Source code of Windows XP (NT5)
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/**
*** Copyright (C) 1985-1999 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 Willamette New Instruction intrinsics.
*
* File name : dvec.h class definitions
*
* Concept: A C++ abstraction of Willamette new intructions designed to improve
* programmer productivity. Speed and accuracy are sacrificed for utility.
* Facilitates an easy transition to compiler intrinsics
* or assembly language.
*
*/
#ifndef DVEC_H_INCLUDED
#define DVEC_H_INCLUDED
#if !defined __cplusplus
#error ERROR: This file is only supported in C++ compilations!
#endif /* !__cplusplus */
#include <emmintrin.h> /* Willamette New Instructions Intrinsics include file */
#include <assert.h>
#include <fvec.h>
/* Define _ENABLE_VEC_DEBUG to enable std::ostream inserters for debug output */
#if defined(_ENABLE_VEC_DEBUG)
#include <iostream>
#endif
#pragma pack(push,16) /* Must ensure class & union 16-B aligned */
/* If using MSVC5.0, explicit keyword should be used */
#if (_MSC_VER >= 1100)
#define EXPLICIT explicit
#else
#if (__ICL)
#define EXPLICIT __explicit /* If MSVC4.x & ICL, use __explicit */
#else
#define EXPLICIT /* nothing */
#pragma message( "explicit keyword not recognized")
#endif
#endif
/* EMM Functionality Intrinsics */
class I8vec16; /* 16 elements, each element a signed or unsigned char data type */
class Is8vec16; /* 16 elements, each element a signed char data type */
class Iu8vec16; /* 16 elements, each element an unsigned char data type */
class I16vec8; /* 8 elements, each element a signed or unsigned short */
class Is16vec8; /* 8 elements, each element a signed short */
class Iu16vec8; /* 8 elements, each element an unsigned short */
class I32vec4; /* 4 elements, each element a signed or unsigned long */
class Is32vec4; /* 4 elements, each element a signed long */
class Iu32vec4; /* 4 elements, each element a unsigned long */
class I64vec2; /* 2 element, each a __m64 data type */
class I128vec1; /* 1 element, a __m128i data type */
#define _MM_16UB(element,vector) (*((unsigned char*)&##vector + ##element))
#define _MM_16B(element,vector) (*((signed char*)&##vector + ##element))
#define _MM_8UW(element,vector) (*((unsigned short*)&##vector + ##element))
#define _MM_8W(element,vector) (*((short*)&##vector + ##element))
#define _MM_4UDW(element,vector) (*((unsigned int*)&##vector + ##element))
#define _MM_4DW(element,vector) (*((int*)&##vector + ##element))
#define _MM_2QW(element,vector) (*((__int64*)&##vector + ##element))
/* We need a m128i constant, keeping performance in mind*/
inline const __m128i get_mask128()
{
static const __m128i mask128 = _mm_set1_epi64(M64(0xffffffffffffffffi64));
return mask128;
}
/* M128 Class:
* 1 element, a __m128i data type
* Contructors & Logical Operations
*/
class M128
{
protected:
__m128i vec;
public:
M128() { }
M128(__m128i mm) { vec = mm; }
operator __m128i() const { return vec; }
/* Logical Operations */
M128& operator&=(const M128 &a) { return *this = (M128) _mm_and_si128(vec,a); }
M128& operator|=(const M128 &a) { return *this = (M128) _mm_or_si128(vec,a); }
M128& operator^=(const M128 &a) { return *this = (M128) _mm_xor_si128(vec,a); }
};
inline M128 operator&(const M128 &a, const M128 &b) { return _mm_and_si128(a,b); }
inline M128 operator|(const M128 &a, const M128 &b) { return _mm_or_si128(a,b); }
inline M128 operator^(const M128 &a, const M128 &b) { return _mm_xor_si128(a,b); }
inline M128 andnot(const M128 &a, const M128 &b) { return _mm_andnot_si128(a,b); }
/* I128vec1 Class:
* 1 element, a __m128i data type
* Contains Operations which can operate on any __m6128i data type
*/
class I128vec1 : public M128
{
public:
I128vec1() { }
I128vec1(__m128i mm) : M128(mm) { }
I128vec1& operator= (const M128 &a) { return *this = (I128vec1) a; }
I128vec1& operator&=(const M128 &a) { return *this = (I128vec1) _mm_and_si128(vec,a); }
I128vec1& operator|=(const M128 &a) { return *this = (I128vec1) _mm_or_si128(vec,a); }
I128vec1& operator^=(const M128 &a) { return *this = (I128vec1) _mm_xor_si128(vec,a); }
};
/* I64vec2 Class:
* 2 elements, each element signed or unsigned 64-bit integer
*/
class I64vec2 : public M128
{
public:
I64vec2() { }
I64vec2(__m128i mm) : M128(mm) { }
I64vec2(__m64 q1, __m64 q0)
{
_MM_2QW(0,vec) = *(__int64*)&q0;
_MM_2QW(1,vec) = *(__int64*)&q1;
}
/* Assignment Operator */
I64vec2& operator= (const M128 &a) { return *this = (I64vec2) a; }
/* Logical Assignment Operators */
I64vec2& operator&=(const M128 &a) { return *this = (I64vec2) _mm_and_si128(vec,a); }
I64vec2& operator|=(const M128 &a) { return *this = (I64vec2) _mm_or_si128(vec,a); }
I64vec2& operator^=(const M128 &a) { return *this = (I64vec2) _mm_xor_si128(vec,a); }
/* Addition & Subtraction Assignment Operators */
I64vec2& operator +=(const I64vec2 &a) { return *this = (I64vec2) _mm_add_epi64(vec,a); }
I64vec2& operator -=(const I64vec2 &a) { return *this = (I64vec2) _mm_sub_epi64(vec,a); }
