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|
// This file is part of Eigen, a lightweight C++ template library
// for linear algebra.
//
// Copyright (C) 2016 Konstantinos Margaritis <markos@freevec.org>
//
// This Source Code Form is subject to the terms of the Mozilla
// Public License v. 2.0. If a copy of the MPL was not distributed
// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
#ifndef EIGEN_PACKET_MATH_ZVECTOR_H
#define EIGEN_PACKET_MATH_ZVECTOR_H
#include <stdint.h>
namespace Eigen {
namespace internal {
#ifndef EIGEN_CACHEFRIENDLY_PRODUCT_THRESHOLD
#define EIGEN_CACHEFRIENDLY_PRODUCT_THRESHOLD 4
#endif
#ifndef EIGEN_HAS_SINGLE_INSTRUCTION_MADD
#define EIGEN_HAS_SINGLE_INSTRUCTION_MADD
#endif
#ifndef EIGEN_HAS_SINGLE_INSTRUCTION_CJMADD
#define EIGEN_HAS_SINGLE_INSTRUCTION_CJMADD
#endif
#ifndef EIGEN_ARCH_DEFAULT_NUMBER_OF_REGISTERS
#define EIGEN_ARCH_DEFAULT_NUMBER_OF_REGISTERS 16
#endif
typedef __vector int Packet4i;
typedef __vector unsigned int Packet4ui;
typedef __vector __bool int Packet4bi;
typedef __vector short int Packet8i;
typedef __vector unsigned char Packet16uc;
typedef __vector double Packet2d;
typedef __vector unsigned long long Packet2ul;
typedef __vector long long Packet2l;
typedef struct {
Packet2d v4f[2];
} Packet4f;
typedef union {
int32_t i[4];
uint32_t ui[4];
int64_t l[2];
uint64_t ul[2];
double d[2];
Packet4i v4i;
Packet4ui v4ui;
Packet2l v2l;
Packet2ul v2ul;
Packet2d v2d;
} Packet;
// We don't want to write the same code all the time, but we need to reuse the constants
// and it doesn't really work to declare them global, so we define macros instead
#define _EIGEN_DECLARE_CONST_FAST_Packet4i(NAME,X) \
Packet4i p4i_##NAME = reinterpret_cast<Packet4i>(vec_splat_s32(X))
#define _EIGEN_DECLARE_CONST_FAST_Packet2d(NAME,X) \
Packet2d p2d_##NAME = reinterpret_cast<Packet2d>(vec_splat_s64(X))
#define _EIGEN_DECLARE_CONST_FAST_Packet2l(NAME,X) \
Packet2l p2l_##NAME = reinterpret_cast<Packet2l>(vec_splat_s64(X))
#define _EIGEN_DECLARE_CONST_Packet4i(NAME,X) \
Packet4i p4i_##NAME = pset1<Packet4i>(X)
#define _EIGEN_DECLARE_CONST_Packet2d(NAME,X) \
Packet2d p2d_##NAME = pset1<Packet2d>(X)
#define _EIGEN_DECLARE_CONST_Packet2l(NAME,X) \
Packet2l p2l_##NAME = pset1<Packet2l>(X)
// These constants are endian-agnostic
//static _EIGEN_DECLARE_CONST_FAST_Packet4i(ZERO, 0); //{ 0, 0, 0, 0,}
static _EIGEN_DECLARE_CONST_FAST_Packet4i(ONE, 1); //{ 1, 1, 1, 1}
static _EIGEN_DECLARE_CONST_FAST_Packet2d(ZERO, 0);
static _EIGEN_DECLARE_CONST_FAST_Packet2l(ZERO, 0);
static _EIGEN_DECLARE_CONST_FAST_Packet2l(ONE, 1);
static Packet2d p2d_ONE = { 1.0, 1.0 };
static Packet2d p2d_ZERO_ = { -0.0, -0.0 };
static Packet4i p4i_COUNTDOWN = { 0, 1, 2, 3 };
static Packet4f p4f_COUNTDOWN = { 0.0, 1.0, 2.0, 3.0 };
static Packet2d p2d_COUNTDOWN = reinterpret_cast<Packet2d>(vec_sld(reinterpret_cast<Packet16uc>(p2d_ZERO), reinterpret_cast<Packet16uc>(p2d_ONE), 8));
static Packet16uc p16uc_PSET64_HI = { 0,1,2,3, 4,5,6,7, 0,1,2,3, 4,5,6,7 };
static Packet16uc p16uc_DUPLICATE32_HI = { 0,1,2,3, 0,1,2,3, 4,5,6,7, 4,5,6,7 };
// Mask alignment
#define _EIGEN_MASK_ALIGNMENT 0xfffffffffffffff0
#define _EIGEN_ALIGNED_PTR(x) ((std::ptrdiff_t)(x) & _EIGEN_MASK_ALIGNMENT)
// Handle endianness properly while loading constants
// Define global static constants:
static Packet16uc p16uc_FORWARD = { 0,1,2,3, 4,5,6,7, 8,9,10,11, 12,13,14,15 };
static Packet16uc p16uc_REVERSE32 = { 12,13,14,15, 8,9,10,11, 4,5,6,7, 0,1,2,3 };
static Packet16uc p16uc_REVERSE64 = { 8,9,10,11, 12,13,14,15, 0,1,2,3, 4,5,6,7 };
static Packet16uc p16uc_PSET32_WODD = vec_sld((Packet16uc) vec_splat((Packet4ui)p16uc_FORWARD, 0), (Packet16uc) vec_splat((Packet4ui)p16uc_FORWARD, 2), 8);//{ 0,1,2,3, 0,1,2,3, 8,9,10,11, 8,9,10,11 };
