_er_pcdi      , 0xf1ff, 0x907a, { 12,  12,   7}},
-	{m68k_op_sub_16_er_pcix      , 0xf1ff, 0x907b, { 14,  14,   9}},
-	{m68k_op_sub_16_er_i         , 0xf1ff, 0x907c, { 10,   8,   4}},
-	{m68k_op_sub_32_er_aw        , 0xf1ff, 0x90b8, { 18,  18,   6}},
-	{m68k_op_sub_32_er_al        , 0xf1ff, 0x90b9, { 22,  22,   6}},
-	{m68k_op_sub_32_er_pcdi      , 0xf1ff, 0x90ba, { 18,  18,   7}},
-	{m68k_op_sub_32_er_pcix      , 0xf1ff, 0x90bb, { 20,  20,   9}},
-	{m68k_op_sub_32_er_i         , 0xf1ff, 0x90bc, { 16,  14,   6}},
-	{m68k_op_suba_16_aw          , 0xf1ff, 0x90f8, { 16,  16,   6}},
-	{m68k_op_suba_16_al          , 0xf1ff, 0x90f9, { 20,  20,   6}},
-	{m68k_op_suba_16_pcdi        , 0xf1ff, 0x90fa, { 16,  16,   7}},
-	{m68k_op_suba_16_pcix        , 0xf1ff, 0x90fb, { 18,  18,   9}},
-	{m68k_op_suba_16_i           , 0xf1ff, 0x90fc, { 14,  12,   4}},
-	{m68k_op_subx_8_mm_ay7       , 0xf1ff, 0x910f, { 18,  18,  12}},
-	{m68k_op_sub_8_re_pi7        , 0xf1ff, 0x911f, { 12,  12,   8}},
-	{m68k_op_sub_8_re_pd7        , 0xf1ff, 0x9127, { 14,  14,   9}},
-	{m68k_op_sub_8_re_aw         , 0xf1ff, 0x9138, { 16,  16,   8}},
-	{m68k_op_sub_8_re_al         , 0xf1ff, 0x9139, { 20,  20,   8}},
-	{m68k_op_sub_16_re_aw        , 0xf1ff, 0x9178, { 16,  16,   8}},
-	{m68k_op_sub_16_re_al        , 0xf1ff, 0x9179, { 20,  20,   8}},
-	{m68k_op_sub_32_re_aw        , 0xf1ff, 0x91b8, { 24,  24,   8}},
-	{m68k_op_sub_32_re_al        , 0xf1ff, 0x91b9, { 28,  28,   8}},
-	{m68k_op_suba_32_aw          , 0xf1ff, 0x91f8, { 18,  18,   6}},
-	{m68k_op_suba_32_al          , 0xf1ff, 0x91f9, { 22,  22,   6}},
-	{m68k_op_suba_32_pcdi        , 0xf1ff, 0x91fa, { 18,  18,   7}},
-	{m68k_op_suba_32_pcix        , 0xf1ff, 0x91fb, { 20,  20,   9}},
-	{m68k_op_suba_32_i           , 0xf1ff, 0x91fc, { 16,  14,   6}},
-	{m68k_op_cmp_8_pi7           , 0xf1ff, 0xb01f, {  8,   8,   6}},
-	{m68k_op_cmp_8_pd7           , 0xf1ff, 0xb027, { 10,  10,   7}},
-	{m68k_op_cmp_8_aw            , 0xf1ff, 0xb038, { 12,  12,   6}},
-	{m68k_op_cmp_8_al            , 0xf1ff, 0xb039, { 16,  16,   6}},
-	{m68k_op_cmp_8_pcdi          , 0xf1ff, 0xb03a, { 12,  12,   7}},
-	{m68k_op_cmp_8_pcix          , 0xf1ff, 0xb03b, { 14,  14,   9}},
-	{m68k_op_cmp_8_i             , 0xf1ff, 0xb03c, {  8,   8,   4}},
-	{m68k_op_cmp_16_aw           , 0xf1ff, 0xb078, { 12,  12,   6}},
-	{m68k_op_cmp_16_al           , 0xf1ff, 0xb079, { 16,  16,   6}},
-	{m68k_op_cmp_16_pcdi         , 0xf1ff, 0xb07a, { 12,  12,   7}},
-	{m68k_op_cmp_16_pcix         , 0xf1ff, 0xb07b, { 14,  14,   9}},
-	{m68k_op_cmp_16_i            , 0xf1ff, 0xb07c, {  8,   8,   4}},
-	{m68k_op_cmp_32_aw           , 0xf1ff, 0xb0b8, { 18,  18,   6}},
-	{m68k_op_cmp_32_al           , 0xf1ff, 0xb0b9, { 22,  22,   6}},
-	{m68k_op_cmp_32_pcdi         , 0xf1ff, 0xb0ba, { 18,  18,   7}},
-	{m68k_op_cmp_32_pcix         , 0xf1ff, 0xb0bb, { 20,  20,   9}},
-	{m68k_op_cmp_32_i            , 0xf1ff, 0xb0bc, { 14,  14,   6}},
-	{m68k_op_cmpa_16_aw          , 0xf1ff, 0xb0f8, { 14,  14,   8}},
-	{m68k_op_cmpa_16_al          , 0xf1ff, 0xb0f9, { 18,  18,   8}},
-	{m68k_op_cmpa_16_pcdi        , 0xf1ff, 0xb0fa, { 14,  14,   9}},
-	{m68k_op_cmpa_16_pcix        , 0xf1ff, 0xb0fb, { 16,  16,  11}},
-	{m68k_op_cmpa_16_i           , 0xf1ff, 0xb0fc, { 10,  10,   6}},
-	{m68k_op_cmpm_8_ay7          , 0xf1ff, 0xb10f, { 12,  12,   9}},
-	{m68k_op_eor_8_pi7           , 0xf1ff, 0xb11f, { 12,  12,   8}},
-	{m68k_op_eor_8_pd7           , 0xf1ff, 0xb127, { 14,  14,   9}},
-	{m68k_op_eor_8_aw            , 0xf1ff, 0xb138, { 16,  16,   8}},
-	{m68k_op_eor_8_al            , 0xf1ff, 0xb139, { 20,  20,   8}},
-	{m68k_op_eor_16_aw           , 0xf1ff, 0xb178, { 16,  16,   8}},
-	{m68k_op_eor_16_al           , 0xf1ff, 0xb179, { 20,  20,   8}},
-	{m68k_op_eor_32_aw           , 0xf1ff, 0xb1b8, { 24,  24,   8}},
-	{m68k_op_eor_32_al           , 0xf1ff, 0xb1b9, { 28,  28,   8}},
-	{m68k_op_cmpa_32_aw          , 0xf1ff, 0xb1f8, { 18,  18,   8}},
-	{m68k_op_cmpa_32_al          , 0xf1ff, 0xb1f9, { 22,  22,   8}},
-	{m68k_op_cmpa_32_pcdi        , 0xf1ff, 0xb1fa, { 18,  18,   9}},
-	{m68k_op_cmpa_32_pcix        , 0xf1ff, 0xb1fb, { 20,  20,  11}},
-	{m68k_op_cmpa_32_i           , 0xf1ff, 0xb1fc, { 14,  14,   8}},
-	{m68k_op_and_8_er_pi7        , 0xf1ff, 0xc01f, {  8,   8,   6}},
-	{m68k_op_and_8_er_pd7        , 0xf1ff, 0xc027, { 10,  10,   7}},
-	{m68k_op_and_8_er_aw         , 0xf1ff, 0xc038, { 12,  12,   6}},
-	{m68k_op_and_8_er_al         , 0xf1ff, 0xc039, { 16,  16,   6}},
-	{m68k_op_and_8_er_pcdi       , 0xf1ff, 0xc03a, { 12,  12,   7}},
-	{m68k_op_and_8_er_pcix       , 0xf1ff, 0xc03b, { 14,  14,   9}},
-	{m68k_op_and_8_er_i          , 0xf1ff, 0xc03c, { 10,   8,   4}},
-	{m68k_op_and_16_er_aw        , 0xf1ff, 0xc078, { 12,  12,   6}},
-	{m68k_op_and_16_er_al        , 0xf1ff, 0xc079, { 16,  16,   6}},
-	{m68k_op_and_16_er_pcdi      , 0xf1ff, 0xc07a, { 12,  12,   7}},
-	{m68k_op_and_16_er_pcix      , 0xf1ff, 0xc07b, { 14,  14,   9}},
-	{m68k_op_and_16_er_i         , 0xf1ff, 0xc07c, { 10,   8,   4}},
-	{m68k_op_and_32_er_aw        , 0xf1ff, 0xc0b8, { 18,  18,   6}},
-	{m68k_op_and_32_er_al        , 0xf1ff, 0xc0b9, { 22,  22,   6}},
-	{m68k_op_and_32_er_pcdi      , 0xf1ff, 0xc0ba, { 18,  18,   7}},
-	{m68k_op_and_32_er_pcix      , 0xf1ff, 0xc0bb, { 20,  20,   9}},
-	{m68k_op_and_32_er_i         , 0xf1ff, 0xc0bc, { 16,  14,   6}},
-	{m68k_op_mulu_16_aw          , 0xf1ff, 0xc0f8, { 62,  38,  31}},
-	{m68k_op_mulu_16_al          , 0xf1ff, 0xc0f9, { 66,  42,  31}},
-	{m68k_op_mulu_16_pcdi        , 0xf1ff, 0xc0fa, { 62,  38,  32}},
-	{m68k_op_mulu_16_pcix        , 0xf1ff, 0xc0fb, { 64,  40,  34}},
-	{m68k_op_mulu_16_i           , 0xf1ff, 0xc0fc, { 58,  34,  29}},
-	{m68k_op_abcd_8_mm_ay7       , 0xf1ff, 0xc10f, { 18,  18,  16}},
-	{m68k_op_and_8_re_pi7        , 0xf1ff, 0xc11f, { 12,  12,   8}},
-	{m68k_op_and_8_re_pd7        , 0xf1ff, 0xc127, { 14,  14,   9}},
-	{m68k_op_and_8_re_aw         , 0xf1ff, 0xc138, { 16,  16,   8}},
-	{m68k_op_and_8_re_al         , 0xf1ff, 0xc139, { 20,  20,   8}},
-	{m68k_op_and_16_re_aw        , 0xf1ff, 0xc178, { 16,  16,   8}},
-	{m68k_op_and_16_re_al        , 0xf1ff, 0xc179, { 20,  20,   8}},
-	{m68k_op_and_32_re_aw        , 0xf1ff, 0xc1b8, { 24,  24,   8}},
-	{m68k_op_and_32_re_al        , 0xf1ff, 0xc1b9, { 28,  28,   8}},
-	{m68k_op_muls_16_aw          , 0xf1ff, 0xc1f8, { 62,  40,  31}},
-	{m68k_op_muls_16_al          , 0xf1ff, 0xc1f9, { 66,  44,  31}},
-	{m68k_op_muls_16_pcdi        , 0xf1ff, 0xc1fa, { 62,  40,  32}},
-	{m68k_op_muls_16_pcix        , 0xf1ff, 0xc1fb, { 64,  42,  34}},
-	{m68k_op_muls_16_i           , 0xf1ff, 0xc1fc, { 58,  36,  29}},
-	{m68k_op_add_8_er_pi7        , 0xf1ff, 0xd01f, {  8,   8,   6}},
-	{m68k_op_add_8_er_pd7        , 0xf1ff, 0xd027, { 10,  10,   7}},
-	{m68k_op_add_8_er_aw         , 0xf1ff, 0xd038, { 12,  12,   6}},
-	{m68k_op_add_8_er_al         , 0xf1ff, 0xd039, { 16,  16,   6}},
-	{m68k_op_add_8_er_pcdi       , 0xf1ff, 0xd03a, { 12,  12,   7}},
-	{m68k_op_add_8_er_pcix       , 0xf1ff, 0xd03b, { 14,  14,   9}},
-	{m68k_op_add_8_er_i          , 0xf1ff, 0xd03c, { 10,   8,   4}},
-	{m68k_op_add_16_er_aw        , 0xf1ff, 0xd078, { 12,  12,   6}},
-	{m68k_op_add_16_er_al        , 0xf1ff, 0xd079, { 16,  16,   6}},
-	{m68k_op_add_16_er_pcdi      , 0xf1ff, 0xd07a, { 12,  12,   7}},
-	{m68k_op_add_16_er_pcix      , 0xf1ff, 0xd07b, { 14,  14,   9}},
-	{m68k_op_add_16_er_i         , 0xf1ff, 0xd07c, { 10,   8,   4}},
-	{m68k_op_add_32_er_aw        , 0xf1ff, 0xd0b8, { 18,  18,   6}},
-	{m68k_op_add_32_er_al        , 0xf1ff, 0xd0b9, { 22,  22,   6}},
-	{m68k_op_add_32_er_pcdi      , 0xf1ff, 0xd0ba, { 18,  18,   7}},
-	{m68k_op_add_32_er_pcix      , 0xf1ff, 0xd0bb, { 20,  20,   9}},
-	{m68k_op_add_32_er_i         , 0xf1ff, 0xd0bc, { 16,  14,   6}},
-	{m68k_op_adda_16_aw          , 0xf1ff, 0xd0f8, { 16,  16,   6}},
-	{m68k_op_adda_16_al          , 0xf1ff, 0xd0f9, { 20,  20,   6}},
-	{m68k_op_adda_16_pcdi        , 0xf1ff, 0xd0fa, { 16,  16,   7}},
-	{m68k_op_adda_16_pcix        , 0xf1ff, 0xd0fb, { 18,  18,   9}},
-	{m68k_op_adda_16_i           , 0xf1ff, 0xd0fc, { 14,  12,   4}},
-	{m68k_op_addx_8_mm_ay7       , 0xf1ff, 0xd10f, { 18,  18,  12}},
-	{m68k_op_add_8_re_pi7        , 0xf1ff, 0xd11f, { 12,  12,   8}},
-	{m68k_op_add_8_re_pd7        , 0xf1ff, 0xd127, { 14,  14,   9}},
-	{m68k_op_add_8_re_aw         , 0xf1ff, 0xd138, { 16,  16,   8}},
-	{m68k_op_add_8_re_al         , 0xf1ff, 0xd139, { 20,  20,   8}},
-	{m68k_op_add_16_re_aw        , 0xf1ff, 0xd178, { 16,  16,   8}},
-	{m68k_op_add_16_re_al        , 0xf1ff, 0xd179, { 20,  20,   8}},
-	{m68k_op_add_32_re_aw        , 0xf1ff, 0xd1b8, { 24,  24,   8}},
-	{m68k_op_add_32_re_al        , 0xf1ff, 0xd1b9, { 28,  28,   8}},
-	{m68k_op_adda_32_aw          , 0xf1ff, 0xd1f8, { 18,  18,   6}},
-	{m68k_op_adda_32_al          , 0xf1ff, 0xd1f9, { 22,  22,   6}},
-	{m68k_op_adda_32_pcdi        , 0xf1ff, 0xd1fa, { 18,  18,   7}},
-	{m68k_op_adda_32_pcix        , 0xf1ff, 0xd1fb, { 20,  20,   9}},
-	{m68k_op_adda_32_i           , 0xf1ff, 0xd1fc, { 16,  14,   6}},
-	{m68k_op_ori_8_d             , 0xfff8, 0x0000, {  8,   8,   2}},
-	{m68k_op_ori_8_ai            , 0xfff8, 0x0010, { 16,  16,   8}},
-	{m68k_op_ori_8_pi            , 0xfff8, 0x0018, { 16,  16,   8}},
-	{m68k_op_ori_8_pd            , 0xfff8, 0x0020, { 18,  18,   9}},
-	{m68k_op_ori_8_di            , 0xfff8, 0x0028, { 20,  20,   9}},
-	{m68k_op_ori_8_ix            , 0xfff8, 0x0030, { 22,  22,  11}},
-	{m68k_op_ori_16_d            , 0xfff8, 0x0040, {  8,   8,   2}},
-	{m68k_op_ori_16_ai           , 0xfff8, 0x0050, { 16,  16,   8}},
-	{m68k_op_ori_16_pi           , 0xfff8, 0x0058, { 16,  16,   8}},
-	{m68k_op_ori_16_pd           , 0xfff8, 0x0060, { 18,  18,   9}},
-	{m68k_op_ori_16_di           , 0xfff8, 0x0068, { 20,  20,   9}},
-	{m68k_op_ori_16_ix           , 0xfff8, 0x0070, { 22,  22,  11}},
-	{m68k_op_ori_32_d            , 0xfff8, 0x0080, { 16,  14,   2}},
-	{m68k_op_ori_32_ai           , 0xfff8, 0x0090, { 28,  28,   8}},
-	{m68k_op_ori_32_pi           , 0xfff8, 0x0098, { 28,  28,   8}},
-	{m68k_op_ori_32_pd           , 0xfff8, 0x00a0, { 30,  30,   9}},
-	{m68k_op_ori_32_di           , 0xfff8, 0x00a8, { 32,  32,   9}},
-	{m68k_op_ori_32_ix           , 0xfff8, 0x00b0, { 34,  34,  11}},
-	{m68k_op_chk2cmp2_8_ai       , 0xfff8, 0x00d0, {  0,   0,  22}},
-	{m68k_op_chk2cmp2_8_di       , 0xfff8, 0x00e8, {  0,   0,  23}},
-	{m68k_op_chk2cmp2_8_ix       , 0xfff8, 0x00f0, {  0,   0,  25}},
-	{m68k_op_andi_8_d            , 0xfff8, 0x0200, {  8,   8,   2}},
-	{m68k_op_andi_8_ai           , 0xfff8, 0x0210, { 16,  16,   8}},
-	{m68k_op_andi_8_pi           , 0xfff8, 0x0218, { 16,  16,   8}},
-	{m68k_op_andi_8_pd           , 0xfff8, 0x0220, { 18,  18,   9}},
-	{m68k_op_andi_8_di           , 0xfff8, 0x0228, { 20,  20,   9}},
-	{m68k_op_andi_8_ix           , 0xfff8, 0x0230, { 22,  22,  11}},
-	{m68k_op_andi_16_d           , 0xfff8, 0x0240, {  8,   8,   2}},
-	{m68k_op_andi_16_ai          , 0xfff8, 0x0250, { 16,  16,   8}},
-	{m68k_op_andi_16_pi          , 0xfff8, 0x0258, { 16,  16,   8}},
-	{m68k_op_andi_16_pd          , 0xfff8, 0x0260, { 18,  18,   9}},
-	{m68k_op_andi_16_di          , 0xfff8, 0x0268, { 20,  20,   9}},
-	{m68k_op_andi_16_ix          , 0xfff8, 0x0270, { 22,  22,  11}},
-	{m68k_op_andi_32_d           , 0xfff8, 0x0280, { 14,  14,   2}},
-	{m68k_op_andi_32_ai          , 0xfff8, 0x0290, { 28,  28,   8}},
-	{m68k_op_andi_32_pi          , 0xfff8, 0x0298, { 28,  28,   8}},
-	{m68k_op_andi_32_pd          , 0xfff8, 0x02a0, { 30,  30,   9}},
-	{m68k_op_andi_32_di          , 0xfff8, 0x02a8, { 32,  32,   9}},
-	{m68k_op_andi_32_ix          , 0xfff8, 0x02b0, { 34,  34,  11}},
-	{m68k_op_chk2cmp2_16_ai      , 0xfff8, 0x02d0, {  0,   0,  22}},
-	{m68k_op_chk2cmp2_16_di      , 0xfff8, 0x02e8, {  0,   0,  23}},
-	{m68k_op_chk2cmp2_16_ix      , 0xfff8, 0x02f0, {  0,   0,  25}},
-	{m68k_op_subi_8_d            , 0xfff8, 0x0400, {  8,   8,   2}},
-	{m68k_op_subi_8_ai           , 0xfff8, 0x0410, { 16,  16,   8}},
-	{m68k_op_subi_8_pi           , 0xfff8, 0x0418, { 16,  16,   8}},
-	{m68k_op_subi_8_pd           , 0xfff8, 0x0420, { 18,  18,   9}},
-	{m68k_op_subi_8_di           , 0xfff8, 0x0428, { 20,  20,   9}},
-	{m68k_op_subi_8_ix           , 0xfff8, 0x0430, { 22,  22,  11}},
-	{m68k_op_subi_16_d           , 0xfff8, 0x0440, {  8,   8,   2}},
-	{m68k_op_subi_16_ai          , 0xfff8, 0x0450, { 16,  16,   8}},
-	{m68k_op_subi_16_pi          , 0xfff8, 0x0458, { 16,  16,   8}},
-	{m68k_op_subi_16_pd          , 0xfff8, 0x0460, { 18,  18,   9}},
-	{m68k_op_subi_16_di          , 0xfff8, 0x0468, { 20,  20,   9}},
-	{m68k_op_subi_16_ix          , 0xfff8, 0x0470, { 22,  22,  11}},
-	{m68k_op_subi_32_d           , 0xfff8, 0x0480, { 16,  14,   2}},
-	{m68k_op_subi_32_ai          , 0xfff8, 0x0490, { 28,  28,   8}},
-	{m68k_op_subi_32_pi          , 0xfff8, 0x0498, { 28,  28,   8}},
-	{m68k_op_subi_32_pd          , 0xfff8, 0x04a0, { 30,  30,   9}},
-	{m68k_op_subi_32_di          , 0xfff8, 0x04a8, { 32,  32,   9}},
-	{m68k_op_subi_32_ix          , 0xfff8, 0x04b0, { 34,  34,  11}},
-	{m68k_op_chk2cmp2_32_ai      , 0xfff8, 0x04d0, {  0,   0,  22}},
-	{m68k_op_chk2cmp2_32_di      , 0xfff8, 0x04e8, {  0,   0,  23}},
-	{m68k_op_chk2cmp2_32_ix      , 0xfff8, 0x04f0, {  0,   0,  25}},
-	{m68k_op_addi_8_d            , 0xfff8, 0x0600, {  8,   8,   2}},
-	{m68k_op_addi_8_ai           , 0xfff8, 0x0610, { 16,  16,   8}},
-	{m68k_op_addi_8_pi           , 0xfff8, 0x0618, { 16,  16,   8}},
-	{m68k_op_addi_8_pd           , 0xfff8, 0x0620, { 18,  18,   9}},
-	{m68k_op_addi_8_di           , 0xfff8, 0x0628, { 20,  20,   9}},
-	{m68k_op_addi_8_ix           , 0xfff8, 0x0630, { 22,  22,  11}},
-	{m68k_op_addi_16_d           , 0xfff8, 0x0640, {  8,   8,   2}},
-	{m68k_op_addi_16_ai          , 0xfff8, 0x0650, { 16,  16,   8}},
-	{m68k_op_addi_16_pi          , 0xfff8, 0x0658, { 16,  16,   8}},
-	{m68k_op_addi_16_pd          , 0xfff8, 0x0660, { 18,  18,   9}},
-	{m68k_op_addi_16_di          , 0xfff8, 0x0668, { 20,  20,   9}},
-	{m68k_op_addi_16_ix          , 0xfff8, 0x0670, { 22,  22,  11}},
-	{m68k_op_addi_32_d           , 0xfff8, 0x0680, { 16,  14,   2}},
-	{m68k_op_addi_32_ai          , 0xfff8, 0x0690, { 28,  28,   8}},
-	{m68k_op_addi_32_pi          , 0xfff8, 0x0698, { 28,  28,   8}},
-	{m68k_op_addi_32_pd          , 0xfff8, 0x06a0, { 30,  30,   9}},
-	{m68k_op_addi_32_di          , 0xfff8, 0x06a8, { 32,  32,   9}},
-	{m68k_op_addi_32_ix          , 0xfff8, 0x06b0, { 34,  34,  11}},
-	{m68k_op_callm_32_ai         , 0xfff8, 0x06d0, {  0,   0,  64}},
-	{m68k_op_callm_32_di         , 0xfff8, 0x06e8, {  0,   0,  65}},
-	{m68k_op_callm_32_ix         , 0xfff8, 0x06f0, {  0,   0,  67}},
-	{m68k_op_btst_32_s_d         , 0xfff8, 0x0800, { 10,  10,   4}},
-	{m68k_op_btst_8_s_ai         , 0xfff8, 0x0810, { 12,  12,   8}},
-	{m68k_op_btst_8_s_pi         , 0xfff8, 0x0818, { 12,  12,   8}},
-	{m68k_op_btst_8_s_pd         , 0xfff8, 0x0820, { 14,  14,   9}},
-	{m68k_op_btst_8_s_di         , 0xfff8, 0x0828, { 16,  16,   9}},
-	{m68k_op_btst_8_s_ix         , 0xfff8, 0x0830, { 18,  18,  11}},
-	{m68k_op_bchg_32_s_d         , 0xfff8, 0x0840, { 12,  12,   4}},
-	{m68k_op_bchg_8_s_ai         , 0xfff8, 0x0850, { 16,  16,   8}},
-	{m68k_op_bchg_8_s_pi         , 0xfff8, 0x0858, { 16,  16,   8}},
-	{m68k_op_bchg_8_s_pd         , 0xfff8, 0x0860, { 18,  18,   9}},
-	{m68k_op_bchg_8_s_di         , 0xfff8, 0x0868, { 20,  20,   9}},
-	{m68k_op_bchg_8_s_ix         , 0xfff8, 0x0870, { 22,  22,  11}},
-	{m68k_op_bclr_32_s_d         , 0xfff8, 0x0880, { 14,  14,   4}},
-	{m68k_op_bclr_8_s_ai         , 0xfff8, 0x0890, { 16,  16,   8}},
-	{m68k_op_bclr_8_s_pi         , 0xfff8, 0x0898, { 16,  16,   8}},
-	{m68k_op_bclr_8_s_pd         , 0xfff8, 0x08a0, { 18,  18,   9}},
-	{m68k_op_bclr_8_s_di         , 0xfff8, 0x08a8, { 20,  20,   9}},
-	{m68k_op_bclr_8_s_ix         , 0xfff8, 0x08b0, { 22,  22,  11}},
-	{m68k_op_bset_32_s_d         , 0xfff8, 0x08c0, { 12,  12,   4}},
-	{m68k_op_bset_8_s_ai         , 0xfff8, 0x08d0, { 16,  16,   8}},
-	{m68k_op_bset_8_s_pi         , 0xfff8, 0x08d8, { 16,  16,   8}},
-	{m68k_op_bset_8_s_pd         , 0xfff8, 0x08e0, { 18,  18,   9}},
-	{m68k_op_bset_8_s_di         , 0xfff8, 0x08e8, { 20,  20,   9}},
-	{m68k_op_bset_8_s_ix         , 0xfff8, 0x08f0, { 22,  22,  11}},
-	{m68k_op_eori_8_d            , 0xfff8, 0x0a00, {  8,   8,   2}},
-	{m68k_op_eori_8_ai           , 0xfff8, 0x0a10, { 16,  16,   8}},
-	{m68k_op_eori_8_pi           , 0xfff8, 0x0a18, { 16,  16,   8}},
-	{m68k_op_eori_8_pd           , 0xfff8, 0x0a20, { 18,  18,   9}},
-	{m68k_op_eori_8_di           , 0xfff8, 0x0a28, { 20,  20,   9}},
-	{m68k_op_eori_8_ix           , 0xfff8, 0x0a30, { 22,  22,  11}},
-	{m68k_op_eori_16_d           , 0xfff8, 0x0a40, {  8,   8,   2}},
-	{m68k_op_eori_16_ai          , 0xfff8, 0x0a50, { 16,  16,   8}},
-	{m68k_op_eori_16_pi          , 0xfff8, 0x0a58, { 16,  16,   8}},
-	{m68k_op_eori_16_pd          , 0xfff8, 0x0a60, { 18,  18,   9}},
-	{m68k_op_eori_16_di          , 0xfff8, 0x0a68, { 20,  20,   9}},
-	{m68k_op_eori_16_ix          , 0xfff8, 0x0a70, { 22,  22,  11}},
-	{m68k_op_eori_32_d           , 0xfff8, 0x0a80, { 16,  14,   2}},
-	{m68k_op_eori_32_ai          , 0xfff8, 0x0a90, { 28,  28,   8}},
-	{m68k_op_eori_32_pi          , 0xfff8, 0x0a98, { 28,  28,   8}},
-	{m68k_op_eori_32_pd          , 0xfff8, 0x0aa0, { 30,  30,   9}},
-	{m68k_op_eori_32_di          , 0xfff8, 0x0aa8, { 32,  32,   9}},
-	{m68k_op_eori_32_ix          , 0xfff8, 0x0ab0, { 34,  34,  11}},
-	{m68k_op_cas_8_ai            , 0xfff8, 0x0ad0, {  0,   0,  16}},
-	{m68k_op_cas_8_pi            , 0xfff8, 0x0ad8, {  0,   0,  16}},
-	{m68k_op_cas_8_pd            , 0xfff8, 0x0ae0, {  0,   0,  17}},
-	{m68k_op_cas_8_di            , 0xfff8, 0x0ae8, {  0,   0,  17}},
-	{m68k_op_cas_8_ix            , 0xfff8, 0x0af0, {  0,   0,  19}},
-	{m68k_op_cmpi_8_d            , 0xfff8, 0x0c00, {  8,   8,   2}},
-	{m68k_op_cmpi_8_ai           , 0xfff8, 0x0c10, { 12,  12,   6}},
-	{m68k_op_cmpi_8_pi           , 0xfff8, 0x0c18, { 12,  12,   6}},
-	{m68k_op_cmpi_8_pd           , 0xfff8, 0x0c20, { 14,  14,   7}},
-	{m68k_op_cmpi_8_di           , 0xfff8, 0x0c28, { 16,  16,   7}},
-	{m68k_op_cmpi_8_ix           , 0xfff8, 0x0c30, { 18,  18,   9}},
-	{m68k_op_cmpi_16_d           , 0xfff8, 0x0c40, {  8,   8,   2}},
-	{m68k_op_cmpi_16_ai          , 0xfff8, 0x0c50, { 12,  12,   6}},
-	{m68k_op_cmpi_16_pi          , 0xfff8, 0x0c58, { 12,  12,   6}},
-	{m68k_op_cmpi_16_pd          , 0xfff8, 0x0c60, { 14,  14,   7}},
-	{m68k_op_cmpi_16_di          , 0xfff8, 0x0c68, { 16,  16,   7}},
-	{m68k_op_cmpi_16_ix          , 0xfff8, 0x0c70, { 18,  18,   9}},
-	{m68k_op_cmpi_32_d           , 0xfff8, 0x0c80, { 14,  12,   2}},
-	{m68k_op_cmpi_32_ai          , 0xfff8, 0x0c90, { 20,  20,   6}},
-	{m68k_op_cmpi_32_pi          , 0xfff8, 0x0c98, { 20,  20,   6}},
-	{m68k_op_cmpi_32_pd          , 0xfff8, 0x0ca0, { 22,  22,   7}},
-	{m68k_op_cmpi_32_di          , 0xfff8, 0x0ca8, { 24,  24,   7}},
-	{m68k_op_cmpi_32_ix          , 0xfff8, 0x0cb0, { 26,  26,   9}},
-	{m68k_op_cas_16_ai           , 0xfff8, 0x0cd0, {  0,   0,  16}},
-	{m68k_op_cas_16_pi           , 0xfff8, 0x0cd8, {  0,   0,  16}},
-	{m68k_op_cas_16_pd           , 0xfff8, 0x0ce0, {  0,   0,  17}},
-	{m68k_op_cas_16_di           , 0xfff8, 0x0ce8, {  0,   0,  17}},
-	{m68k_op_cas_16_ix           , 0xfff8, 0x0cf0, {  0,   0,  19}},
-	{m68k_op_moves_8_ai          , 0xfff8, 0x0e10, {  0,  18,   9}},
-	{m68k_op_moves_8_pi          , 0xfff8, 0x0e18, {  0,  18,   9}},
-	{m68k_op_moves_8_pd          , 0xfff8, 0x0e20, {  0,  20,  10}},
-	{m68k_op_moves_8_di          , 0xfff8, 0x0e28, {  0,  26,  10}},
-	{m68k_op_moves_8_ix          , 0xfff8, 0x0e30, {  0,  30,  12}},
-	{m68k_op_moves_16_ai         , 0xfff8, 0x0e50, {  0,  18,   9}},
-	{m68k_op_moves_16_pi         , 0xfff8, 0x0e58, {  0,  18,   9}},
-	{m68k_op_moves_16_pd         , 0xfff8, 0x0e60, {  0,  20,  10}},
-	{m68k_op_moves_16_di         , 0xfff8, 0x0e68, {  0,  26,  10}},
-	{m68k_op_moves_16_ix         , 0xfff8, 0x0e70, {  0,  30,  12}},
-	{m68k_op_moves_32_ai         , 0xfff8, 0x0e90, {  0,  22,   9}},
-	{m68k_op_moves_32_pi         , 0xfff8, 0x0e98, {  0,  22,   9}},
-	{m68k_op_moves_32_pd         , 0xfff8, 0x0ea0, {  0,  28,  10}},
-	{m68k_op_moves_32_di         , 0xfff8, 0x0ea8, {  0,  32,  10}},
-	{m68k_op_moves_32_ix         , 0xfff8, 0x0eb0, {  0,  36,  12}},
-	{m68k_op_cas_32_ai           , 0xfff8, 0x0ed0, {  0,   0,  16}},
-	{m68k_op_cas_32_pi           , 0xfff8, 0x0ed8, {  0,   0,  16}},
-	{m68k_op_cas_32_pd           , 0xfff8, 0x0ee0, {  0,   0,  17}},
-	{m68k_op_cas_32_di           , 0xfff8, 0x0ee8, {  0,   0,  17}},
-	{m68k_op_cas_32_ix           , 0xfff8, 0x0ef0, {  0,   0,  19}},
-	{m68k_op_move_8_aw_d         , 0xfff8, 0x11c0, { 12,  12,   4}},
-	{m68k_op_move_8_aw_ai        , 0xfff8, 0x11d0, { 16,  16,   8}},
-	{m68k_op_move_8_aw_pi        , 0xfff8, 0x11d8, { 16,  16,   8}},
-	{m68k_op_move_8_aw_pd        , 0xfff8, 0x11e0, { 18,  18,   9}},
-	{m68k_op_move_8_aw_di        , 0xfff8, 0x11e8, { 20,  20,   9}},
-	{m68k_op_move_8_aw_ix        , 0xfff8, 0x11f0, { 22,  22,  11}},
-	{m68k_op_move_8_al_d         , 0xfff8, 0x13c0, { 16,  16,   6}},
-	{m68k_op_move_8_al_ai        , 0xfff8, 0x13d0, { 20,  20,  10}},
-	{m68k_op_move_8_al_pi        , 0xfff8, 0x13d8, { 20,  20,  10}},
-	{m68k_op_move_8_al_pd        , 0xfff8, 0x13e0, { 22,  22,  11}},
-	{m68k_op_move_8_al_di        , 0xfff8, 0x13e8, { 24,  24,  11}},
-	{m68k_op_move_8_al_ix        , 0xfff8, 0x13f0, { 26,  26,  13}},
-	{m68k_op_move_8_pi7_d        , 0xfff8, 0x1ec0, {  8,   8,   4}},
-	{m68k_op_move_8_pi7_ai       , 0xfff8, 0x1ed0, { 12,  12,   8}},
-	{m68k_op_move_8_pi7_pi       , 0xfff8, 0x1ed8, { 12,  12,   8}},
-	{m68k_op_move_8_pi7_pd       , 0xfff8, 0x1ee0, { 14,  14,   9}},
-	{m68k_op_move_8_pi7_di       , 0xfff8, 0x1ee8, { 16,  16,   9}},
-	{m68k_op_move_8_pi7_ix       , 0xfff8, 0x1ef0, { 18,  18,  11}},
-	{m68k_op_move_8_pd7_d        , 0xfff8, 0x1f00, {  8,   8,   5}},
-	{m68k_op_move_8_pd7_ai       , 0xfff8, 0x1f10, { 12,  12,   9}},
-	{m68k_op_move_8_pd7_pi       , 0xfff8, 0x1f18, { 12,  12,   9}},
-	{m68k_op_move_8_pd7_pd       , 0xfff8, 0x1f20, { 14,  14,  10}},
-	{m68k_op_move_8_pd7_di       , 0xfff8, 0x1f28, { 16,  16,  10}},
-	{m68k_op_move_8_pd7_ix       , 0xfff8, 0x1f30, { 18,  18,  12}},
-	{m68k_op_move_32_aw_d        , 0xfff8, 0x21c0, { 16,  16,   4}},
-	{m68k_op_move_32_aw_a        , 0xfff8, 0x21c8, { 16,  16,   4}},
-	{m68k_op_move_32_aw_ai       , 0xfff8, 0x21d0, { 24,  24,   8}},
-	{m68k_op_move_32_aw_pi       , 0xfff8, 0x21d8, { 24,  24,   8}},
-	{m68k_op_move_32_aw_pd       , 0xfff8, 0x21e0, { 26,  26,   9}},
-	{m68k_op_move_32_aw_di       , 0xfff8, 0x21e8, { 28,  28,   9}},
-	{m68k_op_move_32_aw_ix       , 0xfff8, 0x21f0, { 30,  30,  11}},
-	{m68k_op_move_32_al_d        , 0xfff8, 0x23c0, { 20,  20,   6}},
-	{m68k_op_move_32_al_a        , 0xfff8, 0x23c8, { 20,  20,   6}},
-	{m68k_op_move_32_al_ai       , 0xfff8, 0x23d0, { 28,  28,  10}},
-	{m68k_op_move_32_al_pi       , 0xfff8, 0x23d8, { 28,  28,  10}},
-	{m68k_op_move_32_al_pd       , 0xfff8, 0x23e0, { 30,  30,  11}},
-	{m68k_op_move_32_al_di       , 0xfff8, 0x23e8, { 32,  32,  11}},
-	{m68k_op_move_32_al_ix       , 0xfff8, 0x23f0, { 34,  34,  13}},
-	{m68k_op_move_16_aw_d        , 0xfff8, 0x31c0, { 12,  12,   4}},
-	{m68k_op_move_16_aw_a        , 0xfff8, 0x31c8, { 12,  12,   4}},
-	{m68k_op_move_16_aw_ai       , 0xfff8, 0x31d0, { 16,  16,   8}},
-	{m68k_op_move_16_aw_pi       , 0xfff8, 0x31d8, { 16,  16,   8}},
-	{m68k_op_move_16_aw_pd       , 0xfff8, 0x31e0, { 18,  18,   9}},
-	{m68k_op_move_16_aw_di       , 0xfff8, 0x31e8, { 20,  20,   9}},
-	{m68k_op_move_16_aw_ix       , 0xfff8, 0x31f0, { 22,  22,  11}},
-	{m68k_op_move_16_al_d        , 0xfff8, 0x33c0, { 16,  16,   6}},
-	{m68k_op_move_16_al_a        , 0xfff8, 0x33c8, { 16,  16,   6}},
-	{m68k_op_move_16_al_ai       , 0xfff8, 0x33d0, { 20,  20,  10}},
-	{m68k_op_move_16_al_pi       , 0xfff8, 0x33d8, { 20,  20,  10}},
-	{m68k_op_move_16_al_pd       , 0xfff8, 0x33e0, { 22,  22,  11}},
-	{m68k_op_move_16_al_di       , 0xfff8, 0x33e8, { 24,  24,  11}},
-	{m68k_op_move_16_al_ix       , 0xfff8, 0x33f0, { 26,  26,  13}},
-	{m68k_op_negx_8_d            , 0xfff8, 0x4000, {  4,   4,   2}},
-	{m68k_op_negx_8_ai           , 0xfff8, 0x4010, { 12,  12,   8}},
-	{m68k_op_negx_8_pi           , 0xfff8, 0x4018, { 12,  12,   8}},
-	{m68k_op_negx_8_pd           , 0xfff8, 0x4020, { 14,  14,   9}},
-	{m68k_op_negx_8_di           , 0xfff8, 0x4028, { 16,  16,   9}},
-	{m68k_op_negx_8_ix           , 0xfff8, 0x4030, { 18,  18,  11}},
-	{m68k_op_negx_16_d           , 0xfff8, 0x4040, {  4,   4,   2}},
-	{m68k_op_negx_16_ai          , 0xfff8, 0x4050, { 12,  12,   8}},
-	{m68k_op_negx_16_pi          , 0xfff8, 0x4058, { 12,  12,   8}},
-	{m68k_op_negx_16_pd          , 0xfff8, 0x4060, { 14,  14,   9}},
-	{m68k_op_negx_16_di          , 0xfff8, 0x4068, { 16,  16,   9}},
-	{m68k_op_negx_16_ix          , 0xfff8, 0x4070, { 18,  18,  11}},
-	{m68k_op_negx_32_d           , 0xfff8, 0x4080, {  6,   6,   2}},
-	{m68k_op_negx_32_ai          , 0xfff8, 0x4090, { 20,  20,   8}},
-	{m68k_op_negx_32_pi          , 0xfff8, 0x4098, { 20,  20,   8}},
-	{m68k_op_negx_32_pd          , 0xfff8, 0x40a0, { 22,  22,   9}},
-	{m68k_op_negx_32_di          , 0xfff8, 0x40a8, { 24,  24,   9}},
-	{m68k_op_negx_32_ix          , 0xfff8, 0x40b0, { 26,  26,  11}},
-	{m68k_op_move_16_frs_d       , 0xfff8, 0x40c0, {  6,   4,   8}},
-	{m68k_op_move_16_frs_ai      , 0xfff8, 0x40d0, { 12,  12,  12}},
-	{m68k_op_move_16_frs_pi      , 0xfff8, 0x40d8, { 12,  12,  12}},
-	{m68k_op_move_16_frs_pd      , 0xfff8, 0x40e0, { 14,  14,  13}},
-	{m68k_op_move_16_frs_di      , 0xfff8, 0x40e8, { 16,  16,  13}},
-	{m68k_op_move_16_frs_ix      , 0xfff8, 0x40f0, { 18,  18,  15}},
-	{m68k_op_clr_8_d             , 0xfff8, 0x4200, {  4,   4,   2}},
-	{m68k_op_clr_8_ai            , 0xfff8, 0x4210, { 12,   8,   8}},
-	{m68k_op_clr_8_pi            , 0xfff8, 0x4218, { 12,   8,   8}},
-	{m68k_op_clr_8_pd            , 0xfff8, 0x4220, { 14,  10,   9}},
-	{m68k_op_clr_8_di            , 0xfff8, 0x4228, { 16,  12,   9}},
-	{m68k_op_clr_8_ix            , 0xfff8, 0x4230, { 18,  14,  11}},
-	{m68k_op_clr_16_d            , 0xfff8, 0x4240, {  4,   4,   2}},
-	{m68k_op_clr_16_ai           , 0xfff8, 0x4250, { 12,   8,   8}},
-	{m68k_op_clr_16_pi           , 0xfff8, 0x4258, { 12,   8,   8}},
-	{m68k_op_clr_16_pd           , 0xfff8, 0x4260, { 14,  10,   9}},
-	{m68k_op_clr_16_di           , 0xfff8, 0x4268, { 16,  12,   9}},
-	{m68k_op_clr_16_ix           , 0xfff8, 0x4270, { 18,  14,  11}},
-	{m68k_op_clr_32_d            , 0xfff8, 0x4280, {  6,   6,   2}},
-	{m68k_op_clr_32_ai           , 0xfff8, 0x4290, { 20,  12,   8}},
-	{m68k_op_clr_32_pi           , 0xfff8, 0x4298, { 20,  12,   8}},
-	{m68k_op_clr_32_pd           , 0xfff8, 0x42a0, { 22,  14,   9}},
-	{m68k_op_clr_32_di           , 0xfff8, 0x42a8, { 24,  16,   9}},
-	{m68k_op_clr_32_ix           , 0xfff8, 0x42b0, { 26,  20,  11}},
-	{m68k_op_move_16_frc_d       , 0xfff8, 0x42c0, {  0,   4,   4}},
-	{m68k_op_move_16_frc_ai      , 0xfff8, 0x42d0, {  0,  12,   8}},
-	{m68k_op_move_16_frc_pi      , 0xfff8, 0x42d8, {  0,  12,   8}},
-	{m68k_op_move_16_frc_pd      , 0xfff8, 0x42e0, {  0,  14,   9}},
-	{m68k_op_move_16_frc_di      , 0xfff8, 0x42e8, {  0,  16,   9}},
-	{m68k_op_move_16_frc_ix      , 0xfff8, 0x42f0, {  0,  18,  11}},
-	{m68k_op_neg_8_d             , 0xfff8, 0x4400, {  4,   4,   2}},
-	{m68k_op_neg_8_ai            , 0xfff8, 0x4410, { 12,  12,   8}},
-	{m68k_op_neg_8_pi            , 0xfff8, 0x4418, { 12,  12,   8}},
-	{m68k_op_neg_8_pd            , 0xfff8, 0x4420, { 14,  14,   9}},
-	{m68k_op_neg_8_di            , 0xfff8, 0x4428, { 16,  16,   9}},
-	{m68k_op_neg_8_ix            , 0xfff8, 0x4430, { 18,  18,  11}},
-	{m68k_op_neg_16_d            , 0xfff8, 0x4440, {  4,   4,   2}},
-	{m68k_op_neg_16_ai           , 0xfff8, 0x4450, { 12,  12,   8}},
-	{m68k_op_neg_16_pi           , 0xfff8, 0x4458, { 12,  12,   8}},
-	{m68k_op_neg_16_pd           , 0xfff8, 0x4460, { 14,  14,   9}},
-	{m68k_op_neg_16_di           , 0xfff8, 0x4468, { 16,  16,   9}},
-	{m68k_op_neg_16_ix           , 0xfff8, 0x4470, { 18,  18,  11}},
-	{m68k_op_neg_32_d            , 0xfff8, 0x4480, {  6,   6,   2}},
-	{m68k_op_neg_32_ai           , 0xfff8, 0x4490, { 20,  20,   8}},
-	{m68k_op_neg_32_pi           , 0xfff8, 0x4498, { 20,  20,   8}},
-	{m68k_op_neg_32_pd           , 0xfff8, 0x44a0, { 22,  22,   9}},
-	{m68k_op_neg_32_di           , 0xfff8, 0x44a8, { 24,  24,   9}},
-	{m68k_op_neg_32_ix           , 0xfff8, 0x44b0, { 26,  26,  11}},
-	{m68k_op_move_16_toc_d       , 0xfff8, 0x44c0, { 12,  12,   4}},
-	{m68k_op_move_16_toc_ai      , 0xfff8, 0x44d0, { 16,  16,   8}},
-	{m68k_op_move_16_toc_pi      , 0xfff8, 0x44d8, { 16,  16,   8}},
-	{m68k_op_move_16_toc_pd      , 0xfff8, 0x44e0, { 18,  18,   9}},
-	{m68k_op_move_16_toc_di      , 0xfff8, 0x44e8, { 20,  20,   9}},
-	{m68k_op_move_16_toc_ix      , 0xfff8, 0x44f0, { 22,  22,  11}},
-	{m68k_op_not_8_d             , 0xfff8, 0x4600, {  4,   4,   2}},
-	{m68k_op_not_8_ai            , 0xfff8, 0x4610, { 12,  12,   8}},
-	{m68k_op_not_8_pi            , 0xfff8, 0x4618, { 12,  12,   8}},
-	{m68k_op_not_8_pd            , 0xfff8, 0x4620, { 14,  14,   9}},
-	{m68k_op_not_8_di            , 0xfff8, 0x4628, { 16,  16,   9}},
-	{m68k_op_not_8_ix            , 0xfff8, 0x4630, { 18,  18,  11}},
-	{m68k_op_not_16_d            , 0xfff8, 0x4640, {  4,   4,   2}},
-	{m68k_op_not_16_ai           , 0xfff8, 0x4650, { 12,  12,   8}},
-	{m68k_op_not_16_pi           , 0xfff8, 0x4658, { 12,  12,   8}},
-	{m68k_op_not_16_pd           , 0xfff8, 0x4660, { 14,  14,   9}},
-	{m68k_op_not_16_di           , 0xfff8, 0x4668, { 16,  16,   9}},
-	{m68k_op_not_16_ix           , 0xfff8, 0x4670, { 18,  18,  11}},
-	{m68k_op_not_32_d            , 0xfff8, 0x4680, {  6,   6,   2}},
-	{m68k_op_not_32_ai           , 0xfff8, 0x4690, { 20,  20,   8}},
-	{m68k_op_not_32_pi           , 0xfff8, 0x4698, { 20,  20,   8}},
-	{m68k_op_not_32_pd           , 0xfff8, 0x46a0, { 22,  22,   9}},
-	{m68k_op_not_32_di           , 0xfff8, 0x46a8, { 24,  24,   9}},
-	{m68k_op_not_32_ix           , 0xfff8, 0x46b0, { 26,  26,  11}},
-	{m68k_op_move_16_tos_d       , 0xfff8, 0x46c0, { 12,  12,   8}},
-	{m68k_op_move_16_tos_ai      , 0xfff8, 0x46d0, { 16,  16,  12}},
-	{m68k_op_move_16_tos_pi      , 0xfff8, 0x46d8, { 16,  16,  12}},
-	{m68k_op_move_16_tos_pd      , 0xfff8, 0x46e0, { 18,  18,  13}},
-	{m68k_op_move_16_tos_di      , 0xfff8, 0x46e8, { 20,  20,  13}},
-	{m68k_op_move_16_tos_ix      , 0xfff8, 0x46f0, { 22,  22,  15}},
-	{m68k_op_nbcd_8_d            , 0xfff8, 0x4800, {  6,   6,   6}},
-	{m68k_op_link_32             , 0xfff8, 0x4808, {  0,   0,   6}},
-	{m68k_op_nbcd_8_ai           , 0xfff8, 0x4810, { 12,  12,  10}},
-	{m68k_op_nbcd_8_pi           , 0xfff8, 0x4818, { 12,  12,  10}},
-	{m68k_op_nbcd_8_pd           , 0xfff8, 0x4820, { 14,  14,  11}},
-	{m68k_op_nbcd_8_di           , 0xfff8, 0x4828, { 16,  16,  11}},
-	{m68k_op_nbcd_8_ix           , 0xfff8, 0x4830, { 18,  18,  13}},
-	{m68k_op_swap_32             , 0xfff8, 0x4840, {  4,   4,   4}},
-	{m68k_op_bkpt                , 0xfff8, 0x4848, {  0,  10,  10}},
-	{m68k_op_pea_32_ai           , 0xfff8, 0x4850, { 10,  10,   9}},
-	{m68k_op_pea_32_di           , 0xfff8, 0x4868, { 16,  16,  10}},
-	{m68k_op_pea_32_ix           , 0xfff8, 0x4870, { 20,  20,  12}},
