/******************************************************************************
* $Id: gdalsse_priv.h 32173 2015-12-14 00:04:53Z goatbar $
*
* Project: GDAL
* Purpose: SSE2 helper
* Author: Even Rouault <even dot rouault at spatialys dot com>
*
******************************************************************************
* Copyright (c) 2014, Even Rouault <even dot rouault at spatialys dot com>
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included
* in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
****************************************************************************/
#ifndef GDALSSE_PRIV_H_INCLUDED
#define GDALSSE_PRIV_H_INCLUDED
#include "cpl_port.h"
/* We restrict to 64bit processors because they are guaranteed to have SSE2 */
/* Could possibly be used too on 32bit, but we would need to check at runtime */
#if (defined(__x86_64) || defined(_M_X64)) && !defined(USE_SSE2_EMULATION)
/* Requires SSE2 */
#include <emmintrin.h>
#include <string.h>
class XMMReg2Double
{
public:
__m128d xmm;
/* coverity[uninit_member] */
XMMReg2Double() {}
XMMReg2Double(double val) { xmm = _mm_load_sd (&val); }
XMMReg2Double(const XMMReg2Double& other) : xmm(other.xmm) {}
static inline XMMReg2Double Zero()
{
XMMReg2Double reg;
reg.Zeroize();
return reg;
}
static inline XMMReg2Double Load1ValHighAndLow(const double* ptr)
{
XMMReg2Double reg;
reg.nsLoad1ValHighAndLow(ptr);
return reg;
}
static inline XMMReg2Double Load2Val(const double* ptr)
{
XMMReg2Double reg;
reg.nsLoad2Val(ptr);
return reg;
}
static inline XMMReg2Double Load2Val(const float* ptr)
{
XMMReg2Double reg;
reg.nsLoad2Val(ptr);
return reg;
}
static inline XMMReg2Double Load2ValAligned(const double* ptr)
{
XMMReg2Double reg;
reg.nsLoad2ValAligned(ptr);
return reg;
}
static inline XMMReg2Double Load2Val(const unsigned char* ptr)
{
XMMReg2Double reg;
reg.nsLoad2Val(ptr);
return reg;
}
static inline XMMReg2Double Load2Val(const short* ptr)
{
XMMReg2Double reg;
reg.nsLoad2Val(ptr);
return reg;
}
static inline XMMReg2Double Load2Val(const unsigned short* ptr)
{
XMMReg2Double reg;
reg.nsLoad2Val(ptr);
return reg;
}
static inline XMMReg2Double Equals(const XMMReg2Double& expr1, const XMMReg2Double& expr2)
{
XMMReg2Double reg;
reg.xmm = _mm_cmpeq_pd(expr1.xmm, expr2.xmm);
return reg;
}
static inline XMMReg2Double NotEquals(const XMMReg2Double& expr1, const XMMReg2Double& expr2)
{
XMMReg2Double reg;
reg.xmm = _mm_cmpneq_pd(expr1.xmm, expr2.xmm);
return reg;
}
