added support for gme 0.5.5 (keeping support for 0.5.2)

117 files changed, 32179 insertions, 127 deletions

diff --git a/plugins/gme/Makefile.am b/plugins/gme/Makefile.am
index 392c0789..d37a7882 100644
--- a/plugins/gme/Makefile.am
+++ b/plugins/gme/Makefile.am
@@ -1,5 +1,8 @@
 if HAVE_GME
-gmepath=@top_srcdir@/plugins/gme/Game_Music_Emu-0.5.2
+
+#gmedir=Game_Music_Emu-0.5.2
+gmeversion=game-music-emu-0.5.5
+gmepath=@top_srcdir@/plugins/gme/$(gmeversion)
 
 EXTRA_DIST = $(gmepath)/changes.txt $(gmepath)/design.txt $(gmepath)/gme.txt $(gmepath)/license.txt $(gmepath)/readme.txt 
 
@@ -8,108 +11,108 @@ gmedir = $(libdir)/$(PACKAGE)
 pkglib_LTLIBRARIES = gme.la
 
 gme_la_SOURCES = cgme.c\
-Game_Music_Emu-0.5.2/gme/Ay_Apu.cpp\
-Game_Music_Emu-0.5.2/gme/Gb_Apu.cpp\
-Game_Music_Emu-0.5.2/gme/Hes_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/Nes_Fme7_Apu.cpp\
-Game_Music_Emu-0.5.2/gme/Sms_Apu.cpp\
-Game_Music_Emu-0.5.2/gme/Ay_Cpu.cpp\
-Game_Music_Emu-0.5.2/gme/Gb_Cpu.cpp\
-Game_Music_Emu-0.5.2/gme/Kss_Cpu.cpp\
-Game_Music_Emu-0.5.2/gme/Nes_Namco_Apu.cpp\
-Game_Music_Emu-0.5.2/gme/Snes_Spc.cpp\
-Game_Music_Emu-0.5.2/gme/Ay_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/Gb_Oscs.cpp\
-Game_Music_Emu-0.5.2/gme/Kss_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/Nes_Oscs.cpp\
-Game_Music_Emu-0.5.2/gme/Spc_Cpu.cpp\
-Game_Music_Emu-0.5.2/gme/Blip_Buffer.cpp\
-Game_Music_Emu-0.5.2/gme/Gbs_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/Kss_Scc_Apu.cpp\
-Game_Music_Emu-0.5.2/gme/Nes_Vrc6_Apu.cpp\
-Game_Music_Emu-0.5.2/gme/Spc_Dsp.cpp\
-Game_Music_Emu-0.5.2/gme/Classic_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/gme.cpp\
-Game_Music_Emu-0.5.2/gme/M3u_Playlist.cpp\
-Game_Music_Emu-0.5.2/gme/Nsfe_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/Spc_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/Data_Reader.cpp\
-Game_Music_Emu-0.5.2/gme/Gme_File.cpp\
-Game_Music_Emu-0.5.2/gme/Multi_Buffer.cpp\
-Game_Music_Emu-0.5.2/gme/Nsf_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/Vgm_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/Dual_Resampler.cpp\
-Game_Music_Emu-0.5.2/gme/Gym_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/Music_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/Sap_Apu.cpp\
-Game_Music_Emu-0.5.2/gme/Vgm_Emu_Impl.cpp\
-Game_Music_Emu-0.5.2/gme/Effects_Buffer.cpp\
-Game_Music_Emu-0.5.2/gme/Hes_Apu.cpp\
-Game_Music_Emu-0.5.2/gme/Nes_Apu.cpp\
-Game_Music_Emu-0.5.2/gme/Sap_Cpu.cpp\
-Game_Music_Emu-0.5.2/gme/Ym2413_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/Fir_Resampler.cpp\
-Game_Music_Emu-0.5.2/gme/Hes_Cpu.cpp\
-Game_Music_Emu-0.5.2/gme/Nes_Cpu.cpp\
-Game_Music_Emu-0.5.2/gme/Sap_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/Ym2612_Emu.cpp\
-Game_Music_Emu-0.5.2/gme/Ay_Apu.h\
-Game_Music_Emu-0.5.2/gme/Ay_Cpu.h\
-Game_Music_Emu-0.5.2/gme/Ay_Emu.h\
-Game_Music_Emu-0.5.2/gme/blargg_common.h\
-Game_Music_Emu-0.5.2/gme/blargg_config.h\
-Game_Music_Emu-0.5.2/gme/blargg_endian.h\
-Game_Music_Emu-0.5.2/gme/blargg_source.h\
-Game_Music_Emu-0.5.2/gme/Blip_Buffer.h\
-Game_Music_Emu-0.5.2/gme/Classic_Emu.h\
-Game_Music_Emu-0.5.2/gme/Data_Reader.h\
-Game_Music_Emu-0.5.2/gme/Dual_Resampler.h\
-Game_Music_Emu-0.5.2/gme/Effects_Buffer.h\
-Game_Music_Emu-0.5.2/gme/Fir_Resampler.h\
-Game_Music_Emu-0.5.2/gme/Gb_Apu.h\
-Game_Music_Emu-0.5.2/gme/Gb_Cpu.h\
-Game_Music_Emu-0.5.2/gme/gb_cpu_io.h\
-Game_Music_Emu-0.5.2/gme/Gb_Oscs.h\
-Game_Music_Emu-0.5.2/gme/Gbs_Emu.h\
-Game_Music_Emu-0.5.2/gme/Gme_File.h\
-Game_Music_Emu-0.5.2/gme/gme.h\
-Game_Music_Emu-0.5.2/gme/Gym_Emu.h\
-Game_Music_Emu-0.5.2/gme/Hes_Apu.h\
-Game_Music_Emu-0.5.2/gme/Hes_Cpu.h\
-Game_Music_Emu-0.5.2/gme/hes_cpu_io.h\
-Game_Music_Emu-0.5.2/gme/Hes_Emu.h\
-Game_Music_Emu-0.5.2/gme/Kss_Cpu.h\
-Game_Music_Emu-0.5.2/gme/Kss_Emu.h\
-Game_Music_Emu-0.5.2/gme/Kss_Scc_Apu.h\
-Game_Music_Emu-0.5.2/gme/M3u_Playlist.h\
-Game_Music_Emu-0.5.2/gme/Multi_Buffer.h\
-Game_Music_Emu-0.5.2/gme/Music_Emu.h\
-Game_Music_Emu-0.5.2/gme/Nes_Apu.h\
-Game_Music_Emu-0.5.2/gme/Nes_Cpu.h\
-Game_Music_Emu-0.5.2/gme/nes_cpu_io.h\
-Game_Music_Emu-0.5.2/gme/Nes_Fme7_Apu.h\
-Game_Music_Emu-0.5.2/gme/Nes_Namco_Apu.h\
-Game_Music_Emu-0.5.2/gme/Nes_Oscs.h\
-Game_Music_Emu-0.5.2/gme/Nes_Vrc6_Apu.h\
-Game_Music_Emu-0.5.2/gme/Nsfe_Emu.h\
-Game_Music_Emu-0.5.2/gme/Nsf_Emu.h\
-Game_Music_Emu-0.5.2/gme/Sap_Apu.h\
-Game_Music_Emu-0.5.2/gme/Sap_Cpu.h\
-Game_Music_Emu-0.5.2/gme/sap_cpu_io.h\
-Game_Music_Emu-0.5.2/gme/Sap_Emu.h\
-Game_Music_Emu-0.5.2/gme/Sms_Apu.h\
-Game_Music_Emu-0.5.2/gme/Sms_Oscs.h\
-Game_Music_Emu-0.5.2/gme/Snes_Spc.h\
-Game_Music_Emu-0.5.2/gme/Spc_Cpu.h\
-Game_Music_Emu-0.5.2/gme/Spc_Dsp.h\
-Game_Music_Emu-0.5.2/gme/Spc_Emu.h\
-Game_Music_Emu-0.5.2/gme/Vgm_Emu.h\
-Game_Music_Emu-0.5.2/gme/Vgm_Emu_Impl.h\
-Game_Music_Emu-0.5.2/gme/Ym2413_Emu.h\
-Game_Music_Emu-0.5.2/gme/Ym2612_Emu.h
+game-music-emu-0.5.5/gme/Ay_Apu.cpp\
+game-music-emu-0.5.5/gme/Gb_Apu.cpp\
+game-music-emu-0.5.5/gme/Hes_Emu.cpp\
+game-music-emu-0.5.5/gme/Nes_Fme7_Apu.cpp\
+game-music-emu-0.5.5/gme/Sms_Apu.cpp\
+game-music-emu-0.5.5/gme/Ay_Cpu.cpp\
+game-music-emu-0.5.5/gme/Gb_Cpu.cpp\
+game-music-emu-0.5.5/gme/Kss_Cpu.cpp\
+game-music-emu-0.5.5/gme/Nes_Namco_Apu.cpp\
+game-music-emu-0.5.5/gme/Snes_Spc.cpp\
+game-music-emu-0.5.5/gme/Ay_Emu.cpp\
+game-music-emu-0.5.5/gme/Gb_Oscs.cpp\
+game-music-emu-0.5.5/gme/Kss_Emu.cpp\
+game-music-emu-0.5.5/gme/Nes_Oscs.cpp\
+game-music-emu-0.5.5/gme/Spc_Cpu.cpp\
+game-music-emu-0.5.5/gme/Blip_Buffer.cpp\
+game-music-emu-0.5.5/gme/Gbs_Emu.cpp\
+game-music-emu-0.5.5/gme/Kss_Scc_Apu.cpp\
+game-music-emu-0.5.5/gme/Nes_Vrc6_Apu.cpp\
+game-music-emu-0.5.5/gme/Spc_Dsp.cpp\
+game-music-emu-0.5.5/gme/Classic_Emu.cpp\
+game-music-emu-0.5.5/gme/gme.cpp\
+game-music-emu-0.5.5/gme/M3u_Playlist.cpp\
+game-music-emu-0.5.5/gme/Nsfe_Emu.cpp\
+game-music-emu-0.5.5/gme/Spc_Emu.cpp\
+game-music-emu-0.5.5/gme/Data_Reader.cpp\
+game-music-emu-0.5.5/gme/Gme_File.cpp\
+game-music-emu-0.5.5/gme/Multi_Buffer.cpp\
+game-music-emu-0.5.5/gme/Nsf_Emu.cpp\
+game-music-emu-0.5.5/gme/Vgm_Emu.cpp\
+game-music-emu-0.5.5/gme/Dual_Resampler.cpp\
+game-music-emu-0.5.5/gme/Gym_Emu.cpp\
+game-music-emu-0.5.5/gme/Music_Emu.cpp\
+game-music-emu-0.5.5/gme/Sap_Apu.cpp\
+game-music-emu-0.5.5/gme/Vgm_Emu_Impl.cpp\
+game-music-emu-0.5.5/gme/Effects_Buffer.cpp\
+game-music-emu-0.5.5/gme/Hes_Apu.cpp\
+game-music-emu-0.5.5/gme/Nes_Apu.cpp\
+game-music-emu-0.5.5/gme/Sap_Cpu.cpp\
+game-music-emu-0.5.5/gme/Ym2413_Emu.cpp\
+game-music-emu-0.5.5/gme/Fir_Resampler.cpp\
+game-music-emu-0.5.5/gme/Hes_Cpu.cpp\
+game-music-emu-0.5.5/gme/Nes_Cpu.cpp\
+game-music-emu-0.5.5/gme/Sap_Emu.cpp\
+game-music-emu-0.5.5/gme/Ym2612_Emu.cpp\
+game-music-emu-0.5.5/gme/Ay_Apu.h\
+game-music-emu-0.5.5/gme/Ay_Cpu.h\
+game-music-emu-0.5.5/gme/Ay_Emu.h\
+game-music-emu-0.5.5/gme/blargg_common.h\
+game-music-emu-0.5.5/gme/blargg_config.h\
+game-music-emu-0.5.5/gme/blargg_endian.h\
+game-music-emu-0.5.5/gme/blargg_source.h\
+game-music-emu-0.5.5/gme/Blip_Buffer.h\
+game-music-emu-0.5.5/gme/Classic_Emu.h\
+game-music-emu-0.5.5/gme/Data_Reader.h\
+game-music-emu-0.5.5/gme/Dual_Resampler.h\
+game-music-emu-0.5.5/gme/Effects_Buffer.h\
+game-music-emu-0.5.5/gme/Fir_Resampler.h\
+game-music-emu-0.5.5/gme/Gb_Apu.h\
+game-music-emu-0.5.5/gme/Gb_Cpu.h\
+game-music-emu-0.5.5/gme/gb_cpu_io.h\
+game-music-emu-0.5.5/gme/Gb_Oscs.h\
+game-music-emu-0.5.5/gme/Gbs_Emu.h\
+game-music-emu-0.5.5/gme/Gme_File.h\
+game-music-emu-0.5.5/gme/gme.h\
+game-music-emu-0.5.5/gme/Gym_Emu.h\
+game-music-emu-0.5.5/gme/Hes_Apu.h\
+game-music-emu-0.5.5/gme/Hes_Cpu.h\
+game-music-emu-0.5.5/gme/hes_cpu_io.h\
+game-music-emu-0.5.5/gme/Hes_Emu.h\
+game-music-emu-0.5.5/gme/Kss_Cpu.h\
+game-music-emu-0.5.5/gme/Kss_Emu.h\
+game-music-emu-0.5.5/gme/Kss_Scc_Apu.h\
+game-music-emu-0.5.5/gme/M3u_Playlist.h\
+game-music-emu-0.5.5/gme/Multi_Buffer.h\
+game-music-emu-0.5.5/gme/Music_Emu.h\
+game-music-emu-0.5.5/gme/Nes_Apu.h\
+game-music-emu-0.5.5/gme/Nes_Cpu.h\
+game-music-emu-0.5.5/gme/nes_cpu_io.h\
+game-music-emu-0.5.5/gme/Nes_Fme7_Apu.h\
+game-music-emu-0.5.5/gme/Nes_Namco_Apu.h\
+game-music-emu-0.5.5/gme/Nes_Oscs.h\
+game-music-emu-0.5.5/gme/Nes_Vrc6_Apu.h\
+game-music-emu-0.5.5/gme/Nsfe_Emu.h\
+game-music-emu-0.5.5/gme/Nsf_Emu.h\
+game-music-emu-0.5.5/gme/Sap_Apu.h\
+game-music-emu-0.5.5/gme/Sap_Cpu.h\
+game-music-emu-0.5.5/gme/sap_cpu_io.h\
+game-music-emu-0.5.5/gme/Sap_Emu.h\
+game-music-emu-0.5.5/gme/Sms_Apu.h\
+game-music-emu-0.5.5/gme/Sms_Oscs.h\
+game-music-emu-0.5.5/gme/Snes_Spc.h\
+game-music-emu-0.5.5/gme/Spc_Cpu.h\
+game-music-emu-0.5.5/gme/Spc_Dsp.h\
+game-music-emu-0.5.5/gme/Spc_Emu.h\
+game-music-emu-0.5.5/gme/Vgm_Emu.h\
+game-music-emu-0.5.5/gme/Vgm_Emu_Impl.h\
+game-music-emu-0.5.5/gme/Ym2413_Emu.h\
+game-music-emu-0.5.5/gme/Ym2612_Emu.h
 
 gme_la_LDFLAGS = -module
 
 gme_la_LIBADD = $(LDADD) -lstdc++
-AM_CFLAGS = $(CFLAGS) -I$(gmepath) -std=c99
+AM_CFLAGS = $(CFLAGS) -I$(gmepath) -std=c99 -DGME_VERSION_055
 endif
diff --git a/plugins/gme/cgme.c b/plugins/gme/cgme.c
index 9c402553..5d2920f0 100644
--- a/plugins/gme/cgme.c
+++ b/plugins/gme/cgme.c
@@ -21,6 +21,9 @@
 #include "gme/gme.h"
 #include "../../deadbeef.h"
 
+//#define trace(...) { fprintf(stderr, __VA_ARGS__); }
+#define trace(fmt,...)
+
 static DB_decoder_t plugin;
 static DB_functions_t *deadbeef;
 
@@ -30,18 +33,18 @@ typedef struct {
     int reallength;
     uint32_t cgme_voicemask;
     float duration; // of current song
-} gme_info_t;
+} gme_fileinfo_t;
 
 static DB_fileinfo_t *
 cgme_open (void) {
-    DB_fileinfo_t *_info = malloc (sizeof (gme_info_t));
-    memset (_info, 0, sizeof (gme_info_t));
+    DB_fileinfo_t *_info = malloc (sizeof (gme_fileinfo_t));
+    memset (_info, 0, sizeof (gme_fileinfo_t));
     return _info;
 }
 
 static int
 cgme_init (DB_fileinfo_t *_info, DB_playItem_t *it) {
-    gme_info_t *info = (gme_info_t*)_info;
+    gme_fileinfo_t *info = (gme_fileinfo_t*)_info;
     int samplerate = deadbeef->conf_get_int ("synth.samplerate", 44100);
     if (gme_open_file (it->fname, &info->emu, samplerate)) {
         return -1;
@@ -49,23 +52,28 @@ cgme_init (DB_fileinfo_t *_info, DB_playItem_t *it) {
     gme_mute_voices (info->emu, info->cgme_voicemask);
     gme_start_track (info->emu, it->tracknum);
 
-    track_info_t inf;
-
+#ifdef GME_VERSION_055
+    gme_info_t *inf;
+    gme_track_info (info->emu, &inf, it->tracknum);
+#else
+    track_info_t _inf;
     gme_track_info (info->emu, &inf, it->tracknum);
+    track_info_t *inf = &_inf;
+#endif
 
     _info->plugin = &plugin;
     _info->bps = 16;
     _info->channels = 2;
     _info->samplerate = samplerate;
     info->duration = deadbeef->pl_get_item_duration (it);
-    info->reallength = inf.length; 
+    info->reallength = inf->length; 
     _info->readpos = 0;
     return 0;
 }
 
 static void
 cgme_free (DB_fileinfo_t *_info) {
-    gme_info_t *info = (gme_info_t*)_info;
+    gme_fileinfo_t *info = (gme_fileinfo_t*)_info;
     if (info->emu) {
         gme_delete (info->emu);
     }
@@ -74,7 +82,7 @@ cgme_free (DB_fileinfo_t *_info) {
 
 static int
 cgme_read (DB_fileinfo_t *_info, char *bytes, int size) {
-    gme_info_t *info = (gme_info_t*)_info;
+    gme_fileinfo_t *info = (gme_fileinfo_t*)_info;
     float t = (size/4) / (float)_info->samplerate;
     if (_info->readpos + t >= info->duration) {
         t = info->duration - _info->readpos;
@@ -98,7 +106,7 @@ cgme_read (DB_fileinfo_t *_info, char *bytes, int size) {
 
 static int
 cgme_seek (DB_fileinfo_t *_info, float time) {
-    gme_info_t *info = (gme_info_t*)_info;
+    gme_fileinfo_t *info = (gme_fileinfo_t*)_info;
     if (gme_seek (info->emu, (long)(time * 1000))) {
         return -1;
     }
@@ -109,49 +117,58 @@ cgme_seek (DB_fileinfo_t *_info, float time) {
 static DB_playItem_t *
 cgme_insert (DB_playItem_t *after, const char *fname) {
     Music_Emu *emu;
+    trace ("gme_open_file %s\n", fname);
     if (!gme_open_file (fname, &emu, gme_info_only)) {
         int cnt = gme_track_count (emu);
+        trace ("track cnt %d\n", cnt);
         for (int i = 0; i < cnt; i++) {
-            track_info_t inf;
+#ifdef GME_VERSION_055
+            gme_info_t *inf;
+            const char *ret = gme_track_info (emu, &inf, i);
+#else
+            track_info_t _inf;
             const char *ret = gme_track_info (emu, &inf, i);
+            track_info_t *inf = &_inf;
+#endif
             if (!ret) {
                 DB_playItem_t *it = deadbeef->pl_item_alloc ();
                 it->decoder_id = deadbeef->plug_get_decoder_id (plugin.plugin.id);
                 it->fname = strdup (fname);
                 char str[1024];
-                if (inf.song[0]) {
-                    snprintf (str, 1024, "%d %s - %s", i, inf.game, inf.song);
+                if (inf->song[0]) {
+                    snprintf (str, 1024, "%d %s - %s", i, inf->game, inf->song);
                 }
                 else {
-                    snprintf (str, 1024, "%d %s - ?", i, inf.game);
+                    snprintf (str, 1024, "%d %s - ?", i, inf->game);
                 }
+                trace ("track subtune %d %s, length=%d\n", i, str, inf->length);
                 it->tracknum = i;
 
                 // add metadata
-                deadbeef->pl_add_meta (it, "system", inf.system);
-                deadbeef->pl_add_meta (it, "album", inf.game);
-                int tl = sizeof (inf.song);
+                deadbeef->pl_add_meta (it, "system", inf->system);
+                deadbeef->pl_add_meta (it, "album", inf->game);
+                int tl = sizeof (inf->song);
                 int n;
-                for (n = 0; i < tl && inf.song[n] && inf.song[n] == ' '; n++);
-                if (n == tl || !inf.song[n]) {
+                for (n = 0; i < tl && inf->song[n] && inf->song[n] == ' '; n++);
+                if (n == tl || !inf->song[n]) {
                     deadbeef->pl_add_meta (it, "title", NULL);
                 }
                 else {
-                    deadbeef->pl_add_meta (it, "title", inf.song);
+                    deadbeef->pl_add_meta (it, "title", inf->song);
                 }
-                deadbeef->pl_add_meta (it, "artist", inf.author);
-                deadbeef->pl_add_meta (it, "copyright", inf.copyright);
-                deadbeef->pl_add_meta (it, "comment", inf.comment);
-                deadbeef->pl_add_meta (it, "dumper", inf.dumper);
+                deadbeef->pl_add_meta (it, "artist", inf->author);
+                deadbeef->pl_add_meta (it, "copyright", inf->copyright);
+                deadbeef->pl_add_meta (it, "comment", inf->comment);
+                deadbeef->pl_add_meta (it, "dumper", inf->dumper);
                 char trk[10];
                 snprintf (trk, 10, "%d", i+1);
                 deadbeef->pl_add_meta (it, "track", trk);
-                if (inf.length == -1) {
+                if (inf->length == -1) {
                     float songlength = deadbeef->conf_get_float ("gme.songlength", 3);
                     deadbeef->pl_set_item_duration (it, songlength * 60.f);
                 }
                 else {
-                    deadbeef->pl_set_item_duration (it, (float)inf.length/1000.f);
+                    deadbeef->pl_set_item_duration (it, (float)inf->length/1000.f);
                 }
                 const char *ext = fname + strlen (fname) - 1;
                 while (ext >= fname && *ext != '.') {
diff --git a/plugins/gme/game-music-emu-0.5.5/changes.txt b/plugins/gme/game-music-emu-0.5.5/changes.txt
new file mode 100644
index 00000000..f3038387
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/changes.txt
@@ -0,0 +1,225 @@
+Game_Music_Emu Change Log

+-------------------------

+

+Game_Music_Emu 0.5.5

+--------------------

+- CMake build support has been added.  You can build Game_Music_Emu as

+a shared library and install it so that you do not have to include your

+own copy if you know libgme will be present on your target system.

+Requires CMake 2.6 or higher.

+

+Game_Music_Emu 0.5.2

+--------------------

+- *TONS* of changes and improvements. You should re-read the new header

+files and documentation as the changes will allow you to simplify your

+code a lot (it might even be simpler to just rewrite it). Existing code

+should continue to work without changes in most cases (see Deprecated

+features in gme.txt).

+

+- New file formats: AY, HES, KSS, SAP, NSFE

+

+- All-new comprehensive C interface (also usable from C++). Simplifies

+many things, especially file loading, and brings everything together in

+one header file (gme.h).

+

+- Information tags and track names and times can be accessed for all

+game music formats

+

+- New features supported by all emulators: end of track fading,

+automatic silence detection, adjustable song tempo, seek to new time in

+track

+

+- Updated mini player example to support track names and times, echo,

+tempo, and channel muting, and added visual waveform display

+

+- Improved configuration to use blargg_config.h, which you can modify

+and keep when you update to a newer libary version. Includes flag for

+library to automatically handle gzipped files using zlib (so you don't

+need to use Gzip_File_Reader anymore).

+

+- GBS: Fixed wave channel to not reset waveform when APU is powered off

+(affected Garfield). Also improved invalid bank selection (affected Game

+& Watch and others).

+

+- VGM: Added support for alternate noise shifter register

+configurations, used by other systems like the BBC Micro.

+

+- SPC: Removed IPL ROM dump from emulator, as none of the SPC files I

+scanned needed it, and an SPC file can include a copy if necessary. Also

+re-enabled supposed clamping in gaussian interpolation between the third

+and fourth lookups, though I don't know whether it matters

+

+- Added Music_Emu::load_mem() to use music data already in memory

+(without copying it)

+

+- Added Music_Emu::warning(), which reports minor problems when loading

+and playing a music file

+

+- Added Music_Emu::set_gain() for uniform adjustment of gain. Can only

+be set during initialization, so not useful as a general volume control.

+

+- Added custom operator new to ensure that no exceptions are thrown in

+the library (I'd use std::nothrow if it were part of pre-ISO (ARM) C++)

+

+- Added BLIP_BUFFER_FAST flag to blargg_config.h to use a lower quality

+bandlimited synthesis in "classic" emulators, which might help

+performance on ancient processors (measure first!). Don't use this

+unless absolutely necessary, as quality suffers.

+

+- Improved performance a bit for x86 platforms

+

+- Text files now in DOS newline format so they will open in Notepad

+properly

+

+- Removed requirement that file header structures not have any padding

+added to the end

+

+- Fixed common bug in all CPU emulators where negative program counter

+could crash emulator (occurred during a negative branch from the

+beginning of memory). Also fixed related bug in Z80 emulator for

+IX/IY+displacement mode.

+

+- Eliminated all warnings when compiling on gcc 4.0. The following

+generates no diagnostics:

+

+	gcc -S gme/*.cpp -o /dev/null -ansi -fno-gnu-keywords

+	-fno-nonansi-builtins -pedantic -W -Wabi -Wall -Wcast-align

+	-Wcast-qual -Wchar-subscripts -Wdisabled-optimization -Werror

+	-Winline -Wlong-long -Wmultichar -Winvalid-offsetof

+	-Wnon-virtual-dtor -Woverloaded-virtual -Wparentheses

+	-Wpointer-arith -Wredundant-decls -Wreorder -Wsign-compare

+	-Wsign-promo -Wunknown-pragmas -Wwrite-strings

+

+

+Game_Music_Emu 0.3.0

+--------------------

+- Added more demos, including music player using the SDL multimedia

+library for sound, and improved documentation

+

+- All: Improved interface to emulators to allow simpler setup and

+loading. Instead of various init() functions, all now support

+set_sample_rate( long rate ) and load( const char* file_path ).

+

+- All: Removed error return from start_track() and play(), and added

+error_count() to get the total number of emulation errors since the

+track was last started. See demos for examples of new usage.

+

+- All: Fixed mute_voices() muting to be preserved after loading files

+and starting tracks, instead of being cleared as it was whenever a track

+was started

+

+- VGM: Rewrote Vgm_Emu to support Sega Genesis/Mega Drive FM sound at

+any sample rate with optional FM oversampling, support for alternate

+YM2612 sound cores, and support for optional YM2413

+

+- VGM: Added tempo control, useful for slowing 60Hz NTSC Sega Genesis

+music to 50Hz PAL

+

+- VGM: Removed Vgm_Emu::track_data(), since I realized that this

+information is already present in the VGM header (oops!)

+

+- GYM: Changed Gym_Emu::track_length() operation (see Gym_Emu.h)

+

+- NSF: Added support for Sunsoft FME-7 sound chip used by Gimmick

+soundtrack

+

+- NSF: Fixed Namco 106 problems with Final Lap and others

+

+- Moved library sources to gme/ directory to reduce clutter, and merged

+boost/ functionality into blargg_common.h

+

+- Added Gzip_File_Reader for transparently using gzipped files

+

+

+Game_Music_Emu 0.2.4

+--------------------

+- Created a discussion forum for problems and feedback:

+http://groups-beta.google.com/group/blargg-sound-libs

+

+- Changed error return value of Blip_Buffer::sample_rate() (also for

+Stereo_Buffer, Effects_Buffer, etc.) to blargg_err_t (defined in

+blargg_common.h), to make error reporting consistent with other

+functions. This means the "no error" return value is the opposite of

+what it was before, which will break current code which checks the error

+return value:

+

+	// current code (broken)

+	if ( !buf.sample_rate( samples_per_sec ) )

+		out_of_memory();

+	

+	// quick-and-dirty fix (just remove the ! operation)

+	if ( buf.sample_rate( samples_per_sec ) )

+		out_of_memory();

+	

+	// proper fix

+	blargg_err_t error = buf.sample_rate( samples_per_sec );

+	if ( error )

+		report_error( error );

+

+- Implemented workaround for MSVC++ 6 compiler limitations, allowing it

+to work on that compiler again

+

+- Added sample clamping to avoid wrap-around at high volumes, allowing

+higher volume with little distortion

+

+- Added to-do list and design notes

+

+- Added Music_Emu::skip( long sample_count ) to skip ahead in current

+track

+

+- Added Gym_Emu::track_length() and Vgm_Emu::track_length() for

+determining the length of non-looped GYM and VGM files

+

+- Partially implemented DMC non-linearity when its value is directly set

+using $4011, which reduces previously over-emphasized "popping" of

+percussion on some games (TMNT II in particular)

+

+- Fixed Fir_Resampler, used for SPC and GYM playback (was incorrectly

+using abs() instead of fabs()...argh)

+

+- Fixed SPC emulation bugs: eliminated clicks in Plok! soundtrack and

+now stops sample slightly earlier than the end, as the SNES does. Fixed

+a totally broken CPU addressing mode.

+

+- Fixed Konami VRC6 saw wave (was very broken before). Now VRC6 music

+sounds decent

+

+- Fixed a minor GBS emulation bug

+

+- Fixed GYM loop point bug when track was restarted before loop point

+had been reached

+

+- Made default GBS frequency equalization less muffled

+

+- Added pseudo-surround effect removal for SPC files

+

+- Added Music_Emu::voice_names() which returns names for each voice.

+

+- Added BLARGG_SOURCE_BEGIN which allows custom compiler options to be

+easily set for library sources

+

+- Changed assignment of expansion sound chips in Nsf_Emu to be spread

+more evenly when using Effects_Buffer

+

+- Changed 'size_t' values in Blip_Buffer interface to 'long'

+

+- Changed demo to generate a WAVE sound file rather than an AIFF file

+

+

+Game_Music_Emu 0.2.0

+--------------------

+- Redid framework and rewrote/cleaned up emulators

+

+- Changed licensing to GNU Lesser General Public License (LGPL)

+

+- Added Sega Genesis GYM and Super Nintendo SPC emulators

+

+- Added Namco-106 and Konami VRC6 sound chip support to NSF emulator

+

+- Eliminated use of static mutable data in emulators, allowing

+multi-instance safety

+

+

+Game_Music_Emu 0.1.0

+--------------------

+- First release

diff --git a/plugins/gme/game-music-emu-0.5.5/design.txt b/plugins/gme/game-music-emu-0.5.5/design.txt
new file mode 100644
index 00000000..8c8c65b1
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/design.txt
@@ -0,0 +1,194 @@
+Game_Music_Emu 0.5.2 Design

+---------------------------

+This might be slightly out-of-date at times, but will be a big help in

+understanding the library implementation.

+

+

+Architecture

+------------

+The library is essentially a bunch of independent game music file

+emulators unified with a common interface.

+

+Gme_File and Music_Emu provide a common interface to the emulators. The

+virtual functions are protected rather than public to allow pre- and

+post-processing of arguments and data in one place. This allows the

+emulator classes to assume that everything is set up properly when

+starting a track and playing samples.

+

+All file input is done with the Data_Reader interface. Many derived

+classes are present, for the usual disk-based file and block of memory,

+to specialized adaptors for things like reading a subset of data or

+combining a block of memory with a Data_Reader to the remaining data.

+This makes the library much more flexible with regard to the source of

+game music file data. I still added a specialized load_mem() function to

+have the emulator keep a pointer to data already read in memory, for

+those formats whose files can be absolutely huge (GYM, some VGMs). This

+is important if for some reason the caller must load the data ahead of

+time, but doesn't want the emulator needlessly making a copy.

+

+Since silence checking and fading are relatively complex, they are kept

+separate from basic file loading and track information, which are

+handled in the base class Gme_File. My original intent was to use

+Gme_File as the common base class for full emulators and track

+information-only readers, but implementing the C interface was much

+simpler if both derived from Music_Emu. User C++ code can still benefit

+from static checking by using Gme_File where only track information will

+be accessed.

+

+Each emulator generally has three components: main emulator, CPU

+emulator, and sound chip emulator(s). Each component has minimal

+coupling, so use in a full emulator or stand alone is fairly easy. This

+modularity really helps reduce complexity. Blip_Buffer helps a lot with

+simplifying the APU interfaces and implementation.

+

+The "classic" emulators derive from Classic_Emu, which handles

+Blip_Buffer filling and multiple channels. It uses Multi_Buffer for

+output, allowing you to derive a custom buffer that could output each

+voice to a separate sound channel and do different processing on each.

+At some point I'm going to implement a better Effects_Buffer that allows

+individual control of every channel.

+

+In implementing the C interface, I wanted a way to specify an emulator

+type that didn't require linking in all the emulators. For each emulator

+type there is a global object with pointers to functions to create the

+emulator or a track information reader. The emulator type is thus a

+pointer to this, which conveniently allows for a NULL value. The user

+referencing this emulator type object is what ultimately links the

+emulator in (unless new Foo_Emu is used in C++, of course). This type

+also serves as a useful substitute for RTTI on older C++ compilers.

+

+Addendum: I have since added gme_type_list(), which causes all listed

+emulators to be linked in. To avoid this, I make the list itself

+editable in blargg_config.h. Having a built-in list allows

+gme_load_file() to take a path and give back an emulator with the file

+loaded, which is extremely useful for new users.

+

+

+Interface conventions

+----------------------

+If a function retains a pointer to or replaces the value of an object

+passed, it takes a pointer so that it will be clear in the caller's

+source code that care is required.

+

+Multi-word names have an underscore '_' separator between individual

+words.

+

+Functions are named with lowercase words. Functions which perform an

+action with side-effects are named with a verb phrase (i.e. load, move,

+run). Functions which return the value of a piece of state are named

+using a noun phrase (i.e. loaded, moved, running).

+

+Classes are named with capitalized words. Only the first letter of an

+acronym is capitalized. Class names are nouns, sometimes suggestive of

+what they do (i.e. File_Scanner).

+

+Structure, enumeration, and typedefs to these and built-in types are

+named using lowercase words with a _t suffix.

+

+Macros are named with all-uppercase words.

+

+Internal names which can't be hidden due to technical reasons have an

+underscore '_' suffix.

+

+

+Managing Complexity

+-------------------

+Complexity has been a factor in most library decisions. Many features

+have been passed by due to the complexity they would add. Once

+complexity goes past a certain level, it mentally grasping the library

+in its entirety, at which point more defects will occur and be hard to

+find.

+

+I chose 16-bit signed samples because it seems to be the most common

+format. Supporting multiple formats would add too much complexity to be

+worth it. Other formats can be obtained via conversion.

+

+I've kept interfaces fairly lean, leaving many possible features

+untapped but easy to add if necessary. For example the classic emulators

+could have volume and frequency equalization adjusted separately for

+each channel, since they each have an associated Blip_Synth.

+

+Source files of 400 lines or less seem to be the best size to limit

+complexity. In a few cases there is no reasonable way to split longer

+files, or there is benefit from having the source together in one file.

+

+

+Preventing Bugs

+---------------

+I've done many things to reduce the opportunity for defects. A general

+principle is to write code so that defects will be as visible as

+possible. I've used several techniques to achieve this.

+

+I put assertions at key points where defects seem likely or where

+corruption due to a defect is likely to be visible. I've also put

+assertions where violations of the interface are likely. In emulators

+where I am unsure of exact hardware operation in a particular case, I

+output a debug-only message noting that this has occurred; many times I

+haven't implemented a hardware feature because nothing uses it. I've

+made code brittle where there is no clear reason flexibility; code

+written to handle every possibility sacrifices quality and reliability

+to handle vaguely defined situations.

+

+

+Flexibility through indirection

+-------------------------------

+I've tried to allow the most flexibility of modules by using indirection

+to allow extension by the user. This keeps each module simpler and more

+focused on its unique task.

+

+The classic emulators use Multi_Buffer, which potentially allows a

+separate Blip_Buffer for each channel. This keeps emulators free of

+typical code to allow output in mono, stereo, panning, etc.

+

+All emulators use a reader object to access file data, allowing it to be

+stored in a regular file, compressed archive, memory, or generated

+on-the-fly. Again, the library can be kept free of the particulars of

+file access and changes required to support new formats.

+

+

+Emulators in general

+--------------------

+When I wrote the first NES sound emulator, I stored most of the state in

+an emulator-specific format, with significant redundancy. In the

+register write function I decoded everything into named variables. I

+became tired of the verbosity and wanted to more closely model the

+hardware, so I moved to a style of storing the last written value to

+each register, along with as little other state as possible, mostly the

+internal hardware registers. While this involves slightly more

+recalculation, in most cases the emulation code is of comparable size.

+It also makes state save/restore (for use in a full emulator) much

+simpler. Finally, it makes debugging easier since the hardware registers

+used in emulation are obvious.

+

+

+CPU Cores

+---------

+I've spent lots of time coming up with techniques to optimize the CPU

+cores. Some of the most important: execute multiple instructions during

+an emulation call, keep state in local variables to allow register

+assignment, optimize state representation for most common instructions,

+defer status flag calculation until actually needed, read program code

+directly without a call to the memory read function, always pre-fetch

+the operand byte before decoding instruction, and emulate instructions

+using common blocks of code.

+

+I've successfully used Nes_Cpu in a fairly complete NES emulator, and

+I'd like to make all the CPU emulators suitable for use in emulators. It

+seems a waste for them to be used only for the small amount of emulation

+necessary for game music files.

+

+I debugged the CPU cores by writing a test shell that ran them in

+parallel with other CPU cores and compared all memory accesses and

+processor states at each step. This provided good value at little cost.

+

+The CPU mapping page size is adjustable to allow the best tradeoff

+between memory/cache usage and handler granularity. The interface allows

+code to be somewhat independent of the page size.

+

+I optimize program memory accesses to direct reads rather than calls to

+the memory read function. My assumption is that it would be difficult to

+get useful code out of hardware I/O addresses, so no software will

+intentionally execute out of I/O space. Since the page size can be

+changed easily, most program memory mapping schemes can be accommodated.

+This greatly reduces memory access function calls.

+

diff --git a/plugins/gme/game-music-emu-0.5.5/gme.txt b/plugins/gme/game-music-emu-0.5.5/gme.txt
new file mode 100644
index 00000000..ca3da769
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme.txt
@@ -0,0 +1,464 @@
+Game_Music_Emu 0.5.5

+--------------------

+Author : Shay Green <gblargg@gmail.com>

+Website: http://www.slack.net/~ant/libs/

+Forum  : http://groups.google.com/group/blargg-sound-libs

+License: GNU Lesser General Public License (LGPL)

+

+Contents

+--------

+* Overview

+* C and C++ interfaces

+* Function reference

+* Error handling

+* Emulator types

+* M3U playlist support

+* Information fields

+* Track length

+* Loading file data

+* Sound parameters

+* VGM/GYM YM2413 & YM2612 FM sound

+* Modular construction

+* Obscure features

+* Solving problems

+* Deprecated features

+* Thanks

+

+

+Overview

+--------

+This library can open game music files, play tracks, and read game and

+track information tags. To play a game music file, do the following:

+

+* Open the file with gme_open_file()

+* Start a track with gme_start_track();

+* Generate samples as needed with gme_play()

+* Play samples through speaker using your operating system

+* Delete emulator when done with gme_delete()

+

+Your code must arrange for the generated samples to be played through

+the computer's speaker using whatever method your operating system

+requires.

+

+There are many additional features available; you can:

+

+* Determine of the type of a music file without opening it with

+gme_identify_*()

+* Load just the file's information tags with gme_info_only

+* Load from a block of memory rather than a file with gme_load_data()

+* Arrange for a fade-out at a particular time with gme_set_fade

+* Find when a track has ended with gme_track_ended()

+* Seek to a new time in the track with gme_seek()

+* Load an extended m3u playlist with gme_load_m3u()

+* Get a list of the voices (channels) and mute them individually with

+gme_voice_names() and gme_mute_voice()

+* Change the playback tempo without affecting pitch with gme_set_tempo()

+* Adjust treble/bass equalization with gme_set_equalizer()

+* Associate your own data with an emulator and later get it back with

+gme_set_user_data()

+* Register a function of yours to be called back when the emulator is

+deleted with gme_set_user_cleanup()

+

+Refer to gme.h for a comprehensive summary of features.

+

+

+C and C++ interfaces

+--------------------

+While the library is written in C++, an extensive C interface is

+provided in gme.h. This C interface will be referred to throughout this

+documentation unless a feature is only available in the full C++

+interface. All C interface functions and other names have the gme_

+prefix, so you can recognize a C++-only feature by the lack of gme_ in

+the names used (contact me if you'd like a feature added to the C

+interface). If you're building a shared library, I highly recommend

+sticking to the C interface only, because it will be more stable between

+releases of the library than the C++ interface. Finally, the C and C++

+interfaces can be freely mixed without problems. Compare demo/basics.c

+with demo/cpp_basics.cpp to see how the C and C++ interfaces translate

+between each other.

+

+

+Function reference

+------------------

+Read the following header files for a complete reference to functions

+and features. The second group of header files can only be used in C++.

+

+blargg_config.h     Library configuration

+gme.h               C interface (also usable from C++)

+

+Gme_File.h          File loading and track information

+Music_Emu.h         Track playback and adjustments

+Data_Reader.h       Custom data readers

+Effects_Buffer.h    Sound buffer with adjustable stereo echo and panning

+M3u_Playlist.h      M3U playlist support

+Gbs_Emu.h           GBS equalizer settings

+Nsf_Emu.h           NSF equalizer settings

+Spc_Emu.h           SPC surround disable

+Vgm_Emu.h           VGM oversampling disable and custom buffer query

+

+

+Error handling

+--------------

+Functions which can fail have a return type of gme_err_t (blargg_err_t

+in the C++ interfaces), which is a pointer to an error string (const

+char*). If a function is successful it returns NULL. Errors that you can

+easily avoid are checked with debug assertions; gme_err_t return values

+are only used for genuine run-time errors that can't be easily predicted

+in advance (out of memory, I/O errors, incompatible file data). Your

+code should check all error values.

+

+To improve usability for C programmers, C++ programmers unfamiliar with

+exceptions, and compatibility with older C++ compilers, the library does

+*not* throw any C++ exceptions and uses malloc() instead of the standard

+operator new. This means that you *must* check for NULL when creating a

+library object with the new operator.

+

+When loading a music file in the wrong emulator or trying to load a

+non-music file, gme_wrong_file_type is returned. You can check for this

+error in C++ like this:

+

+	gme_err_t err = gme_open_file( path, &emu );

+	if ( err == gme_wrong_file_type )

+		...

+

+To check for minor problems, call gme_warning() to get a string

+describing the last warning. Your player should allow the user some way

+of knowing when this is the case, since these minor errors could affect

+playback. Without this information the user can't solve problems as

+well. When playing a track, gme_warning() returns minor playback-related

+problems (major playback problems end the track immediately and set the

+warning string).

+

+

+Emulator types

+--------------

+The library includes several game music emulators that each support a

+different file type. Each is identified by a gme_type_t constant defined

+in gme.h, for example gme_nsf_emu is for the NSF emulator. If you use

+gme_open_file() or gme_open_data(), the library does the work of

+determining the file type and creating an appropriate emulator. If you

+want more control over this process, read on.

+

+There are two basic ways to identify a game music file's type: look at

+its file extension, or read the header data. The library includes

+functions to help with both methods. The first is preferable because it

+is fast and the most common way to identify files. Sometimes the

+extension is lost or wrong, so the header must be read.

+

+Use gme_identify_extension() to find the correct game music type based

+on a filename. To identify a file based on its extension and header

+contents, use gme_identify_file(). If you read the header data yourself,

+use gme_identify_header().

+

+If you want to remove support for some music types to reduce your

+executable size, edit GME_TYPE_LIST in blargg_config.h. For example, to

+support just NSF and GBS, use this:

+

+	#define GME_TYPE_LIST gme_nsf_type, gme_gbs_type

+

+

+M3U playlist support

+--------------------

+The library supports playlists in an extended m3u format with

+gme_load_m3u() to give track names and times to multi-song formats: AY,

+GBS, HES, KSS, NSF, NSFE, and SAP. Some aspects of the file format

+itself is not well-defined so some m3u files won't work properly

+(particularly those provided with KSS files). Only m3u files referencing

+a single file are supported; your code must handle m3u files covering

+more than one game music file, though it can use the built-in m3u

+parsing provided by the library.

+

+

+Information fields

+------------------

+Support is provided for the various text fields and length information

+in a file with gme_track_info(). If you just need track information for

+a file (for example, building a playlist), use gme_new_info() in place

+of gme_new_emu(), load the file normally, then you can access the track

+count and info, but nothing else.

+

+             M3U  VGM  GYM  SPC  SAP  NSFE  NSF  AY  GBS  HES  KSS

+             -------------------------------------------------------

+Track Count | *    *    *    *    *    *    *    *    *

+            |

+System      |      *    *    *    *    *    *    *    *    *    *

+            |

+Game        |      *    *    *         *    *         *    *

+            |

+Song        | *    *    *    *    *    *         *

+            |

+Author      |      *         *    *    *    *    *    *    *

+            |

+Copyright   |      *    *    *    *    *    *         *    *

+            |

+Comment     |      *    *    *                   *

+            |

+Dumper      |      *    *    *         *

+            |

+Length      | *    *    *    *    *    *

+            |

+Intro Length| *    *    *

+            |

+Loop Length | *    *    *

+

+As listed above, the HES and KSS file formats don't include a track

+count, and tracks are often scattered over the 0-255 range, so an m3u

+playlist for these is a must.

+

+Unavailable text fields are set to an empty string and times to -1. Your

+code should be prepared for any combination of available and unavailable

+fields, as a particular music file might not use all of the supported

+fields listed above.

+

+Currently text fields are truncated to 255 characters. Obscure fields of

+some formats are not currently decoded; contact me if you want one

+added.

+

+

+Track length

+------------

+The library leaves it up to you as to when to stop playing a track. You

+can ask for available length information and then tell the library what

+time it should start fading the track with gme_set_fade(). By default it

+also continually checks for 6 or more seconds of silence to mark the end

+of a track. Here is a reasonable algorithm you can use to decide how

+long to play a track:

+

+* If the track length is > 0, use it

+* If the loop length > 0, play for intro + loop * 2

+* Otherwise, default to 2.5 minutes (150000 msec)

+

+If you want to play a track longer than normal, be sure the loop length

+isn't zero. See Music_Player.cpp around line 145 for example code.

+

+By default, the library skips silence at the beginning of a track. It

+also continually checks for the end of a non-looping track by watching

+for 6 seconds of unbroken silence. When doing this is scans *ahead* by

+several seconds so it can report the end of the track after only one

+second of silence has actually played. This feature can be disabled with

+gme_ignore_silence().

+

+

+Loading file data

+-----------------

+The library allows file data to be loaded in many different ways. All

+load functions return an error which you should check. The following

+examples assume these variables:

+

+	Music_Emu* emu;

+	gme_err_t error;

+

+If you're letting the library determine a file's type, you can use

+either gme_open_file() or gme_open_data():

+	

+	error = gme_open_file( pathname, &emu );

+	error = gme_open_data( pointer, size, &emu );

+

+If you're manually determining file type and using used gme_new_emu() to

+create an emulator, you can use the following methods of loading:

+

+* From a block of memory:

+

+	error = gme_load_data( emu, pointer, size );

+

+* Have library call your function to read data:

+

+	gme_err_t my_read( void* my_data, void* out, long count )

+	{

+		// code that reads 'count' bytes into 'out' buffer

+		// and return 0 if no error

+	}

+	

+	error = gme_load_custom( emu, my_read, file_size, my_data );

+

+* If you must load the file data into memory yourself, you can have the

+library use your data directly *without* making a copy. If you do this,

+you must not free the data until you're done playing the file.

+

+	error = emu->load_mem( pointer, size );

+

+* If you've already read the first bytes of a file (perhaps to determine

+the file type) and want to avoid seeking back to the beginning for

+performance reasons, use Remaining_Reader:

+

+	Std_File_Reader in;

+	error = in.open( file_path );

+	

+	char header [4];

+	error = in.read( &header, sizeof header );

+	...

+	

+	Remaining_Reader rem( &header, sizeof header, &in );

+	error = emu->load( rem );

+

+If you merely need access to a file's header after loading, use the

+emulator-specific header() functions, after casting the Music_Emu

+pointer to the specific emulator's type. This example examines the

+chip_flags field of the header if it's an NSF file:

+

+	if ( music_emu->type() == gme_nsf_type )

+	{

+		Nsf_Emu* nsf_emu = (Nsf_Emu*) music_emu;

+		if ( nsf_emu->header().chip_flags & 0x01 )

+			...

+	}

+

+Contact me if you want more information about loading files.

+

+

+Sound parameters

+----------------

+All emulators support an arbitrary output sampling rate. A rate of 44100

+Hz should work well on most systems. Since band-limited synthesis is

+used, a sampling rate above 48000 Hz is not necessary and will actually

+reduce sound quality and performance.

+

+All emulators also support adjustable gain, mainly for the purpose of

+getting consistent volume between different music formats and avoiding

+excessive modulation. The gain can only be set *before* setting the

+emulator's sampling rate, so it's not useful as a general volume

+control. The default gains of emulators are set so that they give

+generally similar volumes, though some soundtracks are significantly

+louder or quieter than normal.

+

+Some emulators support adjustable treble and bass frequency equalization

+(AY, GBS, HES, KSS, NSF, NSFE, SAP, VGM) using set_equalizer().

+Parameters are specified using gme_equalizer_t eq = { treble_dB,

+bass_freq }. Treble_dB sets the treble level (in dB), where 0.0 dB gives

+normal treble; -200.0 dB is quite muffled, and 5.0 dB emphasizes treble

+for an extra crisp sound. Bass_freq sets the frequency where bass

+response starts to diminish; 15 Hz is normal, 0 Hz gives maximum bass,

+and 15000 Hz removes all bass. For example, the following makes the

+sound extra-crisp but lacking bass:

+

+	gme_equalizer_t eq = { 5.0, 1000 };

+	gme_set_equalizer( music_emu, &eq );

+

+Each emulator's equalization defaults to approximate the particular

+console's sound quality; this default can be determined by calling

+equalizer() just after creating the emulator. The Music_Emu::tv_eq

+profile gives sound as if coming from a TV speaker, and some emulators

+include other profiles for different versions of the system. For

+example, to use Famicom sound equalization with the NSF emulator, do the

+following:

+

+	music_emu->set_equalizer( Nsf_Emu::famicom_eq );

+

+

+VGM/GYM YM2413 & YM2612 FM sound

+--------------------------------

+The library plays Sega Genesis/Mega Drive music using a YM2612 FM sound

+chip emulator based on the Gens project. Because this has some

+inaccuracies, other YM2612 emulators can be used in its place by

+re-implementing the interface in YM2612_Emu.h. Available on my website

+is a modified version of MAME's YM2612 emulator, which sounds better in

+some ways and whose author is still making improvements.

+

+VGM music files using the YM2413 FM sound chip are also supported, but a

+YM2413 emulator isn't included with the library due to technical

+reasons. I have put one of the available YM2413 emulators on my website

+that can be used directly.

+

+

+Modular construction

+--------------------

+The library is made of many fairly independent modules. If you're using

+only one music file emulator, you can eliminate many of the library

+sources from your program. Refer to the files list in readme.txt to get

+a general idea of what can be removed, and be sure to edit GME_TYPE_LIST

+(see "Emulator types" above). Post to the forum if you'd like me to put

+together a smaller version for a particular use, as this only takes me a

+few minutes to do.

+

+If you want to use one of the individual sound chip emulators (or CPU

+cores) in your own console emulator, first check the libraries page on

+my website since I have released several of them as stand alone

+libraries with included documentation and examples on their use. If you

+don't find it as a standalone library, contact me and I'll consider

+separating it.

+

+The "classic" sound chips use my Blip_Buffer library, which greatly

+simplifies their implementation and efficiently handles band-limited

+synthesis. It is also available as a stand alone library with

+documentation and many examples.

+

+

+Obscure features

+----------------

+The library's flexibility allows many possibilities. Contact me if you

+want help implementing ideas or removing limitations.

+

+* Uses no global/static variables, allowing multiple instances of any

+emulator. This is useful in a music player if you want to allow

+simultaneous recording or scanning of other tracks while one is already

+playing. This will also be useful if your platform disallows global

+data.

+

+* Emulators that support a custom sound buffer can have *every* voice

+routed to a different Blip_Buffer, allowing custom processing on each

+voice. For example you could record a Game Boy track as a 4-channel

+sound file.

+

+* Defining BLIP_BUFFER_FAST uses lower quality, less-multiply-intensive

+synthesis on "classic" emulators, which might help on some really old

+processors. This significantly lowers sound quality and prevents treble

+equalization. Try this if your platform's processor isn't fast enough

+for normal quality. Even on my ten-year-old 400 MHz Mac, this reduces

+processor usage at most by about 0.6% (from 4% to 3.4%), hardly worth

+the quality loss.

+

+

+Solving problems

+----------------

+If you're having problems, try the following:

+

+* If you're getting garbled sound, try this simple siren generator in

+place of your call to play(). This will quickly tell whether the problem

+is in the library or in your code.

+

+	static void play_siren( long count, short* out )

+	{

+		static double a, a2;

+		while ( count-- )

+			*out++ = 0x2000 * sin( a += .1 + .05*sin( a2+=.00005 ) );

+	}

+

+* Enable debugging support in your environment. This enables assertions

+and other run-time checks.

+

+* Turn the compiler's optimizer is off. Sometimes an optimizer generates

+bad code.

+

+* If multiple threads are being used, ensure that only one at a time is

+accessing a given set of objects from the library. This library is not

+in general thread-safe, though independent objects can be used in

+separate threads.

+

+* If all else fails, see if the demos work.

+

+

+Deprecated features

+-------------------

+The following functions and other features have been deprecated and will

+be removed in a future release of the library. Alternatives to the

+deprecated features are listed to the right.

+

+Music_Emu::error_count()        warning()

+load( header, reader )          see "Loading file data" above

+Spc_Emu::trailer()              track_info()

+Spc_Emu::trailer_size()

+Gym_Emu::track_length()         track_info()

+Vgm_Emu::gd3_data()             track_info()

+Nsfe_Emu::disable_playlist()    clear_playlist()

+

+

+Thanks

+------

+Big thanks to Chris Moeller (kode54) for help with library testing and

+feedback, for maintaining the Foobar2000 plugin foo_gep based on it, and

+for original work on openspc++ that was used when developing Spc_Emu.

+Brad Martin's excellent OpenSPC SNES DSP emulator worked well from the

+start. Also thanks to Richard Bannister, Mahendra Tallur, Shazz,

+nenolod, theHobbit, Johan Samuelsson, and nes6502 for testing, using,

+and giving feedback for the library in their respective game music

+players.

diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Ay_Apu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Ay_Apu.cpp
new file mode 100644
index 00000000..8204abf2
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Ay_Apu.cpp
@@ -0,0 +1,395 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Ay_Apu.h"
+
+/* Copyright (C) 2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+// Emulation inaccuracies:
+// * Noise isn't run when not in use
+// * Changes to envelope and noise periods are delayed until next reload
+// * Super-sonic tone should attenuate output to about 60%, not 50%
+
+// Tones above this frequency are treated as disabled tone at half volume.
+// Power of two is more efficient (avoids division).
+unsigned const inaudible_freq = 16384;
+
+int const period_factor = 16;
+
+static byte const amp_table [16] =
+{
+#define ENTRY( n ) byte (n * Ay_Apu::amp_range + 0.5)
+	// With channels tied together and 1K resistor to ground (as datasheet recommends),
+	// output nearly matches logarithmic curve as claimed. Approx. 1.5 dB per step.
+	ENTRY(0.000000),ENTRY(0.007813),ENTRY(0.011049),ENTRY(0.015625),
+	ENTRY(0.022097),ENTRY(0.031250),ENTRY(0.044194),ENTRY(0.062500),
+	ENTRY(0.088388),ENTRY(0.125000),ENTRY(0.176777),ENTRY(0.250000),
+	ENTRY(0.353553),ENTRY(0.500000),ENTRY(0.707107),ENTRY(1.000000),
+	
+	/*
+	// Measured from an AY-3-8910A chip with date code 8611.
+	
+	// Direct voltages without any load (very linear)
+	ENTRY(0.000000),ENTRY(0.046237),ENTRY(0.064516),ENTRY(0.089785),
+	ENTRY(0.124731),ENTRY(0.173118),ENTRY(0.225806),ENTRY(0.329032),
+	ENTRY(0.360215),ENTRY(0.494624),ENTRY(0.594624),ENTRY(0.672043),
+	ENTRY(0.766129),ENTRY(0.841935),ENTRY(0.926882),ENTRY(1.000000),
+	// With only some load
+	ENTRY(0.000000),ENTRY(0.011940),ENTRY(0.017413),ENTRY(0.024876),
+	ENTRY(0.036318),ENTRY(0.054229),ENTRY(0.072637),ENTRY(0.122388),
+	ENTRY(0.174129),ENTRY(0.239303),ENTRY(0.323881),ENTRY(0.410945),
+	ENTRY(0.527363),ENTRY(0.651741),ENTRY(0.832338),ENTRY(1.000000),
+	*/
+#undef ENTRY
+};
+
+static byte const modes [8] =
+{
+#define MODE( a0,a1, b0,b1, c0,c1 ) \
+		(a0 | a1<<1 | b0<<2 | b1<<3 | c0<<4 | c1<<5)
+	MODE( 1,0, 1,0, 1,0 ),
+	MODE( 1,0, 0,0, 0,0 ),
+	MODE( 1,0, 0,1, 1,0 ),
+	MODE( 1,0, 1,1, 1,1 ),
+	MODE( 0,1, 0,1, 0,1 ),
+	MODE( 0,1, 1,1, 1,1 ),
+	MODE( 0,1, 1,0, 0,1 ),
+	MODE( 0,1, 0,0, 0,0 ),
+};
+
+Ay_Apu::Ay_Apu()
+{
+	// build full table of the upper 8 envelope waveforms
+	for ( int m = 8; m--; )
+	{
+		byte* out = env.modes [m];
+		int flags = modes [m];
+		for ( int x = 3; --x >= 0; )
+		{
+			int amp = flags & 1;
+			int end = flags >> 1 & 1;
+			int step = end - amp;
+			amp *= 15;
+			for ( int y = 16; --y >= 0; )
+			{
+				*out++ = amp_table [amp];
+				amp += step;
+			}
+			flags >>= 2;
+		}
+	}
+	
+	output( 0 );
+	volume( 1.0 );
+	reset();
+}
+
+void Ay_Apu::reset()
+{
+	last_time   = 0;
+	noise.delay = 0;
+	noise.lfsr  = 1;
+	
+	osc_t* osc = &oscs [osc_count];
+	do
+	{
+		osc--;
+		osc->period   = period_factor;
+		osc->delay    = 0;
+		osc->last_amp = 0;
+		osc->phase    = 0;
+	}
+	while ( osc != oscs );
+	
+	for ( int i = sizeof regs; --i >= 0; )
+		regs [i] = 0;
+	regs [7] = 0xFF;
+	write_data_( 13, 0 );
+}
+
+void Ay_Apu::write_data_( int addr, int data )
+{
+	assert( (unsigned) addr < reg_count );
+	
+	if ( (unsigned) addr >= 14 )
+	{
+		#ifdef debug_printf
+			debug_printf( "Wrote to I/O port %02X\n", (int) addr );
+		#endif
+	}
+	
+	// envelope mode
+	if ( addr == 13 )
+	{
+		if ( !(data & 8) ) // convert modes 0-7 to proper equivalents
+			data = (data & 4) ? 15 : 9;
+		env.wave = env.modes [data - 7];
+		env.pos = -48;
+		env.delay = 0; // will get set to envelope period in run_until()
+	}
+	regs [addr] = data;
+	
+	// handle period changes accurately
+	int i = addr >> 1;
+	if ( i < osc_count )
+	{
+		blip_time_t period = (regs [i * 2 + 1] & 0x0F) * (0x100L * period_factor) +
+				regs [i * 2] * period_factor;
+		if ( !period )
+			period = period_factor;
+		
+		// adjust time of next timer expiration based on change in period
+		osc_t& osc = oscs [i];
+		if ( (osc.delay += period - osc.period) < 0 )
+			osc.delay = 0;
+		osc.period = period;
+	}
+	
+	// TODO: same as above for envelope timer, and it also has a divide by two after it
+}
+
+int const noise_off = 0x08;
+int const tone_off  = 0x01;
+
+void Ay_Apu::run_until( blip_time_t final_end_time )
+{
+	require( final_end_time >= last_time );
+	
+	// noise period and initial values
+	blip_time_t const noise_period_factor = period_factor * 2; // verified
+	blip_time_t noise_period = (regs [6] & 0x1F) * noise_period_factor;
+	if ( !noise_period )
+		noise_period = noise_period_factor;
+	blip_time_t const old_noise_delay = noise.delay;
+	blargg_ulong const old_noise_lfsr = noise.lfsr;
+	
+	// envelope period
+	blip_time_t const env_period_factor = period_factor * 2; // verified
+	blip_time_t env_period = (regs [12] * 0x100L + regs [11]) * env_period_factor;
+	if ( !env_period )
+		env_period = env_period_factor; // same as period 1 on my AY chip
+	if ( !env.delay )
+		env.delay = env_period;
+	
+	// run each osc separately
+	for ( int index = 0; index < osc_count; index++ )
+	{
+		osc_t* const osc = &oscs [index];
+		int osc_mode = regs [7] >> index;
+		
+		// output
+		Blip_Buffer* const osc_output = osc->output;
+		if ( !osc_output )
+			continue;
+		osc_output->set_modified();
+		
+		// period
+		int half_vol = 0;
+		blip_time_t inaudible_period = (blargg_ulong) (osc_output->clock_rate() +
+				inaudible_freq) / (inaudible_freq * 2);
+		if ( osc->period <= inaudible_period && !(osc_mode & tone_off) )
+		{
+			half_vol = 1; // Actually around 60%, but 50% is close enough
+			osc_mode |= tone_off;
+		}
+		
+		// envelope
+		blip_time_t start_time = last_time;
+		blip_time_t end_time   = final_end_time;
+		int const vol_mode = regs [0x08 + index];
+		int volume = amp_table [vol_mode & 0x0F] >> half_vol;
+		int osc_env_pos = env.pos;
+		if ( vol_mode & 0x10 )
+		{
+			volume = env.wave [osc_env_pos] >> half_vol;
+			// use envelope only if it's a repeating wave or a ramp that hasn't finished
+			if ( !(regs [13] & 1) || osc_env_pos < -32 )
+			{
+				end_time = start_time + env.delay;
+				if ( end_time >= final_end_time )
+					end_time = final_end_time;
+				
+				//if ( !(regs [12] | regs [11]) )
+				//  debug_printf( "Used envelope period 0\n" );
+			}
+			else if ( !volume )
+			{
+				osc_mode = noise_off | tone_off;
+			}
+		}
+		else if ( !volume )
+		{
+			osc_mode = noise_off | tone_off;
+		}
+		
+		// tone time
+		blip_time_t const period = osc->period;
+		blip_time_t time = start_time + osc->delay;
+		if ( osc_mode & tone_off ) // maintain tone's phase when off
+		{
+			blargg_long count = (final_end_time - time + period - 1) / period;
+			time += count * period;
+			osc->phase ^= count & 1;
+		}
+		
+		// noise time
+		blip_time_t ntime = final_end_time;
+		blargg_ulong noise_lfsr = 1;
+		if ( !(osc_mode & noise_off) )
+		{
+			ntime = start_time + old_noise_delay;
+			noise_lfsr = old_noise_lfsr;
+			//if ( (regs [6] & 0x1F) == 0 )
+			//  debug_printf( "Used noise period 0\n" );
+		}
+		
+		// The following efficiently handles several cases (least demanding first):
+		// * Tone, noise, and envelope disabled, where channel acts as 4-bit DAC
+		// * Just tone or just noise, envelope disabled
+		// * Envelope controlling tone and/or noise
+		// * Tone and noise disabled, envelope enabled with high frequency
+		// * Tone and noise together
+		// * Tone and noise together with envelope
+		
+		// This loop only runs one iteration if envelope is disabled. If envelope
+		// is being used as a waveform (tone and noise disabled), this loop will
+		// still be reasonably efficient since the bulk of it will be skipped.
+		while ( 1 )
+		{
+			// current amplitude
+			int amp = 0;
+			if ( (osc_mode | osc->phase) & 1 & (osc_mode >> 3 | noise_lfsr) )
+				amp = volume;
+			{
+				int delta = amp - osc->last_amp;
+				if ( delta )
+				{
+					osc->last_amp = amp;
+					synth_.offset( start_time, delta, osc_output );
+				}
+			}
+			
+			// Run wave and noise interleved with each catching up to the other.
+			// If one or both are disabled, their "current time" will be past end time,
+			// so there will be no significant performance hit.
+			if ( ntime < end_time || time < end_time )
+			{
+				// Since amplitude was updated above, delta will always be +/- volume,
+				// so we can avoid using last_amp every time to calculate the delta.
+				int delta = amp * 2 - volume;
+				int delta_non_zero = delta != 0;
+				int phase = osc->phase | (osc_mode & tone_off); assert( tone_off == 0x01 );
+				do
+				{
+					// run noise
+					blip_time_t end = end_time;
+					if ( end_time > time ) end = time;
+					if ( phase & delta_non_zero )
+					{
+						while ( ntime <= end ) // must advance *past* time to avoid hang
+						{
+							int changed = noise_lfsr + 1;
+							noise_lfsr = (-(noise_lfsr & 1) & 0x12000) ^ (noise_lfsr >> 1);
+							if ( changed & 2 )
+							{
+								delta = -delta;
+								synth_.offset( ntime, delta, osc_output );
+							}
+							ntime += noise_period;
+						}
+					}
+					else
+					{
+						// 20 or more noise periods on average for some music
+						blargg_long remain = end - ntime;
+						blargg_long count = remain / noise_period;
+						if ( remain >= 0 )
+							ntime += noise_period + count * noise_period;
+					}
+					
+					// run tone
+					end = end_time;
+					if ( end_time > ntime ) end = ntime;
+					if ( noise_lfsr & delta_non_zero )
+					{
+						while ( time < end )
+						{
+							delta = -delta;
+							synth_.offset( time, delta, osc_output );
+							time += period;
+							//phase ^= 1;
+						}
+						//assert( phase == (delta > 0) );
+						phase = unsigned (-delta) >> (CHAR_BIT * sizeof (unsigned) - 1);
+						// (delta > 0)
+					}
+					else
+					{
+						// loop usually runs less than once
+						//SUB_CASE_COUNTER( (time < end) * (end - time + period - 1) / period );
+						
+						while ( time < end )
+						{
+							time += period;
+							phase ^= 1;
+						}
+					}
+				}
+				while ( time < end_time || ntime < end_time );
+				
+				osc->last_amp = (delta + volume) >> 1;
+				if ( !(osc_mode & tone_off) )
+					osc->phase = phase;
+			}
+			
+			if ( end_time >= final_end_time )
+				break; // breaks first time when envelope is disabled
+			
+			// next envelope step
+			if ( ++osc_env_pos >= 0 )
+				osc_env_pos -= 32;
+			volume = env.wave [osc_env_pos] >> half_vol;
+			
+			start_time = end_time;
+			end_time += env_period;
+			if ( end_time > final_end_time )
+				end_time = final_end_time;
+		}
+		osc->delay = time - final_end_time;
+		
+		if ( !(osc_mode & noise_off) )
+		{
+			noise.delay = ntime - final_end_time;
+			noise.lfsr = noise_lfsr;
+		}
+	}
+	
+	// TODO: optimized saw wave envelope?
+	
+	// maintain envelope phase
+	blip_time_t remain = final_end_time - last_time - env.delay;
+	if ( remain >= 0 )
+	{
+		blargg_long count = (remain + env_period) / env_period;
+		env.pos += count;
+		if ( env.pos >= 0 )
+			env.pos = (env.pos & 31) - 32;
+		remain -= count * env_period;
+		assert( -remain <= env_period );
+	}
+	env.delay = -remain;
+	assert( env.delay > 0 );
+	assert( env.pos < 0 );
+	
+	last_time = final_end_time;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Ay_Apu.h b/plugins/gme/game-music-emu-0.5.5/gme/Ay_Apu.h
new file mode 100644
index 00000000..42395e37
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Ay_Apu.h
@@ -0,0 +1,107 @@
+// AY-3-8910 sound chip emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef AY_APU_H
+#define AY_APU_H
+
+#include "blargg_common.h"
+#include "Blip_Buffer.h"
+
+class Ay_Apu {
+public:
+	// Set buffer to generate all sound into, or disable sound if NULL
+	void output( Blip_Buffer* );
+	
+	// Reset sound chip
+	void reset();
+	
+	// Write to register at specified time
+	enum { reg_count = 16 };
+	void write( blip_time_t time, int addr, int data );
+	
+	// Run sound to specified time, end current time frame, then start a new
+	// time frame at time 0. Time frames have no effect on emulation and each
+	// can be whatever length is convenient.
+	void end_frame( blip_time_t length );
+	
+// Additional features
+	
+	// Set sound output of specific oscillator to buffer, where index is
+	// 0, 1, or 2. If buffer is NULL, the specified oscillator is muted.
+	enum { osc_count = 3 };
+	void osc_output( int index, Blip_Buffer* );
+	
+	// Set overall volume (default is 1.0)
+	void volume( double );
+	
+	// Set treble equalization (see documentation)
+	void treble_eq( blip_eq_t const& );
+	
+public:
+	Ay_Apu();
+	typedef unsigned char byte;
+private:
+	struct osc_t
+	{
+		blip_time_t period;
+		blip_time_t delay;
+		short last_amp;
+		short phase;
+		Blip_Buffer* output;
+	} oscs [osc_count];
+	blip_time_t last_time;
+	byte latch;
+	byte regs [reg_count];
+	
+	struct {
+		blip_time_t delay;
+		blargg_ulong lfsr;
+	} noise;
+	
+	struct {
+		blip_time_t delay;
+		byte const* wave;
+		int pos;
+		byte modes [8] [48]; // values already passed through volume table
+	} env;
+	
+	void run_until( blip_time_t );
+	void write_data_( int addr, int data );
+public:
+	enum { amp_range = 255 };
+	Blip_Synth<blip_good_quality,1> synth_;
+};
+
+inline void Ay_Apu::volume( double v ) { synth_.volume( 0.7 / osc_count / amp_range * v ); }
+
+inline void Ay_Apu::treble_eq( blip_eq_t const& eq ) { synth_.treble_eq( eq ); }
+
+inline void Ay_Apu::write( blip_time_t time, int addr, int data )
+{
+	run_until( time );
+	write_data_( addr, data );
+}
+
+inline void Ay_Apu::osc_output( int i, Blip_Buffer* buf )
+{
+	assert( (unsigned) i < osc_count );
+	oscs [i].output = buf;
+}
+
+inline void Ay_Apu::output( Blip_Buffer* buf )
+{
+	osc_output( 0, buf );
+	osc_output( 1, buf );
+	osc_output( 2, buf );
+}
+
+inline void Ay_Apu::end_frame( blip_time_t time )
+{
+	if ( time > last_time )
+		run_until( time );
+	
+	assert( last_time >= time );
+	last_time -= time;
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Ay_Cpu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Ay_Cpu.cpp
new file mode 100644
index 00000000..0f67db1b
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Ay_Cpu.cpp
@@ -0,0 +1,1665 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+/*
+Last validated with zexall 2006.11.21 5:26 PM
+* Doesn't implement the R register or immediate interrupt after EI.
+* Address wrap-around isn't completely correct, but is prevented from crashing emulator.
+*/
+
+#include "Ay_Cpu.h"
+
+#include "blargg_endian.h"
+#include <string.h>
+
+//#include "z80_cpu_log.h"
+
+/* Copyright (C) 2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#define SYNC_TIME()     (void) (s.time = s_time)
+#define RELOAD_TIME()   (void) (s_time = s.time)
+
+// Callbacks to emulator
+
+#define CPU_OUT( cpu, addr, data, TIME )\
+	ay_cpu_out( cpu, TIME, addr, data )
+
+#define CPU_IN( cpu, addr, TIME )\
+	ay_cpu_in( cpu, addr )
+
+#include "blargg_source.h"
+
+// flags, named with hex value for clarity
+int const S80 = 0x80;
+int const Z40 = 0x40;
+int const F20 = 0x20;
+int const H10 = 0x10;
+int const F08 = 0x08;
+int const V04 = 0x04;
+int const P04 = 0x04;
+int const N02 = 0x02;
+int const C01 = 0x01;
+
+#define SZ28P( n )  szpc [n]
+#define SZ28PC( n ) szpc [n]
+#define SZ28C( n )  (szpc [n] & ~P04)
+#define SZ28( n )   SZ28C( n )
+
+#define SET_R( n )  (void) (r.r = n)
+#define GET_R()     (r.r)
+
+Ay_Cpu::Ay_Cpu()
+{
+	state = &state_;
+	for ( int i = 0x100; --i >= 0; )
+	{
+		int even = 1;
+		for ( int p = i; p; p >>= 1 )
+			even ^= p;
+		int n = (i & (S80 | F20 | F08)) | ((even & 1) * P04);
+		szpc [i] = n;
+		szpc [i + 0x100] = n | C01;
+	}
+	szpc [0x000] |= Z40;
+	szpc [0x100] |= Z40;
+}
+
+void Ay_Cpu::reset( void* m )
+{
+	mem = (uint8_t*) m;
+	
+	check( state == &state_ );
+	state = &state_;
+	state_.time = 0;
+	state_.base = 0;
+	end_time_   = 0;
+	
+	memset( &r, 0, sizeof r );
+}
+
+#define TIME                        (s_time + s.base)
+#define READ_PROG( addr )           (mem [addr])
+#define INSTR( offset )             READ_PROG( pc + (offset) )
+#define GET_ADDR()                  GET_LE16( &READ_PROG( pc ) )
+#define READ( addr )                READ_PROG( addr )
+#define WRITE( addr, data )         (void) (READ_PROG( addr ) = data)
+#define READ_WORD( addr )           GET_LE16( &READ_PROG( addr ) )
+#define WRITE_WORD( addr, data )    SET_LE16( &READ_PROG( addr ), data )
+#define IN( addr )                  CPU_IN( this, addr, TIME )
+#define OUT( addr, data )           CPU_OUT( this, addr, data, TIME )
+
+#if BLARGG_BIG_ENDIAN
+	#define R8( n, offset ) ((r8_ - offset) [n]) 
+#elif BLARGG_LITTLE_ENDIAN
+	#define R8( n, offset ) ((r8_ - offset) [(n) ^ 1]) 
+#else
+	#error "Byte order of CPU must be known"
+#endif
+
+//#define R16( n, shift, offset )   (r16_ [((n) >> shift) - (offset >> shift)])
+
+// help compiler see that it can just adjust stack offset, saving an extra instruction
+#define R16( n, shift, offset )\
+	(*(uint16_t*) ((char*) r16_ - (offset >> (shift - 1)) + ((n) >> (shift - 1))))
+
+#define CASE5( a, b, c, d, e          ) case 0x##a:case 0x##b:case 0x##c:case 0x##d:case 0x##e
+#define CASE6( a, b, c, d, e, f       ) CASE5( a, b, c, d, e       ): case 0x##f
+#define CASE7( a, b, c, d, e, f, g    ) CASE6( a, b, c, d, e, f    ): case 0x##g
+#define CASE8( a, b, c, d, e, f, g, h ) CASE7( a, b, c, d, e, f, g ): case 0x##h
+
+// high four bits are $ED time - 8, low four bits are $DD/$FD time - 8
+static byte const ed_dd_timing [0x100] = {
+//0    1    2    3    4    5    6    7    8    9    A    B    C    D    E    F
+0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x07,0x00,0x00,0x00,0x00,0x00,0x00,
+0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x07,0x00,0x00,0x00,0x00,0x00,0x00,
+0x00,0x06,0x0C,0x02,0x00,0x00,0x03,0x00,0x00,0x07,0x0C,0x02,0x00,0x00,0x03,0x00,
+0x00,0x00,0x00,0x00,0x0F,0x0F,0x0B,0x00,0x00,0x07,0x00,0x00,0x00,0x00,0x00,0x00,
+0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0x10,0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0x10,
+0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0x10,0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0x10,
+0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0xA0,0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0xA0,
+0x4B,0x4B,0x7B,0xCB,0x0B,0x6B,0x00,0x0B,0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0x00,
+0x00,0x00,0x00,0x00,0x00,0x00,0x0B,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x0B,0x00,
+0x00,0x00,0x00,0x00,0x00,0x00,0x0B,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x0B,0x00,
+0x80,0x80,0x80,0x80,0x00,0x00,0x0B,0x00,0x80,0x80,0x80,0x80,0x00,0x00,0x0B,0x00,
+0xD0,0xD0,0xD0,0xD0,0x00,0x00,0x0B,0x00,0xD0,0xD0,0xD0,0xD0,0x00,0x00,0x0B,0x00,
+0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x0F,0x00,0x00,0x00,0x00,
+0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
+0x00,0x06,0x00,0x0F,0x00,0x07,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
+0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x02,0x00,0x00,0x00,0x00,0x00,0x00,
+};
+
+// even on x86, using short and unsigned char was slower
+typedef int         fint16;
+typedef unsigned    fuint16;
+typedef unsigned    fuint8;
+
+bool Ay_Cpu::run( cpu_time_t end_time )
+{
+	set_end_time( end_time );
+	state_t s = this->state_;
+	this->state = &s;
+	bool warning = false;
+	
+	typedef BOOST::int8_t int8_t;
+	
+	union {
+		regs_t rg;
+		pairs_t rp;
+		uint8_t r8_ [8]; // indexed
+		uint16_t r16_ [4];
+	};
+	rg = this->r.b;
+	
+	cpu_time_t s_time = s.time;
+	uint8_t* const mem = this->mem; // cache
+	fuint16 pc = r.pc;
+	fuint16 sp = r.sp;
+	fuint16 ix = r.ix; // TODO: keep in memory for direct access?
+	fuint16 iy = r.iy;
+	int flags = r.b.flags;
+	
+	goto loop;
+jr_not_taken:
+	s_time -= 5;
+	goto loop;
+call_not_taken:
+	s_time -= 7; 
+jp_not_taken:
+	pc += 2;
+loop:
+	
+	check( (unsigned long) pc < 0x10000 );
+	check( (unsigned long) sp < 0x10000 );
+	check( (unsigned) flags < 0x100 );
+	check( (unsigned) ix < 0x10000 );
+	check( (unsigned) iy < 0x10000 );
+	
+	fuint8 opcode;
+	opcode = READ_PROG( pc );
+	pc++;
+	
+	static byte const base_timing [0x100] = {
+	//   0  1  2  3  4  5  6  7  8  9  A  B  C  D  E  F
+		 4,10, 7, 6, 4, 4, 7, 4, 4,11, 7, 6, 4, 4, 7, 4, // 0
+		13,10, 7, 6, 4, 4, 7, 4,12,11, 7, 6, 4, 4, 7, 4, // 1
+		12,10,16, 6, 4, 4, 7, 4,12,11,16, 6, 4, 4, 7, 4, // 2
+		12,10,13, 6,11,11,10, 4,12,11,13, 6, 4, 4, 7, 4, // 3
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // 4
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // 5
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // 6
+		 7, 7, 7, 7, 7, 7, 4, 7, 4, 4, 4, 4, 4, 4, 7, 4, // 7
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // 8
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // 9
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // A
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // B
+		11,10,10,10,17,11, 7,11,11,10,10, 8,17,17, 7,11, // C
+		11,10,10,11,17,11, 7,11,11, 4,10,11,17, 8, 7,11, // D
+		11,10,10,19,17,11, 7,11,11, 4,10, 4,17, 8, 7,11, // E
+		11,10,10, 4,17,11, 7,11,11, 6,10, 4,17, 8, 7,11, // F
+	};
+	
+	fuint16 data;
+	data = base_timing [opcode];
+	if ( (s_time += data) >= 0 )
+		goto possibly_out_of_time;
+almost_out_of_time:
+	
+	data = READ_PROG( pc );
+	
+	#ifdef Z80_CPU_LOG_H
+		//log_opcode( opcode, READ_PROG( pc ) );
+		z80_log_regs( rg.a, rp.bc, rp.de, rp.hl, sp, ix, iy );
+		z80_cpu_log( "new", pc - 1, opcode, READ_PROG( pc ),
+				READ_PROG( pc + 1 ), READ_PROG( pc + 2 ) );
+	#endif
+	
+	switch ( opcode )
+	{
+possibly_out_of_time:
+		if ( s_time < (int) data )
+			goto almost_out_of_time;
+		s_time -= data;
+		goto out_of_time;
+
+// Common
+
+	case 0x00: // NOP
+	CASE7( 40, 49, 52, 5B, 64, 6D, 7F ): // LD B,B etc.
+		goto loop;
+	
+	case 0x08:{// EX AF,AF'
+		int temp = r.alt.b.a;
+		r.alt.b.a = rg.a;
+		rg.a = temp;
+		
+		temp = r.alt.b.flags;
+		r.alt.b.flags = flags;
+		flags = temp;
+		goto loop;
+	}
+	
+	case 0xD3: // OUT (imm),A
+		pc++;
+		OUT( data + rg.a * 0x100, rg.a );
+		goto loop;
+		
+	case 0x2E: // LD L,imm
+		pc++;
+		rg.l = data;
+		goto loop;
+	
+	case 0x3E: // LD A,imm
+		pc++;
+		rg.a = data;
+		goto loop;
+	
+	case 0x3A:{// LD A,(addr)
+		fuint16 addr = GET_ADDR();
+		pc += 2;
+		rg.a = READ( addr );
+		goto loop;
+	}
+	
+// Conditional
+
+#define ZERO    (flags & Z40)
+#define CARRY   (flags & C01)
+#define EVEN    (flags & P04)
+#define MINUS   (flags & S80)
+
+// JR
+#define JR( cond ) {\
+	int disp = (BOOST::int8_t) data;\
+	pc++;\
+	if ( !(cond) )\
+		goto jr_not_taken;\
+	pc += disp;\
+	goto loop;\
+}
+	
+	case 0x20: JR( !ZERO  ) // JR NZ,disp
+	case 0x28: JR(  ZERO  ) // JR Z,disp
+	case 0x30: JR( !CARRY ) // JR NC,disp
+	case 0x38: JR(  CARRY ) // JR C,disp
+	case 0x18: JR(  true  ) // JR disp
+
+	case 0x10:{// DJNZ disp
+		int temp = rg.b - 1;
+		rg.b = temp;
+		JR( temp )
+	}
+	
+// JP
+#define JP( cond )  if ( !(cond) ) goto jp_not_taken; pc = GET_ADDR(); goto loop;
+	
+	case 0xC2: JP( !ZERO  ) // JP NZ,addr
+	case 0xCA: JP(  ZERO  ) // JP Z,addr
+	case 0xD2: JP( !CARRY ) // JP NC,addr
+	case 0xDA: JP(  CARRY ) // JP C,addr
+	case 0xE2: JP( !EVEN  ) // JP PO,addr
+	case 0xEA: JP(  EVEN  ) // JP PE,addr
+	case 0xF2: JP( !MINUS ) // JP P,addr
+	case 0xFA: JP(  MINUS ) // JP M,addr
+	
+	case 0xC3: // JP addr
+		pc = GET_ADDR();
+		goto loop;
+	
+	case 0xE9: // JP HL
+		pc = rp.hl;
+		goto loop;
+
+// RET
+#define RET( cond ) if ( cond ) goto ret_taken; s_time -= 6; goto loop;
+	
+	case 0xC0: RET( !ZERO  ) // RET NZ
+	case 0xC8: RET(  ZERO  ) // RET Z
+	case 0xD0: RET( !CARRY ) // RET NC
+	case 0xD8: RET(  CARRY ) // RET C
+	case 0xE0: RET( !EVEN  ) // RET PO
+	case 0xE8: RET(  EVEN  ) // RET PE
+	case 0xF0: RET( !MINUS ) // RET P
+	case 0xF8: RET(  MINUS ) // RET M
+	
+	case 0xC9: // RET
+	ret_taken:
+		pc = READ_WORD( sp );
+		sp = uint16_t (sp + 2);
+		goto loop;
+	
+// CALL
+#define CALL( cond ) if ( cond ) goto call_taken; goto call_not_taken;
+
+	case 0xC4: CALL( !ZERO  ) // CALL NZ,addr
+	case 0xCC: CALL(  ZERO  ) // CALL Z,addr
+	case 0xD4: CALL( !CARRY ) // CALL NC,addr
+	case 0xDC: CALL(  CARRY ) // CALL C,addr
+	case 0xE4: CALL( !EVEN  ) // CALL PO,addr
+	case 0xEC: CALL(  EVEN  ) // CALL PE,addr
+	case 0xF4: CALL( !MINUS ) // CALL P,addr
+	case 0xFC: CALL(  MINUS ) // CALL M,addr
+	
+	case 0xCD:{// CALL addr
+	call_taken:
+		fuint16 addr = pc + 2;
+		pc = GET_ADDR();
+		sp = uint16_t (sp - 2);
+		WRITE_WORD( sp, addr );
+		goto loop;
+	}
+	
+	case 0xFF: // RST
+		if ( (pc - 1) > 0xFFFF )
+		{
+			pc = uint16_t (pc - 1);
+			s_time -= 11;
+			goto loop;
+		}
+	CASE7( C7, CF, D7, DF, E7, EF, F7 ):
+		data = pc;
+		pc = opcode & 0x38;
+		goto push_data;
+
+// PUSH/POP
+	case 0xF5: // PUSH AF
+		data = rg.a * 0x100u + flags;
+		goto push_data;
+	
+	case 0xC5: // PUSH BC
+	case 0xD5: // PUSH DE
+	case 0xE5: // PUSH HL
+		data = R16( opcode, 4, 0xC5 );
+	push_data:
+		sp = uint16_t (sp - 2);
+		WRITE_WORD( sp, data );
+		goto loop;
+	
+	case 0xF1: // POP AF
+		flags = READ( sp );
+		rg.a = READ( sp + 1 );
+		sp = uint16_t (sp + 2);
+		goto loop;
+	
+	case 0xC1: // POP BC
+	case 0xD1: // POP DE
+	case 0xE1: // POP HL
+		R16( opcode, 4, 0xC1 ) = READ_WORD( sp );
+		sp = uint16_t (sp + 2);
+		goto loop;
+	
+// ADC/ADD/SBC/SUB
+	case 0x96: // SUB (HL)
+	case 0x86: // ADD (HL)
+		flags &= ~C01;
+	case 0x9E: // SBC (HL)
+	case 0x8E: // ADC (HL)
+		data = READ( rp.hl );
+		goto adc_data;
+	
+	case 0xD6: // SUB A,imm
+	case 0xC6: // ADD imm
+		flags &= ~C01;
+	case 0xDE: // SBC A,imm
+	case 0xCE: // ADC imm
+		pc++;
+		goto adc_data;
+	
+	CASE7( 90, 91, 92, 93, 94, 95, 97 ): // SUB r
+	CASE7( 80, 81, 82, 83, 84, 85, 87 ): // ADD r
+		flags &= ~C01;
+	CASE7( 98, 99, 9A, 9B, 9C, 9D, 9F ): // SBC r
+	CASE7( 88, 89, 8A, 8B, 8C, 8D, 8F ): // ADC r
+		data = R8( opcode & 7, 0 );
+	adc_data: {
+		int result = data + (flags & C01);
+		data ^= rg.a;
+		flags = opcode >> 3 & N02; // bit 4 is set in subtract opcodes
+		if ( flags )
+			result = -result;
+		result += rg.a;
+		data ^= result;
+		flags |=(data & H10) |
+				((data - -0x80) >> 6 & V04) |
+				SZ28C( result & 0x1FF );
+		rg.a = result;
+		goto loop;
+	}
+
+// CP
+	case 0xBE: // CP (HL)
+		data = READ( rp.hl );
+		goto cp_data;
+	
+	case 0xFE: // CP imm
+		pc++;
+		goto cp_data;
+	
+	CASE7( B8, B9, BA, BB, BC, BD, BF ): // CP r
+		data = R8( opcode, 0xB8 );
+	cp_data: {
+		int result = rg.a - data;
+		flags = N02 | (data & (F20 | F08)) | (result >> 8 & C01);
+		data ^= rg.a;
+		flags |=(((result ^ rg.a) & data) >> 5 & V04) |
+				(((data & H10) ^ result) & (S80 | H10));
+		if ( (uint8_t) result )
+			goto loop;
+		flags |= Z40;
+		goto loop;
+	}
+	
+// ADD HL,rp
+	
+	case 0x39: // ADD HL,SP
+		data = sp;
+		goto add_hl_data;
+	
+	case 0x09: // ADD HL,BC
+	case 0x19: // ADD HL,DE
+	case 0x29: // ADD HL,HL
+		data = R16( opcode, 4, 0x09 );
+	add_hl_data: {
+		blargg_ulong sum = rp.hl + data;
+		data ^= rp.hl;
+		rp.hl = sum;
+		flags = (flags & (S80 | Z40 | V04)) |
+				(sum >> 16) |
+				(sum >> 8 & (F20 | F08)) |
+				((data ^ sum) >> 8 & H10);
+		goto loop;
+	}
+	
+	case 0x27:{// DAA
+		int a = rg.a;
+		if ( a > 0x99 )
+			flags |= C01;
+		
+		int adjust = 0x60 & -(flags & C01);
+		
+		if ( flags & H10 || (a & 0x0F) > 9 )
+			adjust |= 0x06;
+		
+		if ( flags & N02 )
+			adjust = -adjust;
+		a += adjust;
+		
+		flags = (flags & (C01 | N02)) |
+				((rg.a ^ a) & H10) |
+				SZ28P( (uint8_t) a );
+		rg.a = a;
+		goto loop;
+	}
+	/*
+	case 0x27:{// DAA
+		// more optimized, but probably not worth the obscurity
+		int f = (rg.a + (0xFF - 0x99)) >> 8 | flags; // (a > 0x99 ? C01 : 0) | flags
+		int adjust = 0x60 & -(f & C01); // f & C01 ? 0x60 : 0
+		
+		if ( (((rg.a + (0x0F - 9)) ^ rg.a) | f) & H10 ) // flags & H10 || (rg.a & 0x0F) > 9
+			adjust |= 0x06;
+		
+		if ( f & N02 )
+			adjust = -adjust;
+		int a = rg.a + adjust;
+		
+		flags = (f & (N02 | C01)) | ((rg.a ^ a) & H10) | SZ28P( (uint8_t) a );
+		rg.a = a;
+		goto loop;
+	}
+	*/
+	
+// INC/DEC
+	case 0x34: // INC (HL)
+		data = READ( rp.hl ) + 1;
+		WRITE( rp.hl, data );
+		goto inc_set_flags;
+	
+	CASE7( 04, 0C, 14, 1C, 24, 2C, 3C ): // INC r
+		data = ++R8( opcode >> 3, 0 );
+	inc_set_flags:
+		flags = (flags & C01) |
+				(((data & 0x0F) - 1) & H10) |
+				SZ28( (uint8_t) data );
+		if ( data != 0x80 )
+			goto loop;
+		flags |= V04;
+		goto loop;
+	
+	case 0x35: // DEC (HL)
+		data = READ( rp.hl ) - 1;
+		WRITE( rp.hl, data );
+		goto dec_set_flags;
+	
+	CASE7( 05, 0D, 15, 1D, 25, 2D, 3D ): // DEC r
+		data = --R8( opcode >> 3, 0 );
+	dec_set_flags:
+		flags = (flags & C01) | N02 |
+				(((data & 0x0F) + 1) & H10) |
+				SZ28( (uint8_t) data );
+		if ( data != 0x7F )
+			goto loop;
+		flags |= V04;
+		goto loop;
+
+	case 0x03: // INC BC
+	case 0x13: // INC DE
+	case 0x23: // INC HL
+		R16( opcode, 4, 0x03 )++;
+		goto loop;
+	
+	case 0x33: // INC SP
+		sp = uint16_t (sp + 1);
+		goto loop;
+	
+	case 0x0B: // DEC BC
+	case 0x1B: // DEC DE
+	case 0x2B: // DEC HL
+		R16( opcode, 4, 0x0B )--;
+		goto loop;
+	
+	case 0x3B: // DEC SP
+		sp = uint16_t (sp - 1);
+		goto loop;
+	
+// AND
+	case 0xA6: // AND (HL)
+		data = READ( rp.hl );
+		goto and_data;
+	
+	case 0xE6: // AND imm
+		pc++;
+		goto and_data;
+	
+	CASE7( A0, A1, A2, A3, A4, A5, A7 ): // AND r
+		data = R8( opcode, 0xA0 );
+	and_data:
+		rg.a &= data;
+		flags = SZ28P( rg.a ) | H10;
+		goto loop;
+	
+// OR
+	case 0xB6: // OR (HL)
+		data = READ( rp.hl );
+		goto or_data;
+	
+	case 0xF6: // OR imm
+		pc++;
+		goto or_data;
+	
+	CASE7( B0, B1, B2, B3, B4, B5, B7 ): // OR r
+		data = R8( opcode, 0xB0 );
+	or_data:
+		rg.a |= data;
+		flags = SZ28P( rg.a );
+		goto loop;
+
+// XOR
+	case 0xAE: // XOR (HL)
+		data = READ( rp.hl );
+		goto xor_data;
+	
+	case 0xEE: // XOR imm
+		pc++;
+		goto xor_data;
+	
+	CASE7( A8, A9, AA, AB, AC, AD, AF ): // XOR r
+		data = R8( opcode, 0xA8 );
+	xor_data:
+		rg.a ^= data;
+		flags = SZ28P( rg.a );
+		goto loop;
+
+// LD
+	CASE7( 70, 71, 72, 73, 74, 75, 77 ): // LD (HL),r
+		WRITE( rp.hl, R8( opcode, 0x70 ) );
+		goto loop;
+	
+	CASE6( 41, 42, 43, 44, 45, 47 ): // LD B,r
+	CASE6( 48, 4A, 4B, 4C, 4D, 4F ): // LD C,r
+	CASE6( 50, 51, 53, 54, 55, 57 ): // LD D,r
+	CASE6( 58, 59, 5A, 5C, 5D, 5F ): // LD E,r
+	CASE6( 60, 61, 62, 63, 65, 67 ): // LD H,r
+	CASE6( 68, 69, 6A, 6B, 6C, 6F ): // LD L,r
+	CASE6( 78, 79, 7A, 7B, 7C, 7D ): // LD A,r
+		R8( opcode >> 3 & 7, 0 ) = R8( opcode & 7, 0 );
+		goto loop;
+	
+	CASE5( 06, 0E, 16, 1E, 26 ): // LD r,imm
+		R8( opcode >> 3, 0 ) = data;
+		pc++;
+		goto loop;
+	
+	case 0x36: // LD (HL),imm
+		pc++;
+		WRITE( rp.hl, data );
+		goto loop;
+	
+	CASE7( 46, 4E, 56, 5E, 66, 6E, 7E ): // LD r,(HL)
+		R8( opcode >> 3, 8 ) = READ( rp.hl );
+		goto loop;
+	
+	case 0x01: // LD rp,imm
+	case 0x11:
+	case 0x21:
+		R16( opcode, 4, 0x01 ) = GET_ADDR();
+		pc += 2;
+		goto loop;
+	
+	case 0x31: // LD sp,imm
+		sp = GET_ADDR();
+		pc += 2;
+		goto loop;
+	
+	case 0x2A:{// LD HL,(addr)
+		fuint16 addr = GET_ADDR();
+		pc += 2;
+		rp.hl = READ_WORD( addr );
+		goto loop;
+	}
+	
+	case 0x32:{// LD (addr),A
+		fuint16 addr = GET_ADDR();
+		pc += 2;
+		WRITE( addr, rg.a );
+		goto loop;
+	}
+	
+	case 0x22:{// LD (addr),HL
+		fuint16 addr = GET_ADDR();
+		pc += 2;
+		WRITE_WORD( addr, rp.hl );
+		goto loop;
+	}
+	
+	case 0x02: // LD (BC),A
+	case 0x12: // LD (DE),A
+		WRITE( R16( opcode, 4, 0x02 ), rg.a );
+		goto loop;
+	
+	case 0x0A: // LD A,(BC)
+	case 0x1A: // LD A,(DE)
+		rg.a = READ( R16( opcode, 4, 0x0A ) );
+		goto loop;
+	
+	case 0xF9: // LD SP,HL
+		sp = rp.hl;
+		goto loop;
+	
+// Rotate
+	
+	case 0x07:{// RLCA
+		fuint16 temp = rg.a;
+		temp = (temp << 1) | (temp >> 7);
+		flags = (flags & (S80 | Z40 | P04)) |
+				(temp & (F20 | F08 | C01));
+		rg.a = temp;
+		goto loop;
+	}
+	
+	case 0x0F:{// RRCA
+		fuint16 temp = rg.a;
+		flags = (flags & (S80 | Z40 | P04)) |
+				(temp & C01);
+		temp = (temp << 7) | (temp >> 1);
+		flags |= temp & (F20 | F08);
+		rg.a = temp;
+		goto loop;
+	}
+	
+	case 0x17:{// RLA
+		blargg_ulong temp = (rg.a << 1) | (flags & C01);
+		flags = (flags & (S80 | Z40 | P04)) |
+				(temp & (F20 | F08)) |
+				(temp >> 8);
+		rg.a = temp;
+		goto loop;
+	}
+	
+	case 0x1F:{// RRA
+		fuint16 temp = (flags << 7) | (rg.a >> 1);
+		flags = (flags & (S80 | Z40 | P04)) |
+				(temp & (F20 | F08)) |
+				(rg.a & C01);
+		rg.a = temp;
+		goto loop;
+	}
+	
+// Misc
+	case 0x2F:{// CPL
+		fuint16 temp = ~rg.a;
+		flags = (flags & (S80 | Z40 | P04 | C01)) |
+				(temp & (F20 | F08)) |
+				(H10 | N02);
+		rg.a = temp;
+		goto loop;
+	}
+	
+	case 0x3F:{// CCF
+		flags = ((flags & (S80 | Z40 | P04 | C01)) ^ C01) |
+				(flags << 4 & H10) |
+				(rg.a & (F20 | F08));
+		goto loop;
+	}
+	
+	case 0x37: // SCF
+		flags = (flags & (S80 | Z40 | P04)) | C01 |
+				(rg.a & (F20 | F08));
+		goto loop;
+	
+	case 0xDB: // IN A,(imm)
+		pc++;
+		rg.a = IN( data + rg.a * 0x100 );
+		goto loop;
+
+	case 0xE3:{// EX (SP),HL
+		fuint16 temp = READ_WORD( sp );
+		WRITE_WORD( sp, rp.hl );
+		rp.hl = temp;
+		goto loop;
+	}
+	
+	case 0xEB:{// EX DE,HL
+		fuint16 temp = rp.hl;
+		rp.hl = rp.de;
+		rp.de = temp;
+		goto loop;
+	}
+	
+	case 0xD9:{// EXX DE,HL
+		fuint16 temp = r.alt.w.bc;
+		r.alt.w.bc = rp.bc;
+		rp.bc = temp;
+		
+		temp = r.alt.w.de;
+		r.alt.w.de = rp.de;
+		rp.de = temp;
+		
+		temp = r.alt.w.hl;
+		r.alt.w.hl = rp.hl;
+		rp.hl = temp;
+		goto loop;
+	}
+	
+	case 0xF3: // DI
+		r.iff1 = 0;
+		r.iff2 = 0;
+		goto loop;
+	
+	case 0xFB: // EI
+		r.iff1 = 1;
+		r.iff2 = 1;
+		// TODO: delayed effect
+		goto loop;
+	
+	case 0x76: // HALT
+		goto halt;
+	
+//////////////////////////////////////// CB prefix
+	{
+	case 0xCB:
+		unsigned data2;
+		data2 = INSTR( 1 );
+		pc++;
+		switch ( data )
+		{
+	
+	// Rotate left
+		
+	#define RLC( read, write ) {\
+		fuint8 result = read;\
+		result = uint8_t (result << 1) | (result >> 7);\
+		flags = SZ28P( result ) | (result & C01);\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x06: // RLC (HL)
+			s_time += 7;
+			data = rp.hl;
+		rlc_data_addr:
+			RLC( READ( data ), WRITE( data, result ) )
+		
+		CASE7( 00, 01, 02, 03, 04, 05, 07 ):{// RLC r
+			uint8_t& reg = R8( data, 0 );
+			RLC( reg, reg = result )
+		}
+		
+	#define RL( read, write ) {\
+		fuint16 result = (read << 1) | (flags & C01);\
+		flags = SZ28PC( result );\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x16: // RL (HL)
+			s_time += 7;
+			data = rp.hl;
+		rl_data_addr:
+			RL( READ( data ), WRITE( data, result ) )
+		
+		CASE7( 10, 11, 12, 13, 14, 15, 17 ):{// RL r
+			uint8_t& reg = R8( data, 0x10 );
+			RL( reg, reg = result )
+		}
+		
+	#define SLA( read, add, write ) {\
+		fuint16 result = (read << 1) | add;\
+		flags = SZ28PC( result );\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x26: // SLA (HL)
+			s_time += 7;
+			data = rp.hl;
+		sla_data_addr:
+			SLA( READ( data ), 0, WRITE( data, result ) )
+		
+		CASE7( 20, 21, 22, 23, 24, 25, 27 ):{// SLA r
+			uint8_t& reg = R8( data, 0x20 );
+			SLA( reg, 0, reg = result )
+		}
+		
+		case 0x36: // SLL (HL)
+			s_time += 7;
+			data = rp.hl;
+		sll_data_addr:
+			SLA( READ( data ), 1, WRITE( data, result ) )
+		
+		CASE7( 30, 31, 32, 33, 34, 35, 37 ):{// SLL r
+			uint8_t& reg = R8( data, 0x30 );
+			SLA( reg, 1, reg = result )
+		}
+		
+	// Rotate right
+		
+	#define RRC( read, write ) {\
+		fuint8 result = read;\
+		flags = result & C01;\
+		result = uint8_t (result << 7) | (result >> 1);\
+		flags |= SZ28P( result );\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x0E: // RRC (HL)
+			s_time += 7;
+			data = rp.hl;
+		rrc_data_addr:
+			RRC( READ( data ), WRITE( data, result ) )
+		
+		CASE7( 08, 09, 0A, 0B, 0C, 0D, 0F ):{// RRC r
+			uint8_t& reg = R8( data, 0x08 );
+			RRC( reg, reg = result )
+		}
+		
+	#define RR( read, write ) {\
+		fuint8 result = read;\
+		fuint8 temp = result & C01;\
+		result = uint8_t (flags << 7) | (result >> 1);\
+		flags = SZ28P( result ) | temp;\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x1E: // RR (HL)
+			s_time += 7;
+			data = rp.hl;
+		rr_data_addr:
+			RR( READ( data ), WRITE( data, result ) )
+		
+		CASE7( 18, 19, 1A, 1B, 1C, 1D, 1F ):{// RR r
+			uint8_t& reg = R8( data, 0x18 );
+			RR( reg, reg = result )
+		}
+		
+	#define SRA( read, write ) {\
+		fuint8 result = read;\
+		flags = result & C01;\
+		result = (result & 0x80) | (result >> 1);\
+		flags |= SZ28P( result );\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x2E: // SRA (HL)
+			data = rp.hl;
+			s_time += 7;
+		sra_data_addr:
+			SRA( READ( data ), WRITE( data, result ) )
+		
+		CASE7( 28, 29, 2A, 2B, 2C, 2D, 2F ):{// SRA r
+			uint8_t& reg = R8( data, 0x28 );
+			SRA( reg, reg = result )
+		}
+		
+	#define SRL( read, write ) {\
+		fuint8 result = read;\
+		flags = result & C01;\
+		result >>= 1;\
+		flags |= SZ28P( result );\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x3E: // SRL (HL)
+			s_time += 7;
+			data = rp.hl;
+		srl_data_addr:
+			SRL( READ( data ), WRITE( data, result ) )
+		
+		CASE7( 38, 39, 3A, 3B, 3C, 3D, 3F ):{// SRL r
+			uint8_t& reg = R8( data, 0x38 );
+			SRL( reg, reg = result )
+		}
+		
+	// BIT
+		{
+			unsigned temp;
+		CASE8( 46, 4E, 56, 5E, 66, 6E, 76, 7E ): // BIT b,(HL)
+			s_time += 4;
+			temp = READ( rp.hl );
+			flags &= C01;
+			goto bit_temp;
+		CASE7( 40, 41, 42, 43, 44, 45, 47 ): // BIT 0,r
+		CASE7( 48, 49, 4A, 4B, 4C, 4D, 4F ): // BIT 1,r
+		CASE7( 50, 51, 52, 53, 54, 55, 57 ): // BIT 2,r
+		CASE7( 58, 59, 5A, 5B, 5C, 5D, 5F ): // BIT 3,r
+		CASE7( 60, 61, 62, 63, 64, 65, 67 ): // BIT 4,r
+		CASE7( 68, 69, 6A, 6B, 6C, 6D, 6F ): // BIT 5,r
+		CASE7( 70, 71, 72, 73, 74, 75, 77 ): // BIT 6,r
+		CASE7( 78, 79, 7A, 7B, 7C, 7D, 7F ): // BIT 7,r
+			temp = R8( data & 7, 0 );
+			flags = (flags & C01) | (temp & (F20 | F08));
+		bit_temp:
+			int masked = temp & 1 << (data >> 3 & 7);
+			flags |=(masked & S80) | H10 |
+					((masked - 1) >> 8 & (Z40 | P04));
+			goto loop;
+		}
+		
+	// SET/RES
+		CASE8( 86, 8E, 96, 9E, A6, AE, B6, BE ): // RES b,(HL)
+		CASE8( C6, CE, D6, DE, E6, EE, F6, FE ):{// SET b,(HL)
+			s_time += 7;
+			int temp = READ( rp.hl );
+			int bit = 1 << (data >> 3 & 7);
+			temp |= bit; // SET
+			if ( !(data & 0x40) )
+				temp ^= bit; // RES
+			WRITE( rp.hl, temp );
+			goto loop;
+		}
+		
+		CASE7( C0, C1, C2, C3, C4, C5, C7 ): // SET 0,r
+		CASE7( C8, C9, CA, CB, CC, CD, CF ): // SET 1,r
+		CASE7( D0, D1, D2, D3, D4, D5, D7 ): // SET 2,r
+		CASE7( D8, D9, DA, DB, DC, DD, DF ): // SET 3,r
+		CASE7( E0, E1, E2, E3, E4, E5, E7 ): // SET 4,r
+		CASE7( E8, E9, EA, EB, EC, ED, EF ): // SET 5,r
+		CASE7( F0, F1, F2, F3, F4, F5, F7 ): // SET 6,r
+		CASE7( F8, F9, FA, FB, FC, FD, FF ): // SET 7,r
+			R8( data & 7, 0 ) |= 1 << (data >> 3 & 7);
+			goto loop;
+		
+		CASE7( 80, 81, 82, 83, 84, 85, 87 ): // RES 0,r
+		CASE7( 88, 89, 8A, 8B, 8C, 8D, 8F ): // RES 1,r
+		CASE7( 90, 91, 92, 93, 94, 95, 97 ): // RES 2,r
+		CASE7( 98, 99, 9A, 9B, 9C, 9D, 9F ): // RES 3,r
+		CASE7( A0, A1, A2, A3, A4, A5, A7 ): // RES 4,r
+		CASE7( A8, A9, AA, AB, AC, AD, AF ): // RES 5,r
+		CASE7( B0, B1, B2, B3, B4, B5, B7 ): // RES 6,r
+		CASE7( B8, B9, BA, BB, BC, BD, BF ): // RES 7,r
+			R8( data & 7, 0 ) &= ~(1 << (data >> 3 & 7));
+			goto loop;
+		}
+		assert( false );
+	}
+
+//////////////////////////////////////// ED prefix
+	{
+	case 0xED:
+		pc++;
+		s_time += ed_dd_timing [data] >> 4;
+		switch ( data )
+		{
+		{
+			blargg_ulong temp;
+		case 0x72: // SBC HL,SP
+		case 0x7A: // ADC HL,SP
+			temp = sp;
+			if ( 0 )
+		case 0x42: // SBC HL,BC
+		case 0x52: // SBC HL,DE
+		case 0x62: // SBC HL,HL
+		case 0x4A: // ADC HL,BC
+		case 0x5A: // ADC HL,DE
+		case 0x6A: // ADC HL,HL
+				temp = R16( data >> 3 & 6, 1, 0 );
+			blargg_ulong sum = temp + (flags & C01);
+			flags = ~data >> 2 & N02;
+			if ( flags )
+				sum = -sum;
+			sum += rp.hl;
+			temp ^= rp.hl;
+			temp ^= sum;
+			flags |=(sum >> 16 & C01) |
+					(temp >> 8 & H10) |
+					(sum >> 8 & (S80 | F20 | F08)) |
+					((temp - -0x8000) >> 14 & V04);
+			rp.hl = sum;
+			if ( (uint16_t) sum )
+				goto loop;
+			flags |= Z40;
+			goto loop;
+		}
+		
+		CASE8( 40, 48, 50, 58, 60, 68, 70, 78 ):{// IN r,(C)
+			int temp = IN( rp.bc );
+			R8( data >> 3, 8 ) = temp;
+			flags = (flags & C01) | SZ28P( temp );
+			goto loop;
+		}
+		
+		case 0x71: // OUT (C),0
+			rg.flags = 0;
+		CASE7( 41, 49, 51, 59, 61, 69, 79 ): // OUT (C),r
+			OUT( rp.bc, R8( data >> 3, 8 ) );
+			goto loop;
+		
+		{
+			unsigned temp;
+		case 0x73: // LD (ADDR),SP
+			temp = sp;
+			if ( 0 )
+		case 0x43: // LD (ADDR),BC
+		case 0x53: // LD (ADDR),DE
+				temp = R16( data, 4, 0x43 );
+			fuint16 addr = GET_ADDR();
+			pc += 2;
+			WRITE_WORD( addr, temp );
+			goto loop;
+		}
+		
+		case 0x4B: // LD BC,(ADDR)
+		case 0x5B:{// LD DE,(ADDR)
+			fuint16 addr = GET_ADDR();
+			pc += 2;
+			R16( data, 4, 0x4B ) = READ_WORD( addr );
+			goto loop;
+		}
+		
+		case 0x7B:{// LD SP,(ADDR)
+			fuint16 addr = GET_ADDR();
+			pc += 2;
+			sp = READ_WORD( addr );
+			goto loop;
+		}
+		
+		case 0x67:{// RRD
+			fuint8 temp = READ( rp.hl );
+			WRITE( rp.hl, (rg.a << 4) | (temp >> 4) );
+			temp = (rg.a & 0xF0) | (temp & 0x0F);
+			flags = (flags & C01) | SZ28P( temp );
+			rg.a = temp;
+			goto loop;
+		}
+		
+		case 0x6F:{// RLD
+			fuint8 temp = READ( rp.hl );
+			WRITE( rp.hl, (temp << 4) | (rg.a & 0x0F) );
+			temp = (rg.a & 0xF0) | (temp >> 4);
+			flags = (flags & C01) | SZ28P( temp );
+			rg.a = temp;
+			goto loop;
+		}
+		
+		CASE8( 44, 4C, 54, 5C, 64, 6C, 74, 7C ): // NEG
+			opcode = 0x10; // flag to do SBC instead of ADC
+			flags &= ~C01;
+			data = rg.a;
+			rg.a = 0;
+			goto adc_data;
+		
+		{
+			int inc;
+		case 0xA9: // CPD
+		case 0xB9: // CPDR
+			inc = -1;
+			if ( 0 )
+		case 0xA1: // CPI
+		case 0xB1: // CPIR
+				inc = +1;
+			fuint16 addr = rp.hl;
+			rp.hl = addr + inc;
+			int temp = READ( addr );
+			
+			int result = rg.a - temp;
+			flags = (flags & C01) | N02 |
+					((((temp ^ rg.a) & H10) ^ result) & (S80 | H10));
+			
+			if ( !(uint8_t) result ) flags |= Z40;
+			result -= (flags & H10) >> 4;
+			flags |= result & F08;
+			flags |= result << 4 & F20;
+			if ( !--rp.bc )
+				goto loop;
+			
+			flags |= V04;
+			if ( flags & Z40 || data < 0xB0 )
+				goto loop;
+			
+			pc -= 2;
+			s_time += 5;
+			goto loop;
+		}
+		
+		{
+			int inc;
+		case 0xA8: // LDD
+		case 0xB8: // LDDR
+			inc = -1;
+			if ( 0 )
+		case 0xA0: // LDI
+		case 0xB0: // LDIR
+				inc = +1;
+			fuint16 addr = rp.hl;
+			rp.hl = addr + inc;
+			int temp = READ( addr );
+			
+			addr = rp.de;
+			rp.de = addr + inc;
+			WRITE( addr, temp );
+			
+			temp += rg.a;
+			flags = (flags & (S80 | Z40 | C01)) |
+					(temp & F08) | (temp << 4 & F20);
+			if ( !--rp.bc )
+				goto loop;
+			
+			flags |= V04;
+			if ( data < 0xB0 )
+				goto loop;
+			
+			pc -= 2;
+			s_time += 5;
+			goto loop;
+		}
+		
+		{
+			int inc;
+		case 0xAB: // OUTD
+		case 0xBB: // OTDR
+			inc = -1;
+			if ( 0 )
+		case 0xA3: // OUTI
+		case 0xB3: // OTIR
+				inc = +1;
+			fuint16 addr = rp.hl;
+			rp.hl = addr + inc;
+			int temp = READ( addr );
+			
+			int b = --rg.b;
+			flags = (temp >> 6 & N02) | SZ28( b );
+			if ( b && data >= 0xB0 )
+			{
+				pc -= 2;
+				s_time += 5;
+			}
+			
+			OUT( rp.bc, temp );
+			goto loop;
+		}
+		
+		{
+			int inc;
+		case 0xAA: // IND
+		case 0xBA: // INDR
+			inc = -1;
+			if ( 0 )
+		case 0xA2: // INI
+		case 0xB2: // INIR
+				inc = +1;
+			
+			fuint16 addr = rp.hl;
+			rp.hl = addr + inc;
+			
+			int temp = IN( rp.bc );
+			
+			int b = --rg.b;
+			flags = (temp >> 6 & N02) | SZ28( b );
+			if ( b && data >= 0xB0 )
+			{
+				pc -= 2;
+				s_time += 5;
+			}
+			
+			WRITE( addr, temp );
+			goto loop;
+		}
+		
+		case 0x47: // LD I,A
+			r.i = rg.a;
+			goto loop;
+		
+		case 0x4F: // LD R,A
+			SET_R( rg.a );
+			debug_printf( "LD R,A not supported\n" );
+			warning = true;
+			goto loop;
+		
+		case 0x57: // LD A,I
+			rg.a = r.i;
+			goto ld_ai_common;
+		
+		case 0x5F: // LD A,R
+			rg.a = GET_R();
+			debug_printf( "LD A,R not supported\n" );
+			warning = true;
+		ld_ai_common:
+			flags = (flags & C01) | SZ28( rg.a ) | (r.iff2 << 2 & V04);
+			goto loop;
+		
+		CASE8( 45, 4D, 55, 5D, 65, 6D, 75, 7D ): // RETI/RETN
+			r.iff1 = r.iff2;
+			goto ret_taken;
+		
+		case 0x46: case 0x4E: case 0x66: case 0x6E: // IM 0
+			r.im = 0;
+			goto loop;
+		
+		case 0x56: case 0x76: // IM 1
+			r.im = 1;
+			goto loop;
+		
+		case 0x5E: case 0x7E: // IM 2
+			r.im = 2;
+			goto loop;
+		
+		default:
+			debug_printf( "Opcode $ED $%02X not supported\n", data );
+			warning = true;
+			goto loop;
+		}
+		assert( false );
+	}
+
+//////////////////////////////////////// DD/FD prefix
+	{
+	fuint16 ixy;
+	case 0xDD:
+		ixy = ix;
+		goto ix_prefix;
+	case 0xFD:
+		ixy = iy;
+	ix_prefix:
+		pc++;
+		unsigned data2 = READ_PROG( pc );
+		s_time += ed_dd_timing [data] & 0x0F;
+		switch ( data )
+		{
+	// TODO: more efficient way of avoid negative address
+	#define IXY_DISP( ixy, disp )   uint16_t ((ixy) + (disp))
+	
+	#define SET_IXY( in ) if ( opcode == 0xDD ) ix = in; else iy = in;
+	
+	// ADD/ADC/SUB/SBC
+	
+		case 0x96: // SUB (IXY+disp)
+		case 0x86: // ADD (IXY+disp)
+			flags &= ~C01;
+		case 0x9E: // SBC (IXY+disp)
+		case 0x8E: // ADC (IXY+disp)
+			pc++;
+			opcode = data;
+			data = READ( IXY_DISP( ixy, (int8_t) data2 ) );
+			goto adc_data;
+		
+		case 0x94: // SUB HXY
+		case 0x84: // ADD HXY
+			flags &= ~C01;
+		case 0x9C: // SBC HXY
+		case 0x8C: // ADC HXY
+			opcode = data;
+			data = ixy >> 8;
+			goto adc_data;
+		
+		case 0x95: // SUB LXY
+		case 0x85: // ADD LXY
+			flags &= ~C01;
+		case 0x9D: // SBC LXY
+		case 0x8D: // ADC LXY
+			opcode = data;
+			data = (uint8_t) ixy;
+			goto adc_data;
+		
+		{
+			unsigned temp;
+		case 0x39: // ADD IXY,SP
+			temp = sp;
+			goto add_ixy_data;
+		
+		case 0x29: // ADD IXY,HL
+			temp = ixy;
+			goto add_ixy_data;
+		
+		case 0x09: // ADD IXY,BC
+		case 0x19: // ADD IXY,DE
+			temp = R16( data, 4, 0x09 );
+		add_ixy_data: {
+			blargg_ulong sum = ixy + temp;
+			temp ^= ixy;
+			ixy = (uint16_t) sum;
+			flags = (flags & (S80 | Z40 | V04)) |
+					(sum >> 16) |
+					(sum >> 8 & (F20 | F08)) |
+					((temp ^ sum) >> 8 & H10);
+			goto set_ixy;
+		}
+		}
+	
+	// AND
+		case 0xA6: // AND (IXY+disp)
+			pc++;
+			data = READ( IXY_DISP( ixy, (int8_t) data2 ) );
+			goto and_data;
+		
+		case 0xA4: // AND HXY
+			data = ixy >> 8;
+			goto and_data;
+		
+		case 0xA5: // AND LXY
+			data = (uint8_t) ixy;
+			goto and_data;
+	
+	// OR
+		case 0xB6: // OR (IXY+disp)
+			pc++;
+			data = READ( IXY_DISP( ixy, (int8_t) data2 ) );
+			goto or_data;
+		
+		case 0xB4: // OR HXY
+			data = ixy >> 8;
+			goto or_data;
+		
+		case 0xB5: // OR LXY
+			data = (uint8_t) ixy;
+			goto or_data;
+	
+	// XOR
+		case 0xAE: // XOR (IXY+disp)
+			pc++;
+			data = READ( IXY_DISP( ixy, (int8_t) data2 ) );
+			goto xor_data;
+		
+		case 0xAC: // XOR HXY
+			data = ixy >> 8;
+			goto xor_data;
+		
+		case 0xAD: // XOR LXY
+			data = (uint8_t) ixy;
+			goto xor_data;
+	
+	// CP
+		case 0xBE: // CP (IXY+disp)
+			pc++;
+			data = READ( IXY_DISP( ixy, (int8_t) data2 )  );
+			goto cp_data;
+		
+		case 0xBC: // CP HXY
+			data = ixy >> 8;
+			goto cp_data;
+		
+		case 0xBD: // CP LXY
+			data = (uint8_t) ixy;
+			goto cp_data;
+		
+	// LD
+		CASE7( 70, 71, 72, 73, 74, 75, 77 ): // LD (IXY+disp),r
+			data = R8( data, 0x70 );
+			if ( 0 )
+		case 0x36: // LD (IXY+disp),imm
+				pc++, data = READ_PROG( pc );
+			pc++;
+			WRITE( IXY_DISP( ixy, (int8_t) data2 ), data );
+			goto loop;
+
+		CASE5( 44, 4C, 54, 5C, 7C ): // LD r,HXY
+			R8( data >> 3, 8 ) = ixy >> 8;
+			goto loop;
+		
+		case 0x64: // LD HXY,HXY
+		case 0x6D: // LD LXY,LXY
+			goto loop;
+		
+		CASE5( 45, 4D, 55, 5D, 7D ): // LD r,LXY
+			R8( data >> 3, 8 ) = ixy;
+			goto loop;
+		
+		CASE7( 46, 4E, 56, 5E, 66, 6E, 7E ): // LD r,(IXY+disp)
+			pc++;
+			R8( data >> 3, 8 ) = READ( IXY_DISP( ixy, (int8_t) data2 ) );
+			goto loop;
+		
+		case 0x26: // LD HXY,imm
+			pc++;
+			goto ld_hxy_data;
+			
+		case 0x65: // LD HXY,LXY
+			data2 = (uint8_t) ixy;
+			goto ld_hxy_data;
+		
+		CASE5( 60, 61, 62, 63, 67 ): // LD HXY,r
+			data2 = R8( data, 0x60 );
+		ld_hxy_data:
+			ixy = (uint8_t) ixy | (data2 << 8);
+			goto set_ixy;
+		
+		case 0x2E: // LD LXY,imm
+			pc++;
+			goto ld_lxy_data;
+			
+		case 0x6C: // LD LXY,HXY
+			data2 = ixy >> 8;
+			goto ld_lxy_data;
+		
+		CASE5( 68, 69, 6A, 6B, 6F ): // LD LXY,r
+			data2 = R8( data, 0x68 );
+		ld_lxy_data:
+			ixy = (ixy & 0xFF00) | data2;
+		set_ixy:
+			if ( opcode == 0xDD )
+			{
+				ix = ixy;
+				goto loop;
+			}
+			iy = ixy;
+			goto loop;
+
+		case 0xF9: // LD SP,IXY
+			sp = ixy;
+			goto loop;
+	
+		case 0x22:{// LD (ADDR),IXY
+			fuint16 addr = GET_ADDR();
+			pc += 2;
+			WRITE_WORD( addr, ixy );
+			goto loop;
+		}
+		
+		case 0x21: // LD IXY,imm
+			ixy = GET_ADDR();
+			pc += 2;
+			goto set_ixy;
+		
+		case 0x2A:{// LD IXY,(addr)
+			fuint16 addr = GET_ADDR();
+			ixy = READ_WORD( addr );
+			pc += 2;
+			goto set_ixy;
+		}
+		
+	// DD/FD CB prefix
+		case 0xCB: {
+			data = IXY_DISP( ixy, (int8_t) data2 );
+			pc++;
+			data2 = READ_PROG( pc );
+			pc++;
+			switch ( data2 )
+			{
+			case 0x06: goto rlc_data_addr; // RLC (IXY)
+			case 0x16: goto rl_data_addr;  // RL (IXY)
+			case 0x26: goto sla_data_addr; // SLA (IXY)
+			case 0x36: goto sll_data_addr; // SLL (IXY)
+			case 0x0E: goto rrc_data_addr; // RRC (IXY)
+			case 0x1E: goto rr_data_addr;  // RR (IXY)
+			case 0x2E: goto sra_data_addr; // SRA (IXY)
+			case 0x3E: goto srl_data_addr; // SRL (IXY)
+			
+			CASE8( 46, 4E, 56, 5E, 66, 6E, 76, 7E ):{// BIT b,(IXY+disp)
+				fuint8 temp = READ( data );
+				int masked = temp & 1 << (data2 >> 3 & 7);
+				flags = (flags & C01) | H10 |
+						(masked & S80) |
+						((masked - 1) >> 8 & (Z40 | P04));
+				goto loop;
+			}
+			
+			CASE8( 86, 8E, 96, 9E, A6, AE, B6, BE ): // RES b,(IXY+disp)
+			CASE8( C6, CE, D6, DE, E6, EE, F6, FE ):{// SET b,(IXY+disp)
+				int temp = READ( data );
+				int bit = 1 << (data2 >> 3 & 7);
+				temp |= bit; // SET
+				if ( !(data2 & 0x40) )
+					temp ^= bit; // RES
+				WRITE( data, temp );
+				goto loop;
+			}
+			
+			default:
+				debug_printf( "Opcode $%02X $CB $%02X not supported\n", opcode, data2 );
+				warning = true;
+				goto loop;
+			}
+			assert( false );
+		}
+		
+	// INC/DEC
+		case 0x23: // INC IXY
+			ixy = uint16_t (ixy + 1);
+			goto set_ixy;
+		
+		case 0x2B: // DEC IXY
+			ixy = uint16_t (ixy - 1);
+			goto set_ixy;
+		
+		case 0x34: // INC (IXY+disp)
+			ixy = IXY_DISP( ixy, (int8_t) data2 );
+			pc++;
+			data = READ( ixy ) + 1;
+			WRITE( ixy, data );
+			goto inc_set_flags;
+		
+		case 0x35: // DEC (IXY+disp)
+			ixy = IXY_DISP( ixy, (int8_t) data2 );
+			pc++;
+			data = READ( ixy ) - 1;
+			WRITE( ixy, data );
+			goto dec_set_flags;
+		
+		case 0x24: // INC HXY
+			ixy = uint16_t (ixy + 0x100);
+			data = ixy >> 8;
+			goto inc_xy_common;
+		
+		case 0x2C: // INC LXY
+			data = uint8_t (ixy + 1);
+			ixy = (ixy & 0xFF00) | data;
+		inc_xy_common:
+			if ( opcode == 0xDD )
+			{
+				ix = ixy;
+				goto inc_set_flags;
+			}
+			iy = ixy;
+			goto inc_set_flags;
+		
+		case 0x25: // DEC HXY
+			ixy = uint16_t (ixy - 0x100);
+			data = ixy >> 8;
+			goto dec_xy_common;
+		
+		case 0x2D: // DEC LXY
+			data = uint8_t (ixy - 1);
+			ixy = (ixy & 0xFF00) | data;
+		dec_xy_common:
+			if ( opcode == 0xDD )
+			{
+				ix = ixy;
+				goto dec_set_flags;
+			}
+			iy = ixy;
+			goto dec_set_flags;
+		
+	// PUSH/POP
+		case 0xE5: // PUSH IXY
+			data = ixy;
+			goto push_data;
+		
+		case 0xE1:{// POP IXY
+			ixy = READ_WORD( sp );
+			sp = uint16_t (sp + 2);
+			goto set_ixy;
+		}
+	
+	// Misc
+		
+		case 0xE9: // JP (IXY)
+			pc = ixy;
+			goto loop;
+		
+		case 0xE3:{// EX (SP),IXY
+			fuint16 temp = READ_WORD( sp );
+			WRITE_WORD( sp, ixy );
+			ixy = temp;
+			goto set_ixy;
+		}
+		
+		default:
+			debug_printf( "Unnecessary DD/FD prefix encountered\n" );
+			warning = true;
+			pc--;
+			goto loop;
+		}
+		assert( false );
+	}
+	
+	}
+	debug_printf( "Unhandled main opcode: $%02X\n", opcode );
+	assert( false );
+	
+halt:
+	s_time &= 3; // increment by multiple of 4
+out_of_time:
+	pc--;
+	
+	s.time   = s_time;
+	rg.flags = flags;
+	r.ix     = ix;
+	r.iy     = iy;
+	r.sp     = sp;
+	r.pc     = pc;
+	this->r.b = rg;
+	this->state_ = s;
+	this->state = &this->state_;
+	
+	return warning;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Ay_Cpu.h b/plugins/gme/game-music-emu-0.5.5/gme/Ay_Cpu.h
new file mode 100644
index 00000000..2f4d351e
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Ay_Cpu.h
@@ -0,0 +1,92 @@
+// Z80 CPU emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef AY_CPU_H
+#define AY_CPU_H
+
+#include "blargg_endian.h"
+
+typedef blargg_long cpu_time_t;
+
+// must be defined by caller
+void ay_cpu_out( class Ay_Cpu*, cpu_time_t, unsigned addr, int data );
+int ay_cpu_in( class Ay_Cpu*, unsigned addr );
+
+class Ay_Cpu {
+public:
+	// Clear all registers and keep pointer to 64K memory passed in
+	void reset( void* mem_64k );
+	
+	// Run until specified time is reached. Returns true if suspicious/unsupported
+	// instruction was encountered at any point during run.
+	bool run( cpu_time_t end_time );
+	
+	// Time of beginning of next instruction
+	cpu_time_t time() const             { return state->time + state->base; }
+	
+	// Alter current time. Not supported during run() call.
+	void set_time( cpu_time_t t )       { state->time = t - state->base; }
+	void adjust_time( int delta )       { state->time += delta; }
+	
+	typedef BOOST::uint8_t uint8_t;
+	typedef BOOST::uint16_t uint16_t;
+	
+	#if BLARGG_BIG_ENDIAN
+		struct regs_t { uint8_t b, c, d, e, h, l, flags, a; };
+	#else
+		struct regs_t { uint8_t c, b, e, d, l, h, a, flags; };
+	#endif
+	BOOST_STATIC_ASSERT( sizeof (regs_t) == 8 );
+	
+	struct pairs_t { uint16_t bc, de, hl, fa; };
+	
+	// Registers are not updated until run() returns
+	struct registers_t {
+		uint16_t pc;
+		uint16_t sp;
+		uint16_t ix;
+		uint16_t iy;
+		union {
+			regs_t b; //  b.b, b.c, b.d, b.e, b.h, b.l, b.flags, b.a
+			pairs_t w; // w.bc, w.de, w.hl. w.fa
+		};
+		union {
+			regs_t b;
+			pairs_t w;
+		} alt;
+		uint8_t iff1;
+		uint8_t iff2;
+		uint8_t r;
+		uint8_t i;
+		uint8_t im;
+	};
+	//registers_t r; (below for efficiency)
+	
+	// can read this far past end of memory
+	enum { cpu_padding = 0x100 };
+	
+public:
+	Ay_Cpu();
+private:
+	uint8_t szpc [0x200];
+	uint8_t* mem;
+	cpu_time_t end_time_;
+	struct state_t {
+		cpu_time_t base;
+		cpu_time_t time;
+	};
+	state_t* state; // points to state_ or a local copy within run()
+	state_t state_;
+	void set_end_time( cpu_time_t t );
+public:
+	registers_t r;
+};
+
+inline void Ay_Cpu::set_end_time( cpu_time_t t )
+{
+	cpu_time_t delta = state->base - t;
+	state->base = t;
+	state->time += delta;
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Ay_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Ay_Emu.cpp
new file mode 100644
index 00000000..0ee592e3
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Ay_Emu.cpp
@@ -0,0 +1,405 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Ay_Emu.h"
+
+#include "blargg_endian.h"
+#include <string.h>
+
+/* Copyright (C) 2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+long const spectrum_clock = 3546900;
+long const cpc_clock      = 2000000;
+
+unsigned const ram_start = 0x4000;
+int const osc_count = Ay_Apu::osc_count + 1;
+
+Ay_Emu::Ay_Emu()
+{
+	beeper_output = 0;
+	set_type( gme_ay_type );
+	
+	static const char* const names [osc_count] = {
+		"Wave 1", "Wave 2", "Wave 3", "Beeper"
+	};
+	set_voice_names( names );
+	
+	static int const types [osc_count] = {
+		wave_type | 0, wave_type | 1, wave_type | 2, mixed_type | 0
+	};
+	set_voice_types( types );
+	set_silence_lookahead( 6 );
+}
+
+Ay_Emu::~Ay_Emu() { }
+
+// Track info
+
+static byte const* get_data( Ay_Emu::file_t const& file, byte const* ptr, int min_size )
+{
+	long pos = ptr - (byte const*) file.header;
+	long file_size = file.end - (byte const*) file.header;
+	assert( (unsigned long) pos <= (unsigned long) file_size - 2 );
+	int offset = (BOOST::int16_t) get_be16( ptr );
+	if ( !offset || blargg_ulong (pos + offset) > blargg_ulong (file_size - min_size) )
+		return 0;
+	return ptr + offset;
+}
+
+static blargg_err_t parse_header( byte const* in, long size, Ay_Emu::file_t* out )
+{
+	typedef Ay_Emu::header_t header_t;
+	out->header = (header_t const*) in;
+	out->end    = in + size;
+	
+	if ( size < Ay_Emu::header_size )
+		return gme_wrong_file_type;
+	
+	header_t const& h = *(header_t const*) in;
+	if ( memcmp( h.tag, "ZXAYEMUL", 8 ) )
+		return gme_wrong_file_type;
+	
+	out->tracks = get_data( *out, h.track_info, (h.max_track + 1) * 4 );
+	if ( !out->tracks )
+		return "Missing track data";
+	
+	return 0;
+}
+
+static void copy_ay_fields( Ay_Emu::file_t const& file, track_info_t* out, int track )
+{
+	Gme_File::copy_field_( out->song, (char const*) get_data( file, file.tracks + track * 4, 1 ) );
+	byte const* track_info = get_data( file, file.tracks + track * 4 + 2, 6 );
+	if ( track_info )
+		out->length = get_be16( track_info + 4 ) * (1000L / 50); // frames to msec
+	
+	Gme_File::copy_field_( out->author,  (char const*) get_data( file, file.header->author, 1 ) );
+	Gme_File::copy_field_( out->comment, (char const*) get_data( file, file.header->comment, 1 ) );
+}
+
+blargg_err_t Ay_Emu::track_info_( track_info_t* out, int track ) const
+{
+	copy_ay_fields( file, out, track );
+	return 0;
+}
+
+struct Ay_File : Gme_Info_
+{
+	Ay_Emu::file_t file;
+	
+	Ay_File() { set_type( gme_ay_type ); }
+	
+	blargg_err_t load_mem_( byte const* begin, long size )
+	{
+		RETURN_ERR( parse_header( begin, size, &file ) );
+		set_track_count( file.header->max_track + 1 );
+		return 0;
+	}
+	
+	blargg_err_t track_info_( track_info_t* out, int track ) const
+	{
+		copy_ay_fields( file, out, track );
+		return 0;
+	}
+};
+
+static Music_Emu* new_ay_emu () { return BLARGG_NEW Ay_Emu ; }
+static Music_Emu* new_ay_file() { return BLARGG_NEW Ay_File; }
+
+static gme_type_t_ const gme_ay_type_ = { "ZX Spectrum", 0, &new_ay_emu, &new_ay_file, "AY", 1 };
+gme_type_t const gme_ay_type = &gme_ay_type_;
+
+// Setup
+
+blargg_err_t Ay_Emu::load_mem_( byte const* in, long size )
+{
+	assert( offsetof (header_t,track_info [2]) == header_size );
+	
+	RETURN_ERR( parse_header( in, size, &file ) );
+	set_track_count( file.header->max_track + 1 );
+	
+	if ( file.header->vers > 2 )
+		set_warning( "Unknown file version" );
+	
+	set_voice_count( osc_count );
+	apu.volume( gain() );
+	
+	return setup_buffer( spectrum_clock );
+}
+	
+void Ay_Emu::update_eq( blip_eq_t const& eq )
+{
+	apu.treble_eq( eq );
+}
+
+void Ay_Emu::set_voice( int i, Blip_Buffer* center, Blip_Buffer*, Blip_Buffer* )
+{
+	if ( i >= Ay_Apu::osc_count )
+		beeper_output = center;
+	else
+		apu.osc_output( i, center );
+}
+
+// Emulation
+
+void Ay_Emu::set_tempo_( double t )
+{
+	play_period = blip_time_t (clock_rate() / 50 / t);
+}
+
+blargg_err_t Ay_Emu::start_track_( int track )
+{
+	RETURN_ERR( Classic_Emu::start_track_( track ) );
+	
+	memset( mem.ram + 0x0000, 0xC9, 0x100 ); // fill RST vectors with RET
+	memset( mem.ram + 0x0100, 0xFF, 0x4000 - 0x100 );
+	memset( mem.ram + ram_start, 0x00, sizeof mem.ram - ram_start );
+	memset( mem.padding1, 0xFF, sizeof mem.padding1 );
+	memset( mem.ram + 0x10000, 0xFF, sizeof mem.ram - 0x10000 );
+	
+	// locate data blocks
+	byte const* const data = get_data( file, file.tracks + track * 4 + 2, 14 );
+	if ( !data ) return "File data missing";
+	
+	byte const* const more_data = get_data( file, data + 10, 6 );
+	if ( !more_data ) return "File data missing";
+	
+	byte const* blocks = get_data( file, data + 12, 8 );
+	if ( !blocks ) return "File data missing";
+	
+	// initial addresses
+	cpu::reset( mem.ram );
+	r.sp = get_be16( more_data );
+	r.b.a = r.b.b = r.b.d = r.b.h = data [8];
+	r.b.flags = r.b.c = r.b.e = r.b.l = data [9];
+	r.alt.w = r.w;
+	r.ix = r.iy = r.w.hl;
+	
+	unsigned addr = get_be16( blocks );
+	if ( !addr ) return "File data missing";
+	
+	unsigned init = get_be16( more_data + 2 );
+	if ( !init )
+		init = addr;
+	
+	// copy blocks into memory
+	do
+	{
+		blocks += 2;
+		unsigned len = get_be16( blocks ); blocks += 2;
+		if ( addr + len > 0x10000 )
+		{
+			set_warning( "Bad data block size" );
+			len = 0x10000 - addr;
+		}
+		check( len );
+		byte const* in = get_data( file, blocks, 0 ); blocks += 2;
+		if ( len > blargg_ulong (file.end - in) )
+		{
+			set_warning( "Missing file data" );
+			len = file.end - in;
+		}
+		//debug_printf( "addr: $%04X, len: $%04X\n", addr, len );
+		if ( addr < ram_start && addr >= 0x400 ) // several tracks use low data
+			debug_printf( "Block addr in ROM\n" );
+		memcpy( mem.ram + addr, in, len );
+		
+		if ( file.end - blocks < 8 )
+		{
+			set_warning( "Missing file data" );
+			break;
+		}
+	}
+	while ( (addr = get_be16( blocks )) != 0 );
+	
+	// copy and configure driver
+	static byte const passive [] = {
+		0xF3,       // DI
+		0xCD, 0, 0, // CALL init
+		0xED, 0x5E, // LOOP: IM 2
+		0xFB,       // EI
+		0x76,       // HALT
+		0x18, 0xFA  // JR LOOP
+	};
+	static byte const active [] = {
+		0xF3,       // DI
+		0xCD, 0, 0, // CALL init
+		0xED, 0x56, // LOOP: IM 1
+		0xFB,       // EI
+		0x76,       // HALT
+		0xCD, 0, 0, // CALL play
+		0x18, 0xF7  // JR LOOP
+	};
+	memcpy( mem.ram, passive, sizeof passive );
+	unsigned play_addr = get_be16( more_data + 4 );
+	//debug_printf( "Play: $%04X\n", play_addr );
+	if ( play_addr )
+	{
+		memcpy( mem.ram, active, sizeof active );
+		mem.ram [ 9] = play_addr;
+		mem.ram [10] = play_addr >> 8;
+	}
+	mem.ram [2] = init;
+	mem.ram [3] = init >> 8;
+	
+	mem.ram [0x38] = 0xFB; // Put EI at interrupt vector (followed by RET)
+	
+	memcpy( mem.ram + 0x10000, mem.ram, 0x80 ); // some code wraps around (ugh)
+	
+	beeper_delta = int (apu.amp_range * 0.65);
+	last_beeper = 0;
+	apu.reset();
+	next_play = play_period;
+	
+	// start at spectrum speed
+	change_clock_rate( spectrum_clock );
+	set_tempo( tempo() );
+	
+	spectrum_mode = false;
+	cpc_mode      = false;
+	cpc_latch     = 0;
+	
+	return 0;
+}
+
+// Emulation
+
+void Ay_Emu::cpu_out_misc( cpu_time_t time, unsigned addr, int data )
+{
+	if ( !cpc_mode )
+	{
+		switch ( addr & 0xFEFF )
+		{
+		case 0xFEFD:
+			spectrum_mode = true;
+			apu_addr = data & 0x0F;
+			return;
+		
+		case 0xBEFD:
+			spectrum_mode = true;
+			apu.write( time, apu_addr, data );
+			return;
+		}
+	}
+	
+	if ( !spectrum_mode )
+	{
+		switch ( addr >> 8 )
+		{
+		case 0xF6:
+			switch ( data & 0xC0 )
+			{
+			case 0xC0:
+				apu_addr = cpc_latch & 0x0F;
+				goto enable_cpc;
+			
+			case 0x80:
+				apu.write( time, apu_addr, cpc_latch );
+				goto enable_cpc;
+			}
+			break;
+		
+		case 0xF4:
+			cpc_latch = data;
+			goto enable_cpc;
+		}
+	}
+	
+	debug_printf( "Unmapped OUT: $%04X <- $%02X\n", addr, data );
+	return;
+	
+enable_cpc:
+	if ( !cpc_mode )
+	{
+		cpc_mode = true;
+		change_clock_rate( cpc_clock );
+		set_tempo( tempo() );
+	}
+}
+
+void ay_cpu_out( Ay_Cpu* cpu, cpu_time_t time, unsigned addr, int data )
+{
+	Ay_Emu& emu = STATIC_CAST(Ay_Emu&,*cpu);
+	
+	if ( (addr & 0xFF) == 0xFE && !emu.cpc_mode )
+	{
+		int delta = emu.beeper_delta;
+		data &= 0x10;
+		if ( emu.last_beeper != data )
+		{
+			emu.last_beeper = data;
+			emu.beeper_delta = -delta;
+			emu.spectrum_mode = true;
+			if ( emu.beeper_output )
+				emu.apu.synth_.offset( time, delta, emu.beeper_output );
+		}
+	}
+	else
+	{
+		emu.cpu_out_misc( time, addr, data );
+	}
+}
+
+int ay_cpu_in( Ay_Cpu*, unsigned addr )
+{
+	// keyboard read and other things
+	if ( (addr & 0xFF) == 0xFE )
+		return 0xFF; // other values break some beeper tunes
+	
+	debug_printf( "Unmapped IN : $%04X\n", addr );
+	return 0xFF;
+}
+
+blargg_err_t Ay_Emu::run_clocks( blip_time_t& duration, int )
+{
+	set_time( 0 );
+	if ( !(spectrum_mode | cpc_mode) )
+		duration /= 2; // until mode is set, leave room for halved clock rate
+	
+	while ( time() < duration )
+	{
+		cpu::run( min( duration, (blip_time_t) next_play ) );
+		
+		if ( time() >= next_play )
+		{
+			next_play += play_period;
+			
+			if ( r.iff1 )
+			{
+				if ( mem.ram [r.pc] == 0x76 )
+					r.pc++;
+				
+				r.iff1 = r.iff2 = 0;
+				
+				mem.ram [--r.sp] = uint8_t (r.pc >> 8);
+				mem.ram [--r.sp] = uint8_t (r.pc);
+				r.pc = 0x38;
+				cpu::adjust_time( 12 );
+				if ( r.im == 2 )
+				{
+					cpu::adjust_time( 6 );
+					unsigned addr = r.i * 0x100u + 0xFF;
+					r.pc = mem.ram [(addr + 1) & 0xFFFF] * 0x100u + mem.ram [addr];
+				}
+			}
+		}
+	}
+	duration = time();
+	next_play -= duration;
+	check( next_play >= 0 );
+	adjust_time( -duration );
+	
+	apu.end_frame( duration );
+	
+	return 0;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Ay_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Ay_Emu.h
new file mode 100644
index 00000000..8cd2231d
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Ay_Emu.h
@@ -0,0 +1,70 @@
+// Sinclair Spectrum AY music file emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef AY_EMU_H
+#define AY_EMU_H
+
+#include "Classic_Emu.h"
+#include "Ay_Apu.h"
+#include "Ay_Cpu.h"
+
+class Ay_Emu : private Ay_Cpu, public Classic_Emu {
+	typedef Ay_Cpu cpu;
+public:
+	// AY file header
+	enum { header_size = 0x14 };
+	struct header_t
+	{
+		byte tag [8];
+		byte vers;
+		byte player;
+		byte unused [2];
+		byte author [2];
+		byte comment [2];
+		byte max_track;
+		byte first_track;
+		byte track_info [2];
+	};
+	
+	static gme_type_t static_type() { return gme_ay_type; }
+public:
+	Ay_Emu();
+	~Ay_Emu();
+	struct file_t {
+		header_t const* header;
+		byte const* end;
+		byte const* tracks;
+	};
+protected:
+	blargg_err_t track_info_( track_info_t*, int track ) const;
+	blargg_err_t load_mem_( byte const*, long );
+	blargg_err_t start_track_( int );
+	blargg_err_t run_clocks( blip_time_t&, int );
+	void set_tempo_( double );
+	void set_voice( int, Blip_Buffer*, Blip_Buffer*, Blip_Buffer* );
+	void update_eq( blip_eq_t const& );
+private:
+	file_t file;
+	
+	unsigned play_addr;
+	cpu_time_t play_period;
+	cpu_time_t next_play;
+	Blip_Buffer* beeper_output;
+	int beeper_delta;
+	int last_beeper;
+	int apu_addr;
+	int cpc_latch;
+	bool spectrum_mode;
+	bool cpc_mode;
+	
+	// large items
+	struct {
+		byte padding1 [0x100];
+		byte ram [0x10000 + 0x100];
+	} mem;
+	Ay_Apu apu;
+	friend void ay_cpu_out( Ay_Cpu*, cpu_time_t, unsigned addr, int data );
+	void cpu_out_misc( cpu_time_t, unsigned addr, int data );
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp
new file mode 100644
index 00000000..9dc89ea8
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp
@@ -0,0 +1,446 @@
+// Blip_Buffer 0.4.1. http://www.slack.net/~ant/
+
+#include "Blip_Buffer.h"
+
+#include <assert.h>
+#include <limits.h>
+#include <string.h>
+#include <stdlib.h>
+#include <math.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#ifdef BLARGG_ENABLE_OPTIMIZER
+	#include BLARGG_ENABLE_OPTIMIZER
+#endif
+
+int const silent_buf_size = 1; // size used for Silent_Blip_Buffer
+
+Blip_Buffer::Blip_Buffer()
+{
+	factor_       = (blip_ulong)-1 / 2;
+	offset_       = 0;
+	buffer_       = 0;
+	buffer_size_  = 0;
+	sample_rate_  = 0;
+	reader_accum_ = 0;
+	bass_shift_   = 0;
+	clock_rate_   = 0;
+	bass_freq_    = 16;
+	length_       = 0;
+	
+	// assumptions code makes about implementation-defined features
+	#ifndef NDEBUG
+		// right shift of negative value preserves sign
+		buf_t_ i = -0x7FFFFFFE;
+		assert( (i >> 1) == -0x3FFFFFFF );
+		
+		// casting to short truncates to 16 bits and sign-extends
+		i = 0x18000;
+		assert( (short) i == -0x8000 );
+	#endif
+}
+
+Blip_Buffer::~Blip_Buffer()
+{
+	if ( buffer_size_ != silent_buf_size )
+		free( buffer_ );
+}
+
+Silent_Blip_Buffer::Silent_Blip_Buffer()
+{
+	factor_      = 0;
+	buffer_      = buf;
+	buffer_size_ = silent_buf_size;
+	memset( buf, 0, sizeof buf ); // in case machine takes exception for signed overflow
+}
+
+void Blip_Buffer::clear( int entire_buffer )
+{
+	offset_      = 0;
+	reader_accum_ = 0;
+	modified_    = 0;
+	if ( buffer_ )
+	{
+		long count = (entire_buffer ? buffer_size_ : samples_avail());
+		memset( buffer_, 0, (count + blip_buffer_extra_) * sizeof (buf_t_) );
+	}
+}
+
+Blip_Buffer::blargg_err_t Blip_Buffer::set_sample_rate( long new_rate, int msec )
+{
+	if ( buffer_size_ == silent_buf_size )
+	{
+		assert( 0 );
+		return "Internal (tried to resize Silent_Blip_Buffer)";
+	}
+	
+	// start with maximum length that resampled time can represent
+	long new_size = (UINT_MAX >> BLIP_BUFFER_ACCURACY) - blip_buffer_extra_ - 64;
+	if ( msec != blip_max_length )
+	{
+		long s = (new_rate * (msec + 1) + 999) / 1000;
+		if ( s < new_size )
+			new_size = s;
+		else
+			assert( 0 ); // fails if requested buffer length exceeds limit
+	}
+	
+	if ( buffer_size_ != new_size )
+	{
+		void* p = realloc( buffer_, (new_size + blip_buffer_extra_) * sizeof *buffer_ );
+		if ( !p )
+			return "Out of memory";
+		buffer_ = (buf_t_*) p;
+	}
+	
+	buffer_size_ = new_size;
+	assert( buffer_size_ != silent_buf_size );
+	
+	// update things based on the sample rate
+	sample_rate_ = new_rate;
+	length_ = new_size * 1000 / new_rate - 1;
+	if ( msec )
+		assert( length_ == msec ); // ensure length is same as that passed in
+	if ( clock_rate_ )
+		clock_rate( clock_rate_ );
+	bass_freq( bass_freq_ );
+	
+	clear();
+	
+	return 0; // success
+}
+
+blip_resampled_time_t Blip_Buffer::clock_rate_factor( long rate ) const
+{
+	double ratio = (double) sample_rate_ / rate;
+	blip_long factor = (blip_long) floor( ratio * (1L << BLIP_BUFFER_ACCURACY) + 0.5 );
+	assert( factor > 0 || !sample_rate_ ); // fails if clock/output ratio is too large
+	return (blip_resampled_time_t) factor;
+}
+
+void Blip_Buffer::bass_freq( int freq )
+{
+	bass_freq_ = freq;
+	int shift = 31;
+	if ( freq > 0 )
+	{
+		shift = 13;
+		long f = (freq << 16) / sample_rate_;
+		while ( (f >>= 1) && --shift ) { }
+	}
+	bass_shift_ = shift;
+}
+
+void Blip_Buffer::end_frame( blip_time_t t )
+{
+	offset_ += t * factor_;
+	assert( samples_avail() <= (long) buffer_size_ ); // time outside buffer length
+}
+
+void Blip_Buffer::remove_silence( long count )
+{
+	assert( count <= samples_avail() ); // tried to remove more samples than available
+	offset_ -= (blip_resampled_time_t) count << BLIP_BUFFER_ACCURACY;
+}
+
+long Blip_Buffer::count_samples( blip_time_t t ) const
+{
+	unsigned long last_sample  = resampled_time( t ) >> BLIP_BUFFER_ACCURACY;
+	unsigned long first_sample = offset_ >> BLIP_BUFFER_ACCURACY;
+	return (long) (last_sample - first_sample);
+}
+
+blip_time_t Blip_Buffer::count_clocks( long count ) const
+{
+	if ( !factor_ )
+	{
+		assert( 0 ); // sample rate and clock rates must be set first
+		return 0;
+	}
+	
+	if ( count > buffer_size_ )
+		count = buffer_size_;
+	blip_resampled_time_t time = (blip_resampled_time_t) count << BLIP_BUFFER_ACCURACY;
+	return (blip_time_t) ((time - offset_ + factor_ - 1) / factor_);
+}
+
+void Blip_Buffer::remove_samples( long count )
+{
+	if ( count )
+	{
+		remove_silence( count );
+		
+		// copy remaining samples to beginning and clear old samples
+		long remain = samples_avail() + blip_buffer_extra_;
+		memmove( buffer_, buffer_ + count, remain * sizeof *buffer_ );
+		memset( buffer_ + remain, 0, count * sizeof *buffer_ );
+	}
+}
+
+// Blip_Synth_
+
+Blip_Synth_Fast_::Blip_Synth_Fast_()
+{
+	buf = 0;
+	last_amp = 0;
+	delta_factor = 0;
+}
+
+void Blip_Synth_Fast_::volume_unit( double new_unit )
+{
+	delta_factor = int (new_unit * (1L << blip_sample_bits) + 0.5);
+}
+
+#if !BLIP_BUFFER_FAST
+
+Blip_Synth_::Blip_Synth_( short* p, int w ) :
+	impulses( p ),
+	width( w )
+{
+	volume_unit_ = 0.0;
+	kernel_unit = 0;
+	buf = 0;
+	last_amp = 0;
+	delta_factor = 0;
+}
+
+#undef PI
+#define PI 3.1415926535897932384626433832795029
+
+static void gen_sinc( float* out, int count, double oversample, double treble, double cutoff )
+{
+	if ( cutoff >= 0.999 )
+		cutoff = 0.999;
+	
+	if ( treble < -300.0 )
+		treble = -300.0;
+	if ( treble > 5.0 )
+		treble = 5.0;
+	
+	double const maxh = 4096.0;
+	double const rolloff = pow( 10.0, 1.0 / (maxh * 20.0) * treble / (1.0 - cutoff) );
+	double const pow_a_n = pow( rolloff, maxh - maxh * cutoff );
+	double const to_angle = PI / 2 / maxh / oversample;
+	for ( int i = 0; i < count; i++ )
+	{
+		double angle = ((i - count) * 2 + 1) * to_angle;
+		double c = rolloff * cos( (maxh - 1.0) * angle ) - cos( maxh * angle );
+		double cos_nc_angle = cos( maxh * cutoff * angle );
+		double cos_nc1_angle = cos( (maxh * cutoff - 1.0) * angle );
+		double cos_angle = cos( angle );
+		
+		c = c * pow_a_n - rolloff * cos_nc1_angle + cos_nc_angle;
+		double d = 1.0 + rolloff * (rolloff - cos_angle - cos_angle);
+		double b = 2.0 - cos_angle - cos_angle;
+		double a = 1.0 - cos_angle - cos_nc_angle + cos_nc1_angle;
+		
+		out [i] = (float) ((a * d + c * b) / (b * d)); // a / b + c / d
+	}
+}
+
+void blip_eq_t::generate( float* out, int count ) const
+{
+	// lower cutoff freq for narrow kernels with their wider transition band
+	// (8 points->1.49, 16 points->1.15)
+	double oversample = blip_res * 2.25 / count + 0.85;
+	double half_rate = sample_rate * 0.5;
+	if ( cutoff_freq )
+		oversample = half_rate / cutoff_freq;
+	double cutoff = rolloff_freq * oversample / half_rate;
+	
+	gen_sinc( out, count, blip_res * oversample, treble, cutoff );
+	
+	// apply (half of) hamming window
+	double to_fraction = PI / (count - 1);
+	for ( int i = count; i--; )
+		out [i] *= 0.54f - 0.46f * (float) cos( i * to_fraction );
+}
+
+void Blip_Synth_::adjust_impulse()
+{
+	// sum pairs for each phase and add error correction to end of first half
+	int const size = impulses_size();
+	for ( int p = blip_res; p-- >= blip_res / 2; )
+	{
+		int p2 = blip_res - 2 - p;
+		long error = kernel_unit;
+		for ( int i = 1; i < size; i += blip_res )
+		{
+			error -= impulses [i + p ];
+			error -= impulses [i + p2];
+		}
+		if ( p == p2 )
+			error /= 2; // phase = 0.5 impulse uses same half for both sides
+		impulses [size - blip_res + p] += (short) error;
+		//printf( "error: %ld\n", error );
+	}
+	
+	//for ( int i = blip_res; i--; printf( "\n" ) )
+	//  for ( int j = 0; j < width / 2; j++ )
+	//      printf( "%5ld,", impulses [j * blip_res + i + 1] );
+}
+
+void Blip_Synth_::treble_eq( blip_eq_t const& eq )
+{
+	float fimpulse [blip_res / 2 * (blip_widest_impulse_ - 1) + blip_res * 2];
+	
+	int const half_size = blip_res / 2 * (width - 1);
+	eq.generate( &fimpulse [blip_res], half_size );
+	
+	int i;
+	
+	// need mirror slightly past center for calculation
+	for ( i = blip_res; i--; )
+		fimpulse [blip_res + half_size + i] = fimpulse [blip_res + half_size - 1 - i];
+	
+	// starts at 0
+	for ( i = 0; i < blip_res; i++ )
+		fimpulse [i] = 0.0f;
+	
+	// find rescale factor
+	double total = 0.0;
+	for ( i = 0; i < half_size; i++ )
+		total += fimpulse [blip_res + i];
+	
+	//double const base_unit = 44800.0 - 128 * 18; // allows treble up to +0 dB
+	//double const base_unit = 37888.0; // allows treble to +5 dB
+	double const base_unit = 32768.0; // necessary for blip_unscaled to work
+	double rescale = base_unit / 2 / total;
+	kernel_unit = (long) base_unit;
+	
+	// integrate, first difference, rescale, convert to int
+	double sum = 0.0;
+	double next = 0.0;
+	int const impulses_size = this->impulses_size();
+	for ( i = 0; i < impulses_size; i++ )
+	{
+		impulses [i] = (short) floor( (next - sum) * rescale + 0.5 );
+		sum += fimpulse [i];
+		next += fimpulse [i + blip_res];
+	}
+	adjust_impulse();
+	
+	// volume might require rescaling
+	double vol = volume_unit_;
+	if ( vol )
+	{
+		volume_unit_ = 0.0;
+		volume_unit( vol );
+	}
+}
+
+void Blip_Synth_::volume_unit( double new_unit )
+{
+	if ( new_unit != volume_unit_ )
+	{
+		// use default eq if it hasn't been set yet
+		if ( !kernel_unit )
+			treble_eq( -8.0 );
+		
+		volume_unit_ = new_unit;
+		double factor = new_unit * (1L << blip_sample_bits) / kernel_unit;
+		
+		if ( factor > 0.0 )
+		{
+			int shift = 0;
+			
+			// if unit is really small, might need to attenuate kernel
+			while ( factor < 2.0 )
+			{
+				shift++;
+				factor *= 2.0;
+			}
+			
+			if ( shift )
+			{
+				kernel_unit >>= shift;
+				assert( kernel_unit > 0 ); // fails if volume unit is too low
+				
+				// keep values positive to avoid round-towards-zero of sign-preserving
+				// right shift for negative values
+				long offset = 0x8000 + (1 << (shift - 1));
+				long offset2 = 0x8000 >> shift;
+				for ( int i = impulses_size(); i--; )
+					impulses [i] = (short) (((impulses [i] + offset) >> shift) - offset2);
+				adjust_impulse();
+			}
+		}
+		delta_factor = (int) floor( factor + 0.5 );
+		//printf( "delta_factor: %d, kernel_unit: %d\n", delta_factor, kernel_unit );
+	}
+}
+#endif
+
+long Blip_Buffer::read_samples( blip_sample_t* BLIP_RESTRICT out, long max_samples, int stereo )
+{
+	long count = samples_avail();
+	if ( count > max_samples )
+		count = max_samples;
+	
+	if ( count )
+	{
+		int const bass = BLIP_READER_BASS( *this );
+		BLIP_READER_BEGIN( reader, *this );
+		
+		if ( !stereo )
+		{
+			for ( blip_long n = count; n; --n )
+			{
+				blip_long s = BLIP_READER_READ( reader );
+				if ( (blip_sample_t) s != s )
+					s = 0x7FFF - (s >> 24);
+				*out++ = (blip_sample_t) s;
+				BLIP_READER_NEXT( reader, bass );
+			}
+		}
+		else
+		{
+			for ( blip_long n = count; n; --n )
+			{
+				blip_long s = BLIP_READER_READ( reader );
+				if ( (blip_sample_t) s != s )
+					s = 0x7FFF - (s >> 24);
+				*out = (blip_sample_t) s;
+				out += 2;
+				BLIP_READER_NEXT( reader, bass );
+			}
+		}
+		BLIP_READER_END( reader, *this );
+		
+		remove_samples( count );
+	}
+	return count;
+}
+
+void Blip_Buffer::mix_samples( blip_sample_t const* in, long count )
+{
+	if ( buffer_size_ == silent_buf_size )
+	{
+		assert( 0 );
+		return;
+	}
+	
+	buf_t_* out = buffer_ + (offset_ >> BLIP_BUFFER_ACCURACY) + blip_widest_impulse_ / 2;
+	
+	int const sample_shift = blip_sample_bits - 16;
+	int prev = 0;
+	while ( count-- )
+	{
+		blip_long s = (blip_long) *in++ << sample_shift;
+		*out += s - prev;
+		prev = s;
+		++out;
+	}
+	*out -= prev;
+}
+
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp.orig b/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp.orig
new file mode 100644
index 00000000..9dc89ea8
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp.orig
@@ -0,0 +1,446 @@
+// Blip_Buffer 0.4.1. http://www.slack.net/~ant/
+
+#include "Blip_Buffer.h"
+
+#include <assert.h>
+#include <limits.h>
+#include <string.h>
+#include <stdlib.h>
+#include <math.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#ifdef BLARGG_ENABLE_OPTIMIZER
+	#include BLARGG_ENABLE_OPTIMIZER
+#endif
+
+int const silent_buf_size = 1; // size used for Silent_Blip_Buffer
+
+Blip_Buffer::Blip_Buffer()
+{
+	factor_       = (blip_ulong)-1 / 2;
+	offset_       = 0;
+	buffer_       = 0;
+	buffer_size_  = 0;
+	sample_rate_  = 0;
+	reader_accum_ = 0;
+	bass_shift_   = 0;
+	clock_rate_   = 0;
+	bass_freq_    = 16;
+	length_       = 0;
+	
+	// assumptions code makes about implementation-defined features
+	#ifndef NDEBUG
+		// right shift of negative value preserves sign
+		buf_t_ i = -0x7FFFFFFE;
+		assert( (i >> 1) == -0x3FFFFFFF );
+		
+		// casting to short truncates to 16 bits and sign-extends
+		i = 0x18000;
+		assert( (short) i == -0x8000 );
+	#endif
+}
+
+Blip_Buffer::~Blip_Buffer()
+{
+	if ( buffer_size_ != silent_buf_size )
+		free( buffer_ );
+}
+
+Silent_Blip_Buffer::Silent_Blip_Buffer()
+{
+	factor_      = 0;
+	buffer_      = buf;
+	buffer_size_ = silent_buf_size;
+	memset( buf, 0, sizeof buf ); // in case machine takes exception for signed overflow
+}
+
+void Blip_Buffer::clear( int entire_buffer )
+{
+	offset_      = 0;
+	reader_accum_ = 0;
+	modified_    = 0;
+	if ( buffer_ )
+	{
+		long count = (entire_buffer ? buffer_size_ : samples_avail());
+		memset( buffer_, 0, (count + blip_buffer_extra_) * sizeof (buf_t_) );
+	}
+}
+
+Blip_Buffer::blargg_err_t Blip_Buffer::set_sample_rate( long new_rate, int msec )
+{
+	if ( buffer_size_ == silent_buf_size )
+	{
+		assert( 0 );
+		return "Internal (tried to resize Silent_Blip_Buffer)";
+	}
+	
+	// start with maximum length that resampled time can represent
+	long new_size = (UINT_MAX >> BLIP_BUFFER_ACCURACY) - blip_buffer_extra_ - 64;
+	if ( msec != blip_max_length )
+	{
+		long s = (new_rate * (msec + 1) + 999) / 1000;
+		if ( s < new_size )
+			new_size = s;
+		else
+			assert( 0 ); // fails if requested buffer length exceeds limit
+	}
+	
+	if ( buffer_size_ != new_size )
+	{
+		void* p = realloc( buffer_, (new_size + blip_buffer_extra_) * sizeof *buffer_ );
+		if ( !p )
+			return "Out of memory";
+		buffer_ = (buf_t_*) p;
+	}
+	
+	buffer_size_ = new_size;
+	assert( buffer_size_ != silent_buf_size );
+	
+	// update things based on the sample rate
+	sample_rate_ = new_rate;
+	length_ = new_size * 1000 / new_rate - 1;
+	if ( msec )
+		assert( length_ == msec ); // ensure length is same as that passed in
+	if ( clock_rate_ )
+		clock_rate( clock_rate_ );
+	bass_freq( bass_freq_ );
+	
+	clear();
+	
+	return 0; // success
+}
+
+blip_resampled_time_t Blip_Buffer::clock_rate_factor( long rate ) const
+{
+	double ratio = (double) sample_rate_ / rate;
+	blip_long factor = (blip_long) floor( ratio * (1L << BLIP_BUFFER_ACCURACY) + 0.5 );
+	assert( factor > 0 || !sample_rate_ ); // fails if clock/output ratio is too large
+	return (blip_resampled_time_t) factor;
+}
+
+void Blip_Buffer::bass_freq( int freq )
+{
+	bass_freq_ = freq;
+	int shift = 31;
+	if ( freq > 0 )
+	{
+		shift = 13;
+		long f = (freq << 16) / sample_rate_;
+		while ( (f >>= 1) && --shift ) { }
+	}
+	bass_shift_ = shift;
+}
+
+void Blip_Buffer::end_frame( blip_time_t t )
+{
+	offset_ += t * factor_;
+	assert( samples_avail() <= (long) buffer_size_ ); // time outside buffer length
+}
+
+void Blip_Buffer::remove_silence( long count )
+{
+	assert( count <= samples_avail() ); // tried to remove more samples than available
+	offset_ -= (blip_resampled_time_t) count << BLIP_BUFFER_ACCURACY;
+}
+
+long Blip_Buffer::count_samples( blip_time_t t ) const
+{
+	unsigned long last_sample  = resampled_time( t ) >> BLIP_BUFFER_ACCURACY;
+	unsigned long first_sample = offset_ >> BLIP_BUFFER_ACCURACY;
+	return (long) (last_sample - first_sample);
+}
+
+blip_time_t Blip_Buffer::count_clocks( long count ) const
+{
+	if ( !factor_ )
+	{
+		assert( 0 ); // sample rate and clock rates must be set first
+		return 0;
+	}
+	
+	if ( count > buffer_size_ )
+		count = buffer_size_;
+	blip_resampled_time_t time = (blip_resampled_time_t) count << BLIP_BUFFER_ACCURACY;
+	return (blip_time_t) ((time - offset_ + factor_ - 1) / factor_);
+}
+
+void Blip_Buffer::remove_samples( long count )
+{
+	if ( count )
+	{
+		remove_silence( count );
+		
+		// copy remaining samples to beginning and clear old samples
+		long remain = samples_avail() + blip_buffer_extra_;
+		memmove( buffer_, buffer_ + count, remain * sizeof *buffer_ );
+		memset( buffer_ + remain, 0, count * sizeof *buffer_ );
+	}
+}
+
+// Blip_Synth_
+
+Blip_Synth_Fast_::Blip_Synth_Fast_()
+{
+	buf = 0;
+	last_amp = 0;
+	delta_factor = 0;
+}
+
+void Blip_Synth_Fast_::volume_unit( double new_unit )
+{
+	delta_factor = int (new_unit * (1L << blip_sample_bits) + 0.5);
+}
+
+#if !BLIP_BUFFER_FAST
+
+Blip_Synth_::Blip_Synth_( short* p, int w ) :
+	impulses( p ),
+	width( w )
+{
+	volume_unit_ = 0.0;
+	kernel_unit = 0;
+	buf = 0;
+	last_amp = 0;
+	delta_factor = 0;
+}
+
+#undef PI
+#define PI 3.1415926535897932384626433832795029
+
+static void gen_sinc( float* out, int count, double oversample, double treble, double cutoff )
+{
+	if ( cutoff >= 0.999 )
+		cutoff = 0.999;
+	
+	if ( treble < -300.0 )
+		treble = -300.0;
+	if ( treble > 5.0 )
+		treble = 5.0;
+	
+	double const maxh = 4096.0;
+	double const rolloff = pow( 10.0, 1.0 / (maxh * 20.0) * treble / (1.0 - cutoff) );
+	double const pow_a_n = pow( rolloff, maxh - maxh * cutoff );
+	double const to_angle = PI / 2 / maxh / oversample;
+	for ( int i = 0; i < count; i++ )
+	{
+		double angle = ((i - count) * 2 + 1) * to_angle;
+		double c = rolloff * cos( (maxh - 1.0) * angle ) - cos( maxh * angle );
+		double cos_nc_angle = cos( maxh * cutoff * angle );
+		double cos_nc1_angle = cos( (maxh * cutoff - 1.0) * angle );
+		double cos_angle = cos( angle );
+		
+		c = c * pow_a_n - rolloff * cos_nc1_angle + cos_nc_angle;
+		double d = 1.0 + rolloff * (rolloff - cos_angle - cos_angle);
+		double b = 2.0 - cos_angle - cos_angle;
+		double a = 1.0 - cos_angle - cos_nc_angle + cos_nc1_angle;
+		
+		out [i] = (float) ((a * d + c * b) / (b * d)); // a / b + c / d
+	}
+}
+
+void blip_eq_t::generate( float* out, int count ) const
+{
+	// lower cutoff freq for narrow kernels with their wider transition band
+	// (8 points->1.49, 16 points->1.15)
+	double oversample = blip_res * 2.25 / count + 0.85;
+	double half_rate = sample_rate * 0.5;
+	if ( cutoff_freq )
+		oversample = half_rate / cutoff_freq;
+	double cutoff = rolloff_freq * oversample / half_rate;
+	
+	gen_sinc( out, count, blip_res * oversample, treble, cutoff );
+	
+	// apply (half of) hamming window
+	double to_fraction = PI / (count - 1);
+	for ( int i = count; i--; )
+		out [i] *= 0.54f - 0.46f * (float) cos( i * to_fraction );
+}
+
+void Blip_Synth_::adjust_impulse()
+{
+	// sum pairs for each phase and add error correction to end of first half
+	int const size = impulses_size();
+	for ( int p = blip_res; p-- >= blip_res / 2; )
+	{
+		int p2 = blip_res - 2 - p;
+		long error = kernel_unit;
+		for ( int i = 1; i < size; i += blip_res )
+		{
+			error -= impulses [i + p ];
+			error -= impulses [i + p2];
+		}
+		if ( p == p2 )
+			error /= 2; // phase = 0.5 impulse uses same half for both sides
+		impulses [size - blip_res + p] += (short) error;
+		//printf( "error: %ld\n", error );
+	}
+	
+	//for ( int i = blip_res; i--; printf( "\n" ) )
+	//  for ( int j = 0; j < width / 2; j++ )
+	//      printf( "%5ld,", impulses [j * blip_res + i + 1] );
+}
+
+void Blip_Synth_::treble_eq( blip_eq_t const& eq )
+{
+	float fimpulse [blip_res / 2 * (blip_widest_impulse_ - 1) + blip_res * 2];
+	
+	int const half_size = blip_res / 2 * (width - 1);
+	eq.generate( &fimpulse [blip_res], half_size );
+	
+	int i;
+	
+	// need mirror slightly past center for calculation
+	for ( i = blip_res; i--; )
+		fimpulse [blip_res + half_size + i] = fimpulse [blip_res + half_size - 1 - i];
+	
+	// starts at 0
+	for ( i = 0; i < blip_res; i++ )
+		fimpulse [i] = 0.0f;
+	
+	// find rescale factor
+	double total = 0.0;
+	for ( i = 0; i < half_size; i++ )
+		total += fimpulse [blip_res + i];
+	
+	//double const base_unit = 44800.0 - 128 * 18; // allows treble up to +0 dB
+	//double const base_unit = 37888.0; // allows treble to +5 dB
+	double const base_unit = 32768.0; // necessary for blip_unscaled to work
+	double rescale = base_unit / 2 / total;
+	kernel_unit = (long) base_unit;
+	
+	// integrate, first difference, rescale, convert to int
+	double sum = 0.0;
+	double next = 0.0;
+	int const impulses_size = this->impulses_size();
+	for ( i = 0; i < impulses_size; i++ )
+	{
+		impulses [i] = (short) floor( (next - sum) * rescale + 0.5 );
+		sum += fimpulse [i];
+		next += fimpulse [i + blip_res];
+	}
+	adjust_impulse();
+	
+	// volume might require rescaling
+	double vol = volume_unit_;
+	if ( vol )
+	{
+		volume_unit_ = 0.0;
+		volume_unit( vol );
+	}
+}
+
+void Blip_Synth_::volume_unit( double new_unit )
+{
+	if ( new_unit != volume_unit_ )
+	{
+		// use default eq if it hasn't been set yet
+		if ( !kernel_unit )
+			treble_eq( -8.0 );
+		
+		volume_unit_ = new_unit;
+		double factor = new_unit * (1L << blip_sample_bits) / kernel_unit;
+		
+		if ( factor > 0.0 )
+		{
+			int shift = 0;
+			
+			// if unit is really small, might need to attenuate kernel
+			while ( factor < 2.0 )
+			{
+				shift++;
+				factor *= 2.0;
+			}
+			
+			if ( shift )
+			{
+				kernel_unit >>= shift;
+				assert( kernel_unit > 0 ); // fails if volume unit is too low
+				
+				// keep values positive to avoid round-towards-zero of sign-preserving
+				// right shift for negative values
+				long offset = 0x8000 + (1 << (shift - 1));
+				long offset2 = 0x8000 >> shift;
+				for ( int i = impulses_size(); i--; )
+					impulses [i] = (short) (((impulses [i] + offset) >> shift) - offset2);
+				adjust_impulse();
+			}
+		}
+		delta_factor = (int) floor( factor + 0.5 );
+		//printf( "delta_factor: %d, kernel_unit: %d\n", delta_factor, kernel_unit );
+	}
+}
+#endif
+
+long Blip_Buffer::read_samples( blip_sample_t* BLIP_RESTRICT out, long max_samples, int stereo )
+{
+	long count = samples_avail();
+	if ( count > max_samples )
+		count = max_samples;
+	
+	if ( count )
+	{
+		int const bass = BLIP_READER_BASS( *this );
+		BLIP_READER_BEGIN( reader, *this );
+		
+		if ( !stereo )
+		{
+			for ( blip_long n = count; n; --n )
+			{
+				blip_long s = BLIP_READER_READ( reader );
+				if ( (blip_sample_t) s != s )
+					s = 0x7FFF - (s >> 24);
+				*out++ = (blip_sample_t) s;
+				BLIP_READER_NEXT( reader, bass );
+			}
+		}
+		else
+		{
+			for ( blip_long n = count; n; --n )
+			{
+				blip_long s = BLIP_READER_READ( reader );
+				if ( (blip_sample_t) s != s )
+					s = 0x7FFF - (s >> 24);
+				*out = (blip_sample_t) s;
+				out += 2;
+				BLIP_READER_NEXT( reader, bass );
+			}
+		}
+		BLIP_READER_END( reader, *this );
+		
+		remove_samples( count );
+	}
+	return count;
+}
+
+void Blip_Buffer::mix_samples( blip_sample_t const* in, long count )
+{
+	if ( buffer_size_ == silent_buf_size )
+	{
+		assert( 0 );
+		return;
+	}
+	
+	buf_t_* out = buffer_ + (offset_ >> BLIP_BUFFER_ACCURACY) + blip_widest_impulse_ / 2;
+	
+	int const sample_shift = blip_sample_bits - 16;
+	int prev = 0;
+	while ( count-- )
+	{
+		blip_long s = (blip_long) *in++ << sample_shift;
+		*out += s - prev;
+		prev = s;
+		++out;
+	}
+	*out -= prev;
+}
+
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp.rej b/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp.rej
new file mode 100644
index 00000000..64b81cab
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp.rej
@@ -0,0 +1,11 @@
+--- /home/waker/Downloads/Game_Music_Emu-0.5.2//gme/Blip_Buffer.cpp	2006-12-11 17:13:57.000000000 +0100
++++ .//gme/Blip_Buffer.cpp	2010-05-09 20:40:36.000000000 +0200
+@@ -27,7 +27,7 @@
+ 
+ Blip_Buffer::Blip_Buffer()
+ {
+-	factor_       = LONG_MAX;
++	factor_       = 0x7fffffff;
+ 	offset_       = 0;
+ 	buffer_       = 0;
+ 	buffer_size_  = 0;
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.h b/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.h
new file mode 100644
index 00000000..4cc526d2
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.h
@@ -0,0 +1,488 @@
+// Band-limited sound synthesis buffer
+
+// Blip_Buffer 0.4.1
+#ifndef BLIP_BUFFER_H
+#define BLIP_BUFFER_H
+
+	// internal
+	#include <limits.h>
+	#if INT_MAX < 0x7FFFFFFF
+		#error "int must be at least 32 bits"
+	#endif
+	
+	typedef int blip_long;
+	typedef unsigned blip_ulong;
+
+// Time unit at source clock rate
+typedef blip_long blip_time_t;
+
+// Output samples are 16-bit signed, with a range of -32768 to 32767
+typedef short blip_sample_t;
+enum { blip_sample_max = 32767 };
+
+class Blip_Buffer {
+public:
+	typedef const char* blargg_err_t;
+	
+	// Set output sample rate and buffer length in milliseconds (1/1000 sec, defaults
+	// to 1/4 second), then clear buffer. Returns NULL on success, otherwise if there
+	// isn't enough memory, returns error without affecting current buffer setup.
+	blargg_err_t set_sample_rate( long samples_per_sec, int msec_length = 1000 / 4 );
+	
+	// Set number of source time units per second
+	void clock_rate( long );
+	
+	// End current time frame of specified duration and make its samples available
+	// (along with any still-unread samples) for reading with read_samples(). Begins
+	// a new time frame at the end of the current frame.
+	void end_frame( blip_time_t time );
+	
+	// Read at most 'max_samples' out of buffer into 'dest', removing them from from
+	// the buffer. Returns number of samples actually read and removed. If stereo is
+	// true, increments 'dest' one extra time after writing each sample, to allow
+	// easy interleving of two channels into a stereo output buffer.
+	long read_samples( blip_sample_t* dest, long max_samples, int stereo = 0 );
+	
+// Additional optional features
+
+	// Current output sample rate
+	long sample_rate() const;
+	
+	// Length of buffer, in milliseconds
+	int length() const;
+	
+	// Number of source time units per second
+	long clock_rate() const;
+	
+	// Set frequency high-pass filter frequency, where higher values reduce bass more
+	void bass_freq( int frequency );
+	
+	// Number of samples delay from synthesis to samples read out
+	int output_latency() const;
+	
+	// Remove all available samples and clear buffer to silence. If 'entire_buffer' is
+	// false, just clears out any samples waiting rather than the entire buffer.
+	void clear( int entire_buffer = 1 );
+	
+	// Number of samples available for reading with read_samples()
+	long samples_avail() const;
+	
+	// Remove 'count' samples from those waiting to be read
+	void remove_samples( long count );
+	
+// Experimental features
+	
+	// Count number of clocks needed until 'count' samples will be available.
+	// If buffer can't even hold 'count' samples, returns number of clocks until
+	// buffer becomes full.
+	blip_time_t count_clocks( long count ) const;
+	
+	// Number of raw samples that can be mixed within frame of specified duration.
+	long count_samples( blip_time_t duration ) const;
+	
+	// Mix 'count' samples from 'buf' into buffer.
+	void mix_samples( blip_sample_t const* buf, long count );
+	
+	// not documented yet
+	void set_modified() { modified_ = 1; }
+	int clear_modified() { int b = modified_; modified_ = 0; return b; }
+	typedef blip_ulong blip_resampled_time_t;
+	void remove_silence( long count );
+	blip_resampled_time_t resampled_duration( int t ) const     { return t * factor_; }
+	blip_resampled_time_t resampled_time( blip_time_t t ) const { return t * factor_ + offset_; }
+	blip_resampled_time_t clock_rate_factor( long clock_rate ) const;
+public:
+	Blip_Buffer();
+	~Blip_Buffer();
+	
+	// Deprecated
+	typedef blip_resampled_time_t resampled_time_t;
+	blargg_err_t sample_rate( long r ) { return set_sample_rate( r ); }
+	blargg_err_t sample_rate( long r, int msec ) { return set_sample_rate( r, msec ); }
+private:
+	// noncopyable
+	Blip_Buffer( const Blip_Buffer& );
+	Blip_Buffer& operator = ( const Blip_Buffer& );
+public:
+	typedef blip_time_t buf_t_;
+	blip_ulong factor_;
+	blip_resampled_time_t offset_;
+	buf_t_* buffer_;
+	blip_long buffer_size_;
+	blip_long reader_accum_;
+	int bass_shift_;
+private:
+	long sample_rate_;
+	long clock_rate_;
+	int bass_freq_;
+	int length_;
+	int modified_;
+	friend class Blip_Reader;
+};
+
+#ifdef HAVE_CONFIG_H
+	#include "config.h"
+#endif
+
+// Number of bits in resample ratio fraction. Higher values give a more accurate ratio
+// but reduce maximum buffer size.
+#ifndef BLIP_BUFFER_ACCURACY
+	#define BLIP_BUFFER_ACCURACY 16
+#endif
+
+// Number bits in phase offset. Fewer than 6 bits (64 phase offsets) results in
+// noticeable broadband noise when synthesizing high frequency square waves.
+// Affects size of Blip_Synth objects since they store the waveform directly.
+#ifndef BLIP_PHASE_BITS
+	#if BLIP_BUFFER_FAST
+		#define BLIP_PHASE_BITS 8
+	#else
+		#define BLIP_PHASE_BITS 6
+	#endif
+#endif
+
+	// Internal
+	typedef blip_ulong blip_resampled_time_t;
+	int const blip_widest_impulse_ = 16;
+	int const blip_buffer_extra_ = blip_widest_impulse_ + 2;
+	int const blip_res = 1 << BLIP_PHASE_BITS;
+	class blip_eq_t;
+	
+	class Blip_Synth_Fast_ {
+	public:
+		Blip_Buffer* buf;
+		int last_amp;
+		int delta_factor;
+		
+		void volume_unit( double );
+		Blip_Synth_Fast_();
+		void treble_eq( blip_eq_t const& ) { }
+	};
+	
+	class Blip_Synth_ {
+	public:
+		Blip_Buffer* buf;
+		int last_amp;
+		int delta_factor;
+		
+		void volume_unit( double );
+		Blip_Synth_( short* impulses, int width );
+		void treble_eq( blip_eq_t const& );
+	private:
+		double volume_unit_;
+		short* const impulses;
+		int const width;
+		blip_long kernel_unit;
+		int impulses_size() const { return blip_res / 2 * width + 1; }
+		void adjust_impulse();
+	};
+
+// Quality level. Start with blip_good_quality.
+const int blip_med_quality  = 8;
+const int blip_good_quality = 12;
+const int blip_high_quality = 16;
+
+// Range specifies the greatest expected change in amplitude. Calculate it
+// by finding the difference between the maximum and minimum expected
+// amplitudes (max - min).
+template<int quality,int range>
+class Blip_Synth {
+public:
+	// Set overall volume of waveform
+	void volume( double v ) { impl.volume_unit( v * (1.0 / (range < 0 ? -range : range)) ); }
+	
+	// Configure low-pass filter (see blip_buffer.txt)
+	void treble_eq( blip_eq_t const& eq )       { impl.treble_eq( eq ); }
+	
+	// Get/set Blip_Buffer used for output
+	Blip_Buffer* output() const                 { return impl.buf; }
+	void output( Blip_Buffer* b )               { impl.buf = b; impl.last_amp = 0; }
+	
+	// Update amplitude of waveform at given time. Using this requires a separate
+	// Blip_Synth for each waveform.
+	void update( blip_time_t time, int amplitude );
+
+// Low-level interface
+
+	// Add an amplitude transition of specified delta, optionally into specified buffer
+	// rather than the one set with output(). Delta can be positive or negative.
+	// The actual change in amplitude is delta * (volume / range)
+	void offset( blip_time_t, int delta, Blip_Buffer* ) const;
+	void offset( blip_time_t t, int delta ) const { offset( t, delta, impl.buf ); }
+	
+	// Works directly in terms of fractional output samples. Contact author for more info.
+	void offset_resampled( blip_resampled_time_t, int delta, Blip_Buffer* ) const;
+	
+	// Same as offset(), except code is inlined for higher performance
+	void offset_inline( blip_time_t t, int delta, Blip_Buffer* buf ) const {
+		offset_resampled( t * buf->factor_ + buf->offset_, delta, buf );
+	}
+	void offset_inline( blip_time_t t, int delta ) const {
+		offset_resampled( t * impl.buf->factor_ + impl.buf->offset_, delta, impl.buf );
+	}
+	
+private:
+#if BLIP_BUFFER_FAST
+	Blip_Synth_Fast_ impl;
+#else
+	Blip_Synth_ impl;
+	typedef short imp_t;
+	imp_t impulses [blip_res * (quality / 2) + 1];
+public:
+	Blip_Synth() : impl( impulses, quality ) { }
+#endif
+};
+
+// Low-pass equalization parameters
+class blip_eq_t {
+public:
+	// Logarithmic rolloff to treble dB at half sampling rate. Negative values reduce
+	// treble, small positive values (0 to 5.0) increase treble.
+	blip_eq_t( double treble_db = 0 );
+	
+	// See blip_buffer.txt
+	blip_eq_t( double treble, long rolloff_freq, long sample_rate, long cutoff_freq = 0 );
+	
+private:
+	double treble;
+	long rolloff_freq;
+	long sample_rate;
+	long cutoff_freq;
+	void generate( float* out, int count ) const;
+	friend class Blip_Synth_;
+};
+
+int const blip_sample_bits = 30;
+
+// Dummy Blip_Buffer to direct sound output to, for easy muting without
+// having to stop sound code.
+class Silent_Blip_Buffer : public Blip_Buffer {
+	buf_t_ buf [blip_buffer_extra_ + 1];
+public:
+	// The following cannot be used (an assertion will fail if attempted):
+	blargg_err_t set_sample_rate( long samples_per_sec, int msec_length );
+	blip_time_t count_clocks( long count ) const;
+	void mix_samples( blip_sample_t const* buf, long count );
+	
+	Silent_Blip_Buffer();
+};
+
+	#if defined (__GNUC__) || _MSC_VER >= 1100
+		#define BLIP_RESTRICT __restrict
+	#else
+		#define BLIP_RESTRICT
+	#endif
+
+// Optimized reading from Blip_Buffer, for use in custom sample output
+
+// Begin reading from buffer. Name should be unique to the current block.
+#define BLIP_READER_BEGIN( name, blip_buffer ) \
+	const Blip_Buffer::buf_t_* BLIP_RESTRICT name##_reader_buf = (blip_buffer).buffer_;\
+	blip_long name##_reader_accum = (blip_buffer).reader_accum_
+
+// Get value to pass to BLIP_READER_NEXT()
+#define BLIP_READER_BASS( blip_buffer ) ((blip_buffer).bass_shift_)
+
+// Constant value to use instead of BLIP_READER_BASS(), for slightly more optimal
+// code at the cost of having no bass control
+int const blip_reader_default_bass = 9;
+
+// Current sample
+#define BLIP_READER_READ( name )        (name##_reader_accum >> (blip_sample_bits - 16))
+
+// Current raw sample in full internal resolution
+#define BLIP_READER_READ_RAW( name )    (name##_reader_accum)
+
+// Advance to next sample
+#define BLIP_READER_NEXT( name, bass ) \
+	(void) (name##_reader_accum += *name##_reader_buf++ - (name##_reader_accum >> (bass)))
+
+// End reading samples from buffer. The number of samples read must now be removed
+// using Blip_Buffer::remove_samples().
+#define BLIP_READER_END( name, blip_buffer ) \
+	(void) ((blip_buffer).reader_accum_ = name##_reader_accum)
+
+
+// Compatibility with older version
+const long blip_unscaled = 65535;
+const int blip_low_quality  = blip_med_quality;
+const int blip_best_quality = blip_high_quality;
+
+// Deprecated; use BLIP_READER macros as follows:
+// Blip_Reader r; r.begin( buf ); -> BLIP_READER_BEGIN( r, buf );
+// int bass = r.begin( buf )      -> BLIP_READER_BEGIN( r, buf ); int bass = BLIP_READER_BASS( buf );
+// r.read()                       -> BLIP_READER_READ( r )
+// r.read_raw()                   -> BLIP_READER_READ_RAW( r )
+// r.next( bass )                 -> BLIP_READER_NEXT( r, bass )
+// r.next()                       -> BLIP_READER_NEXT( r, blip_reader_default_bass )
+// r.end( buf )                   -> BLIP_READER_END( r, buf )
+class Blip_Reader {
+public:
+	int begin( Blip_Buffer& );
+	blip_long read() const          { return accum >> (blip_sample_bits - 16); }
+	blip_long read_raw() const      { return accum; }
+	void next( int bass_shift = 9 )         { accum += *buf++ - (accum >> bass_shift); }
+	void end( Blip_Buffer& b )              { b.reader_accum_ = accum; }
+	
+private:
+	const Blip_Buffer::buf_t_* buf;
+	blip_long accum;
+};
+
+// End of public interface
+
+#include <assert.h>
+
+template<int quality,int range>
+inline void Blip_Synth<quality,range>::offset_resampled( blip_resampled_time_t time,
+		int delta, Blip_Buffer* blip_buf ) const
+{
+	// Fails if time is beyond end of Blip_Buffer, due to a bug in caller code or the
+	// need for a longer buffer as set by set_sample_rate().
+	assert( (blip_long) (time >> BLIP_BUFFER_ACCURACY) < blip_buf->buffer_size_ );
+	delta *= impl.delta_factor;
+	blip_long* BLIP_RESTRICT buf = blip_buf->buffer_ + (time >> BLIP_BUFFER_ACCURACY);
+	int phase = (int) (time >> (BLIP_BUFFER_ACCURACY - BLIP_PHASE_BITS) & (blip_res - 1));
+
+#if BLIP_BUFFER_FAST
+	blip_long left = buf [0] + delta;
+	
+	// Kind of crappy, but doing shift after multiply results in overflow.
+	// Alternate way of delaying multiply by delta_factor results in worse
+	// sub-sample resolution.
+	blip_long right = (delta >> BLIP_PHASE_BITS) * phase;
+	left  -= right;
+	right += buf [1];
+	
+	buf [0] = left;
+	buf [1] = right;
+#else
+
+	int const fwd = (blip_widest_impulse_ - quality) / 2;
+	int const rev = fwd + quality - 2;
+	int const mid = quality / 2 - 1;
+	
+	imp_t const* BLIP_RESTRICT imp = impulses + blip_res - phase;
+	
+	#if defined (_M_IX86) || defined (_M_IA64) || defined (__i486__) || \
+			defined (__x86_64__) || defined (__ia64__) || defined (__i386__)
+	
+	// straight forward implementation resulted in better code on GCC for x86
+	
+	#define ADD_IMP( out, in ) \
+		buf [out] += (blip_long) imp [blip_res * (in)] * delta
+	
+	#define BLIP_FWD( i ) {\
+		ADD_IMP( fwd     + i, i     );\
+		ADD_IMP( fwd + 1 + i, i + 1 );\
+	}
+	#define BLIP_REV( r ) {\
+		ADD_IMP( rev     - r, r + 1 );\
+		ADD_IMP( rev + 1 - r, r     );\
+	}
+
+		BLIP_FWD( 0 )
+		if ( quality > 8  ) BLIP_FWD( 2 )
+		if ( quality > 12 ) BLIP_FWD( 4 )
+		{
+			ADD_IMP( fwd + mid - 1, mid - 1 );
+			ADD_IMP( fwd + mid    , mid     );
+			imp = impulses + phase;
+		}
+		if ( quality > 12 ) BLIP_REV( 6 )
+		if ( quality > 8  ) BLIP_REV( 4 )
+		BLIP_REV( 2 )
+		
+		ADD_IMP( rev    , 1 );
+		ADD_IMP( rev + 1, 0 );
+		
+	#else
+	
+	// for RISC processors, help compiler by reading ahead of writes
+	
+	#define BLIP_FWD( i ) {\
+		blip_long t0 =                       i0 * delta + buf [fwd     + i];\
+		blip_long t1 = imp [blip_res * (i + 1)] * delta + buf [fwd + 1 + i];\
+		i0 =           imp [blip_res * (i + 2)];\
+		buf [fwd     + i] = t0;\
+		buf [fwd + 1 + i] = t1;\
+	}
+	#define BLIP_REV( r ) {\
+		blip_long t0 =                 i0 * delta + buf [rev     - r];\
+		blip_long t1 = imp [blip_res * r] * delta + buf [rev + 1 - r];\
+		i0 =           imp [blip_res * (r - 1)];\
+		buf [rev     - r] = t0;\
+		buf [rev + 1 - r] = t1;\
+	}
+		
+		blip_long i0 = *imp;
+		BLIP_FWD( 0 )
+		if ( quality > 8  ) BLIP_FWD( 2 )
+		if ( quality > 12 ) BLIP_FWD( 4 )
+		{
+			blip_long t0 =                   i0 * delta + buf [fwd + mid - 1];
+			blip_long t1 = imp [blip_res * mid] * delta + buf [fwd + mid    ];
+			imp = impulses + phase;
+			i0 = imp [blip_res * mid];
+			buf [fwd + mid - 1] = t0;
+			buf [fwd + mid    ] = t1;
+		}
+		if ( quality > 12 ) BLIP_REV( 6 )
+		if ( quality > 8  ) BLIP_REV( 4 )
+		BLIP_REV( 2 )
+		
+		blip_long t0 =   i0 * delta + buf [rev    ];
+		blip_long t1 = *imp * delta + buf [rev + 1];
+		buf [rev    ] = t0;
+		buf [rev + 1] = t1;
+	#endif
+	
+#endif
+}
+
+#undef BLIP_FWD
+#undef BLIP_REV
+
+template<int quality,int range>
+#if BLIP_BUFFER_FAST
+	inline
+#endif
+void Blip_Synth<quality,range>::offset( blip_time_t t, int delta, Blip_Buffer* buf ) const
+{
+	offset_resampled( t * buf->factor_ + buf->offset_, delta, buf );
+}
+
+template<int quality,int range>
+#if BLIP_BUFFER_FAST
+	inline
+#endif
+void Blip_Synth<quality,range>::update( blip_time_t t, int amp )
+{
+	int delta = amp - impl.last_amp;
+	impl.last_amp = amp;
+	offset_resampled( t * impl.buf->factor_ + impl.buf->offset_, delta, impl.buf );
+}
+
+inline blip_eq_t::blip_eq_t( double t ) :
+		treble( t ), rolloff_freq( 0 ), sample_rate( 44100 ), cutoff_freq( 0 ) { }
+inline blip_eq_t::blip_eq_t( double t, long rf, long sr, long cf ) :
+		treble( t ), rolloff_freq( rf ), sample_rate( sr ), cutoff_freq( cf ) { }
+
+inline int  Blip_Buffer::length() const         { return length_; }
+inline long Blip_Buffer::samples_avail() const  { return (long) (offset_ >> BLIP_BUFFER_ACCURACY); }
+inline long Blip_Buffer::sample_rate() const    { return sample_rate_; }
+inline int  Blip_Buffer::output_latency() const { return blip_widest_impulse_ / 2; }
+inline long Blip_Buffer::clock_rate() const     { return clock_rate_; }
+inline void Blip_Buffer::clock_rate( long cps ) { factor_ = clock_rate_factor( clock_rate_ = cps ); }
+
+inline int Blip_Reader::begin( Blip_Buffer& blip_buf )
+{
+	buf = blip_buf.buffer_;
+	accum = blip_buf.reader_accum_;
+	return blip_buf.bass_shift_;
+}
+
+int const blip_max_length = 0;
+int const blip_default_length = 250;
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.h.orig b/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.h.orig
new file mode 100644
index 00000000..4cc526d2
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.h.orig
@@ -0,0 +1,488 @@
+// Band-limited sound synthesis buffer
+
+// Blip_Buffer 0.4.1
+#ifndef BLIP_BUFFER_H
+#define BLIP_BUFFER_H
+
+	// internal
+	#include <limits.h>
+	#if INT_MAX < 0x7FFFFFFF
+		#error "int must be at least 32 bits"
+	#endif
+	
+	typedef int blip_long;
+	typedef unsigned blip_ulong;
+
+// Time unit at source clock rate
+typedef blip_long blip_time_t;
+
+// Output samples are 16-bit signed, with a range of -32768 to 32767
+typedef short blip_sample_t;
+enum { blip_sample_max = 32767 };
+
+class Blip_Buffer {
+public:
+	typedef const char* blargg_err_t;
+	
+	// Set output sample rate and buffer length in milliseconds (1/1000 sec, defaults
+	// to 1/4 second), then clear buffer. Returns NULL on success, otherwise if there
+	// isn't enough memory, returns error without affecting current buffer setup.
+	blargg_err_t set_sample_rate( long samples_per_sec, int msec_length = 1000 / 4 );
+	
+	// Set number of source time units per second
+	void clock_rate( long );
+	
+	// End current time frame of specified duration and make its samples available
+	// (along with any still-unread samples) for reading with read_samples(). Begins
+	// a new time frame at the end of the current frame.
+	void end_frame( blip_time_t time );
+	
+	// Read at most 'max_samples' out of buffer into 'dest', removing them from from
+	// the buffer. Returns number of samples actually read and removed. If stereo is
+	// true, increments 'dest' one extra time after writing each sample, to allow
+	// easy interleving of two channels into a stereo output buffer.
+	long read_samples( blip_sample_t* dest, long max_samples, int stereo = 0 );
+	
+// Additional optional features
+
+	// Current output sample rate
+	long sample_rate() const;
+	
+	// Length of buffer, in milliseconds
+	int length() const;
+	
+	// Number of source time units per second
+	long clock_rate() const;
+	
+	// Set frequency high-pass filter frequency, where higher values reduce bass more
+	void bass_freq( int frequency );
+	
+	// Number of samples delay from synthesis to samples read out
+	int output_latency() const;
+	
+	// Remove all available samples and clear buffer to silence. If 'entire_buffer' is
+	// false, just clears out any samples waiting rather than the entire buffer.
+	void clear( int entire_buffer = 1 );
+	
+	// Number of samples available for reading with read_samples()
+	long samples_avail() const;
+	
+	// Remove 'count' samples from those waiting to be read
+	void remove_samples( long count );
+	
+// Experimental features
+	
+	// Count number of clocks needed until 'count' samples will be available.
+	// If buffer can't even hold 'count' samples, returns number of clocks until
+	// buffer becomes full.
+	blip_time_t count_clocks( long count ) const;
+	
+	// Number of raw samples that can be mixed within frame of specified duration.
+	long count_samples( blip_time_t duration ) const;
+	
+	// Mix 'count' samples from 'buf' into buffer.
+	void mix_samples( blip_sample_t const* buf, long count );
+	
+	// not documented yet
+	void set_modified() { modified_ = 1; }
+	int clear_modified() { int b = modified_; modified_ = 0; return b; }
+	typedef blip_ulong blip_resampled_time_t;
+	void remove_silence( long count );
+	blip_resampled_time_t resampled_duration( int t ) const     { return t * factor_; }
+	blip_resampled_time_t resampled_time( blip_time_t t ) const { return t * factor_ + offset_; }
+	blip_resampled_time_t clock_rate_factor( long clock_rate ) const;
+public:
+	Blip_Buffer();
+	~Blip_Buffer();
+	
+	// Deprecated
+	typedef blip_resampled_time_t resampled_time_t;
+	blargg_err_t sample_rate( long r ) { return set_sample_rate( r ); }
+	blargg_err_t sample_rate( long r, int msec ) { return set_sample_rate( r, msec ); }
+private:
+	// noncopyable
+	Blip_Buffer( const Blip_Buffer& );
+	Blip_Buffer& operator = ( const Blip_Buffer& );
+public:
+	typedef blip_time_t buf_t_;
+	blip_ulong factor_;
+	blip_resampled_time_t offset_;
+	buf_t_* buffer_;
+	blip_long buffer_size_;
+	blip_long reader_accum_;
+	int bass_shift_;
+private:
+	long sample_rate_;
+	long clock_rate_;
+	int bass_freq_;
+	int length_;
+	int modified_;
+	friend class Blip_Reader;
+};
+
+#ifdef HAVE_CONFIG_H
+	#include "config.h"
+#endif
+
+// Number of bits in resample ratio fraction. Higher values give a more accurate ratio
+// but reduce maximum buffer size.
+#ifndef BLIP_BUFFER_ACCURACY
+	#define BLIP_BUFFER_ACCURACY 16
+#endif
+
+// Number bits in phase offset. Fewer than 6 bits (64 phase offsets) results in
+// noticeable broadband noise when synthesizing high frequency square waves.
+// Affects size of Blip_Synth objects since they store the waveform directly.
+#ifndef BLIP_PHASE_BITS
+	#if BLIP_BUFFER_FAST
+		#define BLIP_PHASE_BITS 8
+	#else
+		#define BLIP_PHASE_BITS 6
+	#endif
+#endif
+
+	// Internal
+	typedef blip_ulong blip_resampled_time_t;
+	int const blip_widest_impulse_ = 16;
+	int const blip_buffer_extra_ = blip_widest_impulse_ + 2;
+	int const blip_res = 1 << BLIP_PHASE_BITS;
+	class blip_eq_t;
+	
+	class Blip_Synth_Fast_ {
+	public:
+		Blip_Buffer* buf;
+		int last_amp;
+		int delta_factor;
+		
+		void volume_unit( double );
+		Blip_Synth_Fast_();
+		void treble_eq( blip_eq_t const& ) { }
+	};
+	
+	class Blip_Synth_ {
+	public:
+		Blip_Buffer* buf;
+		int last_amp;
+		int delta_factor;
+		
+		void volume_unit( double );
+		Blip_Synth_( short* impulses, int width );
+		void treble_eq( blip_eq_t const& );
+	private:
+		double volume_unit_;
+		short* const impulses;
+		int const width;
+		blip_long kernel_unit;
+		int impulses_size() const { return blip_res / 2 * width + 1; }
+		void adjust_impulse();
+	};
+
+// Quality level. Start with blip_good_quality.
+const int blip_med_quality  = 8;
+const int blip_good_quality = 12;
+const int blip_high_quality = 16;
+
+// Range specifies the greatest expected change in amplitude. Calculate it
+// by finding the difference between the maximum and minimum expected
+// amplitudes (max - min).
+template<int quality,int range>
+class Blip_Synth {
+public:
+	// Set overall volume of waveform
+	void volume( double v ) { impl.volume_unit( v * (1.0 / (range < 0 ? -range : range)) ); }
+	
+	// Configure low-pass filter (see blip_buffer.txt)
+	void treble_eq( blip_eq_t const& eq )       { impl.treble_eq( eq ); }
+	
+	// Get/set Blip_Buffer used for output
+	Blip_Buffer* output() const                 { return impl.buf; }
+	void output( Blip_Buffer* b )               { impl.buf = b; impl.last_amp = 0; }
+	
+	// Update amplitude of waveform at given time. Using this requires a separate
+	// Blip_Synth for each waveform.
+	void update( blip_time_t time, int amplitude );
+
+// Low-level interface
+
+	// Add an amplitude transition of specified delta, optionally into specified buffer
+	// rather than the one set with output(). Delta can be positive or negative.
+	// The actual change in amplitude is delta * (volume / range)
+	void offset( blip_time_t, int delta, Blip_Buffer* ) const;
+	void offset( blip_time_t t, int delta ) const { offset( t, delta, impl.buf ); }
+	
+	// Works directly in terms of fractional output samples. Contact author for more info.
+	void offset_resampled( blip_resampled_time_t, int delta, Blip_Buffer* ) const;
+	
+	// Same as offset(), except code is inlined for higher performance
+	void offset_inline( blip_time_t t, int delta, Blip_Buffer* buf ) const {
+		offset_resampled( t * buf->factor_ + buf->offset_, delta, buf );
+	}
+	void offset_inline( blip_time_t t, int delta ) const {
+		offset_resampled( t * impl.buf->factor_ + impl.buf->offset_, delta, impl.buf );
+	}
+	
+private:
+#if BLIP_BUFFER_FAST
+	Blip_Synth_Fast_ impl;
+#else
+	Blip_Synth_ impl;
+	typedef short imp_t;
+	imp_t impulses [blip_res * (quality / 2) + 1];
+public:
+	Blip_Synth() : impl( impulses, quality ) { }
+#endif
+};
+
+// Low-pass equalization parameters
+class blip_eq_t {
+public:
+	// Logarithmic rolloff to treble dB at half sampling rate. Negative values reduce
+	// treble, small positive values (0 to 5.0) increase treble.
+	blip_eq_t( double treble_db = 0 );
+	
+	// See blip_buffer.txt
+	blip_eq_t( double treble, long rolloff_freq, long sample_rate, long cutoff_freq = 0 );
+	
+private:
+	double treble;
+	long rolloff_freq;
+	long sample_rate;
+	long cutoff_freq;
+	void generate( float* out, int count ) const;
+	friend class Blip_Synth_;
+};
+
+int const blip_sample_bits = 30;
+
+// Dummy Blip_Buffer to direct sound output to, for easy muting without
+// having to stop sound code.
+class Silent_Blip_Buffer : public Blip_Buffer {
+	buf_t_ buf [blip_buffer_extra_ + 1];
+public:
+	// The following cannot be used (an assertion will fail if attempted):
+	blargg_err_t set_sample_rate( long samples_per_sec, int msec_length );
+	blip_time_t count_clocks( long count ) const;
+	void mix_samples( blip_sample_t const* buf, long count );
+	
+	Silent_Blip_Buffer();
+};
+
+	#if defined (__GNUC__) || _MSC_VER >= 1100
+		#define BLIP_RESTRICT __restrict
+	#else
+		#define BLIP_RESTRICT
+	#endif
+
+// Optimized reading from Blip_Buffer, for use in custom sample output
+
+// Begin reading from buffer. Name should be unique to the current block.
+#define BLIP_READER_BEGIN( name, blip_buffer ) \
+	const Blip_Buffer::buf_t_* BLIP_RESTRICT name##_reader_buf = (blip_buffer).buffer_;\
+	blip_long name##_reader_accum = (blip_buffer).reader_accum_
+
+// Get value to pass to BLIP_READER_NEXT()
+#define BLIP_READER_BASS( blip_buffer ) ((blip_buffer).bass_shift_)
+
+// Constant value to use instead of BLIP_READER_BASS(), for slightly more optimal
+// code at the cost of having no bass control
+int const blip_reader_default_bass = 9;
+
+// Current sample
+#define BLIP_READER_READ( name )        (name##_reader_accum >> (blip_sample_bits - 16))
+
+// Current raw sample in full internal resolution
+#define BLIP_READER_READ_RAW( name )    (name##_reader_accum)
+
+// Advance to next sample
+#define BLIP_READER_NEXT( name, bass ) \
+	(void) (name##_reader_accum += *name##_reader_buf++ - (name##_reader_accum >> (bass)))
+
+// End reading samples from buffer. The number of samples read must now be removed
+// using Blip_Buffer::remove_samples().
+#define BLIP_READER_END( name, blip_buffer ) \
+	(void) ((blip_buffer).reader_accum_ = name##_reader_accum)
+
+
+// Compatibility with older version
+const long blip_unscaled = 65535;
+const int blip_low_quality  = blip_med_quality;
+const int blip_best_quality = blip_high_quality;
+
+// Deprecated; use BLIP_READER macros as follows:
+// Blip_Reader r; r.begin( buf ); -> BLIP_READER_BEGIN( r, buf );
+// int bass = r.begin( buf )      -> BLIP_READER_BEGIN( r, buf ); int bass = BLIP_READER_BASS( buf );
+// r.read()                       -> BLIP_READER_READ( r )
+// r.read_raw()                   -> BLIP_READER_READ_RAW( r )
+// r.next( bass )                 -> BLIP_READER_NEXT( r, bass )
+// r.next()                       -> BLIP_READER_NEXT( r, blip_reader_default_bass )
+// r.end( buf )                   -> BLIP_READER_END( r, buf )
+class Blip_Reader {
+public:
+	int begin( Blip_Buffer& );
+	blip_long read() const          { return accum >> (blip_sample_bits - 16); }
+	blip_long read_raw() const      { return accum; }
+	void next( int bass_shift = 9 )         { accum += *buf++ - (accum >> bass_shift); }
+	void end( Blip_Buffer& b )              { b.reader_accum_ = accum; }
+	
+private:
+	const Blip_Buffer::buf_t_* buf;
+	blip_long accum;
+};
+
+// End of public interface
+
+#include <assert.h>
+
+template<int quality,int range>
+inline void Blip_Synth<quality,range>::offset_resampled( blip_resampled_time_t time,
+		int delta, Blip_Buffer* blip_buf ) const
+{
+	// Fails if time is beyond end of Blip_Buffer, due to a bug in caller code or the
+	// need for a longer buffer as set by set_sample_rate().
+	assert( (blip_long) (time >> BLIP_BUFFER_ACCURACY) < blip_buf->buffer_size_ );
+	delta *= impl.delta_factor;
+	blip_long* BLIP_RESTRICT buf = blip_buf->buffer_ + (time >> BLIP_BUFFER_ACCURACY);
+	int phase = (int) (time >> (BLIP_BUFFER_ACCURACY - BLIP_PHASE_BITS) & (blip_res - 1));
+
+#if BLIP_BUFFER_FAST
+	blip_long left = buf [0] + delta;
+	
+	// Kind of crappy, but doing shift after multiply results in overflow.
+	// Alternate way of delaying multiply by delta_factor results in worse
+	// sub-sample resolution.
+	blip_long right = (delta >> BLIP_PHASE_BITS) * phase;
+	left  -= right;
+	right += buf [1];
+	
+	buf [0] = left;
+	buf [1] = right;
+#else
+
+	int const fwd = (blip_widest_impulse_ - quality) / 2;
+	int const rev = fwd + quality - 2;
+	int const mid = quality / 2 - 1;
+	
+	imp_t const* BLIP_RESTRICT imp = impulses + blip_res - phase;
+	
+	#if defined (_M_IX86) || defined (_M_IA64) || defined (__i486__) || \
+			defined (__x86_64__) || defined (__ia64__) || defined (__i386__)
+	
+	// straight forward implementation resulted in better code on GCC for x86
+	
+	#define ADD_IMP( out, in ) \
+		buf [out] += (blip_long) imp [blip_res * (in)] * delta
+	
+	#define BLIP_FWD( i ) {\
+		ADD_IMP( fwd     + i, i     );\
+		ADD_IMP( fwd + 1 + i, i + 1 );\
+	}
+	#define BLIP_REV( r ) {\
+		ADD_IMP( rev     - r, r + 1 );\
+		ADD_IMP( rev + 1 - r, r     );\
+	}
+
+		BLIP_FWD( 0 )
+		if ( quality > 8  ) BLIP_FWD( 2 )
+		if ( quality > 12 ) BLIP_FWD( 4 )
+		{
+			ADD_IMP( fwd + mid - 1, mid - 1 );
+			ADD_IMP( fwd + mid    , mid     );
+			imp = impulses + phase;
+		}
+		if ( quality > 12 ) BLIP_REV( 6 )
+		if ( quality > 8  ) BLIP_REV( 4 )
+		BLIP_REV( 2 )
+		
+		ADD_IMP( rev    , 1 );
+		ADD_IMP( rev + 1, 0 );
+		
+	#else
+	
+	// for RISC processors, help compiler by reading ahead of writes
+	
+	#define BLIP_FWD( i ) {\
+		blip_long t0 =                       i0 * delta + buf [fwd     + i];\
+		blip_long t1 = imp [blip_res * (i + 1)] * delta + buf [fwd + 1 + i];\
+		i0 =           imp [blip_res * (i + 2)];\
+		buf [fwd     + i] = t0;\
+		buf [fwd + 1 + i] = t1;\
+	}
+	#define BLIP_REV( r ) {\
+		blip_long t0 =                 i0 * delta + buf [rev     - r];\
+		blip_long t1 = imp [blip_res * r] * delta + buf [rev + 1 - r];\
+		i0 =           imp [blip_res * (r - 1)];\
+		buf [rev     - r] = t0;\
+		buf [rev + 1 - r] = t1;\
+	}
+		
+		blip_long i0 = *imp;
+		BLIP_FWD( 0 )
+		if ( quality > 8  ) BLIP_FWD( 2 )
+		if ( quality > 12 ) BLIP_FWD( 4 )
+		{
+			blip_long t0 =                   i0 * delta + buf [fwd + mid - 1];
+			blip_long t1 = imp [blip_res * mid] * delta + buf [fwd + mid    ];
+			imp = impulses + phase;
+			i0 = imp [blip_res * mid];
+			buf [fwd + mid - 1] = t0;
+			buf [fwd + mid    ] = t1;
+		}
+		if ( quality > 12 ) BLIP_REV( 6 )
+		if ( quality > 8  ) BLIP_REV( 4 )
+		BLIP_REV( 2 )
+		
+		blip_long t0 =   i0 * delta + buf [rev    ];
+		blip_long t1 = *imp * delta + buf [rev + 1];
+		buf [rev    ] = t0;
+		buf [rev + 1] = t1;
+	#endif
+	
+#endif
+}
+
+#undef BLIP_FWD
+#undef BLIP_REV
+
+template<int quality,int range>
+#if BLIP_BUFFER_FAST
+	inline
+#endif
+void Blip_Synth<quality,range>::offset( blip_time_t t, int delta, Blip_Buffer* buf ) const
+{
+	offset_resampled( t * buf->factor_ + buf->offset_, delta, buf );
+}
+
+template<int quality,int range>
+#if BLIP_BUFFER_FAST
+	inline
+#endif
+void Blip_Synth<quality,range>::update( blip_time_t t, int amp )
+{
+	int delta = amp - impl.last_amp;
+	impl.last_amp = amp;
