libbpg/jctvc/TLibCommon/TComRdCostWeightPrediction.cpp

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2015-01-16 12:46:18 +00:00
/* The copyright in this software is being made available under the BSD
* License, included below. This software may be subject to other third party
* and contributor rights, including patent rights, and no such rights are
* granted under this license.
*
* Copyright (c) 2010-2014, ITU/ISO/IEC
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* * Neither the name of the ITU/ISO/IEC nor the names of its contributors may
* be used to endorse or promote products derived from this software without
* specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*/
/** \file TComRdCostWeightPrediction.cpp
\brief RD cost computation class with Weighted-Prediction
*/
#include <math.h>
#include <assert.h>
#include "TComRdCost.h"
#include "TComRdCostWeightPrediction.h"
static Distortion xCalcHADs2x2w( const WPScalingParam &wpCur, const Pel *piOrg, const Pel *piCurr, Int iStrideOrg, Int iStrideCur, Int iStep );
static Distortion xCalcHADs4x4w( const WPScalingParam &wpCur, const Pel *piOrg, const Pel *piCurr, Int iStrideOrg, Int iStrideCur, Int iStep );
static Distortion xCalcHADs8x8w( const WPScalingParam &wpCur, const Pel *piOrg, const Pel *piCurr, Int iStrideOrg, Int iStrideCur, Int iStep );
// --------------------------------------------------------------------------------------------------------------------
// SAD
// --------------------------------------------------------------------------------------------------------------------
/** get weighted SAD cost
* \param pcDtParam
* \returns Distortion
*/
Distortion TComRdCostWeightPrediction::xGetSADw( DistParam* pcDtParam )
{
const Pel *piOrg = pcDtParam->pOrg;
const Pel *piCur = pcDtParam->pCur;
const Int iCols = pcDtParam->iCols;
const Int iStrideCur = pcDtParam->iStrideCur;
const Int iStrideOrg = pcDtParam->iStrideOrg;
const ComponentID compID = pcDtParam->compIdx;
assert(compID<MAX_NUM_COMPONENT);
const WPScalingParam &wpCur = pcDtParam->wpCur[compID];
const Int w0 = wpCur.w;
const Int offset = wpCur.offset;
const Int shift = wpCur.shift;
const Int round = wpCur.round;
Distortion uiSum = 0;
for(Int iRows = pcDtParam->iRows; iRows != 0; iRows-- )
{
for (Int n = 0; n < iCols; n++ )
{
const Pel pred = ( (w0*piCur[n] + round) >> shift ) + offset ;
uiSum += abs( piOrg[n] - pred );
}
piOrg += iStrideOrg;
piCur += iStrideCur;
}
pcDtParam->compIdx = MAX_NUM_COMPONENT; // reset for DEBUG (assert test)
return uiSum >> DISTORTION_PRECISION_ADJUSTMENT(pcDtParam->bitDepth-8);
}
// --------------------------------------------------------------------------------------------------------------------
// SSE
// --------------------------------------------------------------------------------------------------------------------
/** get weighted SSD cost
* \param pcDtParam
* \returns Distortion
*/
Distortion TComRdCostWeightPrediction::xGetSSEw( DistParam* pcDtParam )
{
const Pel *piOrg = pcDtParam->pOrg;
const Pel *piCur = pcDtParam->pCur;
const Int iCols = pcDtParam->iCols;
const Int iStrideOrg = pcDtParam->iStrideOrg;
const Int iStrideCur = pcDtParam->iStrideCur;
const ComponentID compIdx = pcDtParam->compIdx;
assert( pcDtParam->iSubShift == 0 ); // NOTE: what is this protecting?