/* Shift Logical Operators */
I64vec2 operator<<(const I64vec2 &a) { return _mm_sll_epi64(vec,a); }
I64vec2 operator<<(int count) { return _mm_slli_epi64(vec,count); }
I64vec2& operator<<=(const I64vec2 &a) { return *this = (I64vec2) _mm_sll_epi64(vec,a); }
I64vec2& operator<<=(int count) { return *this = (I64vec2) _mm_slli_epi64(vec,count); }
I64vec2 operator>>(const I64vec2 &a) { return _mm_srl_epi64(vec,a); }
I64vec2 operator>>(int count) { return _mm_srli_epi64(vec,count); }
I64vec2& operator>>=(const I64vec2 &a) { return *this = (I64vec2) _mm_srl_epi64(vec,a); }
I64vec2& operator>>=(int count) { return *this = (I64vec2) _mm_srli_epi64(vec,count); }
/* Element Access for Debug, No data modified */
const __int64& operator[](int i)const
{
assert(static_cast<unsigned int>(i) < 2); /* Only 2 elements to access */
return _MM_2QW(i,vec);
}
/* Element Access and Assignment for Debug */
__int64& operator[](int i)
{
assert(static_cast<unsigned int>(i) < 2); /* Only 2 elements to access */
return _MM_2QW(i,vec);
}
};
/* Unpacks */
inline I64vec2 unpack_low(const I64vec2 &a, const I64vec2 &b) {return _mm_unpacklo_epi64(a,b); }
inline I64vec2 unpack_high(const I64vec2 &a, const I64vec2 &b) {return _mm_unpackhi_epi64(a,b); }
/* I32vec4 Class:
* 4 elements, each element either a signed or unsigned int
*/
class I32vec4 : public M128
{
public:
I32vec4() { }
I32vec4(__m128i mm) : M128(mm) { }
/* Assignment Operator */
I32vec4& operator= (const M128 &a) { return *this = (I32vec4) a; }
/* Logicals Operators */
I32vec4& operator&=(const M128 &a) { return *this = (I32vec4) _mm_and_si128(vec,a); }
I32vec4& operator|=(const M128 &a) { return *this = (I32vec4) _mm_or_si128(vec,a); }
I32vec4& operator^=(const M128 &a) { return *this = (I32vec4) _mm_xor_si128(vec,a); }
/* Addition & Subtraction Assignment Operators */
I32vec4& operator +=(const I32vec4 &a) { return *this = (I32vec4)_mm_add_epi32(vec,a); }
I32vec4& operator -=(const I32vec4 &a) { return *this = (I32vec4)_mm_sub_epi32(vec,a); }
/* Shift Logical Operators */
I32vec4 operator<<(const I32vec4 &a) { return _mm_sll_epi32(vec,a); }
I32vec4 operator<<(int count) { return _mm_slli_epi32(vec,count); }
I32vec4& operator<<=(const I32vec4 &a) { return *this = (I32vec4)_mm_sll_epi32(vec,a); }
I32vec4& operator<<=(int count) { return *this = (I32vec4)_mm_slli_epi32(vec,count); }
};
inline I32vec4 cmpeq(const I32vec4 &a, const I32vec4 &b) { return _mm_cmpeq_epi32(a,b); }
inline I32vec4 cmpneq(const I32vec4 &a, const I32vec4 &b) { return _mm_andnot_si128(_mm_cmpeq_epi32(a,b), get_mask128()); }
inline I32vec4 unpack_low(const I32vec4 &a, const I32vec4 &b) { return _mm_unpacklo_epi32(a,b); }
inline I32vec4 unpack_high(const I32vec4 &a, const I32vec4 &b) { return _mm_unpackhi_epi32(a,b); }
/* Is32vec4 Class:
* 4 elements, each element signed integer
*/
class Is32vec4 : public I32vec4
{
public:
Is32vec4() { }
Is32vec4(__m128i mm) : I32vec4(mm) { }
Is32vec4(int i3, int i2, int i1, int i0)
{
_MM_4DW(0,vec) = i0;
_MM_4DW(1,vec) = i1;
_MM_4DW(2,vec) = i2;
_MM_4DW(3,vec) = i3;
}
/* Assignment Operator */
Is32vec4& operator= (const M128 &a) { return *this = (Is32vec4) a; }
/* Logical Operators */
Is32vec4& operator&=(const M128 &a) { return *this = (Is32vec4) _mm_and_si128(vec,a); }
Is32vec4& operator|=(const M128 &a) { return *this = (Is32vec4) _mm_or_si128(vec,a); }
Is32vec4& operator^=(const M128 &a) { return *this = (Is32vec4) _mm_xor_si128(vec,a); }
/* Addition & Subtraction Assignment Operators */
Is32vec4& operator +=(const I32vec4 &a) { return *this = (Is32vec4)_mm_add_epi32(vec,a); }
Is32vec4& operator -=(const I32vec4 &a) { return *this = (Is32vec4)_mm_sub_epi32(vec,a); }
/* Shift Logical Operators */
Is32vec4 operator<<(const M128 &a) { return _mm_sll_epi32(vec,a); }
Is32vec4 operator<<(int count) { return _mm_slli_epi32(vec,count); }
Is32vec4& operator<<=(const M128 &a) { return *this = (Is32vec4)_mm_sll_epi32(vec,a); }
Is32vec4& operator<<=(int count) { return *this = (Is32vec4)_mm_slli_epi32(vec,count); }
/* Shift Arithmetic Operations */
Is32vec4 operator>>(const M128 &a) { return _mm_sra_epi32(vec,a); }
Is32vec4 operator>>(int count) { return _mm_srai_epi32(vec,count); }
Is32vec4& operator>>=(const M128 &a) { return *this = (Is32vec4) _mm_sra_epi32(vec,a); }
Is32vec4& operator>>=(int count) { return *this = (Is32vec4) _mm_srai_epi32(vec,count); }
#if defined(_ENABLE_VEC_DEBUG)
/* Output for Debug */
friend std::ostream& operator<< (std::ostream &os, const Is32vec4 &a)
{
os << "[3]:" << _MM_4DW(3,a)
<< " [2]:" << _MM_4DW(2,a)
<< " [1]:" << _MM_4DW(1,a)
<< " [0]:" << _MM_4DW(0,a);
return os;
}
#endif
/* Element Access for Debug, No data modified */
const int& operator[](int i)const
{
assert(static_cast<unsigned int>(i) < 4); /* Only 4 elements to access */
return _MM_4DW(i,vec);
}
/* Element Access for Debug */
int& operator[](int i)
{
assert(static_cast<unsigned int>(i) < 4); /* Only 4 elements to access */