static Packet16uc p16uc_PSET32_WEVEN = vec_sld(p16uc_DUPLICATE32_HI, (Packet16uc) vec_splat((Packet4ui)p16uc_FORWARD, 3), 8);//{ 4,5,6,7, 4,5,6,7, 12,13,14,15, 12,13,14,15 };
/*static Packet16uc p16uc_HALF64_0_16 = vec_sld((Packet16uc)p4i_ZERO, vec_splat((Packet16uc) vec_abs(p4i_MINUS16), 3), 8); //{ 0,0,0,0, 0,0,0,0, 16,16,16,16, 16,16,16,16};
static Packet16uc p16uc_PSET64_HI = (Packet16uc) vec_mergeh((Packet4ui)p16uc_PSET32_WODD, (Packet4ui)p16uc_PSET32_WEVEN); //{ 0,1,2,3, 4,5,6,7, 0,1,2,3, 4,5,6,7 };*/
static Packet16uc p16uc_PSET64_LO = (Packet16uc) vec_mergel((Packet4ui)p16uc_PSET32_WODD, (Packet4ui)p16uc_PSET32_WEVEN); //{ 8,9,10,11, 12,13,14,15, 8,9,10,11, 12,13,14,15 };
/*static Packet16uc p16uc_TRANSPOSE64_HI = vec_add(p16uc_PSET64_HI, p16uc_HALF64_0_16); //{ 0,1,2,3, 4,5,6,7, 16,17,18,19, 20,21,22,23};
static Packet16uc p16uc_TRANSPOSE64_LO = vec_add(p16uc_PSET64_LO, p16uc_HALF64_0_16); //{ 8,9,10,11, 12,13,14,15, 24,25,26,27, 28,29,30,31};*/
static Packet16uc p16uc_TRANSPOSE64_HI = { 0,1,2,3, 4,5,6,7, 16,17,18,19, 20,21,22,23};
static Packet16uc p16uc_TRANSPOSE64_LO = { 8,9,10,11, 12,13,14,15, 24,25,26,27, 28,29,30,31};
//static Packet16uc p16uc_COMPLEX32_REV = vec_sld(p16uc_REVERSE32, p16uc_REVERSE32, 8); //{ 4,5,6,7, 0,1,2,3, 12,13,14,15, 8,9,10,11 };
//static Packet16uc p16uc_COMPLEX32_REV2 = vec_sld(p16uc_FORWARD, p16uc_FORWARD, 8); //{ 8,9,10,11, 12,13,14,15, 0,1,2,3, 4,5,6,7 };
#if EIGEN_HAS_BUILTIN(__builtin_prefetch) || EIGEN_COMP_GNUC
#define EIGEN_ZVECTOR_PREFETCH(ADDR) __builtin_prefetch(ADDR);
#else
#define EIGEN_ZVECTOR_PREFETCH(ADDR) asm( " pfd [%[addr]]\n" :: [addr] "r" (ADDR) : "cc" );
#endif
template<> struct packet_traits<int> : default_packet_traits
{
typedef Packet4i type;
typedef Packet4i half;
enum {
Vectorizable = 1,
AlignedOnScalar = 1,
size = 4,
HasHalfPacket = 0,
HasAdd = 1,
HasSub = 1,
HasMul = 1,
HasDiv = 1,
HasBlend = 1
};
};
template<> struct packet_traits<float> : default_packet_traits
{
typedef Packet4f type;
typedef Packet4f half;
enum {
Vectorizable = 1,
AlignedOnScalar = 1,
size=4,
HasHalfPacket = 0,
HasAdd = 1,
HasSub = 1,
HasMul = 1,
HasDiv = 1,
HasMin = 1,
HasMax = 1,
HasAbs = 1,
HasSin = 0,
HasCos = 0,
HasLog = 0,
HasExp = 1,
HasSqrt = 1,
HasRsqrt = 1,
HasRound = 1,
HasFloor = 1,
HasCeil = 1,
HasNegate = 1,
HasBlend = 1
};
};
template<> struct packet_traits<double> : default_packet_traits
{
typedef Packet2d type;
typedef Packet2d half;
enum {
Vectorizable = 1,
AlignedOnScalar = 1,
size=2,
HasHalfPacket = 1,
HasAdd = 1,
HasSub = 1,
HasMul = 1,
HasDiv = 1,
HasMin = 1,
HasMax = 1,
HasAbs = 1,
HasSin = 0,
HasCos = 0,
HasLog = 0,
HasExp = 1,
HasSqrt = 1,
HasRsqrt = 1,
HasRound = 1,
HasFloor = 1,
HasCeil = 1,
HasNegate = 1,
HasBlend = 1
};
};
template<> struct unpacket_traits<Packet4i> { typedef int type; enum {size=4, alignment=Aligned16}; typedef Packet4i half; };
template<> struct unpacket_traits<Packet4f> { typedef float type; enum {size=4, alignment=Aligned16}; typedef Packet4f half; };
template<> struct unpacket_traits<Packet2d> { typedef double type; enum {size=2, alignment=Aligned16}; typedef Packet2d half; };
/* Forward declaration */
EIGEN_DEVICE_FUNC inline void ptranspose(PacketBlock<Packet4f,4>& kernel);
inline std::ostream & operator <<(std::ostream & s, const Packet4i & v)
{
Packet vt;
vt.v4i = v;
s << vt.i[0] << ", " << vt.i[1] << ", " << vt.i[2] << ", " << vt.i[3];
return s;
}
inline std::ostream & operator <<(std::ostream & s, const Packet4ui & v)
{
Packet vt;
vt.v4ui = v;
s << vt.ui[0] << ", " << vt.ui[1] << ", " << vt.ui[2] << ", " << vt.ui[3];
return s;
}
inline std::ostream & operator <<(std::ostream & s, const Packet2l & v)
{
Packet vt;
vt.v2l = v;
s << vt.l[0] << ", " << vt.l[1];
return s;
}
inline std::ostream & operator <<(std::ostream & s, const Packet2ul & v)
{
Packet vt;
vt.v2ul = v;
s << vt.ul[0] << ", " << vt.ul[1] ;
return s;
}
inline std::ostream & operator <<(std::ostream & s, const Packet2d & v)
