mirror of
https://github.com/ValveSoftware/Proton.git
synced 2024-12-31 00:55:37 +03:00
540 lines
17 KiB
C
540 lines
17 KiB
C
//*@@@+++@@@@******************************************************************
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//
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// Copyright © Microsoft Corp.
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are met:
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//
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// • Redistributions of source code must retain the above copyright notice,
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// this list of conditions and the following disclaimer.
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// • Redistributions in binary form must reproduce the above copyright notice,
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// this list of conditions and the following disclaimer in the documentation
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// and/or other materials provided with the distribution.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
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// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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// CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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// POSSIBILITY OF SUCH DAMAGE.
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//
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//*@@@---@@@@******************************************************************
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#include "strcodec.h"
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#define DEQUANT(iRaw, iQP) ((iRaw) * (iQP))
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Void dequantizeBlock4x4(PixelI * pRec, Int * pOrg, const Int * pIndex, Int iQPLP)
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{
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Int i;
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for(i = 1; i < 16; i ++)
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pRec[pIndex[i]] = DEQUANT(pOrg[i], iQPLP);
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}
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Void dequantizeBlock2x2(PixelI * pRec, Int * pOrg, Int iQPLP)
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{
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pRec[32] = DEQUANT(pOrg[1], iQPLP);
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pRec[16] = DEQUANT(pOrg[2], iQPLP);
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pRec[48] = DEQUANT(pOrg[3], iQPLP);
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}
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Void dequantizeBlock4x2(PixelI * pRec, Int * pOrg, Int iQPLP)
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{
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pRec[ 64] = DEQUANT(pOrg[1], iQPLP);
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pRec[ 16] = DEQUANT(pOrg[2], iQPLP);
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pRec[ 80] = DEQUANT(pOrg[3], iQPLP);
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pRec[ 32] = DEQUANT(pOrg[4], iQPLP);
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pRec[ 96] = DEQUANT(pOrg[5], iQPLP);
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pRec[ 48] = DEQUANT(pOrg[6], iQPLP);
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pRec[112] = DEQUANT(pOrg[7], iQPLP);
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}
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Int dequantizeMacroblock(CWMImageStrCodec * pSC)
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{
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const COLORFORMAT cf = pSC->m_param.cfColorFormat;
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CWMIMBInfo *pMBInfo = &pSC->MBInfo;
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CWMITile * pTile = pSC->pTile + pSC->cTileColumn;
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const size_t iChannels = pSC->m_param.cNumChannels;
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size_t i;
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for(i = 0; i < iChannels; i ++){
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//dequantize DC
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pSC->p1MBbuffer[i][0] = DEQUANT(pMBInfo->iBlockDC[i][0], pTile->pQuantizerDC[i]->iQP);
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// dequantize LP
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if(pSC->WMISCP.sbSubband != SB_DC_ONLY)
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if(i == 0 || (cf != YUV_422 && cf != YUV_420))
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dequantizeBlock4x4(pSC->p1MBbuffer[i] , pMBInfo->iBlockDC[i], dctIndex[2], pTile->pQuantizerLP[i][pMBInfo->iQIndexLP].iQP);
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else if(cf == YUV_422)
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dequantizeBlock4x2(pSC->p1MBbuffer[i], pMBInfo->iBlockDC[i], pTile->pQuantizerLP[i][pMBInfo->iQIndexLP].iQP);
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else // 420
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dequantizeBlock2x2(pSC->p1MBbuffer[i], pMBInfo->iBlockDC[i], pTile->pQuantizerLP[i][pMBInfo->iQIndexLP].iQP);
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}
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return ICERR_OK;
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}
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/* frequency domain inverse DCAC prediction */
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Void predDCACDec(CWMImageStrCodec * pSC)
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{
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const COLORFORMAT cf = pSC->m_param.cfColorFormat;
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const Int iChannels = (cf == YUV_420 || cf == YUV_422) ? 1 : (Int) pSC->m_param.cNumChannels;
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CWMIMBInfo *pMBInfo = &(pSC->MBInfo);