return _MM_4DW(i,vec);
}
};
/* Compares */
inline Is32vec4 cmpeq(const Is32vec4 &a, const Is32vec4 &b) { return _mm_cmpeq_epi32(a,b); }
inline Is32vec4 cmpneq(const Is32vec4 &a, const Is32vec4 &b) { return _mm_andnot_si128(_mm_cmpeq_epi32(a,b), get_mask128()); }
inline Is32vec4 cmpgt(const Is32vec4 &a, const Is32vec4 &b) { return _mm_cmpgt_epi32(a,b); }
inline Is32vec4 cmplt(const Is32vec4 &a, const Is32vec4 &b) { return _mm_cmpgt_epi32(b,a); }
/* Unpacks */
inline Is32vec4 unpack_low(const Is32vec4 &a, const Is32vec4 &b) { return _mm_unpacklo_epi32(a,b); }
inline Is32vec4 unpack_high(const Is32vec4 &a, const Is32vec4 &b) { return _mm_unpackhi_epi32(a,b); }
/* Iu32vec4 Class:
* 4 elements, each element unsigned int
*/
class Iu32vec4 : public I32vec4
{
public:
Iu32vec4() { }
Iu32vec4(__m128i mm) : I32vec4(mm) { }
Iu32vec4(unsigned int ui3, unsigned int ui2, unsigned int ui1, unsigned int ui0)
{
_MM_4UDW(0,vec) = ui0;
_MM_4UDW(1,vec) = ui1;
_MM_4UDW(2,vec) = ui2;
_MM_4UDW(3,vec) = ui3;
}
/* Assignment Operator */
Iu32vec4& operator= (const M128 &a) { return *this = (Iu32vec4) a; }
/* Logical Assignment Operators */
Iu32vec4& operator&=(const M128 &a) { return *this = (Iu32vec4) _mm_and_si128(vec,a); }
Iu32vec4& operator|=(const M128 &a) { return *this = (Iu32vec4) _mm_or_si128(vec,a); }
Iu32vec4& operator^=(const M128 &a) { return *this = (Iu32vec4) _mm_xor_si128(vec,a); }
/* Addition & Subtraction Assignment Operators */
Iu32vec4& operator +=(const I32vec4 &a) { return *this = (Iu32vec4)_mm_add_epi32(vec,a); }
Iu32vec4& operator -=(const I32vec4 &a) { return *this = (Iu32vec4)_mm_sub_epi32(vec,a); }
/* Shift Logical Operators */
Iu32vec4 operator<<(const M128 &a) { return _mm_sll_epi32(vec,a); }
Iu32vec4 operator<<(int count) { return _mm_slli_epi32(vec,count); }
Iu32vec4& operator<<=(const M128 &a) { return *this = (Iu32vec4)_mm_sll_epi32(vec,a); }
Iu32vec4& operator<<=(int count) { return *this = (Iu32vec4)_mm_slli_epi32(vec,count); }
Iu32vec4 operator>>(const M128 &a) { return _mm_srl_epi32(vec,a); }
Iu32vec4 operator>>(int count) { return _mm_srli_epi32(vec,count); }
Iu32vec4& operator>>=(const M128 &a) { return *this = (Iu32vec4) _mm_srl_epi32(vec,a); }
Iu32vec4& operator>>=(int count) { return *this = (Iu32vec4) _mm_srli_epi32(vec,count); }
#if defined(_ENABLE_VEC_DEBUG)
/* Output for Debug */
friend std::ostream& operator<< (std::ostream &os, const Iu32vec4 &a)
{
os << "[3]:" << _MM_4UDW(3,a)
<< " [2]:" << _MM_4UDW(2,a)
<< " [1]:" << _MM_4UDW(1,a)
<< " [0]:" << _MM_4UDW(0,a);
return os;
}
#endif
/* Element Access for Debug, No data modified */
const unsigned int& operator[](int i)const
{
assert(static_cast<unsigned int>(i) < 4); /* Only 4 elements to access */
return _MM_4UDW(i,vec);
}
/* Element Access and Assignment for Debug */
unsigned int& operator[](int i)
{
assert(static_cast<unsigned int>(i) < 4); /* Only 4 elements to access */
return _MM_4UDW(i,vec);
}
};
inline I64vec2 operator*(const Iu32vec4 &a, const Iu32vec4 &b) { return _mm_mul_epu32(a,b); }
inline Iu32vec4 cmpeq(const Iu32vec4 &a, const Iu32vec4 &b) { return _mm_cmpeq_epi32(a,b); }
inline Iu32vec4 cmpneq(const Iu32vec4 &a, const Iu32vec4 &b) { return _mm_andnot_si128(_mm_cmpeq_epi32(a,b), get_mask128()); }
inline Iu32vec4 unpack_low(const Iu32vec4 &a, const Iu32vec4 &b) { return _mm_unpacklo_epi32(a,b); }
inline Iu32vec4 unpack_high(const Iu32vec4 &a, const Iu32vec4 &b) { return _mm_unpackhi_epi32(a,b); }
/* I16vec8 Class:
* 8 elements, each element either unsigned or signed short
*/
class I16vec8 : public M128
{
public:
I16vec8() { }
I16vec8(__m128i mm) : M128(mm) { }
/* Assignment Operator */
I16vec8& operator= (const M128 &a) { return *this = (I16vec8) a; }
/* Logical Assignment Operators */
I16vec8& operator&=(const M128 &a) { return *this = (I16vec8) _mm_and_si128(vec,a); }
I16vec8& operator|=(const M128 &a) { return *this = (I16vec8) _mm_or_si128(vec,a); }
I16vec8& operator^=(const M128 &a) { return *this = (I16vec8) _mm_xor_si128(vec,a); }
/* Addition & Subtraction Assignment Operators */
I16vec8& operator +=(const I16vec8 &a) { return *this = (I16vec8) _mm_add_epi16(vec,a); }
I16vec8& operator -=(const I16vec8 &a) { return *this = (I16vec8) _mm_sub_epi16(vec,a); }
I16vec8& operator *=(const I16vec8 &a) { return *this = (I16vec8) _mm_mullo_epi16(vec,a); }
/* Shift Logical Operators */
I16vec8 operator<<(const M128 &a) { return _mm_sll_epi16(vec,a); }
I16vec8 operator<<(int count) { return _mm_slli_epi16(vec,count); }
I16vec8& operator<<=(const M128 &a) { return *this = (I16vec8)_mm_sll_epi16(vec,a); }
I16vec8& operator<<=(int count) { return *this = (I16vec8)_mm_slli_epi16(vec,count); }
};
inline I16vec8 operator*(const I16vec8 &a, const I16vec8 &b) { return _mm_mullo_epi16(a,b); }
inline I16vec8 cmpeq(const I16vec8 &a, const I16vec8 &b) { return _mm_cmpeq_epi16(a,b); }
inline I16vec8 cmpneq(const I16vec8 &a, const I16vec8 &b) { return _mm_andnot_si128(_mm_cmpeq_epi16(a,b), get_mask128()); }