{
Packet vt;
vt.v2d = v;
s << vt.d[0] << ", " << vt.d[1];
return s;
}
/* Helper function to simulate a vec_splat_packet4f
*/
template<int element> EIGEN_STRONG_INLINE Packet4f vec_splat_packet4f(const Packet4f& from)
{
Packet4f splat;
switch (element) {
case 0:
splat.v4f[0] = vec_splat(from.v4f[0], 0);
splat.v4f[1] = splat.v4f[0];
break;
case 1:
splat.v4f[0] = vec_splat(from.v4f[0], 1);
splat.v4f[1] = splat.v4f[0];
break;
case 2:
splat.v4f[0] = vec_splat(from.v4f[1], 0);
splat.v4f[1] = splat.v4f[0];
break;
case 3:
splat.v4f[0] = vec_splat(from.v4f[1], 1);
splat.v4f[1] = splat.v4f[0];
break;
}
return splat;
}
template<int Offset>
struct palign_impl<Offset,Packet4i>
{
static EIGEN_STRONG_INLINE void run(Packet4i& first, const Packet4i& second)
{
switch (Offset % 4) {
case 1:
first = vec_sld(first, second, 4); break;
case 2:
first = vec_sld(first, second, 8); break;
case 3:
first = vec_sld(first, second, 12); break;
}
}
};
/* This is a tricky one, we have to translate float alignment to vector elements of sizeof double
*/
template<int Offset>
struct palign_impl<Offset,Packet4f>
{
static EIGEN_STRONG_INLINE void run(Packet4f& first, const Packet4f& second)
{
switch (Offset % 4) {
case 1:
first.v4f[0] = vec_sld(first.v4f[0], first.v4f[1], 8);
first.v4f[1] = vec_sld(first.v4f[1], second.v4f[0], 8);
break;
case 2:
first.v4f[0] = first.v4f[1];
first.v4f[1] = second.v4f[0];
break;
case 3:
first.v4f[0] = vec_sld(first.v4f[1], second.v4f[0], 8);
first.v4f[1] = vec_sld(second.v4f[0], second.v4f[1], 8);
break;
}
}
};
template<int Offset>
struct palign_impl<Offset,Packet2d>
{
static EIGEN_STRONG_INLINE void run(Packet2d& first, const Packet2d& second)
{
if (Offset == 1)
first = reinterpret_cast<Packet2d>(vec_sld(reinterpret_cast<Packet4i>(first), reinterpret_cast<Packet4i>(second), 8));
}
};
template<> EIGEN_STRONG_INLINE Packet4i pload<Packet4i>(const int* from)
{
// FIXME: No intrinsic yet
EIGEN_DEBUG_ALIGNED_LOAD
Packet *vfrom;
vfrom = (Packet *) from;
return vfrom->v4i;
}
template<> EIGEN_STRONG_INLINE Packet4f pload<Packet4f>(const float* from)
{
// FIXME: No intrinsic yet
EIGEN_DEBUG_ALIGNED_LOAD
Packet4f vfrom;
vfrom.v4f[0] = vec_ld2f(&from[0]);
vfrom.v4f[1] = vec_ld2f(&from[2]);
return vfrom;
}
template<> EIGEN_STRONG_INLINE Packet2d pload<Packet2d>(const double* from)
{
// FIXME: No intrinsic yet
EIGEN_DEBUG_ALIGNED_LOAD
Packet *vfrom;
vfrom = (Packet *) from;
return vfrom->v2d;
}
template<> EIGEN_STRONG_INLINE void pstore<int>(int* to, const Packet4i& from)
{
// FIXME: No intrinsic yet
EIGEN_DEBUG_ALIGNED_STORE
Packet *vto;
vto = (Packet *) to;
vto->v4i = from;
}
template<> EIGEN_STRONG_INLINE void pstore<float>(float* to, const Packet4f& from)
{
// FIXME: No intrinsic yet
EIGEN_DEBUG_ALIGNED_STORE
vec_st2f(from.v4f[0], &to[0]);
vec_st2f(from.v4f[1], &to[2]);
}
template<> EIGEN_STRONG_INLINE void pstore<double>(double* to, const Packet2d& from)
{
// FIXME: No intrinsic yet
EIGEN_DEBUG_ALIGNED_STORE
Packet *vto;
vto = (Packet *) to;
vto->v2d = from;
}
template<> EIGEN_STRONG_INLINE Packet4i pset1<Packet4i>(const int& from)
{
return vec_splats(from);
}
template<> EIGEN_STRONG_INLINE Packet2d pset1<Packet2d>(const double& from) {
return vec_splats(from);
}
template<> EIGEN_STRONG_INLINE Packet4f pset1<Packet4f>(const float& from)
{
Packet4f to;
to.v4f[0] = pset1<Packet2d>(static_cast<const double&>(from));
to.v4f[1] = to.v4f[0];
return to;
}
template<> EIGEN_STRONG_INLINE void
pbroadcast4<Packet4i>(const int *a,
Packet4i& a0, Packet4i& a1, Packet4i& a2, Packet4i& a3)
{
a3 = pload<Packet4i>(a);
a0 = vec_splat(a3, 0);
a1 = vec_splat(a3, 1);
a2 = vec_splat(a3, 2);
a3 = vec_splat(a3, 3);
}
template<> EIGEN_STRONG_INLINE void
pbroadcast4<Packet4f>(const float *a,
Packet4f& a0, Packet4f& a1, Packet4f& a2, Packet4f& a3)
{
a3 = pload<Packet4f>(a);