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size_t mbX = pSC->cColumn;// mbY = pSC->cRow;
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Int iDCACPredMode = getDCACPredMode(pSC, mbX);
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Int iDCPredMode = (iDCACPredMode & 0x3);
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Int iADPredMode = (iDCACPredMode & 0xC);
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PixelI * pOrg, * pRef;
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Int ii;
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for(ii = 0; ii < iChannels; ii ++){
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pOrg = pMBInfo->iBlockDC[ii];//[dcBlkIdx + (i >> 4)]; // current DC block
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/* DC prediction */
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if(iDCPredMode == 1){ // predict DC from top
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pOrg[0] += pSC->PredInfoPrevRow[ii][mbX].iDC;
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}
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else if(iDCPredMode == 0){ // predict DC from left
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pOrg[0] += (pSC->PredInfo[ii] + mbX - 1)->iDC;
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}
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else if(iDCPredMode == 2){// predict DC from top&left
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pOrg[0] += ((pSC->PredInfo[ii] + mbX - 1)->iDC + (pSC->PredInfoPrevRow[ii] + mbX)->iDC) >> 1;
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}
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/* AD prediction */
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if(iADPredMode == 4){// predict AD from top
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pRef = (pSC->PredInfoPrevRow[ii] + mbX)->piAD;
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pOrg[4] += pRef[3], pOrg[8] += pRef[4], pOrg[12] += pRef[5];
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}
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else if(iADPredMode == 0){// predict AD from left
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pRef = (pSC->PredInfo[ii] + mbX - 1)->piAD;
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pOrg[1] += pRef[0], pOrg[2] += pRef[1], pOrg[3] += pRef[2];
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}
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}
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if(cf == YUV_420){
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for(ii = 1; ii < 3; ii ++){
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pOrg = pMBInfo->iBlockDC[ii];//dcBlkIdx + ii]; // current DC block
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/* DC prediction */
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if(iDCPredMode == 1){ // predict DC from top
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pOrg[0] += (pSC->PredInfoPrevRow[ii] + mbX)->iDC;
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}
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else if(iDCPredMode == 0){ // predict DC from left
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pOrg[0] += (pSC->PredInfo[ii] + mbX - 1)->iDC;
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}
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else if(iDCPredMode == 2){ // predict DC from top&left
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pOrg[0] += (((pSC->PredInfo[ii] + mbX - 1)->iDC + (pSC->PredInfoPrevRow[ii] + mbX)->iDC + 1) >> 1);
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}
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/* AD prediciton */
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if(iADPredMode == 4){// predict AD from top
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pOrg[2] += (pSC->PredInfoPrevRow[ii] + mbX)->piAD[1];
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}
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else if(iADPredMode == 0){// predict AD from left
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pOrg[1] += (pSC->PredInfo[ii] + mbX - 1)->piAD[0];
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}
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}
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}
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else if(cf == YUV_422){
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for(ii = 1; ii < 3; ii ++){
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pOrg = pMBInfo->iBlockDC[ii];//[dcBlkIdx + ii]; // current DC block
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/* DC prediciton */
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if(iDCPredMode == 1){ // predict DC from top
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pOrg[0] += (pSC->PredInfoPrevRow[ii] + mbX)->iDC;
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}
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else if(iDCPredMode == 0){ // predict DC from left
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pOrg[0] += (pSC->PredInfo[ii] + mbX - 1)->iDC;
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}
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else if(iDCPredMode == 2){ // predict DC from top&left
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pOrg[0] += (((pSC->PredInfo[ii] + mbX - 1)->iDC + (pSC->PredInfoPrevRow[ii] + mbX)->iDC + 1) >> 1);
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}
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/* AD prediction */
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if(iADPredMode == 4){// predict AD from top
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pOrg[4] += (pSC->PredInfoPrevRow[ii] + mbX)->piAD[4]; // AC of HT !!!
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pOrg[2] += (pSC->PredInfoPrevRow[ii] + mbX)->piAD[3];
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pOrg[6] += pOrg[2];
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}
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else if(iADPredMode == 0){// predict AD from left
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pOrg[4] += (pSC->PredInfo[ii] + mbX - 1)->piAD[4]; // AC of HT !!!
