/***
*** Copyright (C) 1985-2011 Intel Corporation. All rights reserved.
***
*** The information and source code contained herein is the exclusive
*** property of Intel Corporation and may not be disclosed, examined
*** or reproduced in whole or in part without explicit written authorization
*** from the company.
***
****/
/*
* Definition of a C++ class interface to MMX(TM) instruction intrinsics.
*
*/
#ifndef _IVEC_H_INCLUDED
#define _IVEC_H_INCLUDED
#ifndef RC_INVOKED
#if !defined __cplusplus
#error ERROR: This file is only supported in C++ compilations!
#endif /* !defined __cplusplus */
#if defined (_M_CEE_PURE)
#error ERROR: This file is not supported in the pure mode!
#else /* defined (_M_CEE_PURE) */
#include <mmintrin.h>
#define EXPLICIT explicit
#ifndef _VEC_ASSERT
#include <crtdefs.h>
#ifdef NDEBUG
#define _VEC_ASSERT(_Expression) ((void)0)
#else /* NDEBUG */
#ifdef __cplusplus
extern "C" {
#endif /* __cplusplus */
_CRTIMP void __cdecl _wassert(_In_z_ const wchar_t * _Message, _In_z_ const wchar_t *_File, _In_ unsigned _Line);
#ifdef __cplusplus
}
#endif /* __cplusplus */
#define _VEC_ASSERT(_Expression) (void)( (!!(_Expression)) || (_wassert(_CRT_WIDE(#_Expression), _CRT_WIDE(__FILE__), __LINE__), 0) )
#endif /* NDEBUG */
#endif /* _VEC_ASSERT */
/*
* Define _SILENCE_IVEC_C4799 to disable warning C4799 inside this header.
* Be careful that any code that uses these functions properly executes EMMS
* or _m_empty() after using any MMX instruction and before using the x87 NDP.
*/
#if defined (_SILENCE_IVEC_C4799)
#pragma warning(push)
#pragma warning(disable: 4799)
#endif /* defined (_SILENCE_IVEC_C4799) */
/*
* Define _ENABLE_VEC_DEBUG to enable std::ostream inserters for debug output
*/
#if defined (_ENABLE_VEC_DEBUG)
#include <iostream>
#endif /* defined (_ENABLE_VEC_DEBUG) */
class I8vec8; /* 8 elements, each element a signed or unsigned char data type */
class Is8vec8; /* 8 elements, each element a signed char data type */
class Iu8vec8; /* 8 elements, each element an unsigned char data type */
class I16vec4; /* 4 elements, each element a signed or unsigned short */
class Is16vec4; /* 4 elements, each element a signed short */
class Iu16vec4; /* 4 elements, each element an unsigned short */
class I32vec2; /* 2 elements, each element a signed or unsigned long */
class Is32vec2; /* 2 elements, each element a signed long */
class Iu32vec2; /* 2 elements, each element a unsigned long */
class I64vec1; /* 1 element, a __m64 data type - Base I64vec1 class */
#define _MM_8UB(element,vector) (*((unsigned char*)&##vector + ##element))
#define _MM_8B(element,vector) (*((signed char*)&##vector + ##element))
#define _MM_4UW(element,vector) (*((unsigned short*)&##vector + ##element))
#define _MM_4W(element,vector) (*((short*)&##vector + ##element))
#define _MM_2UDW(element,vector) (*((unsigned int*)&##vector + ##element))
#define _MM_2DW(element,vector) (*((int*)&##vector + ##element))
#define _MM_QW (*((__int64*)&vec))
/* M64 Class:
* 1 element, a __m64 data type
* Contructors & Logical Operations
*/
class M64
{
protected:
__m64 vec;
public:
M64() { }
M64(__m64 mm) { vec = mm; }
M64(__int64 mm) { vec = _mm_set_pi32((int)(mm >> 32), (int)mm); }
M64(int i) { vec = _m_from_int(i); }
operator __m64() const { return vec; }
/* Logical Operations */
M64& operator&=(const M64 &a) { return *this = (M64) _m_pand(vec,a); }
M64& operator|=(const M64 &a) { return *this = (M64) _m_por(vec,a); }
M64& operator^=(const M64 &a) { return *this = (M64) _m_pxor(vec,a); }
};
const union {__int64 m1; __m64 m2;} __mmx_all_ones_cheat =
{0xffffffffffffffff};
#define _mmx_all_ones ((M64)__mmx_all_ones_cheat.m2)
inline M64 operator&(const M64 &a, const M64 &b) { return _m_pand( a,b); }
inline M64 operator|(const M64 &a, const M64 &b) { return _m_por(a,b); }
inline M64 operator^(const M64 &a, const M64 &b) { return _m_pxor(a,b); }
inline M64 andnot(const M64 &a, const M64 &b) { return _m_pandn(a,b); }
/* I64vec1 Class:
* 1 element, a __m64 data type
* Contains Operations which can operate on any __m64 data type
*/
class I64vec1 : public M64
{
public:
I64vec1() { }
I64vec1(__m64 mm) : M64(mm) { }
EXPLICIT I64vec1(int i) : M64(i) { }
EXPLICIT I64vec1(__int64 mm) : M64(mm) { }
I64vec1& operator= (const M64 &a) { return *this = (I64vec1) a; }
I64vec1& operator&=(const M64 &a) { return *this = (I64vec1) _m_pand(vec,a); }
I64vec1& operator|=(const M64 &a) { return *this = (I64vec1) _m_por(vec,a); }
I64vec1& operator^=(const M64 &a) { return *this = (I64vec1) _m_pxor(vec,a); }
/* Shift Logical Operations */
I64vec1 operator<<(const M64 &a) { return _m_psllq(vec, a); }
I64vec1 operator<<(int count) { return _m_psllqi(vec, count); }
I64vec1& operator<<=(const M64 &a) { return *this = (I64vec1) _m_psllq(vec, a); }
I64vec1& operator<<=(int count) { return *this = (I64vec1) _m_psllqi(vec, count); }
I64vec1 operator>>(const M64 &a) { return _m_psrlq(vec, a); }
I64vec1 operator>>(int count) { return _m_psrlqi(vec, count); }
I64vec1& operator>>=(const M64 &a) { return *this = (I64vec1) _m_psrlq(vec, a); }
I64vec1& operator>>=(int count) { return *this = (I64vec1) _m_psrlqi(vec, count); }
};
/* I32vec2 Class:
* 2 elements, each element either a signed or unsigned int
*/
class I32vec2 : public M64
{
public:
I32vec2() { }
I32vec2(__m64 mm) : M64(mm) { }
I32vec2(int i0, int i1) { vec = _mm_set_pi32(i0, i1); }
EXPLICIT I32vec2(int i) : M64 (i) { }
EXPLICIT I32vec2(__int64 i): M64(i) {}
/* Assignment Operator */
I32vec2& operator= (const M64 &a) { return *this = (I32vec2) a; }
/* Logical Assignment Operators */
I32vec2& operator&=(const M64 &a) { return *this = (I32vec2) _m_pand(vec,a); }
I32vec2& operator|=(const M64 &a) { return *this = (I32vec2) _m_por(vec,a); }
I32vec2& operator^=(const M64 &a) { return *this = (I32vec2) _m_pxor(vec,a); }
/* Addition & Subtraction Assignment Operators */
I32vec2& operator +=(const I32vec2 &a) { return *this = (I32vec2) _m_paddd(vec,a); }
I32vec2& operator -=(const I32vec2 &a) { return *this = (I32vec2) _m_psubd(vec,a); }
/* Shift Logical Operators */
I32vec2 operator<<(const I32vec2 &a) { return _m_pslld(vec,a); }
I32vec2 operator<<(int count) { return _m_pslldi(vec,count); }
I32vec2& operator<<=(const I32vec2 &a) { return *this = (I32vec2) _m_pslld(vec,a); }
I32vec2& operator<<=(int count) { return *this = (I32vec2) _m_pslldi(vec,count); }
};
/* Compare For Equality */
inline I32vec2 cmpeq(const I32vec2 &a, const I32vec2 &b) { return _m_pcmpeqd(a,b); }
inline I32vec2 cmpneq(const I32vec2 &a, const I32vec2 &b) { return _m_pandn(_m_pcmpeqd(a,b), _mmx_all_ones); }
/* Unpacks */
inline I32vec2 unpack_low(const I32vec2 &a, const I32vec2 &b) {return _m_punpckldq(a,b); }
inline I32vec2 unpack_high(const I32vec2 &a, const I32vec2 &b) {return _m_punpckhdq(a,b); }
/* Is32vec2 Class:
* 2 elements, each element a signed int
*/
class Is32vec2 : public I32vec2
{
public:
Is32vec2() { }
Is32vec2(__m64 mm) : I32vec2(mm) { }
Is32vec2(signed int i0, signed int i1) : I32vec2(i0, i1) {}
EXPLICIT Is32vec2(int i) : I32vec2 (i) {}
EXPLICIT Is32vec2(__int64 i): I32vec2(i) {}
/* Assignment Operator */
Is32vec2& operator= (const M64 &a) { return *this = (Is32vec2) a; }
/* Logical Assignment Operators */
Is32vec2& operator&=(const M64 &a) { return *this = (Is32vec2) _m_pand(vec,a); }
Is32vec2& operator|=(const M64 &a) { return *this = (Is32vec2) _m_por(vec,a); }
Is32vec2& operator^=(const M64 &a) { return *this = (Is32vec2) _m_pxor(vec,a); }
/* Addition & Subtraction Assignment Operators */
Is32vec2& operator +=(const I32vec2 &a) { return *this = (Is32vec2) _m_paddd(vec,a); }
Is32vec2& operator -=(const I32vec2 &a) { return *this = (Is32vec2) _m_psubd(vec,a); }
/* Shift Logical Operators */
Is32vec2 operator<<(const M64 &a) { return _m_pslld(vec,a); }
Is32vec2 operator<<(int count) { return _m_pslldi(vec,count); }
Is32vec2& operator<<=(const M64 &a) { return *this = (Is32vec2) _m_pslld(vec,a); }