a0 = vec_splat_packet4f<0>(a3);
a1 = vec_splat_packet4f<1>(a3);
a2 = vec_splat_packet4f<2>(a3);
a3 = vec_splat_packet4f<3>(a3);
}
template<> EIGEN_STRONG_INLINE void
pbroadcast4<Packet2d>(const double *a,
Packet2d& a0, Packet2d& a1, Packet2d& a2, Packet2d& a3)
{
a1 = pload<Packet2d>(a);
a0 = vec_splat(a1, 0);
a1 = vec_splat(a1, 1);
a3 = pload<Packet2d>(a+2);
a2 = vec_splat(a3, 0);
a3 = vec_splat(a3, 1);
}
template<> EIGEN_DEVICE_FUNC inline Packet4i pgather<int, Packet4i>(const int* from, Index stride)
{
int EIGEN_ALIGN16 ai[4];
ai[0] = from[0*stride];
ai[1] = from[1*stride];
ai[2] = from[2*stride];
ai[3] = from[3*stride];
return pload<Packet4i>(ai);
}
template<> EIGEN_DEVICE_FUNC inline Packet4f pgather<float, Packet4f>(const float* from, Index stride)
{
float EIGEN_ALIGN16 ai[4];
ai[0] = from[0*stride];
ai[1] = from[1*stride];
ai[2] = from[2*stride];
ai[3] = from[3*stride];
return pload<Packet4f>(ai);
}
template<> EIGEN_DEVICE_FUNC inline Packet2d pgather<double, Packet2d>(const double* from, Index stride)
{
double EIGEN_ALIGN16 af[2];
af[0] = from[0*stride];
af[1] = from[1*stride];
return pload<Packet2d>(af);
}
template<> EIGEN_DEVICE_FUNC inline void pscatter<int, Packet4i>(int* to, const Packet4i& from, Index stride)
{
int EIGEN_ALIGN16 ai[4];
pstore<int>((int *)ai, from);
to[0*stride] = ai[0];
to[1*stride] = ai[1];
to[2*stride] = ai[2];
to[3*stride] = ai[3];
}
template<> EIGEN_DEVICE_FUNC inline void pscatter<float, Packet4f>(float* to, const Packet4f& from, Index stride)
{
float EIGEN_ALIGN16 ai[4];
pstore<float>((float *)ai, from);
to[0*stride] = ai[0];
to[1*stride] = ai[1];
to[2*stride] = ai[2];
to[3*stride] = ai[3];
}
template<> EIGEN_DEVICE_FUNC inline void pscatter<double, Packet2d>(double* to, const Packet2d& from, Index stride)
{
double EIGEN_ALIGN16 af[2];
pstore<double>(af, from);
to[0*stride] = af[0];
to[1*stride] = af[1];
}
template<> EIGEN_STRONG_INLINE Packet4i padd<Packet4i>(const Packet4i& a, const Packet4i& b) { return (a + b); }
template<> EIGEN_STRONG_INLINE Packet4f padd<Packet4f>(const Packet4f& a, const Packet4f& b)
{
Packet4f c;
c.v4f[0] = a.v4f[0] + b.v4f[0];
c.v4f[1] = a.v4f[1] + b.v4f[1];
return c;
}
template<> EIGEN_STRONG_INLINE Packet2d padd<Packet2d>(const Packet2d& a, const Packet2d& b) { return (a + b); }
template<> EIGEN_STRONG_INLINE Packet4i psub<Packet4i>(const Packet4i& a, const Packet4i& b) { return (a - b); }
template<> EIGEN_STRONG_INLINE Packet4f psub<Packet4f>(const Packet4f& a, const Packet4f& b)
{
Packet4f c;
c.v4f[0] = a.v4f[0] - b.v4f[0];
c.v4f[1] = a.v4f[1] - b.v4f[1];
return c;
}
template<> EIGEN_STRONG_INLINE Packet2d psub<Packet2d>(const Packet2d& a, const Packet2d& b) { return (a - b); }
template<> EIGEN_STRONG_INLINE Packet4i pmul<Packet4i>(const Packet4i& a, const Packet4i& b) { return (a * b); }
template<> EIGEN_STRONG_INLINE Packet4f pmul<Packet4f>(const Packet4f& a, const Packet4f& b)
{
Packet4f c;
c.v4f[0] = a.v4f[0] * b.v4f[0];
c.v4f[1] = a.v4f[1] * b.v4f[1];
return c;
}
template<> EIGEN_STRONG_INLINE Packet2d pmul<Packet2d>(const Packet2d& a, const Packet2d& b) { return (a * b); }
template<> EIGEN_STRONG_INLINE Packet4i pdiv<Packet4i>(const Packet4i& a, const Packet4i& b) { return (a / b); }
template<> EIGEN_STRONG_INLINE Packet4f pdiv<Packet4f>(const Packet4f& a, const Packet4f& b)
{
Packet4f c;
c.v4f[0] = a.v4f[0] / b.v4f[0];
c.v4f[1] = a.v4f[1] / b.v4f[1];
return c;
}
template<> EIGEN_STRONG_INLINE Packet2d pdiv<Packet2d>(const Packet2d& a, const Packet2d& b) { return (a / b); }
template<> EIGEN_STRONG_INLINE Packet4i pnegate(const Packet4i& a) { return (-a); }
template<> EIGEN_STRONG_INLINE Packet4f pnegate(const Packet4f& a)
{
Packet4f c;
c.v4f[0] = -a.v4f[0];
c.v4f[1] = -a.v4f[1];
return c;
}
template<> EIGEN_STRONG_INLINE Packet2d pnegate(const Packet2d& a) { return (-a); }