+	offset_resampled( t * impl.buf->factor_ + impl.buf->offset_, delta, impl.buf );
+}
+
+inline blip_eq_t::blip_eq_t( double t ) :
+		treble( t ), rolloff_freq( 0 ), sample_rate( 44100 ), cutoff_freq( 0 ) { }
+inline blip_eq_t::blip_eq_t( double t, long rf, long sr, long cf ) :
+		treble( t ), rolloff_freq( rf ), sample_rate( sr ), cutoff_freq( cf ) { }
+
+inline int  Blip_Buffer::length() const         { return length_; }
+inline long Blip_Buffer::samples_avail() const  { return (long) (offset_ >> BLIP_BUFFER_ACCURACY); }
+inline long Blip_Buffer::sample_rate() const    { return sample_rate_; }
+inline int  Blip_Buffer::output_latency() const { return blip_widest_impulse_ / 2; }
+inline long Blip_Buffer::clock_rate() const     { return clock_rate_; }
+inline void Blip_Buffer::clock_rate( long cps ) { factor_ = clock_rate_factor( clock_rate_ = cps ); }
+
+inline int Blip_Reader::begin( Blip_Buffer& blip_buf )
+{
+	buf = blip_buf.buffer_;
+	accum = blip_buf.reader_accum_;
+	return blip_buf.bass_shift_;
+}
+
+int const blip_max_length = 0;
+int const blip_default_length = 250;
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.h.rej b/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.h.rej
new file mode 100644
index 00000000..27e9d6c5
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.h.rej
@@ -0,0 +1,23 @@
+--- /home/waker/Downloads/Game_Music_Emu-0.5.2//gme/Blip_Buffer.h	2006-12-07 21:16:54.000000000 +0100
++++ .//gme/Blip_Buffer.h	2010-05-09 20:40:36.000000000 +0200
+@@ -4,15 +4,11 @@
+ #ifndef BLIP_BUFFER_H
+ #define BLIP_BUFFER_H
+ 
+-	// internal
+-	#include <limits.h>
+-	#if INT_MAX >= 0x7FFFFFFF
+-		typedef int blip_long;
+-		typedef unsigned blip_ulong;
+-	#else
+-		typedef long blip_long;
+-		typedef unsigned long blip_ulong;
+-	#endif
++// internal
++#include <limits.h>
++#include <stdint.h>
++typedef int32_t blip_long;
++typedef uint32_t blip_ulong;
+ 
+ // Time unit at source clock rate
+ typedef blip_long blip_time_t;
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Classic_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Classic_Emu.cpp
new file mode 100644
index 00000000..9b68a445
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Classic_Emu.cpp
@@ -0,0 +1,184 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Classic_Emu.h"
+
+#include "Multi_Buffer.h"
+#include <string.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+Classic_Emu::Classic_Emu()
+{
+	buf           = 0;
+	stereo_buffer = 0;
+	voice_types   = 0;
+	
+	// avoid inconsistency in our duplicated constants
+	assert( (int) wave_type  == (int) Multi_Buffer::wave_type );
+	assert( (int) noise_type == (int) Multi_Buffer::noise_type );
+	assert( (int) mixed_type == (int) Multi_Buffer::mixed_type );
+}
+
+Classic_Emu::~Classic_Emu()
+{
+	delete stereo_buffer;
+}
+
+void Classic_Emu::set_equalizer_( equalizer_t const& eq )
+{
+	Music_Emu::set_equalizer_( eq );
+	update_eq( eq.treble );
+	if ( buf )
+		buf->bass_freq( (int) equalizer().bass );
+}
+	
+blargg_err_t Classic_Emu::set_sample_rate_( long rate )
+{
+	if ( !buf )
+	{
+		if ( !stereo_buffer )
+			CHECK_ALLOC( stereo_buffer = BLARGG_NEW Stereo_Buffer );
+		buf = stereo_buffer;
+	}
+	return buf->set_sample_rate( rate, 1000 / 20 );
+}
+
+void Classic_Emu::mute_voices_( int mask )
+{
+	Music_Emu::mute_voices_( mask );
+	for ( int i = voice_count(); i--; )
+	{
+		if ( mask & (1 << i) )
+		{
+			set_voice( i, 0, 0, 0 );
+		}
+		else
+		{
+			Multi_Buffer::channel_t ch = buf->channel( i, (voice_types ? voice_types [i] : 0) );
+			assert( (ch.center && ch.left && ch.right) ||
+					(!ch.center && !ch.left && !ch.right) ); // all or nothing
+			set_voice( i, ch.center, ch.left, ch.right );
+		}
+	}
+}
+
+void Classic_Emu::change_clock_rate( long rate )
+{
+	clock_rate_ = rate;
+	buf->clock_rate( rate );
+}
+
+blargg_err_t Classic_Emu::setup_buffer( long rate )
+{
+	change_clock_rate( rate );
+	RETURN_ERR( buf->set_channel_count( voice_count() ) );
+	set_equalizer( equalizer() );
+	buf_changed_count = buf->channels_changed_count();
+	return 0;
+}
+
+blargg_err_t Classic_Emu::start_track_( int track )
+{
+	RETURN_ERR( Music_Emu::start_track_( track ) );
+	buf->clear();
+	return 0;
+}
+
+blargg_err_t Classic_Emu::play_( long count, sample_t* out )
+{
+	long remain = count;
+	while ( remain )
+	{
+		remain -= buf->read_samples( &out [count - remain], remain );
+		if ( remain )
+		{
+			if ( buf_changed_count != buf->channels_changed_count() )
+			{
+				buf_changed_count = buf->channels_changed_count();
+				remute_voices();
+			}
+			int msec = buf->length();
+			blip_time_t clocks_emulated = (blargg_long) msec * clock_rate_ / 1000;
+			RETURN_ERR( run_clocks( clocks_emulated, msec ) );
+			assert( clocks_emulated );
+			buf->end_frame( clocks_emulated );
+		}
+	}
+	return 0;
+}
+
+// Rom_Data
+
+blargg_err_t Rom_Data_::load_rom_data_( Data_Reader& in,
+		int header_size, void* header_out, int fill, long pad_size )
+{
+	long file_offset = pad_size - header_size;
+	
+	rom_addr = 0;
+	mask     = 0;
+	size_    = 0;
+	rom.clear();
+	
+	file_size_ = in.remain();
+	if ( file_size_ <= header_size ) // <= because there must be data after header
+		return gme_wrong_file_type;
+	blargg_err_t err = rom.resize( file_offset + file_size_ + pad_size );
+	if ( !err )
+		err = in.read( rom.begin() + file_offset, file_size_ );
+	if ( err )
+	{
+		rom.clear();
+		return err;
+	}
+	
+	file_size_ -= header_size;
+	memcpy( header_out, &rom [file_offset], header_size );
+	
+	memset( rom.begin()         , fill, pad_size );
+	memset( rom.end() - pad_size, fill, pad_size );
+	
+	return 0;
+}
+
+void Rom_Data_::set_addr_( long addr, int unit )
+{
+	rom_addr = addr - unit - pad_extra;
+	
+	long rounded = (addr + file_size_ + unit - 1) / unit * unit;
+	if ( rounded <= 0 )
+	{
+		rounded = 0;
+	}
+	else
+	{
+		int shift = 0;
+		unsigned long max_addr = (unsigned long) (rounded - 1);
+		while ( max_addr >> shift )
+			shift++;
+		mask = (1L << shift) - 1;
+	}
+	
+	if ( addr < 0 )
+		addr = 0;
+	size_ = rounded;
+	if ( rom.resize( rounded - rom_addr + pad_extra ) ) { } // OK if shrink fails
+
+	if ( 0 )
+	{
+		debug_printf( "addr: %X\n", addr );
+		debug_printf( "file_size: %d\n", file_size_ );
+		debug_printf( "rounded: %d\n", rounded );
+		debug_printf( "mask: $%X\n", mask );
+	}
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Classic_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Classic_Emu.h
new file mode 100644
index 00000000..d0cfda25
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Classic_Emu.h
@@ -0,0 +1,127 @@
+// Common aspects of emulators which use Blip_Buffer for sound output
+
+// Game_Music_Emu 0.5.5
+#ifndef CLASSIC_EMU_H
+#define CLASSIC_EMU_H
+
+#include "blargg_common.h"
+#include "Blip_Buffer.h"
+#include "Music_Emu.h"
+
+class Classic_Emu : public Music_Emu {
+public:
+	Classic_Emu();
+	~Classic_Emu();
+	void set_buffer( Multi_Buffer* );
+protected:
+	// Services
+	enum { wave_type = 0x100, noise_type = 0x200, mixed_type = wave_type | noise_type };
+	void set_voice_types( int const* t ) { voice_types = t; }
+	blargg_err_t setup_buffer( long clock_rate );
+	long clock_rate() const { return clock_rate_; }
+	void change_clock_rate( long ); // experimental
+	
+	// Overridable
+	virtual void set_voice( int index, Blip_Buffer* center,
+			Blip_Buffer* left, Blip_Buffer* right ) = 0;
+	virtual void update_eq( blip_eq_t const& ) = 0;
+	virtual blargg_err_t start_track_( int track ) = 0;
+	virtual blargg_err_t run_clocks( blip_time_t& time_io, int msec ) = 0;
+protected:
+	blargg_err_t set_sample_rate_( long sample_rate );
+	void mute_voices_( int );
+	void set_equalizer_( equalizer_t const& );
+	blargg_err_t play_( long, sample_t* );
+private:
+	Multi_Buffer* buf;
+	Multi_Buffer* stereo_buffer; // NULL if using custom buffer
+	long clock_rate_;
+	unsigned buf_changed_count;
+	int const* voice_types;
+};
+
+inline void Classic_Emu::set_buffer( Multi_Buffer* new_buf )
+{
+	assert( !buf && new_buf );
+	buf = new_buf;
+}
+
+// ROM data handler, used by several Classic_Emu derivitives. Loads file data
+// with padding on both sides, allowing direct use in bank mapping. The main purpose
+// is to allow all file data to be loaded with only one read() call (for efficiency).
+
+class Rom_Data_ {
+public:
+	typedef unsigned char byte;
+protected:
+	enum { pad_extra = 8 };
+	blargg_vector<byte> rom;
+	long file_size_;
+	blargg_long rom_addr;
+	blargg_long mask;
+	blargg_long size_; // TODO: eliminate
+	
+	blargg_err_t load_rom_data_( Data_Reader& in, int header_size, void* header_out,
+			int fill, long pad_size );
+	void set_addr_( long addr, int unit );
+};
+
+template<int unit>
+class Rom_Data : public Rom_Data_ {
+	enum { pad_size = unit + pad_extra };
+public:
+	// Load file data, using already-loaded header 'h' if not NULL. Copy header
+	// from loaded file data into *out and fill unmapped bytes with 'fill'.
+	blargg_err_t load( Data_Reader& in, int header_size, void* header_out, int fill )
+	{
+		return load_rom_data_( in, header_size, header_out, fill, pad_size );
+	}
+	
+	// Size of file data read in (excluding header)
+	long file_size() const { return file_size_; }
+	
+	// Pointer to beginning of file data
+	byte* begin() const { return rom.begin() + pad_size; }
+	
+	// Set address that file data should start at
+	void set_addr( long addr ) { set_addr_( addr, unit ); }
+	
+	// Free data
+	void clear() { rom.clear(); }
+	
+	// Size of data + start addr, rounded to a multiple of unit
+	long size() const { return size_; }
+	
+	// Pointer to unmapped page filled with same value
+	byte* unmapped() { return rom.begin(); }
+	
+	// Mask address to nearest power of two greater than size()
+	blargg_long mask_addr( blargg_long addr ) const
+	{
+		#ifdef check
+			check( addr <= mask );
+		#endif
+		return addr & mask;
+	}
+	
+	// Pointer to page starting at addr. Returns unmapped() if outside data.
+	byte* at_addr( blargg_long addr )
+	{
+		blargg_ulong offset = mask_addr( addr ) - rom_addr;
+		if ( offset > blargg_ulong (rom.size() - pad_size) )
+			offset = 0; // unmapped
+		return &rom [offset];
+	}
+};
+
+#ifndef GME_APU_HOOK
+	#define GME_APU_HOOK( emu, addr, data ) ((void) 0)
+#endif
+
+#ifndef GME_FRAME_HOOK
+	#define GME_FRAME_HOOK( emu ) ((void) 0)
+#else
+	#define GME_FRAME_HOOK_DEFINED 1
+#endif
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Data_Reader.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Data_Reader.cpp
new file mode 100644
index 00000000..5bbfbf55
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Data_Reader.cpp
@@ -0,0 +1,315 @@
+// File_Extractor 0.4.0. http://www.slack.net/~ant/
+
+#include "Data_Reader.h"
+
+#include "blargg_endian.h"
+#include <assert.h>
+#include <string.h>
+#include <stdio.h>
+
+/* Copyright (C) 2005-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+const char Data_Reader::eof_error [] = "Unexpected end of file";
+
+blargg_err_t Data_Reader::read( void* p, long s )
+{
+	long result = read_avail( p, s );
+	if ( result != s )
+	{
+		if ( result >= 0 && result < s )
+			return eof_error;
+		
+		return "Read error";
+	}
+	
+	return 0;
+}
+
+blargg_err_t Data_Reader::skip( long count )
+{
+	char buf [512];
+	while ( count )
+	{
+		long n = sizeof buf;
+		if ( n > count )
+			n = count;
+		count -= n;
+		RETURN_ERR( read( buf, n ) );
+	}
+	return 0;
+}
+
+long File_Reader::remain() const { return size() - tell(); }
+
+blargg_err_t File_Reader::skip( long n )
+{
+	assert( n >= 0 );
+	if ( !n )
+		return 0;
+	return seek( tell() + n );
+}
+
+// Subset_Reader
+
+Subset_Reader::Subset_Reader( Data_Reader* dr, long size )
+{
+	in = dr;
+	remain_ = dr->remain();
+	if ( remain_ > size )
+		remain_ = size;
+}
+
+long Subset_Reader::remain() const { return remain_; }
+
+long Subset_Reader::read_avail( void* p, long s )
+{
+	if ( s > remain_ )
+		s = remain_;
+	remain_ -= s;
+	return in->read_avail( p, s );
+}
+
+// Remaining_Reader
+
+Remaining_Reader::Remaining_Reader( void const* h, long size, Data_Reader* r )
+{
+	header = (char const*) h;
+	header_end = header + size;
+	in = r;
+}
+
+long Remaining_Reader::remain() const { return header_end - header + in->remain(); }
+
+long Remaining_Reader::read_first( void* out, long count )
+{
+	long first = header_end - header;
+	if ( first )
+	{
+		if ( first > count )
+			first = count;
+		void const* old = header;
+		header += first;
+		memcpy( out, old, first );
+	}
+	return first;
+}
+
+long Remaining_Reader::read_avail( void* out, long count )
+{
+	long first = read_first( out, count );
+	long second = count - first;
+	if ( second )
+	{
+		second = in->read_avail( (char*) out + first, second );
+		if ( second <= 0 )
+			return second;
+	}
+	return first + second;
+}
+
+blargg_err_t Remaining_Reader::read( void* out, long count )
+{
+	long first = read_first( out, count );
+	long second = count - first;
+	if ( !second )
+		return 0;
+	return in->read( (char*) out + first, second );
+}
+
+// Mem_File_Reader
+
+Mem_File_Reader::Mem_File_Reader( const void* p, long s ) :
+	begin( (const char*) p ),
+	size_( s )
+{
+	pos = 0;
+}
+	
+long Mem_File_Reader::size() const { return size_; }
+
+long Mem_File_Reader::read_avail( void* p, long s )
+{
+	long r = remain();
+	if ( s > r )
+		s = r;
+	memcpy( p, begin + pos, s );
+	pos += s;
+	return s;
+}
+
+long Mem_File_Reader::tell() const { return pos; }
+
+blargg_err_t Mem_File_Reader::seek( long n )
+{
+	if ( n > size_ )
+		return eof_error;
+	pos = n;
+	return 0;
+}
+
+// Callback_Reader
+
+Callback_Reader::Callback_Reader( callback_t c, long size, void* d ) :
+	callback( c ),
+	data( d )
+{
+	remain_ = size;
+}
+
+long Callback_Reader::remain() const { return remain_; }
+
+long Callback_Reader::read_avail( void* out, long count )
+{
+	if ( count > remain_ )
+		count = remain_;
+	if ( Callback_Reader::read( out, count ) )
+		count = -1;
+	return count;
+}
+
+blargg_err_t Callback_Reader::read( void* out, long count )
+{
+	if ( count > remain_ )
+		return eof_error;
+	return callback( data, out, count );
+}
+
+// Std_File_Reader
+
+Std_File_Reader::Std_File_Reader() : file_( 0 ) { }
+
+Std_File_Reader::~Std_File_Reader() { close(); }
+
+blargg_err_t Std_File_Reader::open( const char* path )
+{
+	file_ = fopen( path, "rb" );
+	if ( !file_ )
+		return "Couldn't open file";
+	return 0;
+}
+
+long Std_File_Reader::size() const
+{
+	long pos = tell();
+	fseek( (FILE*) file_, 0, SEEK_END );
+	long result = tell();
+	fseek( (FILE*) file_, pos, SEEK_SET );
+	return result;
+}
+
+long Std_File_Reader::read_avail( void* p, long s )
+{
+	return fread( p, 1, s, (FILE*) file_ );
+}
+
+blargg_err_t Std_File_Reader::read( void* p, long s )
+{
+	if ( s == (long) fread( p, 1, s, (FILE*) file_ ) )
+		return 0;
+	if ( feof( (FILE*) file_ ) )
+		return eof_error;
+	return "Couldn't read from file";
+}
+
+long Std_File_Reader::tell() const { return ftell( (FILE*) file_ ); }
+
+blargg_err_t Std_File_Reader::seek( long n )
+{
+	if ( !fseek( (FILE*) file_, n, SEEK_SET ) )
+		return 0;
+	if ( n > size() )
+		return eof_error;
+	return "Error seeking in file";
+}
+
+void Std_File_Reader::close()
+{
+	if ( file_ )
+	{
+		fclose( (FILE*) file_ );
+		file_ = 0;
+	}
+}
+
+// Gzip_File_Reader
+
+#ifdef HAVE_ZLIB_H
+
+#include "zlib.h"
+
+static const char* get_gzip_eof( const char* path, long* eof )
+{
+	FILE* file = fopen( path, "rb" );
+	if ( !file )
+		return "Couldn't open file";
+	
+	unsigned char buf [4];
+	if ( fread( buf, 2, 1, file ) > 0 && buf [0] == 0x1F && buf [1] == 0x8B )
+	{
+		fseek( file, -4, SEEK_END );
+		fread( buf, 4, 1, file );
+		*eof = get_le32( buf );
+	}
+	else
+	{
+		fseek( file, 0, SEEK_END );
+		*eof = ftell( file );
+	}
+	const char* err = (ferror( file ) || feof( file )) ? "Couldn't get file size" : 0;
+	fclose( file );
+	return err;
+}
+
+Gzip_File_Reader::Gzip_File_Reader() : file_( 0 ) { }
+
+Gzip_File_Reader::~Gzip_File_Reader() { close(); }
+
+blargg_err_t Gzip_File_Reader::open( const char* path )
+{
+	close();
+	
+	RETURN_ERR( get_gzip_eof( path, &size_ ) );
+	
+	file_ = gzopen( path, "rb" );
+	if ( !file_ )
+		return "Couldn't open file";
+	
+	return 0;
+}
+
+long Gzip_File_Reader::size() const { return size_; }
+
+long Gzip_File_Reader::read_avail( void* p, long s ) { return gzread( file_, p, s ); }
+
+long Gzip_File_Reader::tell() const { return gztell( file_ ); }
+
+blargg_err_t Gzip_File_Reader::seek( long n )
+{
+	if ( gzseek( file_, n, SEEK_SET ) >= 0 )
+		return 0;
+	if ( n > size_ )
+		return eof_error;
+	return "Error seeking in file";
+}
+
+void Gzip_File_Reader::close()
+{
+	if ( file_ )
+	{
+		gzclose( file_ );
+		file_ = 0;
+	}
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Data_Reader.h b/plugins/gme/game-music-emu-0.5.5/gme/Data_Reader.h
new file mode 100644
index 00000000..acf571f6
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Data_Reader.h
@@ -0,0 +1,151 @@
+// Data reader interface for uniform access
+
+// File_Extractor 0.4.0
+#ifndef DATA_READER_H
+#define DATA_READER_H
+
+#include "blargg_common.h"
+
+// Supports reading and finding out how many bytes are remaining
+class Data_Reader {
+public:
+	virtual ~Data_Reader() { }
+	
+	static const char eof_error []; // returned by read() when request goes beyond end
+	
+	// Read at most count bytes and return number actually read, or <= 0 if error
+	virtual long read_avail( void*, long n ) = 0;
+	
+	// Read exactly count bytes and return error if they couldn't be read
+	virtual blargg_err_t read( void*, long count );
+	
+	// Number of bytes remaining until end of file
+	virtual long remain() const = 0;
+	
+	// Read and discard count bytes
+	virtual blargg_err_t skip( long count );
+	
+public:
+	Data_Reader() { }
+	typedef blargg_err_t error_t; // deprecated
+private:
+	// noncopyable
+	Data_Reader( const Data_Reader& );
+	Data_Reader& operator = ( const Data_Reader& );
+};
+
+// Supports seeking in addition to Data_Reader operations
+class File_Reader : public Data_Reader {
+public:
+	// Size of file
+	virtual long size() const = 0;
+	
+	// Current position in file
+	virtual long tell() const = 0;
+	
+	// Go to new position
+	virtual blargg_err_t seek( long ) = 0;
+	
+	long remain() const;
+	blargg_err_t skip( long n );
+};
+
+// Disk file reader
+class Std_File_Reader : public File_Reader {
+public:
+	blargg_err_t open( const char* path );
+	void close();
+	
+public:
+	Std_File_Reader();
+	~Std_File_Reader();
+	long size() const;
+	blargg_err_t read( void*, long );
+	long read_avail( void*, long );
+	long tell() const;
+	blargg_err_t seek( long );
+private:
+	void* file_;
+};
+
+// Treats range of memory as a file
+class Mem_File_Reader : public File_Reader {
+public:
+	Mem_File_Reader( const void*, long size );
+	
+public:
+	long size() const;
+	long read_avail( void*, long );
+	long tell() const;
+	blargg_err_t seek( long );
+private:
+	const char* const begin;
+	const long size_;
+	long pos;
+};
+
+// Makes it look like there are only count bytes remaining
+class Subset_Reader : public Data_Reader {
+public:
+	Subset_Reader( Data_Reader*, long count );
+
+public:
+	long remain() const;
+	long read_avail( void*, long );
+private:
+	Data_Reader* in;
+	long remain_;
+};
+
+// Joins already-read header and remaining data into original file (to avoid seeking)
+class Remaining_Reader : public Data_Reader {
+public:
+	Remaining_Reader( void const* header, long size, Data_Reader* );
+
+public:
+	long remain() const;
+	long read_avail( void*, long );
+	blargg_err_t read( void*, long );
+private:
+	char const* header;
+	char const* header_end;
+	Data_Reader* in;
+	long read_first( void* out, long count );
+};
+
+// Invokes callback function to read data. Size of data must be specified in advance.
+class Callback_Reader : public Data_Reader {
+public:
+	typedef const char* (*callback_t)( void* data, void* out, int count );
+	Callback_Reader( callback_t, long size, void* data = 0 );
+public:
+	long read_avail( void*, long );
+	blargg_err_t read( void*, long );
+	long remain() const;
+private:
+	callback_t const callback;
+	void* const data;
+	long remain_;
+};
+
+#ifdef HAVE_ZLIB_H
+// Gzip compressed file reader
+class Gzip_File_Reader : public File_Reader {
+public:
+	blargg_err_t open( const char* path );
+	void close();
+	
+public:
+	Gzip_File_Reader();
+	~Gzip_File_Reader();
+	long size() const;
+	long read_avail( void*, long );
+	long tell() const;
+	blargg_err_t seek( long );
+private:
+	void* file_;
+	long size_;
+};
+#endif
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Dual_Resampler.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Dual_Resampler.cpp
new file mode 100644
index 00000000..090b0acf
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Dual_Resampler.cpp
@@ -0,0 +1,131 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Dual_Resampler.h"
+
+#include <stdlib.h>
+#include <string.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+unsigned const resampler_extra = 256;
+
+Dual_Resampler::Dual_Resampler() { }
+
+Dual_Resampler::~Dual_Resampler() { }
+
+blargg_err_t Dual_Resampler::reset( int pairs )
+{
+	// expand allocations a bit
+	RETURN_ERR( sample_buf.resize( (pairs + (pairs >> 2)) * 2 ) );
+	resize( pairs );
+	resampler_size = oversamples_per_frame + (oversamples_per_frame >> 2);
+	return resampler.buffer_size( resampler_size );
+}
+
+void Dual_Resampler::resize( int pairs )
+{
+	int new_sample_buf_size = pairs * 2;
+	if ( sample_buf_size != new_sample_buf_size )
+	{
+		if ( (unsigned) new_sample_buf_size > sample_buf.size() )
+		{
+			check( false );
+			return;
+		}
+		sample_buf_size = new_sample_buf_size;
+		oversamples_per_frame = int (pairs * resampler.ratio()) * 2 + 2;
+		clear();
+	}
+}
+
+void Dual_Resampler::play_frame_( Blip_Buffer& blip_buf, dsample_t* out )
+{
+	long pair_count = sample_buf_size >> 1;
+	blip_time_t blip_time = blip_buf.count_clocks( pair_count );
+	int sample_count = oversamples_per_frame - resampler.written();
+	
+	int new_count = play_frame( blip_time, sample_count, resampler.buffer() );
+	assert( new_count < resampler_size );
+	
+	blip_buf.end_frame( blip_time );
+	assert( blip_buf.samples_avail() == pair_count );
+	
+	resampler.write( new_count );
+	
+	long count = resampler.read( sample_buf.begin(), sample_buf_size );
+	assert( count == (long) sample_buf_size );
+	
+	mix_samples( blip_buf, out );
+	blip_buf.remove_samples( pair_count );
+}
+
+void Dual_Resampler::dual_play( long count, dsample_t* out, Blip_Buffer& blip_buf )
+{
+	// empty extra buffer
+	long remain = sample_buf_size - buf_pos;
+	if ( remain )
+	{
+		if ( remain > count )
+			remain = count;
+		count -= remain;
+		memcpy( out, &sample_buf [buf_pos], remain * sizeof *out );
+		out += remain;
+		buf_pos += remain;
+	}
+	
+	// entire frames
+	while ( count >= (long) sample_buf_size )
+	{
+		play_frame_( blip_buf, out );
+		out += sample_buf_size;
+		count -= sample_buf_size;
+	}
+	
+	// extra
+	if ( count )
+	{
+		play_frame_( blip_buf, sample_buf.begin() );
+		buf_pos = count;
+		memcpy( out, sample_buf.begin(), count * sizeof *out );
+		out += count;
+	}
+}
+
+void Dual_Resampler::mix_samples( Blip_Buffer& blip_buf, dsample_t* out )
+{
+	Blip_Reader sn;
+	int bass = sn.begin( blip_buf );
+	const dsample_t* in = sample_buf.begin();
+	
+	for ( int n = sample_buf_size >> 1; n--; )
+	{
+		int s = sn.read();
+		blargg_long l = (blargg_long) in [0] * 2 + s;
+		if ( (BOOST::int16_t) l != l )
+			l = 0x7FFF - (l >> 24);
+		
+		sn.next( bass );
+		blargg_long r = (blargg_long) in [1] * 2 + s;
+		if ( (BOOST::int16_t) r != r )
+			r = 0x7FFF - (r >> 24);
+		
+		in += 2;
+		out [0] = l;
+		out [1] = r;
+		out += 2;
+	}
+	
+	sn.end( blip_buf );
+}
+
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Dual_Resampler.h b/plugins/gme/game-music-emu-0.5.5/gme/Dual_Resampler.h
new file mode 100644
index 00000000..e3194fe7
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Dual_Resampler.h
@@ -0,0 +1,50 @@
+// Combination of Fir_Resampler and Blip_Buffer mixing. Used by Sega FM emulators.
+
+// Game_Music_Emu 0.5.5
+#ifndef DUAL_RESAMPLER_H
+#define DUAL_RESAMPLER_H
+
+#include "Fir_Resampler.h"
+#include "Blip_Buffer.h"
+
+class Dual_Resampler {
+public:
+	Dual_Resampler();
+	virtual ~Dual_Resampler();
+	
+	typedef short dsample_t;
+	
+	double setup( double oversample, double rolloff, double gain );
+	blargg_err_t reset( int max_pairs );
+	void resize( int pairs_per_frame );
+	void clear();
+	
+	void dual_play( long count, dsample_t* out, Blip_Buffer& );
+	
+protected:
+	virtual int play_frame( blip_time_t, int pcm_count, dsample_t* pcm_out ) = 0;
+private:
+	
+	blargg_vector<dsample_t> sample_buf;
+	int sample_buf_size;
+	int oversamples_per_frame;
+	int buf_pos;
+	int resampler_size;
+	
+	Fir_Resampler<12> resampler;
+	void mix_samples( Blip_Buffer&, dsample_t* );
+	void play_frame_( Blip_Buffer&, dsample_t* );
+};
+
+inline double Dual_Resampler::setup( double oversample, double rolloff, double gain )
+{
+	return resampler.time_ratio( oversample, rolloff, gain * 0.5 );
+}
+
+inline void Dual_Resampler::clear()
+{
+	buf_pos = sample_buf_size;
+	resampler.clear();
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Effects_Buffer.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Effects_Buffer.cpp
new file mode 100644
index 00000000..181b11e9
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Effects_Buffer.cpp
@@ -0,0 +1,529 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Effects_Buffer.h"
+
+#include <string.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+#ifdef BLARGG_ENABLE_OPTIMIZER
+	#include BLARGG_ENABLE_OPTIMIZER
+#endif
+
+typedef blargg_long fixed_t;
+
+#define TO_FIXED( f )   fixed_t ((f) * (1L << 15) + 0.5)
+#define FMUL( x, y )    (((x) * (y)) >> 15)
+
+const unsigned echo_size = 4096;
+const unsigned echo_mask = echo_size - 1;
+BOOST_STATIC_ASSERT( (echo_size & echo_mask) == 0 ); // must be power of 2
+
+const unsigned reverb_size = 8192 * 2;
+const unsigned reverb_mask = reverb_size - 1;
+BOOST_STATIC_ASSERT( (reverb_size & reverb_mask) == 0 ); // must be power of 2
+
+Effects_Buffer::config_t::config_t()
+{
+	pan_1           = -0.15f;
+	pan_2           =  0.15f;
+	reverb_delay    = 88.0f;
+	reverb_level    = 0.12f;
+	echo_delay      = 61.0f;
+	echo_level      = 0.10f;
+	delay_variance  = 18.0f;
+	effects_enabled = false;
+}
+
+void Effects_Buffer::set_depth( double d )
+{
+	float f = (float) d;
+	config_t c;
+	c.pan_1             = -0.6f * f;
+	c.pan_2             =  0.6f * f;
+	c.reverb_delay      = 880 * 0.1f;
+	c.echo_delay        = 610 * 0.1f;
+	if ( f > 0.5 )
+		f = 0.5; // TODO: more linear reduction of extreme reverb/echo
+	c.reverb_level      = 0.5f * f;
+	c.echo_level        = 0.30f * f;
+	c.delay_variance    = 180 * 0.1f;
+	c.effects_enabled   = (d > 0.0f);
+	config( c );
+}
+
+Effects_Buffer::Effects_Buffer( bool center_only ) : Multi_Buffer( 2 )
+{
+	buf_count = center_only ? max_buf_count - 4 : max_buf_count;
+	
+	echo_pos = 0;
+	reverb_pos = 0;
+	
+	stereo_remain = 0;
+	effect_remain = 0;
+	effects_enabled = false;
+	set_depth( 0 );
+}
+
+Effects_Buffer::~Effects_Buffer() { }
+
+blargg_err_t Effects_Buffer::set_sample_rate( long rate, int msec )
+{
+	if ( !echo_buf.size() )
+		RETURN_ERR( echo_buf.resize( echo_size ) );
+	
+	if ( !reverb_buf.size() )
+		RETURN_ERR( reverb_buf.resize( reverb_size ) );
+	
+	for ( int i = 0; i < buf_count; i++ )
+		RETURN_ERR( bufs [i].set_sample_rate( rate, msec ) );
+	
+	config( config_ );
+	clear();
+	
+	return Multi_Buffer::set_sample_rate( bufs [0].sample_rate(), bufs [0].length() );
+}
+
+void Effects_Buffer::clock_rate( long rate )
+{
+	for ( int i = 0; i < buf_count; i++ )
+		bufs [i].clock_rate( rate );
+}
+
+void Effects_Buffer::bass_freq( int freq )
+{
+	for ( int i = 0; i < buf_count; i++ )
+		bufs [i].bass_freq( freq );
+}
+
+void Effects_Buffer::clear()
+{
+	stereo_remain = 0;
+	effect_remain = 0;
+	if ( echo_buf.size() )
+		memset( &echo_buf [0], 0, echo_size * sizeof echo_buf [0] );
+	
+	if ( reverb_buf.size() )
+		memset( &reverb_buf [0], 0, reverb_size * sizeof reverb_buf [0] );
+	
+	for ( int i = 0; i < buf_count; i++ )
+		bufs [i].clear();
+}
+
+inline int pin_range( int n, int max, int min = 0 )
+{
+	if ( n < min )
+		return min;
+	if ( n > max )
+		return max;
+	return n;
+}
+
+void Effects_Buffer::config( const config_t& cfg )
+{
+	channels_changed();
+	
+	// clear echo and reverb buffers
+	if ( !config_.effects_enabled && cfg.effects_enabled && echo_buf.size() )
+	{
+		memset( &echo_buf [0], 0, echo_size * sizeof echo_buf [0] );
+		memset( &reverb_buf [0], 0, reverb_size * sizeof reverb_buf [0] );
+	}
+	
+	config_ = cfg;
+	
+	if ( config_.effects_enabled )
+	{
+		// convert to internal format
+		
+		chans.pan_1_levels [0] = TO_FIXED( 1 ) - TO_FIXED( config_.pan_1 );
+		chans.pan_1_levels [1] = TO_FIXED( 2 ) - chans.pan_1_levels [0];
+		
+		chans.pan_2_levels [0] = TO_FIXED( 1 ) - TO_FIXED( config_.pan_2 );
+		chans.pan_2_levels [1] = TO_FIXED( 2 ) - chans.pan_2_levels [0];
+		
+		chans.reverb_level = TO_FIXED( config_.reverb_level );
+		chans.echo_level = TO_FIXED( config_.echo_level );
+		
+		int delay_offset = int (1.0 / 2000 * config_.delay_variance * sample_rate());
+		
+		int reverb_sample_delay = int (1.0 / 1000 * config_.reverb_delay * sample_rate());
+		chans.reverb_delay_l = pin_range( reverb_size -
+				(reverb_sample_delay - delay_offset) * 2, reverb_size - 2, 0 );
+		chans.reverb_delay_r = pin_range( reverb_size + 1 -
+				(reverb_sample_delay + delay_offset) * 2, reverb_size - 1, 1 );
+		
+		int echo_sample_delay = int (1.0 / 1000 * config_.echo_delay * sample_rate());
+		chans.echo_delay_l = pin_range( echo_size - 1 - (echo_sample_delay - delay_offset),
+				echo_size - 1 );
+		chans.echo_delay_r = pin_range( echo_size - 1 - (echo_sample_delay + delay_offset),
+				echo_size - 1 );
+		
+		chan_types [0].center = &bufs [0];
+		chan_types [0].left   = &bufs [3];
+		chan_types [0].right  = &bufs [4];
+		
+		chan_types [1].center = &bufs [1];
+		chan_types [1].left   = &bufs [3];
+		chan_types [1].right  = &bufs [4];
+		
+		chan_types [2].center = &bufs [2];
+		chan_types [2].left   = &bufs [5];
+		chan_types [2].right  = &bufs [6];
+		assert( 2 < chan_types_count );
+	}
+	else
+	{
+		// set up outputs
+		for ( unsigned i = 0; i < chan_types_count; i++ )
+		{
+			channel_t& c = chan_types [i];
+			c.center = &bufs [0];
+			c.left   = &bufs [1];
+			c.right  = &bufs [2];
+		}
+	}
+	
+	if ( buf_count < max_buf_count )
+	{
+		for ( int i = 0; i < chan_types_count; i++ )
+		{
+			channel_t& c = chan_types [i];
+			c.left   = c.center;
+			c.right  = c.center;
+		}
+	}
+}
+
+Effects_Buffer::channel_t Effects_Buffer::channel( int i, int type )
+{
+	int out = 2;
+	if ( !type )
+	{
+		out = i % 5;
+		if ( out > 2 )
+			out = 2;
+	}
+	else if ( !(type & noise_type) && (type & type_index_mask) % 3 != 0 )
+	{
+		out = type & 1;
+	}
+	return chan_types [out];
+}
+	
+void Effects_Buffer::end_frame( blip_time_t clock_count )
+{
+	int bufs_used = 0;
+	for ( int i = 0; i < buf_count; i++ )
+	{
+		bufs_used |= bufs [i].clear_modified() << i;
+		bufs [i].end_frame( clock_count );
+	}
+	
+	int stereo_mask = (config_.effects_enabled ? 0x78 : 0x06);
+	if ( (bufs_used & stereo_mask) && buf_count == max_buf_count )
+		stereo_remain = bufs [0].samples_avail() + bufs [0].output_latency();
+	
+	if ( effects_enabled || config_.effects_enabled )
+		effect_remain = bufs [0].samples_avail() + bufs [0].output_latency();
+	
+	effects_enabled = config_.effects_enabled;
+}
+
+long Effects_Buffer::samples_avail() const
+{
+	return bufs [0].samples_avail() * 2;
+}
+
+long Effects_Buffer::read_samples( blip_sample_t* out, long total_samples )
+{
+	require( total_samples % 2 == 0 ); // count must be even
+	
+	long remain = bufs [0].samples_avail();
+	if ( remain > (total_samples >> 1) )
+		remain = (total_samples >> 1);
+	total_samples = remain;
+	while ( remain )
+	{
+		int active_bufs = buf_count;
+		long count = remain;
+		
+		// optimizing mixing to skip any channels which had nothing added
+		if ( effect_remain )
+		{
+			if ( count > effect_remain )
+				count = effect_remain;
+			
+			if ( stereo_remain )
+			{
+				mix_enhanced( out, count );
+			}
+			else
+			{
+				mix_mono_enhanced( out, count );
+				active_bufs = 3;
+			}
+		}
+		else if ( stereo_remain )
+		{
+			mix_stereo( out, count );
+			active_bufs = 3; 
+		}
+		else
+		{
+			mix_mono( out, count );
+			active_bufs = 1; 
+		}
+		
+		out += count * 2;
+		remain -= count;
+		
+		stereo_remain -= count;
+		if ( stereo_remain < 0 )
+			stereo_remain = 0;
+		
+		effect_remain -= count;
+		if ( effect_remain < 0 )
+			effect_remain = 0;
+		
+		for ( int i = 0; i < buf_count; i++ )
+		{
+			if ( i < active_bufs )
+				bufs [i].remove_samples( count );
+			else
+				bufs [i].remove_silence( count ); // keep time synchronized
+		}
+	}
+	
+	return total_samples * 2;
+}
+
+void Effects_Buffer::mix_mono( blip_sample_t* out_, blargg_long count )
+{
+	blip_sample_t* BLIP_RESTRICT out = out_;
+	int const bass = BLIP_READER_BASS( bufs [0] );
+	BLIP_READER_BEGIN( c, bufs [0] );
+	
+	// unrolled loop
+	for ( blargg_long n = count >> 1; n; --n )
+	{
+		blargg_long cs0 = BLIP_READER_READ( c );
+		BLIP_READER_NEXT( c, bass );
+		
+		blargg_long cs1 = BLIP_READER_READ( c );
+		BLIP_READER_NEXT( c, bass );
+		
+		if ( (BOOST::int16_t) cs0 != cs0 )
+			cs0 = 0x7FFF - (cs0 >> 24);
+		((BOOST::uint32_t*) out) [0] = ((BOOST::uint16_t) cs0) | (cs0 << 16);
+		
+		if ( (BOOST::int16_t) cs1 != cs1 )
+			cs1 = 0x7FFF - (cs1 >> 24);
+		((BOOST::uint32_t*) out) [1] = ((BOOST::uint16_t) cs1) | (cs1 << 16);
+		out += 4;
+	}
+	
+	if ( count & 1 )
+	{
+		int s = BLIP_READER_READ( c );
+		BLIP_READER_NEXT( c, bass );
+		out [0] = s;
+		out [1] = s;
+		if ( (BOOST::int16_t) s != s )
+		{
+			s = 0x7FFF - (s >> 24);
+			out [0] = s;
+			out [1] = s;
+		}
+	}
+	
+	BLIP_READER_END( c, bufs [0] );
+}
+
+void Effects_Buffer::mix_stereo( blip_sample_t* out_, blargg_long count )
+{
+	blip_sample_t* BLIP_RESTRICT out = out_;
+	int const bass = BLIP_READER_BASS( bufs [0] );
+	BLIP_READER_BEGIN( c, bufs [0] );
+	BLIP_READER_BEGIN( l, bufs [1] );
+	BLIP_READER_BEGIN( r, bufs [2] );
+	
+	while ( count-- )
+	{
+		int cs = BLIP_READER_READ( c );
+		BLIP_READER_NEXT( c, bass );
+		int left = cs + BLIP_READER_READ( l );
+		int right = cs + BLIP_READER_READ( r );
+		BLIP_READER_NEXT( l, bass );
+		BLIP_READER_NEXT( r, bass );
+		
+		if ( (BOOST::int16_t) left != left )
+			left = 0x7FFF - (left >> 24);
+		
+		out [0] = left;
+		out [1] = right;
+		
+		out += 2;
+		
+		if ( (BOOST::int16_t) right != right )
+			out [-1] = 0x7FFF - (right >> 24);
+	}
+	
+	BLIP_READER_END( r, bufs [2] );
+	BLIP_READER_END( l, bufs [1] );
+	BLIP_READER_END( c, bufs [0] );
+}
+
+void Effects_Buffer::mix_mono_enhanced( blip_sample_t* out_, blargg_long count )
+{
+	blip_sample_t* BLIP_RESTRICT out = out_;
+	int const bass = BLIP_READER_BASS( bufs [2] );
+	BLIP_READER_BEGIN( center, bufs [2] );
+	BLIP_READER_BEGIN( sq1, bufs [0] );
+	BLIP_READER_BEGIN( sq2, bufs [1] );
+	
+	blip_sample_t* const reverb_buf = this->reverb_buf.begin();
+	blip_sample_t* const echo_buf = this->echo_buf.begin();
+	int echo_pos = this->echo_pos;
+	int reverb_pos = this->reverb_pos;
+	
+	while ( count-- )
+	{
+		int sum1_s = BLIP_READER_READ( sq1 );
+		int sum2_s = BLIP_READER_READ( sq2 );
+		
+		BLIP_READER_NEXT( sq1, bass );
+		BLIP_READER_NEXT( sq2, bass );
+		
+		int new_reverb_l = FMUL( sum1_s, chans.pan_1_levels [0] ) +
+				FMUL( sum2_s, chans.pan_2_levels [0] ) +
+				reverb_buf [(reverb_pos + chans.reverb_delay_l) & reverb_mask];
+		
+		int new_reverb_r = FMUL( sum1_s, chans.pan_1_levels [1] ) +
+				FMUL( sum2_s, chans.pan_2_levels [1] ) +
+				reverb_buf [(reverb_pos + chans.reverb_delay_r) & reverb_mask];
+		
+		fixed_t reverb_level = chans.reverb_level;
+		reverb_buf [reverb_pos] = (blip_sample_t) FMUL( new_reverb_l, reverb_level );
+		reverb_buf [reverb_pos + 1] = (blip_sample_t) FMUL( new_reverb_r, reverb_level );
+		reverb_pos = (reverb_pos + 2) & reverb_mask;
+		
+		int sum3_s = BLIP_READER_READ( center );
+		BLIP_READER_NEXT( center, bass );
+		
+		int left = new_reverb_l + sum3_s + FMUL( chans.echo_level,
+				echo_buf [(echo_pos + chans.echo_delay_l) & echo_mask] );
+		int right = new_reverb_r + sum3_s + FMUL( chans.echo_level,
+				echo_buf [(echo_pos + chans.echo_delay_r) & echo_mask] );
+		
+		echo_buf [echo_pos] = sum3_s;
+		echo_pos = (echo_pos + 1) & echo_mask;
+		
+		if ( (BOOST::int16_t) left != left )
+			left = 0x7FFF - (left >> 24);
+		
+		out [0] = left;
+		out [1] = right;
+		
+		out += 2;
+		
+		if ( (BOOST::int16_t) right != right )
+			out [-1] = 0x7FFF - (right >> 24);
+	}
+	this->reverb_pos = reverb_pos;
+	this->echo_pos = echo_pos;
+	
+	BLIP_READER_END( sq1, bufs [0] );
+	BLIP_READER_END( sq2, bufs [1] );
+	BLIP_READER_END( center, bufs [2] );
+}
+
+void Effects_Buffer::mix_enhanced( blip_sample_t* out_, blargg_long count )
+{
+	blip_sample_t* BLIP_RESTRICT out = out_;
+	int const bass = BLIP_READER_BASS( bufs [2] );
+	BLIP_READER_BEGIN( center, bufs [2] );
+	BLIP_READER_BEGIN( l1, bufs [3] );
+	BLIP_READER_BEGIN( r1, bufs [4] );
+	BLIP_READER_BEGIN( l2, bufs [5] );
+	BLIP_READER_BEGIN( r2, bufs [6] );
+	BLIP_READER_BEGIN( sq1, bufs [0] );
+	BLIP_READER_BEGIN( sq2, bufs [1] );
+	
+	blip_sample_t* const reverb_buf = this->reverb_buf.begin();
+	blip_sample_t* const echo_buf = this->echo_buf.begin();
+	int echo_pos = this->echo_pos;
+	int reverb_pos = this->reverb_pos;
+	
+	while ( count-- )
+	{
+		int sum1_s = BLIP_READER_READ( sq1 );
+		int sum2_s = BLIP_READER_READ( sq2 );
+		
+		BLIP_READER_NEXT( sq1, bass );
+		BLIP_READER_NEXT( sq2, bass );
+		
+		int new_reverb_l = FMUL( sum1_s, chans.pan_1_levels [0] ) +
+				FMUL( sum2_s, chans.pan_2_levels [0] ) + BLIP_READER_READ( l1 ) +
+				reverb_buf [(reverb_pos + chans.reverb_delay_l) & reverb_mask];
+		
+		int new_reverb_r = FMUL( sum1_s, chans.pan_1_levels [1] ) +
+				FMUL( sum2_s, chans.pan_2_levels [1] ) + BLIP_READER_READ( r1 ) +
+				reverb_buf [(reverb_pos + chans.reverb_delay_r) & reverb_mask];
+		
+		BLIP_READER_NEXT( l1, bass );
+		BLIP_READER_NEXT( r1, bass );
+		
+		fixed_t reverb_level = chans.reverb_level;
+		reverb_buf [reverb_pos] = (blip_sample_t) FMUL( new_reverb_l, reverb_level );
+		reverb_buf [reverb_pos + 1] = (blip_sample_t) FMUL( new_reverb_r, reverb_level );
+		reverb_pos = (reverb_pos + 2) & reverb_mask;
+		
+		int sum3_s = BLIP_READER_READ( center );
+		BLIP_READER_NEXT( center, bass );
+		
+		int left = new_reverb_l + sum3_s + BLIP_READER_READ( l2 ) + FMUL( chans.echo_level,
+				echo_buf [(echo_pos + chans.echo_delay_l) & echo_mask] );
+		int right = new_reverb_r + sum3_s + BLIP_READER_READ( r2 ) + FMUL( chans.echo_level,
+				echo_buf [(echo_pos + chans.echo_delay_r) & echo_mask] );
+		
+		BLIP_READER_NEXT( l2, bass );
+		BLIP_READER_NEXT( r2, bass );
+		
+		echo_buf [echo_pos] = sum3_s;
+		echo_pos = (echo_pos + 1) & echo_mask;
+		
+		if ( (BOOST::int16_t) left != left )
+			left = 0x7FFF - (left >> 24);
+		
+		out [0] = left;
+		out [1] = right;
+		
+		out += 2;
+		
+		if ( (BOOST::int16_t) right != right )
+			out [-1] = 0x7FFF - (right >> 24);
+	}
+	this->reverb_pos = reverb_pos;
+	this->echo_pos = echo_pos;
+	
+	BLIP_READER_END( l1, bufs [3] );
+	BLIP_READER_END( r1, bufs [4] );
+	BLIP_READER_END( l2, bufs [5] );
+	BLIP_READER_END( r2, bufs [6] );
+	BLIP_READER_END( sq1, bufs [0] );
+	BLIP_READER_END( sq2, bufs [1] );
+	BLIP_READER_END( center, bufs [2] );
+}
+
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Effects_Buffer.h b/plugins/gme/game-music-emu-0.5.5/gme/Effects_Buffer.h
new file mode 100644
index 00000000..061f74ab
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Effects_Buffer.h
@@ -0,0 +1,86 @@
+// Multi-channel effects buffer with panning, echo and reverb
+
+// Game_Music_Emu 0.5.5
+#ifndef EFFECTS_BUFFER_H
+#define EFFECTS_BUFFER_H
+
+#include "Multi_Buffer.h"
+
+// Effects_Buffer uses several buffers and outputs stereo sample pairs.
+class Effects_Buffer : public Multi_Buffer {
+public:
+	// If center_only is true, only center buffers are created and
+	// less memory is used.
+	Effects_Buffer( bool center_only = false );
+	
+	// Channel  Effect    Center Pan
+	// ---------------------------------
+	//    0,5    reverb       pan_1
+	//    1,6    reverb       pan_2
+	//    2,7    echo         -
+	//    3      echo         -
+	//    4      echo         -
+	
+	// Channel configuration
+	struct config_t {
+		double pan_1;           // -1.0 = left, 0.0 = center, 1.0 = right
+		double pan_2;
+		double echo_delay;      // msec
+		double echo_level;      // 0.0 to 1.0
+		double reverb_delay;    // msec
+		double delay_variance;  // difference between left/right delays (msec)
+		double reverb_level;    // 0.0 to 1.0
+		bool effects_enabled;   // if false, use optimized simple mixer
+		config_t();
+	};
+	
+	// Set configuration of buffer
+	virtual void config( const config_t& );
+	void set_depth( double );
+	
+public:
+	~Effects_Buffer();
+	blargg_err_t set_sample_rate( long samples_per_sec, int msec = blip_default_length );
+	void clock_rate( long );
+	void bass_freq( int );
+	void clear();
+	channel_t channel( int, int );
+	void end_frame( blip_time_t );
+	long read_samples( blip_sample_t*, long );
+	long samples_avail() const;
+private:
+	typedef long fixed_t;
+	
+	enum { max_buf_count = 7 };
+	Blip_Buffer bufs [max_buf_count];
+	enum { chan_types_count = 3 };
+	channel_t chan_types [3];
+	config_t config_;
+	long stereo_remain;
+	long effect_remain;
+	int buf_count;
+	bool effects_enabled;
+	
+	blargg_vector<blip_sample_t> reverb_buf;
+	blargg_vector<blip_sample_t> echo_buf;
+	int reverb_pos;
+	int echo_pos;
+	
+	struct {
+		fixed_t pan_1_levels [2];
+		fixed_t pan_2_levels [2];
+		int echo_delay_l;
+		int echo_delay_r;
+		fixed_t echo_level;
+		int reverb_delay_l;
+		int reverb_delay_r;
+		fixed_t reverb_level;
+	} chans;
+	
+	void mix_mono( blip_sample_t*, blargg_long );
+	void mix_stereo( blip_sample_t*, blargg_long );
+	void mix_enhanced( blip_sample_t*, blargg_long );
+	void mix_mono_enhanced( blip_sample_t*, blargg_long );
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Fir_Resampler.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Fir_Resampler.cpp
new file mode 100644
index 00000000..f2c905a9
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Fir_Resampler.cpp
@@ -0,0 +1,199 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Fir_Resampler.h"
+
+#include <string.h>
+#include <stdlib.h>
+#include <stdio.h>
+#include <math.h>
+
+/* Copyright (C) 2004-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+#undef PI
+#define PI 3.1415926535897932384626433832795029
+
+static void gen_sinc( double rolloff, int width, double offset, double spacing, double scale,
+		int count, short* out )
+{
+	double const maxh = 256;
+	double const step = PI / maxh * spacing;
+	double const to_w = maxh * 2 / width;
+	double const pow_a_n = pow( rolloff, maxh );
+	scale /= maxh * 2;
+	
+	double angle = (count / 2 - 1 + offset) * -step;
+	while ( count-- )
+	{
+		*out++ = 0;
+		double w = angle * to_w;
+		if ( fabs( w ) < PI )
+		{
+			double rolloff_cos_a = rolloff * cos( angle );
+			double num = 1 - rolloff_cos_a -
+					pow_a_n * cos( maxh * angle ) +
+					pow_a_n * rolloff * cos( (maxh - 1) * angle );
+			double den = 1 - rolloff_cos_a - rolloff_cos_a + rolloff * rolloff;
+			double sinc = scale * num / den - scale;
+			
+			out [-1] = (short) (cos( w ) * sinc + sinc);
+		}
+		angle += step;
+	}
+}
+
+Fir_Resampler_::Fir_Resampler_( int width, sample_t* impulses_ ) :
+	width_( width ),
+	write_offset( width * stereo - stereo ),
+	impulses( impulses_ )
+{
+	write_pos = 0;
+	res       = 1;
+	imp_phase = 0;
+	skip_bits = 0;
+	step      = stereo;
+	ratio_    = 1.0;
+}
+
+Fir_Resampler_::~Fir_Resampler_() { }
+
+void Fir_Resampler_::clear()
+{
+	imp_phase = 0;
+	if ( buf.size() )
+	{
+		write_pos = &buf [write_offset];
+		memset( buf.begin(), 0, write_offset * sizeof buf [0] );
+	}
+}
+
+blargg_err_t Fir_Resampler_::buffer_size( int new_size )
+{
+	RETURN_ERR( buf.resize( new_size + write_offset ) );
+	clear();
+	return 0;
+}
+	
+double Fir_Resampler_::time_ratio( double new_factor, double rolloff, double gain )
+{
+	ratio_ = new_factor;
+	
+	double fstep = 0.0;
+	{
+		double least_error = 2;
+		double pos = 0;
+		res = -1;
+		for ( int r = 1; r <= max_res; r++ )
+		{
+			pos += ratio_;
+			double nearest = floor( pos + 0.5 );
+			double error = fabs( pos - nearest );
+			if ( error < least_error )
+			{
+				res = r;
+				fstep = nearest / res;
+				least_error = error;
+			}
+		}
+	}
+	
+	skip_bits = 0;
+	
+	step = stereo * (int) floor( fstep );
+	
+	ratio_ = fstep;
+	fstep = fmod( fstep, 1.0 );
+	
+	double filter = (ratio_ < 1.0) ? 1.0 : 1.0 / ratio_;
+	double pos = 0.0;
+	input_per_cycle = 0;
+	for ( int i = 0; i < res; i++ )
+	{
+		gen_sinc( rolloff, int (width_ * filter + 1) & ~1, pos, filter,
+				double (0x7FFF * gain * filter),
+				(int) width_, impulses + i * width_ );
+		
+		pos += fstep;
+		input_per_cycle += step;
+		if ( pos >= 0.9999999 )
+		{
+			pos -= 1.0;
+			skip_bits |= 1 << i;
+			input_per_cycle++;
+		}
+	}
+	
+	clear();
+	
+	return ratio_;
+}
+
+int Fir_Resampler_::input_needed( blargg_long output_count ) const
+{
+	blargg_long input_count = 0;
+	
+	unsigned long skip = skip_bits >> imp_phase;
+	int remain = res - imp_phase;
+	while ( (output_count -= 2) > 0 )
+	{
+		input_count += step + (skip & 1) * stereo;
+		skip >>= 1;
+		if ( !--remain )
+		{
+			skip = skip_bits;
+			remain = res;
+		}
+		output_count -= 2;
+	}
+	
+	long input_extra = input_count - (write_pos - &buf [(width_ - 1) * stereo]);
+	if ( input_extra < 0 )
+		input_extra = 0;
+	return input_extra;
+}
+
+int Fir_Resampler_::avail_( blargg_long input_count ) const
+{
+	int cycle_count = input_count / input_per_cycle;
+	int output_count = cycle_count * res * stereo;
+	input_count -= cycle_count * input_per_cycle;
+	
+	blargg_ulong skip = skip_bits >> imp_phase;
+	int remain = res - imp_phase;
+	while ( input_count >= 0 )
+	{
+		input_count -= step + (skip & 1) * stereo;
+		skip >>= 1;
+		if ( !--remain )
+		{
+			skip = skip_bits;
+			remain = res;
+		}
+		output_count += 2;
+	}
+	return output_count;
+}
+
+int Fir_Resampler_::skip_input( long count )
+{
+	int remain = write_pos - buf.begin();
+	int max_count = remain - width_ * stereo;
+	if ( count > max_count )
+		count = max_count;
+	
+	remain -= count;
+	write_pos = &buf [remain];
+	memmove( buf.begin(), &buf [count], remain * sizeof buf [0] );
+	
+	return count;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Fir_Resampler.h b/plugins/gme/game-music-emu-0.5.5/gme/Fir_Resampler.h
new file mode 100644
index 00000000..aed87492
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Fir_Resampler.h
@@ -0,0 +1,171 @@
+// Finite impulse response (FIR) resampler with adjustable FIR size
+
+// Game_Music_Emu 0.5.5
+#ifndef FIR_RESAMPLER_H
+#define FIR_RESAMPLER_H
+
+#include "blargg_common.h"
+#include <string.h>
+
+class Fir_Resampler_ {
+public:
+	
+	// Use Fir_Resampler<width> (below)
+	
+	// Set input/output resampling ratio and optionally low-pass rolloff and gain.
+	// Returns actual ratio used (rounded to internal precision).
+	double time_ratio( double factor, double rolloff = 0.999, double gain = 1.0 );
+	
+	// Current input/output ratio
+	double ratio() const { return ratio_; }
+	
+// Input
+	
+	typedef short sample_t;
+	
+	// Resize and clear input buffer
+	blargg_err_t buffer_size( int );
+	
+	// Clear input buffer. At least two output samples will be available after
+	// two input samples are written.
+	void clear();
+	
+	// Number of input samples that can be written
+	int max_write() const { return buf.end() - write_pos; }
+	
+	// Pointer to place to write input samples
+	sample_t* buffer() { return write_pos; }
+	
+	// Notify resampler that 'count' input samples have been written
+	void write( long count );
+	
+	// Number of input samples in buffer
+	int written() const { return write_pos - &buf [write_offset]; }
+	
+	// Skip 'count' input samples. Returns number of samples actually skipped.
+	int skip_input( long count );
+	
+// Output
+	
+	// Number of extra input samples needed until 'count' output samples are available
+	int input_needed( blargg_long count ) const;
+	
+	// Number of output samples available
+	int avail() const { return avail_( write_pos - &buf [width_ * stereo] ); }
+	
+public:
+	~Fir_Resampler_();
+protected:
+	enum { stereo = 2 };
+	enum { max_res = 32 };
+	blargg_vector<sample_t> buf;
+	sample_t* write_pos;
+	int res;
+	int imp_phase;
+	int const width_;
+	int const write_offset;
+	blargg_ulong skip_bits;
+	int step;
+	int input_per_cycle;
+	double ratio_;
+	sample_t* impulses;
+	
+	Fir_Resampler_( int width, sample_t* );
+	int avail_( blargg_long input_count ) const;
+};
+
+// Width is number of points in FIR. Must be even and 4 or more. More points give
+// better quality and rolloff effectiveness, and take longer to calculate.
+template<int width>
+class Fir_Resampler : public Fir_Resampler_ {
+	BOOST_STATIC_ASSERT( width >= 4 && width % 2 == 0 );
+	short impulses [max_res] [width];
+public:
+	Fir_Resampler() : Fir_Resampler_( width, impulses [0] ) { }
+	
+	// Read at most 'count' samples. Returns number of samples actually read.
+	typedef short sample_t;
+	int read( sample_t* out, blargg_long count );
+};
+
+// End of public interface
+
+inline void Fir_Resampler_::write( long count )
+{
+	write_pos += count;
+	assert( write_pos <= buf.end() );
+}
+
+template<int width>
+int Fir_Resampler<width>::read( sample_t* out_begin, blargg_long count )
+{
+	sample_t* out = out_begin;
+	const sample_t* in = buf.begin();
+	sample_t* end_pos = write_pos;
+	blargg_ulong skip = skip_bits >> imp_phase;
+	sample_t const* imp = impulses [imp_phase];
+	int remain = res - imp_phase;
+	int const step = this->step;
+	
+	count >>= 1;
+	
+	if ( end_pos - in >= width * stereo )
+	{
+		end_pos -= width * stereo;
+		do
+		{
+			count--;
+			
+			// accumulate in extended precision
+			blargg_long l = 0;
+			blargg_long r = 0;
+			
+			const sample_t* i = in;
+			if ( count < 0 )
+				break;
+			
+			for ( int n = width / 2; n; --n )
+			{
+				int pt0 = imp [0];
+				l += pt0 * i [0];
+				r += pt0 * i [1];
+				int pt1 = imp [1];
+				imp += 2;
+				l += pt1 * i [2];
+				r += pt1 * i [3];
+				i += 4;
+			}
+			
+			remain--;
+			
+			l >>= 15;
+			r >>= 15;
+			
+			in += (skip * stereo) & stereo;
+			skip >>= 1;
+			in += step;
+			
+			if ( !remain )
+			{
+				imp = impulses [0];
+				skip = skip_bits;
+				remain = res;
+			}
+			
+			out [0] = (sample_t) l;
+			out [1] = (sample_t) r;
+			out += 2;
+		}
+		while ( in <= end_pos );
+	}
+	
+	imp_phase = res - remain;
+	
+	int left = write_pos - in;
+	write_pos = &buf [left];
+	memmove( buf.begin(), in, left * sizeof *in );
+	
+	return out - out_begin;
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Gb_Apu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Gb_Apu.cpp
new file mode 100644
index 00000000..866594dd
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Gb_Apu.cpp
@@ -0,0 +1,306 @@
+// Gb_Snd_Emu 0.1.5. http://www.slack.net/~ant/
+
+#include "Gb_Apu.h"
+
+#include <string.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+unsigned const vol_reg    = 0xFF24;
+unsigned const status_reg = 0xFF26;
+
+Gb_Apu::Gb_Apu()
+{
+	square1.synth = &square_synth;
+	square2.synth = &square_synth;
+	wave.synth  = &other_synth;
+	noise.synth = &other_synth;
+	
+	oscs [0] = &square1;
+	oscs [1] = &square2;
+	oscs [2] = &wave;
+	oscs [3] = &noise;
+	
+	for ( int i = 0; i < osc_count; i++ )
+	{
+		Gb_Osc& osc = *oscs [i];
+		osc.regs = &regs [i * 5];
+		osc.output = 0;
+		osc.outputs [0] = 0;
+		osc.outputs [1] = 0;
+		osc.outputs [2] = 0;
+		osc.outputs [3] = 0;
+	}
+	
+	set_tempo( 1.0 );
+	volume( 1.0 );
+	reset();
+}
+
+void Gb_Apu::treble_eq( const blip_eq_t& eq )
+{
+	square_synth.treble_eq( eq );
+	other_synth.treble_eq( eq );
+}
+
+void Gb_Apu::osc_output( int index, Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right )
+{
+	require( (unsigned) index < osc_count );
+	require( (center && left && right) || (!center && !left && !right) );
+	Gb_Osc& osc = *oscs [index];
+	osc.outputs [1] = right;
+	osc.outputs [2] = left;
+	osc.outputs [3] = center;
+	osc.output = osc.outputs [osc.output_select];
+}
+
+void Gb_Apu::output( Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right )
+{
+	for ( int i = 0; i < osc_count; i++ )
+		osc_output( i, center, left, right );
+}
+
+void Gb_Apu::update_volume()
+{
+	// TODO: doesn't handle differing left/right global volume (support would
+	// require modification to all oscillator code)
+	int data = regs [vol_reg - start_addr];
+	double vol = (max( data & 7, data >> 4 & 7 ) + 1) * volume_unit;
+	square_synth.volume( vol );
+	other_synth.volume( vol );
+}
+
+static unsigned char const powerup_regs [0x20] = {
+	0x80,0x3F,0x00,0xFF,0xBF, // square 1
+	0xFF,0x3F,0x00,0xFF,0xBF, // square 2
+	0x7F,0xFF,0x9F,0xFF,0xBF, // wave
+	0xFF,0xFF,0x00,0x00,0xBF, // noise
+	0x00, // left/right enables
+	0x77, // master volume
+	0x80, // power
+	0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF
+};
+
+void Gb_Apu::set_tempo( double t )
+{
+	frame_period = 4194304 / 256; // 256 Hz
+	if ( t != 1.0 )
+		frame_period = blip_time_t (frame_period / t);
+}
+
+void Gb_Apu::reset()
+{
+	next_frame_time = 0;
+	last_time       = 0;
+	frame_count     = 0;
+	
+	square1.reset();
+	square2.reset();
+	wave.reset();
+	noise.reset();
+	noise.bits = 1;
+	wave.wave_pos = 0;
+	
+	// avoid click at beginning
+	regs [vol_reg - start_addr] = 0x77;
+	update_volume();
+	
+	regs [status_reg - start_addr] = 0x01; // force power
+	write_register( 0, status_reg, 0x00 );
+	
+	static unsigned char const initial_wave [] = {
+		0x84,0x40,0x43,0xAA,0x2D,0x78,0x92,0x3C, // wave table
+		0x60,0x59,0x59,0xB0,0x34,0xB8,0x2E,0xDA
+	};
+	memcpy( wave.wave, initial_wave, sizeof wave.wave );
+}
+
+void Gb_Apu::run_until( blip_time_t end_time )
+{
+	require( end_time >= last_time ); // end_time must not be before previous time
+	if ( end_time == last_time )
+		return;
+	
+	while ( true )
+	{
+		blip_time_t time = next_frame_time;
+		if ( time > end_time )
+			time = end_time;
+		
+		// run oscillators
+		for ( int i = 0; i < osc_count; ++i )
+		{
+			Gb_Osc& osc = *oscs [i];
+			if ( osc.output )
+			{
+				osc.output->set_modified(); // TODO: misses optimization opportunities?
+				int playing = false;
+				if ( osc.enabled && osc.volume &&
+						(!(osc.regs [4] & osc.len_enabled_mask) || osc.length) )
+					playing = -1;
+				switch ( i )
+				{
+				case 0: square1.run( last_time, time, playing ); break;
+				case 1: square2.run( last_time, time, playing ); break;
+				case 2: wave   .run( last_time, time, playing ); break;
+				case 3: noise  .run( last_time, time, playing ); break;
+				}
+			}
+		}
+		last_time = time;
+		
+		if ( time == end_time )
+			break;
+		
+		next_frame_time += frame_period;
+		
+		// 256 Hz actions
+		square1.clock_length();
+		square2.clock_length();
+		wave.clock_length();
+		noise.clock_length();
+		
+		frame_count = (frame_count + 1) & 3;
+		if ( frame_count == 0 )
+		{
+			// 64 Hz actions
+			square1.clock_envelope();
+			square2.clock_envelope();
+			noise.clock_envelope();
+		}
+		
+		if ( frame_count & 1 )
+			square1.clock_sweep(); // 128 Hz action
+	}
+}
+
+void Gb_Apu::end_frame( blip_time_t end_time )
+{
+	if ( end_time > last_time )
+		run_until( end_time );
+	
+	assert( next_frame_time >= end_time );
+	next_frame_time -= end_time;
+	
+	assert( last_time >= end_time );
+	last_time -= end_time;
+}
+
+void Gb_Apu::write_register( blip_time_t time, unsigned addr, int data )
+{
+	require( (unsigned) data < 0x100 );
+	
+	int reg = addr - start_addr;
+	if ( (unsigned) reg >= register_count )
+		return;
+	
+	run_until( time );
+	
+	int old_reg = regs [reg];
+	regs [reg] = data;
+	
+	if ( addr < vol_reg )
+	{
+		write_osc( reg / 5, reg, data );
+	}
+	else if ( addr == vol_reg && data != old_reg ) // global volume
+	{
+		// return all oscs to 0
+		for ( int i = 0; i < osc_count; i++ )
+		{
+			Gb_Osc& osc = *oscs [i];
+			int amp = osc.last_amp;
+			osc.last_amp = 0;
+			if ( amp && osc.enabled && osc.output )
+				other_synth.offset( time, -amp, osc.output );
+		}
+		
+		if ( wave.outputs [3] )
+			other_synth.offset( time, 30, wave.outputs [3] );
+		
+		update_volume();
+		
+		if ( wave.outputs [3] )
+			other_synth.offset( time, -30, wave.outputs [3] );
+		
+		// oscs will update with new amplitude when next run
+	}
+	else if ( addr == 0xFF25 || addr == status_reg )
+	{
+		int mask = (regs [status_reg - start_addr] & 0x80) ? ~0 : 0;
+		int flags = regs [0xFF25 - start_addr] & mask;
+		
+		// left/right assignments
+		for ( int i = 0; i < osc_count; i++ )
+		{
+			Gb_Osc& osc = *oscs [i];
+			osc.enabled &= mask;
+			int bits = flags >> i;
+			Blip_Buffer* old_output = osc.output;
+			osc.output_select = (bits >> 3 & 2) | (bits & 1);
+			osc.output = osc.outputs [osc.output_select];
+			if ( osc.output != old_output )
+			{
+				int amp = osc.last_amp;
+				osc.last_amp = 0;
+				if ( amp && old_output )
+					other_synth.offset( time, -amp, old_output );
+			}
+		}
+		
+		if ( addr == status_reg && data != old_reg )
+		{
+			if ( !(data & 0x80) )
+			{
+				for ( unsigned i = 0; i < sizeof powerup_regs; i++ )
+				{
+					if ( i != status_reg - start_addr )
+						write_register( time, i + start_addr, powerup_regs [i] );
+				}
+			}
+			else
+			{
+				//debug_printf( "APU powered on\n" );
+			}
+		}
+	}
+	else if ( addr >= 0xFF30 )
+	{
+		int index = (addr & 0x0F) * 2;
+		wave.wave [index] = data >> 4;
+		wave.wave [index + 1] = data & 0x0F;
+	}
+}
+
+int Gb_Apu::read_register( blip_time_t time, unsigned addr )
+{
+	run_until( time );
+	
+	int index = addr - start_addr;
+	require( (unsigned) index < register_count );
+	int data = regs [index];
+	
+	if ( addr == status_reg )
+	{
+		data = (data & 0x80) | 0x70;
+		for ( int i = 0; i < osc_count; i++ )
+		{
+			const Gb_Osc& osc = *oscs [i];
+			if ( osc.enabled && (osc.length || !(osc.regs [4] & osc.len_enabled_mask)) )
+				data |= 1 << i;
+		}
+	}
+	
+	return data;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Gb_Apu.h b/plugins/gme/game-music-emu-0.5.5/gme/Gb_Apu.h
new file mode 100644
index 00000000..e74ebc55
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Gb_Apu.h
@@ -0,0 +1,90 @@
+// Nintendo Game Boy PAPU sound chip emulator
+
+// Gb_Snd_Emu 0.1.5
+#ifndef GB_APU_H
+#define GB_APU_H
+
+#include "Gb_Oscs.h"
+
+class Gb_Apu {
+public:
+	
+	// Set overall volume of all oscillators, where 1.0 is full volume
+	void volume( double );
+	
+	// Set treble equalization
+	void treble_eq( const blip_eq_t& );
+	
+	// Outputs can be assigned to a single buffer for mono output, or to three
+	// buffers for stereo output (using Stereo_Buffer to do the mixing).
+	
+	// Assign all oscillator outputs to specified buffer(s). If buffer
+	// is NULL, silences all oscillators.
+	void output( Blip_Buffer* mono );
+	void output( Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right );
+	
+	// Assign single oscillator output to buffer(s). Valid indicies are 0 to 3,
+	// which refer to Square 1, Square 2, Wave, and Noise. If buffer is NULL,
+	// silences oscillator.
+	enum { osc_count = 4 };
+	void osc_output( int index, Blip_Buffer* mono );
+	void osc_output( int index, Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right );
+	
+	// Reset oscillators and internal state
+	void reset();
+	
+	// Reads and writes at addr must satisfy start_addr <= addr <= end_addr
+	enum { start_addr = 0xFF10 };
+	enum { end_addr   = 0xFF3F };
+	enum { register_count = end_addr - start_addr + 1 };
+	
+	// Write 'data' to address at specified time
+	void write_register( blip_time_t, unsigned addr, int data );
+	
+	// Read from address at specified time
+	int read_register( blip_time_t, unsigned addr );
+	
+	// Run all oscillators up to specified time, end current time frame, then
+	// start a new frame at time 0.
+	void end_frame( blip_time_t );
+	
+	void set_tempo( double );
+	
+public:
+	Gb_Apu();
+private:
+	// noncopyable
+	Gb_Apu( const Gb_Apu& );
+	Gb_Apu& operator = ( const Gb_Apu& );
+	
+	Gb_Osc*     oscs [osc_count];
+	blip_time_t   next_frame_time;
+	blip_time_t   last_time;
+	blip_time_t frame_period;
+	double      volume_unit;
+	int         frame_count;
+	
+	Gb_Square   square1;
+	Gb_Square   square2;
+	Gb_Wave     wave;
+	Gb_Noise    noise;
+	BOOST::uint8_t regs [register_count];
+	Gb_Square::Synth square_synth; // used by squares
+	Gb_Wave::Synth   other_synth;  // used by wave and noise
+	
+	void update_volume();
+	void run_until( blip_time_t );
+	void write_osc( int index, int reg, int data );
+};
+
+inline void Gb_Apu::output( Blip_Buffer* b ) { output( b, b, b ); }
+	
+inline void Gb_Apu::osc_output( int i, Blip_Buffer* b ) { osc_output( i, b, b, b ); }
+
+inline void Gb_Apu::volume( double vol )
+{
+	volume_unit = 0.60 / osc_count / 15 /*steps*/ / 2 /*?*/ / 8 /*master vol range*/ * vol;
+	update_volume();
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Gb_Cpu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Gb_Cpu.cpp
new file mode 100644
index 00000000..6980aafe
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Gb_Cpu.cpp
@@ -0,0 +1,1056 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Gb_Cpu.h"
+
+#include <string.h>
+
+//#include "gb_cpu_log.h"
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "gb_cpu_io.h"
+
+#include "blargg_source.h"
+
+// Common instructions:
+//
+// 365880   FA      LD  A,IND16
+// 355863   20      JR  NZ
+// 313655   21      LD  HL,IMM
+// 274580   28      JR  Z
+// 252878   FE      CMP IMM
+// 230541   7E      LD  A,(HL)
+// 226209   2A      LD A,(HL+)
+// 217467   CD      CALL
+// 212034   C9      RET
+// 208376   CB      CB prefix
+//
+//  27486   CB 7E   BIT 7,(HL)
+//  15925   CB 76   BIT 6,(HL)
+//  13035   CB 19   RR  C
+//  11557   CB 7F   BIT 7,A
+//  10898   CB 37   SWAP A
+//  10208   CB 66   BIT 4,(HL)
+
+#if BLARGG_NONPORTABLE
+	#define PAGE_OFFSET( addr ) (addr)
+#else
+	#define PAGE_OFFSET( addr ) ((addr) & (page_size - 1))
+#endif
+
+inline void Gb_Cpu::set_code_page( int i, uint8_t* p )
+{
+	state->code_map [i] = p - PAGE_OFFSET( i * (blargg_long) page_size );
+}
+
+void Gb_Cpu::reset( void* unmapped )
+{
+	check( state == &state_ );
+	state = &state_;
+	
+	state_.remain = 0;
+	
+	for ( int i = 0; i < page_count + 1; i++ )
+		set_code_page( i, (uint8_t*) unmapped );
+	
+	memset( &r, 0, sizeof r );
+	//interrupts_enabled = false;
+	
+	blargg_verify_byte_order();
+}
+
+void Gb_Cpu::map_code( gb_addr_t start, unsigned size, void* data )
+{
+	// address range must begin and end on page boundaries
+	require( start % page_size == 0 );
+	require( size % page_size == 0 );
+	
+	unsigned first_page = start / page_size;
+	for ( unsigned i = size / page_size; i--; )
+		set_code_page( first_page + i, (uint8_t*) data + i * page_size );
+}
+
+#define READ( addr )            CPU_READ( this, (addr), s.remain )
+#define WRITE( addr, data )     {CPU_WRITE( this, (addr), (data), s.remain );}
+#define READ_FAST( addr, out )  CPU_READ_FAST( this, (addr), s.remain, out )
+#define READ_PROG( addr )       (s.code_map [(addr) >> page_shift] [PAGE_OFFSET( addr )])
+
+unsigned const z_flag = 0x80;
+unsigned const n_flag = 0x40;
+unsigned const h_flag = 0x20;
+unsigned const c_flag = 0x10;
+
+bool Gb_Cpu::run( blargg_long cycle_count )
+{
+	state_.remain = blargg_ulong (cycle_count + clocks_per_instr) / clocks_per_instr;
+	state_t s;
+	this->state = &s;
+	memcpy( &s, &this->state_, sizeof s );
+	
+	typedef BOOST::uint16_t uint16_t;
+	
+#if BLARGG_BIG_ENDIAN
+	#define R8( n ) (r8_ [n]) 
+#elif BLARGG_LITTLE_ENDIAN
+	#define R8( n ) (r8_ [(n) ^ 1]) 
+#else
+	#error "Byte order of CPU must be known"
+#endif
+	
+	union {
+		core_regs_t rg; // individual registers
+		
+		struct {
+			BOOST::uint16_t bc, de, hl, unused; // pairs
+		} rp;
+		
+		uint8_t r8_ [8]; // indexed registers (use R8 macro due to endian dependence)
+		BOOST::uint16_t r16 [4]; // indexed pairs
+	};
+	BOOST_STATIC_ASSERT( sizeof rg == 8 && sizeof rp == 8 );
+	
+	rg = r;
+	unsigned pc = r.pc;
+	unsigned sp = r.sp;
+	unsigned flags = r.flags;
+	
+loop:
+	
+	check( (unsigned long) pc < 0x10000 );
+	check( (unsigned long) sp < 0x10000 );
+	check( (flags & ~0xF0) == 0 );
+	
+	uint8_t const* instr = s.code_map [pc >> page_shift];
+	unsigned op;
+	
+	// TODO: eliminate this special case
+	#if BLARGG_NONPORTABLE
+		op = instr [pc];
+		pc++;
+		instr += pc;
+	#else
+		instr += PAGE_OFFSET( pc );
+		op = *instr++;
+		pc++;
+	#endif
+	
+#define GET_ADDR()  GET_LE16( instr )
+	
+	if ( !--s.remain )
+		goto stop;
+	
+	unsigned data;
+	data = *instr;
+	
+	#ifdef GB_CPU_LOG_H
+		gb_cpu_log( "new", pc - 1, op, data, instr [1] );
+	#endif
+	
+	switch ( op )
+	{
+
+// TODO: more efficient way to handle negative branch that wraps PC around
+#define BRANCH( cond )\
+{\
+	pc++;\
+	int offset = (BOOST::int8_t) data;\
+	if ( !(cond) ) goto loop;\
+	pc = uint16_t (pc + offset);\
+	goto loop;\
+}
+
+// Most Common
+
+	case 0x20: // JR NZ
+		BRANCH( !(flags & z_flag) )
+	
+	case 0x21: // LD HL,IMM (common)
+		rp.hl = GET_ADDR();
+		pc += 2;
+		goto loop;
+	
+	case 0x28: // JR Z
+		BRANCH( flags & z_flag )
+	
+	{
+		unsigned temp;
+	case 0xF0: // LD A,(0xFF00+imm)
+		temp = data | 0xFF00;
+		pc++;
+		goto ld_a_ind_comm;
+	
+	case 0xF2: // LD A,(0xFF00+C)
+		temp = rg.c | 0xFF00;
+		goto ld_a_ind_comm;
+	
+	case 0x0A: // LD A,(BC)
+		temp = rp.bc;
+		goto ld_a_ind_comm;
+	
+	case 0x3A: // LD A,(HL-)
+		temp = rp.hl;
+		rp.hl = temp - 1;
+		goto ld_a_ind_comm;
+	
+	case 0x1A: // LD A,(DE)
+		temp = rp.de;
+		goto ld_a_ind_comm;
+	
+	case 0x2A: // LD A,(HL+) (common)
+		temp = rp.hl;
+		rp.hl = temp + 1;
+		goto ld_a_ind_comm;
+		
+	case 0xFA: // LD A,IND16 (common)
+		temp = GET_ADDR();
+		pc += 2;
+	ld_a_ind_comm:
+		READ_FAST( temp, rg.a );
+		goto loop;
+	}
+	
+	case 0xBE: // CMP (HL)
+		data = READ( rp.hl );
+		goto cmp_comm;
+	
+	case 0xB8: // CMP B
+	case 0xB9: // CMP C
+	case 0xBA: // CMP D
+	case 0xBB: // CMP E
+	case 0xBC: // CMP H
+	case 0xBD: // CMP L
+		data = R8( op & 7 );
+		goto cmp_comm;
+	
+	case 0xFE: // CMP IMM
+		pc++;
+	cmp_comm:
+		op = rg.a;
+		data = op - data;
+	sub_set_flags:
+		flags = ((op & 15) - (data & 15)) & h_flag;
+		flags |= (data >> 4) & c_flag;
+		flags |= n_flag;
+		if ( data & 0xFF )
+			goto loop;
+		flags |= z_flag;
+		goto loop;
+
+	case 0x46: // LD B,(HL)
+	case 0x4E: // LD C,(HL)
+	case 0x56: // LD D,(HL)
+	case 0x5E: // LD E,(HL)
+	case 0x66: // LD H,(HL)
+	case 0x6E: // LD L,(HL)
+	case 0x7E:{// LD A,(HL)
+		unsigned addr = rp.hl;
+		READ_FAST( addr, R8( (op >> 3) & 7 ) );
+		goto loop;
+	}
+	
+	case 0xC4: // CNZ (next-most-common)
+		pc += 2;
+		if ( flags & z_flag )
+			goto loop;
+	call:
+		pc -= 2;
+	case 0xCD: // CALL (most-common)
+		data = pc + 2;
+		pc = GET_ADDR();
+	push:
+		sp = (sp - 1) & 0xFFFF;
+		WRITE( sp, data >> 8 );
+		sp = (sp - 1) & 0xFFFF;
+		WRITE( sp, data & 0xFF );
+		goto loop;
+	
+	case 0xC8: // RNZ (next-most-common)
+		if ( !(flags & z_flag) )
+			goto loop;
+	case 0xC9: // RET (most common)
+	ret:
+		pc = READ( sp );
+		pc += 0x100 * READ( sp + 1 );
+		sp = (sp + 2) & 0xFFFF;
+		goto loop;
+	
+	case 0x00: // NOP
+	case 0x40: // LD B,B
+	case 0x49: // LD C,C
+	case 0x52: // LD D,D
+	case 0x5B: // LD E,E
+	case 0x64: // LD H,H
+	case 0x6D: // LD L,L
+	case 0x7F: // LD A,A
+		goto loop;
+	
+// CB Instructions
+
+	case 0xCB:
+		pc++;
+		// now data is the opcode
+		switch ( data ) {
+			
+		{
+			int temp;
+		case 0x46: // BIT b,(HL)
+		case 0x4E:
+		case 0x56:
+		case 0x5E:
+		case 0x66:
+		case 0x6E:
+		case 0x76:
+		case 0x7E:
+			{
+				unsigned addr = rp.hl;
+				READ_FAST( addr, temp );
+				goto bit_comm;
+			}
+		
+		case 0x40: case 0x41: case 0x42: case 0x43: // BIT b,r
+		case 0x44: case 0x45: case 0x47: case 0x48:
+		case 0x49: case 0x4A: case 0x4B: case 0x4C:
+		case 0x4D: case 0x4F: case 0x50: case 0x51:
+		case 0x52: case 0x53: case 0x54: case 0x55:
+		case 0x57: case 0x58: case 0x59: case 0x5A:
+		case 0x5B: case 0x5C: case 0x5D: case 0x5F:
+		case 0x60: case 0x61: case 0x62: case 0x63:
+		case 0x64: case 0x65: case 0x67: case 0x68:
+		case 0x69: case 0x6A: case 0x6B: case 0x6C:
+		case 0x6D: case 0x6F: case 0x70: case 0x71:
+		case 0x72: case 0x73: case 0x74: case 0x75:
+		case 0x77: case 0x78: case 0x79: case 0x7A:
+		case 0x7B: case 0x7C: case 0x7D: case 0x7F:
+			temp = R8( data & 7 );
+		bit_comm:
+			int bit = (~data >> 3) & 7;
+			flags &= ~n_flag;
+			flags |= h_flag | z_flag;
+			flags ^= (temp << bit) & z_flag;
+			goto loop;
+		}
+		
+		case 0x86: // RES b,(HL)
+		case 0x8E:
+		case 0x96:
+		case 0x9E:
+		case 0xA6:
+		case 0xAE:
+		case 0xB6:
+		case 0xBE:
+		case 0xC6: // SET b,(HL)
+		case 0xCE:
+		case 0xD6:
+		case 0xDE:
+		case 0xE6:
+		case 0xEE:
+		case 0xF6:
+		case 0xFE: {
+			int temp = READ( rp.hl );
+			int bit = 1 << ((data >> 3) & 7);
+			temp &= ~bit;
+			if ( !(data & 0x40) )
+				bit = 0;
+			WRITE( rp.hl, temp | bit );
+			goto loop;
+		}
+		
+		case 0xC0: case 0xC1: case 0xC2: case 0xC3: // SET b,r
+		case 0xC4: case 0xC5: case 0xC7: case 0xC8:
+		case 0xC9: case 0xCA: case 0xCB: case 0xCC:
+		case 0xCD: case 0xCF: case 0xD0: case 0xD1:
+		case 0xD2: case 0xD3: case 0xD4: case 0xD5:
+		case 0xD7: case 0xD8: case 0xD9: case 0xDA:
+		case 0xDB: case 0xDC: case 0xDD: case 0xDF:
+		case 0xE0: case 0xE1: case 0xE2: case 0xE3:
+		case 0xE4: case 0xE5: case 0xE7: case 0xE8:
+		case 0xE9: case 0xEA: case 0xEB: case 0xEC:
+		case 0xED: case 0xEF: case 0xF0: case 0xF1:
+		case 0xF2: case 0xF3: case 0xF4: case 0xF5:
+		case 0xF7: case 0xF8: case 0xF9: case 0xFA:
+		case 0xFB: case 0xFC: case 0xFD: case 0xFF:
+			R8( data & 7 ) |= 1 << ((data >> 3) & 7);
+			goto loop;
+
+		case 0x80: case 0x81: case 0x82: case 0x83: // RES b,r
+		case 0x84: case 0x85: case 0x87: case 0x88:
+		case 0x89: case 0x8A: case 0x8B: case 0x8C:
+		case 0x8D: case 0x8F: case 0x90: case 0x91:
+		case 0x92: case 0x93: case 0x94: case 0x95:
+		case 0x97: case 0x98: case 0x99: case 0x9A:
+		case 0x9B: case 0x9C: case 0x9D: case 0x9F:
+		case 0xA0: case 0xA1: case 0xA2: case 0xA3:
+		case 0xA4: case 0xA5: case 0xA7: case 0xA8:
+		case 0xA9: case 0xAA: case 0xAB: case 0xAC:
+		case 0xAD: case 0xAF: case 0xB0: case 0xB1:
+		case 0xB2: case 0xB3: case 0xB4: case 0xB5:
+		case 0xB7: case 0xB8: case 0xB9: case 0xBA:
+		case 0xBB: case 0xBC: case 0xBD: case 0xBF:
+			R8( data & 7 ) &= ~(1 << ((data >> 3) & 7));
+			goto loop;
+		
+		{
+			int temp;
+		case 0x36: // SWAP (HL)
+			temp = READ( rp.hl );
+			goto swap_comm;
+		
+		case 0x30: // SWAP B
+		case 0x31: // SWAP C
+		case 0x32: // SWAP D
+		case 0x33: // SWAP E
+		case 0x34: // SWAP H
+		case 0x35: // SWAP L
+		case 0x37: // SWAP A
+			temp = R8( data & 7 );
+		swap_comm:
+			op = (temp >> 4) | (temp << 4);
+			flags = 0;
+			goto shift_comm;
+		}
+		
+// Shift/Rotate
+
+		case 0x06: // RLC (HL)
+		case 0x16: // RL (HL)
+		case 0x26: // SLA (HL)
+			op = READ( rp.hl );
+			goto rl_comm;
+		
+		case 0x20: case 0x21: case 0x22: case 0x23: case 0x24: case 0x25: case 0x27: // SLA A
+		case 0x00: case 0x01: case 0x02: case 0x03: case 0x04: case 0x05: case 0x07: // RLC A
+		case 0x10: case 0x11: case 0x12: case 0x13: case 0x14: case 0x15: case 0x17: // RL A
+			op = R8( data & 7 );
+			goto rl_comm;
+		
+		case 0x3E: // SRL (HL)
+			data += 0x10; // bump up to 0x4n to avoid preserving sign bit
+		case 0x1E: // RR (HL)
+		case 0x0E: // RRC (HL)
+		case 0x2E: // SRA (HL)
+			op = READ( rp.hl );
+			goto rr_comm;
+		
+		case 0x38: case 0x39: case 0x3A: case 0x3B: case 0x3C: case 0x3D: case 0x3F: // SRL A
+			data += 0x10; // bump up to 0x4n
+		case 0x18: case 0x19: case 0x1A: case 0x1B: case 0x1C: case 0x1D: case 0x1F: // RR A
+		case 0x08: case 0x09: case 0x0A: case 0x0B: case 0x0C: case 0x0D: case 0x0F: // RRC A
+		case 0x28: case 0x29: case 0x2A: case 0x2B: case 0x2C: case 0x2D: case 0x2F: // SRA A
+			op = R8( data & 7 );
+			goto rr_comm;
+		
+	} // CB op
+	assert( false ); // unhandled CB op
+
+	case 0x07: // RLCA
+	case 0x17: // RLA
+		data = op;
+		op = rg.a;
+	rl_comm:
+		op <<= 1;
+		op |= ((data & flags) >> 4) & 1; // RL and carry is set
+		flags = (op >> 4) & c_flag; // C = bit shifted out
+		if ( data < 0x10 ) // RLC
+			op |= op >> 8;
+		// SLA doesn't fill lower bit
+		goto shift_comm;
+	
+	case 0x0F: // RRCA
+	case 0x1F: // RRA
+		data = op;
+		op = rg.a;
+	rr_comm:
+		op |= (data & flags) << 4; // RR and carry is set
+		flags = (op << 4) & c_flag; // C = bit shifted out
+		if ( data < 0x10 ) // RRC
+			op |= op << 8;
+		op >>= 1;
+		if ( data & 0x20 ) // SRA propagates sign bit
+			op |= (op << 1) & 0x80;
+	shift_comm:
+		data &= 7;
+		if ( !(op & 0xFF) )
+			flags |= z_flag;
+		if ( data == 6 )
+			goto write_hl_op_ff;
+		R8( data ) = op;
+		goto loop;
+
+// Load
+
+	case 0x70: // LD (HL),B
+	case 0x71: // LD (HL),C
+	case 0x72: // LD (HL),D
+	case 0x73: // LD (HL),E
+	case 0x74: // LD (HL),H
+	case 0x75: // LD (HL),L
+	case 0x77: // LD (HL),A
+		op = R8( op & 7 );
+	write_hl_op_ff:
+		WRITE( rp.hl, op & 0xFF );
+		goto loop;
+
+	case 0x41: case 0x42: case 0x43: case 0x44: case 0x45: case 0x47: // LD r,r
+	case 0x48: case 0x4A: case 0x4B: case 0x4C: case 0x4D: case 0x4F:
+	case 0x50: case 0x51: case 0x53: case 0x54: case 0x55: case 0x57:
+	case 0x58: case 0x59: case 0x5A: case 0x5C: case 0x5D: case 0x5F:
+	case 0x60: case 0x61: case 0x62: case 0x63: case 0x65: case 0x67:
+	case 0x68: case 0x69: case 0x6A: case 0x6B: case 0x6C: case 0x6F:
+	case 0x78: case 0x79: case 0x7A: case 0x7B: case 0x7C: case 0x7D:
+		R8( (op >> 3) & 7 ) = R8( op & 7 );
+		goto loop;
+
+	case 0x08: // LD IND16,SP
+		data = GET_ADDR();
+		pc += 2;
+		WRITE( data, sp&0xFF );
+		data++;
+		WRITE( data, sp >> 8 );
+		goto loop;
+	
+	case 0xF9: // LD SP,HL
+		sp = rp.hl;
+		goto loop;
+
+	case 0x31: // LD SP,IMM
+		sp = GET_ADDR();
+		pc += 2;
+		goto loop;
+	
+	case 0x01: // LD BC,IMM
+	case 0x11: // LD DE,IMM
+		r16 [op >> 4] = GET_ADDR();
+		pc += 2;
+		goto loop;
+	
+	{
+		unsigned temp;
+	case 0xE0: // LD (0xFF00+imm),A
+		temp = data | 0xFF00;
+		pc++;
+		goto write_data_rg_a;
+	
+	case 0xE2: // LD (0xFF00+C),A
+		temp = rg.c | 0xFF00;
+		goto write_data_rg_a;
+
+	case 0x32: // LD (HL-),A
+		temp = rp.hl;
+		rp.hl = temp - 1;
+		goto write_data_rg_a;
+	
+	case 0x02: // LD (BC),A
+		temp = rp.bc;
+		goto write_data_rg_a;
+	
+	case 0x12: // LD (DE),A
+		temp = rp.de;
+		goto write_data_rg_a;
+	
+	case 0x22: // LD (HL+),A
+		temp = rp.hl;
+		rp.hl = temp + 1;
+		goto write_data_rg_a;
+		
+	case 0xEA: // LD IND16,A (common)
+		temp = GET_ADDR();
+		pc += 2;
+	write_data_rg_a:
+		WRITE( temp, rg.a );
+		goto loop;
+	}
+	
+	case 0x06: // LD B,IMM
+		rg.b = data;
+		pc++;
+		goto loop;
+	
+	case 0x0E: // LD C,IMM
+		rg.c = data;
+		pc++;
+		goto loop;
+	
+	case 0x16: // LD D,IMM
+		rg.d = data;
+		pc++;
+		goto loop;
+	
+	case 0x1E: // LD E,IMM
+		rg.e = data;
+		pc++;
+		goto loop;
+	
+	case 0x26: // LD H,IMM
+		rg.h = data;
+		pc++;
+		goto loop;
+	
+	case 0x2E: // LD L,IMM
+		rg.l = data;
+		pc++;
+		goto loop;
+	
+	case 0x36: // LD (HL),IMM
+		WRITE( rp.hl, data );
+		pc++;
+		goto loop;
+	
+	case 0x3E: // LD A,IMM
+		rg.a = data;
+		pc++;
+		goto loop;
+
+// Increment/Decrement
+
+	case 0x03: // INC BC
+	case 0x13: // INC DE
+	case 0x23: // INC HL
+		r16 [op >> 4]++;
+		goto loop;
+	
+	case 0x33: // INC SP
+		sp = (sp + 1) & 0xFFFF;
+		goto loop;
+
+	case 0x0B: // DEC BC
+	case 0x1B: // DEC DE
+	case 0x2B: // DEC HL
+		r16 [op >> 4]--;
+		goto loop;
+	
+	case 0x3B: // DEC SP
+		sp = (sp - 1) & 0xFFFF;
+		goto loop;
+	
+	case 0x34: // INC (HL)
+		op = rp.hl;
+		data = READ( op );
+		data++;
+		WRITE( op, data & 0xFF );
+		goto inc_comm;
+	
+	case 0x04: // INC B
+	case 0x0C: // INC C (common)
+	case 0x14: // INC D
+	case 0x1C: // INC E
+	case 0x24: // INC H
+	case 0x2C: // INC L
+	case 0x3C: // INC A
+		op = (op >> 3) & 7;
+		R8( op ) = data = R8( op ) + 1;
+	inc_comm:
+		flags = (flags & c_flag) | (((data & 15) - 1) & h_flag) | ((data >> 1) & z_flag);
+		goto loop;
+	
+	case 0x35: // DEC (HL)
+		op = rp.hl;
+		data = READ( op );
+		data--;
+		WRITE( op, data & 0xFF );
+		goto dec_comm;
+	
+	case 0x05: // DEC B
+	case 0x0D: // DEC C
+	case 0x15: // DEC D
+	case 0x1D: // DEC E
+	case 0x25: // DEC H
+	case 0x2D: // DEC L
+	case 0x3D: // DEC A
+		op = (op >> 3) & 7;
+		data = R8( op ) - 1;
+		R8( op ) = data;
+	dec_comm:
+		flags = (flags & c_flag) | n_flag | (((data & 15) + 0x31) & h_flag);
+		if ( data & 0xFF )
+			goto loop;
+		flags |= z_flag;
+		goto loop;
+
+// Add 16-bit
+
+	{
+		blargg_ulong temp; // need more than 16 bits for carry
+		unsigned prev;
+		
+	case 0xF8: // LD HL,SP+imm
+		temp = BOOST::int8_t (data); // sign-extend to 16 bits
+		pc++;
+		flags = 0;
+		temp += sp;
+		prev = sp;
+		goto add_16_hl;
+	
+	case 0xE8: // ADD SP,IMM
+		temp = BOOST::int8_t (data); // sign-extend to 16 bits
+		pc++;
+		flags = 0;
+		temp += sp;
+		prev = sp;
+		sp = temp & 0xFFFF;
+		goto add_16_comm;
+
+	case 0x39: // ADD HL,SP
+		temp = sp;
+		goto add_hl_comm;
+	
+	case 0x09: // ADD HL,BC
+	case 0x19: // ADD HL,DE
+	case 0x29: // ADD HL,HL
+		temp = r16 [op >> 4];
+	add_hl_comm:
+		prev = rp.hl;
+		temp += prev;
+		flags &= z_flag;
+	add_16_hl:
+		rp.hl = temp;
+	add_16_comm:
+		flags |= (temp >> 12) & c_flag;
+		flags |= (((temp & 0x0FFF) - (prev & 0x0FFF)) >> 7) & h_flag;
+		goto loop;
+	}
+	
+	case 0x86: // ADD (HL)
+		data = READ( rp.hl );
+		goto add_comm;
+	
+	case 0x80: // ADD B
+	case 0x81: // ADD C
+	case 0x82: // ADD D
+	case 0x83: // ADD E
+	case 0x84: // ADD H
+	case 0x85: // ADD L
+	case 0x87: // ADD A
+		data = R8( op & 7 );
+		goto add_comm;
+	
+	case 0xC6: // ADD IMM
+		pc++;
+	add_comm:
+		flags = rg.a;
+		data += flags;
+		flags = ((data & 15) - (flags & 15)) & h_flag;
+		flags |= (data >> 4) & c_flag;
+		rg.a = data;
+		if ( data & 0xFF )
+			goto loop;
+		flags |= z_flag;
+		goto loop;
+
+// Add/Subtract
+
+	case 0x8E: // ADC (HL)
+		data = READ( rp.hl );
+		goto adc_comm;
+	
+	case 0x88: // ADC B
+	case 0x89: // ADC C
+	case 0x8A: // ADC D
+	case 0x8B: // ADC E
+	case 0x8C: // ADC H
+	case 0x8D: // ADC L
+	case 0x8F: // ADC A
+		data = R8( op & 7 );
+		goto adc_comm;
+	
+	case 0xCE: // ADC IMM
+		pc++;
+	adc_comm:
+		data += (flags >> 4) & 1;
+		data &= 0xFF; // to do: does carry get set when sum + carry = 0x100?
+		goto add_comm;
+
+	case 0x96: // SUB (HL)
+		data = READ( rp.hl );
+		goto sub_comm;
+	
+	case 0x90: // SUB B
+	case 0x91: // SUB C
+	case 0x92: // SUB D
+	case 0x93: // SUB E
+	case 0x94: // SUB H
+	case 0x95: // SUB L
+	case 0x97: // SUB A
+		data = R8( op & 7 );
+		goto sub_comm;
+	
+	case 0xD6: // SUB IMM
+		pc++;
+	sub_comm:
+		op = rg.a;
+		data = op - data;
+		rg.a = data;
+		goto sub_set_flags;
+
+	case 0x9E: // SBC (HL)
+		data = READ( rp.hl );
+		goto sbc_comm;
+	
+	case 0x98: // SBC B
+	case 0x99: // SBC C
+	case 0x9A: // SBC D
+	case 0x9B: // SBC E
+	case 0x9C: // SBC H
+	case 0x9D: // SBC L
+	case 0x9F: // SBC A
+		data = R8( op & 7 );
+		goto sbc_comm;
+	
+	case 0xDE: // SBC IMM
+		pc++;
+	sbc_comm:
+		data += (flags >> 4) & 1;
+		data &= 0xFF; // to do: does carry get set when sum + carry = 0x100?
+		goto sub_comm;
+
+// Logical
+
+	case 0xA0: // AND B
+	case 0xA1: // AND C
+	case 0xA2: // AND D
+	case 0xA3: // AND E
+	case 0xA4: // AND H
+	case 0xA5: // AND L
+		data = R8( op & 7 );
+		goto and_comm;
+	
+	case 0xA6: // AND (HL)
+		data = READ( rp.hl );
+		pc--;
+	case 0xE6: // AND IMM
+		pc++;
+	and_comm:
+		rg.a &= data;
+	case 0xA7: // AND A
+		flags = h_flag | (((rg.a - 1) >> 1) & z_flag);
+		goto loop;
+
+	case 0xB0: // OR B
+	case 0xB1: // OR C
+	case 0xB2: // OR D
+	case 0xB3: // OR E
+	case 0xB4: // OR H
+	case 0xB5: // OR L
+		data = R8( op & 7 );
+		goto or_comm;
+	
+	case 0xB6: // OR (HL)
+		data = READ( rp.hl );
+		pc--;
+	case 0xF6: // OR IMM
+		pc++;
+	or_comm:
+		rg.a |= data;
+	case 0xB7: // OR A
+		flags = ((rg.a - 1) >> 1) & z_flag;
+		goto loop;
+
+	case 0xA8: // XOR B
+	case 0xA9: // XOR C
+	case 0xAA: // XOR D
+	case 0xAB: // XOR E
+	case 0xAC: // XOR H
+	case 0xAD: // XOR L
+		data = R8( op & 7 );
+		goto xor_comm;
+	
+	case 0xAE: // XOR (HL)
+		data = READ( rp.hl );
+		pc--;
+	case 0xEE: // XOR IMM
+		pc++;
+	xor_comm:
+		data ^= rg.a;
+		rg.a = data;
+		data--;
+		flags = (data >> 1) & z_flag;
+		goto loop;
+	
+	case 0xAF: // XOR A
+		rg.a = 0;
+		flags = z_flag;
+		goto loop;
+
+// Stack
+
+	case 0xF1: // POP FA
+	case 0xC1: // POP BC
+	case 0xD1: // POP DE
+	case 0xE1: // POP HL (common)
+		data = READ( sp );
+		r16 [(op >> 4) & 3] = data + 0x100 * READ( sp + 1 );
+		sp = (sp + 2) & 0xFFFF;
+		if ( op != 0xF1 )
+			goto loop;
+		flags = rg.flags & 0xF0;
+		goto loop;
+	
+	case 0xC5: // PUSH BC
+		data = rp.bc;
+		goto push;
+	
+	case 0xD5: // PUSH DE
+		data = rp.de;
+		goto push;
+	
+	case 0xE5: // PUSH HL
+		data = rp.hl;
+		goto push;
+	
+	case 0xF5: // PUSH FA
+		data = (flags << 8) | rg.a;
+		goto push;
+
+// Flow control
+	
+	case 0xFF:
+		if ( pc == idle_addr + 1 )
+			goto stop;
+	case 0xC7: case 0xCF: case 0xD7: case 0xDF:  // RST
+	case 0xE7: case 0xEF: case 0xF7:
+		data = pc;
+		pc = (op & 0x38) + rst_base;
+		goto push;
+	
+	case 0xCC: // CZ
+		pc += 2;
+		if ( flags & z_flag )
+			goto call;
+		goto loop;
+	
+	case 0xD4: // CNC
+		pc += 2;
+		if ( !(flags & c_flag) )
+			goto call;
+		goto loop;
+	
+	case 0xDC: // CC
+		pc += 2;
+		if ( flags & c_flag )
+			goto call;
+		goto loop;
+
+	case 0xD9: // RETI
+		//interrupts_enabled = 1;
+		goto ret;
+	
+	case 0xC0: // RZ
+		if ( !(flags & z_flag) )
+			goto ret;
+		goto loop;
+	
+	case 0xD0: // RNC
+		if ( !(flags & c_flag) )
+			goto ret;
+		goto loop;
+	
+	case 0xD8: // RC
+		if ( flags & c_flag )
+			goto ret;
+		goto loop;
+
+	case 0x18: // JR
+		BRANCH( true )
+	
+	case 0x30: // JR NC
+		BRANCH( !(flags & c_flag) )
+	
+	case 0x38: // JR C
+		BRANCH( flags & c_flag )
+	
+	case 0xE9: // JP_HL
+		pc = rp.hl;
+		goto loop;
+
+	case 0xC3: // JP (next-most-common)
+		pc = GET_ADDR();
+		goto loop;
+	
+	case 0xC2: // JP NZ
+		pc += 2;
+		if ( !(flags & z_flag) )
+			goto jp_taken;
+		goto loop;
+	
+	case 0xCA: // JP Z (most common)
+		pc += 2;
+		if ( !(flags & z_flag) )
+			goto loop;
+	jp_taken:
+		pc -= 2;
+		pc = GET_ADDR();
+		goto loop;
+	
+	case 0xD2: // JP NC
+		pc += 2;
+		if ( !(flags & c_flag) )
+			goto jp_taken;
+		goto loop;
+	
+	case 0xDA: // JP C
+		pc += 2;
+		if ( flags & c_flag )
+			goto jp_taken;
+		goto loop;
+
+// Flags
+
+	case 0x2F: // CPL
+		rg.a = ~rg.a;
+		flags |= n_flag | h_flag;
+		goto loop;
+
+	case 0x3F: // CCF
+		flags = (flags ^ c_flag) & ~(n_flag | h_flag);
+		goto loop;
+
+	case 0x37: // SCF
+		flags = (flags | c_flag) & ~(n_flag | h_flag);
+		goto loop;
+
+	case 0xF3: // DI
+		//interrupts_enabled = 0;
+		goto loop;
+
+	case 0xFB: // EI
+		//interrupts_enabled = 1;
+		goto loop;
+
+// Special
+
+	case 0xDD: case 0xD3: case 0xDB: case 0xE3: case 0xE4: // ?
+	case 0xEB: case 0xEC: case 0xF4: case 0xFD: case 0xFC:
+	case 0x10: // STOP
+	case 0x27: // DAA (I'll have to implement this eventually...)
+	case 0xBF:
+	case 0xED: // Z80 prefix
+	case 0x76: // HALT
+		s.remain++;
+		goto stop;
+	}
+	
+	// If this fails then the case above is missing an opcode
+	assert( false );
+	
+stop:
+	pc--;
+	
+	// copy state back
+	STATIC_CAST(core_regs_t&,r) = rg;
+	r.pc = pc;
+	r.sp = sp;
+	r.flags = flags;
+	
+	this->state = &state_;
+	memcpy( &this->state_, &s, sizeof this->state_ );
+	
+	return s.remain > 0;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Gb_Cpu.h b/plugins/gme/game-music-emu-0.5.5/gme/Gb_Cpu.h
new file mode 100644
index 00000000..9d623e04
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Gb_Cpu.h
@@ -0,0 +1,93 @@
+// Nintendo Game Boy CPU emulator
+// Treats every instruction as taking 4 cycles
+
+// Game_Music_Emu 0.5.5
+#ifndef GB_CPU_H
+#define GB_CPU_H
+
+#include "blargg_common.h"
+#include "blargg_endian.h"
+
+typedef unsigned gb_addr_t; // 16-bit CPU address
+
+class Gb_Cpu {
+	enum { clocks_per_instr = 4 };
+public:
+	typedef BOOST::uint8_t uint8_t;
+	
+	// Clear registers and map all pages to unmapped
+	void reset( void* unmapped = 0 );
+	
+	// Map code memory (memory accessed via the program counter). Start and size
+	// must be multiple of page_size.
+	enum { page_size = 0x2000 };
+	void map_code( gb_addr_t start, unsigned size, void* code );
+	
+	uint8_t* get_code( gb_addr_t );
+	
+	// Push a byte on the stack
+	void push_byte( int );
+	
+	// Game Boy Z80 registers. *Not* kept updated during a call to run().
+	struct core_regs_t {
+	#if BLARGG_BIG_ENDIAN
+		uint8_t b, c, d, e, h, l, flags, a;
+	#else
+		uint8_t c, b, e, d, l, h, a, flags;
+	#endif
+	};
+	
+	struct registers_t : core_regs_t {
+		long pc; // more than 16 bits to allow overflow detection
+		BOOST::uint16_t sp;
+	};
+	registers_t r;
+	
+	// Interrupt enable flag set by EI and cleared by DI
+	//bool interrupts_enabled; // unused
+	
+	// Base address for RST vectors (normally 0)
+	gb_addr_t rst_base;
+	
+	// If CPU executes opcode 0xFF at this address, it treats as illegal instruction
+	enum { idle_addr = 0xF00D };
+	
+	// Run CPU for at least 'count' cycles and return false, or return true if
+	// illegal instruction is encountered.
+	bool run( blargg_long count );
+	
+	// Number of clock cycles remaining for most recent run() call
+	blargg_long remain() const { return state->remain * clocks_per_instr; }
+	
+	// Can read this many bytes past end of a page
+	enum { cpu_padding = 8 };
+	
+public:
+	Gb_Cpu() : rst_base( 0 ) { state = &state_; }
+	enum { page_shift = 13 };
+	enum { page_count = 0x10000 >> page_shift };
+private:
+	// noncopyable
+	Gb_Cpu( const Gb_Cpu& );
+	Gb_Cpu& operator = ( const Gb_Cpu& );
+	
+	struct state_t {
+		uint8_t* code_map [page_count + 1];
+		blargg_long remain;
+	};
+	state_t* state; // points to state_ or a local copy within run()
+	state_t state_;
+	
+	void set_code_page( int, uint8_t* );
+};
+
+inline BOOST::uint8_t* Gb_Cpu::get_code( gb_addr_t addr )
+{
+	return state->code_map [addr >> page_shift] + addr
+	#if !BLARGG_NONPORTABLE
+		% (unsigned) page_size
+	#endif
+	;
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Gb_Oscs.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Gb_Oscs.cpp
new file mode 100644
index 00000000..735653fa
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Gb_Oscs.cpp
@@ -0,0 +1,336 @@
+// Gb_Snd_Emu 0.1.5. http://www.slack.net/~ant/
+
+#include "Gb_Apu.h"
+
+#include <string.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+// Gb_Osc
+
+void Gb_Osc::reset()
+{
+	delay = 0;
+	last_amp = 0;
+	length = 0;
+	output_select = 3;
+	output = outputs [output_select];
+}
+
+void Gb_Osc::clock_length()
+{
+	if ( (regs [4] & len_enabled_mask) && length )
+		length--;
+}
+
+// Gb_Env
+
+void Gb_Env::clock_envelope()
+{
+	if ( env_delay && !--env_delay )
+	{
+		env_delay = regs [2] & 7;
+		int v = volume - 1 + (regs [2] >> 2 & 2);
+		if ( (unsigned) v < 15 )
+			volume = v;
+	}
+}
+
+bool Gb_Env::write_register( int reg, int data )
+{
+	switch ( reg )
+	{
+	case 1:
+		length = 64 - (regs [1] & 0x3F);
+		break;
+	
+	case 2:
+		if ( !(data >> 4) )
+			enabled = false;
+		break;
+	
+	case 4:
+		if ( data & trigger )
+		{
+			env_delay = regs [2] & 7;
+			volume = regs [2] >> 4;
+			enabled = true;
+			if ( length == 0 )
+				length = 64;
+			return true;
+		}
+	}
+	return false;
+}
+
+// Gb_Square
+
+void Gb_Square::reset()
+{
+	phase = 0;
+	sweep_freq = 0;
+	sweep_delay = 0;
+	Gb_Env::reset();
+}
+
+void Gb_Square::clock_sweep()
+{
+	int sweep_period = (regs [0] & period_mask) >> 4;
+	if ( sweep_period && sweep_delay && !--sweep_delay )
+	{
+		sweep_delay = sweep_period;
+		regs [3] = sweep_freq & 0xFF;
+		regs [4] = (regs [4] & ~0x07) | (sweep_freq >> 8 & 0x07);
+		
+		int offset = sweep_freq >> (regs [0] & shift_mask);
+		if ( regs [0] & 0x08 )
+			offset = -offset;
+		sweep_freq += offset;
+		
+		if ( sweep_freq < 0 )
+		{
+			sweep_freq = 0;
+		}
+		else if ( sweep_freq >= 2048 )
+		{
+			sweep_delay = 0; // don't modify channel frequency any further
+			sweep_freq = 2048; // silence sound immediately
+		}
+	}
+}
+
+void Gb_Square::run( blip_time_t time, blip_time_t end_time, int playing )
+{
+	if ( sweep_freq == 2048 )
+		playing = false;
+	
+	static unsigned char const table [4] = { 1, 2, 4, 6 };
+	int const duty = table [regs [1] >> 6];
+	int amp = volume & playing;
+	if ( phase >= duty )
+		amp = -amp;
+	
+	int frequency = this->frequency();
+	if ( unsigned (frequency - 1) > 2040 ) // frequency < 1 || frequency > 2041
+	{
+		// really high frequency results in DC at half volume
+		amp = volume >> 1;
+		playing = false;
+	}
+	
+	{
+		int delta = amp - last_amp;
+		if ( delta )
+		{
+			last_amp = amp;
+			synth->offset( time, delta, output );
+		}
+	}
+	
+	time += delay;
+	if ( !playing )
+		time = end_time;
+	
+	if ( time < end_time )
+	{
+		int const period = (2048 - frequency) * 4;
+		Blip_Buffer* const output = this->output;
+		int phase = this->phase;
+		int delta = amp * 2;
+		do
+		{
+			phase = (phase + 1) & 7;
+			if ( phase == 0 || phase == duty )
+			{
+				delta = -delta;
+				synth->offset_inline( time, delta, output );
+			}
+			time += period;
+		}
+		while ( time < end_time );
+		
+		this->phase = phase;
+		last_amp = delta >> 1;
+	}
+	delay = time - end_time;
+}
+
+// Gb_Noise
+
+void Gb_Noise::run( blip_time_t time, blip_time_t end_time, int playing )
+{
+	int amp = volume & playing;
+	int tap = 13 - (regs [3] & 8);
+	if ( bits >> tap & 2 )
+		amp = -amp;
+	
+	{
+		int delta = amp - last_amp;
+		if ( delta )
+		{
+			last_amp = amp;
+			synth->offset( time, delta, output );
+		}
+	}
+	
+	time += delay;
+	if ( !playing )
+		time = end_time;
+	
+	if ( time < end_time )
+	{
+		static unsigned char const table [8] = { 8, 16, 32, 48, 64, 80, 96, 112 };
+		int period = table [regs [3] & 7] << (regs [3] >> 4);
+		
+		// keep parallel resampled time to eliminate time conversion in the loop
+		Blip_Buffer* const output = this->output;
+		const blip_resampled_time_t resampled_period =
+				output->resampled_duration( period );
+		blip_resampled_time_t resampled_time = output->resampled_time( time );
+		unsigned bits = this->bits;
+		int delta = amp * 2;
+		
+		do
+		{
+			unsigned changed = (bits >> tap) + 1;
+			time += period;
+			bits <<= 1;
+			if ( changed & 2 )
+			{
+				delta = -delta;
+				bits |= 1;
+				synth->offset_resampled( resampled_time, delta, output );
+			}
+			resampled_time += resampled_period;
+		}
+		while ( time < end_time );
+		
+		this->bits = bits;
+		last_amp = delta >> 1;
+	}
+	delay = time - end_time;
+}
+
+// Gb_Wave
+
+inline void Gb_Wave::write_register( int reg, int data )
+{
+	switch ( reg )
+	{
+	case 0:
+		if ( !(data & 0x80) )
+			enabled = false;
+		break;
+	
+	case 1:
+		length = 256 - regs [1];
+		break;
+	
+	case 2:
+		volume = data >> 5 & 3;
+		break;
+	
+	case 4:
+		if ( data & trigger & regs [0] )
+		{
+			wave_pos = 0;
+			enabled = true;
+			if ( length == 0 )
+				length = 256;
+		}
+	}
+}
+
+void Gb_Wave::run( blip_time_t time, blip_time_t end_time, int playing )
+{
+	int volume_shift = (volume - 1) & 7; // volume = 0 causes shift = 7
+	int frequency;
+	{
+		int amp = (wave [wave_pos] >> volume_shift & playing) * 2;
+		
+		frequency = this->frequency();
+		if ( unsigned (frequency - 1) > 2044 ) // frequency < 1 || frequency > 2045
+		{
+			amp = 30 >> volume_shift & playing;
+			playing = false;
+		}
+		
+		int delta = amp - last_amp;
+		if ( delta )
+		{
+			last_amp = amp;
+			synth->offset( time, delta, output );
+		}
+	}
+	
+	time += delay;
+	if ( !playing )
+		time = end_time;
+	
+	if ( time < end_time )
+	{
+		Blip_Buffer* const output = this->output;
+		int const period = (2048 - frequency) * 2;
+	 	int wave_pos = (this->wave_pos + 1) & (wave_size - 1);
+	 	
+		do
+		{
+			int amp = (wave [wave_pos] >> volume_shift) * 2;
+			wave_pos = (wave_pos + 1) & (wave_size - 1);
+			int delta = amp - last_amp;
+			if ( delta )
+			{
+				last_amp = amp;
+				synth->offset_inline( time, delta, output );
+			}
+			time += period;
+		}
+		while ( time < end_time );
+		
+		this->wave_pos = (wave_pos - 1) & (wave_size - 1);
+	}
+	delay = time - end_time;
+}
+
+// Gb_Apu::write_osc
+
+void Gb_Apu::write_osc( int index, int reg, int data )
+{
+	reg -= index * 5;
+	Gb_Square* sq = &square2;
+	switch ( index )
+	{
+	case 0:
+		sq = &square1;
+	case 1:
+		if ( sq->write_register( reg, data ) && index == 0 )
+		{
+			square1.sweep_freq = square1.frequency();
+			if ( (regs [0] & sq->period_mask) && (regs [0] & sq->shift_mask) )
+			{
+				square1.sweep_delay = 1; // cause sweep to recalculate now
+				square1.clock_sweep();
+			}
+		}
+		break;
+	
+	case 2:
+		wave.write_register( reg, data );
+		break;
+	
+	case 3:
+		if ( noise.write_register( reg, data ) )
+			noise.bits = 0x7FFF;
+	}
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Gb_Oscs.h b/plugins/gme/game-music-emu-0.5.5/gme/Gb_Oscs.h
new file mode 100644
index 00000000..d7f88ea1
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Gb_Oscs.h
@@ -0,0 +1,83 @@
+// Private oscillators used by Gb_Apu
+
+// Gb_Snd_Emu 0.1.5
+#ifndef GB_OSCS_H
+#define GB_OSCS_H
+
+#include "blargg_common.h"
+#include "Blip_Buffer.h"
+
+struct Gb_Osc
+{
+	enum { trigger = 0x80 };
+	enum { len_enabled_mask = 0x40 };
+	
+	Blip_Buffer* outputs [4]; // NULL, right, left, center
+	Blip_Buffer* output;
+	int output_select;
+	BOOST::uint8_t* regs; // osc's 5 registers
+	
+	int delay;
+	int last_amp;
+	int volume;
+	int length;
+	int enabled;
+	
+	void reset();
+	void clock_length();
+	int frequency() const { return (regs [4] & 7) * 0x100 + regs [3]; }
+};
+
+struct Gb_Env : Gb_Osc
+{
+	int env_delay;
+	
+	void reset();
+	void clock_envelope();
+	bool write_register( int, int );
+};
+
+struct Gb_Square : Gb_Env
+{
+	enum { period_mask = 0x70 };
+	enum { shift_mask  = 0x07 };
+	
+	typedef Blip_Synth<blip_good_quality,1> Synth;
+	Synth const* synth;
+	int sweep_delay;
+	int sweep_freq;
+	int phase;
+	
+	void reset();
+	void clock_sweep();
+	void run( blip_time_t, blip_time_t, int playing );
+};
+
+struct Gb_Noise : Gb_Env
+{
+	typedef Blip_Synth<blip_med_quality,1> Synth;
+	Synth const* synth;
+	unsigned bits;
+	
+	void run( blip_time_t, blip_time_t, int playing );
+};
+
+struct Gb_Wave : Gb_Osc
+{
+	typedef Blip_Synth<blip_med_quality,1> Synth;
+	Synth const* synth;
+	int wave_pos;
+	enum { wave_size = 32 };
+	BOOST::uint8_t wave [wave_size];
+	
+	void write_register( int, int );
+	void run( blip_time_t, blip_time_t, int playing );
+};
+
+inline void Gb_Env::reset()
+{
+	env_delay = 0;
+	Gb_Osc::reset();
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Gbs_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Gbs_Emu.cpp
new file mode 100644
index 00000000..ceb526e5
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Gbs_Emu.cpp
@@ -0,0 +1,289 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Gbs_Emu.h"
+
+#include "blargg_endian.h"
+#include <string.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+Gbs_Emu::equalizer_t const Gbs_Emu::handheld_eq   = { -47.0, 2000 };
+Gbs_Emu::equalizer_t const Gbs_Emu::headphones_eq = {   0.0,  300 };
+
+Gbs_Emu::Gbs_Emu()
+{
+	set_type( gme_gbs_type );
+	
+	static const char* const names [Gb_Apu::osc_count] = {
+		"Square 1", "Square 2", "Wave", "Noise"
+	};
+	set_voice_names( names );
+	
+	static int const types [Gb_Apu::osc_count] = {
+		wave_type | 1, wave_type | 2, wave_type | 0, mixed_type | 0
+	};
+	set_voice_types( types );
+	
+	set_silence_lookahead( 6 );
+	set_max_initial_silence( 21 );
+	set_gain( 1.2 );
+	
+	static equalizer_t const eq = { -1.0, 120 };
+	set_equalizer( eq );
+}
+
+Gbs_Emu::~Gbs_Emu() { }
+
+void Gbs_Emu::unload()
+{
+	rom.clear();
+	Music_Emu::unload();
+}
+
+// Track info
+
+static void copy_gbs_fields( Gbs_Emu::header_t const& h, track_info_t* out )
+{
+	GME_COPY_FIELD( h, out, game );
+	GME_COPY_FIELD( h, out, author );
+	GME_COPY_FIELD( h, out, copyright );
+}
+
+blargg_err_t Gbs_Emu::track_info_( track_info_t* out, int ) const
+{
+	copy_gbs_fields( header_, out );
+	return 0;
+}
+
+static blargg_err_t check_gbs_header( void const* header )
+{
+	if ( memcmp( header, "GBS", 3 ) )
+		return gme_wrong_file_type;
+	return 0;
+}
+
+struct Gbs_File : Gme_Info_
+{
+	Gbs_Emu::header_t h;
+	
+	Gbs_File() { set_type( gme_gbs_type ); }
+	
+	blargg_err_t load_( Data_Reader& in )
+	{
+		blargg_err_t err = in.read( &h, Gbs_Emu::header_size );
+		if ( err )
+			return (err == in.eof_error ? gme_wrong_file_type : err);
+		
+		set_track_count( h.track_count );
+		return check_gbs_header( &h );
+	}
+	
+	blargg_err_t track_info_( track_info_t* out, int ) const
+	{
+		copy_gbs_fields( h, out );
+		return 0;
+	}
+};
+
+static Music_Emu* new_gbs_emu () { return BLARGG_NEW Gbs_Emu ; }
+static Music_Emu* new_gbs_file() { return BLARGG_NEW Gbs_File; }
+
+static gme_type_t_ const gme_gbs_type_ = { "Game Boy", 0, &new_gbs_emu, &new_gbs_file, "GBS", 1 };
+gme_type_t const gme_gbs_type = &gme_gbs_type_;
+
+// Setup
+
+blargg_err_t Gbs_Emu::load_( Data_Reader& in )
+{
+	assert( offsetof (header_t,copyright [32]) == header_size );
+	RETURN_ERR( rom.load( in, header_size, &header_, 0 ) );
+	
+	set_track_count( header_.track_count );
+	RETURN_ERR( check_gbs_header( &header_ ) );
+	
+	if ( header_.vers != 1 )
+		set_warning( "Unknown file version" );
+	
+	if ( header_.timer_mode & 0x78 )
+		set_warning( "Invalid timer mode" );
+	
+	unsigned load_addr = get_le16( header_.load_addr );
+	if ( (header_.load_addr [1] | header_.init_addr [1] | header_.play_addr [1]) > 0x7F ||
+			load_addr < 0x400 )
+		set_warning( "Invalid load/init/play address" );
+	
+	set_voice_count( Gb_Apu::osc_count );
+	
+	apu.volume( gain() );
+	
+	return setup_buffer( 4194304 );
+}
+
+void Gbs_Emu::update_eq( blip_eq_t const& eq )
+{
+	apu.treble_eq( eq );
+}
+
+void Gbs_Emu::set_voice( int i, Blip_Buffer* c, Blip_Buffer* l, Blip_Buffer* r )
+{
+	apu.osc_output( i, c, l, r );
+}
+
+// Emulation
+
+// see gb_cpu_io.h for read/write functions
+
+void Gbs_Emu::set_bank( int n )
+{
+	blargg_long addr = rom.mask_addr( n * (blargg_long) bank_size );
+	if ( addr == 0 && rom.size() > bank_size )
+	{
+		// TODO: what is the correct behavior? Current Game & Watch Gallery
+		// rip requires that this have no effect or set to bank 1.
+		//debug_printf( "Selected ROM bank 0\n" );
+		return;
+		//n = 1;
+	}
+	cpu::map_code( bank_size, bank_size, rom.at_addr( addr ) );
+}
+
+void Gbs_Emu::update_timer()
+{
+	if ( header_.timer_mode & 0x04 )
+	{
+		static byte const rates [4] = { 10, 4, 6, 8 };
+		int shift = rates [ram [hi_page + 7] & 3] - (header_.timer_mode >> 7);
+		play_period = (256L - ram [hi_page + 6]) << shift;
+	}
+	else
+	{
+		play_period = 70224; // 59.73 Hz
+	}
+	if ( tempo() != 1.0 )
+		play_period = blip_time_t (play_period / tempo());
+}
+
+static BOOST::uint8_t const sound_data [Gb_Apu::register_count] = {
+	0x80, 0xBF, 0x00, 0x00, 0xBF, // square 1
+	0x00, 0x3F, 0x00, 0x00, 0xBF, // square 2
+	0x7F, 0xFF, 0x9F, 0x00, 0xBF, // wave
+	0x00, 0xFF, 0x00, 0x00, 0xBF, // noise
+	0x77, 0xF3, 0xF1, // vin/volume, status, power mode
+	0, 0, 0, 0, 0, 0, 0, 0, 0, // unused
+	0xAC, 0xDD, 0xDA, 0x48, 0x36, 0x02, 0xCF, 0x16, // waveform data
+	0x2C, 0x04, 0xE5, 0x2C, 0xAC, 0xDD, 0xDA, 0x48
+};
+
+void Gbs_Emu::cpu_jsr( gb_addr_t addr )
+{
+	check( cpu::r.sp == get_le16( header_.stack_ptr ) );
+	cpu::r.pc = addr;
+	cpu_write( --cpu::r.sp, idle_addr >> 8 );
+	cpu_write( --cpu::r.sp, idle_addr&0xFF );
+}
+
+void Gbs_Emu::set_tempo_( double t )
+{
+	apu.set_tempo( t );
+	update_timer();
+}
+
+blargg_err_t Gbs_Emu::start_track_( int track )
+{
+	RETURN_ERR( Classic_Emu::start_track_( track ) );
+	
+	memset( ram, 0, 0x4000 );
+	memset( ram + 0x4000, 0xFF, 0x1F80 );
+	memset( ram + 0x5F80, 0, sizeof ram - 0x5F80 );
+	ram [hi_page] = 0; // joypad reads back as 0
+	
+	apu.reset();
+	for ( int i = 0; i < (int) sizeof sound_data; i++ )
+		apu.write_register( 0, i + apu.start_addr, sound_data [i] );
+	
+	cpu::reset( rom.unmapped() );
+	
+	unsigned load_addr = get_le16( header_.load_addr );
+	cpu::rst_base = load_addr;
+	rom.set_addr( load_addr );
+	
+	cpu::map_code( ram_addr, 0x10000 - ram_addr, ram );
+	cpu::map_code( 0, bank_size, rom.at_addr( 0 ) );
+	set_bank( rom.size() > bank_size );
+	
+	ram [hi_page + 6] = header_.timer_modulo;
+	ram [hi_page + 7] = header_.timer_mode;
+	update_timer();
+	next_play = play_period;
+	
+	cpu::r.a  = track;
+	cpu::r.pc = idle_addr;
+	cpu::r.sp = get_le16( header_.stack_ptr );
+	cpu_time  = 0;
+	cpu_jsr( get_le16( header_.init_addr ) );
+	
+	return 0;
+}
+
+blargg_err_t Gbs_Emu::run_clocks( blip_time_t& duration, int )
+{
+	cpu_time = 0;
+	while ( cpu_time < duration )
+	{
+		long count = duration - cpu_time;
+		cpu_time = duration;
+		bool result = cpu::run( count );
+		cpu_time -= cpu::remain();
+		
+		if ( result )
+		{
+			if ( cpu::r.pc == idle_addr )
+			{
+				if ( next_play > duration )
+				{
+					cpu_time = duration;
+					break;
+				}
+				
+				if ( cpu_time < next_play )
+					cpu_time = next_play;
+				next_play += play_period;
+				cpu_jsr( get_le16( header_.play_addr ) );
+				GME_FRAME_HOOK( this );
+				// TODO: handle timer rates different than 60 Hz
+			}
+			else if ( cpu::r.pc > 0xFFFF )
+			{
+				debug_printf( "PC wrapped around\n" );
+				cpu::r.pc &= 0xFFFF;
+			}
+			else
+			{
+				set_warning( "Emulation error (illegal/unsupported instruction)" );
+				debug_printf( "Bad opcode $%.2x at $%.4x\n",
+						(int) *cpu::get_code( cpu::r.pc ), (int) cpu::r.pc );
+				cpu::r.pc = (cpu::r.pc + 1) & 0xFFFF;
+				cpu_time += 6;
+			}
+		}
+	}
+	
+	duration = cpu_time;
+	next_play -= cpu_time;
+	if ( next_play < 0 ) // could go negative if routine is taking too long to return
+		next_play = 0;
+	apu.end_frame( cpu_time );
+	
+	return 0;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Gbs_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Gbs_Emu.h
new file mode 100644
index 00000000..f3318dc8
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Gbs_Emu.h
@@ -0,0 +1,88 @@
+// Nintendo Game Boy GBS music file emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef GBS_EMU_H
+#define GBS_EMU_H
+
+#include "Classic_Emu.h"
+#include "Gb_Apu.h"
+#include "Gb_Cpu.h"
+
+class Gbs_Emu : private Gb_Cpu, public Classic_Emu {
+	typedef Gb_Cpu cpu;
+public:
+	// Equalizer profiles for Game Boy Color speaker and headphones
+	static equalizer_t const handheld_eq;
+	static equalizer_t const headphones_eq;
+	
+	// GBS file header
+	enum { header_size = 112 };
+	struct header_t
+	{
+		char tag [3];
+		byte vers;
+		byte track_count;
+		byte first_track;
+		byte load_addr [2];
+		byte init_addr [2];
+		byte play_addr [2];
+		byte stack_ptr [2];
+		byte timer_modulo;
+		byte timer_mode;
+		char game [32];
+		char author [32];
+		char copyright [32];
+	};
+	
+	// Header for currently loaded file
+	header_t const& header() const { return header_; }
+	
+	static gme_type_t static_type() { return gme_gbs_type; }
+	
+public:
+	// deprecated
+	Music_Emu::load;
+	blargg_err_t load( header_t const& h, Data_Reader& in ) // use Remaining_Reader
+			{ return load_remaining_( &h, sizeof h, in ); }
+
+public:
+	Gbs_Emu();
+	~Gbs_Emu();
+protected:
+	blargg_err_t track_info_( track_info_t*, int track ) const;
+	blargg_err_t load_( Data_Reader& );
+	blargg_err_t start_track_( int );
+	blargg_err_t run_clocks( blip_time_t&, int );
+	void set_tempo_( double );
+	void set_voice( int, Blip_Buffer*, Blip_Buffer*, Blip_Buffer* );
+	void update_eq( blip_eq_t const& );
+	void unload();
+private:
+	// rom
+	enum { bank_size = 0x4000 };
+	Rom_Data<bank_size> rom;
+	void set_bank( int );
+	
+	// timer
+	blip_time_t cpu_time;
+	blip_time_t play_period;
+	blip_time_t next_play;
+	void update_timer();
+	
+	header_t header_;
+	void cpu_jsr( gb_addr_t );
+	
+public: private: friend class Gb_Cpu;
+	blip_time_t clock() const { return cpu_time - cpu::remain(); }
+	
+	enum { joypad_addr = 0xFF00 };
+	enum { ram_addr = 0xA000 };
+	enum { hi_page = 0xFF00 - ram_addr };
+	byte ram [0x4000 + 0x2000 + Gb_Cpu::cpu_padding];
+	Gb_Apu apu;
+	
+	int cpu_read( gb_addr_t );
+	void cpu_write( gb_addr_t, int );
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Gme_File.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Gme_File.cpp
new file mode 100644
index 00000000..17edc9f8
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Gme_File.cpp
@@ -0,0 +1,216 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Gme_File.h"
+
+#include "blargg_endian.h"
+#include <string.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+const char* const gme_wrong_file_type = "Wrong file type for this emulator";
+
+void Gme_File::clear_playlist()
+{
+	playlist.clear();
+	clear_playlist_();
+	track_count_ = raw_track_count_;
+}
+
+void Gme_File::unload()
+{
+	clear_playlist(); // *before* clearing track count
+	track_count_     = 0;
+	raw_track_count_ = 0;
+	file_data.clear();
+}
+
+Gme_File::Gme_File()
+{
+	type_         = 0;
+	user_data_    = 0;
+	user_cleanup_ = 0;
+	unload(); // clears fields
+	blargg_verify_byte_order(); // used by most emulator types, so save them the trouble
+}
+
+Gme_File::~Gme_File()
+{
+	if ( user_cleanup_ )
+		user_cleanup_( user_data_ );
+}
+
+blargg_err_t Gme_File::load_mem_( byte const* data, long size )
+{
+	require( data != file_data.begin() ); // load_mem_() or load_() must be overridden
+	Mem_File_Reader in( data, size );
+	return load_( in );
+}
+
+blargg_err_t Gme_File::load_( Data_Reader& in )
+{
+	RETURN_ERR( file_data.resize( in.remain() ) );
+	RETURN_ERR( in.read( file_data.begin(), file_data.size() ) );
+	return load_mem_( file_data.begin(), file_data.size() );
+}
+
+// public load functions call this at beginning
+void Gme_File::pre_load() { unload(); }
+
+void Gme_File::post_load_() { }
+
+// public load functions call this at end
+blargg_err_t Gme_File::post_load( blargg_err_t err )
+{
+	if ( !track_count() )
+		set_track_count( type()->track_count );
+	if ( !err )
+		post_load_();
+	else
+		unload();
+	
+	return err;
+}
+
+// Public load functions
+
+blargg_err_t Gme_File::load_mem( void const* in, long size )
+{
+	pre_load();
+	return post_load( load_mem_( (byte const*) in, size ) );
+}
+
+blargg_err_t Gme_File::load( Data_Reader& in )
+{
+	pre_load();
+	return post_load( load_( in ) );
+}
+
+blargg_err_t Gme_File::load_file( const char* path )
+{
+	pre_load();
+	GME_FILE_READER in;
+	RETURN_ERR( in.open( path ) );
+	return post_load( load_( in ) );
+}
+
+blargg_err_t Gme_File::load_remaining_( void const* h, long s, Data_Reader& in )
+{
+	Remaining_Reader rem( h, s, &in );
+	return load( rem );
+}
+
+// Track info
+
+void Gme_File::copy_field_( char* out, const char* in, int in_size )
+{
+	if ( !in || !*in )
+		return;
+	
+	// remove spaces/junk from beginning
+	while ( in_size && unsigned (*in - 1) <= ' ' - 1 )
+	{
+		in++;
+		in_size--;
+	}
+	
+	// truncate
+	if ( in_size > max_field_ )
+		in_size = max_field_;
+	
+	// find terminator
+	int len = 0;
+	while ( len < in_size && in [len] )
+		len++;
+	
+	// remove spaces/junk from end
+	while ( len && unsigned (in [len - 1]) <= ' ' )
+		len--;
+	
+	// copy
+	out [len] = 0;
+	memcpy( out, in, len );
+	
+	// strip out stupid fields that should have been left blank
+	if ( !strcmp( out, "?" ) || !strcmp( out, "<?>" ) || !strcmp( out, "< ? >" ) )
+		out [0] = 0;
+}
+
+void Gme_File::copy_field_( char* out, const char* in )
+{
+	copy_field_( out, in, max_field_ );
+}
+
+blargg_err_t Gme_File::remap_track_( int* track_io ) const
+{
+	if ( (unsigned) *track_io >= (unsigned) track_count() )
+		return "Invalid track";
+	
+	if ( (unsigned) *track_io < (unsigned) playlist.size() )
+	{
+		M3u_Playlist::entry_t const& e = playlist [*track_io];
+		*track_io = 0;
+		if ( e.track >= 0 )
+		{
+			*track_io = e.track;
+			if ( !(type_->flags_ & 0x02) )
+				*track_io -= e.decimal_track;
+		}
+		if ( *track_io >= raw_track_count_ )
+			return "Invalid track in m3u playlist";
+	}
+	else
+	{
+		check( !playlist.size() );
+	}
+	return 0;
+}
+
+blargg_err_t Gme_File::track_info( track_info_t* out, int track ) const
+{
+	out->track_count = track_count();
+	out->length        = -1;
+	out->loop_length   = -1;
+	out->intro_length  = -1;
+	out->song [0]      = 0;
+	
+	out->game [0]      = 0;
+	out->author [0]    = 0;
+	out->copyright [0] = 0;
+	out->comment [0]   = 0;
+	out->dumper [0]    = 0;
+	out->system [0]    = 0;
+	
+	copy_field_( out->system, type()->system );
+	
+	int remapped = track;
+	RETURN_ERR( remap_track_( &remapped ) );
+	RETURN_ERR( track_info_( out, remapped ) );
+	
+	// override with m3u info
+	if ( playlist.size() )
+	{
+		M3u_Playlist::info_t const& i = playlist.info();
+		copy_field_( out->game  , i.title );
+		copy_field_( out->author, i.engineer );
+		copy_field_( out->author, i.composer );
+		copy_field_( out->dumper, i.ripping );
+		
+		M3u_Playlist::entry_t const& e = playlist [track];
+		copy_field_( out->song, e.name );
+		if ( e.length >= 0 ) out->length       = e.length * 1000L;
+		if ( e.intro  >= 0 ) out->intro_length = e.intro  * 1000L;
+		if ( e.loop   >= 0 ) out->loop_length  = e.loop   * 1000L;
+	}
+	return 0;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Gme_File.h b/plugins/gme/game-music-emu-0.5.5/gme/Gme_File.h
new file mode 100644
index 00000000..f50dceae
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Gme_File.h
@@ -0,0 +1,159 @@
+// Common interface to game music file loading and information
+
+// Game_Music_Emu 0.5.5
+#ifndef GME_FILE_H
+#define GME_FILE_H
+
+#include "gme.h"
+#include "blargg_common.h"
+#include "Data_Reader.h"
+#include "M3u_Playlist.h"
+
+// Error returned if file is wrong type
+//extern const char gme_wrong_file_type []; // declared in gme.h
+
+struct gme_type_t_
+{
+	const char* system;         /* name of system this music file type is generally for */
+	int track_count;            /* non-zero for formats with a fixed number of tracks */
+	Music_Emu* (*new_emu)();    /* Create new emulator for this type (useful in C++ only) */
+	Music_Emu* (*new_info)();   /* Create new info reader for this type */
+	
+	/* internal */
+	const char* extension_;
+	int flags_;
+};
+
+enum { gme_max_field = 255 };
+
+struct Gme_File {
+public:
+// File loading
+	
+	// Each loads game music data from a file and returns an error if
+	// file is wrong type or is seriously corrupt. They also set warning
+	// string for minor problems.
+	
+	// Load from file on disk
+	blargg_err_t load_file( const char* path );
+	
+	// Load from custom data source (see Data_Reader.h)
+	blargg_err_t load( Data_Reader& );
+	
+	// Load from file already read into memory. Keeps pointer to data, so you
+	// must not free it until you're done with the file.
+	blargg_err_t load_mem( void const* data, long size );
+	
+	// Load an m3u playlist. Must be done after loading main music file.
+	blargg_err_t load_m3u( const char* path );
+	blargg_err_t load_m3u( Data_Reader& in );
+	
+	// Clears any loaded m3u playlist and any internal playlist that the music
+	// format supports (NSFE for example).
+	void clear_playlist();
+	
+// Informational
+	
+	// Type of emulator. For example if this returns gme_nsfe_type, this object
+	// is an NSFE emulator, and you can cast to an Nsfe_Emu* if necessary.
+	gme_type_t type() const;
+	
+	// Most recent warning string, or NULL if none. Clears current warning after
+	// returning.
+	const char* warning();
+	
+	// Number of tracks or 0 if no file has been loaded
+	int track_count() const;
+	
+	// Get information for a track (length, name, author, etc.)
+	// See gme.h for definition of struct track_info_t.
+	blargg_err_t track_info( track_info_t* out, int track ) const;
+	
+// User data/cleanup
+	
+	// Set/get pointer to data you want to associate with this emulator.
+	// You can use this for whatever you want.
+	void set_user_data( void* p )       { user_data_ = p; }
+	void* user_data() const             { return user_data_; }
+	
+	// Register cleanup function to be called when deleting emulator, or NULL to
+	// clear it. Passes user_data to cleanup function.
+	void set_user_cleanup( gme_user_cleanup_t func ) { user_cleanup_ = func; }
+	
+public:
+	// deprecated
+	int error_count() const; // use warning()
+public:
+	Gme_File();
+	virtual ~Gme_File();
+	BLARGG_DISABLE_NOTHROW
+	typedef BOOST::uint8_t byte;
+protected:
+	// Services
+	void set_track_count( int n )       { track_count_ = raw_track_count_ = n; }
+	void set_warning( const char* s )   { warning_ = s; }
+	void set_type( gme_type_t t )       { type_ = t; }
+	blargg_err_t load_remaining_( void const* header, long header_size, Data_Reader& remaining );
+	
+	// Overridable
+	virtual void unload();  // called before loading file and if loading fails
+	virtual blargg_err_t load_( Data_Reader& ); // default loads then calls load_mem_()
+	virtual blargg_err_t load_mem_( byte const* data, long size ); // use data in memory
+	virtual blargg_err_t track_info_( track_info_t* out, int track ) const = 0;
+	virtual void pre_load();
+	virtual void post_load_();
+	virtual void clear_playlist_() { }
+	
+public:
+	blargg_err_t remap_track_( int* track_io ) const; // need by Music_Emu
+private:
+	// noncopyable
+	Gme_File( const Gme_File& );
+	Gme_File& operator = ( const Gme_File& );
+	
+	gme_type_t type_;
+	int track_count_;
+	int raw_track_count_;
+	const char* warning_;
+	void* user_data_;
+	gme_user_cleanup_t user_cleanup_;
+	M3u_Playlist playlist;
+	char playlist_warning [64];
+	blargg_vector<byte> file_data; // only if loaded into memory using default load
+	
+	blargg_err_t load_m3u_( blargg_err_t );
+	blargg_err_t post_load( blargg_err_t err );
+public:
+	// track_info field copying
+	enum { max_field_ = 255 };
+	static void copy_field_( char* out, const char* in );
+	static void copy_field_( char* out, const char* in, int len );
+};
+	
+Music_Emu* gme_new_( Music_Emu*, long sample_rate );
+
+#define GME_COPY_FIELD( in, out, name ) \
+	{ Gme_File::copy_field_( out->name, in.name, sizeof in.name ); }
+
+#ifndef GME_FILE_READER
+	#ifdef HAVE_ZLIB_H
+		#define GME_FILE_READER Gzip_File_Reader
+	#else
+		#define GME_FILE_READER Std_File_Reader
+	#endif
+#elif defined (GME_FILE_READER_INCLUDE)
+	#include GME_FILE_READER_INCLUDE
+#endif
+
+inline gme_type_t Gme_File::type() const            { return type_; }
+inline int Gme_File::error_count() const            { return warning_ != 0; }
+inline int Gme_File::track_count() const            { return track_count_; }
+
+inline const char* Gme_File::warning()
+{
+	const char* s = warning_;
+	warning_ = 0;
+	return s;
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Gym_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Gym_Emu.cpp
new file mode 100644
index 00000000..c286dea9
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Gym_Emu.cpp
@@ -0,0 +1,380 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Gym_Emu.h"
+
+#include "blargg_endian.h"
+#include <string.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+double const min_tempo = 0.25;
+double const oversample_factor = 5 / 3.0;
+double const fm_gain = 3.0;
+
+const long base_clock = 53700300;
+const long clock_rate = base_clock / 15;
+
+Gym_Emu::Gym_Emu()
+{
+	data = 0;
+	pos  = 0;
+	set_type( gme_gym_type );
+	
+	static const char* const names [] = {
+		"FM 1", "FM 2", "FM 3", "FM 4", "FM 5", "FM 6", "PCM", "PSG"
+	};
+	set_voice_names( names );
+	set_silence_lookahead( 1 ); // tracks should already be trimmed
+}
+
+Gym_Emu::~Gym_Emu() { }
+
+// Track info
+
+static void get_gym_info( Gym_Emu::header_t const& h, long length, track_info_t* out )
+{
+	if ( !memcmp( h.tag, "GYMX", 4 ) )
+	{
+		length = length * 50 / 3; // 1000 / 60
+		long loop = get_le32( h.loop_start );
+		if ( loop )
+		{
+			out->intro_length = loop * 50 / 3;
+			out->loop_length  = length - out->intro_length;
+		}
+		else
+		{
+			out->length = length;
+			out->intro_length = length; // make it clear that track is no longer than length
+			out->loop_length = 0;
+		}
+		
+		// more stupidity where the field should have been left
+		if ( strcmp( h.song, "Unknown Song" ) )
+			GME_COPY_FIELD( h, out, song );
+		
+		if ( strcmp( h.game, "Unknown Game" ) )
+			GME_COPY_FIELD( h, out, game );
+		
+		if ( strcmp( h.copyright, "Unknown Publisher" ) )
+			GME_COPY_FIELD( h, out, copyright );
+		
+		if ( strcmp( h.dumper, "Unknown Person" ) )
+			GME_COPY_FIELD( h, out, dumper );
+		
+		if ( strcmp( h.comment, "Header added by YMAMP" ) )
+			GME_COPY_FIELD( h, out, comment );
+	}
+}
+
+blargg_err_t Gym_Emu::track_info_( track_info_t* out, int ) const
+{
+	get_gym_info( header_, track_length(), out );
+	return 0;
+}
+
+static long gym_track_length( byte const* p, byte const* end )
+{
+	long time = 0;
+	while ( p < end )
+	{
+		switch ( *p++ )
+		{
+			case 0:
+				time++;
+				break;
+			
+			case 1:
+			case 2:
+				p += 2;
+				break;
+			
+			case 3:
+				p += 1;
+				break;
+		}
+	}
+	return time;
+}
+
+long Gym_Emu::track_length() const { return gym_track_length( data, data_end ); }
+
+static blargg_err_t check_header( byte const* in, long size, int* data_offset = 0 )
+{
+	if ( size < 4 )
+		return gme_wrong_file_type;
+	
+	if ( memcmp( in, "GYMX", 4 ) == 0 )
+	{
+		if ( size < Gym_Emu::header_size + 1 )
+			return gme_wrong_file_type;
+		
+		if ( memcmp( ((Gym_Emu::header_t const*) in)->packed, "\0\0\0\0", 4 ) != 0 )
+			return "Packed GYM file not supported";
+		
+		if ( data_offset )
+			*data_offset = Gym_Emu::header_size;
+	}
+	else if ( *in > 3 )
+	{
+		return gme_wrong_file_type;
+	}
+	
+	return 0;
+}
+
+struct Gym_File : Gme_Info_
+{
+	byte const* file_begin;
+	byte const* file_end;
+	int data_offset;
+	
+	Gym_File() { set_type( gme_gym_type ); }
+	
+	blargg_err_t load_mem_( byte const* in, long size )
+	{
+		file_begin = in;
+		file_end   = in + size;
+		data_offset = 0;
+		return check_header( in, size, &data_offset );
+	}
+	
+	blargg_err_t track_info_( track_info_t* out, int ) const
+	{
+		long length = gym_track_length( &file_begin [data_offset], file_end );
+		get_gym_info( *(Gym_Emu::header_t const*) file_begin, length, out );
+		return 0;
+	}
+};
+
+static Music_Emu* new_gym_emu () { return BLARGG_NEW Gym_Emu ; }
+static Music_Emu* new_gym_file() { return BLARGG_NEW Gym_File; }
+
+static gme_type_t_ const gme_gym_type_ = { "Sega Genesis", 1, &new_gym_emu, &new_gym_file, "GYM", 0 };
+gme_type_t const gme_gym_type = &gme_gym_type_;
+
+// Setup
+
+blargg_err_t Gym_Emu::set_sample_rate_( long sample_rate )
+{
+	blip_eq_t eq( -32, 8000, sample_rate );
+	apu.treble_eq( eq );
+	dac_synth.treble_eq( eq );
+	apu.volume( 0.135 * fm_gain * gain() );
+	dac_synth.volume( 0.125 / 256 * fm_gain * gain() );
+	double factor = Dual_Resampler::setup( oversample_factor, 0.990, fm_gain * gain() );
+	fm_sample_rate = sample_rate * factor;
+	
+	RETURN_ERR( blip_buf.set_sample_rate( sample_rate, int (1000 / 60.0 / min_tempo) ) );
+	blip_buf.clock_rate( clock_rate );
+	
+	RETURN_ERR( fm.set_rate( fm_sample_rate, base_clock / 7.0 ) );
+	RETURN_ERR( Dual_Resampler::reset( long (1.0 / 60 / min_tempo * sample_rate) ) );
+	
+	return 0;
+}
+
+void Gym_Emu::set_tempo_( double t )
+{
+	if ( t < min_tempo )
+	{
+		set_tempo( min_tempo );
+		return;
+	}
+	
+	if ( blip_buf.sample_rate() )
+	{
+		clocks_per_frame = long (clock_rate / 60 / tempo());
+		Dual_Resampler::resize( long (sample_rate() / (60.0 * tempo())) );
+	}
+}
+
+void Gym_Emu::mute_voices_( int mask )
+{
+	Music_Emu::mute_voices_( mask );
+	fm.mute_voices( mask );
+	dac_muted = (mask & 0x40) != 0;
+	apu.output( (mask & 0x80) ? 0 : &blip_buf );
+}
+
+blargg_err_t Gym_Emu::load_mem_( byte const* in, long size )
+{
+	assert( offsetof (header_t,packed [4]) == header_size );
+	int offset = 0;
+	RETURN_ERR( check_header( in, size, &offset ) );
+	set_voice_count( 8 );
+	
+	data     = in + offset;
+	data_end = in + size;
+	loop_begin = 0;
+	
+	if ( offset )
+		header_ = *(header_t const*) in;
+	else
+		memset( &header_, 0, sizeof header_ );
+	
+	return 0;
+}
+
+// Emulation
+
+blargg_err_t Gym_Emu::start_track_( int track )
+{
+	RETURN_ERR( Music_Emu::start_track_( track ) );
+	
+	pos         = data;
+	loop_remain = get_le32( header_.loop_start );
+	
+	prev_dac_count = 0;
+	dac_enabled    = false;
+	dac_amp        = -1;
+	
+	fm.reset();
+	apu.reset();
+	blip_buf.clear();
+	Dual_Resampler::clear();
+	return 0;
+}
+
+void Gym_Emu::run_dac( int dac_count )
+{
+	// Guess beginning and end of sample and adjust rate and buffer position accordingly.
+	
+	// count dac samples in next frame
+	int next_dac_count = 0;
+	const byte* p = this->pos;
+	int cmd;
+	while ( (cmd = *p++) != 0 )
+	{
+		int data = *p++;
+		if ( cmd <= 2 )
+			++p;
+		if ( cmd == 1 && data == 0x2A )
+			next_dac_count++;
+	}
+	
+	// detect beginning and end of sample
+	int rate_count = dac_count;
+	int start = 0;
+	if ( !prev_dac_count && next_dac_count && dac_count < next_dac_count )
+	{
+		rate_count = next_dac_count;
+		start = next_dac_count - dac_count;
+	}
+	else if ( prev_dac_count && !next_dac_count && dac_count < prev_dac_count )
+	{
+		rate_count = prev_dac_count;
+	}
+	
+	// Evenly space samples within buffer section being used
+	blip_resampled_time_t period = blip_buf.resampled_duration( clocks_per_frame ) / rate_count;
+	
+	blip_resampled_time_t time = blip_buf.resampled_time( 0 ) +
+			period * start + (period >> 1);
+	
+	int dac_amp = this->dac_amp;
+	if ( dac_amp < 0 )
+		dac_amp = dac_buf [0];
+	
+	for ( int i = 0; i < dac_count; i++ )
+	{
+		int delta = dac_buf [i] - dac_amp;
+		dac_amp += delta;
+		dac_synth.offset_resampled( time, delta, &blip_buf );
+		time += period;
+	}
+	this->dac_amp = dac_amp;
+}
+
+void Gym_Emu::parse_frame()
+{
+	int dac_count = 0;
+	const byte* pos = this->pos;
+	
+	if ( loop_remain && !--loop_remain )
+		loop_begin = pos; // find loop on first time through sequence
+	
+	int cmd;
+	while ( (cmd = *pos++) != 0 )
+	{
+		int data = *pos++;
+		if ( cmd == 1 )
+		{
+			int data2 = *pos++;
+			if ( data != 0x2A )
+			{
+				if ( data == 0x2B )
+					dac_enabled = (data2 & 0x80) != 0;
+				
+				fm.write0( data, data2 );
+			}
+			else if ( dac_count < (int) sizeof dac_buf )
+			{
+				dac_buf [dac_count] = data2;
+				dac_count += dac_enabled;
+			}
+		}
+		else if ( cmd == 2 )
+		{
+			fm.write1( data, *pos++ );
+		}
+		else if ( cmd == 3 )
+		{
+			apu.write_data( 0, data );
+		}
+		else
+		{
+			// to do: many GYM streams are full of errors, and error count should
+			// reflect cases where music is really having problems
+			//log_error(); 
+			--pos; // put data back