-	{m68k_op_ext_16              , 0xfff8, 0x4880, {  4,   4,   4}},
-	{m68k_op_movem_16_re_ai      , 0xfff8, 0x4890, { 12,  12,   8}},
-	{m68k_op_movem_16_re_pd      , 0xfff8, 0x48a0, {  8,   8,   4}},
-	{m68k_op_movem_16_re_di      , 0xfff8, 0x48a8, { 16,  16,   9}},
-	{m68k_op_movem_16_re_ix      , 0xfff8, 0x48b0, { 18,  18,  11}},
-	{m68k_op_ext_32              , 0xfff8, 0x48c0, {  4,   4,   4}},
-	{m68k_op_movem_32_re_ai      , 0xfff8, 0x48d0, { 16,  16,   8}},
-	{m68k_op_movem_32_re_pd      , 0xfff8, 0x48e0, {  8,   8,   4}},
-	{m68k_op_movem_32_re_di      , 0xfff8, 0x48e8, { 20,  20,   9}},
-	{m68k_op_movem_32_re_ix      , 0xfff8, 0x48f0, { 22,  22,  11}},
-	{m68k_op_extb_32             , 0xfff8, 0x49c0, {  0,   0,   4}},
-	{m68k_op_tst_8_d             , 0xfff8, 0x4a00, {  4,   4,   2}},
-	{m68k_op_tst_8_ai            , 0xfff8, 0x4a10, {  8,   8,   6}},
-	{m68k_op_tst_8_pi            , 0xfff8, 0x4a18, {  8,   8,   6}},
-	{m68k_op_tst_8_pd            , 0xfff8, 0x4a20, { 10,  10,   7}},
-	{m68k_op_tst_8_di            , 0xfff8, 0x4a28, { 12,  12,   7}},
-	{m68k_op_tst_8_ix            , 0xfff8, 0x4a30, { 14,  14,   9}},
-	{m68k_op_tst_16_d            , 0xfff8, 0x4a40, {  4,   4,   2}},
-	{m68k_op_tst_16_a            , 0xfff8, 0x4a48, {  0,   0,   2}},
-	{m68k_op_tst_16_ai           , 0xfff8, 0x4a50, {  8,   8,   6}},
-	{m68k_op_tst_16_pi           , 0xfff8, 0x4a58, {  8,   8,   6}},
-	{m68k_op_tst_16_pd           , 0xfff8, 0x4a60, { 10,  10,   7}},
-	{m68k_op_tst_16_di           , 0xfff8, 0x4a68, { 12,  12,   7}},
-	{m68k_op_tst_16_ix           , 0xfff8, 0x4a70, { 14,  14,   9}},
-	{m68k_op_tst_32_d            , 0xfff8, 0x4a80, {  4,   4,   2}},
-	{m68k_op_tst_32_a            , 0xfff8, 0x4a88, {  0,   0,   2}},
-	{m68k_op_tst_32_ai           , 0xfff8, 0x4a90, { 12,  12,   6}},
-	{m68k_op_tst_32_pi           , 0xfff8, 0x4a98, { 12,  12,   6}},
-	{m68k_op_tst_32_pd           , 0xfff8, 0x4aa0, { 14,  14,   7}},
-	{m68k_op_tst_32_di           , 0xfff8, 0x4aa8, { 16,  16,   7}},
-	{m68k_op_tst_32_ix           , 0xfff8, 0x4ab0, { 18,  18,   9}},
-	{m68k_op_tas_8_d             , 0xfff8, 0x4ac0, {  4,   4,   4}},
-	{m68k_op_tas_8_ai            , 0xfff8, 0x4ad0, { 18,  18,  16}},
-	{m68k_op_tas_8_pi            , 0xfff8, 0x4ad8, { 18,  18,  16}},
-	{m68k_op_tas_8_pd            , 0xfff8, 0x4ae0, { 20,  20,  17}},
-	{m68k_op_tas_8_di            , 0xfff8, 0x4ae8, { 22,  22,  17}},
-	{m68k_op_tas_8_ix            , 0xfff8, 0x4af0, { 24,  24,  19}},
-	{m68k_op_mull_32_d           , 0xfff8, 0x4c00, {  0,   0,  43}},
-	{m68k_op_mull_32_ai          , 0xfff8, 0x4c10, {  0,   0,  47}},
-	{m68k_op_mull_32_pi          , 0xfff8, 0x4c18, {  0,   0,  47}},
-	{m68k_op_mull_32_pd          , 0xfff8, 0x4c20, {  0,   0,  48}},
-	{m68k_op_mull_32_di          , 0xfff8, 0x4c28, {  0,   0,  48}},
-	{m68k_op_mull_32_ix          , 0xfff8, 0x4c30, {  0,   0,  50}},
-	{m68k_op_divl_32_d           , 0xfff8, 0x4c40, {  0,   0,  84}},
-	{m68k_op_divl_32_ai          , 0xfff8, 0x4c50, {  0,   0,  88}},
-	{m68k_op_divl_32_pi          , 0xfff8, 0x4c58, {  0,   0,  88}},
-	{m68k_op_divl_32_pd          , 0xfff8, 0x4c60, {  0,   0,  89}},
-	{m68k_op_divl_32_di          , 0xfff8, 0x4c68, {  0,   0,  89}},
-	{m68k_op_divl_32_ix          , 0xfff8, 0x4c70, {  0,   0,  91}},
-	{m68k_op_movem_16_er_ai      , 0xfff8, 0x4c90, { 16,  16,  12}},
-	{m68k_op_movem_16_er_pi      , 0xfff8, 0x4c98, { 12,  12,   8}},
-	{m68k_op_movem_16_er_di      , 0xfff8, 0x4ca8, { 20,  20,  13}},
-	{m68k_op_movem_16_er_ix      , 0xfff8, 0x4cb0, { 22,  22,  15}},
-	{m68k_op_movem_32_er_ai      , 0xfff8, 0x4cd0, { 20,  20,  12}},
-	{m68k_op_movem_32_er_pi      , 0xfff8, 0x4cd8, { 12,  12,   8}},
-	{m68k_op_movem_32_er_di      , 0xfff8, 0x4ce8, { 24,  24,  13}},
-	{m68k_op_movem_32_er_ix      , 0xfff8, 0x4cf0, { 26,  26,  15}},
-	{m68k_op_link_16             , 0xfff8, 0x4e50, { 16,  16,   5}},
-	{m68k_op_unlk_32             , 0xfff8, 0x4e58, { 12,  12,   6}},
-	{m68k_op_move_32_tou         , 0xfff8, 0x4e60, {  4,   6,   2}},
-	{m68k_op_move_32_fru         , 0xfff8, 0x4e68, {  4,   6,   2}},
-	{m68k_op_jsr_32_ai           , 0xfff8, 0x4e90, { 16,  16,   4}},
-	{m68k_op_jsr_32_di           , 0xfff8, 0x4ea8, { 18,  18,   5}},
-	{m68k_op_jsr_32_ix           , 0xfff8, 0x4eb0, { 22,  22,   7}},
-	{m68k_op_jmp_32_ai           , 0xfff8, 0x4ed0, {  8,   8,   4}},
-	{m68k_op_jmp_32_di           , 0xfff8, 0x4ee8, { 10,  10,   5}},
-	{m68k_op_jmp_32_ix           , 0xfff8, 0x4ef0, { 12,  12,   7}},
-	{m68k_op_st_8_d              , 0xfff8, 0x50c0, {  6,   4,   4}},
-	{m68k_op_dbt_16              , 0xfff8, 0x50c8, { 12,  12,   6}},
-	{m68k_op_st_8_ai             , 0xfff8, 0x50d0, { 12,  12,  10}},
-	{m68k_op_st_8_pi             , 0xfff8, 0x50d8, { 12,  12,  10}},
-	{m68k_op_st_8_pd             , 0xfff8, 0x50e0, { 14,  14,  11}},
-	{m68k_op_st_8_di             , 0xfff8, 0x50e8, { 16,  16,  11}},
-	{m68k_op_st_8_ix             , 0xfff8, 0x50f0, { 18,  18,  13}},
-	{m68k_op_sf_8_d              , 0xfff8, 0x51c0, {  4,   4,   4}},
-	{m68k_op_dbf_16              , 0xfff8, 0x51c8, { 14,  14,   6}},
-	{m68k_op_sf_8_ai             , 0xfff8, 0x51d0, { 12,  12,  10}},
-	{m68k_op_sf_8_pi             , 0xfff8, 0x51d8, { 12,  12,  10}},
-	{m68k_op_sf_8_pd             , 0xfff8, 0x51e0, { 14,  14,  11}},
-	{m68k_op_sf_8_di             , 0xfff8, 0x51e8, { 16,  16,  11}},
-	{m68k_op_sf_8_ix             , 0xfff8, 0x51f0, { 18,  18,  13}},
-	{m68k_op_shi_8_d             , 0xfff8, 0x52c0, {  4,   4,   4}},
-	{m68k_op_dbhi_16             , 0xfff8, 0x52c8, { 12,  12,   6}},
-	{m68k_op_shi_8_ai            , 0xfff8, 0x52d0, { 12,  12,  10}},
-	{m68k_op_shi_8_pi            , 0xfff8, 0x52d8, { 12,  12,  10}},
-	{m68k_op_shi_8_pd            , 0xfff8, 0x52e0, { 14,  14,  11}},
-	{m68k_op_shi_8_di            , 0xfff8, 0x52e8, { 16,  16,  11}},
-	{m68k_op_shi_8_ix            , 0xfff8, 0x52f0, { 18,  18,  13}},
-	{m68k_op_sls_8_d             , 0xfff8, 0x53c0, {  4,   4,   4}},
-	{m68k_op_dbls_16             , 0xfff8, 0x53c8, { 12,  12,   6}},
-	{m68k_op_sls_8_ai            , 0xfff8, 0x53d0, { 12,  12,  10}},
-	{m68k_op_sls_8_pi            , 0xfff8, 0x53d8, { 12,  12,  10}},
-	{m68k_op_sls_8_pd            , 0xfff8, 0x53e0, { 14,  14,  11}},
-	{m68k_op_sls_8_di            , 0xfff8, 0x53e8, { 16,  16,  11}},
-	{m68k_op_sls_8_ix            , 0xfff8, 0x53f0, { 18,  18,  13}},
-	{m68k_op_scc_8_d             , 0xfff8, 0x54c0, {  4,   4,   4}},
-	{m68k_op_dbcc_16             , 0xfff8, 0x54c8, { 12,  12,   6}},
-	{m68k_op_scc_8_ai            , 0xfff8, 0x54d0, { 12,  12,  10}},
-	{m68k_op_scc_8_pi            , 0xfff8, 0x54d8, { 12,  12,  10}},
-	{m68k_op_scc_8_pd            , 0xfff8, 0x54e0, { 14,  14,  11}},
-	{m68k_op_scc_8_di            , 0xfff8, 0x54e8, { 16,  16,  11}},
-	{m68k_op_scc_8_ix            , 0xfff8, 0x54f0, { 18,  18,  13}},
-	{m68k_op_scs_8_d             , 0xfff8, 0x55c0, {  4,   4,   4}},
-	{m68k_op_dbcs_16             , 0xfff8, 0x55c8, { 12,  12,   6}},
-	{m68k_op_scs_8_ai            , 0xfff8, 0x55d0, { 12,  12,  10}},
-	{m68k_op_scs_8_pi            , 0xfff8, 0x55d8, { 12,  12,  10}},
-	{m68k_op_scs_8_pd            , 0xfff8, 0x55e0, { 14,  14,  11}},
-	{m68k_op_scs_8_di            , 0xfff8, 0x55e8, { 16,  16,  11}},
-	{m68k_op_scs_8_ix            , 0xfff8, 0x55f0, { 18,  18,  13}},
-	{m68k_op_sne_8_d             , 0xfff8, 0x56c0, {  4,   4,   4}},
-	{m68k_op_dbne_16             , 0xfff8, 0x56c8, { 12,  12,   6}},
-	{m68k_op_sne_8_ai            , 0xfff8, 0x56d0, { 12,  12,  10}},
-	{m68k_op_sne_8_pi            , 0xfff8, 0x56d8, { 12,  12,  10}},
-	{m68k_op_sne_8_pd            , 0xfff8, 0x56e0, { 14,  14,  11}},
-	{m68k_op_sne_8_di            , 0xfff8, 0x56e8, { 16,  16,  11}},
-	{m68k_op_sne_8_ix            , 0xfff8, 0x56f0, { 18,  18,  13}},
-	{m68k_op_seq_8_d             , 0xfff8, 0x57c0, {  4,   4,   4}},
-	{m68k_op_dbeq_16             , 0xfff8, 0x57c8, { 12,  12,   6}},
-	{m68k_op_seq_8_ai            , 0xfff8, 0x57d0, { 12,  12,  10}},
-	{m68k_op_seq_8_pi            , 0xfff8, 0x57d8, { 12,  12,  10}},
-	{m68k_op_seq_8_pd            , 0xfff8, 0x57e0, { 14,  14,  11}},
-	{m68k_op_seq_8_di            , 0xfff8, 0x57e8, { 16,  16,  11}},
-	{m68k_op_seq_8_ix            , 0xfff8, 0x57f0, { 18,  18,  13}},
-	{m68k_op_svc_8_d             , 0xfff8, 0x58c0, {  4,   4,   4}},
-	{m68k_op_dbvc_16             , 0xfff8, 0x58c8, { 12,  12,   6}},
-	{m68k_op_svc_8_ai            , 0xfff8, 0x58d0, { 12,  12,  10}},
-	{m68k_op_svc_8_pi            , 0xfff8, 0x58d8, { 12,  12,  10}},
-	{m68k_op_svc_8_pd            , 0xfff8, 0x58e0, { 14,  14,  11}},
-	{m68k_op_svc_8_di            , 0xfff8, 0x58e8, { 16,  16,  11}},
-	{m68k_op_svc_8_ix            , 0xfff8, 0x58f0, { 18,  18,  13}},
-	{m68k_op_svs_8_d             , 0xfff8, 0x59c0, {  4,   4,   4}},
-	{m68k_op_dbvs_16             , 0xfff8, 0x59c8, { 12,  12,   6}},
-	{m68k_op_svs_8_ai            , 0xfff8, 0x59d0, { 12,  12,  10}},
-	{m68k_op_svs_8_pi            , 0xfff8, 0x59d8, { 12,  12,  10}},
-	{m68k_op_svs_8_pd            , 0xfff8, 0x59e0, { 14,  14,  11}},
-	{m68k_op_svs_8_di            , 0xfff8, 0x59e8, { 16,  16,  11}},
-	{m68k_op_svs_8_ix            , 0xfff8, 0x59f0, { 18,  18,  13}},
-	{m68k_op_spl_8_d             , 0xfff8, 0x5ac0, {  4,   4,   4}},
-	{m68k_op_dbpl_16             , 0xfff8, 0x5ac8, { 12,  12,   6}},
-	{m68k_op_spl_8_ai            , 0xfff8, 0x5ad0, { 12,  12,  10}},
-	{m68k_op_spl_8_pi            , 0xfff8, 0x5ad8, { 12,  12,  10}},
-	{m68k_op_spl_8_pd            , 0xfff8, 0x5ae0, { 14,  14,  11}},
-	{m68k_op_spl_8_di            , 0xfff8, 0x5ae8, { 16,  16,  11}},
-	{m68k_op_spl_8_ix            , 0xfff8, 0x5af0, { 18,  18,  13}},
-	{m68k_op_smi_8_d             , 0xfff8, 0x5bc0, {  4,   4,   4}},
-	{m68k_op_dbmi_16             , 0xfff8, 0x5bc8, { 12,  12,   6}},
-	{m68k_op_smi_8_ai            , 0xfff8, 0x5bd0, { 12,  12,  10}},
-	{m68k_op_smi_8_pi            , 0xfff8, 0x5bd8, { 12,  12,  10}},
-	{m68k_op_smi_8_pd            , 0xfff8, 0x5be0, { 14,  14,  11}},
-	{m68k_op_smi_8_di            , 0xfff8, 0x5be8, { 16,  16,  11}},
-	{m68k_op_smi_8_ix            , 0xfff8, 0x5bf0, { 18,  18,  13}},
-	{m68k_op_sge_8_d             , 0xfff8, 0x5cc0, {  4,   4,   4}},
-	{m68k_op_dbge_16             , 0xfff8, 0x5cc8, { 12,  12,   6}},
-	{m68k_op_sge_8_ai            , 0xfff8, 0x5cd0, { 12,  12,  10}},
-	{m68k_op_sge_8_pi            , 0xfff8, 0x5cd8, { 12,  12,  10}},
-	{m68k_op_sge_8_pd            , 0xfff8, 0x5ce0, { 14,  14,  11}},
-	{m68k_op_sge_8_di            , 0xfff8, 0x5ce8, { 16,  16,  11}},
-	{m68k_op_sge_8_ix            , 0xfff8, 0x5cf0, { 18,  18,  13}},
-	{m68k_op_slt_8_d             , 0xfff8, 0x5dc0, {  4,   4,   4}},
-	{m68k_op_dblt_16             , 0xfff8, 0x5dc8, { 12,  12,   6}},
-	{m68k_op_slt_8_ai            , 0xfff8, 0x5dd0, { 12,  12,  10}},
-	{m68k_op_slt_8_pi            , 0xfff8, 0x5dd8, { 12,  12,  10}},
-	{m68k_op_slt_8_pd            , 0xfff8, 0x5de0, { 14,  14,  11}},
-	{m68k_op_slt_8_di            , 0xfff8, 0x5de8, { 16,  16,  11}},
-	{m68k_op_slt_8_ix            , 0xfff8, 0x5df0, { 18,  18,  13}},
-	{m68k_op_sgt_8_d             , 0xfff8, 0x5ec0, {  4,   4,   4}},
-	{m68k_op_dbgt_16             , 0xfff8, 0x5ec8, { 12,  12,   6}},
-	{m68k_op_sgt_8_ai            , 0xfff8, 0x5ed0, { 12,  12,  10}},
-	{m68k_op_sgt_8_pi            , 0xfff8, 0x5ed8, { 12,  12,  10}},
-	{m68k_op_sgt_8_pd            , 0xfff8, 0x5ee0, { 14,  14,  11}},
-	{m68k_op_sgt_8_di            , 0xfff8, 0x5ee8, { 16,  16,  11}},
-	{m68k_op_sgt_8_ix            , 0xfff8, 0x5ef0, { 18,  18,  13}},
-	{m68k_op_sle_8_d             , 0xfff8, 0x5fc0, {  4,   4,   4}},
-	{m68k_op_dble_16             , 0xfff8, 0x5fc8, { 12,  12,   6}},
-	{m68k_op_sle_8_ai            , 0xfff8, 0x5fd0, { 12,  12,  10}},
-	{m68k_op_sle_8_pi            , 0xfff8, 0x5fd8, { 12,  12,  10}},
-	{m68k_op_sle_8_pd            , 0xfff8, 0x5fe0, { 14,  14,  11}},
-	{m68k_op_sle_8_di            , 0xfff8, 0x5fe8, { 16,  16,  11}},
-	{m68k_op_sle_8_ix            , 0xfff8, 0x5ff0, { 18,  18,  13}},
-	{m68k_op_sbcd_8_mm_ax7       , 0xfff8, 0x8f08, { 18,  18,  16}},
-	{m68k_op_pack_16_mm_ax7      , 0xfff8, 0x8f48, {  0,   0,  13}},
-	{m68k_op_unpk_16_mm_ax7      , 0xfff8, 0x8f88, {  0,   0,  13}},
-	{m68k_op_subx_8_mm_ax7       , 0xfff8, 0x9f08, { 18,  18,  12}},
-	{m68k_op_cmpm_8_ax7          , 0xfff8, 0xbf08, { 12,  12,   9}},
-	{m68k_op_abcd_8_mm_ax7       , 0xfff8, 0xcf08, { 18,  18,  16}},
-	{m68k_op_addx_8_mm_ax7       , 0xfff8, 0xdf08, { 18,  18,  12}},
-	{m68k_op_asr_16_ai           , 0xfff8, 0xe0d0, { 12,  12,   9}},
-	{m68k_op_asr_16_pi           , 0xfff8, 0xe0d8, { 12,  12,   9}},
-	{m68k_op_asr_16_pd           , 0xfff8, 0xe0e0, { 14,  14,  10}},
-	{m68k_op_asr_16_di           , 0xfff8, 0xe0e8, { 16,  16,  10}},
-	{m68k_op_asr_16_ix           , 0xfff8, 0xe0f0, { 18,  18,  12}},
-	{m68k_op_asl_16_ai           , 0xfff8, 0xe1d0, { 12,  12,  10}},
-	{m68k_op_asl_16_pi           , 0xfff8, 0xe1d8, { 12,  12,  10}},
-	{m68k_op_asl_16_pd           , 0xfff8, 0xe1e0, { 14,  14,  11}},
-	{m68k_op_asl_16_di           , 0xfff8, 0xe1e8, { 16,  16,  11}},
-	{m68k_op_asl_16_ix           , 0xfff8, 0xe1f0, { 18,  18,  13}},
-	{m68k_op_lsr_16_ai           , 0xfff8, 0xe2d0, { 12,  12,   9}},
-	{m68k_op_lsr_16_pi           , 0xfff8, 0xe2d8, { 12,  12,   9}},
-	{m68k_op_lsr_16_pd           , 0xfff8, 0xe2e0, { 14,  14,  10}},
-	{m68k_op_lsr_16_di           , 0xfff8, 0xe2e8, { 16,  16,  10}},
-	{m68k_op_lsr_16_ix           , 0xfff8, 0xe2f0, { 18,  18,  12}},
-	{m68k_op_lsl_16_ai           , 0xfff8, 0xe3d0, { 12,  12,   9}},
-	{m68k_op_lsl_16_pi           , 0xfff8, 0xe3d8, { 12,  12,   9}},
-	{m68k_op_lsl_16_pd           , 0xfff8, 0xe3e0, { 14,  14,  10}},
-	{m68k_op_lsl_16_di           , 0xfff8, 0xe3e8, { 16,  16,  10}},
-	{m68k_op_lsl_16_ix           , 0xfff8, 0xe3f0, { 18,  18,  12}},
-	{m68k_op_roxr_16_ai          , 0xfff8, 0xe4d0, { 12,  12,   9}},
-	{m68k_op_roxr_16_pi          , 0xfff8, 0xe4d8, { 12,  12,   9}},
-	{m68k_op_roxr_16_pd          , 0xfff8, 0xe4e0, { 14,  14,  10}},
-	{m68k_op_roxr_16_di          , 0xfff8, 0xe4e8, { 16,  16,  10}},
-	{m68k_op_roxr_16_ix          , 0xfff8, 0xe4f0, { 18,  18,  12}},
-	{m68k_op_roxl_16_ai          , 0xfff8, 0xe5d0, { 12,  12,   9}},
-	{m68k_op_roxl_16_pi          , 0xfff8, 0xe5d8, { 12,  12,   9}},
-	{m68k_op_roxl_16_pd          , 0xfff8, 0xe5e0, { 14,  14,  10}},
-	{m68k_op_roxl_16_di          , 0xfff8, 0xe5e8, { 16,  16,  10}},
-	{m68k_op_roxl_16_ix          , 0xfff8, 0xe5f0, { 18,  18,  12}},
-	{m68k_op_ror_16_ai           , 0xfff8, 0xe6d0, { 12,  12,  11}},
-	{m68k_op_ror_16_pi           , 0xfff8, 0xe6d8, { 12,  12,  11}},
-	{m68k_op_ror_16_pd           , 0xfff8, 0xe6e0, { 14,  14,  12}},
-	{m68k_op_ror_16_di           , 0xfff8, 0xe6e8, { 16,  16,  12}},
-	{m68k_op_ror_16_ix           , 0xfff8, 0xe6f0, { 18,  18,  14}},
-	{m68k_op_rol_16_ai           , 0xfff8, 0xe7d0, { 12,  12,  11}},
-	{m68k_op_rol_16_pi           , 0xfff8, 0xe7d8, { 12,  12,  11}},
-	{m68k_op_rol_16_pd           , 0xfff8, 0xe7e0, { 14,  14,  12}},
-	{m68k_op_rol_16_di           , 0xfff8, 0xe7e8, { 16,  16,  12}},
-	{m68k_op_rol_16_ix           , 0xfff8, 0xe7f0, { 18,  18,  14}},
-	{m68k_op_bftst_32_d          , 0xfff8, 0xe8c0, {  0,   0,   6}},
-	{m68k_op_bftst_32_ai         , 0xfff8, 0xe8d0, {  0,   0,  17}},
-	{m68k_op_bftst_32_di         , 0xfff8, 0xe8e8, {  0,   0,  18}},
-	{m68k_op_bftst_32_ix         , 0xfff8, 0xe8f0, {  0,   0,  20}},
-	{m68k_op_bfextu_32_d         , 0xfff8, 0xe9c0, {  0,   0,   8}},
-	{m68k_op_bfextu_32_ai        , 0xfff8, 0xe9d0, {  0,   0,  19}},
-	{m68k_op_bfextu_32_di        , 0xfff8, 0xe9e8, {  0,   0,  20}},
-	{m68k_op_bfextu_32_ix        , 0xfff8, 0xe9f0, {  0,   0,  22}},
-	{m68k_op_bfchg_32_d          , 0xfff8, 0xeac0, {  0,   0,  12}},
-	{m68k_op_bfchg_32_ai         , 0xfff8, 0xead0, {  0,   0,  24}},
-	{m68k_op_bfchg_32_di         , 0xfff8, 0xeae8, {  0,   0,  25}},
-	{m68k_op_bfchg_32_ix         , 0xfff8, 0xeaf0, {  0,   0,  27}},
-	{m68k_op_bfexts_32_d         , 0xfff8, 0xebc0, {  0,   0,   8}},
-	{m68k_op_bfexts_32_ai        , 0xfff8, 0xebd0, {  0,   0,  19}},
-	{m68k_op_bfexts_32_di        , 0xfff8, 0xebe8, {  0,   0,  20}},
-	{m68k_op_bfexts_32_ix        , 0xfff8, 0xebf0, {  0,   0,  22}},
-	{m68k_op_bfclr_32_d          , 0xfff8, 0xecc0, {  0,   0,  12}},
-	{m68k_op_bfclr_32_ai         , 0xfff8, 0xecd0, {  0,   0,  24}},
-	{m68k_op_bfclr_32_di         , 0xfff8, 0xece8, {  0,   0,  25}},
-	{m68k_op_bfclr_32_ix         , 0xfff8, 0xecf0, {  0,   0,  27}},
-	{m68k_op_bfffo_32_d          , 0xfff8, 0xedc0, {  0,   0,  18}},
-	{m68k_op_bfffo_32_ai         , 0xfff8, 0xedd0, {  0,   0,  32}},
-	{m68k_op_bfffo_32_di         , 0xfff8, 0xede8, {  0,   0,  33}},
-	{m68k_op_bfffo_32_ix         , 0xfff8, 0xedf0, {  0,   0,  35}},
-	{m68k_op_bfset_32_d          , 0xfff8, 0xeec0, {  0,   0,  12}},
-	{m68k_op_bfset_32_ai         , 0xfff8, 0xeed0, {  0,   0,  24}},
-	{m68k_op_bfset_32_di         , 0xfff8, 0xeee8, {  0,   0,  25}},
-	{m68k_op_bfset_32_ix         , 0xfff8, 0xeef0, {  0,   0,  27}},
-	{m68k_op_bfins_32_d          , 0xfff8, 0xefc0, {  0,   0,  10}},
-	{m68k_op_bfins_32_ai         , 0xfff8, 0xefd0, {  0,   0,  21}},
-	{m68k_op_bfins_32_di         , 0xfff8, 0xefe8, {  0,   0,  22}},
-	{m68k_op_bfins_32_ix         , 0xfff8, 0xeff0, {  0,   0,  24}},
-	{m68k_op_ori_8_pi7           , 0xffff, 0x001f, { 16,  16,   8}},
-	{m68k_op_ori_8_pd7           , 0xffff, 0x0027, { 18,  18,   9}},
-	{m68k_op_ori_8_aw            , 0xffff, 0x0038, { 20,  20,   8}},
-	{m68k_op_ori_8_al            , 0xffff, 0x0039, { 24,  24,   8}},
-	{m68k_op_ori_16_toc          , 0xffff, 0x003c, { 20,  16,  12}},
-	{m68k_op_ori_16_aw           , 0xffff, 0x0078, { 20,  20,   8}},
-	{m68k_op_ori_16_al           , 0xffff, 0x0079, { 24,  24,   8}},
-	{m68k_op_ori_16_tos          , 0xffff, 0x007c, { 20,  16,  12}},
-	{m68k_op_ori_32_aw           , 0xffff, 0x00b8, { 32,  32,   8}},
-	{m68k_op_ori_32_al           , 0xffff, 0x00b9, { 36,  36,   8}},
-	{m68k_op_chk2cmp2_8_aw       , 0xffff, 0x00f8, {  0,   0,  22}},
-	{m68k_op_chk2cmp2_8_al       , 0xffff, 0x00f9, {  0,   0,  22}},
-	{m68k_op_chk2cmp2_8_pcdi     , 0xffff, 0x00fa, {  0,   0,  23}},
-	{m68k_op_chk2cmp2_8_pcix     , 0xffff, 0x00fb, {  0,   0,  23}},
-	{m68k_op_andi_8_pi7          , 0xffff, 0x021f, { 16,  16,   8}},
-	{m68k_op_andi_8_pd7          , 0xffff, 0x0227, { 18,  18,   9}},
-	{m68k_op_andi_8_aw           , 0xffff, 0x0238, { 20,  20,   8}},
-	{m68k_op_andi_8_al           , 0xffff, 0x0239, { 24,  24,   8}},
-	{m68k_op_andi_16_toc         , 0xffff, 0x023c, { 20,  16,  12}},
-	{m68k_op_andi_16_aw          , 0xffff, 0x0278, { 20,  20,   8}},
-	{m68k_op_andi_16_al          , 0xffff, 0x0279, { 24,  24,   8}},
-	{m68k_op_andi_16_tos         , 0xffff, 0x027c, { 20,  16,  12}},
-	{m68k_op_andi_32_aw          , 0xffff, 0x02b8, { 32,  32,   8}},
-	{m68k_op_andi_32_al          , 0xffff, 0x02b9, { 36,  36,   8}},
-	{m68k_op_chk2cmp2_16_aw      , 0xffff, 0x02f8, {  0,   0,  22}},
-	{m68k_op_chk2cmp2_16_al      , 0xffff, 0x02f9, {  0,   0,  22}},
-	{m68k_op_chk2cmp2_16_pcdi    , 0xffff, 0x02fa, {  0,   0,  23}},
-	{m68k_op_chk2cmp2_16_pcix    , 0xffff, 0x02fb, {  0,   0,  23}},
-	{m68k_op_subi_8_pi7          , 0xffff, 0x041f, { 16,  16,   8}},
-	{m68k_op_subi_8_pd7          , 0xffff, 0x0427, { 18,  18,   9}},
-	{m68k_op_subi_8_aw           , 0xffff, 0x0438, { 20,  20,   8}},
-	{m68k_op_subi_8_al           , 0xffff, 0x0439, { 24,  24,   8}},
-	{m68k_op_subi_16_aw          , 0xffff, 0x0478, { 20,  20,   8}},
-	{m68k_op_subi_16_al          , 0xffff, 0x0479, { 24,  24,   8}},
-	{m68k_op_subi_32_aw          , 0xffff, 0x04b8, { 32,  32,   8}},
-	{m68k_op_subi_32_al          , 0xffff, 0x04b9, { 36,  36,   8}},
-	{m68k_op_chk2cmp2_32_aw      , 0xffff, 0x04f8, {  0,   0,  22}},
-	{m68k_op_chk2cmp2_32_al      , 0xffff, 0x04f9, {  0,   0,  22}},
-	{m68k_op_chk2cmp2_32_pcdi    , 0xffff, 0x04fa, {  0,   0,  23}},
-	{m68k_op_chk2cmp2_32_pcix    , 0xffff, 0x04fb, {  0,   0,  23}},
-	{m68k_op_addi_8_pi7          , 0xffff, 0x061f, { 16,  16,   8}},
-	{m68k_op_addi_8_pd7          , 0xffff, 0x0627, { 18,  18,   9}},
-	{m68k_op_addi_8_aw           , 0xffff, 0x0638, { 20,  20,   8}},
-	{m68k_op_addi_8_al           , 0xffff, 0x0639, { 24,  24,   8}},
-	{m68k_op_addi_16_aw          , 0xffff, 0x0678, { 20,  20,   8}},
-	{m68k_op_addi_16_al          , 0xffff, 0x0679, { 24,  24,   8}},
-	{m68k_op_addi_32_aw          , 0xffff, 0x06b8, { 32,  32,   8}},
-	{m68k_op_addi_32_al          , 0xffff, 0x06b9, { 36,  36,   8}},
-	{m68k_op_callm_32_aw         , 0xffff, 0x06f8, {  0,   0,  64}},
-	{m68k_op_callm_32_al         , 0xffff, 0x06f9, {  0,   0,  64}},
-	{m68k_op_callm_32_pcdi       , 0xffff, 0x06fa, {  0,   0,  65}},
-	{m68k_op_callm_32_pcix       , 0xffff, 0x06fb, {  0,   0,  67}},
-	{m68k_op_btst_8_s_pi7        , 0xffff, 0x081f, { 12,  12,   8}},
-	{m68k_op_btst_8_s_pd7        , 0xffff, 0x0827, { 14,  14,   9}},
-	{m68k_op_btst_8_s_aw         , 0xffff, 0x0838, { 16,  16,   8}},
-	{m68k_op_btst_8_s_al         , 0xffff, 0x0839, { 20,  20,   8}},
-	{m68k_op_btst_8_s_pcdi       , 0xffff, 0x083a, { 16,  16,   9}},
-	{m68k_op_btst_8_s_pcix       , 0xffff, 0x083b, { 18,  18,  11}},
-	{m68k_op_bchg_8_s_pi7        , 0xffff, 0x085f, { 16,  16,   8}},
-	{m68k_op_bchg_8_s_pd7        , 0xffff, 0x0867, { 18,  18,   9}},
-	{m68k_op_bchg_8_s_aw         , 0xffff, 0x0878, { 20,  20,   8}},
-	{m68k_op_bchg_8_s_al         , 0xffff, 0x0879, { 24,  24,   8}},
-	{m68k_op_bclr_8_s_pi7        , 0xffff, 0x089f, { 16,  16,   8}},
-	{m68k_op_bclr_8_s_pd7        , 0xffff, 0x08a7, { 18,  18,   9}},
-	{m68k_op_bclr_8_s_aw         , 0xffff, 0x08b8, { 20,  20,   8}},
-	{m68k_op_bclr_8_s_al         , 0xffff, 0x08b9, { 24,  24,   8}},
-	{m68k_op_bset_8_s_pi7        , 0xffff, 0x08df, { 16,  16,   8}},
-	{m68k_op_bset_8_s_pd7        , 0xffff, 0x08e7, { 18,  18,   9}},
-	{m68k_op_bset_8_s_aw         , 0xffff, 0x08f8, { 20,  20,   8}},
-	{m68k_op_bset_8_s_al         , 0xffff, 0x08f9, { 24,  24,   8}},
-	{m68k_op_eori_8_pi7          , 0xffff, 0x0a1f, { 16,  16,   8}},
-	{m68k_op_eori_8_pd7          , 0xffff, 0x0a27, { 18,  18,   9}},
-	{m68k_op_eori_8_aw           , 0xffff, 0x0a38, { 20,  20,   8}},
-	{m68k_op_eori_8_al           , 0xffff, 0x0a39, { 24,  24,   8}},
-	{m68k_op_eori_16_toc         , 0xffff, 0x0a3c, { 20,  16,  12}},
-	{m68k_op_eori_16_aw          , 0xffff, 0x0a78, { 20,  20,   8}},
-	{m68k_op_eori_16_al          , 0xffff, 0x0a79, { 24,  24,   8}},
-	{m68k_op_eori_16_tos         , 0xffff, 0x0a7c, { 20,  16,  12}},
-	{m68k_op_eori_32_aw          , 0xffff, 0x0ab8, { 32,  32,   8}},
-	{m68k_op_eori_32_al          , 0xffff, 0x0ab9, { 36,  36,   8}},
-	{m68k_op_cas_8_pi7           , 0xffff, 0x0adf, {  0,   0,  16}},
-	{m68k_op_cas_8_pd7           , 0xffff, 0x0ae7, {  0,   0,  17}},
-	{m68k_op_cas_8_aw            , 0xffff, 0x0af8, {  0,   0,  16}},
-	{m68k_op_cas_8_al            , 0xffff, 0x0af9, {  0,   0,  16}},
-	{m68k_op_cmpi_8_pi7          , 0xffff, 0x0c1f, { 12,  12,   6}},
-	{m68k_op_cmpi_8_pd7          , 0xffff, 0x0c27, { 14,  14,   7}},
-	{m68k_op_cmpi_8_aw           , 0xffff, 0x0c38, { 16,  16,   6}},
-	{m68k_op_cmpi_8_al           , 0xffff, 0x0c39, { 20,  20,   6}},
-	{m68k_op_cmpi_8_pcdi         , 0xffff, 0x0c3a, {  0,   0,   7}},
-	{m68k_op_cmpi_8_pcix         , 0xffff, 0x0c3b, {  0,   0,   9}},
-	{m68k_op_cmpi_16_aw          , 0xffff, 0x0c78, { 16,  16,   6}},
-	{m68k_op_cmpi_16_al          , 0xffff, 0x0c79, { 20,  20,   6}},
-	{m68k_op_cmpi_16_pcdi        , 0xffff, 0x0c7a, {  0,   0,   7}},
-	{m68k_op_cmpi_16_pcix        , 0xffff, 0x0c7b, {  0,   0,   9}},
-	{m68k_op_cmpi_32_aw          , 0xffff, 0x0cb8, { 24,  24,   6}},
-	{m68k_op_cmpi_32_al          , 0xffff, 0x0cb9, { 28,  28,   6}},
-	{m68k_op_cmpi_32_pcdi        , 0xffff, 0x0cba, {  0,   0,   7}},
-	{m68k_op_cmpi_32_pcix        , 0xffff, 0x0cbb, {  0,   0,   9}},
-	{m68k_op_cas_16_aw           , 0xffff, 0x0cf8, {  0,   0,  16}},
-	{m68k_op_cas_16_al           , 0xffff, 0x0cf9, {  0,   0,  16}},
-	{m68k_op_cas2_16             , 0xffff, 0x0cfc, {  0,   0,  12}},
-	{m68k_op_moves_8_pi7         , 0xffff, 0x0e1f, {  0,  18,   9}},
-	{m68k_op_moves_8_pd7         , 0xffff, 0x0e27, {  0,  20,  10}},
-	{m68k_op_moves_8_aw          , 0xffff, 0x0e38, {  0,  26,   9}},
-	{m68k_op_moves_8_al          , 0xffff, 0x0e39, {  0,  30,   9}},
-	{m68k_op_moves_16_aw         , 0xffff, 0x0e78, {  0,  26,   9}},
-	{m68k_op_moves_16_al         , 0xffff, 0x0e79, {  0,  30,   9}},
-	{m68k_op_moves_32_aw         , 0xffff, 0x0eb8, {  0,  32,   9}},
-	{m68k_op_moves_32_al         , 0xffff, 0x0eb9, {  0,  36,   9}},
-	{m68k_op_cas_32_aw           , 0xffff, 0x0ef8, {  0,   0,  16}},
-	{m68k_op_cas_32_al           , 0xffff, 0x0ef9, {  0,   0,  16}},
-	{m68k_op_cas2_32             , 0xffff, 0x0efc, {  0,   0,  12}},
-	{m68k_op_move_8_aw_pi7       , 0xffff, 0x11df, { 16,  16,   8}},
-	{m68k_op_move_8_aw_pd7       , 0xffff, 0x11e7, { 18,  18,   9}},
-	{m68k_op_move_8_aw_aw        , 0xffff, 0x11f8, { 20,  20,   8}},
-	{m68k_op_move_8_aw_al        , 0xffff, 0x11f9, { 24,  24,   8}},
-	{m68k_op_move_8_aw_pcdi      , 0xffff, 0x11fa, { 20,  20,   9}},
-	{m68k_op_move_8_aw_pcix      , 0xffff, 0x11fb, { 22,  22,  11}},
-	{m68k_op_move_8_aw_i         , 0xffff, 0x11fc, { 16,  16,   6}},
-	{m68k_op_move_8_al_pi7       , 0xffff, 0x13df, { 20,  20,  10}},
-	{m68k_op_move_8_al_pd7       , 0xffff, 0x13e7, { 22,  22,  11}},
-	{m68k_op_move_8_al_aw        , 0xffff, 0x13f8, { 24,  24,  10}},
-	{m68k_op_move_8_al_al        , 0xffff, 0x13f9, { 28,  28,  10}},
-	{m68k_op_move_8_al_pcdi      , 0xffff, 0x13fa, { 24,  24,  11}},
-	{m68k_op_move_8_al_pcix      , 0xffff, 0x13fb, { 26,  26,  13}},
-	{m68k_op_move_8_al_i         , 0xffff, 0x13fc, { 20,  20,   8}},
-	{m68k_op_move_8_pi7_pi7      , 0xffff, 0x1edf, { 12,  12,   8}},
-	{m68k_op_move_8_pi7_pd7      , 0xffff, 0x1ee7, { 14,  14,   9}},
-	{m68k_op_move_8_pi7_aw       , 0xffff, 0x1ef8, { 16,  16,   8}},
-	{m68k_op_move_8_pi7_al       , 0xffff, 0x1ef9, { 20,  20,   8}},
-	{m68k_op_move_8_pi7_pcdi     , 0xffff, 0x1efa, { 16,  16,   9}},
-	{m68k_op_move_8_pi7_pcix     , 0xffff, 0x1efb, { 18,  18,  11}},
-	{m68k_op_move_8_pi7_i        , 0xffff, 0x1efc, { 12,  12,   6}},
-	{m68k_op_move_8_pd7_pi7      , 0xffff, 0x1f1f, { 12,  12,   9}},
-	{m68k_op_move_8_pd7_pd7      , 0xffff, 0x1f27, { 14,  14,  10}},
-	{m68k_op_move_8_pd7_aw       , 0xffff, 0x1f38, { 16,  16,   9}},
-	{m68k_op_move_8_pd7_al       , 0xffff, 0x1f39, { 20,  20,   9}},
-	{m68k_op_move_8_pd7_pcdi     , 0xffff, 0x1f3a, { 16,  16,  10}},
-	{m68k_op_move_8_pd7_pcix     , 0xffff, 0x1f3b, { 18,  18,  12}},
-	{m68k_op_move_8_pd7_i        , 0xffff, 0x1f3c, { 12,  12,   7}},
-	{m68k_op_move_32_aw_aw       , 0xffff, 0x21f8, { 28,  28,   8}},
-	{m68k_op_move_32_aw_al       , 0xffff, 0x21f9, { 32,  32,   8}},
-	{m68k_op_move_32_aw_pcdi     , 0xffff, 0x21fa, { 28,  28,   9}},
-	{m68k_op_move_32_aw_pcix     , 0xffff, 0x21fb, { 30,  30,  11}},
-	{m68k_op_move_32_aw_i        , 0xffff, 0x21fc, { 24,  24,   8}},
-	{m68k_op_move_32_al_aw       , 0xffff, 0x23f8, { 32,  32,  10}},
-	{m68k_op_move_32_al_al       , 0xffff, 0x23f9, { 36,  36,  10}},
-	{m68k_op_move_32_al_pcdi     , 0xffff, 0x23fa, { 32,  32,  11}},
-	{m68k_op_move_32_al_pcix     , 0xffff, 0x23fb, { 34,  34,  13}},
-	{m68k_op_move_32_al_i        , 0xffff, 0x23fc, { 28,  28,  10}},
-	{m68k_op_move_16_aw_aw       , 0xffff, 0x31f8, { 20,  20,   8}},
-	{m68k_op_move_16_aw_al       , 0xffff, 0x31f9, { 24,  24,   8}},
-	{m68k_op_move_16_aw_pcdi     , 0xffff, 0x31fa, { 20,  20,   9}},
-	{m68k_op_move_16_aw_pcix     , 0xffff, 0x31fb, { 22,  22,  11}},
-	{m68k_op_move_16_aw_i        , 0xffff, 0x31fc, { 16,  16,   6}},
-	{m68k_op_move_16_al_aw       , 0xffff, 0x33f8, { 24,  24,  10}},
-	{m68k_op_move_16_al_al       , 0xffff, 0x33f9, { 28,  28,  10}},
-	{m68k_op_move_16_al_pcdi     , 0xffff, 0x33fa, { 24,  24,  11}},
-	{m68k_op_move_16_al_pcix     , 0xffff, 0x33fb, { 26,  26,  13}},
-	{m68k_op_move_16_al_i        , 0xffff, 0x33fc, { 20,  20,   8}},
-	{m68k_op_negx_8_pi7          , 0xffff, 0x401f, { 12,  12,   8}},
-	{m68k_op_negx_8_pd7          , 0xffff, 0x4027, { 14,  14,   9}},
-	{m68k_op_negx_8_aw           , 0xffff, 0x4038, { 16,  16,   8}},
-	{m68k_op_negx_8_al           , 0xffff, 0x4039, { 20,  20,   8}},
-	{m68k_op_negx_16_aw          , 0xffff, 0x4078, { 16,  16,   8}},
-	{m68k_op_negx_16_al          , 0xffff, 0x4079, { 20,  20,   8}},
-	{m68k_op_negx_32_aw          , 0xffff, 0x40b8, { 24,  24,   8}},
-	{m68k_op_negx_32_al          , 0xffff, 0x40b9, { 28,  28,   8}},
-	{m68k_op_move_16_frs_aw      , 0xffff, 0x40f8, { 16,  16,  12}},
-	{m68k_op_move_16_frs_al      , 0xffff, 0x40f9, { 20,  20,  12}},
-	{m68k_op_clr_8_pi7           , 0xffff, 0x421f, { 12,   8,   8}},
-	{m68k_op_clr_8_pd7           , 0xffff, 0x4227, { 14,  10,   9}},
-	{m68k_op_clr_8_aw            , 0xffff, 0x4238, { 16,  12,   8}},
-	{m68k_op_clr_8_al            , 0xffff, 0x4239, { 20,  14,   8}},
-	{m68k_op_clr_16_aw           , 0xffff, 0x4278, { 16,  12,   8}},
-	{m68k_op_clr_16_al           , 0xffff, 0x4279, { 20,  14,   8}},
-	{m68k_op_clr_32_aw           , 0xffff, 0x42b8, { 24,  16,   8}},
-	{m68k_op_clr_32_al           , 0xffff, 0x42b9, { 28,  20,   8}},
-	{m68k_op_move_16_frc_aw      , 0xffff, 0x42f8, {  0,  16,   8}},
-	{m68k_op_move_16_frc_al      , 0xffff, 0x42f9, {  0,  20,   8}},
-	{m68k_op_neg_8_pi7           , 0xffff, 0x441f, { 12,  12,   8}},
-	{m68k_op_neg_8_pd7           , 0xffff, 0x4427, { 14,  14,   9}},
-	{m68k_op_neg_8_aw            , 0xffff, 0x4438, { 16,  16,   8}},
-	{m68k_op_neg_8_al            , 0xffff, 0x4439, { 20,  20,   8}},
-	{m68k_op_neg_16_aw           , 0xffff, 0x4478, { 16,  16,   8}},
-	{m68k_op_neg_16_al           , 0xffff, 0x4479, { 20,  20,   8}},
-	{m68k_op_neg_32_aw           , 0xffff, 0x44b8, { 24,  24,   8}},
-	{m68k_op_neg_32_al           , 0xffff, 0x44b9, { 28,  28,   8}},
-	{m68k_op_move_16_toc_aw      , 0xffff, 0x44f8, { 20,  20,   8}},
-	{m68k_op_move_16_toc_al      , 0xffff, 0x44f9, { 24,  24,   8}},
-	{m68k_op_move_16_toc_pcdi    , 0xffff, 0x44fa, { 20,  20,   9}},
-	{m68k_op_move_16_toc_pcix    , 0xffff, 0x44fb, { 22,  22,  11}},
-	{m68k_op_move_16_toc_i       , 0xffff, 0x44fc, { 16,  16,   6}},
-	{m68k_op_not_8_pi7           , 0xffff, 0x461f, { 12,  12,   8}},
-	{m68k_op_not_8_pd7           , 0xffff, 0x4627, { 14,  14,   9}},
-	{m68k_op_not_8_aw            , 0xffff, 0x4638, { 16,  16,   8}},
-	{m68k_op_not_8_al            , 0xffff, 0x4639, { 20,  20,   8}},
-	{m68k_op_not_16_aw           , 0xffff, 0x4678, { 16,  16,   8}},
-	{m68k_op_not_16_al           , 0xffff, 0x4679, { 20,  20,   8}},
-	{m68k_op_not_32_aw           , 0xffff, 0x46b8, { 24,  24,   8}},
-	{m68k_op_not_32_al           , 0xffff, 0x46b9, { 28,  28,   8}},
-	{m68k_op_move_16_tos_aw      , 0xffff, 0x46f8, { 20,  20,  12}},
-	{m68k_op_move_16_tos_al      , 0xffff, 0x46f9, { 24,  24,  12}},
-	{m68k_op_move_16_tos_pcdi    , 0xffff, 0x46fa, { 20,  20,  13}},
-	{m68k_op_move_16_tos_pcix    , 0xffff, 0x46fb, { 22,  22,  15}},
-	{m68k_op_move_16_tos_i       , 0xffff, 0x46fc, { 16,  16,  10}},
-	{m68k_op_link_32_a7          , 0xffff, 0x480f, {  0,   0,   6}},
-	{m68k_op_nbcd_8_pi7          , 0xffff, 0x481f, { 12,  12,  10}},
-	{m68k_op_nbcd_8_pd7          , 0xffff, 0x4827, { 14,  14,  11}},
-	{m68k_op_nbcd_8_aw           , 0xffff, 0x4838, { 16,  16,  10}},
-	{m68k_op_nbcd_8_al           , 0xffff, 0x4839, { 20,  20,  10}},