Is32vec2& operator<<=(int count) { return *this = (Is32vec2) _m_pslldi(vec,count); }
/* Shift Arithmetic Operations */
Is32vec2 operator>>(const M64 &a) { return _m_psrad(vec, a); }
Is32vec2 operator>>(int count) { return _m_psradi(vec, count); }
Is32vec2& operator>>=(const M64 &a) { return *this = (Is32vec2) _m_psrad(vec, a); }
Is32vec2& operator>>=(int count) { return *this = (Is32vec2) _m_psradi(vec, count); }
#if defined (_ENABLE_VEC_DEBUG)
/* Output for Debug */
friend std::ostream& operator<< (std::ostream &os, const Is32vec2 &a)
{
os << " [1]:" << _MM_2DW(1,a)
<< " [0]:" << _MM_2DW(0,a);
return os;
}
#endif /* defined (_ENABLE_VEC_DEBUG) */
/* Element Access for Debug, No data modified */
const int& operator[](int i)const
{
_VEC_ASSERT(static_cast<unsigned int>(i) < 2); /* Only 2 elements to access */
return _MM_2DW(i,vec);
}
/* Element Access and Assignment for Debug */
int& operator[](int i)
{
_VEC_ASSERT(static_cast<unsigned int>(i) < 2); /* Only 2 elements to access */
return _MM_2DW(i,vec);
}
};
/* Compares */
inline Is32vec2 cmpeq(const Is32vec2 &a, const Is32vec2 &b) { return _m_pcmpeqd(a,b); }
inline Is32vec2 cmpneq(const Is32vec2 &a, const Is32vec2 &b) { return _m_pandn(_m_pcmpeqd(a,b), _mmx_all_ones); }
inline Is32vec2 cmpgt(const Is32vec2 &a, const Is32vec2 &b) { return _m_pcmpgtd(a,b); }
inline Is32vec2 cmplt(const Is32vec2 &a, const Is32vec2 &b) { return _m_pcmpgtd(b,a); }
inline Is32vec2 cmple(const Is32vec2 &a, const Is32vec2 &b) { return _m_pandn(_m_pcmpgtd(a,b), _mmx_all_ones); }
inline Is32vec2 cmpge(const Is32vec2 &a, const Is32vec2 &b) { return _m_pandn(_m_pcmpgtd(b,a), _mmx_all_ones); }
/* Unpacks & Pack */
inline Is32vec2 unpack_low(const Is32vec2 &a, const Is32vec2 &b) { return _m_punpckldq(a,b); }
inline Is32vec2 unpack_high(const Is32vec2 &a, const Is32vec2 &b) { return _m_punpckhdq(a,b); }
/* Iu32vec2 Class:
* 2 elements, each element unsigned int
*/
class Iu32vec2 : public I32vec2
{
public:
Iu32vec2() { }
Iu32vec2(__m64 mm) : I32vec2(mm) { }
Iu32vec2(unsigned int i0, unsigned int i1) : I32vec2(i0, i1) {}
EXPLICIT Iu32vec2(int i) : I32vec2 (i) { }
EXPLICIT Iu32vec2(__int64 i) : I32vec2 (i) { }
/* Assignment Operator */
Iu32vec2& operator= (const M64 &a) { return *this = (Iu32vec2) a; }
/* Logical Assignment Operators */
Iu32vec2& operator&=(const M64 &a) { return *this = (Iu32vec2) _m_pand(vec,a); }
Iu32vec2& operator|=(const M64 &a) { return *this = (Iu32vec2) _m_por(vec,a); }
Iu32vec2& operator^=(const M64 &a) { return *this = (Iu32vec2) _m_pxor(vec,a); }
/* Addition & Subtraction Assignment Operators */
Iu32vec2& operator +=(const I32vec2 &a) { return *this = (Iu32vec2) _m_paddd(vec,a); }
Iu32vec2& operator -=(const I32vec2 &a) { return *this = (Iu32vec2) _m_psubd(vec,a); }
/* Shift Logical Operators */
Iu32vec2 operator<<(const M64 &a) { return _m_pslld(vec,a); }
Iu32vec2 operator<<(int count) { return _m_pslldi(vec,count); }
Iu32vec2& operator<<=(const M64 &a) { return *this = (Iu32vec2) _m_pslld(vec,a); }
Iu32vec2& operator<<=(int count) { return *this = (Iu32vec2) _m_pslldi(vec,count); }
Iu32vec2 operator>>(const M64 &a) { return _m_psrld(vec,a); }
Iu32vec2 operator>>(int count) { return _m_psrldi(vec,count); }
Iu32vec2& operator>>=(const M64 &a) { return *this = (Iu32vec2) _m_psrld(vec,a); }
Iu32vec2& operator>>=(int count) { return *this = (Iu32vec2) _m_psrldi(vec,count); }
#if defined (_ENABLE_VEC_DEBUG)
/* Output for Debug */
friend std::ostream& operator<< (std::ostream &os, const Iu32vec2 &a)
{
os << "[1]:" << _MM_2UDW(1,a)
<< " [0]:" << _MM_2UDW(0,a);
return os;
}
#endif /* defined (_ENABLE_VEC_DEBUG) */
/* Element Access for Debug, No data modified */
const unsigned int& operator[](int i)const
{
_VEC_ASSERT(static_cast<unsigned int>(i) < 2); /* Only 2 elements to access */
return _MM_2UDW(i,vec);
}
/* Element Access and Assignment for Debug */
unsigned int& operator[](int i)
{
_VEC_ASSERT(static_cast<unsigned int>(i) < 2); /* Only 2 elements to access */