+		}
+	}
+	
+	// loop
+	if ( pos >= data_end )
+	{
+		check( pos == data_end );
+		
+		if ( loop_begin )
+			pos = loop_begin;
+		else
+			set_track_ended();
+	}
+	this->pos = pos;
+	
+	// dac
+	if ( dac_count && !dac_muted )
+		run_dac( dac_count );
+	prev_dac_count = dac_count;
+}
+
+int Gym_Emu::play_frame( blip_time_t blip_time, int sample_count, sample_t* buf )
+{
+	if ( !track_ended() )
+		parse_frame();
+	
+	apu.end_frame( blip_time );
+	
+	memset( buf, 0, sample_count * sizeof *buf );
+	fm.run( sample_count >> 1, buf );
+	
+	return sample_count;
+}
+
+blargg_err_t Gym_Emu::play_( long count, sample_t* out )
+{
+	Dual_Resampler::dual_play( count, out, blip_buf );
+	return 0;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Gym_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Gym_Emu.h
new file mode 100644
index 00000000..f2e13238
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Gym_Emu.h
@@ -0,0 +1,82 @@
+// Sega Genesis/Mega Drive GYM music file emulator
+// Includes with PCM timing recovery to improve sample quality.
+
+// Game_Music_Emu 0.5.5
+#ifndef GYM_EMU_H
+#define GYM_EMU_H
+
+#include "Dual_Resampler.h"
+#include "Ym2612_Emu.h"
+#include "Music_Emu.h"
+#include "Sms_Apu.h"
+
+class Gym_Emu : public Music_Emu, private Dual_Resampler {
+public:
+	// GYM file header
+	enum { header_size = 428 };
+	struct header_t
+	{
+	    char tag [4];
+	    char song [32];
+	    char game [32];
+	    char copyright [32];
+	    char emulator [32];
+	    char dumper [32];
+	    char comment [256];
+	    byte loop_start [4]; // in 1/60 seconds, 0 if not looped
+	    byte packed [4];
+	};
+	
+	// Header for currently loaded file
+	header_t const& header() const { return header_; }
+	
+	static gme_type_t static_type() { return gme_gym_type; }
+	
+public:
+	// deprecated
+	Music_Emu::load;
+	blargg_err_t load( header_t const& h, Data_Reader& in ) // use Remaining_Reader
+			{ return load_remaining_( &h, sizeof h, in ); }
+	enum { gym_rate = 60 }; 
+	long track_length() const; // use track_info()
+
+public:
+	Gym_Emu();
+	~Gym_Emu();
+protected:
+	blargg_err_t load_mem_( byte const*, long );
+	blargg_err_t track_info_( track_info_t*, int track ) const;
+	blargg_err_t set_sample_rate_( long sample_rate );
+	blargg_err_t start_track_( int );
+	blargg_err_t play_( long count, sample_t* );
+	void mute_voices_( int );
+	void set_tempo_( double );
+	int play_frame( blip_time_t blip_time, int sample_count, sample_t* buf );
+private:
+	// sequence data begin, loop begin, current position, end
+	const byte* data;
+	const byte* loop_begin;
+	const byte* pos;
+	const byte* data_end;
+	blargg_long loop_remain; // frames remaining until loop beginning has been located
+	header_t header_;
+	double fm_sample_rate;
+	blargg_long clocks_per_frame;
+	void parse_frame();
+	
+	// dac (pcm)
+	int dac_amp;
+	int prev_dac_count;
+	bool dac_enabled;
+	bool dac_muted;
+	void run_dac( int );
+	
+	// sound
+	Blip_Buffer blip_buf;
+	Ym2612_Emu fm;
+	Blip_Synth<blip_med_quality,1> dac_synth;
+	Sms_Apu apu;
+	byte dac_buf [1024];
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Hes_Apu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Hes_Apu.cpp
new file mode 100644
index 00000000..63c2b707
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Hes_Apu.cpp
@@ -0,0 +1,315 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Hes_Apu.h"
+
+#include <string.h>
+
+/* Copyright (C) 2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+bool const center_waves = true; // reduces asymmetry and clamping when starting notes
+
+Hes_Apu::Hes_Apu()
+{
+	Hes_Osc* osc = &oscs [osc_count];
+	do
+	{
+		osc--;
+		osc->outputs [0] = 0;
+		osc->outputs [1] = 0;
+		osc->chans [0] = 0;
+		osc->chans [1] = 0;
+		osc->chans [2] = 0;
+	}
+	while ( osc != oscs );
+	
+	reset();
+}
+
+void Hes_Apu::reset()
+{
+	latch   = 0;
+	balance = 0xFF;
+	
+	Hes_Osc* osc = &oscs [osc_count];
+	do
+	{
+		osc--;
+		memset( osc, 0, offsetof (Hes_Osc,outputs) );
+		osc->noise_lfsr = 1;
+		osc->control    = 0x40;
+		osc->balance    = 0xFF;
+	}
+	while ( osc != oscs );
+}
+
+void Hes_Apu::osc_output( int index, Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right )
+{
+	require( (unsigned) index < osc_count );
+	oscs [index].chans [0] = center;
+	oscs [index].chans [1] = left;
+	oscs [index].chans [2] = right;
+	
+	Hes_Osc* osc = &oscs [osc_count];
+	do
+	{
+		osc--;
+		balance_changed( *osc );
+	}
+	while ( osc != oscs );
+}
+
+void Hes_Osc::run_until( synth_t& synth_, blip_time_t end_time )
+{
+	Blip_Buffer* const osc_outputs_0 = outputs [0]; // cache often-used values
+	if ( osc_outputs_0 && control & 0x80 )
+	{
+		int dac = this->dac;
+		
+		int const volume_0 = volume [0];
+		{
+			int delta = dac * volume_0 - last_amp [0];
+			if ( delta )
+				synth_.offset( last_time, delta, osc_outputs_0 );
+			osc_outputs_0->set_modified();
+		}
+		
+		Blip_Buffer* const osc_outputs_1 = outputs [1];
+		int const volume_1 = volume [1];
+		if ( osc_outputs_1 )
+		{
+			int delta = dac * volume_1 - last_amp [1];
+			if ( delta )
+				synth_.offset( last_time, delta, osc_outputs_1 );
+			osc_outputs_1->set_modified();
+		}
+		
+		blip_time_t time = last_time + delay;
+		if ( time < end_time )
+		{
+			if ( noise & 0x80 )
+			{
+				if ( volume_0 | volume_1 )
+				{
+					// noise
+					int const period = (32 - (noise & 0x1F)) * 64; // TODO: correct?
+					unsigned noise_lfsr = this->noise_lfsr;
+					do
+					{
+						int new_dac = 0x1F & -(noise_lfsr >> 1 & 1);
+						// Implemented using "Galios configuration"
+						// TODO: find correct LFSR algorithm
+						noise_lfsr = (noise_lfsr >> 1) ^ (0xE008 & -(noise_lfsr & 1));
+						//noise_lfsr = (noise_lfsr >> 1) ^ (0x6000 & -(noise_lfsr & 1));
+						int delta = new_dac - dac;
+						if ( delta )
+						{
+							dac = new_dac;
+							synth_.offset( time, delta * volume_0, osc_outputs_0 );
+							if ( osc_outputs_1 )
+								synth_.offset( time, delta * volume_1, osc_outputs_1 );
+						}
+						time += period;
+					}
+					while ( time < end_time );
+					
+					this->noise_lfsr = noise_lfsr;
+					assert( noise_lfsr );
+				}
+			}
+			else if ( !(control & 0x40) )
+			{
+				// wave
+				int phase = (this->phase + 1) & 0x1F; // pre-advance for optimal inner loop
+				int period = this->period * 2;
+				if ( period >= 14 && (volume_0 | volume_1) )
+				{
+					do
+					{
+						int new_dac = wave [phase];
+						phase = (phase + 1) & 0x1F;
+						int delta = new_dac - dac;
+						if ( delta )
+						{
+							dac = new_dac;
+							synth_.offset( time, delta * volume_0, osc_outputs_0 );
+							if ( osc_outputs_1 )
+								synth_.offset( time, delta * volume_1, osc_outputs_1 );
+						}
+						time += period;
+					}
+					while ( time < end_time );
+				}
+				else
+				{
+					if ( !period )
+					{
+						// TODO: Gekisha Boy assumes that period = 0 silences wave
+						//period = 0x1000 * 2;
+						period = 1;
+						//if ( !(volume_0 | volume_1) )
+						//  debug_printf( "Used period 0\n" );
+					}
+					
+					// maintain phase when silent
+					blargg_long count = (end_time - time + period - 1) / period;
+					phase += count; // phase will be masked below
+					time += count * period;
+				}
+				this->phase = (phase - 1) & 0x1F; // undo pre-advance
+			}
+		}
+		time -= end_time;
+		if ( time < 0 )
+			time = 0;
+		delay = time;
+		
+		this->dac = dac;
+		last_amp [0] = dac * volume_0;
+		last_amp [1] = dac * volume_1;
+	}
+	last_time = end_time;
+}
+
+void Hes_Apu::balance_changed( Hes_Osc& osc )
+{
+	static short const log_table [32] = { // ~1.5 db per step
+		#define ENTRY( factor ) short (factor * Hes_Osc::amp_range / 31.0 + 0.5)
+		ENTRY( 0.000000 ),ENTRY( 0.005524 ),ENTRY( 0.006570 ),ENTRY( 0.007813 ),
+		ENTRY( 0.009291 ),ENTRY( 0.011049 ),ENTRY( 0.013139 ),ENTRY( 0.015625 ),
+		ENTRY( 0.018581 ),ENTRY( 0.022097 ),ENTRY( 0.026278 ),ENTRY( 0.031250 ),
+		ENTRY( 0.037163 ),ENTRY( 0.044194 ),ENTRY( 0.052556 ),ENTRY( 0.062500 ),
+		ENTRY( 0.074325 ),ENTRY( 0.088388 ),ENTRY( 0.105112 ),ENTRY( 0.125000 ),
+		ENTRY( 0.148651 ),ENTRY( 0.176777 ),ENTRY( 0.210224 ),ENTRY( 0.250000 ),
+		ENTRY( 0.297302 ),ENTRY( 0.353553 ),ENTRY( 0.420448 ),ENTRY( 0.500000 ),
+		ENTRY( 0.594604 ),ENTRY( 0.707107 ),ENTRY( 0.840896 ),ENTRY( 1.000000 ),
+		#undef ENTRY
+	};
+	
+	int vol = (osc.control & 0x1F) - 0x1E * 2;
+	
+	int left  = vol + (osc.balance >> 3 & 0x1E) + (balance >> 3 & 0x1E);
+	if ( left  < 0 ) left  = 0;
+	
+	int right = vol + (osc.balance << 1 & 0x1E) + (balance << 1 & 0x1E);
+	if ( right < 0 ) right = 0;
+	
+	left  = log_table [left ];
+	right = log_table [right];
+	
+	// optimizing for the common case of being centered also allows easy
+	// panning using Effects_Buffer
+	osc.outputs [0] = osc.chans [0]; // center
+	osc.outputs [1] = 0;
+	if ( left != right )
+	{
+		osc.outputs [0] = osc.chans [1]; // left
+		osc.outputs [1] = osc.chans [2]; // right
+	}
+	
+	if ( center_waves )
+	{
+		osc.last_amp [0] += (left  - osc.volume [0]) * 16;
+		osc.last_amp [1] += (right - osc.volume [1]) * 16;
+	}
+	
+	osc.volume [0] = left;
+	osc.volume [1] = right;
+}
+
+void Hes_Apu::write_data( blip_time_t time, int addr, int data )
+{
+	if ( addr == 0x800 )
+	{
+		latch = data & 7;
+	}
+	else if ( addr == 0x801 )
+	{
+		if ( balance != data )
+		{
+			balance = data;
+			
+			Hes_Osc* osc = &oscs [osc_count];
+			do
+			{
+				osc--;
+				osc->run_until( synth, time );
+				balance_changed( *oscs );
+			}
+			while ( osc != oscs );
+		}
+	}
+	else if ( latch < osc_count )
+	{
+		Hes_Osc& osc = oscs [latch];
+		osc.run_until( synth, time );
+		switch ( addr )
+		{
+		case 0x802:
+			osc.period = (osc.period & 0xF00) | data;
+			break;
+		
+		case 0x803:
+			osc.period = (osc.period & 0x0FF) | ((data & 0x0F) << 8);
+			break;
+		
+		case 0x804:
+			if ( osc.control & 0x40 & ~data )
+				osc.phase = 0;
+			osc.control = data;
+			balance_changed( osc );
+			break;
+		
+		case 0x805:
+			osc.balance = data;
+			balance_changed( osc );
+			break;
+		
+		case 0x806:
+			data &= 0x1F;
+			if ( !(osc.control & 0x40) )
+			{
+				osc.wave [osc.phase] = data;
+				osc.phase = (osc.phase + 1) & 0x1F;
+			}
+			else if ( osc.control & 0x80 )
+			{
+				osc.dac = data;
+			}
+			break;
+		
+		 case 0x807:
+		 	if ( &osc >= &oscs [4] )
+		 		osc.noise = data;
+		 	break;
+		 
+		 case 0x809:
+		 	if ( !(data & 0x80) && (data & 0x03) != 0 )
+		 		debug_printf( "HES LFO not supported\n" );
+		}
+	}
+}
+
+void Hes_Apu::end_frame( blip_time_t end_time )
+{
+	Hes_Osc* osc = &oscs [osc_count];
+	do
+	{
+		osc--;
+		if ( end_time > osc->last_time )
+			osc->run_until( synth, end_time );
+		assert( osc->last_time >= end_time );
+		osc->last_time -= end_time;
+	}
+	while ( osc != oscs );
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Hes_Apu.h b/plugins/gme/game-music-emu-0.5.5/gme/Hes_Apu.h
new file mode 100644
index 00000000..1e546053
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Hes_Apu.h
@@ -0,0 +1,66 @@
+// Turbo Grafx 16 (PC Engine) PSG sound chip emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef HES_APU_H
+#define HES_APU_H
+
+#include "blargg_common.h"
+#include "Blip_Buffer.h"
+
+struct Hes_Osc
+{
+	unsigned char wave [32];
+	short volume [2];
+	int last_amp [2];
+	int delay;
+	int period;
+	unsigned char noise;
+	unsigned char phase;
+	unsigned char balance;
+	unsigned char dac;
+	blip_time_t last_time;
+	
+	Blip_Buffer* outputs [2];
+	Blip_Buffer* chans [3];
+	unsigned noise_lfsr;
+	unsigned char control;
+	
+	enum { amp_range = 0x8000 };
+	typedef Blip_Synth<blip_med_quality,1> synth_t;
+	
+	void run_until( synth_t& synth, blip_time_t );
+};
+
+class Hes_Apu {
+public:
+	void treble_eq( blip_eq_t const& );
+	void volume( double );
+	
+	enum { osc_count = 6 };
+	void osc_output( int index, Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right );
+	
+	void reset();
+	
+	enum { start_addr = 0x0800 };
+	enum { end_addr   = 0x0809 };
+	void write_data( blip_time_t, int addr, int data );
+	
+	void end_frame( blip_time_t );
+	
+public:
+	Hes_Apu();
+private:
+	Hes_Osc oscs [osc_count];
+	int latch;
+	int balance;
+	Hes_Osc::synth_t synth;
+	
+	void balance_changed( Hes_Osc& );
+	void recalc_chans();
+};
+
+inline void Hes_Apu::volume( double v ) { synth.volume( 1.8 / osc_count / Hes_Osc::amp_range * v ); }
+
+inline void Hes_Apu::treble_eq( blip_eq_t const& eq ) { synth.treble_eq( eq ); }
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Hes_Cpu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Hes_Cpu.cpp
new file mode 100644
index 00000000..8acdd94f
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Hes_Cpu.cpp
@@ -0,0 +1,1303 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Hes_Cpu.h"
+
+#include "blargg_endian.h"
+
+//#include "hes_cpu_log.h"
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+// TODO: support T flag, including clearing it at appropriate times?
+
+// all zero-page should really use whatever is at page 1, but that would
+// reduce efficiency quite a bit
+int const ram_addr = 0x2000;
+
+#define FLUSH_TIME()    (void) (s.time = s_time)
+#define CACHE_TIME()    (void) (s_time = s.time)
+
+#include "hes_cpu_io.h"
+
+#include "blargg_source.h"
+
+#if BLARGG_NONPORTABLE
+	#define PAGE_OFFSET( addr ) (addr)
+#else
+	#define PAGE_OFFSET( addr ) ((addr) & (page_size - 1))
+#endif
+
+// status flags
+int const st_n = 0x80;
+int const st_v = 0x40;
+int const st_t = 0x20;
+int const st_b = 0x10;
+int const st_d = 0x08;
+int const st_i = 0x04;
+int const st_z = 0x02;
+int const st_c = 0x01;
+
+void Hes_Cpu::reset()
+{
+	check( state == &state_ );
+	state = &state_;
+	
+	state_.time = 0;
+	state_.base = 0;
+	irq_time_   = future_hes_time;
+	end_time_   = future_hes_time;
+	
+	r.status = st_i;
+	r.sp     = 0;
+	r.pc     = 0;
+	r.a      = 0;
+	r.x      = 0;
+	r.y      = 0;
+	
+	blargg_verify_byte_order();
+}
+
+void Hes_Cpu::set_mmr( int reg, int bank )
+{
+	assert( (unsigned) reg <= page_count ); // allow page past end to be set
+	assert( (unsigned) bank < 0x100 );
+	mmr [reg] = bank;
+	uint8_t const* code = CPU_SET_MMR( this, reg, bank );
+	state->code_map [reg] = code - PAGE_OFFSET( reg << page_shift );
+}
+
+#define TIME    (s_time + s.base)
+
+#define READ( addr )            CPU_READ( this, (addr), TIME )
+#define WRITE( addr, data )     {CPU_WRITE( this, (addr), (data), TIME );}
+#define READ_LOW( addr )        (ram [int (addr)])
+#define WRITE_LOW( addr, data ) (void) (READ_LOW( addr ) = (data))
+#define READ_PROG( addr )       (s.code_map [(addr) >> page_shift] [PAGE_OFFSET( addr )])
+
+#define SET_SP( v )     (sp = ((v) + 1) | 0x100)
+#define GET_SP()        ((sp - 1) & 0xFF)
+#define PUSH( v )       ((sp = (sp - 1) | 0x100), WRITE_LOW( sp, v ))
+
+// even on x86, using short and unsigned char was slower
+typedef int         fint16;
+typedef unsigned    fuint16;
+typedef unsigned    fuint8;
+typedef blargg_long fint32;
+
+bool Hes_Cpu::run( hes_time_t end_time )
+{
+	bool illegal_encountered = false;
+	set_end_time( end_time );
+	state_t s = this->state_;
+	this->state = &s;
+	// even on x86, using s.time in place of s_time was slower
+	fint16 s_time = s.time;
+	
+	// registers
+	fuint16 pc = r.pc;
+	fuint8 a = r.a;
+	fuint8 x = r.x;
+	fuint8 y = r.y;
+	fuint16 sp;
+	SET_SP( r.sp );
+	
+	#define IS_NEG (nz & 0x8080)
+	
+	#define CALC_STATUS( out ) do {\
+		out = status & (st_v | st_d | st_i);\
+		out |= ((nz >> 8) | nz) & st_n;\
+		out |= c >> 8 & st_c;\
+		if ( !(nz & 0xFF) ) out |= st_z;\
+	} while ( 0 )
+
+	#define SET_STATUS( in ) do {\
+		status = in & (st_v | st_d | st_i);\
+		nz = in << 8;\
+		c = nz;\
+		nz |= ~in & st_z;\
+	} while ( 0 )
+	
+	fuint8 status;
+	fuint16 c;  // carry set if (c & 0x100) != 0
+	fuint16 nz; // Z set if (nz & 0xFF) == 0, N set if (nz & 0x8080) != 0
+	{
+		fuint8 temp = r.status;
+		SET_STATUS( temp );
+	}
+	
+	goto loop;
+branch_not_taken:
+	s_time -= 2;
+loop:
+	
+	#ifndef NDEBUG
+	{
+		hes_time_t correct = end_time_;
+		if ( !(status & st_i) && correct > irq_time_ )
+			correct = irq_time_;
+		check( s.base == correct );
+		/*
+		static long count;
+		if ( count == 1844 ) Debugger();
+		if ( s.base != correct ) debug_printf( "%ld\n", count );
+		count++;
+		*/
+	}
+	#endif
+
+	check( (unsigned) GET_SP() < 0x100 );
+	check( (unsigned) a < 0x100 );
+	check( (unsigned) x < 0x100 );
+	
+	uint8_t const* instr = s.code_map [pc >> page_shift];
+	fuint8 opcode;
+	
+	// TODO: eliminate this special case
+	#if BLARGG_NONPORTABLE
+		opcode = instr [pc];
+		pc++;
+		instr += pc;
+	#else
+		instr += PAGE_OFFSET( pc );
+		opcode = *instr++;
+		pc++;
+	#endif
+	
+	// TODO: each reference lists slightly different timing values, ugh
+	static uint8_t const clock_table [256] =
+	{// 0 1 2  3 4 5 6 7 8 9 A B C D E F
+		1,7,3, 4,6,4,6,7,3,2,2,2,7,5,7,6,// 0
+		4,7,7, 4,6,4,6,7,2,5,2,2,7,5,7,6,// 1
+		7,7,3, 4,4,4,6,7,4,2,2,2,5,5,7,6,// 2
+		4,7,7, 2,4,4,6,7,2,5,2,2,5,5,7,6,// 3
+		7,7,3, 4,8,4,6,7,3,2,2,2,4,5,7,6,// 4
+		4,7,7, 5,2,4,6,7,2,5,3,2,2,5,7,6,// 5
+		7,7,2, 2,4,4,6,7,4,2,2,2,7,5,7,6,// 6
+		4,7,7,17,4,4,6,7,2,5,4,2,7,5,7,6,// 7
+		4,7,2, 7,4,4,4,7,2,2,2,2,5,5,5,6,// 8
+		4,7,7, 8,4,4,4,7,2,5,2,2,5,5,5,6,// 9
+		2,7,2, 7,4,4,4,7,2,2,2,2,5,5,5,6,// A
+		4,7,7, 8,4,4,4,7,2,5,2,2,5,5,5,6,// B
+		2,7,2,17,4,4,6,7,2,2,2,2,5,5,7,6,// C
+		4,7,7,17,2,4,6,7,2,5,3,2,2,5,7,6,// D
+		2,7,2,17,4,4,6,7,2,2,2,2,5,5,7,6,// E
+		4,7,7,17,2,4,6,7,2,5,4,2,2,5,7,6 // F
+	}; // 0x00 was 8
+	
+	fuint16 data;
+	data = clock_table [opcode];
+	if ( (s_time += data) >= 0 )
+		goto possibly_out_of_time;
+almost_out_of_time:
+	
+	data = *instr;
+	
+	#ifdef HES_CPU_LOG_H
+		log_cpu( "new", pc - 1, opcode, instr [0], instr [1], instr [2],
+				instr [3], instr [4], instr [5] );
+		//log_opcode( opcode );
+	#endif
+	
+	switch ( opcode )
+	{
+possibly_out_of_time:
+		if ( s_time < (int) data )
+			goto almost_out_of_time;
+		s_time -= data;
+		goto out_of_time;
+
+// Macros
+
+#define GET_MSB()           (instr [1])
+#define ADD_PAGE( out )     (pc++, out = data + 0x100 * GET_MSB());
+#define GET_ADDR()          GET_LE16( instr )
+
+// TODO: is the penalty really always added? the original 6502 was much better
+//#define PAGE_CROSS_PENALTY( lsb ) (void) (s_time += (lsb) >> 8)
+#define PAGE_CROSS_PENALTY( lsb )
+
+// Branch
+
+// TODO: more efficient way to handle negative branch that wraps PC around
+#define BRANCH( cond )\
+{\
+	fint16 offset = (BOOST::int8_t) data;\
+	pc++;\
+	if ( !(cond) ) goto branch_not_taken;\
+	pc = BOOST::uint16_t (pc + offset);\
+	goto loop;\
+}
+
+	case 0xF0: // BEQ
+		BRANCH( !((uint8_t) nz) );
+	
+	case 0xD0: // BNE
+		BRANCH( (uint8_t) nz );
+	
+	case 0x10: // BPL
+		BRANCH( !IS_NEG );
+	
+	case 0x90: // BCC
+		BRANCH( !(c & 0x100) )
+	
+	case 0x30: // BMI
+		BRANCH( IS_NEG )
+	
+	case 0x50: // BVC
+		BRANCH( !(status & st_v) )
+	
+	case 0x70: // BVS
+		BRANCH( status & st_v )
+	
+	case 0xB0: // BCS
+		BRANCH( c & 0x100 )
+	
+	case 0x80: // BRA
+	branch_taken:
+		BRANCH( true );
+	
+	case 0xFF:
+		if ( pc == idle_addr + 1 )
+			goto idle_done;
+	case 0x0F: // BBRn
+	case 0x1F:
+	case 0x2F:
+	case 0x3F:
+	case 0x4F:
+	case 0x5F:
+	case 0x6F:
+	case 0x7F:
+	case 0x8F: // BBSn
+	case 0x9F:
+	case 0xAF:
+	case 0xBF:
+	case 0xCF:
+	case 0xDF:
+	case 0xEF: {
+		fuint16 t = 0x101 * READ_LOW( data );
+		t ^= 0xFF;
+		pc++;
+		data = GET_MSB();
+		BRANCH( t & (1 << (opcode >> 4)) )
+	}
+	
+	case 0x4C: // JMP abs
+		pc = GET_ADDR();
+		goto loop;
+	
+	case 0x7C: // JMP (ind+X)
+		data += x;
+	case 0x6C:{// JMP (ind)
+		data += 0x100 * GET_MSB();
+		pc = GET_LE16( &READ_PROG( data ) );
+		goto loop;
+	}
+	
+// Subroutine
+
+	case 0x44: // BSR
+		WRITE_LOW( 0x100 | (sp - 1), pc >> 8 );
+		sp = (sp - 2) | 0x100;
+		WRITE_LOW( sp, pc );
+		goto branch_taken;
+	
+	case 0x20: { // JSR
+		fuint16 temp = pc + 1;
+		pc = GET_ADDR();
+		WRITE_LOW( 0x100 | (sp - 1), temp >> 8 );
+		sp = (sp - 2) | 0x100;
+		WRITE_LOW( sp, temp );
+		goto loop;
+	}
+	
+	case 0x60: // RTS
+		pc = 0x100 * READ_LOW( 0x100 | (sp - 0xFF) );
+		pc += 1 + READ_LOW( sp );
+		sp = (sp - 0xFE) | 0x100;
+		goto loop;
+	
+	case 0x00: // BRK
+		goto handle_brk;
+	
+// Common
+
+	case 0xBD:{// LDA abs,X
+		PAGE_CROSS_PENALTY( data + x );
+		fuint16 addr = GET_ADDR() + x;
+		pc += 2;
+		CPU_READ_FAST( this, addr, TIME, nz );
+		a = nz;
+		goto loop;
+	}
+	
+	case 0x9D:{// STA abs,X
+		fuint16 addr = GET_ADDR() + x;
+		pc += 2;
+		CPU_WRITE_FAST( this, addr, a, TIME );
+		goto loop;
+	}
+	
+	case 0x95: // STA zp,x
+		data = uint8_t (data + x);
+	case 0x85: // STA zp
+		pc++;
+		WRITE_LOW( data, a );
+		goto loop;
+	
+	case 0xAE:{// LDX abs
+		fuint16 addr = GET_ADDR();
+		pc += 2;
+		CPU_READ_FAST( this, addr, TIME, nz );
+		x = nz;
+		goto loop;
+	}
+	
+	case 0xA5: // LDA zp
+		a = nz = READ_LOW( data );
+		pc++;
+		goto loop;
+	
+// Load/store
+	
+	{
+		fuint16 addr;
+	case 0x91: // STA (ind),Y
+		addr = 0x100 * READ_LOW( uint8_t (data + 1) );
+		addr += READ_LOW( data ) + y;
+		pc++;
+		goto sta_ptr;
+	
+	case 0x81: // STA (ind,X)
+		data = uint8_t (data + x);
+	case 0x92: // STA (ind)
+		addr = 0x100 * READ_LOW( uint8_t (data + 1) );
+		addr += READ_LOW( data );
+		pc++;
+		goto sta_ptr;
+	
+	case 0x99: // STA abs,Y
+		data += y;
+	case 0x8D: // STA abs
+		addr = data + 0x100 * GET_MSB();
+		pc += 2;
+	sta_ptr:
+		CPU_WRITE_FAST( this, addr, a, TIME );
+		goto loop;
+	}
+	
+	{
+		fuint16 addr;
+	case 0xA1: // LDA (ind,X)
+		data = uint8_t (data + x);
+	case 0xB2: // LDA (ind)
+		addr = 0x100 * READ_LOW( uint8_t (data + 1) );
+		addr += READ_LOW( data );
+		pc++;
+		goto a_nz_read_addr;
+	
+	case 0xB1:// LDA (ind),Y
+		addr = READ_LOW( data ) + y;
+		PAGE_CROSS_PENALTY( addr );
+		addr += 0x100 * READ_LOW( (uint8_t) (data + 1) );
+		pc++;
+		goto a_nz_read_addr;
+	
+	case 0xB9: // LDA abs,Y
+		data += y;
+		PAGE_CROSS_PENALTY( data );
+	case 0xAD: // LDA abs
+		addr = data + 0x100 * GET_MSB();
+		pc += 2;
+	a_nz_read_addr:
+		CPU_READ_FAST( this, addr, TIME, nz );
+		a = nz;
+		goto loop;
+	}
+
+	case 0xBE:{// LDX abs,y
+		PAGE_CROSS_PENALTY( data + y );
+		fuint16 addr = GET_ADDR() + y;
+		pc += 2;
+		FLUSH_TIME();
+		x = nz = READ( addr );
+		CACHE_TIME();
+		goto loop;
+	}
+	
+	case 0xB5: // LDA zp,x
+		a = nz = READ_LOW( uint8_t (data + x) );
+		pc++;
+		goto loop;
+	
+	case 0xA9: // LDA #imm
+		pc++;
+		a  = data;
+		nz = data;
+		goto loop;
+
+// Bit operations
+
+	case 0x3C: // BIT abs,x
+		data += x;
+	case 0x2C:{// BIT abs
+		fuint16 addr;
+		ADD_PAGE( addr );
+		FLUSH_TIME();
+		nz = READ( addr );
+		CACHE_TIME();
+		goto bit_common;
+	}
+	case 0x34: // BIT zp,x
+		data = uint8_t (data + x);
+	case 0x24: // BIT zp
+		data = READ_LOW( data );
+	case 0x89: // BIT imm
+		nz = data;
+	bit_common:
+		pc++;
+		status &= ~st_v;
+		status |= nz & st_v;
+		if ( nz & a )
+			goto loop; // Z should be clear, and nz must be non-zero if nz & a is
+		nz <<= 8; // set Z flag without affecting N flag
+		goto loop;
+		
+	{
+		fuint16 addr;
+		
+	case 0xB3: // TST abs,x
+		addr = GET_MSB() + x;
+		goto tst_abs;
+	
+	case 0x93: // TST abs
+		addr = GET_MSB();
+	tst_abs:
+		addr += 0x100 * instr [2];
+		pc++;
+		FLUSH_TIME();
+		nz = READ( addr );
+		CACHE_TIME();
+		goto tst_common;
+	}
+	
+	case 0xA3: // TST zp,x
+		nz = READ_LOW( uint8_t (GET_MSB() + x) );
+		goto tst_common;
+	
+	case 0x83: // TST zp
+		nz = READ_LOW( GET_MSB() );
+	tst_common:
+		pc += 2;
+		status &= ~st_v;
+		status |= nz & st_v;
+		if ( nz & data )
+			goto loop; // Z should be clear, and nz must be non-zero if nz & data is
+		nz <<= 8; // set Z flag without affecting N flag
+		goto loop;
+	
+	{
+		fuint16 addr;
+	case 0x0C: // TSB abs
+	case 0x1C: // TRB abs
+		addr = GET_ADDR();
+		pc++;
+		goto txb_addr;
+	
+	// TODO: everyone lists different behaviors for the status flags, ugh
+	case 0x04: // TSB zp
+	case 0x14: // TRB zp
+		addr = data + ram_addr;
+	txb_addr:
+		FLUSH_TIME();
+		nz = a | READ( addr );
+		if ( opcode & 0x10 )
+			nz ^= a; // bits from a will already be set, so this clears them
+		status &= ~st_v;
+		status |= nz & st_v;
+		pc++;
+		WRITE( addr, nz );
+		CACHE_TIME();
+		goto loop;
+	}
+	
+	case 0x07: // RMBn
+	case 0x17:
+	case 0x27:
+	case 0x37:
+	case 0x47:
+	case 0x57:
+	case 0x67:
+	case 0x77:
+		pc++;
+		READ_LOW( data ) &= ~(1 << (opcode >> 4));
+		goto loop;
+	
+	case 0x87: // SMBn
+	case 0x97:
+	case 0xA7:
+	case 0xB7:
+	case 0xC7:
+	case 0xD7:
+	case 0xE7:
+	case 0xF7:
+		pc++;
+		READ_LOW( data ) |= 1 << ((opcode >> 4) - 8);
+		goto loop;
+	
+// Load/store
+	
+	case 0x9E: // STZ abs,x
+		data += x;
+	case 0x9C: // STZ abs
+		ADD_PAGE( data );
+		pc++;
+		FLUSH_TIME();
+		WRITE( data, 0 );
+		CACHE_TIME();
+		goto loop;
+	
+	case 0x74: // STZ zp,x
+		data = uint8_t (data + x);
+	case 0x64: // STZ zp
+		pc++;
+		WRITE_LOW( data, 0 );
+		goto loop;
+	
+	case 0x94: // STY zp,x
+		data = uint8_t (data + x);
+	case 0x84: // STY zp
+		pc++;
+		WRITE_LOW( data, y );
+		goto loop;
+	
+	case 0x96: // STX zp,y
+		data = uint8_t (data + y);
+	case 0x86: // STX zp
+		pc++;
+		WRITE_LOW( data, x );
+		goto loop;
+	
+	case 0xB6: // LDX zp,y
+		data = uint8_t (data + y);
+	case 0xA6: // LDX zp
+		data = READ_LOW( data );
+	case 0xA2: // LDX #imm
+		pc++;
+		x = data;
+		nz = data;
+		goto loop;
+	
+	case 0xB4: // LDY zp,x
+		data = uint8_t (data + x);
+	case 0xA4: // LDY zp
+		data = READ_LOW( data );
+	case 0xA0: // LDY #imm
+		pc++;
+		y = data;
+		nz = data;
+		goto loop;
+	
+	case 0xBC: // LDY abs,X
+		data += x;
+		PAGE_CROSS_PENALTY( data );
+	case 0xAC:{// LDY abs
+		fuint16 addr = data + 0x100 * GET_MSB();
+		pc += 2;
+		FLUSH_TIME();
+		y = nz = READ( addr );
+		CACHE_TIME();
+		goto loop;
+	}
+	
+	{
+		fuint8 temp;
+	case 0x8C: // STY abs
+		temp = y;
+		goto store_abs;
+	
+	case 0x8E: // STX abs
+		temp = x;
+	store_abs:
+		fuint16 addr = GET_ADDR();
+		pc += 2;
+		FLUSH_TIME();
+		WRITE( addr, temp );
+		CACHE_TIME();
+		goto loop;
+	}
+
+// Compare
+
+	case 0xEC:{// CPX abs
+		fuint16 addr = GET_ADDR();
+		pc++;
+		FLUSH_TIME();
+		data = READ( addr );
+		CACHE_TIME();
+		goto cpx_data;
+	}
+	
+	case 0xE4: // CPX zp
+		data = READ_LOW( data );
+	case 0xE0: // CPX #imm
+	cpx_data:
+		nz = x - data;
+		pc++;
+		c = ~nz;
+		nz &= 0xFF;
+		goto loop;
+	
+	case 0xCC:{// CPY abs
+		fuint16 addr = GET_ADDR();
+		pc++;
+		FLUSH_TIME();
+		data = READ( addr );
+		CACHE_TIME();
+		goto cpy_data;
+	}
+	
+	case 0xC4: // CPY zp
+		data = READ_LOW( data );
+	case 0xC0: // CPY #imm
+	cpy_data:
+		nz = y - data;
+		pc++;
+		c = ~nz;
+		nz &= 0xFF;
+		goto loop;
+	
+// Logical
+
+#define ARITH_ADDR_MODES( op )\
+	case op - 0x04: /* (ind,x) */\
+		data = uint8_t (data + x);\
+	case op + 0x0D: /* (ind) */\
+		data = 0x100 * READ_LOW( uint8_t (data + 1) ) + READ_LOW( data );\
+		goto ptr##op;\
+	case op + 0x0C:{/* (ind),y */\
+		fuint16 temp = READ_LOW( data ) + y;\
+		PAGE_CROSS_PENALTY( temp );\
+		data = temp + 0x100 * READ_LOW( uint8_t (data + 1) );\
+		goto ptr##op;\
+	}\
+	case op + 0x10: /* zp,X */\
+		data = uint8_t (data + x);\
+	case op + 0x00: /* zp */\
+		data = READ_LOW( data );\
+		goto imm##op;\
+	case op + 0x14: /* abs,Y */\
+		data += y;\
+		goto ind##op;\
+	case op + 0x18: /* abs,X */\
+		data += x;\
+	ind##op:\
+		PAGE_CROSS_PENALTY( data );\
+	case op + 0x08: /* abs */\
+		ADD_PAGE( data );\
+	ptr##op:\
+		FLUSH_TIME();\
+		data = READ( data );\
+		CACHE_TIME();\
+	case op + 0x04: /* imm */\
+	imm##op:
+
+	ARITH_ADDR_MODES( 0xC5 ) // CMP
+		nz = a - data;
+		pc++;
+		c = ~nz;
+		nz &= 0xFF;
+		goto loop;
+	
+	ARITH_ADDR_MODES( 0x25 ) // AND
+		nz = (a &= data);
+		pc++;
+		goto loop;
+	
+	ARITH_ADDR_MODES( 0x45 ) // EOR
+		nz = (a ^= data);
+		pc++;
+		goto loop;
+	
+	ARITH_ADDR_MODES( 0x05 ) // ORA
+		nz = (a |= data);
+		pc++;
+		goto loop;
+	
+// Add/subtract
+
+	ARITH_ADDR_MODES( 0xE5 ) // SBC
+		data ^= 0xFF;
+		goto adc_imm;
+	
+	ARITH_ADDR_MODES( 0x65 ) // ADC
+	adc_imm: {
+		if ( status & st_d )
+			debug_printf( "Decimal mode not supported\n" );
+		fint16 carry = c >> 8 & 1;
+		fint16 ov = (a ^ 0x80) + carry + (BOOST::int8_t) data; // sign-extend
+		status &= ~st_v;
+		status |= ov >> 2 & 0x40;
+		c = nz = a + data + carry;
+		pc++;
+		a = (uint8_t) nz;
+		goto loop;
+	}
+	
+// Shift/rotate
+
+	case 0x4A: // LSR A
+		c = 0;
+	case 0x6A: // ROR A
+		nz = c >> 1 & 0x80;
+		c = a << 8;
+		nz |= a >> 1;
+		a = nz;
+		goto loop;
+
+	case 0x0A: // ASL A
+		nz = a << 1;
+		c = nz;
+		a = (uint8_t) nz;
+		goto loop;
+
+	case 0x2A: { // ROL A
+		nz = a << 1;
+		fint16 temp = c >> 8 & 1;
+		c = nz;
+		nz |= temp;
+		a = (uint8_t) nz;
+		goto loop;
+	}
+	
+	case 0x5E: // LSR abs,X
+		data += x;
+	case 0x4E: // LSR abs
+		c = 0;
+	case 0x6E: // ROR abs
+	ror_abs: {
+		ADD_PAGE( data );
+		FLUSH_TIME();
+		int temp = READ( data );
+		nz = (c >> 1 & 0x80) | (temp >> 1);
+		c = temp << 8;
+		goto rotate_common;
+	}
+	
+	case 0x3E: // ROL abs,X
+		data += x;
+		goto rol_abs;
+	
+	case 0x1E: // ASL abs,X
+		data += x;
+	case 0x0E: // ASL abs
+		c = 0;
+	case 0x2E: // ROL abs
+	rol_abs:
+		ADD_PAGE( data );
+		nz = c >> 8 & 1;
+		FLUSH_TIME();
+		nz |= (c = READ( data ) << 1);
+	rotate_common:
+		pc++;
+		WRITE( data, (uint8_t) nz );
+		CACHE_TIME();
+		goto loop;
+	
+	case 0x7E: // ROR abs,X
+		data += x;
+		goto ror_abs;
+	
+	case 0x76: // ROR zp,x
+		data = uint8_t (data + x);
+		goto ror_zp;
+	
+	case 0x56: // LSR zp,x
+		data = uint8_t (data + x);
+	case 0x46: // LSR zp
+		c = 0;
+	case 0x66: // ROR zp
+	ror_zp: {
+		int temp = READ_LOW( data );
+		nz = (c >> 1 & 0x80) | (temp >> 1);
+		c = temp << 8;
+		goto write_nz_zp;
+	}
+	
+	case 0x36: // ROL zp,x
+		data = uint8_t (data + x);
+		goto rol_zp;
+	
+	case 0x16: // ASL zp,x
+		data = uint8_t (data + x);
+	case 0x06: // ASL zp
+		c = 0;
+	case 0x26: // ROL zp
+	rol_zp:
+		nz = c >> 8 & 1;
+		nz |= (c = READ_LOW( data ) << 1);
+		goto write_nz_zp;
+	
+// Increment/decrement
+
+#define INC_DEC_AXY( reg, n ) reg = uint8_t (nz = reg + n); goto loop;
+
+	case 0x1A: // INA
+		INC_DEC_AXY( a, +1 )
+	
+	case 0xE8: // INX
+		INC_DEC_AXY( x, +1 )
+	
+	case 0xC8: // INY
+		INC_DEC_AXY( y, +1 )
+
+	case 0x3A: // DEA
+		INC_DEC_AXY( a, -1 )
+	
+	case 0xCA: // DEX
+		INC_DEC_AXY( x, -1 )
+	
+	case 0x88: // DEY
+		INC_DEC_AXY( y, -1 )
+	
+	case 0xF6: // INC zp,x
+		data = uint8_t (data + x);
+	case 0xE6: // INC zp
+		nz = 1;
+		goto add_nz_zp;
+	
+	case 0xD6: // DEC zp,x
+		data = uint8_t (data + x);
+	case 0xC6: // DEC zp
+		nz = (unsigned) -1;
+	add_nz_zp:
+		nz += READ_LOW( data );
+	write_nz_zp:
+		pc++;
+		WRITE_LOW( data, nz );
+		goto loop;
+	
+	case 0xFE: // INC abs,x
+		data = x + GET_ADDR();
+		goto inc_ptr;
+	
+	case 0xEE: // INC abs
+		data = GET_ADDR();
+	inc_ptr:
+		nz = 1;
+		goto inc_common;
+	
+	case 0xDE: // DEC abs,x
+		data = x + GET_ADDR();
+		goto dec_ptr;
+	
+	case 0xCE: // DEC abs
+		data = GET_ADDR();
+	dec_ptr:
+		nz = (unsigned) -1;
+	inc_common:
+		FLUSH_TIME();
+		nz += READ( data );
+		pc += 2;
+		WRITE( data, (uint8_t) nz );
+		CACHE_TIME();
+		goto loop;
+		
+// Transfer
+
+	case 0xA8: // TAY
+		y  = a;
+		nz = a;
+		goto loop;
+	
+	case 0x98: // TYA
+		a  = y;
+		nz = y;
+		goto loop;
+	
+	case 0xAA: // TAX
+		x  = a;
+		nz = a;
+		goto loop;
+		
+	case 0x8A: // TXA
+		a  = x;
+		nz = x;
+		goto loop;
+
+	case 0x9A: // TXS
+		SET_SP( x ); // verified (no flag change)
+		goto loop;
+	
+	case 0xBA: // TSX
+		x = nz = GET_SP();
+		goto loop;
+	
+	#define SWAP_REGS( r1, r2 ) {\
+		fuint8 t = r1;\
+		r1 = r2;\
+		r2 = t;\
+		goto loop;\
+	}
+	
+	case 0x02: // SXY
+		SWAP_REGS( x, y );
+	
+	case 0x22: // SAX
+		SWAP_REGS( a, x );
+	
+	case 0x42: // SAY
+		SWAP_REGS( a, y );
+	
+	case 0x62: // CLA
+		a = 0;
+		goto loop;
+	
+	case 0x82: // CLX
+		x = 0;
+		goto loop;
+	
+	case 0xC2: // CLY
+		y = 0;
+		goto loop;
+	
+// Stack
+	
+	case 0x48: // PHA
+		PUSH( a );
+		goto loop;
+		
+	case 0xDA: // PHX
+		PUSH( x );
+		goto loop;
+		
+	case 0x5A: // PHY
+		PUSH( y );
+		goto loop;
+		
+	case 0x40:{// RTI
+		fuint8 temp = READ_LOW( sp );
+		pc  = READ_LOW( 0x100 | (sp - 0xFF) );
+		pc |= READ_LOW( 0x100 | (sp - 0xFE) ) * 0x100;
+		sp = (sp - 0xFD) | 0x100;
+		data = status;
+		SET_STATUS( temp );
+		this->r.status = status; // update externally-visible I flag
+		if ( (data ^ status) & st_i )
+		{
+			hes_time_t new_time = end_time_;
+			if ( !(status & st_i) && new_time > irq_time_ )
+				new_time = irq_time_;
+			blargg_long delta = s.base - new_time;
+			s.base = new_time;
+			s_time += delta;
+		}
+		goto loop;
+	}
+	
+	#define POP()  READ_LOW( sp ); sp = (sp - 0xFF) | 0x100
+	
+	case 0x68: // PLA
+		a = nz = POP();
+		goto loop;
+	
+	case 0xFA: // PLX
+		x = nz = POP();
+		goto loop;
+	
+	case 0x7A: // PLY
+		y = nz = POP();
+		goto loop;
+	
+	case 0x28:{// PLP
+		fuint8 temp = POP();
+		fuint8 changed = status ^ temp;
+		SET_STATUS( temp );
+		if ( !(changed & st_i) )
+			goto loop; // I flag didn't change
+		if ( status & st_i )
+			goto handle_sei;
+		goto handle_cli;
+	}
+	#undef POP
+	
+	case 0x08: { // PHP
+		fuint8 temp;
+		CALC_STATUS( temp );
+		PUSH( temp | st_b );
+		goto loop;
+	}
+	
+// Flags
+
+	case 0x38: // SEC
+		c = (unsigned) ~0;
+		goto loop;
+	
+	case 0x18: // CLC
+		c = 0;
+		goto loop;
+		
+	case 0xB8: // CLV
+		status &= ~st_v;
+		goto loop;
+	
+	case 0xD8: // CLD
+		status &= ~st_d;
+		goto loop;
+	
+	case 0xF8: // SED
+		status |= st_d;
+		goto loop;
+	
+	case 0x58: // CLI
+		if ( !(status & st_i) )
+			goto loop;
+		status &= ~st_i;
+	handle_cli: {
+		this->r.status = status; // update externally-visible I flag
+		blargg_long delta = s.base - irq_time_;
+		if ( delta <= 0 )
+		{
+			if ( TIME < irq_time_ )
+				goto loop;
+			goto delayed_cli;
+		}
+		s.base = irq_time_;
+		s_time += delta;
+		if ( s_time < 0 )
+			goto loop;
+		
+		if ( delta >= s_time + 1 )
+		{
+			// delayed irq until after next instruction
+			s.base += s_time + 1;
+			s_time = -1;
+			irq_time_ = s.base; // TODO: remove, as only to satisfy debug check in loop
+			goto loop;
+		}
+	delayed_cli:
+		debug_printf( "Delayed CLI not supported\n" ); // TODO: implement
+		goto loop;
+	}
+	
+	case 0x78: // SEI
+		if ( status & st_i )
+			goto loop;
+		status |= st_i;
+	handle_sei: {
+		this->r.status = status; // update externally-visible I flag
+		blargg_long delta = s.base - end_time_;
+		s.base = end_time_;
+		s_time += delta;
+		if ( s_time < 0 )
+			goto loop;
+		debug_printf( "Delayed SEI not supported\n" ); // TODO: implement
+		goto loop;
+	}
+	
+// Special
+	
+	case 0x53:{// TAM
+		fuint8 const bits = data; // avoid using data across function call
+		pc++;
+		for ( int i = 0; i < 8; i++ )
+			if ( bits & (1 << i) )
+				set_mmr( i, a );
+		goto loop;
+	}
+	
+	case 0x43:{// TMA
+		pc++;
+		byte const* in = mmr;
+		do
+		{
+			if ( data & 1 )
+				a = *in;
+			in++;
+		}
+		while ( (data >>= 1) != 0 );
+		goto loop;
+	}
+	
+	case 0x03: // ST0
+	case 0x13: // ST1
+	case 0x23:{// ST2
+		fuint16 addr = opcode >> 4;
+		if ( addr )
+			addr++;
+		pc++;
+		FLUSH_TIME();
+		CPU_WRITE_VDP( this, addr, data, TIME );
+		CACHE_TIME();
+		goto loop;
+	}
+	
+	case 0xEA: // NOP
+		goto loop;
+
+	case 0x54: // CSL
+		debug_printf( "CSL not supported\n" );
+		illegal_encountered = true;
+		goto loop;
+	
+	case 0xD4: // CSH
+		goto loop;
+	
+	case 0xF4: { // SET
+		//fuint16 operand = GET_MSB();
+		debug_printf( "SET not handled\n" );
+		//switch ( data )
+		//{
+		//}
+		illegal_encountered = true;
+		goto loop;
+	}
+	
+// Block transfer
+
+	{
+		fuint16 in_alt;
+		fint16 in_inc;
+		fuint16 out_alt;
+		fint16 out_inc;
+		
+	case 0xE3: // TIA
+		in_alt  = 0;
+		goto bxfer_alt;
+	
+	case 0xF3: // TAI
+		in_alt  = 1;
+	bxfer_alt:
+		in_inc  = in_alt ^ 1;
+		out_alt = in_inc;
+		out_inc = in_alt;
+		goto bxfer;
+	
+	case 0xD3: // TIN
+		in_inc  = 1;
+		out_inc = 0;
+		goto bxfer_no_alt;
+	
+	case 0xC3: // TDD
+		in_inc  = -1;
+		out_inc = -1;
+		goto bxfer_no_alt;
+	
+	case 0x73: // TII
+		in_inc  = 1;
+		out_inc = 1;
+	bxfer_no_alt:
+		in_alt  = 0;
+		out_alt = 0;
+	bxfer:
+		fuint16 in    = GET_LE16( instr + 0 );
+		fuint16 out   = GET_LE16( instr + 2 );
+		int     count = GET_LE16( instr + 4 );
+		if ( !count )
+			count = 0x10000;
+		pc += 6;
+		WRITE_LOW( 0x100 | (sp - 1), y );
+		WRITE_LOW( 0x100 | (sp - 2), a );
+		WRITE_LOW( 0x100 | (sp - 3), x );
+		FLUSH_TIME();
+		do
+		{
+			// TODO: reads from $0800-$1400 in I/O page return 0 and don't access I/O
+			fuint8 t = READ( in );
+			in += in_inc;
+			in &= 0xFFFF;
+			s.time += 6;
+			if ( in_alt )
+				in_inc = -in_inc;
+			WRITE( out, t );
+			out += out_inc;
+			out &= 0xFFFF;
+			if ( out_alt )
+				out_inc = -out_inc;
+		}
+		while ( --count );
+		CACHE_TIME();
+		goto loop;
+	}
+
+// Illegal
+
+	default:
+		assert( (unsigned) opcode <= 0xFF );
+		debug_printf( "Illegal opcode $%02X at $%04X\n", (int) opcode, (int) pc - 1 );
+		illegal_encountered = true;
+		goto loop;
+	}
+	assert( false );
+	
+	int result_;
+handle_brk:
+	pc++;
+	result_ = 6;
+	
+interrupt:
+	{
+		s_time += 7;
+		
+		WRITE_LOW( 0x100 | (sp - 1), pc >> 8 );
+		WRITE_LOW( 0x100 | (sp - 2), pc );
+		pc = GET_LE16( &READ_PROG( 0xFFF0 ) + result_ );
+		
+		sp = (sp - 3) | 0x100;
+		fuint8 temp;
+		CALC_STATUS( temp );
+		if ( result_ == 6 )
+			temp |= st_b;
+		WRITE_LOW( sp, temp );
+		
+		status &= ~st_d;
+		status |= st_i;
+		this->r.status = status; // update externally-visible I flag
+		
+		blargg_long delta = s.base - end_time_;
+		s.base = end_time_;
+		s_time += delta;
+		goto loop;
+	}
+	
+idle_done:
+	s_time = 0;
+out_of_time:
+	pc--;
+	FLUSH_TIME();
+	CPU_DONE( this, TIME, result_ );
+	CACHE_TIME();
+	if ( result_ > 0 )
+		goto interrupt;
+	if ( s_time < 0 )
+		goto loop;
+	
+	s.time = s_time;
+	
+	r.pc = pc;
+	r.sp = GET_SP();
+	r.a = a;
+	r.x = x;
+	r.y = y;
+	
+	{
+		fuint8 temp;
+		CALC_STATUS( temp );
+		r.status = temp;
+	}
+	
+	this->state_ = s;
+	this->state = &this->state_;
+	
+	return illegal_encountered;
+}
+
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Hes_Cpu.h b/plugins/gme/game-music-emu-0.5.5/gme/Hes_Cpu.h
new file mode 100644
index 00000000..cf3af87d
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Hes_Cpu.h
@@ -0,0 +1,124 @@
+// PC Engine CPU emulator for use with HES music files
+
+// Game_Music_Emu 0.5.5
+#ifndef HES_CPU_H
+#define HES_CPU_H
+
+#include "blargg_common.h"
+
+typedef blargg_long hes_time_t; // clock cycle count
+typedef unsigned hes_addr_t; // 16-bit address
+enum { future_hes_time = INT_MAX / 2 + 1 };
+
+class Hes_Cpu {
+public:
+	typedef BOOST::uint8_t uint8_t;
+	
+	void reset();
+	
+	enum { page_size = 0x2000 };
+	enum { page_shift = 13 };
+	enum { page_count = 8 };
+	void set_mmr( int reg, int bank );
+	
+	uint8_t const* get_code( hes_addr_t );
+	
+	uint8_t ram [page_size];
+	
+	// not kept updated during a call to run()
+	struct registers_t {
+		BOOST::uint16_t pc;
+		uint8_t a;
+		uint8_t x;
+		uint8_t y;
+		uint8_t status;
+		uint8_t sp;
+	};
+	registers_t r;
+	
+	// page mapping registers
+	uint8_t mmr [page_count + 1];
+	
+	// Set end_time and run CPU from current time. Returns true if any illegal
+	// instructions were encountered.
+	bool run( hes_time_t end_time );
+	
+	// Time of beginning of next instruction to be executed
+	hes_time_t time() const             { return state->time + state->base; }
+	void set_time( hes_time_t t )       { state->time = t - state->base; }
+	void adjust_time( int delta )       { state->time += delta; }
+	
+	hes_time_t irq_time() const         { return irq_time_; }
+	void set_irq_time( hes_time_t );
+	
+	hes_time_t end_time() const         { return end_time_; }
+	void set_end_time( hes_time_t );
+	
+	void end_frame( hes_time_t );
+	
+	// Attempt to execute instruction here results in CPU advancing time to
+	// lesser of irq_time() and end_time() (or end_time() if IRQs are
+	// disabled)
+	enum { idle_addr = 0x1FFF };
+	
+	// Can read this many bytes past end of a page
+	enum { cpu_padding = 8 };
+	
+public:
+	Hes_Cpu() { state = &state_; }
+	enum { irq_inhibit = 0x04 };
+private:
+	// noncopyable
+	Hes_Cpu( const Hes_Cpu& );
+	Hes_Cpu& operator = ( const Hes_Cpu& );
+	
+	struct state_t {
+		uint8_t const* code_map [page_count + 1];
+		hes_time_t base;
+		blargg_long time;
+	};
+	state_t* state; // points to state_ or a local copy within run()
+	state_t state_;
+	hes_time_t irq_time_;
+	hes_time_t end_time_;
+	
+	void set_code_page( int, void const* );
+	inline int update_end_time( hes_time_t end, hes_time_t irq );
+};
+
+inline BOOST::uint8_t const* Hes_Cpu::get_code( hes_addr_t addr )
+{
+	return state->code_map [addr >> page_shift] + addr
+	#if !BLARGG_NONPORTABLE
+		% (unsigned) page_size
+	#endif
+	;
+}
+
+inline int Hes_Cpu::update_end_time( hes_time_t t, hes_time_t irq )
+{
+	if ( irq < t && !(r.status & irq_inhibit) ) t = irq;
+	int delta = state->base - t;
+	state->base = t;
+	return delta;
+}
+
+inline void Hes_Cpu::set_irq_time( hes_time_t t )
+{
+	state->time += update_end_time( end_time_, (irq_time_ = t) );
+}
+
+inline void Hes_Cpu::set_end_time( hes_time_t t )
+{
+	state->time += update_end_time( (end_time_ = t), irq_time_ );
+}
+
+inline void Hes_Cpu::end_frame( hes_time_t t )
+{
+	assert( state == &state_ );
+	state_.base -= t;
+	if ( irq_time_ < future_hes_time ) irq_time_ -= t;
+	if ( end_time_ < future_hes_time ) end_time_ -= t;
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Hes_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Hes_Emu.cpp
new file mode 100644
index 00000000..9a32b688
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Hes_Emu.cpp
@@ -0,0 +1,531 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Hes_Emu.h"
+
+#include "blargg_endian.h"
+#include <string.h>
+
+/* Copyright (C) 2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+int const timer_mask  = 0x04;
+int const vdp_mask    = 0x02;
+int const i_flag_mask = 0x04;
+int const unmapped    = 0xFF;
+
+long const period_60hz = 262 * 455L; // scanlines * clocks per scanline
+
+Hes_Emu::Hes_Emu()
+{
+	timer.raw_load = 0;
+	set_type( gme_hes_type );
+	
+	static const char* const names [Hes_Apu::osc_count] = {
+		"Wave 1", "Wave 2", "Wave 3", "Wave 4", "Multi 1", "Multi 2"
+	};
+	set_voice_names( names );
+	
+	static int const types [Hes_Apu::osc_count] = {
+		wave_type  | 0, wave_type  | 1, wave_type | 2, wave_type | 3,
+		mixed_type | 0, mixed_type | 1
+	};
+	set_voice_types( types );
+	set_silence_lookahead( 6 );
+	set_gain( 1.11 );
+}
+
+Hes_Emu::~Hes_Emu() { }
+
+void Hes_Emu::unload()
+{
+	rom.clear();
+	Music_Emu::unload();
+}
+
+// Track info
+
+static byte const* copy_field( byte const* in, char* out )
+{
+	if ( in )
+	{
+		int len = 0x20;
+		if ( in [0x1F] && !in [0x2F] )
+			len = 0x30; // fields are sometimes 16 bytes longer (ugh)
+		
+		// since text fields are where any data could be, detect non-text
+		// and fields with data after zero byte terminator
+		
+		int i = 0;
+		for ( i = 0; i < len && in [i]; i++ )
+			if ( ((in [i] + 1) & 0xFF) < ' ' + 1 ) // also treat 0xFF as non-text
+				return 0; // non-ASCII found
+		
+		for ( ; i < len; i++ )
+			if ( in [i] )
+				return 0; // data after terminator
+		
+		Gme_File::copy_field_( out, (char const*) in, len );
+		in += len;
+	}
+	return in;
+}
+
+static void copy_hes_fields( byte const* in, track_info_t* out )
+{
+	if ( *in >= ' ' )
+	{
+		in = copy_field( in, out->game );
+		in = copy_field( in, out->author );
+		in = copy_field( in, out->copyright );
+	}
+}
+
+blargg_err_t Hes_Emu::track_info_( track_info_t* out, int ) const
+{
+	copy_hes_fields( rom.begin() + 0x20, out );
+	return 0;
+}
+
+static blargg_err_t check_hes_header( void const* header )
+{
+	if ( memcmp( header, "HESM", 4 ) )
+		return gme_wrong_file_type;
+	return 0;
+}
+
+struct Hes_File : Gme_Info_
+{
+	struct header_t {
+		char header [Hes_Emu::header_size];
+		char unused [0x20];
+		byte fields [0x30 * 3];
+	} h;
+	
+	Hes_File() { set_type( gme_hes_type ); }
+	
+	blargg_err_t load_( Data_Reader& in )
+	{
+		assert( offsetof (header_t,fields) == Hes_Emu::header_size + 0x20 );
+		blargg_err_t err = in.read( &h, sizeof h );
+		if ( err )
+			return (err == in.eof_error ? gme_wrong_file_type : err);
+		return check_hes_header( &h );
+	}
+	
+	blargg_err_t track_info_( track_info_t* out, int ) const
+	{
+		copy_hes_fields( h.fields, out );
+		return 0;
+	}
+};
+
+static Music_Emu* new_hes_emu () { return BLARGG_NEW Hes_Emu ; }
+static Music_Emu* new_hes_file() { return BLARGG_NEW Hes_File; }
+
+static gme_type_t_ const gme_hes_type_ = { "PC Engine", 256, &new_hes_emu, &new_hes_file, "HES", 1 };
+gme_type_t const gme_hes_type = &gme_hes_type_;
+
+
+// Setup
+
+blargg_err_t Hes_Emu::load_( Data_Reader& in )
+{
+	assert( offsetof (header_t,unused [4]) == header_size );
+	RETURN_ERR( rom.load( in, header_size, &header_, unmapped ) );
+	
+	RETURN_ERR( check_hes_header( header_.tag ) );
+	
+	if ( header_.vers != 0 )
+		set_warning( "Unknown file version" );
+	
+	if ( memcmp( header_.data_tag, "DATA", 4 ) )
+		set_warning( "Data header missing" );
+	
+	if ( memcmp( header_.unused, "\0\0\0\0", 4 ) )
+		set_warning( "Unknown header data" );
+	
+	// File spec supports multiple blocks, but I haven't found any, and
+	// many files have bad sizes in the only block, so it's simpler to
+	// just try to load the damn data as best as possible.
+	
+	long addr = get_le32( header_.addr );
+	long size = get_le32( header_.size );
+	long const rom_max = 0x100000;
+	if ( addr & ~(rom_max - 1) )
+	{
+		set_warning( "Invalid address" );
+		addr &= rom_max - 1;
+	}
+	if ( (unsigned long) (addr + size) > (unsigned long) rom_max )
+		set_warning( "Invalid size" );
+	
+	if ( size != rom.file_size() )
+	{
+		if ( size <= rom.file_size() - 4 && !memcmp( rom.begin() + size, "DATA", 4 ) )
+			set_warning( "Multiple DATA not supported" );
+		else if ( size < rom.file_size() )
+			set_warning( "Extra file data" );
+		else
+			set_warning( "Missing file data" );
+	}
+	
+	rom.set_addr( addr );
+	
+	set_voice_count( apu.osc_count );
+	
+	apu.volume( gain() );
+	
+	return setup_buffer( 7159091 );
+}
+
+void Hes_Emu::update_eq( blip_eq_t const& eq )
+{
+	apu.treble_eq( eq );
+}
+
+void Hes_Emu::set_voice( int i, Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right )
+{
+	apu.osc_output( i, center, left, right );
+}
+
+// Emulation
+
+void Hes_Emu::recalc_timer_load()
+{
+	timer.load = timer.raw_load * timer_base + 1;
+}
+
+void Hes_Emu::set_tempo_( double t )
+{
+	play_period = hes_time_t (period_60hz / t);
+	timer_base = int (1024 / t);
+	recalc_timer_load();
+}
+
+blargg_err_t Hes_Emu::start_track_( int track )
+{
+	RETURN_ERR( Classic_Emu::start_track_( track ) );
+	
+	memset( ram, 0, sizeof ram ); // some HES music relies on zero fill
+	memset( sgx, 0, sizeof sgx );
+	
+	apu.reset();
+	cpu::reset();
+	
+	for ( unsigned i = 0; i < sizeof header_.banks; i++ )
+		set_mmr( i, header_.banks [i] );
+	set_mmr( page_count, 0xFF ); // unmapped beyond end of address space
+	
+	irq.disables  = timer_mask | vdp_mask;
+	irq.timer     = future_hes_time;
+	irq.vdp       = future_hes_time;
+	
+	timer.enabled = false;
+	timer.raw_load= 0x80;
+	timer.count   = timer.load;
+	timer.fired   = false;
+	timer.last_time = 0;
+	
+	vdp.latch     = 0;
+	vdp.control   = 0;
+	vdp.next_vbl  = 0;
+	
+	ram [0x1FF] = (idle_addr - 1) >> 8;
+	ram [0x1FE] = (idle_addr - 1) & 0xFF;
+	r.sp = 0xFD;
+	r.pc = get_le16( header_.init_addr );
+	r.a  = track;
+	
+	recalc_timer_load();
+	last_frame_hook = 0;
+	
+	return 0;
+}
+
+// Hardware
+
+void Hes_Emu::cpu_write_vdp( int addr, int data )
+{
+	switch ( addr )
+	{
+	case 0:
+		vdp.latch = data & 0x1F;
+		break;
+	
+	case 2:
+		if ( vdp.latch == 5 )
+		{
+			if ( data & 0x04 )
+				set_warning( "Scanline interrupt unsupported" );
+			run_until( time() );
+			vdp.control = data;
+			irq_changed();
+		}
+		else
+		{
+			debug_printf( "VDP not supported: $%02X <- $%02X\n", vdp.latch, data );
+		}
+		break;
+	
+	case 3:
+		debug_printf( "VDP MSB not supported: $%02X <- $%02X\n", vdp.latch, data );
+		break;
+	}
+}
+
+void Hes_Emu::cpu_write_( hes_addr_t addr, int data )
+{
+	if ( unsigned (addr - apu.start_addr) <= apu.end_addr - apu.start_addr )
+	{
+		GME_APU_HOOK( this, addr - apu.start_addr, data );
+		// avoid going way past end when a long block xfer is writing to I/O space
+		hes_time_t t = min( time(), end_time() + 8 );
+		apu.write_data( t, addr, data );
+		return;
+	}
+	
+	hes_time_t time = this->time();
+	switch ( addr )
+	{
+	case 0x0000:
+	case 0x0002:
+	case 0x0003:
+		cpu_write_vdp( addr, data );
+		return;
+	
+	case 0x0C00: {
+		run_until( time );
+		timer.raw_load = (data & 0x7F) + 1;
+		recalc_timer_load();
+		timer.count = timer.load;
+		break;
+	}
+	
+	case 0x0C01:
+		data &= 1;
+		if ( timer.enabled == data )
+			return;
+		run_until( time );
+		timer.enabled = data;
+		if ( data )
+			timer.count = timer.load;
+		break;
+	
+	case 0x1402:
+		run_until( time );
+		irq.disables = data;
+		if ( (data & 0xF8) && (data & 0xF8) != 0xF8 ) // flag questionable values
+			debug_printf( "Int mask: $%02X\n", data );
+		break;
+	
+	case 0x1403:
+		run_until( time );
+		if ( timer.enabled )
+			timer.count = timer.load;
+		timer.fired = false;
+		break;
+	
+#ifndef NDEBUG
+	case 0x1000: // I/O port
+	case 0x0402: // palette
+	case 0x0403:
+	case 0x0404:
+	case 0x0405:
+		return;
+		
+	default:
+		debug_printf( "unmapped write $%04X <- $%02X\n", addr, data );
+		return;
+#endif
+	}
+	
+	irq_changed();
+}
+
+int Hes_Emu::cpu_read_( hes_addr_t addr )
+{
+	hes_time_t time = this->time();
+	addr &= page_size - 1;
+	switch ( addr )
+	{
+	case 0x0000:
+		if ( irq.vdp > time )
+			return 0;
+		irq.vdp = future_hes_time;
+		run_until( time );
+		irq_changed();
+		return 0x20;
+		
+	case 0x0002:
+	case 0x0003:
+		debug_printf( "VDP read not supported: %d\n", addr );
+		return 0;
+	
+	case 0x0C01:
+		//return timer.enabled; // TODO: remove?
+	case 0x0C00:
+		run_until( time );
+		debug_printf( "Timer count read\n" );
+		return (unsigned) (timer.count - 1) / timer_base;
+	
+	case 0x1402:
+		return irq.disables;
+	
+	case 0x1403:
+		{
+			int status = 0;
+			if ( irq.timer <= time ) status |= timer_mask;
+			if ( irq.vdp   <= time ) status |= vdp_mask;
+			return status;
+		}
+		
+	#ifndef NDEBUG
+		case 0x1000: // I/O port
+		case 0x180C: // CD-ROM
+		case 0x180D:
+			break;
+		
+		default:
+			debug_printf( "unmapped read  $%04X\n", addr );
+	#endif
+	}
+	
+	return unmapped;
+}
+
+// see hes_cpu_io.h for core read/write functions
+
+// Emulation
+
+void Hes_Emu::run_until( hes_time_t present )
+{
+	while ( vdp.next_vbl < present )
+		vdp.next_vbl += play_period;
+	
+	hes_time_t elapsed = present - timer.last_time;
+	if ( elapsed > 0 )
+	{
+		if ( timer.enabled )
+		{
+			timer.count -= elapsed;
+			if ( timer.count <= 0 )
+				timer.count += timer.load;
+		}
+		timer.last_time = present;
+	}
+}
+
+void Hes_Emu::irq_changed()
+{
+	hes_time_t present = time();
+	
+	if ( irq.timer > present )
+	{
+		irq.timer = future_hes_time;
+		if ( timer.enabled && !timer.fired )
+			irq.timer = present + timer.count;
+	}
+	
+	if ( irq.vdp > present )
+	{
+		irq.vdp = future_hes_time;
+		if ( vdp.control & 0x08 )
+			irq.vdp = vdp.next_vbl;
+	}
+	
+	hes_time_t time = future_hes_time;
+	if ( !(irq.disables & timer_mask) ) time = irq.timer;
+	if ( !(irq.disables &   vdp_mask) ) time = min( time, irq.vdp );
+	
+	set_irq_time( time );
+}
+
+int Hes_Emu::cpu_done()
+{
+	check( time() >= end_time() ||
+			(!(r.status & i_flag_mask) && time() >= irq_time()) );
+	
+	if ( !(r.status & i_flag_mask) )
+	{
+		hes_time_t present = time();
+		
+		if ( irq.timer <= present && !(irq.disables & timer_mask) )
+		{
+			timer.fired = true;
+			irq.timer = future_hes_time;
+			irq_changed(); // overkill, but not worth writing custom code
+			#if GME_FRAME_HOOK_DEFINED
+			{
+				unsigned const threshold = period_60hz / 30;
+				unsigned long elapsed = present - last_frame_hook;
+				if ( elapsed - period_60hz + threshold / 2 < threshold )
+				{
+					last_frame_hook = present;
+					GME_FRAME_HOOK( this );
+				}
+			}
+			#endif
+			return 0x0A;
+		}
+		
+		if ( irq.vdp <= present && !(irq.disables & vdp_mask) )
+		{
+			// work around for bugs with music not acknowledging VDP
+			//run_until( present );
+			//irq.vdp = future_hes_time;
+			//irq_changed();
+			#if GME_FRAME_HOOK_DEFINED
+				last_frame_hook = present;
+				GME_FRAME_HOOK( this );
+			#endif
+			return 0x08;
+		}
+	}
+	return 0;
+}
+
+static void adjust_time( blargg_long& time, hes_time_t delta )
+{
+	if ( time < future_hes_time )
+	{
+		time -= delta;
+		if ( time < 0 )
+			time = 0;
+	}
+}
+
+blargg_err_t Hes_Emu::run_clocks( blip_time_t& duration_, int )
+{
+	blip_time_t const duration = duration_; // cache
+	
+	if ( cpu::run( duration ) )
+		set_warning( "Emulation error (illegal instruction)" );
+	
+	check( time() >= duration );
+	//check( time() - duration < 20 ); // Txx instruction could cause going way over
+	
+	run_until( duration );
+	
+	// end time frame
+	timer.last_time -= duration;
+	vdp.next_vbl    -= duration;
+	#if GME_FRAME_HOOK_DEFINED
+		last_frame_hook -= duration;
+	#endif
+	cpu::end_frame( duration );
+	::adjust_time( irq.timer, duration );
+	::adjust_time( irq.vdp,   duration );
+	apu.end_frame( duration );
+	
+	return 0;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Hes_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Hes_Emu.h
new file mode 100644
index 00000000..d17983c5
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Hes_Emu.h
@@ -0,0 +1,94 @@
+// TurboGrafx-16/PC Engine HES music file emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef HES_EMU_H
+#define HES_EMU_H
+
+#include "Classic_Emu.h"
+#include "Hes_Apu.h"
+#include "Hes_Cpu.h"
+
+class Hes_Emu : private Hes_Cpu, public Classic_Emu {
+	typedef Hes_Cpu cpu;
+public:
+	// HES file header
+	enum { header_size = 0x20 };
+	struct header_t
+	{
+		byte tag [4];
+		byte vers;
+		byte first_track;
+		byte init_addr [2];
+		byte banks [8];
+		byte data_tag [4];
+		byte size [4];
+		byte addr [4];
+		byte unused [4];
+	};
+	
+	// Header for currently loaded file
+	header_t const& header() const { return header_; }
+	
+	static gme_type_t static_type() { return gme_hes_type; }
+
+public:
+	Hes_Emu();
+	~Hes_Emu();
+protected:
+	blargg_err_t track_info_( track_info_t*, int track ) const;
+	blargg_err_t load_( Data_Reader& );
+	blargg_err_t start_track_( int );
+	blargg_err_t run_clocks( blip_time_t&, int );
+	void set_tempo_( double );
+	void set_voice( int, Blip_Buffer*, Blip_Buffer*, Blip_Buffer* );
+	void update_eq( blip_eq_t const& );
+	void unload();
+public: private: friend class Hes_Cpu;
+	byte* write_pages [page_count + 1]; // 0 if unmapped or I/O space
+	
+	int cpu_read_( hes_addr_t );
+	int cpu_read( hes_addr_t );
+	void cpu_write_( hes_addr_t, int data );
+	void cpu_write( hes_addr_t, int );
+	void cpu_write_vdp( int addr, int data );
+	byte const* cpu_set_mmr( int page, int bank );
+	int cpu_done();
+private:
+	Rom_Data<page_size> rom;
+	header_t header_;
+	hes_time_t play_period;
+	hes_time_t last_frame_hook;
+	int timer_base;
+	
+	struct {
+		hes_time_t last_time;
+		blargg_long count;
+		blargg_long load;
+		int raw_load;
+		byte enabled;
+		byte fired;
+	} timer;
+	
+	struct {
+		hes_time_t next_vbl;
+		byte latch;
+		byte control;
+	} vdp;
+	
+	struct {
+		hes_time_t timer;
+		hes_time_t vdp;
+		byte disables;
+	} irq;
+	
+	void recalc_timer_load();
+	
+	// large items
+	Hes_Apu apu;
+	byte sgx [3 * page_size + cpu_padding];
+	
+	void irq_changed();
+	void run_until( hes_time_t );
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Kss_Cpu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Kss_Cpu.cpp
new file mode 100644
index 00000000..dac483c1
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Kss_Cpu.cpp
@@ -0,0 +1,1706 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+/*
+Last validated with zexall 2006.11.14 2:19 PM
+* Doesn't implement the R register or immediate interrupt after EI.
+* Address wrap-around isn't completely correct, but is prevented from crashing emulator.
+*/
+
+#include "Kss_Cpu.h"
+
+#include "blargg_endian.h"
+#include <string.h>
+
+//#include "z80_cpu_log.h"
+
+/* Copyright (C) 2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#define SYNC_TIME()     (void) (s.time = s_time)
+#define RELOAD_TIME()   (void) (s_time = s.time)
+
+// Callbacks to emulator
+
+#define CPU_OUT( cpu, addr, data, time )\
+	kss_cpu_out( this, time, addr, data )
+
+#define CPU_IN( cpu, addr, time )\
+	kss_cpu_in( this, time, addr )
+
+#define CPU_WRITE( cpu, addr, data, time )\
+	(SYNC_TIME(), kss_cpu_write( this, addr, data ))
+
+#include "blargg_source.h"
+
+// flags, named with hex value for clarity
+int const S80 = 0x80;
+int const Z40 = 0x40;
+int const F20 = 0x20;
+int const H10 = 0x10;
+int const F08 = 0x08;
+int const V04 = 0x04;
+int const P04 = 0x04;
+int const N02 = 0x02;
+int const C01 = 0x01;
+
+#define SZ28P( n )  szpc [n]
+#define SZ28PC( n ) szpc [n]
+#define SZ28C( n )  (szpc [n] & ~P04)
+#define SZ28( n )   SZ28C( n )
+
+#define SET_R( n )  (void) (r.r = n)
+#define GET_R()     (r.r)
+
+Kss_Cpu::Kss_Cpu()
+{
+	state = &state_;
+	
+	for ( int i = 0x100; --i >= 0; )
+	{
+		int even = 1;
+		for ( int p = i; p; p >>= 1 )
+			even ^= p;
+		int n = (i & (S80 | F20 | F08)) | ((even & 1) * P04);
+		szpc [i] = n;
+		szpc [i + 0x100] = n | C01;
+	}
+	szpc [0x000] |= Z40;
+	szpc [0x100] |= Z40;
+}
+
+inline void Kss_Cpu::set_page( int i, void* write, void const* read )
+{
+	blargg_long offset = KSS_CPU_PAGE_OFFSET( i * (blargg_long) page_size );
+	state->write [i] = (byte      *) write - offset;
+	state->read  [i] = (byte const*) read  - offset;
+}
+
+void Kss_Cpu::reset( void* unmapped_write, void const* unmapped_read )
+{
+	check( state == &state_ );
+	state = &state_;
+	state_.time = 0;
+	state_.base = 0;
+	end_time_   = 0;
+	
+	for ( int i = 0; i < page_count + 1; i++ )
+		set_page( i, unmapped_write, unmapped_read );
+	
+	memset( &r, 0, sizeof r );
+}
+
+void Kss_Cpu::map_mem( unsigned addr, blargg_ulong size, void* write, void const* read )
+{
+	// address range must begin and end on page boundaries
+	require( addr % page_size == 0 );
+	require( size % page_size == 0 );
+	
+	unsigned first_page = addr / page_size;
+	for ( unsigned i = size / page_size; i--; )
+	{
+		blargg_long offset = i * (blargg_long) page_size;
+		set_page( first_page + i, (byte*) write + offset, (byte const*) read + offset );
+	}
+}
+
+#define TIME                        (s_time + s.base)
+#define RW_MEM( addr, rw )          (s.rw [(addr) >> page_shift] [KSS_CPU_PAGE_OFFSET( addr )])
+#define READ_PROG( addr )           RW_MEM( addr, read )
+#define READ( addr )                READ_PROG( addr )
+//#define WRITE( addr, data )       (void) (RW_MEM( addr, write ) = data)
+#define WRITE( addr, data )         CPU_WRITE( this, addr, data, TIME )
+#define READ_WORD( addr )           GET_LE16( &READ( addr ) )
+#define WRITE_WORD( addr, data )    SET_LE16( &RW_MEM( addr, write ), data )
+#define IN( addr )                  CPU_IN( this, addr, TIME )
+#define OUT( addr, data )           CPU_OUT( this, addr, data, TIME )
+
+#if BLARGG_BIG_ENDIAN
+	#define R8( n, offset ) ((r8_ - offset) [n]) 
+#elif BLARGG_LITTLE_ENDIAN
+	#define R8( n, offset ) ((r8_ - offset) [(n) ^ 1]) 
+#else
+	#error "Byte order of CPU must be known"
+#endif
+
+//#define R16( n, shift, offset )   (r16_ [((n) >> shift) - (offset >> shift)])
+
+// help compiler see that it can just adjust stack offset, saving an extra instruction
+#define R16( n, shift, offset )\
+	(*(uint16_t*) ((char*) r16_ - (offset >> (shift - 1)) + ((n) >> (shift - 1))))
+
+#define CASE5( a, b, c, d, e          ) case 0x##a:case 0x##b:case 0x##c:case 0x##d:case 0x##e
+#define CASE6( a, b, c, d, e, f       ) CASE5( a, b, c, d, e       ): case 0x##f
+#define CASE7( a, b, c, d, e, f, g    ) CASE6( a, b, c, d, e, f    ): case 0x##g
+#define CASE8( a, b, c, d, e, f, g, h ) CASE7( a, b, c, d, e, f, g ): case 0x##h
+
+// high four bits are $ED time - 8, low four bits are $DD/$FD time - 8
+static byte const ed_dd_timing [0x100] = {
+//0    1    2    3    4    5    6    7    8    9    A    B    C    D    E    F
+0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x07,0x00,0x00,0x00,0x00,0x00,0x00,
+0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x07,0x00,0x00,0x00,0x00,0x00,0x00,
+0x00,0x06,0x0C,0x02,0x00,0x00,0x03,0x00,0x00,0x07,0x0C,0x02,0x00,0x00,0x03,0x00,
+0x00,0x00,0x00,0x00,0x0F,0x0F,0x0B,0x00,0x00,0x07,0x00,0x00,0x00,0x00,0x00,0x00,
+0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0x10,0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0x10,
+0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0x10,0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0x10,
+0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0xA0,0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0xA0,
+0x4B,0x4B,0x7B,0xCB,0x0B,0x6B,0x00,0x0B,0x40,0x40,0x70,0xC0,0x00,0x60,0x0B,0x00,
+0x00,0x00,0x00,0x00,0x00,0x00,0x0B,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x0B,0x00,
+0x00,0x00,0x00,0x00,0x00,0x00,0x0B,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x0B,0x00,
+0x80,0x80,0x80,0x80,0x00,0x00,0x0B,0x00,0x80,0x80,0x80,0x80,0x00,0x00,0x0B,0x00,
+0xD0,0xD0,0xD0,0xD0,0x00,0x00,0x0B,0x00,0xD0,0xD0,0xD0,0xD0,0x00,0x00,0x0B,0x00,
+0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x0F,0x00,0x00,0x00,0x00,
+0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
+0x00,0x06,0x00,0x0F,0x00,0x07,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
+0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x02,0x00,0x00,0x00,0x00,0x00,0x00,
+};
+
+// even on x86, using short and unsigned char was slower
+typedef int         fint16;
+typedef unsigned    fuint16;
+typedef unsigned    fuint8;
+
+bool Kss_Cpu::run( cpu_time_t end_time )
+{
+	set_end_time( end_time );
+	state_t s = this->state_;
+	this->state = &s;
+	bool warning = false;
+	
+	typedef BOOST::int8_t int8_t;
+	
+	union {
+		regs_t rg;
+		pairs_t rp;
+		uint8_t r8_ [8]; // indexed
+		uint16_t r16_ [4];
+	};
+	rg = this->r.b;
+	
+	cpu_time_t s_time = s.time;
+	fuint16 pc = r.pc;
+	fuint16 sp = r.sp;
+	fuint16 ix = r.ix; // TODO: keep in memory for direct access?
+	fuint16 iy = r.iy;
+	int flags = r.b.flags;
+	
+	goto loop;
+jr_not_taken:
+	s_time -= 5;
+	goto loop;
+call_not_taken:
+	s_time -= 7; 
+jp_not_taken:
+	pc += 2;
+loop:
+	
+	check( (unsigned long) pc < 0x10000 );
+	check( (unsigned long) sp < 0x10000 );
+	check( (unsigned) flags < 0x100 );
+	check( (unsigned) ix < 0x10000 );
+	check( (unsigned) iy < 0x10000 );
+	
+	uint8_t const* instr = s.read [pc >> page_shift];
+#define GET_ADDR()  GET_LE16( instr )
+	
+	fuint8 opcode;
+	
+	// TODO: eliminate this special case
+	#if BLARGG_NONPORTABLE
+		opcode = instr [pc];
+		pc++;
+		instr += pc;
+	#else
+		instr += KSS_CPU_PAGE_OFFSET( pc );
+		opcode = *instr++;
+		pc++;
+	#endif
+	
+	static byte const base_timing [0x100] = {
+	//   0  1  2  3  4  5  6  7  8  9  A  B  C  D  E  F
+		 4,10, 7, 6, 4, 4, 7, 4, 4,11, 7, 6, 4, 4, 7, 4, // 0
+		13,10, 7, 6, 4, 4, 7, 4,12,11, 7, 6, 4, 4, 7, 4, // 1
+		12,10,16, 6, 4, 4, 7, 4,12,11,16, 6, 4, 4, 7, 4, // 2
+		12,10,13, 6,11,11,10, 4,12,11,13, 6, 4, 4, 7, 4, // 3
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // 4
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // 5
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // 6
+		 7, 7, 7, 7, 7, 7, 4, 7, 4, 4, 4, 4, 4, 4, 7, 4, // 7
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // 8
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // 9
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // A
+		 4, 4, 4, 4, 4, 4, 7, 4, 4, 4, 4, 4, 4, 4, 7, 4, // B
+		11,10,10,10,17,11, 7,11,11,10,10, 8,17,17, 7,11, // C
+		11,10,10,11,17,11, 7,11,11, 4,10,11,17, 8, 7,11, // D
+		11,10,10,19,17,11, 7,11,11, 4,10, 4,17, 8, 7,11, // E
+		11,10,10, 4,17,11, 7,11,11, 6,10, 4,17, 8, 7,11, // F
+	};
+	
+	fuint16 data;
+	data = base_timing [opcode];
+	if ( (s_time += data) >= 0 )
+		goto possibly_out_of_time;
+almost_out_of_time:
+	
+	data = READ_PROG( pc );
+	
+	#ifdef Z80_CPU_LOG_H
+		//log_opcode( opcode, READ_PROG( pc ) );
+		z80_log_regs( rg.a, rp.bc, rp.de, rp.hl, sp, ix, iy );
+		z80_cpu_log( "new", pc - 1, opcode, READ_PROG( pc ),
+				READ_PROG( pc + 1 ), READ_PROG( pc + 2 ) );
+	#endif
+	
+	switch ( opcode )
+	{
+possibly_out_of_time:
+		if ( s_time < (int) data )
+			goto almost_out_of_time;
+		s_time -= data;
+		goto out_of_time;
+
+// Common
+
+	case 0x00: // NOP
+	CASE7( 40, 49, 52, 5B, 64, 6D, 7F ): // LD B,B etc.
+		goto loop;
+	
+	case 0x08:{// EX AF,AF'
+		int temp = r.alt.b.a;
+		r.alt.b.a = rg.a;
+		rg.a = temp;
+		
+		temp = r.alt.b.flags;
+		r.alt.b.flags = flags;
+		flags = temp;
+		goto loop;
+	}
+	
+	case 0xD3: // OUT (imm),A
+		pc++;
+		OUT( data + rg.a * 0x100, rg.a );
+		goto loop;
+		
+	case 0x2E: // LD L,imm
+		pc++;
+		rg.l = data;
+		goto loop;
+	
+	case 0x3E: // LD A,imm
+		pc++;
+		rg.a = data;
+		goto loop;
+	
+	case 0x3A:{// LD A,(addr)
+		fuint16 addr = GET_ADDR();
+		pc += 2;
+		rg.a = READ( addr );
+		goto loop;
+	}
+	
+// Conditional
+
+#define ZERO    (flags & Z40)
+#define CARRY   (flags & C01)
+#define EVEN    (flags & P04)
+#define MINUS   (flags & S80)
+
+// JR
+// TODO: more efficient way to handle negative branch that wraps PC around
+#define JR( cond ) {\
+	int offset = (BOOST::int8_t) data;\
+	pc++;\
+	if ( !(cond) )\
+		goto jr_not_taken;\
+	pc = uint16_t (pc + offset);\
+	goto loop;\
+}
+	
+	case 0x20: JR( !ZERO  ) // JR NZ,disp
+	case 0x28: JR(  ZERO  ) // JR Z,disp
+	case 0x30: JR( !CARRY ) // JR NC,disp
+	case 0x38: JR(  CARRY ) // JR C,disp
+	case 0x18: JR(  true  ) // JR disp
+
+	case 0x10:{// DJNZ disp
+		int temp = rg.b - 1;
+		rg.b = temp;
+		JR( temp )
+	}
+	
+// JP
+#define JP( cond )  if ( !(cond) ) goto jp_not_taken; pc = GET_ADDR(); goto loop;
+	
+	case 0xC2: JP( !ZERO  ) // JP NZ,addr
+	case 0xCA: JP(  ZERO  ) // JP Z,addr
+	case 0xD2: JP( !CARRY ) // JP NC,addr
+	case 0xDA: JP(  CARRY ) // JP C,addr
+	case 0xE2: JP( !EVEN  ) // JP PO,addr
+	case 0xEA: JP(  EVEN  ) // JP PE,addr
+	case 0xF2: JP( !MINUS ) // JP P,addr
+	case 0xFA: JP(  MINUS ) // JP M,addr
+	
+	case 0xC3: // JP addr
+		pc = GET_ADDR();
+		goto loop;
+	
+	case 0xE9: // JP HL
+		pc = rp.hl;
+		goto loop;
+
+// RET
+#define RET( cond ) if ( cond ) goto ret_taken; s_time -= 6; goto loop;
+	
+	case 0xC0: RET( !ZERO  ) // RET NZ
+	case 0xC8: RET(  ZERO  ) // RET Z
+	case 0xD0: RET( !CARRY ) // RET NC
+	case 0xD8: RET(  CARRY ) // RET C
+	case 0xE0: RET( !EVEN  ) // RET PO
+	case 0xE8: RET(  EVEN  ) // RET PE
+	case 0xF0: RET( !MINUS ) // RET P
+	case 0xF8: RET(  MINUS ) // RET M
+	
+	case 0xC9: // RET
+	ret_taken:
+		pc = READ_WORD( sp );
+		sp = uint16_t (sp + 2);
+		goto loop;
+	
+// CALL
+#define CALL( cond ) if ( cond ) goto call_taken; goto call_not_taken;
+
+	case 0xC4: CALL( !ZERO  ) // CALL NZ,addr
+	case 0xCC: CALL(  ZERO  ) // CALL Z,addr
+	case 0xD4: CALL( !CARRY ) // CALL NC,addr
+	case 0xDC: CALL(  CARRY ) // CALL C,addr
+	case 0xE4: CALL( !EVEN  ) // CALL PO,addr
+	case 0xEC: CALL(  EVEN  ) // CALL PE,addr
+	case 0xF4: CALL( !MINUS ) // CALL P,addr
+	case 0xFC: CALL(  MINUS ) // CALL M,addr
+	
+	case 0xCD:{// CALL addr
+	call_taken:
+		fuint16 addr = pc + 2;
+		pc = GET_ADDR();
+		sp = uint16_t (sp - 2);
+		WRITE_WORD( sp, addr );
+		goto loop;
+	}
+	
+	case 0xFF: // RST
+		if ( pc > idle_addr )
+			goto hit_idle_addr;
+	CASE7( C7, CF, D7, DF, E7, EF, F7 ):
+		data = pc;
+		pc = opcode & 0x38;
+		goto push_data;
+
+// PUSH/POP
+	case 0xF5: // PUSH AF
+		data = rg.a * 0x100u + flags;
+		goto push_data;
+	
+	case 0xC5: // PUSH BC
+	case 0xD5: // PUSH DE
+	case 0xE5: // PUSH HL
+		data = R16( opcode, 4, 0xC5 );
+	push_data:
+		sp = uint16_t (sp - 2);
+		WRITE_WORD( sp, data );
+		goto loop;
+	
+	case 0xF1: // POP AF
+		flags = READ( sp );
+		rg.a = READ( sp + 1 );
+		sp = uint16_t (sp + 2);
+		goto loop;
+	
+	case 0xC1: // POP BC
+	case 0xD1: // POP DE
+	case 0xE1: // POP HL
+		R16( opcode, 4, 0xC1 ) = READ_WORD( sp );
+		sp = uint16_t (sp + 2);
+		goto loop;
+	
+// ADC/ADD/SBC/SUB
+	case 0x96: // SUB (HL)
+	case 0x86: // ADD (HL)
+		flags &= ~C01;
+	case 0x9E: // SBC (HL)
+	case 0x8E: // ADC (HL)
+		data = READ( rp.hl );
+		goto adc_data;
+	
+	case 0xD6: // SUB A,imm
+	case 0xC6: // ADD imm
+		flags &= ~C01;
+	case 0xDE: // SBC A,imm
+	case 0xCE: // ADC imm
+		pc++;
+		goto adc_data;
+	
+	CASE7( 90, 91, 92, 93, 94, 95, 97 ): // SUB r
+	CASE7( 80, 81, 82, 83, 84, 85, 87 ): // ADD r
+		flags &= ~C01;
+	CASE7( 98, 99, 9A, 9B, 9C, 9D, 9F ): // SBC r
+	CASE7( 88, 89, 8A, 8B, 8C, 8D, 8F ): // ADC r
+		data = R8( opcode & 7, 0 );
+	adc_data: {
+		int result = data + (flags & C01);
+		data ^= rg.a;
+		flags = opcode >> 3 & N02; // bit 4 is set in subtract opcodes
+		if ( flags )
+			result = -result;
+		result += rg.a;
+		data ^= result;
+		flags |=(data & H10) |
+				((data - -0x80) >> 6 & V04) |
+				SZ28C( result & 0x1FF );
+		rg.a = result;
+		goto loop;
+	}
+
+// CP
+	case 0xBE: // CP (HL)
+		data = READ( rp.hl );
+		goto cp_data;
+	
+	case 0xFE: // CP imm
+		pc++;
+		goto cp_data;
+	
+	CASE7( B8, B9, BA, BB, BC, BD, BF ): // CP r
+		data = R8( opcode, 0xB8 );
+	cp_data: {
+		int result = rg.a - data;
+		flags = N02 | (data & (F20 | F08)) | (result >> 8 & C01);
+		data ^= rg.a;
+		flags |=(((result ^ rg.a) & data) >> 5 & V04) |
+				(((data & H10) ^ result) & (S80 | H10));
+		if ( (uint8_t) result )
+			goto loop;
+		flags |= Z40;
+		goto loop;
+	}
+	
+// ADD HL,rp
+	
+	case 0x39: // ADD HL,SP
+		data = sp;
+		goto add_hl_data;
+	
+	case 0x09: // ADD HL,BC
+	case 0x19: // ADD HL,DE
+	case 0x29: // ADD HL,HL
+		data = R16( opcode, 4, 0x09 );
+	add_hl_data: {
+		blargg_ulong sum = rp.hl + data;
+		data ^= rp.hl;
+		rp.hl = sum;
+		flags = (flags & (S80 | Z40 | V04)) |
+				(sum >> 16) |
+				(sum >> 8 & (F20 | F08)) |
+				((data ^ sum) >> 8 & H10);
+		goto loop;
+	}
+	
+	case 0x27:{// DAA
+		int a = rg.a;
+		if ( a > 0x99 )
+			flags |= C01;
+		
+		int adjust = 0x60 & -(flags & C01);
+		
+		if ( flags & H10 || (a & 0x0F) > 9 )
+			adjust |= 0x06;
+		
+		if ( flags & N02 )
+			adjust = -adjust;
+		a += adjust;
+		
+		flags = (flags & (C01 | N02)) |
+				((rg.a ^ a) & H10) |
+				SZ28P( (uint8_t) a );
+		rg.a = a;
+		goto loop;
+	}
+	/*
+	case 0x27:{// DAA
+		// more optimized, but probably not worth the obscurity
+		int f = (rg.a + (0xFF - 0x99)) >> 8 | flags; // (a > 0x99 ? C01 : 0) | flags
+		int adjust = 0x60 & -(f & C01); // f & C01 ? 0x60 : 0
+		
+		if ( (((rg.a + (0x0F - 9)) ^ rg.a) | f) & H10 ) // flags & H10 || (rg.a & 0x0F) > 9
+			adjust |= 0x06;
+		
+		if ( f & N02 )
+			adjust = -adjust;
+		int a = rg.a + adjust;
+		
+		flags = (f & (N02 | C01)) | ((rg.a ^ a) & H10) | SZ28P( (uint8_t) a );
+		rg.a = a;
+		goto loop;
+	}
+	*/
+	
+// INC/DEC
+	case 0x34: // INC (HL)
+		data = READ( rp.hl ) + 1;
+		WRITE( rp.hl, data );
+		goto inc_set_flags;
+	
+	CASE7( 04, 0C, 14, 1C, 24, 2C, 3C ): // INC r
+		data = ++R8( opcode >> 3, 0 );
+	inc_set_flags:
+		flags = (flags & C01) |
+				(((data & 0x0F) - 1) & H10) |
+				SZ28( (uint8_t) data );
+		if ( data != 0x80 )
+			goto loop;
+		flags |= V04;
+		goto loop;
+	
+	case 0x35: // DEC (HL)
+		data = READ( rp.hl ) - 1;
+		WRITE( rp.hl, data );
+		goto dec_set_flags;
+	
+	CASE7( 05, 0D, 15, 1D, 25, 2D, 3D ): // DEC r
+		data = --R8( opcode >> 3, 0 );
+	dec_set_flags:
+		flags = (flags & C01) | N02 |
+				(((data & 0x0F) + 1) & H10) |
+				SZ28( (uint8_t) data );
+		if ( data != 0x7F )
+			goto loop;
+		flags |= V04;
+		goto loop;
+
+	case 0x03: // INC BC
+	case 0x13: // INC DE
+	case 0x23: // INC HL
+		R16( opcode, 4, 0x03 )++;
+		goto loop;
+	
+	case 0x33: // INC SP
+		sp = uint16_t (sp + 1);
+		goto loop;
+	
+	case 0x0B: // DEC BC
+	case 0x1B: // DEC DE
+	case 0x2B: // DEC HL
+		R16( opcode, 4, 0x0B )--;
+		goto loop;
+	
+	case 0x3B: // DEC SP
+		sp = uint16_t (sp - 1);
+		goto loop;
+	
+// AND
+	case 0xA6: // AND (HL)
+		data = READ( rp.hl );
+		goto and_data;
+	
+	case 0xE6: // AND imm
+		pc++;
+		goto and_data;
+	
+	CASE7( A0, A1, A2, A3, A4, A5, A7 ): // AND r
+		data = R8( opcode, 0xA0 );
+	and_data:
+		rg.a &= data;
+		flags = SZ28P( rg.a ) | H10;
+		goto loop;
+	
+// OR
+	case 0xB6: // OR (HL)
+		data = READ( rp.hl );
+		goto or_data;
+	
+	case 0xF6: // OR imm
+		pc++;
+		goto or_data;
+	
+	CASE7( B0, B1, B2, B3, B4, B5, B7 ): // OR r
+		data = R8( opcode, 0xB0 );
+	or_data:
+		rg.a |= data;
+		flags = SZ28P( rg.a );
+		goto loop;
+
+// XOR
+	case 0xAE: // XOR (HL)
+		data = READ( rp.hl );
+		goto xor_data;
+	
+	case 0xEE: // XOR imm
+		pc++;
+		goto xor_data;
+	
+	CASE7( A8, A9, AA, AB, AC, AD, AF ): // XOR r
+		data = R8( opcode, 0xA8 );
+	xor_data:
+		rg.a ^= data;
+		flags = SZ28P( rg.a );
+		goto loop;
+
+// LD
+	CASE7( 70, 71, 72, 73, 74, 75, 77 ): // LD (HL),r
+		WRITE( rp.hl, R8( opcode, 0x70 ) );
+		goto loop;
+	
+	CASE6( 41, 42, 43, 44, 45, 47 ): // LD B,r
+	CASE6( 48, 4A, 4B, 4C, 4D, 4F ): // LD C,r
+	CASE6( 50, 51, 53, 54, 55, 57 ): // LD D,r
+	CASE6( 58, 59, 5A, 5C, 5D, 5F ): // LD E,r
+	CASE6( 60, 61, 62, 63, 65, 67 ): // LD H,r
+	CASE6( 68, 69, 6A, 6B, 6C, 6F ): // LD L,r
+	CASE6( 78, 79, 7A, 7B, 7C, 7D ): // LD A,r
+		R8( opcode >> 3 & 7, 0 ) = R8( opcode & 7, 0 );
+		goto loop;
+	
+	CASE5( 06, 0E, 16, 1E, 26 ): // LD r,imm
+		R8( opcode >> 3, 0 ) = data;
+		pc++;
+		goto loop;
+	
+	case 0x36: // LD (HL),imm
+		pc++;
+		WRITE( rp.hl, data );
+		goto loop;
+	
+	CASE7( 46, 4E, 56, 5E, 66, 6E, 7E ): // LD r,(HL)
+		R8( opcode >> 3, 8 ) = READ( rp.hl );
+		goto loop;
+	
+	case 0x01: // LD rp,imm
+	case 0x11:
+	case 0x21:
+		R16( opcode, 4, 0x01 ) = GET_ADDR();
+		pc += 2;
+		goto loop;
+	
+	case 0x31: // LD sp,imm
+		sp = GET_ADDR();
+		pc += 2;
+		goto loop;
+	
+	case 0x2A:{// LD HL,(addr)
+		fuint16 addr = GET_ADDR();
+		pc += 2;
+		rp.hl = READ_WORD( addr );
+		goto loop;
+	}
+	
+	case 0x32:{// LD (addr),A
+		fuint16 addr = GET_ADDR();
+		pc += 2;
+		WRITE( addr, rg.a );
+		goto loop;
+	}
+	
+	case 0x22:{// LD (addr),HL
+		fuint16 addr = GET_ADDR();
+		pc += 2;
+		WRITE_WORD( addr, rp.hl );
+		goto loop;
+	}
+	
+	case 0x02: // LD (BC),A
+	case 0x12: // LD (DE),A
+		WRITE( R16( opcode, 4, 0x02 ), rg.a );
+		goto loop;
+	
+	case 0x0A: // LD A,(BC)
+	case 0x1A: // LD A,(DE)
+		rg.a = READ( R16( opcode, 4, 0x0A ) );
+		goto loop;
+	
+	case 0xF9: // LD SP,HL
+		sp = rp.hl;
+		goto loop;
+	
+// Rotate
+	
+	case 0x07:{// RLCA
+		fuint16 temp = rg.a;
+		temp = (temp << 1) | (temp >> 7);
+		flags = (flags & (S80 | Z40 | P04)) |
+				(temp & (F20 | F08 | C01));
+		rg.a = temp;
+		goto loop;
+	}
+	
+	case 0x0F:{// RRCA
+		fuint16 temp = rg.a;
+		flags = (flags & (S80 | Z40 | P04)) |
+				(temp & C01);
+		temp = (temp << 7) | (temp >> 1);
+		flags |= temp & (F20 | F08);
+		rg.a = temp;
+		goto loop;
+	}
+	
+	case 0x17:{// RLA
+		blargg_ulong temp = (rg.a << 1) | (flags & C01);
+		flags = (flags & (S80 | Z40 | P04)) |
+				(temp & (F20 | F08)) |
+				(temp >> 8);
+		rg.a = temp;
+		goto loop;
+	}
+	
+	case 0x1F:{// RRA
+		fuint16 temp = (flags << 7) | (rg.a >> 1);
+		flags = (flags & (S80 | Z40 | P04)) |
+				(temp & (F20 | F08)) |
+				(rg.a & C01);
+		rg.a = temp;
+		goto loop;
+	}
+	
+// Misc
+	case 0x2F:{// CPL
+		fuint16 temp = ~rg.a;
+		flags = (flags & (S80 | Z40 | P04 | C01)) |
+				(temp & (F20 | F08)) |
+				(H10 | N02);
+		rg.a = temp;
+		goto loop;
+	}
+	
+	case 0x3F:{// CCF
+		flags = ((flags & (S80 | Z40 | P04 | C01)) ^ C01) |
+				(flags << 4 & H10) |
+				(rg.a & (F20 | F08));
+		goto loop;
+	}
+	
+	case 0x37: // SCF
+		flags = (flags & (S80 | Z40 | P04)) | C01 |
+				(rg.a & (F20 | F08));
+		goto loop;
+	
+	case 0xDB: // IN A,(imm)
+		pc++;
+		rg.a = IN( data + rg.a * 0x100 );
+		goto loop;
+
+	case 0xE3:{// EX (SP),HL
+		fuint16 temp = READ_WORD( sp );
+		WRITE_WORD( sp, rp.hl );
+		rp.hl = temp;
+		goto loop;
+	}
+	
+	case 0xEB:{// EX DE,HL
+		fuint16 temp = rp.hl;
+		rp.hl = rp.de;
+		rp.de = temp;
+		goto loop;
+	}
+	
+	case 0xD9:{// EXX DE,HL
+		fuint16 temp = r.alt.w.bc;
+		r.alt.w.bc = rp.bc;
+		rp.bc = temp;
+		
+		temp = r.alt.w.de;
+		r.alt.w.de = rp.de;
+		rp.de = temp;
+		
+		temp = r.alt.w.hl;
+		r.alt.w.hl = rp.hl;
+		rp.hl = temp;
+		goto loop;
+	}
+	
+	case 0xF3: // DI
+		r.iff1 = 0;
+		r.iff2 = 0;
+		goto loop;
+	
+	case 0xFB: // EI
+		r.iff1 = 1;
+		r.iff2 = 1;
+		// TODO: delayed effect
+		goto loop;
+	
+	case 0x76: // HALT
+		goto halt;
+	
+//////////////////////////////////////// CB prefix
+	{
+	case 0xCB:
+		unsigned data2;
+		data2 = instr [1];
+		pc++;
+		switch ( data )
+		{
+	
+	// Rotate left
+		
+	#define RLC( read, write ) {\
+		fuint8 result = read;\
+		result = uint8_t (result << 1) | (result >> 7);\
+		flags = SZ28P( result ) | (result & C01);\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x06: // RLC (HL)
+			s_time += 7;
+			data = rp.hl;
+		rlc_data_addr:
+			RLC( READ( data ), WRITE( data, result ) )
+		
+		CASE7( 00, 01, 02, 03, 04, 05, 07 ):{// RLC r
+			uint8_t& reg = R8( data, 0 );
+			RLC( reg, reg = result )
+		}
+		
+	#define RL( read, write ) {\
+		fuint16 result = (read << 1) | (flags & C01);\
+		flags = SZ28PC( result );\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x16: // RL (HL)
+			s_time += 7;
+			data = rp.hl;
+		rl_data_addr:
+			RL( READ( data ), WRITE( data, result ) )
+		
+		CASE7( 10, 11, 12, 13, 14, 15, 17 ):{// RL r
+			uint8_t& reg = R8( data, 0x10 );
+			RL( reg, reg = result )
+		}
+		
+	#define SLA( read, add, write ) {\
+		fuint16 result = (read << 1) | add;\
+		flags = SZ28PC( result );\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x26: // SLA (HL)
+			s_time += 7;
+			data = rp.hl;
+		sla_data_addr:
+			SLA( READ( data ), 0, WRITE( data, result ) )
+		
+		CASE7( 20, 21, 22, 23, 24, 25, 27 ):{// SLA r
+			uint8_t& reg = R8( data, 0x20 );
+			SLA( reg, 0, reg = result )
+		}
+		
+		case 0x36: // SLL (HL)
+			s_time += 7;
+			data = rp.hl;
+		sll_data_addr:
+			SLA( READ( data ), 1, WRITE( data, result ) )
+		
+		CASE7( 30, 31, 32, 33, 34, 35, 37 ):{// SLL r
+			uint8_t& reg = R8( data, 0x30 );
+			SLA( reg, 1, reg = result )
+		}
+		
+	// Rotate right
+		
+	#define RRC( read, write ) {\
+		fuint8 result = read;\
+		flags = result & C01;\
+		result = uint8_t (result << 7) | (result >> 1);\
+		flags |= SZ28P( result );\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x0E: // RRC (HL)
+			s_time += 7;
+			data = rp.hl;
+		rrc_data_addr:
+			RRC( READ( data ), WRITE( data, result ) )
+		
+		CASE7( 08, 09, 0A, 0B, 0C, 0D, 0F ):{// RRC r
+			uint8_t& reg = R8( data, 0x08 );
+			RRC( reg, reg = result )
+		}
+		
+	#define RR( read, write ) {\
+		fuint8 result = read;\
+		fuint8 temp = result & C01;\
+		result = uint8_t (flags << 7) | (result >> 1);\
+		flags = SZ28P( result ) | temp;\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x1E: // RR (HL)
+			s_time += 7;
+			data = rp.hl;
+		rr_data_addr:
+			RR( READ( data ), WRITE( data, result ) )
+		
+		CASE7( 18, 19, 1A, 1B, 1C, 1D, 1F ):{// RR r
+			uint8_t& reg = R8( data, 0x18 );
+			RR( reg, reg = result )
+		}
+		
+	#define SRA( read, write ) {\
+		fuint8 result = read;\
+		flags = result & C01;\
+		result = (result & 0x80) | (result >> 1);\
+		flags |= SZ28P( result );\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x2E: // SRA (HL)
+			data = rp.hl;
+			s_time += 7;
+		sra_data_addr:
+			SRA( READ( data ), WRITE( data, result ) )
+		
+		CASE7( 28, 29, 2A, 2B, 2C, 2D, 2F ):{// SRA r
+			uint8_t& reg = R8( data, 0x28 );
+			SRA( reg, reg = result )
+		}
+		
+	#define SRL( read, write ) {\
+		fuint8 result = read;\
+		flags = result & C01;\
+		result >>= 1;\
+		flags |= SZ28P( result );\
+		write;\
+		goto loop;\
+	}
+		
+		case 0x3E: // SRL (HL)
+			s_time += 7;
+			data = rp.hl;
+		srl_data_addr:
+			SRL( READ( data ), WRITE( data, result ) )
+		
+		CASE7( 38, 39, 3A, 3B, 3C, 3D, 3F ):{// SRL r
+			uint8_t& reg = R8( data, 0x38 );
+			SRL( reg, reg = result )
+		}
+		
+	// BIT
+		{
+			unsigned temp;
+		CASE8( 46, 4E, 56, 5E, 66, 6E, 76, 7E ): // BIT b,(HL)
+			s_time += 4;
+			temp = READ( rp.hl );
+			flags &= C01;
+			goto bit_temp;
+		CASE7( 40, 41, 42, 43, 44, 45, 47 ): // BIT 0,r
+		CASE7( 48, 49, 4A, 4B, 4C, 4D, 4F ): // BIT 1,r
+		CASE7( 50, 51, 52, 53, 54, 55, 57 ): // BIT 2,r
+		CASE7( 58, 59, 5A, 5B, 5C, 5D, 5F ): // BIT 3,r
+		CASE7( 60, 61, 62, 63, 64, 65, 67 ): // BIT 4,r
+		CASE7( 68, 69, 6A, 6B, 6C, 6D, 6F ): // BIT 5,r
+		CASE7( 70, 71, 72, 73, 74, 75, 77 ): // BIT 6,r
+		CASE7( 78, 79, 7A, 7B, 7C, 7D, 7F ): // BIT 7,r
+			temp = R8( data & 7, 0 );
+			flags = (flags & C01) | (temp & (F20 | F08));
+		bit_temp:
+			int masked = temp & 1 << (data >> 3 & 7);
+			flags |=(masked & S80) | H10 |
+					((masked - 1) >> 8 & (Z40 | P04));
+			goto loop;
+		}
+		
+	// SET/RES
+		CASE8( 86, 8E, 96, 9E, A6, AE, B6, BE ): // RES b,(HL)
+		CASE8( C6, CE, D6, DE, E6, EE, F6, FE ):{// SET b,(HL)
+			s_time += 7;
+			int temp = READ( rp.hl );
+			int bit = 1 << (data >> 3 & 7);
+			temp |= bit; // SET
+			if ( !(data & 0x40) )
+				temp ^= bit; // RES
+			WRITE( rp.hl, temp );
+			goto loop;
+		}
+		
+		CASE7( C0, C1, C2, C3, C4, C5, C7 ): // SET 0,r
+		CASE7( C8, C9, CA, CB, CC, CD, CF ): // SET 1,r
+		CASE7( D0, D1, D2, D3, D4, D5, D7 ): // SET 2,r
+		CASE7( D8, D9, DA, DB, DC, DD, DF ): // SET 3,r
+		CASE7( E0, E1, E2, E3, E4, E5, E7 ): // SET 4,r
+		CASE7( E8, E9, EA, EB, EC, ED, EF ): // SET 5,r
+		CASE7( F0, F1, F2, F3, F4, F5, F7 ): // SET 6,r
+		CASE7( F8, F9, FA, FB, FC, FD, FF ): // SET 7,r
+			R8( data & 7, 0 ) |= 1 << (data >> 3 & 7);
+			goto loop;
+		
+		CASE7( 80, 81, 82, 83, 84, 85, 87 ): // RES 0,r
+		CASE7( 88, 89, 8A, 8B, 8C, 8D, 8F ): // RES 1,r
+		CASE7( 90, 91, 92, 93, 94, 95, 97 ): // RES 2,r
+		CASE7( 98, 99, 9A, 9B, 9C, 9D, 9F ): // RES 3,r
+		CASE7( A0, A1, A2, A3, A4, A5, A7 ): // RES 4,r
+		CASE7( A8, A9, AA, AB, AC, AD, AF ): // RES 5,r
+		CASE7( B0, B1, B2, B3, B4, B5, B7 ): // RES 6,r
+		CASE7( B8, B9, BA, BB, BC, BD, BF ): // RES 7,r
+			R8( data & 7, 0 ) &= ~(1 << (data >> 3 & 7));
+			goto loop;
+		}
+		assert( false );
+	}
+
+#undef GET_ADDR
+#define GET_ADDR()  GET_LE16( instr + 1 )
+
+//////////////////////////////////////// ED prefix
+	{
+	case 0xED:
+		pc++;
+		s_time += ed_dd_timing [data] >> 4;
+		switch ( data )
+		{
+		{
+			blargg_ulong temp;
+		case 0x72: // SBC HL,SP
+		case 0x7A: // ADC HL,SP
+			temp = sp;
+			if ( 0 )
+		case 0x42: // SBC HL,BC
+		case 0x52: // SBC HL,DE
+		case 0x62: // SBC HL,HL
+		case 0x4A: // ADC HL,BC
+		case 0x5A: // ADC HL,DE
+		case 0x6A: // ADC HL,HL
+				temp = R16( data >> 3 & 6, 1, 0 );
+			blargg_ulong sum = temp + (flags & C01);
+			flags = ~data >> 2 & N02;
+			if ( flags )
+				sum = -sum;
+			sum += rp.hl;
+			temp ^= rp.hl;
+			temp ^= sum;
+			flags |=(sum >> 16 & C01) |
+					(temp >> 8 & H10) |
+					(sum >> 8 & (S80 | F20 | F08)) |
+					((temp - -0x8000) >> 14 & V04);
+			rp.hl = sum;
+			if ( (uint16_t) sum )
+				goto loop;
+			flags |= Z40;
+			goto loop;
+		}
+		
+		CASE8( 40, 48, 50, 58, 60, 68, 70, 78 ):{// IN r,(C)
+			int temp = IN( rp.bc );
+			R8( data >> 3, 8 ) = temp;
+			flags = (flags & C01) | SZ28P( temp );
+			goto loop;
+		}
+		
+		case 0x71: // OUT (C),0
+			rg.flags = 0;
+		CASE7( 41, 49, 51, 59, 61, 69, 79 ): // OUT (C),r
+			OUT( rp.bc, R8( data >> 3, 8 ) );
+			goto loop;
+		
+		{
+			unsigned temp;
+		case 0x73: // LD (ADDR),SP
+			temp = sp;
+			if ( 0 )
+		case 0x43: // LD (ADDR),BC
+		case 0x53: // LD (ADDR),DE
+				temp = R16( data, 4, 0x43 );
+			fuint16 addr = GET_ADDR();
+			pc += 2;
+			WRITE_WORD( addr, temp );
+			goto loop;
+		}
+		
+		case 0x4B: // LD BC,(ADDR)
+		case 0x5B:{// LD DE,(ADDR)
+			fuint16 addr = GET_ADDR();
+			pc += 2;
+			R16( data, 4, 0x4B ) = READ_WORD( addr );
+			goto loop;
+		}
+		
+		case 0x7B:{// LD SP,(ADDR)
+			fuint16 addr = GET_ADDR();
+			pc += 2;
+			sp = READ_WORD( addr );
+			goto loop;
+		}
+		
+		case 0x67:{// RRD
+			fuint8 temp = READ( rp.hl );
+			WRITE( rp.hl, (rg.a << 4) | (temp >> 4) );
+			temp = (rg.a & 0xF0) | (temp & 0x0F);
+			flags = (flags & C01) | SZ28P( temp );
+			rg.a = temp;
+			goto loop;
+		}
+		
+		case 0x6F:{// RLD
+			fuint8 temp = READ( rp.hl );
+			WRITE( rp.hl, (temp << 4) | (rg.a & 0x0F) );
+			temp = (rg.a & 0xF0) | (temp >> 4);
+			flags = (flags & C01) | SZ28P( temp );
+			rg.a = temp;
+			goto loop;
+		}
+		
+		CASE8( 44, 4C, 54, 5C, 64, 6C, 74, 7C ): // NEG
+			opcode = 0x10; // flag to do SBC instead of ADC
+			flags &= ~C01;
+			data = rg.a;
+			rg.a = 0;
+			goto adc_data;
+		
+		{
+			int inc;
+		case 0xA9: // CPD
+		case 0xB9: // CPDR
+			inc = -1;
+			if ( 0 )
+		case 0xA1: // CPI
+		case 0xB1: // CPIR
+				inc = +1;
+			fuint16 addr = rp.hl;
+			rp.hl = addr + inc;
+			int temp = READ( addr );
+			
+			int result = rg.a - temp;
+			flags = (flags & C01) | N02 |
+					((((temp ^ rg.a) & H10) ^ result) & (S80 | H10));
+			
+			if ( !(uint8_t) result ) flags |= Z40;
+			result -= (flags & H10) >> 4;
+			flags |= result & F08;
+			flags |= result << 4 & F20;
+			if ( !--rp.bc )
+				goto loop;
+			
+			flags |= V04;
+			if ( flags & Z40 || data < 0xB0 )
+				goto loop;
+			
+			pc -= 2;
+			s_time += 5;
+			goto loop;
+		}
+		
+		{
+			int inc;
+		case 0xA8: // LDD
+		case 0xB8: // LDDR
+			inc = -1;
+			if ( 0 )
+		case 0xA0: // LDI
+		case 0xB0: // LDIR
+				inc = +1;
+			fuint16 addr = rp.hl;
+			rp.hl = addr + inc;
+			int temp = READ( addr );
+			
+			addr = rp.de;
+			rp.de = addr + inc;
+			WRITE( addr, temp );
+			
+			temp += rg.a;
+			flags = (flags & (S80 | Z40 | C01)) |
+					(temp & F08) | (temp << 4 & F20);
+			if ( !--rp.bc )
+				goto loop;
+			
+			flags |= V04;
+			if ( data < 0xB0 )
+				goto loop;
+			
+			pc -= 2;
+			s_time += 5;
+			goto loop;
+		}
+		
+		{
+			int inc;
+		case 0xAB: // OUTD
+		case 0xBB: // OTDR
+			inc = -1;
+			if ( 0 )
+		case 0xA3: // OUTI
+		case 0xB3: // OTIR
+				inc = +1;
+			fuint16 addr = rp.hl;
+			rp.hl = addr + inc;
+			int temp = READ( addr );
+			
+			int b = --rg.b;
+			flags = (temp >> 6 & N02) | SZ28( b );
+			if ( b && data >= 0xB0 )
+			{
+				pc -= 2;
+				s_time += 5;
+			}
+			
+			OUT( rp.bc, temp );
+			goto loop;
+		}
+		
+		{
+			int inc;
+		case 0xAA: // IND
+		case 0xBA: // INDR
+			inc = -1;
+			if ( 0 )
+		case 0xA2: // INI
+		case 0xB2: // INIR
+				inc = +1;
+			
+			fuint16 addr = rp.hl;
+			rp.hl = addr + inc;
+			
+			int temp = IN( rp.bc );
+			
+			int b = --rg.b;
+			flags = (temp >> 6 & N02) | SZ28( b );
+			if ( b && data >= 0xB0 )
+			{
+				pc -= 2;
+				s_time += 5;
+			}
+			
+			WRITE( addr, temp );
+			goto loop;
+		}
+		
+		case 0x47: // LD I,A
+			r.i = rg.a;
+			goto loop;
+		
+		case 0x4F: // LD R,A
+			SET_R( rg.a );
+			debug_printf( "LD R,A not supported\n" );
+			warning = true;
+			goto loop;
+		
+		case 0x57: // LD A,I
+			rg.a = r.i;
+			goto ld_ai_common;
+		
+		case 0x5F: // LD A,R
+			rg.a = GET_R();
+			debug_printf( "LD A,R not supported\n" );
+			warning = true;
+		ld_ai_common:
+			flags = (flags & C01) | SZ28( rg.a ) | (r.iff2 << 2 & V04);
+			goto loop;
+		
+		CASE8( 45, 4D, 55, 5D, 65, 6D, 75, 7D ): // RETI/RETN
+			r.iff1 = r.iff2;
+			goto ret_taken;
+		
+		case 0x46: case 0x4E: case 0x66: case 0x6E: // IM 0
+			r.im = 0;
+			goto loop;
+		
+		case 0x56: case 0x76: // IM 1
+			r.im = 1;
+			goto loop;
+		
+		case 0x5E: case 0x7E: // IM 2
+			r.im = 2;
+			goto loop;
+		
+		default:
+			debug_printf( "Opcode $ED $%02X not supported\n", data );
+			warning = true;
+			goto loop;
+		}
+		assert( false );
+	}
+
+//////////////////////////////////////// DD/FD prefix
+	{
+	fuint16 ixy;
+	case 0xDD:
+		ixy = ix;
+		goto ix_prefix;
+	case 0xFD:
+		ixy = iy;
+	ix_prefix:
+		pc++;
+		unsigned data2 = READ_PROG( pc );
+		s_time += ed_dd_timing [data] & 0x0F;
+		switch ( data )
+		{
+	// TODO: more efficient way of avoid negative address
+	// TODO: avoid using this as argument to READ() since it is evaluated twice
+	#define IXY_DISP( ixy, disp )   uint16_t ((ixy) + (disp))
+	
+	#define SET_IXY( in ) if ( opcode == 0xDD ) ix = in; else iy = in;
+	
+	// ADD/ADC/SUB/SBC
+	
+		case 0x96: // SUB (IXY+disp)
+		case 0x86: // ADD (IXY+disp)
+			flags &= ~C01;
+		case 0x9E: // SBC (IXY+disp)
+		case 0x8E: // ADC (IXY+disp)
+			pc++;
+			opcode = data;
+			data = READ( IXY_DISP( ixy, (int8_t) data2 ) );
+			goto adc_data;
+		
+		case 0x94: // SUB HXY
+		case 0x84: // ADD HXY
+			flags &= ~C01;
+		case 0x9C: // SBC HXY
+		case 0x8C: // ADC HXY
+			opcode = data;
+			data = ixy >> 8;
+			goto adc_data;
+		
+		case 0x95: // SUB LXY
+		case 0x85: // ADD LXY
+			flags &= ~C01;
+		case 0x9D: // SBC LXY
+		case 0x8D: // ADC LXY
+			opcode = data;
+			data = (uint8_t) ixy;
+			goto adc_data;
+		
+		{
+			unsigned temp;
+		case 0x39: // ADD IXY,SP
+			temp = sp;
+			goto add_ixy_data;
+		
+		case 0x29: // ADD IXY,HL
+			temp = ixy;
+			goto add_ixy_data;
+		
+		case 0x09: // ADD IXY,BC
+		case 0x19: // ADD IXY,DE
+			temp = R16( data, 4, 0x09 );
+		add_ixy_data: {
+			blargg_ulong sum = ixy + temp;
+			temp ^= ixy;
+			ixy = (uint16_t) sum;
+			flags = (flags & (S80 | Z40 | V04)) |
+					(sum >> 16) |
+					(sum >> 8 & (F20 | F08)) |
+					((temp ^ sum) >> 8 & H10);
+			goto set_ixy;
+		}
+		}
+	
+	// AND
+		case 0xA6: // AND (IXY+disp)
+			pc++;
+			data = READ( IXY_DISP( ixy, (int8_t) data2 ) );
+			goto and_data;
+		
+		case 0xA4: // AND HXY
+			data = ixy >> 8;
+			goto and_data;
+		
+		case 0xA5: // AND LXY
+			data = (uint8_t) ixy;
+			goto and_data;
+	
+	// OR
+		case 0xB6: // OR (IXY+disp)
+			pc++;
+			data = READ( IXY_DISP( ixy, (int8_t) data2 ) );
+			goto or_data;
+		
+		case 0xB4: // OR HXY
+			data = ixy >> 8;
+			goto or_data;
+		
+		case 0xB5: // OR LXY
+			data = (uint8_t) ixy;
+			goto or_data;
+	
+	// XOR
+		case 0xAE: // XOR (IXY+disp)
+			pc++;
+			data = READ( IXY_DISP( ixy, (int8_t) data2 ) );
+			goto xor_data;
+		
+		case 0xAC: // XOR HXY
+			data = ixy >> 8;
+			goto xor_data;
+		
+		case 0xAD: // XOR LXY
+			data = (uint8_t) ixy;
+			goto xor_data;
+	
+	// CP
+		case 0xBE: // CP (IXY+disp)
+			pc++;
+			data = READ( IXY_DISP( ixy, (int8_t) data2 )  );
+			goto cp_data;
+		
+		case 0xBC: // CP HXY
+			data = ixy >> 8;
+			goto cp_data;
+		
+		case 0xBD: // CP LXY
+			data = (uint8_t) ixy;
+			goto cp_data;
+		
+	// LD
+		CASE7( 70, 71, 72, 73, 74, 75, 77 ): // LD (IXY+disp),r
+			data = R8( data, 0x70 );
+			if ( 0 )
+		case 0x36: // LD (IXY+disp),imm
+				pc++, data = READ_PROG( pc );
+			pc++;
+			WRITE( IXY_DISP( ixy, (int8_t) data2 ), data );
+			goto loop;
+
+		CASE5( 44, 4C, 54, 5C, 7C ): // LD r,HXY
+			R8( data >> 3, 8 ) = ixy >> 8;
+			goto loop;
+		
+		case 0x64: // LD HXY,HXY
+		case 0x6D: // LD LXY,LXY
+			goto loop;
+		
+		CASE5( 45, 4D, 55, 5D, 7D ): // LD r,LXY
+			R8( data >> 3, 8 ) = ixy;
+			goto loop;
+		
+		CASE7( 46, 4E, 56, 5E, 66, 6E, 7E ): // LD r,(IXY+disp)
+			pc++;
+			R8( data >> 3, 8 ) = READ( IXY_DISP( ixy, (int8_t) data2 ) );
+			goto loop;
+		
+		case 0x26: // LD HXY,imm
+			pc++;
+			goto ld_hxy_data;
+			
+		case 0x65: // LD HXY,LXY
+			data2 = (uint8_t) ixy;
+			goto ld_hxy_data;
+		
+		CASE5( 60, 61, 62, 63, 67 ): // LD HXY,r
+			data2 = R8( data, 0x60 );
+		ld_hxy_data:
+			ixy = (uint8_t) ixy | (data2 << 8);
+			goto set_ixy;
+		
+		case 0x2E: // LD LXY,imm
+			pc++;
+			goto ld_lxy_data;
+			
+		case 0x6C: // LD LXY,HXY
+			data2 = ixy >> 8;
+			goto ld_lxy_data;
+		
+		CASE5( 68, 69, 6A, 6B, 6F ): // LD LXY,r
+			data2 = R8( data, 0x68 );
+		ld_lxy_data:
+			ixy = (ixy & 0xFF00) | data2;
+		set_ixy:
+			if ( opcode == 0xDD )
+			{
+				ix = ixy;
+				goto loop;
+			}
+			iy = ixy;
+			goto loop;
+
+		case 0xF9: // LD SP,IXY
+			sp = ixy;
+			goto loop;
+	
+		case 0x22:{// LD (ADDR),IXY
+			fuint16 addr = GET_ADDR();
+			pc += 2;
+			WRITE_WORD( addr, ixy );
+			goto loop;
+		}
+		
+		case 0x21: // LD IXY,imm
+			ixy = GET_ADDR();
+			pc += 2;
+			goto set_ixy;
+		
+		case 0x2A:{// LD IXY,(addr)
+			fuint16 addr = GET_ADDR();
+			ixy = READ_WORD( addr );
+			pc += 2;
+			goto set_ixy;
+		}
+		
+	// DD/FD CB prefix
+		case 0xCB: {
+			data = IXY_DISP( ixy, (int8_t) data2 );
+			pc++;
+			data2 = READ_PROG( pc );
+			pc++;
+			switch ( data2 )
+			{
+			case 0x06: goto rlc_data_addr; // RLC (IXY)
+			case 0x16: goto rl_data_addr;  // RL (IXY)
+			case 0x26: goto sla_data_addr; // SLA (IXY)
+			case 0x36: goto sll_data_addr; // SLL (IXY)
+			case 0x0E: goto rrc_data_addr; // RRC (IXY)
+			case 0x1E: goto rr_data_addr;  // RR (IXY)
+			case 0x2E: goto sra_data_addr; // SRA (IXY)
+			case 0x3E: goto srl_data_addr; // SRL (IXY)
+			
+			CASE8( 46, 4E, 56, 5E, 66, 6E, 76, 7E ):{// BIT b,(IXY+disp)
+				fuint8 temp = READ( data );
+				int masked = temp & 1 << (data2 >> 3 & 7);
+				flags = (flags & C01) | H10 |
+						(masked & S80) |
+						((masked - 1) >> 8 & (Z40 | P04));
+				goto loop;
+			}
+			
+			CASE8( 86, 8E, 96, 9E, A6, AE, B6, BE ): // RES b,(IXY+disp)
+			CASE8( C6, CE, D6, DE, E6, EE, F6, FE ):{// SET b,(IXY+disp)
+				int temp = READ( data );
+				int bit = 1 << (data2 >> 3 & 7);
+				temp |= bit; // SET
+				if ( !(data2 & 0x40) )
+					temp ^= bit; // RES
+				WRITE( data, temp );
+				goto loop;
+			}
+			
+			default:
+				debug_printf( "Opcode $%02X $CB $%02X not supported\n", opcode, data2 );
+				warning = true;
+				goto loop;
+			}
+			assert( false );
+		}
+		
+	// INC/DEC
+		case 0x23: // INC IXY
+			ixy = uint16_t (ixy + 1);
+			goto set_ixy;
+		
+		case 0x2B: // DEC IXY
+			ixy = uint16_t (ixy - 1);
+			goto set_ixy;
+		
+		case 0x34: // INC (IXY+disp)
+			ixy = IXY_DISP( ixy, (int8_t) data2 );
+			pc++;
+			data = READ( ixy ) + 1;
+			WRITE( ixy, data );
+			goto inc_set_flags;
+		
+		case 0x35: // DEC (IXY+disp)
+			ixy = IXY_DISP( ixy, (int8_t) data2 );
+			pc++;
+			data = READ( ixy ) - 1;
+			WRITE( ixy, data );
+			goto dec_set_flags;
+		
+		case 0x24: // INC HXY
+			ixy = uint16_t (ixy + 0x100);
+			data = ixy >> 8;
+			goto inc_xy_common;
+		
+		case 0x2C: // INC LXY
+			data = uint8_t (ixy + 1);
+			ixy = (ixy & 0xFF00) | data;
+		inc_xy_common:
+			if ( opcode == 0xDD )
+			{
+				ix = ixy;
+				goto inc_set_flags;
+			}
+			iy = ixy;
+			goto inc_set_flags;
+		
+		case 0x25: // DEC HXY
+			ixy = uint16_t (ixy - 0x100);
+			data = ixy >> 8;
+			goto dec_xy_common;
+		
+		case 0x2D: // DEC LXY
+			data = uint8_t (ixy - 1);
+			ixy = (ixy & 0xFF00) | data;
+		dec_xy_common:
+			if ( opcode == 0xDD )
+			{
+				ix = ixy;
+				goto dec_set_flags;
+			}
+			iy = ixy;
+			goto dec_set_flags;
+		
+	// PUSH/POP
+		case 0xE5: // PUSH IXY
+			data = ixy;
+			goto push_data;
+		
+		case 0xE1:{// POP IXY
+			ixy = READ_WORD( sp );
+			sp = uint16_t (sp + 2);
+			goto set_ixy;
+		}
+	
+	// Misc
+		
+		case 0xE9: // JP (IXY)
+			pc = ixy;
+			goto loop;
+		
+		case 0xE3:{// EX (SP),IXY
+			fuint16 temp = READ_WORD( sp );
+			WRITE_WORD( sp, ixy );
+			ixy = temp;
+			goto set_ixy;
+		}
+		
+		default:
+			debug_printf( "Unnecessary DD/FD prefix encountered\n" );
+			warning = true;
+			pc--;
+			goto loop;
+		}
+		assert( false );
+	}
+	
+	}
+	debug_printf( "Unhandled main opcode: $%02X\n", opcode );
+	assert( false );
+	
+hit_idle_addr:
+	s_time -= 11;
+	goto out_of_time;
+halt:
+	s_time &= 3; // increment by multiple of 4
+out_of_time:
+	pc--;
+	
+	s.time = s_time;
+	rg.flags = flags;
+	r.ix    = ix;
+	r.iy    = iy;
+	r.sp    = sp;
+	r.pc    = pc;
+	this->r.b = rg;
+	this->state_ = s;
+	this->state = &this->state_;
+	
+	return warning;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Kss_Cpu.h b/plugins/gme/game-music-emu-0.5.5/gme/Kss_Cpu.h
new file mode 100644
index 00000000..28a2fc0f
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Kss_Cpu.h
@@ -0,0 +1,124 @@
+// Z80 CPU emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef KSS_CPU_H
+#define KSS_CPU_H
+
+#include "blargg_endian.h"
+
+typedef blargg_long cpu_time_t;
+
+// must be defined by caller
+void kss_cpu_out( class Kss_Cpu*, cpu_time_t, unsigned addr, int data );
+int  kss_cpu_in( class Kss_Cpu*, cpu_time_t, unsigned addr );
+void kss_cpu_write( class Kss_Cpu*, unsigned addr, int data );
+
+class Kss_Cpu {
+public:
+	typedef BOOST::uint8_t uint8_t;
+	
+	// Clear registers and map all pages to unmapped
+	void reset( void* unmapped_write, void const* unmapped_read );
+	
+	// Map memory. Start and size must be multiple of page_size.
+	enum { page_size = 0x2000 };
+	void map_mem( unsigned addr, blargg_ulong size, void* write, void const* read );
+	
+	// Map address to page
+	uint8_t* write( unsigned addr );
+	uint8_t const* read( unsigned addr );
+	
+	// Run until specified time is reached. Returns true if suspicious/unsupported
+	// instruction was encountered at any point during run.
+	bool run( cpu_time_t end_time );
+	
+	// Time of beginning of next instruction
+	cpu_time_t time() const             { return state->time + state->base; }
+	
+	// Alter current time. Not supported during run() call.
+	void set_time( cpu_time_t t )       { state->time = t - state->base; }
+	void adjust_time( int delta )       { state->time += delta; }
+	
+	typedef BOOST::uint16_t uint16_t;
+	
+	#if BLARGG_BIG_ENDIAN
+		struct regs_t { uint8_t b, c, d, e, h, l, flags, a; };
+	#else
+		struct regs_t { uint8_t c, b, e, d, l, h, a, flags; };
+	#endif
+	BOOST_STATIC_ASSERT( sizeof (regs_t) == 8 );
+	
+	struct pairs_t { uint16_t bc, de, hl, fa; };
+	
+	// Registers are not updated until run() returns
+	struct registers_t {
+		uint16_t pc;
+		uint16_t sp;
+		uint16_t ix;
+		uint16_t iy;
+		union {
+			regs_t b; //  b.b, b.c, b.d, b.e, b.h, b.l, b.flags, b.a
+			pairs_t w; // w.bc, w.de, w.hl. w.fa
+		};
+		union {
+			regs_t b;
+			pairs_t w;
+		} alt;
+		uint8_t iff1;
+		uint8_t iff2;
+		uint8_t r;
+		uint8_t i;
+		uint8_t im;
+	};
+	//registers_t r; (below for efficiency)
+	
+	enum { idle_addr = 0xFFFF };
+	
+	// can read this far past end of a page
+	enum { cpu_padding = 0x100 };
+	
+public:
+	Kss_Cpu();
+	enum { page_shift = 13 };
+	enum { page_count = 0x10000 >> page_shift };
+private:
+	uint8_t szpc [0x200];
+	cpu_time_t end_time_;
+	struct state_t {
+		uint8_t const* read  [page_count + 1];
+		uint8_t      * write [page_count + 1];
+		cpu_time_t base;
+		cpu_time_t time;
+	};
+	state_t* state; // points to state_ or a local copy within run()
+	state_t state_;
+	void set_end_time( cpu_time_t t );
+	void set_page( int i, void* write, void const* read );
+public:
+	registers_t r;
+};
+
+#if BLARGG_NONPORTABLE
+	#define KSS_CPU_PAGE_OFFSET( addr ) (addr)
+#else
+	#define KSS_CPU_PAGE_OFFSET( addr ) ((addr) & (page_size - 1))
+#endif
+
+inline BOOST::uint8_t* Kss_Cpu::write( unsigned addr )
+{
+	return state->write [addr >> page_shift] + KSS_CPU_PAGE_OFFSET( addr );
+}
+
+inline BOOST::uint8_t const* Kss_Cpu::read( unsigned addr )
+{
+	return state->read [addr >> page_shift] + KSS_CPU_PAGE_OFFSET( addr );
+}
+
+inline void Kss_Cpu::set_end_time( cpu_time_t t )
+{
+	cpu_time_t delta = state->base - t;
+	state->base = t;
+	state->time += delta;
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Kss_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Kss_Emu.cpp
new file mode 100644
index 00000000..3b84509c
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Kss_Emu.cpp
@@ -0,0 +1,416 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Kss_Emu.h"
+
+#include "blargg_endian.h"
+#include <string.h>
+
+/* Copyright (C) 2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+long const clock_rate = 3579545;
+int const osc_count = Ay_Apu::osc_count + Scc_Apu::osc_count;
+
+Kss_Emu::Kss_Emu()
+{
+	sn = 0;
+	set_type( gme_kss_type );
+	set_silence_lookahead( 6 );
+	static const char* const names [osc_count] = {
+		"Square 1", "Square 2", "Square 3",
+		"Wave 1", "Wave 2", "Wave 3", "Wave 4", "Wave 5"
+	};
+	set_voice_names( names );
+	
+	static int const types [osc_count] = {
+		wave_type | 0, wave_type | 1, wave_type | 2,
+		wave_type | 3, wave_type | 4, wave_type | 5, wave_type | 6, wave_type | 7
+	};
+	set_voice_types( types );
+	
+	memset( unmapped_read, 0xFF, sizeof unmapped_read );
+}
+
+Kss_Emu::~Kss_Emu() { unload(); }
+
+void Kss_Emu::unload()
+{
+	delete sn;
+	sn = 0;
+	Classic_Emu::unload();
+}
+
+// Track info
+
+static void copy_kss_fields( Kss_Emu::header_t const& h, track_info_t* out )
+{
+	const char* system = "MSX";
+	if ( h.device_flags & 0x02 )
+	{
+		system = "Sega Master System";
+		if ( h.device_flags & 0x04 )
+			system = "Game Gear";
+	}
+	Gme_File::copy_field_( out->system, system );
+}
+
+blargg_err_t Kss_Emu::track_info_( track_info_t* out, int ) const
+{
+	copy_kss_fields( header_, out );
+	return 0;
+}
+
+static blargg_err_t check_kss_header( void const* header )
+{
+	if ( memcmp( header, "KSCC", 4 ) && memcmp( header, "KSSX", 4 ) )
+		return gme_wrong_file_type;
+	return 0;
+}
+
+struct Kss_File : Gme_Info_
+{
+	Kss_Emu::header_t header_;
+	
+	Kss_File() { set_type( gme_kss_type ); }
+	
+	blargg_err_t load_( Data_Reader& in )
+	{
+		blargg_err_t err = in.read( &header_, Kss_Emu::header_size );
+		if ( err )
+			return (err == in.eof_error ? gme_wrong_file_type : err);
+		return check_kss_header( &header_ );
+	}
+	
+	blargg_err_t track_info_( track_info_t* out, int ) const
+	{
+		copy_kss_fields( header_, out );
+		return 0;
+	}
+};
+
+static Music_Emu* new_kss_emu () { return BLARGG_NEW Kss_Emu ; }
+static Music_Emu* new_kss_file() { return BLARGG_NEW Kss_File; }
+
+static gme_type_t_ const gme_kss_type_ = { "MSX", 256, &new_kss_emu, &new_kss_file, "KSS", 0x03 };
+gme_type_t const gme_kss_type = &gme_kss_type_;
+
+
+// Setup
+
+void Kss_Emu::update_gain()
+{
+	double g = gain() * 1.4;
+	if ( scc_accessed )
+		g *= 1.5;
+	ay.volume( g );
+	scc.volume( g );
+	if ( sn )
+		sn->volume( g );
+}
+
+blargg_err_t Kss_Emu::load_( Data_Reader& in )
+{
+	memset( &header_, 0, sizeof header_ );
+	assert( offsetof (header_t,device_flags) == header_size - 1 );
+	assert( offsetof (ext_header_t,msx_audio_vol) == ext_header_size - 1 );
+	RETURN_ERR( rom.load( in, header_size, STATIC_CAST(header_t*,&header_), 0 ) );
+	
+	RETURN_ERR( check_kss_header( header_.tag ) );
+	
+	if ( header_.tag [3] == 'C' )
+	{
+		if ( header_.extra_header )
+		{
+			header_.extra_header = 0;
+			set_warning( "Unknown data in header" );
+		}
+		if ( header_.device_flags & ~0x0F )
+		{
+			header_.device_flags &= 0x0F;
+			set_warning( "Unknown data in header" );
+		}
+	}
+	else
+	{
+		ext_header_t& ext = header_;
+		memcpy( &ext, rom.begin(), min( (int) ext_header_size, (int) header_.extra_header ) );
+		if ( header_.extra_header > 0x10 )
+			set_warning( "Unknown data in header" );
+	}
+	
+	if ( header_.device_flags & 0x09 )
+		set_warning( "FM sound not supported" );
+	
+	scc_enabled = 0xC000;
+	if ( header_.device_flags & 0x04 )
+		scc_enabled = 0;
+	
+	if ( header_.device_flags & 0x02 && !sn )
+		CHECK_ALLOC( sn = BLARGG_NEW( Sms_Apu ) );
+	
+	set_voice_count( osc_count );
+	
+	return setup_buffer( ::clock_rate );
+}
+
+void Kss_Emu::update_eq( blip_eq_t const& eq )
+{
+	ay.treble_eq( eq );
+	scc.treble_eq( eq );
+	if ( sn )
+		sn->treble_eq( eq );
+}
+
+void Kss_Emu::set_voice( int i, Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right )
+{
+	int i2 = i - ay.osc_count;
+	if ( i2 >= 0 )
+		scc.osc_output( i2, center );
+	else
+		ay.osc_output( i, center );
+	if ( sn && i < sn->osc_count )
+		sn->osc_output( i, center, left, right );
+}
+
+// Emulation
+
+void Kss_Emu::set_tempo_( double t )
+{
+	blip_time_t period =
+			(header_.device_flags & 0x40 ? ::clock_rate / 50 : ::clock_rate / 60);
+	play_period = blip_time_t (period / t);
+}
+
+blargg_err_t Kss_Emu::start_track_( int track )
+{
+	RETURN_ERR( Classic_Emu::start_track_( track ) );
+
+	memset( ram, 0xC9, 0x4000 );
+	memset( ram + 0x4000, 0, sizeof ram - 0x4000 );
+	
+	// copy driver code to lo RAM
+	static byte const bios [] = {
+		0xD3, 0xA0, 0xF5, 0x7B, 0xD3, 0xA1, 0xF1, 0xC9, // $0001: WRTPSG
+		0xD3, 0xA0, 0xDB, 0xA2, 0xC9                    // $0009: RDPSG
+	};
+	static byte const vectors [] = {
+		0xC3, 0x01, 0x00,   // $0093: WRTPSG vector
+		0xC3, 0x09, 0x00,   // $0096: RDPSG vector
+	};
+	memcpy( ram + 0x01, bios,    sizeof bios );
+	memcpy( ram + 0x93, vectors, sizeof vectors );
+	
+	// copy non-banked data into RAM
+	unsigned load_addr = get_le16( header_.load_addr );
+	long orig_load_size = get_le16( header_.load_size );
+	long load_size = min( orig_load_size, rom.file_size() );
+	load_size = min( load_size, long (mem_size - load_addr) );
+	if ( load_size != orig_load_size )
+		set_warning( "Excessive data size" );
+	memcpy( ram + load_addr, rom.begin() + header_.extra_header, load_size );
+	
+	rom.set_addr( -load_size - header_.extra_header );
+	
+	// check available bank data
+	blargg_long const bank_size = this->bank_size();
+	int max_banks = (rom.file_size() - load_size + bank_size - 1) / bank_size;
+	bank_count = header_.bank_mode & 0x7F;
+	if ( bank_count > max_banks )
+	{
+		bank_count = max_banks;
+		set_warning( "Bank data missing" );
+	}
+	//debug_printf( "load_size : $%X\n", load_size );
+	//debug_printf( "bank_size : $%X\n", bank_size );
+	//debug_printf( "bank_count: %d (%d claimed)\n", bank_count, header_.bank_mode & 0x7F );
+	
+	ram [idle_addr] = 0xFF;
+	cpu::reset( unmapped_write, unmapped_read );
+	cpu::map_mem( 0, mem_size, ram, ram );
+	
+	ay.reset();
+	scc.reset();
+	if ( sn )
+		sn->reset();
+	r.sp = 0xF380;
+	ram [--r.sp] = idle_addr >> 8;
+	ram [--r.sp] = idle_addr & 0xFF;
+	r.b.a = track;
+	r.pc = get_le16( header_.init_addr );
+	next_play = play_period;
+	scc_accessed = false;
+	gain_updated = false;
+	update_gain();
+	ay_latch = 0;
+	
+	return 0;
+}
+
+void Kss_Emu::set_bank( int logical, int physical )
+{
+	unsigned const bank_size = this->bank_size();
+	
+	unsigned addr = 0x8000;
+	if ( logical && bank_size == 8 * 1024 )
+		addr = 0xA000;
+	
+	physical -= header_.first_bank;
+	if ( (unsigned) physical >= (unsigned) bank_count )
+	{
+		byte* data = ram + addr;
+		cpu::map_mem( addr, bank_size, data, data );
+	}
+	else
+	{
+		long phys = physical * (blargg_long) bank_size;
+		for ( unsigned offset = 0; offset < bank_size; offset += page_size )
+			cpu::map_mem( addr + offset, page_size,
+					unmapped_write, rom.at_addr( phys + offset ) );
+	}
+}
+
+void Kss_Emu::cpu_write( unsigned addr, int data )
+{
+	data &= 0xFF;
+	switch ( addr )
+	{
+	case 0x9000:
+		set_bank( 0, data );
+		return;
+	
+	case 0xB000:
+		set_bank( 1, data );
+		return;
+	}
+	
+	int scc_addr = (addr & 0xDFFF) ^ 0x9800;
+	if ( scc_addr < scc.reg_count )
+	{
+		scc_accessed = true;
+		scc.write( time(), scc_addr, data );
+		return;
+	}
+	
+	debug_printf( "LD ($%04X),$%02X\n", addr, data );
+}
+
+void kss_cpu_write( Kss_Cpu* cpu, unsigned addr, int data )
+{
+	*cpu->write( addr ) = data;
+	if ( (addr & STATIC_CAST(Kss_Emu&,*cpu).scc_enabled) == 0x8000 )
+		STATIC_CAST(Kss_Emu&,*cpu).cpu_write( addr, data );
+}
+
+void kss_cpu_out( Kss_Cpu* cpu, cpu_time_t time, unsigned addr, int data )
+{
+	data &= 0xFF;
+	Kss_Emu& emu = STATIC_CAST(Kss_Emu&,*cpu);
+	switch ( addr & 0xFF )
+	{
+	case 0xA0:
+		emu.ay_latch = data & 0x0F;
+		return;
+	
+	case 0xA1:
+		GME_APU_HOOK( &emu, emu.ay_latch, data );
+		emu.ay.write( time, emu.ay_latch, data );
+		return;
+	
+	case 0x06:
+		if ( emu.sn && (emu.header_.device_flags & 0x04) )
+		{
+			emu.sn->write_ggstereo( time, data );
+			return;
+		}
+		break;
+	
+	case 0x7E:
+	case 0x7F:
+		if ( emu.sn )
+		{
+			GME_APU_HOOK( &emu, 16, data );
+			emu.sn->write_data( time, data );
+			return;
+		}
+		break;
+	
+	case 0xFE:
+		emu.set_bank( 0, data );
+		return;
+	
+	#ifndef NDEBUG
+	case 0xF1: // FM data
+		if ( data )
+			break; // trap non-zero data
+	case 0xF0: // FM addr
+	case 0xA8: // PPI
+		return;
+	#endif
+	}
+	
+	debug_printf( "OUT $%04X,$%02X\n", addr, data );
+}
+
+int kss_cpu_in( Kss_Cpu*, cpu_time_t, unsigned addr )
+{
+	//Kss_Emu& emu = STATIC_CAST(Kss_Emu&,*cpu);
+	//switch ( addr & 0xFF )
+	//{
+	//}
+	
+	debug_printf( "IN $%04X\n", addr );
+	return 0;
+}
+
+// Emulation
+
+blargg_err_t Kss_Emu::run_clocks( blip_time_t& duration, int )
+{
+	while ( time() < duration )
+	{
+		blip_time_t end = min( duration, next_play );
+		cpu::run( min( duration, next_play ) );
+		if ( r.pc == idle_addr )
+			set_time( end );
+		
+		if ( time() >= next_play )
+		{
+			next_play += play_period;
+			if ( r.pc == idle_addr )
+			{
+				if ( !gain_updated )
+				{
+					gain_updated = true;
+					if ( scc_accessed )
+						update_gain();
+				}
+				
+				ram [--r.sp] = idle_addr >> 8;
+				ram [--r.sp] = idle_addr & 0xFF;
+				r.pc = get_le16( header_.play_addr );
+				GME_FRAME_HOOK( this );
+			}
+		}
+	}
+	
+	duration = time();
+	next_play -= duration;
+	check( next_play >= 0 );
+	adjust_time( -duration );
+	ay.end_frame( duration );
+	scc.end_frame( duration );
+	if ( sn )
+		sn->end_frame( duration );
+	
+	return 0;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Kss_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Kss_Emu.h
new file mode 100644
index 00000000..1d6ae475
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Kss_Emu.h
@@ -0,0 +1,96 @@
+// MSX computer KSS music file emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef KSS_EMU_H
+#define KSS_EMU_H
+
+#include "Classic_Emu.h"
+#include "Kss_Scc_Apu.h"
+#include "Kss_Cpu.h"
+#include "Sms_Apu.h"
+#include "Ay_Apu.h"
+
+class Kss_Emu : private Kss_Cpu, public Classic_Emu {
+	typedef Kss_Cpu cpu;
+public:
+	// KSS file header
+	enum { header_size = 0x10 };
+	struct header_t
+	{
+		byte tag [4];
+		byte load_addr [2];
+		byte load_size [2];
+		byte init_addr [2];
+		byte play_addr [2];
+		byte first_bank;
+		byte bank_mode;
+		byte extra_header;
+		byte device_flags;
+	};
+	
+	enum { ext_header_size = 0x10 };
+	struct ext_header_t
+	{
+		byte data_size [4];
+		byte unused [4];
+		byte first_track [2];
+		byte last_tack [2];
+		byte psg_vol;
+		byte scc_vol;
+		byte msx_music_vol;
+		byte msx_audio_vol;
+	};
+	
+	struct composite_header_t : header_t, ext_header_t { };
+	
+	// Header for currently loaded file
+	composite_header_t const& header() const { return header_; }
+	
+	static gme_type_t static_type() { return gme_kss_type; }
+public:
+	Kss_Emu();
+	~Kss_Emu();
+protected:
+	blargg_err_t track_info_( track_info_t*, int track ) const;
+	blargg_err_t load_( Data_Reader& );
+	blargg_err_t start_track_( int );
+	blargg_err_t run_clocks( blip_time_t&, int );
+	void set_tempo_( double );
+	void set_voice( int, Blip_Buffer*, Blip_Buffer*, Blip_Buffer* );
+	void update_eq( blip_eq_t const& );
+	void unload();
+private:
+	Rom_Data<page_size> rom;
+	composite_header_t header_;
+	
+	bool scc_accessed;
+	bool gain_updated;
+	void update_gain();
+	
+	unsigned scc_enabled; // 0 or 0xC000
+	byte const* bank_data;
+	int bank_count;
+	void set_bank( int logical, int physical );
+	blargg_long bank_size() const { return (16 * 1024L) >> (header_.bank_mode >> 7 & 1); }
+	
+	blip_time_t play_period;
+	blip_time_t next_play;
+	int ay_latch;
+	
+	friend void kss_cpu_out( class Kss_Cpu*, cpu_time_t, unsigned addr, int data );
+	friend int  kss_cpu_in( class Kss_Cpu*, cpu_time_t, unsigned addr );
+	void cpu_write( unsigned addr, int data );
+	friend void kss_cpu_write( class Kss_Cpu*, unsigned addr, int data );
+	
+	// large items
+	enum { mem_size = 0x10000 };
+	byte ram [mem_size + cpu_padding];
+	
+	Ay_Apu ay;
+	Scc_Apu scc;
+	Sms_Apu* sn;
+	byte unmapped_read  [0x100];
+	byte unmapped_write [page_size];
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Kss_Scc_Apu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Kss_Scc_Apu.cpp
new file mode 100644
index 00000000..cfccce64
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Kss_Scc_Apu.cpp
@@ -0,0 +1,97 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Kss_Scc_Apu.h"
+
+/* Copyright (C) 2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+// Tones above this frequency are treated as disabled tone at half volume.
+// Power of two is more efficient (avoids division).
+unsigned const inaudible_freq = 16384;
+
+int const wave_size = 0x20;
+
+void Scc_Apu::run_until( blip_time_t end_time )
+{
+	for ( int index = 0; index < osc_count; index++ )
+	{
+		osc_t& osc = oscs [index];
+		
+		Blip_Buffer* const output = osc.output;
+		if ( !output )
+			continue;
+		output->set_modified();
+		
+		blip_time_t period = (regs [0x80 + index * 2 + 1] & 0x0F) * 0x100 +
+				regs [0x80 + index * 2] + 1;
+		int volume = 0;
+		if ( regs [0x8F] & (1 << index) )
+		{
+			blip_time_t inaudible_period = (blargg_ulong) (output->clock_rate() +
+					inaudible_freq * 32) / (inaudible_freq * 16);
+			if ( period > inaudible_period )
+				volume = (regs [0x8A + index] & 0x0F) * (amp_range / 256 / 15);
+		}
+		
+		BOOST::int8_t const* wave = (BOOST::int8_t*) regs + index * wave_size;
+		if ( index == osc_count - 1 )
+			wave -= wave_size; // last two oscs share wave
+		{
+			int amp = wave [osc.phase] * volume;
+			int delta = amp - osc.last_amp;
+			if ( delta )
+			{
+				osc.last_amp = amp;
+				synth.offset( last_time, delta, output );
+			}
+		}
+		
+		blip_time_t time = last_time + osc.delay;
+		if ( time < end_time )
+		{
+			if ( !volume )
+			{
+				// maintain phase
+				blargg_long count = (end_time - time + period - 1) / period;
+				osc.phase = (osc.phase + count) & (wave_size - 1);
+				time += count * period;
+			}
+			else
+			{
+				
+				int phase = osc.phase;
+				int last_wave = wave [phase];
+				phase = (phase + 1) & (wave_size - 1); // pre-advance for optimal inner loop
+				
+				do
+				{
+					int amp = wave [phase];
+					phase = (phase + 1) & (wave_size - 1);
+					int delta = amp - last_wave;
+					if ( delta )
+					{
+						last_wave = amp;
+						synth.offset( time, delta * volume, output );
+					}
+					time += period;
+				}
+				while ( time < end_time );
+				
+				osc.phase = phase = (phase - 1) & (wave_size - 1); // undo pre-advance
+				osc.last_amp = wave [phase] * volume;
+			}
+		}
+		osc.delay = time - end_time;
+	}
+	last_time = end_time;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Kss_Scc_Apu.h b/plugins/gme/game-music-emu-0.5.5/gme/Kss_Scc_Apu.h
new file mode 100644
index 00000000..5c65461c
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Kss_Scc_Apu.h
@@ -0,0 +1,106 @@
+// Konami SCC sound chip emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef KSS_SCC_APU_H
+#define KSS_SCC_APU_H
+
+#include "blargg_common.h"
+#include "Blip_Buffer.h"
+#include <string.h>
+
+class Scc_Apu {
+public:
+	// Set buffer to generate all sound into, or disable sound if NULL
+	void output( Blip_Buffer* );
+	
+	// Reset sound chip
+	void reset();
+	
+	// Write to register at specified time
+	enum { reg_count = 0x90 };
+	void write( blip_time_t time, int reg, int data );
+	
+	// Run sound to specified time, end current time frame, then start a new
+	// time frame at time 0. Time frames have no effect on emulation and each
+	// can be whatever length is convenient.
+	void end_frame( blip_time_t length );
+
+// Additional features
+	
+	// Set sound output of specific oscillator to buffer, where index is
+	// 0 to 4. If buffer is NULL, the specified oscillator is muted.
+	enum { osc_count = 5 };
+	void osc_output( int index, Blip_Buffer* );
+	
+	// Set overall volume (default is 1.0)
+	void volume( double );
+	
+	// Set treble equalization (see documentation)
+	void treble_eq( blip_eq_t const& );
+	
+public:
+	Scc_Apu();
+private:
+	enum { amp_range = 0x8000 };
+	struct osc_t
+	{
+		int delay;
+		int phase;
+		int last_amp;
+		Blip_Buffer* output;
+	};
+	osc_t oscs [osc_count];
+	blip_time_t last_time;
+	unsigned char regs [reg_count];
+	Blip_Synth<blip_med_quality,1> synth;
+	
+	void run_until( blip_time_t );
+};
+
+inline void Scc_Apu::volume( double v ) { synth.volume( 0.43 / osc_count / amp_range * v ); }
+
+inline void Scc_Apu::treble_eq( blip_eq_t const& eq ) { synth.treble_eq( eq ); }
+
+inline void Scc_Apu::osc_output( int index, Blip_Buffer* b )
+{
+	assert( (unsigned) index < osc_count );
+	oscs [index].output = b;
+}
+
+inline void Scc_Apu::write( blip_time_t time, int addr, int data )
+{
+	assert( (unsigned) addr < reg_count );
+	run_until( time );
+	regs [addr] = data;
+}
+
+inline void Scc_Apu::end_frame( blip_time_t end_time )
+{
+	if ( end_time > last_time )
+		run_until( end_time );
+	last_time -= end_time;
+	assert( last_time >= 0 );
+}
+
+inline void Scc_Apu::output( Blip_Buffer* buf )
+{
+	for ( int i = 0; i < osc_count; i++ )
+		oscs [i].output = buf;
+}
+
+inline Scc_Apu::Scc_Apu()
+{
+	output( 0 );
+}
+
+inline void Scc_Apu::reset()
+{
+	last_time = 0;
+	
+	for ( int i = 0; i < osc_count; i++ )
+		memset( &oscs [i], 0, offsetof (osc_t,output) );
+	
+	memset( regs, 0, sizeof regs );
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/M3u_Playlist.cpp b/plugins/gme/game-music-emu-0.5.5/gme/M3u_Playlist.cpp
new file mode 100644
index 00000000..75d0fcb2
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/M3u_Playlist.cpp
@@ -0,0 +1,426 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "M3u_Playlist.h"
+#include "Music_Emu.h"
+
+#include <string.h>
+
+/* Copyright (C) 2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+// gme functions defined here to avoid linking in m3u code unless it's used
+
+blargg_err_t Gme_File::load_m3u_( blargg_err_t err )
+{
+	require( raw_track_count_ ); // file must be loaded first
+	
+	if ( !err )
+	{
+		if ( playlist.size() )
+			track_count_ = playlist.size();
+		
+		int line = playlist.first_error();
+		if ( line )
+		{
+			// avoid using bloated printf()
+			char* out = &playlist_warning [sizeof playlist_warning];
+			*--out = 0;
+			do {
+				*--out = line % 10 + '0';
+			} while ( (line /= 10) > 0 );
+			
+			static const char str [] = "Problem in m3u at line ";
+			out -= sizeof str - 1;
+			memcpy( out, str, sizeof str - 1 );
+			set_warning( out );
+		}
+	}
+	return err;
+}
+
+blargg_err_t Gme_File::load_m3u( const char* path ) { return load_m3u_( playlist.load( path ) ); }
+
+blargg_err_t Gme_File::load_m3u( Data_Reader& in )  { return load_m3u_( playlist.load( in ) ); }
+
+gme_err_t gme_load_m3u( Music_Emu* me, const char* path ) { return me->load_m3u( path ); }
+
+gme_err_t gme_load_m3u_data( Music_Emu* me, const void* data, long size )
+{
+	Mem_File_Reader in( data, size );
+	return me->load_m3u( in );
+}
+
+
+
+static char* skip_white( char* in )
+{
+	while ( *in == ' ' )
+		in++;
+	return in;
+}
+
+inline unsigned from_dec( unsigned n ) { return n - '0'; }
+
+static char* parse_filename( char* in, M3u_Playlist::entry_t& entry )
+{
+	entry.file = in;
+	entry.type = "";
+	char* out = in;
+	while ( 1 )
+	{
+		int c = *in;
+		if ( !c ) break;
+		in++;
+		
+		if ( c == ',' ) // commas in filename
+		{
+			char* p = skip_white( in );
+			if ( *p == '$' || from_dec( *p ) <= 9 )
+			{
+				in = p;
+				break;
+			}
+		}
+		
+		if ( c == ':' && in [0] == ':' && in [1] && in [2] != ',' ) // ::type suffix
+		{
+			entry.type = ++in;
+			while ( (c = *in) != 0 && c != ',' )
+				in++;
+			if ( c == ',' )
+			{
+				*in++ = 0; // terminate type
+				in = skip_white( in );
+			}
+			break;
+		}
+		
+		if ( c == '\\' ) // \ prefix for special characters
+		{
+			c = *in;
+			if ( !c ) break;
+			in++;
+		}
+		*out++ = (char) c;
+	}
+	*out = 0; // terminate string
+	return in;
+}
+
+static char* next_field( char* in, int* result )
+{
+	while ( 1 )
+	{
+		in = skip_white( in );
+		
+		if ( !*in )
+			break;
+		
+		if ( *in == ',' )
+		{
+			in++;
+			break;
+		}
+		
+		*result = 1;
+		in++;
+	}
+	return skip_white( in );
+}
+
+static char* parse_int_( char* in, int* out )
+{
+	int n = 0;
+	while ( 1 )
+	{
+		unsigned d = from_dec( *in );
+		if ( d > 9 )
+			break;
+		in++;
+		n = n * 10 + d;
+		*out = n;
+	}
+	return in;
+}
+
+static char* parse_int( char* in, int* out, int* result )
+{
+	return next_field( parse_int_( in, out ), result );
+}
+
+// Returns 16 or greater if not hex
+inline int from_hex_char( int h )
+{
+	h -= 0x30;
+	if ( (unsigned) h > 9 )
+		h = ((h - 0x11) & 0xDF) + 10;
+	return h;
+}
+
+static char* parse_track( char* in, M3u_Playlist::entry_t& entry, int* result )
+{
+	if ( *in == '$' )
+	{
+		in++;
+		int n = 0;
+		while ( 1 )
+		{
+			int h = from_hex_char( *in );
+			if ( h > 15 )
+				break;
+			in++;
+			n = n * 16 + h;
+			entry.track = n;
+		}
+	}
+	else
+	{
+		in = parse_int_( in, &entry.track );
+		if ( entry.track >= 0 )
+			entry.decimal_track = 1;
+	}
+	return next_field( in, result );
+}
+
+static char* parse_time_( char* in, int* out )
+{
+	*out = -1;
+	int n = -1;
+	in = parse_int_( in, &n );
+	if ( n >= 0 )
+	{
+		*out = n;
+		if ( *in == ':' )
+		{
+			n = -1;
+			in = parse_int_( in + 1, &n );
+			if ( n >= 0 )
+				*out = *out * 60 + n;
+		}
+	}
+	return in;
+}
+
+static char* parse_time( char* in, int* out, int* result )
+{
+	return next_field( parse_time_( in, out ), result );
+}
+
+static char* parse_name( char* in )
+{
+	char* out = in;
+	while ( 1 )
+	{
+		int c = *in;
+		if ( !c ) break;
+		in++;
+		
+		if ( c == ',' ) // commas in string
+		{
+			char* p = skip_white( in );
+			if ( *p == ',' || *p == '-' || from_dec( *p ) <= 9 )
+			{
+				in = p;
+				break;
+			}
+		}
+		
+		if ( c == '\\' ) // \ prefix for special characters
+		{
+			c = *in;
+			if ( !c ) break;
+			in++;
+		}
+		*out++ = (char) c;
+	}
+	*out = 0; // terminate string
+	return in;
+}
+
+static int parse_line( char* in, M3u_Playlist::entry_t& entry )
+{
+	int result = 0;
+	
+	// file
+	entry.file = in;
+	entry.type = "";
+	in = parse_filename( in, entry );
+	
+	// track
+	entry.track = -1;
+	entry.decimal_track = 0;
+	in = parse_track( in, entry, &result );
+	
+	// name
+	entry.name = in;
+	in = parse_name( in );
+	
+	// time
+	entry.length = -1;
+	in = parse_time( in, &entry.length, &result );
+	
+	// loop
+	entry.intro = -1;
+	entry.loop  = -1;
+	if ( *in == '-' )
+	{
+		entry.loop = entry.length;
+		in++;
+	}
+	else
+	{
+		in = parse_time_( in, &entry.loop );
+		if ( entry.loop >= 0 )
+		{
+			entry.intro = 0;
+			if ( *in == '-' ) // trailing '-' means that intro length was specified 
+			{
+				in++;
+				entry.intro = entry.loop;
+				entry.loop  = entry.length - entry.intro;
+			}
+		}
+	}
+	in = next_field( in, &result );
+	
+	// fade
+	entry.fade = -1;
+	in = parse_time( in, &entry.fade, &result );
+	
+	// repeat
+	entry.repeat = -1;
+	in = parse_int( in, &entry.repeat, &result );
+	
+	return result;
+}
+
+static void parse_comment( char* in, M3u_Playlist::info_t& info, bool first )
+{
+	in = skip_white( in + 1 );
+	const char* field = in;
+	while ( *in && *in != ':' )
+		in++;
+	
+	if ( *in == ':' )
+	{
+		const char* text = skip_white( in + 1 );
+		if ( *text )
+		{
+			*in = 0;
+			     if ( !strcmp( "Composer", field ) ) info.composer = text;
+			else if ( !strcmp( "Engineer", field ) ) info.engineer = text;
+			else if ( !strcmp( "Ripping" , field ) ) info.ripping  = text;