assert(compIdx<MAX_NUM_COMPONENT);
const WPScalingParam &wpCur = pcDtParam->wpCur[compIdx];
const Int w0 = wpCur.w;
const Int offset = wpCur.offset;
const Int shift = wpCur.shift;
const Int round = wpCur.round;
const UInt distortionShift = DISTORTION_PRECISION_ADJUSTMENT((pcDtParam->bitDepth-8) << 1);
Distortion sum = 0;
for(Int iRows = pcDtParam->iRows ; iRows != 0; iRows-- )
{
for (Int n = 0; n < iCols; n++ )
{
const Pel pred = ( (w0*piCur[n] + round) >> shift ) + offset ;
const Pel residual = piOrg[n] - pred;
sum += ( Distortion(residual) * Distortion(residual) ) >> distortionShift;
}
piOrg += iStrideOrg;
piCur += iStrideCur;
}
pcDtParam->compIdx = MAX_NUM_COMPONENT; // reset for DEBUG (assert test)
return sum;
}
// --------------------------------------------------------------------------------------------------------------------
// HADAMARD with step (used in fractional search)
// --------------------------------------------------------------------------------------------------------------------
/** get weighted Hadamard cost for 2x2 block
* \param *piOrg
* \param *piCur
* \param iStrideOrg
* \param iStrideCur
* \param iStep
* \returns Distortion
*/
Distortion xCalcHADs2x2w( const WPScalingParam &wpCur, const Pel *piOrg, const Pel *piCur, Int iStrideOrg, Int iStrideCur, Int iStep )
{
const Int round = wpCur.round;
const Int shift = wpCur.shift;
const Int offset = wpCur.offset;
const Int w0 = wpCur.w;
Distortion satd = 0;
TCoeff diff[4];
TCoeff m[4];
Pel pred;
pred = ( (w0*piCur[0*iStep ] + round) >> shift ) + offset ;
diff[0] = piOrg[0 ] - pred;
pred = ( (w0*piCur[1*iStep ] + round) >> shift ) + offset ;
diff[1] = piOrg[1 ] - pred;
pred = ( (w0*piCur[0*iStep + iStrideCur] + round) >> shift ) + offset ;
diff[2] = piOrg[iStrideOrg ] - pred;
pred = ( (w0*piCur[1*iStep + iStrideCur] + round) >> shift ) + offset ;
diff[3] = piOrg[iStrideOrg + 1] - pred;
m[0] = diff[0] + diff[2];
m[1] = diff[1] + diff[3];
m[2] = diff[0] - diff[2];
m[3] = diff[1] - diff[3];
satd += abs(m[0] + m[1]);
satd += abs(m[0] - m[1]);
satd += abs(m[2] + m[3]);
satd += abs(m[2] - m[3]);
return satd;
}
/** get weighted Hadamard cost for 4x4 block
* \param *piOrg
* \param *piCur
* \param iStrideOrg
* \param iStrideCur
* \param iStep
* \returns Distortion
*/
Distortion xCalcHADs4x4w( const WPScalingParam &wpCur, const Pel *piOrg, const Pel *piCur, Int iStrideOrg, Int iStrideCur, Int iStep )
{
const Int round = wpCur.round;
const Int shift = wpCur.shift;
const Int offset = wpCur.offset;
const Int w0 = wpCur.w;
Distortion satd = 0;
TCoeff diff[16];
TCoeff m[16];
TCoeff d[16];
for(Int k = 0; k < 16; k+=4 )
{
Pel pred;
pred = ( (w0*piCur[0*iStep] + round) >> shift ) + offset ;
diff[k+0] = piOrg[0] - pred;
pred = ( (w0*piCur[1*iStep] + round) >> shift ) + offset ;
diff[k+1] = piOrg[1] - pred;
pred = ( (w0*piCur[2*iStep] + round) >> shift ) + offset ;
diff[k+2] = piOrg[2] - pred;
pred = ( (w0*piCur[3*iStep] + round) >> shift ) + offset ;
diff[k+3] = piOrg[3] - pred;
piCur += iStrideCur;
piOrg += iStrideOrg;
}
/*===== hadamard transform =====*/
m[ 0] = diff[ 0] + diff[12];
m[ 1] = diff[ 1] + diff[13];
m[ 2] = diff[ 2] + diff[14];