static inline XMMReg2Double Greater(const XMMReg2Double& expr1, const XMMReg2Double& expr2)
{
XMMReg2Double reg;
reg.xmm = _mm_cmpgt_pd(expr1.xmm, expr2.xmm);
return reg;
}
static inline XMMReg2Double And(const XMMReg2Double& expr1, const XMMReg2Double& expr2)
{
XMMReg2Double reg;
reg.xmm = _mm_and_pd(expr1.xmm, expr2.xmm);
return reg;
}
static inline XMMReg2Double Ternary(const XMMReg2Double& cond, const XMMReg2Double& true_expr, const XMMReg2Double& false_expr)
{
XMMReg2Double reg;
reg.xmm = _mm_or_pd(_mm_and_pd (cond.xmm, true_expr.xmm), _mm_andnot_pd(cond.xmm, false_expr.xmm));
return reg;
}
static inline XMMReg2Double Min(const XMMReg2Double& expr1, const XMMReg2Double& expr2)
{
XMMReg2Double reg;
reg.xmm = _mm_min_pd(expr1.xmm, expr2.xmm);
return reg;
}
inline void nsLoad1ValHighAndLow(const double* ptr)
{
xmm = _mm_load1_pd(ptr);
}
inline void nsLoad2Val(const double* ptr)
{
xmm = _mm_loadu_pd(ptr);
}
inline void nsLoad2ValAligned(const double* pval)
{
xmm = _mm_load_pd(pval);
}
inline void nsLoad2Val(const float* pval)
{
__m128 temp1 = _mm_load_ss(pval);
__m128 temp2 = _mm_load_ss(pval + 1);
temp1 = _mm_shuffle_ps(temp1, temp2, _MM_SHUFFLE(1,0,1,0));
temp1 = _mm_shuffle_ps(temp1, temp1, _MM_SHUFFLE(3,3,2,0));
xmm = _mm_cvtps_pd(temp1);
}
inline void nsLoad2Val(const unsigned char* ptr)
{
#ifdef CPL_CPU_REQUIRES_ALIGNED_ACCESS
unsigned short s;
memcpy(&s, ptr, 2);
__m128i xmm_i = _mm_cvtsi32_si128(s);
#else
__m128i xmm_i = _mm_cvtsi32_si128(*(unsigned short*)(ptr));
#endif
xmm_i = _mm_unpacklo_epi8(xmm_i, _mm_setzero_si128());
xmm_i = _mm_unpacklo_epi16(xmm_i, _mm_setzero_si128());
xmm = _mm_cvtepi32_pd(xmm_i);
}
inline void nsLoad2Val(const short* ptr)
{
int i;
memcpy(&i, ptr, 4);
__m128i xmm_i = _mm_cvtsi32_si128(i);
xmm_i = _mm_unpacklo_epi16(xmm_i,xmm_i); /* 0|0|0|0|0|0|b|a --> 0|0|0|0|b|b|a|a */
xmm_i = _mm_srai_epi32(xmm_i, 16); /* 0|0|0|0|b|b|a|a --> 0|0|0|0|sign(b)|b|sign(a)|a */
xmm = _mm_cvtepi32_pd(xmm_i);
}
inline void nsLoad2Val(const unsigned short* ptr)
{
int i;
memcpy(&i, ptr, 4);
__m128i xmm_i = _mm_cvtsi32_si128(i);
xmm_i = _mm_unpacklo_epi16(xmm_i,xmm_i); /* 0|0|0|0|0|0|b|a --> 0|0|0|0|b|b|a|a */
xmm_i = _mm_srli_epi32(xmm_i, 16); /* 0|0|0|0|b|b|a|a --> 0|0|0|0|0|b|0|a */
xmm = _mm_cvtepi32_pd(xmm_i);
}
static inline void Load4Val(const unsigned char* ptr, XMMReg2Double& low, XMMReg2Double& high)
{
#ifdef CPL_CPU_REQUIRES_ALIGNED_ACCESS
int i;
memcpy(&i, ptr, 4);
__m128i xmm_i = _mm_cvtsi32_si128(i);
#else
__m128i xmm_i = _mm_cvtsi32_si128(*(int*)(ptr));
#endif