+			else if ( !strcmp( "Tagging" , field ) ) info.tagging  = text;
+			else
+				text = 0;
+			if ( text )
+				return;
+			*in = ':';
+		}
+	}
+	
+	if ( first )
+		info.title = field;
+}
+
+blargg_err_t M3u_Playlist::parse_()
+{
+	info_.title    = "";
+	info_.composer = "";
+	info_.engineer = "";
+	info_.ripping  = "";
+	info_.tagging  = "";
+	
+	int const CR = 13;
+	int const LF = 10;
+	
+	data.end() [-1] = LF; // terminate input
+	
+	first_error_ = 0;
+	bool first_comment = true;
+	int line  = 0;
+	int count = 0;
+	char* in  = data.begin();
+	while ( in < data.end() )
+	{
+		// find end of line and terminate it
+		line++;
+		char* begin = in;
+		while ( *in != CR && *in != LF )
+		{
+			if ( !*in )
+				return "Not an m3u playlist";
+			in++;
+		}
+		if ( in [0] == CR && in [1] == LF ) // treat CR,LF as a single line
+			*in++ = 0;
+		*in++ = 0;
+		
+		// parse line
+		if ( *begin == '#' )
+		{
+			parse_comment( begin, info_, first_comment );
+			first_comment = false;
+		}
+		else if ( *begin )
+		{
+			if ( (int) entries.size() <= count )
+				RETURN_ERR( entries.resize( count * 2 + 64 ) );
+			
+			if ( !parse_line( begin, entries [count] ) )
+				count++;
+			else if ( !first_error_ )
+				first_error_ = line;
+			first_comment = false;
+		}
+	}
+	if ( count <= 0 )
+		return "Not an m3u playlist";
+	
+	if ( !(info_.composer [0] | info_.engineer [0] | info_.ripping [0] | info_.tagging [0]) )
+		info_.title = "";
+	
+	return entries.resize( count );
+}
+
+blargg_err_t M3u_Playlist::parse()
+{
+	blargg_err_t err = parse_();
+	if ( err )
+	{
+		entries.clear();
+		data.clear();
+	}
+	return err;
+}
+
+blargg_err_t M3u_Playlist::load( Data_Reader& in )
+{
+	RETURN_ERR( data.resize( in.remain() + 1 ) );
+	RETURN_ERR( in.read( data.begin(), data.size() - 1 ) );
+	return parse();
+}
+
+blargg_err_t M3u_Playlist::load( const char* path )
+{
+	GME_FILE_READER in;
+	RETURN_ERR( in.open( path ) );
+	return load( in );
+}
+
+blargg_err_t M3u_Playlist::load( void const* in, long size )
+{
+	RETURN_ERR( data.resize( size + 1 ) );
+	memcpy( data.begin(), in, size );
+	return parse();
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/M3u_Playlist.h b/plugins/gme/game-music-emu-0.5.5/gme/M3u_Playlist.h
new file mode 100644
index 00000000..266a0653
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/M3u_Playlist.h
@@ -0,0 +1,67 @@
+// M3U playlist file parser, with support for subtrack information
+
+// Game_Music_Emu 0.5.5
+#ifndef M3U_PLAYLIST_H
+#define M3U_PLAYLIST_H
+
+#include "blargg_common.h"
+#include "Data_Reader.h"
+
+class M3u_Playlist {
+public:
+	// Load playlist data
+	blargg_err_t load( const char* path );
+	blargg_err_t load( Data_Reader& in );
+	blargg_err_t load( void const* data, long size );
+	
+	// Line number of first parse error, 0 if no error. Any lines with parse
+	// errors are ignored.
+	int first_error() const { return first_error_; }
+	
+	struct info_t
+	{
+		const char* title;
+		const char* composer;
+		const char* engineer;
+		const char* ripping;
+		const char* tagging;
+	};
+	info_t const& info() const { return info_; }
+	
+	struct entry_t
+	{
+		const char* file; // filename without stupid ::TYPE suffix
+		const char* type; // if filename has ::TYPE suffix, this will be "TYPE". "" if none.
+		const char* name;
+		bool decimal_track; // true if track was specified in hex
+		// integers are -1 if not present
+		int track;  // 1-based
+		int length; // seconds
+		int intro;
+		int loop;
+		int fade;
+		int repeat; // count
+	};
+	entry_t const& operator [] ( int i ) const { return entries [i]; }
+	int size() const { return entries.size(); }
+	
+	void clear();
+	
+private:
+	blargg_vector<entry_t> entries;
+	blargg_vector<char> data;
+	int first_error_;
+	info_t info_;
+	
+	blargg_err_t parse();
+	blargg_err_t parse_();
+};
+
+inline void M3u_Playlist::clear()
+{
+	first_error_ = 0;
+	entries.clear();
+	data.clear();
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Multi_Buffer.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Multi_Buffer.cpp
new file mode 100644
index 00000000..57f93b31
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Multi_Buffer.cpp
@@ -0,0 +1,232 @@
+// Blip_Buffer 0.4.1. http://www.slack.net/~ant/
+
+#include "Multi_Buffer.h"
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+#ifdef BLARGG_ENABLE_OPTIMIZER
+	#include BLARGG_ENABLE_OPTIMIZER
+#endif
+
+Multi_Buffer::Multi_Buffer( int spf ) : samples_per_frame_( spf )
+{
+	length_ = 0;
+	sample_rate_ = 0;
+	channels_changed_count_ = 1;
+}
+
+blargg_err_t Multi_Buffer::set_channel_count( int ) { return 0; }
+
+// Silent_Buffer
+
+Silent_Buffer::Silent_Buffer() : Multi_Buffer( 1 ) // 0 channels would probably confuse
+{
+	// TODO: better to use empty Blip_Buffer so caller never has to check for NULL?
+	chan.left   = 0;
+	chan.center = 0;
+	chan.right  = 0;
+}
+
+// Mono_Buffer
+
+Mono_Buffer::Mono_Buffer() : Multi_Buffer( 1 )
+{
+	chan.center = &buf;
+	chan.left   = &buf;
+	chan.right  = &buf;
+}
+
+Mono_Buffer::~Mono_Buffer() { }
+
+blargg_err_t Mono_Buffer::set_sample_rate( long rate, int msec )
+{
+	RETURN_ERR( buf.set_sample_rate( rate, msec ) );
+	return Multi_Buffer::set_sample_rate( buf.sample_rate(), buf.length() );
+}
+
+// Stereo_Buffer
+
+Stereo_Buffer::Stereo_Buffer() : Multi_Buffer( 2 )
+{
+	chan.center = &bufs [0];
+	chan.left = &bufs [1];
+	chan.right = &bufs [2];
+}
+
+Stereo_Buffer::~Stereo_Buffer() { }
+
+blargg_err_t Stereo_Buffer::set_sample_rate( long rate, int msec )
+{
+	for ( int i = 0; i < buf_count; i++ )
+		RETURN_ERR( bufs [i].set_sample_rate( rate, msec ) );
+	return Multi_Buffer::set_sample_rate( bufs [0].sample_rate(), bufs [0].length() );
+}
+
+void Stereo_Buffer::clock_rate( long rate )
+{
+	for ( int i = 0; i < buf_count; i++ )
+		bufs [i].clock_rate( rate );
+}
+
+void Stereo_Buffer::bass_freq( int bass )
+{
+	for ( unsigned i = 0; i < buf_count; i++ )
+		bufs [i].bass_freq( bass );
+}
+
+void Stereo_Buffer::clear()
+{
+	stereo_added = 0;
+	was_stereo   = false;
+	for ( int i = 0; i < buf_count; i++ )
+		bufs [i].clear();
+}
+
+void Stereo_Buffer::end_frame( blip_time_t clock_count )
+{
+	stereo_added = 0;
+	for ( unsigned i = 0; i < buf_count; i++ )
+	{
+		stereo_added |= bufs [i].clear_modified() << i;
+		bufs [i].end_frame( clock_count );
+	}
+}
+
+long Stereo_Buffer::read_samples( blip_sample_t* out, long count )
+{
+	require( !(count & 1) ); // count must be even
+	count = (unsigned) count / 2;
+	
+	long avail = bufs [0].samples_avail();
+	if ( count > avail )
+		count = avail;
+	if ( count )
+	{
+		int bufs_used = stereo_added | was_stereo;
+		//debug_printf( "%X\n", bufs_used );
+		if ( bufs_used <= 1 )
+		{
+			mix_mono( out, count );
+			bufs [0].remove_samples( count );
+			bufs [1].remove_silence( count );
+			bufs [2].remove_silence( count );
+		}
+		else if ( bufs_used & 1 )
+		{
+			mix_stereo( out, count );
+			bufs [0].remove_samples( count );
+			bufs [1].remove_samples( count );
+			bufs [2].remove_samples( count );
+		}
+		else
+		{
+			mix_stereo_no_center( out, count );
+			bufs [0].remove_silence( count );
+			bufs [1].remove_samples( count );
+			bufs [2].remove_samples( count );
+		}
+		
+		// to do: this might miss opportunities for optimization
+		if ( !bufs [0].samples_avail() )
+		{
+			was_stereo   = stereo_added;
+			stereo_added = 0;
+		}
+	}
+	
+	return count * 2;
+}
+
+void Stereo_Buffer::mix_stereo( blip_sample_t* out_, blargg_long count )
+{
+	blip_sample_t* BLIP_RESTRICT out = out_;
+	int const bass = BLIP_READER_BASS( bufs [1] );
+	BLIP_READER_BEGIN( left, bufs [1] );
+	BLIP_READER_BEGIN( right, bufs [2] );
+	BLIP_READER_BEGIN( center, bufs [0] );
+	
+	for ( ; count; --count )
+	{
+		int c = BLIP_READER_READ( center );
+		blargg_long l = c + BLIP_READER_READ( left );
+		blargg_long r = c + BLIP_READER_READ( right );
+		if ( (BOOST::int16_t) l != l )
+			l = 0x7FFF - (l >> 24);
+		
+		BLIP_READER_NEXT( center, bass );
+		if ( (BOOST::int16_t) r != r )
+			r = 0x7FFF - (r >> 24);
+		
+		BLIP_READER_NEXT( left, bass );
+		BLIP_READER_NEXT( right, bass );
+		
+		out [0] = l;
+		out [1] = r;
+		out += 2;
+	}
+	
+	BLIP_READER_END( center, bufs [0] );
+	BLIP_READER_END( right, bufs [2] );
+	BLIP_READER_END( left, bufs [1] );
+}
+
+void Stereo_Buffer::mix_stereo_no_center( blip_sample_t* out_, blargg_long count )
+{
+	blip_sample_t* BLIP_RESTRICT out = out_;
+	int const bass = BLIP_READER_BASS( bufs [1] );
+	BLIP_READER_BEGIN( left, bufs [1] );
+	BLIP_READER_BEGIN( right, bufs [2] );
+	
+	for ( ; count; --count )
+	{
+		blargg_long l = BLIP_READER_READ( left );
+		if ( (BOOST::int16_t) l != l )
+			l = 0x7FFF - (l >> 24);
+		
+		blargg_long r = BLIP_READER_READ( right );
+		if ( (BOOST::int16_t) r != r )
+			r = 0x7FFF - (r >> 24);
+		
+		BLIP_READER_NEXT( left, bass );
+		BLIP_READER_NEXT( right, bass );
+		
+		out [0] = l;
+		out [1] = r;
+		out += 2;
+	}
+	
+	BLIP_READER_END( right, bufs [2] );
+	BLIP_READER_END( left, bufs [1] );
+}
+
+void Stereo_Buffer::mix_mono( blip_sample_t* out_, blargg_long count )
+{
+	blip_sample_t* BLIP_RESTRICT out = out_;
+	int const bass = BLIP_READER_BASS( bufs [0] );
+	BLIP_READER_BEGIN( center, bufs [0] );
+	
+	for ( ; count; --count )
+	{
+		blargg_long s = BLIP_READER_READ( center );
+		if ( (BOOST::int16_t) s != s )
+			s = 0x7FFF - (s >> 24);
+		
+		BLIP_READER_NEXT( center, bass );
+		out [0] = s;
+		out [1] = s;
+		out += 2;
+	}
+	
+	BLIP_READER_END( center, bufs [0] );
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Multi_Buffer.h b/plugins/gme/game-music-emu-0.5.5/gme/Multi_Buffer.h
new file mode 100644
index 00000000..82c8b3ab
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Multi_Buffer.h
@@ -0,0 +1,158 @@
+// Multi-channel sound buffer interface, and basic mono and stereo buffers
+
+// Blip_Buffer 0.4.1
+#ifndef MULTI_BUFFER_H
+#define MULTI_BUFFER_H
+
+#include "blargg_common.h"
+#include "Blip_Buffer.h"
+
+// Interface to one or more Blip_Buffers mapped to one or more channels
+// consisting of left, center, and right buffers.
+class Multi_Buffer {
+public:
+	Multi_Buffer( int samples_per_frame );
+	virtual ~Multi_Buffer() { }
+	
+	// Set the number of channels available
+	virtual blargg_err_t set_channel_count( int );
+	
+	// Get indexed channel, from 0 to channel count - 1
+	struct channel_t {
+		Blip_Buffer* center;
+		Blip_Buffer* left;
+		Blip_Buffer* right;
+	};
+	enum { type_index_mask = 0xFF };
+	enum { wave_type = 0x100, noise_type = 0x200, mixed_type = wave_type | noise_type };
+	virtual channel_t channel( int index, int type ) = 0;
+	
+	// See Blip_Buffer.h
+	virtual blargg_err_t set_sample_rate( long rate, int msec = blip_default_length ) = 0;
+	virtual void clock_rate( long ) = 0;
+	virtual void bass_freq( int ) = 0;
+	virtual void clear() = 0;
+	long sample_rate() const;
+	
+	// Length of buffer, in milliseconds
+	int length() const;
+	
+	// See Blip_Buffer.h
+	virtual void end_frame( blip_time_t ) = 0;
+	
+	// Number of samples per output frame (1 = mono, 2 = stereo)
+	int samples_per_frame() const;
+	
+	// Count of changes to channel configuration. Incremented whenever
+	// a change is made to any of the Blip_Buffers for any channel.
+	unsigned channels_changed_count() { return channels_changed_count_; }
+	
+	// See Blip_Buffer.h
+	virtual long read_samples( blip_sample_t*, long ) = 0;
+	virtual long samples_avail() const = 0;
+	
+public:
+	BLARGG_DISABLE_NOTHROW
+protected:
+	void channels_changed() { channels_changed_count_++; }
+private:
+	// noncopyable
+	Multi_Buffer( const Multi_Buffer& );
+	Multi_Buffer& operator = ( const Multi_Buffer& );
+	
+	unsigned channels_changed_count_;
+	long sample_rate_;
+	int length_;
+	int const samples_per_frame_;
+};
+
+// Uses a single buffer and outputs mono samples.
+class Mono_Buffer : public Multi_Buffer {
+	Blip_Buffer buf;
+	channel_t chan;
+public:
+	// Buffer used for all channels
+	Blip_Buffer* center() { return &buf; }
+	
+public:
+	Mono_Buffer();
+	~Mono_Buffer();
+	blargg_err_t set_sample_rate( long rate, int msec = blip_default_length );
+	void clock_rate( long rate ) { buf.clock_rate( rate ); }
+	void bass_freq( int freq ) { buf.bass_freq( freq ); }
+	void clear() { buf.clear(); }
+	long samples_avail() const { return buf.samples_avail(); }
+	long read_samples( blip_sample_t* p, long s ) { return buf.read_samples( p, s ); }
+	channel_t channel( int, int ) { return chan; }
+	void end_frame( blip_time_t t ) { buf.end_frame( t ); }
+};
+
+// Uses three buffers (one for center) and outputs stereo sample pairs.
+class Stereo_Buffer : public Multi_Buffer {
+public:
+	
+	// Buffers used for all channels
+	Blip_Buffer* center()       { return &bufs [0]; }
+	Blip_Buffer* left()         { return &bufs [1]; }
+	Blip_Buffer* right()        { return &bufs [2]; }
+	
+public:
+	Stereo_Buffer();
+	~Stereo_Buffer();
+	blargg_err_t set_sample_rate( long, int msec = blip_default_length );
+	void clock_rate( long );
+	void bass_freq( int );
+	void clear();
+	channel_t channel( int, int ) { return chan; }
+	void end_frame( blip_time_t );
+	
+	long samples_avail() const { return bufs [0].samples_avail() * 2; }
+	long read_samples( blip_sample_t*, long );
+	
+private:
+	enum { buf_count = 3 };
+	Blip_Buffer bufs [buf_count];
+	channel_t chan;
+	int stereo_added;
+	int was_stereo;
+	
+	void mix_stereo_no_center( blip_sample_t*, blargg_long );
+	void mix_stereo( blip_sample_t*, blargg_long );
+	void mix_mono( blip_sample_t*, blargg_long );
+};
+
+// Silent_Buffer generates no samples, useful where no sound is wanted
+class Silent_Buffer : public Multi_Buffer {
+	channel_t chan;
+public:
+	Silent_Buffer();
+	blargg_err_t set_sample_rate( long rate, int msec = blip_default_length );
+	void clock_rate( long ) { }
+	void bass_freq( int ) { }
+	void clear() { }
+	channel_t channel( int, int ) { return chan; }
+	void end_frame( blip_time_t ) { }
+	long samples_avail() const { return 0; }
+	long read_samples( blip_sample_t*, long ) { return 0; }
+};
+
+
+inline blargg_err_t Multi_Buffer::set_sample_rate( long rate, int msec )
+{
+	sample_rate_ = rate;
+	length_ = msec;
+	return 0;
+}
+
+inline blargg_err_t Silent_Buffer::set_sample_rate( long rate, int msec )
+{
+	return Multi_Buffer::set_sample_rate( rate, msec );
+}
+
+inline int Multi_Buffer::samples_per_frame() const { return samples_per_frame_; }
+
+inline long Multi_Buffer::sample_rate() const { return sample_rate_; }
+
+inline int Multi_Buffer::length() const { return length_; }
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Music_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Music_Emu.cpp
new file mode 100644
index 00000000..5db66fb9
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Music_Emu.cpp
@@ -0,0 +1,410 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Music_Emu.h"
+
+#include "Multi_Buffer.h"
+#include <string.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+int const stereo = 2; // number of channels for stereo
+int const silence_max = 6; // seconds
+int const silence_threshold = 0x10;
+long const fade_block_size = 512;
+int const fade_shift = 8; // fade ends with gain at 1.0 / (1 << fade_shift)
+
+Music_Emu::equalizer_t const Music_Emu::tv_eq = { -8.0, 180 };
+
+void Music_Emu::clear_track_vars()
+{
+	current_track_   = -1;
+	out_time         = 0;
+	emu_time         = 0;
+	emu_track_ended_ = true;
+	track_ended_     = true;
+	fade_start       = INT_MAX / 2 + 1;
+	fade_step        = 1;
+	silence_time     = 0;
+	silence_count    = 0;
+	buf_remain       = 0;
+	warning(); // clear warning
+}
+
+void Music_Emu::unload()
+{
+	voice_count_ = 0;
+	clear_track_vars();
+	Gme_File::unload();
+}
+
+Music_Emu::Music_Emu()
+{
+	effects_buffer = 0;
+	
+	sample_rate_ = 0;
+	mute_mask_   = 0;
+	tempo_       = 1.0;
+	gain_        = 1.0;
+	
+	// defaults
+	max_initial_silence = 2;
+	silence_lookahead   = 3;
+	ignore_silence_     = false;
+	equalizer_.treble   = -1.0;
+	equalizer_.bass     = 60;
+	
+	static const char* const names [] = {
+		"Voice 1", "Voice 2", "Voice 3", "Voice 4",
+		"Voice 5", "Voice 6", "Voice 7", "Voice 8"
+	};
+	set_voice_names( names );
+	Music_Emu::unload(); // non-virtual
+}
+
+Music_Emu::~Music_Emu() { delete effects_buffer; }
+
+blargg_err_t Music_Emu::set_sample_rate( long rate )
+{
+	require( !sample_rate() ); // sample rate can't be changed once set
+	RETURN_ERR( set_sample_rate_( rate ) );
+	RETURN_ERR( buf.resize( buf_size ) );
+	sample_rate_ = rate;
+	return 0;
+}
+
+void Music_Emu::pre_load()
+{
+	require( sample_rate() ); // set_sample_rate() must be called before loading a file
+	Gme_File::pre_load();
+}
+
+void Music_Emu::set_equalizer( equalizer_t const& eq )
+{
+	equalizer_ = eq;
+	set_equalizer_( eq );
+}
+
+void Music_Emu::mute_voice( int index, bool mute )
+{
+	require( (unsigned) index < (unsigned) voice_count() );
+	int bit = 1 << index;
+	int mask = mute_mask_ | bit;
+	if ( !mute )
+		mask ^= bit;
+	mute_voices( mask );
+}
+
+void Music_Emu::mute_voices( int mask )
+{
+	require( sample_rate() ); // sample rate must be set first
+	mute_mask_ = mask;
+	mute_voices_( mask );
+}
+
+void Music_Emu::set_tempo( double t )
+{
+	require( sample_rate() ); // sample rate must be set first
+	double const min = 0.02;
+	double const max = 4.00;
+	if ( t < min ) t = min;
+	if ( t > max ) t = max;
+	tempo_ = t;
+	set_tempo_( t );
+}
+
+void Music_Emu::post_load_()
+{
+	set_tempo( tempo_ );
+	remute_voices();
+}
+
+blargg_err_t Music_Emu::start_track( int track )
+{
+	clear_track_vars();
+	
+	int remapped = track;
+	RETURN_ERR( remap_track_( &remapped ) );
+	current_track_ = track;
+	RETURN_ERR( start_track_( remapped ) );
+	
+	emu_track_ended_ = false;
+	track_ended_     = false;
+	
+	if ( !ignore_silence_ )
+	{
+		// play until non-silence or end of track
+		for ( long end = max_initial_silence * stereo * sample_rate(); emu_time < end; )
+		{
+			fill_buf();
+			if ( buf_remain | (int) emu_track_ended_ )
+				break;
+		}
+		
+		emu_time      = buf_remain;
+		out_time      = 0;
+		silence_time  = 0;
+		silence_count = 0;
+	}
+	return track_ended() ? warning() : 0;
+}
+
+void Music_Emu::end_track_if_error( blargg_err_t err )
+{
+	if ( err )
+	{
+		emu_track_ended_ = true;
+		set_warning( err );
+	}
+}
+
+// Tell/Seek
+
+blargg_long Music_Emu::msec_to_samples( blargg_long msec ) const
+{
+	blargg_long sec = msec / 1000;
+	msec -= sec * 1000;
+	return (sec * sample_rate() + msec * sample_rate() / 1000) * stereo;
+}
+
+long Music_Emu::tell() const
+{
+	blargg_long rate = sample_rate() * stereo;
+	blargg_long sec = out_time / rate;
+	return sec * 1000 + (out_time - sec * rate) * 1000 / rate;
+}
+
+blargg_err_t Music_Emu::seek( long msec )
+{
+	blargg_long time = msec_to_samples( msec );
+	if ( time < out_time )
+		RETURN_ERR( start_track( current_track_ ) );
+	return skip( time - out_time );
+}
+
+blargg_err_t Music_Emu::skip( long count )
+{
+	require( current_track() >= 0 ); // start_track() must have been called already
+	out_time += count;
+	
+	// remove from silence and buf first
+	{
+		long n = min( count, silence_count );
+		silence_count -= n;
+		count -= n;
+		
+		n = min( count, buf_remain );
+		buf_remain -= n;
+		count -= n;
+	}
+		
+	if ( count && !emu_track_ended_ )
+	{
+		emu_time += count;
+		end_track_if_error( skip_( count ) );
+	}
+	
+	if ( !(silence_count | buf_remain) ) // caught up to emulator, so update track ended
+		track_ended_ |= emu_track_ended_;
+	
+	return 0;
+}
+
+blargg_err_t Music_Emu::skip_( long count )
+{
+	// for long skip, mute sound
+	const long threshold = 30000;
+	if ( count > threshold )
+	{
+		int saved_mute = mute_mask_;
+		mute_voices( ~0 );
+		
+		while ( count > threshold / 2 && !emu_track_ended_ )
+		{
+			RETURN_ERR( play_( buf_size, buf.begin() ) );
+			count -= buf_size;
+		}
+		
+		mute_voices( saved_mute );
+	}
+	
+	while ( count && !emu_track_ended_ )
+	{
+		long n = buf_size;
+		if ( n > count )
+			n = count;
+		count -= n;
+		RETURN_ERR( play_( n, buf.begin() ) );
+	}
+	return 0;
+}
+
+// Fading
+
+void Music_Emu::set_fade( long start_msec, long length_msec )
+{
+	fade_step = sample_rate() * length_msec / (fade_block_size * fade_shift * 1000 / stereo);
+	fade_start = msec_to_samples( start_msec );
+}
+
+// unit / pow( 2.0, (double) x / step )
+static int int_log( blargg_long x, int step, int unit )
+{
+	int shift = x / step;
+	int fraction = (x - shift * step) * unit / step;
+	return ((unit - fraction) + (fraction >> 1)) >> shift;
+}
+
+void Music_Emu::handle_fade( long out_count, sample_t* out )
+{
+	for ( int i = 0; i < out_count; i += fade_block_size )
+	{
+		int const shift = 14;
+		int const unit = 1 << shift;
+		int gain = int_log( (out_time + i - fade_start) / fade_block_size,
+				fade_step, unit );
+		if ( gain < (unit >> fade_shift) )
+			track_ended_ = emu_track_ended_ = true;
+		
+		sample_t* io = &out [i];
+		for ( int count = min( fade_block_size, out_count - i ); count; --count )
+		{
+			*io = sample_t ((*io * gain) >> shift);
+			++io;
+		}
+	}
+}
+
+// Silence detection
+
+void Music_Emu::emu_play( long count, sample_t* out )
+{
+	check( current_track_ >= 0 );
+	emu_time += count;
+	if ( current_track_ >= 0 && !emu_track_ended_ )
+		end_track_if_error( play_( count, out ) );
+	else
+		memset( out, 0, count * sizeof *out );
+}
+
+// number of consecutive silent samples at end
+static long count_silence( Music_Emu::sample_t* begin, long size )
+{
+	Music_Emu::sample_t first = *begin;
+	*begin = silence_threshold; // sentinel
+	Music_Emu::sample_t* p = begin + size;
+	while ( (unsigned) (*--p + silence_threshold / 2) <= (unsigned) silence_threshold ) { }
+	*begin = first;
+	return size - (p - begin);
+}
+
+// fill internal buffer and check it for silence
+void Music_Emu::fill_buf()
+{
+	assert( !buf_remain );
+	if ( !emu_track_ended_ )
+	{
+		emu_play( buf_size, buf.begin() );
+		long silence = count_silence( buf.begin(), buf_size );
+		if ( silence < buf_size )
+		{
+			silence_time = emu_time - silence;
+			buf_remain   = buf_size;
+			return;
+		}
+	}
+	silence_count += buf_size;
+}
+
+blargg_err_t Music_Emu::play( long out_count, sample_t* out )
+{
+	if ( track_ended_ )
+	{
+		memset( out, 0, out_count * sizeof *out );
+	}
+	else
+	{
+		require( current_track() >= 0 );
+		require( out_count % stereo == 0 );
+		
+		assert( emu_time >= out_time );
+		
+		// prints nifty graph of how far ahead we are when searching for silence
+		//debug_printf( "%*s \n", int ((emu_time - out_time) * 7 / sample_rate()), "*" );
+		
+		long pos = 0;
+		if ( silence_count )
+		{
+			// during a run of silence, run emulator at >=2x speed so it gets ahead
+			long ahead_time = silence_lookahead * (out_time + out_count - silence_time) + silence_time;
+			while ( emu_time < ahead_time && !(buf_remain | emu_track_ended_) )
+				fill_buf();
+			
+			// fill with silence
+			pos = min( silence_count, out_count );
+			memset( out, 0, pos * sizeof *out );
+			silence_count -= pos;
+			
+			if ( emu_time - silence_time > silence_max * stereo * sample_rate() )
+			{
+				track_ended_  = emu_track_ended_ = true;
+				silence_count = 0;
+				buf_remain    = 0;
+			}
+		}
+		
+		if ( buf_remain )
+		{
+			// empty silence buf
+			long n = min( buf_remain, out_count - pos );
+			memcpy( &out [pos], buf.begin() + (buf_size - buf_remain), n * sizeof *out );
+			buf_remain -= n;
+			pos += n;
+		}
+		
+		// generate remaining samples normally
+		long remain = out_count - pos;
+		if ( remain )
+		{
+			emu_play( remain, out + pos );
+			track_ended_ |= emu_track_ended_;
+			
+			if ( !ignore_silence_ || out_time > fade_start )
+			{
+				// check end for a new run of silence
+				long silence = count_silence( out + pos, remain );
+				if ( silence < remain )
+					silence_time = emu_time - silence;
+				
+				if ( emu_time - silence_time >= buf_size )
+					fill_buf(); // cause silence detection on next play()
+			}
+		}
+		
+		if ( out_time > fade_start )
+			handle_fade( out_count, out );
+	}
+	out_time += out_count;
+	return 0;
+}
+
+// Gme_Info_
+
+blargg_err_t Gme_Info_::set_sample_rate_( long )            { return 0; }
+void         Gme_Info_::pre_load()                          { Gme_File::pre_load(); } // skip Music_Emu
+void         Gme_Info_::post_load_()                        { Gme_File::post_load_(); } // skip Music_Emu
+void         Gme_Info_::set_equalizer_( equalizer_t const& ){ check( false ); }
+void         Gme_Info_::mute_voices_( int )                 { check( false ); }
+void         Gme_Info_::set_tempo_( double )                { }
+blargg_err_t Gme_Info_::start_track_( int )                 { return "Use full emulator for playback"; }
+blargg_err_t Gme_Info_::play_( long, sample_t* )            { return "Use full emulator for playback"; }
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Music_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Music_Emu.h
new file mode 100644
index 00000000..c5f1d029
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Music_Emu.h
@@ -0,0 +1,211 @@
+// Common interface to game music file emulators
+
+// Game_Music_Emu 0.5.5
+#ifndef MUSIC_EMU_H
+#define MUSIC_EMU_H
+
+#include "Gme_File.h"
+class Multi_Buffer;
+
+struct Music_Emu : public Gme_File {
+public:
+// Basic functionality (see Gme_File.h for file loading/track info functions)
+
+	// Set output sample rate. Must be called only once before loading file.
+	blargg_err_t set_sample_rate( long sample_rate );
+	
+	// Start a track, where 0 is the first track. Also clears warning string.
+	blargg_err_t start_track( int );
+	
+	// Generate 'count' samples info 'buf'. Output is in stereo. Any emulation
+	// errors set warning string, and major errors also end track.
+	typedef short sample_t;
+	blargg_err_t play( long count, sample_t* buf );
+	
+// Informational
+	
+	// Sample rate sound is generated at
+	long sample_rate() const;
+	
+	// Index of current track or -1 if one hasn't been started
+	int current_track() const;
+	
+	// Number of voices used by currently loaded file
+	int voice_count() const;
+	
+	// Names of voices
+	const char** voice_names() const;
+	
+// Track status/control
+
+	// Number of milliseconds (1000 msec = 1 second) played since beginning of track
+	long tell() const;
+	
+	// Seek to new time in track. Seeking backwards or far forward can take a while.
+	blargg_err_t seek( long msec );
+	
+	// Skip n samples
+	blargg_err_t skip( long n );
+	
+	// True if a track has reached its end
+	bool track_ended() const;
+	
+	// Set start time and length of track fade out. Once fade ends track_ended() returns
+	// true. Fade time can be changed while track is playing.
+	void set_fade( long start_msec, long length_msec = 8000 );
+	
+	// Disable automatic end-of-track detection and skipping of silence at beginning
+	void ignore_silence( bool disable = true );
+	
+	// Info for current track
+	Gme_File::track_info;
+	blargg_err_t track_info( track_info_t* out ) const;
+	
+// Sound customization
+	
+	// Adjust song tempo, where 1.0 = normal, 0.5 = half speed, 2.0 = double speed.
+	// Track length as returned by track_info() assumes a tempo of 1.0.
+	void set_tempo( double );
+	
+	// Mute/unmute voice i, where voice 0 is first voice
+	void mute_voice( int index, bool mute = true );
+	
+	// Set muting state of all voices at once using a bit mask, where -1 mutes them all,
+	// 0 unmutes them all, 0x01 mutes just the first voice, etc.
+	void mute_voices( int mask );
+	
+	// Change overall output amplitude, where 1.0 results in minimal clamping.
+	// Must be called before set_sample_rate().
+	void set_gain( double );
+	
+	// Request use of custom multichannel buffer. Only supported by "classic" emulators;
+	// on others this has no effect. Should be called only once *before* set_sample_rate().
+	virtual void set_buffer( Multi_Buffer* ) { }
+	
+// Sound equalization (treble/bass)
+
+	// Frequency equalizer parameters (see gme.txt)
+	// See gme.h for definition of struct gme_equalizer_t.
+	typedef gme_equalizer_t equalizer_t;
+	
+	// Current frequency equalizater parameters
+	equalizer_t const& equalizer() const;
+	
+	// Set frequency equalizer parameters
+	void set_equalizer( equalizer_t const& );
+	
+	// Equalizer settings for TV speaker
+	static equalizer_t const tv_eq;
+	
+public:
+	Music_Emu();
+	~Music_Emu();
+protected:
+	void set_max_initial_silence( int n )       { max_initial_silence = n; }
+	void set_silence_lookahead( int n )         { silence_lookahead = n; }
+	void set_voice_count( int n )               { voice_count_ = n; }
+	void set_voice_names( const char* const* names );
+	void set_track_ended()                      { emu_track_ended_ = true; }
+	double gain() const                         { return gain_; }
+	double tempo() const                        { return tempo_; }
+	void remute_voices();
+	
+	virtual blargg_err_t set_sample_rate_( long sample_rate ) = 0;
+	virtual void set_equalizer_( equalizer_t const& ) { };
+	virtual void mute_voices_( int mask ) = 0;
+	virtual void set_tempo_( double ) = 0;
+	virtual blargg_err_t start_track_( int ) = 0; // tempo is set before this
+	virtual blargg_err_t play_( long count, sample_t* out ) = 0;
+	virtual blargg_err_t skip_( long count );
+protected:
+	virtual void unload();
+	virtual void pre_load();
+	virtual void post_load_();
+private:
+	// general
+	equalizer_t equalizer_;
+	int max_initial_silence;
+	const char** voice_names_;
+	int voice_count_;
+	int mute_mask_;
+	double tempo_;
+	double gain_;
+	
+	long sample_rate_;
+	blargg_long msec_to_samples( blargg_long msec ) const;
+	
+	// track-specific
+	int current_track_;
+	blargg_long out_time;  // number of samples played since start of track
+	blargg_long emu_time;  // number of samples emulator has generated since start of track
+	bool emu_track_ended_; // emulator has reached end of track
+	volatile bool track_ended_;
+	void clear_track_vars();
+	void end_track_if_error( blargg_err_t );
+	
+	// fading
+	blargg_long fade_start;
+	int fade_step;
+	void handle_fade( long count, sample_t* out );
+	
+	// silence detection
+	int silence_lookahead; // speed to run emulator when looking ahead for silence
+	bool ignore_silence_;
+	long silence_time;     // number of samples where most recent silence began
+	long silence_count;    // number of samples of silence to play before using buf
+	long buf_remain;       // number of samples left in silence buffer
+	enum { buf_size = 2048 };
+	blargg_vector<sample_t> buf;
+	void fill_buf();
+	void emu_play( long count, sample_t* out );
+	
+	Multi_Buffer* effects_buffer;
+	friend Music_Emu* gme_new_emu( gme_type_t, int );
+	friend void gme_set_stereo_depth( Music_Emu*, double );
+};
+
+// base class for info-only derivations
+struct Gme_Info_ : Music_Emu
+{
+	virtual blargg_err_t set_sample_rate_( long sample_rate );
+	virtual void set_equalizer_( equalizer_t const& );
+	virtual void mute_voices_( int mask );
+	virtual void set_tempo_( double );
+	virtual blargg_err_t start_track_( int );
+	virtual blargg_err_t play_( long count, sample_t* out );
+	virtual void pre_load();
+	virtual void post_load_();
+};
+
+inline blargg_err_t Music_Emu::track_info( track_info_t* out ) const
+{
+	return track_info( out, current_track_ );
+}
+
+inline long Music_Emu::sample_rate() const          { return sample_rate_; }
+inline const char** Music_Emu::voice_names() const  { return voice_names_; }
+inline int Music_Emu::voice_count() const           { return voice_count_; }
+inline int Music_Emu::current_track() const         { return current_track_; }
+inline bool Music_Emu::track_ended() const          { return track_ended_; }
+inline const Music_Emu::equalizer_t& Music_Emu::equalizer() const { return equalizer_; }
+
+inline void Music_Emu::set_tempo_( double t )       { tempo_ = t; }
+inline void Music_Emu::remute_voices()              { mute_voices( mute_mask_ ); }
+inline void Music_Emu::ignore_silence( bool b )     { ignore_silence_ = b; }
+inline blargg_err_t Music_Emu::start_track_( int )  { return 0; }
+
+inline void Music_Emu::set_voice_names( const char* const* names )
+{
+	// Intentional removal of const, so users don't have to remember obscure const in middle
+	voice_names_ = const_cast<const char**> (names);
+}
+
+inline void Music_Emu::mute_voices_( int ) { }
+
+inline void Music_Emu::set_gain( double g )
+{
+	assert( !sample_rate() ); // you must set gain before setting sample rate
+	gain_ = g;
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nes_Apu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Apu.cpp
new file mode 100644
index 00000000..68edb446
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Apu.cpp
@@ -0,0 +1,391 @@
+// Nes_Snd_Emu 0.1.8. http://www.slack.net/~ant/
+
+#include "Nes_Apu.h"
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+int const amp_range = 15;
+
+Nes_Apu::Nes_Apu() :
+	square1( &square_synth ),
+	square2( &square_synth )
+{
+	tempo_ = 1.0;
+	dmc.apu = this;
+	dmc.prg_reader = NULL;
+	irq_notifier_ = NULL;
+	
+	oscs [0] = &square1;
+	oscs [1] = &square2;
+	oscs [2] = &triangle;
+	oscs [3] = &noise;
+	oscs [4] = &dmc;
+	
+	output( NULL );
+	volume( 1.0 );
+	reset( false );
+}
+
+void Nes_Apu::treble_eq( const blip_eq_t& eq )
+{
+	square_synth.treble_eq( eq );
+	triangle.synth.treble_eq( eq );
+	noise.synth.treble_eq( eq );
+	dmc.synth.treble_eq( eq );
+}
+
+void Nes_Apu::enable_nonlinear( double v )
+{
+	dmc.nonlinear = true;
+	square_synth.volume( 1.3 * 0.25751258 / 0.742467605 * 0.25 / amp_range * v );
+	
+	const double tnd = 0.48 / 202 * nonlinear_tnd_gain();
+	triangle.synth.volume( 3.0 * tnd );
+	noise.synth.volume( 2.0 * tnd );
+	dmc.synth.volume( tnd );
+	
+	square1 .last_amp = 0;
+	square2 .last_amp = 0;
+	triangle.last_amp = 0;
+	noise   .last_amp = 0;
+	dmc     .last_amp = 0;
+}
+
+void Nes_Apu::volume( double v )
+{
+	dmc.nonlinear = false;
+	square_synth.volume(   0.1128  / amp_range * v );
+	triangle.synth.volume( 0.12765 / amp_range * v );
+	noise.synth.volume(    0.0741  / amp_range * v );
+	dmc.synth.volume(      0.42545 / 127 * v );
+}
+
+void Nes_Apu::output( Blip_Buffer* buffer )
+{
+	for ( int i = 0; i < osc_count; i++ )
+		osc_output( i, buffer );
+}
+
+void Nes_Apu::set_tempo( double t )
+{
+	tempo_ = t;
+	frame_period = (dmc.pal_mode ? 8314 : 7458);
+	if ( t != 1.0 )
+		frame_period = (int) (frame_period / t) & ~1; // must be even
+}
+
+void Nes_Apu::reset( bool pal_mode, int initial_dmc_dac )
+{
+	dmc.pal_mode = pal_mode;
+	set_tempo( tempo_ );
+	
+	square1.reset();
+	square2.reset();
+	triangle.reset();
+	noise.reset();
+	dmc.reset();
+	
+	last_time = 0;
+	last_dmc_time = 0;
+	osc_enables = 0;
+	irq_flag = false;
+	earliest_irq_ = no_irq;
+	frame_delay = 1;
+	write_register( 0, 0x4017, 0x00 );
+	write_register( 0, 0x4015, 0x00 );
+	
+	for ( nes_addr_t addr = start_addr; addr <= 0x4013; addr++ )
+		write_register( 0, addr, (addr & 3) ? 0x00 : 0x10 );
+	
+	dmc.dac = initial_dmc_dac;
+	if ( !dmc.nonlinear )
+		triangle.last_amp = 15;
+	if ( !dmc.nonlinear ) // TODO: remove?
+		dmc.last_amp = initial_dmc_dac; // prevent output transition
+}
+
+void Nes_Apu::irq_changed()
+{
+	nes_time_t new_irq = dmc.next_irq;
+	if ( dmc.irq_flag | irq_flag ) {
+		new_irq = 0;
+	}
+	else if ( new_irq > next_irq ) {
+		new_irq = next_irq;
+	}
+	
+	if ( new_irq != earliest_irq_ ) {
+		earliest_irq_ = new_irq;
+		if ( irq_notifier_ )
+			irq_notifier_( irq_data );
+	}
+}
+
+// frames
+
+void Nes_Apu::run_until( nes_time_t end_time )
+{
+	require( end_time >= last_dmc_time );
+	if ( end_time > next_dmc_read_time() )
+	{
+		nes_time_t start = last_dmc_time;
+		last_dmc_time = end_time;
+		dmc.run( start, end_time );
+	}
+}
+
+void Nes_Apu::run_until_( nes_time_t end_time )
+{
+	require( end_time >= last_time );
+	
+	if ( end_time == last_time )
+		return;
+	
+	if ( last_dmc_time < end_time )
+	{
+		nes_time_t start = last_dmc_time;
+		last_dmc_time = end_time;
+		dmc.run( start, end_time );
+	}
+	
+	while ( true )
+	{
+		// earlier of next frame time or end time
+		nes_time_t time = last_time + frame_delay;
+		if ( time > end_time )
+			time = end_time;
+		frame_delay -= time - last_time;
+		
+		// run oscs to present
+		square1.run( last_time, time );
+		square2.run( last_time, time );
+		triangle.run( last_time, time );
+		noise.run( last_time, time );
+		last_time = time;
+		
+		if ( time == end_time )
+			break; // no more frames to run
+		
+		// take frame-specific actions
+		frame_delay = frame_period;
+		switch ( frame++ )
+		{
+			case 0:
+				if ( !(frame_mode & 0xC0) ) {
+		 			next_irq = time + frame_period * 4 + 2;
+		 			irq_flag = true;
+		 		}
+		 		// fall through
+		 	case 2:
+		 		// clock length and sweep on frames 0 and 2
+				square1.clock_length( 0x20 );
+				square2.clock_length( 0x20 );
+				noise.clock_length( 0x20 );
+				triangle.clock_length( 0x80 ); // different bit for halt flag on triangle
+				
+				square1.clock_sweep( -1 );
+				square2.clock_sweep( 0 );
+				
+				// frame 2 is slightly shorter in mode 1
+				if ( dmc.pal_mode && frame == 3 )
+					frame_delay -= 2;
+		 		break;
+		 	
+			case 1:
+				// frame 1 is slightly shorter in mode 0
+				if ( !dmc.pal_mode )
+					frame_delay -= 2;
+				break;
+			
+		 	case 3:
+		 		frame = 0;
+		 		
+		 		// frame 3 is almost twice as long in mode 1
+		 		if ( frame_mode & 0x80 )
+					frame_delay += frame_period - (dmc.pal_mode ? 2 : 6);
+				break;
+		}
+		
+		// clock envelopes and linear counter every frame
+		triangle.clock_linear_counter();
+		square1.clock_envelope();
+		square2.clock_envelope();
+		noise.clock_envelope();
+	}
+}
+
+template<class T>
+inline void zero_apu_osc( T* osc, nes_time_t time )
+{
+	Blip_Buffer* output = osc->output;
+	int last_amp = osc->last_amp;
+	osc->last_amp = 0;
+	if ( output && last_amp )
+		osc->synth.offset( time, -last_amp, output );
+}
+
+void Nes_Apu::end_frame( nes_time_t end_time )
+{
+	if ( end_time > last_time )
+		run_until_( end_time );
+	
+	if ( dmc.nonlinear )
+	{
+		zero_apu_osc( &square1,  last_time );
+		zero_apu_osc( &square2,  last_time );
+		zero_apu_osc( &triangle, last_time );
+		zero_apu_osc( &noise,    last_time );
+		zero_apu_osc( &dmc,      last_time );
+	}
+	
+	// make times relative to new frame
+	last_time -= end_time;
+	require( last_time >= 0 );
+	
+	last_dmc_time -= end_time;
+	require( last_dmc_time >= 0 );
+	
+	if ( next_irq != no_irq ) {
+		next_irq -= end_time;
+		check( next_irq >= 0 );
+	}
+	if ( dmc.next_irq != no_irq ) {
+		dmc.next_irq -= end_time;
+		check( dmc.next_irq >= 0 );
+	}
+	if ( earliest_irq_ != no_irq ) {
+		earliest_irq_ -= end_time;
+		if ( earliest_irq_ < 0 )
+			earliest_irq_ = 0;
+	}
+}
+
+// registers
+
+static const unsigned char length_table [0x20] = {
+	0x0A, 0xFE, 0x14, 0x02, 0x28, 0x04, 0x50, 0x06,
+	0xA0, 0x08, 0x3C, 0x0A, 0x0E, 0x0C, 0x1A, 0x0E, 
+	0x0C, 0x10, 0x18, 0x12, 0x30, 0x14, 0x60, 0x16,
+	0xC0, 0x18, 0x48, 0x1A, 0x10, 0x1C, 0x20, 0x1E
+};
+
+void Nes_Apu::write_register( nes_time_t time, nes_addr_t addr, int data )
+{
+	require( addr > 0x20 ); // addr must be actual address (i.e. 0x40xx)
+	require( (unsigned) data <= 0xFF );
+	
+	// Ignore addresses outside range
+	if ( unsigned (addr - start_addr) > end_addr - start_addr )
+		return;
+	
+	run_until_( time );
+	
+	if ( addr < 0x4014 )
+	{
+		// Write to channel
+		int osc_index = (addr - start_addr) >> 2;
+		Nes_Osc* osc = oscs [osc_index];
+		
+		int reg = addr & 3;
+		osc->regs [reg] = data;
+		osc->reg_written [reg] = true;
+		
+		if ( osc_index == 4 )
+		{
+			// handle DMC specially
+			dmc.write_register( reg, data );
+		}
+		else if ( reg == 3 )
+		{
+			// load length counter
+			if ( (osc_enables >> osc_index) & 1 )
+				osc->length_counter = length_table [(data >> 3) & 0x1F];
+			
+			// reset square phase
+			if ( osc_index < 2 )
+				((Nes_Square*) osc)->phase = Nes_Square::phase_range - 1;
+		}
+	}
+	else if ( addr == 0x4015 )
+	{
+		// Channel enables
+		for ( int i = osc_count; i--; )
+			if ( !((data >> i) & 1) )
+				oscs [i]->length_counter = 0;
+		
+		bool recalc_irq = dmc.irq_flag;
+		dmc.irq_flag = false;
+		
+		int old_enables = osc_enables;
+		osc_enables = data;
+		if ( !(data & 0x10) ) {
+			dmc.next_irq = no_irq;
+			recalc_irq = true;
+		}
+		else if ( !(old_enables & 0x10) ) {
+			dmc.start(); // dmc just enabled
+		}
+		
+		if ( recalc_irq )
+			irq_changed();
+	}
+	else if ( addr == 0x4017 )
+	{
+		// Frame mode
+		frame_mode = data;
+		
+		bool irq_enabled = !(data & 0x40);
+		irq_flag &= irq_enabled;
+		next_irq = no_irq;
+		
+		// mode 1
+		frame_delay = (frame_delay & 1);
+		frame = 0;
+		
+		if ( !(data & 0x80) )
+		{
+			// mode 0
+			frame = 1;
+			frame_delay += frame_period;
+			if ( irq_enabled )
+				next_irq = time + frame_delay + frame_period * 3 + 1;
+		}
+		
+		irq_changed();
+	}
+}
+
+int Nes_Apu::read_status( nes_time_t time )
+{
+	run_until_( time - 1 );
+	
+	int result = (dmc.irq_flag << 7) | (irq_flag << 6);
+	
+	for ( int i = 0; i < osc_count; i++ )
+		if ( oscs [i]->length_counter )
+			result |= 1 << i;
+	
+	run_until_( time );
+	
+	if ( irq_flag )
+	{
+		result |= 0x40;
+		irq_flag = false;
+		irq_changed();
+	}
+	
+	//debug_printf( "%6d/%d Read $4015->$%02X\n", frame_delay, frame, result );
+	
+	return result;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nes_Apu.h b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Apu.h
new file mode 100644
index 00000000..5e722248
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Apu.h
@@ -0,0 +1,179 @@
+// NES 2A03 APU sound chip emulator
+
+// Nes_Snd_Emu 0.1.8
+#ifndef NES_APU_H
+#define NES_APU_H
+
+#include "blargg_common.h"
+
+typedef blargg_long nes_time_t; // CPU clock cycle count
+typedef unsigned nes_addr_t; // 16-bit memory address
+
+#include "Nes_Oscs.h"
+
+struct apu_state_t;
+class Nes_Buffer;
+
+class Nes_Apu {
+public:
+	// Set buffer to generate all sound into, or disable sound if NULL
+	void output( Blip_Buffer* );
+	
+	// Set memory reader callback used by DMC oscillator to fetch samples.
+	// When callback is invoked, 'user_data' is passed unchanged as the
+	// first parameter.
+	void dmc_reader( int (*callback)( void* user_data, nes_addr_t ), void* user_data = NULL );
+	
+	// All time values are the number of CPU clock cycles relative to the
+	// beginning of the current time frame. Before resetting the CPU clock
+	// count, call end_frame( last_cpu_time ).
+	
+	// Write to register (0x4000-0x4017, except 0x4014 and 0x4016)
+	enum { start_addr = 0x4000 };
+	enum { end_addr   = 0x4017 };
+	void write_register( nes_time_t, nes_addr_t, int data );
+	
+	// Read from status register at 0x4015
+	enum { status_addr = 0x4015 };
+	int read_status( nes_time_t );
+	
+	// Run all oscillators up to specified time, end current time frame, then
+	// start a new time frame at time 0. Time frames have no effect on emulation
+	// and each can be whatever length is convenient.
+	void end_frame( nes_time_t );
+	
+// Additional optional features (can be ignored without any problem)
+
+	// Reset internal frame counter, registers, and all oscillators.
+	// Use PAL timing if pal_timing is true, otherwise use NTSC timing.
+	// Set the DMC oscillator's initial DAC value to initial_dmc_dac without
+	// any audible click.
+	void reset( bool pal_mode = false, int initial_dmc_dac = 0 );
+	
+	// Adjust frame period
+	void set_tempo( double );
+	
+	// Save/load exact emulation state
+	void save_state( apu_state_t* out ) const;
+	void load_state( apu_state_t const& );
+	
+	// Set overall volume (default is 1.0)
+	void volume( double );
+	
+	// Set treble equalization (see notes.txt)
+	void treble_eq( const blip_eq_t& );
+	
+	// Set sound output of specific oscillator to buffer. If buffer is NULL,
+	// the specified oscillator is muted and emulation accuracy is reduced.
+	// The oscillators are indexed as follows: 0) Square 1, 1) Square 2,
+	// 2) Triangle, 3) Noise, 4) DMC.
+	enum { osc_count = 5 };
+	void osc_output( int index, Blip_Buffer* buffer );
+	
+	// Set IRQ time callback that is invoked when the time of earliest IRQ
+	// may have changed, or NULL to disable. When callback is invoked,
+	// 'user_data' is passed unchanged as the first parameter.
+	void irq_notifier( void (*callback)( void* user_data ), void* user_data = NULL );
+	
+	// Get time that APU-generated IRQ will occur if no further register reads
+	// or writes occur. If IRQ is already pending, returns irq_waiting. If no
+	// IRQ will occur, returns no_irq.
+	enum { no_irq = INT_MAX / 2 + 1 };
+	enum { irq_waiting = 0 };
+	nes_time_t earliest_irq( nes_time_t ) const;
+	
+	// Count number of DMC reads that would occur if 'run_until( t )' were executed.
+	// If last_read is not NULL, set *last_read to the earliest time that
+	// 'count_dmc_reads( time )' would result in the same result.
+	int count_dmc_reads( nes_time_t t, nes_time_t* last_read = NULL ) const;
+	
+	// Time when next DMC memory read will occur
+	nes_time_t next_dmc_read_time() const;
+	
+	// Run DMC until specified time, so that any DMC memory reads can be
+	// accounted for (i.e. inserting CPU wait states).
+	void run_until( nes_time_t );
+	
+public:
+	Nes_Apu();
+	BLARGG_DISABLE_NOTHROW
+private:
+	friend class Nes_Nonlinearizer;
+	void enable_nonlinear( double volume );
+	static double nonlinear_tnd_gain() { return 0.75; }
+private:
+	friend struct Nes_Dmc;
+	
+	// noncopyable
+	Nes_Apu( const Nes_Apu& );
+	Nes_Apu& operator = ( const Nes_Apu& );
+	
+	Nes_Osc*            oscs [osc_count];
+	Nes_Square          square1;
+	Nes_Square          square2;
+	Nes_Noise           noise;
+	Nes_Triangle        triangle;
+	Nes_Dmc             dmc;
+	
+	double tempo_;
+	nes_time_t last_time; // has been run until this time in current frame
+	nes_time_t last_dmc_time;
+	nes_time_t earliest_irq_;
+	nes_time_t next_irq;
+	int frame_period;
+	int frame_delay; // cycles until frame counter runs next
+	int frame; // current frame (0-3)
+	int osc_enables;
+	int frame_mode;
+	bool irq_flag;
+	void (*irq_notifier_)( void* user_data );
+	void* irq_data;
+	Nes_Square::Synth square_synth; // shared by squares
+	
+	void irq_changed();
+	void state_restored();
+	void run_until_( nes_time_t );
+	
+	// TODO: remove
+	friend class Nes_Core;
+};
+
+inline void Nes_Apu::osc_output( int osc, Blip_Buffer* buf )
+{
+	assert( (unsigned) osc < osc_count );
+	oscs [osc]->output = buf;
+}
+
+inline nes_time_t Nes_Apu::earliest_irq( nes_time_t ) const
+{
+	return earliest_irq_;
+}
+
+inline void Nes_Apu::dmc_reader( int (*func)( void*, nes_addr_t ), void* user_data )
+{
+	dmc.prg_reader_data = user_data;
+	dmc.prg_reader = func;
+}
+
+inline void Nes_Apu::irq_notifier( void (*func)( void* user_data ), void* user_data )
+{
+	irq_notifier_ = func;
+	irq_data = user_data;
+}
+
+inline int Nes_Apu::count_dmc_reads( nes_time_t time, nes_time_t* last_read ) const
+{
+	return dmc.count_reads( time, last_read );
+}
+	
+inline nes_time_t Nes_Dmc::next_read_time() const
+{
+	if ( length_counter == 0 )
+		return Nes_Apu::no_irq; // not reading
+	
+	return apu->last_dmc_time + delay + long (bits_remain - 1) * period;
+}
+
+inline nes_time_t Nes_Apu::next_dmc_read_time() const { return dmc.next_read_time(); }
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nes_Cpu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Cpu.cpp
new file mode 100644
index 00000000..864e0dde
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Cpu.cpp
@@ -0,0 +1,1084 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Nes_Cpu.h"
+
+#include "blargg_endian.h"
+#include <limits.h>
+
+#define BLARGG_CPU_X86 1
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#ifdef BLARGG_ENABLE_OPTIMIZER
+	#include BLARGG_ENABLE_OPTIMIZER
+#endif
+
+#define FLUSH_TIME()    (void) (s.time = s_time)
+#define CACHE_TIME()    (void) (s_time = s.time)
+
+#include "nes_cpu_io.h"
+
+#include "blargg_source.h"
+
+#ifndef CPU_DONE
+	#define CPU_DONE( cpu, time, result_out )   { result_out = -1; }
+#endif
+
+#ifndef CPU_READ_PPU
+	#define CPU_READ_PPU( cpu, addr, out, time )\
+	{\
+		FLUSH_TIME();\
+		out = CPU_READ( cpu, addr, time );\
+		CACHE_TIME();\
+	}
+#endif
+
+#if BLARGG_NONPORTABLE
+	#define PAGE_OFFSET( addr ) (addr)
+#else
+	#define PAGE_OFFSET( addr ) ((addr) & (page_size - 1))
+#endif
+
+inline void Nes_Cpu::set_code_page( int i, void const* p )
+{
+	state->code_map [i] = (uint8_t const*) p - PAGE_OFFSET( i * page_size );
+}
+
+int const st_n = 0x80;
+int const st_v = 0x40;
+int const st_r = 0x20;
+int const st_b = 0x10;
+int const st_d = 0x08;
+int const st_i = 0x04;
+int const st_z = 0x02;
+int const st_c = 0x01;
+
+void Nes_Cpu::reset( void const* unmapped_page )
+{
+	check( state == &state_ );
+	state = &state_;
+	r.status = st_i;
+	r.sp = 0xFF;
+	r.pc = 0;
+	r.a  = 0;
+	r.x  = 0;
+	r.y  = 0;
+	state_.time = 0;
+	state_.base = 0;
+	irq_time_ = future_nes_time;
+	end_time_ = future_nes_time;
+	error_count_ = 0;
+	
+	assert( page_size == 0x800 ); // assumes this
+	set_code_page( page_count, unmapped_page );
+	map_code( 0x2000, 0xE000, unmapped_page, true );
+	map_code( 0x0000, 0x2000, low_mem, true );
+	
+	blargg_verify_byte_order();
+}
+
+void Nes_Cpu::map_code( nes_addr_t start, unsigned size, void const* data, bool mirror )
+{
+	// address range must begin and end on page boundaries
+	require( start % page_size == 0 );
+	require( size % page_size == 0 );
+	require( start + size <= 0x10000 );
+	
+	unsigned page = start / page_size;
+	for ( unsigned n = size / page_size; n; --n )
+	{
+		set_code_page( page++, data );
+		if ( !mirror )
+			data = (char const*) data + page_size;
+	}
+}
+
+#define TIME    (s_time + s.base)
+#define READ_LIKELY_PPU( addr, out )    {CPU_READ_PPU( this, (addr), out, TIME );}
+#define READ( addr )                    CPU_READ( this, (addr), TIME )
+#define WRITE( addr, data )             {CPU_WRITE( this, (addr), (data), TIME );}
+#define READ_LOW( addr )        (low_mem [int (addr)])
+#define WRITE_LOW( addr, data ) (void) (READ_LOW( addr ) = (data))
+#define READ_PROG( addr )       (s.code_map [(addr) >> page_bits] [PAGE_OFFSET( addr )])
+
+#define SET_SP( v )     (sp = ((v) + 1) | 0x100)
+#define GET_SP()        ((sp - 1) & 0xFF)
+#define PUSH( v )       ((sp = (sp - 1) | 0x100), WRITE_LOW( sp, v ))
+
+// even on x86, using short and unsigned char was slower
+typedef int         fint16;
+typedef unsigned    fuint16;
+typedef unsigned    fuint8;
+
+bool Nes_Cpu::run( nes_time_t end_time )
+{
+	set_end_time( end_time );
+	state_t s = this->state_;
+	this->state = &s;
+	// even on x86, using s.time in place of s_time was slower
+	fint16 s_time = s.time;
+	
+	// registers
+	fuint16 pc = r.pc;
+	fuint8 a = r.a;
+	fuint8 x = r.x;
+	fuint8 y = r.y;
+	fuint16 sp;
+	SET_SP( r.sp );
+	
+	// status flags
+	#define IS_NEG (nz & 0x8080)
+	
+	#define CALC_STATUS( out ) do {\
+		out = status & (st_v | st_d | st_i);\
+		out |= ((nz >> 8) | nz) & st_n;\
+		out |= c >> 8 & st_c;\
+		if ( !(nz & 0xFF) ) out |= st_z;\
+	} while ( 0 )
+
+	#define SET_STATUS( in ) do {\
+		status = in & (st_v | st_d | st_i);\
+		nz = in << 8;\
+		c = nz;\
+		nz |= ~in & st_z;\
+	} while ( 0 )
+	
+	fuint8 status;
+	fuint16 c;  // carry set if (c & 0x100) != 0
+	fuint16 nz; // Z set if (nz & 0xFF) == 0, N set if (nz & 0x8080) != 0
+	{
+		fuint8 temp = r.status;
+		SET_STATUS( temp );
+	}
+	
+	goto loop;
+dec_clock_loop:
+	s_time--;
+loop:
+	
+	check( (unsigned) GET_SP() < 0x100 );
+	check( (unsigned) pc < 0x10000 );
+	check( (unsigned) a < 0x100 );
+	check( (unsigned) x < 0x100 );
+	check( (unsigned) y < 0x100 );
+	check( -32768 <= s_time && s_time < 32767 );
+	
+	uint8_t const* instr = s.code_map [pc >> page_bits];
+	fuint8 opcode;
+	
+	// TODO: eliminate this special case
+	#if BLARGG_NONPORTABLE
+		opcode = instr [pc];
+		pc++;
+		instr += pc;
+	#else
+		instr += PAGE_OFFSET( pc );
+		opcode = *instr++;
+		pc++;
+	#endif
+	
+	static uint8_t const clock_table [256] =
+	{// 0 1 2 3 4 5 6 7 8 9 A B C D E F
+		0,6,2,8,3,3,5,5,3,2,2,2,4,4,6,6,// 0
+		3,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,// 1
+		6,6,2,8,3,3,5,5,4,2,2,2,4,4,6,6,// 2
+		3,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,// 3
+		6,6,2,8,3,3,5,5,3,2,2,2,3,4,6,6,// 4
+		3,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,// 5
+		6,6,2,8,3,3,5,5,4,2,2,2,5,4,6,6,// 6
+		3,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,// 7
+		2,6,2,6,3,3,3,3,2,2,2,2,4,4,4,4,// 8
+		3,6,2,6,4,4,4,4,2,5,2,5,5,5,5,5,// 9
+		2,6,2,6,3,3,3,3,2,2,2,2,4,4,4,4,// A
+		3,5,2,5,4,4,4,4,2,4,2,4,4,4,4,4,// B
+		2,6,2,8,3,3,5,5,2,2,2,2,4,4,6,6,// C
+		3,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,// D
+		2,6,2,8,3,3,5,5,2,2,2,2,4,4,6,6,// E
+		3,5,0,8,4,4,6,6,2,4,2,7,4,4,7,7 // F
+	}; // 0x00 was 7 and 0xF2 was 2
+	
+	fuint16 data;
+	
+#if !BLARGG_CPU_X86
+	if ( s_time >= 0 )
+		goto out_of_time;
+	s_time += clock_table [opcode];
+	
+	data = *instr;
+	
+	switch ( opcode )
+	{
+#else
+
+	data = clock_table [opcode];
+	if ( (s_time += data) >= 0 )
+		goto possibly_out_of_time;
+almost_out_of_time:
+	
+	data = *instr;
+	
+	switch ( opcode )
+	{
+possibly_out_of_time:
+		if ( s_time < (int) data )
+			goto almost_out_of_time;
+		s_time -= data;
+		goto out_of_time;
+#endif
+
+// Macros
+
+#define GET_MSB()   (instr [1])
+#define ADD_PAGE()  (pc++, data += 0x100 * GET_MSB())
+#define GET_ADDR()  GET_LE16( instr )
+
+#define NO_PAGE_CROSSING( lsb )
+#define HANDLE_PAGE_CROSSING( lsb ) s_time += (lsb) >> 8;
+
+#define INC_DEC_XY( reg, n ) reg = uint8_t (nz = reg + n); goto loop;
+
+#define IND_Y( cross, out ) {\
+		fuint16 temp = READ_LOW( data ) + y;\
+		out = temp + 0x100 * READ_LOW( uint8_t (data + 1) );\
+		cross( temp );\
+	}
+	
+#define IND_X( out ) {\
+		fuint16 temp = data + x;\
+		out = 0x100 * READ_LOW( uint8_t (temp + 1) ) + READ_LOW( uint8_t (temp) );\
+	}
+	
+#define ARITH_ADDR_MODES( op )\
+case op - 0x04: /* (ind,x) */\
+	IND_X( data )\
+	goto ptr##op;\
+case op + 0x0C: /* (ind),y */\
+	IND_Y( HANDLE_PAGE_CROSSING, data )\
+	goto ptr##op;\
+case op + 0x10: /* zp,X */\
+	data = uint8_t (data + x);\
+case op + 0x00: /* zp */\
+	data = READ_LOW( data );\
+	goto imm##op;\
+case op + 0x14: /* abs,Y */\
+	data += y;\
+	goto ind##op;\
+case op + 0x18: /* abs,X */\
+	data += x;\
+ind##op:\
+	HANDLE_PAGE_CROSSING( data );\
+case op + 0x08: /* abs */\
+	ADD_PAGE();\
+ptr##op:\
+	FLUSH_TIME();\
+	data = READ( data );\
+	CACHE_TIME();\
+case op + 0x04: /* imm */\
+imm##op:
+
+// TODO: more efficient way to handle negative branch that wraps PC around
+#define BRANCH( cond )\
+{\
+	fint16 offset = (BOOST::int8_t) data;\
+	fuint16 extra_clock = (++pc & 0xFF) + offset;\
+	if ( !(cond) ) goto dec_clock_loop;\
+	pc = BOOST::uint16_t (pc + offset);\
+	s_time += extra_clock >> 8 & 1;\
+	goto loop;\
+}
+
+// Often-Used
+
+	case 0xB5: // LDA zp,x
+		a = nz = READ_LOW( uint8_t (data + x) );
+		pc++;
+		goto loop;
+	
+	case 0xA5: // LDA zp
+		a = nz = READ_LOW( data );
+		pc++;
+		goto loop;
+	
+	case 0xD0: // BNE
+		BRANCH( (uint8_t) nz );
+	
+	case 0x20: { // JSR
+		fuint16 temp = pc + 1;
+		pc = GET_ADDR();
+		WRITE_LOW( 0x100 | (sp - 1), temp >> 8 );
+		sp = (sp - 2) | 0x100;
+		WRITE_LOW( sp, temp );
+		goto loop;
+	}
+	
+	case 0x4C: // JMP abs
+		pc = GET_ADDR();
+		goto loop;
+	
+	case 0xE8: // INX
+		INC_DEC_XY( x, 1 )
+	
+	case 0x10: // BPL
+		BRANCH( !IS_NEG )
+	
+	ARITH_ADDR_MODES( 0xC5 ) // CMP
+		nz = a - data;
+		pc++;
+		c = ~nz;
+		nz &= 0xFF;
+		goto loop;
+	
+	case 0x30: // BMI
+		BRANCH( IS_NEG )
+	
+	case 0xF0: // BEQ
+		BRANCH( !(uint8_t) nz );
+	
+	case 0x95: // STA zp,x
+		data = uint8_t (data + x);
+	case 0x85: // STA zp
+		pc++;
+		WRITE_LOW( data, a );
+		goto loop;
+	
+	case 0xC8: // INY
+		INC_DEC_XY( y, 1 )
+
+	case 0xA8: // TAY
+		y  = a;
+		nz = a;
+		goto loop;
+	
+	case 0x98: // TYA
+		a  = y;
+		nz = y;
+		goto loop;
+	
+	case 0xAD:{// LDA abs
+		unsigned addr = GET_ADDR();
+		pc += 2;
+		READ_LIKELY_PPU( addr, nz );
+		a = nz;
+		goto loop;
+	}
+	
+	case 0x60: // RTS
+		pc = 1 + READ_LOW( sp );
+		pc += 0x100 * READ_LOW( 0x100 | (sp - 0xFF) );
+		sp = (sp - 0xFE) | 0x100;
+		goto loop;
+	
+	{
+		fuint16 addr;
+		
+	case 0x99: // STA abs,Y
+		addr = y + GET_ADDR();
+		pc += 2;
+		if ( addr <= 0x7FF )
+		{
+			WRITE_LOW( addr, a );
+			goto loop;
+		}
+		goto sta_ptr;
+	
+	case 0x8D: // STA abs
+		addr = GET_ADDR();
+		pc += 2;
+		if ( addr <= 0x7FF )
+		{
+			WRITE_LOW( addr, a );
+			goto loop;
+		}
+		goto sta_ptr;
+	
+	case 0x9D: // STA abs,X (slightly more common than STA abs)
+		addr = x + GET_ADDR();
+		pc += 2;
+		if ( addr <= 0x7FF )
+		{
+			WRITE_LOW( addr, a );
+			goto loop;
+		}
+	sta_ptr:
+		FLUSH_TIME();
+		WRITE( addr, a );
+		CACHE_TIME();
+		goto loop;
+		
+	case 0x91: // STA (ind),Y
+		IND_Y( NO_PAGE_CROSSING, addr )
+		pc++;
+		goto sta_ptr;
+	
+	case 0x81: // STA (ind,X)
+		IND_X( addr )
+		pc++;
+		goto sta_ptr;
+	
+	}
+	
+	case 0xA9: // LDA #imm
+		pc++;
+		a  = data;
+		nz = data;
+		goto loop;
+
+	// common read instructions
+	{
+		fuint16 addr;
+		
+	case 0xA1: // LDA (ind,X)
+		IND_X( addr )
+		pc++;
+		goto a_nz_read_addr;
+	
+	case 0xB1:// LDA (ind),Y
+		addr = READ_LOW( data ) + y;
+		HANDLE_PAGE_CROSSING( addr );
+		addr += 0x100 * READ_LOW( (uint8_t) (data + 1) );
+		pc++;
+		a = nz = READ_PROG( addr );
+		if ( (addr ^ 0x8000) <= 0x9FFF )
+			goto loop;
+		goto a_nz_read_addr;
+	
+	case 0xB9: // LDA abs,Y
+		HANDLE_PAGE_CROSSING( data + y );
+		addr = GET_ADDR() + y;
+		pc += 2;
+		a = nz = READ_PROG( addr );
+		if ( (addr ^ 0x8000) <= 0x9FFF )
+			goto loop;
+		goto a_nz_read_addr;
+	
+	case 0xBD: // LDA abs,X
+		HANDLE_PAGE_CROSSING( data + x );
+		addr = GET_ADDR() + x;
+		pc += 2;
+		a = nz = READ_PROG( addr );
+		if ( (addr ^ 0x8000) <= 0x9FFF )
+			goto loop;
+	a_nz_read_addr:
+		FLUSH_TIME();
+		a = nz = READ( addr );
+		CACHE_TIME();
+		goto loop;
+	
+	}
+
+// Branch
+
+	case 0x50: // BVC
+		BRANCH( !(status & st_v) )
+	
+	case 0x70: // BVS
+		BRANCH( status & st_v )
+	
+	case 0xB0: // BCS
+		BRANCH( c & 0x100 )
+	
+	case 0x90: // BCC
+		BRANCH( !(c & 0x100) )
+	
+// Load/store
+	
+	case 0x94: // STY zp,x
+		data = uint8_t (data + x);
+	case 0x84: // STY zp
+		pc++;
+		WRITE_LOW( data, y );
+		goto loop;
+	
+	case 0x96: // STX zp,y
+		data = uint8_t (data + y);
+	case 0x86: // STX zp
+		pc++;
+		WRITE_LOW( data, x );
+		goto loop;
+	
+	case 0xB6: // LDX zp,y
+		data = uint8_t (data + y);
+	case 0xA6: // LDX zp
+		data = READ_LOW( data );
+	case 0xA2: // LDX #imm
+		pc++;
+		x = data;
+		nz = data;
+		goto loop;
+	
+	case 0xB4: // LDY zp,x
+		data = uint8_t (data + x);
+	case 0xA4: // LDY zp
+		data = READ_LOW( data );
+	case 0xA0: // LDY #imm
+		pc++;
+		y = data;
+		nz = data;
+		goto loop;
+	
+	case 0xBC: // LDY abs,X
+		data += x;
+		HANDLE_PAGE_CROSSING( data );
+	case 0xAC:{// LDY abs
+		unsigned addr = data + 0x100 * GET_MSB();
+		pc += 2;
+		FLUSH_TIME();
+		y = nz = READ( addr );
+		CACHE_TIME();
+		goto loop;
+	}
+	
+	case 0xBE: // LDX abs,y
+		data += y;
+		HANDLE_PAGE_CROSSING( data );
+	case 0xAE:{// LDX abs
+		unsigned addr = data + 0x100 * GET_MSB();
+		pc += 2;
+		FLUSH_TIME();
+		x = nz = READ( addr );
+		CACHE_TIME();
+		goto loop;
+	}
+	
+	{
+		fuint8 temp;
+	case 0x8C: // STY abs
+		temp = y;
+		goto store_abs;
+	
+	case 0x8E: // STX abs
+		temp = x;
+	store_abs:
+		unsigned addr = GET_ADDR();
+		pc += 2;
+		if ( addr <= 0x7FF )
+		{
+			WRITE_LOW( addr, temp );
+			goto loop;
+		}
+		FLUSH_TIME();
+		WRITE( addr, temp );
+		CACHE_TIME();
+		goto loop;
+	}
+
+// Compare
+
+	case 0xEC:{// CPX abs
+		unsigned addr = GET_ADDR();
+		pc++;
+		FLUSH_TIME();
+		data = READ( addr );
+		CACHE_TIME();
+		goto cpx_data;
+	}
+	
+	case 0xE4: // CPX zp
+		data = READ_LOW( data );
+	case 0xE0: // CPX #imm
+	cpx_data:
+		nz = x - data;
+		pc++;
+		c = ~nz;
+		nz &= 0xFF;
+		goto loop;
+	
+	case 0xCC:{// CPY abs
+		unsigned addr = GET_ADDR();
+		pc++;
+		FLUSH_TIME();
+		data = READ( addr );
+		CACHE_TIME();
+		goto cpy_data;
+	}
+	
+	case 0xC4: // CPY zp
+		data = READ_LOW( data );
+	case 0xC0: // CPY #imm
+	cpy_data:
+		nz = y - data;
+		pc++;
+		c = ~nz;
+		nz &= 0xFF;
+		goto loop;
+	
+// Logical
+
+	ARITH_ADDR_MODES( 0x25 ) // AND
+		nz = (a &= data);
+		pc++;
+		goto loop;
+	
+	ARITH_ADDR_MODES( 0x45 ) // EOR
+		nz = (a ^= data);
+		pc++;
+		goto loop;
+	
+	ARITH_ADDR_MODES( 0x05 ) // ORA
+		nz = (a |= data);
+		pc++;
+		goto loop;
+	
+	case 0x2C:{// BIT abs
+		unsigned addr = GET_ADDR();
+		pc += 2;
+		status &= ~st_v;
+		READ_LIKELY_PPU( addr, nz );
+		status |= nz & st_v;
+		if ( a & nz )
+			goto loop;
+		nz <<= 8; // result must be zero, even if N bit is set
+		goto loop;
+	}
+	
+	case 0x24: // BIT zp
+		nz = READ_LOW( data );
+		pc++;
+		status &= ~st_v;
+		status |= nz & st_v;
+		if ( a & nz )
+			goto loop;
+		nz <<= 8; // result must be zero, even if N bit is set
+		goto loop;
+		
+// Add/subtract
+
+	ARITH_ADDR_MODES( 0xE5 ) // SBC
+	case 0xEB: // unofficial equivalent
+		data ^= 0xFF;
+		goto adc_imm;
+	
+	ARITH_ADDR_MODES( 0x65 ) // ADC
+	adc_imm: {
+		fint16 carry = c >> 8 & 1;
+		fint16 ov = (a ^ 0x80) + carry + (BOOST::int8_t) data; // sign-extend
+		status &= ~st_v;
+		status |= ov >> 2 & 0x40;
+		c = nz = a + data + carry;
+		pc++;
+		a = (uint8_t) nz;
+		goto loop;
+	}
+	
+// Shift/rotate
+
+	case 0x4A: // LSR A
+		c = 0;
+	case 0x6A: // ROR A
+		nz = c >> 1 & 0x80;
+		c = a << 8;
+		nz |= a >> 1;
+		a = nz;
+		goto loop;
+
+	case 0x0A: // ASL A
+		nz = a << 1;
+		c = nz;
+		a = (uint8_t) nz;
+		goto loop;
+
+	case 0x2A: { // ROL A
+		nz = a << 1;
+		fint16 temp = c >> 8 & 1;
+		c = nz;
+		nz |= temp;
+		a = (uint8_t) nz;
+		goto loop;
+	}
+	
+	case 0x5E: // LSR abs,X
+		data += x;
+	case 0x4E: // LSR abs
+		c = 0;
+	case 0x6E: // ROR abs
+	ror_abs: {
+		ADD_PAGE();
+		FLUSH_TIME();
+		int temp = READ( data );
+		nz = (c >> 1 & 0x80) | (temp >> 1);
+		c = temp << 8;
+		goto rotate_common;
+	}
+	
+	case 0x3E: // ROL abs,X
+		data += x;
+		goto rol_abs;
+	
+	case 0x1E: // ASL abs,X
+		data += x;
+	case 0x0E: // ASL abs
+		c = 0;
+	case 0x2E: // ROL abs
+	rol_abs:
+		ADD_PAGE();
+		nz = c >> 8 & 1;
+		FLUSH_TIME();
+		nz |= (c = READ( data ) << 1);
+	rotate_common:
+		pc++;
+		WRITE( data, (uint8_t) nz );
+		CACHE_TIME();
+		goto loop;
+	
+	case 0x7E: // ROR abs,X
+		data += x;
+		goto ror_abs;
+	
+	case 0x76: // ROR zp,x
+		data = uint8_t (data + x);
+		goto ror_zp;
+	
+	case 0x56: // LSR zp,x
+		data = uint8_t (data + x);
+	case 0x46: // LSR zp
+		c = 0;
+	case 0x66: // ROR zp
+	ror_zp: {
+		int temp = READ_LOW( data );
+		nz = (c >> 1 & 0x80) | (temp >> 1);
+		c = temp << 8;
+		goto write_nz_zp;
+	}
+	
+	case 0x36: // ROL zp,x
+		data = uint8_t (data + x);
+		goto rol_zp;
+	
+	case 0x16: // ASL zp,x
+		data = uint8_t (data + x);
+	case 0x06: // ASL zp
+		c = 0;
+	case 0x26: // ROL zp
+	rol_zp:
+		nz = c >> 8 & 1;
+		nz |= (c = READ_LOW( data ) << 1);
+		goto write_nz_zp;
+	
+// Increment/decrement
+
+	case 0xCA: // DEX
+		INC_DEC_XY( x, -1 )
+	
+	case 0x88: // DEY
+		INC_DEC_XY( y, -1 )
+	
+	case 0xF6: // INC zp,x
+		data = uint8_t (data + x);
+	case 0xE6: // INC zp
+		nz = 1;
+		goto add_nz_zp;
+	
+	case 0xD6: // DEC zp,x
+		data = uint8_t (data + x);
+	case 0xC6: // DEC zp
+		nz = (unsigned) -1;
+	add_nz_zp:
+		nz += READ_LOW( data );
+	write_nz_zp:
+		pc++;
+		WRITE_LOW( data, nz );
+		goto loop;
+	
+	case 0xFE: // INC abs,x
+		data = x + GET_ADDR();
+		goto inc_ptr;
+	
+	case 0xEE: // INC abs
+		data = GET_ADDR();
+	inc_ptr:
+		nz = 1;
+		goto inc_common;
+	
+	case 0xDE: // DEC abs,x
+		data = x + GET_ADDR();
+		goto dec_ptr;
+	
+	case 0xCE: // DEC abs
+		data = GET_ADDR();
+	dec_ptr:
+		nz = (unsigned) -1;
+	inc_common:
+		FLUSH_TIME();
+		nz += READ( data );
+		pc += 2;
+		WRITE( data, (uint8_t) nz );
+		CACHE_TIME();
+		goto loop;
+		
+// Transfer
+
+	case 0xAA: // TAX
+		x  = a;
+		nz = a;
+		goto loop;
+		
+	case 0x8A: // TXA
+		a  = x;
+		nz = x;
+		goto loop;
+
+	case 0x9A: // TXS
+		SET_SP( x ); // verified (no flag change)
+		goto loop;
+	
+	case 0xBA: // TSX
+		x = nz = GET_SP();
+		goto loop;
+	
+// Stack
+	
+	case 0x48: // PHA
+		PUSH( a ); // verified
+		goto loop;
+		
+	case 0x68: // PLA
+		a = nz = READ_LOW( sp );
+		sp = (sp - 0xFF) | 0x100;
+		goto loop;
+		
+	case 0x40:{// RTI
+		fuint8 temp = READ_LOW( sp );
+		pc  = READ_LOW( 0x100 | (sp - 0xFF) );
+		pc |= READ_LOW( 0x100 | (sp - 0xFE) ) * 0x100;
+		sp = (sp - 0xFD) | 0x100;
+		data = status;
+		SET_STATUS( temp );
+		if ( !((data ^ status) & st_i) ) goto loop; // I flag didn't change
+		this->r.status = status; // update externally-visible I flag
+		blargg_long delta = s.base - irq_time_;
+		if ( delta <= 0 ) goto loop;
+		if ( status & st_i ) goto loop;
+		s_time += delta;
+		s.base = irq_time_;
+		goto loop;
+	}
+	
+	case 0x28:{// PLP
+		fuint8 temp = READ_LOW( sp );
+		sp = (sp - 0xFF) | 0x100;
+		fuint8 changed = status ^ temp;
+		SET_STATUS( temp );
+		if ( !(changed & st_i) )
+			goto loop; // I flag didn't change
+		if ( status & st_i )
+			goto handle_sei;
+		goto handle_cli;
+	}
+	
+	case 0x08: { // PHP
+		fuint8 temp;
+		CALC_STATUS( temp );
+		PUSH( temp | (st_b | st_r) );
+		goto loop;
+	}
+	
+	case 0x6C:{// JMP (ind)
+		data = GET_ADDR();
+		check( unsigned (data - 0x2000) >= 0x4000 ); // ensure it's outside I/O space
+		uint8_t const* page = s.code_map [data >> page_bits];
+		pc = page [PAGE_OFFSET( data )];
+		data = (data & 0xFF00) | ((data + 1) & 0xFF);
+		pc |= page [PAGE_OFFSET( data )] << 8;
+		goto loop;
+	}
+	
+	case 0x00: // BRK
+		goto handle_brk;
+	
+// Flags
+
+	case 0x38: // SEC
+		c = (unsigned) ~0;
+		goto loop;
+	
+	case 0x18: // CLC
+		c = 0;
+		goto loop;
+		
+	case 0xB8: // CLV
+		status &= ~st_v;
+		goto loop;
+	
+	case 0xD8: // CLD
+		status &= ~st_d;
+		goto loop;
+	
+	case 0xF8: // SED
+		status |= st_d;
+		goto loop;
+	
+	case 0x58: // CLI
+		if ( !(status & st_i) )
+			goto loop;
+		status &= ~st_i;
+	handle_cli: {
+		//debug_printf( "CLI at %d\n", TIME );
+		this->r.status = status; // update externally-visible I flag
+		blargg_long delta = s.base - irq_time_;
+		if ( delta <= 0 )
+		{
+			if ( TIME < irq_time_ )
+				goto loop;
+			goto delayed_cli;
+		}
+		s.base = irq_time_;
+		s_time += delta;
+		if ( s_time < 0 )
+			goto loop;
+		
+		if ( delta >= s_time + 1 )
+		{
+			s.base += s_time + 1;
+			s_time = -1;
+			goto loop;
+		}
+		
+		// TODO: implement
+	delayed_cli:
+		debug_printf( "Delayed CLI not emulated\n" );
+		goto loop;
+	}
+	
+	case 0x78: // SEI
+		if ( status & st_i )
+			goto loop;
+		status |= st_i;
+	handle_sei: {
+		this->r.status = status; // update externally-visible I flag
+		blargg_long delta = s.base - end_time_;
+		s.base = end_time_;
+		s_time += delta;
+		if ( s_time < 0 )
+			goto loop;
+		
+		debug_printf( "Delayed SEI not emulated\n" );
+		goto loop;
+	}
+	
+// Unofficial
+	
+	// SKW - Skip word
+	case 0x1C: case 0x3C: case 0x5C: case 0x7C: case 0xDC: case 0xFC:
+		HANDLE_PAGE_CROSSING( data + x );
+	case 0x0C:
+		pc++;
+	// SKB - Skip byte
+	case 0x74: case 0x04: case 0x14: case 0x34: case 0x44: case 0x54: case 0x64:
+	case 0x80: case 0x82: case 0x89: case 0xC2: case 0xD4: case 0xE2: case 0xF4:
+		pc++;
+		goto loop;
+	
+	// NOP
+	case 0xEA: case 0x1A: case 0x3A: case 0x5A: case 0x7A: case 0xDA: case 0xFA:
+		goto loop;
+
+	case bad_opcode: // HLT
+		pc--;
+		if ( pc > 0xFFFF )
+		{
+			// handle wrap-around (assumes caller has put page of HLT at 0x10000)
+			pc &= 0xFFFF;
+			goto loop;
+		}
+	case 0x02: case 0x12: case 0x22: case 0x32: case 0x42: case 0x52:
+	case 0x62: case 0x72: case 0x92: case 0xB2: case 0xD2:
+		goto stop;
+	
+// Unimplemented
+	
+	case 0xFF: // force 256-entry jump table for optimization purposes
+		c |= 1;
+	default:
+		check( (unsigned) opcode <= 0xFF );
+		// skip over proper number of bytes
+		static unsigned char const illop_lens [8] = {
+			0x40, 0x40, 0x40, 0x80, 0x40, 0x40, 0x80, 0xA0
+		};
+		fuint8 opcode = instr [-1];
+		fint16 len = illop_lens [opcode >> 2 & 7] >> (opcode << 1 & 6) & 3;
+		if ( opcode == 0x9C )
+			len = 2;
+		pc += len;
+		error_count_++;
+		
+		if ( (opcode >> 4) == 0x0B )
+		{
+			if ( opcode == 0xB3 )
+				data = READ_LOW( data );
+			if ( opcode != 0xB7 )
+				HANDLE_PAGE_CROSSING( data + y );
+		}
+		goto loop;
+	}
+	assert( false );
+	
+	int result_;
+handle_brk:
+	pc++;
+	result_ = 4;
+	
+interrupt:
+	{
+		s_time += 7;
+		
+		WRITE_LOW( 0x100 | (sp - 1), pc >> 8 );
+		WRITE_LOW( 0x100 | (sp - 2), pc );
+		pc = GET_LE16( &READ_PROG( 0xFFFA ) + result_ );
+		
+		sp = (sp - 3) | 0x100;
+		fuint8 temp;
+		CALC_STATUS( temp );
+		temp |= st_r;
+		if ( result_ )
+			temp |= st_b; // TODO: incorrectly sets B flag for IRQ
+		WRITE_LOW( sp, temp );
+		
+		this->r.status = status |= st_i;
+		blargg_long delta = s.base - end_time_;
+		if ( delta >= 0 ) goto loop;
+		s_time += delta;
+		s.base = end_time_;
+		goto loop;
+	}
+	
+out_of_time:
+	pc--;
+	FLUSH_TIME();
+	CPU_DONE( this, TIME, result_ );
+	CACHE_TIME();
+	if ( result_ >= 0 )
+		goto interrupt;
+	if ( s_time < 0 )
+		goto loop;
+	
+stop:
+	
+	s.time = s_time;
+	
+	r.pc = pc;
+	r.sp = GET_SP();
+	r.a = a;
+	r.x = x;
+	r.y = y;
+	
+	{
+		fuint8 temp;
+		CALC_STATUS( temp );
+		r.status = temp;
+	}
+	
+	this->state_ = s;
+	this->state = &this->state_;
+	
+	return s_time < 0;
+}
+
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nes_Cpu.h b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Cpu.h
new file mode 100644
index 00000000..694296f7
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Cpu.h
@@ -0,0 +1,114 @@
+// NES 6502 CPU emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef NES_CPU_H
+#define NES_CPU_H
+
+#include "blargg_common.h"
+
+typedef blargg_long nes_time_t; // clock cycle count
+typedef unsigned nes_addr_t; // 16-bit address
+enum { future_nes_time = INT_MAX / 2 + 1 };
+
+class Nes_Cpu {
+public:
+	typedef BOOST::uint8_t uint8_t;
+	
+	// Clear registers, map low memory and its three mirrors to address 0,
+	// and mirror unmapped_page in remaining memory
+	void reset( void const* unmapped_page = 0 );
+	
+	// Map code memory (memory accessed via the program counter). Start and size
+	// must be multiple of page_size. If mirror is true, repeats code page
+	// throughout address range.
+	enum { page_size = 0x800 };
+	void map_code( nes_addr_t start, unsigned size, void const* code, bool mirror = false );
+	
+	// Access emulated memory as CPU does
+	uint8_t const* get_code( nes_addr_t );
+	
+	// 2KB of RAM at address 0
+	uint8_t low_mem [0x800];
+	
+	// NES 6502 registers. Not kept updated during a call to run().
+	struct registers_t {
+		BOOST::uint16_t pc;
+		BOOST::uint8_t a;
+		BOOST::uint8_t x;
+		BOOST::uint8_t y;
+		BOOST::uint8_t status;
+		BOOST::uint8_t sp;
+	};
+	registers_t r;
+	
+	// Set end_time and run CPU from current time. Returns true if execution
+	// stopped due to encountering bad_opcode.
+	bool run( nes_time_t end_time );
+	
+	// Time of beginning of next instruction to be executed
+	nes_time_t time() const             { return state->time + state->base; }
+	void set_time( nes_time_t t )       { state->time = t - state->base; }
+	void adjust_time( int delta )       { state->time += delta; }
+	
+	nes_time_t irq_time() const         { return irq_time_; }
+	void set_irq_time( nes_time_t );
+	
+	nes_time_t end_time() const         { return end_time_; }
+	void set_end_time( nes_time_t );
+	
+	// Number of undefined instructions encountered and skipped
+	void clear_error_count()            { error_count_ = 0; }
+	unsigned long error_count() const   { return error_count_; }
+	
+	// CPU invokes bad opcode handler if it encounters this
+	enum { bad_opcode = 0xF2 };
+	
+public:
+	Nes_Cpu() { state = &state_; }
+	enum { page_bits = 11 };
+	enum { page_count = 0x10000 >> page_bits };
+	enum { irq_inhibit = 0x04 };
+private:
+	struct state_t {
+		uint8_t const* code_map [page_count + 1];
+		nes_time_t base;
+		int time;
+	};
+	state_t* state; // points to state_ or a local copy within run()
+	state_t state_;
+	nes_time_t irq_time_;
+	nes_time_t end_time_;
+	unsigned long error_count_;
+	
+	void set_code_page( int, void const* );
+	inline int update_end_time( nes_time_t end, nes_time_t irq );
+};
+
+inline BOOST::uint8_t const* Nes_Cpu::get_code( nes_addr_t addr )
+{
+	return state->code_map [addr >> page_bits] + addr
+	#if !BLARGG_NONPORTABLE
+		% (unsigned) page_size
+	#endif
+	;
+}
+
+inline int Nes_Cpu::update_end_time( nes_time_t t, nes_time_t irq )
+{
+	if ( irq < t && !(r.status & irq_inhibit) ) t = irq;
+	int delta = state->base - t;
+	state->base = t;
+	return delta;
+}
+
+inline void Nes_Cpu::set_irq_time( nes_time_t t )
+{
+	state->time += update_end_time( end_time_, (irq_time_ = t) );
+}
+
+inline void Nes_Cpu::set_end_time( nes_time_t t )
+{
+	state->time += update_end_time( (end_time_ = t), irq_time_ );
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nes_Fme7_Apu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Fme7_Apu.cpp
new file mode 100644
index 00000000..62594fc2
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Fme7_Apu.cpp
@@ -0,0 +1,121 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Nes_Fme7_Apu.h"
+
+#include <string.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+void Nes_Fme7_Apu::reset()
+{
+	last_time = 0;
+	
+	for ( int i = 0; i < osc_count; i++ )
+		oscs [i].last_amp = 0;
+	
+	fme7_apu_state_t* state = this;
+	memset( state, 0, sizeof *state );
+}
+
+unsigned char const Nes_Fme7_Apu::amp_table [16] =
+{
+	#define ENTRY( n ) (unsigned char) (n * amp_range + 0.5)
+	ENTRY(0.0000), ENTRY(0.0078), ENTRY(0.0110), ENTRY(0.0156),
+	ENTRY(0.0221), ENTRY(0.0312), ENTRY(0.0441), ENTRY(0.0624),
+	ENTRY(0.0883), ENTRY(0.1249), ENTRY(0.1766), ENTRY(0.2498),
+	ENTRY(0.3534), ENTRY(0.4998), ENTRY(0.7070), ENTRY(1.0000)
+	#undef ENTRY
+};
+
+void Nes_Fme7_Apu::run_until( blip_time_t end_time )
+{
+	require( end_time >= last_time );
+	
+	for ( int index = 0; index < osc_count; index++ )
+	{
+		int mode = regs [7] >> index;
+		int vol_mode = regs [010 + index];
+		int volume = amp_table [vol_mode & 0x0F];
+		
+		Blip_Buffer* const osc_output = oscs [index].output;
+		if ( !osc_output )
+			continue;
+		osc_output->set_modified();
+		
+		// check for unsupported mode
+		#ifndef NDEBUG
+			if ( (mode & 011) <= 001 && vol_mode & 0x1F )
+				debug_printf( "FME7 used unimplemented sound mode: %02X, vol_mode: %02X\n",
+						mode, vol_mode & 0x1F );
+		#endif
+		
+		if ( (mode & 001) | (vol_mode & 0x10) )
+			volume = 0; // noise and envelope aren't supported
+		
+		// period
+		int const period_factor = 16;
+		unsigned period = (regs [index * 2 + 1] & 0x0F) * 0x100 * period_factor +
+				regs [index * 2] * period_factor;
+		if ( period < 50 ) // around 22 kHz
+		{
+			volume = 0;
+			if ( !period ) // on my AY-3-8910A, period doesn't have extra one added
+				period = period_factor;
+		}
+		
+		// current amplitude
+		int amp = volume;
+		if ( !phases [index] )
+			amp = 0;
+		{
+			int delta = amp - oscs [index].last_amp;
+			if ( delta )
+			{
+				oscs [index].last_amp = amp;
+				synth.offset( last_time, delta, osc_output );
+			}
+		}
+		
+		blip_time_t time = last_time + delays [index];
+		if ( time < end_time )
+		{
+			int delta = amp * 2 - volume;
+			if ( volume )
+			{
+				do
+				{
+					delta = -delta;
+					synth.offset_inline( time, delta, osc_output );
+					time += period;
+				}
+				while ( time < end_time );
+				
+				oscs [index].last_amp = (delta + volume) >> 1;
+				phases [index] = (delta > 0);
+			}
+			else
+			{
+				// maintain phase when silent
+				int count = (end_time - time + period - 1) / period;
+				phases [index] ^= count & 1;
+				time += (blargg_long) count * period;
+			}
+		}
+		
+		delays [index] = time - end_time;
+	}
+	
+	last_time = end_time;
+}
+
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nes_Fme7_Apu.h b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Fme7_Apu.h
new file mode 100644
index 00000000..97094897
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Fme7_Apu.h
@@ -0,0 +1,131 @@
+// Sunsoft FME-7 sound emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef NES_FME7_APU_H
+#define NES_FME7_APU_H
+
+#include "blargg_common.h"
+#include "Blip_Buffer.h"
+
+struct fme7_apu_state_t
+{
+	enum { reg_count = 14 };
+	BOOST::uint8_t regs [reg_count];
+	BOOST::uint8_t phases [3]; // 0 or 1
+	BOOST::uint8_t latch;
+	BOOST::uint16_t delays [3]; // a, b, c
+};
+
+class Nes_Fme7_Apu : private fme7_apu_state_t {
+public:
+	// See Nes_Apu.h for reference
+	void reset();
+	void volume( double );
+	void treble_eq( blip_eq_t const& );
+	void output( Blip_Buffer* );
+	enum { osc_count = 3 };
+	void osc_output( int index, Blip_Buffer* );
+	void end_frame( blip_time_t );
+	void save_state( fme7_apu_state_t* ) const;
+	void load_state( fme7_apu_state_t const& );
+	
+	// Mask and addresses of registers
+	enum { addr_mask = 0xE000 };
+	enum { data_addr = 0xE000 };
+	enum { latch_addr = 0xC000 };
+	
+	// (addr & addr_mask) == latch_addr
+	void write_latch( int );
+	
+	// (addr & addr_mask) == data_addr
+	void write_data( blip_time_t, int data );
+	
+public:
+	Nes_Fme7_Apu();
+	BLARGG_DISABLE_NOTHROW
+private:
+	// noncopyable
+	Nes_Fme7_Apu( const Nes_Fme7_Apu& );
+	Nes_Fme7_Apu& operator = ( const Nes_Fme7_Apu& );
+	
+	static unsigned char const amp_table [16];
+	
+	struct {
+		Blip_Buffer* output;
+		int last_amp;
+	} oscs [osc_count];
+	blip_time_t last_time;
+	
+	enum { amp_range = 192 }; // can be any value; this gives best error/quality tradeoff
+	Blip_Synth<blip_good_quality,1> synth;
+	
+	void run_until( blip_time_t );
+};
+
+inline void Nes_Fme7_Apu::volume( double v )
+{
+	synth.volume( 0.38 / amp_range * v ); // to do: fine-tune
+}
+
+inline void Nes_Fme7_Apu::treble_eq( blip_eq_t const& eq )
+{
+	synth.treble_eq( eq );
+}
+
+inline void Nes_Fme7_Apu::osc_output( int i, Blip_Buffer* buf )
+{
+	assert( (unsigned) i < osc_count );
+	oscs [i].output = buf;
+}
+
+inline void Nes_Fme7_Apu::output( Blip_Buffer* buf )
+{
+	for ( int i = 0; i < osc_count; i++ )
+		osc_output( i, buf );
+}
+
+inline Nes_Fme7_Apu::Nes_Fme7_Apu()
+{
+	output( NULL );
+	volume( 1.0 );
+	reset();
+}
+
+inline void Nes_Fme7_Apu::write_latch( int data ) { latch = data; }
+
+inline void Nes_Fme7_Apu::write_data( blip_time_t time, int data )
+{
+	if ( (unsigned) latch >= reg_count )
+	{
+		#ifdef debug_printf
+			debug_printf( "FME7 write to %02X (past end of sound registers)\n", (int) latch );
+		#endif
+		return;
+	}
+	
+	run_until( time );
+	regs [latch] = data;
+}
+
+inline void Nes_Fme7_Apu::end_frame( blip_time_t time )
+{
+	if ( time > last_time )
+		run_until( time );
+	
+	assert( last_time >= time );
+	last_time -= time;
+}
+
+inline void Nes_Fme7_Apu::save_state( fme7_apu_state_t* out ) const
+{
+	*out = *this;
+}
+
+inline void Nes_Fme7_Apu::load_state( fme7_apu_state_t const& in )
+{
+	reset();
+	fme7_apu_state_t* state = this;
+	*state = in;
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nes_Namco_Apu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Namco_Apu.cpp
new file mode 100644
index 00000000..f3235b38
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Namco_Apu.cpp
@@ -0,0 +1,145 @@
+// Nes_Snd_Emu 0.1.8. http://www.slack.net/~ant/
+
+#include "Nes_Namco_Apu.h"
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+Nes_Namco_Apu::Nes_Namco_Apu()
+{
+	output( NULL );
+	volume( 1.0 );
+	reset();
+}
+
+void Nes_Namco_Apu::reset()
+{
+	last_time = 0;
+	addr_reg = 0;
+	
+	int i;
+	for ( i = 0; i < reg_count; i++ )
+		reg [i] = 0;
+	
+	for ( i = 0; i < osc_count; i++ )
+	{
+		Namco_Osc& osc = oscs [i];
+		osc.delay = 0;
+		osc.last_amp = 0;
+		osc.wave_pos = 0;
+	}
+}
+
+void Nes_Namco_Apu::output( Blip_Buffer* buf )
+{
+	for ( int i = 0; i < osc_count; i++ )
+		osc_output( i, buf );
+}
+
+/*
+void Nes_Namco_Apu::reflect_state( Tagged_Data& data )
+{
+	reflect_int16( data, BLARGG_4CHAR('A','D','D','R'), &addr_reg );
+	
+	static const char hex [17] = "0123456789ABCDEF";
+	int i;
+	for ( i = 0; i < reg_count; i++ )
+		reflect_int16( data, 'RG\0\0' + hex [i >> 4] * 0x100 + hex [i & 15], &reg [i] );
+	
+	for ( i = 0; i < osc_count; i++ )
+	{
+		reflect_int32( data, BLARGG_4CHAR('D','L','Y','0') + i, &oscs [i].delay );
+		reflect_int16( data, BLARGG_4CHAR('P','O','S','0') + i, &oscs [i].wave_pos );
+	}
+}
+*/
+
+void Nes_Namco_Apu::end_frame( blip_time_t time )
+{
+	if ( time > last_time )
+		run_until( time );
+	
+	assert( last_time >= time );
+	last_time -= time;
+}
+
+void Nes_Namco_Apu::run_until( blip_time_t nes_end_time )
+{
+	int active_oscs = (reg [0x7F] >> 4 & 7) + 1;
+	for ( int i = osc_count - active_oscs; i < osc_count; i++ )
+	{
+		Namco_Osc& osc = oscs [i];
+		Blip_Buffer* output = osc.output;
+		if ( !output )
+			continue;
+		output->set_modified();
+		
+		blip_resampled_time_t time =
+				output->resampled_time( last_time ) + osc.delay;
+		blip_resampled_time_t end_time = output->resampled_time( nes_end_time );
+		osc.delay = 0;
+		if ( time < end_time )
+		{
+			const BOOST::uint8_t* osc_reg = &reg [i * 8 + 0x40];
+			if ( !(osc_reg [4] & 0xE0) )
+				continue;
+			
+			int volume = osc_reg [7] & 15;
+			if ( !volume )
+				continue;
+			
+			blargg_long freq = (osc_reg [4] & 3) * 0x10000 + osc_reg [2] * 0x100L + osc_reg [0];
+			if ( freq < 64 * active_oscs )
+				continue; // prevent low frequencies from excessively delaying freq changes
+			blip_resampled_time_t period =
+					output->resampled_duration( 983040 ) / freq * active_oscs;
+			
+			int wave_size = 32 - (osc_reg [4] >> 2 & 7) * 4;
+			if ( !wave_size )
+				continue;
+			
+			int last_amp = osc.last_amp;
+			int wave_pos = osc.wave_pos;
+			
+			do
+			{
+				// read wave sample
+				int addr = wave_pos + osc_reg [6];
+				int sample = reg [addr >> 1] >> (addr << 2 & 4);
+				wave_pos++;
+				sample = (sample & 15) * volume;
+				
+				// output impulse if amplitude changed
+				int delta = sample - last_amp;
+				if ( delta )
+				{
+					last_amp = sample;
+					synth.offset_resampled( time, delta, output );
+				}
+				
+				// next sample
+				time += period;
+				if ( wave_pos >= wave_size )
+					wave_pos = 0;
+			}
+			while ( time < end_time );
+			
+			osc.wave_pos = wave_pos;
+			osc.last_amp = last_amp;
+		}
+		osc.delay = time - end_time;
+	}
+	
+	last_time = nes_end_time;
+}
+
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nes_Namco_Apu.h b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Namco_Apu.h
new file mode 100644
index 00000000..db5fea4b
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Namco_Apu.h
@@ -0,0 +1,102 @@
+// Namco 106 sound chip emulator
+
+// Nes_Snd_Emu 0.1.8
+#ifndef NES_NAMCO_APU_H
+#define NES_NAMCO_APU_H
+
+#include "blargg_common.h"
+#include "Blip_Buffer.h"
+
+struct namco_state_t;
+
+class Nes_Namco_Apu {
+public:
+	// See Nes_Apu.h for reference.
+	void volume( double );
+	void treble_eq( const blip_eq_t& );
+	void output( Blip_Buffer* );
+	enum { osc_count = 8 };
+	void osc_output( int index, Blip_Buffer* );
+	void reset();
+	void end_frame( blip_time_t );
+	
+	// Read/write data register is at 0x4800
+	enum { data_reg_addr = 0x4800 };
+	void write_data( blip_time_t, int );
+	int read_data();
+	
+	// Write-only address register is at 0xF800
+	enum { addr_reg_addr = 0xF800 };
+	void write_addr( int );
+	
+	// to do: implement save/restore
+	void save_state( namco_state_t* out ) const;
+	void load_state( namco_state_t const& );
+	
+public:
+	Nes_Namco_Apu();
+	BLARGG_DISABLE_NOTHROW
+private:
+	// noncopyable
+	Nes_Namco_Apu( const Nes_Namco_Apu& );
+	Nes_Namco_Apu& operator = ( const Nes_Namco_Apu& );
+	
+	struct Namco_Osc {
+		blargg_long delay;
+		Blip_Buffer* output;
+		short last_amp;
+		short wave_pos;
+	};
+	
+	Namco_Osc oscs [osc_count];
+	
+	blip_time_t last_time;
+	int addr_reg;
+	
+	enum { reg_count = 0x80 };
+	BOOST::uint8_t reg [reg_count];
+	Blip_Synth<blip_good_quality,15> synth;
+	
+	BOOST::uint8_t& access();
+	void run_until( blip_time_t );
+};
+/*
+struct namco_state_t
+{
+	BOOST::uint8_t regs [0x80];
+	BOOST::uint8_t addr;
+	BOOST::uint8_t unused;
+	BOOST::uint8_t positions [8];
+	BOOST::uint32_t delays [8];
+};
+*/
+
+inline BOOST::uint8_t& Nes_Namco_Apu::access()
+{
+	int addr = addr_reg & 0x7F;
+	if ( addr_reg & 0x80 )
+		addr_reg = (addr + 1) | 0x80;
+	return reg [addr];
+}
+
+inline void Nes_Namco_Apu::volume( double v ) { synth.volume( 0.10 / osc_count * v ); }
+
+inline void Nes_Namco_Apu::treble_eq( const blip_eq_t& eq ) { synth.treble_eq( eq ); }
+
+inline void Nes_Namco_Apu::write_addr( int v ) { addr_reg = v; }
+
+inline int Nes_Namco_Apu::read_data() { return access(); }
+
+inline void Nes_Namco_Apu::osc_output( int i, Blip_Buffer* buf )
+{
+	assert( (unsigned) i < osc_count );
+	oscs [i].output = buf;
+}
+
+inline void Nes_Namco_Apu::write_data( blip_time_t time, int data )
+{
+	run_until( time );
+	access() = data;
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nes_Oscs.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Oscs.cpp
new file mode 100644
index 00000000..1ad3f59c
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Oscs.cpp
@@ -0,0 +1,551 @@
+// Nes_Snd_Emu 0.1.8. http://www.slack.net/~ant/
+
+#include "Nes_Apu.h"
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+// Nes_Osc
+
+void Nes_Osc::clock_length( int halt_mask )
+{
+	if ( length_counter && !(regs [0] & halt_mask) )
+		length_counter--;
+}
+
+void Nes_Envelope::clock_envelope()
+{
+	int period = regs [0] & 15;
+	if ( reg_written [3] ) {
+		reg_written [3] = false;
+		env_delay = period;
+		envelope = 15;
+	}
+	else if ( --env_delay < 0 ) {
+		env_delay = period;
+		if ( envelope | (regs [0] & 0x20) )
+			envelope = (envelope - 1) & 15;
+	}
+}
+
+int Nes_Envelope::volume() const
+{
+	return length_counter == 0 ? 0 : (regs [0] & 0x10) ? (regs [0] & 15) : envelope;
+}
+
+// Nes_Square
+
+void Nes_Square::clock_sweep( int negative_adjust )
+{
+	int sweep = regs [1];
+	
+	if ( --sweep_delay < 0 )
+	{
+		reg_written [1] = true;
+		
+		int period = this->period();
+		int shift = sweep & shift_mask;
+		if ( shift && (sweep & 0x80) && period >= 8 )
+		{
+			int offset = period >> shift;
+			
+			if ( sweep & negate_flag )
+				offset = negative_adjust - offset;
+			
+			if ( period + offset < 0x800 )
+			{
+				period += offset;
+				// rewrite period
+				regs [2] = period & 0xFF;
+				regs [3] = (regs [3] & ~7) | ((period >> 8) & 7);
+			}
+		}
+	}
+	
+	if ( reg_written [1] ) {
+		reg_written [1] = false;
+		sweep_delay = (sweep >> 4) & 7;
+	}
+}
+
+// TODO: clean up
+inline nes_time_t Nes_Square::maintain_phase( nes_time_t time, nes_time_t end_time,
+		nes_time_t timer_period )
+{
+	nes_time_t remain = end_time - time;
+	if ( remain > 0 )
+	{
+		int count = (remain + timer_period - 1) / timer_period;
+		phase = (phase + count) & (phase_range - 1);
+		time += (blargg_long) count * timer_period;
+	}
+	return time;
+}
+
+void Nes_Square::run( nes_time_t time, nes_time_t end_time )
+{
+	const int period = this->period();
+	const int timer_period = (period + 1) * 2;
+	
+	if ( !output )
+	{
+		delay = maintain_phase( time + delay, end_time, timer_period ) - end_time;
+		return;
+	}
+	
+	output->set_modified();
+	
+	int offset = period >> (regs [1] & shift_mask);
+	if ( regs [1] & negate_flag )
+		offset = 0;
+	
+	const int volume = this->volume();
+	if ( volume == 0 || period < 8 || (period + offset) >= 0x800 )
+	{
+		if ( last_amp ) {
+			synth.offset( time, -last_amp, output );
+			last_amp = 0;
+		}
+		
+		time += delay;
+		time = maintain_phase( time, end_time, timer_period );
+	}
+	else
+	{
+		// handle duty select
+		int duty_select = (regs [0] >> 6) & 3;
+		int duty = 1 << duty_select; // 1, 2, 4, 2
+		int amp = 0;
+		if ( duty_select == 3 ) {
+			duty = 2; // negated 25%
+			amp = volume;
+		}
+		if ( phase < duty )
+			amp ^= volume;
+		
+		{
+			int delta = update_amp( amp );
+			if ( delta )
+				synth.offset( time, delta, output );
+		}
+		
+		time += delay;
+		if ( time < end_time )
+		{
+			Blip_Buffer* const output = this->output;
+			const Synth& synth = this->synth;
+			int delta = amp * 2 - volume;
+			int phase = this->phase;
+			
+			do {
+				phase = (phase + 1) & (phase_range - 1);
+				if ( phase == 0 || phase == duty ) {
+					delta = -delta;
+					synth.offset_inline( time, delta, output );
+				}
+				time += timer_period;
+			}
+			while ( time < end_time );
+			
+			last_amp = (delta + volume) >> 1;
+			this->phase = phase;
+		}
+	}
+	
+	delay = time - end_time;
+}
+
+// Nes_Triangle
+
+void Nes_Triangle::clock_linear_counter()
+{
+	if ( reg_written [3] )
+		linear_counter = regs [0] & 0x7F;
+	else if ( linear_counter )
+		linear_counter--;
+	
+	if ( !(regs [0] & 0x80) )
+		reg_written [3] = false;
+}
+
+inline int Nes_Triangle::calc_amp() const
+{
+	int amp = phase_range - phase;
+	if ( amp < 0 )
+		amp = phase - (phase_range + 1);
+	return amp;
+}
+
+// TODO: clean up
+inline nes_time_t Nes_Triangle::maintain_phase( nes_time_t time, nes_time_t end_time,
+		nes_time_t timer_period )
+{
+	nes_time_t remain = end_time - time;
+	if ( remain > 0 )
+	{
+		int count = (remain + timer_period - 1) / timer_period;
+		phase = ((unsigned) phase + 1 - count) & (phase_range * 2 - 1);
+		phase++;
+		time += (blargg_long) count * timer_period;
+	}
+	return time;
+}
+
+void Nes_Triangle::run( nes_time_t time, nes_time_t end_time )
+{
+	const int timer_period = period() + 1;
+	if ( !output )
+	{
+		time += delay;
+		delay = 0;
+		if ( length_counter && linear_counter && timer_period >= 3 )
+			delay = maintain_phase( time, end_time, timer_period ) - end_time;
+		return;
+	}
+	
+	output->set_modified();
+	
+	// to do: track phase when period < 3
+	// to do: Output 7.5 on dac when period < 2? More accurate, but results in more clicks.
+	
+	int delta = update_amp( calc_amp() );
+	if ( delta )
+		synth.offset( time, delta, output );
+	
+	time += delay;
+	if ( length_counter == 0 || linear_counter == 0 || timer_period < 3 )
+	{
+		time = end_time;
+	}
+	else if ( time < end_time )
+	{
+		Blip_Buffer* const output = this->output;
+		
+		int phase = this->phase;
+		int volume = 1;
+		if ( phase > phase_range ) {
+			phase -= phase_range;
+			volume = -volume;
+		}
+		
+		do {
+			if ( --phase == 0 ) {
+				phase = phase_range;
+				volume = -volume;
+			}
+			else {
+				synth.offset_inline( time, volume, output );
+			}
+			
+			time += timer_period;
+		}
+		while ( time < end_time );
+		
+		if ( volume < 0 )
+			phase += phase_range;
+		this->phase = phase;
+		last_amp = calc_amp();
+ 	}
+	delay = time - end_time;
+}
+
+// Nes_Dmc
+
+void Nes_Dmc::reset()
+{
+	address = 0;
+	dac = 0;
+	buf = 0;
+	bits_remain = 1;
+	bits = 0;
+	buf_full = false;
+	silence = true;
+	next_irq = Nes_Apu::no_irq;
+	irq_flag = false;
+	irq_enabled = false;
+	
+	Nes_Osc::reset();
+	period = 0x1AC;
+}
+
+void Nes_Dmc::recalc_irq()
+{
+	nes_time_t irq = Nes_Apu::no_irq;
+	if ( irq_enabled && length_counter )
+		irq = apu->last_dmc_time + delay +
+				((length_counter - 1) * 8 + bits_remain - 1) * nes_time_t (period) + 1;
+	if ( irq != next_irq ) {
+		next_irq = irq;
+		apu->irq_changed();
+	}
+}
+
+int Nes_Dmc::count_reads( nes_time_t time, nes_time_t* last_read ) const
+{
+	if ( last_read )
+		*last_read = time;
+	
+	if ( length_counter == 0 )
+		return 0; // not reading
+	
+	nes_time_t first_read = next_read_time();
+	nes_time_t avail = time - first_read;
+	if ( avail <= 0 )
+		return 0;
+	
+	int count = (avail - 1) / (period * 8) + 1;
+	if ( !(regs [0] & loop_flag) && count > length_counter )
+		count = length_counter;
+	
+	if ( last_read )
+	{
+		*last_read = first_read + (count - 1) * (period * 8) + 1;
+		check( *last_read <= time );
+		check( count == count_reads( *last_read, NULL ) );
+		check( count - 1 == count_reads( *last_read - 1, NULL ) );
+	}
+	
+	return count;
+}
+
+static short const dmc_period_table [2] [16] = {
+	{428, 380, 340, 320, 286, 254, 226, 214, // NTSC
+	190, 160, 142, 128, 106,  84,  72,  54},
+
+	{398, 354, 316, 298, 276, 236, 210, 198, // PAL
+	176, 148, 132, 118,  98,  78,  66,  50}
+};
+
+inline void Nes_Dmc::reload_sample()
+{
+	address = 0x4000 + regs [2] * 0x40;
+	length_counter = regs [3] * 0x10 + 1;
+}
+
+static byte const dac_table [128] =
+{
+	 0, 1, 2, 3, 4, 5, 6, 7, 7, 8, 9,10,11,12,13,14,
+	15,15,16,17,18,19,20,20,21,22,23,24,24,25,26,27,
+	27,28,29,30,31,31,32,33,33,34,35,36,36,37,38,38,
+	39,40,41,41,42,43,43,44,45,45,46,47,47,48,48,49,
+	50,50,51,52,52,53,53,54,55,55,56,56,57,58,58,59,
+	59,60,60,61,61,62,63,63,64,64,65,65,66,66,67,67,
+	68,68,69,70,70,71,71,72,72,73,73,74,74,75,75,75,
+	76,76,77,77,78,78,79,79,80,80,81,81,82,82,82,83,
+};
+
+void Nes_Dmc::write_register( int addr, int data )
+{
+	if ( addr == 0 )
+	{
+		period = dmc_period_table [pal_mode] [data & 15];
+		irq_enabled = (data & 0xC0) == 0x80; // enabled only if loop disabled
+		irq_flag &= irq_enabled;
+		recalc_irq();
+	}
+	else if ( addr == 1 )
+	{
+		int old_dac = dac;
+		dac = data & 0x7F;
+		
+		// adjust last_amp so that "pop" amplitude will be properly non-linear
+		// with respect to change in dac
+		int faked_nonlinear = dac - (dac_table [dac] - dac_table [old_dac]);
+		if ( !nonlinear )
+			last_amp = faked_nonlinear;
+	}
+}
+
+void Nes_Dmc::start()
+{
+	reload_sample();
+	fill_buffer();
+	recalc_irq();
+}
+
+void Nes_Dmc::fill_buffer()
+{
+	if ( !buf_full && length_counter )
+	{
+		require( prg_reader ); // prg_reader must be set
+		buf = prg_reader( prg_reader_data, 0x8000u + address );
+		address = (address + 1) & 0x7FFF;
+		buf_full = true;
+		if ( --length_counter == 0 )
+		{
+			if ( regs [0] & loop_flag ) {
+				reload_sample();
+			}
+			else {
+				apu->osc_enables &= ~0x10;
+				irq_flag = irq_enabled;
+				next_irq = Nes_Apu::no_irq;
+				apu->irq_changed();
+			}
+		}
+	}
+}
+
+void Nes_Dmc::run( nes_time_t time, nes_time_t end_time )
+{
+	int delta = update_amp( dac );
+	if ( !output )
+	{
+		silence = true;
+	}
+	else
+	{
+		output->set_modified();
+		if ( delta )
+			synth.offset( time, delta, output );
+	}
+	
+	time += delay;
+	if ( time < end_time )
+	{
+		int bits_remain = this->bits_remain;
+		if ( silence && !buf_full )
+		{
+			int count = (end_time - time + period - 1) / period;
+			bits_remain = (bits_remain - 1 + 8 - (count % 8)) % 8 + 1;
+			time += count * period;
+		}
+		else
+		{
+			Blip_Buffer* const output = this->output;
+			const int period = this->period;
+			int bits = this->bits;
+			int dac = this->dac;
+			
+			do
+			{
+				if ( !silence )
+				{
+					int step = (bits & 1) * 4 - 2;
+					bits >>= 1;
+					if ( unsigned (dac + step) <= 0x7F ) {
+						dac += step;
+						synth.offset_inline( time, step, output );
+					}
+				}
+				
+				time += period;
+				
+				if ( --bits_remain == 0 )
+				{
+					bits_remain = 8;
+					if ( !buf_full ) {
+						silence = true;
+					}
+					else {
+						silence = false;
+						bits = buf;
+						buf_full = false;
+						if ( !output )
+							silence = true;
+						fill_buffer();
+					}
+				}
+			}
+			while ( time < end_time );
+			
+			this->dac = dac;
+			this->last_amp = dac;
+			this->bits = bits;
+		}
+		this->bits_remain = bits_remain;
+	}
+	delay = time - end_time;
+}
+
+// Nes_Noise
+
+static short const noise_period_table [16] = {
+	0x004, 0x008, 0x010, 0x020, 0x040, 0x060, 0x080, 0x0A0,
+	0x0CA, 0x0FE, 0x17C, 0x1FC, 0x2FA, 0x3F8, 0x7F2, 0xFE4
+};
+
+void Nes_Noise::run( nes_time_t time, nes_time_t end_time )
+{
+	int period = noise_period_table [regs [2] & 15];
+	
+	if ( !output )
+	{
+		// TODO: clean up
+		time += delay;
+		delay = time + (end_time - time + period - 1) / period * period - end_time;
+		return;
+	}
+	
+	output->set_modified();
+	
+	const int volume = this->volume();
+	int amp = (noise & 1) ? volume : 0;
+	{
+		int delta = update_amp( amp );
+		if ( delta )
+			synth.offset( time, delta, output );
+	}
+	
+	time += delay;
+	if ( time < end_time )
+	{
+		const int mode_flag = 0x80;
+		
+		if ( !volume )
+		{
+			// round to next multiple of period
+			time += (end_time - time + period - 1) / period * period;
+			
+			// approximate noise cycling while muted, by shuffling up noise register
+			// to do: precise muted noise cycling?
+			if ( !(regs [2] & mode_flag) ) {
+				int feedback = (noise << 13) ^ (noise << 14);
+				noise = (feedback & 0x4000) | (noise >> 1);
+			}
+		}
+		else
+		{
+			Blip_Buffer* const output = this->output;
+			
+			// using resampled time avoids conversion in synth.offset()
+			blip_resampled_time_t rperiod = output->resampled_duration( period );
+			blip_resampled_time_t rtime = output->resampled_time( time );
+			
+			int noise = this->noise;
+			int delta = amp * 2 - volume;
+			const int tap = (regs [2] & mode_flag ? 8 : 13);
+			
+			do {
+				int feedback = (noise << tap) ^ (noise << 14);
+				time += period;
+				
+				if ( (noise + 1) & 2 ) {
+					// bits 0 and 1 of noise differ
+					delta = -delta;
+					synth.offset_resampled( rtime, delta, output );
+				}
+				
+				rtime += rperiod;
+				noise = (feedback & 0x4000) | (noise >> 1);
+			}
+			while ( time < end_time );
+			
+			last_amp = (delta + volume) >> 1;
+			this->noise = noise;
+		}
+	}
+	
+	delay = time - end_time;
+}
+
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nes_Oscs.h b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Oscs.h
new file mode 100644
index 00000000..b675bfb4
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Oscs.h
@@ -0,0 +1,147 @@
+// Private oscillators used by Nes_Apu
+
+// Nes_Snd_Emu 0.1.8
+#ifndef NES_OSCS_H
+#define NES_OSCS_H
+
+#include "blargg_common.h"
+#include "Blip_Buffer.h"
+
+class Nes_Apu;
+
+struct Nes_Osc
+{
+	unsigned char regs [4];
+	bool reg_written [4];
+	Blip_Buffer* output;
+	int length_counter;// length counter (0 if unused by oscillator)
+	int delay;      // delay until next (potential) transition
+	int last_amp;   // last amplitude oscillator was outputting
+	
+	void clock_length( int halt_mask );
+	int period() const {
+		return (regs [3] & 7) * 0x100 + (regs [2] & 0xFF);
+	}
+	void reset() {
+		delay = 0;
+		last_amp = 0;
+	}
+	int update_amp( int amp ) {
+		int delta = amp - last_amp;
+		last_amp = amp;
+		return delta;
+	}
+};
+
+struct Nes_Envelope : Nes_Osc
+{
+	int envelope;
+	int env_delay;
+	
+	void clock_envelope();
+	int volume() const;
+	void reset() {
+		envelope = 0;
+		env_delay = 0;
+		Nes_Osc::reset();
+	}
+};
+
+// Nes_Square
+struct Nes_Square : Nes_Envelope
+{
+	enum { negate_flag = 0x08 };
+	enum { shift_mask = 0x07 };
+	enum { phase_range = 8 };
+	int phase;
+	int sweep_delay;
+	
+	typedef Blip_Synth<blip_good_quality,1> Synth;
+	Synth const& synth; // shared between squares
+	
+	Nes_Square( Synth const* s ) : synth( *s ) { }
+	
+	void clock_sweep( int adjust );
+	void run( nes_time_t, nes_time_t );
+	void reset() {
+		sweep_delay = 0;
+		Nes_Envelope::reset();
+	}
+	nes_time_t maintain_phase( nes_time_t time, nes_time_t end_time,
+			nes_time_t timer_period );
+};
+
+// Nes_Triangle
+struct Nes_Triangle : Nes_Osc
+{
+	enum { phase_range = 16 };
+	int phase;
+	int linear_counter;
+	Blip_Synth<blip_med_quality,1> synth;
+	
+	int calc_amp() const;
+	void run( nes_time_t, nes_time_t );
+	void clock_linear_counter();
+	void reset() {
+		linear_counter = 0;
+		phase = 1;
+		Nes_Osc::reset();
+	}
+	nes_time_t maintain_phase( nes_time_t time, nes_time_t end_time,
+			nes_time_t timer_period );
+};
+
+// Nes_Noise
+struct Nes_Noise : Nes_Envelope
+{
+	int noise;
+	Blip_Synth<blip_med_quality,1> synth;
+	
+	void run( nes_time_t, nes_time_t );
+	void reset() {
+		noise = 1 << 14;
+		Nes_Envelope::reset();
+	}
+};
+
+// Nes_Dmc
+struct Nes_Dmc : Nes_Osc
+{
+	int address;    // address of next byte to read
+	int period;
+	//int length_counter; // bytes remaining to play (already defined in Nes_Osc)
+	int buf;
+	int bits_remain;
+	int bits;
+	bool buf_full;
+	bool silence;
+	
+	enum { loop_flag = 0x40 };
+	
+	int dac;
+	
+	nes_time_t next_irq;
+	bool irq_enabled;
+	bool irq_flag;
+	bool pal_mode;
+	bool nonlinear;
+	
+	int (*prg_reader)( void*, nes_addr_t ); // needs to be initialized to prg read function
+	void* prg_reader_data;
+	
+	Nes_Apu* apu;
+	
+	Blip_Synth<blip_med_quality,1> synth;
+	
+	void start();
+	void write_register( int, int );
+	void run( nes_time_t, nes_time_t );
+	void recalc_irq();
+	void fill_buffer();
+	void reload_sample();
+	void reset();
+	int count_reads( nes_time_t, nes_time_t* ) const;
+	nes_time_t next_read_time() const;
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nes_Vrc6_Apu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Vrc6_Apu.cpp
new file mode 100644
index 00000000..d178407c
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Vrc6_Apu.cpp
@@ -0,0 +1,215 @@
+// Nes_Snd_Emu 0.1.8. http://www.slack.net/~ant/
+
+#include "Nes_Vrc6_Apu.h"
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+Nes_Vrc6_Apu::Nes_Vrc6_Apu()
+{
+	output( NULL );
+	volume( 1.0 );
+	reset();
+}
+
+void Nes_Vrc6_Apu::reset()
+{
+	last_time = 0;
+	for ( int i = 0; i < osc_count; i++ )
+	{
+		Vrc6_Osc& osc = oscs [i];
+		for ( int j = 0; j < reg_count; j++ )
+			osc.regs [j] = 0;
+		osc.delay = 0;
+		osc.last_amp = 0;
+		osc.phase = 1;
+		osc.amp = 0;
+	}
+}
+
+void Nes_Vrc6_Apu::output( Blip_Buffer* buf )
+{
+	for ( int i = 0; i < osc_count; i++ )
+		osc_output( i, buf );
+}
+
+void Nes_Vrc6_Apu::run_until( blip_time_t time )
+{
+	require( time >= last_time );
+	run_square( oscs [0], time );
+	run_square( oscs [1], time );
+	run_saw( time );
+	last_time = time;
+}
+
+void Nes_Vrc6_Apu::write_osc( blip_time_t time, int osc_index, int reg, int data )
+{
+	require( (unsigned) osc_index < osc_count );
+	require( (unsigned) reg < reg_count );
+	
+	run_until( time );
+	oscs [osc_index].regs [reg] = data;
+}
+
+void Nes_Vrc6_Apu::end_frame( blip_time_t time )
+{
+	if ( time > last_time )
+		run_until( time );
+	
+	assert( last_time >= time );
+	last_time -= time;
+}
+
+void Nes_Vrc6_Apu::save_state( vrc6_apu_state_t* out ) const
+{
+	assert( sizeof (vrc6_apu_state_t) == 20 );
+	out->saw_amp = oscs [2].amp;
+	for ( int i = 0; i < osc_count; i++ )
+	{
+		Vrc6_Osc const& osc = oscs [i];
+		for ( int r = 0; r < reg_count; r++ )
+			out->regs [i] [r] = osc.regs [r];
+		
+		out->delays [i] = osc.delay;
+		out->phases [i] = osc.phase;
+	}
+}
+
+void Nes_Vrc6_Apu::load_state( vrc6_apu_state_t const& in )
+{
+	reset();
+	oscs [2].amp = in.saw_amp;
+	for ( int i = 0; i < osc_count; i++ )
+	{
+		Vrc6_Osc& osc = oscs [i];
+		for ( int r = 0; r < reg_count; r++ )
+			osc.regs [r] = in.regs [i] [r];
+		
+		osc.delay = in.delays [i];
+		osc.phase = in.phases [i];
+	}
+	if ( !oscs [2].phase )
+		oscs [2].phase = 1;
+}
+
+void Nes_Vrc6_Apu::run_square( Vrc6_Osc& osc, blip_time_t end_time )
+{
+	Blip_Buffer* output = osc.output;
+	if ( !output )
+		return;
+	output->set_modified();
+	
+	int volume = osc.regs [0] & 15;
+	if ( !(osc.regs [2] & 0x80) )
+		volume = 0;
+	
+	int gate = osc.regs [0] & 0x80;
+	int duty = ((osc.regs [0] >> 4) & 7) + 1;
+	int delta = ((gate || osc.phase < duty) ? volume : 0) - osc.last_amp;
+	blip_time_t time = last_time;
+	if ( delta )
+	{
+		osc.last_amp += delta;
+		square_synth.offset( time, delta, output );
+	}
+	
+	time += osc.delay;
+	osc.delay = 0;
+	int period = osc.period();
+	if ( volume && !gate && period > 4 )
+	{
+		if ( time < end_time )
+		{
+			int phase = osc.phase;
+			
+			do
+			{
+				phase++;
+				if ( phase == 16 )
+				{
+					phase = 0;
+					osc.last_amp = volume;
+					square_synth.offset( time, volume, output );
+				}
+				if ( phase == duty )
+				{
+					osc.last_amp = 0;
+					square_synth.offset( time, -volume, output );
+				}
+				time += period;
+			}
+			while ( time < end_time );
+			
+			osc.phase = phase;
+		}
+		osc.delay = time - end_time;
+	}
+}
+
+void Nes_Vrc6_Apu::run_saw( blip_time_t end_time )
+{
+	Vrc6_Osc& osc = oscs [2];
+	Blip_Buffer* output = osc.output;
+	if ( !output )
+		return;
+	output->set_modified();
+	
+	int amp = osc.amp;
+	int amp_step = osc.regs [0] & 0x3F;
+	blip_time_t time = last_time;
+	int last_amp = osc.last_amp;
+	if ( !(osc.regs [2] & 0x80) || !(amp_step | amp) )
+	{
+		osc.delay = 0;
+		int delta = (amp >> 3) - last_amp;
+		last_amp = amp >> 3;
+		saw_synth.offset( time, delta, output );
+	}
+	else
+	{
+		time += osc.delay;
+		if ( time < end_time )
+		{
+			int period = osc.period() * 2;
+			int phase = osc.phase;
+			
+			do
+			{
+				if ( --phase == 0 )
+				{
+					phase = 7;
+					amp = 0;
+				}
+				
+				int delta = (amp >> 3) - last_amp;
+				if ( delta )
+				{
+					last_amp = amp >> 3;
+					saw_synth.offset( time, delta, output );
+				}
+				
+				time += period;
+				amp = (amp + amp_step) & 0xFF;
+			}
+			while ( time < end_time );
+			
+			osc.phase = phase;
+			osc.amp = amp;
+		}
+		
+		osc.delay = time - end_time;
+	}
+	
+	osc.last_amp = last_amp;
+}
+
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nes_Vrc6_Apu.h b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Vrc6_Apu.h
new file mode 100644
index 00000000..18722233
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nes_Vrc6_Apu.h
@@ -0,0 +1,95 @@
+// Konami VRC6 sound chip emulator
+
+// Nes_Snd_Emu 0.1.8
+#ifndef NES_VRC6_APU_H
+#define NES_VRC6_APU_H
+
+#include "blargg_common.h"
+#include "Blip_Buffer.h"
+
+struct vrc6_apu_state_t;
+
+class Nes_Vrc6_Apu {
+public:
+	// See Nes_Apu.h for reference
+	void reset();
+	void volume( double );
+	void treble_eq( blip_eq_t const& );
+	void output( Blip_Buffer* );
+	enum { osc_count = 3 };
+	void osc_output( int index, Blip_Buffer* );
+	void end_frame( blip_time_t );
+	void save_state( vrc6_apu_state_t* ) const;
+	void load_state( vrc6_apu_state_t const& );
+	
+	// Oscillator 0 write-only registers are at $9000-$9002
+	// Oscillator 1 write-only registers are at $A000-$A002
+	// Oscillator 2 write-only registers are at $B000-$B002
+	enum { reg_count = 3 };
+	enum { base_addr = 0x9000 };
+	enum { addr_step = 0x1000 };
+	void write_osc( blip_time_t, int osc, int reg, int data );
+	
+public:
+	Nes_Vrc6_Apu();
+	BLARGG_DISABLE_NOTHROW
+private:
+	// noncopyable
+	Nes_Vrc6_Apu( const Nes_Vrc6_Apu& );
+	Nes_Vrc6_Apu& operator = ( const Nes_Vrc6_Apu& );
+	
+	struct Vrc6_Osc
+	{
+		BOOST::uint8_t regs [3];
+		Blip_Buffer* output;
+		int delay;
+		int last_amp;
+		int phase;
+		int amp; // only used by saw
+		
+		int period() const
+		{
+			return (regs [2] & 0x0F) * 0x100L + regs [1] + 1;
+		}
+	};
+	
+	Vrc6_Osc oscs [osc_count];
+	blip_time_t last_time;
+	
+	Blip_Synth<blip_med_quality,1> saw_synth;
+	Blip_Synth<blip_good_quality,1> square_synth;
+	
+	void run_until( blip_time_t );
+	void run_square( Vrc6_Osc& osc, blip_time_t );
+	void run_saw( blip_time_t );
+};
+
+struct vrc6_apu_state_t
+{
+	BOOST::uint8_t regs [3] [3];
+	BOOST::uint8_t saw_amp;
+	BOOST::uint16_t delays [3];
+	BOOST::uint8_t phases [3];
+	BOOST::uint8_t unused;
+};
+
+inline void Nes_Vrc6_Apu::osc_output( int i, Blip_Buffer* buf )
+{
+	assert( (unsigned) i < osc_count );
+	oscs [i].output = buf;
+}
+
+inline void Nes_Vrc6_Apu::volume( double v )
+{
+	double const factor = 0.0967 * 2;
+	saw_synth.volume( factor / 31 * v );
+	square_synth.volume( factor * 0.5 / 15 * v );
+}
+
+inline void Nes_Vrc6_Apu::treble_eq( blip_eq_t const& eq )
+{
+	saw_synth.treble_eq( eq );
+	square_synth.treble_eq( eq );
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nsf_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Nsf_Emu.cpp
new file mode 100644
index 00000000..6e58164c
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nsf_Emu.cpp
@@ -0,0 +1,559 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Nsf_Emu.h"
+
+#include "blargg_endian.h"
+#include <string.h>
+#include <stdio.h>
+
+#if !NSF_EMU_APU_ONLY
+	#include "Nes_Namco_Apu.h"
+	#include "Nes_Vrc6_Apu.h"
+	#include "Nes_Fme7_Apu.h"
+#endif
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+int const vrc6_flag  = 0x01;
+int const namco_flag = 0x10;
+int const fme7_flag  = 0x20;
+
+long const clock_divisor = 12;
+
+Nsf_Emu::equalizer_t const Nsf_Emu::nes_eq     = {  -1.0, 80 };
+Nsf_Emu::equalizer_t const Nsf_Emu::famicom_eq = { -15.0, 80 };
+
+int Nsf_Emu::pcm_read( void* emu, nes_addr_t addr )
+{
+	return *((Nsf_Emu*) emu)->cpu::get_code( addr );
+}
+
+Nsf_Emu::Nsf_Emu()
+{
+	vrc6  = 0;
+	namco = 0;
+	fme7  = 0;
+	
+	set_type( gme_nsf_type );
+	set_silence_lookahead( 6 );
+	apu.dmc_reader( pcm_read, this );
+	Music_Emu::set_equalizer( nes_eq );
+	set_gain( 1.4 );
+	memset( unmapped_code, Nes_Cpu::bad_opcode, sizeof unmapped_code );
+}
+
+Nsf_Emu::~Nsf_Emu() { unload(); }
+
+void Nsf_Emu::unload()
+{
+	#if !NSF_EMU_APU_ONLY
+	{
+		delete vrc6;
+		vrc6  = 0;
+		
+		delete namco;
+		namco = 0;
+		
+		delete fme7;
+		fme7  = 0;
+	}
+	#endif
+	
+	rom.clear();
+	Music_Emu::unload();
+}
+
+// Track info
+
+static void copy_nsf_fields( Nsf_Emu::header_t const& h, track_info_t* out )
+{
+	GME_COPY_FIELD( h, out, game );
+	GME_COPY_FIELD( h, out, author );
+	GME_COPY_FIELD( h, out, copyright );
+	if ( h.chip_flags )
+		Gme_File::copy_field_( out->system, "Famicom" );
+}
+
+blargg_err_t Nsf_Emu::track_info_( track_info_t* out, int ) const
+{
+	copy_nsf_fields( header_, out );
+	return 0;
+}
+
+static blargg_err_t check_nsf_header( void const* header )
+{
+	if ( memcmp( header, "NESM\x1A", 5 ) )
+		return gme_wrong_file_type;
+	return 0;
+}
+
+struct Nsf_File : Gme_Info_
+{
+	Nsf_Emu::header_t h;
+	
+	Nsf_File() { set_type( gme_nsf_type ); }
+	
+	blargg_err_t load_( Data_Reader& in )
+	{
+		blargg_err_t err = in.read( &h, Nsf_Emu::header_size );
+		if ( err )
+			return (err == in.eof_error ? gme_wrong_file_type : err);
+		
+		if ( h.chip_flags & ~(namco_flag | vrc6_flag | fme7_flag) )
+			set_warning( "Uses unsupported audio expansion hardware" );
+		
+		set_track_count( h.track_count );
+		return check_nsf_header( &h );
+	}
+	
+	blargg_err_t track_info_( track_info_t* out, int ) const
+	{
+		copy_nsf_fields( h, out );
+		return 0;
+	}
+};
+
+static Music_Emu* new_nsf_emu () { return BLARGG_NEW Nsf_Emu ; }
+static Music_Emu* new_nsf_file() { return BLARGG_NEW Nsf_File; }
+
+static gme_type_t_ const gme_nsf_type_ = { "Nintendo NES", 0, &new_nsf_emu, &new_nsf_file, "NSF", 1 };
+gme_type_t const gme_nsf_type = &gme_nsf_type_;
+
+
+// Setup
+
+void Nsf_Emu::set_tempo_( double t )
+{
+	unsigned playback_rate = get_le16( header_.ntsc_speed );
+	unsigned standard_rate = 0x411A;
+	clock_rate_ = 1789772.72727;
+	play_period = 262 * 341L * 4 - 2; // two fewer PPU clocks every four frames
+	
+	if ( pal_only )
+	{
+		play_period   = 33247 * clock_divisor;
+		clock_rate_   = 1662607.125;
+		standard_rate = 0x4E20;
+		playback_rate = get_le16( header_.pal_speed );
+	}
+	
+	if ( !playback_rate )
+		playback_rate = standard_rate;
+	
+	if ( playback_rate != standard_rate || t != 1.0 )
+		play_period = long (playback_rate * clock_rate_ / (1000000.0 / clock_divisor * t));
+
+	apu.set_tempo( t );
+}
+
+blargg_err_t Nsf_Emu::init_sound()
+{
+	if ( header_.chip_flags & ~(namco_flag | vrc6_flag | fme7_flag) )
+		set_warning( "Uses unsupported audio expansion hardware" );
+	
+	{
+		#define APU_NAMES "Square 1", "Square 2", "Triangle", "Noise", "DMC"
+		
+		int const count = Nes_Apu::osc_count;
+		static const char* const apu_names [count] = { APU_NAMES };
+		set_voice_count( count );
+		set_voice_names( apu_names );
+		
+	}
+	
+	static int const types [] = {
+		wave_type  | 1, wave_type  | 2, wave_type | 0,
+		noise_type | 0, mixed_type | 1,
+		wave_type  | 3, wave_type  | 4, wave_type | 5,
+		wave_type  | 6, wave_type  | 7, wave_type | 8, wave_type | 9,
+		wave_type  |10, wave_type  |11, wave_type |12, wave_type |13
+	};
+	set_voice_types( types ); // common to all sound chip configurations
+	
+	double adjusted_gain = gain();
+	
+	#if NSF_EMU_APU_ONLY
+	{
+		if ( header_.chip_flags )
+			set_warning( "Uses unsupported audio expansion hardware" );
+	}
+	#else
+	{
+		if ( header_.chip_flags & (namco_flag | vrc6_flag | fme7_flag) )
+			set_voice_count( Nes_Apu::osc_count + 3 );
+		
+		if ( header_.chip_flags & namco_flag )
+		{
+			namco = BLARGG_NEW Nes_Namco_Apu;
+			CHECK_ALLOC( namco );
+			adjusted_gain *= 0.75;
+			
+			int const count = Nes_Apu::osc_count + Nes_Namco_Apu::osc_count;
+			static const char* const names [count] = {
+				APU_NAMES,
+				"Wave 1", "Wave 2", "Wave 3", "Wave 4",
+				"Wave 5", "Wave 6", "Wave 7", "Wave 8"
+			};
+			set_voice_count( count );
+			set_voice_names( names );
+		}
+		
+		if ( header_.chip_flags & vrc6_flag )
+		{
+			vrc6 = BLARGG_NEW Nes_Vrc6_Apu;
+			CHECK_ALLOC( vrc6 );
+			adjusted_gain *= 0.75;
+			
+			{
+				int const count = Nes_Apu::osc_count + Nes_Vrc6_Apu::osc_count;
+				static const char* const names [count] = {
+					APU_NAMES,
+					"Saw Wave", "Square 3", "Square 4"
+				};
+				set_voice_count( count );
+				set_voice_names( names );
+			}
+			
+			if ( header_.chip_flags & namco_flag )
+			{
+				int const count = Nes_Apu::osc_count + Nes_Vrc6_Apu::osc_count +
+						Nes_Namco_Apu::osc_count;
+				static const char* const names [count] = {
+					APU_NAMES,
+					"Saw Wave", "Square 3", "Square 4",
+					"Wave 1", "Wave 2", "Wave 3", "Wave 4",
+					"Wave 5", "Wave 6", "Wave 7", "Wave 8"
+				};
+				set_voice_count( count );
+				set_voice_names( names );
+			}
+		}
+		
+		if ( header_.chip_flags & fme7_flag )
+		{
+			fme7 = BLARGG_NEW Nes_Fme7_Apu;
+			CHECK_ALLOC( fme7 );
+			adjusted_gain *= 0.75;
+			
+			int const count = Nes_Apu::osc_count + Nes_Fme7_Apu::osc_count;
+			static const char* const names [count] = {
+				APU_NAMES,
+				"Square 3", "Square 4", "Square 5"
+			};
+			set_voice_count( count );
+			set_voice_names( names );
+		}
+		
+		if ( namco ) namco->volume( adjusted_gain );
+		if ( vrc6  ) vrc6 ->volume( adjusted_gain );
+		if ( fme7  ) fme7 ->volume( adjusted_gain );
+	}
+	#endif
+	
+	apu.volume( adjusted_gain );
+	
+	return 0;
+}
+
+blargg_err_t Nsf_Emu::load_( Data_Reader& in )
+{
+	assert( offsetof (header_t,unused [4]) == header_size );
+	RETURN_ERR( rom.load( in, header_size, &header_, 0 ) );
+	
+	set_track_count( header_.track_count );
+	RETURN_ERR( check_nsf_header( &header_ ) );
+	
+	if ( header_.vers != 1 )
+		set_warning( "Unknown file version" );
+	
+	// sound and memory
+	blargg_err_t err = init_sound();
+	if ( err )
+		return err;
+	
+	// set up data
+	nes_addr_t load_addr = get_le16( header_.load_addr );
+	init_addr = get_le16( header_.init_addr );
+	play_addr = get_le16( header_.play_addr );
+	if ( !load_addr ) load_addr = rom_begin;
+	if ( !init_addr ) init_addr = rom_begin;
+	if ( !play_addr ) play_addr = rom_begin;
+	if ( load_addr < rom_begin || init_addr < rom_begin )
+	{
+		const char* w = warning();
+		if ( !w )
+			w = "Corrupt file (invalid load/init/play address)";
+		return w;
+	}
+	
+	rom.set_addr( load_addr % bank_size );
+	int total_banks = rom.size() / bank_size;
+	
+	// bank switching
+	int first_bank = (load_addr - rom_begin) / bank_size;
+	for ( int i = 0; i < bank_count; i++ )
+	{
+		unsigned bank = i - first_bank;
+		if ( bank >= (unsigned) total_banks )
+			bank = 0;
+		initial_banks [i] = bank;
+		
+		if ( header_.banks [i] )
+		{
+			// bank-switched
+			memcpy( initial_banks, header_.banks, sizeof initial_banks );
+			break;
+		}
+	}
+	
+	pal_only = (header_.speed_flags & 3) == 1;
+	
+	#if !NSF_EMU_EXTRA_FLAGS
+		header_.speed_flags = 0;
+	#endif
+	
+	set_tempo( tempo() );
+	
+	return setup_buffer( (long) (clock_rate_ + 0.5) );
+}
+
+void Nsf_Emu::update_eq( blip_eq_t const& eq )
+{
+	apu.treble_eq( eq );
+	
+	#if !NSF_EMU_APU_ONLY
+	{
+		if ( namco ) namco->treble_eq( eq );
+		if ( vrc6  ) vrc6 ->treble_eq( eq );
+		if ( fme7  ) fme7 ->treble_eq( eq );
+	}
+	#endif
+}
+
+void Nsf_Emu::set_voice( int i, Blip_Buffer* buf, Blip_Buffer*, Blip_Buffer* )
+{
+	if ( i < Nes_Apu::osc_count )
+	{
+		apu.osc_output( i, buf );
+		return;
+	}
+	i -= Nes_Apu::osc_count;
+	
+	#if !NSF_EMU_APU_ONLY
+	{
+		if ( fme7 && i < Nes_Fme7_Apu::osc_count )
+		{
+			fme7->osc_output( i, buf );
+			return;
+		}
+		
+		if ( vrc6 )
+		{
+			if ( i < Nes_Vrc6_Apu::osc_count )
+			{
+				// put saw first
+				if ( --i < 0 )
+					i = 2;
+				vrc6->osc_output( i, buf );
+				return;
+			}
+			i -= Nes_Vrc6_Apu::osc_count;
+		}
+		
+		if ( namco && i < Nes_Namco_Apu::osc_count )
+		{
+			namco->osc_output( i, buf );
+			return;
+		}
+	}
+	#endif
+}
+
+// Emulation
+
+// see nes_cpu_io.h for read/write functions
+
+void Nsf_Emu::cpu_write_misc( nes_addr_t addr, int data )
+{
+	#if !NSF_EMU_APU_ONLY
+	{
+		if ( namco )
+		{
+			switch ( addr )
+			{
+			case Nes_Namco_Apu::data_reg_addr:
+				namco->write_data( time(), data );
+				return;
+			
+			case Nes_Namco_Apu::addr_reg_addr:
+				namco->write_addr( data );
+				return;
+			}
+		}
+		
+		if ( addr >= Nes_Fme7_Apu::latch_addr && fme7 )
+		{
+			switch ( addr & Nes_Fme7_Apu::addr_mask )
+			{
+			case Nes_Fme7_Apu::latch_addr:
+				fme7->write_latch( data );
+				return;
+			
+			case Nes_Fme7_Apu::data_addr:
+				fme7->write_data( time(), data );
+				return;
+			}
+		}
+		
+		if ( vrc6 )
+		{
+			unsigned reg = addr & (Nes_Vrc6_Apu::addr_step - 1);
+			unsigned osc = unsigned (addr - Nes_Vrc6_Apu::base_addr) / Nes_Vrc6_Apu::addr_step;
+			if ( osc < Nes_Vrc6_Apu::osc_count && reg < Nes_Vrc6_Apu::reg_count )
+			{
+				vrc6->write_osc( time(), osc, reg, data );
+				return;
+			}
+		}
+	}
+	#endif
+	
+	// unmapped write
+	
+	#ifndef NDEBUG
+	{
+		// some games write to $8000 and $8001 repeatedly
+		if ( addr == 0x8000 || addr == 0x8001 ) return;
+		
+		// probably namco sound mistakenly turned on in mck
+		if ( addr == 0x4800 || addr == 0xF800 ) return;
+		
+		// memory mapper?
+		if ( addr == 0xFFF8 ) return;
+		
+		debug_printf( "write_unmapped( 0x%04X, 0x%02X )\n", (unsigned) addr, (unsigned) data );
+	}
+	#endif
+}
+
+blargg_err_t Nsf_Emu::start_track_( int track )
+{
+	RETURN_ERR( Classic_Emu::start_track_( track ) );
+	
+	memset( low_mem, 0, sizeof low_mem );
+	memset( sram,    0, sizeof sram );
+	
+	cpu::reset( unmapped_code ); // also maps low_mem
+	cpu::map_code( sram_addr, sizeof sram, sram );
+	for ( int i = 0; i < bank_count; ++i )
+		cpu_write( bank_select_addr + i, initial_banks [i] );
+	
+	apu.reset( pal_only, (header_.speed_flags & 0x20) ? 0x3F : 0 );
+	apu.write_register( 0, 0x4015, 0x0F );
+	apu.write_register( 0, 0x4017, (header_.speed_flags & 0x10) ? 0x80 : 0 );
+	#if !NSF_EMU_APU_ONLY
+	{
+		if ( namco ) namco->reset();
+		if ( vrc6  ) vrc6 ->reset();
+		if ( fme7  ) fme7 ->reset();
+	}
+	#endif
+	
+	play_ready = 4;
+	play_extra = 0;
+	next_play = play_period / clock_divisor;
+	
+	saved_state.pc = badop_addr;
+	low_mem [0x1FF] = (badop_addr - 1) >> 8;
+	low_mem [0x1FE] = (badop_addr - 1) & 0xFF;
+	r.sp = 0xFD;
+	r.pc = init_addr;
+	r.a  = track;
+	r.x  = pal_only;
+	
+	return 0;
+}
+
+blargg_err_t Nsf_Emu::run_clocks( blip_time_t& duration, int )
+{
+	set_time( 0 );
+	while ( time() < duration )
+	{
+		nes_time_t end = min( (blip_time_t) next_play, duration );
+		end = min( end, time() + 32767 ); // allows CPU to use 16-bit time delta
+		if ( cpu::run( end ) )
+		{
+			if ( r.pc != badop_addr )
+			{
+				set_warning( "Emulation error (illegal instruction)" );
+				r.pc++;
+			}
+			else
+			{
+				play_ready = 1;
+				if ( saved_state.pc != badop_addr )
+				{
+					cpu::r = saved_state;
+					saved_state.pc = badop_addr;
+				}
+				else
+				{
+					set_time( end );
+				}
+			}
+		}
+		
+		if ( time() >= next_play )
+		{
+			nes_time_t period = (play_period + play_extra) / clock_divisor;
+			play_extra = play_period - period * clock_divisor;
+			next_play += period;
+			if ( play_ready && !--play_ready )
+			{
+				check( saved_state.pc == badop_addr );
+				if ( r.pc != badop_addr )
+					saved_state = cpu::r;
+				
+				r.pc = play_addr;
+				low_mem [0x100 + r.sp--] = (badop_addr - 1) >> 8;
+				low_mem [0x100 + r.sp--] = (badop_addr - 1) & 0xFF;
+				GME_FRAME_HOOK( this );
+			}
+		}
+	}
+	
+	if ( cpu::error_count() )
+	{
+		cpu::clear_error_count();
+		set_warning( "Emulation error (illegal instruction)" );
+	}
+	
+	duration = time();
+	next_play -= duration;
+	check( next_play >= 0 );
+	if ( next_play < 0 )
+		next_play = 0;
+	
+	apu.end_frame( duration );
+	
+	#if !NSF_EMU_APU_ONLY
+	{
+		if ( namco ) namco->end_frame( duration );
+		if ( vrc6  ) vrc6 ->end_frame( duration );
+		if ( fme7  ) fme7 ->end_frame( duration );
+	}
+	#endif
+	
+	return 0;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nsf_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Nsf_Emu.h
new file mode 100644
index 00000000..6b213529
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nsf_Emu.h
@@ -0,0 +1,106 @@
+// Nintendo NES/Famicom NSF music file emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef NSF_EMU_H
+#define NSF_EMU_H
+
+#include "Classic_Emu.h"
+#include "Nes_Apu.h"
+#include "Nes_Cpu.h"
+
+class Nsf_Emu : private Nes_Cpu, public Classic_Emu {
+	typedef Nes_Cpu cpu;
+public:
+	// Equalizer profiles for US NES and Japanese Famicom
+	static equalizer_t const nes_eq;
+	static equalizer_t const famicom_eq;
+	
+	// NSF file header
+	enum { header_size = 0x80 };
+	struct header_t
+	{
+		char tag [5];
+		byte vers;
+		byte track_count;
+		byte first_track;
+		byte load_addr [2];
+		byte init_addr [2];
+		byte play_addr [2];
+		char game [32];
+		char author [32];
+		char copyright [32];
+		byte ntsc_speed [2];
+		byte banks [8];
+		byte pal_speed [2];
+		byte speed_flags;
+		byte chip_flags;
+		byte unused [4];
+	};
+	
+	// Header for currently loaded file
+	header_t const& header() const { return header_; }
+	
+	static gme_type_t static_type() { return gme_nsf_type; }
+	
+public:
+	// deprecated
+	Music_Emu::load;
+	blargg_err_t load( header_t const& h, Data_Reader& in ) // use Remaining_Reader
+			{ return load_remaining_( &h, sizeof h, in ); }
+
+public:
+	Nsf_Emu();
+	~Nsf_Emu();
+	Nes_Apu* apu_() { return &apu; }
+protected:
+	blargg_err_t track_info_( track_info_t*, int track ) const;
+	blargg_err_t load_( Data_Reader& );
+	blargg_err_t start_track_( int );
+	blargg_err_t run_clocks( blip_time_t&, int );
+	void set_tempo_( double );
+	void set_voice( int, Blip_Buffer*, Blip_Buffer*, Blip_Buffer* );
+	void update_eq( blip_eq_t const& );
+	void unload();
+protected:
+	enum { bank_count = 8 };
+	byte initial_banks [bank_count];
+	nes_addr_t init_addr;
+	nes_addr_t play_addr;
+	double clock_rate_;
+	bool pal_only;
+	
+	// timing
+	Nes_Cpu::registers_t saved_state;
+	nes_time_t next_play;
+	nes_time_t play_period;
+	int play_extra;
+	int play_ready;
+	
+	enum { rom_begin = 0x8000 };
+	enum { bank_select_addr = 0x5FF8 };
+	enum { bank_size = 0x1000 };
+	Rom_Data<bank_size> rom;
+	
+public: private: friend class Nes_Cpu;
+	void cpu_jsr( nes_addr_t );
+	int cpu_read( nes_addr_t );
+	void cpu_write( nes_addr_t, int );
+	void cpu_write_misc( nes_addr_t, int );