inline I16vec8 unpack_low(const I16vec8 &a, const I16vec8 &b) { return _mm_unpacklo_epi16(a,b); }
inline I16vec8 unpack_high(const I16vec8 &a, const I16vec8 &b) { return _mm_unpackhi_epi16(a,b); }
/* Is16vec8 Class:
* 8 elements, each element signed short
*/
class Is16vec8 : public I16vec8
{
public:
Is16vec8() { }
Is16vec8(__m128i mm) : I16vec8(mm) { }
Is16vec8(signed short s7,signed short s6,signed short s5,signed short s4,signed short s3,signed short s2,signed short s1,signed short s0)
{
_MM_8W(0,vec) = s0;
_MM_8W(1,vec) = s1;
_MM_8W(2,vec) = s2;
_MM_8W(3,vec) = s3;
_MM_8W(4,vec) = s4;
_MM_8W(5,vec) = s5;
_MM_8W(6,vec) = s6;
_MM_8W(7,vec) = s7;
}
/* Assignment Operator */
Is16vec8& operator= (const M128 &a) { return *this = (Is16vec8) a; }
/* Logical Assignment Operators */
Is16vec8& operator&=(const M128 &a) { return *this = (Is16vec8) _mm_and_si128(vec,a); }
Is16vec8& operator|=(const M128 &a) { return *this = (Is16vec8) _mm_or_si128(vec,a); }
Is16vec8& operator^=(const M128 &a) { return *this = (Is16vec8) _mm_xor_si128(vec,a); }
/* Addition & Subtraction Assignment Operators */
Is16vec8& operator +=(const I16vec8 &a) { return *this = (Is16vec8) _mm_add_epi16(vec,a); }
Is16vec8& operator -=(const I16vec8 &a) { return *this = (Is16vec8) _mm_sub_epi16(vec,a); }
Is16vec8& operator *=(const I16vec8 &a) { return *this = (Is16vec8) _mm_mullo_epi16(vec,a); }
/* Shift Logical Operators */
Is16vec8 operator<<(const M128 &a) { return _mm_sll_epi16(vec,a); }
Is16vec8 operator<<(int count) { return _mm_slli_epi16(vec,count); }
Is16vec8& operator<<=(const M128 &a) { return *this = (Is16vec8)_mm_sll_epi16(vec,a); }
Is16vec8& operator<<=(int count) { return *this = (Is16vec8)_mm_slli_epi16(vec,count); }
/* Shift Arithmetic Operators */
Is16vec8 operator>>(const M128 &a) { return _mm_sra_epi16(vec,a); }
Is16vec8 operator>>(int count) { return _mm_srai_epi16(vec,count); }
Is16vec8& operator>>=(const M128 &a) { return *this = (Is16vec8)_mm_sra_epi16(vec,a); }
Is16vec8& operator>>=(int count) { return *this = (Is16vec8)_mm_srai_epi16(vec,count); }
#if defined(_ENABLE_VEC_DEBUG)
/* Output for Debug */
friend std::ostream& operator<< (std::ostream &os, const Is16vec8 &a)
{
os << "[7]:" << _MM_8W(7,a)
<< " [6]:" << _MM_8W(6,a)
<< " [5]:" << _MM_8W(5,a)
<< " [4]:" << _MM_8W(4,a)
<< " [3]:" << _MM_8W(3,a)
<< " [2]:" << _MM_8W(2,a)
<< " [1]:" << _MM_8W(1,a)
<< " [0]:" << _MM_8W(0,a);
return os;
}
#endif
/* Element Access for Debug, No data modified */
const signed short& operator[](int i)const
{
assert(static_cast<unsigned int>(i) < 8); /* Only 8 elements to access */
return _MM_8W(i,vec);
}
/* Element Access and Assignment for Debug */
signed short& operator[](int i)
{
assert(static_cast<unsigned int>(i) < 8); /* Only 8 elements to access */
return _MM_8W(i,vec);
}
};
inline Is16vec8 operator*(const Is16vec8 &a, const Is16vec8 &b) { return _mm_mullo_epi16(a,b); }
/* Additional Is16vec8 functions: compares, unpacks, sat add/sub */
inline Is16vec8 cmpeq(const Is16vec8 &a, const Is16vec8 &b) { return _mm_cmpeq_epi16(a,b); }
inline Is16vec8 cmpneq(const Is16vec8 &a, const Is16vec8 &b) { return _mm_andnot_si128(_mm_cmpeq_epi16(a,b), get_mask128()); }
inline Is16vec8 cmpgt(const Is16vec8 &a, const Is16vec8 &b) { return _mm_cmpgt_epi16(a,b); }
inline Is16vec8 cmplt(const Is16vec8 &a, const Is16vec8 &b) { return _mm_cmpgt_epi16(b,a); }
inline Is16vec8 unpack_low(const Is16vec8 &a, const Is16vec8 &b) { return _mm_unpacklo_epi16(a,b); }
inline Is16vec8 unpack_high(const Is16vec8 &a, const Is16vec8 &b) { return _mm_unpackhi_epi16(a,b); }
inline Is16vec8 mul_high(const Is16vec8 &a, const Is16vec8 &b) { return _mm_mulhi_epi16(a,b); }
inline Is32vec4 mul_add(const Is16vec8 &a, const Is16vec8 &b) { return _mm_madd_epi16(a,b);}
inline Is16vec8 sat_add(const Is16vec8 &a, const Is16vec8 &b) { return _mm_adds_epi16(a,b); }
inline Is16vec8 sat_sub(const Is16vec8 &a, const Is16vec8 &b) { return _mm_subs_epi16(a,b); }
inline Is16vec8 simd_max(const Is16vec8 &a, const Is16vec8 &b) { return _mm_max_epi16(a,b); }
inline Is16vec8 simd_min(const Is16vec8 &a, const Is16vec8 &b) { return _mm_min_epi16(a,b); }
/* Iu16vec8 Class:
* 8 elements, each element unsigned short
*/
class Iu16vec8 : public I16vec8
{
public:
Iu16vec8() { }
Iu16vec8(__m128i mm) : I16vec8(mm) { }
Iu16vec8(unsigned short s7,unsigned short s6,unsigned short s5,unsigned short s4, unsigned short s3,unsigned short s2,unsigned short s1,unsigned short s0)
{
_MM_8UW(0,vec) = s0;
_MM_8UW(1,vec) = s1;
_MM_8UW(2,vec) = s2;
_MM_8UW(3,vec) = s3;
_MM_8UW(4,vec) = s4;
_MM_8UW(5,vec) = s5;
_MM_8UW(6,vec) = s6;
_MM_8UW(7,vec) = s7;
}
/* Assignment Operator */
Iu16vec8& operator= (const M128 &a) { return *this = (Iu16vec8) a; }
/* Logical Assignment Operators */
Iu16vec8& operator&=(const M128 &a) { return *this = (Iu16vec8) _mm_and_si128(vec,a); }
Iu16vec8& operator|=(const M128 &a) { return *this = (Iu16vec8) _mm_or_si128(vec,a); }