xmm_i = _mm_unpacklo_epi8(xmm_i, _mm_setzero_si128());
xmm_i = _mm_unpacklo_epi16(xmm_i, _mm_setzero_si128());
low.xmm = _mm_cvtepi32_pd(xmm_i);
high.xmm = _mm_cvtepi32_pd(_mm_shuffle_epi32(xmm_i,_MM_SHUFFLE(3,2,3,2)));
}
static inline void Load4Val(const short* ptr, XMMReg2Double& low, XMMReg2Double& high)
{
low.nsLoad2Val(ptr);
high.nsLoad2Val(ptr+2);
}
static inline void Load4Val(const unsigned short* ptr, XMMReg2Double& low, XMMReg2Double& high)
{
low.nsLoad2Val(ptr);
high.nsLoad2Val(ptr+2);
}
static inline void Load4Val(const double* ptr, XMMReg2Double& low, XMMReg2Double& high)
{
low.nsLoad2Val(ptr);
high.nsLoad2Val(ptr+2);
}
static inline void Load4Val(const float* ptr, XMMReg2Double& low, XMMReg2Double& high)
{
__m128 temp1 = _mm_loadu_ps(ptr);
__m128 temp2 = _mm_shuffle_ps(temp1, temp1, _MM_SHUFFLE(3,2,3,2));
low.xmm = _mm_cvtps_pd(temp1);
high.xmm = _mm_cvtps_pd(temp2);
}
inline void Zeroize()
{
xmm = _mm_setzero_pd();
}
inline XMMReg2Double& operator= (const XMMReg2Double& other)
{
xmm = other.xmm;
return *this;
}
inline XMMReg2Double& operator+= (const XMMReg2Double& other)
{
xmm = _mm_add_pd(xmm, other.xmm);
return *this;
}
inline XMMReg2Double& operator*= (const XMMReg2Double& other)
{
xmm = _mm_mul_pd(xmm, other.xmm);
return *this;
}
inline XMMReg2Double operator+ (const XMMReg2Double& other) const
{
XMMReg2Double ret;
ret.xmm = _mm_add_pd(xmm, other.xmm);
return ret;
}
inline XMMReg2Double operator- (const XMMReg2Double& other) const
{
XMMReg2Double ret;
ret.xmm = _mm_sub_pd(xmm, other.xmm);
return ret;
}
inline XMMReg2Double operator* (const XMMReg2Double& other) const
{
XMMReg2Double ret;
ret.xmm = _mm_mul_pd(xmm, other.xmm);
return ret;
}
inline XMMReg2Double operator/ (const XMMReg2Double& other) const
{
XMMReg2Double ret;
ret.xmm = _mm_div_pd(xmm, other.xmm);
return ret;
}
inline void AddLowAndHigh()
{
__m128d xmm2;
xmm2 = _mm_shuffle_pd(xmm,xmm,_MM_SHUFFLE2(0,1)); /* transfer high word into low word of xmm2 */
xmm = _mm_add_pd(xmm, xmm2);
}
inline void Store2Double(double* pval) const
{
_mm_storeu_pd(pval, xmm);
}
inline void Store2DoubleAligned(double* pval) const
{
_mm_store_pd(pval, xmm);
}
void Store2Val(unsigned short* ptr) const
{
__m128i tmp = _mm_cvtpd_epi32(xmm); /* Convert the 2 double values to 2 integers */
ptr[0] = (GUInt16)_mm_extract_epi16(tmp, 0);
ptr[1] = (GUInt16)_mm_extract_epi16(tmp, 2);
}
inline operator double () const
{
double val;
_mm_store_sd(&val, xmm);
return val;
}
};
#else
#warning "Software emulation of SSE2 !"