return _MM_2UDW(i,vec);
}
};
/* Compares For Equality / Inequality */
inline Iu32vec2 cmpeq(const Iu32vec2 &a, const Iu32vec2 &b) { return _m_pcmpeqd(a,b); }
inline Iu32vec2 cmpneq(const Iu32vec2 &a, const Iu32vec2 &b) { return _m_pandn(_m_pcmpeqd(a,b), _mmx_all_ones); }
/* Unpacks */
inline Iu32vec2 unpack_low(const Iu32vec2 &a, const Iu32vec2 &b) {return _m_punpckldq(a,b); }
inline Iu32vec2 unpack_high(const Iu32vec2 &a, const Iu32vec2 &b) {return _m_punpckhdq(a,b); }
/* I16vec4 Class:
* 4 elements, each element either a signed or unsigned short
*/
class I16vec4 : public M64
{
public:
I16vec4() { }
I16vec4(__m64 mm) : M64(mm) { }
I16vec4(short i0, short i1, short i2, short i3)
{
vec = _mm_set_pi16(i0, i1, i2, i3);
}
EXPLICIT I16vec4(__int64 i) : M64 (i) { }
EXPLICIT I16vec4(int i) : M64 (i) { }
/* Assignment Operator */
I16vec4& operator= (const M64 &a) { return *this = (I16vec4) a; }
/* Addition & Subtraction Assignment Operators */
I16vec4& operator&=(const M64 &a) { return *this = (I16vec4) _m_pand(vec,a); }
I16vec4& operator|=(const M64 &a) { return *this = (I16vec4) _m_por(vec,a); }
I16vec4& operator^=(const M64 &a) { return *this = (I16vec4) _m_pxor(vec,a); }
/* Addition & Subtraction Assignment Operators */
I16vec4& operator +=(const I16vec4 &a) { return *this = (I16vec4)_m_paddw(vec,a); }
I16vec4& operator -=(const I16vec4 &a) { return *this = (I16vec4)_m_psubw(vec,a); }
I16vec4& operator *=(const I16vec4 &a) { return *this = (I16vec4)_m_pmullw(vec,a); }
/* Shift Logical Operators */
I16vec4 operator<<(const I16vec4 &a) { return _m_psllw(vec,a); }
I16vec4 operator<<(int count) { return _m_psllwi(vec,count); }
I16vec4& operator<<=(const I16vec4 &a) { return *this = (I16vec4)_m_psllw(vec,a); }
I16vec4& operator<<=(int count) { return *this = (I16vec4)_m_psllwi(vec,count); }
};
inline I16vec4 operator*(const I16vec4 &a, const I16vec4 &b) { return _m_pmullw(a,b); }
inline I16vec4 cmpeq(const I16vec4 &a, const I16vec4 &b) { return _m_pcmpeqw(a,b); }
inline I16vec4 cmpneq(const I16vec4 &a, const I16vec4 &b) { return _m_pandn(_m_pcmpeqw(a,b), _mmx_all_ones); }
inline I16vec4 unpack_low(const I16vec4 &a, const I16vec4 &b) { return _m_punpcklwd(a,b); }
inline I16vec4 unpack_high(const I16vec4 &a, const I16vec4 &b) { return _m_punpckhwd(a,b); }
/* Is16vec4 Class:
* 4 elements, each element signed short
*/
class Is16vec4 : public I16vec4
{
public:
Is16vec4() { }
Is16vec4(__m64 mm) : I16vec4(mm) { }
Is16vec4(short i0, short i1, short i2, short i3) : I16vec4(i0, i1, i2, i3) { }
EXPLICIT Is16vec4(__int64 i) : I16vec4 (i) { }
EXPLICIT Is16vec4(int i) : I16vec4 (i) { }
/* Assignment Operator */
Is16vec4& operator= (const M64 &a) { return *this = (Is16vec4) a; }
/* Addition & Subtraction Assignment Operators */
Is16vec4& operator&=(const M64 &a) { return *this = (Is16vec4) _m_pand(vec,a); }
Is16vec4& operator|=(const M64 &a) { return *this = (Is16vec4) _m_por(vec,a); }
Is16vec4& operator^=(const M64 &a) { return *this = (Is16vec4) _m_pxor(vec,a); }
/* Addition & Subtraction Assignment Operators */
Is16vec4& operator +=(const I16vec4 &a) { return *this = (Is16vec4)_m_paddw(vec,a); }
Is16vec4& operator -=(const I16vec4 &a) { return *this = (Is16vec4)_m_psubw(vec,a); }
Is16vec4& operator *=(const I16vec4 &a) { return *this = (Is16vec4)_m_pmullw(vec,a); }
/* Shift Logical Operators */
Is16vec4 operator<<(const M64 &a) { return _m_psllw(vec,a); }
Is16vec4 operator<<(int count) { return _m_psllwi(vec,count); }
Is16vec4& operator<<=(const M64 &a) { return *this = (Is16vec4)_m_psllw(vec,a); }
Is16vec4& operator<<=(int count) { return *this = (Is16vec4)_m_psllwi(vec,count); }
/* Shift Arithmetic Operations */
Is16vec4 operator>>(const M64 &a) { return _m_psraw(vec,a); }
Is16vec4 operator>>(int count) { return _m_psrawi(vec,count); }
Is16vec4& operator>>=(const M64 &a) { return *this = (Is16vec4) _m_psraw(vec,a); }
Is16vec4& operator>>=(int count) { return *this = (Is16vec4) _m_psrawi(vec,count); }
#if defined (_ENABLE_VEC_DEBUG)