Iu16vec8& operator^=(const M128 &a) { return *this = (Iu16vec8) _mm_xor_si128(vec,a); }
/* Addition & Subtraction Assignment Operators */
Iu16vec8& operator +=(const I16vec8 &a) { return *this = (Iu16vec8) _mm_add_epi16(vec,a); }
Iu16vec8& operator -=(const I16vec8 &a) { return *this = (Iu16vec8) _mm_sub_epi16(vec,a); }
Iu16vec8& operator *=(const I16vec8 &a) { return *this = (Iu16vec8) _mm_mullo_epi16(vec,a); }
/* Shift Logical Operators */
Iu16vec8 operator<<(const M128 &a) { return _mm_sll_epi16(vec,a); }
Iu16vec8 operator<<(int count) { return _mm_slli_epi16(vec,count); }
Iu16vec8& operator<<=(const M128 &a) { return *this = (Iu16vec8)_mm_sll_epi16(vec,a); }
Iu16vec8& operator<<=(int count) { return *this = (Iu16vec8)_mm_slli_epi16(vec,count); }
Iu16vec8 operator>>(const M128 &a) { return _mm_srl_epi16(vec,a); }
Iu16vec8 operator>>(int count) { return _mm_srli_epi16(vec,count); }
Iu16vec8& operator>>=(const M128 &a) { return *this = (Iu16vec8) _mm_srl_epi16(vec,a); }
Iu16vec8& operator>>=(int count) { return *this = (Iu16vec8) _mm_srli_epi16(vec,count); }
#if defined(_ENABLE_VEC_DEBUG)
/* Output for Debug */
friend std::ostream& operator << (std::ostream &os, const Iu16vec8 &a)
{
os << "[7]:" << unsigned short(_MM_8UW(7,a))
<< " [6]:" << unsigned short(_MM_8UW(6,a))
<< " [5]:" << unsigned short(_MM_8UW(5,a))
<< " [4]:" << unsigned short(_MM_8UW(4,a))
<< " [3]:" << unsigned short(_MM_8UW(3,a))
<< " [2]:" << unsigned short(_MM_8UW(2,a))
<< " [1]:" << unsigned short(_MM_8UW(1,a))
<< " [0]:" << unsigned short(_MM_8UW(0,a));
return os;
}
#endif
/* Element Access for Debug, No data modified */
const unsigned short& operator[](int i)const
{
assert(static_cast<unsigned int>(i) < 8); /* Only 8 elements to access */
return _MM_8UW(i,vec);
}
/* Element Access for Debug */
unsigned short& operator[](int i)
{
assert(static_cast<unsigned int>(i) < 8); /* Only 8 elements to access */
return _MM_8UW(i,vec);
}
};
inline Iu16vec8 operator*(const Iu16vec8 &a, const Iu16vec8 &b) { return _mm_mullo_epi16(a,b); }
/* Additional Iu16vec8 functions: cmpeq,cmpneq, unpacks, sat add/sub */
inline Iu16vec8 cmpeq(const Iu16vec8 &a, const Iu16vec8 &b) { return _mm_cmpeq_epi16(a,b); }
inline Iu16vec8 cmpneq(const Iu16vec8 &a, const Iu16vec8 &b) { return _mm_andnot_si128(_mm_cmpeq_epi16(a,b), get_mask128()); }
inline Iu16vec8 unpack_low(const Iu16vec8 &a, const Iu16vec8 &b) { return _mm_unpacklo_epi16(a,b); }
inline Iu16vec8 unpack_high(const Iu16vec8 &a, const Iu16vec8 &b) { return _mm_unpackhi_epi16(a,b); }
inline Iu16vec8 sat_add(const Iu16vec8 &a, const Iu16vec8 &b) { return _mm_adds_epu16(a,b); }
inline Iu16vec8 sat_sub(const Iu16vec8 &a, const Iu16vec8 &b) { return _mm_subs_epu16(a,b); }
inline Iu16vec8 simd_avg(const Iu16vec8 &a, const Iu16vec8 &b) { return _mm_avg_epu16(a,b); }
inline I16vec8 mul_high(const Iu16vec8 &a, const Iu16vec8 &b) { return _mm_mulhi_epu16(a,b); }
/* I8vec16 Class:
* 16 elements, each element either unsigned or signed char
*/
class I8vec16 : public M128
{
public:
I8vec16() { }
I8vec16(__m128i mm) : M128(mm) { }
/* Assignment Operator */
I8vec16& operator= (const M128 &a) { return *this = (I8vec16) a; }
/* Logical Assignment Operators */
I8vec16& operator&=(const M128 &a) { return *this = (I8vec16) _mm_and_si128(vec,a); }
I8vec16& operator|=(const M128 &a) { return *this = (I8vec16) _mm_or_si128(vec,a); }
I8vec16& operator^=(const M128 &a) { return *this = (I8vec16) _mm_xor_si128(vec,a); }
/* Addition & Subtraction Assignment Operators */
I8vec16& operator +=(const I8vec16 &a) { return *this = (I8vec16) _mm_add_epi8(vec,a); }
I8vec16& operator -=(const I8vec16 &a) { return *this = (I8vec16) _mm_sub_epi8(vec,a); }
};
inline I8vec16 cmpeq(const I8vec16 &a, const I8vec16 &b) { return _mm_cmpeq_epi8(a,b); }
inline I8vec16 cmpneq(const I8vec16 &a, const I8vec16 &b) { return _mm_andnot_si128(_mm_cmpeq_epi8(a,b), get_mask128()); }
inline I8vec16 unpack_low(const I8vec16 &a, const I8vec16 &b) { return _mm_unpacklo_epi8(a,b); }
inline I8vec16 unpack_high(const I8vec16 &a, const I8vec16 &b) { return _mm_unpackhi_epi8(a,b); }
/* Is8vec16 Class:
* 16 elements, each element a signed char
*/
class Is8vec16 : public I8vec16
{
public:
Is8vec16() { }
Is8vec16(__m128i mm) : I8vec16(mm) { }
/* Assignment Operator */
Is8vec16& operator= (const M128 &a) { return *this = (Is8vec16) a; }
/* Logical Assignment Operators */
Is8vec16& operator&=(const M128 &a) { return *this = (Is8vec16) _mm_and_si128(vec,a); }
Is8vec16& operator|=(const M128 &a) { return *this = (Is8vec16) _mm_or_si128(vec,a); }
Is8vec16& operator^=(const M128 &a) { return *this = (Is8vec16) _mm_xor_si128(vec,a); }
/* Addition & Subtraction Assignment Operators */
Is8vec16& operator +=(const I8vec16 &a) { return *this = (Is8vec16) _mm_add_epi8(vec,a); }
Is8vec16& operator -=(const I8vec16 &a) { return *this = (Is8vec16) _mm_sub_epi8(vec,a); }
#if defined(_ENABLE_VEC_DEBUG)