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pOrg[1] += (pSC->PredInfo[ii] + mbX - 1)->piAD[0];
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pOrg[5] += (pSC->PredInfo[ii] + mbX - 1)->piAD[2];
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}
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else if(iDCPredMode == 1){
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pOrg[6] += pOrg[2];
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}
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}
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}
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pMBInfo->iOrientation = 2 - getACPredMode(pMBInfo, cf);
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}
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/*************************************************************************
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Frequency domain inverse AC prediction
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*************************************************************************/
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Void predACDec(CWMImageStrCodec * pSC)
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{
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const COLORFORMAT cf = pSC->m_param.cfColorFormat;
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const Int iChannels = (cf == YUV_420 || cf == YUV_422) ? 1 : (Int) pSC->m_param.cNumChannels;
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// size_t mbX = pSC->cColumn, mbY = pSC->cRow;
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CWMIMBInfo *pMBInfo = &pSC->MBInfo;
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Int iACPredMode = 2 - pMBInfo->iOrientation;
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PixelI * pOrg, * pRef;
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Int i, j;
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/* AC prediction */
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for(i = 0; i < iChannels; i++){
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// prediction only happens inside MB
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PixelI* pSrc = pSC->p1MBbuffer[i];//0 == i ? pSC->pY1 : (1 == i ? pSC->pU1 : pSC->pV1);
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switch (iACPredMode)
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{
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case 1:
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{
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// predict from top
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static U8 blkIdx[] = {1, 2, 3, 5, 6, 7, 9, 10, 11, 13, 14, 15};
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for (j = 0; j < sizeof(blkIdx) / sizeof(*blkIdx); ++j)
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{
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pOrg = pSrc + 16 * blkIdx[j];
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pRef = pOrg - 16;
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pOrg[ 2] += pRef[ 2];
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pOrg[10] += pRef[10];
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pOrg[ 9] += pRef[ 9];
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}
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break;
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}
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case 0:
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// predict from left
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for (j = 64; j < 256; j += 16)
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{
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pOrg = pSrc + j;
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pRef = pOrg - 64;
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pOrg[1] += pRef[1];
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pOrg[5] += pRef[5];
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pOrg[6] += pRef[6];
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}
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break;
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default:
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// no prediction
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break;
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}
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}
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if(cf == YUV_420){
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for(i = 16; i <= 20; i += 4){
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PixelI* pSrc = pSC->p1MBbuffer[(i >> 2) - 3];//16 == i ? pSC->pU1 : pSC->pV1;
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switch (iACPredMode)
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{
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case 1:
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{
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// predict from top
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for (j = 1; j <= 3; j += 2)
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{
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pOrg = pSrc + 16 * j;
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pRef = pOrg - 16;
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pOrg[ 2] += pRef[ 2];
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pOrg[10] += pRef[10];
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pOrg[ 9] += pRef[ 9];
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}
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break;
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}
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case 0:
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// predict from left
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for (j = 2; j <= 3; ++j)
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{
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pOrg = pSrc + 16 * j;
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pRef = pOrg - 32;
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pOrg[1] += pRef[1];
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pOrg[5] += pRef[5];
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pOrg[6] += pRef[6];
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}
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break;
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default:
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// no prediction
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break;
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}
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}
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}
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else if(cf == YUV_422){
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for(i = 16; i < 32; i += 8){
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PixelI* pSrc = pSC->p1MBbuffer[(i >> 3) - 1];//16 == i ? pSC->pU1 : pSC->pV1;
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switch (iACPredMode)
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{
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case 1:
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{
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// predict from top