m[ 3] = diff[ 3] + diff[15];
m[ 4] = diff[ 4] + diff[ 8];
m[ 5] = diff[ 5] + diff[ 9];
m[ 6] = diff[ 6] + diff[10];
m[ 7] = diff[ 7] + diff[11];
m[ 8] = diff[ 4] - diff[ 8];
m[ 9] = diff[ 5] - diff[ 9];
m[10] = diff[ 6] - diff[10];
m[11] = diff[ 7] - diff[11];
m[12] = diff[ 0] - diff[12];
m[13] = diff[ 1] - diff[13];
m[14] = diff[ 2] - diff[14];
m[15] = diff[ 3] - diff[15];
d[ 0] = m[ 0] + m[ 4];
d[ 1] = m[ 1] + m[ 5];
d[ 2] = m[ 2] + m[ 6];
d[ 3] = m[ 3] + m[ 7];
d[ 4] = m[ 8] + m[12];
d[ 5] = m[ 9] + m[13];
d[ 6] = m[10] + m[14];
d[ 7] = m[11] + m[15];
d[ 8] = m[ 0] - m[ 4];
d[ 9] = m[ 1] - m[ 5];
d[10] = m[ 2] - m[ 6];
d[11] = m[ 3] - m[ 7];
d[12] = m[12] - m[ 8];
d[13] = m[13] - m[ 9];
d[14] = m[14] - m[10];
d[15] = m[15] - m[11];
m[ 0] = d[ 0] + d[ 3];
m[ 1] = d[ 1] + d[ 2];
m[ 2] = d[ 1] - d[ 2];
m[ 3] = d[ 0] - d[ 3];
m[ 4] = d[ 4] + d[ 7];
m[ 5] = d[ 5] + d[ 6];
m[ 6] = d[ 5] - d[ 6];
m[ 7] = d[ 4] - d[ 7];
m[ 8] = d[ 8] + d[11];
m[ 9] = d[ 9] + d[10];
m[10] = d[ 9] - d[10];
m[11] = d[ 8] - d[11];
m[12] = d[12] + d[15];
m[13] = d[13] + d[14];
m[14] = d[13] - d[14];
m[15] = d[12] - d[15];
d[ 0] = m[ 0] + m[ 1];
d[ 1] = m[ 0] - m[ 1];
d[ 2] = m[ 2] + m[ 3];
d[ 3] = m[ 3] - m[ 2];
d[ 4] = m[ 4] + m[ 5];
d[ 5] = m[ 4] - m[ 5];
d[ 6] = m[ 6] + m[ 7];
d[ 7] = m[ 7] - m[ 6];
d[ 8] = m[ 8] + m[ 9];
d[ 9] = m[ 8] - m[ 9];
d[10] = m[10] + m[11];
d[11] = m[11] - m[10];
d[12] = m[12] + m[13];
d[13] = m[12] - m[13];
d[14] = m[14] + m[15];
d[15] = m[15] - m[14];
for (Int k=0; k<16; ++k)
{
satd += abs(d[k]);
}
satd = ((satd+1)>>1);
return satd;
}
/** get weighted Hadamard cost for 8x8 block
* \param *piOrg
* \param *piCur
* \param iStrideOrg
* \param iStrideCur
* \param iStep
* \returns Distortion
*/
Distortion xCalcHADs8x8w( const WPScalingParam &wpCur, const Pel *piOrg, const Pel *piCur, Int iStrideOrg, Int iStrideCur, Int iStep )
{
Distortion sad=0;
TCoeff diff[64], m1[8][8], m2[8][8], m3[8][8];
Int iStep2 = iStep<<1;
Int iStep3 = iStep2 + iStep;
Int iStep4 = iStep3 + iStep;
Int iStep5 = iStep4 + iStep;
Int iStep6 = iStep5 + iStep;
Int iStep7 = iStep6 + iStep;
const Int round = wpCur.round;
const Int shift = wpCur.shift;
const Int offset = wpCur.offset;
const Int w0 = wpCur.w;
Pel pred;
for(Int k = 0; k < 64; k+=8 )
{
pred = ( (w0*piCur[ 0] + round) >> shift ) + offset ;
diff[k+0] = piOrg[0] - pred;
pred = ( (w0*piCur[iStep ] + round) >> shift ) + offset ;
diff[k+1] = piOrg[1] - pred;
pred = ( (w0*piCur[iStep2] + round) >> shift ) + offset ;
diff[k+2] = piOrg[2] - pred;
pred = ( (w0*piCur[iStep3] + round) >> shift ) + offset ;
diff[k+3] = piOrg[3] - pred;
pred = ( (w0*piCur[iStep4] + round) >> shift ) + offset ;
diff[k+4] = piOrg[4] - pred;
pred = ( (w0*piCur[iStep5] + round) >> shift ) + offset ;
diff[k+5] = piOrg[5] - pred;
pred = ( (w0*piCur[iStep6] + round) >> shift ) + offset ;
diff[k+6] = piOrg[6] - pred;
pred = ( (w0*piCur[iStep7] + round) >> shift ) + offset ;
diff[k+7] = piOrg[7] - pred;
piCur += iStrideCur;
piOrg += iStrideOrg;
}
//horizontal
for (Int j=0; j < 8; j++)
{
const Int jj = j << 3;
m2[j][0] = diff[jj ] + diff[jj+4];
m2[j][1] = diff[jj+1] + diff[jj+5];
m2[j][2] = diff[jj+2] + diff[jj+6];