/* Output for Debug */
friend std::ostream& operator << (std::ostream &os, const Is8vec16 &a)
{
os << "[15]:" << short(_MM_16B(15,a))
<< " [14]:" << short(_MM_16B(14,a))
<< " [13]:" << short(_MM_16B(13,a))
<< " [12]:" << short(_MM_16B(12,a))
<< " [11]:" << short(_MM_16B(11,a))
<< " [10]:" << short(_MM_16B(10,a))
<< " [9]:" << short(_MM_16B(9,a))
<< " [8]:" << short(_MM_16B(8,a))
<< " [7]:" << short(_MM_16B(7,a))
<< " [6]:" << short(_MM_16B(6,a))
<< " [5]:" << short(_MM_16B(5,a))
<< " [4]:" << short(_MM_16B(4,a))
<< " [3]:" << short(_MM_16B(3,a))
<< " [2]:" << short(_MM_16B(2,a))
<< " [1]:" << short(_MM_16B(1,a))
<< " [0]:" << short(_MM_16B(0,a));
return os;
}
#endif
/* Element Access for Debug, No data modified */
const signed char& operator[](int i)const
{
assert(static_cast<unsigned int>(i) < 16); /* Only 16 elements to access */
return _MM_16B(i,vec);
}
/* Element Access for Debug */
signed char& operator[](int i)
{
assert(static_cast<unsigned int>(i) < 16); /* Only 16 elements to access */
return _MM_16B(i,vec);
}
};
inline Is8vec16 cmpeq(const Is8vec16 &a, const Is8vec16 &b) { return _mm_cmpeq_epi8(a,b); }
inline Is8vec16 cmpneq(const Is8vec16 &a, const Is8vec16 &b) { return _mm_andnot_si128(_mm_cmpeq_epi8(a,b), get_mask128()); }
inline Is8vec16 cmpgt(const Is8vec16 &a, const Is8vec16 &b) { return _mm_cmpgt_epi8(a,b); }
inline Is8vec16 cmplt(const Is8vec16 &a, const Is8vec16 &b) { return _mm_cmplt_epi8(a,b); }
inline Is8vec16 unpack_low(const Is8vec16 &a, const Is8vec16 &b) { return _mm_unpacklo_epi8(a,b); }
inline Is8vec16 unpack_high(const Is8vec16 &a, const Is8vec16 &b) { return _mm_unpackhi_epi8(a,b); }
inline Is8vec16 sat_add(const Is8vec16 &a, const Is8vec16 &b) { return _mm_adds_epi8(a,b); }
inline Is8vec16 sat_sub(const Is8vec16 &a, const Is8vec16 &b) { return _mm_subs_epi8(a,b); }
/* Iu8vec16 Class:
* 16 elements, each element a unsigned char
*/
class Iu8vec16 : public I8vec16
{
public:
Iu8vec16() { }
Iu8vec16(__m128i mm) : I8vec16(mm) { }
/* Assignment Operator */
Iu8vec16& operator= (const M128 &a) { return *this = (Iu8vec16) a; }
/* Logical Assignment Operators */
Iu8vec16& operator&=(const M128 &a) { return *this = (Iu8vec16) _mm_and_si128(vec,a); }
Iu8vec16& operator|=(const M128 &a) { return *this = (Iu8vec16) _mm_or_si128(vec,a); }
Iu8vec16& operator^=(const M128 &a) { return *this = (Iu8vec16) _mm_xor_si128(vec,a); }
/* Addition & Subtraction Assignment Operators */
Iu8vec16& operator +=(const I8vec16 &a) { return *this = (Iu8vec16) _mm_add_epi8(vec,a); }
Iu8vec16& operator -=(const I8vec16 &a) { return *this = (Iu8vec16) _mm_sub_epi8(vec,a); }
#if defined(_ENABLE_VEC_DEBUG)
/* Output for Debug */
friend std::ostream& operator << (std::ostream &os, const Iu8vec16 &a)
{
os << "[15]:" << unsigned short(_MM_16UB(15,a))
<< " [14]:" << unsigned short(_MM_16UB(14,a))
<< " [13]:" << unsigned short(_MM_16UB(13,a))
<< " [12]:" << unsigned short(_MM_16UB(12,a))
<< " [11]:" << unsigned short(_MM_16UB(11,a))
<< " [10]:" << unsigned short(_MM_16UB(10,a))
<< " [9]:" << unsigned short(_MM_16UB(9,a))
<< " [8]:" << unsigned short(_MM_16UB(8,a))
<< " [7]:" << unsigned short(_MM_16UB(7,a))
<< " [6]:" << unsigned short(_MM_16UB(6,a))
<< " [5]:" << unsigned short(_MM_16UB(5,a))
<< " [4]:" << unsigned short(_MM_16UB(4,a))
<< " [3]:" << unsigned short(_MM_16UB(3,a))
<< " [2]:" << unsigned short(_MM_16UB(2,a))
<< " [1]:" << unsigned short(_MM_16UB(1,a))
<< " [0]:" << unsigned short(_MM_16UB(0,a));
return os;
}
#endif
/* Element Access for Debug, No data modified */
const unsigned char& operator[](int i)const
{
assert(static_cast<unsigned int>(i) < 16); /* Only 16 elements to access */
return _MM_16UB(i,vec);
}
/* Element Access for Debug */
unsigned char& operator[](int i)
{
assert(static_cast<unsigned int>(i) < 16); /* Only 16 elements to access */
return _MM_16UB(i,vec);
}
};
inline Iu8vec16 cmpeq(const Iu8vec16 &a, const Iu8vec16 &b) { return _mm_cmpeq_epi8(a,b); }
inline Iu8vec16 cmpneq(const Iu8vec16 &a, const Iu8vec16 &b) { return _mm_andnot_si128(_mm_cmpeq_epi8(a,b), get_mask128()); }
inline Iu8vec16 unpack_low(const Iu8vec16 &a, const Iu8vec16 &b) { return _mm_unpacklo_epi8(a,b); }
inline Iu8vec16 unpack_high(const Iu8vec16 &a, const Iu8vec16 &b) { return _mm_unpackhi_epi8(a,b); }
inline Iu8vec16 sat_add(const Iu8vec16 &a, const Iu8vec16 &b) { return _mm_adds_epu8(a,b); }
inline Iu8vec16 sat_sub(const Iu8vec16 &a, const Iu8vec16 &b) { return _mm_subs_epu8(a,b); }
inline I64vec2 sum_abs(const Iu8vec16 &a, const Iu8vec16 &b) { return _mm_sad_epu8(a,b); }
inline Iu8vec16 simd_avg(const Iu8vec16 &a, const Iu8vec16 &b) { return _mm_avg_epu8(a,b); }
inline Iu8vec16 simd_max(const Iu8vec16 &a, const Iu8vec16 &b) { return _mm_max_epu8(a,b); }
inline Iu8vec16 simd_min(const Iu8vec16 &a, const Iu8vec16 &b) { return _mm_min_epu8(a,b); }
/* Pack & Saturates */
inline Is16vec8 pack_sat(const Is32vec4 &a, const Is32vec4 &b) { return _mm_packs_epi32(a,b); }