class XMMReg2Double
{
public:
double low;
double high;
XMMReg2Double() {}
XMMReg2Double(double val) { low = val; high = 0.0; }
XMMReg2Double(const XMMReg2Double& other) : low(other.low), high(other.high) {}
static inline XMMReg2Double Zero()
{
XMMReg2Double reg;
reg.Zeroize();
return reg;
}
static inline XMMReg2Double Load1ValHighAndLow(const double* ptr)
{
XMMReg2Double reg;
reg.nsLoad1ValHighAndLow(ptr);
return reg;
}
static inline XMMReg2Double Equals(const XMMReg2Double& expr1, const XMMReg2Double& expr2)
{
XMMReg2Double reg;
if (expr1.low == expr2.low)
memset(&(reg.low), 0xFF, sizeof(double));
else
reg.low = 0;
if (expr1.high == expr2.high)
memset(&(reg.high), 0xFF, sizeof(double));
else
reg.high = 0;
return reg;
}
static inline XMMReg2Double NotEquals(const XMMReg2Double& expr1, const XMMReg2Double& expr2)
{
XMMReg2Double reg;
if (expr1.low != expr2.low)
memset(&(reg.low), 0xFF, sizeof(double));
else
reg.low = 0;
if (expr1.high != expr2.high)
memset(&(reg.high), 0xFF, sizeof(double));
else
reg.high = 0;
return reg;
}
static inline XMMReg2Double Greater(const XMMReg2Double& expr1, const XMMReg2Double& expr2)
{
XMMReg2Double reg;
if (expr1.low > expr2.low)
memset(&(reg.low), 0xFF, sizeof(double));
else
reg.low = 0;
if (expr1.high > expr2.high)
memset(&(reg.high), 0xFF, sizeof(double));
else
reg.high = 0;
return reg;
}
static inline XMMReg2Double And(const XMMReg2Double& expr1, const XMMReg2Double& expr2)
{
XMMReg2Double reg;
int low1[2], high1[2];
int low2[2], high2[2];
memcpy(low1, &expr1.low, sizeof(double));
memcpy(high1, &expr1.high, sizeof(double));
memcpy(low2, &expr2.low, sizeof(double));
memcpy(high2, &expr2.high, sizeof(double));
low1[0] &= low2[0];
low1[1] &= low2[1];
high1[0] &= high2[0];
high1[1] &= high2[1];
memcpy(®.low, low1, sizeof(double));
memcpy(®.high, high1, sizeof(double));
return reg;
}
static inline XMMReg2Double Ternary(const XMMReg2Double& cond, const XMMReg2Double& true_expr, const XMMReg2Double& false_expr)
{
XMMReg2Double reg;
if( cond.low )
reg.low = true_expr.low;
else
reg.low = false_expr.low;
if( cond.high )
reg.high = true_expr.high;
else
reg.high = false_expr.high;
return reg;
}
static inline XMMReg2Double Min(const XMMReg2Double& expr1, const XMMReg2Double& expr2)
{
XMMReg2Double reg;
reg.low = (expr1.low < expr2.low) ? expr1.low : expr2.high;
reg.high = (expr1.high < expr2.high) ? expr1.high : expr2.low;
return reg;
}
static inline XMMReg2Double Load2Val(const double* ptr)
{
XMMReg2Double reg;
reg.nsLoad2Val(ptr);
return reg;
}
static inline XMMReg2Double Load2ValAligned(const double* ptr)
{
XMMReg2Double reg;
reg.nsLoad2ValAligned(ptr);
return reg;
}
static inline XMMReg2Double Load2Val(const float* ptr)
{
XMMReg2Double reg;
reg.nsLoad2Val(ptr);
return reg;
}
static inline XMMReg2Double Load2Val(const unsigned char* ptr)
{
XMMReg2Double reg;
reg.nsLoad2Val(ptr);
return reg;
}
static inline XMMReg2Double Load2Val(const short* ptr)
{
XMMReg2Double reg;
reg.nsLoad2Val(ptr);
return reg;
}
static inline XMMReg2Double Load2Val(const unsigned short* ptr)
{
XMMReg2Double reg;
reg.nsLoad2Val(ptr);
return reg;
}
inline void nsLoad1ValHighAndLow(const double* pval)
{
low = pval[0];
high = pval[0];
}
inline void nsLoad2Val(const double* pval)
{
low = pval[0];
high = pval[1];
}
inline void nsLoad2ValAligned(const double* pval)
{