+	enum { badop_addr = bank_select_addr };
+	
+private:
+	class Nes_Namco_Apu* namco;
+	class Nes_Vrc6_Apu*  vrc6;
+	class Nes_Fme7_Apu*  fme7;
+	Nes_Apu apu;
+	static int pcm_read( void*, nes_addr_t );
+	blargg_err_t init_sound();
+	
+	header_t header_;
+	
+	enum { sram_addr = 0x6000 };
+	byte sram [0x2000];
+	byte unmapped_code [Nes_Cpu::page_size + 8];
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nsfe_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Nsfe_Emu.cpp
new file mode 100644
index 00000000..eb8cdadf
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nsfe_Emu.cpp
@@ -0,0 +1,332 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Nsfe_Emu.h"
+
+#include "blargg_endian.h"
+#include <string.h>
+#include <ctype.h>
+
+/* Copyright (C) 2005-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+Nsfe_Info::Nsfe_Info() { playlist_disabled = false; }
+
+Nsfe_Info::~Nsfe_Info() { }
+
+inline void Nsfe_Info::unload()
+{
+	track_name_data.clear();
+	track_names.clear();
+	playlist.clear();
+	track_times.clear();
+}
+
+// TODO: if no playlist, treat as if there is a playlist that is just 1,2,3,4,5... ?
+void Nsfe_Info::disable_playlist( bool b )
+{
+	playlist_disabled = b;
+	info.track_count = playlist.size();
+	if ( !info.track_count || playlist_disabled )
+		info.track_count = actual_track_count_;
+}
+
+int Nsfe_Info::remap_track( int track ) const
+{
+	if ( !playlist_disabled && (unsigned) track < playlist.size() )
+		track = playlist [track];
+	return track;
+}
+
+// Read multiple strings and separate into individual strings
+static blargg_err_t read_strs( Data_Reader& in, long size, blargg_vector<char>& chars,
+		blargg_vector<const char*>& strs )
+{
+	RETURN_ERR( chars.resize( size + 1 ) );
+	chars [size] = 0; // in case last string doesn't have terminator
+	RETURN_ERR( in.read( &chars [0], size ) );
+	
+	RETURN_ERR( strs.resize( 128 ) );
+	int count = 0;
+	for ( int i = 0; i < size; i++ )
+	{
+		if ( (int) strs.size() <= count )
+			RETURN_ERR( strs.resize( count * 2 ) );
+		strs [count++] = &chars [i];
+		while ( i < size && chars [i] )
+			i++;
+	}
+	
+	return strs.resize( count );
+}
+
+// Copy in to out, where out has out_max characters allocated. Truncate to
+// out_max - 1 characters.
+static void copy_str( const char* in, char* out, int out_max )
+{
+	out [out_max - 1] = 0;
+	strncpy( out, in, out_max - 1 );
+}
+
+struct nsfe_info_t
+{
+	byte load_addr [2];
+	byte init_addr [2];
+	byte play_addr [2];
+	byte speed_flags;
+	byte chip_flags;
+	byte track_count;
+	byte first_track;
+	byte unused [6];
+};
+
+blargg_err_t Nsfe_Info::load( Data_Reader& in, Nsf_Emu* nsf_emu )
+{
+	int const nsfe_info_size = 16;
+	assert( offsetof (nsfe_info_t,unused [6]) == nsfe_info_size );
+	
+	// check header
+	byte signature [4];
+	blargg_err_t err = in.read( signature, sizeof signature );
+	if ( err )
+		return (err == in.eof_error ? gme_wrong_file_type : err);
+	if ( memcmp( signature, "NSFE", 4 ) )
+		return gme_wrong_file_type;
+	
+	// free previous info
+	track_name_data.clear();
+	track_names.clear();
+	playlist.clear();
+	track_times.clear();
+	
+	// default nsf header
+	static const Nsf_Emu::header_t base_header =
+	{
+		{'N','E','S','M','\x1A'},// tag
+		1,                  // version
+		1, 1,               // track count, first track
+		{0,0},{0,0},{0,0},  // addresses
+		"","","",           // strings
+		{0x1A, 0x41},       // NTSC rate
+		{0,0,0,0,0,0,0,0},  // banks
+		{0x20, 0x4E},       // PAL rate
+		0, 0,               // flags
+		{0,0,0,0}           // unused
+	};
+	Nsf_Emu::header_t& header = info;
+	header = base_header;
+	
+	// parse tags
+	int phase = 0;
+	while ( phase != 3 )
+	{
+		// read size and tag
+		byte block_header [2] [4];
+		RETURN_ERR( in.read( block_header, sizeof block_header ) );
+		blargg_long size = get_le32( block_header [0] );
+		blargg_long tag  = get_le32( block_header [1] );
+		
+		//debug_printf( "tag: %c%c%c%c\n", char(tag), char(tag>>8), char(tag>>16), char(tag>>24) );
+		
+		switch ( tag )
+		{
+			case BLARGG_4CHAR('O','F','N','I'): {
+				check( phase == 0 );
+				if ( size < 8 )
+					return "Corrupt file";
+				
+				nsfe_info_t finfo;
+				finfo.track_count = 1;
+				finfo.first_track = 0;
+				
+				RETURN_ERR( in.read( &finfo, min( size, (blargg_long) nsfe_info_size ) ) );
+				if ( size > nsfe_info_size )
+					RETURN_ERR( in.skip( size - nsfe_info_size ) );
+				phase = 1;
+				info.speed_flags = finfo.speed_flags;
+				info.chip_flags  = finfo.chip_flags;
+				info.track_count = finfo.track_count;
+				this->actual_track_count_ = finfo.track_count;
+				info.first_track = finfo.first_track;
+				memcpy( info.load_addr, finfo.load_addr, 2 * 3 );
+				break;
+			}
+			
+			case BLARGG_4CHAR('K','N','A','B'):
+				if ( size > (int) sizeof info.banks )
+					return "Corrupt file";
+				RETURN_ERR( in.read( info.banks, size ) );
+				break;
+			
+			case BLARGG_4CHAR('h','t','u','a'): {
+				blargg_vector<char> chars;
+				blargg_vector<const char*> strs;
+				RETURN_ERR( read_strs( in, size, chars, strs ) );
+				int n = strs.size();
+				
+				if ( n > 3 )
+					copy_str( strs [3], info.dumper, sizeof info.dumper );
+				
+				if ( n > 2 )
+					copy_str( strs [2], info.copyright, sizeof info.copyright );
+				
+				if ( n > 1 )
+					copy_str( strs [1], info.author, sizeof info.author );
+				
+				if ( n > 0 )
+					copy_str( strs [0], info.game, sizeof info.game );
+				
+				break;
+			}
+			
+			case BLARGG_4CHAR('e','m','i','t'):
+				RETURN_ERR( track_times.resize( size / 4 ) );
+				RETURN_ERR( in.read( track_times.begin(), track_times.size() * 4 ) );
+				break;
+			
+			case BLARGG_4CHAR('l','b','l','t'):
+				RETURN_ERR( read_strs( in, size, track_name_data, track_names ) );
+				break;
+			
+			case BLARGG_4CHAR('t','s','l','p'):
+				RETURN_ERR( playlist.resize( size ) );
+				RETURN_ERR( in.read( &playlist [0], size ) );
+				break;
+			
+			case BLARGG_4CHAR('A','T','A','D'): {
+				check( phase == 1 );
+				phase = 2;
+				if ( !nsf_emu )
+				{
+					RETURN_ERR( in.skip( size ) );
+				}
+				else
+				{
+					Subset_Reader sub( &in, size ); // limit emu to nsf data
+					Remaining_Reader rem( &header, Nsf_Emu::header_size, &sub );
+					RETURN_ERR( nsf_emu->load( rem ) );
+					check( rem.remain() == 0 );
+				}
+				break;
+			}
+			
+			case BLARGG_4CHAR('D','N','E','N'):
+				check( phase == 2 );
+				phase = 3;
+				break;
+			
+			default:
+				// tags that can be skipped start with a lowercase character
+				check( islower( (tag >> 24) & 0xFF ) );
+				RETURN_ERR( in.skip( size ) );
+				break;
+		}
+	}
+	
+	return 0;
+}
+
+blargg_err_t Nsfe_Info::track_info_( track_info_t* out, int track ) const
+{
+	int remapped = remap_track( track );
+	if ( (unsigned) remapped < track_times.size() )
+	{
+		long length = (BOOST::int32_t) get_le32( track_times [remapped] );
+		if ( length > 0 )
+			out->length = length;
+	}
+	if ( (unsigned) remapped < track_names.size() )
+		Gme_File::copy_field_( out->song, track_names [remapped] );
+	
+	GME_COPY_FIELD( info, out, game );
+	GME_COPY_FIELD( info, out, author );
+	GME_COPY_FIELD( info, out, copyright );
+	GME_COPY_FIELD( info, out, dumper );
+	return 0;
+}
+
+Nsfe_Emu::Nsfe_Emu()
+{
+	loading = false;
+	set_type( gme_nsfe_type );
+}
+
+Nsfe_Emu::~Nsfe_Emu() { }
+
+void Nsfe_Emu::unload()
+{
+	if ( !loading )
+		info.unload(); // TODO: extremely hacky!
+	Nsf_Emu::unload();
+}
+
+blargg_err_t Nsfe_Emu::track_info_( track_info_t* out, int track ) const
+{
+	return info.track_info_( out, track );
+}
+
+struct Nsfe_File : Gme_Info_
+{
+	Nsfe_Info info;
+	
+	Nsfe_File() { set_type( gme_nsfe_type ); }
+	
+	blargg_err_t load_( Data_Reader& in )
+	{
+		RETURN_ERR( info.load( in, 0 ) );
+		info.disable_playlist( false );
+		set_track_count( info.info.track_count );
+		return 0;
+	}
+	
+	blargg_err_t track_info_( track_info_t* out, int track ) const
+	{
+		return info.track_info_( out, track );
+	}
+};
+
+static Music_Emu* new_nsfe_emu () { return BLARGG_NEW Nsfe_Emu ; }
+static Music_Emu* new_nsfe_file() { return BLARGG_NEW Nsfe_File; }
+
+static gme_type_t_ const gme_nsfe_type_ = { "Nintendo NES", 0, &new_nsfe_emu, &new_nsfe_file, "NSFE", 1 };
+gme_type_t const gme_nsfe_type = &gme_nsfe_type_;
+
+
+blargg_err_t Nsfe_Emu::load_( Data_Reader& in )
+{
+	if ( loading )
+		return Nsf_Emu::load_( in );
+	
+	// TODO: this hacky recursion-avoidance could have subtle problems
+	loading = true;
+	blargg_err_t err = info.load( in, this );
+	loading = false;
+	disable_playlist( false );
+	return err;
+}
+
+void Nsfe_Emu::disable_playlist( bool b )
+{
+	info.disable_playlist( b );
+	set_track_count( info.info.track_count );
+}
+
+void Nsfe_Emu::clear_playlist_()
+{
+	disable_playlist();
+	Nsf_Emu::clear_playlist_();
+}
+
+blargg_err_t Nsfe_Emu::start_track_( int track )
+{
+	return Nsf_Emu::start_track_( info.remap_track( track ) );
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Nsfe_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Nsfe_Emu.h
new file mode 100644
index 00000000..7971e47b
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Nsfe_Emu.h
@@ -0,0 +1,68 @@
+// Nintendo NES/Famicom NSFE music file emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef NSFE_EMU_H
+#define NSFE_EMU_H
+
+#include "blargg_common.h"
+#include "Nsf_Emu.h"
+
+// Allows reading info from NSFE file without creating emulator
+class Nsfe_Info {
+public:
+	blargg_err_t load( Data_Reader&, Nsf_Emu* );
+	
+	struct info_t : Nsf_Emu::header_t
+	{
+		char game      [256];
+		char author    [256];
+		char copyright [256];
+		char dumper    [256];
+	} info;
+	
+	void disable_playlist( bool = true );
+	
+	blargg_err_t track_info_( track_info_t* out, int track ) const;
+	
+	int remap_track( int i ) const;
+	
+	void unload();
+	
+	Nsfe_Info();
+	~Nsfe_Info();
+private:
+	blargg_vector<char> track_name_data;
+	blargg_vector<const char*> track_names;
+	blargg_vector<unsigned char> playlist;
+	blargg_vector<char [4]> track_times;
+	int actual_track_count_;
+	bool playlist_disabled;
+};
+
+class Nsfe_Emu : public Nsf_Emu {
+public:
+	static gme_type_t static_type() { return gme_nsfe_type; }
+	
+public:
+	// deprecated
+	struct header_t { char tag [4]; };
+	Music_Emu::load;
+	blargg_err_t load( header_t const& h, Data_Reader& in ) // use Remaining_Reader
+			{ return load_remaining_( &h, sizeof h, in ); }
+	void disable_playlist( bool = true ); // use clear_playlist()
+
+public:
+	Nsfe_Emu();
+	~Nsfe_Emu();
+protected:
+	blargg_err_t load_( Data_Reader& );
+	blargg_err_t track_info_( track_info_t*, int track ) const;
+	blargg_err_t start_track_( int );
+	void unload();
+	void clear_playlist_();
+private:
+	Nsfe_Info info;
+	bool loading;
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Sap_Apu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Sap_Apu.cpp
new file mode 100644
index 00000000..fa9bc4b1
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Sap_Apu.cpp
@@ -0,0 +1,334 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Sap_Apu.h"
+
+#include <string.h>
+
+/* Copyright (C) 2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+int const max_frequency = 12000; // pure waves above this frequency are silenced
+
+static void gen_poly( blargg_ulong mask, int count, byte* out )
+{
+	blargg_ulong n = 1;
+	do
+	{
+		int bits = 0;
+		int b = 0;
+		do
+		{
+			// implemented using "Galios configuration"
+			bits |= (n & 1) << b;
+			n = (n >> 1) ^ (mask & -(n & 1));
+		}
+		while ( b++ < 7 );
+		*out++ = bits;
+	}
+	while ( --count );
+}
+
+// poly5
+int const poly5_len = (1 <<  5) - 1;
+blargg_ulong const poly5_mask = (1UL << poly5_len) - 1;
+blargg_ulong const poly5 = 0x167C6EA1;
+
+inline blargg_ulong run_poly5( blargg_ulong in, int shift )
+{
+	return (in << shift & poly5_mask) | (in >> (poly5_len - shift));
+}
+
+#define POLY_MASK( width, tap1, tap2 ) \
+	((1UL << (width - 1 - tap1)) | (1UL << (width - 1 - tap2)))
+
+Sap_Apu_Impl::Sap_Apu_Impl()
+{
+	gen_poly( POLY_MASK(  4, 1, 0 ), sizeof poly4,  poly4  );
+	gen_poly( POLY_MASK(  9, 5, 0 ), sizeof poly9,  poly9  );
+	gen_poly( POLY_MASK( 17, 5, 0 ), sizeof poly17, poly17 );
+	
+	if ( 0 ) // comment out to recauculate poly5 constant
+	{
+		byte poly5 [4];
+		gen_poly( POLY_MASK(  5, 2, 0 ), sizeof poly5,  poly5  );
+		blargg_ulong n = poly5 [3] * 0x1000000L + poly5 [2] * 0x10000L + 
+				poly5 [1] * 0x100L + poly5 [0];
+		blargg_ulong rev = n & 1;
+		for ( int i = 1; i < poly5_len; i++ )
+			rev |= (n >> i & 1) << (poly5_len - i);
+		debug_printf( "poly5: 0x%08lX\n", rev );
+	}
+}
+
+Sap_Apu::Sap_Apu()
+{
+	impl = 0;
+	for ( int i = 0; i < osc_count; i++ )
+		osc_output( i, 0 );
+}
+
+void Sap_Apu::reset( Sap_Apu_Impl* new_impl )
+{
+	impl      = new_impl;
+	last_time = 0;
+	poly5_pos = 0;
+	poly4_pos = 0;
+	polym_pos = 0;
+	control   = 0;
+	
+	for ( int i = 0; i < osc_count; i++ )
+		memset( &oscs [i], 0, offsetof (osc_t,output) );
+}
+
+inline void Sap_Apu::calc_periods()
+{
+	 // 15/64 kHz clock
+	int divider = 28;
+	if ( this->control & 1 )
+		divider = 114;
+	
+	for ( int i = 0; i < osc_count; i++ )
+	{
+		osc_t* const osc = &oscs [i];
+		
+		int const osc_reload = osc->regs [0]; // cache
+		blargg_long period = (osc_reload + 1) * divider;
+		static byte const fast_bits [osc_count] = { 1 << 6, 1 << 4, 1 << 5, 1 << 3 };
+		if ( this->control & fast_bits [i] )
+		{
+			period = osc_reload + 4;
+			if ( i & 1 )
+			{
+				period = osc_reload * 0x100L + osc [-1].regs [0] + 7;
+				if ( !(this->control & fast_bits [i - 1]) )
+					period = (period - 6) * divider;
+				
+				if ( (osc [-1].regs [1] & 0x1F) > 0x10 )
+					debug_printf( "Use of slave channel in 16-bit mode not supported\n" );
+			}
+		}
+		osc->period = period;
+	}
+}
+
+void Sap_Apu::run_until( blip_time_t end_time )
+{
+	calc_periods();
+	Sap_Apu_Impl* const impl = this->impl; // cache
+	
+	// 17/9-bit poly selection
+	byte const* polym = impl->poly17;
+	int polym_len = poly17_len;
+	if ( this->control & 0x80 )
+	{
+		polym_len = poly9_len;
+		polym = impl->poly9;
+	}
+	polym_pos %= polym_len;
+	
+	for ( int i = 0; i < osc_count; i++ )
+	{
+		osc_t* const osc = &oscs [i];
+		blip_time_t time = last_time + osc->delay;
+		blip_time_t const period = osc->period;
+		
+		// output
+		Blip_Buffer* output = osc->output;
+		if ( output )
+		{
+			output->set_modified();
+			
+			int const osc_control = osc->regs [1]; // cache
+			int volume = (osc_control & 0x0F) * 2;
+			if ( !volume || osc_control & 0x10 || // silent, DAC mode, or inaudible frequency
+					((osc_control & 0xA0) == 0xA0 && period < 1789773 / 2 / max_frequency) )
+			{
+				if ( !(osc_control & 0x10) )
+					volume >>= 1; // inaudible frequency = half volume
+				
+				int delta = volume - osc->last_amp;
+				if ( delta )
+				{
+					osc->last_amp = volume;
+					impl->synth.offset( last_time, delta, output );
+				}
+				
+				// TODO: doesn't maintain high pass flip-flop (very minor issue)
+			}
+			else
+			{
+				// high pass
+				static byte const hipass_bits [osc_count] = { 1 << 2, 1 << 1, 0, 0 };
+				blip_time_t period2 = 0; // unused if no high pass
+				blip_time_t time2 = end_time;
+				if ( this->control & hipass_bits [i] )
+				{
+					period2 = osc [2].period;
+					time2 = last_time + osc [2].delay;
+					if ( osc->invert )
+					{
+						// trick inner wave loop into inverting output
+						osc->last_amp -= volume;
+						volume = -volume;
+					}
+				}
+				
+				if ( time < end_time || time2 < end_time )
+				{
+					// poly source
+					static byte const poly1 [] = { 0x55, 0x55 }; // square wave
+					byte const* poly = poly1;
+					int poly_len = 8 * sizeof poly1; // can be just 2 bits, but this is faster
+					int poly_pos = osc->phase & 1;
+					int poly_inc = 1;
+					if ( !(osc_control & 0x20) )
+					{
+						poly     = polym;
+						poly_len = polym_len;
+						poly_pos = polym_pos;
+						if ( osc_control & 0x40 )
+						{
+							poly     = impl->poly4;
+							poly_len = poly4_len;
+							poly_pos = poly4_pos;
+						}
+						poly_inc = period % poly_len;
+						poly_pos = (poly_pos + osc->delay) % poly_len;
+					}
+					poly_inc -= poly_len; // allows more optimized inner loop below
+					
+					// square/poly5 wave
+					blargg_ulong wave = poly5;
+					check( poly5 & 1 ); // low bit is set for pure wave
+					int poly5_inc = 0;
+					if ( !(osc_control & 0x80) )
+					{
+						wave = run_poly5( wave, (osc->delay + poly5_pos) % poly5_len );
+						poly5_inc = period % poly5_len;
+					}
+					
+					// Run wave and high pass interleved with each catching up to the other.
+					// Disabled high pass has no performance effect since inner wave loop
+					// makes no compromise for high pass, and only runs once in that case.
+					int osc_last_amp = osc->last_amp;
+					do
+					{
+						// run high pass
+						if ( time2 < time )
+						{
+							int delta = -osc_last_amp;
+							if ( volume < 0 )
+								delta += volume;
+							if ( delta )
+							{
+								osc_last_amp += delta - volume;
+								volume = -volume;
+								impl->synth.offset( time2, delta, output );
+							}
+						}
+						while ( time2 <= time ) // must advance *past* time to avoid hang
+							time2 += period2;
+						
+						// run wave
+						blip_time_t end = end_time;
+						if ( end > time2 )
+							end = time2;
+						while ( time < end )
+						{
+							if ( wave & 1 )
+							{
+								int amp = volume & -(poly [poly_pos >> 3] >> (poly_pos & 7) & 1);
+								if ( (poly_pos += poly_inc) < 0 )
+									poly_pos += poly_len;
+								int delta = amp - osc_last_amp;
+								if ( delta )
+								{
+									osc_last_amp = amp;
+									impl->synth.offset( time, delta, output );
+								}
+							}
+							wave = run_poly5( wave, poly5_inc );
+							time += period;
+						}
+					}
+					while ( time < end_time || time2 < end_time );
+					
+					osc->phase = poly_pos;
+					osc->last_amp = osc_last_amp;
+				}
+				
+				osc->invert = 0;
+				if ( volume < 0 )
+				{
+					// undo inversion trickery
+					osc->last_amp -= volume;
+					osc->invert = 1;
+				}
+			}
+		}
+		
+		// maintain divider
+		blip_time_t remain = end_time - time;
+		if ( remain > 0 )
+		{
+			blargg_long count = (remain + period - 1) / period;
+			osc->phase ^= count;
+			time += count * period;
+		}
+		osc->delay = time - end_time;
+	}
+	
+	// advance polies
+	blip_time_t duration = end_time - last_time;
+	last_time = end_time;
+	poly4_pos = (poly4_pos + duration) % poly4_len;
+	poly5_pos = (poly5_pos + duration) % poly5_len;
+	polym_pos += duration; // will get %'d on next call
+}
+
+void Sap_Apu::write_data( blip_time_t time, unsigned addr, int data )
+{
+	run_until( time );
+	int i = (addr ^ 0xD200) >> 1;
+	if ( i < osc_count )
+	{
+		oscs [i].regs [addr & 1] = data;
+	}
+	else if ( addr == 0xD208 )
+	{
+		control = data;
+	}
+	else if ( addr == 0xD209 )
+	{
+		oscs [0].delay = 0;
+		oscs [1].delay = 0;
+		oscs [2].delay = 0;
+		oscs [3].delay = 0;
+	}
+	/*
+	// TODO: are polynomials reset in this case?
+	else if ( addr == 0xD20F )
+	{
+		if ( (data & 3) == 0 )
+			polym_pos = 0;
+	}
+	*/
+}
+
+void Sap_Apu::end_frame( blip_time_t end_time )
+{
+	if ( end_time > last_time )
+		run_until( end_time );
+	
+	last_time -= end_time;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Sap_Apu.h b/plugins/gme/game-music-emu-0.5.5/gme/Sap_Apu.h
new file mode 100644
index 00000000..a573499c
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Sap_Apu.h
@@ -0,0 +1,77 @@
+// Atari POKEY sound chip emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef SAP_APU_H
+#define SAP_APU_H
+
+#include "blargg_common.h"
+#include "Blip_Buffer.h"
+
+class Sap_Apu_Impl;
+
+class Sap_Apu {
+public:
+	enum { osc_count = 4 };
+	void osc_output( int index, Blip_Buffer* );
+	
+	void reset( Sap_Apu_Impl* );
+	
+	enum { start_addr = 0xD200 };
+	enum { end_addr   = 0xD209 };
+	void write_data( blip_time_t, unsigned addr, int data );
+	
+	void end_frame( blip_time_t );
+	
+public:
+	Sap_Apu();
+private:
+	struct osc_t
+	{
+		unsigned char regs [2];
+		unsigned char phase;
+		unsigned char invert;
+		int last_amp;
+		blip_time_t delay;
+		blip_time_t period; // always recalculated before use; here for convenience
+		Blip_Buffer* output;
+	};
+	osc_t oscs [osc_count];
+	Sap_Apu_Impl* impl;
+	blip_time_t last_time;
+	int poly5_pos;
+	int poly4_pos;
+	int polym_pos;
+	int control;
+	
+	void calc_periods();
+	void run_until( blip_time_t );
+	
+	enum { poly4_len  = (1L <<  4) - 1 };
+	enum { poly9_len  = (1L <<  9) - 1 };
+	enum { poly17_len = (1L << 17) - 1 };
+	friend class Sap_Apu_Impl;
+};
+
+// Common tables and Blip_Synth that can be shared among multiple Sap_Apu objects
+class Sap_Apu_Impl {
+public:
+	Blip_Synth<blip_good_quality,1> synth;
+	
+	Sap_Apu_Impl();
+	void volume( double d ) { synth.volume( 1.0 / Sap_Apu::osc_count / 30 * d ); }
+	
+private:
+	typedef unsigned char byte;
+	byte poly4  [Sap_Apu::poly4_len  / 8 + 1];
+	byte poly9  [Sap_Apu::poly9_len  / 8 + 1];
+	byte poly17 [Sap_Apu::poly17_len / 8 + 1];
+	friend class Sap_Apu;
+};
+
+inline void Sap_Apu::osc_output( int i, Blip_Buffer* b )
+{
+	assert( (unsigned) i < osc_count );
+	oscs [i].output = b;
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Sap_Cpu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Sap_Cpu.cpp
new file mode 100644
index 00000000..35e1b511
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Sap_Cpu.cpp
@@ -0,0 +1,1011 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Sap_Cpu.h"
+
+#include <limits.h>
+#include "blargg_endian.h"
+
+//#include "nes_cpu_log.h"
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#define FLUSH_TIME()    (void) (s.time = s_time)
+#define CACHE_TIME()    (void) (s_time = s.time)
+
+#include "sap_cpu_io.h"
+
+#ifndef CPU_DONE
+	#define CPU_DONE( cpu, time, result_out )   { result_out = -1; }
+#endif
+
+#include "blargg_source.h"
+
+int const st_n = 0x80;
+int const st_v = 0x40;
+int const st_r = 0x20;
+int const st_b = 0x10;
+int const st_d = 0x08;
+int const st_i = 0x04;
+int const st_z = 0x02;
+int const st_c = 0x01;
+
+void Sap_Cpu::reset( void* new_mem )
+{
+	check( state == &state_ );
+	state = &state_;
+	mem = (uint8_t*) new_mem;
+	r.status = st_i;
+	r.sp = 0xFF;
+	r.pc = 0;
+	r.a  = 0;
+	r.x  = 0;
+	r.y  = 0;
+	state_.time = 0;
+	state_.base = 0;
+	irq_time_ = future_sap_time;
+	end_time_ = future_sap_time;
+	
+	blargg_verify_byte_order();
+}
+
+#define TIME                    (s_time + s.base)
+#define READ( addr )            CPU_READ( this, (addr), TIME )
+#define WRITE( addr, data )     {CPU_WRITE( this, (addr), (data), TIME );}
+#define READ_LOW( addr )        (mem [int (addr)])
+#define WRITE_LOW( addr, data ) (void) (READ_LOW( addr ) = (data))
+#define READ_PROG( addr )       (READ_LOW( addr ))
+
+#define SET_SP( v )     (sp = ((v) + 1) | 0x100)
+#define GET_SP()        ((sp - 1) & 0xFF)
+#define PUSH( v )       ((sp = (sp - 1) | 0x100), WRITE_LOW( sp, v ))
+
+// even on x86, using short and unsigned char was slower
+typedef int         fint16;
+typedef unsigned    fuint16;
+typedef unsigned    fuint8;
+typedef blargg_long fint32;
+
+bool Sap_Cpu::run( sap_time_t end_time )
+{
+	bool illegal_encountered = false;
+	set_end_time( end_time );
+	state_t s = this->state_;
+	this->state = &s;
+	fint32 s_time = s.time;
+	uint8_t* const mem = this->mem; // cache
+	
+	// registers
+	fuint16 pc = r.pc;
+	fuint8 a = r.a;
+	fuint8 x = r.x;
+	fuint8 y = r.y;
+	fuint16 sp;
+	SET_SP( r.sp );
+	
+	// status flags
+	#define IS_NEG (nz & 0x8080)
+	
+	#define CALC_STATUS( out ) do {\
+		out = status & (st_v | st_d | st_i);\
+		out |= ((nz >> 8) | nz) & st_n;\
+		out |= c >> 8 & st_c;\
+		if ( !(nz & 0xFF) ) out |= st_z;\
+	} while ( 0 )
+
+	#define SET_STATUS( in ) do {\
+		status = in & (st_v | st_d | st_i);\
+		nz = in << 8;\
+		c = nz;\
+		nz |= ~in & st_z;\
+	} while ( 0 )
+	
+	fuint8 status;
+	fuint16 c;  // carry set if (c & 0x100) != 0
+	fuint16 nz; // Z set if (nz & 0xFF) == 0, N set if (nz & 0x8080) != 0
+	{
+		fuint8 temp = r.status;
+		SET_STATUS( temp );
+	}
+	
+	goto loop;
+dec_clock_loop:
+	s_time--;
+loop:
+	
+	#ifndef NDEBUG
+	{
+		sap_time_t correct = end_time_;
+		if ( !(status & st_i) && correct > irq_time_ )
+			correct = irq_time_;
+		check( s.base == correct );
+	}
+	#endif
+	
+	check( (unsigned) GET_SP() < 0x100 );
+	check( (unsigned) a < 0x100 );
+	check( (unsigned) x < 0x100 );
+	check( (unsigned) y < 0x100 );
+	
+	fuint8 opcode = mem [pc];
+	pc++;
+	uint8_t const* instr = mem + pc;
+	
+	static uint8_t const clock_table [256] =
+	{// 0 1 2 3 4 5 6 7 8 9 A B C D E F
+		0,6,2,8,3,3,5,5,3,2,2,2,4,4,6,6,// 0
+		3,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,// 1
+		6,6,2,8,3,3,5,5,4,2,2,2,4,4,6,6,// 2
+		3,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,// 3
+		6,6,2,8,3,3,5,5,3,2,2,2,3,4,6,6,// 4
+		3,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,// 5
+		6,6,2,8,3,3,5,5,4,2,2,2,5,4,6,6,// 6
+		3,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,// 7
+		2,6,2,6,3,3,3,3,2,2,2,2,4,4,4,4,// 8
+		3,6,2,6,4,4,4,4,2,5,2,5,5,5,5,5,// 9
+		2,6,2,6,3,3,3,3,2,2,2,2,4,4,4,4,// A
+		3,5,2,5,4,4,4,4,2,4,2,4,4,4,4,4,// B
+		2,6,2,8,3,3,5,5,2,2,2,2,4,4,6,6,// C
+		3,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,// D
+		2,6,2,8,3,3,5,5,2,2,2,2,4,4,6,6,// E
+		3,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7 // F
+	}; // 0x00 was 7
+	
+	fuint16 data;
+	data = clock_table [opcode];
+	if ( (s_time += data) >= 0 )
+		goto possibly_out_of_time;
+almost_out_of_time:
+	
+	data = *instr;
+	
+	#ifdef NES_CPU_LOG_H
+		nes_cpu_log( "cpu_log", pc - 1, opcode, instr [0], instr [1] );
+	#endif
+	
+	switch ( opcode )
+	{
+possibly_out_of_time:
+		if ( s_time < (int) data )
+			goto almost_out_of_time;
+		s_time -= data;
+		goto out_of_time;
+
+// Macros
+
+#define GET_MSB()   (instr [1])
+#define ADD_PAGE()  (pc++, data += 0x100 * GET_MSB())
+#define GET_ADDR()  GET_LE16( instr )
+
+#define NO_PAGE_CROSSING( lsb )
+#define HANDLE_PAGE_CROSSING( lsb ) s_time += (lsb) >> 8;
+
+#define INC_DEC_XY( reg, n ) reg = uint8_t (nz = reg + n); goto loop;
+
+#define IND_Y( cross, out ) {\
+		fuint16 temp = READ_LOW( data ) + y;\
+		out = temp + 0x100 * READ_LOW( uint8_t (data + 1) );\
+		cross( temp );\
+	}
+	
+#define IND_X( out ) {\
+		fuint16 temp = data + x;\
+		out = 0x100 * READ_LOW( uint8_t (temp + 1) ) + READ_LOW( uint8_t (temp) );\
+	}
+	
+#define ARITH_ADDR_MODES( op )\
+case op - 0x04: /* (ind,x) */\
+	IND_X( data )\
+	goto ptr##op;\
+case op + 0x0C: /* (ind),y */\
+	IND_Y( HANDLE_PAGE_CROSSING, data )\
+	goto ptr##op;\
+case op + 0x10: /* zp,X */\
+	data = uint8_t (data + x);\
+case op + 0x00: /* zp */\
+	data = READ_LOW( data );\
+	goto imm##op;\
+case op + 0x14: /* abs,Y */\
+	data += y;\
+	goto ind##op;\
+case op + 0x18: /* abs,X */\
+	data += x;\
+ind##op:\
+	HANDLE_PAGE_CROSSING( data );\
+case op + 0x08: /* abs */\
+	ADD_PAGE();\
+ptr##op:\
+	FLUSH_TIME();\
+	data = READ( data );\
+	CACHE_TIME();\
+case op + 0x04: /* imm */\
+imm##op:
+
+// TODO: more efficient way to handle negative branch that wraps PC around
+#define BRANCH( cond )\
+{\
+	fint16 offset = (BOOST::int8_t) data;\
+	fuint16 extra_clock = (++pc & 0xFF) + offset;\
+	if ( !(cond) ) goto dec_clock_loop;\
+	pc += offset;\
+	s_time += extra_clock >> 8 & 1;\
+	goto loop;\
+}
+
+// Often-Used
+
+	case 0xB5: // LDA zp,x
+		a = nz = READ_LOW( uint8_t (data + x) );
+		pc++;
+		goto loop;
+	
+	case 0xA5: // LDA zp
+		a = nz = READ_LOW( data );
+		pc++;
+		goto loop;
+	
+	case 0xD0: // BNE
+		BRANCH( (uint8_t) nz );
+	
+	case 0x20: { // JSR
+		fuint16 temp = pc + 1;
+		pc = GET_ADDR();
+		WRITE_LOW( 0x100 | (sp - 1), temp >> 8 );
+		sp = (sp - 2) | 0x100;
+		WRITE_LOW( sp, temp );
+		goto loop;
+	}
+	
+	case 0x4C: // JMP abs
+		pc = GET_ADDR();
+		goto loop;
+	
+	case 0xE8: // INX
+		INC_DEC_XY( x, 1 )
+	
+	case 0x10: // BPL
+		BRANCH( !IS_NEG )
+	
+	ARITH_ADDR_MODES( 0xC5 ) // CMP
+		nz = a - data;
+		pc++;
+		c = ~nz;
+		nz &= 0xFF;
+		goto loop;
+	
+	case 0x30: // BMI
+		BRANCH( IS_NEG )
+	
+	case 0xF0: // BEQ
+		BRANCH( !(uint8_t) nz );
+	
+	case 0x95: // STA zp,x
+		data = uint8_t (data + x);
+	case 0x85: // STA zp
+		pc++;
+		WRITE_LOW( data, a );
+		goto loop;
+	
+	case 0xC8: // INY
+		INC_DEC_XY( y, 1 )
+
+	case 0xA8: // TAY
+		y  = a;
+		nz = a;
+		goto loop;
+	
+	case 0x98: // TYA
+		a  = y;
+		nz = y;
+		goto loop;
+	
+	case 0xAD:{// LDA abs
+		unsigned addr = GET_ADDR();
+		pc += 2;
+		nz = READ( addr );
+		a = nz;
+		goto loop;
+	}
+	
+	case 0x60: // RTS
+		pc = 1 + READ_LOW( sp );
+		pc += 0x100 * READ_LOW( 0x100 | (sp - 0xFF) );
+		sp = (sp - 0xFE) | 0x100;
+		goto loop;
+	
+	{
+		fuint16 addr;
+		
+	case 0x99: // STA abs,Y
+		addr = y + GET_ADDR();
+		pc += 2;
+		if ( addr <= 0x7FF )
+		{
+			WRITE_LOW( addr, a );
+			goto loop;
+		}
+		goto sta_ptr;
+	
+	case 0x8D: // STA abs
+		addr = GET_ADDR();
+		pc += 2;
+		if ( addr <= 0x7FF )
+		{
+			WRITE_LOW( addr, a );
+			goto loop;
+		}
+		goto sta_ptr;
+	
+	case 0x9D: // STA abs,X (slightly more common than STA abs)
+		addr = x + GET_ADDR();
+		pc += 2;
+		if ( addr <= 0x7FF )
+		{
+			WRITE_LOW( addr, a );
+			goto loop;
+		}
+	sta_ptr:
+		FLUSH_TIME();
+		WRITE( addr, a );
+		CACHE_TIME();
+		goto loop;
+		
+	case 0x91: // STA (ind),Y
+		IND_Y( NO_PAGE_CROSSING, addr )
+		pc++;
+		goto sta_ptr;
+	
+	case 0x81: // STA (ind,X)
+		IND_X( addr )
+		pc++;
+		goto sta_ptr;
+	
+	}
+	
+	case 0xA9: // LDA #imm
+		pc++;
+		a  = data;
+		nz = data;
+		goto loop;
+
+	// common read instructions
+	{
+		fuint16 addr;
+		
+	case 0xA1: // LDA (ind,X)
+		IND_X( addr )
+		pc++;
+		goto a_nz_read_addr;
+	
+	case 0xB1:// LDA (ind),Y
+		addr = READ_LOW( data ) + y;
+		HANDLE_PAGE_CROSSING( addr );
+		addr += 0x100 * READ_LOW( (uint8_t) (data + 1) );
+		pc++;
+		a = nz = READ_PROG( addr );
+		if ( (addr ^ 0x8000) <= 0x9FFF )
+			goto loop;
+		goto a_nz_read_addr;
+	
+	case 0xB9: // LDA abs,Y
+		HANDLE_PAGE_CROSSING( data + y );
+		addr = GET_ADDR() + y;
+		pc += 2;
+		a = nz = READ_PROG( addr );
+		if ( (addr ^ 0x8000) <= 0x9FFF )
+			goto loop;
+		goto a_nz_read_addr;
+	
+	case 0xBD: // LDA abs,X
+		HANDLE_PAGE_CROSSING( data + x );
+		addr = GET_ADDR() + x;
+		pc += 2;
+		a = nz = READ_PROG( addr );
+		if ( (addr ^ 0x8000) <= 0x9FFF )
+			goto loop;
+	a_nz_read_addr:
+		FLUSH_TIME();
+		a = nz = READ( addr );
+		CACHE_TIME();
+		goto loop;
+	
+	}
+
+// Branch
+
+	case 0x50: // BVC
+		BRANCH( !(status & st_v) )
+	
+	case 0x70: // BVS
+		BRANCH( status & st_v )
+	
+	case 0xB0: // BCS
+		BRANCH( c & 0x100 )
+	
+	case 0x90: // BCC
+		BRANCH( !(c & 0x100) )
+	
+// Load/store
+	
+	case 0x94: // STY zp,x
+		data = uint8_t (data + x);
+	case 0x84: // STY zp
+		pc++;
+		WRITE_LOW( data, y );
+		goto loop;
+	
+	case 0x96: // STX zp,y
+		data = uint8_t (data + y);
+	case 0x86: // STX zp
+		pc++;
+		WRITE_LOW( data, x );
+		goto loop;
+	
+	case 0xB6: // LDX zp,y
+		data = uint8_t (data + y);
+	case 0xA6: // LDX zp
+		data = READ_LOW( data );
+	case 0xA2: // LDX #imm
+		pc++;
+		x = data;
+		nz = data;
+		goto loop;
+	
+	case 0xB4: // LDY zp,x
+		data = uint8_t (data + x);
+	case 0xA4: // LDY zp
+		data = READ_LOW( data );
+	case 0xA0: // LDY #imm
+		pc++;
+		y = data;
+		nz = data;
+		goto loop;
+	
+	case 0xBC: // LDY abs,X
+		data += x;
+		HANDLE_PAGE_CROSSING( data );
+	case 0xAC:{// LDY abs
+		unsigned addr = data + 0x100 * GET_MSB();
+		pc += 2;
+		FLUSH_TIME();
+		y = nz = READ( addr );
+		CACHE_TIME();
+		goto loop;
+	}
+	
+	case 0xBE: // LDX abs,y
+		data += y;
+		HANDLE_PAGE_CROSSING( data );
+	case 0xAE:{// LDX abs
+		unsigned addr = data + 0x100 * GET_MSB();
+		pc += 2;
+		FLUSH_TIME();
+		x = nz = READ( addr );
+		CACHE_TIME();
+		goto loop;
+	}
+	
+	{
+		fuint8 temp;
+	case 0x8C: // STY abs
+		temp = y;
+		goto store_abs;
+	
+	case 0x8E: // STX abs
+		temp = x;
+	store_abs:
+		unsigned addr = GET_ADDR();
+		pc += 2;
+		if ( addr <= 0x7FF )
+		{
+			WRITE_LOW( addr, temp );
+			goto loop;
+		}
+		FLUSH_TIME();
+		WRITE( addr, temp );
+		CACHE_TIME();
+		goto loop;
+	}
+
+// Compare
+
+	case 0xEC:{// CPX abs
+		unsigned addr = GET_ADDR();
+		pc++;
+		FLUSH_TIME();
+		data = READ( addr );
+		CACHE_TIME();
+		goto cpx_data;
+	}
+	
+	case 0xE4: // CPX zp
+		data = READ_LOW( data );
+	case 0xE0: // CPX #imm
+	cpx_data:
+		nz = x - data;
+		pc++;
+		c = ~nz;
+		nz &= 0xFF;
+		goto loop;
+	
+	case 0xCC:{// CPY abs
+		unsigned addr = GET_ADDR();
+		pc++;
+		FLUSH_TIME();
+		data = READ( addr );
+		CACHE_TIME();
+		goto cpy_data;
+	}
+	
+	case 0xC4: // CPY zp
+		data = READ_LOW( data );
+	case 0xC0: // CPY #imm
+	cpy_data:
+		nz = y - data;
+		pc++;
+		c = ~nz;
+		nz &= 0xFF;
+		goto loop;
+	
+// Logical
+
+	ARITH_ADDR_MODES( 0x25 ) // AND
+		nz = (a &= data);
+		pc++;
+		goto loop;
+	
+	ARITH_ADDR_MODES( 0x45 ) // EOR
+		nz = (a ^= data);
+		pc++;
+		goto loop;
+	
+	ARITH_ADDR_MODES( 0x05 ) // ORA
+		nz = (a |= data);
+		pc++;
+		goto loop;
+	
+	case 0x2C:{// BIT abs
+		unsigned addr = GET_ADDR();
+		pc += 2;
+		status &= ~st_v;
+		nz = READ( addr );
+		status |= nz & st_v;
+		if ( a & nz )
+			goto loop;
+		nz <<= 8; // result must be zero, even if N bit is set
+		goto loop;
+	}
+	
+	case 0x24: // BIT zp
+		nz = READ_LOW( data );
+		pc++;
+		status &= ~st_v;
+		status |= nz & st_v;
+		if ( a & nz )
+			goto loop;
+		nz <<= 8; // result must be zero, even if N bit is set
+		goto loop;
+		
+// Add/subtract
+
+	ARITH_ADDR_MODES( 0xE5 ) // SBC
+	case 0xEB: // unofficial equivalent
+		data ^= 0xFF;
+		goto adc_imm;
+	
+	ARITH_ADDR_MODES( 0x65 ) // ADC
+	adc_imm: {
+		check( !(status & st_d) );
+		fint16 carry = c >> 8 & 1;
+		fint16 ov = (a ^ 0x80) + carry + (BOOST::int8_t) data; // sign-extend
+		status &= ~st_v;
+		status |= ov >> 2 & 0x40;
+		c = nz = a + data + carry;
+		pc++;
+		a = (uint8_t) nz;
+		goto loop;
+	}
+	
+// Shift/rotate
+
+	case 0x4A: // LSR A
+		c = 0;
+	case 0x6A: // ROR A
+		nz = c >> 1 & 0x80;
+		c = a << 8;
+		nz |= a >> 1;
+		a = nz;
+		goto loop;
+
+	case 0x0A: // ASL A
+		nz = a << 1;
+		c = nz;
+		a = (uint8_t) nz;
+		goto loop;
+
+	case 0x2A: { // ROL A
+		nz = a << 1;
+		fint16 temp = c >> 8 & 1;
+		c = nz;
+		nz |= temp;
+		a = (uint8_t) nz;
+		goto loop;
+	}
+	
+	case 0x5E: // LSR abs,X
+		data += x;
+	case 0x4E: // LSR abs
+		c = 0;
+	case 0x6E: // ROR abs
+	ror_abs: {
+		ADD_PAGE();
+		FLUSH_TIME();
+		int temp = READ( data );
+		nz = (c >> 1 & 0x80) | (temp >> 1);
+		c = temp << 8;
+		goto rotate_common;
+	}
+	
+	case 0x3E: // ROL abs,X
+		data += x;
+		goto rol_abs;
+	
+	case 0x1E: // ASL abs,X
+		data += x;
+	case 0x0E: // ASL abs
+		c = 0;
+	case 0x2E: // ROL abs
+	rol_abs:
+		ADD_PAGE();
+		nz = c >> 8 & 1;
+		FLUSH_TIME();
+		nz |= (c = READ( data ) << 1);
+	rotate_common:
+		pc++;
+		WRITE( data, (uint8_t) nz );
+		CACHE_TIME();
+		goto loop;
+	
+	case 0x7E: // ROR abs,X
+		data += x;
+		goto ror_abs;
+	
+	case 0x76: // ROR zp,x
+		data = uint8_t (data + x);
+		goto ror_zp;
+	
+	case 0x56: // LSR zp,x
+		data = uint8_t (data + x);
+	case 0x46: // LSR zp
+		c = 0;
+	case 0x66: // ROR zp
+	ror_zp: {
+		int temp = READ_LOW( data );
+		nz = (c >> 1 & 0x80) | (temp >> 1);
+		c = temp << 8;
+		goto write_nz_zp;
+	}
+	
+	case 0x36: // ROL zp,x
+		data = uint8_t (data + x);
+		goto rol_zp;
+	
+	case 0x16: // ASL zp,x
+		data = uint8_t (data + x);
+	case 0x06: // ASL zp
+		c = 0;
+	case 0x26: // ROL zp
+	rol_zp:
+		nz = c >> 8 & 1;
+		nz |= (c = READ_LOW( data ) << 1);
+		goto write_nz_zp;
+	
+// Increment/decrement
+
+	case 0xCA: // DEX
+		INC_DEC_XY( x, -1 )
+	
+	case 0x88: // DEY
+		INC_DEC_XY( y, -1 )
+	
+	case 0xF6: // INC zp,x
+		data = uint8_t (data + x);
+	case 0xE6: // INC zp
+		nz = 1;
+		goto add_nz_zp;
+	
+	case 0xD6: // DEC zp,x
+		data = uint8_t (data + x);
+	case 0xC6: // DEC zp
+		nz = (unsigned) -1;
+	add_nz_zp:
+		nz += READ_LOW( data );
+	write_nz_zp:
+		pc++;
+		WRITE_LOW( data, nz );
+		goto loop;
+	
+	case 0xFE: // INC abs,x
+		data = x + GET_ADDR();
+		goto inc_ptr;
+	
+	case 0xEE: // INC abs
+		data = GET_ADDR();
+	inc_ptr:
+		nz = 1;
+		goto inc_common;
+	
+	case 0xDE: // DEC abs,x
+		data = x + GET_ADDR();
+		goto dec_ptr;
+	
+	case 0xCE: // DEC abs
+		data = GET_ADDR();
+	dec_ptr:
+		nz = (unsigned) -1;
+	inc_common:
+		FLUSH_TIME();
+		nz += READ( data );
+		pc += 2;
+		WRITE( data, (uint8_t) nz );
+		CACHE_TIME();
+		goto loop;
+		
+// Transfer
+
+	case 0xAA: // TAX
+		x  = a;
+		nz = a;
+		goto loop;
+		
+	case 0x8A: // TXA
+		a  = x;
+		nz = x;
+		goto loop;
+
+	case 0x9A: // TXS
+		SET_SP( x ); // verified (no flag change)
+		goto loop;
+	
+	case 0xBA: // TSX
+		x = nz = GET_SP();
+		goto loop;
+	
+// Stack
+	
+	case 0x48: // PHA
+		PUSH( a ); // verified
+		goto loop;
+		
+	case 0x68: // PLA
+		a = nz = READ_LOW( sp );
+		sp = (sp - 0xFF) | 0x100;
+		goto loop;
+		
+	case 0x40:{// RTI
+		fuint8 temp = READ_LOW( sp );
+		pc  = READ_LOW( 0x100 | (sp - 0xFF) );
+		pc |= READ_LOW( 0x100 | (sp - 0xFE) ) * 0x100;
+		sp = (sp - 0xFD) | 0x100;
+		data = status;
+		SET_STATUS( temp );
+		this->r.status = status; // update externally-visible I flag
+		if ( (data ^ status) & st_i )
+		{
+			sap_time_t new_time = end_time_;
+			if ( !(status & st_i) && new_time > irq_time_ )
+				new_time = irq_time_;
+			blargg_long delta = s.base - new_time;
+			s.base = new_time;
+			s_time += delta;
+		}
+		goto loop;
+	}
+	
+	case 0x28:{// PLP
+		fuint8 temp = READ_LOW( sp );
+		sp = (sp - 0xFF) | 0x100;
+		fuint8 changed = status ^ temp;
+		SET_STATUS( temp );
+		if ( !(changed & st_i) )
+			goto loop; // I flag didn't change
+		if ( status & st_i )
+			goto handle_sei;
+		goto handle_cli;
+	}
+	
+	case 0x08: { // PHP
+		fuint8 temp;
+		CALC_STATUS( temp );
+		PUSH( temp | (st_b | st_r) );
+		goto loop;
+	}
+	
+	case 0x6C:{// JMP (ind)
+		data = GET_ADDR();
+		pc = READ_PROG( data );
+		data = (data & 0xFF00) | ((data + 1) & 0xFF);
+		pc |= 0x100 * READ_PROG( data );
+		goto loop;
+	}
+	
+	case 0x00: // BRK
+		goto handle_brk;
+	
+// Flags
+
+	case 0x38: // SEC
+		c = (unsigned) ~0;
+		goto loop;
+	
+	case 0x18: // CLC
+		c = 0;
+		goto loop;
+		
+	case 0xB8: // CLV
+		status &= ~st_v;
+		goto loop;
+	
+	case 0xD8: // CLD
+		status &= ~st_d;
+		goto loop;
+	
+	case 0xF8: // SED
+		status |= st_d;
+		goto loop;
+	
+	case 0x58: // CLI
+		if ( !(status & st_i) )
+			goto loop;
+		status &= ~st_i;
+	handle_cli: {
+		this->r.status = status; // update externally-visible I flag
+		blargg_long delta = s.base - irq_time_;
+		if ( delta <= 0 )
+		{
+			if ( TIME < irq_time_ )
+				goto loop;
+			goto delayed_cli;
+		}
+		s.base = irq_time_;
+		s_time += delta;
+		if ( s_time < 0 )
+			goto loop;
+		
+		if ( delta >= s_time + 1 )
+		{
+			// delayed irq until after next instruction
+			s.base += s_time + 1;
+			s_time = -1;
+			irq_time_ = s.base; // TODO: remove, as only to satisfy debug check in loop
+			goto loop;
+		}
+	delayed_cli:
+		debug_printf( "Delayed CLI not emulated\n" );
+		goto loop;
+	}
+	
+	case 0x78: // SEI
+		if ( status & st_i )
+			goto loop;
+		status |= st_i;
+	handle_sei: {
+		this->r.status = status; // update externally-visible I flag
+		blargg_long delta = s.base - end_time_;
+		s.base = end_time_;
+		s_time += delta;
+		if ( s_time < 0 )
+			goto loop;
+		debug_printf( "Delayed SEI not emulated\n" );
+		goto loop;
+	}
+	
+// Unofficial
+	
+	// SKW - Skip word
+	case 0x1C: case 0x3C: case 0x5C: case 0x7C: case 0xDC: case 0xFC:
+		HANDLE_PAGE_CROSSING( data + x );
+	case 0x0C:
+		pc++;
+	// SKB - Skip byte
+	case 0x74: case 0x04: case 0x14: case 0x34: case 0x44: case 0x54: case 0x64:
+	case 0x80: case 0x82: case 0x89: case 0xC2: case 0xD4: case 0xE2: case 0xF4:
+		pc++;
+		goto loop;
+	
+	// NOP
+	case 0xEA: case 0x1A: case 0x3A: case 0x5A: case 0x7A: case 0xDA: case 0xFA:
+		goto loop;
+	
+// Unimplemented
+	
+	// halt
+	//case 0x02: case 0x12: case 0x22: case 0x32: case 0x42: case 0x52:
+	//case 0x62: case 0x72: case 0x92: case 0xB2: case 0xD2: case 0xF2:
+	
+	default:
+		assert( (unsigned) opcode <= 0xFF );
+		illegal_encountered = true;
+		pc--;
+		goto stop;
+	}
+	assert( false );
+	
+	int result_;
+handle_brk:
+	if ( (pc - 1) >= idle_addr )
+		goto idle_done;
+	pc++;
+	result_ = 4;
+	debug_printf( "BRK executed\n" );
+	
+interrupt:
+	{
+		s_time += 7;
+		
+		WRITE_LOW( 0x100 | (sp - 1), pc >> 8 );
+		WRITE_LOW( 0x100 | (sp - 2), pc );
+		pc = GET_LE16( &READ_PROG( 0xFFFA ) + result_ );
+		
+		sp = (sp - 3) | 0x100;
+		fuint8 temp;
+		CALC_STATUS( temp );
+		temp |= st_r;
+		if ( result_ )
+			temp |= st_b; // TODO: incorrectly sets B flag for IRQ
+		WRITE_LOW( sp, temp );
+		
+		status &= ~st_d;
+		status |= st_i;
+		this->r.status = status; // update externally-visible I flag
+		
+		blargg_long delta = s.base - end_time_;
+		s.base = end_time_;
+		s_time += delta;
+		goto loop;
+	}
+	
+idle_done:
+	//s_time = 0;
+	pc--;
+	goto stop;
+out_of_time:
+	pc--;
+	FLUSH_TIME();
+	CPU_DONE( this, TIME, result_ );
+	CACHE_TIME();
+	if ( result_ >= 0 )
+		goto interrupt;
+	if ( s_time < 0 )
+		goto loop;
+	
+stop:
+	
+	s.time = s_time;
+	
+	r.pc = pc;
+	r.sp = GET_SP();
+	r.a = a;
+	r.x = x;
+	r.y = y;
+	
+	{
+		fuint8 temp;
+		CALC_STATUS( temp );
+		r.status = temp;
+	}
+	
+	this->state_ = s;
+	this->state = &this->state_;
+	
+	return illegal_encountered;
+}
+
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Sap_Cpu.h b/plugins/gme/game-music-emu-0.5.5/gme/Sap_Cpu.h
new file mode 100644
index 00000000..bde219f6
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Sap_Cpu.h
@@ -0,0 +1,83 @@
+// Atari 6502 CPU emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef SAP_CPU_H
+#define SAP_CPU_H
+
+#include "blargg_common.h"
+
+typedef blargg_long sap_time_t; // clock cycle count
+typedef unsigned sap_addr_t; // 16-bit address
+enum { future_sap_time = INT_MAX / 2 + 1 };
+
+class Sap_Cpu {
+public:
+	typedef BOOST::uint8_t uint8_t;
+	
+	// Clear all registers and keep pointer to 64K memory passed in
+	void reset( void* mem_64k );
+	
+	// Run until specified time is reached. Returns true if suspicious/unsupported
+	// instruction was encountered at any point during run.
+	bool run( sap_time_t end_time );
+	
+	// Registers are not updated until run() returns (except I flag in status)
+	struct registers_t {
+		BOOST::uint16_t pc;
+		BOOST::uint8_t a;
+		BOOST::uint8_t x;
+		BOOST::uint8_t y;
+		BOOST::uint8_t status;
+		BOOST::uint8_t sp;
+	};
+	registers_t r;
+	
+	enum { idle_addr = 0xFEFF };
+	
+	// Time of beginning of next instruction to be executed
+	sap_time_t time() const             { return state->time + state->base; }
+	void set_time( sap_time_t t )       { state->time = t - state->base; }
+	void adjust_time( int delta )       { state->time += delta; }
+	
+	sap_time_t irq_time() const         { return irq_time_; }
+	void set_irq_time( sap_time_t );
+	
+	sap_time_t end_time() const         { return end_time_; }
+	void set_end_time( sap_time_t );
+	
+public:
+	Sap_Cpu() { state = &state_; }
+	enum { irq_inhibit = 0x04 };
+private:
+	struct state_t {
+		sap_time_t base;
+		sap_time_t time;
+	};
+	state_t* state; // points to state_ or a local copy within run()
+	state_t state_;
+	sap_time_t irq_time_;
+	sap_time_t end_time_;
+	uint8_t* mem;
+	
+	inline sap_time_t update_end_time( sap_time_t end, sap_time_t irq );
+};
+
+inline sap_time_t Sap_Cpu::update_end_time( sap_time_t t, sap_time_t irq )
+{
+	if ( irq < t && !(r.status & irq_inhibit) ) t = irq;
+	sap_time_t delta = state->base - t;
+	state->base = t;
+	return delta;
+}
+
+inline void Sap_Cpu::set_irq_time( sap_time_t t )
+{
+	state->time += update_end_time( end_time_, (irq_time_ = t) );
+}
+
+inline void Sap_Cpu::set_end_time( sap_time_t t )
+{
+	state->time += update_end_time( (end_time_ = t), irq_time_ );
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Sap_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Sap_Emu.cpp
new file mode 100644
index 00000000..aa4ce948
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Sap_Emu.cpp
@@ -0,0 +1,444 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Sap_Emu.h"
+
+#include "blargg_endian.h"
+#include <string.h>
+
+/* Copyright (C) 2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+long const base_scanline_period = 114;
+
+Sap_Emu::Sap_Emu()
+{
+	set_type( gme_sap_type );
+	
+	static const char* const names [Sap_Apu::osc_count * 2] = {
+		"Wave 1", "Wave 2", "Wave 3", "Wave 4",
+		"Wave 5", "Wave 6", "Wave 7", "Wave 8",
+	};
+	set_voice_names( names );
+	
+	static int const types [Sap_Apu::osc_count * 2] = {
+		wave_type | 1, wave_type | 2, wave_type | 3, wave_type | 0,
+		wave_type | 5, wave_type | 6, wave_type | 7, wave_type | 4,
+	};
+	set_voice_types( types );
+	set_silence_lookahead( 6 );
+}
+
+Sap_Emu::~Sap_Emu() { }
+
+// Track info
+
+// Returns 16 or greater if not hex
+inline int from_hex_char( int h )
+{
+	h -= 0x30;
+	if ( (unsigned) h > 9 )
+		h = ((h - 0x11) & 0xDF) + 10;
+	return h;
+}
+
+static long from_hex( byte const* in )
+{
+	unsigned result = 0;
+	for ( int n = 4; n--; )
+	{
+		int h = from_hex_char( *in++ );
+		if ( h > 15 )
+			return -1;
+		result = result * 0x10 + h;
+	}
+	return result;
+}
+
+static int from_dec( byte const* in, byte const* end )
+{
+	if ( in >= end )
+		return -1;
+	
+	int n = 0;
+	while ( in < end )
+	{
+		int dig = *in++ - '0';
+		if ( (unsigned) dig > 9 )
+			return -1;
+		n = n * 10 + dig;
+	}
+	return n;
+}
+
+static void parse_string( byte const* in, byte const* end, int len, char* out )
+{
+	byte const* start = in;
+	if ( *in++ == '\"' )
+	{
+		start++;
+		while ( in < end && *in != '\"' )
+			in++;
+	}
+	else
+	{
+		in = end;
+	}
+	len = min( len - 1, int (in - start) );
+	out [len] = 0;
+	memcpy( out, start, len );
+}
+
+static blargg_err_t parse_info( byte const* in, long size, Sap_Emu::info_t* out )
+{
+	out->track_count   = 1;
+	out->author    [0] = 0;
+	out->name      [0] = 0;
+	out->copyright [0] = 0;
+	
+	if ( size < 16 || memcmp( in, "SAP\x0D\x0A", 5 ) )
+		return gme_wrong_file_type;
+	
+	byte const* file_end = in + size - 5;
+	in += 5;
+	while ( in < file_end && (in [0] != 0xFF || in [1] != 0xFF) )
+	{
+		byte const* line_end = in;
+		while ( line_end < file_end && *line_end != 0x0D )
+			line_end++;
+		
+		char const* tag = (char const*) in;
+		while ( in < line_end && *in > ' ' )
+			in++;
+		int tag_len = (char const*) in - tag;
+		
+		while ( in < line_end && *in <= ' ' ) in++;
+		
+		if ( tag_len <= 0 )
+		{
+			// skip line
+		}
+		else if ( !strncmp( "INIT", tag, tag_len ) )
+		{
+			out->init_addr = from_hex( in );
+			if ( (unsigned long) out->init_addr > 0xFFFF )
+				return "Invalid init address";
+		}
+		else if ( !strncmp( "PLAYER", tag, tag_len ) )
+		{
+			out->play_addr = from_hex( in );
+			if ( (unsigned long) out->play_addr > 0xFFFF )
+				return "Invalid play address";
+		}
+		else if ( !strncmp( "MUSIC", tag, tag_len ) )
+		{
+			out->music_addr = from_hex( in );
+			if ( (unsigned long) out->music_addr > 0xFFFF )
+				return "Invalid music address";
+		}
+		else if ( !strncmp( "SONGS", tag, tag_len ) )
+		{
+			out->track_count = from_dec( in, line_end );
+			if ( out->track_count <= 0 )
+				return "Invalid track count";
+		}
+		else if ( !strncmp( "TYPE", tag, tag_len ) )
+		{
+			switch ( out->type = *in )
+			{
+			case 'C':
+			case 'B':
+				break;
+			
+			case 'D':
+				return "Digimusic not supported";
+			
+			default:
+				return "Unsupported player type";
+			}
+		}
+		else if ( !strncmp( "STEREO", tag, tag_len ) )
+		{
+			out->stereo = true;
+		}
+		else if ( !strncmp( "FASTPLAY", tag, tag_len ) )
+		{
+			out->fastplay = from_dec( in, line_end );
+			if ( out->fastplay <= 0 )
+				return "Invalid fastplay value";
+		}
+		else if ( !strncmp( "AUTHOR", tag, tag_len ) )
+		{
+			parse_string( in, line_end, sizeof out->author, out->author );
+		}
+		else if ( !strncmp( "NAME", tag, tag_len ) )
+		{
+			parse_string( in, line_end, sizeof out->name, out->name );
+		}
+		else if ( !strncmp( "DATE", tag, tag_len ) )
+		{
+			parse_string( in, line_end, sizeof out->copyright, out->copyright );
+		}
+		
+		in = line_end + 2;
+	}
+	
+	if ( in [0] != 0xFF || in [1] != 0xFF )
+		return "ROM data missing";
+	out->rom_data = in + 2;
+	
+	return 0;
+}
+
+static void copy_sap_fields( Sap_Emu::info_t const& in, track_info_t* out )
+{
+	Gme_File::copy_field_( out->game,      in.name );
+	Gme_File::copy_field_( out->author,    in.author );
+	Gme_File::copy_field_( out->copyright, in.copyright );
+}
+
+blargg_err_t Sap_Emu::track_info_( track_info_t* out, int ) const
+{
+	copy_sap_fields( info, out );
+	return 0;
+}
+
+struct Sap_File : Gme_Info_
+{
+	Sap_Emu::info_t info;
+	
+	Sap_File() { set_type( gme_sap_type ); }
+	
+	blargg_err_t load_mem_( byte const* begin, long size )
+	{
+		RETURN_ERR( parse_info( begin, size, &info ) );
+		set_track_count( info.track_count );
+		return 0;
+	}
+	
+	blargg_err_t track_info_( track_info_t* out, int ) const
+	{
+		copy_sap_fields( info, out );
+		return 0;
+	}
+};
+
+static Music_Emu* new_sap_emu () { return BLARGG_NEW Sap_Emu ; }
+static Music_Emu* new_sap_file() { return BLARGG_NEW Sap_File; }
+
+static gme_type_t_ const gme_sap_type_ = { "Atari XL", 0, &new_sap_emu, &new_sap_file, "SAP", 1 };
+gme_type_t const gme_sap_type = &gme_sap_type_;
+
+
+// Setup
+
+blargg_err_t Sap_Emu::load_mem_( byte const* in, long size )
+{
+	file_end = in + size;
+	
+	info.warning    = 0;
+	info.type       = 'B';
+	info.stereo     = false;
+	info.init_addr  = -1;
+	info.play_addr  = -1;
+	info.music_addr = -1;
+	info.fastplay   = 312;
+	RETURN_ERR( parse_info( in, size, &info ) );
+	
+	set_warning( info.warning );
+	set_track_count( info.track_count );
+	set_voice_count( Sap_Apu::osc_count << info.stereo );
+	apu_impl.volume( gain() );
+	
+	return setup_buffer( 1773447 );
+}
+
+void Sap_Emu::update_eq( blip_eq_t const& eq )
+{
+	apu_impl.synth.treble_eq( eq );
+}
+
+void Sap_Emu::set_voice( int i, Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right )
+{
+	int i2 = i - Sap_Apu::osc_count;
+	if ( i2 >= 0 )
+		apu2.osc_output( i2, right );
+	else
+		apu.osc_output( i, (info.stereo ? left : center) );
+}
+
+// Emulation
+
+void Sap_Emu::set_tempo_( double t )
+{
+	scanline_period = sap_time_t (base_scanline_period / t);
+}
+
+inline sap_time_t Sap_Emu::play_period() const { return info.fastplay * scanline_period; }
+
+void Sap_Emu::cpu_jsr( sap_addr_t addr )
+{
+	check( r.sp >= 0xFE ); // catch anything trying to leave data on stack
+	r.pc = addr;
+	int high_byte = (idle_addr - 1) >> 8;
+	if ( r.sp == 0xFE && mem.ram [0x1FF] == high_byte )
+		r.sp = 0xFF; // pop extra byte off
+	mem.ram [0x100 + r.sp--] = high_byte; // some routines use RTI to return
+	mem.ram [0x100 + r.sp--] = high_byte;
+	mem.ram [0x100 + r.sp--] = (idle_addr - 1) & 0xFF;
+}
+
+void Sap_Emu::run_routine( sap_addr_t addr )
+{
+	cpu_jsr( addr );
+	cpu::run( 312 * base_scanline_period * 60 );
+	check( r.pc == idle_addr );
+}
+
+inline void Sap_Emu::call_init( int track )
+{
+	switch ( info.type )
+	{
+	case 'B':
+		r.a = track;
+		run_routine( info.init_addr );
+		break;
+	
+	case 'C':
+		r.a = 0x70;
+		r.x = info.music_addr&0xFF;
+		r.y = info.music_addr >> 8;
+		run_routine( info.play_addr + 3 );
+		r.a = 0;
+		r.x = track;
+		run_routine( info.play_addr + 3 );
+		break;
+	}
+}
+
+blargg_err_t Sap_Emu::start_track_( int track )
+{
+	RETURN_ERR( Classic_Emu::start_track_( track ) );
+	
+	memset( &mem, 0, sizeof mem );
+
+	byte const* in = info.rom_data;
+	while ( file_end - in >= 5 )
+	{
+		unsigned start = get_le16( in );
+		unsigned end   = get_le16( in + 2 );
+		//debug_printf( "Block $%04X-$%04X\n", start, end );
+		in += 4;
+		if ( end < start )
+		{
+			set_warning( "Invalid file data block" );
+			break;
+		}
+		long len = end - start + 1;
+		if ( len > file_end - in )
+		{
+			set_warning( "Invalid file data block" );
+			break;
+		}
+		
+		memcpy( mem.ram + start, in, len );
+		in += len;
+		if ( file_end - in >= 2 && in [0] == 0xFF && in [1] == 0xFF )
+			in += 2;
+	}
+	
+	apu.reset( &apu_impl );
+	apu2.reset( &apu_impl );
+	cpu::reset( mem.ram );
+	time_mask = 0; // disables sound during init
+	call_init( track );
+	time_mask = -1;
+	
+	next_play = play_period();
+	
+	return 0;
+}
+
+// Emulation
+
+// see sap_cpu_io.h for read/write functions
+
+void Sap_Emu::cpu_write_( sap_addr_t addr, int data )
+{
+	if ( (addr ^ Sap_Apu::start_addr) <= (Sap_Apu::end_addr - Sap_Apu::start_addr) )
+	{
+		GME_APU_HOOK( this, addr - Sap_Apu::start_addr, data );
+		apu.write_data( time() & time_mask, addr, data );
+		return;
+	}
+	
+	if ( (addr ^ (Sap_Apu::start_addr + 0x10)) <= (Sap_Apu::end_addr - Sap_Apu::start_addr) &&
+			info.stereo )
+	{
+		GME_APU_HOOK( this, addr - 0x10 - Sap_Apu::start_addr + 10, data );
+		apu2.write_data( time() & time_mask, addr ^ 0x10, data );
+		return;
+	}
+
+	if ( (addr & ~0x0010) != 0xD20F || data != 0x03 )
+		debug_printf( "Unmapped write $%04X <- $%02X\n", addr, data );
+}
+
+inline void Sap_Emu::call_play()
+{
+	switch ( info.type )
+	{
+	case 'B':
+		cpu_jsr( info.play_addr );
+		break;
+	
+	case 'C':
+		cpu_jsr( info.play_addr + 6 );
+		break;
+	}
+}
+
+blargg_err_t Sap_Emu::run_clocks( blip_time_t& duration, int )
+{
+	set_time( 0 );
+	while ( time() < duration )
+	{
+		if ( cpu::run( duration ) || r.pc > idle_addr )
+			return "Emulation error (illegal instruction)";
+		
+		if ( r.pc == idle_addr )
+		{
+			if ( next_play <= duration )
+			{
+				set_time( next_play );
+				next_play += play_period();
+				call_play();
+				GME_FRAME_HOOK( this );
+			}
+			else
+			{
+				set_time( duration );
+			}
+		}
+	}
+	
+	duration = time();
+	next_play -= duration;
+	check( next_play >= 0 );
+	if ( next_play < 0 )
+		next_play = 0;
+	apu.end_frame( duration );
+	if ( info.stereo )
+		apu2.end_frame( duration );
+	
+	return 0;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Sap_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Sap_Emu.h
new file mode 100644
index 00000000..21879447
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Sap_Emu.h
@@ -0,0 +1,69 @@
+// Atari XL/XE SAP music file emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef SAP_EMU_H
+#define SAP_EMU_H
+
+#include "Classic_Emu.h"
+#include "Sap_Apu.h"
+#include "Sap_Cpu.h"
+
+class Sap_Emu : private Sap_Cpu, public Classic_Emu {
+	typedef Sap_Cpu cpu;
+public:
+	static gme_type_t static_type() { return gme_sap_type; }
+public:
+	Sap_Emu();
+	~Sap_Emu();
+	struct info_t {
+		byte const* rom_data;
+		const char* warning;
+		long init_addr;
+		long play_addr;
+		long music_addr;
+		int  type;
+		int  track_count;
+		int  fastplay;
+		bool stereo;
+		char author    [256];
+		char name      [256];
+		char copyright [ 32];
+	};
+protected:
+	blargg_err_t track_info_( track_info_t*, int track ) const;
+	blargg_err_t load_mem_( byte const*, long );
+	blargg_err_t start_track_( int );
+	blargg_err_t run_clocks( blip_time_t&, int );
+	void set_tempo_( double );
+	void set_voice( int, Blip_Buffer*, Blip_Buffer*, Blip_Buffer* );
+	void update_eq( blip_eq_t const& );
+public: private: friend class Sap_Cpu;
+	int cpu_read( sap_addr_t );
+	void cpu_write( sap_addr_t, int );
+	void cpu_write_( sap_addr_t, int );
+private:
+	info_t info;
+	
+	byte const* file_end;
+	sap_time_t scanline_period;
+	sap_time_t next_play;
+	sap_time_t time_mask;
+	Sap_Apu apu;
+	Sap_Apu apu2;
+	
+	// large items
+	struct {
+		byte padding1 [0x100];
+		byte ram [0x10000];
+		byte padding2 [0x100];
+	} mem;
+	Sap_Apu_Impl apu_impl;
+	
+	sap_time_t play_period() const;
+	void call_play();
+	void cpu_jsr( sap_addr_t );
+	void call_init( int track );
+	void run_routine( sap_addr_t );
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Sms_Apu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Sms_Apu.cpp
new file mode 100644
index 00000000..b41fdec4
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Sms_Apu.cpp
@@ -0,0 +1,330 @@
+// Sms_Snd_Emu 0.1.4. http://www.slack.net/~ant/
+
+#include "Sms_Apu.h"
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+// Sms_Osc
+
+Sms_Osc::Sms_Osc()
+{
+	output = 0;
+	outputs [0] = 0; // always stays NULL
+	outputs [1] = 0;
+	outputs [2] = 0;
+	outputs [3] = 0;
+}
+
+void Sms_Osc::reset()
+{
+	delay = 0;
+	last_amp = 0;
+	volume = 0;
+	output_select = 3;
+	output = outputs [3];
+}
+
+// Sms_Square
+
+inline void Sms_Square::reset()
+{
+	period = 0;
+	phase = 0;
+	Sms_Osc::reset();
+}
+
+void Sms_Square::run( blip_time_t time, blip_time_t end_time )
+{
+	if ( !volume || period <= 128 )
+	{
+		// ignore 16kHz and higher
+		if ( last_amp )
+		{
+			synth->offset( time, -last_amp, output );
+			last_amp = 0;
+		}
+		time += delay;
+		if ( !period )
+		{
+			time = end_time;
+		}
+		else if ( time < end_time )
+		{
+			// keep calculating phase
+			int count = (end_time - time + period - 1) / period;
+			phase = (phase + count) & 1;
+			time += count * period;
+		}
+	}
+	else
+	{
+		int amp = phase ? volume : -volume;
+		{
+			int delta = amp - last_amp;
+			if ( delta )
+			{
+				last_amp = amp;
+				synth->offset( time, delta, output );
+			}
+		}
+		
+		time += delay;
+		if ( time < end_time )
+		{
+			Blip_Buffer* const output = this->output;
+			int delta = amp * 2;
+			do
+			{
+				delta = -delta;
+				synth->offset_inline( time, delta, output );
+				time += period;
+				phase ^= 1;
+			}
+			while ( time < end_time );
+			this->last_amp = phase ? volume : -volume;
+		}
+	}
+	delay = time - end_time;
+}
+
+// Sms_Noise
+
+static int const noise_periods [3] = { 0x100, 0x200, 0x400 };
+
+inline void Sms_Noise::reset()
+{
+	period = &noise_periods [0];
+	shifter = 0x8000;
+	feedback = 0x9000;
+	Sms_Osc::reset();
+}
+
+void Sms_Noise::run( blip_time_t time, blip_time_t end_time )
+{
+	int amp = volume;
+	if ( shifter & 1 )
+		amp = -amp;
+	
+	{
+		int delta = amp - last_amp;
+		if ( delta )
+		{
+			last_amp = amp;
+			synth.offset( time, delta, output );
+		}
+	}
+	
+	time += delay;
+	if ( !volume )
+		time = end_time;
+	
+	if ( time < end_time )
+	{
+		Blip_Buffer* const output = this->output;
+		unsigned shifter = this->shifter;
+		int delta = amp * 2;
+		int period = *this->period * 2;
+		if ( !period )
+			period = 16;
+		
+		do
+		{
+			int changed = shifter + 1;
+			shifter = (feedback & -(shifter & 1)) ^ (shifter >> 1);
+			if ( changed & 2 ) // true if bits 0 and 1 differ
+			{
+				delta = -delta;
+				synth.offset_inline( time, delta, output );
+			}
+			time += period;
+		}
+		while ( time < end_time );
+		
+		this->shifter = shifter;
+		this->last_amp = delta >> 1;
+	}
+	delay = time - end_time;
+}
+
+// Sms_Apu
+
+Sms_Apu::Sms_Apu()
+{
+	for ( int i = 0; i < 3; i++ )
+	{
+		squares [i].synth = &square_synth;
+		oscs [i] = &squares [i];
+	}
+	oscs [3] = &noise;
+	
+	volume( 1.0 );
+	reset();
+}
+
+Sms_Apu::~Sms_Apu()
+{
+}
+
+void Sms_Apu::volume( double vol )
+{
+	vol *= 0.85 / (osc_count * 64 * 2);
+	square_synth.volume( vol );
+	noise.synth.volume( vol );
+}
+
+void Sms_Apu::treble_eq( const blip_eq_t& eq )
+{
+	square_synth.treble_eq( eq );
+	noise.synth.treble_eq( eq );
+}
+
+void Sms_Apu::osc_output( int index, Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right )
+{
+	require( (unsigned) index < osc_count );
+	require( (center && left && right) || (!center && !left && !right) );
+	Sms_Osc& osc = *oscs [index];
+	osc.outputs [1] = right;
+	osc.outputs [2] = left;
+	osc.outputs [3] = center;
+	osc.output = osc.outputs [osc.output_select];
+}
+
+void Sms_Apu::output( Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right )
+{
+	for ( int i = 0; i < osc_count; i++ )
+		osc_output( i, center, left, right );
+}
+
+void Sms_Apu::reset( unsigned feedback, int noise_width )
+{
+	last_time = 0;
+	latch = 0;
+	
+	if ( !feedback || !noise_width )
+	{
+		feedback = 0x0009;
+		noise_width = 16;
+	}
+	// convert to "Galios configuration"
+	looped_feedback = 1 << (noise_width - 1);
+	noise_feedback  = 0;
+	while ( noise_width-- )
+	{
+		noise_feedback = (noise_feedback << 1) | (feedback & 1);
+		feedback >>= 1;
+	}
+	
+	squares [0].reset();
+	squares [1].reset();
+	squares [2].reset();
+	noise.reset();
+}
+
+void Sms_Apu::run_until( blip_time_t end_time )
+{
+	require( end_time >= last_time ); // end_time must not be before previous time
+	
+	if ( end_time > last_time )
+	{
+		// run oscillators
+		for ( int i = 0; i < osc_count; ++i )
+		{
+			Sms_Osc& osc = *oscs [i];
+			if ( osc.output )
+			{
+				osc.output->set_modified();
+				if ( i < 3 )
+					squares [i].run( last_time, end_time );
+				else
+					noise.run( last_time, end_time );
+			}
+		}
+		
+		last_time = end_time;
+	}
+}
+
+void Sms_Apu::end_frame( blip_time_t end_time )
+{
+	if ( end_time > last_time )
+		run_until( end_time );
+	
+	assert( last_time >= end_time );
+	last_time -= end_time;
+}
+
+void Sms_Apu::write_ggstereo( blip_time_t time, int data )
+{
+	require( (unsigned) data <= 0xFF );
+	
+	run_until( time );
+	
+	for ( int i = 0; i < osc_count; i++ )
+	{
+		Sms_Osc& osc = *oscs [i];
+		int flags = data >> i;
+		Blip_Buffer* old_output = osc.output;
+		osc.output_select = (flags >> 3 & 2) | (flags & 1);
+		osc.output = osc.outputs [osc.output_select];
+		if ( osc.output != old_output && osc.last_amp )
+		{
+			if ( old_output )
+			{
+				old_output->set_modified();
+				square_synth.offset( time, -osc.last_amp, old_output );
+			}
+			osc.last_amp = 0;
+		}
+	}
+}
+
+// volumes [i] = 64 * pow( 1.26, 15 - i ) / pow( 1.26, 15 )
+static unsigned char const volumes [16] = {
+	64, 50, 39, 31, 24, 19, 15, 12, 9, 7, 5, 4, 3, 2, 1, 0
+};
+
+void Sms_Apu::write_data( blip_time_t time, int data )
+{
+	require( (unsigned) data <= 0xFF );
+	
+	run_until( time );
+	
+	if ( data & 0x80 )
+		latch = data;
+	
+	int index = (latch >> 5) & 3;
+	if ( latch & 0x10 )
+	{
+		oscs [index]->volume = volumes [data & 15];
+	}
+	else if ( index < 3 )
+	{
+		Sms_Square& sq = squares [index];
+		if ( data & 0x80 )
+			sq.period = (sq.period & 0xFF00) | (data << 4 & 0x00FF);
+		else
+			sq.period = (sq.period & 0x00FF) | (data << 8 & 0x3F00);
+	}
+	else
+	{
+		int select = data & 3;
+		if ( select < 3 )
+			noise.period = &noise_periods [select];
+		else
+			noise.period = &squares [2].period;
+		
+		noise.feedback = (data & 0x04) ? noise_feedback : looped_feedback;
+		noise.shifter = 0x8000;
+	}
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Sms_Apu.h b/plugins/gme/game-music-emu-0.5.5/gme/Sms_Apu.h
new file mode 100644
index 00000000..3c11a9c3
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Sms_Apu.h
@@ -0,0 +1,75 @@
+// Sega Master System SN76489 PSG sound chip emulator
+
+// Sms_Snd_Emu 0.1.4
+#ifndef SMS_APU_H
+#define SMS_APU_H
+
+#include "Sms_Oscs.h"
+
+class Sms_Apu {
+public:
+	// Set overall volume of all oscillators, where 1.0 is full volume
+	void volume( double );
+	
+	// Set treble equalization
+	void treble_eq( const blip_eq_t& );
+	
+	// Outputs can be assigned to a single buffer for mono output, or to three
+	// buffers for stereo output (using Stereo_Buffer to do the mixing).
+	
+	// Assign all oscillator outputs to specified buffer(s). If buffer
+	// is NULL, silences all oscillators.
+	void output( Blip_Buffer* mono );
+	void output( Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right );
+	
+	// Assign single oscillator output to buffer(s). Valid indicies are 0 to 3,
+	// which refer to Square 1, Square 2, Square 3, and Noise. If buffer is NULL,
+	// silences oscillator.
+	enum { osc_count = 4 };
+	void osc_output( int index, Blip_Buffer* mono );
+	void osc_output( int index, Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right );
+	
+	// Reset oscillators and internal state
+	void reset( unsigned noise_feedback = 0, int noise_width = 0 );
+	
+	// Write GameGear left/right assignment byte
+	void write_ggstereo( blip_time_t, int );
+	
+	// Write to data port
+	void write_data( blip_time_t, int );
+	
+	// Run all oscillators up to specified time, end current frame, then
+	// start a new frame at time 0.
+	void end_frame( blip_time_t );
+
+public:
+	Sms_Apu();
+	~Sms_Apu();
+private:
+	// noncopyable
+	Sms_Apu( const Sms_Apu& );
+	Sms_Apu& operator = ( const Sms_Apu& );
+	
+	Sms_Osc*    oscs [osc_count];
+	Sms_Square  squares [3];
+	Sms_Square::Synth square_synth; // used by squares
+	blip_time_t last_time;
+	int         latch;
+	Sms_Noise   noise;
+	unsigned    noise_feedback;
+	unsigned    looped_feedback;
+	
+	void run_until( blip_time_t );
+};
+
+struct sms_apu_state_t
+{
+	unsigned char regs [8] [2];
+	unsigned char latch;
+};
+
+inline void Sms_Apu::output( Blip_Buffer* b ) { output( b, b, b ); }
+
+inline void Sms_Apu::osc_output( int i, Blip_Buffer* b ) { osc_output( i, b, b, b ); }
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Sms_Oscs.h b/plugins/gme/game-music-emu-0.5.5/gme/Sms_Oscs.h
new file mode 100644
index 00000000..2a896fef
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Sms_Oscs.h
@@ -0,0 +1,49 @@
+// Private oscillators used by Sms_Apu
+
+// Sms_Snd_Emu 0.1.4
+#ifndef SMS_OSCS_H
+#define SMS_OSCS_H
+
+#include "blargg_common.h"
+#include "Blip_Buffer.h"
+
+struct Sms_Osc
+{
+	Blip_Buffer* outputs [4]; // NULL, right, left, center
+	Blip_Buffer* output;
+	int output_select;
+	
+	int delay;
+	int last_amp;
+	int volume;
+	
+	Sms_Osc();
+	void reset();
+};
+
+struct Sms_Square : Sms_Osc
+{
+	int period;
+	int phase;
+	
+	typedef Blip_Synth<blip_good_quality,1> Synth;
+	const Synth* synth;
+	
+	void reset();
+	void run( blip_time_t, blip_time_t );
+};
+
+struct Sms_Noise : Sms_Osc
+{
+	const int* period;
+	unsigned shifter;
+	unsigned feedback;
+	
+	typedef Blip_Synth<blip_med_quality,1> Synth;
+	Synth synth;
+	
+	void reset();
+	void run( blip_time_t, blip_time_t );
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Snes_Spc.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Snes_Spc.cpp
new file mode 100644
index 00000000..d169b388
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Snes_Spc.cpp
@@ -0,0 +1,489 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Snes_Spc.h"
+
+#include <string.h>
+
+/* Copyright (C) 2004-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+// always in the future (CPU time can go over 0, but not by this much)
+int const timer_disabled_time = 127;
+
+Snes_Spc::Snes_Spc() : dsp( mem.ram ), cpu( this, mem.ram )
+{
+	set_tempo( 1.0 );
+	
+	// Put STOP instruction around memory to catch PC underflow/overflow.
+	memset( mem.padding1, 0xFF, sizeof mem.padding1 );
+	memset( mem.padding2, 0xFF, sizeof mem.padding2 );
+	
+	// A few tracks read from the last four bytes of IPL ROM
+	boot_rom [sizeof boot_rom - 2] = 0xC0;
+	boot_rom [sizeof boot_rom - 1] = 0xFF;
+	memset( boot_rom, 0, sizeof boot_rom - 2 );
+}
+
+void Snes_Spc::set_tempo( double t )
+{
+	int unit = (int) (16.0 / t + 0.5);
+	
+	timer [0].divisor = unit * 8; // 8 kHz
+	timer [1].divisor = unit * 8; // 8 kHz
+	timer [2].divisor = unit;     // 64 kHz
+}
+
+// Load
+
+void Snes_Spc::set_ipl_rom( void const* in )
+{
+	memcpy( boot_rom, in, sizeof boot_rom );
+}
+
+blargg_err_t Snes_Spc::load_spc( const void* data, long size )
+{
+	struct spc_file_t {
+		char    signature [27];
+		char    unused [10];
+		uint8_t pc [2];
+		uint8_t a;
+		uint8_t x;
+		uint8_t y;
+		uint8_t status;
+		uint8_t sp;
+		char    unused2 [212];
+		uint8_t ram [0x10000];
+		uint8_t dsp [128];
+		uint8_t ipl_rom [128];
+	};
+	assert( offsetof (spc_file_t,ipl_rom) == spc_file_size );
+	
+	const spc_file_t* spc = (spc_file_t const*) data;
+	
+	if ( size < spc_file_size )
+		return "Not an SPC file";
+	
+	if ( strncmp( spc->signature, "SNES-SPC700 Sound File Data", 27 ) != 0 )
+		return "Not an SPC file";
+	
+	registers_t regs;
+	regs.pc     = spc->pc [1] * 0x100 + spc->pc [0];
+	regs.a      = spc->a;
+	regs.x      = spc->x;
+	regs.y      = spc->y;
+	regs.status = spc->status;
+	regs.sp     = spc->sp;
+	
+	if ( (unsigned long) size >= sizeof *spc )
+		set_ipl_rom( spc->ipl_rom );
+	
+	const char* error = load_state( regs, spc->ram, spc->dsp );
+	
+	echo_accessed = false;
+	
+	return error;
+}
+
+void Snes_Spc::clear_echo()
+{
+	if ( !(dsp.read( 0x6C ) & 0x20) )
+	{
+		unsigned addr = 0x100 * dsp.read( 0x6D );
+		size_t   size = 0x800 * dsp.read( 0x7D );
+		memset( mem.ram + addr, 0xFF, min( size, sizeof mem.ram - addr ) );
+	}
+}
+
+// Handle other file formats (emulator save states) in user code, not here.
+
+blargg_err_t Snes_Spc::load_state( const registers_t& cpu_state, const void* new_ram,
+		const void* dsp_state )
+{
+	// cpu
+	cpu.r = cpu_state;
+	
+	// Allow DSP to generate one sample before code starts
+	// (Tengai Makyo Zero, Tenjin's Table Toss first notes are lost since it
+	// clears KON 31 cycles from starting execution. It works on the SNES
+	// since the SPC player adds a few extra cycles delay after restoring
+	// KON from the DSP registers at the end of an SPC file).
+	extra_cycles = 32; 
+	
+	// ram
+	memcpy( mem.ram, new_ram, sizeof mem.ram );
+	memcpy( extra_ram, mem.ram + rom_addr, sizeof extra_ram );
+	
+	// boot rom (have to force enable_rom() to update it)
+	rom_enabled = !(mem.ram [0xF1] & 0x80);
+	enable_rom( !rom_enabled );
+	
+	// dsp
+	dsp.reset();
+	int i;
+	for ( i = 0; i < Spc_Dsp::register_count; i++ )
+		dsp.write( i, ((uint8_t const*) dsp_state) [i] );
+	
+	// timers
+	for ( i = 0; i < timer_count; i++ )
+	{
+		Timer& t = timer [i];
+		
+		t.next_tick = 0;
+		t.enabled = (mem.ram [0xF1] >> i) & 1;
+		if ( !t.enabled )
+			t.next_tick = timer_disabled_time;
+		t.count = 0;
+		t.counter = mem.ram [0xFD + i] & 15;
+		
+		int p = mem.ram [0xFA + i];
+		t.period = p ? p : 0x100;
+	}
+	
+	// Handle registers which already give 0 when read by setting RAM and not changing it.
+	// Put STOP instruction in registers which can be read, to catch attempted CPU execution.
+	mem.ram [0xF0] = 0;
+	mem.ram [0xF1] = 0;
+	mem.ram [0xF3] = 0xFF;
+	mem.ram [0xFA] = 0;
+	mem.ram [0xFB] = 0;
+	mem.ram [0xFC] = 0;
+	mem.ram [0xFD] = 0xFF;
+	mem.ram [0xFE] = 0xFF;
+	mem.ram [0xFF] = 0xFF;
+	
+	return 0; // success
+}
+
+// Hardware
+
+// Current time starts negative and ends at 0
+inline spc_time_t Snes_Spc::time() const
+{
+	return -cpu.remain();
+}
+
+// Keep track of next time to run and avoid a function call if it hasn't been reached.
+
+// Timers
+
+void Snes_Spc::Timer::run_until_( spc_time_t time )
+{
+	if ( !enabled )
+		debug_printf( "next_tick: %ld, time: %ld", (long) next_tick, (long) time );
+	assert( enabled ); // when disabled, next_tick should always be in the future
+	
+	int elapsed = ((time - next_tick) / divisor) + 1;
+	next_tick += elapsed * divisor;
+	
+	elapsed += count;
+	if ( elapsed >= period ) // avoid unnecessary division
+	{
+		int n = elapsed / period;
+		elapsed -= n * period;
+		counter = (counter + n) & 15;
+	}
+	count = elapsed;
+}
+
+// DSP
+
+const int clocks_per_sample = 32; // 1.024 MHz CPU clock / 32000 samples per second
+
+void Snes_Spc::run_dsp_( spc_time_t time )
+{
+	int count = ((time - next_dsp) >> 5) + 1; // divide by clocks_per_sample
+	sample_t* buf = sample_buf;
+	if ( buf ) {
+		sample_buf = buf + count * 2; // stereo
+		assert( sample_buf <= buf_end );
+	}
+	next_dsp += count * clocks_per_sample;
+	dsp.run( count, buf );
+}
+
+inline void Snes_Spc::run_dsp( spc_time_t time )
+{
+	if ( time >= next_dsp )
+		run_dsp_( time );
+}
+
+// Debug-only check for read/write within echo buffer, since this might result in
+// inaccurate emulation due to the DSP not being caught up to the present.
+inline void Snes_Spc::check_for_echo_access( spc_addr_t addr )
+{
+	if ( !echo_accessed && !(dsp.read( 0x6C ) & 0x20) )
+	{
+		// ** If echo accesses are found that require running the DSP, cache
+		// the start and end address on DSP writes to speed up checking.
+		
+		unsigned start = 0x100 * dsp.read( 0x6D );
+		unsigned end = start + 0x800 * dsp.read( 0x7D );
+		if ( start <= addr && addr < end ) {
+			echo_accessed = true;
+			debug_printf( "Read/write at $%04X within echo buffer\n", (unsigned) addr );
+		}
+	}
+}
+
+// Read
+
+int Snes_Spc::read( spc_addr_t addr )
+{
+	int result = mem.ram [addr];
+	
+	if ( (rom_addr <= addr && addr < 0xFFFC || addr >= 0xFFFE) && rom_enabled )
+		debug_printf( "Read from ROM: %04X -> %02X\n", addr, result );
+	
+	if ( unsigned (addr - 0xF0) < 0x10 )
+	{
+		assert( 0xF0 <= addr && addr <= 0xFF );
+		
+		// counters
+		int i = addr - 0xFD;
+		if ( i >= 0 )
+		{
+			Timer& t = timer [i];
+			t.run_until( time() );
+			int old = t.counter;
+			t.counter = 0;
+			return old;
+		}
+		
+		// dsp
+		if ( addr == 0xF3 )
+		{
+			run_dsp( time() );
+			if ( mem.ram [0xF2] >= Spc_Dsp::register_count )
+				debug_printf( "DSP read from $%02X\n", (int) mem.ram [0xF2] );
+			return dsp.read( mem.ram [0xF2] & 0x7F );
+		}
+		
+		if ( addr == 0xF0 || addr == 0xF1 || addr == 0xF8 ||
+				addr == 0xF9 || addr == 0xFA )
+			debug_printf( "Read from register $%02X\n", (int) addr );
+		
+		// Registers which always read as 0 are handled by setting mem.ram [reg] to 0
+		// at startup then never changing that value.
+		
+		check(( check_for_echo_access( addr ), true ));
+	}
+	
+	return result;
+}
+
+
+// Write
+
+void Snes_Spc::enable_rom( bool enable )
+{
+	if ( rom_enabled != enable )
+	{
+		rom_enabled = enable;
+		memcpy( mem.ram + rom_addr, (enable ? boot_rom : extra_ram), rom_size );
+		// TODO: ROM can still get overwritten when DSP writes to echo buffer
+	}
+}
+
+void Snes_Spc::write( spc_addr_t addr, int data )
+{
+	// first page is very common
+	if ( addr < 0xF0 ) {
+		mem.ram [addr] = (uint8_t) data;
+	}
+	else switch ( addr )
+	{
+		// RAM
+		default:
+			check(( check_for_echo_access( addr ), true ));
+			if ( addr < rom_addr ) {
+				mem.ram [addr] = (uint8_t) data;
+			}
+			else {
+				extra_ram [addr - rom_addr] = (uint8_t) data;
+				if ( !rom_enabled )
+					mem.ram [addr] = (uint8_t) data;
+			}
+			break;
+		
+		// DSP
+		//case 0xF2: // mapped to RAM
+		case 0xF3: {
+			run_dsp( time() );
+			int reg = mem.ram [0xF2];
+			if ( next_dsp > 0 ) {
+				// skip mode
+				
+				// key press
+				if ( reg == 0x4C )
+					keys_pressed |= data & ~dsp.read( 0x5C );
+				
+				// key release
+				if ( reg == 0x5C ) {
+					keys_released |= data;
+					keys_pressed &= ~data;
+				}
+			}
+			if ( reg < Spc_Dsp::register_count ) {
+				dsp.write( reg, data );
+			}
+			else {
+				debug_printf( "DSP write to $%02X\n", (int) reg );
+			}
+			break;
+		}
+		
+		case 0xF0: // Test register
+			debug_printf( "Wrote $%02X to $F0\n", (int) data );
+			break;
+		
+		// Config
+		case 0xF1:
+		{
+			// timers
+			for ( int i = 0; i < timer_count; i++ )
+			{
+				Timer& t = timer [i];
+				if ( !(data & (1 << i)) ) {
+					t.enabled = 0;
+					t.next_tick = timer_disabled_time;
+				}
+				else if ( !t.enabled ) {
+					// just enabled
+					t.enabled = 1;
+					t.counter = 0;
+					t.count = 0;
+					t.next_tick = time();
+				}
+			}
+			
+			// port clears
+			if ( data & 0x10 ) {
+				mem.ram [0xF4] = 0;
+				mem.ram [0xF5] = 0;
+			}
+			if ( data & 0x20 ) {
+				mem.ram [0xF6] = 0;
+				mem.ram [0xF7] = 0;
+			}
+			
+			enable_rom( (data & 0x80) != 0 );
+			
+			break;
+		}
+		
+		// Ports
+		case 0xF4:
+		case 0xF5:
+		case 0xF6:
+		case 0xF7:
+			// to do: handle output ports
+			break;
+		
+		//case 0xF8: // verified on SNES that these are read/write (RAM)
+		//case 0xF9:
+		
+		// Timers
+		case 0xFA:
+		case 0xFB:
+		case 0xFC: {
+			Timer& t = timer [addr - 0xFA];
+			if ( (t.period & 0xFF) != data ) {
+				t.run_until( time() );
+				t.period = data ? data : 0x100;
+			}
+			break;
+		}
+		
+		// Counters (cleared on write)
+		case 0xFD:
+		case 0xFE:
+		case 0xFF:
+			debug_printf( "Wrote to counter $%02X\n", (int) addr );
+			timer [addr - 0xFD].counter = 0;
+			break;
+	}
+}
+
+// Play
+
+blargg_err_t Snes_Spc::skip( long count )
+{
+	if ( count > 4 * 32000L )
+	{
+		// don't run DSP for long durations (2-3 times faster)
+		
+		const long sync_count = 32000L * 2;
+		
+		// keep track of any keys pressed/released (and not subsequently released)
+		keys_pressed = 0;
+		keys_released = 0;
+		// sentinel tells play to ignore DSP
+		RETURN_ERR( play( count - sync_count, skip_sentinel ) );
+		
+		// press/release keys now
+		dsp.write( 0x5C, keys_released & ~keys_pressed );
+		dsp.write( 0x4C, keys_pressed );
+		
+		clear_echo();
+		
+		// play the last few seconds normally to help synchronize DSP
+		count = sync_count;
+	}
+	
+	return play( count );
+}
+
+blargg_err_t Snes_Spc::play( long count, sample_t* out )
+{
+	require( count % 2 == 0 ); // output is always in pairs of samples
+	
+	// CPU time() runs from -duration to 0
+	spc_time_t duration = (count / 2) * clocks_per_sample;
+	
+	// DSP output is made on-the-fly when the CPU reads/writes DSP registers
+	sample_buf = out;
+	buf_end = out + (out && out != skip_sentinel ? count : 0);
+	next_dsp = (out == skip_sentinel) ? clocks_per_sample : -duration + clocks_per_sample;
+	
+	// Localize timer next_tick times and run them to the present to prevent a running
+	// but ignored timer's next_tick from getting too far behind and overflowing.
+	for ( int i = 0; i < timer_count; i++ )
+	{
+		Timer& t = timer [i];
+		if ( t.enabled )
+		{
+			t.next_tick -= duration;
+			t.run_until( -duration );
+		}
+	}
+	
+	// Run CPU for duration, reduced by any extra cycles from previous run
+	int elapsed = cpu.run( duration - extra_cycles );
+	if ( elapsed > 0 )
+	{
+		debug_printf( "Unhandled instruction $%02X, pc = $%04X\n",
+				(int) cpu.read( cpu.r.pc ), (unsigned) cpu.r.pc );
+		return "Emulation error (illegal/unsupported instruction)";
+	}
+	extra_cycles = -elapsed;
+	
+	// Catch DSP up to present.
+	run_dsp( 0 );
+	if ( out ) {
+		assert( next_dsp == clocks_per_sample );
+		assert( out == skip_sentinel || sample_buf - out == count );
+	}
+	buf_end = 0;
+	
+	return 0;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Snes_Spc.h b/plugins/gme/game-music-emu-0.5.5/gme/Snes_Spc.h
new file mode 100644
index 00000000..1df51613
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Snes_Spc.h
@@ -0,0 +1,121 @@
+// Super Nintendo (SNES) SPC-700 APU Emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef SNES_SPC_H
+#define SNES_SPC_H
+
+#include "blargg_common.h"
+#include "Spc_Cpu.h"
+#include "Spc_Dsp.h"
+
+class Snes_Spc {
+public:
+	
+	// Load copy of SPC data into emulator. Clear echo buffer if 'clear_echo' is true.
+	enum { spc_file_size = 0x10180 };
+	blargg_err_t load_spc( const void* spc, long spc_size );
+	
+	// Generate 'count' samples and optionally write to 'buf'. Count must be even.
+	// Sample output is 16-bit 32kHz, signed stereo pairs with the left channel first.
+	typedef short sample_t;
+	blargg_err_t play( long count, sample_t* buf = NULL );
+	
+// Optional functionality
+	
+	// Load copy of state into emulator.
+	typedef Spc_Cpu::registers_t registers_t;
+	blargg_err_t load_state( const registers_t& cpu_state, const void* ram_64k,
+		const void* dsp_regs_128 );
+	
+	// Clear echo buffer, useful because many tracks have junk in the buffer.
+	void clear_echo();
+	
+	// Mute voice n if bit n (1 << n) of mask is set
+	enum { voice_count = Spc_Dsp::voice_count };
+	void mute_voices( int mask );
+	
+	// Skip forward by the specified number of samples (64000 samples = 1 second)
+	blargg_err_t skip( long count );
+	
+	// Set gain, where 1.0 is normal. When greater than 1.0, output is clamped the
+	// 16-bit sample range.
+	void set_gain( double );
+	
+	// If true, prevent channels and global volumes from being phase-negated
+	void disable_surround( bool disable = true );
+	
+	// Set 128 bytes to use for IPL boot ROM. Makes copy. Default is zero filled,
+	// to avoid including copyrighted code from the SPC-700.
+	void set_ipl_rom( const void* );
+	
+	void set_tempo( double );
+	
+public:
+	Snes_Spc();
+	typedef BOOST::uint8_t uint8_t;
+private:
+	// timers
+	struct Timer
+	{
+		spc_time_t next_tick;
+		int period;
+		int count;
+		int divisor;
+		int enabled;
+		int counter;
+		
+		void run_until_( spc_time_t );
+		void run_until( spc_time_t time )
+		{
+			if ( time >= next_tick )
+				run_until_( time );
+		}
+	};
+	enum { timer_count = 3 };
+	Timer timer [timer_count];
+
+	// hardware
+	int extra_cycles;
+	spc_time_t time() const;
+	int  read( spc_addr_t );
+	void write( spc_addr_t, int );
+	friend class Spc_Cpu;
+	
+	// dsp
+	sample_t* sample_buf;
+	sample_t* buf_end; // to do: remove this once possible bug resolved
+	spc_time_t next_dsp;
+	Spc_Dsp dsp;
+	int keys_pressed;
+	int keys_released;
+	sample_t skip_sentinel [1]; // special value for play() passed by skip()
+	void run_dsp( spc_time_t );
+	void run_dsp_( spc_time_t );
+	bool echo_accessed;
+	void check_for_echo_access( spc_addr_t );
+	
+	// boot rom
+	enum { rom_size = 64 };
+	enum { rom_addr = 0xFFC0 };
+	bool rom_enabled;
+	void enable_rom( bool );
+	
+	// CPU and RAM (at end because it's large)
+	Spc_Cpu cpu;
+	uint8_t extra_ram [rom_size];
+	struct {
+		// padding to catch jumps before beginning or past end
+		uint8_t padding1 [0x100];
+		uint8_t ram [0x10000];
+		uint8_t padding2 [0x100];
+	} mem;
+	uint8_t boot_rom [rom_size];
+};
+
+inline void Snes_Spc::disable_surround( bool disable ) { dsp.disable_surround( disable ); }
+
+inline void Snes_Spc::mute_voices( int mask ) { dsp.mute_voices( mask ); }
+
+inline void Snes_Spc::set_gain( double v ) { dsp.set_gain( v ); }
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Spc_Cpu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Spc_Cpu.cpp
new file mode 100644
index 00000000..8b61a455
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Spc_Cpu.cpp
@@ -0,0 +1,1062 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Spc_Cpu.h"
+
+#include "blargg_endian.h"
+#include "Snes_Spc.h"
+
+/* Copyright (C) 2004-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+// Several instructions are commented out (or not even implemented). These aren't
+// used by the SPC files tested.
+
+// Optimize performance for the most common instructions, and size for the rest:
+//
+// 15%  0xF0    BEQ rel
+//  8%  0xE4    MOV A,dp
+//  4%  0xF5    MOV A,abs+X
+//  4%  0xD0    BNE rel
+//  4%  0x6F    RET
+//  4%  0x3F    CALL addr
+//  4%  0xF4    MOV A,dp+X
+//  3%  0xC4    MOV dp,A
+//  2%  0xEB    MOV Y,dp
+//  2%  0x3D    INC X
+//  2%  0xF6    MOV A,abs+Y
+// (1% and below not shown)
+
+Spc_Cpu::Spc_Cpu( Snes_Spc* e, uint8_t* ram_in ) : ram( ram_in ), emu( *e )
+{
+	remain_ = 0;
+	assert( INT_MAX >= 0x7FFFFFFF ); // requires 32-bit int
+	blargg_verify_byte_order();
+}
+
+#define READ( addr )            (emu.read( addr ))
+#define WRITE( addr, value )    (emu.write( addr, value ))
+
+#define READ_DP( addr )         READ( (addr) + dp )
+#define WRITE_DP( addr, value ) WRITE( (addr) + dp, value )
+
+#define READ_PROG( addr )       (ram [addr])
+#define READ_PROG16( addr )     GET_LE16( &READ_PROG( addr ) )
+
+int Spc_Cpu::read( spc_addr_t addr )
+{
+	return READ( addr );
+}
+
+void Spc_Cpu::write( spc_addr_t addr, int data )
+{
+	WRITE( addr, data );
+}
+
+// Cycle table derived from text copy of SPC-700 manual (using regular expressions)
+static unsigned char const cycle_table [0x100] = {
+//  0 1 2 3 4 5 6 7 8 9 A B C D E F
+	2,8,4,5,3,4,3,6,2,6,5,4,5,4,6,8, // 0
+	2,8,4,5,4,5,5,6,5,5,6,5,2,2,4,6, // 1
+	2,8,4,5,3,4,3,6,2,6,5,4,5,4,5,4, // 2
+	2,8,4,5,4,5,5,6,5,5,6,5,2,2,3,8, // 3
+	2,8,4,5,3,4,3,6,2,6,4,4,5,4,6,6, // 4
+	2,8,4,5,4,5,5,6,5,5,4,5,2,2,4,3, // 5
+	2,8,4,5,3,4,3,6,2,6,4,4,5,4,5,5, // 6
+	2,8,4,5,4,5,5,6,5,5,5,5,2,2,3,6, // 7
+	2,8,4,5,3,4,3,6,2,6,5,4,5,2,4,5, // 8
+	2,8,4,5,4,5,5,6,5,5,5,5,2,2,12,5,// 9
+	3,8,4,5,3,4,3,6,2,6,4,4,5,2,4,4, // A
+	2,8,4,5,4,5,5,6,5,5,5,5,2,2,3,4, // B
+	3,8,4,5,4,5,4,7,2,5,6,4,5,2,4,9, // C
+	2,8,4,5,5,6,6,7,4,5,4,5,2,2,6,3, // D
+	2,8,4,5,3,4,3,6,2,4,5,3,4,3,4,3, // E
+	2,8,4,5,4,5,5,6,3,4,5,4,2,2,4,3  // F
+};
+
+// The C,mem instructions are hardly used, so a non-inline function is used for
+// the common access code.
+unsigned Spc_Cpu::mem_bit( spc_addr_t pc )
+{
+	unsigned addr = READ_PROG16( pc );
+	unsigned t = READ( addr & 0x1FFF ) >> (addr >> 13);
+	return (t << 8) & 0x100;
+}
+
+spc_time_t Spc_Cpu::run( spc_time_t cycle_count )
+{
+	remain_ = cycle_count;
+	
+	uint8_t* const ram = this->ram; // cache
+	
+	// Stack pointer is kept one greater than usual SPC stack pointer to allow
+	// common pre-decrement and post-increment memory instructions that some
+	// processors have. Address wrap-around isn't supported.
+	#define PUSH( v )       (*--sp = uint8_t (v))
+	#define PUSH16( v )     (sp -= 2, SET_LE16( sp, v ))
+	#define POP()           (*sp++)
+	#define SET_SP( v )     (sp = ram + 0x101 + (v))
+	#define GET_SP()        (sp - 0x101 - ram)
+
+	uint8_t* sp;
+	SET_SP( r.sp );
+	
+	// registers
+	unsigned pc = (unsigned) r.pc;
+	int a = r.a;
+	int x = r.x;
+	int y = r.y;
+	
+	// status flags
+	
+	const int st_n = 0x80;
+	const int st_v = 0x40;
+	const int st_p = 0x20;
+	const int st_b = 0x10;
+	const int st_h = 0x08;
+	const int st_i = 0x04;
+	const int st_z = 0x02;
+	const int st_c = 0x01;
+	
+	#define IS_NEG (nz & 0x880)
+	
+	#define CALC_STATUS( out ) do {\
+		out = status & ~(st_n | st_z | st_c);\
+		out |= (c >> 8) & st_c;\
+		out |= (dp >> 3) & st_p;\
+		if ( IS_NEG ) out |= st_n;\
+		if ( !(nz & 0xFF) ) out |= st_z;\
+	} while ( 0 )       
+
+	#define SET_STATUS( in ) do {\
+		status = in & ~(st_n | st_z | st_c | st_p);\
+		c = in << 8;\
+		nz = (in << 4) & 0x800;\
+		nz |= ~in & st_z;\
+		dp = (in << 3) & 0x100;\
+	} while ( 0 )
+	
+	int status;
+	int c;  // store C as 'c' & 0x100.
+	int nz; // Z set if (nz & 0xFF) == 0, N set if (nz & 0x880) != 0
+	unsigned dp; // direct page base
+	{
+		int temp = r.status;
+		SET_STATUS( temp );
+	}
+
+	goto loop;
+	
+	unsigned data; // first operand of instruction and temporary across function calls
+	
+	// Common endings for instructions
+cbranch_taken_loop: // compare and branch
+	pc += (BOOST::int8_t) READ_PROG( pc );
+	remain_ -= 2;
+inc_pc_loop: // end of instruction with an operand
+	pc++;
+loop:
+	
+	check( (unsigned) pc < 0x10000 );
+	check( (unsigned) GET_SP() < 0x100 );
+	
+	check( (unsigned) a < 0x100 );
+	check( (unsigned) x < 0x100 );
+	check( (unsigned) y < 0x100 );
+	
+	unsigned opcode = READ_PROG( pc );
+	pc++;
+	// to do: if pc is at end of memory, this will get wrong byte
+	data = READ_PROG( pc );
+	
+	if ( remain_ <= 0 )
+		goto stop;
+	
+	remain_ -= cycle_table [opcode];
+	
+	// Use 'data' for temporaries whose lifetime crosses read/write calls, otherwise
+	// use a local temporary.
+	switch ( opcode )
+	{
+	
+	#define BRANCH( cond ) {\
+		pc++;\
+		int offset = (BOOST::int8_t) data;\
+		if ( cond ) {\
+			pc += offset;\
+			remain_ -= 2;\
+		}\
+		goto loop;\
+	}
+	
+// Most-Common
+
+	case 0xF0: // BEQ (most common)
+		BRANCH( !(uint8_t) nz )
+	
+	case 0xD0: // BNE
+		BRANCH( (uint8_t) nz )
+	
+	case 0x3F: // CALL
+		PUSH16( pc + 2 );
+		pc = READ_PROG16( pc );
+		goto loop;
+	
+	case 0x6F: // RET
+		pc = POP();
+		pc += POP() * 0x100;
+		goto loop;
+
+#define CASE( n )   case n:
+
+// Define common address modes based on opcode for immediate mode. Execution
+// ends with data set to the address of the operand.
+#define ADDR_MODES( op )\
+	CASE( op - 0x02 ) /* (X) */\
+		data = x + dp;\
+		pc--;\
+		goto end_##op;\
+	CASE( op + 0x0F ) /* (dp)+Y */\
+		data = READ_PROG16( data + dp ) + y;\
+		goto end_##op;\
+	CASE( op - 0x01 ) /* (dp+X) */\
+		data = READ_PROG16( uint8_t (data + x) + dp );\
+		goto end_##op;\
+	CASE( op + 0x0E ) /* abs+Y */\
+		data += y;\
+		goto abs_##op;\
+	CASE( op + 0x0D ) /* abs+X */\
+		data += x;\
+	CASE( op - 0x03 ) /* abs */\
+	abs_##op:\
+		pc++;\
+		data += 0x100 * READ_PROG( pc );\
+		goto end_##op;\
+	CASE( op + 0x0C ) /* dp+X */\
+		data = uint8_t (data + x);\
+	CASE( op - 0x04 ) /* dp */\
+		data += dp;\
+	end_##op:
+
+// 1. 8-bit Data Transmission Commands. Group I
+
+	ADDR_MODES( 0xE8 ) // MOV A,addr
+	// case 0xE4: // MOV a,dp (most common)
+	mov_a_addr:
+		a = nz = READ( data );
+		goto inc_pc_loop;
+	case 0xBF: // MOV A,(X)+
+		data = x + dp;
+		x = uint8_t (x + 1);
+		pc--;
+		goto mov_a_addr;
+	
+	case 0xE8: // MOV A,imm
+		a = data;
+		nz = data;
+		goto inc_pc_loop;
+	
+	case 0xF9: // MOV X,dp+Y
+		data = uint8_t (data + y);
+	case 0xF8: // MOV X,dp
+		data += dp;
+		goto mov_x_addr;
+	case 0xE9: // MOV X,abs
+		data = READ_PROG16( pc );
+		pc++;
+	mov_x_addr:
+		data = READ( data );
+	case 0xCD: // MOV X,imm
+		x = data;
+		nz = data;
+		goto inc_pc_loop;
+	
+	case 0xFB: // MOV Y,dp+X
+		data = uint8_t (data + x);
+	case 0xEB: // MOV Y,dp
+		data += dp;
+		goto mov_y_addr;
+	case 0xEC: // MOV Y,abs
+		data = READ_PROG16( pc );
+		pc++;
+	mov_y_addr:
+		data = READ( data );
+	case 0x8D: // MOV Y,imm
+		y = data;
+		nz = data;
+		goto inc_pc_loop;
+
+// 2. 8-BIT DATA TRANSMISSION COMMANDS, GROUP 2
+
+	ADDR_MODES( 0xC8 ) // MOV addr,A
+		WRITE( data, a );
+		goto inc_pc_loop;
+	
+	{
+		int temp;
+	case 0xCC: // MOV abs,Y
+		temp = y;
+		goto mov_abs_temp;
+	case 0xC9: // MOV abs,X
+		temp = x;
+	mov_abs_temp:
+		WRITE( READ_PROG16( pc ), temp );
+		pc += 2;
+		goto loop;
+	}
+	
+	case 0xD9: // MOV dp+Y,X
+		data = uint8_t (data + y);
+	case 0xD8: // MOV dp,X
+		WRITE( data + dp, x );
+		goto inc_pc_loop;
+	
+	case 0xDB: // MOV dp+X,Y
+		data = uint8_t (data + x);
+	case 0xCB: // MOV dp,Y
+		WRITE( data + dp, y );
+		goto inc_pc_loop;
+
+	case 0xFA: // MOV dp,dp
+		data = READ( data + dp );
+	case 0x8F: // MOV dp,#imm
+		pc++;
+		WRITE_DP( READ_PROG( pc ), data );
+		goto inc_pc_loop;
+	
+// 3. 8-BIT DATA TRANSMISSIN COMMANDS, GROUP 3.
+	
+	case 0x7D: // MOV A,X
+		a = x;
+		nz = x;
+		goto loop;
+	
+	case 0xDD: // MOV A,Y
+		a = y;
+		nz = y;
+		goto loop;
+	
+	case 0x5D: // MOV X,A
+		x = a;
+		nz = a;
+		goto loop;
+	
+	case 0xFD: // MOV Y,A
+		y = a;
+		nz = a;
+		goto loop;
+	
+	case 0x9D: // MOV X,SP
+		x = nz = GET_SP();
+		goto loop;
+	
+	case 0xBD: // MOV SP,X
+		SET_SP( x );
+		goto loop;
+	
+	//case 0xC6: // MOV (X),A (handled by MOV addr,A in group 2)
+	
+	case 0xAF: // MOV (X)+,A
+		WRITE_DP( x, a );
+		x++;
+		goto loop;
+	
+// 5. 8-BIT LOGIC OPERATION COMMANDS
+	
+#define LOGICAL_OP( op, func )\
+	ADDR_MODES( op ) /* addr */\
+		data = READ( data );\
+	case op: /* imm */\
+		nz = a func##= data;\
+		goto inc_pc_loop;\
+	{   unsigned addr;\
+	case op + 0x11: /* X,Y */\
+		data = READ_DP( y );\
+		addr = x + dp;\
+		pc--;\
+		goto addr_##op;\
+	case op + 0x01: /* dp,dp */\
+		data = READ_DP( data );\
+	case op + 0x10: /*dp,imm*/\
+		pc++;\
+		addr = READ_PROG( pc ) + dp;\
+	addr_##op:\
+		nz = data func READ( addr );\
+		WRITE( addr, nz );\
+		goto inc_pc_loop;\
+	}
+	
+	LOGICAL_OP( 0x28, & ); // AND
+	
+	LOGICAL_OP( 0x08, | ); // OR
+	
+	LOGICAL_OP( 0x48, ^ ); // EOR
+	
+// 4. 8-BIT ARITHMETIC OPERATION COMMANDS
+
+	ADDR_MODES( 0x68 ) // CMP addr
+		data = READ( data );
+	case 0x68: // CMP imm
+		nz = a - data;
+		c = ~nz;
+		nz &= 0xFF;
+		goto inc_pc_loop;
+	
+	case 0x79: // CMP (X),(Y)
+		data = READ_DP( x );
+		nz = data - READ_DP( y );
+		c = ~nz;
+		nz &= 0xFF;
+		goto loop;
+	
+	case 0x69: // CMP (dp),(dp)
+		data = READ_DP( data );
+	case 0x78: // CMP dp,imm
+		pc++;
+		nz = READ_DP( READ_PROG( pc ) ) - data;
+		c = ~nz;
+		nz &= 0xFF;
+		goto inc_pc_loop;
+	
+	case 0x3E: // CMP X,dp
+		data += dp;
+		goto cmp_x_addr;
+	case 0x1E: // CMP X,abs
+		data = READ_PROG16( pc );
+		pc++;
+	cmp_x_addr:
+		data = READ( data );
+	case 0xC8: // CMP X,imm
+		nz = x - data;
+		c = ~nz;
+		nz &= 0xFF;
+		goto inc_pc_loop;
+	
+	case 0x7E: // CMP Y,dp
+		data += dp;
+		goto cmp_y_addr;
+	case 0x5E: // CMP Y,abs
+		data = READ_PROG16( pc );
+		pc++;
+	cmp_y_addr:
+		data = READ( data );
+	case 0xAD: // CMP Y,imm
+		nz = y - data;
+		c = ~nz;
+		nz &= 0xFF;
+		goto inc_pc_loop;
+	
+	{
+		int addr;
+	case 0xB9: // SBC (x),(y)
+	case 0x99: // ADC (x),(y)
+		pc--; // compensate for inc later
+		data = READ_DP( x );
+		addr = y + dp;
+		goto adc_addr;
+	case 0xA9: // SBC dp,dp
+	case 0x89: // ADC dp,dp
+		data = READ_DP( data );
+	case 0xB8: // SBC dp,imm
+	case 0x98: // ADC dp,imm
+		pc++;
+		addr = READ_PROG( pc ) + dp;
+	adc_addr:
+		nz = READ( addr );
+		goto adc_data;
+		
+// catch ADC and SBC together, then decode later based on operand
+#undef CASE
+#define CASE( n ) case n: case (n) + 0x20:
+	ADDR_MODES( 0x88 ) // ADC/SBC addr
+		data = READ( data );
+	case 0xA8: // SBC imm
+	case 0x88: // ADC imm
+		addr = -1; // A
+		nz = a;
+	adc_data: {
+		if ( opcode & 0x20 )
+			data ^= 0xFF; // SBC
+		int carry = (c >> 8) & 1;
+		int ov = (nz ^ 0x80) + carry + (BOOST::int8_t) data; // sign-extend
+		int hc = (nz & 15) + carry;
+		c = nz += data + carry;
+		hc = (nz & 15) - hc;
+		status = (status & ~(st_v | st_h)) | ((ov >> 2) & st_v) | ((hc >> 1) & st_h);
+		if ( addr < 0 ) {
+			a = (uint8_t) nz;
+			goto inc_pc_loop;
+		}
+		WRITE( addr, (uint8_t) nz );
+		goto inc_pc_loop;
+	}
+	
+	}
+	
+// 6. ADDITION & SUBTRACTION COMMANDS
+
+#define INC_DEC_REG( reg, n )\
+		nz = reg + n;\
+		reg = (uint8_t) nz;\
+		goto loop;
+
+	case 0xBC: INC_DEC_REG( a, 1 )  // INC A
+	case 0x3D: INC_DEC_REG( x, 1 )  // INC X
+	case 0xFC: INC_DEC_REG( y, 1 )  // INC Y
+	
+	case 0x9C: INC_DEC_REG( a, -1 ) // DEC A
+	case 0x1D: INC_DEC_REG( x, -1 ) // DEC X
+	case 0xDC: INC_DEC_REG( y, -1 ) // DEC Y
+
+	case 0x9B: // DEC dp+X
+	case 0xBB: // INC dp+X
+		data = uint8_t (data + x);
+	case 0x8B: // DEC dp
+	case 0xAB: // INC dp
+		data += dp;
+		goto inc_abs;
+	case 0x8C: // DEC abs
+	case 0xAC: // INC abs
+		data = READ_PROG16( pc );
+		pc++;
+	inc_abs:
+		nz = ((opcode >> 4) & 2) - 1;
+		nz += READ( data );
+		WRITE( data, (uint8_t) nz );
+		goto inc_pc_loop;
+	
+// 7. SHIFT, ROTATION COMMANDS
+
+	case 0x5C: // LSR A
+		c = 0;
+	case 0x7C:{// ROR A
+		nz = ((c >> 1) & 0x80) | (a >> 1);
+		c = a << 8;
+		a = nz;
+		goto loop;
+	}
+	
+	case 0x1C: // ASL A
+		c = 0;
+	case 0x3C:{// ROL A
+		int temp = (c >> 8) & 1;
+		c = a << 1;
+		nz = c | temp;
+		a = (uint8_t) nz;
+		goto loop;
+	}
+	
+	case 0x0B: // ASL dp
+		c = 0;
+		data += dp;
+		goto rol_mem;
+	case 0x1B: // ASL dp+X
+		c = 0;
+	case 0x3B: // ROL dp+X
+		data = uint8_t (data + x);
+	case 0x2B: // ROL dp
+		data += dp;
+		goto rol_mem;
+	case 0x0C: // ASL abs
+		c = 0;
+	case 0x2C: // ROL abs
+		data = READ_PROG16( pc );
+		pc++;
+	rol_mem:
+		nz = (c >> 8) & 1;
+		nz |= (c = READ( data ) << 1);
+		WRITE( data, (uint8_t) nz );
+		goto inc_pc_loop;
+	
+	case 0x4B: // LSR dp
+		c = 0;
+		data += dp;
+		goto ror_mem;
+	case 0x5B: // LSR dp+X
+		c = 0;
+	case 0x7B: // ROR dp+X
+		data = uint8_t (data + x);
+	case 0x6B: // ROR dp
+		data += dp;
+		goto ror_mem;
+	case 0x4C: // LSR abs
+		c = 0;
+	case 0x6C: // ROR abs
+		data = READ_PROG16( pc );
+		pc++;
+	ror_mem: {
+		int temp = READ( data );
+		nz = ((c >> 1) & 0x80) | (temp >> 1);
+		c = temp << 8;
+		WRITE( data, nz );
+		goto inc_pc_loop;
+	}
+
+	case 0x9F: // XCN
+		nz = a = (a >> 4) | uint8_t (a << 4);
+		goto loop;
+
+// 8. 16-BIT TRANSMISION COMMANDS
+
+	case 0xBA: // MOVW YA,dp
+		a = READ_DP( data );
+		nz = (a & 0x7F) | (a >> 1);
+		y = READ_DP( uint8_t (data + 1) );
+		nz |= y;
+		goto inc_pc_loop;
+	
+	case 0xDA: // MOVW dp,YA
+		WRITE_DP( data, a );
+		WRITE_DP( uint8_t (data + 1), y );
+		goto inc_pc_loop;
+	
+// 9. 16-BIT OPERATION COMMANDS
+
+	case 0x3A: // INCW dp
+	case 0x1A:{// DECW dp
+		data += dp;
+		
+		// low byte
+		int temp = READ( data );
+		temp += ((opcode >> 4) & 2) - 1; // +1 for INCW, -1 for DECW
+		nz = ((temp >> 1) | temp) & 0x7F;
+		WRITE( data, (uint8_t) temp );
+		
+		// high byte
+		data = uint8_t (data + 1) + dp;
+		temp >>= 8;
+		temp = uint8_t (temp + READ( data ));
+		nz |= temp;
+		WRITE( data, temp );
+		
+		goto inc_pc_loop;
+	}
+		
+	case 0x9A: // SUBW YA,dp
+	case 0x7A: // ADDW YA,dp
+	{
+		// read 16-bit addend
+		int temp = READ_DP( data );
+		int sign = READ_DP( uint8_t (data + 1) );
+		temp += 0x100 * sign;
+		status &= ~(st_v | st_h);
+		
+		// to do: fix half-carry for SUBW (it's probably wrong)
+		
+		// for SUBW, negate and truncate to 16 bits
+		if ( opcode & 0x80 ) {
+			temp = (temp ^ 0xFFFF) + 1;
+			sign = temp >> 8;
+		}
+		
+		// add low byte (A)
+		temp += a;
+		a = (uint8_t) temp;
+		nz = (temp | (temp >> 1)) & 0x7F;
+		
+		// add high byte (Y)
+		temp >>= 8;
+		c = y + temp;
+		nz = (nz | c) & 0xFF;
+		
+		// half-carry (temporary avoids CodeWarrior optimizer bug)
+		unsigned hc = (c & 15) - (y & 15);
+		status |= (hc >> 4) & st_h;
+		
+		// overflow if sign of YA changed when previous sign and addend sign were same
+		status |= (((c ^ y) & ~(y ^ sign)) >> 1) & st_v;
+		
+		y = (uint8_t) c;
+		
+		goto inc_pc_loop;
+	}
+	
+	case 0x5A: { // CMPW YA,dp
+		int temp = a - READ_DP( data );
+		nz = ((temp >> 1) | temp) & 0x7F;
+		temp = y + (temp >> 8);
+		temp -= READ_DP( uint8_t (data + 1) );
+		nz |= temp;
+		c = ~temp;
+		nz &= 0xFF;
+		goto inc_pc_loop;
+	}
+	
+// 10. MULTIPLICATION & DIVISON COMMANDS
+
+	case 0xCF: { // MUL YA
+		unsigned temp = y * a;
+		a = (uint8_t) temp;
+		nz = ((temp >> 1) | temp) & 0x7F;
+		y = temp >> 8;
+		nz |= y;
+		goto loop;
+	}
+	
+	case 0x9E: // DIV YA,X
+	{
+		// behavior based on SPC CPU tests
+		
+		status &= ~(st_h | st_v);
+		
+		if ( (y & 15) >= (x & 15) )
+			status |= st_h;
+		
+		if ( y >= x )
+			status |= st_v;
+		
+		unsigned ya = y * 0x100 + a;
+		if ( y < x * 2 )
+		{
+			a = ya / x;
+			y = ya - a * x;
+		}
+		else
+		{
+			a = 255 - (ya - x * 0x200) / (256 - x);
+			y = x   + (ya - x * 0x200) % (256 - x);
+		}
+		
+		nz = (uint8_t) a;
+		a = (uint8_t) a;
+		
+		goto loop;
+	}
+	
+// 11. DECIMAL COMPENSATION COMMANDS
+	
+	// seem unused
+	// case 0xDF: // DAA
+	// case 0xBE: // DAS
+	
+// 12. BRANCHING COMMANDS
+
+	case 0x2F: // BRA rel
+		pc += (BOOST::int8_t) data;
+		goto inc_pc_loop;
+	
+	case 0x30: // BMI
+		BRANCH( IS_NEG )
+	
+	case 0x10: // BPL
+		BRANCH( !IS_NEG )
+	
+	case 0xB0: // BCS
+		BRANCH( c & 0x100 )
+	
+	case 0x90: // BCC
+		BRANCH( !(c & 0x100) )
+	
+	case 0x70: // BVS
+		BRANCH( status & st_v )
+	
+	case 0x50: // BVC
+		BRANCH( !(status & st_v) )
+	
+	case 0x03: // BBS dp.bit,rel
+	case 0x23:
+	case 0x43:
+	case 0x63:
+	case 0x83:
+	case 0xA3:
+	case 0xC3:
+	case 0xE3:
+		pc++;
+		if ( (READ_DP( data ) >> (opcode >> 5)) & 1 )
+			goto cbranch_taken_loop;
+		goto inc_pc_loop;
+	
+	case 0x13: // BBC dp.bit,rel
+	case 0x33:
+	case 0x53:
+	case 0x73:
+	case 0x93:
+	case 0xB3:
+	case 0xD3:
+	case 0xF3:
+		pc++;
+		if ( !((READ_DP( data ) >> (opcode >> 5)) & 1) )
+			goto cbranch_taken_loop;
+		goto inc_pc_loop;
+	
+	case 0xDE: // CBNE dp+X,rel
+		data = uint8_t (data + x);
+		// fall through
+	case 0x2E: // CBNE dp,rel
+		pc++;
+		if ( READ_DP( data ) != a )
+			goto cbranch_taken_loop;
+		goto inc_pc_loop;
+	
+	case 0xFE: // DBNZ Y,rel
+		y = uint8_t (y - 1);
+		BRANCH( y )
+	
+	case 0x6E: { // DBNZ dp,rel
+		pc++;
+		unsigned temp = READ_DP( data ) - 1;
+		WRITE_DP( (uint8_t) data, (uint8_t) temp );
+		if ( temp )
+			goto cbranch_taken_loop;
+		goto inc_pc_loop;
+	}
+	
+	case 0x1F: // JMP (abs+X)
+		pc = READ_PROG16( pc ) + x;
+		// fall through
+	case 0x5F: // JMP abs
+		pc = READ_PROG16( pc );
+		goto loop;
+	
+// 13. SUB-ROUTINE CALL RETURN COMMANDS
+	
+	case 0x0F:{// BRK
+		check( false ); // untested
+		PUSH16( pc + 1 );
+		pc = READ_PROG16( 0xFFDE ); // vector address verified
+		int temp;
+		CALC_STATUS( temp );
+		PUSH( temp );
+		status = (status | st_b) & ~st_i;
+		goto loop;
+	}
+	
+	case 0x4F: // PCALL offset
+		pc++;
+		PUSH16( pc );
+		pc = 0xFF00 + data;
+		goto loop;
+	
+	case 0x01: // TCALL n
+	case 0x11:
+	case 0x21:
+	case 0x31:
+	case 0x41:
+	case 0x51:
+	case 0x61:
+	case 0x71:
+	case 0x81:
+	case 0x91:
+	case 0xA1:
+	case 0xB1:
+	case 0xC1:
+	case 0xD1:
+	case 0xE1:
+	case 0xF1:
+		PUSH16( pc );
+		pc = READ_PROG16( 0xFFDE - (opcode >> 3) );
+		goto loop;
+	
+// 14. STACK OPERATION COMMANDS
+
+	{
+		int temp;
+	case 0x7F: // RET1
+		temp = POP();
+		pc = POP();
+		pc |= POP() << 8;
+		goto set_status;
+	case 0x8E: // POP PSW
+		temp = POP();
+	set_status:
+		SET_STATUS( temp );
+		goto loop;
+	}
+	
+	case 0x0D: { // PUSH PSW
+		int temp;
+		CALC_STATUS( temp );
+		PUSH( temp );
+		goto loop;
+	}
+
+	case 0x2D: // PUSH A
+		PUSH( a );
+		goto loop;
+	
+	case 0x4D: // PUSH X
+		PUSH( x );
+		goto loop;
+	
+	case 0x6D: // PUSH Y
+		PUSH( y );
+		goto loop;
+	
+	case 0xAE: // POP A
+		a = POP();
+		goto loop;
+	
+	case 0xCE: // POP X
+		x = POP();
+		goto loop;
+	
+	case 0xEE: // POP Y
+		y = POP();
+		goto loop;
+	
+// 15. BIT OPERATION COMMANDS
+
+	case 0x02: // SET1
+	case 0x22:
+	case 0x42:
+	case 0x62:
+	case 0x82:
+	case 0xA2:
+	case 0xC2:
+	case 0xE2:
+	case 0x12: // CLR1
+	case 0x32:
+	case 0x52:
+	case 0x72:
+	case 0x92:
+	case 0xB2:
+	case 0xD2:
+	case 0xF2: {
+		data += dp;
+		int bit = 1 << (opcode >> 5);
+		int mask = ~bit;
+		if ( opcode & 0x10 )
+			bit = 0;
+		WRITE( data, (READ( data ) & mask) | bit );
+		goto inc_pc_loop;
+	}
+		
+	case 0x0E: // TSET1 abs
+	case 0x4E:{// TCLR1 abs
+		data = READ_PROG16( pc );
+		pc += 2;
+		unsigned temp = READ( data );
+		nz = temp & a;
+		temp &= ~a;
+		if ( !(opcode & 0x40) )
+			temp |= a;
+		WRITE( data, temp );
+		goto loop;
+	}
+	
+	case 0x4A: // AND1 C,mem.bit
+		c &= mem_bit( pc );
+		pc += 2;
+		goto loop;
+	
+	case 0x6A: // AND1 C,/mem.bit
+		check( false ); // untested
+		c &= ~mem_bit( pc );
+		pc += 2;
+		goto loop;
+	
+	case 0x0A: // OR1 C,mem.bit
+		check( false ); // untested
+		c |= mem_bit( pc );
+		pc += 2;
+		goto loop;
+	
+	case 0x2A: // OR1 C,/mem.bit
+		check( false ); // untested
+		c |= ~mem_bit( pc );
+		pc += 2;
+		goto loop;
+	
+	case 0x8A: // EOR1 C,mem.bit
+		c ^= mem_bit( pc );
+		pc += 2;
+		goto loop;
+	
+	case 0xEA: { // NOT1 mem.bit
+		data = READ_PROG16( pc );
+		pc += 2;
+		unsigned temp = READ( data & 0x1FFF );
+		temp ^= 1 << (data >> 13);
+		WRITE( data & 0x1FFF, temp );
+		goto loop;
+	}
+	
+	case 0xCA: { // MOV1 mem.bit,C
+		data = READ_PROG16( pc );
+		pc += 2;
+		unsigned temp = READ( data & 0x1FFF );
+		unsigned bit = data >> 13;
+		temp = (temp & ~(1 << bit)) | (((c >> 8) & 1) << bit);
+		WRITE( data & 0x1FFF, temp );
+		goto loop;
+	}
+	
+	case 0xAA: // MOV1 C,mem.bit
+		c = mem_bit( pc );
+		pc += 2;
+		goto loop;
+	
+// 16. PROGRAM STATUS FLAG OPERATION COMMANDS
+
+	case 0x60: // CLRC
+		c = 0;
+		goto loop;
+		
+	case 0x80: // SETC
+		c = ~0;
+		goto loop;
+	
+	case 0xED: // NOTC
+		c ^= 0x100;
+		goto loop;
+		
+	case 0xE0: // CLRV
+		status &= ~(st_v | st_h);
+		goto loop;
+	
+	case 0x20: // CLRP
+		dp = 0;
+		goto loop;
+	
+	case 0x40: // SETP
+		dp = 0x100;
+		goto loop;
+	
+	case 0xA0: // EI
+		check( false ); // untested
+		status |= st_i;
+		goto loop;
+	
+	case 0xC0: // DI
+		check( false ); // untested
+		status &= ~st_i;
+		goto loop;
+	
+// 17. OTHER COMMANDS
+
+	case 0x00: // NOP
+		goto loop;
+	
+	//case 0xEF: // SLEEP
+	//case 0xFF: // STOP
+	
+	} // switch
+	
+	// unhandled instructions fall out of switch so emulator can catch them
+	
+stop:
+	pc--;
+	
+	{
+		int temp;
+		CALC_STATUS( temp );
+		r.status = (uint8_t) temp;
+	}
+	
+	r.pc = pc;
+	r.sp = (uint8_t) GET_SP();
+	r.a  = (uint8_t) a;
+	r.x  = (uint8_t) x;
+	r.y  = (uint8_t) y;
+	
+	return remain_;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Spc_Cpu.h b/plugins/gme/game-music-emu-0.5.5/gme/Spc_Cpu.h
new file mode 100644
index 00000000..40f55aea
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Spc_Cpu.h
@@ -0,0 +1,57 @@
+// Super Nintendo (SNES) SPC-700 CPU emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef SPC_CPU_H
+#define SPC_CPU_H
+
+#include "blargg_common.h"
+
+typedef unsigned spc_addr_t;
+typedef blargg_long spc_time_t;
+
+class Snes_Spc;
+
+class Spc_Cpu {
+	typedef BOOST::uint8_t uint8_t;
+	uint8_t* const ram;
+public:
+	// Keeps pointer to 64K RAM
+	Spc_Cpu( Snes_Spc* spc, uint8_t* ram );
+	
+	// SPC-700 registers. *Not* kept updated during a call to run().
+	struct registers_t {
+		long pc; // more than 16 bits to allow overflow detection
+		uint8_t a;
+		uint8_t x;
+		uint8_t y;
+		uint8_t status;
+		uint8_t sp;
+	} r;
+	
+	// Run CPU for at least 'count' cycles. Return the number of cycles remaining
+	// when emulation stopped (negative if extra cycles were emulated). Emulation
+	// stops when there are no more remaining cycles or an unhandled instruction
+	// is encountered (STOP, SLEEP, and any others not yet implemented). In the
+	// latter case, the return value is greater than zero.
+	spc_time_t run( spc_time_t count );
+	
+	// Number of clock cycles remaining for current run() call
+	spc_time_t remain() const;
+	
+	// Access memory as the emulated CPU does
+	int  read ( spc_addr_t );
+	void write( spc_addr_t, int );
+	
+private:
+	// noncopyable
+	Spc_Cpu( const Spc_Cpu& );
+	Spc_Cpu& operator = ( const Spc_Cpu& );
+	unsigned mem_bit( spc_addr_t );
+	
+	spc_time_t remain_;
+	Snes_Spc& emu;
+};
+
+inline spc_time_t Spc_Cpu::remain() const { return remain_; }
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Spc_Dsp.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Spc_Dsp.cpp
new file mode 100644
index 00000000..814ff2bd
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Spc_Dsp.cpp
@@ -0,0 +1,666 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+// Based on Brad Martin's OpenSPC DSP emulator
+
+#include "Spc_Dsp.h"
+
+#include "blargg_endian.h"
+#include <string.h>
+
+/* Copyright (C) 2002 Brad Martin */
+/* Copyright (C) 2004-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+#ifdef BLARGG_ENABLE_OPTIMIZER
+	#include BLARGG_ENABLE_OPTIMIZER
+#endif
+
+Spc_Dsp::Spc_Dsp( uint8_t* ram_ ) : ram( ram_ )
+{
+	set_gain( 1.0 );
+	mute_voices( 0 );
+	disable_surround( false );
+	
+	assert( offsetof (globals_t,unused9 [2]) == register_count );
+	assert( sizeof (voice) == register_count );
+	blargg_verify_byte_order();
+}
+
+void Spc_Dsp::mute_voices( int mask )
+{
+	for ( int i = 0; i < voice_count; i++ )
+		voice_state [i].enabled = (mask >> i & 1) ? 31 : 7;
+}
+
+void Spc_Dsp::reset()
+{
+	keys = 0;
+	echo_ptr = 0;
+	noise_count = 0;
+	noise = 1;
+	fir_offset = 0;
+	
+	g.flags = 0xE0; // reset, mute, echo off
+	g.key_ons = 0;
+	
+	for ( int i = 0; i < voice_count; i++ )
+	{
+		voice_t& v = voice_state [i];
+		v.on_cnt = 0;
+		v.volume [0] = 0;
+		v.volume [1] = 0;
+		v.envstate = state_release;
+	}
+	
+	memset( fir_buf, 0, sizeof fir_buf );
+}
+
+void Spc_Dsp::write( int i, int data )
+{
+	require( (unsigned) i < register_count );
+	
+	reg [i] = data;
+	int high = i >> 4;
+	switch ( i & 0x0F )
+	{
+		// voice volume
+		case 0:
+		case 1: {
+			short* volume = voice_state [high].volume;
+			int left  = (int8_t) reg [i & ~1];
+			int right = (int8_t) reg [i |  1];
+			volume [0] = left;
+			volume [1] = right;
+			// kill surround only if enabled and signs of volumes differ
+			if ( left * right < surround_threshold )
+			{
+				if ( left < 0 )
+					volume [0] = -left;
+				else
+					volume [1] = -right;
+			}
+			break;
+		}
+		
+		// fir coefficients
+		case 0x0F:
+			fir_coeff [high] = (int8_t) data; // sign-extend
+			break;
+	}
+}
+
+// This table is for envelope timing.  It represents the number of counts
+// that should be subtracted from the counter each sample period (32kHz).
+// The counter starts at 30720 (0x7800). Each count divides exactly into
+// 0x7800 without remainder.
+const int env_rate_init = 0x7800;
+static short const env_rates [0x20] =
+{
+	0x0000, 0x000F, 0x0014, 0x0018, 0x001E, 0x0028, 0x0030, 0x003C,
+	0x0050, 0x0060, 0x0078, 0x00A0, 0x00C0, 0x00F0, 0x0140, 0x0180,
+	0x01E0, 0x0280, 0x0300, 0x03C0, 0x0500, 0x0600, 0x0780, 0x0A00,
+	0x0C00, 0x0F00, 0x1400, 0x1800, 0x1E00, 0x2800, 0x3C00, 0x7800
+};
+
+const int env_range = 0x800;
+
+inline int Spc_Dsp::clock_envelope( int v )
+{                               /* Return value is current 
+								 * ENVX */
+	raw_voice_t& raw_voice = this->voice [v];
+	voice_t& voice = voice_state [v];
+	
+	int envx = voice.envx;
+	if ( voice.envstate == state_release )
+	{
+		/*
+		 * Docs: "When in the state of "key off". the "click" sound is 
+		 * prevented by the addition of the fixed value 1/256" WTF???
+		 * Alright, I'm going to choose to interpret that this way:
+		 * When a note is keyed off, start the RELEASE state, which
+		 * subtracts 1/256th each sample period (32kHz).  Note there's 
+		 * no need for a count because it always happens every update. 
+		 */
+		envx -= env_range / 256;
+		if ( envx <= 0 )
+		{
+			envx = 0;
+			keys &= ~(1 << v);
+			return -1;
+		}
+		voice.envx = envx;
+		raw_voice.envx = envx >> 8;
+		return envx;
+	}
+	
+	int cnt = voice.envcnt;
+	int adsr1 = raw_voice.adsr [0];
+	if ( adsr1 & 0x80 )
+	{
+		switch ( voice.envstate )
+		{
+			case state_attack: {
+				// increase envelope by 1/64 each step
+				int t = adsr1 & 15;
+				if ( t == 15 )
+				{
+					envx += env_range / 2;
+				}
+				else
+				{
+					cnt -= env_rates [t * 2 + 1];
+					if ( cnt > 0 )
+						break;
+					envx += env_range / 64;
+					cnt = env_rate_init;
+				}
+				if ( envx >= env_range )
+				{
+					envx = env_range - 1;
+					voice.envstate = state_decay;
+				}
+				voice.envx = envx;
+				break;
+			}
+			
+			case state_decay: {
+				// Docs: "DR... [is multiplied] by the fixed value
+				// 1-1/256." Well, at least that makes some sense.
+				// Multiplying ENVX by 255/256 every time DECAY is
+				// updated. 
+				cnt -= env_rates [((adsr1 >> 3) & 0xE) + 0x10];
+				if ( cnt <= 0 )
+				{
+					cnt = env_rate_init;
+					envx -= ((envx - 1) >> 8) + 1;
+					voice.envx = envx;
+				}
+				int sustain_level = raw_voice.adsr [1] >> 5;
+				
+				if ( envx <= (sustain_level + 1) * 0x100 )
+					voice.envstate = state_sustain;
+				break;
+			}
+			
+			case state_sustain:
+				// Docs: "SR [is multiplied] by the fixed value 1-1/256."
+				// Multiplying ENVX by 255/256 every time SUSTAIN is
+				// updated. 
+				cnt -= env_rates [raw_voice.adsr [1] & 0x1F];
+				if ( cnt <= 0 )
+				{
+					cnt = env_rate_init;
+					envx -= ((envx - 1) >> 8) + 1;
+					voice.envx = envx;
+				}
+				break;
+			
+			case state_release:
+				// handled above
+				break;
+		}
+	}
+	else
+	{                           /* GAIN mode is set */
+		/*
+		 * Note: if the game switches between ADSR and GAIN modes
+		 * partway through, should the count be reset, or should it
+		 * continue from where it was? Does the DSP actually watch for 
+		 * that bit to change, or does it just go along with whatever
+		 * it sees when it performs the update? I'm going to assume
+		 * the latter and not update the count, unless I see a game
+		 * that obviously wants the other behavior.  The effect would
+		 * be pretty subtle, in any case. 
+		 */
+		int t = raw_voice.gain;
+		if (t < 0x80)
+		{
+			envx = voice.envx = t << 4;
+		}
+		else switch (t >> 5)
+		{
+		case 4:         /* Docs: "Decrease (linear): Subtraction
+							 * of the fixed value 1/64." */
+			cnt -= env_rates [t & 0x1F];
+			if (cnt > 0)
+				break;
+			cnt = env_rate_init;
+			envx -= env_range / 64;
+			if ( envx < 0 )
+			{
+				envx = 0;
+				if ( voice.envstate == state_attack )
+					voice.envstate = state_decay;
+			}
+			voice.envx = envx;
+			break;
+		case 5:         /* Docs: "Drecrease <sic> (exponential):
+							 * Multiplication by the fixed value
+							 * 1-1/256." */
+			cnt -= env_rates [t & 0x1F];
+			if (cnt > 0)
+				break;
+			cnt = env_rate_init;
+			envx -= ((envx - 1) >> 8) + 1;
+			if ( envx < 0 )
+			{
+				envx = 0;
+				if ( voice.envstate == state_attack )
+					voice.envstate = state_decay;
+			}
+			voice.envx = envx;
+			break;
+		case 6:         /* Docs: "Increase (linear): Addition of
+							 * the fixed value 1/64." */
+			cnt -= env_rates [t & 0x1F];
+			if (cnt > 0)
+				break;
+			cnt = env_rate_init;
+			envx += env_range / 64;
+			if ( envx >= env_range )
+				envx = env_range - 1;
+			voice.envx = envx;
+			break;
+		case 7:         /* Docs: "Increase (bent line): Addition
+							 * of the constant 1/64 up to .75 of the
+							 * constaint <sic> 1/256 from .75 to 1." */
+			cnt -= env_rates [t & 0x1F];
+			if (cnt > 0)
+				break;
+			cnt = env_rate_init;
+			if ( envx < env_range * 3 / 4 )
+				envx += env_range / 64;
+			else
+				envx += env_range / 256;
+			if ( envx >= env_range )
+				envx = env_range - 1;
+			voice.envx = envx;
+			break;
+		}
+	}
+	voice.envcnt = cnt;
+	raw_voice.envx = envx >> 4;
+	return envx;
+}
+
+// Clamp n into range -32768 <= n <= 32767
+inline int clamp_16( int n )
+{
+	if ( (BOOST::int16_t) n != n )
+		n = BOOST::int16_t (0x7FFF - (n >> 31));
+	return n;
+}
+
+void Spc_Dsp::run( long count, short* out_buf )
+{
+	// to do: make clock_envelope() inline so that this becomes a leaf function?
+	
+	// Should we just fill the buffer with silence? Flags won't be cleared
+	// during this run so it seems it should keep resetting every sample.
+	if ( g.flags & 0x80 )
+		reset();
+	
+	struct src_dir {
+		char start [2];
+		char loop [2];
+	};
+	
+	const src_dir* const sd = (src_dir*) &ram [g.wave_page * 0x100];
+	
+	int left_volume  = g.left_volume;
+	int right_volume = g.right_volume;
+	if ( left_volume * right_volume < surround_threshold )
+		right_volume = -right_volume; // kill global surround
+	left_volume  *= emu_gain;
+	right_volume *= emu_gain;
+	
+	while ( --count >= 0 )
+	{
+		// Here we check for keys on/off.  Docs say that successive writes
+		// to KON/KOF must be separated by at least 2 Ts periods or risk
+		// being neglected.  Therefore DSP only looks at these during an
+		// update, and not at the time of the write.  Only need to do this
+		// once however, since the regs haven't changed over the whole
+		// period we need to catch up with. 
+		
+		g.wave_ended &= ~g.key_ons; // Keying on a voice resets that bit in ENDX.
+		
+		if ( g.noise_enables )
+		{
+			noise_count -= env_rates [g.flags & 0x1F];
+			if ( noise_count <= 0 )
+			{
+				noise_count = env_rate_init;
+				
+				noise_amp = BOOST::int16_t (noise * 2);
+				
+				// TODO: switch to Galios style
+				int feedback = (noise << 13) ^ (noise << 14);
+				noise = (feedback & 0x4000) | (noise >> 1);
+			}
+		}
+		
+		// What is the expected behavior when pitch modulation is enabled on
+		// voice 0? Jurassic Park 2 does this. Assume 0 for now.
+		blargg_long prev_outx = 0;
+		
+		int echol = 0;
+		int echor = 0;
+		int left = 0;
+		int right = 0;
+		for ( int vidx = 0; vidx < voice_count; vidx++ )
+		{
+			const int vbit = 1 << vidx;
+			raw_voice_t& raw_voice = voice [vidx];
+			voice_t& voice = voice_state [vidx];
+			
+			if ( voice.on_cnt && !--voice.on_cnt )
+			{
+				// key on
+				keys |= vbit;
+				voice.addr = GET_LE16( sd [raw_voice.waveform].start );
+				voice.block_remain = 1;
+				voice.envx = 0;
+				voice.block_header = 0;
+				voice.fraction = 0x3FFF; // decode three samples immediately
+				voice.interp0 = 0; // BRR decoder filter uses previous two samples
+				voice.interp1 = 0;
+				
+				// NOTE: Real SNES does *not* appear to initialize the
+				// envelope counter to anything in particular. The first
+				// cycle always seems to come at a random time sooner than 
+				// expected; as yet, I have been unable to find any
+				// pattern.  I doubt it will matter though, so we'll go
+				// ahead and do the full time for now. 
+				voice.envcnt = env_rate_init;
+				voice.envstate = state_attack;
+			}
+			
+			if ( g.key_ons & vbit & ~g.key_offs )
+			{
+				// voice doesn't come on if key off is set
+				g.key_ons &= ~vbit;
+				voice.on_cnt = 8;
+			}
+			
+			if ( keys & g.key_offs & vbit )
+			{
+				// key off
+				voice.envstate = state_release;
+				voice.on_cnt = 0;
+			}
+			
+			int envx;
+			if ( !(keys & vbit) || (envx = clock_envelope( vidx )) < 0 )
+			{
+				raw_voice.envx = 0;
+				raw_voice.outx = 0;
+				prev_outx = 0;
+				continue;
+			}
+			
+			// Decode samples when fraction >= 1.0 (0x1000)
+			for ( int n = voice.fraction >> 12; --n >= 0; )
+			{
+				if ( !--voice.block_remain )
+				{
+					if ( voice.block_header & 1 )
+					{
+						g.wave_ended |= vbit;
+					
+						if ( voice.block_header & 2 )
+						{
+							// verified (played endless looping sample and ENDX was set)
+							voice.addr = GET_LE16( sd [raw_voice.waveform].loop );
+						}
+						else
+						{
+							// first block was end block; don't play anything (verified)
+							goto sample_ended; // to do: find alternative to goto
+						}
+					}
+					
+					voice.block_header = ram [voice.addr++];
+					voice.block_remain = 16; // nybbles
+				}
+				
+				// if next block has end flag set, *this* block ends *early* (verified)
+				if ( voice.block_remain == 9 && (ram [voice.addr + 5] & 3) == 1 &&
+						(voice.block_header & 3) != 3 )
+				{
+			sample_ended:
+					g.wave_ended |= vbit;
+					keys &= ~vbit;
+					raw_voice.envx = 0;
+					voice.envx = 0;
+					// add silence samples to interpolation buffer
+					do
+					{
+						voice.interp3 = voice.interp2;
+						voice.interp2 = voice.interp1;
+						voice.interp1 = voice.interp0;
+						voice.interp0 = 0;
+					}
+					while ( --n >= 0 );
+					break;
+				}
+				
+				int delta = ram [voice.addr];
+				if ( voice.block_remain & 1 )
+				{
+					delta <<= 4; // use lower nybble
+					voice.addr++;
+				}
+				
+				// Use sign-extended upper nybble
+				delta = int8_t (delta) >> 4;
+				
+				// For invalid ranges (D,E,F): if the nybble is negative,
+				// the result is F000.  If positive, 0000. Nothing else
+				// like previous range, etc seems to have any effect.  If
+				// range is valid, do the shift normally.  Note these are
+				// both shifted right once to do the filters properly, but 
+				// the output will be shifted back again at the end.
+				int shift = voice.block_header >> 4;
+				delta = (delta << shift) >> 1;
+				if ( shift > 0x0C )
+					delta = (delta >> 14) & ~0x7FF;
+				
+				// One, two and three point IIR filters
+				int smp1 = voice.interp0;
+				int smp2 = voice.interp1;
+				if ( voice.block_header & 8 )
+				{
+					delta += smp1;
+					delta -= smp2 >> 1;
+					if ( !(voice.block_header & 4) )
+					{
+						delta += (-smp1 - (smp1 >> 1)) >> 5;
+						delta += smp2 >> 5;
+					}
+					else
+					{
+						delta += (-smp1 * 13) >> 7;
+						delta += (smp2 + (smp2 >> 1)) >> 4;
+					}
+				}
+				else if ( voice.block_header & 4 )
+				{
+					delta += smp1 >> 1;
+					delta += (-smp1) >> 5;
+				}
+				
+				voice.interp3 = voice.interp2;
+				voice.interp2 = smp2;
+				voice.interp1 = smp1;
+				voice.interp0 = BOOST::int16_t (clamp_16( delta ) * 2); // sign-extend
+			}
+			
+			// rate (with possible modulation)
+			int rate = GET_LE16( raw_voice.rate ) & 0x3FFF;
+			if ( g.pitch_mods & vbit )
+				rate = (rate * (prev_outx + 32768)) >> 15;
+			
+			// Gaussian interpolation using most recent 4 samples
+			int index = voice.fraction >> 2 & 0x3FC;
+			voice.fraction = (voice.fraction & 0x0FFF) + rate;
+			const BOOST::int16_t* table  = (BOOST::int16_t const*) ((char const*) gauss + index);
+			const BOOST::int16_t* table2 = (BOOST::int16_t const*) ((char const*) gauss + (255*4 - index));
+			int s = ((table  [0] * voice.interp3) >> 12) +
+					((table  [1] * voice.interp2) >> 12) +
+					((table2 [1] * voice.interp1) >> 12);
+			s = (BOOST::int16_t) (s * 2);
+			s += (table2 [0] * voice.interp0) >> 11 & ~1;
+			int output = clamp_16( s );
+			if ( g.noise_enables & vbit )
+				output = noise_amp;
+			
+			// scale output and set outx values
+			output = (output * envx) >> 11 & ~1;
+			
+			// output and apply muting (by setting voice.enabled to 31)
+			// if voice is externally disabled (not a SNES feature)
+			int l = (voice.volume [0] * output) >> voice.enabled;
+			int r = (voice.volume [1] * output) >> voice.enabled;
+			prev_outx = output;
+			raw_voice.outx = int8_t (output >> 8);
+			if ( g.echo_ons & vbit )
+			{
+				echol += l;
+				echor += r;
+			}
+			left  += l;
+			right += r;
+		}
+		// end of channel loop
+		
+		// main volume control
+		left  = (left  * left_volume ) >> (7 + emu_gain_bits);
+		right = (right * right_volume) >> (7 + emu_gain_bits);
+		
+		// Echo FIR filter
+		
+		// read feedback from echo buffer
+		int echo_ptr = this->echo_ptr;
+		uint8_t* echo_buf = &ram [(g.echo_page * 0x100 + echo_ptr) & 0xFFFF];
+		echo_ptr += 4;
+		if ( echo_ptr >= (g.echo_delay & 15) * 0x800 )
+			echo_ptr = 0;
+		int fb_left  = (BOOST::int16_t) GET_LE16( echo_buf     ); // sign-extend
+		int fb_right = (BOOST::int16_t) GET_LE16( echo_buf + 2 ); // sign-extend
+		this->echo_ptr = echo_ptr;
+		
+		// put samples in history ring buffer
+		const int fir_offset = this->fir_offset;
+		short (*fir_pos) [2] = &fir_buf [fir_offset];
+		this->fir_offset = (fir_offset + 7) & 7; // move backwards one step
+		fir_pos [0] [0] = (short) fb_left;
+		fir_pos [0] [1] = (short) fb_right;
+		fir_pos [8] [0] = (short) fb_left; // duplicate at +8 eliminates wrap checking below
+		fir_pos [8] [1] = (short) fb_right;
+		
+		// FIR
+		fb_left =       fb_left * fir_coeff [7] +
+				fir_pos [1] [0] * fir_coeff [6] +
+				fir_pos [2] [0] * fir_coeff [5] +
+				fir_pos [3] [0] * fir_coeff [4] +
+				fir_pos [4] [0] * fir_coeff [3] +
+				fir_pos [5] [0] * fir_coeff [2] +
+				fir_pos [6] [0] * fir_coeff [1] +
+				fir_pos [7] [0] * fir_coeff [0];
+		
+		fb_right =     fb_right * fir_coeff [7] +
+				fir_pos [1] [1] * fir_coeff [6] +
+				fir_pos [2] [1] * fir_coeff [5] +
+				fir_pos [3] [1] * fir_coeff [4] +
+				fir_pos [4] [1] * fir_coeff [3] +
+				fir_pos [5] [1] * fir_coeff [2] +
+				fir_pos [6] [1] * fir_coeff [1] +
+				fir_pos [7] [1] * fir_coeff [0];
+		
+		left  += (fb_left  * g.left_echo_volume ) >> 14;
+		right += (fb_right * g.right_echo_volume) >> 14;
+		
+		// echo buffer feedback
+		if ( !(g.flags & 0x20) )
+		{
+			echol += (fb_left  * g.echo_feedback) >> 14;
+			echor += (fb_right * g.echo_feedback) >> 14;
+			SET_LE16( echo_buf    , clamp_16( echol ) );
+			SET_LE16( echo_buf + 2, clamp_16( echor ) );
+		}
+		
+		if ( out_buf )
+		{
+			// write final samples
+			
+			left  = clamp_16( left  );
+			right = clamp_16( right );
+			
+			int mute = g.flags & 0x40;
+			
+			out_buf [0] = (short) left;
+			out_buf [1] = (short) right;
+			out_buf += 2;
+			
+			// muting
+			if ( mute )
+			{
+				out_buf [-2] = 0;
+				out_buf [-1] = 0;
+			}
+		}
+	}
+}
+
+// Base normal_gauss table is almost exactly (with an error of 0 or -1 for each entry):
+// int normal_gauss [512];
+// normal_gauss [i] = exp((i-511)*(i-511)*-9.975e-6)*pow(sin(0.00307096*i),1.7358)*1304.45
+
+// Interleved gauss table (to improve cache coherency).
+// gauss [i * 2 + j] = normal_gauss [(1 - j) * 256 + i]
+const BOOST::int16_t Spc_Dsp::gauss [512] =
+{
+ 370,1305, 366,1305, 362,1304, 358,1304, 354,1304, 351,1304, 347,1304, 343,1303,
+ 339,1303, 336,1303, 332,1302, 328,1302, 325,1301, 321,1300, 318,1300, 314,1299,