-	{m68k_op_pea_32_aw           , 0xffff, 0x4878, { 16,  16,   9}},
-	{m68k_op_pea_32_al           , 0xffff, 0x4879, { 20,  20,   9}},
-	{m68k_op_pea_32_pcdi         , 0xffff, 0x487a, { 16,  16,  10}},
-	{m68k_op_pea_32_pcix         , 0xffff, 0x487b, { 20,  20,  12}},
-	{m68k_op_movem_16_re_aw      , 0xffff, 0x48b8, { 16,  16,   8}},
-	{m68k_op_movem_16_re_al      , 0xffff, 0x48b9, { 20,  20,   8}},
-	{m68k_op_movem_32_re_aw      , 0xffff, 0x48f8, { 20,  20,   8}},
-	{m68k_op_movem_32_re_al      , 0xffff, 0x48f9, { 24,  24,   8}},
-	{m68k_op_tst_8_pi7           , 0xffff, 0x4a1f, {  8,   8,   6}},
-	{m68k_op_tst_8_pd7           , 0xffff, 0x4a27, { 10,  10,   7}},
-	{m68k_op_tst_8_aw            , 0xffff, 0x4a38, { 12,  12,   6}},
-	{m68k_op_tst_8_al            , 0xffff, 0x4a39, { 16,  16,   6}},
-	{m68k_op_tst_8_pcdi          , 0xffff, 0x4a3a, {  0,   0,   7}},
-	{m68k_op_tst_8_pcix          , 0xffff, 0x4a3b, {  0,   0,   9}},
-	{m68k_op_tst_8_i             , 0xffff, 0x4a3c, {  0,   0,   6}},
-	{m68k_op_tst_16_aw           , 0xffff, 0x4a78, { 12,  12,   6}},
-	{m68k_op_tst_16_al           , 0xffff, 0x4a79, { 16,  16,   6}},
-	{m68k_op_tst_16_pcdi         , 0xffff, 0x4a7a, {  0,   0,   7}},
-	{m68k_op_tst_16_pcix         , 0xffff, 0x4a7b, {  0,   0,   9}},
-	{m68k_op_tst_16_i            , 0xffff, 0x4a7c, {  0,   0,   6}},
-	{m68k_op_tst_32_aw           , 0xffff, 0x4ab8, { 16,  16,   6}},
-	{m68k_op_tst_32_al           , 0xffff, 0x4ab9, { 20,  20,   6}},
-	{m68k_op_tst_32_pcdi         , 0xffff, 0x4aba, {  0,   0,   7}},
-	{m68k_op_tst_32_pcix         , 0xffff, 0x4abb, {  0,   0,   9}},
-	{m68k_op_tst_32_i            , 0xffff, 0x4abc, {  0,   0,   6}},
-	{m68k_op_tas_8_pi7           , 0xffff, 0x4adf, { 18,  18,  16}},
-	{m68k_op_tas_8_pd7           , 0xffff, 0x4ae7, { 20,  20,  17}},
-	{m68k_op_tas_8_aw            , 0xffff, 0x4af8, { 22,  22,  16}},
-	{m68k_op_tas_8_al            , 0xffff, 0x4af9, { 26,  26,  16}},
-	{m68k_op_illegal             , 0xffff, 0x4afc, {  4,   4,   4}},
-	{m68k_op_mull_32_aw          , 0xffff, 0x4c38, {  0,   0,  47}},
-	{m68k_op_mull_32_al          , 0xffff, 0x4c39, {  0,   0,  47}},
-	{m68k_op_mull_32_pcdi        , 0xffff, 0x4c3a, {  0,   0,  48}},
-	{m68k_op_mull_32_pcix        , 0xffff, 0x4c3b, {  0,   0,  50}},
-	{m68k_op_mull_32_i           , 0xffff, 0x4c3c, {  0,   0,  47}},
-	{m68k_op_divl_32_aw          , 0xffff, 0x4c78, {  0,   0,  88}},
-	{m68k_op_divl_32_al          , 0xffff, 0x4c79, {  0,   0,  88}},
-	{m68k_op_divl_32_pcdi        , 0xffff, 0x4c7a, {  0,   0,  89}},
-	{m68k_op_divl_32_pcix        , 0xffff, 0x4c7b, {  0,   0,  91}},
-	{m68k_op_divl_32_i           , 0xffff, 0x4c7c, {  0,   0,  88}},
-	{m68k_op_movem_16_er_aw      , 0xffff, 0x4cb8, { 20,  20,  12}},
-	{m68k_op_movem_16_er_al      , 0xffff, 0x4cb9, { 24,  24,  12}},
-	{m68k_op_movem_16_er_pcdi    , 0xffff, 0x4cba, { 16,  16,   9}},
-	{m68k_op_movem_16_er_pcix    , 0xffff, 0x4cbb, { 18,  18,  11}},
-	{m68k_op_movem_32_er_aw      , 0xffff, 0x4cf8, { 24,  24,  12}},
-	{m68k_op_movem_32_er_al      , 0xffff, 0x4cf9, { 28,  28,  12}},
-	{m68k_op_movem_32_er_pcdi    , 0xffff, 0x4cfa, { 20,  20,   9}},
-	{m68k_op_movem_32_er_pcix    , 0xffff, 0x4cfb, { 22,  22,  11}},
-	{m68k_op_link_16_a7          , 0xffff, 0x4e57, { 16,  16,   5}},
-	{m68k_op_unlk_32_a7          , 0xffff, 0x4e5f, { 12,  12,   6}},
-	{m68k_op_reset               , 0xffff, 0x4e70, {  0,   0,   0}},
-	{m68k_op_nop                 , 0xffff, 0x4e71, {  4,   4,   2}},
-	{m68k_op_stop                , 0xffff, 0x4e72, {  4,   4,   8}},
-	{m68k_op_rte_32              , 0xffff, 0x4e73, { 20,  24,  20}},
-	{m68k_op_rtd_32              , 0xffff, 0x4e74, {  0,  16,  10}},
-	{m68k_op_rts_32              , 0xffff, 0x4e75, { 16,  16,  10}},
-	{m68k_op_trapv               , 0xffff, 0x4e76, {  4,   4,   4}},
-	{m68k_op_rtr_32              , 0xffff, 0x4e77, { 20,  20,  14}},
-	{m68k_op_movec_32_cr         , 0xffff, 0x4e7a, {  0,  12,   6}},
-	{m68k_op_movec_32_rc         , 0xffff, 0x4e7b, {  0,  10,  12}},
-	{m68k_op_jsr_32_aw           , 0xffff, 0x4eb8, { 18,  18,   4}},
-	{m68k_op_jsr_32_al           , 0xffff, 0x4eb9, { 20,  20,   4}},
-	{m68k_op_jsr_32_pcdi         , 0xffff, 0x4eba, { 18,  18,   5}},
-	{m68k_op_jsr_32_pcix         , 0xffff, 0x4ebb, { 22,  22,   7}},
-	{m68k_op_jmp_32_aw           , 0xffff, 0x4ef8, { 10,  10,   4}},
-	{m68k_op_jmp_32_al           , 0xffff, 0x4ef9, { 12,  12,   4}},
-	{m68k_op_jmp_32_pcdi         , 0xffff, 0x4efa, { 10,  10,   5}},
-	{m68k_op_jmp_32_pcix         , 0xffff, 0x4efb, { 14,  14,   7}},
-	{m68k_op_st_8_pi7            , 0xffff, 0x50df, { 12,  12,  10}},
-	{m68k_op_st_8_pd7            , 0xffff, 0x50e7, { 14,  14,  11}},
-	{m68k_op_st_8_aw             , 0xffff, 0x50f8, { 16,  16,  10}},
-	{m68k_op_st_8_al             , 0xffff, 0x50f9, { 20,  20,  10}},
-	{m68k_op_trapt_16            , 0xffff, 0x50fa, {  0,   0,   6}},
-	{m68k_op_trapt_32            , 0xffff, 0x50fb, {  0,   0,   8}},
-	{m68k_op_trapt               , 0xffff, 0x50fc, {  0,   0,   4}},
-	{m68k_op_sf_8_pi7            , 0xffff, 0x51df, { 12,  12,  10}},
-	{m68k_op_sf_8_pd7            , 0xffff, 0x51e7, { 14,  14,  11}},
-	{m68k_op_sf_8_aw             , 0xffff, 0x51f8, { 16,  16,  10}},
-	{m68k_op_sf_8_al             , 0xffff, 0x51f9, { 20,  20,  10}},
-	{m68k_op_trapf_16            , 0xffff, 0x51fa, {  0,   0,   6}},
-	{m68k_op_trapf_32            , 0xffff, 0x51fb, {  0,   0,   8}},
-	{m68k_op_trapf               , 0xffff, 0x51fc, {  0,   0,   4}},
-	{m68k_op_shi_8_pi7           , 0xffff, 0x52df, { 12,  12,  10}},
-	{m68k_op_shi_8_pd7           , 0xffff, 0x52e7, { 14,  14,  11}},
-	{m68k_op_shi_8_aw            , 0xffff, 0x52f8, { 16,  16,  10}},
-	{m68k_op_shi_8_al            , 0xffff, 0x52f9, { 20,  20,  10}},
-	{m68k_op_traphi_16           , 0xffff, 0x52fa, {  0,   0,   6}},
-	{m68k_op_traphi_32           , 0xffff, 0x52fb, {  0,   0,   8}},
-	{m68k_op_traphi              , 0xffff, 0x52fc, {  0,   0,   4}},
-	{m68k_op_sls_8_pi7           , 0xffff, 0x53df, { 12,  12,  10}},
-	{m68k_op_sls_8_pd7           , 0xffff, 0x53e7, { 14,  14,  11}},
-	{m68k_op_sls_8_aw            , 0xffff, 0x53f8, { 16,  16,  10}},
-	{m68k_op_sls_8_al            , 0xffff, 0x53f9, { 20,  20,  10}},
-	{m68k_op_trapls_16           , 0xffff, 0x53fa, {  0,   0,   6}},
-	{m68k_op_trapls_32           , 0xffff, 0x53fb, {  0,   0,   8}},
-	{m68k_op_trapls              , 0xffff, 0x53fc, {  0,   0,   4}},
-	{m68k_op_scc_8_pi7           , 0xffff, 0x54df, { 12,  12,  10}},
-	{m68k_op_scc_8_pd7           , 0xffff, 0x54e7, { 14,  14,  11}},
-	{m68k_op_scc_8_aw            , 0xffff, 0x54f8, { 16,  16,  10}},
-	{m68k_op_scc_8_al            , 0xffff, 0x54f9, { 20,  20,  10}},
-	{m68k_op_trapcc_16           , 0xffff, 0x54fa, {  0,   0,   6}},
-	{m68k_op_trapcc_32           , 0xffff, 0x54fb, {  0,   0,   8}},
-	{m68k_op_trapcc              , 0xffff, 0x54fc, {  0,   0,   4}},
-	{m68k_op_scs_8_pi7           , 0xffff, 0x55df, { 12,  12,  10}},
-	{m68k_op_scs_8_pd7           , 0xffff, 0x55e7, { 14,  14,  11}},
-	{m68k_op_scs_8_aw            , 0xffff, 0x55f8, { 16,  16,  10}},
-	{m68k_op_scs_8_al            , 0xffff, 0x55f9, { 20,  20,  10}},
-	{m68k_op_trapcs_16           , 0xffff, 0x55fa, {  0,   0,   6}},
-	{m68k_op_trapcs_32           , 0xffff, 0x55fb, {  0,   0,   8}},
-	{m68k_op_trapcs              , 0xffff, 0x55fc, {  0,   0,   4}},
-	{m68k_op_sne_8_pi7           , 0xffff, 0x56df, { 12,  12,  10}},
-	{m68k_op_sne_8_pd7           , 0xffff, 0x56e7, { 14,  14,  11}},
-	{m68k_op_sne_8_aw            , 0xffff, 0x56f8, { 16,  16,  10}},
-	{m68k_op_sne_8_al            , 0xffff, 0x56f9, { 20,  20,  10}},
-	{m68k_op_trapne_16           , 0xffff, 0x56fa, {  0,   0,   6}},
-	{m68k_op_trapne_32           , 0xffff, 0x56fb, {  0,   0,   8}},
-	{m68k_op_trapne              , 0xffff, 0x56fc, {  0,   0,   4}},
-	{m68k_op_seq_8_pi7           , 0xffff, 0x57df, { 12,  12,  10}},
-	{m68k_op_seq_8_pd7           , 0xffff, 0x57e7, { 14,  14,  11}},
-	{m68k_op_seq_8_aw            , 0xffff, 0x57f8, { 16,  16,  10}},
-	{m68k_op_seq_8_al            , 0xffff, 0x57f9, { 20,  20,  10}},
-	{m68k_op_trapeq_16           , 0xffff, 0x57fa, {  0,   0,   6}},
-	{m68k_op_trapeq_32           , 0xffff, 0x57fb, {  0,   0,   8}},
-	{m68k_op_trapeq              , 0xffff, 0x57fc, {  0,   0,   4}},
-	{m68k_op_svc_8_pi7           , 0xffff, 0x58df, { 12,  12,  10}},
-	{m68k_op_svc_8_pd7           , 0xffff, 0x58e7, { 14,  14,  11}},
-	{m68k_op_svc_8_aw            , 0xffff, 0x58f8, { 16,  16,  10}},
-	{m68k_op_svc_8_al            , 0xffff, 0x58f9, { 20,  20,  10}},
-	{m68k_op_trapvc_16           , 0xffff, 0x58fa, {  0,   0,   6}},
-	{m68k_op_trapvc_32           , 0xffff, 0x58fb, {  0,   0,   8}},
-	{m68k_op_trapvc              , 0xffff, 0x58fc, {  0,   0,   4}},
-	{m68k_op_svs_8_pi7           , 0xffff, 0x59df, { 12,  12,  10}},
-	{m68k_op_svs_8_pd7           , 0xffff, 0x59e7, { 14,  14,  11}},
-	{m68k_op_svs_8_aw            , 0xffff, 0x59f8, { 16,  16,  10}},
-	{m68k_op_svs_8_al            , 0xffff, 0x59f9, { 20,  20,  10}},
-	{m68k_op_trapvs_16           , 0xffff, 0x59fa, {  0,   0,   6}},
-	{m68k_op_trapvs_32           , 0xffff, 0x59fb, {  0,   0,   8}},
-	{m68k_op_trapvs              , 0xffff, 0x59fc, {  0,   0,   4}},
-	{m68k_op_spl_8_pi7           , 0xffff, 0x5adf, { 12,  12,  10}},
-	{m68k_op_spl_8_pd7           , 0xffff, 0x5ae7, { 14,  14,  11}},
-	{m68k_op_spl_8_aw            , 0xffff, 0x5af8, { 16,  16,  10}},
-	{m68k_op_spl_8_al            , 0xffff, 0x5af9, { 20,  20,  10}},
-	{m68k_op_trappl_16           , 0xffff, 0x5afa, {  0,   0,   6}},
-	{m68k_op_trappl_32           , 0xffff, 0x5afb, {  0,   0,   8}},
-	{m68k_op_trappl              , 0xffff, 0x5afc, {  0,   0,   4}},
-	{m68k_op_smi_8_pi7           , 0xffff, 0x5bdf, { 12,  12,  10}},
-	{m68k_op_smi_8_pd7           , 0xffff, 0x5be7, { 14,  14,  11}},
-	{m68k_op_smi_8_aw            , 0xffff, 0x5bf8, { 16,  16,  10}},
-	{m68k_op_smi_8_al            , 0xffff, 0x5bf9, { 20,  20,  10}},
-	{m68k_op_trapmi_16           , 0xffff, 0x5bfa, {  0,   0,   6}},
-	{m68k_op_trapmi_32           , 0xffff, 0x5bfb, {  0,   0,   8}},
-	{m68k_op_trapmi              , 0xffff, 0x5bfc, {  0,   0,   4}},
-	{m68k_op_sge_8_pi7           , 0xffff, 0x5cdf, { 12,  12,  10}},
-	{m68k_op_sge_8_pd7           , 0xffff, 0x5ce7, { 14,  14,  11}},
-	{m68k_op_sge_8_aw            , 0xffff, 0x5cf8, { 16,  16,  10}},
-	{m68k_op_sge_8_al            , 0xffff, 0x5cf9, { 20,  20,  10}},
-	{m68k_op_trapge_16           , 0xffff, 0x5cfa, {  0,   0,   6}},
-	{m68k_op_trapge_32           , 0xffff, 0x5cfb, {  0,   0,   8}},
-	{m68k_op_trapge              , 0xffff, 0x5cfc, {  0,   0,   4}},
-	{m68k_op_slt_8_pi7           , 0xffff, 0x5ddf, { 12,  12,  10}},
-	{m68k_op_slt_8_pd7           , 0xffff, 0x5de7, { 14,  14,  11}},
-	{m68k_op_slt_8_aw            , 0xffff, 0x5df8, { 16,  16,  10}},
-	{m68k_op_slt_8_al            , 0xffff, 0x5df9, { 20,  20,  10}},
-	{m68k_op_traplt_16           , 0xffff, 0x5dfa, {  0,   0,   6}},
-	{m68k_op_traplt_32           , 0xffff, 0x5dfb, {  0,   0,   8}},
-	{m68k_op_traplt              , 0xffff, 0x5dfc, {  0,   0,   4}},
-	{m68k_op_sgt_8_pi7           , 0xffff, 0x5edf, { 12,  12,  10}},
-	{m68k_op_sgt_8_pd7           , 0xffff, 0x5ee7, { 14,  14,  11}},
-	{m68k_op_sgt_8_aw            , 0xffff, 0x5ef8, { 16,  16,  10}},
-	{m68k_op_sgt_8_al            , 0xffff, 0x5ef9, { 20,  20,  10}},
-	{m68k_op_trapgt_16           , 0xffff, 0x5efa, {  0,   0,   6}},
-	{m68k_op_trapgt_32           , 0xffff, 0x5efb, {  0,   0,   8}},
-	{m68k_op_trapgt              , 0xffff, 0x5efc, {  0,   0,   4}},
-	{m68k_op_sle_8_pi7           , 0xffff, 0x5fdf, { 12,  12,  10}},
-	{m68k_op_sle_8_pd7           , 0xffff, 0x5fe7, { 14,  14,  11}},
-	{m68k_op_sle_8_aw            , 0xffff, 0x5ff8, { 16,  16,  10}},
-	{m68k_op_sle_8_al            , 0xffff, 0x5ff9, { 20,  20,  10}},
-	{m68k_op_traple_16           , 0xffff, 0x5ffa, {  0,   0,   6}},
-	{m68k_op_traple_32           , 0xffff, 0x5ffb, {  0,   0,   8}},
-	{m68k_op_traple              , 0xffff, 0x5ffc, {  0,   0,   4}},
-	{m68k_op_bra_16              , 0xffff, 0x6000, { 10,  10,  10}},
-	{m68k_op_bra_32              , 0xffff, 0x60ff, {  0,   0,  10}},
-	{m68k_op_bsr_16              , 0xffff, 0x6100, { 18,  18,   7}},
-	{m68k_op_bsr_32              , 0xffff, 0x61ff, {  0,   0,   7}},
-	{m68k_op_bhi_16              , 0xffff, 0x6200, { 10,  10,   6}},
-	{m68k_op_bhi_32              , 0xffff, 0x62ff, {  0,   0,   6}},
-	{m68k_op_bls_16              , 0xffff, 0x6300, { 10,  10,   6}},
-	{m68k_op_bls_32              , 0xffff, 0x63ff, {  0,   0,   6}},
-	{m68k_op_bcc_16              , 0xffff, 0x6400, { 10,  10,   6}},
-	{m68k_op_bcc_32              , 0xffff, 0x64ff, {  0,   0,   6}},
-	{m68k_op_bcs_16              , 0xffff, 0x6500, { 10,  10,   6}},
-	{m68k_op_bcs_32              , 0xffff, 0x65ff, {  0,   0,   6}},
-	{m68k_op_bne_16              , 0xffff, 0x6600, { 10,  10,   6}},
-	{m68k_op_bne_32              , 0xffff, 0x66ff, {  0,   0,   6}},
-	{m68k_op_beq_16              , 0xffff, 0x6700, { 10,  10,   6}},
-	{m68k_op_beq_32              , 0xffff, 0x67ff, {  0,   0,   6}},
-	{m68k_op_bvc_16              , 0xffff, 0x6800, { 10,  10,   6}},
-	{m68k_op_bvc_32              , 0xffff, 0x68ff, {  0,   0,   6}},
-	{m68k_op_bvs_16              , 0xffff, 0x6900, { 10,  10,   6}},
-	{m68k_op_bvs_32              , 0xffff, 0x69ff, {  0,   0,   6}},
-	{m68k_op_bpl_16              , 0xffff, 0x6a00, { 10,  10,   6}},
-	{m68k_op_bpl_32              , 0xffff, 0x6aff, {  0,   0,   6}},
-	{m68k_op_bmi_16              , 0xffff, 0x6b00, { 10,  10,   6}},
-	{m68k_op_bmi_32              , 0xffff, 0x6bff, {  0,   0,   6}},
-	{m68k_op_bge_16              , 0xffff, 0x6c00, { 10,  10,   6}},
-	{m68k_op_bge_32              , 0xffff, 0x6cff, {  0,   0,   6}},
-	{m68k_op_blt_16              , 0xffff, 0x6d00, { 10,  10,   6}},
-	{m68k_op_blt_32              , 0xffff, 0x6dff, {  0,   0,   6}},
-	{m68k_op_bgt_16              , 0xffff, 0x6e00, { 10,  10,   6}},
-	{m68k_op_bgt_32              , 0xffff, 0x6eff, {  0,   0,   6}},
-	{m68k_op_ble_16              , 0xffff, 0x6f00, { 10,  10,   6}},
-	{m68k_op_ble_32              , 0xffff, 0x6fff, {  0,   0,   6}},
-	{m68k_op_sbcd_8_mm_axy7      , 0xffff, 0x8f0f, { 18,  18,  16}},
-	{m68k_op_pack_16_mm_axy7     , 0xffff, 0x8f4f, {  0,   0,  13}},
-	{m68k_op_unpk_16_mm_axy7     , 0xffff, 0x8f8f, {  0,   0,  13}},
-	{m68k_op_subx_8_mm_axy7      , 0xffff, 0x9f0f, { 18,  18,  12}},
-	{m68k_op_cmpm_8_axy7         , 0xffff, 0xbf0f, { 12,  12,   9}},
-	{m68k_op_abcd_8_mm_axy7      , 0xffff, 0xcf0f, { 18,  18,  16}},
-	{m68k_op_addx_8_mm_axy7      , 0xffff, 0xdf0f, { 18,  18,  12}},
-	{m68k_op_asr_16_aw           , 0xffff, 0xe0f8, { 16,  16,   9}},
-	{m68k_op_asr_16_al           , 0xffff, 0xe0f9, { 20,  20,   9}},
-	{m68k_op_asl_16_aw           , 0xffff, 0xe1f8, { 16,  16,  10}},
-	{m68k_op_asl_16_al           , 0xffff, 0xe1f9, { 20,  20,  10}},
-	{m68k_op_lsr_16_aw           , 0xffff, 0xe2f8, { 16,  16,   9}},
-	{m68k_op_lsr_16_al           , 0xffff, 0xe2f9, { 20,  20,   9}},
-	{m68k_op_lsl_16_aw           , 0xffff, 0xe3f8, { 16,  16,   9}},
-	{m68k_op_lsl_16_al           , 0xffff, 0xe3f9, { 20,  20,   9}},
-	{m68k_op_roxr_16_aw          , 0xffff, 0xe4f8, { 16,  16,   9}},
-	{m68k_op_roxr_16_al          , 0xffff, 0xe4f9, { 20,  20,   9}},
-	{m68k_op_roxl_16_aw          , 0xffff, 0xe5f8, { 16,  16,   9}},
-	{m68k_op_roxl_16_al          , 0xffff, 0xe5f9, { 20,  20,   9}},
-	{m68k_op_ror_16_aw           , 0xffff, 0xe6f8, { 16,  16,  11}},
-	{m68k_op_ror_16_al           , 0xffff, 0xe6f9, { 20,  20,  11}},
-	{m68k_op_rol_16_aw           , 0xffff, 0xe7f8, { 16,  16,  11}},
-	{m68k_op_rol_16_al           , 0xffff, 0xe7f9, { 20,  20,  11}},
-	{m68k_op_bftst_32_aw         , 0xffff, 0xe8f8, {  0,   0,  17}},
-	{m68k_op_bftst_32_al         , 0xffff, 0xe8f9, {  0,   0,  17}},
-	{m68k_op_bftst_32_pcdi       , 0xffff, 0xe8fa, {  0,   0,  18}},
-	{m68k_op_bftst_32_pcix       , 0xffff, 0xe8fb, {  0,   0,  20}},
-	{m68k_op_bfextu_32_aw        , 0xffff, 0xe9f8, {  0,   0,  19}},
-	{m68k_op_bfextu_32_al        , 0xffff, 0xe9f9, {  0,   0,  19}},
-	{m68k_op_bfextu_32_pcdi      , 0xffff, 0xe9fa, {  0,   0,  20}},
-	{m68k_op_bfextu_32_pcix      , 0xffff, 0xe9fb, {  0,   0,  22}},
-	{m68k_op_bfchg_32_aw         , 0xffff, 0xeaf8, {  0,   0,  24}},
-	{m68k_op_bfchg_32_al         , 0xffff, 0xeaf9, {  0,   0,  24}},
-	{m68k_op_bfexts_32_aw        , 0xffff, 0xebf8, {  0,   0,  19}},
-	{m68k_op_bfexts_32_al        , 0xffff, 0xebf9, {  0,   0,  19}},
-	{m68k_op_bfexts_32_pcdi      , 0xffff, 0xebfa, {  0,   0,  20}},
-	{m68k_op_bfexts_32_pcix      , 0xffff, 0xebfb, {  0,   0,  22}},
-	{m68k_op_bfclr_32_aw         , 0xffff, 0xecf8, {  0,   0,  24}},
-	{m68k_op_bfclr_32_al         , 0xffff, 0xecf9, {  0,   0,  24}},
-	{m68k_op_bfffo_32_aw         , 0xffff, 0xedf8, {  0,   0,  32}},
-	{m68k_op_bfffo_32_al         , 0xffff, 0xedf9, {  0,   0,  32}},
-	{m68k_op_bfffo_32_pcdi       , 0xffff, 0xedfa, {  0,   0,  33}},
-	{m68k_op_bfffo_32_pcix       , 0xffff, 0xedfb, {  0,   0,  35}},
-	{m68k_op_bfset_32_aw         , 0xffff, 0xeef8, {  0,   0,  24}},
-	{m68k_op_bfset_32_al         , 0xffff, 0xeef9, {  0,   0,  24}},
-	{m68k_op_bfins_32_aw         , 0xffff, 0xeff8, {  0,   0,  21}},
-	{m68k_op_bfins_32_al         , 0xffff, 0xeff9, {  0,   0,  21}},
-	{0, 0, 0, {0, 0, 0}}
-};
-
-
-/* Build the opcode handler jump table */
-void m68ki_build_opcode_table(void)
-{
-	opcode_handler_struct *ostruct;
-	int instr;
-	int i;
-	int j;
-	int k;
-
-	for(i = 0; i < 0x10000; i++)
-	{
-		/* default to illegal */
-		m68ki_instruction_jump_table[i] = m68k_op_illegal;
-		for(k=0;k<NUM_CPU_TYPES;k++)
-			m68ki_cycles[k][i] = 0;
-	}
-
-	ostruct = m68k_opcode_handler_table;
-	while(ostruct->mask != 0xff00)
-	{
-		for(i = 0;i < 0x10000;i++)
-		{
-			if((i & ostruct->mask) == ostruct->match)
-			{
-				m68ki_instruction_jump_table[i] = ostruct->opcode_handler;
-				for(k=0;k<NUM_CPU_TYPES;k++)
-					m68ki_cycles[k][i] = ostruct->cycles[k];
-			}
-		}
-		ostruct++;
-	}
-	while(ostruct->mask == 0xff00)
-	{
-		for(i = 0;i <= 0xff;i++)
-		{
-			m68ki_instruction_jump_table[ostruct->match | i] = ostruct->opcode_handler;
-			for(k=0;k<NUM_CPU_TYPES;k++)
-				m68ki_cycles[k][ostruct->match | i] = ostruct->cycles[k];
-		}
-		ostruct++;
-	}
-	while(ostruct->mask == 0xf1f8)
-	{
-		for(i = 0;i < 8;i++)
-		{
-			for(j = 0;j < 8;j++)
-			{
-				instr = ostruct->match | (i << 9) | j;
-				m68ki_instruction_jump_table[instr] = ostruct->opcode_handler;
-				for(k=0;k<NUM_CPU_TYPES;k++)
-					m68ki_cycles[k][instr] = ostruct->cycles[k];
-				if((instr & 0xf000) == 0xe000 && (!(instr & 0x20)))
-					m68ki_cycles[0][instr] = m68ki_cycles[1][instr] = ostruct->cycles[k] + ((((j-1)&7)+1)<<1);
-			}
-		}
-		ostruct++;
-	}
-	while(ostruct->mask == 0xfff0)
-	{
-		for(i = 0;i <= 0x0f;i++)
-		{
-			m68ki_instruction_jump_table[ostruct->match | i] = ostruct->opcode_handler;
-			for(k=0;k<NUM_CPU_TYPES;k++)
-				m68ki_cycles[k][ostruct->match | i] = ostruct->cycles[k];
-		}
-		ostruct++;
-	}
-	while(ostruct->mask == 0xf1ff)
-	{
-		for(i = 0;i <= 0x07;i++)
-		{
-			m68ki_instruction_jump_table[ostruct->match | (i << 9)] = ostruct->opcode_handler;
-			for(k=0;k<NUM_CPU_TYPES;k++)
-				m68ki_cycles[k][ostruct->match | (i << 9)] = ostruct->cycles[k];
-		}
-		ostruct++;
-	}
-	while(ostruct->mask == 0xfff8)
-	{
-		for(i = 0;i <= 0x07;i++)
-		{
-			m68ki_instruction_jump_table[ostruct->match | i] = ostruct->opcode_handler;
-			for(k=0;k<NUM_CPU_TYPES;k++)
-				m68ki_cycles[k][ostruct->match | i] = ostruct->cycles[k];
-		}
-		ostruct++;
-	}
-	while(ostruct->mask == 0xffff)
-	{
-		m68ki_instruction_jump_table[ostruct->match] = ostruct->opcode_handler;
-		for(k=0;k<NUM_CPU_TYPES;k++)
-			m68ki_cycles[k][ostruct->match] = ostruct->cycles[k];
-		ostruct++;
-	}
-}
-
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
-
-
diff --git a/plugins/ao/eng_ssf/m68kops.h b/plugins/ao/eng_ssf/m68kops.h
deleted file mode 100644
index 94c966fd..00000000
--- a/plugins/ao/eng_ssf/m68kops.h
+++ /dev/null
@@ -1,1986 +0,0 @@
-#ifndef M68KOPS__HEADER
-#define M68KOPS__HEADER
-
-#include "m68kcpu.h"
-
-/* ======================================================================== */
-/* ============================ OPCODE HANDLERS =========================== */
-/* ======================================================================== */
-
-
-void m68k_op_1010(m68ki_cpu_core *cpu);
-void m68k_op_1111(m68ki_cpu_core *cpu);
-void m68k_op_abcd_8_rr(m68ki_cpu_core *cpu);
-void m68k_op_abcd_8_mm_ax7(m68ki_cpu_core *cpu);
-void m68k_op_abcd_8_mm_ay7(m68ki_cpu_core *cpu);
-void m68k_op_abcd_8_mm_axy7(m68ki_cpu_core *cpu);
-void m68k_op_abcd_8_mm(m68ki_cpu_core *cpu);
-void m68k_op_add_8_er_d(m68ki_cpu_core *cpu);
-void m68k_op_add_8_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_add_8_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_add_8_er_pi7(m68ki_cpu_core *cpu);
-void m68k_op_add_8_er_pd(m68ki_cpu_core *cpu);
-void m68k_op_add_8_er_pd7(m68ki_cpu_core *cpu);
-void m68k_op_add_8_er_di(m68ki_cpu_core *cpu);
-void m68k_op_add_8_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_add_8_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_add_8_er_al(m68ki_cpu_core *cpu);
-void m68k_op_add_8_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_add_8_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_add_8_er_i(m68ki_cpu_core *cpu);
-void m68k_op_add_16_er_d(m68ki_cpu_core *cpu);
-void m68k_op_add_16_er_a(m68ki_cpu_core *cpu);
-void m68k_op_add_16_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_add_16_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_add_16_er_pd(m68ki_cpu_core *cpu);
-void m68k_op_add_16_er_di(m68ki_cpu_core *cpu);
-void m68k_op_add_16_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_add_16_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_add_16_er_al(m68ki_cpu_core *cpu);
-void m68k_op_add_16_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_add_16_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_add_16_er_i(m68ki_cpu_core *cpu);
-void m68k_op_add_32_er_d(m68ki_cpu_core *cpu);
-void m68k_op_add_32_er_a(m68ki_cpu_core *cpu);
-void m68k_op_add_32_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_add_32_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_add_32_er_pd(m68ki_cpu_core *cpu);
-void m68k_op_add_32_er_di(m68ki_cpu_core *cpu);
-void m68k_op_add_32_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_add_32_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_add_32_er_al(m68ki_cpu_core *cpu);
-void m68k_op_add_32_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_add_32_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_add_32_er_i(m68ki_cpu_core *cpu);
-void m68k_op_add_8_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_add_8_re_pi(m68ki_cpu_core *cpu);
-void m68k_op_add_8_re_pi7(m68ki_cpu_core *cpu);
-void m68k_op_add_8_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_add_8_re_pd7(m68ki_cpu_core *cpu);
-void m68k_op_add_8_re_di(m68ki_cpu_core *cpu);
-void m68k_op_add_8_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_add_8_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_add_8_re_al(m68ki_cpu_core *cpu);
-void m68k_op_add_16_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_add_16_re_pi(m68ki_cpu_core *cpu);
-void m68k_op_add_16_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_add_16_re_di(m68ki_cpu_core *cpu);
-void m68k_op_add_16_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_add_16_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_add_16_re_al(m68ki_cpu_core *cpu);
-void m68k_op_add_32_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_add_32_re_pi(m68ki_cpu_core *cpu);
-void m68k_op_add_32_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_add_32_re_di(m68ki_cpu_core *cpu);
-void m68k_op_add_32_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_add_32_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_add_32_re_al(m68ki_cpu_core *cpu);
-void m68k_op_adda_16_d(m68ki_cpu_core *cpu);
-void m68k_op_adda_16_a(m68ki_cpu_core *cpu);
-void m68k_op_adda_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_adda_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_adda_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_adda_16_di(m68ki_cpu_core *cpu);
-void m68k_op_adda_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_adda_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_adda_16_al(m68ki_cpu_core *cpu);
-void m68k_op_adda_16_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_adda_16_pcix(m68ki_cpu_core *cpu);
-void m68k_op_adda_16_i(m68ki_cpu_core *cpu);
-void m68k_op_adda_32_d(m68ki_cpu_core *cpu);
-void m68k_op_adda_32_a(m68ki_cpu_core *cpu);
-void m68k_op_adda_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_adda_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_adda_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_adda_32_di(m68ki_cpu_core *cpu);
-void m68k_op_adda_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_adda_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_adda_32_al(m68ki_cpu_core *cpu);
-void m68k_op_adda_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_adda_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_adda_32_i(m68ki_cpu_core *cpu);
-void m68k_op_addi_8_d(m68ki_cpu_core *cpu);
-void m68k_op_addi_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_addi_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_addi_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_addi_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_addi_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_addi_8_di(m68ki_cpu_core *cpu);
-void m68k_op_addi_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_addi_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_addi_8_al(m68ki_cpu_core *cpu);
-void m68k_op_addi_16_d(m68ki_cpu_core *cpu);
-void m68k_op_addi_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_addi_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_addi_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_addi_16_di(m68ki_cpu_core *cpu);
-void m68k_op_addi_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_addi_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_addi_16_al(m68ki_cpu_core *cpu);
-void m68k_op_addi_32_d(m68ki_cpu_core *cpu);
-void m68k_op_addi_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_addi_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_addi_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_addi_32_di(m68ki_cpu_core *cpu);
-void m68k_op_addi_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_addi_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_addi_32_al(m68ki_cpu_core *cpu);
-void m68k_op_addq_8_d(m68ki_cpu_core *cpu);
-void m68k_op_addq_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_addq_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_addq_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_addq_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_addq_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_addq_8_di(m68ki_cpu_core *cpu);
-void m68k_op_addq_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_addq_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_addq_8_al(m68ki_cpu_core *cpu);
-void m68k_op_addq_16_d(m68ki_cpu_core *cpu);
-void m68k_op_addq_16_a(m68ki_cpu_core *cpu);
-void m68k_op_addq_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_addq_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_addq_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_addq_16_di(m68ki_cpu_core *cpu);
-void m68k_op_addq_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_addq_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_addq_16_al(m68ki_cpu_core *cpu);
-void m68k_op_addq_32_d(m68ki_cpu_core *cpu);
-void m68k_op_addq_32_a(m68ki_cpu_core *cpu);
-void m68k_op_addq_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_addq_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_addq_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_addq_32_di(m68ki_cpu_core *cpu);
-void m68k_op_addq_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_addq_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_addq_32_al(m68ki_cpu_core *cpu);
-void m68k_op_addx_8_rr(m68ki_cpu_core *cpu);
-void m68k_op_addx_16_rr(m68ki_cpu_core *cpu);
-void m68k_op_addx_32_rr(m68ki_cpu_core *cpu);
-void m68k_op_addx_8_mm_ax7(m68ki_cpu_core *cpu);
-void m68k_op_addx_8_mm_ay7(m68ki_cpu_core *cpu);
-void m68k_op_addx_8_mm_axy7(m68ki_cpu_core *cpu);
-void m68k_op_addx_8_mm(m68ki_cpu_core *cpu);
-void m68k_op_addx_16_mm(m68ki_cpu_core *cpu);
-void m68k_op_addx_32_mm(m68ki_cpu_core *cpu);
-void m68k_op_and_8_er_d(m68ki_cpu_core *cpu);
-void m68k_op_and_8_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_and_8_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_and_8_er_pi7(m68ki_cpu_core *cpu);
-void m68k_op_and_8_er_pd(m68ki_cpu_core *cpu);
-void m68k_op_and_8_er_pd7(m68ki_cpu_core *cpu);
-void m68k_op_and_8_er_di(m68ki_cpu_core *cpu);
-void m68k_op_and_8_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_and_8_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_and_8_er_al(m68ki_cpu_core *cpu);
-void m68k_op_and_8_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_and_8_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_and_8_er_i(m68ki_cpu_core *cpu);
-void m68k_op_and_16_er_d(m68ki_cpu_core *cpu);
-void m68k_op_and_16_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_and_16_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_and_16_er_pd(m68ki_cpu_core *cpu);
-void m68k_op_and_16_er_di(m68ki_cpu_core *cpu);
-void m68k_op_and_16_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_and_16_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_and_16_er_al(m68ki_cpu_core *cpu);
-void m68k_op_and_16_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_and_16_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_and_16_er_i(m68ki_cpu_core *cpu);
-void m68k_op_and_32_er_d(m68ki_cpu_core *cpu);
-void m68k_op_and_32_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_and_32_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_and_32_er_pd(m68ki_cpu_core *cpu);
-void m68k_op_and_32_er_di(m68ki_cpu_core *cpu);
-void m68k_op_and_32_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_and_32_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_and_32_er_al(m68ki_cpu_core *cpu);
-void m68k_op_and_32_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_and_32_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_and_32_er_i(m68ki_cpu_core *cpu);
-void m68k_op_and_8_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_and_8_re_pi(m68ki_cpu_core *cpu);
-void m68k_op_and_8_re_pi7(m68ki_cpu_core *cpu);
-void m68k_op_and_8_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_and_8_re_pd7(m68ki_cpu_core *cpu);
-void m68k_op_and_8_re_di(m68ki_cpu_core *cpu);
-void m68k_op_and_8_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_and_8_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_and_8_re_al(m68ki_cpu_core *cpu);
-void m68k_op_and_16_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_and_16_re_pi(m68ki_cpu_core *cpu);
-void m68k_op_and_16_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_and_16_re_di(m68ki_cpu_core *cpu);
-void m68k_op_and_16_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_and_16_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_and_16_re_al(m68ki_cpu_core *cpu);