/* Output for Debug */
friend std::ostream& operator<< (std::ostream &os, const Is16vec4 &a)
{
os << "[3]:" << _MM_4W(3,a)
<< " [2]:" << _MM_4W(2,a)
<< " [1]:" << _MM_4W(1,a)
<< " [0]:" << _MM_4W(0,a);
return os;
}
#endif /* defined (_ENABLE_VEC_DEBUG) */
/* Element Access for Debug, No data modified */
const short& operator[](int i)const
{
_VEC_ASSERT(static_cast<unsigned int>(i) < 4); /* Only 4 elements to access */
return _MM_4W(i,vec);
}
/* Element Access for Debug */
short& operator[](int i)
{
_VEC_ASSERT(static_cast<unsigned int>(i) < 4); /* Only 4 elements to access */
return _MM_4W(i,vec);
}
};
inline Is16vec4 operator*(const Is16vec4 &a, const Is16vec4 &b) { return _m_pmullw(a,b); }
/* Compares */
inline Is16vec4 cmpeq(const Is16vec4 &a, const Is16vec4 &b) { return _m_pcmpeqw(a,b); }
inline Is16vec4 cmpneq(const Is16vec4 &a, const Is16vec4 &b) { return _m_pandn(_m_pcmpeqw(a,b), _mmx_all_ones); }
inline Is16vec4 cmpgt(const Is16vec4 &a, const Is16vec4 &b) { return _m_pcmpgtw(a,b); }
inline Is16vec4 cmplt(const Is16vec4 &a, const Is16vec4 &b) { return _m_pcmpgtw(b,a); }
inline Is16vec4 cmple(const Is16vec4 &a, const Is16vec4 &b) { return _m_pandn(_m_pcmpgtw(a,b), _mmx_all_ones); }
inline Is16vec4 cmpge(const Is16vec4 &a, const Is16vec4 &b) { return _m_pandn(_m_pcmpgtw(b,a), _mmx_all_ones); }
/* Unpacks */
inline Is16vec4 unpack_low(const Is16vec4 &a, const Is16vec4 &b) { return _m_punpcklwd(a,b); }
inline Is16vec4 unpack_high(const Is16vec4 &a, const Is16vec4 &b) { return _m_punpckhwd(a,b); }
inline Is16vec4 sat_add(const Is16vec4 &a, const Is16vec4 &b) { return _m_paddsw(a,b); }
inline Is16vec4 sat_sub(const Is16vec4 &a, const Is16vec4 &b) { return _m_psubsw(a,b); }
inline Is16vec4 mul_high(const Is16vec4 &a, const Is16vec4 &b) { return _m_pmulhw(a,b); }
inline Is32vec2 mul_add(const Is16vec4 &a, const Is16vec4 &b) { return _m_pmaddwd(a,b);}
/* Iu16vec4 Class:
* 4 elements, each element unsigned short
*/
class Iu16vec4 : public I16vec4
{
public:
Iu16vec4() { }
Iu16vec4(__m64 mm) : I16vec4(mm) { }
Iu16vec4(unsigned short ui0, unsigned short ui1,
unsigned short ui2, unsigned short ui3)
: I16vec4(ui0, ui1, ui2, ui3) { }
EXPLICIT Iu16vec4(__int64 i) : I16vec4 (i) { }
EXPLICIT Iu16vec4(int i) : I16vec4 (i) { }
/* Assignment Operator */
Iu16vec4& operator= (const M64 &a) { return *this = (Iu16vec4) a; }
/* Logical Assignment Operators */
Iu16vec4& operator&=(const M64 &a) { return *this = (Iu16vec4) _m_pand(vec,a); }
Iu16vec4& operator|=(const M64 &a) { return *this = (Iu16vec4) _m_por(vec,a); }
Iu16vec4& operator^=(const M64 &a) { return *this = (Iu16vec4) _m_pxor(vec,a); }
/* Addition & Subtraction Assignment Operators */
Iu16vec4& operator +=(const I16vec4 &a) { return *this = (Iu16vec4)_m_paddw(vec,a); }
Iu16vec4& operator -=(const I16vec4 &a) { return *this = (Iu16vec4)_m_psubw(vec,a); }
Iu16vec4& operator *=(const I16vec4 &a) { return *this = (Iu16vec4)_m_pmullw(vec,a); }
/* Shift Logical Operators */
Iu16vec4 operator<<(const M64 &a) { return _m_psllw(vec,a); }
Iu16vec4 operator<<(int count) { return _m_psllwi(vec,count); }
Iu16vec4& operator<<=(const M64 &a) { return *this = (Iu16vec4)_m_psllw(vec,a); }
Iu16vec4& operator<<=(int count) { return *this = (Iu16vec4)_m_psllwi(vec,count); }
Iu16vec4 operator>>(const M64 &a) { return _m_psrlw(vec,a); }
Iu16vec4 operator>>(int count) { return _m_psrlwi(vec,count); }
Iu16vec4& operator>>=(const M64 &a) { return *this = (Iu16vec4) _m_psrlw(vec,a); }
Iu16vec4& operator>>=(int count) { return *this = (Iu16vec4) _m_psrlwi(vec,count); }
#if defined (_ENABLE_VEC_DEBUG)
/* Output for Debug */
friend std::ostream& operator<< (std::ostream &os, const Iu16vec4 &a)
{
os << "[3]:" << _MM_4UW(3,a)
<< " [2]:" << _MM_4UW(2,a)
<< " [1]:" << _MM_4UW(1,a)
<< " [0]:" << _MM_4UW(0,a);
return os;
}
#endif /* defined (_ENABLE_VEC_DEBUG) */
/* Element Access for Debug, No data modified */
const unsigned short& operator[](int i)const
{