template<> EIGEN_STRONG_INLINE Packet4i pconj(const Packet4i& a) { return a; }
template<> EIGEN_STRONG_INLINE Packet4f pconj(const Packet4f& a) { return a; }
template<> EIGEN_STRONG_INLINE Packet2d pconj(const Packet2d& a) { return a; }
template<> EIGEN_STRONG_INLINE Packet4i pmadd(const Packet4i& a, const Packet4i& b, const Packet4i& c) { return padd<Packet4i>(pmul<Packet4i>(a, b), c); }
template<> EIGEN_STRONG_INLINE Packet4f pmadd(const Packet4f& a, const Packet4f& b, const Packet4f& c)
{
Packet4f res;
res.v4f[0] = vec_madd(a.v4f[0], b.v4f[0], c.v4f[0]);
res.v4f[1] = vec_madd(a.v4f[1], b.v4f[1], c.v4f[1]);
return res;
}
template<> EIGEN_STRONG_INLINE Packet2d pmadd(const Packet2d& a, const Packet2d& b, const Packet2d& c) { return vec_madd(a, b, c); }
template<> EIGEN_STRONG_INLINE Packet4i plset<Packet4i>(const int& a) { return padd<Packet4i>(pset1<Packet4i>(a), p4i_COUNTDOWN); }
template<> EIGEN_STRONG_INLINE Packet4f plset<Packet4f>(const float& a) { return padd<Packet4f>(pset1<Packet4f>(a), p4f_COUNTDOWN); }
template<> EIGEN_STRONG_INLINE Packet2d plset<Packet2d>(const double& a) { return padd<Packet2d>(pset1<Packet2d>(a), p2d_COUNTDOWN); }
template<> EIGEN_STRONG_INLINE Packet4i pmin<Packet4i>(const Packet4i& a, const Packet4i& b) { return vec_min(a, b); }
template<> EIGEN_STRONG_INLINE Packet2d pmin<Packet2d>(const Packet2d& a, const Packet2d& b) { return vec_min(a, b); }
template<> EIGEN_STRONG_INLINE Packet4f pmin<Packet4f>(const Packet4f& a, const Packet4f& b)
{
Packet4f res;
res.v4f[0] = pmin(a.v4f[0], b.v4f[0]);
res.v4f[1] = pmin(a.v4f[1], b.v4f[1]);
return res;
}
template<> EIGEN_STRONG_INLINE Packet4i pmax<Packet4i>(const Packet4i& a, const Packet4i& b) { return vec_max(a, b); }
template<> EIGEN_STRONG_INLINE Packet2d pmax<Packet2d>(const Packet2d& a, const Packet2d& b) { return vec_max(a, b); }
template<> EIGEN_STRONG_INLINE Packet4f pmax<Packet4f>(const Packet4f& a, const Packet4f& b)
{
Packet4f res;
res.v4f[0] = pmax(a.v4f[0], b.v4f[0]);
res.v4f[1] = pmax(a.v4f[1], b.v4f[1]);
return res;
}
template<> EIGEN_STRONG_INLINE Packet4i pand<Packet4i>(const Packet4i& a, const Packet4i& b) { return vec_and(a, b); }
template<> EIGEN_STRONG_INLINE Packet2d pand<Packet2d>(const Packet2d& a, const Packet2d& b) { return vec_and(a, b); }
template<> EIGEN_STRONG_INLINE Packet4f pand<Packet4f>(const Packet4f& a, const Packet4f& b)
{
Packet4f res;
res.v4f[0] = pand(a.v4f[0], b.v4f[0]);
res.v4f[1] = pand(a.v4f[1], b.v4f[1]);
return res;
}
template<> EIGEN_STRONG_INLINE Packet4i por<Packet4i>(const Packet4i& a, const Packet4i& b) { return vec_or(a, b); }
template<> EIGEN_STRONG_INLINE Packet2d por<Packet2d>(const Packet2d& a, const Packet2d& b) { return vec_or(a, b); }
template<> EIGEN_STRONG_INLINE Packet4f por<Packet4f>(const Packet4f& a, const Packet4f& b)
{
Packet4f res;
res.v4f[0] = pand(a.v4f[0], b.v4f[0]);
res.v4f[1] = pand(a.v4f[1], b.v4f[1]);
return res;
}
template<> EIGEN_STRONG_INLINE Packet4i pxor<Packet4i>(const Packet4i& a, const Packet4i& b) { return vec_xor(a, b); }
template<> EIGEN_STRONG_INLINE Packet2d pxor<Packet2d>(const Packet2d& a, const Packet2d& b) { return vec_xor(a, b); }
template<> EIGEN_STRONG_INLINE Packet4f pxor<Packet4f>(const Packet4f& a, const Packet4f& b)
{
Packet4f res;
res.v4f[0] = pand(a.v4f[0], b.v4f[0]);
res.v4f[1] = pand(a.v4f[1], b.v4f[1]);
return res;
}
template<> EIGEN_STRONG_INLINE Packet4i pandnot<Packet4i>(const Packet4i& a, const Packet4i& b) { return pand<Packet4i>(a, vec_nor(b, b)); }
template<> EIGEN_STRONG_INLINE Packet2d pandnot<Packet2d>(const Packet2d& a, const Packet2d& b) { return vec_and(a, vec_nor(b, b)); }
template<> EIGEN_STRONG_INLINE Packet4f pandnot<Packet4f>(const Packet4f& a, const Packet4f& b)
{
Packet4f res;
res.v4f[0] = pandnot(a.v4f[0], b.v4f[0]);
res.v4f[1] = pandnot(a.v4f[1], b.v4f[1]);
return res;
}