inline Is8vec16 pack_sat(const Is16vec8 &a, const Is16vec8 &b) { return _mm_packs_epi16(a,b); }
inline Iu8vec16 packu_sat(const Is16vec8 &a, const Is16vec8 &b) { return _mm_packus_epi16(a,b);}
/********************************* Logicals ****************************************/
#define IVEC128_LOGICALS(vect,element) \
inline I##vect##vec##element operator& (const I##vect##vec##element &a, const I##vect##vec##element &b) \
{ return _mm_and_si128( a,b); } \
inline I##vect##vec##element operator| (const I##vect##vec##element &a, const I##vect##vec##element &b) \
{ return _mm_or_si128( a,b); } \
inline I##vect##vec##element operator^ (const I##vect##vec##element &a, const I##vect##vec##element &b) \
{ return _mm_xor_si128( a,b); } \
inline I##vect##vec##element andnot (const I##vect##vec##element &a, const I##vect##vec##element &b) \
{ return _mm_andnot_si128( a,b); }
IVEC128_LOGICALS(8,16)
IVEC128_LOGICALS(u8,16)
IVEC128_LOGICALS(s8,16)
IVEC128_LOGICALS(16,8)
IVEC128_LOGICALS(u16,8)
IVEC128_LOGICALS(s16,8)
IVEC128_LOGICALS(32,4)
IVEC128_LOGICALS(u32,4)
IVEC128_LOGICALS(s32,4)
IVEC128_LOGICALS(64,2)
IVEC128_LOGICALS(128,1)
#undef IVEC128_LOGICALS
/********************************* Add & Sub ****************************************/
#define IVEC128_ADD_SUB(vect,element,opsize) \
inline I##vect##vec##element operator+ (const I##vect##vec##element &a, const I##vect##vec##element &b) \
{ return _mm_add_##opsize( a,b); } \
inline I##vect##vec##element operator- (const I##vect##vec##element &a, const I##vect##vec##element &b) \
{ return _mm_sub_##opsize( a,b); }
IVEC128_ADD_SUB(8,16, epi8)
IVEC128_ADD_SUB(u8,16, epi8)
IVEC128_ADD_SUB(s8,16, epi8)
IVEC128_ADD_SUB(16,8, epi16)
IVEC128_ADD_SUB(u16,8, epi16)
IVEC128_ADD_SUB(s16,8, epi16)
IVEC128_ADD_SUB(32,4, epi32)
IVEC128_ADD_SUB(u32,4, epi32)
IVEC128_ADD_SUB(s32,4, epi32)
IVEC128_ADD_SUB(64,2, epi64)
#undef IVEC128_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 IVEC128_SELECT(vect12,vect34,element,selop,arg1,arg2) \
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 & arg1 ) | I##vect12##vec##element ((_mm_andnot_si128(mask, arg2 ))))); \
}
IVEC128_SELECT(8,s8,16,eq,c,d)
IVEC128_SELECT(8,u8,16,eq,c,d)
IVEC128_SELECT(8,8,16,eq,c,d)
IVEC128_SELECT(8,s8,16,neq,c,d)
IVEC128_SELECT(8,u8,16,neq,c,d)
IVEC128_SELECT(8,8,16,neq,c,d)
IVEC128_SELECT(16,s16,8,eq,c,d)
IVEC128_SELECT(16,u16,8,eq,c,d)
IVEC128_SELECT(16,16,8,eq,c,d)
IVEC128_SELECT(16,s16,8,neq,c,d)
IVEC128_SELECT(16,u16,8,neq,c,d)
IVEC128_SELECT(16,16,8,neq,c,d)
IVEC128_SELECT(32,s32,4,eq,c,d)
IVEC128_SELECT(32,u32,4,eq,c,d)
IVEC128_SELECT(32,32,4,eq,c,d)
IVEC128_SELECT(32,s32,4,neq,c,d)
IVEC128_SELECT(32,u32,4,neq,c,d)
IVEC128_SELECT(32,32,4,neq,c,d)
IVEC128_SELECT(s8,s8,16,gt,c,d)
IVEC128_SELECT(s8,u8,16,gt,c,d)
IVEC128_SELECT(s8,8,16,gt,c,d)
IVEC128_SELECT(s8,s8,16,lt,c,d)
IVEC128_SELECT(s8,u8,16,lt,c,d)
IVEC128_SELECT(s8,8,16,lt,c,d)
IVEC128_SELECT(s16,s16,8,gt,c,d)
IVEC128_SELECT(s16,u16,8,gt,c,d)
IVEC128_SELECT(s16,16,8,gt,c,d)
IVEC128_SELECT(s16,s16,8,lt,c,d)
IVEC128_SELECT(s16,u16,8,lt,c,d)
IVEC128_SELECT(s16,16,8,lt,c,d)
#undef IVEC128_SELECT
class F64vec2
{
protected:
__m128d vec;
public:
/* Constructors: __m128d, 2 doubles */
F64vec2() {}
/* initialize 2 DP FP with __m128d data type */
F64vec2(__m128d m) { vec = m;}
/* initialize 2 DP FPs with 2 doubles */
F64vec2(double d1, double d0) { vec= _mm_set_pd(d1,d0); }
/* Explicitly initialize each of 2 DP FPs with same double */
EXPLICIT F64vec2(double d) { vec = _mm_set1_pd(d); }
/* Conversion functions */
operator __m128d() const { return vec; } /* Convert to __m128d */
/* Logical Operators */
friend F64vec2 operator &(const F64vec2 &a, const F64vec2 &b) { return _mm_and_pd(a,b); }
friend F64vec2 operator |(const F64vec2 &a, const F64vec2 &b) { return _mm_or_pd(a,b); }
friend F64vec2 operator ^(const F64vec2 &a, const F64vec2 &b) { return _mm_xor_pd(a,b); }
/* Arithmetic Operators */
friend F64vec2 operator +(const F64vec2 &a, const F64vec2 &b) { return _mm_add_pd(a,b); }
friend F64vec2 operator -(const F64vec2 &a, const F64vec2 &b) { return _mm_sub_pd(a,b); }
friend F64vec2 operator *(const F64vec2 &a, const F64vec2 &b) { return _mm_mul_pd(a,b); }
friend F64vec2 operator /(const F64vec2 &a, const F64vec2 &b) { return _mm_div_pd(a,b); }
F64vec2& operator +=(F64vec2 &a) { return *this = _mm_add_pd(vec,a); }
F64vec2& operator -=(F64vec2 &a) { return *this = _mm_sub_pd(vec,a); }
F64vec2& operator *=(F64vec2 &a) { return *this = _mm_mul_pd(vec,a); }
F64vec2& operator /=(F64vec2 &a) { return *this = _mm_div_pd(vec,a); }
F64vec2& operator &=(F64vec2 &a) { return *this = _mm_and_pd(vec,a); }
F64vec2& operator |=(F64vec2 &a) { return *this = _mm_or_pd(vec,a); }
F64vec2& operator ^=(F64vec2 &a) { return *this = _mm_xor_pd(vec,a); }
/* Horizontal Add */
friend double add_horizontal(F64vec2 &a)
{
F64vec2 ftemp = _mm_add_sd(a,_mm_shuffle_pd(a, a, 1));
return ftemp[0];
}
/* And Not */