+ 311,1298, 307,1297, 304,1297, 300,1296, 297,1295, 293,1294, 290,1293, 286,1292,
+ 283,1291, 280,1290, 276,1288, 273,1287, 270,1286, 267,1284, 263,1283, 260,1282,
+ 257,1280, 254,1279, 251,1277, 248,1275, 245,1274, 242,1272, 239,1270, 236,1269,
+ 233,1267, 230,1265, 227,1263, 224,1261, 221,1259, 218,1257, 215,1255, 212,1253,
+ 210,1251, 207,1248, 204,1246, 201,1244, 199,1241, 196,1239, 193,1237, 191,1234,
+ 188,1232, 186,1229, 183,1227, 180,1224, 178,1221, 175,1219, 173,1216, 171,1213,
+ 168,1210, 166,1207, 163,1205, 161,1202, 159,1199, 156,1196, 154,1193, 152,1190,
+ 150,1186, 147,1183, 145,1180, 143,1177, 141,1174, 139,1170, 137,1167, 134,1164,
+ 132,1160, 130,1157, 128,1153, 126,1150, 124,1146, 122,1143, 120,1139, 118,1136,
+ 117,1132, 115,1128, 113,1125, 111,1121, 109,1117, 107,1113, 106,1109, 104,1106,
+ 102,1102, 100,1098,  99,1094,  97,1090,  95,1086,  94,1082,  92,1078,  90,1074,
+  89,1070,  87,1066,  86,1061,  84,1057,  83,1053,  81,1049,  80,1045,  78,1040,
+  77,1036,  76,1032,  74,1027,  73,1023,  71,1019,  70,1014,  69,1010,  67,1005,
+  66,1001,  65, 997,  64, 992,  62, 988,  61, 983,  60, 978,  59, 974,  58, 969,
+  56, 965,  55, 960,  54, 955,  53, 951,  52, 946,  51, 941,  50, 937,  49, 932,
+  48, 927,  47, 923,  46, 918,  45, 913,  44, 908,  43, 904,  42, 899,  41, 894,
+  40, 889,  39, 884,  38, 880,  37, 875,  36, 870,  36, 865,  35, 860,  34, 855,
+  33, 851,  32, 846,  32, 841,  31, 836,  30, 831,  29, 826,  29, 821,  28, 816,
+  27, 811,  27, 806,  26, 802,  25, 797,  24, 792,  24, 787,  23, 782,  23, 777,
+  22, 772,  21, 767,  21, 762,  20, 757,  20, 752,  19, 747,  19, 742,  18, 737,
+  17, 732,  17, 728,  16, 723,  16, 718,  15, 713,  15, 708,  15, 703,  14, 698,
+  14, 693,  13, 688,  13, 683,  12, 678,  12, 674,  11, 669,  11, 664,  11, 659,
+  10, 654,  10, 649,  10, 644,   9, 640,   9, 635,   9, 630,   8, 625,   8, 620,
+   8, 615,   7, 611,   7, 606,   7, 601,   6, 596,   6, 592,   6, 587,   6, 582,
+   5, 577,   5, 573,   5, 568,   5, 563,   4, 559,   4, 554,   4, 550,   4, 545,
+   4, 540,   3, 536,   3, 531,   3, 527,   3, 522,   3, 517,   2, 513,   2, 508,
+   2, 504,   2, 499,   2, 495,   2, 491,   2, 486,   1, 482,   1, 477,   1, 473,
+   1, 469,   1, 464,   1, 460,   1, 456,   1, 451,   1, 447,   1, 443,   1, 439,
+   0, 434,   0, 430,   0, 426,   0, 422,   0, 418,   0, 414,   0, 410,   0, 405,
+   0, 401,   0, 397,   0, 393,   0, 389,   0, 385,   0, 381,   0, 378,   0, 374,
+};
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Spc_Dsp.h b/plugins/gme/game-music-emu-0.5.5/gme/Spc_Dsp.h
new file mode 100644
index 00000000..1e79870a
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Spc_Dsp.h
@@ -0,0 +1,152 @@
+// Super Nintendo (SNES) SPC DSP emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef SPC_DSP_H
+#define SPC_DSP_H
+
+#include "blargg_common.h"
+
+class Spc_Dsp {
+	typedef BOOST::int8_t int8_t;
+	typedef BOOST::uint8_t uint8_t;
+public:
+	
+	// Keeps pointer to 64K ram
+	Spc_Dsp( uint8_t* ram );
+	
+	// Mute voice n if bit n (1 << n) of mask is clear.
+	enum { voice_count = 8 };
+	void mute_voices( int mask );
+	
+	// Clear state and silence everything.
+	void reset();
+	
+	// Set gain, where 1.0 is normal. When greater than 1.0, output is clamped to
+	// the 16-bit sample range.
+	void set_gain( double );
+	
+	// If true, prevent channels and global volumes from being phase-negated
+	void disable_surround( bool disable );
+	
+	// Read/write register 'n', where n ranges from 0 to register_count - 1.
+	enum { register_count = 128 };
+	int  read ( int n );
+	void write( int n, int );
+	
+	// Run DSP for 'count' samples. Write resulting samples to 'buf' if not NULL.
+	void run( long count, short* buf = NULL );
+	
+	
+// End of public interface
+private:
+	
+	struct raw_voice_t {
+		int8_t  left_vol;
+		int8_t  right_vol;
+		uint8_t rate [2];
+		uint8_t waveform;
+		uint8_t adsr [2];   // envelope rates for attack, decay, and sustain
+		uint8_t gain;       // envelope gain (if not using ADSR)
+		int8_t  envx;       // current envelope level
+		int8_t  outx;       // current sample
+		int8_t  unused [6];
+	};
+	
+	struct globals_t {
+		int8_t  unused1 [12];
+		int8_t  left_volume;        // 0C   Main Volume Left (-.7)
+		int8_t  echo_feedback;      // 0D   Echo Feedback (-.7)
+		int8_t  unused2 [14];
+		int8_t  right_volume;       // 1C   Main Volume Right (-.7)
+		int8_t  unused3 [15];
+		int8_t  left_echo_volume;   // 2C   Echo Volume Left (-.7)
+		uint8_t pitch_mods;         // 2D   Pitch Modulation on/off for each voice
+		int8_t  unused4 [14];
+		int8_t  right_echo_volume;  // 3C   Echo Volume Right (-.7)
+		uint8_t noise_enables;      // 3D   Noise output on/off for each voice
+		int8_t  unused5 [14];
+		uint8_t key_ons;            // 4C   Key On for each voice
+		uint8_t echo_ons;           // 4D   Echo on/off for each voice
+		int8_t  unused6 [14];
+		uint8_t key_offs;           // 5C   key off for each voice (instantiates release mode)
+		uint8_t wave_page;          // 5D   source directory (wave table offsets)
+		int8_t  unused7 [14];
+		uint8_t flags;              // 6C   flags and noise freq
+		uint8_t echo_page;          // 6D
+		int8_t  unused8 [14];
+		uint8_t wave_ended;         // 7C
+		uint8_t echo_delay;         // 7D   ms >> 4
+		char    unused9 [2];
+	};
+	
+	union {
+		raw_voice_t voice [voice_count];
+		uint8_t reg [register_count];
+		globals_t g;
+	};
+	
+	uint8_t* const ram;
+	
+	// Cache of echo FIR values for faster access
+	short fir_coeff [voice_count];
+	
+	// fir_buf [i + 8] == fir_buf [i], to avoid wrap checking in FIR code
+	short fir_buf [16] [2];
+	int fir_offset; // (0 to 7)
+	
+	enum { emu_gain_bits = 8 };
+	int emu_gain;
+	
+	int keyed_on; // 8-bits for 8 voices
+	int keys;
+	
+	int echo_ptr;
+	int noise_amp;
+	int noise;
+	int noise_count;
+	
+	int surround_threshold;
+	
+	static BOOST::int16_t const gauss [];
+	
+	enum state_t {
+		state_attack,
+		state_decay,
+		state_sustain,
+		state_release
+	};
+	
+	struct voice_t {
+		short volume [2];
+		short fraction;// 12-bit fractional position
+		short interp3; // most recent four decoded samples
+		short interp2;
+		short interp1;
+		short interp0;
+		short block_remain; // number of nybbles remaining in current block
+		unsigned short addr;
+		short block_header; // header byte from current block
+		short envcnt;
+		short envx;
+		short on_cnt;
+		short enabled; // 7 if enabled, 31 if disabled
+		short envstate;
+		short unused; // pad to power of 2
+	};
+	
+	voice_t voice_state [voice_count];
+	
+	int clock_envelope( int );
+};
+
+inline void Spc_Dsp::disable_surround( bool disable ) { surround_threshold = disable ? 0 : -0x7FFF; }
+
+inline void Spc_Dsp::set_gain( double v ) { emu_gain = (int) (v * (1 << emu_gain_bits)); }
+
+inline int Spc_Dsp::read( int i )
+{
+	assert( (unsigned) i < register_count );
+	return reg [i];
+}
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Spc_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Spc_Emu.cpp
new file mode 100644
index 00000000..a5002bf7
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Spc_Emu.cpp
@@ -0,0 +1,328 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Spc_Emu.h"
+
+#include "blargg_endian.h"
+#include <stdlib.h>
+#include <string.h>
+
+/* Copyright (C) 2004-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+Spc_Emu::Spc_Emu()
+{
+	set_type( gme_spc_type );
+	
+	static const char* const names [Snes_Spc::voice_count] = {
+		"DSP 1", "DSP 2", "DSP 3", "DSP 4", "DSP 5", "DSP 6", "DSP 7", "DSP 8"
+	};
+	set_voice_names( names );
+	
+	set_gain( 1.4 );
+}
+
+Spc_Emu::~Spc_Emu() { }
+
+// Track info
+
+long const trailer_offset = 0x10200;
+
+byte const* Spc_Emu::trailer() const { return &file_data [min( file_size, trailer_offset )]; }
+
+long Spc_Emu::trailer_size() const { return max( 0L, file_size - trailer_offset ); }
+
+static void get_spc_xid6( byte const* begin, long size, track_info_t* out )
+{
+	// header
+	byte const* end = begin + size;
+	if ( size < 8 || memcmp( begin, "xid6", 4 ) )
+	{
+		check( false );
+		return;
+	}
+	long info_size = get_le32( begin + 4 );
+	byte const* in = begin + 8; 
+	if ( end - in > info_size )
+	{
+		debug_printf( "Extra data after SPC xid6 info\n" );
+		end = in + info_size;
+	}
+	
+	int year = 0;
+	char copyright [256 + 5];
+	int copyright_len = 0;
+	int const year_len = 5;
+	
+	while ( end - in >= 4 )
+	{
+		// header
+		int id   = in [0];
+		int data = in [3] * 0x100 + in [2];
+		int type = in [1];
+		int len  = type ? data : 0;
+		in += 4;
+		if ( len > end - in )
+		{
+			check( false );
+			break; // block goes past end of data
+		}
+		
+		// handle specific block types
+		char* field = 0;
+		switch ( id )
+		{
+			case 0x01: field = out->song;    break;
+			case 0x02: field = out->game;    break;
+			case 0x03: field = out->author;  break;
+			case 0x04: field = out->dumper;  break;
+			case 0x07: field = out->comment; break;
+			case 0x14: year = data;          break;
+			
+			//case 0x30: // intro length
+			// Many SPCs have intro length set wrong for looped tracks, making it useless
+			/*
+			case 0x30:
+				check( len == 4 );
+				if ( len >= 4 )
+				{
+					out->intro_length = get_le32( in ) / 64;
+					if ( out->length > 0 )
+					{
+						long loop = out->length - out->intro_length;
+						if ( loop >= 2000 )
+							out->loop_length = loop;
+					}
+				}
+				break;
+			*/
+			
+			case 0x13:
+				copyright_len = min( len, (int) sizeof copyright - year_len );
+				memcpy( &copyright [year_len], in, copyright_len );
+				break;
+			
+			default:
+				if ( id < 0x01 || (id > 0x07 && id < 0x10) ||
+						(id > 0x14 && id < 0x30) || id > 0x36 )
+					debug_printf( "Unknown SPC xid6 block: %X\n", (int) id );
+				break;
+		}
+		if ( field )
+		{
+			check( type == 1 );
+			Gme_File::copy_field_( field, (char const*) in, len );
+		}
+		
+		// skip to next block
+		in += len;
+		
+		// blocks are supposed to be 4-byte aligned with zero-padding...
+		byte const* unaligned = in;
+		while ( (in - begin) & 3 && in < end )
+		{
+			if ( *in++ != 0 )
+			{
+				// ...but some files have no padding
+				in = unaligned;
+				debug_printf( "SPC info tag wasn't properly padded to align\n" );
+				break;
+			}
+		}
+	}
+	
+	char* p = &copyright [year_len];
+	if ( year )
+	{
+		*--p = ' ';
+		for ( int n = 4; n--; )
+		{
+			*--p = char (year % 10 + '0');
+			year /= 10;
+		}
+		copyright_len += year_len;
+	}
+	if ( copyright_len )
+		Gme_File::copy_field_( out->copyright, p, copyright_len );
+	
+	check( in == end );
+}
+
+static void get_spc_info( Spc_Emu::header_t const& h, byte const* xid6, long xid6_size,
+		track_info_t* out )
+{
+	// decode length (can be in text or binary format, sometimes ambiguous ugh)
+	long len_secs = 0;
+	for ( int i = 0; i < 3; i++ )
+	{
+		unsigned n = h.len_secs [i] - '0';
+		if ( n > 9 )
+		{
+			// ignore single-digit text lengths
+			// (except if author field is present and begins at offset 1, ugh)
+			if ( i == 1 && (h.author [0] || !h.author [1]) )
+				len_secs = 0;
+			break;
+		}
+		len_secs *= 10;
+		len_secs += n;
+	}
+	if ( !len_secs || len_secs > 0x1FFF )
+		len_secs = get_le16( h.len_secs );
+	if ( len_secs < 0x1FFF )
+		out->length = len_secs * 1000;
+	
+	int offset = (h.author [0] < ' ' || unsigned (h.author [0] - '0') <= 9);
+	Gme_File::copy_field_( out->author, &h.author [offset], sizeof h.author - offset );
+	
+	GME_COPY_FIELD( h, out, song );
+	GME_COPY_FIELD( h, out, game );
+	GME_COPY_FIELD( h, out, dumper );
+	GME_COPY_FIELD( h, out, comment );
+	
+	if ( xid6_size )
+		get_spc_xid6( xid6, xid6_size, out );
+}
+
+blargg_err_t Spc_Emu::track_info_( track_info_t* out, int ) const
+{
+	get_spc_info( header(), trailer(), trailer_size(), out );
+	return 0;
+}
+
+static blargg_err_t check_spc_header( void const* header )
+{
+	if ( memcmp( header, "SNES-SPC700 Sound File Data", 27 ) )
+		return gme_wrong_file_type;
+	return 0;
+}
+
+struct Spc_File : Gme_Info_
+{
+	Spc_Emu::header_t header;
+	blargg_vector<byte> xid6;
+	
+	Spc_File() { set_type( gme_spc_type ); }
+	
+	blargg_err_t load_( Data_Reader& in )
+	{
+		long file_size = in.remain();
+		if ( file_size < Snes_Spc::spc_file_size )
+			return gme_wrong_file_type;
+		RETURN_ERR( in.read( &header, Spc_Emu::header_size ) );
+		RETURN_ERR( check_spc_header( header.tag ) );
+		long const xid6_offset = 0x10200;
+		long xid6_size = file_size - xid6_offset;
+		if ( xid6_size > 0 )
+		{
+			RETURN_ERR( xid6.resize( xid6_size ) );
+			RETURN_ERR( in.skip( xid6_offset - Spc_Emu::header_size ) );
+			RETURN_ERR( in.read( xid6.begin(), xid6.size() ) );
+		}
+		return 0;
+	}
+	
+	blargg_err_t track_info_( track_info_t* out, int ) const
+	{
+		get_spc_info( header, xid6.begin(), xid6.size(), out );
+		return 0;
+	}
+};
+
+static Music_Emu* new_spc_emu () { return BLARGG_NEW Spc_Emu ; }
+static Music_Emu* new_spc_file() { return BLARGG_NEW Spc_File; }
+
+static gme_type_t_ const gme_spc_type_ = { "Super Nintendo", 1, &new_spc_emu, &new_spc_file, "SPC", 0 };
+gme_type_t const gme_spc_type = &gme_spc_type_;
+
+
+// Setup
+
+blargg_err_t Spc_Emu::set_sample_rate_( long sample_rate )
+{
+	apu.set_gain( gain() );
+	if ( sample_rate != native_sample_rate )
+	{
+		RETURN_ERR( resampler.buffer_size( native_sample_rate / 20 * 2 ) );
+		resampler.time_ratio( (double) native_sample_rate / sample_rate, 0.9965 );
+	}
+	return 0;
+}
+
+void Spc_Emu::mute_voices_( int m )
+{
+	Music_Emu::mute_voices_( m );
+	apu.mute_voices( m );
+}
+
+blargg_err_t Spc_Emu::load_mem_( byte const* in, long size )
+{
+	assert( offsetof (header_t,unused2 [46]) == header_size );
+	file_data = in;
+	file_size = size;
+	set_voice_count( Snes_Spc::voice_count );
+	if ( size < Snes_Spc::spc_file_size )
+		return gme_wrong_file_type;
+	return check_spc_header( in );
+}
+
+// Emulation
+
+void Spc_Emu::set_tempo_( double t ) { apu.set_tempo( t ); }
+
+blargg_err_t Spc_Emu::start_track_( int track )
+{
+	RETURN_ERR( Music_Emu::start_track_( track ) );
+	resampler.clear();
+	RETURN_ERR( apu.load_spc( file_data, file_size ) );
+	apu.clear_echo();
+	return 0;
+}
+
+blargg_err_t Spc_Emu::skip_( long count )
+{
+	if ( sample_rate() != native_sample_rate )
+	{
+		count = long (count * resampler.ratio()) & ~1;
+		count -= resampler.skip_input( count );
+	}
+	
+	// TODO: shouldn't skip be adjusted for the 64 samples read afterwards?
+	
+	if ( count > 0 )
+		RETURN_ERR( apu.skip( count ) );
+	
+	// eliminate pop due to resampler
+	const int resampler_latency = 64;
+	sample_t buf [resampler_latency];
+	return play_( resampler_latency, buf );
+}
+
+blargg_err_t Spc_Emu::play_( long count, sample_t* out )
+{
+	if ( sample_rate() == native_sample_rate )
+		return apu.play( count, out );
+	
+	long remain = count;
+	while ( remain > 0 )
+	{
+		remain -= resampler.read( &out [count - remain], remain );
+		if ( remain > 0 )
+		{
+			long n = resampler.max_write();
+			RETURN_ERR( apu.play( n, resampler.buffer() ) );
+			resampler.write( n );
+		}
+	}
+	check( remain == 0 );
+	return 0;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Spc_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Spc_Emu.h
new file mode 100644
index 00000000..ab35649c
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Spc_Emu.h
@@ -0,0 +1,77 @@
+// Super Nintendo SPC music file emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef SPC_EMU_H
+#define SPC_EMU_H
+
+#include "Fir_Resampler.h"
+#include "Music_Emu.h"
+#include "Snes_Spc.h"
+
+class Spc_Emu : public Music_Emu {
+public:
+	// The Super Nintendo hardware samples at 32kHz. Other sample rates are
+	// handled by resampling the 32kHz output; emulation accuracy is not affected.
+	enum { native_sample_rate = 32000 };
+	
+	// SPC file header
+	enum { header_size = 0x100 };
+	struct header_t
+	{
+		char tag [35];
+		byte format;
+		byte version;
+		byte pc [2];
+		byte a, x, y, psw, sp;
+		byte unused [2];
+		char song [32];
+		char game [32];
+		char dumper [16];
+		char comment [32];
+		byte date [11];
+		byte len_secs [3];
+		byte fade_msec [4];
+		char author [32]; // sometimes first char should be skipped (see official SPC spec)
+		byte mute_mask;
+		byte emulator;
+		byte unused2 [46];
+	};
+	
+	// Header for currently loaded file
+	header_t const& header() const { return *(header_t const*) file_data; }
+	
+	// Prevents channels and global volumes from being phase-negated
+	void disable_surround( bool disable = true );
+	
+	static gme_type_t static_type() { return gme_spc_type; }
+	
+public:
+	// deprecated
+	Music_Emu::load;
+	blargg_err_t load( header_t const& h, Data_Reader& in ) // use Remaining_Reader
+			{ return load_remaining_( &h, sizeof h, in ); }
+	byte const* trailer() const; // use track_info()
+	long trailer_size() const;
+
+public:
+	Spc_Emu();
+	~Spc_Emu();
+protected:
+	blargg_err_t load_mem_( byte const*, long );
+	blargg_err_t track_info_( track_info_t*, int track ) const;
+	blargg_err_t set_sample_rate_( long );
+	blargg_err_t start_track_( int );
+	blargg_err_t play_( long, sample_t* );
+	blargg_err_t skip_( long );
+	void mute_voices_( int );
+	void set_tempo_( double );
+private:
+	byte const* file_data;
+	long        file_size;
+	Fir_Resampler<24> resampler;
+	Snes_Spc apu;
+};
+
+inline void Spc_Emu::disable_surround( bool b ) { apu.disable_surround( b ); }
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Vgm_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Vgm_Emu.cpp
new file mode 100644
index 00000000..6a7cb98a
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Vgm_Emu.cpp
@@ -0,0 +1,416 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Vgm_Emu.h"
+
+#include "blargg_endian.h"
+#include <string.h>
+#include <math.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+double const fm_gain = 3.0; // FM emulators are internally quieter to avoid 16-bit overflow
+double const rolloff = 0.990;
+double const oversample_factor = 1.5;
+
+Vgm_Emu::Vgm_Emu()
+{
+	disable_oversampling_ = false;
+	psg_rate   = 0;
+	set_type( gme_vgm_type );
+	
+	static int const types [8] = {
+		wave_type | 1, wave_type | 0, wave_type | 2, noise_type | 0
+	};
+	set_voice_types( types );
+	
+	set_silence_lookahead( 1 ); // tracks should already be trimmed
+	
+	static equalizer_t const eq = { -14.0, 80 };
+	set_equalizer( eq );
+}
+
+Vgm_Emu::~Vgm_Emu() { }
+
+// Track info
+
+static byte const* skip_gd3_str( byte const* in, byte const* end )
+{
+	while ( end - in >= 2 )
+	{
+		in += 2;
+		if ( !(in [-2] | in [-1]) )
+			break;
+	}
+	return in;
+}
+
+static byte const* get_gd3_str( byte const* in, byte const* end, char* field )
+{
+	byte const* mid = skip_gd3_str( in, end );
+	int len = (mid - in) / 2 - 1;
+	if ( len > 0 )
+	{
+		len = min( len, (int) Gme_File::max_field_ );
+		field [len] = 0;
+		for ( int i = 0; i < len; i++ )
+			field [i] = (in [i * 2 + 1] ? '?' : in [i * 2]); // TODO: convert to utf-8
+	}
+	return mid;
+}
+
+static byte const* get_gd3_pair( byte const* in, byte const* end, char* field )
+{
+	return skip_gd3_str( get_gd3_str( in, end, field ), end );
+}
+
+static void parse_gd3( byte const* in, byte const* end, track_info_t* out )
+{
+	in = get_gd3_pair( in, end, out->song );
+	in = get_gd3_pair( in, end, out->game );
+	in = get_gd3_pair( in, end, out->system );
+	in = get_gd3_pair( in, end, out->author );
+	in = get_gd3_str ( in, end, out->copyright );
+	in = get_gd3_pair( in, end, out->dumper );
+	in = get_gd3_str ( in, end, out->comment );
+}
+
+int const gd3_header_size = 12;
+
+static long check_gd3_header( byte const* h, long remain )
+{
+	if ( remain < gd3_header_size ) return 0;
+	if ( memcmp( h, "Gd3 ", 4 ) ) return 0;
+	if ( get_le32( h + 4 ) >= 0x200 ) return 0;
+	
+	long gd3_size = get_le32( h + 8 );
+	if ( gd3_size > remain - gd3_header_size ) return 0;
+	
+	return gd3_size;
+}
+
+byte const* Vgm_Emu::gd3_data( int* size ) const
+{
+	if ( size )
+		*size = 0;
+	
+	long gd3_offset = get_le32( header().gd3_offset ) - 0x2C;
+	if ( gd3_offset < 0 )
+		return 0;
+	
+	byte const* gd3 = data + header_size + gd3_offset;
+	long gd3_size = check_gd3_header( gd3, data_end - gd3 );
+	if ( !gd3_size )
+		return 0;
+	
+	if ( size )
+		*size = gd3_size + gd3_header_size;
+	
+	return gd3;
+}
+
+static void get_vgm_length( Vgm_Emu::header_t const& h, track_info_t* out )
+{
+	long length = get_le32( h.track_duration ) * 10 / 441;
+	if ( length > 0 )
+	{
+		long loop = get_le32( h.loop_duration );
+		if ( loop > 0 && get_le32( h.loop_offset ) )
+		{
+			out->loop_length = loop * 10 / 441;
+			out->intro_length = length - out->loop_length;
+		}
+		else
+		{
+			out->length = length; // 1000 / 44100 (VGM files used 44100 as timebase)
+			out->intro_length = length; // make it clear that track is no longer than length
+			out->loop_length = 0;
+		}
+	}
+}
+
+blargg_err_t Vgm_Emu::track_info_( track_info_t* out, int ) const
+{
+	get_vgm_length( header(), out );
+	
+	int size;
+	byte const* gd3 = gd3_data( &size );
+	if ( gd3 )
+		parse_gd3( gd3 + gd3_header_size, gd3 + size, out );
+	
+	return 0;
+}
+
+static blargg_err_t check_vgm_header( Vgm_Emu::header_t const& h )
+{
+	if ( memcmp( h.tag, "Vgm ", 4 ) )
+		return gme_wrong_file_type;
+	return 0;
+}
+
+struct Vgm_File : Gme_Info_
+{
+	Vgm_Emu::header_t h;
+	blargg_vector<byte> gd3;
+	
+	Vgm_File() { set_type( gme_vgm_type ); }
+	
+	blargg_err_t load_( Data_Reader& in )
+	{
+		long file_size = in.remain();
+		if ( file_size <= Vgm_Emu::header_size )
+			return gme_wrong_file_type;
+		
+		RETURN_ERR( in.read( &h, Vgm_Emu::header_size ) );
+		RETURN_ERR( check_vgm_header( h ) );
+		
+		long gd3_offset = get_le32( h.gd3_offset ) - 0x2C;
+		long remain = file_size - Vgm_Emu::header_size - gd3_offset;
+		byte gd3_h [gd3_header_size];
+		if ( gd3_offset > 0 && remain >= gd3_header_size )
+		{
+			RETURN_ERR( in.skip( gd3_offset ) );
+			RETURN_ERR( in.read( gd3_h, sizeof gd3_h ) );
+			long gd3_size = check_gd3_header( gd3_h, remain );
+			if ( gd3_size )
+			{
+				RETURN_ERR( gd3.resize( gd3_size ) );
+				RETURN_ERR( in.read( gd3.begin(), gd3.size() ) );
+			}
+		}
+		return 0;
+	}
+	
+	blargg_err_t track_info_( track_info_t* out, int ) const
+	{
+		get_vgm_length( h, out );
+		if ( gd3.size() )
+			parse_gd3( gd3.begin(), gd3.end(), out );
+		return 0;
+	}
+};
+
+static Music_Emu* new_vgm_emu () { return BLARGG_NEW Vgm_Emu ; }
+static Music_Emu* new_vgm_file() { return BLARGG_NEW Vgm_File; }
+
+static gme_type_t_ const gme_vgm_type_ = { "Sega SMS/Genesis", 1, &new_vgm_emu, &new_vgm_file, "VGM", 1 };
+gme_type_t const gme_vgm_type = &gme_vgm_type_;
+
+static gme_type_t_ const gme_vgz_type_ = { "Sega SMS/Genesis", 1, &new_vgm_emu, &new_vgm_file, "VGZ", 1 };
+gme_type_t const gme_vgz_type = &gme_vgz_type_;
+
+
+// Setup
+
+void Vgm_Emu::set_tempo_( double t )
+{
+	if ( psg_rate )
+	{
+		vgm_rate = (long) (44100 * t + 0.5);
+		blip_time_factor = (long) floor( double (1L << blip_time_bits) / vgm_rate * psg_rate + 0.5 );
+		//debug_printf( "blip_time_factor: %ld\n", blip_time_factor );
+		//debug_printf( "vgm_rate: %ld\n", vgm_rate );
+		// TODO: remove? calculates vgm_rate more accurately (above differs at most by one Hz only)
+		//blip_time_factor = (long) floor( double (1L << blip_time_bits) * psg_rate / 44100 / t + 0.5 );
+		//vgm_rate = (long) floor( double (1L << blip_time_bits) * psg_rate / blip_time_factor + 0.5 );
+		
+		fm_time_factor = 2 + (long) floor( fm_rate * (1L << fm_time_bits) / vgm_rate + 0.5 );
+	}
+}
+
+blargg_err_t Vgm_Emu::set_sample_rate_( long sample_rate )
+{
+	RETURN_ERR( blip_buf.set_sample_rate( sample_rate, 1000 / 30 ) );
+	return Classic_Emu::set_sample_rate_( sample_rate );
+}
+
+void Vgm_Emu::update_eq( blip_eq_t const& eq )
+{
+	psg.treble_eq( eq );
+	dac_synth.treble_eq( eq );
+}
+
+void Vgm_Emu::set_voice( int i, Blip_Buffer* c, Blip_Buffer* l, Blip_Buffer* r )
+{
+	if ( i < psg.osc_count )
+		psg.osc_output( i, c, l, r );
+}
+
+void Vgm_Emu::mute_voices_( int mask )
+{
+	Classic_Emu::mute_voices_( mask );
+	dac_synth.output( &blip_buf );
+	if ( uses_fm )
+	{
+		psg.output( (mask & 0x80) ? 0 : &blip_buf );
+		if ( ym2612.enabled() )
+		{
+			dac_synth.volume( (mask & 0x40) ? 0.0 : 0.1115 / 256 * fm_gain * gain() );
+			ym2612.mute_voices( mask );
+		}
+		
+		if ( ym2413.enabled() )
+		{
+			int m = mask & 0x3F;
+			if ( mask & 0x20 )
+				m |= 0x01E0; // channels 5-8
+			if ( mask & 0x40 )
+				m |= 0x3E00;
+			ym2413.mute_voices( m );
+		}
+	}
+}
+
+blargg_err_t Vgm_Emu::load_mem_( byte const* new_data, long new_size )
+{
+	assert( offsetof (header_t,unused2 [8]) == header_size );
+	
+	if ( new_size <= header_size )
+		return gme_wrong_file_type;
+	
+	header_t const& h = *(header_t const*) new_data;
+	
+	RETURN_ERR( check_vgm_header( h ) );
+	
+	check( get_le32( h.version ) <= 0x150 );
+	
+	// psg rate
+	psg_rate = get_le32( h.psg_rate );
+	if ( !psg_rate )
+		psg_rate = 3579545;
+	blip_buf.clock_rate( psg_rate );
+	
+	data     = new_data;
+	data_end = new_data + new_size;
+	
+	// get loop
+	loop_begin = data_end;
+	if ( get_le32( h.loop_offset ) )
+		loop_begin = &data [get_le32( h.loop_offset ) + offsetof (header_t,loop_offset)];
+	
+	set_voice_count( psg.osc_count );
+	
+	RETURN_ERR( setup_fm() );
+	
+	static const char* const fm_names [] = {
+		"FM 1", "FM 2", "FM 3", "FM 4", "FM 5", "FM 6", "PCM", "PSG"
+	};
+	static const char* const psg_names [] = { "Square 1", "Square 2", "Square 3", "Noise" };
+	set_voice_names( uses_fm ? fm_names : psg_names );
+	
+	// do after FM in case output buffer is changed
+	return Classic_Emu::setup_buffer( psg_rate );
+}
+
+blargg_err_t Vgm_Emu::setup_fm()
+{
+	long ym2612_rate = get_le32( header().ym2612_rate );
+	long ym2413_rate = get_le32( header().ym2413_rate );
+	if ( ym2413_rate && get_le32( header().version ) < 0x110 )
+		update_fm_rates( &ym2413_rate, &ym2612_rate );
+	
+	uses_fm = false;
+	
+	fm_rate = blip_buf.sample_rate() * oversample_factor;
+	
+	if ( ym2612_rate )
+	{
+		uses_fm = true;
+		if ( disable_oversampling_ )
+			fm_rate = ym2612_rate / 144.0;
+		Dual_Resampler::setup( fm_rate / blip_buf.sample_rate(), rolloff, fm_gain * gain() );
+		RETURN_ERR( ym2612.set_rate( fm_rate, ym2612_rate ) );
+		ym2612.enable( true );
+		set_voice_count( 8 );
+	}
+	
+	if ( !uses_fm && ym2413_rate )
+	{
+		uses_fm = true;
+		if ( disable_oversampling_ )
+			fm_rate = ym2413_rate / 72.0;
+		Dual_Resampler::setup( fm_rate / blip_buf.sample_rate(), rolloff, fm_gain * gain() );
+		int result = ym2413.set_rate( fm_rate, ym2413_rate );
+		if ( result == 2 )
+			return "YM2413 FM sound isn't supported";
+		CHECK_ALLOC( !result );
+		ym2413.enable( true );
+		set_voice_count( 8 );
+	}
+	
+	if ( uses_fm )
+	{
+		RETURN_ERR( Dual_Resampler::reset( blip_buf.length() * blip_buf.sample_rate() / 1000 ) );
+		psg.volume( 0.135 * fm_gain * gain() );
+	}
+	else
+	{
+		ym2612.enable( false );
+		ym2413.enable( false );
+		psg.volume( gain() );
+	}
+	
+	return 0;
+}
+
+// Emulation
+
+blargg_err_t Vgm_Emu::start_track_( int track )
+{
+	RETURN_ERR( Classic_Emu::start_track_( track ) );
+	psg.reset( get_le16( header().noise_feedback ), header().noise_width );
+	
+	dac_disabled = -1;
+	pos          = data + header_size;
+	pcm_data     = pos;
+	pcm_pos      = pos;
+	dac_amp      = -1;
+	vgm_time     = 0;
+	if ( get_le32( header().version ) >= 0x150 )
+	{
+		long data_offset = get_le32( header().data_offset );
+		check( data_offset );
+		if ( data_offset )
+			pos += data_offset + offsetof (header_t,data_offset) - 0x40;
+	}
+	
+	if ( uses_fm )
+	{
+		if ( ym2413.enabled() )
+			ym2413.reset();
+		
+		if ( ym2612.enabled() )
+			ym2612.reset();
+		
+		fm_time_offset = 0;
+		blip_buf.clear();
+		Dual_Resampler::clear();
+	}
+	return 0;
+}
+
+blargg_err_t Vgm_Emu::run_clocks( blip_time_t& time_io, int msec )
+{
+	time_io = run_commands( msec * vgm_rate / 1000 );
+	psg.end_frame( time_io );
+	return 0;
+}
+
+blargg_err_t Vgm_Emu::play_( long count, sample_t* out )
+{
+	if ( !uses_fm )
+		return Classic_Emu::play_( count, out );
+		
+	Dual_Resampler::dual_play( count, out, blip_buf );
+	return 0;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Vgm_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Vgm_Emu.h
new file mode 100644
index 00000000..bcfa506b
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Vgm_Emu.h
@@ -0,0 +1,84 @@
+// Sega Master System/Mark III, Sega Genesis/Mega Drive, BBC Micro VGM music file emulator
+
+// Game_Music_Emu 0.5.5
+#ifndef VGM_EMU_H
+#define VGM_EMU_H
+
+#include "Vgm_Emu_Impl.h"
+
+// Emulates VGM music using SN76489/SN76496 PSG, YM2612, and YM2413 FM sound chips.
+// Supports custom sound buffer and frequency equalization when VGM uses just the PSG.
+// FM sound chips can be run at their proper rates, or slightly higher to reduce
+// aliasing on high notes. Currently YM2413 support requires that you supply a
+// YM2413 sound chip emulator. I can provide one I've modified to work with the library.
+class Vgm_Emu : public Vgm_Emu_Impl {
+public:
+	// True if custom buffer and custom equalization are supported
+	// TODO: move into Music_Emu and rename to something like supports_custom_buffer()
+	bool is_classic_emu() const { return !uses_fm; }
+	
+	// Disable running FM chips at higher than normal rate. Will result in slightly
+	// more aliasing of high notes.
+	void disable_oversampling( bool disable = true ) { disable_oversampling_ = disable; }
+	
+	// VGM header format
+	enum { header_size = 0x40 };
+	struct header_t
+	{
+		char tag [4];
+		byte data_size [4];
+		byte version [4];
+		byte psg_rate [4];
+		byte ym2413_rate [4];
+		byte gd3_offset [4];
+		byte track_duration [4];
+		byte loop_offset [4];
+		byte loop_duration [4];
+		byte frame_rate [4];
+		byte noise_feedback [2];
+		byte noise_width;
+		byte unused1;
+		byte ym2612_rate [4];
+		byte ym2151_rate [4];
+		byte data_offset [4];
+		byte unused2 [8];
+	};
+	
+	// Header for currently loaded file
+	header_t const& header() const { return *(header_t const*) data; }
+	
+	static gme_type_t static_type() { return gme_vgm_type; }
+	
+public:
+	// deprecated
+	Music_Emu::load;
+	blargg_err_t load( header_t const& h, Data_Reader& in ) // use Remaining_Reader
+			{ return load_remaining_( &h, sizeof h, in ); }
+	byte const* gd3_data( int* size_out = 0 ) const; // use track_info()
+
+public:
+	Vgm_Emu();
+	~Vgm_Emu();
+protected:
+	blargg_err_t track_info_( track_info_t*, int track ) const;
+	blargg_err_t load_mem_( byte const*, long );
+	blargg_err_t set_sample_rate_( long sample_rate );
+	blargg_err_t start_track_( int );
+	blargg_err_t play_( long count, sample_t* );
+	blargg_err_t run_clocks( blip_time_t&, int );
+	void set_tempo_( double );
+	void mute_voices_( int mask );
+	void set_voice( int, Blip_Buffer*, Blip_Buffer*, Blip_Buffer* );
+	void update_eq( blip_eq_t const& );
+private:
+	// removed; use disable_oversampling() and set_tempo() instead
+	Vgm_Emu( bool oversample, double tempo = 1.0 );
+	double fm_rate;
+	long psg_rate;
+	long vgm_rate;
+	bool disable_oversampling_;
+	bool uses_fm;
+	blargg_err_t setup_fm();
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Vgm_Emu_Impl.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Vgm_Emu_Impl.cpp
new file mode 100644
index 00000000..5a9b724a
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Vgm_Emu_Impl.cpp
@@ -0,0 +1,314 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Vgm_Emu.h"
+
+#include <math.h>
+#include <string.h>
+#include "blargg_endian.h"
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+enum {
+	cmd_gg_stereo       = 0x4F,
+	cmd_psg             = 0x50,
+	cmd_ym2413          = 0x51,
+	cmd_ym2612_port0    = 0x52,
+	cmd_ym2612_port1    = 0x53,
+	cmd_ym2151          = 0x54,
+	cmd_delay           = 0x61,
+	cmd_delay_735       = 0x62,
+	cmd_delay_882       = 0x63,
+	cmd_byte_delay      = 0x64,
+	cmd_end             = 0x66,
+	cmd_data_block      = 0x67,
+	cmd_short_delay     = 0x70,
+	cmd_pcm_delay       = 0x80,
+	cmd_pcm_seek        = 0xE0,
+	
+	pcm_block_type      = 0x00,
+	ym2612_dac_port     = 0x2A
+};
+
+inline int command_len( int command )
+{
+	switch ( command >> 4 )
+	{
+		case 0x03:
+		case 0x04:
+			return 2;
+		
+		case 0x05:
+		case 0x0A:
+		case 0x0B:
+			return 3;
+		
+		case 0x0C:
+		case 0x0D:
+			return 4;
+		
+		case 0x0E:
+		case 0x0F:
+			return 5;
+	}
+	
+	check( false );
+	return 1;
+}
+
+template<class Emu>
+inline void Ym_Emu<Emu>::begin_frame( short* p )
+{
+	require( enabled() );
+	out = p;
+	last_time = 0;
+}
+
+template<class Emu>
+inline int Ym_Emu<Emu>::run_until( int time )
+{
+	int count = time - last_time;
+	if ( count > 0 )
+	{
+		if ( last_time < 0 )
+			return false;
+		last_time = time;
+		short* p = out;
+		out += count * Emu::out_chan_count;
+		Emu::run( count, p );
+	}
+	return true;
+}
+	
+inline Vgm_Emu_Impl::fm_time_t Vgm_Emu_Impl::to_fm_time( vgm_time_t t ) const
+{
+	return (t * fm_time_factor + fm_time_offset) >> fm_time_bits;
+}
+
+inline blip_time_t Vgm_Emu_Impl::to_blip_time( vgm_time_t t ) const
+{
+	return (t * blip_time_factor) >> blip_time_bits;
+}
+
+void Vgm_Emu_Impl::write_pcm( vgm_time_t vgm_time, int amp )
+{
+	blip_time_t blip_time = to_blip_time( vgm_time );
+	int old = dac_amp;
+	int delta = amp - old;
+	dac_amp = amp;
+	if ( old >= 0 )
+		dac_synth.offset_inline( blip_time, delta, &blip_buf );
+	else
+		dac_amp |= dac_disabled;
+}
+
+blip_time_t Vgm_Emu_Impl::run_commands( vgm_time_t end_time )
+{
+	vgm_time_t vgm_time = this->vgm_time; 
+	byte const* pos = this->pos;
+	if ( pos >= data_end )
+	{
+		set_track_ended();
+		if ( pos > data_end )
+			set_warning( "Stream lacked end event" );
+	}
+	
+	while ( vgm_time < end_time && pos < data_end )
+	{
+		// TODO: be sure there are enough bytes left in stream for particular command
+		// so we don't read past end
+		switch ( *pos++ )
+		{
+		case cmd_end:
+			pos = loop_begin; // if not looped, loop_begin == data_end
+			break;
+		
+		case cmd_delay_735:
+			vgm_time += 735;
+			break;
+		
+		case cmd_delay_882:
+			vgm_time += 882;
+			break;
+		
+		case cmd_gg_stereo:
+			psg.write_ggstereo( to_blip_time( vgm_time ), *pos++ );
+			break;
+		
+		case cmd_psg:
+			psg.write_data( to_blip_time( vgm_time ), *pos++ );
+			break;
+		
+		case cmd_delay:
+			vgm_time += pos [1] * 0x100L + pos [0];
+			pos += 2;
+			break;
+		
+		case cmd_byte_delay:
+			vgm_time += *pos++;
+			break;
+		
+		case cmd_ym2413:
+			if ( ym2413.run_until( to_fm_time( vgm_time ) ) )
+				ym2413.write( pos [0], pos [1] );
+			pos += 2;
+			break;
+		
+		case cmd_ym2612_port0:
+			if ( pos [0] == ym2612_dac_port )
+			{
+				write_pcm( vgm_time, pos [1] );
+			}
+			else if ( ym2612.run_until( to_fm_time( vgm_time ) ) )
+			{
+				if ( pos [0] == 0x2B )
+				{
+					dac_disabled = (pos [1] >> 7 & 1) - 1;
+					dac_amp |= dac_disabled;
+				}
+				ym2612.write0( pos [0], pos [1] );
+			}
+			pos += 2;
+			break;
+		
+		case cmd_ym2612_port1:
+			if ( ym2612.run_until( to_fm_time( vgm_time ) ) )
+				ym2612.write1( pos [0], pos [1] );
+			pos += 2;
+			break;
+			
+		case cmd_data_block: {
+			check( *pos == cmd_end );
+			int type = pos [1];
+			long size = get_le32( pos + 2 );
+			pos += 6;
+			if ( type == pcm_block_type )
+				pcm_data = pos;
+			pos += size;
+			break;
+		}
+		
+		case cmd_pcm_seek:
+			pcm_pos = pcm_data + pos [3] * 0x1000000L + pos [2] * 0x10000L +
+					pos [1] * 0x100L + pos [0];
+			pos += 4;
+			break;
+		
+		default:
+			int cmd = pos [-1];
+			switch ( cmd & 0xF0 )
+			{
+				case cmd_pcm_delay:
+					write_pcm( vgm_time, *pcm_pos++ );
+					vgm_time += cmd & 0x0F;
+					break;
+				
+				case cmd_short_delay:
+					vgm_time += (cmd & 0x0F) + 1;
+					break;
+				
+				case 0x50:
+					pos += 2;
+					break;
+				
+				default:
+					pos += command_len( cmd ) - 1;
+					set_warning( "Unknown stream event" );
+			}
+		}
+	}
+	vgm_time -= end_time;
+	this->pos = pos;
+	this->vgm_time = vgm_time;
+	
+	return to_blip_time( end_time );
+}
+
+int Vgm_Emu_Impl::play_frame( blip_time_t blip_time, int sample_count, sample_t* buf )
+{
+	// to do: timing is working mostly by luck
+	
+	int min_pairs = sample_count >> 1;
+	int vgm_time = ((long) min_pairs << fm_time_bits) / fm_time_factor - 1;
+	assert( to_fm_time( vgm_time ) <= min_pairs );
+	int pairs = min_pairs;
+	while ( (pairs = to_fm_time( vgm_time )) < min_pairs )
+		vgm_time++;
+	//debug_printf( "pairs: %d, min_pairs: %d\n", pairs, min_pairs );
+	
+	if ( ym2612.enabled() )
+	{
+		ym2612.begin_frame( buf );
+		memset( buf, 0, pairs * stereo * sizeof *buf );
+	}
+	else if ( ym2413.enabled() )
+	{
+		ym2413.begin_frame( buf );
+	}
+	
+	run_commands( vgm_time );
+	ym2612.run_until( pairs );
+	ym2413.run_until( pairs );
+	
+	fm_time_offset = (vgm_time * fm_time_factor + fm_time_offset) -
+			((long) pairs << fm_time_bits);
+	
+	psg.end_frame( blip_time );
+	
+	return pairs * stereo;
+}
+
+// Update pre-1.10 header FM rates by scanning commands
+void Vgm_Emu_Impl::update_fm_rates( long* ym2413_rate, long* ym2612_rate ) const
+{
+	byte const* p = data + 0x40;
+	while ( p < data_end )
+	{
+		switch ( *p )
+		{
+		case cmd_end:
+			return;
+		
+		case cmd_psg:
+		case cmd_byte_delay:
+			p += 2;
+			break;
+		
+		case cmd_delay:
+			p += 3;
+			break;
+		
+		case cmd_data_block:
+			p += 7 + get_le32( p + 3 );
+			break;
+		
+		case cmd_ym2413:
+			*ym2612_rate = 0;
+			return;
+		
+		case cmd_ym2612_port0:
+		case cmd_ym2612_port1:
+			*ym2612_rate = *ym2413_rate;
+			*ym2413_rate = 0;
+			return;
+		
+		case cmd_ym2151:
+			*ym2413_rate = 0;
+			*ym2612_rate = 0;
+			return;
+		
+		default:
+			p += command_len( *p );
+		}
+	}
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Vgm_Emu_Impl.h b/plugins/gme/game-music-emu-0.5.5/gme/Vgm_Emu_Impl.h
new file mode 100644
index 00000000..8a73c328
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Vgm_Emu_Impl.h
@@ -0,0 +1,71 @@
+// Low-level parts of Vgm_Emu
+
+// Game_Music_Emu 0.5.5
+#ifndef VGM_EMU_IMPL_H
+#define VGM_EMU_IMPL_H
+
+#include "Dual_Resampler.h"
+#include "Classic_Emu.h"
+#include "Ym2413_Emu.h"
+#include "Ym2612_Emu.h"
+#include "Sms_Apu.h"
+
+template<class Emu>
+class Ym_Emu : public Emu {
+protected:
+	int last_time;
+	short* out;
+	enum { disabled_time = -1 };
+public:
+	Ym_Emu()                        : last_time( disabled_time ), out( NULL ) { }
+	void enable( bool b )           { last_time = b ? 0 : disabled_time; }
+	bool enabled() const            { return last_time != disabled_time; }
+	void begin_frame( short* p );
+	int run_until( int time );
+};
+
+class Vgm_Emu_Impl : public Classic_Emu, private Dual_Resampler {
+public:
+	typedef Classic_Emu::sample_t sample_t;
+protected:
+	enum { stereo = 2 };
+	
+	typedef int vgm_time_t;
+	
+	enum { fm_time_bits = 12 };
+	typedef int fm_time_t;
+	long fm_time_offset;
+	int fm_time_factor;
+	fm_time_t to_fm_time( vgm_time_t ) const;
+	
+	enum { blip_time_bits = 12 };
+	int blip_time_factor;
+	blip_time_t to_blip_time( vgm_time_t ) const;
+	
+	byte const* data;
+	byte const* loop_begin;
+	byte const* data_end;
+	void update_fm_rates( long* ym2413_rate, long* ym2612_rate ) const;
+	
+	vgm_time_t vgm_time;
+	byte const* pos;
+	blip_time_t run_commands( vgm_time_t );
+	int play_frame( blip_time_t blip_time, int sample_count, sample_t* buf );
+	
+	byte const* pcm_data;
+	byte const* pcm_pos;
+	int dac_amp;
+	int dac_disabled; // -1 if disabled
+	void write_pcm( vgm_time_t, int amp );
+	
+	Ym_Emu<Ym2612_Emu> ym2612;
+	Ym_Emu<Ym2413_Emu> ym2413;
+	
+	Blip_Buffer blip_buf;
+	Sms_Apu psg;
+	Blip_Synth<blip_med_quality,1> dac_synth;
+	
+	friend class Vgm_Emu;
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Ym2413_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Ym2413_Emu.cpp
new file mode 100644
index 00000000..be5b2d8c
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Ym2413_Emu.cpp
@@ -0,0 +1,21 @@
+
+// Use in place of Ym2413_Emu.cpp and ym2413.c to disable support for this chip
+
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Ym2413_Emu.h"
+
+Ym2413_Emu::Ym2413_Emu() { }
+
+Ym2413_Emu::~Ym2413_Emu() { }
+
+int Ym2413_Emu::set_rate( double, double ) { return 2; }
+
+void Ym2413_Emu::reset() { }
+
+void Ym2413_Emu::write( int, int ) { }
+
+void Ym2413_Emu::mute_voices( int ) { }
+
+void Ym2413_Emu::run( int, sample_t* ) { }
+
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Ym2413_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Ym2413_Emu.h
new file mode 100644
index 00000000..42314435
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Ym2413_Emu.h
@@ -0,0 +1,33 @@
+// YM2413 FM sound chip emulator interface
+
+// Game_Music_Emu 0.5.5
+#ifndef YM2413_EMU_H
+#define YM2413_EMU_H
+
+class Ym2413_Emu  {
+	struct OPLL* opll;
+public:
+	Ym2413_Emu();
+	~Ym2413_Emu();
+	
+	// Set output sample rate and chip clock rates, in Hz. Returns non-zero
+	// if error.
+	int set_rate( double sample_rate, double clock_rate );
+	
+	// Reset to power-up state
+	void reset();
+	
+	// Mute voice n if bit n (1 << n) of mask is set
+	enum { channel_count = 14 };
+	void mute_voices( int mask );
+	
+	// Write 'data' to 'addr'
+	void write( int addr, int data );
+	
+	// Run and write pair_count samples to output
+	typedef short sample_t;
+	enum { out_chan_count = 2 }; // stereo
+	void run( int pair_count, sample_t* out );
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Ym2612_Emu.cpp b/plugins/gme/game-music-emu-0.5.5/gme/Ym2612_Emu.cpp
new file mode 100644
index 00000000..390fdfce
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Ym2612_Emu.cpp
@@ -0,0 +1,1319 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+// Based on Gens 2.10 ym2612.c
+
+#include "Ym2612_Emu.h"
+
+#include <assert.h>
+#include <stdlib.h>
+#include <string.h>
+#include <limits.h>
+#include <stdio.h>
+#include <math.h>
+
+/* Copyright (C) 2002 Stéphane Dallongeville (gens AT consolemul.com) */
+/* Copyright (C) 2004-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+// This is mostly the original source in its C style and all.
+//
+// Somewhat optimized and simplified. Uses a template to generate the many
+// variants of Update_Chan. Rewrote header file. In need of full rewrite by
+// someone more familiar with FM sound and the YM2612. Has some inaccuracies
+// compared to the Sega Genesis sound, particularly being mixed at such a
+// high sample accuracy (the Genesis sounds like it has only 8 bit samples).
+// - Shay
+
+#ifdef BLARGG_ENABLE_OPTIMIZER
+	#include BLARGG_ENABLE_OPTIMIZER
+#endif
+
+const int output_bits = 14;
+
+struct slot_t
+{
+	const int *DT;  // parametre detune
+	int MUL;    // parametre "multiple de frequence"
+	int TL;     // Total Level = volume lorsque l'enveloppe est au plus haut
+	int TLL;    // Total Level ajusted
+	int SLL;    // Sustin Level (ajusted) = volume où l'enveloppe termine sa premiere phase de regression
+	int KSR_S;  // Key Scale Rate Shift = facteur de prise en compte du KSL dans la variations de l'enveloppe
+	int KSR;    // Key Scale Rate = cette valeur est calculee par rapport à la frequence actuelle, elle va influer
+				// sur les differents parametres de l'enveloppe comme l'attaque, le decay ...  comme dans la realite !
+	int SEG;    // Type enveloppe SSG
+	int env_xor;
+	int env_max;
+
+	const int *AR;  // Attack Rate (table pointeur) = Taux d'attaque (AR[KSR])
+	const int *DR;  // Decay Rate (table pointeur) = Taux pour la regression (DR[KSR])
+	const int *SR;  // Sustin Rate (table pointeur) = Taux pour le maintien (SR[KSR])
+	const int *RR;  // Release Rate (table pointeur) = Taux pour le rel'chement (RR[KSR])
+	int Fcnt;   // Frequency Count = compteur-frequence pour determiner l'amplitude actuelle (SIN[Finc >> 16])
+	int Finc;   // frequency step = pas d'incrementation du compteur-frequence
+				// plus le pas est grand, plus la frequence est aïgu (ou haute)
+	int Ecurp;  // Envelope current phase = cette variable permet de savoir dans quelle phase
+				// de l'enveloppe on se trouve, par exemple phase d'attaque ou phase de maintenue ...
+				// en fonction de la valeur de cette variable, on va appeler une fonction permettant
+				// de mettre à jour l'enveloppe courante.
+	int Ecnt;   // Envelope counter = le compteur-enveloppe permet de savoir où l'on se trouve dans l'enveloppe
+	int Einc;   // Envelope step courant
+	int Ecmp;   // Envelope counter limite pour la prochaine phase
+	int EincA;  // Envelope step for Attack = pas d'incrementation du compteur durant la phase d'attaque
+				// cette valeur est egal à AR[KSR]
+	int EincD;  // Envelope step for Decay = pas d'incrementation du compteur durant la phase de regression
+				// cette valeur est egal à DR[KSR]
+	int EincS;  // Envelope step for Sustain = pas d'incrementation du compteur durant la phase de maintenue
+				// cette valeur est egal à SR[KSR]
+	int EincR;  // Envelope step for Release = pas d'incrementation du compteur durant la phase de rel'chement
+				// cette valeur est egal à RR[KSR]
+	int *OUTp;  // pointeur of SLOT output = pointeur permettant de connecter la sortie de ce slot à l'entree
+				// d'un autre ou carrement à la sortie de la voie
+	int INd;    // input data of the slot = donnees en entree du slot
+	int ChgEnM; // Change envelop mask.
+	int AMS;    // AMS depth level of this SLOT = degre de modulation de l'amplitude par le LFO
+	int AMSon;  // AMS enable flag = drapeau d'activation de l'AMS
+};
+
+struct channel_t
+{
+	int S0_OUT[4];          // anciennes sorties slot 0 (pour le feed back)
+	int LEFT;               // LEFT enable flag
+	int RIGHT;              // RIGHT enable flag
+	int ALGO;               // Algorythm = determine les connections entre les operateurs
+	int FB;                 // shift count of self feed back = degre de "Feed-Back" du SLOT 1 (il est son unique entree)
+	int FMS;                // Frequency Modulation Sensitivity of channel = degre de modulation de la frequence sur la voie par le LFO
+	int AMS;                // Amplitude Modulation Sensitivity of channel = degre de modulation de l'amplitude sur la voie par le LFO
+	int FNUM[4];            // hauteur frequence de la voie (+ 3 pour le mode special)
+	int FOCT[4];            // octave de la voie (+ 3 pour le mode special)
+	int KC[4];              // Key Code = valeur fonction de la frequence (voir KSR pour les slots, KSR = KC >> KSR_S)
+	slot_t SLOT[4]; // four slot.operators = les 4 slots de la voie
+	int FFlag;              // Frequency step recalculation flag
+};
+
+struct state_t
+{
+	int TimerBase;      // TimerBase calculation
+	int Status;         // YM2612 Status (timer overflow)
+	int TimerA;         // timerA limit = valeur jusqu'à laquelle le timer A doit compter
+	int TimerAL;
+	int TimerAcnt;      // timerA counter = valeur courante du Timer A
+	int TimerB;         // timerB limit = valeur jusqu'à laquelle le timer B doit compter
+	int TimerBL;
+	int TimerBcnt;      // timerB counter = valeur courante du Timer B
+	int Mode;           // Mode actuel des voie 3 et 6 (normal / special)
+	int DAC;            // DAC enabled flag
+	channel_t CHANNEL[Ym2612_Emu::channel_count];   // Les 6 voies du YM2612
+	int REG[2][0x100];  // Sauvegardes des valeurs de tout les registres, c'est facultatif
+						// cela nous rend le debuggage plus facile
+};
+
+#ifndef PI
+#define PI 3.14159265358979323846
+#endif
+
+#define ATTACK    0
+#define DECAY     1
+#define SUBSTAIN  2
+#define RELEASE   3
+
+// SIN_LBITS <= 16
+// LFO_HBITS <= 16
+// (SIN_LBITS + SIN_HBITS) <= 26
+// (ENV_LBITS + ENV_HBITS) <= 28
+// (LFO_LBITS + LFO_HBITS) <= 28
+
+#define SIN_HBITS      12                               // Sinus phase counter int part
+#define SIN_LBITS      (26 - SIN_HBITS)                 // Sinus phase counter float part (best setting)
+
+#if (SIN_LBITS > 16)
+#define SIN_LBITS      16                               // Can't be greater than 16 bits
+#endif
+
+#define ENV_HBITS      12                               // Env phase counter int part
+#define ENV_LBITS      (28 - ENV_HBITS)                 // Env phase counter float part (best setting)
+
+#define LFO_HBITS      10                               // LFO phase counter int part
+#define LFO_LBITS      (28 - LFO_HBITS)                 // LFO phase counter float part (best setting)
+
+#define SIN_LENGHT     (1 << SIN_HBITS)
+#define ENV_LENGHT     (1 << ENV_HBITS)
+#define LFO_LENGHT     (1 << LFO_HBITS)
+
+#define TL_LENGHT      (ENV_LENGHT * 3)                 // Env + TL scaling + LFO
+
+#define SIN_MASK       (SIN_LENGHT - 1)
+#define ENV_MASK       (ENV_LENGHT - 1)
+#define LFO_MASK       (LFO_LENGHT - 1)
+
+#define ENV_STEP       (96.0 / ENV_LENGHT)              // ENV_MAX = 96 dB
+
+#define ENV_ATTACK     ((ENV_LENGHT * 0) << ENV_LBITS)
+#define ENV_DECAY      ((ENV_LENGHT * 1) << ENV_LBITS)
+#define ENV_END        ((ENV_LENGHT * 2) << ENV_LBITS)
+
+#define MAX_OUT_BITS   (SIN_HBITS + SIN_LBITS + 2)      // Modulation = -4 <--> +4
+#define MAX_OUT        ((1 << MAX_OUT_BITS) - 1)
+
+#define PG_CUT_OFF     ((int) (78.0 / ENV_STEP))
+#define ENV_CUT_OFF    ((int) (68.0 / ENV_STEP))
+
+#define AR_RATE        399128
+#define DR_RATE        5514396
+
+//#define AR_RATE        426136
+//#define DR_RATE        (AR_RATE * 12)
+
+#define LFO_FMS_LBITS  9    // FIXED (LFO_FMS_BASE gives somethink as 1)
+#define LFO_FMS_BASE   ((int) (0.05946309436 * 0.0338 * (double) (1 << LFO_FMS_LBITS)))
+
+#define S0             0    // Stupid typo of the YM2612
+#define S1             2
+#define S2             1
+#define S3             3
+
+inline void set_seg( slot_t& s, int seg )
+{
+	s.env_xor = 0;
+	s.env_max = INT_MAX;
+	s.SEG = seg;
+	if ( seg & 4 )
+	{
+		s.env_xor = ENV_MASK;
+		s.env_max = ENV_MASK;
+	}
+}
+
+struct tables_t
+{
+	short SIN_TAB [SIN_LENGHT];                 // SINUS TABLE (offset into TL TABLE)
+	int LFOcnt;         // LFO counter = compteur-frequence pour le LFO
+	int LFOinc;         // LFO step counter = pas d'incrementation du compteur-frequence du LFO
+						// plus le pas est grand, plus la frequence est grande
+	unsigned int AR_TAB [128];                  // Attack rate table
+	unsigned int DR_TAB [96];                   // Decay rate table
+	unsigned int DT_TAB [8] [32];               // Detune table
+	unsigned int SL_TAB [16];                   // Substain level table
+	unsigned int NULL_RATE [32];                // Table for NULL rate
+	int LFO_INC_TAB [8];                        // LFO step table
+	
+	short ENV_TAB [2 * ENV_LENGHT + 8];         // ENV CURVE TABLE (attack & decay)
+	
+	short LFO_ENV_TAB [LFO_LENGHT];             // LFO AMS TABLE (adjusted for 11.8 dB)
+	short LFO_FREQ_TAB [LFO_LENGHT];            // LFO FMS TABLE
+	int TL_TAB [TL_LENGHT * 2];                 // TOTAL LEVEL TABLE (positif and minus)
+	unsigned int DECAY_TO_ATTACK [ENV_LENGHT];  // Conversion from decay to attack phase
+	unsigned int FINC_TAB [2048];               // Frequency step table
+};
+
+static const unsigned char DT_DEF_TAB [4 * 32] =
+{
+// FD = 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,
+
+// FD = 1
+  0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 2, 2, 2, 2,
+  2, 3, 3, 3, 4, 4, 4, 5, 5, 6, 6, 7, 8, 8, 8, 8,
+
+// FD = 2
+  1, 1, 1, 1, 2, 2, 2, 2, 2, 3, 3, 3, 4, 4, 4, 5,
+  5, 6, 6, 7, 8, 8, 9, 10, 11, 12, 13, 14, 16, 16, 16, 16,
+
+// FD = 3
+  2, 2, 2, 2, 2, 3, 3, 3, 4, 4, 4, 5, 5, 6, 6, 7,
+  8 , 8, 9, 10, 11, 12, 13, 14, 16, 17, 19, 20, 22, 22, 22, 22
+};
+
+static const unsigned char FKEY_TAB [16] =
+{ 
+	0, 0, 0, 0,
+	0, 0, 0, 1,
+	2, 3, 3, 3,
+	3, 3, 3, 3
+};
+
+static const unsigned char LFO_AMS_TAB [4] =
+{
+	31, 4, 1, 0
+};
+
+static const unsigned char LFO_FMS_TAB [8] =
+{
+	LFO_FMS_BASE * 0, LFO_FMS_BASE * 1,
+	LFO_FMS_BASE * 2, LFO_FMS_BASE * 3,
+	LFO_FMS_BASE * 4, LFO_FMS_BASE * 6,
+	LFO_FMS_BASE * 12, LFO_FMS_BASE * 24
+};
+
+inline void YM2612_Special_Update() { }
+
+struct Ym2612_Impl
+{
+	enum { channel_count = Ym2612_Emu::channel_count };
+	
+	state_t YM2612;
+	int mute_mask;
+	tables_t g;
+	
+	void KEY_ON( channel_t&, int );
+	void KEY_OFF( channel_t&, int );
+	int SLOT_SET( int, int );
+	int CHANNEL_SET( int, int );
+	int YM_SET( int, int );
+	
+	void set_rate( double sample_rate, double clock_factor );
+	void reset();
+	void write0( int addr, int data );
+	void write1( int addr, int data );
+	void run_timer( int );
+	void run( int pair_count, Ym2612_Emu::sample_t* );
+};
+
+void Ym2612_Impl::KEY_ON( channel_t& ch, int nsl)
+{
+	slot_t *SL = &(ch.SLOT [nsl]);  // on recupere le bon pointeur de slot
+	
+	if (SL->Ecurp == RELEASE)       // la touche est-elle rel'chee ?
+	{
+		SL->Fcnt = 0;
+
+		// Fix Ecco 2 splash sound
+		
+		SL->Ecnt = (g.DECAY_TO_ATTACK [g.ENV_TAB [SL->Ecnt >> ENV_LBITS]] + ENV_ATTACK) & SL->ChgEnM;
+		SL->ChgEnM = ~0;
+
+//      SL->Ecnt = g.DECAY_TO_ATTACK [g.ENV_TAB [SL->Ecnt >> ENV_LBITS]] + ENV_ATTACK;
+//      SL->Ecnt = 0;
+
+		SL->Einc = SL->EincA;
+		SL->Ecmp = ENV_DECAY;
+		SL->Ecurp = ATTACK;
+	}
+}
+
+
+void Ym2612_Impl::KEY_OFF(channel_t& ch, int nsl)
+{
+	slot_t *SL = &(ch.SLOT [nsl]);  // on recupere le bon pointeur de slot
+	
+	if (SL->Ecurp != RELEASE)       // la touche est-elle appuyee ?
+	{
+		if (SL->Ecnt < ENV_DECAY)   // attack phase ?
+		{
+			SL->Ecnt = (g.ENV_TAB [SL->Ecnt >> ENV_LBITS] << ENV_LBITS) + ENV_DECAY;
+		}
+
+		SL->Einc = SL->EincR;
+		SL->Ecmp = ENV_END;
+		SL->Ecurp = RELEASE;
+	}
+}
+
+
+int Ym2612_Impl::SLOT_SET( int Adr, int data )
+{
+	int nch = Adr & 3;
+	if ( nch == 3 )
+		return 1;
+	
+	channel_t& ch = YM2612.CHANNEL [nch + (Adr & 0x100 ? 3 : 0)];
+	slot_t& sl = ch.SLOT [(Adr >> 2) & 3];
+
+	switch ( Adr & 0xF0 )
+	{
+		case 0x30:
+			if ( (sl.MUL = (data & 0x0F)) != 0 ) sl.MUL <<= 1;
+			else sl.MUL = 1;
+
+			sl.DT = (int*) g.DT_TAB [(data >> 4) & 7];
+
+			ch.SLOT [0].Finc = -1;
+
+			break;
+
+		case 0x40:
+			sl.TL = data & 0x7F;
+
+			// SOR2 do a lot of TL adjustement and this fix R.Shinobi jump sound...
+			YM2612_Special_Update();
+
+#if ((ENV_HBITS - 7) < 0)
+			sl.TLL = sl.TL >> (7 - ENV_HBITS);
+#else
+			sl.TLL = sl.TL << (ENV_HBITS - 7);
+#endif
+
+			break;
+
+		case 0x50:
+			sl.KSR_S = 3 - (data >> 6);
+
+			ch.SLOT [0].Finc = -1;
+
+			if (data &= 0x1F) sl.AR = (int*) &g.AR_TAB [data << 1];
+			else sl.AR = (int*) &g.NULL_RATE [0];
+
+			sl.EincA = sl.AR [sl.KSR];
+			if (sl.Ecurp == ATTACK) sl.Einc = sl.EincA;
+			break;
+
+		case 0x60:
+			if ( (sl.AMSon = (data & 0x80)) != 0 ) sl.AMS = ch.AMS;
+			else sl.AMS = 31;
+
+			if (data &= 0x1F) sl.DR = (int*) &g.DR_TAB [data << 1];
+			else sl.DR = (int*) &g.NULL_RATE [0];
+
+			sl.EincD = sl.DR [sl.KSR];
+			if (sl.Ecurp == DECAY) sl.Einc = sl.EincD;
+			break;
+
+		case 0x70:
+			if (data &= 0x1F) sl.SR = (int*) &g.DR_TAB [data << 1];
+			else sl.SR = (int*) &g.NULL_RATE [0];
+
+			sl.EincS = sl.SR [sl.KSR];
+			if ((sl.Ecurp == SUBSTAIN) && (sl.Ecnt < ENV_END)) sl.Einc = sl.EincS;
+			break;
+
+		case 0x80:
+			sl.SLL = g.SL_TAB [data >> 4];
+
+			sl.RR = (int*) &g.DR_TAB [((data & 0xF) << 2) + 2];
+
+			sl.EincR = sl.RR [sl.KSR];
+			if ((sl.Ecurp == RELEASE) && (sl.Ecnt < ENV_END)) sl.Einc = sl.EincR;
+			break;
+
+		case 0x90:
+			// SSG-EG envelope shapes :
+			/*
+			   E  At Al H
+			  
+			   1  0  0  0  \\\\
+			   1  0  0  1  \___
+			   1  0  1  0  \/\/
+			   1  0  1  1  \
+			   1  1  0  0  ////
+			   1  1  0  1  /
+			   1  1  1  0  /\/\
+			   1  1  1  1  /___
+			  
+			   E  = SSG-EG enable
+			   At = Start negate
+			   Al = Altern
+			   H  = Hold */
+
+			set_seg( sl, (data & 8) ? (data & 0x0F) : 0 );
+			break;
+	}
+
+	return 0;
+}
+
+
+int Ym2612_Impl::CHANNEL_SET( int Adr, int data )
+{
+	int num = Adr & 3;
+	if ( num == 3 )
+		return 1;
+	
+	channel_t& ch = YM2612.CHANNEL [num + (Adr & 0x100 ? 3 : 0)];
+	
+	switch ( Adr & 0xFC )
+	{
+		case 0xA0:
+			YM2612_Special_Update();
+
+			ch.FNUM [0] = (ch.FNUM [0] & 0x700) + data;
+			ch.KC [0] = (ch.FOCT [0] << 2) | FKEY_TAB [ch.FNUM [0] >> 7];
+
+			ch.SLOT [0].Finc = -1;
+			break;
+
+		case 0xA4:
+			YM2612_Special_Update();
+
+			ch.FNUM [0] = (ch.FNUM [0] & 0x0FF) + ((data & 0x07) << 8);
+			ch.FOCT [0] = (data & 0x38) >> 3;
+			ch.KC [0] = (ch.FOCT [0] << 2) | FKEY_TAB [ch.FNUM [0] >> 7];
+
+			ch.SLOT [0].Finc = -1;
+			break;
+
+		case 0xA8:
+			if ( Adr < 0x100 )
+			{
+				num++;
+
+				YM2612_Special_Update();
+
+				YM2612.CHANNEL [2].FNUM [num] = (YM2612.CHANNEL [2].FNUM [num] & 0x700) + data;
+				YM2612.CHANNEL [2].KC [num] = (YM2612.CHANNEL [2].FOCT [num] << 2) |
+						FKEY_TAB [YM2612.CHANNEL [2].FNUM [num] >> 7];
+
+				YM2612.CHANNEL [2].SLOT [0].Finc = -1;
+			}
+			break;
+
+		case 0xAC:
+			if ( Adr < 0x100 )
+			{
+				num++;
+
+				YM2612_Special_Update();
+
+				YM2612.CHANNEL [2].FNUM [num] = (YM2612.CHANNEL [2].FNUM [num] & 0x0FF) + ((data & 0x07) << 8);
+				YM2612.CHANNEL [2].FOCT [num] = (data & 0x38) >> 3;
+				YM2612.CHANNEL [2].KC [num] = (YM2612.CHANNEL [2].FOCT [num] << 2) |
+						FKEY_TAB [YM2612.CHANNEL [2].FNUM [num] >> 7];
+
+				YM2612.CHANNEL [2].SLOT [0].Finc = -1;
+			}
+			break;
+
+		case 0xB0:
+			if ( ch.ALGO != (data & 7) )
+			{
+				// Fix VectorMan 2 heli sound (level 1)
+				YM2612_Special_Update();
+
+				ch.ALGO = data & 7;
+				
+				ch.SLOT [0].ChgEnM = 0;
+				ch.SLOT [1].ChgEnM = 0;
+				ch.SLOT [2].ChgEnM = 0;
+				ch.SLOT [3].ChgEnM = 0;
+			}
+
+			ch.FB = 9 - ((data >> 3) & 7);                              // Real thing ?
+
+//          if (ch.FB = ((data >> 3) & 7)) ch.FB = 9 - ch.FB;       // Thunder force 4 (music stage 8), Gynoug, Aladdin bug sound...
+//          else ch.FB = 31;
+			break;
+
+		case 0xB4: {
+			YM2612_Special_Update();
+			
+			ch.LEFT = 0 - ((data >> 7) & 1);
+			ch.RIGHT = 0 - ((data >> 6) & 1);
+			
+			ch.AMS = LFO_AMS_TAB [(data >> 4) & 3];
+			ch.FMS = LFO_FMS_TAB [data & 7];
+			
+			for ( int i = 0; i < 4; i++ )
+			{
+				slot_t& sl = ch.SLOT [i];
+				sl.AMS = (sl.AMSon ? ch.AMS : 31);
+			}
+			break;
+		}
+	}
+	
+	return 0;
+}
+
+
+int Ym2612_Impl::YM_SET(int Adr, int data)
+{
+	switch ( Adr )
+	{
+		case 0x22:
+			if (data & 8) // LFO enable
+			{
+				// Cool Spot music 1, LFO modified severals time which
+				// distord the sound, have to check that on a real genesis...
+
+				g.LFOinc = g.LFO_INC_TAB [data & 7];
+			}
+			else
+			{
+				g.LFOinc = g.LFOcnt = 0;
+			}
+			break;
+
+		case 0x24:
+			YM2612.TimerA = (YM2612.TimerA & 0x003) | (((int) data) << 2);
+
+			if (YM2612.TimerAL != (1024 - YM2612.TimerA) << 12)
+			{
+				YM2612.TimerAcnt = YM2612.TimerAL = (1024 - YM2612.TimerA) << 12;
+			}
+			break;
+
+		case 0x25:
+			YM2612.TimerA = (YM2612.TimerA & 0x3FC) | (data & 3);
+
+			if (YM2612.TimerAL != (1024 - YM2612.TimerA) << 12)
+			{
+				YM2612.TimerAcnt = YM2612.TimerAL = (1024 - YM2612.TimerA) << 12;
+			}
+			break;
+
+		case 0x26:
+			YM2612.TimerB = data;
+
+			if (YM2612.TimerBL != (256 - YM2612.TimerB) << (4 + 12))
+			{
+				YM2612.TimerBcnt = YM2612.TimerBL = (256 - YM2612.TimerB) << (4 + 12);
+			}
+			break;
+
+		case 0x27:
+			// Parametre divers
+			// b7 = CSM MODE
+			// b6 = 3 slot mode
+			// b5 = reset b
+			// b4 = reset a
+			// b3 = timer enable b
+			// b2 = timer enable a
+			// b1 = load b
+			// b0 = load a
+
+			if ((data ^ YM2612.Mode) & 0x40)
+			{
+				// We changed the channel 2 mode, so recalculate phase step
+				// This fix the punch sound in Street of Rage 2
+
+				YM2612_Special_Update();
+
+				YM2612.CHANNEL [2].SLOT [0].Finc = -1;      // recalculate phase step
+			}
+
+//          if ((data & 2) && (YM2612.Status & 2)) YM2612.TimerBcnt = YM2612.TimerBL;
+//          if ((data & 1) && (YM2612.Status & 1)) YM2612.TimerAcnt = YM2612.TimerAL;
+
+//          YM2612.Status &= (~data >> 4);                  // Reset du Status au cas ou c'est demande
+			YM2612.Status &= (~data >> 4) & (data >> 2);    // Reset Status
+
+			YM2612.Mode = data;
+			break;
+
+		case 0x28: {
+			int nch = data & 3;
+			if ( nch == 3 )
+				return 1;
+			if ( data & 4 )
+				nch += 3;
+			channel_t& ch = YM2612.CHANNEL [nch];
+
+			YM2612_Special_Update();
+
+			if (data & 0x10) KEY_ON(ch, S0);    // On appuie sur la touche pour le slot 1
+			else KEY_OFF(ch, S0);               // On rel'che la touche pour le slot 1
+			if (data & 0x20) KEY_ON(ch, S1);    // On appuie sur la touche pour le slot 3
+			else KEY_OFF(ch, S1);               // On rel'che la touche pour le slot 3
+			if (data & 0x40) KEY_ON(ch, S2);    // On appuie sur la touche pour le slot 2
+			else KEY_OFF(ch, S2);               // On rel'che la touche pour le slot 2
+			if (data & 0x80) KEY_ON(ch, S3);    // On appuie sur la touche pour le slot 4
+			else KEY_OFF(ch, S3);               // On rel'che la touche pour le slot 4
+			break;
+		}
+		
+		case 0x2B:
+			if (YM2612.DAC ^ (data & 0x80)) YM2612_Special_Update();
+
+			YM2612.DAC = data & 0x80;   // activation/desactivation du DAC
+			break;
+	}
+	
+	return 0;
+}
+
+void Ym2612_Impl::set_rate( double sample_rate, double clock_rate )
+{
+	assert( sample_rate );
+	assert( clock_rate > sample_rate );
+	
+	int i;
+
+	// 144 = 12 * (prescale * 2) = 12 * 6 * 2
+	// prescale set to 6 by default
+	
+	double Frequence = clock_rate / sample_rate / 144.0;
+	if ( fabs( Frequence - 1.0 ) < 0.0000001 )
+		Frequence = 1.0;
+	YM2612.TimerBase = int (Frequence * 4096.0);
+
+	// Tableau TL :
+	// [0     -  4095] = +output  [4095  - ...] = +output overflow (fill with 0)
+	// [12288 - 16383] = -output  [16384 - ...] = -output overflow (fill with 0)
+
+	for(i = 0; i < TL_LENGHT; i++)
+	{
+		if (i >= PG_CUT_OFF)    // YM2612 cut off sound after 78 dB (14 bits output ?)
+		{
+			g.TL_TAB [TL_LENGHT + i] = g.TL_TAB [i] = 0;
+		}
+		else
+		{
+			double x = MAX_OUT;                         // Max output
+			x /= pow( 10.0, (ENV_STEP * i) / 20.0 );    // Decibel -> Voltage
+
+			g.TL_TAB [i] = (int) x;
+			g.TL_TAB [TL_LENGHT + i] = -g.TL_TAB [i];
+		}
+	}
+	
+	// Tableau SIN :
+	// g.SIN_TAB [x] [y] = sin(x) * y; 
+	// x = phase and y = volume
+
+	g.SIN_TAB [0] = g.SIN_TAB [SIN_LENGHT / 2] = PG_CUT_OFF;
+
+	for(i = 1; i <= SIN_LENGHT / 4; i++)
+	{
+		double x = sin(2.0 * PI * (double) (i) / (double) (SIN_LENGHT));    // Sinus
+		x = 20 * log10(1 / x);                                      // convert to dB
+
+		int j = (int) (x / ENV_STEP);                       // Get TL range
+
+		if (j > PG_CUT_OFF) j = (int) PG_CUT_OFF;
+
+		g.SIN_TAB [i] = g.SIN_TAB [(SIN_LENGHT / 2) - i] = j;
+		g.SIN_TAB [(SIN_LENGHT / 2) + i] = g.SIN_TAB [SIN_LENGHT - i] = TL_LENGHT + j;
+	}
+
+	// Tableau LFO (LFO wav) :
+
+	for(i = 0; i < LFO_LENGHT; i++)
+	{
+		double x = sin(2.0 * PI * (double) (i) / (double) (LFO_LENGHT));    // Sinus
+		x += 1.0;
+		x /= 2.0;                   // positive only
+		x *= 11.8 / ENV_STEP;       // ajusted to MAX enveloppe modulation
+
+		g.LFO_ENV_TAB [i] = (int) x;
+
+		x = sin(2.0 * PI * (double) (i) / (double) (LFO_LENGHT));   // Sinus
+		x *= (double) ((1 << (LFO_HBITS - 1)) - 1);
+
+		g.LFO_FREQ_TAB [i] = (int) x;
+
+	}
+
+	// Tableau Enveloppe :
+	// g.ENV_TAB [0] -> g.ENV_TAB [ENV_LENGHT - 1]              = attack curve
+	// g.ENV_TAB [ENV_LENGHT] -> g.ENV_TAB [2 * ENV_LENGHT - 1] = decay curve
+
+	for(i = 0; i < ENV_LENGHT; i++)
+	{
+		// Attack curve (x^8 - music level 2 Vectorman 2)
+		double x = pow(((double) ((ENV_LENGHT - 1) - i) / (double) (ENV_LENGHT)), 8);
+		x *= ENV_LENGHT;
+
+		g.ENV_TAB [i] = (int) x;
+
+		// Decay curve (just linear)
+		x = pow(((double) (i) / (double) (ENV_LENGHT)), 1);
+		x *= ENV_LENGHT;
+
+		g.ENV_TAB [ENV_LENGHT + i] = (int) x;
+	}
+	for ( i = 0; i < 8; i++ )
+		g.ENV_TAB [i + ENV_LENGHT * 2] = 0;
+	
+	g.ENV_TAB [ENV_END >> ENV_LBITS] = ENV_LENGHT - 1;      // for the stopped state
+	
+	// Tableau pour la conversion Attack -> Decay and Decay -> Attack
+	
+	int j = ENV_LENGHT - 1;
+	for ( i = 0; i < ENV_LENGHT; i++ )
+	{
+		while ( j && g.ENV_TAB [j] < i )
+			j--;
+
+		g.DECAY_TO_ATTACK [i] = j << ENV_LBITS;
+	}
+
+	// Tableau pour le Substain Level
+	
+	for(i = 0; i < 15; i++)
+	{
+		double x = i * 3;           // 3 and not 6 (Mickey Mania first music for test)
+		x /= ENV_STEP;
+
+		g.SL_TAB [i] = ((int) x << ENV_LBITS) + ENV_DECAY;
+	}
+
+	g.SL_TAB [15] = ((ENV_LENGHT - 1) << ENV_LBITS) + ENV_DECAY; // special case : volume off
+
+	// Tableau Frequency Step
+
+	for(i = 0; i < 2048; i++)
+	{
+		double x = (double) (i) * Frequence;
+
+#if ((SIN_LBITS + SIN_HBITS - (21 - 7)) < 0)
+		x /= (double) (1 << ((21 - 7) - SIN_LBITS - SIN_HBITS));
+#else
+		x *= (double) (1 << (SIN_LBITS + SIN_HBITS - (21 - 7)));
+#endif
+
+		x /= 2.0;   // because MUL = value * 2
+
+		g.FINC_TAB [i] = (unsigned int) x;
+	}
+
+	// Tableaux Attack & Decay Rate
+
+	for(i = 0; i < 4; i++)
+	{
+		g.AR_TAB [i] = 0;
+		g.DR_TAB [i] = 0;
+	}
+	
+	for(i = 0; i < 60; i++)
+	{
+		double x = Frequence;
+
+		x *= 1.0 + ((i & 3) * 0.25);                    // bits 0-1 : x1.00, x1.25, x1.50, x1.75
+		x *= (double) (1 << ((i >> 2)));                // bits 2-5 : shift bits (x2^0 - x2^15)
+		x *= (double) (ENV_LENGHT << ENV_LBITS);        // on ajuste pour le tableau g.ENV_TAB
+
+		g.AR_TAB [i + 4] = (unsigned int) (x / AR_RATE);
+		g.DR_TAB [i + 4] = (unsigned int) (x / DR_RATE);
+	}
+
+	for(i = 64; i < 96; i++)
+	{
+		g.AR_TAB [i] = g.AR_TAB [63];
+		g.DR_TAB [i] = g.DR_TAB [63];
+
+		g.NULL_RATE [i - 64] = 0;
+	}
+	
+	for ( i = 96; i < 128; i++ )
+		g.AR_TAB [i] = 0;
+	
+	// Tableau Detune
+
+	for(i = 0; i < 4; i++)
+	{
+		for (int j = 0; j < 32; j++)
+		{
+#if ((SIN_LBITS + SIN_HBITS - 21) < 0)
+			double y = (double) DT_DEF_TAB [(i << 5) + j] * Frequence / (double) (1 << (21 - SIN_LBITS - SIN_HBITS));
+#else
+			double y = (double) DT_DEF_TAB [(i << 5) + j] * Frequence * (double) (1 << (SIN_LBITS + SIN_HBITS - 21));
+#endif
+
+			g.DT_TAB [i + 0] [j] = (int)  y;
+			g.DT_TAB [i + 4] [j] = (int) -y;
+		}
+	}
+	
+	// Tableau LFO
+	g.LFO_INC_TAB [0] = (unsigned int) (3.98 * (double) (1 << (LFO_HBITS + LFO_LBITS)) / sample_rate);
+	g.LFO_INC_TAB [1] = (unsigned int) (5.56 * (double) (1 << (LFO_HBITS + LFO_LBITS)) / sample_rate);
+	g.LFO_INC_TAB [2] = (unsigned int) (6.02 * (double) (1 << (LFO_HBITS + LFO_LBITS)) / sample_rate);
+	g.LFO_INC_TAB [3] = (unsigned int) (6.37 * (double) (1 << (LFO_HBITS + LFO_LBITS)) / sample_rate);
+	g.LFO_INC_TAB [4] = (unsigned int) (6.88 * (double) (1 << (LFO_HBITS + LFO_LBITS)) / sample_rate);
+	g.LFO_INC_TAB [5] = (unsigned int) (9.63 * (double) (1 << (LFO_HBITS + LFO_LBITS)) / sample_rate);
+	g.LFO_INC_TAB [6] = (unsigned int) (48.1 * (double) (1 << (LFO_HBITS + LFO_LBITS)) / sample_rate);
+	g.LFO_INC_TAB [7] = (unsigned int) (72.2 * (double) (1 << (LFO_HBITS + LFO_LBITS)) / sample_rate);
+	
+	reset();
+}
+
+const char* Ym2612_Emu::set_rate( double sample_rate, double clock_rate )
+{
+	if ( !impl )
+	{
+		impl = (Ym2612_Impl*) malloc( sizeof *impl );
+		if ( !impl )
+			return "Out of memory";
+		impl->mute_mask = 0;
+	}
+	memset( &impl->YM2612, 0, sizeof impl->YM2612 );
+	
+	impl->set_rate( sample_rate, clock_rate );
+	
+	return 0;
+}
+
+Ym2612_Emu::~Ym2612_Emu()
+{
+	free( impl );
+}
+
+inline void Ym2612_Impl::write0( int opn_addr, int data )
+{
+	assert( (unsigned) data <= 0xFF );
+	
+	if ( opn_addr < 0x30 )
+	{
+		YM2612.REG [0] [opn_addr] = data;
+		YM_SET( opn_addr, data );
+	}
+	else if ( YM2612.REG [0] [opn_addr] != data )
+	{
+		YM2612.REG [0] [opn_addr] = data;
+		
+		if ( opn_addr < 0xA0 )
+			SLOT_SET( opn_addr, data );
+		else
+			CHANNEL_SET( opn_addr, data );
+	}
+}
+
+inline void Ym2612_Impl::write1( int opn_addr, int data )
+{
+	assert( (unsigned) data <= 0xFF );
+	
+	if ( opn_addr >= 0x30 && YM2612.REG [1] [opn_addr] != data )
+	{
+		YM2612.REG [1] [opn_addr] = data;
+
+		if ( opn_addr < 0xA0 )
+			SLOT_SET( opn_addr + 0x100, data );
+		else
+			CHANNEL_SET( opn_addr + 0x100, data );
+	}
+}
+
+void Ym2612_Emu::reset()
+{
+	impl->reset();
+}
+
+void Ym2612_Impl::reset()
+{
+	g.LFOcnt = 0;
+	YM2612.TimerA = 0;
+	YM2612.TimerAL = 0;
+	YM2612.TimerAcnt = 0;
+	YM2612.TimerB = 0;
+	YM2612.TimerBL = 0;
+	YM2612.TimerBcnt = 0;
+	YM2612.DAC = 0;
+
+	YM2612.Status = 0;
+
+	int i;
+	for ( i = 0; i < channel_count; i++ )
+	{
+		channel_t& ch = YM2612.CHANNEL [i];
+		
+		ch.LEFT = ~0;
+		ch.RIGHT = ~0;
+		ch.ALGO = 0;
+		ch.FB = 31;
+		ch.FMS = 0;
+		ch.AMS = 0;
+
+		for ( int j = 0 ;j < 4 ; j++ )
+		{
+			ch.S0_OUT [j] = 0;
+			ch.FNUM [j] = 0;
+			ch.FOCT [j] = 0;
+			ch.KC [j] = 0;
+
+			ch.SLOT [j].Fcnt = 0;
+			ch.SLOT [j].Finc = 0;
+			ch.SLOT [j].Ecnt = ENV_END;     // Put it at the end of Decay phase...
+			ch.SLOT [j].Einc = 0;
+			ch.SLOT [j].Ecmp = 0;
+			ch.SLOT [j].Ecurp = RELEASE;
+
+			ch.SLOT [j].ChgEnM = 0;
+		}
+	}
+
+	for ( i = 0; i < 0x100; i++ )
+	{
+		YM2612.REG [0] [i] = -1;
+		YM2612.REG [1] [i] = -1;
+	}
+
+	for ( i = 0xB6; i >= 0xB4; i-- )
+	{
+		write0( i, 0xC0 );
+		write1( i, 0xC0 );
+	}
+
+	for ( i = 0xB2; i >= 0x22; i-- )
+	{
+		write0( i, 0 );
+		write1( i, 0 );
+	}
+	
+	write0( 0x2A, 0x80 );
+}
+
+void Ym2612_Emu::write0( int addr, int data )
+{
+	impl->write0( addr, data );
+}
+
+void Ym2612_Emu::write1( int addr, int data )
+{
+	impl->write1( addr, data );
+}
+
+void Ym2612_Emu::mute_voices( int mask ) { impl->mute_mask = mask; }
+
+static void update_envelope_( slot_t* sl )
+{
+	switch ( sl->Ecurp )
+	{
+	case 0:
+		// Env_Attack_Next
+		
+		// Verified with Gynoug even in HQ (explode SFX)
+		sl->Ecnt = ENV_DECAY;
+
+		sl->Einc = sl->EincD;
+		sl->Ecmp = sl->SLL;
+		sl->Ecurp = DECAY;
+		break;
+	
+	case 1:
+		// Env_Decay_Next
+		
+		// Verified with Gynoug even in HQ (explode SFX)
+		sl->Ecnt = sl->SLL;
+
+		sl->Einc = sl->EincS;
+		sl->Ecmp = ENV_END;
+		sl->Ecurp = SUBSTAIN;
+		break;
+	
+	case 2:
+		// Env_Substain_Next(slot_t *SL)
+		if (sl->SEG & 8)    // SSG envelope type
+		{
+			int release = sl->SEG & 1;
+			
+			if ( !release )
+			{
+				// re KEY ON
+
+				// sl->Fcnt = 0;
+				// sl->ChgEnM = ~0;
+
+				sl->Ecnt = 0;
+				sl->Einc = sl->EincA;
+				sl->Ecmp = ENV_DECAY;
+				sl->Ecurp = ATTACK;
+			}
+
+			set_seg( *sl, (sl->SEG << 1) & 4 );
+			
+			if ( !release )
+				break;
+		}
+		// fall through
+	
+	case 3:
+		// Env_Release_Next
+		sl->Ecnt = ENV_END;
+		sl->Einc = 0;
+		sl->Ecmp = ENV_END + 1;
+		break;
+	
+	// default: no op
+	}
+}
+
+inline void update_envelope( slot_t& sl )
+{
+	int ecmp = sl.Ecmp;
+	if ( (sl.Ecnt += sl.Einc) >= ecmp )
+		update_envelope_( &sl );
+}
+
+template<int algo>
+struct ym2612_update_chan {
+	static void func( tables_t&, channel_t&, Ym2612_Emu::sample_t*, int );
+};
+
+typedef void (*ym2612_update_chan_t)( tables_t&, channel_t&, Ym2612_Emu::sample_t*, int );
+
+template<int algo>
+void ym2612_update_chan<algo>::func( tables_t& g, channel_t& ch,
+		Ym2612_Emu::sample_t* buf, int length )
+{
+	int not_end = ch.SLOT [S3].Ecnt - ENV_END;
+	
+	// algo is a compile-time constant, so all conditions based on it are resolved
+	// during compilation
+	
+	// special cases
+	if ( algo == 7 )
+		not_end |= ch.SLOT [S0].Ecnt - ENV_END;
+	
+	if ( algo >= 5 )
+		not_end |= ch.SLOT [S2].Ecnt - ENV_END;
+	
+	if ( algo >= 4 )
+		not_end |= ch.SLOT [S1].Ecnt - ENV_END;
+	
+	int CH_S0_OUT_1 = ch.S0_OUT [1];
+	
+	int in0 = ch.SLOT [S0].Fcnt;
+	int in1 = ch.SLOT [S1].Fcnt;
+	int in2 = ch.SLOT [S2].Fcnt;
+	int in3 = ch.SLOT [S3].Fcnt;
+	
+	int YM2612_LFOinc = g.LFOinc;
+	int YM2612_LFOcnt = g.LFOcnt + YM2612_LFOinc;
+	
+	if ( !not_end )
+		return;
+	
+	do
+	{
+		// envelope
+		int const env_LFO = g.LFO_ENV_TAB [YM2612_LFOcnt >> LFO_LBITS & LFO_MASK];
+		
+		short const* const ENV_TAB = g.ENV_TAB;
+		
+	#define CALC_EN( x ) \
+		int temp##x = ENV_TAB [ch.SLOT [S##x].Ecnt >> ENV_LBITS] + ch.SLOT [S##x].TLL;  \
+		int en##x = ((temp##x ^ ch.SLOT [S##x].env_xor) + (env_LFO >> ch.SLOT [S##x].AMS)) &    \
+				((temp##x - ch.SLOT [S##x].env_max) >> 31);
+		
+		CALC_EN( 0 )
+		CALC_EN( 1 )
+		CALC_EN( 2 )
+		CALC_EN( 3 )
+		
+		int const* const TL_TAB = g.TL_TAB;
+		
+	#define SINT( i, o ) (TL_TAB [g.SIN_TAB [(i)] + (o)])
+		
+		// feedback
+		int CH_S0_OUT_0 = ch.S0_OUT [0];
+		{
+			int temp = in0 + ((CH_S0_OUT_0 + CH_S0_OUT_1) >> ch.FB);
+			CH_S0_OUT_1 = CH_S0_OUT_0;
+			CH_S0_OUT_0 = SINT( (temp >> SIN_LBITS) & SIN_MASK, en0 );
+		}
+		
+		int CH_OUTd;
+		if ( algo == 0 )
+		{
+			int temp = in1 + CH_S0_OUT_1;
+			temp = in2 + SINT( (temp >> SIN_LBITS) & SIN_MASK, en1 );
+			temp = in3 + SINT( (temp >> SIN_LBITS) & SIN_MASK, en2 );
+			CH_OUTd = SINT( (temp >> SIN_LBITS) & SIN_MASK, en3 );
+		}
+		else if ( algo == 1 )
+		{
+			int temp = in2 + CH_S0_OUT_1 + SINT( (in1 >> SIN_LBITS) & SIN_MASK, en1 );
+			temp = in3 + SINT( (temp >> SIN_LBITS) & SIN_MASK, en2 );
+			CH_OUTd = SINT( (temp >> SIN_LBITS) & SIN_MASK, en3 );
+		}
+		else if ( algo == 2 )
+		{
+			int temp = in2 + SINT( (in1 >> SIN_LBITS) & SIN_MASK, en1 );
+			temp = in3 + CH_S0_OUT_1 + SINT( (temp >> SIN_LBITS) & SIN_MASK, en2 );
+			CH_OUTd = SINT( (temp >> SIN_LBITS) & SIN_MASK, en3 );
+		}
+		else if ( algo == 3 )
+		{
+			int temp = in1 + CH_S0_OUT_1;
+			temp = in3 + SINT( (temp >> SIN_LBITS) & SIN_MASK, en1 ) +
+					SINT( (in2 >> SIN_LBITS) & SIN_MASK, en2 );
+			CH_OUTd = SINT( (temp >> SIN_LBITS) & SIN_MASK, en3 );
+		}
+		else if ( algo == 4 )
+		{
+			int temp = in3 + SINT( (in2 >> SIN_LBITS) & SIN_MASK, en2 );
+			CH_OUTd = SINT( (temp >> SIN_LBITS) & SIN_MASK, en3 ) +
+					SINT( ((in1 + CH_S0_OUT_1) >> SIN_LBITS) & SIN_MASK, en1 );
+			//DO_LIMIT
+		}
+		else if ( algo == 5 )
+		{
+			int temp = CH_S0_OUT_1;
+			CH_OUTd = SINT( ((in3 + temp) >> SIN_LBITS) & SIN_MASK, en3 ) +
+					SINT( ((in1 + temp) >> SIN_LBITS) & SIN_MASK, en1 ) +
+					SINT( ((in2 + temp) >> SIN_LBITS) & SIN_MASK, en2 );
+			//DO_LIMIT
+		}
+		else if ( algo == 6 )
+		{
+			CH_OUTd = SINT( (in3 >> SIN_LBITS) & SIN_MASK, en3 ) +
+					SINT( ((in1 + CH_S0_OUT_1) >> SIN_LBITS) & SIN_MASK, en1 ) +
+					SINT( (in2 >> SIN_LBITS) & SIN_MASK, en2 );
+			//DO_LIMIT
+		}
+		else if ( algo == 7 )
+		{
+			CH_OUTd = SINT( (in3 >> SIN_LBITS) & SIN_MASK, en3 ) +
+					SINT( (in1 >> SIN_LBITS) & SIN_MASK, en1 ) +
+					SINT( (in2 >> SIN_LBITS) & SIN_MASK, en2 ) + CH_S0_OUT_1;
+			//DO_LIMIT
+		}
+		
+		CH_OUTd >>= MAX_OUT_BITS - output_bits + 2;
+		
+		// update phase
+		unsigned freq_LFO = ((g.LFO_FREQ_TAB [YM2612_LFOcnt >> LFO_LBITS & LFO_MASK] *
+				ch.FMS) >> (LFO_HBITS - 1 + 1)) + (1L << (LFO_FMS_LBITS - 1));
+		YM2612_LFOcnt += YM2612_LFOinc;
+		in0 += (ch.SLOT [S0].Finc * freq_LFO) >> (LFO_FMS_LBITS - 1);
+		in1 += (ch.SLOT [S1].Finc * freq_LFO) >> (LFO_FMS_LBITS - 1);
+		in2 += (ch.SLOT [S2].Finc * freq_LFO) >> (LFO_FMS_LBITS - 1);
+		in3 += (ch.SLOT [S3].Finc * freq_LFO) >> (LFO_FMS_LBITS - 1);
+		
+		int t0 = buf [0] + (CH_OUTd & ch.LEFT);
+		int t1 = buf [1] + (CH_OUTd & ch.RIGHT);
+		
+		update_envelope( ch.SLOT [0] );
+		update_envelope( ch.SLOT [1] );
+		update_envelope( ch.SLOT [2] );
+		update_envelope( ch.SLOT [3] );
+		
+		ch.S0_OUT [0] = CH_S0_OUT_0;
+		buf [0] = t0;
+		buf [1] = t1;
+		buf += 2;
+	}
+	while ( --length );
+	
+	ch.S0_OUT [1] = CH_S0_OUT_1;
+	
+	ch.SLOT [S0].Fcnt = in0;
+	ch.SLOT [S1].Fcnt = in1;
+	ch.SLOT [S2].Fcnt = in2;
+	ch.SLOT [S3].Fcnt = in3;
+}
+
+static const ym2612_update_chan_t UPDATE_CHAN [8] = {
+	&ym2612_update_chan<0>::func,
+	&ym2612_update_chan<1>::func,
+	&ym2612_update_chan<2>::func,
+	&ym2612_update_chan<3>::func,
+	&ym2612_update_chan<4>::func,
+	&ym2612_update_chan<5>::func,
+	&ym2612_update_chan<6>::func,
+	&ym2612_update_chan<7>::func
+};
+
+void Ym2612_Impl::run_timer( int length )
+{
+	int const step = 6;
+	int remain = length;
+	do
+	{
+		int n = step;
+		if ( n > remain )
+			n = remain;
+		remain -= n;
+		
+		long i = n * YM2612.TimerBase;
+		if (YM2612.Mode & 1)                            // Timer A ON ?
+		{
+	//      if ((YM2612.TimerAcnt -= 14073) <= 0)       // 13879=NTSC (old: 14475=NTSC  14586=PAL)
+			if ((YM2612.TimerAcnt -= i) <= 0)
+			{
+				// timer a overflow
+				
+				YM2612.Status |= (YM2612.Mode & 0x04) >> 2;
+				YM2612.TimerAcnt += YM2612.TimerAL;
+
+				if (YM2612.Mode & 0x80)
+				{
+					KEY_ON( YM2612.CHANNEL [2], 0 );
+					KEY_ON( YM2612.CHANNEL [2], 1 );
+					KEY_ON( YM2612.CHANNEL [2], 2 );
+					KEY_ON( YM2612.CHANNEL [2], 3 );
+				}
+			}
+		}
+
+		if (YM2612.Mode & 2)                            // Timer B ON ?
+		{
+	//      if ((YM2612.TimerBcnt -= 14073) <= 0)       // 13879=NTSC (old: 14475=NTSC  14586=PAL)
+			if ((YM2612.TimerBcnt -= i) <= 0)
+			{
+				// timer b overflow
+				YM2612.Status |= (YM2612.Mode & 0x08) >> 2;
+				YM2612.TimerBcnt += YM2612.TimerBL;
+			}
+		}
+	}
+	while ( remain > 0 );
+}
+
+void Ym2612_Impl::run( int pair_count, Ym2612_Emu::sample_t* out )
+{
+	if ( pair_count <= 0 )
+		return;
+	
+	if ( YM2612.Mode & 3 )
+		run_timer( pair_count );
+	
+	// Mise à jour des pas des compteurs-frequences s'ils ont ete modifies
+	
+	for ( int chi = 0; chi < channel_count; chi++ )
+	{
+		channel_t& ch = YM2612.CHANNEL [chi];
+		if ( ch.SLOT [0].Finc != -1 )
+			continue;
+		
+		int i2 = 0;
+		if ( chi == 2 && (YM2612.Mode & 0x40) )
+			i2 = 2;
+		
+		for ( int i = 0; i < 4; i++ )
+		{
+			// static int seq [4] = { 2, 1, 3, 0 };
+			// if ( i2 ) i2 = seq [i];
+			
+			slot_t& sl = ch.SLOT [i];
+			int finc = g.FINC_TAB [ch.FNUM [i2]] >> (7 - ch.FOCT [i2]);
+			int ksr = ch.KC [i2] >> sl.KSR_S;   // keycode attenuation
+			sl.Finc = (finc + sl.DT [ch.KC [i2]]) * sl.MUL;
+			if (sl.KSR != ksr)          // si le KSR a change alors
+			{                       // les differents taux pour l'enveloppe sont mis à jour
+				sl.KSR = ksr;
+
+				sl.EincA = sl.AR [ksr];
+				sl.EincD = sl.DR [ksr];
+				sl.EincS = sl.SR [ksr];
+				sl.EincR = sl.RR [ksr];
+
+				if (sl.Ecurp == ATTACK)
+				{
+					sl.Einc = sl.EincA;
+				}
+				else if (sl.Ecurp == DECAY)
+				{
+					sl.Einc = sl.EincD;
+				}
+				else if (sl.Ecnt < ENV_END)
+				{
+					if (sl.Ecurp == SUBSTAIN)
+						sl.Einc = sl.EincS;
+					else if (sl.Ecurp == RELEASE)
+						sl.Einc = sl.EincR;
+				}
+			}
+			
+			if ( i2 )
+				i2 = (i2 ^ 2) ^ (i2 >> 1);
+		}
+	}
+	
+	for ( int i = 0; i < channel_count; i++ )
+	{
+		if ( !(mute_mask & (1 << i)) && (i != 5 || !YM2612.DAC) )
+			UPDATE_CHAN [YM2612.CHANNEL [i].ALGO]( g, YM2612.CHANNEL [i], out, pair_count );
+	}
+	
+	g.LFOcnt += g.LFOinc * pair_count;
+}
+
+void Ym2612_Emu::run( int pair_count, sample_t* out ) { impl->run( pair_count, out ); }
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Ym2612_Emu.h b/plugins/gme/game-music-emu-0.5.5/gme/Ym2612_Emu.h
new file mode 100644
index 00000000..314b3399
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/Ym2612_Emu.h
@@ -0,0 +1,38 @@
+// YM2612 FM sound chip emulator interface
+
+// Game_Music_Emu 0.5.5
+#ifndef YM2612_EMU_H
+#define YM2612_EMU_H
+
+struct Ym2612_Impl;
+
+class Ym2612_Emu  {
+	Ym2612_Impl* impl;
+public:
+	Ym2612_Emu() { impl = 0; }
+	~Ym2612_Emu();
+	
+	// Set output sample rate and chip clock rates, in Hz. Returns non-zero
+	// if error.
+	const char* set_rate( double sample_rate, double clock_rate );
+	
+	// Reset to power-up state
+	void reset();
+	
+	// Mute voice n if bit n (1 << n) of mask is set
+	enum { channel_count = 6 };
+	void mute_voices( int mask );
+	
+	// Write addr to register 0 then data to register 1
+	void write0( int addr, int data );
+	
+	// Write addr to register 2 then data to register 3
+	void write1( int addr, int data );
+	
+	// Run and add pair_count samples into current output buffer contents
+	typedef short sample_t;
+	enum { out_chan_count = 2 }; // stereo
+	void run( int pair_count, sample_t* out );
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/blargg_common.h b/plugins/gme/game-music-emu-0.5.5/gme/blargg_common.h
new file mode 100644
index 00000000..e48d6469
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/blargg_common.h
@@ -0,0 +1,175 @@
+// Sets up common environment for Shay Green's libraries.
+// To change configuration options, modify blargg_config.h, not this file.
+
+#ifndef BLARGG_COMMON_H
+#define BLARGG_COMMON_H
+
+#include <stddef.h>
+#include <stdlib.h>
+#include <assert.h>
+#include <limits.h>
+
+#undef BLARGG_COMMON_H
+// allow blargg_config.h to #include blargg_common.h
+#include "blargg_config.h"
+#ifndef BLARGG_COMMON_H
+#define BLARGG_COMMON_H
+
+// STATIC_CAST(T,expr): Used in place of static_cast<T> (expr)
+#ifndef STATIC_CAST
+	#define STATIC_CAST(T,expr) ((T) (expr))
+#endif
+
+// blargg_err_t (0 on success, otherwise error string)
+#ifndef blargg_err_t
+	typedef const char* blargg_err_t;
+#endif
+
+// blargg_vector - very lightweight vector of POD types (no constructor/destructor)
+template<class T>
+class blargg_vector {
+	T* begin_;
+	size_t size_;
+public:
+	blargg_vector() : begin_( 0 ), size_( 0 ) { }
+	~blargg_vector() { free( begin_ ); }
+	size_t size() const { return size_; }
+	T* begin() const { return begin_; }
+	T* end() const { return begin_ + size_; }
+	blargg_err_t resize( size_t n )
+	{
+		void* p = realloc( begin_, n * sizeof (T) );
+		if ( !p && n )
+			return "Out of memory";
+		begin_ = (T*) p;
+		size_ = n;
+		return 0;
+	}
+	void clear() { void* p = begin_; begin_ = 0; size_ = 0; free( p ); }
+	T& operator [] ( size_t n ) const
+	{
+		assert( n <= size_ ); // <= to allow past-the-end value
+		return begin_ [n];
+	}
+};
+
+#ifndef BLARGG_DISABLE_NOTHROW
+	#if __cplusplus < 199711
+		#define BLARGG_THROWS( spec )
+	#else
+		#define BLARGG_THROWS( spec ) throw spec
+	#endif
+	#define BLARGG_DISABLE_NOTHROW \
+		void* operator new ( size_t s ) BLARGG_THROWS(()) { return malloc( s ); }\
+		void operator delete ( void* p ) { free( p ); }
+	#define BLARGG_NEW new
+#else
+	#include <new>
+	#define BLARGG_NEW new (std::nothrow)
+#endif
+
+#define BLARGG_4CHAR( a, b, c, d ) \
+	((a&0xFF)*0x1000000L + (b&0xFF)*0x10000L + (c&0xFF)*0x100L + (d&0xFF))
+
+// BOOST_STATIC_ASSERT( expr ): Generates compile error if expr is 0.
+#ifndef BOOST_STATIC_ASSERT
+	#ifdef _MSC_VER
+		// MSVC6 (_MSC_VER < 1300) fails for use of __LINE__ when /Zl is specified
+		#define BOOST_STATIC_ASSERT( expr ) \
+			void blargg_failed_( int (*arg) [2 / (int) !!(expr) - 1] )
+	#else
+		// Some other compilers fail when declaring same function multiple times in class,
+		// so differentiate them by line
+		#define BOOST_STATIC_ASSERT( expr ) \
+			void blargg_failed_( int (*arg) [2 / !!(expr) - 1] [__LINE__] )
+	#endif
+#endif
+
+// BLARGG_COMPILER_HAS_BOOL: If 0, provides bool support for old compiler. If 1,
+// compiler is assumed to support bool. If undefined, availability is determined.
+#ifndef BLARGG_COMPILER_HAS_BOOL
+	#if defined (__MWERKS__)
+		#if !__option(bool)
+			#define BLARGG_COMPILER_HAS_BOOL 0
+		#endif
+	#elif defined (_MSC_VER)
+		#if _MSC_VER < 1100
+			#define BLARGG_COMPILER_HAS_BOOL 0
+		#endif
+	#elif defined (__GNUC__)
+		// supports bool
+	#elif __cplusplus < 199711
+		#define BLARGG_COMPILER_HAS_BOOL 0
+	#endif
+#endif
+#if defined (BLARGG_COMPILER_HAS_BOOL) && !BLARGG_COMPILER_HAS_BOOL
+	// If you get errors here, modify your blargg_config.h file
+	typedef int bool;
+	const bool true  = 1;
+	const bool false = 0;
+#endif
+
+// blargg_long/blargg_ulong = at least 32 bits, int if it's big enough
+#include <limits.h>
+
+#if INT_MAX >= 0x7FFFFFFF
+	typedef int blargg_long;
+#else
+	typedef long blargg_long;
+#endif
+
+#if UINT_MAX >= 0xFFFFFFFF
+	typedef unsigned blargg_ulong;
+#else
+	typedef unsigned long blargg_ulong;
+#endif
+
+// BOOST::int8_t etc.
+
+// HAVE_STDINT_H: If defined, use <stdint.h> for int8_t etc.
+#if defined (HAVE_STDINT_H)
+	#include <stdint.h>
+	#define BOOST
+
+// HAVE_INTTYPES_H: If defined, use <stdint.h> for int8_t etc.
+#elif defined (HAVE_INTTYPES_H)
+	#include <inttypes.h>
+	#define BOOST
+
+#else
+	struct BOOST
+	{
+		#if UCHAR_MAX == 0xFF && SCHAR_MAX == 0x7F
+			typedef signed char     int8_t;
+			typedef unsigned char   uint8_t;
+		#else
+			// No suitable 8-bit type available
+			typedef struct see_blargg_common_h int8_t;
+			typedef struct see_blargg_common_h uint8_t;
+		#endif
+		
+		#if USHRT_MAX == 0xFFFF
+			typedef short           int16_t;
+			typedef unsigned short  uint16_t;
+		#else
+			// No suitable 16-bit type available
+			typedef struct see_blargg_common_h int16_t;
+			typedef struct see_blargg_common_h uint16_t;
+		#endif
+		
+		#if ULONG_MAX == 0xFFFFFFFF
+			typedef long            int32_t;
+			typedef unsigned long   uint32_t;
+		#elif UINT_MAX == 0xFFFFFFFF
+			typedef int             int32_t;
+			typedef unsigned int    uint32_t;
+		#else
+			// No suitable 32-bit type available
+			typedef struct see_blargg_common_h int32_t;
+			typedef struct see_blargg_common_h uint32_t;
+		#endif
+	};
+#endif
+
+#endif
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/blargg_config.h b/plugins/gme/game-music-emu-0.5.5/gme/blargg_config.h
new file mode 100644
index 00000000..e71ce0a9
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/blargg_config.h
@@ -0,0 +1,29 @@
+// Library configuration. Modify this file as necessary.
+
+#ifndef BLARGG_CONFIG_H
+#define BLARGG_CONFIG_H
+
+// Uncomment to use zlib for transparent decompression of gzipped files
+//#define HAVE_ZLIB_H
+
+// Uncomment to enable platform-specific optimizations
+//#define BLARGG_NONPORTABLE 1
+
+// Uncomment to use faster, lower quality sound synthesis
+//#define BLIP_BUFFER_FAST 1
+
+// Uncomment if automatic byte-order determination doesn't work
+//#define BLARGG_BIG_ENDIAN 1
+
+// Uncomment if you get errors in the bool section of blargg_common.h
+//#define BLARGG_COMPILER_HAS_BOOL 1
+
+// Use standard config.h if present
+#ifdef HAVE_CONFIG_H
+	#include "config.h"
+#endif
+
+// Add supported emulator types
+#include "gme_types.h"
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/blargg_endian.h b/plugins/gme/game-music-emu-0.5.5/gme/blargg_endian.h
new file mode 100644
index 00000000..4d160d2f
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/blargg_endian.h
@@ -0,0 +1,158 @@
+// CPU Byte Order Utilities
+
+// Game_Music_Emu 0.5.5
+#ifndef BLARGG_ENDIAN
+#define BLARGG_ENDIAN
+
+#include "blargg_common.h"
+
+// BLARGG_CPU_CISC: Defined if CPU has very few general-purpose registers (< 16)
+#if defined (_M_IX86) || defined (_M_IA64) || defined (__i486__) || \
+		defined (__x86_64__) || defined (__ia64__) || defined (__i386__)
+	#define BLARGG_CPU_X86 1
+	#define BLARGG_CPU_CISC 1
+#endif
+
+#if defined (__powerpc__) || defined (__ppc__) || defined (__POWERPC__) || defined (__powerc)
+	#define BLARGG_CPU_POWERPC 1
+#endif
+
+// BLARGG_BIG_ENDIAN, BLARGG_LITTLE_ENDIAN: Determined automatically, otherwise only
+// one may be #defined to 1. Only needed if something actually depends on byte order.
+#if !defined (BLARGG_BIG_ENDIAN) && !defined (BLARGG_LITTLE_ENDIAN)
+#ifdef __GLIBC__
+	// GCC handles this for us
+	#include <endian.h>
+	#if __BYTE_ORDER == __LITTLE_ENDIAN
+		#define BLARGG_LITTLE_ENDIAN 1
+	#elif __BYTE_ORDER == __BIG_ENDIAN
+		#define BLARGG_BIG_ENDIAN 1
+	#endif
+#else
+
+#if defined (LSB_FIRST) || defined (__LITTLE_ENDIAN__) || BLARGG_CPU_X86 || \
+		(defined (LITTLE_ENDIAN) && LITTLE_ENDIAN+0 != 1234)
+	#define BLARGG_LITTLE_ENDIAN 1
+#endif
+
+#if defined (MSB_FIRST)     || defined (__BIG_ENDIAN__) || defined (WORDS_BIGENDIAN) || \
+	defined (__mips__)      || defined (__sparc__)      ||  BLARGG_CPU_POWERPC || \
+	(defined (BIG_ENDIAN) && BIG_ENDIAN+0 != 4321)
+	#define BLARGG_BIG_ENDIAN 1
+#else
+	// No endian specified; assume little-endian, since it's most common
+	#define BLARGG_LITTLE_ENDIAN 1
+#endif
+#endif
+#endif
+
+#if BLARGG_LITTLE_ENDIAN && BLARGG_BIG_ENDIAN
+	#undef BLARGG_LITTLE_ENDIAN
+	#undef BLARGG_BIG_ENDIAN
+#endif
+
+inline void blargg_verify_byte_order()
+{
+	#ifndef NDEBUG
+		#if BLARGG_BIG_ENDIAN
+			volatile int i = 1;
+			assert( *(volatile char*) &i == 0 );
+		#elif BLARGG_LITTLE_ENDIAN
+			volatile int i = 1;
+			assert( *(volatile char*) &i != 0 );
+		#endif
+	#endif
+}
+
+inline unsigned get_le16( void const* p ) {
+	return  ((unsigned char const*) p) [1] * 0x100u +
+			((unsigned char const*) p) [0];
+}
+inline unsigned get_be16( void const* p ) {
+	return  ((unsigned char const*) p) [0] * 0x100u +
+			((unsigned char const*) p) [1];
+}
+inline blargg_ulong get_le32( void const* p ) {
+	return  ((unsigned char const*) p) [3] * 0x01000000u +
+			((unsigned char const*) p) [2] * 0x00010000u +
+			((unsigned char const*) p) [1] * 0x00000100u +
+			((unsigned char const*) p) [0];
+}
+inline blargg_ulong get_be32( void const* p ) {
+	return  ((unsigned char const*) p) [0] * 0x01000000u +
+			((unsigned char const*) p) [1] * 0x00010000u +
+			((unsigned char const*) p) [2] * 0x00000100u +
+			((unsigned char const*) p) [3];
+}
+inline void set_le16( void* p, unsigned n ) {
+	((unsigned char*) p) [1] = (unsigned char) (n >> 8);
+	((unsigned char*) p) [0] = (unsigned char) n;
+}
+inline void set_be16( void* p, unsigned n ) {
+	((unsigned char*) p) [0] = (unsigned char) (n >> 8);
+	((unsigned char*) p) [1] = (unsigned char) n;
+}
+inline void set_le32( void* p, blargg_ulong n ) {
+	((unsigned char*) p) [3] = (unsigned char) (n >> 24);
+	((unsigned char*) p) [2] = (unsigned char) (n >> 16);
+	((unsigned char*) p) [1] = (unsigned char) (n >> 8);
+	((unsigned char*) p) [0] = (unsigned char) n;
+}
+inline void set_be32( void* p, blargg_ulong n ) {
+	((unsigned char*) p) [0] = (unsigned char) (n >> 24);
+	((unsigned char*) p) [1] = (unsigned char) (n >> 16);
+	((unsigned char*) p) [2] = (unsigned char) (n >> 8);
+	((unsigned char*) p) [3] = (unsigned char) n;
+}
+
+#if BLARGG_NONPORTABLE
+	// Optimized implementation if byte order is known
+	#if BLARGG_LITTLE_ENDIAN
+		#define GET_LE16( addr )        (*(BOOST::uint16_t*) (addr))
+		#define GET_LE32( addr )        (*(BOOST::uint32_t*) (addr))
+		#define SET_LE16( addr, data )  (void) (*(BOOST::uint16_t*) (addr) = (data))
+		#define SET_LE32( addr, data )  (void) (*(BOOST::uint32_t*) (addr) = (data))
+	#elif BLARGG_BIG_ENDIAN
+		#define GET_BE16( addr )        (*(BOOST::uint16_t*) (addr))
+		#define GET_BE32( addr )        (*(BOOST::uint32_t*) (addr))
+		#define SET_BE16( addr, data )  (void) (*(BOOST::uint16_t*) (addr) = (data))
+		#define SET_BE32( addr, data )  (void) (*(BOOST::uint32_t*) (addr) = (data))
+	#endif
+	
+	#if BLARGG_CPU_POWERPC && defined (__MWERKS__)
+		// PowerPC has special byte-reversed instructions
+		// to do: assumes that PowerPC is running in big-endian mode
+		// to do: implement for other compilers which don't support these macros
+		#define GET_LE16( addr )        (__lhbrx( (addr), 0 ))
+		#define GET_LE32( addr )        (__lwbrx( (addr), 0 ))
+		#define SET_LE16( addr, data )  (__sthbrx( (data), (addr), 0 ))
+		#define SET_LE32( addr, data )  (__stwbrx( (data), (addr), 0 ))
+	#endif
+#endif
+
+#ifndef GET_LE16
+	#define GET_LE16( addr )        get_le16( addr )
+	#define GET_LE32( addr )        get_le32( addr )
+	#define SET_LE16( addr, data )  set_le16( addr, data )
+	#define SET_LE32( addr, data )  set_le32( addr, data )
+#endif
+
+#ifndef GET_BE16
+	#define GET_BE16( addr )        get_be16( addr )
+	#define GET_BE32( addr )        get_be32( addr )
+	#define SET_BE16( addr, data )  set_be16( addr, data )
+	#define SET_BE32( addr, data )  set_be32( addr, data )
+#endif
+
+// auto-selecting versions
+
+inline void set_le( BOOST::uint16_t* p, unsigned     n ) { SET_LE16( p, n ); }
+inline void set_le( BOOST::uint32_t* p, blargg_ulong n ) { SET_LE32( p, n ); }
+inline void set_be( BOOST::uint16_t* p, unsigned     n ) { SET_BE16( p, n ); }
+inline void set_be( BOOST::uint32_t* p, blargg_ulong n ) { SET_BE32( p, n ); }
+inline unsigned     get_le( BOOST::uint16_t* p ) { return GET_LE16( p ); }
+inline blargg_ulong get_le( BOOST::uint32_t* p ) { return GET_LE32( p ); }
+inline unsigned     get_be( BOOST::uint16_t* p ) { return GET_BE16( p ); }
+inline blargg_ulong get_be( BOOST::uint32_t* p ) { return GET_BE32( p ); }
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/blargg_source.h b/plugins/gme/game-music-emu-0.5.5/gme/blargg_source.h
new file mode 100644
index 00000000..2b568d19
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/blargg_source.h
@@ -0,0 +1,78 @@
+// Included at the beginning of library source files, after all other #include lines
+#ifndef BLARGG_SOURCE_H
+#define BLARGG_SOURCE_H
+
+// If debugging is enabled, abort program if expr is false. Meant for checking
+// internal state and consistency. A failed assertion indicates a bug in the module.
+// void assert( bool expr );
+#include <assert.h>
+
+// If debugging is enabled and expr is false, abort program. Meant for checking
+// caller-supplied parameters and operations that are outside the control of the
+// module. A failed requirement indicates a bug outside the module.
+// void require( bool expr );
+#undef require
+#define require( expr ) assert( expr )
+
+// Like printf() except output goes to debug log file. Might be defined to do
+// nothing (not even evaluate its arguments).
+// void debug_printf( const char* format, ... );
+inline void blargg_dprintf_( const char*, ... ) { }
+#undef debug_printf
+#define debug_printf (1) ? (void) 0 : blargg_dprintf_
+
+// If enabled, evaluate expr and if false, make debug log entry with source file
+// and line. Meant for finding situations that should be examined further, but that
+// don't indicate a problem. In all cases, execution continues normally.
+#undef check
+#define check( expr ) ((void) 0)
+
+// If expr yields error string, return it from current function, otherwise continue.
+#undef RETURN_ERR
+#define RETURN_ERR( expr ) do {                         \
+		blargg_err_t blargg_return_err_ = (expr);               \
+		if ( blargg_return_err_ ) return blargg_return_err_;    \
+	} while ( 0 )
+
+// If ptr is 0, return out of memory error string.
+#undef CHECK_ALLOC
+#define CHECK_ALLOC( ptr ) do { if ( (ptr) == 0 ) return "Out of memory"; } while ( 0 )
+
+// Avoid any macros which evaluate their arguments multiple times
+#undef min
+#undef max
+
+// using const references generates crappy code, and I am currenly only using these
+// for built-in types, so they take arguments by value
+
+template<class T>
+inline T min( T x, T y )
+{
+	if ( x < y )
+		return x;
+	return y;
+}
+
+template<class T>
+inline T max( T x, T y )
+{
+	if ( x < y )
+		return y;
+	return x;
+}
+
+// TODO: good idea? bad idea?
+#undef byte
+#define byte byte_
+typedef unsigned char byte;
+
+// deprecated
+#define BLARGG_CHECK_ALLOC CHECK_ALLOC
+#define BLARGG_RETURN_ERR RETURN_ERR
+
+// BLARGG_SOURCE_BEGIN: If defined, #included, allowing redefition of debug_printf and check
+#ifdef BLARGG_SOURCE_BEGIN
+	#include BLARGG_SOURCE_BEGIN
+#endif
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/gb_cpu_io.h b/plugins/gme/game-music-emu-0.5.5/gme/gb_cpu_io.h
new file mode 100644
index 00000000..cd98ffd5
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/gb_cpu_io.h
@@ -0,0 +1,72 @@
+
+#include "Gbs_Emu.h"
+
+#include "blargg_source.h"
+
+int Gbs_Emu::cpu_read( gb_addr_t addr )
+{
+	int result = *cpu::get_code( addr );
+	if ( unsigned (addr - Gb_Apu::start_addr) < Gb_Apu::register_count )
+		result = apu.read_register( clock(), addr );
+#ifndef NDEBUG
+	else if ( unsigned (addr - 0x8000) < 0x2000 || unsigned (addr - 0xE000) < 0x1F00 )
+		debug_printf( "Read from unmapped memory $%.4x\n", (unsigned) addr );
+	else if ( unsigned (addr - 0xFF01) < 0xFF80 - 0xFF01 )
+		debug_printf( "Unhandled I/O read 0x%4X\n", (unsigned) addr );
+#endif
+	return result;
+}
+
+void Gbs_Emu::cpu_write( gb_addr_t addr, int data )
+{
+	unsigned offset = addr - ram_addr;
+	if ( offset <= 0xFFFF - ram_addr )
+	{
+		ram [offset] = data;
+		if ( (addr ^ 0xE000) <= 0x1F80 - 1 )
+		{
+			if ( unsigned (addr - Gb_Apu::start_addr) < Gb_Apu::register_count )
+			{
+				GME_APU_HOOK( this, addr - Gb_Apu::start_addr, data );
+				apu.write_register( clock(), addr, data );
+			}
+			else if ( (addr ^ 0xFF06) < 2 )
+				update_timer();
+			else if ( addr == joypad_addr )
+				ram [offset] = 0; // keep joypad return value 0
+			else
+				ram [offset] = 0xFF;
+
+			//if ( addr == 0xFFFF )
+			//  debug_printf( "Wrote interrupt mask\n" );
+		}
+	}
+	else if ( (addr ^ 0x2000) <= 0x2000 - 1 )
+	{
+		set_bank( data );
+	}
+#ifndef NDEBUG
+	else if ( unsigned (addr - 0x8000) < 0x2000 || unsigned (addr - 0xE000) < 0x1F00 )
+	{
+		debug_printf( "Wrote to unmapped memory $%.4x\n", (unsigned) addr );
+	}
+#endif
+}
+
+#define CPU_READ_FAST( cpu, addr, time, out ) \
+	CPU_READ_FAST_( STATIC_CAST(Gbs_Emu*,cpu), addr, time, out )
+
+#define CPU_READ_FAST_( emu, addr, time, out ) \
+{\
+	out = READ_PROG( addr );\
+	if ( unsigned (addr - Gb_Apu::start_addr) <= Gb_Apu::register_count )\
+		out = emu->apu.read_register( emu->cpu_time - time * clocks_per_instr, addr );\
+	else\
+		check( out == emu->cpu_read( addr ) );\
+}
+
+#define CPU_READ( cpu, addr, time ) \
+	STATIC_CAST(Gbs_Emu*,cpu)->cpu_read( addr )
+
+#define CPU_WRITE( cpu, addr, data, time ) \
+	STATIC_CAST(Gbs_Emu*,cpu)->cpu_write( addr, data )
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/gme.cpp b/plugins/gme/game-music-emu-0.5.5/gme/gme.cpp
new file mode 100644
index 00000000..6b9dc0b8
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/gme.cpp
@@ -0,0 +1,367 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Music_Emu.h"
+
+#if !GME_DISABLE_STEREO_DEPTH
+#include "Effects_Buffer.h"
+#endif
+#include "blargg_endian.h"
+#include <string.h>
+#include <ctype.h>
+
+/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
+can redistribute it and/or modify it under the terms of the GNU Lesser
+General Public License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version. This
+module is distributed in the hope that it will be useful, but WITHOUT ANY
+WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
+FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
+details. You should have received a copy of the GNU Lesser General Public
+License along with this module; if not, write to the Free Software Foundation,
+Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
+
+#include "blargg_source.h"
+
+gme_type_t const* gme_type_list()
+{
+	static gme_type_t const gme_type_list_ [] = {
+#ifdef USE_GME_AY
+            gme_ay_type,
+#endif
+#ifdef USE_GME_GBS
+            gme_gbs_type,
+#endif
+#ifdef USE_GME_GYM
+            gme_gym_type,
+#endif
+#ifdef USE_GME_HES
+            gme_hes_type,
+#endif
+#ifdef USE_GME_KSS
+            gme_kss_type,
+#endif
+#if defined(USE_GME_NSF) || defined(USE_GME_NSFE)
+            gme_nsf_type,
+#endif
+#ifdef USE_GME_NSFE
+            gme_nsfe_type,
+#endif
+#ifdef USE_GME_SAP
+            gme_sap_type,
+#endif
+#ifdef USE_GME_SPC
+            gme_spc_type,
+#endif
+#ifdef USE_GME_VGM
+            gme_vgm_type,
+            gme_vgz_type,
+#endif
+            0 };
+
+	return gme_type_list_;
+}
+
+const char* gme_identify_header( void const* header )
+{
+	switch ( get_be32( header ) )
+	{
+		case BLARGG_4CHAR('Z','X','A','Y'):  return "AY";
+		case BLARGG_4CHAR('G','B','S',0x01): return "GBS";
+		case BLARGG_4CHAR('G','Y','M','X'):  return "GYM";
+		case BLARGG_4CHAR('H','E','S','M'):  return "HES";
+		case BLARGG_4CHAR('K','S','C','C'):
+		case BLARGG_4CHAR('K','S','S','X'):  return "KSS";
+		case BLARGG_4CHAR('N','E','S','M'):  return "NSF";
+		case BLARGG_4CHAR('N','S','F','E'):  return "NSFE";
+		case BLARGG_4CHAR('S','A','P',0x0D): return "SAP";
+		case BLARGG_4CHAR('S','N','E','S'):  return "SPC";
+		case BLARGG_4CHAR('V','g','m',' '):  return "VGM";
+	}
+	return "";
+}
+
+static void to_uppercase( const char* in, int len, char* out )
+{
+	for ( int i = 0; i < len; i++ )
+	{
+		if ( !(out [i] = toupper( in [i] )) )
+			return;
+	}
+	*out = 0; // extension too long
+}
+
+gme_type_t gme_identify_extension( const char* extension_ )
+{
+	char const* end = strrchr( extension_, '.' );
+	if ( end )
+		extension_ = end + 1;
+	
+	char extension [6];
+	to_uppercase( extension_, sizeof extension, extension );
+	
+	for ( gme_type_t const* types = gme_type_list(); *types; types++ )
+		if ( !strcmp( extension, (*types)->extension_ ) )
+			return *types;
+	return 0;
+}
+
+gme_err_t gme_identify_file( const char* path, gme_type_t* type_out )
+{
+	*type_out = gme_identify_extension( path );
+	// TODO: don't examine header if file has extension?
+	if ( !*type_out )
+	{
+		char header [4];
+		GME_FILE_READER in;
+		RETURN_ERR( in.open( path ) );
+		RETURN_ERR( in.read( header, sizeof header ) );
+		*type_out = gme_identify_extension( gme_identify_header( header ) );
+	}
+	return 0;   
+}
+
+gme_err_t gme_open_data( void const* data, long size, Music_Emu** out, int sample_rate )
+{
+	require( (data || !size) && out );
+	*out = 0;
+	
+	gme_type_t file_type = 0;
+	if ( size >= 4 )
+		file_type = gme_identify_extension( gme_identify_header( data ) );
+	if ( !file_type )
+		return gme_wrong_file_type;
+	
+	Music_Emu* emu = gme_new_emu( file_type, sample_rate );
+	CHECK_ALLOC( emu );
+	
+	gme_err_t err = gme_load_data( emu, data, size );
+	
+	if ( err )
+		delete emu;
+	else
+		*out = emu;
+	
+	return err;
+}
+
+gme_err_t gme_open_file( const char* path, Music_Emu** out, int sample_rate )
+{
+	require( path && out );
+	*out = 0;
+	
+	GME_FILE_READER in;
+	RETURN_ERR( in.open( path ) );
+	
+	char header [4];
+	int header_size = 0;
+	
+	gme_type_t file_type = gme_identify_extension( path );
+	if ( !file_type )
+	{
+		header_size = sizeof header;
+		RETURN_ERR( in.read( header, sizeof header ) );
+		file_type = gme_identify_extension( gme_identify_header( header ) );
+	}
+	if ( !file_type )
+		return gme_wrong_file_type;
+	
+	Music_Emu* emu = gme_new_emu( file_type, sample_rate );
+	CHECK_ALLOC( emu );
+	
+	// optimization: avoids seeking/re-reading header
+	Remaining_Reader rem( header, header_size, &in );
+	gme_err_t err = emu->load( rem );
+	in.close();
+	
+	if ( err )
+		delete emu;
+	else
+		*out = emu;
+	
+	return err;
+}
+
+Music_Emu* gme_new_emu( gme_type_t type, int rate )
+{
+	if ( type )
+	{
+		if ( rate == gme_info_only )
+			return type->new_info();
+		
+		Music_Emu* me = type->new_emu();
+		if ( me )
+		{
+		#if !GME_DISABLE_STEREO_DEPTH
+			if ( type->flags_ & 1 )
+			{
+				me->effects_buffer = BLARGG_NEW Effects_Buffer;
+				if ( me->effects_buffer )
+					me->set_buffer( me->effects_buffer );
+			}
+			
+			if ( !(type->flags_ & 1) || me->effects_buffer )
+		#endif
+			{
+				if ( !me->set_sample_rate( rate ) )
+				{
+					check( me->type() == type );
+					return me;
+				}
+			}
+			delete me;
+		}
+	}
+	return 0;
+}
+
+gme_err_t gme_load_file( Music_Emu* me, const char* path ) { return me->load_file( path ); }
+
+gme_err_t gme_load_data( Music_Emu* me, void const* data, long size )
+{
+	Mem_File_Reader in( data, size );
+	return me->load( in );
+}
+
+gme_err_t gme_load_custom( Music_Emu* me, gme_reader_t func, long size, void* data )
+{
+	Callback_Reader in( func, size, data );
+	return me->load( in );
+}
+
+void gme_delete( Music_Emu* me ) { delete me; }
+
+gme_type_t gme_type( Music_Emu const* me ) { return me->type(); }
+
+const char* gme_warning( Music_Emu* me ) { return me->warning(); }
+
+int gme_track_count( Music_Emu const* me ) { return me->track_count(); }
+
+struct gme_info_t_ : gme_info_t
+{
+	track_info_t info;
+	
+	BLARGG_DISABLE_NOTHROW
+};
+
+gme_err_t gme_track_info( Music_Emu const* me, gme_info_t** out, int track )
+{
+	*out = NULL;
+	
+	gme_info_t_* info = BLARGG_NEW gme_info_t_;
+	CHECK_ALLOC( info );
+	
+	gme_err_t err = me->track_info( &info->info, track );
+	if ( err )
+	{
+		gme_free_info( info );
+		return err;
+	}
+	
+	#define COPY(name) info->name = info->info.name;
+	
+	COPY( length );
+	COPY( intro_length );
+	COPY( loop_length );
+	
+	info->i4  = -1;
+	info->i5  = -1;
+	info->i6  = -1;
+	info->i7  = -1;
+	info->i8  = -1;
+	info->i9  = -1;
+	info->i10 = -1;
+	info->i11 = -1;
+	info->i12 = -1;
+	info->i13 = -1;
+	info->i14 = -1;
+	info->i15 = -1;
+	
+	info->s7  = "";
+	info->s8  = "";
+	info->s9  = "";
+	info->s10 = "";
+	info->s11 = "";
+	info->s12 = "";
+	info->s13 = "";
+	info->s14 = "";
+	info->s15 = "";
+	
+	COPY( system );
+	COPY( game );
+	COPY( song );
+	COPY( author );
+	COPY( copyright );
+	COPY( comment );
+	COPY( dumper );
+	
+	#undef COPY
+	
+	info->play_length = info->length;
+	if ( info->play_length <= 0 )
+	{
+		info->play_length = info->intro_length + 2 * info->loop_length; // intro + 2 loops
+		if ( info->play_length <= 0 )
+			info->play_length = 150 * 1000; // 2.5 minutes
+	}
+	
+	*out = info;
+	
+	return 0;
+}
+
+void gme_free_info( gme_info_t* info )
+{
+	delete STATIC_CAST(gme_info_t_*,info);
+}
+
+void gme_set_stereo_depth( Music_Emu* me, double depth )
+{
+#if !GME_DISABLE_STEREO_DEPTH
+	if ( me->effects_buffer )
+		STATIC_CAST(Effects_Buffer*,me->effects_buffer)->set_depth( depth );
+#endif
+}
+
+void*     gme_user_data      ( Music_Emu const* me )                { return me->user_data(); }
+void      gme_set_user_data  ( Music_Emu* me, void* new_user_data ) { me->set_user_data( new_user_data ); }
+void      gme_set_user_cleanup(Music_Emu* me, gme_user_cleanup_t func ) { me->set_user_cleanup( func ); }
+
+gme_err_t gme_start_track    ( Music_Emu* me, int index )           { return me->start_track( index ); }
+gme_err_t gme_play           ( Music_Emu* me, int n, short* p )     { return me->play( n, p ); }
+void      gme_set_fade       ( Music_Emu* me, int start_msec )      { me->set_fade( start_msec ); }
+int       gme_track_ended    ( Music_Emu const* me )                { return me->track_ended(); }
+int       gme_tell           ( Music_Emu const* me )                { return me->tell(); }
+gme_err_t gme_seek           ( Music_Emu* me, int msec )            { return me->seek( msec ); }
+int       gme_voice_count    ( Music_Emu const* me )                { return me->voice_count(); }
+void      gme_ignore_silence ( Music_Emu* me, int disable )         { me->ignore_silence( disable != 0 ); }
+void      gme_set_tempo      ( Music_Emu* me, double t )            { me->set_tempo( t ); }
+void      gme_mute_voice     ( Music_Emu* me, int index, int mute ) { me->mute_voice( index, mute != 0 ); }
+void      gme_mute_voices    ( Music_Emu* me, int mask )            { me->mute_voices( mask ); }
+
+void      gme_set_equalizer  ( Music_Emu* me, gme_equalizer_t const* eq )
+{
+	Music_Emu::equalizer_t e = me->equalizer();
+	e.treble = eq->treble;
+	e.bass   = eq->bass;
+	me->set_equalizer( e );
+}
+
+void gme_equalizer( Music_Emu const* me, gme_equalizer_t* out )
+{
+	gme_equalizer_t e = { };
+	e.treble = me->equalizer().treble;
+	e.bass   = me->equalizer().bass;
+	*out = e;
+}
+
+const char* gme_voice_name( Music_Emu const* me, int i )
+{
+	assert( (unsigned) i < (unsigned) me->voice_count() );
+	return me->voice_names() [i];
+}
+
+const char* gme_type_system( gme_type_t type )
+{
+	assert( type );
+	return type->system;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/gme.h b/plugins/gme/game-music-emu-0.5.5/gme/gme.h
new file mode 100644
index 00000000..5b9039c4
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/gme.h
@@ -0,0 +1,254 @@
+/* Game music emulator library C interface (also usable from C++) */
+
+/* Game_Music_Emu 0.5.5 */
+#ifndef GME_H
+#define GME_H
+
+#ifdef __cplusplus
+	extern "C" {
+#endif
+
+/* Error string returned by library functions, or NULL if no error (success) */
+typedef const char* gme_err_t;
+
+/* First parameter of most gme_ functions is a pointer to the Music_Emu */
+typedef struct Music_Emu Music_Emu;
+
+
+/******** Basic operations ********/
+
+/* Create emulator and load game music file/data into it. Sets *out to new emulator. */
+gme_err_t gme_open_file( const char path [], Music_Emu** out, int sample_rate );
+
+/* Number of tracks available */
+int gme_track_count( Music_Emu const* );
+
+/* Start a track, where 0 is the first track */
+gme_err_t gme_start_track( Music_Emu*, int index );
+
+/* Generate 'count' 16-bit signed samples info 'out'. Output is in stereo. */
+gme_err_t gme_play( Music_Emu*, int count, short out [] );
+
+/* Finish using emulator and free memory */
+void gme_delete( Music_Emu* );
+
+
+/******** Track position/length ********/
+
+/* Set time to start fading track out. Once fade ends track_ended() returns true.
+Fade time can be changed while track is playing. */
+void gme_set_fade( Music_Emu*, int start_msec );
+
+/* True if a track has reached its end */
+int gme_track_ended( Music_Emu const* );
+
+/* Number of milliseconds (1000 = one second) played since beginning of track */
+int gme_tell( Music_Emu const* );
+
+/* Seek to new time in track. Seeking backwards or far forward can take a while. */
+gme_err_t gme_seek( Music_Emu*, int msec );
+
+
+/******** Informational ********/
+
+/* If you only need track information from a music file, pass gme_info_only for
+sample_rate to open/load. */
+enum { gme_info_only = -1 };
+
+/* Most recent warning string, or NULL if none. Clears current warning after returning.
+Warning is also cleared when loading a file and starting a track. */
+const char* gme_warning( Music_Emu* );
+
+/* Load m3u playlist file (must be done after loading music) */
+gme_err_t gme_load_m3u( Music_Emu*, const char path [] );
+
+/* Clear any loaded m3u playlist and any internal playlist that the music format
+supports (NSFE for example). */
+void gme_clear_playlist( Music_Emu* );
+
+/* Gets information for a particular track (length, name, author, etc.).
+Must be freed after use. */
+typedef struct gme_info_t gme_info_t;
+gme_err_t gme_track_info( Music_Emu const*, gme_info_t** out, int track );
+
+/* Frees track information */
+void gme_free_info( gme_info_t* );
+
+struct gme_info_t
+{
+	/* times in milliseconds; -1 if unknown */
+	int length;			/* total length, if file specifies it */
+	int intro_length;	/* length of song up to looping section */
+	int loop_length;	/* length of looping section */
+	
+	/* Length if available, otherwise intro_length+loop_length*2 if available,
+	otherwise a default of 150000 (2.5 minutes). */
+	int play_length;
+	
+	int i4,i5,i6,i7,i8,i9,i10,i11,i12,i13,i14,i15; /* reserved */
+	
+	/* empty string ("") if not available */
+	const char* system;
+	const char* game;
+	const char* song;
+	const char* author;
+	const char* copyright;
+	const char* comment;
+	const char* dumper;
+	
+	const char *s7,*s8,*s9,*s10,*s11,*s12,*s13,*s14,*s15; /* reserved */
+};
+
+
+/******** Advanced playback ********/
+
+/* Adjust stereo echo depth, where 0.0 = off and 1.0 = maximum. Has no effect for
+GYM, SPC, and Sega Genesis VGM music */
+void gme_set_stereo_depth( Music_Emu*, double depth );
+
+/* Disable automatic end-of-track detection and skipping of silence at beginning
+if ignore is true */
+void gme_ignore_silence( Music_Emu*, int ignore );
+
+/* Adjust song tempo, where 1.0 = normal, 0.5 = half speed, 2.0 = double speed.
+Track length as returned by track_info() assumes a tempo of 1.0. */
+void gme_set_tempo( Music_Emu*, double tempo );
+
+/* Number of voices used by currently loaded file */
+int gme_voice_count( Music_Emu const* );
+
+/* Name of voice i, from 0 to gme_voice_count() - 1 */
+const char* gme_voice_name( Music_Emu const*, int i );
+
+/* Mute/unmute voice i, where voice 0 is first voice */
+void gme_mute_voice( Music_Emu*, int index, int mute );
+
+/* Set muting state of all voices at once using a bit mask, where -1 mutes all
+voices, 0 unmutes them all, 0x01 mutes just the first voice, etc. */
+void gme_mute_voices( Music_Emu*, int muting_mask );
+
+/* Frequency equalizer parameters (see gme.txt) */
+typedef struct gme_equalizer_t
+{
+	double treble; /* -50.0 = muffled, 0 = flat, +5.0 = extra-crisp */
+	double bass;   /* 1 = full bass, 90 = average, 16000 = almost no bass */
+	
+	double d2,d3,d4,d5,d6,d7,d8,d9; /* reserved */
+} gme_equalizer_t;
+
+/* Get current frequency equalizater parameters */
+void gme_equalizer( Music_Emu const*, gme_equalizer_t* out );
+
+/* Change frequency equalizer parameters */
+void gme_set_equalizer( Music_Emu*, gme_equalizer_t const* eq );
+
+
+
+/******** Game music types ********/
+
+/* Music file type identifier. Can also hold NULL. */
+typedef const struct gme_type_t_* gme_type_t;
+
+/* Emulator type constants for each supported file type */
+extern const gme_type_t
+	gme_ay_type,
+	gme_gbs_type,
+	gme_gym_type,
+	gme_hes_type,
+	gme_kss_type,
+	gme_nsf_type,
+	gme_nsfe_type,
+	gme_sap_type,
+	gme_spc_type,
+	gme_vgm_type,
+	gme_vgz_type;
+
+/* Type of this emulator */
+gme_type_t gme_type( Music_Emu const* );
+
+/* Pointer to array of all music types, with NULL entry at end. Allows a player linked
+to this library to support new music types without having to be updated. */
+gme_type_t const* gme_type_list();
+
+/* Name of game system for this music file type */
+const char* gme_type_system( gme_type_t );
+
+/* True if this music file type supports multiple tracks */
+int gme_type_multitrack( gme_type_t );
+
+
+/******** Advanced file loading ********/
+
+/* Error returned if file type is not supported */
+extern const char* const gme_wrong_file_type;
+
+/* Same as gme_open_file(), but uses file data already in memory. Makes copy of data. */
+gme_err_t gme_open_data( void const* data, long size, Music_Emu** out, int sample_rate );
+
+/* Determine likely game music type based on first four bytes of file. Returns
+string containing proper file suffix (i.e. "NSF", "SPC", etc.) or "" if
+file header is not recognized. */
+const char* gme_identify_header( void const* header );
+
+/* Get corresponding music type for file path or extension passed in. */
+gme_type_t gme_identify_extension( const char path_or_extension [] );
+
+/* Determine file type based on file's extension or header (if extension isn't recognized).
+Sets *type_out to type, or 0 if unrecognized or error. */
+gme_err_t gme_identify_file( const char path [], gme_type_t* type_out );
+
+/* Create new emulator and set sample rate. Returns NULL if out of memory. If you only need
+track information, pass gme_info_only for sample_rate. */
+Music_Emu* gme_new_emu( gme_type_t, int sample_rate );
+
+/* Load music file into emulator */
+gme_err_t gme_load_file( Music_Emu*, const char path [] );
+
+/* Load music file from memory into emulator. Makes a copy of data passed. */
+gme_err_t gme_load_data( Music_Emu*, void const* data, long size );
+
+/* Load music file using custom data reader function that will be called to
+read file data. Most emulators load the entire file in one read call. */
+typedef gme_err_t (*gme_reader_t)( void* your_data, void* out, int count );
+gme_err_t gme_load_custom( Music_Emu*, gme_reader_t, long file_size, void* your_data );
+
+/* Load m3u playlist file from memory (must be done after loading music) */
+gme_err_t gme_load_m3u_data( Music_Emu*, void const* data, long size );
+
+
+/******** User data ********/
+
+/* Set/get pointer to data you want to associate with this emulator.
+You can use this for whatever you want. */
+void  gme_set_user_data( Music_Emu*, void* new_user_data );
+void* gme_user_data( Music_Emu const* );
+
+/* Register cleanup function to be called when deleting emulator, or NULL to
+clear it. Passes user_data to cleanup function. */
+typedef void (*gme_user_cleanup_t)( void* user_data );
+void gme_set_user_cleanup( Music_Emu*, gme_user_cleanup_t func );
+
+typedef struct
+{
+	long track_count;
+	
+	/* times in milliseconds; -1 if unknown */
+	long length;
+	long intro_length;
+	long loop_length;
+	
+	/* empty string if not available */
+	char system    [256];
+	char game      [256];
+	char song      [256];
+	char author    [256];
+	char copyright [256];
+	char comment   [256];
+	char dumper    [256];
+} track_info_t;
+
+#ifdef __cplusplus
+	}
+#endif
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/gme_types.h b/plugins/gme/game-music-emu-0.5.5/gme/gme_types.h
new file mode 100644
index 00000000..915b87a0
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/gme_types.h
@@ -0,0 +1,15 @@
+#ifndef GME_TYPES_H
+#define GME_TYPES_H
+
+#define USE_GME_AY 1
+#define USE_GME_GBS 1
+#define USE_GME_GYM 1
+#define USE_GME_HES 1
+#define USE_GME_KSS 1
+#define USE_GME_NSF 1
+#define USE_GME_NSFE 1
+#define USE_GME_SAP 1
+#define USE_GME_SPC 1
+#define USE_GME_VGM 1
+
+#endif /* GME_TYPES_H */
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/gme_types.h.in b/plugins/gme/game-music-emu-0.5.5/gme/gme_types.h.in
new file mode 100644
index 00000000..4829b3e1
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/gme_types.h.in
@@ -0,0 +1,23 @@
+#ifndef GME_TYPES_H
+#define GME_TYPES_H
+
+/* CMake will either define the following to 1, or #undef it,
+ * depending on the options passed to CMake.  This is used to
+ * conditionally compile in the various emulator types.
+ *
+ * See gme_type_list() in gme.cpp
+ */
+
+#cmakedefine USE_GME_AY
+#cmakedefine USE_GME_GBS
+#cmakedefine USE_GME_GYM
+#cmakedefine USE_GME_HES
+#cmakedefine USE_GME_KSS
+#cmakedefine USE_GME_NSF
+#cmakedefine USE_GME_NSFE
+#cmakedefine USE_GME_SAP
+#cmakedefine USE_GME_SPC
+/* VGM and VGZ are a package deal */
+#cmakedefine USE_GME_VGM
+
+#endif /* GME_TYPES_H */
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/hes_cpu_io.h b/plugins/gme/game-music-emu-0.5.5/gme/hes_cpu_io.h
new file mode 100644
index 00000000..ce60ce8e
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/hes_cpu_io.h
@@ -0,0 +1,101 @@
+
+#include "Hes_Emu.h"
+
+#include "blargg_source.h"
+
+int Hes_Emu::cpu_read( hes_addr_t addr )
+{
+	check( addr <= 0xFFFF );
+	int result = *cpu::get_code( addr );
+	if ( mmr [addr >> page_shift] == 0xFF )
+		result = cpu_read_( addr );
+	return result;
+}
+
+void Hes_Emu::cpu_write( hes_addr_t addr, int data )
+{
+	check( addr <= 0xFFFF );
+	byte* out = write_pages [addr >> page_shift];
+	addr &= page_size - 1;
+	if ( out )
+		out [addr] = data;
+	else if ( mmr [addr >> page_shift] == 0xFF )
+		cpu_write_( addr, data );
+}
+
+inline byte const* Hes_Emu::cpu_set_mmr( int page, int bank )
+{
+	write_pages [page] = 0;
+	if ( bank < 0x80 )
+		return rom.at_addr( bank * (blargg_long) page_size );
+	
+	byte* data = 0;
+	switch ( bank )
+	{
+		case 0xF8:
+			data = cpu::ram;
+			break;
+		
+		case 0xF9:
+		case 0xFA:
+		case 0xFB:
+			data = &sgx [(bank - 0xF9) * page_size];
+			break;
+		
+		default:
+			if ( bank != 0xFF )
+				debug_printf( "Unmapped bank $%02X\n", bank );
+			return rom.unmapped();
+	}
+	
+	write_pages [page] = data;
+	return data;
+}
+
+#define CPU_READ_FAST( cpu, addr, time, out ) \
+	CPU_READ_FAST_( STATIC_CAST(Hes_Emu*,cpu), addr, time, out )
+
+#define CPU_READ_FAST_( cpu, addr, time, out ) \
+{\
+	out = READ_PROG( addr );\
+	if ( mmr [addr >> page_shift] == 0xFF )\
+	{\
+		FLUSH_TIME();\
+		out = cpu->cpu_read_( addr );\
+		CACHE_TIME();\
+	}\
+}
+
+#define CPU_WRITE_FAST( cpu, addr, data, time ) \
+	CPU_WRITE_FAST_( STATIC_CAST(Hes_Emu*,cpu), addr, data, time )
+
+#define CPU_WRITE_FAST_( cpu, addr, data, time ) \
+{\
+	byte* out = cpu->write_pages [addr >> page_shift];\
+	addr &= page_size - 1;\
+	if ( out )\
+	{\
+		out [addr] = data;\
+	}\
+	else if ( mmr [addr >> page_shift] == 0xFF )\
+	{\
+		FLUSH_TIME();\
+		cpu->cpu_write_( addr, data );\
+		CACHE_TIME();\
+	}\
+}
+
+#define CPU_READ( cpu, addr, time ) \
+	STATIC_CAST(Hes_Emu*,cpu)->cpu_read( addr )
+
+#define CPU_WRITE( cpu, addr, data, time ) \
+	STATIC_CAST(Hes_Emu*,cpu)->cpu_write( addr, data )
+
+#define CPU_WRITE_VDP( cpu, addr, data, time ) \
+	STATIC_CAST(Hes_Emu*,cpu)->cpu_write_vdp( addr, data )
+
+#define CPU_SET_MMR( cpu, page, bank ) \
+	STATIC_CAST(Hes_Emu*,cpu)->cpu_set_mmr( page, bank )
+
+#define CPU_DONE( cpu, time, result_out ) \
+	result_out = STATIC_CAST(Hes_Emu*,cpu)->cpu_done()
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/nes_cpu_io.h b/plugins/gme/game-music-emu-0.5.5/gme/nes_cpu_io.h
new file mode 100644
index 00000000..68ce9b6f
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/nes_cpu_io.h
@@ -0,0 +1,83 @@
+
+#include "Nsf_Emu.h"
+
+#if !NSF_EMU_APU_ONLY
+	#include "Nes_Namco_Apu.h"
+#endif
+
+#include "blargg_source.h"
+
+int Nsf_Emu::cpu_read( nes_addr_t addr )
+{
+	int result;
+	
+	result = cpu::low_mem [addr & 0x7FF];
+	if ( !(addr & 0xE000) )
+		goto exit;
+	
+	result = *cpu::get_code( addr );
+	if ( addr > 0x7FFF )
+		goto exit;
+	
+	result = sram [addr & (sizeof sram - 1)];
+	if ( addr > 0x5FFF )
+		goto exit;
+	
+	if ( addr == Nes_Apu::status_addr )
+		return apu.read_status( cpu::time() );
+	
+	#if !NSF_EMU_APU_ONLY
+		if ( addr == Nes_Namco_Apu::data_reg_addr && namco )
+			return namco->read_data();
+	#endif
+	
+	result = addr >> 8; // simulate open bus
+	
+	if ( addr != 0x2002 )
+		debug_printf( "Read unmapped $%.4X\n", (unsigned) addr );
+	
+exit:
+	return result;
+}
+
+void Nsf_Emu::cpu_write( nes_addr_t addr, int data )
+{
+	{
+		nes_addr_t offset = addr ^ sram_addr;
+		if ( offset < sizeof sram )
+		{
+			sram [offset] = data;
+			return;
+		}
+	}
+	{
+		int temp = addr & 0x7FF;
+		if ( !(addr & 0xE000) )
+		{
+			cpu::low_mem [temp] = data;
+			return;
+		}
+	}
+	
+	if ( unsigned (addr - Nes_Apu::start_addr) <= Nes_Apu::end_addr - Nes_Apu::start_addr )
+	{
+		GME_APU_HOOK( this, addr - Nes_Apu::start_addr, data );
+		apu.write_register( cpu::time(), addr, data );
+		return;
+	}
+	
+	unsigned bank = addr - bank_select_addr;
+	if ( bank < bank_count )
+	{
+		blargg_long offset = rom.mask_addr( data * (blargg_long) bank_size );
+		if ( offset >= rom.size() )
+			set_warning( "Invalid bank" );
+		cpu::map_code( (bank + 8) * bank_size, bank_size, rom.at_addr( offset ) );
+		return;
+	}
+	
+	cpu_write_misc( addr, data );
+}
+
+#define CPU_READ( cpu, addr, time )         STATIC_CAST(Nsf_Emu&,*cpu).cpu_read( addr )
+#define CPU_WRITE( cpu, addr, data, time )  STATIC_CAST(Nsf_Emu&,*cpu).cpu_write( addr, data )
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/sap_cpu_io.h b/plugins/gme/game-music-emu-0.5.5/gme/sap_cpu_io.h
new file mode 100644
index 00000000..d009d0d9
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/gme/sap_cpu_io.h
@@ -0,0 +1,26 @@
+
+#include "Sap_Emu.h"
+
+#include "blargg_source.h"
+
+#define CPU_WRITE( cpu, addr, data, time )  STATIC_CAST(Sap_Emu&,*cpu).cpu_write( addr, data )
+
+void Sap_Emu::cpu_write( sap_addr_t addr, int data )
+{
+	mem.ram [addr] = data;
+	if ( (addr >> 8) == 0xD2 )
+		cpu_write_( addr, data );
+}
+
+#ifdef NDEBUG
+	#define CPU_READ( cpu, addr, time )     READ_LOW( addr )
+#else
+	#define CPU_READ( cpu, addr, time )     STATIC_CAST(Sap_Emu&,*cpu).cpu_read( addr )
+	
+	int Sap_Emu::cpu_read( sap_addr_t addr )
+	{
+		if ( (addr & 0xF900) == 0xD000 )
+			debug_printf( "Unmapped read $%04X\n", addr );
+		return mem.ram [addr];
+	}
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/license.txt b/plugins/gme/game-music-emu-0.5.5/license.txt
new file mode 100644
index 00000000..5faba9d4
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/license.txt
@@ -0,0 +1,504 @@
+		  GNU LESSER GENERAL PUBLIC LICENSE