template<> EIGEN_STRONG_INLINE Packet4f pround<Packet4f>(const Packet4f& a)
{
Packet4f res;
res.v4f[0] = vec_round(a.v4f[0]);
res.v4f[1] = vec_round(a.v4f[1]);
return res;
}
template<> EIGEN_STRONG_INLINE Packet2d pround<Packet2d>(const Packet2d& a) { return vec_round(a); }
template<> EIGEN_STRONG_INLINE Packet4f pceil<Packet4f>(const Packet4f& a)
{
Packet4f res;
res.v4f[0] = vec_ceil(a.v4f[0]);
res.v4f[1] = vec_ceil(a.v4f[1]);
return res;
}
template<> EIGEN_STRONG_INLINE Packet2d pceil<Packet2d>(const Packet2d& a) { return vec_ceil(a); }
template<> EIGEN_STRONG_INLINE Packet4f pfloor<Packet4f>(const Packet4f& a)
{
Packet4f res;
res.v4f[0] = vec_floor(a.v4f[0]);
res.v4f[1] = vec_floor(a.v4f[1]);
return res;
}
template<> EIGEN_STRONG_INLINE Packet2d pfloor<Packet2d>(const Packet2d& a) { return vec_floor(a); }
template<> EIGEN_STRONG_INLINE Packet4i ploadu<Packet4i>(const int* from) { return pload<Packet4i>(from); }
template<> EIGEN_STRONG_INLINE Packet4f ploadu<Packet4f>(const float* from) { return pload<Packet4f>(from); }
template<> EIGEN_STRONG_INLINE Packet2d ploadu<Packet2d>(const double* from) { return pload<Packet2d>(from); }
template<> EIGEN_STRONG_INLINE Packet4i ploaddup<Packet4i>(const int* from)
{
Packet4i p = pload<Packet4i>(from);
return vec_perm(p, p, p16uc_DUPLICATE32_HI);
}
template<> EIGEN_STRONG_INLINE Packet4f ploaddup<Packet4f>(const float* from)
{
Packet4f p = pload<Packet4f>(from);
p.v4f[1] = vec_splat(p.v4f[0], 1);
p.v4f[0] = vec_splat(p.v4f[0], 0);
return p;
}
template<> EIGEN_STRONG_INLINE Packet2d ploaddup<Packet2d>(const double* from)
{
Packet2d p = pload<Packet2d>(from);
return vec_perm(p, p, p16uc_PSET64_HI);
}
template<> EIGEN_STRONG_INLINE void pstoreu<int>(int* to, const Packet4i& from) { pstore<int>(to, from); }
template<> EIGEN_STRONG_INLINE void pstoreu<float>(float* to, const Packet4f& from) { pstore<float>(to, from); }
template<> EIGEN_STRONG_INLINE void pstoreu<double>(double* to, const Packet2d& from) { pstore<double>(to, from); }
template<> EIGEN_STRONG_INLINE void prefetch<int>(const int* addr) { EIGEN_ZVECTOR_PREFETCH(addr); }
template<> EIGEN_STRONG_INLINE void prefetch<float>(const float* addr) { EIGEN_ZVECTOR_PREFETCH(addr); }
template<> EIGEN_STRONG_INLINE void prefetch<double>(const double* addr) { EIGEN_ZVECTOR_PREFETCH(addr); }
template<> EIGEN_STRONG_INLINE int pfirst<Packet4i>(const Packet4i& a) { int EIGEN_ALIGN16 x[4]; pstore(x, a); return x[0]; }
template<> EIGEN_STRONG_INLINE float pfirst<Packet4f>(const Packet4f& a) { float EIGEN_ALIGN16 x[2]; vec_st2f(a.v4f[0], &x[0]); return x[0]; }
template<> EIGEN_STRONG_INLINE double pfirst<Packet2d>(const Packet2d& a) { double EIGEN_ALIGN16 x[2]; pstore(x, a); return x[0]; }
template<> EIGEN_STRONG_INLINE Packet4i preverse(const Packet4i& a)
{
return reinterpret_cast<Packet4i>(vec_perm(reinterpret_cast<Packet16uc>(a), reinterpret_cast<Packet16uc>(a), p16uc_REVERSE32));
}
template<> EIGEN_STRONG_INLINE Packet2d preverse(const Packet2d& a)
{
return reinterpret_cast<Packet2d>(vec_perm(reinterpret_cast<Packet16uc>(a), reinterpret_cast<Packet16uc>(a), p16uc_REVERSE64));
}
template<> EIGEN_STRONG_INLINE Packet4f preverse(const Packet4f& a)
{
Packet4f rev;
rev.v4f[0] = preverse<Packet2d>(a.v4f[1]);
rev.v4f[1] = preverse<Packet2d>(a.v4f[0]);
return rev;
}
template<> EIGEN_STRONG_INLINE Packet4i pabs<Packet4i>(const Packet4i& a) { return vec_abs(a); }
template<> EIGEN_STRONG_INLINE Packet2d pabs<Packet2d>(const Packet2d& a) { return vec_abs(a); }
template<> EIGEN_STRONG_INLINE Packet4f pabs<Packet4f>(const Packet4f& a)
{
Packet4f res;
res.v4f[0] = pabs(a.v4f[0]);
res.v4f[1] = pabs(a.v4f[1]);
return res;
}
template<> EIGEN_STRONG_INLINE int predux<Packet4i>(const Packet4i& a)
{
Packet4i b, sum;
b = vec_sld(a, a, 8);
sum = padd<Packet4i>(a, b);
b = vec_sld(sum, sum, 4);
sum = padd<Packet4i>(sum, b);