low = pval[0];
high = pval[1];
}
inline void nsLoad2Val(const float* pval)
{
low = pval[0];
high = pval[1];
}
inline void nsLoad2Val(const unsigned char* ptr)
{
low = ptr[0];
high = ptr[1];
}
inline void nsLoad2Val(const short* ptr)
{
low = ptr[0];
high = ptr[1];
}
inline void nsLoad2Val(const unsigned short* ptr)
{
low = ptr[0];
high = ptr[1];
}
static inline void Load4Val(const unsigned char* ptr, XMMReg2Double& low, XMMReg2Double& high)
{
low.low = ptr[0];
low.high = ptr[1];
high.low = ptr[2];
high.high = ptr[3];
}
static inline void Load4Val(const short* ptr, XMMReg2Double& low, XMMReg2Double& high)
{
low.nsLoad2Val(ptr);
high.nsLoad2Val(ptr+2);
}
static inline void Load4Val(const unsigned short* ptr, XMMReg2Double& low, XMMReg2Double& high)
{
low.nsLoad2Val(ptr);
high.nsLoad2Val(ptr+2);
}
static inline void Load4Val(const double* ptr, XMMReg2Double& low, XMMReg2Double& high)
{
low.nsLoad2Val(ptr);
high.nsLoad2Val(ptr+2);
}
static inline void Load4Val(const float* ptr, XMMReg2Double& low, XMMReg2Double& high)
{
low.nsLoad2Val(ptr);
high.nsLoad2Val(ptr+2);
}
inline void Zeroize()
{
low = 0.0;
high = 0.0;
}
inline XMMReg2Double& operator= (const XMMReg2Double& other)
{
low = other.low;
high = other.high;
return *this;
}
inline XMMReg2Double& operator+= (const XMMReg2Double& other)
{
low += other.low;
high += other.high;
return *this;
}
inline XMMReg2Double& operator*= (const XMMReg2Double& other)
{
low *= other.low;
high *= other.high;
return *this;
}
inline XMMReg2Double operator+ (const XMMReg2Double& other) const
{
XMMReg2Double ret;
ret.low = low + other.low;
ret.high = high + other.high;
return ret;
}
inline XMMReg2Double operator- (const XMMReg2Double& other) const
{
XMMReg2Double ret;
ret.low = low - other.low;
ret.high = high - other.high;
return ret;
}
inline XMMReg2Double operator* (const XMMReg2Double& other) const
{
XMMReg2Double ret;
ret.low = low * other.low;
ret.high = high * other.high;
return ret;
}
inline XMMReg2Double operator/ (const XMMReg2Double& other) const
{
XMMReg2Double ret;
ret.low = low / other.low;
ret.high = high / other.high;
return ret;
}
inline void AddLowAndHigh()
{
double add = low + high;
low = add;
high = add;
}
inline void Store2Double(double* pval) const
{
pval[0] = low;
pval[1] = high;
}
inline void Store2DoubleAligned(double* pval) const
{
pval[0] = low;
pval[1] = high;
}
void Store2Val(unsigned short* ptr) const
{
ptr[0] = (GUInt16)low;
ptr[1] = (GUInt16)high;
}
inline operator double () const
{
return low;
}
};
#endif /* defined(__x86_64) || defined(_M_X64) */
class XMMReg4Double
{
public:
XMMReg2Double low, high;
XMMReg4Double() {}
XMMReg4Double(const XMMReg4Double& other) : low(other.low), high(other.high) {}
static inline XMMReg4Double Zero()
{
XMMReg4Double reg;
reg.low.Zeroize();
reg.high.Zeroize();
return reg;
}
static inline XMMReg4Double Load1ValHighAndLow(const double* ptr)
{
XMMReg4Double reg;
reg.low.nsLoad1ValHighAndLow(ptr);
reg.high = reg.low;
return reg;
}
static inline XMMReg4Double Load4Val(const unsigned char* ptr)
{
XMMReg4Double reg;
XMMReg2Double::Load4Val(ptr, reg.low, reg.high);
return reg;
}
static inline XMMReg4Double Load4Val(const short* ptr)
{
XMMReg4Double reg;
reg.low.nsLoad2Val(ptr);
reg.high.nsLoad2Val(ptr+2);
return reg;
}
static inline XMMReg4Double Load4Val(const unsigned short* ptr)