-void m68k_op_and_32_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_and_32_re_pi(m68ki_cpu_core *cpu);
-void m68k_op_and_32_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_and_32_re_di(m68ki_cpu_core *cpu);
-void m68k_op_and_32_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_and_32_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_and_32_re_al(m68ki_cpu_core *cpu);
-void m68k_op_andi_8_d(m68ki_cpu_core *cpu);
-void m68k_op_andi_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_andi_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_andi_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_andi_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_andi_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_andi_8_di(m68ki_cpu_core *cpu);
-void m68k_op_andi_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_andi_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_andi_8_al(m68ki_cpu_core *cpu);
-void m68k_op_andi_16_d(m68ki_cpu_core *cpu);
-void m68k_op_andi_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_andi_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_andi_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_andi_16_di(m68ki_cpu_core *cpu);
-void m68k_op_andi_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_andi_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_andi_16_al(m68ki_cpu_core *cpu);
-void m68k_op_andi_32_d(m68ki_cpu_core *cpu);
-void m68k_op_andi_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_andi_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_andi_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_andi_32_di(m68ki_cpu_core *cpu);
-void m68k_op_andi_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_andi_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_andi_32_al(m68ki_cpu_core *cpu);
-void m68k_op_andi_16_toc(m68ki_cpu_core *cpu);
-void m68k_op_andi_16_tos(m68ki_cpu_core *cpu);
-void m68k_op_asr_8_s(m68ki_cpu_core *cpu);
-void m68k_op_asr_16_s(m68ki_cpu_core *cpu);
-void m68k_op_asr_32_s(m68ki_cpu_core *cpu);
-void m68k_op_asr_8_r(m68ki_cpu_core *cpu);
-void m68k_op_asr_16_r(m68ki_cpu_core *cpu);
-void m68k_op_asr_32_r(m68ki_cpu_core *cpu);
-void m68k_op_asr_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_asr_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_asr_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_asr_16_di(m68ki_cpu_core *cpu);
-void m68k_op_asr_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_asr_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_asr_16_al(m68ki_cpu_core *cpu);
-void m68k_op_asl_8_s(m68ki_cpu_core *cpu);
-void m68k_op_asl_16_s(m68ki_cpu_core *cpu);
-void m68k_op_asl_32_s(m68ki_cpu_core *cpu);
-void m68k_op_asl_8_r(m68ki_cpu_core *cpu);
-void m68k_op_asl_16_r(m68ki_cpu_core *cpu);
-void m68k_op_asl_32_r(m68ki_cpu_core *cpu);
-void m68k_op_asl_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_asl_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_asl_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_asl_16_di(m68ki_cpu_core *cpu);
-void m68k_op_asl_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_asl_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_asl_16_al(m68ki_cpu_core *cpu);
-void m68k_op_bhi_8(m68ki_cpu_core *cpu);
-void m68k_op_bls_8(m68ki_cpu_core *cpu);
-void m68k_op_bcc_8(m68ki_cpu_core *cpu);
-void m68k_op_bcs_8(m68ki_cpu_core *cpu);
-void m68k_op_bne_8(m68ki_cpu_core *cpu);
-void m68k_op_beq_8(m68ki_cpu_core *cpu);
-void m68k_op_bvc_8(m68ki_cpu_core *cpu);
-void m68k_op_bvs_8(m68ki_cpu_core *cpu);
-void m68k_op_bpl_8(m68ki_cpu_core *cpu);
-void m68k_op_bmi_8(m68ki_cpu_core *cpu);
-void m68k_op_bge_8(m68ki_cpu_core *cpu);
-void m68k_op_blt_8(m68ki_cpu_core *cpu);
-void m68k_op_bgt_8(m68ki_cpu_core *cpu);
-void m68k_op_ble_8(m68ki_cpu_core *cpu);
-void m68k_op_bhi_16(m68ki_cpu_core *cpu);
-void m68k_op_bls_16(m68ki_cpu_core *cpu);
-void m68k_op_bcc_16(m68ki_cpu_core *cpu);
-void m68k_op_bcs_16(m68ki_cpu_core *cpu);
-void m68k_op_bne_16(m68ki_cpu_core *cpu);
-void m68k_op_beq_16(m68ki_cpu_core *cpu);
-void m68k_op_bvc_16(m68ki_cpu_core *cpu);
-void m68k_op_bvs_16(m68ki_cpu_core *cpu);
-void m68k_op_bpl_16(m68ki_cpu_core *cpu);
-void m68k_op_bmi_16(m68ki_cpu_core *cpu);
-void m68k_op_bge_16(m68ki_cpu_core *cpu);
-void m68k_op_blt_16(m68ki_cpu_core *cpu);
-void m68k_op_bgt_16(m68ki_cpu_core *cpu);
-void m68k_op_ble_16(m68ki_cpu_core *cpu);
-void m68k_op_bhi_32(m68ki_cpu_core *cpu);
-void m68k_op_bls_32(m68ki_cpu_core *cpu);
-void m68k_op_bcc_32(m68ki_cpu_core *cpu);
-void m68k_op_bcs_32(m68ki_cpu_core *cpu);
-void m68k_op_bne_32(m68ki_cpu_core *cpu);
-void m68k_op_beq_32(m68ki_cpu_core *cpu);
-void m68k_op_bvc_32(m68ki_cpu_core *cpu);
-void m68k_op_bvs_32(m68ki_cpu_core *cpu);
-void m68k_op_bpl_32(m68ki_cpu_core *cpu);
-void m68k_op_bmi_32(m68ki_cpu_core *cpu);
-void m68k_op_bge_32(m68ki_cpu_core *cpu);
-void m68k_op_blt_32(m68ki_cpu_core *cpu);
-void m68k_op_bgt_32(m68ki_cpu_core *cpu);
-void m68k_op_ble_32(m68ki_cpu_core *cpu);
-void m68k_op_bchg_32_r_d(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_r_ai(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_r_pi(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_r_pi7(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_r_pd(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_r_pd7(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_r_di(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_r_ix(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_r_aw(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_r_al(m68ki_cpu_core *cpu);
-void m68k_op_bchg_32_s_d(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_s_ai(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_s_pi(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_s_pi7(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_s_pd(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_s_pd7(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_s_di(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_s_ix(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_s_aw(m68ki_cpu_core *cpu);
-void m68k_op_bchg_8_s_al(m68ki_cpu_core *cpu);
-void m68k_op_bclr_32_r_d(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_r_ai(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_r_pi(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_r_pi7(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_r_pd(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_r_pd7(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_r_di(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_r_ix(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_r_aw(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_r_al(m68ki_cpu_core *cpu);
-void m68k_op_bclr_32_s_d(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_s_ai(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_s_pi(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_s_pi7(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_s_pd(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_s_pd7(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_s_di(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_s_ix(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_s_aw(m68ki_cpu_core *cpu);
-void m68k_op_bclr_8_s_al(m68ki_cpu_core *cpu);
-void m68k_op_bfchg_32_d(m68ki_cpu_core *cpu);
-void m68k_op_bfchg_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_bfchg_32_di(m68ki_cpu_core *cpu);
-void m68k_op_bfchg_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_bfchg_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_bfchg_32_al(m68ki_cpu_core *cpu);
-void m68k_op_bfclr_32_d(m68ki_cpu_core *cpu);
-void m68k_op_bfclr_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_bfclr_32_di(m68ki_cpu_core *cpu);
-void m68k_op_bfclr_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_bfclr_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_bfclr_32_al(m68ki_cpu_core *cpu);
-void m68k_op_bfexts_32_d(m68ki_cpu_core *cpu);
-void m68k_op_bfexts_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_bfexts_32_di(m68ki_cpu_core *cpu);
-void m68k_op_bfexts_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_bfexts_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_bfexts_32_al(m68ki_cpu_core *cpu);
-void m68k_op_bfexts_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_bfexts_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_bfextu_32_d(m68ki_cpu_core *cpu);
-void m68k_op_bfextu_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_bfextu_32_di(m68ki_cpu_core *cpu);
-void m68k_op_bfextu_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_bfextu_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_bfextu_32_al(m68ki_cpu_core *cpu);
-void m68k_op_bfextu_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_bfextu_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_bfffo_32_d(m68ki_cpu_core *cpu);
-void m68k_op_bfffo_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_bfffo_32_di(m68ki_cpu_core *cpu);
-void m68k_op_bfffo_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_bfffo_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_bfffo_32_al(m68ki_cpu_core *cpu);
-void m68k_op_bfffo_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_bfffo_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_bfins_32_d(m68ki_cpu_core *cpu);
-void m68k_op_bfins_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_bfins_32_di(m68ki_cpu_core *cpu);
-void m68k_op_bfins_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_bfins_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_bfins_32_al(m68ki_cpu_core *cpu);
-void m68k_op_bfset_32_d(m68ki_cpu_core *cpu);
-void m68k_op_bfset_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_bfset_32_di(m68ki_cpu_core *cpu);
-void m68k_op_bfset_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_bfset_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_bfset_32_al(m68ki_cpu_core *cpu);
-void m68k_op_bftst_32_d(m68ki_cpu_core *cpu);
-void m68k_op_bftst_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_bftst_32_di(m68ki_cpu_core *cpu);
-void m68k_op_bftst_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_bftst_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_bftst_32_al(m68ki_cpu_core *cpu);
-void m68k_op_bftst_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_bftst_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_bkpt(m68ki_cpu_core *cpu);
-void m68k_op_bra_8(m68ki_cpu_core *cpu);
-void m68k_op_bra_16(m68ki_cpu_core *cpu);
-void m68k_op_bra_32(m68ki_cpu_core *cpu);
-void m68k_op_bset_32_r_d(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_r_ai(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_r_pi(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_r_pi7(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_r_pd(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_r_pd7(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_r_di(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_r_ix(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_r_aw(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_r_al(m68ki_cpu_core *cpu);
-void m68k_op_bset_32_s_d(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_s_ai(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_s_pi(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_s_pi7(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_s_pd(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_s_pd7(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_s_di(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_s_ix(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_s_aw(m68ki_cpu_core *cpu);
-void m68k_op_bset_8_s_al(m68ki_cpu_core *cpu);
-void m68k_op_bsr_8(m68ki_cpu_core *cpu);
-void m68k_op_bsr_16(m68ki_cpu_core *cpu);
-void m68k_op_bsr_32(m68ki_cpu_core *cpu);
-void m68k_op_btst_32_r_d(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_r_ai(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_r_pi(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_r_pi7(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_r_pd(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_r_pd7(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_r_di(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_r_ix(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_r_aw(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_r_al(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_r_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_r_pcix(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_r_i(m68ki_cpu_core *cpu);
-void m68k_op_btst_32_s_d(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_s_ai(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_s_pi(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_s_pi7(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_s_pd(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_s_pd7(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_s_di(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_s_ix(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_s_aw(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_s_al(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_s_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_btst_8_s_pcix(m68ki_cpu_core *cpu);
-void m68k_op_callm_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_callm_32_di(m68ki_cpu_core *cpu);
-void m68k_op_callm_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_callm_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_callm_32_al(m68ki_cpu_core *cpu);
-void m68k_op_callm_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_callm_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_cas_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_cas_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_cas_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_cas_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_cas_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_cas_8_di(m68ki_cpu_core *cpu);
-void m68k_op_cas_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_cas_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_cas_8_al(m68ki_cpu_core *cpu);
-void m68k_op_cas_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_cas_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_cas_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_cas_16_di(m68ki_cpu_core *cpu);
-void m68k_op_cas_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_cas_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_cas_16_al(m68ki_cpu_core *cpu);
-void m68k_op_cas_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_cas_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_cas_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_cas_32_di(m68ki_cpu_core *cpu);
-void m68k_op_cas_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_cas_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_cas_32_al(m68ki_cpu_core *cpu);
-void m68k_op_cas2_16(m68ki_cpu_core *cpu);
-void m68k_op_cas2_32(m68ki_cpu_core *cpu);
-void m68k_op_chk_16_d(m68ki_cpu_core *cpu);
-void m68k_op_chk_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_chk_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_chk_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_chk_16_di(m68ki_cpu_core *cpu);
-void m68k_op_chk_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_chk_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_chk_16_al(m68ki_cpu_core *cpu);
-void m68k_op_chk_16_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_chk_16_pcix(m68ki_cpu_core *cpu);
-void m68k_op_chk_16_i(m68ki_cpu_core *cpu);
-void m68k_op_chk_32_d(m68ki_cpu_core *cpu);
-void m68k_op_chk_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_chk_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_chk_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_chk_32_di(m68ki_cpu_core *cpu);
-void m68k_op_chk_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_chk_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_chk_32_al(m68ki_cpu_core *cpu);
-void m68k_op_chk_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_chk_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_chk_32_i(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_8_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_8_pcix(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_8_di(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_8_al(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_16_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_16_pcix(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_16_di(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_16_al(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_32_di(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_chk2cmp2_32_al(m68ki_cpu_core *cpu);
-void m68k_op_clr_8_d(m68ki_cpu_core *cpu);
-void m68k_op_clr_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_clr_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_clr_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_clr_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_clr_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_clr_8_di(m68ki_cpu_core *cpu);
-void m68k_op_clr_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_clr_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_clr_8_al(m68ki_cpu_core *cpu);
-void m68k_op_clr_16_d(m68ki_cpu_core *cpu);
-void m68k_op_clr_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_clr_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_clr_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_clr_16_di(m68ki_cpu_core *cpu);
-void m68k_op_clr_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_clr_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_clr_16_al(m68ki_cpu_core *cpu);
-void m68k_op_clr_32_d(m68ki_cpu_core *cpu);
-void m68k_op_clr_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_clr_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_clr_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_clr_32_di(m68ki_cpu_core *cpu);
-void m68k_op_clr_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_clr_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_clr_32_al(m68ki_cpu_core *cpu);
-void m68k_op_cmp_8_d(m68ki_cpu_core *cpu);
-void m68k_op_cmp_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_cmp_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_cmp_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_cmp_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_cmp_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_cmp_8_di(m68ki_cpu_core *cpu);
-void m68k_op_cmp_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_cmp_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_cmp_8_al(m68ki_cpu_core *cpu);
-void m68k_op_cmp_8_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_cmp_8_pcix(m68ki_cpu_core *cpu);
-void m68k_op_cmp_8_i(m68ki_cpu_core *cpu);
-void m68k_op_cmp_16_d(m68ki_cpu_core *cpu);
-void m68k_op_cmp_16_a(m68ki_cpu_core *cpu);
-void m68k_op_cmp_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_cmp_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_cmp_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_cmp_16_di(m68ki_cpu_core *cpu);
-void m68k_op_cmp_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_cmp_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_cmp_16_al(m68ki_cpu_core *cpu);
-void m68k_op_cmp_16_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_cmp_16_pcix(m68ki_cpu_core *cpu);
-void m68k_op_cmp_16_i(m68ki_cpu_core *cpu);
-void m68k_op_cmp_32_d(m68ki_cpu_core *cpu);
-void m68k_op_cmp_32_a(m68ki_cpu_core *cpu);
-void m68k_op_cmp_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_cmp_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_cmp_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_cmp_32_di(m68ki_cpu_core *cpu);
-void m68k_op_cmp_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_cmp_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_cmp_32_al(m68ki_cpu_core *cpu);
-void m68k_op_cmp_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_cmp_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_cmp_32_i(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_16_d(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_16_a(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_16_di(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_16_al(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_16_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_16_pcix(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_16_i(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_32_d(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_32_a(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_32_di(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_32_al(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_cmpa_32_i(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_8_d(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_8_di(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_8_al(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_8_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_8_pcix(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_16_d(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_16_di(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_16_al(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_16_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_16_pcix(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_32_d(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_32_di(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_32_al(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_cmpi_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_cmpm_8_ax7(m68ki_cpu_core *cpu);
-void m68k_op_cmpm_8_ay7(m68ki_cpu_core *cpu);
-void m68k_op_cmpm_8_axy7(m68ki_cpu_core *cpu);
-void m68k_op_cmpm_8(m68ki_cpu_core *cpu);
-void m68k_op_cmpm_16(m68ki_cpu_core *cpu);
-void m68k_op_cmpm_32(m68ki_cpu_core *cpu);
-void m68k_op_cpbcc_32(m68ki_cpu_core *cpu);
-void m68k_op_cpdbcc_32(m68ki_cpu_core *cpu);
-void m68k_op_cpgen_32(m68ki_cpu_core *cpu);
-void m68k_op_cpscc_32(m68ki_cpu_core *cpu);
-void m68k_op_cptrapcc_32(m68ki_cpu_core *cpu);
-void m68k_op_dbt_16(m68ki_cpu_core *cpu);
-void m68k_op_dbf_16(m68ki_cpu_core *cpu);
-void m68k_op_dbhi_16(m68ki_cpu_core *cpu);
-void m68k_op_dbls_16(m68ki_cpu_core *cpu);
-void m68k_op_dbcc_16(m68ki_cpu_core *cpu);
-void m68k_op_dbcs_16(m68ki_cpu_core *cpu);
-void m68k_op_dbne_16(m68ki_cpu_core *cpu);
-void m68k_op_dbeq_16(m68ki_cpu_core *cpu);
-void m68k_op_dbvc_16(m68ki_cpu_core *cpu);
-void m68k_op_dbvs_16(m68ki_cpu_core *cpu);
-void m68k_op_dbpl_16(m68ki_cpu_core *cpu);
-void m68k_op_dbmi_16(m68ki_cpu_core *cpu);
-void m68k_op_dbge_16(m68ki_cpu_core *cpu);
-void m68k_op_dblt_16(m68ki_cpu_core *cpu);
-void m68k_op_dbgt_16(m68ki_cpu_core *cpu);
-void m68k_op_dble_16(m68ki_cpu_core *cpu);
-void m68k_op_divs_16_d(m68ki_cpu_core *cpu);
-void m68k_op_divs_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_divs_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_divs_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_divs_16_di(m68ki_cpu_core *cpu);
-void m68k_op_divs_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_divs_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_divs_16_al(m68ki_cpu_core *cpu);
-void m68k_op_divs_16_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_divs_16_pcix(m68ki_cpu_core *cpu);
-void m68k_op_divs_16_i(m68ki_cpu_core *cpu);
-void m68k_op_divu_16_d(m68ki_cpu_core *cpu);
-void m68k_op_divu_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_divu_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_divu_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_divu_16_di(m68ki_cpu_core *cpu);
-void m68k_op_divu_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_divu_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_divu_16_al(m68ki_cpu_core *cpu);
-void m68k_op_divu_16_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_divu_16_pcix(m68ki_cpu_core *cpu);
-void m68k_op_divu_16_i(m68ki_cpu_core *cpu);
-void m68k_op_divl_32_d(m68ki_cpu_core *cpu);
-void m68k_op_divl_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_divl_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_divl_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_divl_32_di(m68ki_cpu_core *cpu);
-void m68k_op_divl_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_divl_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_divl_32_al(m68ki_cpu_core *cpu);
-void m68k_op_divl_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_divl_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_divl_32_i(m68ki_cpu_core *cpu);
-void m68k_op_eor_8_d(m68ki_cpu_core *cpu);
-void m68k_op_eor_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_eor_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_eor_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_eor_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_eor_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_eor_8_di(m68ki_cpu_core *cpu);
-void m68k_op_eor_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_eor_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_eor_8_al(m68ki_cpu_core *cpu);
-void m68k_op_eor_16_d(m68ki_cpu_core *cpu);
-void m68k_op_eor_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_eor_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_eor_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_eor_16_di(m68ki_cpu_core *cpu);
-void m68k_op_eor_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_eor_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_eor_16_al(m68ki_cpu_core *cpu);
-void m68k_op_eor_32_d(m68ki_cpu_core *cpu);
-void m68k_op_eor_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_eor_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_eor_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_eor_32_di(m68ki_cpu_core *cpu);
-void m68k_op_eor_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_eor_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_eor_32_al(m68ki_cpu_core *cpu);
-void m68k_op_eori_8_d(m68ki_cpu_core *cpu);
-void m68k_op_eori_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_eori_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_eori_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_eori_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_eori_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_eori_8_di(m68ki_cpu_core *cpu);
-void m68k_op_eori_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_eori_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_eori_8_al(m68ki_cpu_core *cpu);
-void m68k_op_eori_16_d(m68ki_cpu_core *cpu);
-void m68k_op_eori_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_eori_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_eori_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_eori_16_di(m68ki_cpu_core *cpu);
-void m68k_op_eori_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_eori_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_eori_16_al(m68ki_cpu_core *cpu);
-void m68k_op_eori_32_d(m68ki_cpu_core *cpu);
-void m68k_op_eori_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_eori_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_eori_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_eori_32_di(m68ki_cpu_core *cpu);
-void m68k_op_eori_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_eori_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_eori_32_al(m68ki_cpu_core *cpu);
-void m68k_op_eori_16_toc(m68ki_cpu_core *cpu);
-void m68k_op_eori_16_tos(m68ki_cpu_core *cpu);
-void m68k_op_exg_32_dd(m68ki_cpu_core *cpu);
-void m68k_op_exg_32_aa(m68ki_cpu_core *cpu);
-void m68k_op_exg_32_da(m68ki_cpu_core *cpu);
-void m68k_op_ext_16(m68ki_cpu_core *cpu);
-void m68k_op_ext_32(m68ki_cpu_core *cpu);
-void m68k_op_extb_32(m68ki_cpu_core *cpu);
-void m68k_op_illegal(m68ki_cpu_core *cpu);
-void m68k_op_jmp_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_jmp_32_di(m68ki_cpu_core *cpu);
-void m68k_op_jmp_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_jmp_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_jmp_32_al(m68ki_cpu_core *cpu);
-void m68k_op_jmp_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_jmp_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_jsr_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_jsr_32_di(m68ki_cpu_core *cpu);
-void m68k_op_jsr_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_jsr_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_jsr_32_al(m68ki_cpu_core *cpu);
-void m68k_op_jsr_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_jsr_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_lea_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_lea_32_di(m68ki_cpu_core *cpu);
-void m68k_op_lea_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_lea_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_lea_32_al(m68ki_cpu_core *cpu);
-void m68k_op_lea_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_lea_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_link_16_a7(m68ki_cpu_core *cpu);
-void m68k_op_link_16(m68ki_cpu_core *cpu);
-void m68k_op_link_32_a7(m68ki_cpu_core *cpu);
-void m68k_op_link_32(m68ki_cpu_core *cpu);
-void m68k_op_lsr_8_s(m68ki_cpu_core *cpu);
-void m68k_op_lsr_16_s(m68ki_cpu_core *cpu);
-void m68k_op_lsr_32_s(m68ki_cpu_core *cpu);
-void m68k_op_lsr_8_r(m68ki_cpu_core *cpu);
-void m68k_op_lsr_16_r(m68ki_cpu_core *cpu);
-void m68k_op_lsr_32_r(m68ki_cpu_core *cpu);
-void m68k_op_lsr_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_lsr_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_lsr_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_lsr_16_di(m68ki_cpu_core *cpu);
-void m68k_op_lsr_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_lsr_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_lsr_16_al(m68ki_cpu_core *cpu);
-void m68k_op_lsl_8_s(m68ki_cpu_core *cpu);
-void m68k_op_lsl_16_s(m68ki_cpu_core *cpu);
-void m68k_op_lsl_32_s(m68ki_cpu_core *cpu);
-void m68k_op_lsl_8_r(m68ki_cpu_core *cpu);
-void m68k_op_lsl_16_r(m68ki_cpu_core *cpu);
-void m68k_op_lsl_32_r(m68ki_cpu_core *cpu);
-void m68k_op_lsl_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_lsl_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_lsl_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_lsl_16_di(m68ki_cpu_core *cpu);
-void m68k_op_lsl_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_lsl_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_lsl_16_al(m68ki_cpu_core *cpu);
-void m68k_op_move_8_d_d(m68ki_cpu_core *cpu);
-void m68k_op_move_8_d_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_8_d_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_d_pi7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_d_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_8_d_pd7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_d_di(m68ki_cpu_core *cpu);
-void m68k_op_move_8_d_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_d_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_8_d_al(m68ki_cpu_core *cpu);