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for (j = 2; j < 8; j ++)
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{
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pOrg = pSrc + blkOffsetUV_422[j];
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pRef = pOrg - 16;
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pOrg[10] += pRef[10];
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pOrg[ 2] += pRef[ 2];
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pOrg[ 9] += pRef[ 9];
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}
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break;
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}
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case 0:
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// predict from left
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for (j = 1; j < 8; j += 2)
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{
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pOrg = pSrc + blkOffsetUV_422[j];
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pRef = pOrg - 64;
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pOrg[1] += pRef[1];
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pOrg[5] += pRef[5];
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pOrg[6] += pRef[6];
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}
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break;
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default:
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// no prediction
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break;
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}
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}
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}
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}
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/*************************************************************************
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CBP
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*************************************************************************/
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static int NumOnes(int i)
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{
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int retval = 0;
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static const int g_Count[] = { 0,1,1,2, 1,2,2,3, 1,2,2,3, 2,3,3,4 };
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i = i & 0xffff;
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while (i) {
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retval += g_Count[i & 0xf];
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i >>= 4;
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}
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return retval;
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}
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#define SATURATE32(x) if((unsigned int)(x + 16) >= 32) { if (x < 0) x = -16; else x = 15; }
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/* CBP prediction for 16 x 16 MB */
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/* block index */
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/* 0 1 4 5 */
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/* 2 3 6 7 */
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/* 8 9 12 13 */
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/* 10 11 14 15 */
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static Int predCBPCDec(CWMImageStrCodec * pSC, Int iCBP, size_t mbX, size_t mbY, size_t c, CCBPModel *pModel)
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{
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Int iNOrig;
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const int iNDiff = AVG_NDIFF;
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size_t c1 = c ? 1 : 0;
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UNREFERENCED_PARAMETER( mbY );
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if (pModel->m_iState[c1] == 0) {
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if(pSC->m_bCtxLeft) {
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if (pSC->m_bCtxTop) {
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iCBP ^= 1;
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}
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else {
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Int iTopCBP = (pSC->PredInfoPrevRow[c] + mbX)->iCBP;
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iCBP ^= (iTopCBP >> 10) & 1; // left: top(10) => 0
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}
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}
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else {
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Int iLeftCBP = (pSC->PredInfo[c] + mbX - 1)->iCBP;
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iCBP ^= ((iLeftCBP >> 5) & 1); // left(5) => 0
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}
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iCBP ^= (0x02 & (iCBP << 1)); // 0 => 1
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iCBP ^= (0x10 & (iCBP << 3)); // 1 => 4
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iCBP ^= (0x20 & (iCBP << 1)); // 4 => 5
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iCBP ^= ((iCBP & 0x33) << 2);
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iCBP ^= ((iCBP & 0xcc) << 6);
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iCBP ^= ((iCBP & 0x3300) << 2);
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}
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else if (pModel->m_iState[c1] == 2) {
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iCBP ^= 0xffff;
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}
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iNOrig = NumOnes(iCBP);
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pModel->m_iCount0[c1] += iNOrig - iNDiff;
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SATURATE32(pModel->m_iCount0[c1]);
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pModel->m_iCount1[c1] += 16 - iNOrig - iNDiff;
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SATURATE32(pModel->m_iCount1[c1]);
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if (pModel->m_iCount0[c1] < 0) {
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if (pModel->m_iCount0[c1] < pModel->m_iCount1[c1]) {
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pModel->m_iState[c1] = 1;
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}
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else {
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pModel->m_iState[c1] = 2;
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}
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}
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else if (pModel->m_iCount1[c1] < 0) {
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pModel->m_iState[c1] = 2;
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}
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else {
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pModel->m_iState[c1] = 0;
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}
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return iCBP;
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}