+		       Version 2.1, February 1999

+

+ Copyright (C) 1991, 1999 Free Software Foundation, Inc.

+ 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA

+ Everyone is permitted to copy and distribute verbatim copies

+ of this license document, but changing it is not allowed.

+

+[This is the first released version of the Lesser GPL.  It also counts

+ as the successor of the GNU Library Public License, version 2, hence

+ the version number 2.1.]

+

+			    Preamble

+

+  The licenses for most software are designed to take away your

+freedom to share and change it.  By contrast, the GNU General Public

+Licenses are intended to guarantee your freedom to share and change

+free software--to make sure the software is free for all its users.

+

+  This license, the Lesser General Public License, applies to some

+specially designated software packages--typically libraries--of the

+Free Software Foundation and other authors who decide to use it.  You

+can use it too, but we suggest you first think carefully about whether

+this license or the ordinary General Public License is the better

+strategy to use in any particular case, based on the explanations below.

+

+  When we speak of free software, we are referring to freedom of use,

+not price.  Our General Public Licenses are designed to make sure that

+you have the freedom to distribute copies of free software (and charge

+for this service if you wish); that you receive source code or can get

+it if you want it; that you can change the software and use pieces of

+it in new free programs; and that you are informed that you can do

+these things.

+

+  To protect your rights, we need to make restrictions that forbid

+distributors to deny you these rights or to ask you to surrender these

+rights.  These restrictions translate to certain responsibilities for

+you if you distribute copies of the library or if you modify it.

+

+  For example, if you distribute copies of the library, whether gratis

+or for a fee, you must give the recipients all the rights that we gave

+you.  You must make sure that they, too, receive or can get the source

+code.  If you link other code with the library, you must provide

+complete object files to the recipients, so that they can relink them

+with the library after making changes to the library and recompiling

+it.  And you must show them these terms so they know their rights.

+

+  We protect your rights with a two-step method: (1) we copyright the

+library, and (2) we offer you this license, which gives you legal

+permission to copy, distribute and/or modify the library.

+

+  To protect each distributor, we want to make it very clear that

+there is no warranty for the free library.  Also, if the library is

+modified by someone else and passed on, the recipients should know

+that what they have is not the original version, so that the original

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+

+  Finally, software patents pose a constant threat to the existence of

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+any patent license obtained for a version of the library must be

+consistent with the full freedom of use specified in this license.

+

+  Most GNU software, including some libraries, is covered by the

+ordinary GNU General Public License.  This license, the GNU Lesser

+General Public License, applies to certain designated libraries, and

+is quite different from the ordinary General Public License.  We use

+this license for certain libraries in order to permit linking those

+libraries into non-free programs.

+

+  When a program is linked with a library, whether statically or using

+a shared library, the combination of the two is legally speaking a

+combined work, a derivative of the original library.  The ordinary

+General Public License therefore permits such linking only if the

+entire combination fits its criteria of freedom.  The Lesser General

+Public License permits more lax criteria for linking other code with

+the library.

+

+  We call this license the "Lesser" General Public License because it

+does Less to protect the user's freedom than the ordinary General

+Public License.  It also provides other free software developers Less

+of an advantage over competing non-free programs.  These disadvantages

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+

+  For example, on rare occasions, there may be a special need to

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+library does the same job as widely used non-free libraries.  In this

+case, there is little to gain by limiting the free library to free

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+

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+non-free programs enables many more people to use the whole GNU

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+system.

+

+  Although the Lesser General Public License is Less protective of the

+users' freedom, it does ensure that the user of a program that is

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+

+  The precise terms and conditions for copying, distribution and

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+"work based on the library" and a "work that uses the library".  The

+former contains code derived from the library, whereas the latter must

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+

+		  GNU LESSER GENERAL PUBLIC LICENSE

+   TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION

+

+  0. This License Agreement applies to any software library or other

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diff --git a/plugins/gme/game-music-emu-0.5.5/player/Audio_Scope.cpp b/plugins/gme/game-music-emu-0.5.5/player/Audio_Scope.cpp
new file mode 100644
index 00000000..464392d5
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/player/Audio_Scope.cpp
@@ -0,0 +1,198 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Audio_Scope.h"
+
+#include <assert.h>
+#include <stdlib.h>
+
+/* Copyright (C) 2005-2006 by Shay Green. Permission is hereby granted, free of
+charge, to any person obtaining a copy of this software module and associated
+documentation files (the "Software"), to deal in the Software without
+restriction, including without limitation the rights to use, copy, modify,
+merge, publish, distribute, sublicense, and/or sell copies of the Software, and
+to permit persons to whom the Software is furnished to do so, subject to the
+following conditions: The above copyright notice and this permission notice
+shall be included in all copies or substantial portions of the Software. THE
+SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
+INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
+PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
+COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
+IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
+CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
+
+int const step_bits = 8;
+int const step_unit = 1 << step_bits;
+int const erase_color = 1;
+int const draw_color = 2;
+
+Audio_Scope::Audio_Scope()
+{
+	surface = 0;
+	buf = 0;
+}
+
+Audio_Scope::~Audio_Scope()
+{
+	free( buf );
+	
+	if ( surface )
+		SDL_FreeSurface( surface );
+}
+
+const char* Audio_Scope::init( int width, int height )
+{
+	assert( height <= 256 );
+	assert( !buf ); // can only call init() once
+	
+	buf = (byte*) calloc( width * sizeof *buf, 1 );
+	if ( !buf )
+		return "Out of memory";
+	
+	low_y = 0;
+	high_y = height;
+	buf_size = width;
+	
+	for ( sample_shift = 6; sample_shift < 14; )
+		if ( ((0x7FFFL * 2) >> sample_shift++) < height )
+			break;
+	
+	v_offset = height / 2 - (0x10000 >> sample_shift);
+	
+	screen = SDL_SetVideoMode( width, height, 0, 0 );
+	if ( !screen )
+		return "Couldn't set video mode";
+	
+	surface = SDL_CreateRGBSurface( SDL_SWSURFACE, width, height, 8, 0, 0, 0, 0 );
+	if ( !screen )
+		return "Couldn't create surface";
+	
+	static SDL_Color palette [2] = { {0, 0, 0}, {0, 255, 0} };
+	SDL_SetColors( surface, palette, 1, 2 );
+	
+	return 0; // success
+}
+
+const char* Audio_Scope::draw( const short* in, long count, double step )
+{
+	int low = low_y;
+	int high = high_y;
+	
+	if ( count >= buf_size )
+	{
+		count = buf_size;
+		low_y = 0x7FFF;
+		high_y = 0;
+	}
+	
+	if ( SDL_LockSurface( surface ) < 0 )
+		return "Couldn't lock surface";
+	render( in, count, (long) (step * step_unit) );
+	SDL_UnlockSurface( surface );
+	
+	if ( low > low_y )
+		low = low_y;
+	
+	if ( high < high_y )
+		high = high_y;
+	
+	SDL_Rect r;
+	r.x = 0;
+	r.w = buf_size;
+	r.y = low + v_offset;
+	r.h = high - low + 1;
+	
+	if ( SDL_BlitSurface( surface, &r, screen, &r ) < 0 )
+		return "Blit to screen failed";
+	
+	if ( SDL_Flip( screen ) < 0 )
+		return "Couldn't flip screen";
+	
+	return 0; // success
+}
+
+void Audio_Scope::render( short const* in, long count, long step )
+{
+	byte* old_pos = buf;
+	long surface_pitch = surface->pitch;
+	byte* out = (byte*) surface->pixels + v_offset * surface_pitch;
+	int old_erase = *old_pos;
+	int old_draw = 0;
+	long in_pos = 0;
+	
+	int low_y  = this->low_y;
+	int high_y = this->high_y;
+	int half_step = (step + step_unit / 2) >> (step_bits + 1);
+	
+	while ( count-- )
+	{
+		// Line drawing/erasing starts at previous sample and ends one short of
+		// current sample, except when previous and current are the same.
+		
+		// Extra read on the last iteration of line loops will always be at the
+		// height of the next sample, and thus within the gworld bounds.
+		
+		// Erase old line
+		{
+			int delta = *old_pos - old_erase;
+			int offset = old_erase * surface_pitch;
+			old_erase += delta;
+			
+			int next_line = surface_pitch;
+			if ( delta < 0 )
+			{
+				delta = -delta;
+				next_line = -surface_pitch;
+			}
+			
+			do
+			{
+				out [offset] = erase_color;
+				offset += next_line;
+			}
+			while ( delta-- > 1 );
+		}
+		
+		// Draw new line and put in old_buf
+		{
+			
+			int in_whole = in_pos >> step_bits;
+			int sample = (0x7FFF * 2 - in [in_whole] - in [in_whole + half_step]) >> sample_shift;
+			if ( !in_pos )
+				old_draw = sample;
+			in_pos += step;
+			
+			int delta = sample - old_draw;
+			int offset = old_draw * surface_pitch;
+			old_draw += delta;
+			
+			int next_line = surface_pitch;
+			if ( delta < 0 )
+			{
+				delta = -delta;
+				next_line = -surface_pitch;
+			}
+			
+			*old_pos++ = sample;
+			
+			// min/max updating can be interleved anywhere
+			
+			if ( low_y > sample )
+				low_y = sample;
+			
+			do
+			{
+				out [offset] = draw_color;
+				offset += next_line;
+			}
+			while ( delta-- > 1 );
+			
+			if ( high_y < sample )
+				high_y = sample;
+		}
+		
+		out++;
+	}
+	
+	this->low_y = low_y;
+	this->high_y = high_y;
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/player/Audio_Scope.h b/plugins/gme/game-music-emu-0.5.5/player/Audio_Scope.h
new file mode 100644
index 00000000..75334676
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/player/Audio_Scope.h
@@ -0,0 +1,36 @@
+// Simple audio waveform scope in a window, using SDL multimedia library
+
+#ifndef AUDIO_SCOPE_H
+#define AUDIO_SCOPE_H
+
+#include "SDL.h"
+
+class Audio_Scope {
+public:
+	typedef const char* error_t;
+	
+	// Initialize scope window of specified size. Height must be 256 or less.
+	error_t init( int width, int height );
+	
+	// Draw at most 'count' samples from 'in', skipping 'step' samples after
+	// each sample drawn. Step can be less than 1.0.
+	error_t draw( const short* in, long count, double step = 1.0 );
+	
+	Audio_Scope();
+	~Audio_Scope();
+	
+private:
+	typedef unsigned char byte;
+	SDL_Surface* screen;
+	SDL_Surface* surface;
+	byte* buf;
+	int buf_size;
+	int sample_shift;
+	int low_y;
+	int high_y;
+	int v_offset;
+	
+	void render( short const* in, long count, long step );
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/player/Music_Player.cpp b/plugins/gme/game-music-emu-0.5.5/player/Music_Player.cpp
new file mode 100644
index 00000000..e73261fb
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/player/Music_Player.cpp
@@ -0,0 +1,231 @@
+// Game_Music_Emu 0.5.5. http://www.slack.net/~ant/
+
+#include "Music_Player.h"
+
+#include "gme/Music_Emu.h"
+
+#include <string.h>
+#include <ctype.h>
+
+/* Copyright (C) 2005-2006 by Shay Green. Permission is hereby granted, free of
+charge, to any person obtaining a copy of this software module and associated
+documentation files (the "Software"), to deal in the Software without
+restriction, including without limitation the rights to use, copy, modify,
+merge, publish, distribute, sublicense, and/or sell copies of the Software, and
+to permit persons to whom the Software is furnished to do so, subject to the
+following conditions: The above copyright notice and this permission notice
+shall be included in all copies or substantial portions of the Software. THE
+SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
+INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
+PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
+COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
+IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
+CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
+
+#include "blargg_source.h"
+
+// Number of audio buffers per second. Adjust if you encounter audio skipping.
+const int fill_rate = 45;
+
+// Simple sound driver using SDL
+typedef void (*sound_callback_t)( void* data, short* out, int count );
+static const char* sound_init( long sample_rate, int buf_size, sound_callback_t, void* data );
+static void sound_start();
+static void sound_stop();
+static void sound_cleanup();
+
+Music_Player::Music_Player()
+{
+	emu_      = 0;
+	scope_buf = 0;
+	paused    = false;
+}
+
+blargg_err_t Music_Player::init( long rate )
+{
+	sample_rate = rate;
+	
+	int min_size = sample_rate * 2 / fill_rate;
+	int buf_size = 512;
+	while ( buf_size < min_size )
+		buf_size *= 2;
+	
+	return sound_init( sample_rate, buf_size, fill_buffer, this );
+}
+
+void Music_Player::stop()
+{
+	sound_stop();
+	delete emu_;
+	emu_ = 0;
+}
+
+Music_Player::~Music_Player()
+{
+	stop();
+	sound_cleanup();
+}
+
+blargg_err_t Music_Player::load_file( const char* path )
+{
+	stop();
+	
+	RETURN_ERR( gme_open_file( path, &emu_, sample_rate ) );
+	
+	char m3u_path [256 + 5];
+	strncpy( m3u_path, path, 256 );
+	m3u_path [256] = 0;
+	char* p = strrchr( m3u_path, '.' );
+	if ( !p )
+		p = m3u_path + strlen( m3u_path );
+	strcpy( p, ".m3u" );
+	if ( emu_->load_m3u( m3u_path ) ) { } // ignore error
+	
+	return 0;
+}
+
+int Music_Player::track_count() const
+{
+	return emu_ ? emu_->track_count() : false;
+}
+
+blargg_err_t Music_Player::start_track( int track )
+{
+	if ( emu_ )
+	{
+		// Sound must not be running when operating on emulator
+		sound_stop();
+		RETURN_ERR( emu_->start_track( track ) );
+		
+		// Calculate track length
+		if ( !emu_->track_info( &track_info_ ) )
+		{
+			if ( track_info_.length <= 0 )
+				track_info_.length = track_info_.intro_length +
+						track_info_.loop_length * 2;
+		}
+		if ( track_info_.length <= 0 )
+			track_info_.length = (long) (2.5 * 60 * 1000);
+		emu_->set_fade( track_info_.length );
+		
+		paused = false;
+		sound_start();
+	}
+	return 0;
+}
+
+void Music_Player::pause( int b )
+{
+	paused = b;
+	if ( b )
+		sound_stop();
+	else
+		sound_start();
+}
+
+void Music_Player::suspend()
+{
+	if ( !paused )
+		sound_stop();
+}
+
+void Music_Player::resume()
+{
+	if ( !paused )
+		sound_start();
+}
+
+bool Music_Player::track_ended() const
+{
+	return emu_ ? emu_->track_ended() : false;
+}
+
+void Music_Player::set_stereo_depth( double tempo )
+{
+	suspend();
+	gme_set_stereo_depth( emu_, tempo );
+	resume();
+}
+
+void Music_Player::set_tempo( double tempo )
+{
+	suspend();
+	emu_->set_tempo( tempo );
+	resume();
+}
+
+void Music_Player::mute_voices( int mask )
+{
+	suspend();
+	emu_->mute_voices( mask );
+	emu_->ignore_silence( mask != 0 );
+	resume();
+}
+
+void Music_Player::fill_buffer( void* data, sample_t* out, int count )
+{
+	Music_Player* self = (Music_Player*) data;
+	if ( self->emu_ )
+	{
+		if ( self->emu_->play( count, out ) ) { } // ignore error
+		
+		if ( self->scope_buf )
+			memcpy( self->scope_buf, out, self->scope_buf_size * sizeof *self->scope_buf );
+	}
+}
+
+// Sound output driver using SDL
+
+#include "SDL.h"
+
+static sound_callback_t sound_callback;
+static void* sound_callback_data;
+
+static void sdl_callback( void* data, Uint8* out, int count )
+{
+	if ( sound_callback )
+		sound_callback( sound_callback_data, (short*) out, count / 2 );
+}
+
+static const char* sound_init( long sample_rate, int buf_size,
+		sound_callback_t cb, void* data )
+{
+	sound_callback = cb;
+	sound_callback_data = data;
+	
+	static SDL_AudioSpec as; // making static clears all fields to 0
+	as.freq     = sample_rate;
+	as.format   = AUDIO_S16SYS;
+	as.channels = 2;
+	as.callback = sdl_callback;
+	as.samples  = buf_size;
+	if ( SDL_OpenAudio( &as, 0 ) < 0 )
+	{
+		const char* err = SDL_GetError();
+		if ( !err )
+			err = "Couldn't open SDL audio";
+		return err;
+	}
+	
+	return 0;
+}
+
+static void sound_start()
+{
+	SDL_PauseAudio( false );
+}
+
+static void sound_stop()
+{
+	SDL_PauseAudio( true );
+	
+	// be sure audio thread is not active
+	SDL_LockAudio();
+	SDL_UnlockAudio();
+}
+
+static void sound_cleanup()
+{
+	sound_stop();
+	SDL_CloseAudio();
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/player/Music_Player.h b/plugins/gme/game-music-emu-0.5.5/player/Music_Player.h
new file mode 100644
index 00000000..82115fc6
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/player/Music_Player.h
@@ -0,0 +1,69 @@
+// Simple game music file player
+
+// Game_Music_Emu 0.5.5
+#ifndef MUSIC_PLAYER_H
+#define MUSIC_PLAYER_H
+
+#include "gme/Music_Emu.h"
+
+class Music_Player {
+public:
+	// Initialize player and set sample rate
+	blargg_err_t init( long sample_rate = 44100 );
+	
+	// Load game music file. NULL on success, otherwise error string.
+	blargg_err_t load_file( const char* path );
+	
+	// (Re)start playing track. Tracks are numbered from 0 to track_count() - 1.
+	blargg_err_t start_track( int track );
+	
+	// Stop playing current file
+	void stop();
+	
+// Optional functions
+
+	// Number of tracks in current file, or 0 if no file loaded.
+	int track_count() const;
+	
+	// Info for current track
+	track_info_t const& track_info() const { return track_info_; }
+	
+	// Pause/resume playing current track.
+	void pause( int );
+	
+	// True if track ended
+	bool track_ended() const;
+	
+	// Pointer to emulator
+	Music_Emu* emu() const { return emu_; }
+	
+	// Set stereo depth, where 0.0 = none and 1.0 = maximum
+	void set_stereo_depth( double );
+	
+	// Set tempo, where 0.5 = half speed, 1.0 = normal, 2.0 = double speed
+	void set_tempo( double );
+	
+	// Set voice muting bitmask
+	void mute_voices( int );
+	
+	// Set buffer to copy samples from each buffer into, or NULL to disable
+	typedef short sample_t;
+	void set_scope_buffer( sample_t* buf, int size ) { scope_buf = buf; scope_buf_size = size; }
+	
+public:
+	Music_Player();
+	~Music_Player();
+private:
+	Music_Emu* emu_;
+	sample_t* scope_buf;
+	long sample_rate;
+	int scope_buf_size;
+	bool paused;
+	track_info_t track_info_;
+	
+	void suspend();
+	void resume();
+	static void fill_buffer( void*, sample_t*, int );
+};
+
+#endif
diff --git a/plugins/gme/game-music-emu-0.5.5/player/player.cpp b/plugins/gme/game-music-emu-0.5.5/player/player.cpp
new file mode 100644
index 00000000..59d66729
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/player/player.cpp
@@ -0,0 +1,213 @@
+/* How to play game music files with Music_Player (requires SDL library)
+
+Run program with path to a game music file.
+
+Left/Right  Change track
+Space       Pause/unpause
+E           Normal/slight stereo echo/more stereo echo
+-/=         Adjust tempo
+1-9         Toggle channel on/off
+0           Reset tempo and turn channels back on */
+
+int const scope_width = 512;
+
+#include "Music_Player.h"
+#include "Audio_Scope.h"
+
+#include <string.h>
+#include <stdlib.h>
+#include <stdio.h>
+#include "SDL.h"
+
+void handle_error( const char* );
+
+static bool paused;
+static Audio_Scope* scope;
+static Music_Player* player;
+static short scope_buf [scope_width * 2];
+
+static void init()
+{
+	// Start SDL
+	if ( SDL_Init( SDL_INIT_VIDEO | SDL_INIT_AUDIO ) < 0 )
+		exit( EXIT_FAILURE );
+	atexit( SDL_Quit );
+	SDL_EnableKeyRepeat( 500, 80 );
+	
+	// Init scope
+	scope = new Audio_Scope;
+	if ( !scope )
+		handle_error( "Out of memory" );
+	if ( scope->init( scope_width, 256 ) )
+		handle_error( "Couldn't initialize scope" );
+	memset( scope_buf, 0, sizeof scope_buf );
+	
+	// Create player
+	player = new Music_Player;
+	if ( !player )
+		handle_error( "Out of memory" );
+	handle_error( player->init() );
+	player->set_scope_buffer( scope_buf, scope_width * 2 );
+}
+
+static void start_track( int track, const char* path )
+{
+	paused = false;
+	handle_error( player->start_track( track - 1 ) );
+	
+	// update window title with track info
+	
+	long seconds = player->track_info().length / 1000;
+	const char* game = player->track_info().game;
+	if ( !*game )
+	{
+		// extract filename
+		game = strrchr( path, '\\' ); // DOS
+		if ( !game )
+			game = strrchr( path, '/' ); // UNIX
+		if ( !game )
+			game = path;
+		else
+			game++; // skip path separator
+	}
+	
+	char title [512];
+	sprintf( title, "%s: %d/%d %s (%ld:%02ld)",
+			game, track, player->track_count(), player->track_info().song,
+			seconds / 60, seconds % 60 );
+	SDL_WM_SetCaption( title, title );
+}
+
+int main( int argc, char** argv )
+{
+	init();
+	
+	// Load file
+	const char* path = (argc > 1 ? argv [argc - 1] : "test.nsf");
+	handle_error( player->load_file( path ) );
+	start_track( 1, path );
+	
+	// Main loop
+	int track = 1;
+	double tempo = 1.0;
+	bool running = true;
+	double stereo_depth = 0.0;
+	int muting_mask = 0;
+	while ( running )
+	{
+		SDL_Delay( 1000 / 100 );
+		
+		// Update scope
+		scope->draw( scope_buf, scope_width, 2 );
+		
+		// Automatically go to next track when current one ends
+		if ( player->track_ended() )
+		{
+			if ( track < player->track_count() )
+				start_track( ++track, path );
+			else
+				player->pause( paused = true );
+		}
+		
+		// Handle keyboard input
+		SDL_Event e;
+		while ( SDL_PollEvent( &e ) )
+		{
+			switch ( e.type )
+			{
+			case SDL_QUIT:
+				running = false;
+				break;
+			
+			case SDL_KEYDOWN:
+				int key = e.key.keysym.sym;
+				switch ( key )
+				{
+				case SDLK_q:
+				case SDLK_ESCAPE: // quit
+					running = false;
+					break;
+				
+				case SDLK_LEFT: // prev track
+					if ( !paused && !--track )
+						track = 1;
+					start_track( track, path );
+					break;
+				
+				case SDLK_RIGHT: // next track
+					if ( track < player->track_count() )
+						start_track( ++track, path );
+					break;
+				
+				case SDLK_MINUS: // reduce tempo
+					tempo -= 0.1;
+					if ( tempo < 0.1 )
+						tempo = 0.1;
+					player->set_tempo( tempo );
+					break;
+				
+				case SDLK_EQUALS: // increase tempo
+					tempo += 0.1;
+					if ( tempo > 2.0 )
+						tempo = 2.0;
+					player->set_tempo( tempo );
+					break;
+				
+				case SDLK_SPACE: // toggle pause
+					paused = !paused;
+					player->pause( paused );
+					break;
+				
+				case SDLK_e: // toggle echo
+					stereo_depth += 0.2;
+					if ( stereo_depth > 0.5 )
+						stereo_depth = 0;
+					player->set_stereo_depth( stereo_depth );
+					break;
+				
+				case SDLK_0: // reset tempo and muting
+					tempo = 1.0;
+					muting_mask = 0;
+					player->set_tempo( tempo );
+					player->mute_voices( muting_mask );
+					break;
+				
+				default:
+					if ( SDLK_1 <= key && key <= SDLK_9 ) // toggle muting
+					{
+						muting_mask ^= 1 << (key - SDLK_1);
+						player->mute_voices( muting_mask );
+					}
+				}
+			}
+		}
+	}
+	
+	// Cleanup
+	delete player;
+	delete scope;
+	
+	return 0;
+}
+
+void handle_error( const char* error )
+{
+	if ( error )
+	{
+		// put error in window title
+		char str [256];
+		sprintf( str, "Error: %s", error );
+		fprintf( stderr, "%s\n", str );
+		SDL_WM_SetCaption( str, str );
+		
+		// wait for keyboard or mouse activity
+		SDL_Event e;
+		do
+		{
+			while ( !SDL_PollEvent( &e ) ) { }
+		}
+		while ( e.type != SDL_QUIT && e.type != SDL_KEYDOWN && e.type != SDL_MOUSEBUTTONDOWN );
+
+		exit( EXIT_FAILURE );
+	}
+}
diff --git a/plugins/gme/game-music-emu-0.5.5/readme.txt b/plugins/gme/game-music-emu-0.5.5/readme.txt
new file mode 100644
index 00000000..36213f6b
--- /dev/null
+++ b/plugins/gme/game-music-emu-0.5.5/readme.txt
@@ -0,0 +1,218 @@
+Game_Music_Emu 0.5.5: Game Music Emulators

+------------------------------------------

+Game_Music_Emu is a collection of video game music file emulators that

+support the following formats and systems:

+

+AY        ZX Spectrum/Amstrad CPC

+GBS       Nintendo Game Boy

+GYM       Sega Genesis/Mega Drive

+HES       NEC TurboGrafx-16/PC Engine

+KSS       MSX Home Computer/other Z80 systems (doesn't support FM sound)

+NSF/NSFE  Nintendo NES/Famicom (with VRC 6, Namco 106, and FME-7 sound)

+SAP       Atari systems using POKEY sound chip

+SPC       Super Nintendo/Super Famicom

+VGM/VGZ   Sega Master System/Mark III, Sega Genesis/Mega Drive,BBC Micro

+

+Features:

+* Can be used in C and C++ code

+* High emphasis has been placed on making the library very easy to use

+* One set of common functions work with all emulators the same way

+* Several code examples, including music player using SDL

+* Portable code for use on any system with modern or older C++ compilers

+* Adjustable output sample rate using quality band-limited resampling

+* Uniform access to text information fields and track timing information

+* End-of-track fading and automatic look ahead silence detection

+* Treble/bass and stereo echo for AY/GBS/HES/KSS/NSF/NSFE/SAP/VGM

+* Tempo can be adjusted and individual voices can be muted while playing

+* Can read music data from file, memory, or custom reader function/class

+* Can access track information without having to load into full emulator

+* M3U track listing support for multi-track formats

+* Modular design allows elimination of unneeded emulators/features

+

+This library has been used in game music players for Windows, Linux on

+several architectures, Mac OS, MorphOS, Xbox, PlayStation Portable,

+GP2X, and Nintendo DS.

+

+Author : Shay Green <gblargg@gmail.com>

+Website: http://www.slack.net/~ant/

+Forum  : http://groups.google.com/group/blargg-sound-libs

+License: GNU Lesser General Public License (LGPL)

+

+

+Getting Started

+---------------

+Build a program consisting of demo/basics.c, demo/Wave_Writer.cpp, and

+all source files in gme/.

+

+If you have CMake 2.6 or higher you can use CMake to perform the build for

+you using standard CMake technique (i.e. cd to the source directory, run

+cmake, cd demo, run make)

+

+Be sure "test.nsf" is in the same directory.

+Running the program should generate the recording "out.wav".

+

+A slightly more extensive demo application is available in the player/

+directory.  It requires SDL to build.

+

+Read gme.txt for more information. Post to the discussion forum for

+assistance.

+

+

+Files

+-----

+gme.txt               General notes about the library

+changes.txt           Changes made since previous releases

+design.txt            Library design notes

+license.txt           GNU Lesser General Public License

+CMakeLists.txt        CMake build rules

+

+test.nsf              Test file for NSF emulator

+test.m3u              Test m3u playlist for features.c demo

+

+demo/

+  basics.c            Records NSF file to wave sound file

+  cpp_basics.cpp      C++ version of basics.c

+  features.c          Demonstrates many additional features

+  Wave_Writer.h       WAVE sound file writer used for demo output

+  Wave_Writer.cpp

+  CMakeLists.txt      CMake build rules

+

+player/               Player using the SDL multimedia library

+  player.cpp          Simple music player with waveform display

+  Music_Player.cpp    Stand alone player for background music

+  Music_Player.h

+  Audio_Scope.cpp     Audio waveform scope

+  Audio_Scope.h

+  CMakeLists.txt      CMake build rules

+

+gme/

+  blargg_config.h     Library configuration (modify this file as needed)

+

+  gme.h               C interface (also usable in C++, and simpler too)

+  gme.cpp

+

+  Gme_File.h          File loading and track information

+  Music_Emu.h         Track playback and adjustments

+  Data_Reader.h       Custom data readers

+

+  Effects_Buffer.h    Sound buffer with stereo echo and panning

+  Effects_Buffer.cpp

+

+  M3u_Playlist.h      M3U playlist support

+  M3u_Playlist.cpp

+

+  Ay_Emu.h            ZX Spectrum AY emulator

+  Ay_Emu.cpp

+  Ay_Apu.cpp

+  Ay_Apu.h

+  Ay_Cpu.cpp

+  Ay_Cpu.h

+

+  Gbs_Emu.h           Nintendo Game Boy GBS emulator

+  Gbs_Emu.cpp

+  Gb_Apu.cpp

+  Gb_Apu.h

+  Gb_Cpu.cpp

+  Gb_Cpu.h

+  gb_cpu_io.h

+  Gb_Oscs.cpp

+  Gb_Oscs.h

+

+  Hes_Emu.h           TurboGrafx-16/PC Engine HES emulator

+  Hes_Apu.cpp

+  Hes_Apu.h

+  Hes_Cpu.cpp

+  Hes_Cpu.h

+  hes_cpu_io.h

+  Hes_Emu.cpp

+

+  Kss_Emu.h           MSX Home Computer/other Z80 systems KSS emulator

+  Kss_Emu.cpp

+  Kss_Cpu.cpp

+  Kss_Cpu.h

+  Kss_Scc_Apu.cpp

+  Kss_Scc_Apu.h

+  Ay_Apu.h

+  Ay_Apu.cpp

+  Sms_Apu.h

+  Sms_Apu.cpp

+  Sms_Oscs.h

+

+  Nsf_Emu.h           Nintendo NES NSF/NSFE emulator

+  Nsf_Emu.cpp

+  Nes_Apu.cpp

+  Nes_Apu.h

+  Nes_Cpu.cpp

+  Nes_Cpu.h

+  nes_cpu_io.h

+  Nes_Oscs.cpp

+  Nes_Oscs.h

+  Nes_Fme7_Apu.cpp

+  Nes_Fme7_Apu.h

+  Nes_Namco_Apu.cpp

+  Nes_Namco_Apu.h

+  Nes_Vrc6_Apu.cpp

+  Nes_Vrc6_Apu.h

+  Nsfe_Emu.h          NSFE support

+  Nsfe_Emu.cpp

+

+  Spc_Emu.h           Super Nintendo SPC emulator

+  Spc_Emu.cpp

+  Snes_Spc.cpp

+  Snes_Spc.h

+  Spc_Cpu.cpp

+  Spc_Cpu.h

+  Spc_Dsp.cpp

+  Spc_Dsp.h

+  Fir_Resampler.cpp

+  Fir_Resampler.h

+

+  Sap_Emu.h           Atari SAP emulator

+  Sap_Emu.cpp

+  Sap_Apu.cpp

+  Sap_Apu.h

+  Sap_Cpu.cpp

+  Sap_Cpu.h

+  sap_cpu_io.h

+

+  Vgm_Emu.h           Sega VGM emulator

+  Vgm_Emu_Impl.cpp

+  Vgm_Emu_Impl.h

+  Vgm_Emu.cpp

+  Ym2413_Emu.cpp

+  Ym2413_Emu.h

+  Gym_Emu.h           Sega Genesis GYM emulator

+  Gym_Emu.cpp

+  Sms_Apu.cpp         Common Sega emulator files

+  Sms_Apu.h

+  Sms_Oscs.h

+  Ym2612_Emu.cpp

+  Ym2612_Emu.h

+  Dual_Resampler.cpp

+  Dual_Resampler.h

+  Fir_Resampler.cpp

+  Fir_Resampler.h

+

+  blargg_common.h     Common files needed by all emulators

+  blargg_endian.h

+  blargg_source.h

+  Blip_Buffer.cpp

+  Blip_Buffer.h

+  Gme_File.cpp

+  Music_Emu.cpp

+  Classic_Emu.h

+  Classic_Emu.cpp

+  Multi_Buffer.h

+  Multi_Buffer.cpp

+  Data_Reader.cpp

+  CMakeLists.txt      CMake build rules

+

+

+Legal

+-----

+Game_Music_Emu library copyright (C) 2003-2006 Shay Green.

+SNES SPC DSP emulator based on OpenSPC, copyright (C) 2002 Brad Martin.

+Sega Genesis YM2612 emulator copyright (C) 2002 Stephane Dallongeville.

+

+--

+Shay Green <gblargg@gmail.com>