-void m68k_op_move_8_d_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_d_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_d_i(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ai_d(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ai_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ai_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ai_pi7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ai_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ai_pd7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ai_di(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ai_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ai_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ai_al(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ai_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ai_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ai_i(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi7_d(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi_d(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi7_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi7_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi7_pi7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi7_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi7_pd7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi7_di(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi7_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi7_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi7_al(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi7_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi7_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi7_i(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi_pi7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi_pd7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi_di(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi_al(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pi_i(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd7_d(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd_d(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd7_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd7_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd7_pi7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd7_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd7_pd7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd7_di(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd7_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd7_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd7_al(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd7_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd7_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd7_i(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd_pi7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd_pd7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd_di(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd_al(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_pd_i(m68ki_cpu_core *cpu);
-void m68k_op_move_8_di_d(m68ki_cpu_core *cpu);
-void m68k_op_move_8_di_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_8_di_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_di_pi7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_di_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_8_di_pd7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_di_di(m68ki_cpu_core *cpu);
-void m68k_op_move_8_di_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_di_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_8_di_al(m68ki_cpu_core *cpu);
-void m68k_op_move_8_di_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_di_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_di_i(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ix_d(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ix_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ix_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ix_pi7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ix_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ix_pd7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ix_di(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ix_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ix_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ix_al(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ix_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ix_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_ix_i(m68ki_cpu_core *cpu);
-void m68k_op_move_8_aw_d(m68ki_cpu_core *cpu);
-void m68k_op_move_8_aw_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_8_aw_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_aw_pi7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_aw_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_8_aw_pd7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_aw_di(m68ki_cpu_core *cpu);
-void m68k_op_move_8_aw_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_aw_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_8_aw_al(m68ki_cpu_core *cpu);
-void m68k_op_move_8_aw_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_aw_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_aw_i(m68ki_cpu_core *cpu);
-void m68k_op_move_8_al_d(m68ki_cpu_core *cpu);
-void m68k_op_move_8_al_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_8_al_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_al_pi7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_al_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_8_al_pd7(m68ki_cpu_core *cpu);
-void m68k_op_move_8_al_di(m68ki_cpu_core *cpu);
-void m68k_op_move_8_al_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_al_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_8_al_al(m68ki_cpu_core *cpu);
-void m68k_op_move_8_al_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_8_al_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_8_al_i(m68ki_cpu_core *cpu);
-void m68k_op_move_16_d_d(m68ki_cpu_core *cpu);
-void m68k_op_move_16_d_a(m68ki_cpu_core *cpu);
-void m68k_op_move_16_d_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_16_d_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_d_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_16_d_di(m68ki_cpu_core *cpu);
-void m68k_op_move_16_d_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_d_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_16_d_al(m68ki_cpu_core *cpu);
-void m68k_op_move_16_d_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_d_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_d_i(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ai_d(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ai_a(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ai_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ai_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ai_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ai_di(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ai_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ai_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ai_al(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ai_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ai_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ai_i(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pi_d(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pi_a(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pi_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pi_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pi_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pi_di(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pi_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pi_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pi_al(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pi_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pi_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pi_i(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pd_d(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pd_a(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pd_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pd_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pd_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pd_di(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pd_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pd_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pd_al(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pd_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pd_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_pd_i(m68ki_cpu_core *cpu);
-void m68k_op_move_16_di_d(m68ki_cpu_core *cpu);
-void m68k_op_move_16_di_a(m68ki_cpu_core *cpu);
-void m68k_op_move_16_di_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_16_di_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_di_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_16_di_di(m68ki_cpu_core *cpu);
-void m68k_op_move_16_di_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_di_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_16_di_al(m68ki_cpu_core *cpu);
-void m68k_op_move_16_di_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_di_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_di_i(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ix_d(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ix_a(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ix_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ix_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ix_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ix_di(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ix_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ix_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ix_al(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ix_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ix_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_ix_i(m68ki_cpu_core *cpu);
-void m68k_op_move_16_aw_d(m68ki_cpu_core *cpu);
-void m68k_op_move_16_aw_a(m68ki_cpu_core *cpu);
-void m68k_op_move_16_aw_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_16_aw_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_aw_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_16_aw_di(m68ki_cpu_core *cpu);
-void m68k_op_move_16_aw_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_aw_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_16_aw_al(m68ki_cpu_core *cpu);
-void m68k_op_move_16_aw_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_aw_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_aw_i(m68ki_cpu_core *cpu);
-void m68k_op_move_16_al_d(m68ki_cpu_core *cpu);
-void m68k_op_move_16_al_a(m68ki_cpu_core *cpu);
-void m68k_op_move_16_al_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_16_al_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_al_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_16_al_di(m68ki_cpu_core *cpu);
-void m68k_op_move_16_al_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_al_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_16_al_al(m68ki_cpu_core *cpu);
-void m68k_op_move_16_al_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_al_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_al_i(m68ki_cpu_core *cpu);
-void m68k_op_move_32_d_d(m68ki_cpu_core *cpu);
-void m68k_op_move_32_d_a(m68ki_cpu_core *cpu);
-void m68k_op_move_32_d_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_32_d_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_d_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_32_d_di(m68ki_cpu_core *cpu);
-void m68k_op_move_32_d_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_d_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_32_d_al(m68ki_cpu_core *cpu);
-void m68k_op_move_32_d_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_d_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_d_i(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ai_d(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ai_a(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ai_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ai_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ai_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ai_di(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ai_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ai_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ai_al(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ai_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ai_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ai_i(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pi_d(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pi_a(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pi_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pi_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pi_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pi_di(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pi_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pi_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pi_al(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pi_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pi_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pi_i(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pd_d(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pd_a(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pd_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pd_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pd_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pd_di(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pd_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pd_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pd_al(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pd_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pd_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_pd_i(m68ki_cpu_core *cpu);
-void m68k_op_move_32_di_d(m68ki_cpu_core *cpu);
-void m68k_op_move_32_di_a(m68ki_cpu_core *cpu);
-void m68k_op_move_32_di_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_32_di_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_di_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_32_di_di(m68ki_cpu_core *cpu);
-void m68k_op_move_32_di_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_di_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_32_di_al(m68ki_cpu_core *cpu);
-void m68k_op_move_32_di_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_di_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_di_i(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ix_d(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ix_a(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ix_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ix_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ix_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ix_di(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ix_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ix_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ix_al(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ix_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ix_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_ix_i(m68ki_cpu_core *cpu);
-void m68k_op_move_32_aw_d(m68ki_cpu_core *cpu);
-void m68k_op_move_32_aw_a(m68ki_cpu_core *cpu);
-void m68k_op_move_32_aw_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_32_aw_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_aw_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_32_aw_di(m68ki_cpu_core *cpu);
-void m68k_op_move_32_aw_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_aw_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_32_aw_al(m68ki_cpu_core *cpu);
-void m68k_op_move_32_aw_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_aw_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_aw_i(m68ki_cpu_core *cpu);
-void m68k_op_move_32_al_d(m68ki_cpu_core *cpu);
-void m68k_op_move_32_al_a(m68ki_cpu_core *cpu);
-void m68k_op_move_32_al_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_32_al_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_al_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_32_al_di(m68ki_cpu_core *cpu);
-void m68k_op_move_32_al_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_al_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_32_al_al(m68ki_cpu_core *cpu);
-void m68k_op_move_32_al_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_32_al_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_32_al_i(m68ki_cpu_core *cpu);
-void m68k_op_movea_16_d(m68ki_cpu_core *cpu);
-void m68k_op_movea_16_a(m68ki_cpu_core *cpu);
-void m68k_op_movea_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_movea_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_movea_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_movea_16_di(m68ki_cpu_core *cpu);
-void m68k_op_movea_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_movea_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_movea_16_al(m68ki_cpu_core *cpu);
-void m68k_op_movea_16_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_movea_16_pcix(m68ki_cpu_core *cpu);
-void m68k_op_movea_16_i(m68ki_cpu_core *cpu);
-void m68k_op_movea_32_d(m68ki_cpu_core *cpu);
-void m68k_op_movea_32_a(m68ki_cpu_core *cpu);
-void m68k_op_movea_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_movea_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_movea_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_movea_32_di(m68ki_cpu_core *cpu);
-void m68k_op_movea_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_movea_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_movea_32_al(m68ki_cpu_core *cpu);
-void m68k_op_movea_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_movea_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_movea_32_i(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frc_d(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frc_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frc_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frc_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frc_di(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frc_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frc_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frc_al(m68ki_cpu_core *cpu);
-void m68k_op_move_16_toc_d(m68ki_cpu_core *cpu);
-void m68k_op_move_16_toc_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_16_toc_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_toc_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_16_toc_di(m68ki_cpu_core *cpu);
-void m68k_op_move_16_toc_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_toc_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_16_toc_al(m68ki_cpu_core *cpu);
-void m68k_op_move_16_toc_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_toc_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_toc_i(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frs_d(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frs_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frs_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frs_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frs_di(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frs_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frs_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_16_frs_al(m68ki_cpu_core *cpu);
-void m68k_op_move_16_tos_d(m68ki_cpu_core *cpu);
-void m68k_op_move_16_tos_ai(m68ki_cpu_core *cpu);
-void m68k_op_move_16_tos_pi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_tos_pd(m68ki_cpu_core *cpu);
-void m68k_op_move_16_tos_di(m68ki_cpu_core *cpu);
-void m68k_op_move_16_tos_ix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_tos_aw(m68ki_cpu_core *cpu);
-void m68k_op_move_16_tos_al(m68ki_cpu_core *cpu);
-void m68k_op_move_16_tos_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_move_16_tos_pcix(m68ki_cpu_core *cpu);
-void m68k_op_move_16_tos_i(m68ki_cpu_core *cpu);
-void m68k_op_move_32_fru(m68ki_cpu_core *cpu);
-void m68k_op_move_32_tou(m68ki_cpu_core *cpu);
-void m68k_op_movec_32_cr(m68ki_cpu_core *cpu);
-void m68k_op_movec_32_rc(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_re_di(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_re_al(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_re_di(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_re_al(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_er_di(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_movem_16_er_al(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_er_di(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_movem_32_er_al(m68ki_cpu_core *cpu);
-void m68k_op_movep_16_re(m68ki_cpu_core *cpu);
-void m68k_op_movep_32_re(m68ki_cpu_core *cpu);
-void m68k_op_movep_16_er(m68ki_cpu_core *cpu);
-void m68k_op_movep_32_er(m68ki_cpu_core *cpu);
-void m68k_op_moves_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_moves_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_moves_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_moves_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_moves_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_moves_8_di(m68ki_cpu_core *cpu);
-void m68k_op_moves_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_moves_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_moves_8_al(m68ki_cpu_core *cpu);
-void m68k_op_moves_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_moves_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_moves_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_moves_16_di(m68ki_cpu_core *cpu);
-void m68k_op_moves_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_moves_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_moves_16_al(m68ki_cpu_core *cpu);
-void m68k_op_moves_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_moves_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_moves_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_moves_32_di(m68ki_cpu_core *cpu);
-void m68k_op_moves_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_moves_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_moves_32_al(m68ki_cpu_core *cpu);
-void m68k_op_moveq_32(m68ki_cpu_core *cpu);
-void m68k_op_muls_16_d(m68ki_cpu_core *cpu);
-void m68k_op_muls_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_muls_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_muls_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_muls_16_di(m68ki_cpu_core *cpu);
-void m68k_op_muls_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_muls_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_muls_16_al(m68ki_cpu_core *cpu);
-void m68k_op_muls_16_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_muls_16_pcix(m68ki_cpu_core *cpu);
-void m68k_op_muls_16_i(m68ki_cpu_core *cpu);
-void m68k_op_mulu_16_d(m68ki_cpu_core *cpu);
-void m68k_op_mulu_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_mulu_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_mulu_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_mulu_16_di(m68ki_cpu_core *cpu);
-void m68k_op_mulu_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_mulu_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_mulu_16_al(m68ki_cpu_core *cpu);
-void m68k_op_mulu_16_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_mulu_16_pcix(m68ki_cpu_core *cpu);
-void m68k_op_mulu_16_i(m68ki_cpu_core *cpu);
-void m68k_op_mull_32_d(m68ki_cpu_core *cpu);
-void m68k_op_mull_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_mull_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_mull_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_mull_32_di(m68ki_cpu_core *cpu);
-void m68k_op_mull_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_mull_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_mull_32_al(m68ki_cpu_core *cpu);
-void m68k_op_mull_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_mull_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_mull_32_i(m68ki_cpu_core *cpu);
-void m68k_op_nbcd_8_d(m68ki_cpu_core *cpu);
-void m68k_op_nbcd_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_nbcd_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_nbcd_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_nbcd_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_nbcd_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_nbcd_8_di(m68ki_cpu_core *cpu);
-void m68k_op_nbcd_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_nbcd_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_nbcd_8_al(m68ki_cpu_core *cpu);
-void m68k_op_neg_8_d(m68ki_cpu_core *cpu);
-void m68k_op_neg_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_neg_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_neg_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_neg_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_neg_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_neg_8_di(m68ki_cpu_core *cpu);
-void m68k_op_neg_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_neg_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_neg_8_al(m68ki_cpu_core *cpu);
-void m68k_op_neg_16_d(m68ki_cpu_core *cpu);
-void m68k_op_neg_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_neg_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_neg_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_neg_16_di(m68ki_cpu_core *cpu);
-void m68k_op_neg_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_neg_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_neg_16_al(m68ki_cpu_core *cpu);
-void m68k_op_neg_32_d(m68ki_cpu_core *cpu);
-void m68k_op_neg_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_neg_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_neg_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_neg_32_di(m68ki_cpu_core *cpu);
-void m68k_op_neg_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_neg_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_neg_32_al(m68ki_cpu_core *cpu);
-void m68k_op_negx_8_d(m68ki_cpu_core *cpu);
-void m68k_op_negx_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_negx_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_negx_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_negx_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_negx_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_negx_8_di(m68ki_cpu_core *cpu);
-void m68k_op_negx_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_negx_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_negx_8_al(m68ki_cpu_core *cpu);
-void m68k_op_negx_16_d(m68ki_cpu_core *cpu);
-void m68k_op_negx_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_negx_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_negx_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_negx_16_di(m68ki_cpu_core *cpu);
-void m68k_op_negx_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_negx_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_negx_16_al(m68ki_cpu_core *cpu);
-void m68k_op_negx_32_d(m68ki_cpu_core *cpu);
-void m68k_op_negx_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_negx_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_negx_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_negx_32_di(m68ki_cpu_core *cpu);
-void m68k_op_negx_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_negx_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_negx_32_al(m68ki_cpu_core *cpu);
-void m68k_op_nop(m68ki_cpu_core *cpu);
-void m68k_op_not_8_d(m68ki_cpu_core *cpu);
-void m68k_op_not_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_not_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_not_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_not_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_not_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_not_8_di(m68ki_cpu_core *cpu);
-void m68k_op_not_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_not_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_not_8_al(m68ki_cpu_core *cpu);
-void m68k_op_not_16_d(m68ki_cpu_core *cpu);
-void m68k_op_not_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_not_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_not_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_not_16_di(m68ki_cpu_core *cpu);
-void m68k_op_not_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_not_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_not_16_al(m68ki_cpu_core *cpu);
-void m68k_op_not_32_d(m68ki_cpu_core *cpu);
-void m68k_op_not_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_not_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_not_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_not_32_di(m68ki_cpu_core *cpu);
-void m68k_op_not_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_not_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_not_32_al(m68ki_cpu_core *cpu);
-void m68k_op_or_8_er_d(m68ki_cpu_core *cpu);
-void m68k_op_or_8_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_or_8_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_or_8_er_pi7(m68ki_cpu_core *cpu);
-void m68k_op_or_8_er_pd(m68ki_cpu_core *cpu);
-void m68k_op_or_8_er_pd7(m68ki_cpu_core *cpu);
-void m68k_op_or_8_er_di(m68ki_cpu_core *cpu);
-void m68k_op_or_8_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_or_8_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_or_8_er_al(m68ki_cpu_core *cpu);
-void m68k_op_or_8_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_or_8_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_or_8_er_i(m68ki_cpu_core *cpu);
-void m68k_op_or_16_er_d(m68ki_cpu_core *cpu);
-void m68k_op_or_16_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_or_16_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_or_16_er_pd(m68ki_cpu_core *cpu);
-void m68k_op_or_16_er_di(m68ki_cpu_core *cpu);
-void m68k_op_or_16_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_or_16_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_or_16_er_al(m68ki_cpu_core *cpu);
-void m68k_op_or_16_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_or_16_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_or_16_er_i(m68ki_cpu_core *cpu);
-void m68k_op_or_32_er_d(m68ki_cpu_core *cpu);
-void m68k_op_or_32_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_or_32_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_or_32_er_pd(m68ki_cpu_core *cpu);
-void m68k_op_or_32_er_di(m68ki_cpu_core *cpu);
-void m68k_op_or_32_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_or_32_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_or_32_er_al(m68ki_cpu_core *cpu);
-void m68k_op_or_32_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_or_32_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_or_32_er_i(m68ki_cpu_core *cpu);
-void m68k_op_or_8_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_or_8_re_pi(m68ki_cpu_core *cpu);
-void m68k_op_or_8_re_pi7(m68ki_cpu_core *cpu);
-void m68k_op_or_8_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_or_8_re_pd7(m68ki_cpu_core *cpu);
-void m68k_op_or_8_re_di(m68ki_cpu_core *cpu);
-void m68k_op_or_8_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_or_8_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_or_8_re_al(m68ki_cpu_core *cpu);
-void m68k_op_or_16_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_or_16_re_pi(m68ki_cpu_core *cpu);
-void m68k_op_or_16_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_or_16_re_di(m68ki_cpu_core *cpu);
-void m68k_op_or_16_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_or_16_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_or_16_re_al(m68ki_cpu_core *cpu);
-void m68k_op_or_32_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_or_32_re_pi(m68ki_cpu_core *cpu);