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static Int predCBPC420Dec(CWMImageStrCodec * pSC, Int iCBP, size_t mbX, size_t mbY, size_t c, CCBPModel *pModel)
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{
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Int iNOrig;
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const int iNDiff = AVG_NDIFF;
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UNREFERENCED_PARAMETER( mbY );
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if (pModel->m_iState[1] == 0) {
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if(pSC->m_bCtxLeft) {
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if (pSC->m_bCtxTop) {
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iCBP ^= 1;
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}
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else {
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Int iTopCBP = (pSC->PredInfoPrevRow[c] + mbX)->iCBP;
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iCBP ^= (iTopCBP >> 2) & 1; // left: top(2) => 0
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}
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}
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else {
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Int iLeftCBP = (pSC->PredInfo[c] + mbX - 1)->iCBP;
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iCBP ^= ((iLeftCBP >> 1) & 1); // left(1) => 0
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}
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iCBP ^= (0x02 & (iCBP << 1)); // 0 => 1
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iCBP ^= ((iCBP & 0x3) << 2); // [0 1] -> [2 3]
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}
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else if (pModel->m_iState[1] == 2) {
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iCBP ^= 0xf;
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}
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iNOrig = NumOnes(iCBP) * 4;
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pModel->m_iCount0[1] += iNOrig - iNDiff;
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SATURATE32(pModel->m_iCount0[1]);
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pModel->m_iCount1[1] += 16 - iNOrig - iNDiff;
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SATURATE32(pModel->m_iCount1[1]);
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if (pModel->m_iCount0[1] < 0) {
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if (pModel->m_iCount0[1] < pModel->m_iCount1[1]) {
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pModel->m_iState[1] = 1;
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}
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else {
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pModel->m_iState[1] = 2;
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}
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}
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else if (pModel->m_iCount1[1] < 0) {
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pModel->m_iState[1] = 2;
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}
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else {
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pModel->m_iState[1] = 0;
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}
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return iCBP;
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}
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static Int predCBPC422Dec(CWMImageStrCodec * pSC, Int iCBP, size_t mbX, size_t mbY, size_t c, CCBPModel *pModel)
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{
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Int iNOrig;
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const int iNDiff = AVG_NDIFF;
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|
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UNREFERENCED_PARAMETER( mbY );
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|
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if (pModel->m_iState[1] == 0) {
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if(pSC->m_bCtxLeft) {
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if (pSC->m_bCtxTop) {
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iCBP ^= 1;
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}
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else {
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Int iTopCBP = (pSC->PredInfoPrevRow[c] + mbX)->iCBP;
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iCBP ^= (iTopCBP >> 6) & 1; // left: top(6) => 0
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}
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}
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else {
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Int iLeftCBP = (pSC->PredInfo[c] + mbX - 1)->iCBP;
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iCBP ^= ((iLeftCBP >> 1) & 1); // left(1) => 0
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}
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|
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iCBP ^= (iCBP & 0x1) << 1; // [0]->[1]
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iCBP ^= (iCBP & 0x3) << 2; // [0 1]->[2 3]
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iCBP ^= (iCBP & 0xc) << 2; // [2 3]->[4 5]
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iCBP ^= (iCBP & 0x30) << 2; // [4 5]->[6 7]
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}
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else if (pModel->m_iState[1] == 2) {
|
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iCBP ^= 0xff;
|
|
}
|
|
|
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iNOrig = NumOnes(iCBP) * 2;
|
|
|
|
pModel->m_iCount0[1] += iNOrig - iNDiff;
|
|
SATURATE32(pModel->m_iCount0[1]);
|
|
|
|
pModel->m_iCount1[1] += 16 - iNOrig - iNDiff;
|
|
SATURATE32(pModel->m_iCount1[1]);
|
|
|
|
if (pModel->m_iCount0[1] < 0) {
|
|
if (pModel->m_iCount0[1] < pModel->m_iCount1[1]) {
|
|
pModel->m_iState[1] = 1;
|
|
}
|
|
else {
|
|
pModel->m_iState[1] = 2;
|
|
}
|
|
}
|
|
else if (pModel->m_iCount1[1] < 0) {
|
|
pModel->m_iState[1] = 2;
|
|
}
|
|
else {
|
|
pModel->m_iState[1] = 0;
|
|
}
|
|
|
|
return iCBP;
|
|
}
|
|
|
|
|
|
/* Coded Block Pattern (CBP) prediction */
|
|
Void predCBPDec(CWMImageStrCodec *pSC, CCodingContext *pContext)
|
|
{
|
|
const COLORFORMAT cf = pSC->m_param.cfColorFormat;
|
|
const size_t iChannels = (cf == YUV_420 || cf == YUV_422) ? 1 : pSC->m_param.cNumChannels;
|
|
size_t i, mbX = pSC->cColumn, mbY = pSC->cRow;
|
|
CWMIMBInfo *pMBInfo = &(pSC->MBInfo);
|
|
|
|
for (i = 0; i < iChannels; i++) {
|
|
(pSC->PredInfo[i] + mbX)->iCBP = pMBInfo->iCBP[i] = predCBPCDec(pSC, pMBInfo->iDiffCBP[i], mbX, mbY, i, &pContext->m_aCBPModel); // Y Channel
|
|
}
|
|
|
|
if (cf == YUV_422){
|
|
(pSC->PredInfo[1] + mbX)->iCBP = pMBInfo->iCBP[1] = predCBPC422Dec(pSC, pMBInfo->iDiffCBP[1], mbX, mbY, 1, &pContext->m_aCBPModel);
|
|
(pSC->PredInfo[2] + mbX)->iCBP = pMBInfo->iCBP[2] = predCBPC422Dec(pSC, pMBInfo->iDiffCBP[2], mbX, mbY, 2, &pContext->m_aCBPModel);
|
|
}
|
|
else if (cf == YUV_420) {
|
|
(pSC->PredInfo[1] + mbX)->iCBP = pMBInfo->iCBP[1] = predCBPC420Dec(pSC, pMBInfo->iDiffCBP[1], mbX, mbY, 1, &pContext->m_aCBPModel);
|
|
(pSC->PredInfo[2] + mbX)->iCBP = pMBInfo->iCBP[2] = predCBPC420Dec(pSC, pMBInfo->iDiffCBP[2], mbX, mbY, 2, &pContext->m_aCBPModel);
|
|
}
|
|
//}
|
|
}
|
|
|