return pfirst(sum);
}
template<> EIGEN_STRONG_INLINE double predux<Packet2d>(const Packet2d& a)
{
Packet2d b, sum;
b = reinterpret_cast<Packet2d>(vec_sld(reinterpret_cast<Packet4i>(a), reinterpret_cast<Packet4i>(a), 8));
sum = padd<Packet2d>(a, b);
return pfirst(sum);
}
template<> EIGEN_STRONG_INLINE float predux<Packet4f>(const Packet4f& a)
{
Packet2d sum;
sum = padd<Packet2d>(a.v4f[0], a.v4f[1]);
double first = predux<Packet2d>(sum);
return static_cast<float>(first);
}
template<> EIGEN_STRONG_INLINE Packet4i preduxp<Packet4i>(const Packet4i* vecs)
{
Packet4i v[4], sum[4];
// It's easier and faster to transpose then add as columns
// Check: http://www.freevec.org/function/matrix_4x4_transpose_floats for explanation
// Do the transpose, first set of moves
v[0] = vec_mergeh(vecs[0], vecs[2]);
v[1] = vec_mergel(vecs[0], vecs[2]);
v[2] = vec_mergeh(vecs[1], vecs[3]);
v[3] = vec_mergel(vecs[1], vecs[3]);
// Get the resulting vectors
sum[0] = vec_mergeh(v[0], v[2]);
sum[1] = vec_mergel(v[0], v[2]);
sum[2] = vec_mergeh(v[1], v[3]);
sum[3] = vec_mergel(v[1], v[3]);
// Now do the summation:
// Lines 0+1
sum[0] = padd<Packet4i>(sum[0], sum[1]);
// Lines 2+3
sum[1] = padd<Packet4i>(sum[2], sum[3]);
// Add the results
sum[0] = padd<Packet4i>(sum[0], sum[1]);
return sum[0];
}
template<> EIGEN_STRONG_INLINE Packet2d preduxp<Packet2d>(const Packet2d* vecs)
{
Packet2d v[2], sum;
v[0] = padd<Packet2d>(vecs[0], reinterpret_cast<Packet2d>(vec_sld(reinterpret_cast<Packet4ui>(vecs[0]), reinterpret_cast<Packet4ui>(vecs[0]), 8)));
v[1] = padd<Packet2d>(vecs[1], reinterpret_cast<Packet2d>(vec_sld(reinterpret_cast<Packet4ui>(vecs[1]), reinterpret_cast<Packet4ui>(vecs[1]), 8)));
sum = reinterpret_cast<Packet2d>(vec_sld(reinterpret_cast<Packet4ui>(v[0]), reinterpret_cast<Packet4ui>(v[1]), 8));
return sum;
}
template<> EIGEN_STRONG_INLINE Packet4f preduxp<Packet4f>(const Packet4f* vecs)
{
PacketBlock<Packet4f,4> transpose;
transpose.packet[0] = vecs[0];
transpose.packet[1] = vecs[1];
transpose.packet[2] = vecs[2];
transpose.packet[3] = vecs[3];
ptranspose(transpose);
Packet4f sum = padd(transpose.packet[0], transpose.packet[1]);
sum = padd(sum, transpose.packet[2]);
sum = padd(sum, transpose.packet[3]);
return sum;
}
// Other reduction functions:
// mul
template<> EIGEN_STRONG_INLINE int predux_mul<Packet4i>(const Packet4i& a)
{
EIGEN_ALIGN16 int aux[4];
pstore(aux, a);
return aux[0] * aux[1] * aux[2] * aux[3];
}
template<> EIGEN_STRONG_INLINE double predux_mul<Packet2d>(const Packet2d& a)
{
return pfirst(pmul(a, reinterpret_cast<Packet2d>(vec_sld(reinterpret_cast<Packet4i>(a), reinterpret_cast<Packet4i>(a), 8))));
}
template<> EIGEN_STRONG_INLINE float predux_mul<Packet4f>(const Packet4f& a)
{
// Return predux_mul<Packet2d> of the subvectors product
return static_cast<float>(pfirst(predux_mul(pmul(a.v4f[0], a.v4f[1]))));
}
// min
template<> EIGEN_STRONG_INLINE int predux_min<Packet4i>(const Packet4i& a)
{
Packet4i b, res;
b = pmin<Packet4i>(a, vec_sld(a, a, 8));
res = pmin<Packet4i>(b, vec_sld(b, b, 4));
return pfirst(res);
}
template<> EIGEN_STRONG_INLINE double predux_min<Packet2d>(const Packet2d& a)
{
return pfirst(pmin<Packet2d>(a, reinterpret_cast<Packet2d>(vec_sld(reinterpret_cast<Packet4i>(a), reinterpret_cast<Packet4i>(a), 8))));
}
template<> EIGEN_STRONG_INLINE float predux_min<Packet4f>(const Packet4f& a)
{
Packet2d b, res;
b = pmin<Packet2d>(a.v4f[0], a.v4f[1]);
res = pmin<Packet2d>(b, reinterpret_cast<Packet2d>(vec_sld(reinterpret_cast<Packet4i>(b), reinterpret_cast<Packet4i>(b), 8)));
return static_cast<float>(pfirst(res));
}
// max
template<> EIGEN_STRONG_INLINE int predux_max<Packet4i>(const Packet4i& a)
{
Packet4i b, res;
b = pmax<Packet4i>(a, vec_sld(a, a, 8));
res = pmax<Packet4i>(b, vec_sld(b, b, 4));
return pfirst(res);
}
// max
template<> EIGEN_STRONG_INLINE double predux_max<Packet2d>(const Packet2d& a)