-void m68k_op_or_32_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_or_32_re_di(m68ki_cpu_core *cpu);
-void m68k_op_or_32_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_or_32_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_or_32_re_al(m68ki_cpu_core *cpu);
-void m68k_op_ori_8_d(m68ki_cpu_core *cpu);
-void m68k_op_ori_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_ori_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_ori_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_ori_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_ori_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_ori_8_di(m68ki_cpu_core *cpu);
-void m68k_op_ori_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_ori_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_ori_8_al(m68ki_cpu_core *cpu);
-void m68k_op_ori_16_d(m68ki_cpu_core *cpu);
-void m68k_op_ori_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_ori_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_ori_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_ori_16_di(m68ki_cpu_core *cpu);
-void m68k_op_ori_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_ori_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_ori_16_al(m68ki_cpu_core *cpu);
-void m68k_op_ori_32_d(m68ki_cpu_core *cpu);
-void m68k_op_ori_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_ori_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_ori_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_ori_32_di(m68ki_cpu_core *cpu);
-void m68k_op_ori_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_ori_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_ori_32_al(m68ki_cpu_core *cpu);
-void m68k_op_ori_16_toc(m68ki_cpu_core *cpu);
-void m68k_op_ori_16_tos(m68ki_cpu_core *cpu);
-void m68k_op_pack_16_rr(m68ki_cpu_core *cpu);
-void m68k_op_pack_16_mm_ax7(m68ki_cpu_core *cpu);
-void m68k_op_pack_16_mm_ay7(m68ki_cpu_core *cpu);
-void m68k_op_pack_16_mm_axy7(m68ki_cpu_core *cpu);
-void m68k_op_pack_16_mm(m68ki_cpu_core *cpu);
-void m68k_op_pea_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_pea_32_di(m68ki_cpu_core *cpu);
-void m68k_op_pea_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_pea_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_pea_32_al(m68ki_cpu_core *cpu);
-void m68k_op_pea_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_pea_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_reset(m68ki_cpu_core *cpu);
-void m68k_op_ror_8_s(m68ki_cpu_core *cpu);
-void m68k_op_ror_16_s(m68ki_cpu_core *cpu);
-void m68k_op_ror_32_s(m68ki_cpu_core *cpu);
-void m68k_op_ror_8_r(m68ki_cpu_core *cpu);
-void m68k_op_ror_16_r(m68ki_cpu_core *cpu);
-void m68k_op_ror_32_r(m68ki_cpu_core *cpu);
-void m68k_op_ror_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_ror_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_ror_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_ror_16_di(m68ki_cpu_core *cpu);
-void m68k_op_ror_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_ror_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_ror_16_al(m68ki_cpu_core *cpu);
-void m68k_op_rol_8_s(m68ki_cpu_core *cpu);
-void m68k_op_rol_16_s(m68ki_cpu_core *cpu);
-void m68k_op_rol_32_s(m68ki_cpu_core *cpu);
-void m68k_op_rol_8_r(m68ki_cpu_core *cpu);
-void m68k_op_rol_16_r(m68ki_cpu_core *cpu);
-void m68k_op_rol_32_r(m68ki_cpu_core *cpu);
-void m68k_op_rol_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_rol_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_rol_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_rol_16_di(m68ki_cpu_core *cpu);
-void m68k_op_rol_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_rol_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_rol_16_al(m68ki_cpu_core *cpu);
-void m68k_op_roxr_8_s(m68ki_cpu_core *cpu);
-void m68k_op_roxr_16_s(m68ki_cpu_core *cpu);
-void m68k_op_roxr_32_s(m68ki_cpu_core *cpu);
-void m68k_op_roxr_8_r(m68ki_cpu_core *cpu);
-void m68k_op_roxr_16_r(m68ki_cpu_core *cpu);
-void m68k_op_roxr_32_r(m68ki_cpu_core *cpu);
-void m68k_op_roxr_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_roxr_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_roxr_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_roxr_16_di(m68ki_cpu_core *cpu);
-void m68k_op_roxr_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_roxr_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_roxr_16_al(m68ki_cpu_core *cpu);
-void m68k_op_roxl_8_s(m68ki_cpu_core *cpu);
-void m68k_op_roxl_16_s(m68ki_cpu_core *cpu);
-void m68k_op_roxl_32_s(m68ki_cpu_core *cpu);
-void m68k_op_roxl_8_r(m68ki_cpu_core *cpu);
-void m68k_op_roxl_16_r(m68ki_cpu_core *cpu);
-void m68k_op_roxl_32_r(m68ki_cpu_core *cpu);
-void m68k_op_roxl_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_roxl_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_roxl_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_roxl_16_di(m68ki_cpu_core *cpu);
-void m68k_op_roxl_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_roxl_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_roxl_16_al(m68ki_cpu_core *cpu);
-void m68k_op_rtd_32(m68ki_cpu_core *cpu);
-void m68k_op_rte_32(m68ki_cpu_core *cpu);
-void m68k_op_rtm_32(m68ki_cpu_core *cpu);
-void m68k_op_rtr_32(m68ki_cpu_core *cpu);
-void m68k_op_rts_32(m68ki_cpu_core *cpu);
-void m68k_op_sbcd_8_rr(m68ki_cpu_core *cpu);
-void m68k_op_sbcd_8_mm_ax7(m68ki_cpu_core *cpu);
-void m68k_op_sbcd_8_mm_ay7(m68ki_cpu_core *cpu);
-void m68k_op_sbcd_8_mm_axy7(m68ki_cpu_core *cpu);
-void m68k_op_sbcd_8_mm(m68ki_cpu_core *cpu);
-void m68k_op_st_8_d(m68ki_cpu_core *cpu);
-void m68k_op_st_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_st_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_st_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_st_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_st_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_st_8_di(m68ki_cpu_core *cpu);
-void m68k_op_st_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_st_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_st_8_al(m68ki_cpu_core *cpu);
-void m68k_op_sf_8_d(m68ki_cpu_core *cpu);
-void m68k_op_sf_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_sf_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_sf_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_sf_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_sf_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_sf_8_di(m68ki_cpu_core *cpu);
-void m68k_op_sf_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_sf_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_sf_8_al(m68ki_cpu_core *cpu);
-void m68k_op_shi_8_d(m68ki_cpu_core *cpu);
-void m68k_op_sls_8_d(m68ki_cpu_core *cpu);
-void m68k_op_scc_8_d(m68ki_cpu_core *cpu);
-void m68k_op_scs_8_d(m68ki_cpu_core *cpu);
-void m68k_op_sne_8_d(m68ki_cpu_core *cpu);
-void m68k_op_seq_8_d(m68ki_cpu_core *cpu);
-void m68k_op_svc_8_d(m68ki_cpu_core *cpu);
-void m68k_op_svs_8_d(m68ki_cpu_core *cpu);
-void m68k_op_spl_8_d(m68ki_cpu_core *cpu);
-void m68k_op_smi_8_d(m68ki_cpu_core *cpu);
-void m68k_op_sge_8_d(m68ki_cpu_core *cpu);
-void m68k_op_slt_8_d(m68ki_cpu_core *cpu);
-void m68k_op_sgt_8_d(m68ki_cpu_core *cpu);
-void m68k_op_sle_8_d(m68ki_cpu_core *cpu);
-void m68k_op_shi_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_shi_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_shi_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_shi_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_shi_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_shi_8_di(m68ki_cpu_core *cpu);
-void m68k_op_shi_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_shi_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_shi_8_al(m68ki_cpu_core *cpu);
-void m68k_op_sls_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_sls_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_sls_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_sls_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_sls_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_sls_8_di(m68ki_cpu_core *cpu);
-void m68k_op_sls_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_sls_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_sls_8_al(m68ki_cpu_core *cpu);
-void m68k_op_scc_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_scc_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_scc_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_scc_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_scc_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_scc_8_di(m68ki_cpu_core *cpu);
-void m68k_op_scc_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_scc_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_scc_8_al(m68ki_cpu_core *cpu);
-void m68k_op_scs_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_scs_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_scs_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_scs_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_scs_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_scs_8_di(m68ki_cpu_core *cpu);
-void m68k_op_scs_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_scs_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_scs_8_al(m68ki_cpu_core *cpu);
-void m68k_op_sne_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_sne_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_sne_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_sne_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_sne_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_sne_8_di(m68ki_cpu_core *cpu);
-void m68k_op_sne_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_sne_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_sne_8_al(m68ki_cpu_core *cpu);
-void m68k_op_seq_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_seq_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_seq_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_seq_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_seq_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_seq_8_di(m68ki_cpu_core *cpu);
-void m68k_op_seq_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_seq_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_seq_8_al(m68ki_cpu_core *cpu);
-void m68k_op_svc_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_svc_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_svc_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_svc_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_svc_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_svc_8_di(m68ki_cpu_core *cpu);
-void m68k_op_svc_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_svc_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_svc_8_al(m68ki_cpu_core *cpu);
-void m68k_op_svs_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_svs_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_svs_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_svs_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_svs_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_svs_8_di(m68ki_cpu_core *cpu);
-void m68k_op_svs_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_svs_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_svs_8_al(m68ki_cpu_core *cpu);
-void m68k_op_spl_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_spl_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_spl_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_spl_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_spl_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_spl_8_di(m68ki_cpu_core *cpu);
-void m68k_op_spl_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_spl_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_spl_8_al(m68ki_cpu_core *cpu);
-void m68k_op_smi_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_smi_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_smi_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_smi_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_smi_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_smi_8_di(m68ki_cpu_core *cpu);
-void m68k_op_smi_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_smi_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_smi_8_al(m68ki_cpu_core *cpu);
-void m68k_op_sge_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_sge_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_sge_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_sge_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_sge_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_sge_8_di(m68ki_cpu_core *cpu);
-void m68k_op_sge_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_sge_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_sge_8_al(m68ki_cpu_core *cpu);
-void m68k_op_slt_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_slt_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_slt_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_slt_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_slt_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_slt_8_di(m68ki_cpu_core *cpu);
-void m68k_op_slt_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_slt_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_slt_8_al(m68ki_cpu_core *cpu);
-void m68k_op_sgt_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_sgt_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_sgt_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_sgt_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_sgt_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_sgt_8_di(m68ki_cpu_core *cpu);
-void m68k_op_sgt_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_sgt_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_sgt_8_al(m68ki_cpu_core *cpu);
-void m68k_op_sle_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_sle_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_sle_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_sle_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_sle_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_sle_8_di(m68ki_cpu_core *cpu);
-void m68k_op_sle_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_sle_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_sle_8_al(m68ki_cpu_core *cpu);
-void m68k_op_stop(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_er_d(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_er_pi7(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_er_pd(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_er_pd7(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_er_di(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_er_al(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_er_i(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_er_d(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_er_a(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_er_pd(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_er_di(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_er_al(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_er_i(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_er_d(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_er_a(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_er_ai(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_er_pi(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_er_pd(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_er_di(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_er_ix(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_er_aw(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_er_al(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_er_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_er_pcix(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_er_i(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_re_pi(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_re_pi7(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_re_pd7(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_re_di(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_sub_8_re_al(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_re_pi(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_re_di(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_sub_16_re_al(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_re_ai(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_re_pi(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_re_pd(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_re_di(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_re_ix(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_re_aw(m68ki_cpu_core *cpu);
-void m68k_op_sub_32_re_al(m68ki_cpu_core *cpu);
-void m68k_op_suba_16_d(m68ki_cpu_core *cpu);
-void m68k_op_suba_16_a(m68ki_cpu_core *cpu);
-void m68k_op_suba_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_suba_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_suba_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_suba_16_di(m68ki_cpu_core *cpu);
-void m68k_op_suba_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_suba_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_suba_16_al(m68ki_cpu_core *cpu);
-void m68k_op_suba_16_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_suba_16_pcix(m68ki_cpu_core *cpu);
-void m68k_op_suba_16_i(m68ki_cpu_core *cpu);
-void m68k_op_suba_32_d(m68ki_cpu_core *cpu);
-void m68k_op_suba_32_a(m68ki_cpu_core *cpu);
-void m68k_op_suba_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_suba_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_suba_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_suba_32_di(m68ki_cpu_core *cpu);
-void m68k_op_suba_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_suba_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_suba_32_al(m68ki_cpu_core *cpu);
-void m68k_op_suba_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_suba_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_suba_32_i(m68ki_cpu_core *cpu);
-void m68k_op_subi_8_d(m68ki_cpu_core *cpu);
-void m68k_op_subi_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_subi_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_subi_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_subi_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_subi_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_subi_8_di(m68ki_cpu_core *cpu);
-void m68k_op_subi_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_subi_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_subi_8_al(m68ki_cpu_core *cpu);
-void m68k_op_subi_16_d(m68ki_cpu_core *cpu);
-void m68k_op_subi_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_subi_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_subi_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_subi_16_di(m68ki_cpu_core *cpu);
-void m68k_op_subi_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_subi_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_subi_16_al(m68ki_cpu_core *cpu);
-void m68k_op_subi_32_d(m68ki_cpu_core *cpu);
-void m68k_op_subi_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_subi_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_subi_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_subi_32_di(m68ki_cpu_core *cpu);
-void m68k_op_subi_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_subi_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_subi_32_al(m68ki_cpu_core *cpu);
-void m68k_op_subq_8_d(m68ki_cpu_core *cpu);
-void m68k_op_subq_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_subq_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_subq_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_subq_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_subq_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_subq_8_di(m68ki_cpu_core *cpu);
-void m68k_op_subq_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_subq_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_subq_8_al(m68ki_cpu_core *cpu);
-void m68k_op_subq_16_d(m68ki_cpu_core *cpu);
-void m68k_op_subq_16_a(m68ki_cpu_core *cpu);
-void m68k_op_subq_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_subq_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_subq_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_subq_16_di(m68ki_cpu_core *cpu);
-void m68k_op_subq_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_subq_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_subq_16_al(m68ki_cpu_core *cpu);
-void m68k_op_subq_32_d(m68ki_cpu_core *cpu);
-void m68k_op_subq_32_a(m68ki_cpu_core *cpu);
-void m68k_op_subq_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_subq_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_subq_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_subq_32_di(m68ki_cpu_core *cpu);
-void m68k_op_subq_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_subq_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_subq_32_al(m68ki_cpu_core *cpu);
-void m68k_op_subx_8_rr(m68ki_cpu_core *cpu);
-void m68k_op_subx_16_rr(m68ki_cpu_core *cpu);
-void m68k_op_subx_32_rr(m68ki_cpu_core *cpu);
-void m68k_op_subx_8_mm_ax7(m68ki_cpu_core *cpu);
-void m68k_op_subx_8_mm_ay7(m68ki_cpu_core *cpu);
-void m68k_op_subx_8_mm_axy7(m68ki_cpu_core *cpu);
-void m68k_op_subx_8_mm(m68ki_cpu_core *cpu);
-void m68k_op_subx_16_mm(m68ki_cpu_core *cpu);
-void m68k_op_subx_32_mm(m68ki_cpu_core *cpu);
-void m68k_op_swap_32(m68ki_cpu_core *cpu);
-void m68k_op_tas_8_d(m68ki_cpu_core *cpu);
-void m68k_op_tas_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_tas_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_tas_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_tas_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_tas_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_tas_8_di(m68ki_cpu_core *cpu);
-void m68k_op_tas_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_tas_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_tas_8_al(m68ki_cpu_core *cpu);
-void m68k_op_trap(m68ki_cpu_core *cpu);
-void m68k_op_trapt(m68ki_cpu_core *cpu);
-void m68k_op_trapt_16(m68ki_cpu_core *cpu);
-void m68k_op_trapt_32(m68ki_cpu_core *cpu);
-void m68k_op_trapf(m68ki_cpu_core *cpu);
-void m68k_op_trapf_16(m68ki_cpu_core *cpu);
-void m68k_op_trapf_32(m68ki_cpu_core *cpu);
-void m68k_op_traphi(m68ki_cpu_core *cpu);
-void m68k_op_trapls(m68ki_cpu_core *cpu);
-void m68k_op_trapcc(m68ki_cpu_core *cpu);
-void m68k_op_trapcs(m68ki_cpu_core *cpu);
-void m68k_op_trapne(m68ki_cpu_core *cpu);
-void m68k_op_trapeq(m68ki_cpu_core *cpu);
-void m68k_op_trapvc(m68ki_cpu_core *cpu);
-void m68k_op_trapvs(m68ki_cpu_core *cpu);
-void m68k_op_trappl(m68ki_cpu_core *cpu);
-void m68k_op_trapmi(m68ki_cpu_core *cpu);
-void m68k_op_trapge(m68ki_cpu_core *cpu);
-void m68k_op_traplt(m68ki_cpu_core *cpu);
-void m68k_op_trapgt(m68ki_cpu_core *cpu);
-void m68k_op_traple(m68ki_cpu_core *cpu);
-void m68k_op_traphi_16(m68ki_cpu_core *cpu);
-void m68k_op_trapls_16(m68ki_cpu_core *cpu);
-void m68k_op_trapcc_16(m68ki_cpu_core *cpu);
-void m68k_op_trapcs_16(m68ki_cpu_core *cpu);
-void m68k_op_trapne_16(m68ki_cpu_core *cpu);
-void m68k_op_trapeq_16(m68ki_cpu_core *cpu);
-void m68k_op_trapvc_16(m68ki_cpu_core *cpu);
-void m68k_op_trapvs_16(m68ki_cpu_core *cpu);
-void m68k_op_trappl_16(m68ki_cpu_core *cpu);
-void m68k_op_trapmi_16(m68ki_cpu_core *cpu);
-void m68k_op_trapge_16(m68ki_cpu_core *cpu);
-void m68k_op_traplt_16(m68ki_cpu_core *cpu);
-void m68k_op_trapgt_16(m68ki_cpu_core *cpu);
-void m68k_op_traple_16(m68ki_cpu_core *cpu);
-void m68k_op_traphi_32(m68ki_cpu_core *cpu);
-void m68k_op_trapls_32(m68ki_cpu_core *cpu);
-void m68k_op_trapcc_32(m68ki_cpu_core *cpu);
-void m68k_op_trapcs_32(m68ki_cpu_core *cpu);
-void m68k_op_trapne_32(m68ki_cpu_core *cpu);
-void m68k_op_trapeq_32(m68ki_cpu_core *cpu);
-void m68k_op_trapvc_32(m68ki_cpu_core *cpu);
-void m68k_op_trapvs_32(m68ki_cpu_core *cpu);
-void m68k_op_trappl_32(m68ki_cpu_core *cpu);
-void m68k_op_trapmi_32(m68ki_cpu_core *cpu);
-void m68k_op_trapge_32(m68ki_cpu_core *cpu);
-void m68k_op_traplt_32(m68ki_cpu_core *cpu);
-void m68k_op_trapgt_32(m68ki_cpu_core *cpu);
-void m68k_op_traple_32(m68ki_cpu_core *cpu);
-void m68k_op_trapv(m68ki_cpu_core *cpu);
-void m68k_op_tst_8_d(m68ki_cpu_core *cpu);
-void m68k_op_tst_8_ai(m68ki_cpu_core *cpu);
-void m68k_op_tst_8_pi(m68ki_cpu_core *cpu);
-void m68k_op_tst_8_pi7(m68ki_cpu_core *cpu);
-void m68k_op_tst_8_pd(m68ki_cpu_core *cpu);
-void m68k_op_tst_8_pd7(m68ki_cpu_core *cpu);
-void m68k_op_tst_8_di(m68ki_cpu_core *cpu);
-void m68k_op_tst_8_ix(m68ki_cpu_core *cpu);
-void m68k_op_tst_8_aw(m68ki_cpu_core *cpu);
-void m68k_op_tst_8_al(m68ki_cpu_core *cpu);
-void m68k_op_tst_8_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_tst_8_pcix(m68ki_cpu_core *cpu);
-void m68k_op_tst_8_i(m68ki_cpu_core *cpu);
-void m68k_op_tst_16_d(m68ki_cpu_core *cpu);
-void m68k_op_tst_16_a(m68ki_cpu_core *cpu);
-void m68k_op_tst_16_ai(m68ki_cpu_core *cpu);
-void m68k_op_tst_16_pi(m68ki_cpu_core *cpu);
-void m68k_op_tst_16_pd(m68ki_cpu_core *cpu);
-void m68k_op_tst_16_di(m68ki_cpu_core *cpu);
-void m68k_op_tst_16_ix(m68ki_cpu_core *cpu);
-void m68k_op_tst_16_aw(m68ki_cpu_core *cpu);
-void m68k_op_tst_16_al(m68ki_cpu_core *cpu);
-void m68k_op_tst_16_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_tst_16_pcix(m68ki_cpu_core *cpu);
-void m68k_op_tst_16_i(m68ki_cpu_core *cpu);
-void m68k_op_tst_32_d(m68ki_cpu_core *cpu);
-void m68k_op_tst_32_a(m68ki_cpu_core *cpu);
-void m68k_op_tst_32_ai(m68ki_cpu_core *cpu);
-void m68k_op_tst_32_pi(m68ki_cpu_core *cpu);
-void m68k_op_tst_32_pd(m68ki_cpu_core *cpu);
-void m68k_op_tst_32_di(m68ki_cpu_core *cpu);
-void m68k_op_tst_32_ix(m68ki_cpu_core *cpu);
-void m68k_op_tst_32_aw(m68ki_cpu_core *cpu);
-void m68k_op_tst_32_al(m68ki_cpu_core *cpu);
-void m68k_op_tst_32_pcdi(m68ki_cpu_core *cpu);
-void m68k_op_tst_32_pcix(m68ki_cpu_core *cpu);
-void m68k_op_tst_32_i(m68ki_cpu_core *cpu);
-void m68k_op_unlk_32_a7(m68ki_cpu_core *cpu);
-void m68k_op_unlk_32(m68ki_cpu_core *cpu);
-void m68k_op_unpk_16_rr(m68ki_cpu_core *cpu);
-void m68k_op_unpk_16_mm_ax7(m68ki_cpu_core *cpu);
-void m68k_op_unpk_16_mm_ay7(m68ki_cpu_core *cpu);
-void m68k_op_unpk_16_mm_axy7(m68ki_cpu_core *cpu);
-void m68k_op_unpk_16_mm(m68ki_cpu_core *cpu);
-/* Build the opcode handler table */
-void m68ki_build_opcode_table();
-
-extern void (*m68ki_instruction_jump_table[0x10000])(m68ki_cpu_core *cpu); /* opcode handler jump table */
-extern unsigned char m68ki_cycles[][0x10000];
-
-
-/* ======================================================================== */
-/* ============================== END OF FILE ============================= */
-/* ======================================================================== */
-
-#endif /* M68KOPS__HEADER */
-
-
diff --git a/plugins/ao/eng_ssf/scsp.c b/plugins/ao/eng_ssf/scsp.c
deleted file mode 100644
index 0afff77e..00000000
--- a/plugins/ao/eng_ssf/scsp.c
+++ /dev/null
@@ -1,1277 +0,0 @@
-/*
-    Sega/Yamaha YMF292-F (SCSP = Saturn Custom Sound Processor) emulation
-    By ElSemi
-    MAME/M1 conversion and cleanup by R. Belmont
-    Additional code and bugfixes by kingshriek
-
-    This chip has 32 voices.  Each voice can play a sample or be part of
-    an FM construct.  Unlike traditional Yamaha FM chips, the base waveform
-    for the FM still comes from the wavetable RAM.
-
-    ChangeLog:
-    * November 25, 2003 (ES) Fixed buggy timers and envelope overflows.
-                        (RB) Improved sample rates other than 44100, multiple
-                             chips now works properly.
-    * December 02, 2003 (ES) Added DISDL register support, improves mix.
-    * April 28, 2004    (ES) Corrected envelope rates, added key-rate scaling,
-                             added ringbuffer support.
-    * January 8, 2005   (RB) Added ability to specify region offset for RAM.
-    * January 26, 2007  (ES) Added on-board DSP capability
-    * December 16, 2007 (kingshriek) Many EG bug fixes, implemented effects mixer,
-                             implemented FM.
-*/
-
-#include <math.h>
-#include <string.h>
-#include "ao.h"
-#include "cpuintrf.h"
-#include "scsp.h"
-#include "scspdsp.h"
-#include "sat_hw.h"
-
-#define ICLIP16(x) (x<-32768)?-32768:((x>32767)?32767:x)
-
-#define SHIFT	12
-#define FIX(v)	((UINT32) ((float) (1<<SHIFT)*(v)))
-
-
-#define EG_SHIFT	16
-#define FM_DELAY    0   // delay in number of slots processed before samples are written to the FM ring buffer
-
-// include the LFO handling code
-#include "scsplfo.c"
-
-/*
-    SCSP features 32 programmable slots
-    that can generate FM and PCM (from ROM/RAM) sound
-*/
-
-//SLOT PARAMETERS
-#define KEYONEX(slot)		((slot->udata.data[0x0]>>0x0)&0x1000)
-#define KEYONB(slot)		((slot->udata.data[0x0]>>0x0)&0x0800)
-#define SBCTL(slot)		((slot->udata.data[0x0]>>0x9)&0x0003)
-#define SSCTL(slot)		((slot->udata.data[0x0]>>0x7)&0x0003)
-#define LPCTL(slot)		((slot->udata.data[0x0]>>0x5)&0x0003)
-#define PCM8B(slot)		((slot->udata.data[0x0]>>0x0)&0x0010)
-
-#define SA(slot)		(((slot->udata.data[0x0]&0xF)<<16)|(slot->udata.data[0x1]))
-
-#define LSA(slot)		(slot->udata.data[0x2])
-
-#define LEA(slot)		(slot->udata.data[0x3])
-
-#define D2R(slot)		((slot->udata.data[0x4]>>0xB)&0x001F)
-#define D1R(slot)		((slot->udata.data[0x4]>>0x6)&0x001F)
-#define EGHOLD(slot)		((slot->udata.data[0x4]>>0x0)&0x0020)
-#define AR(slot)		((slot->udata.data[0x4]>>0x0)&0x001F)
-
-#define LPSLNK(slot)		((slot->udata.data[0x5]>>0x0)&0x4000)
-#define KRS(slot)		((slot->udata.data[0x5]>>0xA)&0x000F)
-#define DL(slot)		((slot->udata.data[0x5]>>0x5)&0x001F)
-#define RR(slot)		((slot->udata.data[0x5]>>0x0)&0x001F)
-
-#define STWINH(slot)		((slot->udata.data[0x6]>>0x0)&0x0200)
-#define SDIR(slot)		((slot->udata.data[0x6]>>0x0)&0x0100)
-#define TL(slot)		((slot->udata.data[0x6]>>0x0)&0x00FF)
-
-#define MDL(slot)		((slot->udata.data[0x7]>>0xC)&0x000F)
-#define MDXSL(slot)		((slot->udata.data[0x7]>>0x6)&0x003F)
-#define MDYSL(slot)		((slot->udata.data[0x7]>>0x0)&0x003F)
-
-#define OCT(slot)		((slot->udata.data[0x8]>>0xB)&0x000F)
-#define FNS(slot)		((slot->udata.data[0x8]>>0x0)&0x03FF)
-
-#define LFORE(slot)		((slot->udata.data[0x9]>>0x0)&0x8000)
-#define LFOF(slot)		((slot->udata.data[0x9]>>0xA)&0x001F)
-#define PLFOWS(slot)		((slot->udata.data[0x9]>>0x8)&0x0003)
-#define PLFOS(slot)		((slot->udata.data[0x9]>>0x5)&0x0007)
-#define ALFOWS(slot)		((slot->udata.data[0x9]>>0x3)&0x0003)
-#define ALFOS(slot)		((slot->udata.data[0x9]>>0x0)&0x0007)
-
-#define ISEL(slot)		((slot->udata.data[0xA]>>0x3)&0x000F)
-#define IMXL(slot)		((slot->udata.data[0xA]>>0x0)&0x0007)
-
-#define DISDL(slot)		((slot->udata.data[0xB]>>0xD)&0x0007)
-#define DIPAN(slot)		((slot->udata.data[0xB]>>0x8)&0x001F)
-#define EFSDL(slot)		((slot->udata.data[0xB]>>0x5)&0x0007)
-#define EFPAN(slot)		((slot->udata.data[0xB]>>0x0)&0x001F)
-
-//Envelope times in ms
-static const double ARTimes[64]={100000/*infinity*/,100000/*infinity*/,8100.0,6900.0,6000.0,4800.0,4000.0,3400.0,3000.0,2400.0,2000.0,1700.0,1500.0,
-					1200.0,1000.0,860.0,760.0,600.0,500.0,430.0,380.0,300.0,250.0,220.0,190.0,150.0,130.0,110.0,95.0,
-					76.0,63.0,55.0,47.0,38.0,31.0,27.0,24.0,19.0,15.0,13.0,12.0,9.4,7.9,6.8,6.0,4.7,3.8,3.4,3.0,2.4,
-					2.0,1.8,1.6,1.3,1.1,0.93,0.85,0.65,0.53,0.44,0.40,0.35,0.0,0.0};
-static const double DRTimes[64]={100000/*infinity*/,100000/*infinity*/,118200.0,101300.0,88600.0,70900.0,59100.0,50700.0,44300.0,35500.0,29600.0,25300.0,22200.0,17700.0,
-					14800.0,12700.0,11100.0,8900.0,7400.0,6300.0,5500.0,4400.0,3700.0,3200.0,2800.0,2200.0,1800.0,1600.0,1400.0,1100.0,