m2[j][3] = diff[jj+3] + diff[jj+7];
m2[j][4] = diff[jj ] - diff[jj+4];
m2[j][5] = diff[jj+1] - diff[jj+5];
m2[j][6] = diff[jj+2] - diff[jj+6];
m2[j][7] = diff[jj+3] - diff[jj+7];
m1[j][0] = m2[j][0] + m2[j][2];
m1[j][1] = m2[j][1] + m2[j][3];
m1[j][2] = m2[j][0] - m2[j][2];
m1[j][3] = m2[j][1] - m2[j][3];
m1[j][4] = m2[j][4] + m2[j][6];
m1[j][5] = m2[j][5] + m2[j][7];
m1[j][6] = m2[j][4] - m2[j][6];
m1[j][7] = m2[j][5] - m2[j][7];
m2[j][0] = m1[j][0] + m1[j][1];
m2[j][1] = m1[j][0] - m1[j][1];
m2[j][2] = m1[j][2] + m1[j][3];
m2[j][3] = m1[j][2] - m1[j][3];
m2[j][4] = m1[j][4] + m1[j][5];
m2[j][5] = m1[j][4] - m1[j][5];
m2[j][6] = m1[j][6] + m1[j][7];
m2[j][7] = m1[j][6] - m1[j][7];
}
//vertical
for (Int i=0; i < 8; i++)
{
m3[0][i] = m2[0][i] + m2[4][i];
m3[1][i] = m2[1][i] + m2[5][i];
m3[2][i] = m2[2][i] + m2[6][i];
m3[3][i] = m2[3][i] + m2[7][i];
m3[4][i] = m2[0][i] - m2[4][i];
m3[5][i] = m2[1][i] - m2[5][i];
m3[6][i] = m2[2][i] - m2[6][i];
m3[7][i] = m2[3][i] - m2[7][i];
m1[0][i] = m3[0][i] + m3[2][i];
m1[1][i] = m3[1][i] + m3[3][i];
m1[2][i] = m3[0][i] - m3[2][i];
m1[3][i] = m3[1][i] - m3[3][i];
m1[4][i] = m3[4][i] + m3[6][i];
m1[5][i] = m3[5][i] + m3[7][i];
m1[6][i] = m3[4][i] - m3[6][i];
m1[7][i] = m3[5][i] - m3[7][i];
m2[0][i] = m1[0][i] + m1[1][i];
m2[1][i] = m1[0][i] - m1[1][i];
m2[2][i] = m1[2][i] + m1[3][i];
m2[3][i] = m1[2][i] - m1[3][i];
m2[4][i] = m1[4][i] + m1[5][i];
m2[5][i] = m1[4][i] - m1[5][i];
m2[6][i] = m1[6][i] + m1[7][i];
m2[7][i] = m1[6][i] - m1[7][i];
}
for (Int j=0; j < 8; j++)
{
for (Int i=0; i < 8; i++)
{
sad += (abs(m2[j][i]));
}
}
sad=((sad+2)>>2);
return sad;
}
/** get weighted Hadamard cost
* \param *pcDtParam
* \returns Distortion
*/
Distortion TComRdCostWeightPrediction::xGetHADsw( DistParam* pcDtParam )
{
const Pel *piOrg = pcDtParam->pOrg;
const Pel *piCur = pcDtParam->pCur;
const Int iRows = pcDtParam->iRows;
const Int iCols = pcDtParam->iCols;
const Int iStrideCur = pcDtParam->iStrideCur;
const Int iStrideOrg = pcDtParam->iStrideOrg;
const Int iStep = pcDtParam->iStep;
const ComponentID compIdx = pcDtParam->compIdx;
assert(compIdx<MAX_NUM_COMPONENT);
const WPScalingParam wpCur = pcDtParam->wpCur[compIdx];
Distortion uiSum = 0;
if( ( iRows % 8 == 0) && (iCols % 8 == 0) )
{
const Int iOffsetOrg = iStrideOrg<<3;
const Int iOffsetCur = iStrideCur<<3;
for (Int y=0; y<iRows; y+= 8 )
{
for (Int x=0; x<iCols; x+= 8 )
{
uiSum += xCalcHADs8x8w( wpCur, &piOrg[x], &piCur[x*iStep], iStrideOrg, iStrideCur, iStep );
}
piOrg += iOffsetOrg;
piCur += iOffsetCur;
}
}
else if( ( iRows % 4 == 0) && (iCols % 4 == 0) )
{
const Int iOffsetOrg = iStrideOrg<<2;
const Int iOffsetCur = iStrideCur<<2;
for (Int y=0; y<iRows; y+= 4 )
{
for (Int x=0; x<iCols; x+= 4 )
{
uiSum += xCalcHADs4x4w( wpCur, &piOrg[x], &piCur[x*iStep], iStrideOrg, iStrideCur, iStep );
}
piOrg += iOffsetOrg;
piCur += iOffsetCur;
}
}
else
{
for (Int y=0; y<iRows; y+=2 )
{
for (Int x=0; x<iCols; x+=2 )
{
uiSum += xCalcHADs2x2w( wpCur, &piOrg[x], &piCur[x*iStep], iStrideOrg, iStrideCur, iStep );
}
piOrg += iStrideOrg;
piCur += iStrideCur;
}
}
return uiSum >> DISTORTION_PRECISION_ADJUSTMENT(pcDtParam->bitDepth-8);
}