friend F64vec2 andnot(const F64vec2 &a, const F64vec2 &b) { return _mm_andnot_pd(a,b); }
/* Square Root */
friend F64vec2 sqrt(const F64vec2 &a) { return _mm_sqrt_pd(a); }
/* Compares: Mask is returned */
/* Macros expand to all compare intrinsics. Example:
friend F64vec2 cmpeq(const F64vec2 &a, const F64vec2 &b)
{ return _mm_cmpeq_ps(a,b);} */
#define F64vec2_COMP(op) \
friend F64vec2 cmp##op (const F64vec2 &a, const F64vec2 &b) { return _mm_cmp##op##_pd(a,b); }
F64vec2_COMP(eq) // expanded to cmpeq(a,b)
F64vec2_COMP(lt) // expanded to cmplt(a,b)
F64vec2_COMP(le) // expanded to cmple(a,b)
F64vec2_COMP(gt) // expanded to cmpgt(a,b)
F64vec2_COMP(ge) // expanded to cmpge(a,b)
F64vec2_COMP(ngt) // expanded to cmpngt(a,b)
F64vec2_COMP(nge) // expanded to cmpnge(a,b)
F64vec2_COMP(neq) // expanded to cmpneq(a,b)
F64vec2_COMP(nlt) // expanded to cmpnlt(a,b)
F64vec2_COMP(nle) // expanded to cmpnle(a,b)
#undef F64vec2_COMP
/* Min and Max */
friend F64vec2 simd_min(const F64vec2 &a, const F64vec2 &b) { return _mm_min_pd(a,b); }
friend F64vec2 simd_max(const F64vec2 &a, const F64vec2 &b) { return _mm_max_pd(a,b); }
/* Compare lower DP FP values */
#define F64vec2_COMI(op) \
friend int comi##op (const F64vec2 &a, const F64vec2 &b) { return _mm_comi##op##_sd(a,b); }
F64vec2_COMI(eq) // expanded to comieq(a,b)
F64vec2_COMI(lt) // expanded to comilt(a,b)
F64vec2_COMI(le) // expanded to comile(a,b)
F64vec2_COMI(gt) // expanded to comigt(a,b)
F64vec2_COMI(ge) // expanded to comige(a,b)
F64vec2_COMI(neq) // expanded to comineq(a,b)
#undef F64vec2_COMI
/* Compare lower DP FP values */
#define F64vec2_UCOMI(op) \
friend int ucomi##op (const F64vec2 &a, const F64vec2 &b) { return _mm_ucomi##op##_sd(a,b); }
F64vec2_UCOMI(eq) // expanded to ucomieq(a,b)
F64vec2_UCOMI(lt) // expanded to ucomilt(a,b)
F64vec2_UCOMI(le) // expanded to ucomile(a,b)
F64vec2_UCOMI(gt) // expanded to ucomigt(a,b)
F64vec2_UCOMI(ge) // expanded to ucomige(a,b)
F64vec2_UCOMI(neq) // expanded to ucomineq(a,b)
#undef F64vec2_UCOMI
/* Debug Features */
#if defined(_ENABLE_VEC_DEBUG)
/* Output */
friend std::ostream & operator<<(std::ostream & os, const F64vec2 &a)
{
/* To use: cout << "Elements of F64vec2 fvec are: " << fvec; */
double *dp = (double*)&a;
os << " [1]:" << *(dp+1)
<< " [0]:" << *dp;
return os;
}
#endif
/* Element Access Only, no modifications to elements*/
const double& operator[](int i) const
{
/* Assert enabled only during debug /DDEBUG */
assert((0 <= i) && (i <= 1)); /* User should only access elements 0-1 */
double *dp = (double*)&vec;
return *(dp+i);
}
/* Element Access and Modification*/
double& operator[](int i)
{
/* Assert enabled only during debug /DDEBUG */
assert((0 <= i) && (i <= 1)); /* User should only access elements 0-1 */
double *dp = (double*)&vec;
return *(dp+i);
}
};
/* Miscellaneous */
/* Interleave low order data elements of a and b into destination */
inline F64vec2 unpack_low(const F64vec2 &a, const F64vec2 &b)
{ return _mm_unpacklo_pd(a, b); }
/* Interleave high order data elements of a and b into target */
inline F64vec2 unpack_high(const F64vec2 &a, const F64vec2 &b)
{ return _mm_unpackhi_pd(a, b); }
/* Move Mask to Integer returns 4 bit mask formed of most significant bits of a */
inline int move_mask(const F64vec2 &a)
{ return _mm_movemask_pd(a);}
/* Data Motion Functions */
/* Load Unaligned loadu_pd: Unaligned */
inline void loadu(F64vec2 &a, double *p)
{ a = _mm_loadu_pd(p); }
/* Store Temporal storeu_pd: Unaligned */
inline void storeu(double *p, const F64vec2 &a)
{ _mm_storeu_pd(p, a); }
/* Cacheability Support */
/* Non-Temporal Store */
inline void store_nta(double *p, F64vec2 &a)
{ _mm_stream_pd(p,a);}
#define F64vec2_SELECT(op) \
inline F64vec2 select_##op (const F64vec2 &a, const F64vec2 &b, const F64vec2 &c, const F64vec2 &d) \
{ \
F64vec2 mask = _mm_cmp##op##_pd(a,b); \
return( (mask & c) | F64vec2((_mm_andnot_pd(mask,d)))); \
}
F64vec2_SELECT(eq) // generates select_eq(a,b)
F64vec2_SELECT(lt) // generates select_lt(a,b)
F64vec2_SELECT(le) // generates select_le(a,b)
F64vec2_SELECT(gt) // generates select_gt(a,b)
F64vec2_SELECT(ge) // generates select_ge(a,b)
F64vec2_SELECT(neq) // generates select_neq(a,b)
F64vec2_SELECT(nlt) // generates select_nlt(a,b)
F64vec2_SELECT(nle) // generates select_nle(a,b)
#undef F64vec2_SELECT
/* Convert the lower DP FP value of a to a 32 bit signed integer using Truncate*/
inline int F64vec2ToInt(const F64vec2 &a)
{
return _mm_cvttsd_si32(a);
}
/* Convert the 4 SP FP values of a to DP FP values */
inline F64vec2 F32vec4ToF64vec2(const F32vec4 &a)
{
return _mm_cvtps_pd(a);
}
/* Convert the 2 DP FP values of a to SP FP values */
inline F32vec4 F64vec2ToF32vec4(const F64vec2 &a)
{
return _mm_cvtpd_ps(a);
}
/* Convert the signed int in b to a DP FP value. Upper DP FP value in a passed through */
inline F64vec2 IntToF64vec2(const F64vec2 &a, int b)
{
return _mm_cvtsi32_sd(a,b);
}
#pragma pack(pop) /* 16-B aligned */
#endif // DVEC_H_INCLUDED