-					920.0,790.0,690.0,550.0,460.0,390.0,340.0,270.0,230.0,200.0,170.0,140.0,110.0,98.0,85.0,68.0,57.0,49.0,43.0,34.0,
-					28.0,25.0,22.0,18.0,14.0,12.0,11.0,8.5,7.1,6.1,5.4,4.3,3.6,3.1};
-static UINT32 FNS_Table[0x400];
-static INT32 EG_TABLE[0x400];
-
-typedef enum {ATTACK,DECAY1,DECAY2,RELEASE} _STATE;
-struct _EG
-{
-	int volume;	//
-	_STATE state;
-	int step;
-	//step vals
-	int AR;		//Attack
-	int D1R;	//Decay1
-	int D2R;	//Decay2
-	int RR;		//Release
-
-	int DL;		//Decay level
-	UINT8 EGHOLD;
-	UINT8 LPLINK;
-};
-
-struct _SLOT
-{
-	union
-	{
-		UINT16 data[0x10];	//only 0x1a bytes used
-		UINT8 datab[0x20];
-	} udata;
-	UINT8 active;	//this slot is currently playing
-	UINT8 *base;		//samples base address
-	UINT32 cur_addr;	//current play address (24.8)
-	UINT32 nxt_addr;	//next play address
-	UINT32 step;		//pitch step (24.8)
-	UINT8 Backwards;	//the wave is playing backwards
-	struct _EG EG;			//Envelope
-	struct _LFO PLFO;		//Phase LFO
-	struct _LFO ALFO;		//Amplitude LFO
-	int slot;
-	signed short Prev;	//Previous sample (for interpolation)
-};
-
-#define MEM4B(scsp)		((scsp->udata.data[0]>>0x0)&0x0200)
-#define DAC18B(scsp)		((scsp->udata.data[0]>>0x0)&0x0100)
-#define MVOL(scsp)		((scsp->udata.data[0]>>0x0)&0x000F)
-#define RBL(scsp)		((scsp->udata.data[1]>>0x7)&0x0003)
-#define RBP(scsp)		((scsp->udata.data[1]>>0x0)&0x003F)
-#define MOFULL(scsp)   		((scsp->udata.data[2]>>0x0)&0x1000)
-#define MOEMPTY(scsp)		((scsp->udata.data[2]>>0x0)&0x0800)
-#define MIOVF(scsp)		((scsp->udata.data[2]>>0x0)&0x0400)
-#define MIFULL(scsp)		((scsp->udata.data[2]>>0x0)&0x0200)
-#define MIEMPTY(scsp)		((scsp->udata.data[2]>>0x0)&0x0100)
-
-#define SCILV0(scsp)    	((scsp->udata.data[0x24/2]>>0x0)&0xff)
-#define SCILV1(scsp)    	((scsp->udata.data[0x26/2]>>0x0)&0xff)
-#define SCILV2(scsp)    	((scsp->udata.data[0x28/2]>>0x0)&0xff)
-
-#define SCIEX0	0
-#define SCIEX1	1
-#define SCIEX2	2
-#define SCIMID	3
-#define SCIDMA	4
-#define SCIIRQ	5
-#define SCITMA	6
-#define SCITMB	7
-
-#define USEDSP
-
-struct m68ki_cpu_core_s;
-
-struct _SCSP
-{
-	union
-	{
-		UINT16 data[0x30/2];
-		UINT8 datab[0x30];
-	} udata;
-	struct _SLOT Slots[32];
-	signed short RINGBUF[64];
-	unsigned char BUFPTR;
-#if FM_DELAY
-	signed short DELAYBUF[FM_DELAY];
-	unsigned char DELAYPTR;
-#endif
-	unsigned char *SCSPRAM;
-	UINT32 SCSPRAM_LENGTH;
-	char Master;
-	void (*Int68kCB)(struct m68ki_cpu_core_s *cpu, int irq);
-
-	INT32 *buffertmpl, *buffertmpr;
-
-	UINT32 IrqTimA;
-	UINT32 IrqTimBC;
-	UINT32 IrqMidi;
-
-	UINT8 MidiOutW,MidiOutR;
-	UINT8 MidiStack[16];
-	UINT8 MidiW,MidiR;
-
-	int LPANTABLE[0x10000];
-	int RPANTABLE[0x10000];
-
-	int TimPris[3];
-	int TimCnt[3];
-
-	// DMA stuff
-	UINT32 scsp_dmea;
-	UINT16 scsp_drga;
-	UINT16 scsp_dtlg;
-
-	int ARTABLE[64], DRTABLE[64];
-
-    struct m68ki_cpu_core_s *cpu;
-	struct _SCSPDSP DSP;
-
-    INT16 *bufferl;
-    INT16 *bufferr;
-
-    int length;
-
-    signed short *RBUFDST;	//this points to where the sample will be stored in the RingBuf
-};
-
-static void dma_scsp(struct _SCSP *SCSP); 		/*SCSP DMA transfer function*/
-#define	scsp_dgate		scsp_regs[0x16/2] & 0x4000
-#define	scsp_ddir		scsp_regs[0x16/2] & 0x2000
-#define scsp_dexe 		scsp_regs[0x16/2] & 0x1000
-#define dma_transfer_end	((scsp_regs[0x24/2] & 0x10)>>4)|(((scsp_regs[0x26/2] & 0x10)>>4)<<1)|(((scsp_regs[0x28/2] & 0x10)>>4)<<2)
-
-static const float SDLT[8]={-1000000.0,-36.0,-30.0,-24.0,-18.0,-12.0,-6.0,0.0};
-
-static unsigned char DecodeSCI(struct _SCSP *SCSP,unsigned char irq)
-{
-	unsigned char SCI=0;
-	unsigned char v;
-	v=(SCILV0((SCSP))&(1<<irq))?1:0;
-	SCI|=v;
-	v=(SCILV1((SCSP))&(1<<irq))?1:0;
-	SCI|=v<<1;
-	v=(SCILV2((SCSP))&(1<<irq))?1:0;
-	SCI|=v<<2;
-	return SCI;
-}
-
-static void ResetInterrupts(struct _SCSP *SCSP)
-{
-	UINT32 reset = SCSP->udata.data[0x22/2];
-	if (reset & 0x40)
-		SCSP->Int68kCB(SCSP->cpu, -SCSP->IrqTimA);
-	if (reset & 0x180)
-		SCSP->Int68kCB(SCSP->cpu, -SCSP->IrqTimBC);
-}
-
-static void CheckPendingIRQ(struct _SCSP *SCSP)
-{
-	UINT32 pend=SCSP->udata.data[0x20/2];
-	UINT32 en=SCSP->udata.data[0x1e/2];
-	if(SCSP->MidiW!=SCSP->MidiR)
-	{
-		SCSP->Int68kCB(SCSP->cpu, SCSP->IrqMidi);
-		return;
-	}
-	if(!pend)
-		return;
-	if(pend&0x40)
-		if(en&0x40)
-		{
-			SCSP->Int68kCB(SCSP->cpu, SCSP->IrqTimA);
-			return;
-		}
-	if(pend&0x80)
-		if(en&0x80)
-		{
-			SCSP->Int68kCB(SCSP->cpu, SCSP->IrqTimBC);
-			return;
-		}
-	if(pend&0x100)
-		if(en&0x100)
-		{
-			SCSP->Int68kCB(SCSP->cpu, SCSP->IrqTimBC);
-			return;
-		}
-
-	SCSP->Int68kCB(SCSP->cpu, 0);
-}
-
-static int Get_AR(struct _SCSP *SCSP,int base,int R)
-{
-	int Rate=base+(R<<1);
-	if(Rate>63)	Rate=63;
-	if(Rate<0) Rate=0;
-	return SCSP->ARTABLE[Rate];
-}
-
-static int Get_DR(struct _SCSP *SCSP,int base,int R)
-{
-	int Rate=base+(R<<1);
-	if(Rate>63)	Rate=63;
-	if(Rate<0) Rate=0;
-	return SCSP->DRTABLE[Rate];
-}
-
-static int Get_RR(struct _SCSP *SCSP,int base,int R)
-{
-	int Rate=base+(R<<1);
-	if(Rate>63)	Rate=63;
-	if(Rate<0) Rate=0;
-	return SCSP->DRTABLE[Rate];
-}
-
-static void Compute_EG(struct _SCSP *SCSP,struct _SLOT *slot)
-{
-	int octave=OCT(slot);
-	int rate;
-	if(octave&8) octave=octave-16;
-	if(KRS(slot)!=0xf)
-		rate=octave+2*KRS(slot)+((FNS(slot)>>9)&1);
-	else
-		rate=0; //rate=((FNS(slot)>>9)&1);
-
-	slot->EG.volume=0x17F<<EG_SHIFT;
-	slot->EG.AR=Get_AR(SCSP,rate,AR(slot));
-	slot->EG.D1R=Get_DR(SCSP,rate,D1R(slot));
-	slot->EG.D2R=Get_DR(SCSP,rate,D2R(slot));
-	slot->EG.RR=Get_RR(SCSP,rate,RR(slot));
-	slot->EG.DL=0x1f-DL(slot);
-	slot->EG.EGHOLD=EGHOLD(slot);
-}
-
-static void SCSP_StopSlot(struct _SLOT *slot,int keyoff);
-
-static int EG_Update(struct _SLOT *slot)
-{
-	switch(slot->EG.state)
-	{
-		case ATTACK:
-			slot->EG.volume+=slot->EG.AR;
-			if(slot->EG.volume>=(0x3ff<<EG_SHIFT))
-			{
-				if (!LPSLNK(slot)) 
-				{
-					slot->EG.state=DECAY1;
-					if(slot->EG.D1R>=(1024<<EG_SHIFT)) //Skip DECAY1, go directly to DECAY2
-						slot->EG.state=DECAY2;
-				}
-				slot->EG.volume=0x3ff<<EG_SHIFT;
-			}
-			if(slot->EG.EGHOLD)
-				return 0x3ff<<(SHIFT-10);
-			break;
-		case DECAY1:
-			slot->EG.volume-=slot->EG.D1R;
-			if(slot->EG.volume<=0)
-				slot->EG.volume=0;
-			if(slot->EG.volume>>(EG_SHIFT+5)<=slot->EG.DL)
-				slot->EG.state=DECAY2;
-			break;
-		case DECAY2:
-			if(D2R(slot)==0)
-				return (slot->EG.volume>>EG_SHIFT)<<(SHIFT-10);
-			slot->EG.volume-=slot->EG.D2R;
-			if(slot->EG.volume<=0)
-				slot->EG.volume=0;
-
-			break;
-		case RELEASE:
-			slot->EG.volume-=slot->EG.RR;
-			if(slot->EG.volume<=0)
-			{
-				slot->EG.volume=0;
-				SCSP_StopSlot(slot,0);
-				//slot->EG.volume=0x17F<<EG_SHIFT;
-				//slot->EG.state=ATTACK;
-			}
-			break;
-		default:
-			return 1<<SHIFT;
-	}
-	return (slot->EG.volume>>EG_SHIFT)<<(SHIFT-10);
-}
-
-static UINT32 SCSP_Step(struct _SLOT *slot)
-{
-	int octave=OCT(slot);
-	UINT64 Fn;
-
-	Fn=(FNS_Table[FNS(slot)]);	//24.8
-	if(octave&8)
-		Fn>>=(16-octave);
-	else
-		Fn<<=octave;
-
-	return Fn/(44100);
-}
-
-
-static void Compute_LFO(struct _SLOT *slot)
-{
-	if(PLFOS(slot)!=0)
-		LFO_ComputeStep(&(slot->PLFO),LFOF(slot),PLFOWS(slot),PLFOS(slot),0);
-	if(ALFOS(slot)!=0)
-		LFO_ComputeStep(&(slot->ALFO),LFOF(slot),ALFOWS(slot),ALFOS(slot),1);
-}
-
-static void SCSP_StartSlot(struct _SCSP *SCSP, struct _SLOT *slot)
-{
-	UINT32 start_offset;
-	slot->active=1;
-	slot->Backwards=0;
-	slot->cur_addr=0; slot->nxt_addr=1<<SHIFT;
-	start_offset = PCM8B(slot) ? SA(slot) : SA(slot) & 0x7FFFE;
-	slot->base=SCSP->SCSPRAM + start_offset;
-	slot->step=SCSP_Step(slot);
-	Compute_EG(SCSP,slot);
-	slot->EG.state=ATTACK;
-	slot->EG.volume=0x17F<<EG_SHIFT;
-	slot->Prev=0;
-	Compute_LFO(slot);
-
-//	printf("StartSlot: SA %x PCM8B %x LPCTL %x ALFOS %x STWINH %x TL %x EFSDL %x\n", SA(slot), PCM8B(slot), LPCTL(slot), ALFOS(slot), STWINH(slot), TL(slot), EFSDL(slot));
-//	printf("           AR %x D1R %x D2R %x RR %x DL %x KRS %x EGHOLD %x LPSLNK %x\n", AR(slot), D1R(slot), D2R(slot), RR(slot), DL(slot), KRS(slot), EGHOLD(slot), LPSLNK(slot));
-}
-
-static void SCSP_StopSlot(struct _SLOT *slot,int keyoff)
-{
-	if(keyoff /*&& slot->EG.state!=RELEASE*/)
-	{
-		slot->EG.state=RELEASE;
-	}
-	else
-	{
-		slot->active=0;
-	}
-	slot->udata.data[0]&=~0x800;
-}
-
-#define log_base_2(n) (log((float) n)/log((float) 2))
-
-static void SCSP_Init(struct _SCSP *SCSP, const struct SCSPinterface *intf)
-{
-	int i=0;
-
-	SCSP->IrqTimA = SCSP->IrqTimBC = SCSP->IrqMidi = 0;
-	SCSP->MidiR=SCSP->MidiW=0;
-	SCSP->MidiOutR=SCSP->MidiOutW=0;
-
-	// get SCSP RAM
-	{
-		memset(SCSP,0,sizeof(*SCSP));
-        SCSP->cpu = intf->cpu;
-
-		if (!i)
-		{
-			SCSP->Master=1;
-		}
-		else
-		{
-			SCSP->Master=0;
-		}
-
-		if (intf->region)
-		{
-			SCSP->SCSPRAM = (unsigned char *)intf->region[0];
-			SCSP->SCSPRAM_LENGTH = 512*1024;
-			SCSP->DSP.SCSPRAM = (UINT16 *)SCSP->SCSPRAM;
-			SCSP->DSP.SCSPRAM_LENGTH =  (512*1024)/2;
-//			SCSP->SCSPRAM += intf->roffset;
-		}
-	}
-
-	for(i=0;i<0x400;++i)
-	{
-		float fcent=(double) 1200.0*log_base_2((double)(((double) 1024.0+(double)i)/(double)1024.0));
-		fcent=(double) 44100.0*pow(2.0,fcent/1200.0);
-		FNS_Table[i]=(float) (1<<SHIFT) *fcent;
-	}
-	
-	for(i=0;i<0x400;++i)
-	{
-		float envDB=((float)(3*(i-0x3ff)))/32.0;
-		float scale=(float)(1<<SHIFT);
-		EG_TABLE[i]=(INT32)(pow(10.0,envDB/20.0)*scale);
-	}
-
-	for(i=0;i<0x10000;++i)
-	{
-		int iTL =(i>>0x0)&0xff;
-		int iPAN=(i>>0x8)&0x1f;
-		int iSDL=(i>>0xD)&0x07;
-		float TL=1.0;
-		float SegaDB=0;
-		float fSDL=1.0;
-		float PAN=1.0;
-		float LPAN,RPAN;
-
-		if(iTL&0x01) SegaDB-=0.4;
-		if(iTL&0x02) SegaDB-=0.8;
-		if(iTL&0x04) SegaDB-=1.5;
-		if(iTL&0x08) SegaDB-=3;
-		if(iTL&0x10) SegaDB-=6;
-		if(iTL&0x20) SegaDB-=12;
-		if(iTL&0x40) SegaDB-=24;
-		if(iTL&0x80) SegaDB-=48;
-
-		TL=pow(10.0,SegaDB/20.0);
-
-		SegaDB=0;
-		if(iPAN&0x1) SegaDB-=3;
-		if(iPAN&0x2) SegaDB-=6;
-		if(iPAN&0x4) SegaDB-=12;
-		if(iPAN&0x8) SegaDB-=24;
-
-		if((iPAN&0xf)==0xf) PAN=0.0;
-		else PAN=pow(10.0,SegaDB/20.0);
-
-		if(iPAN<0x10)
-		{
-			LPAN=PAN;
-			RPAN=1.0;
-		}
-		else
-		{
-			RPAN=PAN;
-			LPAN=1.0;
-		}
-
-		if(iSDL)
-			fSDL=pow(10.0,(SDLT[iSDL])/20.0);
-		else
-			fSDL=0.0;
-
-		SCSP->LPANTABLE[i]=FIX((4.0*LPAN*TL*fSDL));
-		SCSP->RPANTABLE[i]=FIX((4.0*RPAN*TL*fSDL));
-	}
-
-	SCSP->ARTABLE[0]=SCSP->DRTABLE[0]=0;	//Infinite time
-	SCSP->ARTABLE[1]=SCSP->DRTABLE[1]=0;	//Infinite time
-	for(i=2;i<64;++i)
-	{
-		double t,step,scale;
-		t=ARTimes[i];	//In ms
-		if(t!=0.0)
-		{
-			step=(1023*1000.0)/((float) 44100.0f*t);
-			scale=(double) (1<<EG_SHIFT);
-			SCSP->ARTABLE[i]=(int) (step*scale);
-		}
-		else
-			SCSP->ARTABLE[i]=1024<<EG_SHIFT;
-
-		t=DRTimes[i];	//In ms
-		step=(1023*1000.0)/((float) 44100.0f*t);
-		scale=(double) (1<<EG_SHIFT);
-		SCSP->DRTABLE[i]=(int) (step*scale);
-	}
-
-	// make sure all the slots are off
-	for(i=0;i<32;++i)
-	{
-		SCSP->Slots[i].slot=i;
-		SCSP->Slots[i].active=0;
-		SCSP->Slots[i].base=NULL;
-	}
-
-	LFO_Init();
-	SCSP->buffertmpl=(signed int*) malloc(44100*sizeof(signed int));
-	SCSP->buffertmpr=(signed int*) malloc(44100*sizeof(signed int));
-	memset(SCSP->buffertmpl,0,44100*sizeof(signed int));
-	memset(SCSP->buffertmpr,0,44100*sizeof(signed int));
-
-	// no "pend"
-	SCSP[0].udata.data[0x20/2] = 0;
-	//SCSP[1].udata.data[0x20/2] = 0;
-	SCSP->TimCnt[0] = 0xffff;
-	SCSP->TimCnt[1] = 0xffff;
-	SCSP->TimCnt[2] = 0xffff;
-}
-
-static void SCSP_UpdateSlotReg(struct _SCSP *SCSP,int s,int r)
-{
-	struct _SLOT *slot=SCSP->Slots+s;
-	int sl;
-	switch(r&0x3f)
-	{
-		case 0:
-		case 1:
-			if(KEYONEX(slot))
-			{
-				for(sl=0;sl<32;++sl)
-				{
-					struct _SLOT *s2=SCSP->Slots+sl;
-					{
-						if(KEYONB(s2) && s2->EG.state==RELEASE/*&& !s2->active*/)
-						{
-							SCSP_StartSlot(SCSP, s2);
-						}
-						if(!KEYONB(s2) /*&& s2->active*/)
-						{
-							SCSP_StopSlot(s2,1);
-						}
-					}
-				}
-				slot->udata.data[0]&=~0x1000;
-			}
-			break;
-		case 0x10:
-		case 0x11:
-			slot->step=SCSP_Step(slot);
-			break;
-		case 0xA:
-		case 0xB:
-			slot->EG.RR=Get_RR(SCSP,0,RR(slot));
-			slot->EG.DL=0x1f-DL(slot);
-			break;
-		case 0x12:
-		case 0x13:
-			Compute_LFO(slot);
-			break;
-	}
-}
-
-static void SCSP_UpdateReg(struct _SCSP *SCSP, int reg)
-{
-	switch(reg&0x3f)
-	{
-		case 0x2:
-		case 0x3:
-			{
-				unsigned int v=RBL(SCSP);
-				SCSP->DSP.RBP=RBP(SCSP);
-				if(v==0)
-					SCSP->DSP.RBL=8*1024;
-				else if(v==1)
-					SCSP->DSP.RBL=16*1024;
-				if(v==2)
-					SCSP->DSP.RBL=32*1024;
-				if(v==3)
-					SCSP->DSP.RBL=64*1024;
-			}
-			break;
-		case 0x6:
-		case 0x7:
-			SCSP_MidiIn(SCSP, 0, SCSP->udata.data[0x6/2]&0xff, 0);
-			break;
-		case 0x12:
-		case 0x13:
-		case 0x14:
-		case 0x15:
-		case 0x16:
-		case 0x17:
-			break;
-		case 0x18:
-		case 0x19:
-			if(SCSP->Master)
-			{
-				SCSP->TimPris[0]=1<<((SCSP->udata.data[0x18/2]>>8)&0x7);
-				SCSP->TimCnt[0]=(SCSP->udata.data[0x18/2]&0xff)<<8;
-			}
-			break;
-		case 0x1a:
-		case 0x1b:
-			if(SCSP->Master)
-			{
-				SCSP->TimPris[1]=1<<((SCSP->udata.data[0x1A/2]>>8)&0x7);
-				SCSP->TimCnt[1]=(SCSP->udata.data[0x1A/2]&0xff)<<8;
-			}
-			break;
-		case 0x1C:
-		case 0x1D:
-			if(SCSP->Master)
-			{
-				SCSP->TimPris[2]=1<<((SCSP->udata.data[0x1C/2]>>8)&0x7);
-				SCSP->TimCnt[2]=(SCSP->udata.data[0x1C/2]&0xff)<<8;
-			}
-			break;
-		case 0x22:	//SCIRE
-		case 0x23:
-
-			if(SCSP->Master)		   
-			{
-				SCSP->udata.data[0x20/2]&=~SCSP->udata.data[0x22/2];
-				ResetInterrupts(SCSP);
-
-				// behavior from real hardware: if you SCIRE a timer that's expired,
-				// it'll immediately pop up again.  ask Sakura Taisen on the Saturn...
-				if (SCSP->TimCnt[0] >= 0xff00)
-				{
-					SCSP->udata.data[0x20/2] |= 0x40;
-				}
-				if (SCSP->TimCnt[1] >= 0xff00)
-				{
-					SCSP->udata.data[0x20/2] |= 0x80;
-				}
-				if (SCSP->TimCnt[2] >= 0xff00)
-				{
-					SCSP->udata.data[0x20/2] |= 0x100;
-				}
-			}
-			break;
-		case 0x24:
-		case 0x25:
-		case 0x26:
-		case 0x27:
-		case 0x28:
-		case 0x29:
-			if(SCSP->Master)
-			{
-				SCSP->IrqTimA=DecodeSCI(SCSP,SCITMA);
-				SCSP->IrqTimBC=DecodeSCI(SCSP,SCITMB);
-				SCSP->IrqMidi=DecodeSCI(SCSP,SCIMID);
-			}
-			break;
-	}
-}
-
-static void SCSP_UpdateSlotRegR(struct _SCSP *SCSP, int slot,int reg)
-{
-
-}
-
-static void SCSP_UpdateRegR(struct _SCSP *SCSP, int reg)
-{
-	switch(reg&0x3f)
-	{
-		case 4:
-		case 5:
-			{
-				unsigned short v=SCSP->udata.data[0x5/2];
-				v&=0xff00;
-				v|=SCSP->MidiStack[SCSP->MidiR];
-				SCSP->Int68kCB(SCSP->cpu, 0);	// cancel the IRQ
-				if(SCSP->MidiR!=SCSP->MidiW)
-				{
-					++SCSP->MidiR;
-					SCSP->MidiR&=15;
-				}
-				SCSP->udata.data[0x5/2]=v;
-			}
-			break;
-		case 8:
-		case 9:
-			{
-				unsigned char slot=SCSP->udata.data[0x8/2]>>11;
-				unsigned int CA=SCSP->Slots[slot&0x1f].cur_addr>>(SHIFT+12);
-				SCSP->udata.data[0x8/2]&=~(0x780);
-				SCSP->udata.data[0x8/2]|=CA<<7;
-			}
-			break;
-	}
-}
-
-static void SCSP_w16(struct _SCSP *SCSP,unsigned int addr,unsigned short val)
-{
-	addr&=0xffff;
-	if(addr<0x400)
-	{
-		int slot=addr/0x20;
-		addr&=0x1f;
-		*((unsigned short *) (SCSP->Slots[slot].udata.datab+(addr))) = val;
-		SCSP_UpdateSlotReg(SCSP,slot,addr&0x1f);
-	}
-	else if(addr<0x600)
-	{
-		if (addr < 0x430)
-		{
-			*((unsigned short *) (SCSP->udata.datab+((addr&0x3f)))) = val;
-			SCSP_UpdateReg(SCSP, addr&0x3f);
-		}
-	}
-	else if(addr<0x700)
-		SCSP->RINGBUF[(addr-0x600)/2]=val;
-	else
-	{
-		//DSP
-		if(addr<0x780)	//COEF
-			*((unsigned short *) (SCSP->DSP.COEF+(addr-0x700)/2))=val;
-		else if(addr<0x800)
-			*((unsigned short *) (SCSP->DSP.MADRS+(addr-0x780)/2))=val;
-		else if(addr<0xC00)
-			*((unsigned short *) (SCSP->DSP.MPRO+(addr-0x800)/2))=val;
-
-		if(addr==0xBF0)
-		{
-//			printf("DSP start\n");
-			SCSPDSP_Start(&SCSP->DSP);
-		}
-	}
-}
-
-static unsigned short SCSP_r16(struct _SCSP *SCSP, unsigned int addr)
-{
-	unsigned short v=0;
-	addr&=0xffff;
-	if(addr<0x400)
-	{
-		int slot=addr/0x20;
-		addr&=0x1f;
-		SCSP_UpdateSlotRegR(SCSP, slot,addr&0x1f);
-		v=*((unsigned short *) (SCSP->Slots[slot].udata.datab+(addr)));
-	}
-	else if(addr<0x600)
-	{
-		if (addr < 0x430)
-		{
-			SCSP_UpdateRegR(SCSP, addr&0x3f);
-			v= *((unsigned short *) (SCSP->udata.datab+((addr&0x3f))));
-		}
-	}
-	else if(addr<0x700)
-		v=SCSP->RINGBUF[(addr-0x600)/2];
-	return v;
-}
-
-
-#define REVSIGN(v) ((~v)+1)
-
-void SCSP_TimersAddTicks(struct _SCSP *SCSP, int ticks)
-{
-	if(SCSP->TimCnt[0]<=0xff00)
-	{
- 		SCSP->TimCnt[0] += ticks << (8-((SCSP->udata.data[0x18/2]>>8)&0x7));
-		if (SCSP->TimCnt[0] > 0xFF00)
-		{
-			SCSP->TimCnt[0] = 0xFFFF;
-			SCSP->udata.data[0x20/2]|=0x40;
-		}
-		SCSP->udata.data[0x18/2]&=0xff00;
-		SCSP->udata.data[0x18/2]|=SCSP->TimCnt[0]>>8;
-	}
-
-	if(SCSP->TimCnt[1]<=0xff00)
-	{
-		SCSP->TimCnt[1] += ticks << (8-((SCSP->udata.data[0x1a/2]>>8)&0x7));
-		if (SCSP->TimCnt[1] > 0xFF00)
-		{
-			SCSP->TimCnt[1] = 0xFFFF;
-			SCSP->udata.data[0x20/2]|=0x80;
-		}
-		SCSP->udata.data[0x1a/2]&=0xff00;
-		SCSP->udata.data[0x1a/2]|=SCSP->TimCnt[1]>>8;
-	}
-
-	if(SCSP->TimCnt[2]<=0xff00)
-	{
-		SCSP->TimCnt[2] += ticks << (8-((SCSP->udata.data[0x1c/2]>>8)&0x7));
-		if (SCSP->TimCnt[2] > 0xFF00)
-		{
-			SCSP->TimCnt[2] = 0xFFFF;
-			SCSP->udata.data[0x20/2]|=0x100;
-		}
-		SCSP->udata.data[0x1c/2]&=0xff00;
-		SCSP->udata.data[0x1c/2]|=SCSP->TimCnt[2]>>8;
-	}
-}
-
-static INLINE INT32 SCSP_UpdateSlot(struct _SCSP *SCSP, struct _SLOT *slot)
-{
-	INT32 sample;
-	int step=slot->step;
-	UINT32 addr1,addr2,addr_select;                                   // current and next sample addresses
-	UINT32 *addr[2]      = {&addr1, &addr2};                          // used for linear interpolation
-	UINT32 *slot_addr[2] = {&(slot->cur_addr), &(slot->nxt_addr)};    //
-
-	if(SSCTL(slot)!=0)	//no FM or noise yet
-		return 0;
-
-	if(PLFOS(slot)!=0)
-	{
-		step=step*PLFO_Step(&(slot->PLFO));
-		step>>=SHIFT;
-	}
-
-	if(PCM8B(slot))
-	{
-		addr1=slot->cur_addr>>SHIFT;
-		addr2=slot->nxt_addr>>SHIFT;
-	}
-	else
-	{
-		addr1=(slot->cur_addr>>(SHIFT-1))&0x7fffe;
-		addr2=(slot->nxt_addr>>(SHIFT-1))&0x7fffe;
-	}
-
-	if(MDL(slot)!=0 || MDXSL(slot)!=0 || MDYSL(slot)!=0)
-	{
-		INT32 smp=(SCSP->RINGBUF[(SCSP->BUFPTR+MDXSL(slot))&63]+SCSP->RINGBUF[(SCSP->BUFPTR+MDYSL(slot))&63])/2;
-
-		smp<<=0xA; // associate cycle with 1024
-		smp>>=0x1A-MDL(slot); // ex. for MDL=0xF, sample range corresponds to +/- 64 pi (32=2^5 cycles) so shift by 11 (16-5 == 0x1A-0xF)
-		if(!PCM8B(slot)) smp<<=1;
-		
-		addr1+=smp; addr2+=smp;
-	}
-
-	if(PCM8B(slot))	//8 bit signed
-	{
-		INT8 *p1=(signed char *) (SCSP->SCSPRAM+(((SA(slot)+addr1)^1)&0x7FFFF));
-		INT8 *p2=(signed char *) (SCSP->SCSPRAM+(((SA(slot)+addr2)^1)&0x7FFFF));
-		//sample=(p[0])<<8;
-		INT32 s;
-		INT32 fpart=slot->cur_addr&((1<<SHIFT)-1);
-		s=(int) (p1[0]<<8)*((1<<SHIFT)-fpart)+(int) (p2[0]<<8)*fpart;
-		sample=(s>>SHIFT);
-	}
-	else	//16 bit signed (endianness?)
-	{
-		INT16 *p1=(signed short *) (SCSP->SCSPRAM+((SA(slot)+addr1)&0x7FFFE));
-		INT16 *p2=(signed short *) (SCSP->SCSPRAM+((SA(slot)+addr2)&0x7FFFE));
-		//sample=LE16(p[0]);
-		INT32 s;
-		INT32 fpart=slot->cur_addr&((1<<SHIFT)-1);
-		s=(int) LE16(p1[0])*((1<<SHIFT)-fpart)+(int) LE16(p2[0])*fpart;
-		sample=(s>>SHIFT);
-	}
-
-	if(SBCTL(slot)&0x1)
-		sample ^= 0x7FFF;
-	if(SBCTL(slot)&0x2)
-		sample = (INT16)(sample^0x8000);
-
-	if(slot->Backwards)
-		slot->cur_addr-=step;
-	else
-		slot->cur_addr+=step;
-	slot->nxt_addr=slot->cur_addr+(1<<SHIFT);
-	
-	addr1=slot->cur_addr>>SHIFT;
-	addr2=slot->nxt_addr>>SHIFT;
-	
-	if(addr1>=LSA(slot) && !(slot->Backwards))
-	{
-		if(LPSLNK(slot) && slot->EG.state==ATTACK)
-			slot->EG.state = DECAY1;
-	}
-	
-	for (addr_select=0;addr_select<2;addr_select++)
-	{
-		INT32 rem_addr;
-		switch(LPCTL(slot))
-		{
-		case 0:	//no loop
-			if(*addr[addr_select]>=LSA(slot) && *addr[addr_select]>=LEA(slot))
-			{
-			//slot->active=0;
-			SCSP_StopSlot(slot,0);
-			}
-			break;
-		case 1: //normal loop
-			if(*addr[addr_select]>=LEA(slot))
-			{
-				rem_addr = *slot_addr[addr_select] - (LEA(slot)<<SHIFT);
-				*slot_addr[addr_select]=(LSA(slot)<<SHIFT) + rem_addr;
-			}
-			break;
-		case 2:	//reverse loop
-			if((*addr[addr_select]>=LSA(slot)) && !(slot->Backwards))
-			{
-				rem_addr = *slot_addr[addr_select] - (LSA(slot)<<SHIFT);
-				*slot_addr[addr_select]=(LEA(slot)<<SHIFT) - rem_addr;
-				slot->Backwards=1;
-			}
-			else if((*addr[addr_select]<LSA(slot) || (*slot_addr[addr_select]&0x80000000)) && slot->Backwards)
-			{
-				rem_addr = (LSA(slot)<<SHIFT) - *slot_addr[addr_select];
-				*slot_addr[addr_select]=(LEA(slot)<<SHIFT) - rem_addr;
-			}
-			break;
-		case 3: //ping-pong
-			if(*addr[addr_select]>=LEA(slot)) //reached end, reverse till start
-			{
-				rem_addr = *slot_addr[addr_select] - (LEA(slot)<<SHIFT); 
-				*slot_addr[addr_select]=(LEA(slot)<<SHIFT) - rem_addr;
-				slot->Backwards=1;
-			}
-			else if((*addr[addr_select]<LSA(slot) || (*slot_addr[addr_select]&0x80000000)) && slot->Backwards)//reached start or negative
-			{
-				rem_addr = (LSA(slot)<<SHIFT) - *slot_addr[addr_select];
-				*slot_addr[addr_select]=(LSA(slot)<<SHIFT) + rem_addr;
-				slot->Backwards=0;
-			}
-			break;
-		}
-	}
-
-	if(ALFOS(slot)!=0)
-	{
-		sample=sample*ALFO_Step(&(slot->ALFO));
-		sample>>=SHIFT;
-	}
-
-	if(slot->EG.state==ATTACK)
-		sample=(sample*EG_Update(slot))>>SHIFT;
-	else
-		sample=(sample*EG_TABLE[EG_Update(slot)>>(SHIFT-10)])>>SHIFT;
-
-	if(!STWINH(slot))
-	{
-		unsigned short Enc=((TL(slot))<<0x0)|(0x7<<0xd);
-		*SCSP->RBUFDST=(sample*SCSP->LPANTABLE[Enc])>>(SHIFT+1);
-	}
-		
-	return sample;
-}
-
-static void SCSP_DoMasterSamples(struct _SCSP *SCSP, int nsamples)
-{
-	INT16 *bufr,*bufl;
-	int sl, s, i;
-
-	bufr=SCSP->bufferr;
-	bufl=SCSP->bufferl;
-
-	for(s=0;s<nsamples;++s)
-	{
-		INT32 smpl, smpr;
-
-		smpl = smpr = 0;
-
-		for(sl=0;sl<32;++sl)
-		{
-#if FM_DELAY
-			SCSP->RBUFDST=SCSP->DELAYBUF+SCSP->DELAYPTR;
-#else
-			SCSP->RBUFDST=SCSP->RINGBUF+SCSP->BUFPTR;
-#endif
-			if(SCSP->Slots[sl].active)
-			{
-				struct _SLOT *slot=SCSP->Slots+sl;
-				unsigned short Enc;
-				signed int sample;
-
-				sample=SCSP_UpdateSlot(SCSP, slot);
-
-				Enc=((TL(slot))<<0x0)|((IMXL(slot))<<0xd);
-				SCSPDSP_SetSample(&SCSP->DSP,(sample*SCSP->LPANTABLE[Enc])>>(SHIFT-2),ISEL(slot),IMXL(slot));
-				Enc=((TL(slot))<<0x0)|((DIPAN(slot))<<0x8)|((DISDL(slot))<<0xd);
-				{
-					smpl+=(sample*SCSP->LPANTABLE[Enc])>>SHIFT;
-					smpr+=(sample*SCSP->RPANTABLE[Enc])>>SHIFT;
-				}
-			}
-			
-#if FM_DELAY
-			SCSP->RINGBUF[(SCSP->BUFPTR+64-(FM_DELAY-1))&63] = SCSP->DELAYBUF[(SCSP->DELAYPTR+FM_DELAY-(FM_DELAY-1))%FM_DELAY];
-#endif
-			++SCSP->BUFPTR;
-			SCSP->BUFPTR&=63;
-#if FM_DELAY
-			++SCSP->DELAYPTR;
-			if(SCSP->DELAYPTR>FM_DELAY-1) SCSP->DELAYPTR=0;
-#endif
-		}
-
-		SCSPDSP_Step(&SCSP->DSP);
-
-		for(i=0;i<16;++i)
-		{
-			struct _SLOT *slot=SCSP->Slots+i;
-			if(EFSDL(slot))
-			{
-				unsigned short Enc=((EFPAN(slot))<<0x8)|((EFSDL(slot))<<0xd);
-				smpl+=(SCSP->DSP.EFREG[i]*SCSP->LPANTABLE[Enc])>>SHIFT;
-				smpr+=(SCSP->DSP.EFREG[i]*SCSP->RPANTABLE[Enc])>>SHIFT;
-			}
-		}
-
-		*bufl++ = ICLIP16(smpl>>2);
-		*bufr++ = ICLIP16(smpr>>2);
-
-		SCSP_TimersAddTicks(SCSP, 1);
-		CheckPendingIRQ(SCSP);
-	}
-
-}
-
-static void dma_scsp(struct _SCSP *SCSP)
-{
-	static UINT16 tmp_dma[3], *scsp_regs;
-
-	scsp_regs = (UINT16 *)SCSP->udata.datab;
-
-	printf("SCSP: DMA transfer START\n"
-			 "DMEA: %04x DRGA: %04x DTLG: %04x\n"
-			 "DGATE: %d  DDIR: %d\n",SCSP->scsp_dmea,SCSP->scsp_drga,SCSP->scsp_dtlg,scsp_dgate ? 1 : 0,scsp_ddir ? 1 : 0);
-
-	/* Copy the dma values in a temp storage for resuming later *
-     * (DMA *can't* overwrite his parameters).                  */
-	if(!(scsp_ddir))
-	{
-		tmp_dma[0] = scsp_regs[0x12/2];
-		tmp_dma[1] = scsp_regs[0x14/2];
-		tmp_dma[2] = scsp_regs[0x16/2];
-	}
-
-	if(scsp_ddir)
-	{
-		for(;SCSP->scsp_dtlg > 0;SCSP->scsp_dtlg-=2)
-		{
-//			program_write_word(SCSP->scsp_dmea, program_read_word(0x100000|SCSP->scsp_drga));
-			SCSP->scsp_dmea+=2;
-			SCSP->scsp_drga+=2;
-		}
-	}
-	else
-	{
-		for(;SCSP->scsp_dtlg > 0;SCSP->scsp_dtlg-=2)
-		{
-//  			program_write_word(0x100000|SCSP->scsp_drga,program_read_word(SCSP->scsp_dmea));
-			SCSP->scsp_dmea+=2;
-			SCSP->scsp_drga+=2;
-		}
-	}
-
-	/*Resume the values*/
-	if(!(scsp_ddir))
-	{
-	 	scsp_regs[0x12/2] = tmp_dma[0];
-		scsp_regs[0x14/2] = tmp_dma[1];
-		scsp_regs[0x16/2] = tmp_dma[2];
-	}
-
-	/*Job done,request a dma end irq*/
-//	if(scsp_regs[0x1e/2] & 0x10)
-//		cpunum_set_input_line(2,dma_transfer_end,HOLD_LINE);
-}
-
-int SCSP_IRQCB(void *param)
-{
-	CheckPendingIRQ(param);
-	return -1;
-}
-
-void SCSP_Update(void *param, INT16 **inputs, INT16 **buf, int samples)
-{
-	struct _SCSP *SCSP = param;
-	SCSP->bufferl = buf[0];
-	SCSP->bufferr = buf[1];
-	SCSP->length = samples;
-	SCSP_DoMasterSamples(SCSP, samples);
-}
-
-void *SCSP_Start(const void *config)
-{
-	const struct SCSPinterface *intf;
-
-	struct _SCSP *SCSP;
-
-	SCSP = malloc(sizeof(*SCSP));
-	memset(SCSP, 0, sizeof(*SCSP));
-
-	intf = config;
-
-	// init the emulation
-	SCSP_Init(SCSP, intf);
-
-	// set up the IRQ callbacks
-	{
-		SCSP->Int68kCB = intf->irq_callback[0];
-
-//		SCSP->stream = stream_create(0, 2, 44100, SCSP, SCSP_Update);
-	}
-
-	return SCSP;
-}
-
-void SCSP_Exit (void *param) {
-    if (param) {
-        struct _SCSP *SCSP = param;
-        if (SCSP->buffertmpl) {
-            free (SCSP->buffertmpl);
-        }
-        if (SCSP->buffertmpr) {
-            free (SCSP->buffertmpr);
-        }
-        free (param);
-    }
-}
-
-
-void SCSP_set_ram_base(struct _SCSP *SCSP, int which, void *base)
-{
-	if (SCSP)
-	{
-		SCSP->SCSPRAM = base;
-		SCSP->DSP.SCSPRAM = base;
-	}
-}
-
-
-READ16_HANDLER( SCSP_0_r )
-{
-	return SCSP_r16(param, offset*2);
-}
-
-WRITE16_HANDLER( SCSP_0_w )
-{
-	struct _SCSP *SCSP = param;
-	UINT16 tmp, *scsp_regs;
-
-	tmp = SCSP_r16(SCSP, offset*2);
-	COMBINE_DATA(&tmp);
-	SCSP_w16(SCSP,offset*2, tmp);
-
-	scsp_regs = (UINT16 *)SCSP->udata.datab;
-
-	switch(offset*2)
-	{
-		// check DMA
-		case 0x412:
-		/*DMEA [15:1]*/
-		/*Sound memory address*/
-		SCSP->scsp_dmea = (((scsp_regs[0x14/2] & 0xf000)>>12)*0x10000) | (scsp_regs[0x12/2] & 0xfffe);
-		break;
-		case 0x414:
-		/*DMEA [19:16]*/
-		SCSP->scsp_dmea = (((scsp_regs[0x14/2] & 0xf000)>>12)*0x10000) | (scsp_regs[0x12/2] & 0xfffe);
-		/*DRGA [11:1]*/
-		/*Register memory address*/
-		SCSP->scsp_drga = scsp_regs[0x14/2] & 0x0ffe;
-		break;
-		case 0x416:
-		/*DGATE[14]*/
-		/*DDIR[13]*/
-		/*if 0 sound_mem -> reg*/
-		/*if 1 sound_mem <- reg*/
-		/*DEXE[12]*/
-		/*starting bit*/
-		/*DTLG[11:1]*/
-		/*size of transfer*/
-		SCSP->scsp_dtlg = scsp_regs[0x16/2] & 0x0ffe;
-		if(scsp_dexe)
-		{
-			dma_scsp(SCSP);
-			scsp_regs[0x16/2]^=0x1000;//disable starting bit
-		}
-		break;
-		//check main cpu IRQ
-		case 0x42a:
-#if 0
-        extern UINT32* stv_scu;
-
-			if(stv_scu && !(stv_scu[40] & 0x40) /*&& scsp_regs[0x42c/2] & 0x20*/)/*Main CPU allow sound irq*/
-			{
-				cpunum_set_input_line_and_vector(0, 9, HOLD_LINE , 0x46);
-			    logerror("SCSP: Main CPU interrupt\n");
-			}
-#endif
-		break;
-		case 0x42c:
-		break;
-		case 0x42e:
-		break;
-	}
-}
-
-WRITE16_HANDLER( SCSP_MidiIn )
-{
-	struct _SCSP *SCSP = param; 
-	SCSP->MidiStack[SCSP->MidiW++]=data;
-	SCSP->MidiW &= 15;
-}
-
-READ16_HANDLER( SCSP_MidiOutR )
-{
-	struct _SCSP *SCSP = param; 
-	unsigned char val;
-
-	val=SCSP->MidiStack[SCSP->MidiR++];
-	SCSP->MidiR&=7;
-	return val;
-}
-
diff --git a/plugins/ao/eng_ssf/scsp.h b/plugins/ao/eng_ssf/scsp.h
deleted file mode 100644
index 2f2a8e01..00000000
--- a/plugins/ao/eng_ssf/scsp.h
+++ /dev/null
@@ -1,47 +0,0 @@
-/*
-
-	SCSP (YMF292-F) header
-*/
-
-#ifndef _SCSP_H_
-#define _SCSP_H_
-
-#define MAX_SCSP	(2)
-
-#define COMBINE_DATA(varptr)	(*(varptr) = (*(varptr) & mem_mask) | (data & ~mem_mask))
-
-// convert AO types
-typedef int8 data8_t;
-typedef int16 data16_t;
-typedef int32 data32_t;
-typedef int offs_t;
-struct m68ki_cpu_core_s;
-
-struct SCSPinterface 
-{
-	int num;
-	void *region[MAX_SCSP];
-	int mixing_level[MAX_SCSP];			/* volume */
-	void (*irq_callback[MAX_SCSP])(struct m68ki_cpu_core_s *cpu, int state);	/* irq callback */
-	struct m68ki_cpu_core_s *cpu;
-};
-
-void *SCSP_Start(const void *config);
-void SCSP_Exit (void *param);
-
-void SCSP_Update(void *param, INT16 **inputs, INT16 **buf, int samples);
-
-#define READ16_HANDLER(name)	data16_t name(void *param, offs_t offset, data16_t mem_mask)
-#define WRITE16_HANDLER(name)	void     name(void *param, offs_t offset, data16_t data, data16_t mem_mask)
-
-// SCSP register access
-READ16_HANDLER( SCSP_0_r );
-WRITE16_HANDLER( SCSP_0_w );
-READ16_HANDLER( SCSP_1_r );
-WRITE16_HANDLER( SCSP_1_w );
-
-// MIDI I/O access (used for comms on Model 2/3)
-WRITE16_HANDLER( SCSP_MidiIn );
-READ16_HANDLER( SCSP_MidiOutR );
-
-#endif
diff --git a/plugins/ao/eng_ssf/scspdsp.c b/plugins/ao/eng_ssf/scspdsp.c
deleted file mode 100644
index 8c08dd72..00000000
--- a/plugins/ao/eng_ssf/scspdsp.c
+++ /dev/null
@@ -1,349 +0,0 @@
-#include <assert.h>
-#include <math.h>
-#include "ao.h"
-#include "cpuintrf.h"
-#include "scsp.h"
-#include "scspdsp.h"
-
-static UINT16 PACK(INT32 val)
-{
-	UINT32 temp;
-	int sign,exponent,k;
-
-	sign = (val >> 23) & 0x1;
-	temp = (val ^ (val << 1)) & 0xFFFFFF;
-	exponent = 0;
-	for (k=0; k<12; k++)
-	{
-		if (temp & 0x800000)
-			break;
-		temp <<= 1;
-		exponent += 1;
-	}
-	if (exponent < 12)
-		val = (val << exponent) & 0x3FFFFF;
-	else
-		val <<= 11;
-	val >>= 11;
-	val |= sign << 15;
-	val |= exponent << 11;
-
-	return (UINT16)val;
-}
-
-static INT32 UNPACK(UINT16 val)
-{
-	int sign,exponent,mantissa;
-	INT32 uval;
-
-	sign = (val >> 15) & 0x1;
-	exponent = (val >> 11) & 0xF;
-	mantissa = val & 0x7FF;
-	uval = mantissa << 11;
-	if (exponent > 11)
-		exponent = 11;
-	else
-		uval |= (sign ^ 1) << 22;
-	uval |= sign << 23;
-	uval <<= 8;
-	uval >>= 8;
-	uval >>= exponent;
-
-	return uval;
-}
-
-void SCSPDSP_Init(struct _SCSPDSP *DSP)
-{
-	memset(DSP,0,sizeof(struct _SCSPDSP));
-	DSP->RBL=0x8000;
-	DSP->Stopped=1;
-}
-
-void SCSPDSP_Step(struct _SCSPDSP *DSP)
-{
-	INT32 ACC=0;	//26 bit
-	INT32 SHIFTED=0;	//24 bit
-	INT32 X=0;	//24 bit
-	INT32 Y=0;	//13 bit
-	INT32 B=0;	//26 bit
-	INT32 INPUTS=0;	//24 bit
-	INT32 MEMVAL=0;
-	INT32 FRC_REG=0;	//13 bit
-	INT32 Y_REG=0;		//24 bit
-	UINT32 ADDR=0;
-	UINT32 ADRS_REG=0;	//13 bit
-	int step;
-
-	if(DSP->Stopped)
-		return;
-
-	memset(DSP->EFREG,0,2*16);
-#if 0
-	int dump=0;
-	FILE *f=NULL;
-	if(dump)
-		f=fopen("dsp.txt","wt");
-#endif
-	for(step=0;step</*128*/DSP->LastStep;++step)
-	{
-		UINT16 *IPtr=DSP->MPRO+step*4;
-
-//      if(IPtr[0]==0 && IPtr[1]==0 && IPtr[2]==0 && IPtr[3]==0)
-//          break;
-
-		UINT32 TRA=(IPtr[0]>>8)&0x7F;
-		UINT32 TWT=(IPtr[0]>>7)&0x01;
-		UINT32 TWA=(IPtr[0]>>0)&0x7F;
-
-		UINT32 XSEL=(IPtr[1]>>15)&0x01;
-		UINT32 YSEL=(IPtr[1]>>13)&0x03;
-		UINT32 IRA=(IPtr[1]>>6)&0x3F;
-		UINT32 IWT=(IPtr[1]>>5)&0x01;
-		UINT32 IWA=(IPtr[1]>>0)&0x1F;
-
-		UINT32 TABLE=(IPtr[2]>>15)&0x01;
-		UINT32 MWT=(IPtr[2]>>14)&0x01;
-		UINT32 MRD=(IPtr[2]>>13)&0x01;
-		UINT32 EWT=(IPtr[2]>>12)&0x01;
-		UINT32 EWA=(IPtr[2]>>8)&0x0F;
-		UINT32 ADRL=(IPtr[2]>>7)&0x01;
-		UINT32 FRCL=(IPtr[2]>>6)&0x01;
-		UINT32 SHIFT=(IPtr[2]>>4)&0x03;
-		UINT32 YRL=(IPtr[2]>>3)&0x01;
-		UINT32 NEGB=(IPtr[2]>>2)&0x01;
-		UINT32 ZERO=(IPtr[2]>>1)&0x01;
-		UINT32 BSEL=(IPtr[2]>>0)&0x01;
-
-		UINT32 NOFL=(IPtr[3]>>15)&1;		//????