_VEC_ASSERT(static_cast<unsigned int>(i) < 4); /* Only 4 elements to access */
return _MM_4UW(i,vec);
}
/* Element Access and Assignment for Debug */
unsigned short& operator[](int i)
{
_VEC_ASSERT(static_cast<unsigned int>(i) < 4); /* Only 4 elements to access */
return _MM_4UW(i,vec);
}
};
inline Iu16vec4 operator*(const Iu16vec4 &a, const Iu16vec4 &b) { return _m_pmullw(a,b); }
inline Iu16vec4 cmpeq(const Iu16vec4 &a, const Iu16vec4 &b) { return _m_pcmpeqw(a,b); }
inline Iu16vec4 cmpneq(const Iu16vec4 &a, const Iu16vec4 &b) { return _m_pandn(_m_pcmpeqw(a,b), _mmx_all_ones); }
inline Iu16vec4 sat_add(const Iu16vec4 &a, const Iu16vec4 &b) { return _m_paddusw(a,b); }
inline Iu16vec4 sat_sub(const Iu16vec4 &a, const Iu16vec4 &b) { return _m_psubusw(a,b); }
inline Iu16vec4 unpack_low(const Iu16vec4 &a, const Iu16vec4 &b) { return _m_punpcklwd(a,b); }
inline Iu16vec4 unpack_high(const Iu16vec4 &a, const Iu16vec4 &b) { return _m_punpckhwd(a,b); }
/* I8vec8 Class:
* 8 elements, each element either unsigned or signed char
*/
class I8vec8 : public M64
{
public:
I8vec8() { }
I8vec8(__m64 mm) : M64(mm) { }
I8vec8(char s0, char s1, char s2, char s3, char s4, char s5, char s6, char s7)
{
vec = _mm_set_pi8(s0, s1, s2, s3, s4, s5, s6, s7);
}
EXPLICIT I8vec8(__int64 i) : M64 (i) { }
EXPLICIT I8vec8(int i) : M64 (i) { }
/* Assignment Operator */
I8vec8& operator= (const M64 &a) { return *this = (I8vec8) a; }
/* Logical Assignment Operators */
I8vec8& operator&=(const M64 &a) { return *this = (I8vec8) _m_pand(vec,a); }
I8vec8& operator|=(const M64 &a) { return *this = (I8vec8) _m_por(vec,a); }
I8vec8& operator^=(const M64 &a) { return *this = (I8vec8) _m_pxor(vec,a); }
/* Addition & Subtraction Assignment Operators */
I8vec8& operator +=(const I8vec8 &a) { return *this = (I8vec8) _m_paddb(vec,a); }
I8vec8& operator -=(const I8vec8 &a) { return *this = (I8vec8) _m_psubb(vec,a); }
};
inline I8vec8 cmpeq(const I8vec8 &a, const I8vec8 &b) { return _m_pcmpeqb(a,b); }
inline I8vec8 cmpneq(const I8vec8 &a, const I8vec8 &b) { return _m_pandn(_m_pcmpeqb(a,b), _mmx_all_ones); }
inline I8vec8 unpack_low(const I8vec8 &a, const I8vec8 &b) { return _m_punpcklbw(a,b); }
inline I8vec8 unpack_high(const I8vec8 &a, const I8vec8 &b) { return _m_punpckhbw(a,b); }
/* Is8vec8 Class:
* 8 elements, each element signed char
*/
class Is8vec8 : public I8vec8
{
public:
Is8vec8() { }
Is8vec8(__m64 mm) : I8vec8(mm) { }
Is8vec8(signed char s0, signed char s1, signed char s2, signed char s3,
signed char s4, signed char s5, signed char s6, signed char s7)
: I8vec8(s0, s1, s2, s3, s4, s5, s6, s7) { }
EXPLICIT Is8vec8(__int64 i) : I8vec8 (i) { }
EXPLICIT Is8vec8(int i) : I8vec8 (i) { }
/* Assignment Operator */
Is8vec8& operator= (const M64 &a) { return *this = (Is8vec8) a; }
/* Logical Assignment Operators */
Is8vec8& operator&=(const M64 &a) { return *this = (Is8vec8) _m_pand(vec,a); }
Is8vec8& operator|=(const M64 &a) { return *this = (Is8vec8) _m_por(vec,a); }
Is8vec8& operator^=(const M64 &a) { return *this = (Is8vec8) _m_pxor(vec,a); }
/* Addition & Subtraction Assignment Operators */
Is8vec8& operator +=(const I8vec8 &a) { return *this = (Is8vec8) _m_paddb(vec,a); }
Is8vec8& operator -=(const I8vec8 &a) { return *this = (Is8vec8) _m_psubb(vec,a); }
#if defined (_ENABLE_VEC_DEBUG)
/* Output for Debug */
friend std::ostream& operator<< (std::ostream &os, const Is8vec8 &a)
{
os << "[7]:" << short(_MM_8B(7,a))
<< " [6]:" << short(_MM_8B(6,a))
<< " [5]:" << short(_MM_8B(5,a))
<< " [4]:" << short(_MM_8B(4,a))
<< " [3]:" << short(_MM_8B(3,a))
<< " [2]:" << short(_MM_8B(2,a))
<< " [1]:" << short(_MM_8B(1,a))
<< " [0]:" << short(_MM_8B(0,a));
return os;
}
#endif /* defined (_ENABLE_VEC_DEBUG) */
/* Element Access for Debug, No data modified */
const signed char& operator[](int i)const
{
_VEC_ASSERT(static_cast<unsigned int>(i) < 8); /* Only 8 elements to access */
return _MM_8B(i,vec);
}
/* Element Access and Assignment for Debug */
signed char& operator[](int i)