{
XMMReg4Double reg;
reg.low.nsLoad2Val(ptr);
reg.high.nsLoad2Val(ptr+2);
return reg;
}
static inline XMMReg4Double Load4Val(const double* ptr)
{
XMMReg4Double reg;
reg.low.nsLoad2Val(ptr);
reg.high.nsLoad2Val(ptr+2);
return reg;
}
static inline XMMReg4Double Load4ValAligned(const double* ptr)
{
XMMReg4Double reg;
reg.low.nsLoad2ValAligned(ptr);
reg.high.nsLoad2ValAligned(ptr+2);
return reg;
}
static inline XMMReg4Double Load4Val(const float* ptr)
{
XMMReg4Double reg;
XMMReg2Double::Load4Val(ptr, reg.low, reg.high);
return reg;
}
static inline XMMReg4Double Equals(const XMMReg4Double& expr1, const XMMReg4Double& expr2)
{
XMMReg4Double reg;
reg.low = XMMReg2Double::Equals(expr1.low, expr2.low);
reg.high = XMMReg2Double::Equals(expr1.high, expr2.high);
return reg;
}
static inline XMMReg4Double NotEquals(const XMMReg4Double& expr1, const XMMReg4Double& expr2)
{
XMMReg4Double reg;
reg.low = XMMReg2Double::NotEquals(expr1.low, expr2.low);
reg.high = XMMReg2Double::NotEquals(expr1.high, expr2.high);
return reg;
}
static inline XMMReg4Double Greater(const XMMReg4Double& expr1, const XMMReg4Double& expr2)
{
XMMReg4Double reg;
reg.low = XMMReg2Double::Greater(expr1.low, expr2.low);
reg.high = XMMReg2Double::Greater(expr1.high, expr2.high);
return reg;
}
static inline XMMReg4Double And(const XMMReg4Double& expr1, const XMMReg4Double& expr2)
{
XMMReg4Double reg;
reg.low = XMMReg2Double::And(expr1.low, expr2.low);
reg.high = XMMReg2Double::And(expr1.high, expr2.high);
return reg;
}
static inline XMMReg4Double Ternary(const XMMReg4Double& cond, const XMMReg4Double& true_expr, const XMMReg4Double& false_expr)
{
XMMReg4Double reg;
reg.low = XMMReg2Double::Ternary(cond.low, true_expr.low, false_expr.low);
reg.high = XMMReg2Double::Ternary(cond.high, true_expr.high, false_expr.high);
return reg;
}
static inline XMMReg4Double Min(const XMMReg4Double& expr1, const XMMReg4Double& expr2)
{
XMMReg4Double reg;
reg.low = XMMReg2Double::Min(expr1.low, expr2.low);
reg.high = XMMReg2Double::Min(expr1.high, expr2.high);
return reg;
}
inline XMMReg4Double& operator= (const XMMReg4Double& other)
{
low = other.low;
high = other.high;
return *this;
}
inline XMMReg4Double& operator+= (const XMMReg4Double& other)
{
low += other.low;
high += other.high;
return *this;
}
inline XMMReg4Double& operator*= (const XMMReg4Double& other)
{
low *= other.low;
high *= other.high;
return *this;
}
inline XMMReg4Double operator+ (const XMMReg4Double& other) const
{
XMMReg4Double ret;
ret.low = low + other.low;
ret.high = high + other.high;
return ret;
}
inline XMMReg4Double operator- (const XMMReg4Double& other) const
{
XMMReg4Double ret;
ret.low = low - other.low;
ret.high = high - other.high;
return ret;
}
inline XMMReg4Double operator* (const XMMReg4Double& other) const
{
XMMReg4Double ret;
ret.low = low * other.low;
ret.high = high * other.high;
return ret;
}
inline XMMReg4Double operator/ (const XMMReg4Double& other) const
{
XMMReg4Double ret;
ret.low = low / other.low;
ret.high = high / other.high;
return ret;
}
inline void AddLowAndHigh()
{
low = low + high;
low.AddLowAndHigh();
}
inline XMMReg2Double& GetLow()
{
return low;
}
inline XMMReg2Double& GetHigh()
{
return high;
}
void Store4Val(unsigned short* ptr) const
{
low.Store2Val(ptr);
high.Store2Val(ptr+2);
}
};
#endif /* GDALSSE_PRIV_H_INCLUDED */