{
return pfirst(pmax<Packet2d>(a, reinterpret_cast<Packet2d>(vec_sld(reinterpret_cast<Packet4i>(a), reinterpret_cast<Packet4i>(a), 8))));
}
template<> EIGEN_STRONG_INLINE float predux_max<Packet4f>(const Packet4f& a)
{
Packet2d b, res;
b = pmax<Packet2d>(a.v4f[0], a.v4f[1]);
res = pmax<Packet2d>(b, reinterpret_cast<Packet2d>(vec_sld(reinterpret_cast<Packet4i>(b), reinterpret_cast<Packet4i>(b), 8)));
return static_cast<float>(pfirst(res));
}
EIGEN_DEVICE_FUNC inline void
ptranspose(PacketBlock<Packet4i,4>& kernel) {
Packet4i t0 = vec_mergeh(kernel.packet[0], kernel.packet[2]);
Packet4i t1 = vec_mergel(kernel.packet[0], kernel.packet[2]);
Packet4i t2 = vec_mergeh(kernel.packet[1], kernel.packet[3]);
Packet4i t3 = vec_mergel(kernel.packet[1], kernel.packet[3]);
kernel.packet[0] = vec_mergeh(t0, t2);
kernel.packet[1] = vec_mergel(t0, t2);
kernel.packet[2] = vec_mergeh(t1, t3);
kernel.packet[3] = vec_mergel(t1, t3);
}
EIGEN_DEVICE_FUNC inline void
ptranspose(PacketBlock<Packet2d,2>& kernel) {
Packet2d t0 = vec_perm(kernel.packet[0], kernel.packet[1], p16uc_TRANSPOSE64_HI);
Packet2d t1 = vec_perm(kernel.packet[0], kernel.packet[1], p16uc_TRANSPOSE64_LO);
kernel.packet[0] = t0;
kernel.packet[1] = t1;
}
/* Split the Packet4f PacketBlock into 4 Packet2d PacketBlocks and transpose each one
*/
EIGEN_DEVICE_FUNC inline void
ptranspose(PacketBlock<Packet4f,4>& kernel) {
PacketBlock<Packet2d,2> t0,t1,t2,t3;
// copy top-left 2x2 Packet2d block
t0.packet[0] = kernel.packet[0].v4f[0];
t0.packet[1] = kernel.packet[1].v4f[0];
// copy top-right 2x2 Packet2d block
t1.packet[0] = kernel.packet[0].v4f[1];
t1.packet[1] = kernel.packet[1].v4f[1];
// copy bottom-left 2x2 Packet2d block
t2.packet[0] = kernel.packet[2].v4f[0];
t2.packet[1] = kernel.packet[3].v4f[0];
// copy bottom-right 2x2 Packet2d block
t3.packet[0] = kernel.packet[2].v4f[1];
t3.packet[1] = kernel.packet[3].v4f[1];
// Transpose all 2x2 blocks
ptranspose(t0);
ptranspose(t1);
ptranspose(t2);
ptranspose(t3);
// Copy back transposed blocks, but exchange t1 and t2 due to transposition
kernel.packet[0].v4f[0] = t0.packet[0];
kernel.packet[0].v4f[1] = t2.packet[0];
kernel.packet[1].v4f[0] = t0.packet[1];
kernel.packet[1].v4f[1] = t2.packet[1];
kernel.packet[2].v4f[0] = t1.packet[0];
kernel.packet[2].v4f[1] = t3.packet[0];
kernel.packet[3].v4f[0] = t1.packet[1];
kernel.packet[3].v4f[1] = t3.packet[1];
}
template<> EIGEN_STRONG_INLINE Packet4i pblend(const Selector<4>& ifPacket, const Packet4i& thenPacket, const Packet4i& elsePacket) {
Packet4ui select = { ifPacket.select[0], ifPacket.select[1], ifPacket.select[2], ifPacket.select[3] };
Packet4ui mask = vec_cmpeq(select, reinterpret_cast<Packet4ui>(p4i_ONE));
return vec_sel(elsePacket, thenPacket, mask);
}
template<> EIGEN_STRONG_INLINE Packet4f pblend(const Selector<4>& ifPacket, const Packet4f& thenPacket, const Packet4f& elsePacket) {
Packet2ul select_hi = { ifPacket.select[0], ifPacket.select[1] };
Packet2ul select_lo = { ifPacket.select[2], ifPacket.select[3] };
Packet2ul mask_hi = vec_cmpeq(select_hi, reinterpret_cast<Packet2ul>(p2l_ONE));
Packet2ul mask_lo = vec_cmpeq(select_lo, reinterpret_cast<Packet2ul>(p2l_ONE));
Packet4f result;
result.v4f[0] = vec_sel(elsePacket.v4f[0], thenPacket.v4f[0], mask_hi);
result.v4f[1] = vec_sel(elsePacket.v4f[1], thenPacket.v4f[1], mask_lo);
return result;
}
template<> EIGEN_STRONG_INLINE Packet2d pblend(const Selector<2>& ifPacket, const Packet2d& thenPacket, const Packet2d& elsePacket) {
Packet2ul select = { ifPacket.select[0], ifPacket.select[1] };
Packet2ul mask = vec_cmpeq(select, reinterpret_cast<Packet2ul>(p2l_ONE));
return vec_sel(elsePacket, thenPacket, mask);
}
} // end namespace internal
} // end namespace Eigen
#endif // EIGEN_PACKET_MATH_ZVECTOR_H
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