{
_VEC_ASSERT(static_cast<unsigned int>(i) < 8); /* Only 8 elements to access */
return _MM_8B(i,vec);
}
};
/* Additional Is8vec8 functions: compares, unpacks, sat add/sub */
inline Is8vec8 cmpeq(const Is8vec8 &a, const Is8vec8 &b) { return _m_pcmpeqb(a,b); }
inline Is8vec8 cmpneq(const Is8vec8 &a, const Is8vec8 &b) { return _m_pandn(_m_pcmpeqb(a,b), _mmx_all_ones); }
inline Is8vec8 cmpgt(const Is8vec8 &a, const Is8vec8 &b) { return _m_pcmpgtb(a,b); }
inline Is8vec8 cmplt(const Is8vec8 &a, const Is8vec8 &b) { return _m_pcmpgtb(b,a); }
inline Is8vec8 cmple(const Is8vec8 &a, const Is8vec8 &b) { return _m_pandn(_m_pcmpgtb(a,b), _mmx_all_ones); }
inline Is8vec8 cmpge(const Is8vec8 &a, const Is8vec8 &b) { return _m_pandn(_m_pcmpgtb(b,a), _mmx_all_ones); }
inline Is8vec8 unpack_low(const Is8vec8 &a, const Is8vec8 &b) { return _m_punpcklbw(a,b); }
inline Is8vec8 unpack_high(const Is8vec8 &a, const Is8vec8 &b) { return _m_punpckhbw(a,b); }
inline Is8vec8 sat_add(const Is8vec8 &a, const Is8vec8 &b) { return _m_paddsb(a,b); }
inline Is8vec8 sat_sub(const Is8vec8 &a, const Is8vec8 &b) { return _m_psubsb(a,b); }
/* Iu8vec8 Class:
* 8 elements, each element unsigned char
*/
class Iu8vec8 : public I8vec8
{
public:
Iu8vec8() { }
Iu8vec8(__m64 mm) : I8vec8(mm) { }
Iu8vec8(unsigned char s0, unsigned char s1, unsigned char s2,
unsigned char s3, unsigned char s4, unsigned char s5,
unsigned char s6, unsigned char s7)
: I8vec8(s0, s1, s2, s3, s4, s5, s6, s7) { }
EXPLICIT Iu8vec8(__int64 i) : I8vec8 (i) { }
EXPLICIT Iu8vec8(int i) : I8vec8 (i) { }
/* Assignment Operator */
Iu8vec8& operator= (const M64 &a) { return *this = (Iu8vec8) a; }
/* Logical Assignment Operators */
Iu8vec8& operator&=(const M64 &a) { return *this = (Iu8vec8) _m_pand(vec,a); }
Iu8vec8& operator|=(const M64 &a) { return *this = (Iu8vec8) _m_por(vec,a); }
Iu8vec8& operator^=(const M64 &a) { return *this = (Iu8vec8) _m_pxor(vec,a); }
/* Addition & Subtraction Assignment Operators */
Iu8vec8& operator +=(const I8vec8 &a) { return *this = (Iu8vec8) _m_paddb(vec,a); }
Iu8vec8& operator -=(const I8vec8 &a) { return *this = (Iu8vec8) _m_psubb(vec,a); }
#if defined (_ENABLE_VEC_DEBUG)
/* Output for Debug */
friend std::ostream& operator << (std::ostream &os, const Iu8vec8 &a)
{
os << "[7]:" << (unsigned short) (_MM_8UB(7,a))
<< " [6]:" << (unsigned short) (_MM_8UB(6,a))
<< " [5]:" << (unsigned short) (_MM_8UB(5,a))
<< " [4]:" << (unsigned short) (_MM_8UB(4,a))
<< " [3]:" << (unsigned short) (_MM_8UB(3,a))
<< " [2]:" << (unsigned short) (_MM_8UB(2,a))
<< " [1]:" << (unsigned short) (_MM_8UB(1,a))
<< " [0]:" << (unsigned short) (_MM_8UB(0,a));
return os;
}
#endif /* defined (_ENABLE_VEC_DEBUG) */
/* Element Access for Debug, No data modified */
const unsigned char& operator[](int i)const
{
_VEC_ASSERT(static_cast<unsigned int>(i) < 8); /* Only 8 elements to access */
return _MM_8UB(i,vec);
}
/* Element Access for Debug */
unsigned char& operator[](int i)
{
_VEC_ASSERT(static_cast<unsigned int>(i) < 8); /* Only 8 elements to access */
return _MM_8UB(i,vec);
}
};
/* Additional Iu8vec8 functions: cmpeq,cmpneq, unpacks, sat add/sub */
inline Iu8vec8 cmpeq(const Iu8vec8 &a, const Iu8vec8 &b) { return _m_pcmpeqb(a,b); }
inline Iu8vec8 cmpneq(const Iu8vec8 &a, const Iu8vec8 &b) { return _m_pandn(_m_pcmpeqb(a,b), _mmx_all_ones); }
inline Iu8vec8 unpack_low(const Iu8vec8 &a, const Iu8vec8 &b) { return _m_punpcklbw(a,b); }
inline Iu8vec8 unpack_high(const Iu8vec8 &a, const Iu8vec8 &b) { return _m_punpckhbw(a,b); }
inline Iu8vec8 sat_add(const Iu8vec8 &a, const Iu8vec8 &b) { return _m_paddusb(a,b); }
inline Iu8vec8 sat_sub(const Iu8vec8 &a, const Iu8vec8 &b) { return _m_psubusb(a,b); }
inline Is16vec4 pack_sat(const Is32vec2 &a, const Is32vec2 &b) { return _m_packssdw(a,b); }
inline Is8vec8 pack_sat(const Is16vec4 &a, const Is16vec4 &b) { return _m_packsswb(a,b); }
inline Iu8vec8 packu_sat(const Is16vec4 &a, const Is16vec4 &b) { return _m_packuswb(a,b); }