-		UINT32 COEF=(IPtr[3]>>9)&0x3f;
-
-		UINT32 MASA=(IPtr[3]>>2)&0x1f;	//???
-		UINT32 ADREB=(IPtr[3]>>1)&0x1;
-		UINT32 NXADR=(IPtr[3]>>0)&0x1;
-
-		INT64 v;
-
-		//operations are done at 24 bit precision
-#if 0
-		if(MASA)
-			int a=1;
-		if(NOFL)
-			int a=1;
-
-//      int dump=0;
-
-		if(f)
-		{
-#define DUMP(v)	fprintf(f," " #v ": %04X",v);
-
-			fprintf(f,"%d: ",step);
-			DUMP(ACC);
-			DUMP(SHIFTED);
-			DUMP(X);
-			DUMP(Y);
-			DUMP(B);
-			DUMP(INPUTS);
-			DUMP(MEMVAL);
-			DUMP(FRC_REG);
-			DUMP(Y_REG);
-			DUMP(ADDR);
-			DUMP(ADRS_REG);
-			fprintf(f,"\n");
-		}
-#endif
-		//INPUTS RW
-		assert(IRA<0x32);
-		if(IRA<=0x1f)
-			INPUTS=DSP->MEMS[IRA];
-		else if(IRA<=0x2F)
-			INPUTS=DSP->MIXS[IRA-0x20]<<4;	//MIXS is 20 bit
-		else if(IRA<=0x31)
-			INPUTS=0;
-
-		INPUTS<<=8;
-		INPUTS>>=8;
-		//if(INPUTS&0x00800000)
-		//  INPUTS|=0xFF000000;
-
-		if(IWT)
-		{
-			DSP->MEMS[IWA]=MEMVAL;	//MEMVAL was selected in previous MRD
-			if(IRA==IWA)
-				INPUTS=MEMVAL;
-		}
-
-		//Operand sel
-		//B
-		if(!ZERO)
-		{
-			if(BSEL)
-				B=ACC;
-			else
-			{
-				B=DSP->TEMP[(TRA+DSP->DEC)&0x7F];
-				B<<=8;
-				B>>=8;
-				//if(B&0x00800000)
-				//  B|=0xFF000000;  //Sign extend
-			}
-			if(NEGB)
-				B=0-B;
-		}
-		else
-			B=0;
-
-		//X
-		if(XSEL)
-			X=INPUTS;
-		else
-		{
-			X=DSP->TEMP[(TRA+DSP->DEC)&0x7F];
-			X<<=8;
-			X>>=8;
-			//if(X&0x00800000)
-			//  X|=0xFF000000;
-		}
-
-		//Y
-		if(YSEL==0)
-			Y=FRC_REG;
-		else if(YSEL==1)
-			Y=DSP->COEF[COEF]>>3;	//COEF is 16 bits
-		else if(YSEL==2)
-			Y=(Y_REG>>11)&0x1FFF;
-		else if(YSEL==3)
-			Y=(Y_REG>>4)&0x0FFF;
-
-		if(YRL)
-			Y_REG=INPUTS;
-
-		//Shifter
-		if(SHIFT==0)
-		{
-			SHIFTED=ACC;
-			if(SHIFTED>0x007FFFFF)
-				SHIFTED=0x007FFFFF;
-			if(SHIFTED<(-0x00800000))
-				SHIFTED=-0x00800000;
-		}
-		else if(SHIFT==1)
-		{
-			SHIFTED=ACC*2;
-			if(SHIFTED>0x007FFFFF)
-				SHIFTED=0x007FFFFF;
-			if(SHIFTED<(-0x00800000))
-				SHIFTED=-0x00800000;
-		}
-		else if(SHIFT==2)
-		{
-			SHIFTED=ACC*2;
-			SHIFTED<<=8;
-			SHIFTED>>=8;
-			//SHIFTED&=0x00FFFFFF;
-			//if(SHIFTED&0x00800000)
-			//  SHIFTED|=0xFF000000;
-		}
-		else if(SHIFT==3)
-		{
-			SHIFTED=ACC;
-			SHIFTED<<=8;
-			SHIFTED>>=8;
-			//SHIFTED&=0x00FFFFFF;
-			//if(SHIFTED&0x00800000)
-			//  SHIFTED|=0xFF000000;
-		}
-
-		//ACCUM
-		Y<<=19;
-		Y>>=19;
-		//if(Y&0x1000)
-		//  Y|=0xFFFFF000;
-
-		v=(((INT64) X*(INT64) Y)>>12);
-		ACC=(int) v+B;
-
-		if(TWT)
-			DSP->TEMP[(TWA+DSP->DEC)&0x7F]=SHIFTED;
-
-		if(FRCL)
-		{
-			if(SHIFT==3)
-				FRC_REG=SHIFTED&0x0FFF;
-			else
-				FRC_REG=(SHIFTED>>11)&0x1FFF;
-		}
-
-		if(MRD || MWT)
-		//if(0)
-		{
-			ADDR=DSP->MADRS[MASA];
-			if(!TABLE)
-				ADDR+=DSP->DEC;
-			if(ADREB)
-				ADDR+=ADRS_REG&0x0FFF;
-			if(NXADR)
-				ADDR++;
-			if(!TABLE)
-				ADDR&=DSP->RBL-1;
-			else
-				ADDR&=0xFFFF;
-			//ADDR<<=1;
-			//ADDR+=DSP->RBP<<13;
-			//MEMVAL=DSP->SCSPRAM[ADDR>>1];
-			ADDR+=DSP->RBP<<12;
-			if(MRD && (step&1))	//memory only allowed on odd? DoA inserts NOPs on even
-			{
-				if(NOFL)
-					MEMVAL=DSP->SCSPRAM[ADDR]<<8;
-				else
-					MEMVAL=UNPACK(DSP->SCSPRAM[ADDR]);
-			}
-			if(MWT && (step&1))
-			{
-				if(NOFL)
-					DSP->SCSPRAM[ADDR]=SHIFTED>>8;
-				else
-					DSP->SCSPRAM[ADDR]=PACK(SHIFTED);
-			}
-		}
-
-		if(ADRL)
-		{
-			if(SHIFT==3)
-				ADRS_REG=(SHIFTED>>12)&0xFFF;
-			else
-				ADRS_REG=(INPUTS>>16);
-		}
-
-		if(EWT)
-			DSP->EFREG[EWA]+=SHIFTED>>8;
-
-	}
-	--DSP->DEC;
-	memset(DSP->MIXS,0,4*16);
-//  if(f)
-//      fclose(f);
-}
-
-void SCSPDSP_SetSample(struct _SCSPDSP *DSP,INT32 sample,int SEL,int MXL)
-{
-	//DSP->MIXS[SEL]+=sample<<(MXL+1)/*7*/;
-	DSP->MIXS[SEL]+=sample;
-//  if(MXL)
-//      int a=1;
-}
-
-void SCSPDSP_Start(struct _SCSPDSP *DSP)
-{
-	int i;
-	DSP->Stopped=0;
-	for(i=127;i>=0;--i)
-	{
-		UINT16 *IPtr=DSP->MPRO+i*4;
-
-		if(IPtr[0]!=0 || IPtr[1]!=0 || IPtr[2]!=0 || IPtr[3]!=0)
-			break;
-	}
-	DSP->LastStep=i+1;
-
-}
diff --git a/plugins/ao/eng_ssf/scspdsp.h b/plugins/ao/eng_ssf/scspdsp.h
deleted file mode 100644
index 481f93af..00000000
--- a/plugins/ao/eng_ssf/scspdsp.h
+++ /dev/null
@@ -1,37 +0,0 @@
-#ifndef SCSPDSP_H
-#define SCSPDSP_H
-
-//the DSP Context
-struct _SCSPDSP
-{
-//Config
-	UINT16 *SCSPRAM;
-	UINT32 SCSPRAM_LENGTH;
-	UINT32 RBP;	//Ring buf pointer
-	UINT32 RBL;	//Delay ram (Ring buffer) size in words
-
-//context
-
-	INT16 COEF[64];		//16 bit signed
-	UINT16 MADRS[32];	//offsets (in words), 16 bit
-	UINT16 MPRO[128*4];	//128 steps 64 bit
-	INT32 TEMP[128];	//TEMP regs,24 bit signed
-	INT32 MEMS[32];	//MEMS regs,24 bit signed
-	UINT32 DEC;
-
-//input
-	INT32 MIXS[16];	//MIXS, 24 bit signed
-	INT16 EXTS[2];	//External inputs (CDDA)    16 bit signed
-
-//output
-	INT16 EFREG[16];	//EFREG, 16 bit signed
-
-	int Stopped;
-	int LastStep;
-};
-
-void SCSPDSP_Init(struct _SCSPDSP *DSP);
-void SCSPDSP_SetSample(struct _SCSPDSP *DSP, INT32 sample, INT32 SEL, INT32 MXL);
-void SCSPDSP_Step(struct _SCSPDSP *DSP);
-void SCSPDSP_Start(struct _SCSPDSP *DSP);
-#endif
diff --git a/plugins/ao/eng_ssf/scsplfo.c b/plugins/ao/eng_ssf/scsplfo.c
deleted file mode 100644
index 0a8281c1..00000000
--- a/plugins/ao/eng_ssf/scsplfo.c
+++ /dev/null
@@ -1,157 +0,0 @@
-/*
-	SCSP LFO handling
-
-	Part of the SCSP (YMF292-F) emulator package.
-	(not compiled directly, #included from scsp.c)
-
-	By ElSemi
-	MAME/M1 conversion and cleanup by R. Belmont
-*/
-
-#define LFO_SHIFT 	8
-
-struct _LFO
-{
-    unsigned short phase;
-    UINT32 phase_step;
-    int *table;
-    int *scale;
-};
-
-#define LFIX(v)	((unsigned int) ((float) (1<<LFO_SHIFT)*(v)))
-
-//Convert DB to multiply amplitude
-#define DB(v) 	LFIX(pow(10.0,v/20.0))
-
-//Convert cents to step increment
-#define CENTS(v) LFIX(pow(2.0,v/1200.0))
-
-static int PLFO_TRI[256],PLFO_SQR[256],PLFO_SAW[256],PLFO_NOI[256];
-static int ALFO_TRI[256],ALFO_SQR[256],ALFO_SAW[256],ALFO_NOI[256];
-static float LFOFreq[32]={0.17,0.19,0.23,0.27,0.34,0.39,0.45,0.55,0.68,0.78,0.92,1.10,1.39,1.60,1.87,2.27,
-			  2.87,3.31,3.92,4.79,6.15,7.18,8.60,10.8,14.4,17.2,21.5,28.7,43.1,57.4,86.1,172.3};
-static float ASCALE[8]={0.0,0.4,0.8,1.5,3.0,6.0,12.0,24.0};
-static float PSCALE[8]={0.0,7.0,13.5,27.0,55.0,112.0,230.0,494};
-static int PSCALES[8][256];
-static int ASCALES[8][256];
-
-void LFO_Init(void)
-{
-    int i,s;
-    for(i=0;i<256;++i)
-    {
-		int a,p;
-//		float TL;
-		//Saw
-		a=255-i;
-		if(i<128)
-			p=i;
-		else
-			p=i-256;    
-		ALFO_SAW[i]=a;
-		PLFO_SAW[i]=p;
-	
-		//Square
-		if(i<128)
-		{
-			a=255;
-			p=127;
-		}
-		else
-		{
-			a=0;
-			p=-128;
-		}
-		ALFO_SQR[i]=a;
-		PLFO_SQR[i]=p;
-	
-		//Tri
-		if(i<128)
-			a=255-(i*2);
-		else
-			a=(i*2)-256;
-		if(i<64)
-			p=i*2;
-		else if(i<128)
-			p=255-i*2;
-		else if(i<192)
-			p=256-i*2;
-		else
-			p=i*2-511;
-		ALFO_TRI[i]=a;
-		PLFO_TRI[i]=p;
-	
-		//noise
-		//a=lfo_noise[i];
-		a=rand()&0xff;
-		p=128-a;
-		ALFO_NOI[i]=a;
-		PLFO_NOI[i]=p;
-    }
-
-	for(s=0;s<8;++s)
-	{
-		float limit=PSCALE[s];
-		for(i=-128;i<128;++i)
-		{
-			PSCALES[s][i+128]=CENTS(((limit*(float) i)/128.0));
-		}
-		limit=-ASCALE[s];
-		for(i=0;i<256;++i)
-		{
-			ASCALES[s][i]=DB(((limit*(float) i)/256.0));
-		}
-	}
-}
-
-static signed int INLINE PLFO_Step(struct _LFO *LFO)
-{
-	int p;
-    LFO->phase+=LFO->phase_step;    
-#if LFO_SHIFT!=8    
-    LFO->phase&=(1<<(LFO_SHIFT+8))-1;
-#endif    
-    p=LFO->table[LFO->phase>>LFO_SHIFT];
-	p=LFO->scale[p+128];
-	return p<<(SHIFT-LFO_SHIFT);
-}
-
-static signed int INLINE ALFO_Step(struct _LFO *LFO)
-{
-	int p;
-    LFO->phase+=LFO->phase_step;    
-#if LFO_SHIFT!=8    
-    LFO->phase&=(1<<(LFO_SHIFT+8))-1;
-#endif    
-    p=LFO->table[LFO->phase>>LFO_SHIFT];
-	p=LFO->scale[p];
-	return p<<(SHIFT-LFO_SHIFT);
-}
-
-void LFO_ComputeStep(struct _LFO *LFO,UINT32 LFOF,UINT32 LFOWS,UINT32 LFOS,int ALFO)
-{
-    float step=(float) LFOFreq[LFOF]*256.0/(float)44100.0;
-    LFO->phase_step=(unsigned int) ((float) (1<<LFO_SHIFT)*step);
-    if(ALFO)
-    {
-		switch(LFOWS)
-		{
-			case 0: LFO->table=ALFO_SAW; break;
-			case 1: LFO->table=ALFO_SQR; break;
-			case 2: LFO->table=ALFO_TRI; break;
-			case 3: LFO->table=ALFO_NOI; break;
-		}
-		LFO->scale=ASCALES[LFOS];
-	}
-	else
-	{
-		switch(LFOWS)
-		{
-		    case 0: LFO->table=PLFO_SAW; break;
-		    case 1: LFO->table=PLFO_SQR; break;
-			case 2: LFO->table=PLFO_TRI; break;
-		    case 3: LFO->table=PLFO_NOI; break;
-		}
-		LFO->scale=PSCALES[LFOS];
-	}
-}
diff --git a/plugins/ao/osd_cpu.h b/plugins/ao/osd_cpu.h
deleted file mode 100644
index da74a0d4..00000000
--- a/plugins/ao/osd_cpu.h
+++ /dev/null
@@ -1,70 +0,0 @@
-/*******************************************************************************
-*																			   *
-*	Define size independent data types and operations.						   *
-*																			   *
-*   The following types must be supported by all platforms:					   *
-*																			   *
-*	UINT8  - Unsigned 8-bit Integer		INT8  - Signed 8-bit integer           *
-*	UINT16 - Unsigned 16-bit Integer	INT16 - Signed 16-bit integer          *
-*	UINT32 - Unsigned 32-bit Integer	INT32 - Signed 32-bit integer          *
-*	UINT64 - Unsigned 64-bit Integer	INT64 - Signed 64-bit integer          *
-*																			   *
-*																			   *
-*   The macro names for the artithmatic operations are composed as follows:    *
-*																			   *
-*   XXX_R_A_B, where XXX - 3 letter operation code (ADD, SUB, etc.)			   *
-*					 R   - The type	of the result							   *
-*					 A   - The type of operand 1							   *
-*			         B   - The type of operand 2 (if binary operation)		   *
-*																			   *
-*				     Each type is one of: U8,8,U16,16,U32,32,U64,64			   *
-*																			   *
-*******************************************************************************/
-
-
-#ifndef OSD_CPU_H
-#define OSD_CPU_H
-
-#include "ao.h"
-
-/* Combine two 32-bit integers into a 64-bit integer */
-#define COMBINE_64_32_32(A,B)     ((((UINT64)(A))<<32) | (UINT32)(B))
-#define COMBINE_U64_U32_U32(A,B)  COMBINE_64_32_32(A,B)
-
-/* Return upper 32 bits of a 64-bit integer */
-#define HI32_32_64(A)		  (((UINT64)(A)) >> 32)
-#define HI32_U32_U64(A)		  HI32_32_64(A)
-
-/* Return lower 32 bits of a 64-bit integer */
-#define LO32_32_64(A)		  ((A) & 0xffffffff)
-#define LO32_U32_U64(A)		  LO32_32_64(A)
-
-#define DIV_64_64_32(A,B)	  ((A)/(B))
-#define DIV_U64_U64_U32(A,B)  ((A)/(UINT32)(B))
-
-#define MOD_32_64_32(A,B)	  ((A)%(B))
-#define MOD_U32_U64_U32(A,B)  ((A)%(UINT32)(B))
-
-#define MUL_64_32_32(A,B)	  ((A)*(INT64)(B))
-#define MUL_U64_U32_U32(A,B)  ((A)*(UINT64)(UINT32)(B))
-
-
-/******************************************************************************
- * Union of UINT8, UINT16 and UINT32 in native endianess of the target
- * This is used to access bytes and words in a machine independent manner.
- * The upper bytes h2 and h3 normally contain zero (16 bit CPU cores)
- * thus PAIR.d can be used to pass arguments to the memory system
- * which expects 'int' really.
- ******************************************************************************/
-typedef union {
-#if LSB_FIRST
-	struct { UINT8 l,h,h2,h3; } b;
-	struct { UINT16 l,h; } w;
-#else
-	struct { UINT8 h3,h2,h,l; } b;
-	struct { UINT16 h,l; } w;
-#endif
-	UINT32 d;
-}	PAIR;
-
-#endif	/* defined OSD_CPU_H */
diff --git a/plugins/shn/array.c b/plugins/shn/array.c
deleted file mode 100644
index 0adf8549..00000000
--- a/plugins/shn/array.c
+++ /dev/null
@@ -1,41 +0,0 @@
-/******************************************************************************
-*                                                                             *
-*  Copyright (C) 1992-1995 Tony Robinson                                      *
-*                                                                             *
-*  See the file doc/LICENSE.shorten for conditions on distribution and usage  *
-*                                                                             *
-******************************************************************************/
-
-/*
- * $Id: array.c,v 1.7 2003/08/26 05:34:04 jason Exp $
- */
-
-#include <stdio.h>
-#include <stdlib.h>
-#include "shorten.h"
-#include "shn.h"
-
-void *pmalloc(ulong size, shn_file *this_shn) {
-  void *ptr;
-
-  ptr = malloc(size);
-
-  if(ptr == NULL)
-    shn_error_fatal(this_shn,"Call to malloc(%ld) failed in pmalloc() -\nyour system may be low on memory", size);
-
-  return(ptr);
-}
-
-slong **long2d(ulong n0, ulong n1, shn_file *this_shn) {
-  slong **array0 = NULL;
-
-  if((array0 = (slong**) pmalloc((ulong) (n0 * sizeof(slong*) +
-					 n0 * n1 * sizeof(slong)),this_shn)) != NULL ) {
-    slong *array1 = (slong*) (array0 + n0);
-    int i;
-
-    for(i = 0; i < n0; i++)
-      array0[i] = array1 + i * n1;
-  }
-  return(array0);
-}
diff --git a/plugins/shn/shorten.c b/plugins/shn/shorten.c
deleted file mode 100644
index 0c92af83..00000000
--- a/plugins/shn/shorten.c
+++ /dev/null
@@ -1,54 +0,0 @@
-/******************************************************************************
-*                                                                             *
-*  Copyright (C) 1992-1995 Tony Robinson                                      *
-*                                                                             *
-*  See the file doc/LICENSE.shorten for conditions on distribution and usage  *
-*                                                                             *
-******************************************************************************/
-
-/*
- * $Id: shorten.c,v 1.7 2003/08/26 05:34:04 jason Exp $
- */
-
-#include <math.h>
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-#include <unistd.h>
-#include <errno.h>
-#include <setjmp.h>
-#include "shorten.h"
-
-void init_offset(slong **offset,int nchan,int nblock,int ftype)
-{
-  slong mean = 0;
-  int  chan, i;
-
-  /* initialise offset */
-  switch(ftype)
-  {
-  	case TYPE_AU1:
-  	case TYPE_S8:
-  	case TYPE_S16HL:
-  	case TYPE_S16LH:
-  	case TYPE_ULAW:
-  	case TYPE_AU2:
-  	case TYPE_AU3:
-  	case TYPE_ALAW:
-    	mean = 0;
-    	break;
-  	case TYPE_U8:
-    	mean = 0x80;
-    	break;
-  	case TYPE_U16HL:
-  	case TYPE_U16LH:
-    	mean = 0x8000;
-    	break;
-  	default:
-        shn_debug("Unknown file type: %d", ftype);
-  }
-
-  for(chan = 0; chan < nchan; chan++)
-    for(i = 0; i < nblock; i++)
-      offset[chan][i] = mean;
-}
diff --git a/plugins/shn/shorten.h b/plugins/shn/shorten.h
deleted file mode 100644
index 0cb0b0e2..00000000
--- a/plugins/shn/shorten.h
+++ /dev/null
@@ -1,224 +0,0 @@
-/******************************************************************************
-*                                                                             *
-*  Copyright (C) 1992-1995 Tony Robinson                                      *
-*                                                                             *
-*  See the file doc/LICENSE.shorten for conditions on distribution and usage  *
-*                                                                             *
-******************************************************************************/
-
-/*
- * $Id: shorten.h,v 1.4 2001/12/30 05:12:04 jason Exp $
- */
-
-#ifndef _SHORTEN_H
-#define _SHORTEN_H
-
-#ifdef HAVE_CONFIG_H
-#include "config.h"
-#endif
-
-#include <stdlib.h>
-#include <pthread.h>
-
-#ifdef HAVE_INTTYPES_H
-#  include <inttypes.h>
-#else
-#  if SIZEOF_UNSIGNED_LONG == 4
-#    define uint32_t unsigned long
-#    define int32_t long
-#  else
-#    define uint32_t unsigned int
-#    define int32_t int
-#  endif
-#  define uint16_t unsigned short
-#  define uint8_t unsigned char
-#  define int16_t short
-#  define int8_t char
-#endif
-
-#undef  ulong
-#undef  ushort
-#undef  uchar
-#undef  slong
-#undef  sshort
-#undef  schar
-#undef  uint
-#define uint    uint32_t
-#define ulong   uint32_t
-#define ushort  uint16_t
-#define uchar   uint8_t
-#define slong   int32_t
-#define sshort  int16_t
-#define schar   int8_t
-
-#include "shn.h"
-
-extern shn_file *shnfile;
-
-#define MAGIC			"ajkg"
-#define FORMAT_VERSION		2
-#define MIN_SUPPORTED_VERSION	1
-#define MAX_SUPPORTED_VERSION	3
-#define MAX_VERSION		7
-
-#define UNDEFINED_UINT		-1
-#define DEFAULT_BLOCK_SIZE	256
-#define DEFAULT_V0NMEAN	0
-#define DEFAULT_V2NMEAN	4
-#define DEFAULT_MAXNLPC	0
-#define DEFAULT_NCHAN		1
-#define DEFAULT_NSKIP		0
-#define DEFAULT_NDISCARD	0
-#define NBITPERLONG		32
-#define DEFAULT_MINSNR          256
-#define DEFAULT_MAXRESNSTR	"32.0"
-#define DEFAULT_QUANTERROR	0
-#define MINBITRATE		2.5
-
-#define MAX_LPC_ORDER	64
-#define CHANSIZE	0
-#define ENERGYSIZE	3
-#define BITSHIFTSIZE	2
-#define NWRAP		3
-
-#define FNSIZE		2
-#define FN_DIFF0	0
-#define FN_DIFF1	1
-#define FN_DIFF2	2
-#define FN_DIFF3	3
-#define FN_QUIT		4
-#define FN_BLOCKSIZE	5
-#define FN_BITSHIFT	6
-#define FN_QLPC		7
-#define FN_ZERO		8
-#define FN_VERBATIM     9
-
-#define VERBATIM_CKSIZE_SIZE 5	/* a var_put code size */
-#define VERBATIM_BYTE_SIZE 8	/* code size 8 on single bytes means
-				 * no compression at all */
-#define VERBATIM_CHUNK_MAX 256	/* max. size of a FN_VERBATIM chunk */
-
-#define ULONGSIZE	2
-#define NSKIPSIZE	1
-#define LPCQSIZE	2
-#define LPCQUANT	5
-#define XBYTESIZE	7
-
-#define TYPESIZE	4
-#define TYPE_AU1	0	/* original lossless ulaw                    */
-#define TYPE_S8	        1	/* signed 8 bit characters                   */
-#define TYPE_U8         2	/* unsigned 8 bit characters                 */
-#define TYPE_S16HL	3	/* signed 16 bit shorts: high-low            */
-#define TYPE_U16HL	4	/* unsigned 16 bit shorts: high-low          */
-#define TYPE_S16LH	5	/* signed 16 bit shorts: low-high            */
-#define TYPE_U16LH	6	/* unsigned 16 bit shorts: low-high          */
-#define TYPE_ULAW	7	/* lossy ulaw: internal conversion to linear */
-#define TYPE_AU2	8	/* new ulaw with zero mapping                */
-#define TYPE_AU3	9	/* lossless alaw                             */
-#define TYPE_ALAW 	10	/* lossy alaw: internal conversion to linear */
-#define TYPE_RIFF_WAVE  11	/* Microsoft .WAV files                      */
-#define TYPE_EOF	12
-#define TYPE_GENERIC_ULAW 128
-#define TYPE_GENERIC_ALAW 129
-
-#define POSITIVE_ULAW_ZERO 0xff
-#define NEGATIVE_ULAW_ZERO 0x7f
-
-#ifndef MAX_PATH
-#define MAX_PATH 2048
-#endif
-
-#ifndef	MIN
-#define MIN(a,b) (((a)<(b))?(a):(b))
-#endif
-
-#ifndef	MAX
-#define MAX(a,b) (((a)>(b))?(a):(b))
-#endif
-
-#if defined(unix) && !defined(linux)
-#define labs abs
-#endif
-
-#define ROUNDEDSHIFTDOWN(x, n) (((n) == 0) ? (x) : ((x) >> ((n) - 1)) >> 1)
-
-#ifndef M_LN2
-#define	M_LN2	0.69314718055994530942
-#endif
-
-#ifndef M_PI
-#define M_PI	3.14159265358979323846
-#endif
-
-/* BUFSIZ must be a multiple of four to contain a whole number of words */
-#ifdef BUFSIZ
-#undef BUFSIZ
-#endif
-
-#define BUFSIZ 512
-
-#define V2LPCQOFFSET (1 << LPCQUANT);
-
-#define UINT_GET(nbit, shnfile) \
-  ((version == 0) ? uvar_get(nbit, shnfile) : ulong_get(shnfile))
-
-#define putc_exit(val, stream)\
-{ char rval;\
-  if((rval = putc((val), (stream))) != (char) (val))\
-    complain("FATALERROR: write failed: putc returns EOF");\
-}
-
-extern int getc_exit_val;
-#define getc_exit(stream)\
-(((getc_exit_val = getc(stream)) == EOF) ? \
-  complain("FATALERROR: read failed: getc returns EOF"), 0: getc_exit_val)
-
-/************************/
-/* defined in shorten.c */
-extern void	init_offset(slong**, int, int, int);
-extern int	shorten(FILE*, FILE*, int, char**);
-
-/**************************/
-/* defined in Sulawalaw.c */
-extern int Sulaw2lineartab[];
-#define Sulaw2linear(i) (Sulaw2lineartab[i])
-#ifndef Sulaw2linear
-extern int	Sulaw2linear(uchar);
-#endif
-extern uchar	Slinear2ulaw(int);
-
-extern int Salaw2lineartab[];
-#define Salaw2linear(i) (Salaw2lineartab[i])
-#ifndef Salaw2linear
-extern int	Salaw2linear(uchar);
-#endif
-extern uchar	Slinear2alaw(int);
-
-/**********************/
-/* defined in fixio.c */
-extern void	init_sizeof_sample(void);
-extern void     fwrite_type_init(shn_file*);
-extern void     fwrite_type(slong**,int,int,int,shn_file*);
-extern void     fwrite_type_quit(shn_file*);
-extern void	fix_bitshift(slong*, int, int, int);
-
-/**********************/
-/* defined in vario.c */
-extern void	var_get_init(shn_file*);
-extern slong	uvar_get(int, shn_file*);
-extern slong	var_get(int, shn_file*);
-extern ulong	ulong_get(shn_file*);
-extern void	var_get_quit(shn_file*);
-
-extern int	sizeof_uvar(ulong, int);
-extern int	sizeof_var(slong, int);
-
-extern void	mkmasktab(void);
-extern ulong	word_get(shn_file*);
-
-/**********************/
-/* defined in array.c */
-extern void* 	pmalloc(ulong, shn_file*);
-extern slong**	long2d(ulong, ulong, shn_file*);
-
-#endif
diff --git a/plugins/shn/vario.c b/plugins/shn/vario.c
deleted file mode 100644
index 988e2eb8..00000000
--- a/plugins/shn/vario.c
+++ /dev/null
@@ -1,146 +0,0 @@
-/******************************************************************************
-*                                                                             *
-*  Copyright (C) 1992-1995 Tony Robinson                                      *
-*                                                                             *
-*  See the file doc/LICENSE.shorten for conditions on distribution and usage  *
-*                                                                             *
-******************************************************************************/
-
-/*
- * $Id: vario.c,v 1.10 2004/05/04 02:26:36 jason Exp $
- */
-
-#include <math.h>
-#include <stdio.h>
-#include <stdlib.h>
-#include "shorten.h"
-
-#define MASKTABSIZE 33
-ulong masktab[MASKTABSIZE];
-
-void mkmasktab() {
-  int i;
-  ulong val = 0;
-
-  masktab[0] = val;
-  for(i = 1; i < MASKTABSIZE; i++) {
-    val <<= 1;
-    val |= 1;
-    masktab[i] = val;
-  }
-}
-
-void var_get_init(shn_file *this_shn)
-{
-  mkmasktab();
-
-  this_shn->decode_state->getbuf   = (uchar*) pmalloc((ulong) BUFSIZ,this_shn);
-  this_shn->decode_state->getbufp  = this_shn->decode_state->getbuf;
-  this_shn->decode_state->nbyteget = 0;
-  this_shn->decode_state->gbuffer  = 0;
-  this_shn->decode_state->nbitget  = 0;
-}
-
-ulong word_get(shn_file *this_shn)
-{
-  ulong buffer;
-  int bytes;
-
-  if(this_shn->decode_state->nbyteget < 4)
-  {
-    this_shn->vars.last_file_position = this_shn->vars.bytes_read;
-
-    bytes = deadbeef->fread((uchar*) this_shn->decode_state->getbuf, 1, BUFSIZ, this_shn->vars.fd);
-    this_shn->decode_state->nbyteget += bytes;
-
-    if(this_shn->decode_state->nbyteget < 4) {
-      shn_error_fatal(this_shn,"Premature EOF on compressed stream -\npossible corrupt or truncated file");
-      return (ulong)0;
-    }
-
-    this_shn->vars.bytes_read += bytes;
-
-    this_shn->decode_state->getbufp = this_shn->decode_state->getbuf;
-  }
-
-  buffer = (((slong) (this_shn->decode_state->getbufp[0])) << 24) | (((slong) (this_shn->decode_state->getbufp[1])) << 16) |
-    (((slong) (this_shn->decode_state->getbufp[2])) <<  8) | ((slong) (this_shn->decode_state->getbufp[3]));
-
-  this_shn->decode_state->getbufp += 4;
-  this_shn->decode_state->nbyteget -= 4;
-
-  return(buffer);
-}
-
-slong uvar_get(int nbin,shn_file *this_shn)
-{
-  slong result;
-
-  if (this_shn->vars.reading_function_code) {
-    this_shn->vars.last_file_position_no_really = this_shn->vars.last_file_position;
-  }
-
-  if(this_shn->decode_state->nbitget == 0)
-  {
-    this_shn->decode_state->gbuffer = word_get(this_shn);
-    if (this_shn->vars.fatal_error)
-      return (ulong)0;
-    this_shn->decode_state->nbitget = 32;
-  }
-
-  for(result = 0; !(this_shn->decode_state->gbuffer & (1L << --(this_shn->decode_state->nbitget))); result++)
-  {
-    if(this_shn->decode_state->nbitget == 0)
-    {
-      this_shn->decode_state->gbuffer = word_get(this_shn);
-      if (this_shn->vars.fatal_error)
-        return (ulong)0;
-      this_shn->decode_state->nbitget = 32;
-    }
-  }
-
-  while(nbin != 0)
-  {
-    if(this_shn->decode_state->nbitget >= nbin)
-    {
-      result = (result << nbin) | ((this_shn->decode_state->gbuffer >> (this_shn->decode_state->nbitget-nbin)) &masktab[nbin]);
-      this_shn->decode_state->nbitget -= nbin;
-      nbin = 0;
-    }
-    else
-    {
-      result = (result << this_shn->decode_state->nbitget) | (this_shn->decode_state->gbuffer & masktab[this_shn->decode_state->nbitget]);
-      this_shn->decode_state->gbuffer = word_get(this_shn);
-      if (this_shn->vars.fatal_error)
-        return (ulong)0;
-      nbin -= this_shn->decode_state->nbitget;
-      this_shn->decode_state->nbitget = 32;
-    }
-  }
-
-  return(result);
-}
-
-ulong ulong_get(shn_file *this_shn)
-{
-  unsigned int nbit = uvar_get(ULONGSIZE,this_shn);
-  if (this_shn->vars.fatal_error)
-    return (ulong)0;
-  return(uvar_get(nbit,this_shn));
-}
-
-slong var_get(int nbin,shn_file *this_shn)
-{
-  ulong uvar = uvar_get(nbin + 1,this_shn);
-  if (this_shn->vars.fatal_error)
-    return (slong)0;
-
-  if(uvar & 1) return((slong) ~(uvar >> 1));
-  else return((slong) (uvar >> 1));
-}
-
-void var_get_quit(shn_file *this_shn)
-{
-  free((void *) this_shn->decode_state->getbuf);
-  this_shn->decode_state->getbuf = NULL;
-}
-- 
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