/********************************* Logicals ****************************************/
#define IVEC_LOGICALS(vect,element) \
inline I##vect##vec##element operator& (const I##vect##vec##element &a, const I##vect##vec##element &b) \
{ return _m_pand( a,b); } \
inline I##vect##vec##element operator| (const I##vect##vec##element &a, const I##vect##vec##element &b) \
{ return _m_por( a,b); } \
inline I##vect##vec##element operator^ (const I##vect##vec##element &a, const I##vect##vec##element &b) \
{ return _m_pxor( a,b); } \
inline I##vect##vec##element andnot (const I##vect##vec##element &a, const I##vect##vec##element &b) \
{ return _m_pandn( a,b); }
IVEC_LOGICALS(8,8)
IVEC_LOGICALS(u8,8)
IVEC_LOGICALS(s8,8)
IVEC_LOGICALS(16,4)
IVEC_LOGICALS(u16,4)
IVEC_LOGICALS(s16,4)
IVEC_LOGICALS(32,2)
IVEC_LOGICALS(u32,2)
IVEC_LOGICALS(s32,2)
IVEC_LOGICALS(64,1)
#undef IVEC_LOGICALS
/********************************* Add & Sub ****************************************/
#define IVEC_ADD_SUB(vect,element,opsize) \
inline I##vect##vec##element operator+ (const I##vect##vec##element &a, const I##vect##vec##element &b) \
{ return _m_padd##opsize( a,b); } \
inline I##vect##vec##element operator- (const I##vect##vec##element &a, const I##vect##vec##element &b) \
{ return _m_psub##opsize( a,b); }
IVEC_ADD_SUB(8,8, b)
IVEC_ADD_SUB(u8,8, b)
IVEC_ADD_SUB(s8,8, b)
IVEC_ADD_SUB(16,4, w)
IVEC_ADD_SUB(u16,4, w)
IVEC_ADD_SUB(s16,4, w)
IVEC_ADD_SUB(32,2, d)
IVEC_ADD_SUB(u32,2, d)
IVEC_ADD_SUB(s32,2, d)
#undef IVEC_ADD_SUB
/************************* Conditional Select ********************************
* version of: retval = (a OP b)? c : d; *
* Where OP is one of the possible comparision operators. *
* Example: r = select_eq(a,b,c,d); *
* if "member at position x of the vector a" == *
* "member at position x of vector b" *
* assign the corresponding member in r from c, else assign from d. *
************************* Conditional Select ********************************/
#define IVEC_SELECT(vect12,vect34,element,selop) \
inline I##vect34##vec##element select_##selop ( \
const I##vect12##vec##element &a, \
const I##vect12##vec##element &b, \
const I##vect34##vec##element &c, \
const I##vect34##vec##element &d) \
{ \
I##vect12##vec##element mask = cmp##selop(a,b); \
return( (I##vect34##vec##element)(mask & c ) | \
(I##vect34##vec##element)((_m_pandn(mask, d )))); \
}
IVEC_SELECT(8,s8,8,eq)
IVEC_SELECT(8,u8,8,eq)
IVEC_SELECT(8,8,8,eq)
IVEC_SELECT(8,s8,8,neq)
IVEC_SELECT(8,u8,8,neq)
IVEC_SELECT(8,8,8,neq)
IVEC_SELECT(16,s16,4,eq)
IVEC_SELECT(16,u16,4,eq)
IVEC_SELECT(16,16,4,eq)
IVEC_SELECT(16,s16,4,neq)
IVEC_SELECT(16,u16,4,neq)
IVEC_SELECT(16,16,4,neq)
IVEC_SELECT(32,s32,2,eq)
IVEC_SELECT(32,u32,2,eq)
IVEC_SELECT(32,32,2,eq)
IVEC_SELECT(32,s32,2,neq)
IVEC_SELECT(32,u32,2,neq)
IVEC_SELECT(32,32,2,neq)
IVEC_SELECT(s8,s8,8,gt)
IVEC_SELECT(s8,u8,8,gt)
IVEC_SELECT(s8,8,8,gt)
IVEC_SELECT(s8,s8,8,lt)
IVEC_SELECT(s8,u8,8,lt)
IVEC_SELECT(s8,8,8,lt)
IVEC_SELECT(s8,s8,8,le)
IVEC_SELECT(s8,u8,8,le)
IVEC_SELECT(s8,8,8,le)
IVEC_SELECT(s8,s8,8,ge)
IVEC_SELECT(s8,u8,8,ge)
IVEC_SELECT(s8,8,8,ge)
IVEC_SELECT(s16,s16,4,gt)
IVEC_SELECT(s16,u16,4,gt)
IVEC_SELECT(s16,16,4,gt)
IVEC_SELECT(s16,s16,4,lt)
IVEC_SELECT(s16,u16,4,lt)
IVEC_SELECT(s16,16,4,lt)
IVEC_SELECT(s16,s16,4,le)
IVEC_SELECT(s16,u16,4,le)
IVEC_SELECT(s16,16,4,le)
IVEC_SELECT(s16,s16,4,ge)
IVEC_SELECT(s16,u16,4,ge)
IVEC_SELECT(s16,16,4,ge)
IVEC_SELECT(s32,s32,2,gt)
IVEC_SELECT(s32,u32,2,gt)
IVEC_SELECT(s32,32,2,gt)
IVEC_SELECT(s32,s32,2,lt)
IVEC_SELECT(s32,u32,2,lt)
IVEC_SELECT(s32,32,2,lt)
IVEC_SELECT(s32,s32,2,le)
IVEC_SELECT(s32,u32,2,le)
IVEC_SELECT(s32,32,2,le)
IVEC_SELECT(s32,s32,2,ge)
IVEC_SELECT(s32,u32,2,ge)
IVEC_SELECT(s32,32,2,ge)
#undef IVEC_SELECT
inline static void empty(void) { _m_empty(); }
#if defined (_SILENCE_IVEC_C4799)
#pragma warning(pop)
#endif /* defined (_SILENCE_IVEC_C4799) */
#endif /* defined (_M_CEE_PURE) */
#endif /* RC_INVOKED */
#endif /* _IVEC_H_INCLUDED */