/* 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) 2010-2011, 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 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 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include "TAppRendererTop.h" // ==================================================================================================================== // Constructor / destructor / initialization / destroy // ==================================================================================================================== #if !QC_MVHEVC_B0046 TAppRendererTop::TAppRendererTop() { } TAppRendererTop::~TAppRendererTop() { } Void TAppRendererTop::xCreateLib() { Int iInteralBitDepth = g_uiBitDepth + g_uiBitIncrement; Int iFileBitDepth = 8; m_pcRenTop = new TRenTop(); for(Int iViewIdx=0; iViewIdxopen( m_pchVideoInputFileList[iViewIdx], false, iFileBitDepth, iInteralBitDepth ); // read mode pcDepthInput->open( m_pchDepthInputFileList[iViewIdx], false, iFileBitDepth, iInteralBitDepth ); // read mode pcVideoInput->skipFrames(m_iFrameSkip, m_iSourceWidth, m_iSourceHeight ); pcDepthInput->skipFrames(m_iFrameSkip, m_iSourceWidth, m_iSourceHeight ); m_apcTVideoIOYuvVideoInput.push_back( pcVideoInput ); m_apcTVideoIOYuvDepthInput.push_back( pcDepthInput ); } for(Int iViewIdx=0; iViewIdxopen( m_pchSynthOutputFileList[iViewIdx], true, iFileBitDepth, iInteralBitDepth ); // write mode m_apcTVideoIOYuvSynthOutput.push_back( pcSynthOutput ); } } Void TAppRendererTop::xDestroyLib() { delete m_pcRenTop; for ( Int iViewIdx = 0; iViewIdx < m_iNumberOfInputViews; iViewIdx++ ) { m_apcTVideoIOYuvVideoInput[iViewIdx]->close(); m_apcTVideoIOYuvDepthInput[iViewIdx]->close(); delete m_apcTVideoIOYuvDepthInput[iViewIdx]; delete m_apcTVideoIOYuvVideoInput[iViewIdx]; }; for ( Int iViewIdx = 0; iViewIdx < m_iNumberOfOutputViews; iViewIdx++ ) { m_apcTVideoIOYuvSynthOutput[iViewIdx]->close(); delete m_apcTVideoIOYuvSynthOutput[iViewIdx]; }; } Void TAppRendererTop::xInitLib() { m_pcRenTop->init( m_iSourceWidth, m_iSourceHeight, (m_iRenderDirection != 0), m_iLog2SamplingFactor, m_iLog2SamplingFactor+m_iShiftPrecision, m_bUVUp, m_iPreProcMode, m_iPreFilterSize, m_iBlendMode, m_iBlendZThresPerc, m_bBlendUseDistWeight, m_iBlendHoleMargin, m_iInterpolationMode, m_iHoleFillingMode, m_iPostProcMode, m_iUsedPelMapMarExt ); } // ==================================================================================================================== // Public member functions // ==================================================================================================================== Void TAppRendererTop::render() { xCreateLib(); xInitLib(); // Create Buffers Input Views; std::vector apcPicYuvBaseVideo; std::vector apcPicYuvBaseDepth; // TemporalImprovement Filter std::vector apcPicYuvLastBaseVideo; std::vector apcPicYuvLastBaseDepth; Int aiPad[2] = { 0, 0 }; for ( UInt uiBaseView = 0; uiBaseView < m_iNumberOfInputViews; uiBaseView++ ) { TComPicYuv* pcNewVideoPic = new TComPicYuv; TComPicYuv* pcNewDepthPic = new TComPicYuv; pcNewVideoPic->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); apcPicYuvBaseVideo.push_back(pcNewVideoPic); pcNewDepthPic->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); apcPicYuvBaseDepth.push_back(pcNewDepthPic); //Temporal improvement Filter if ( m_bTempDepthFilter ) { pcNewVideoPic = new TComPicYuv; pcNewDepthPic = new TComPicYuv; pcNewVideoPic->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); apcPicYuvLastBaseVideo.push_back(pcNewVideoPic); pcNewDepthPic->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); apcPicYuvLastBaseDepth.push_back(pcNewDepthPic); } } // Create Buffer for synthesized View TComPicYuv* pcPicYuvSynthOut = new TComPicYuv; pcPicYuvSynthOut->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); Bool bAnyEOS = false; Int iNumOfRenderedFrames = 0; Int iFrame = 0; while ( ( ( iNumOfRenderedFrames < m_iFramesToBeRendered ) || ( m_iFramesToBeRendered == 0 ) ) && !bAnyEOS ) { if ( iFrame >= m_iFrameSkip ) { // read in depth and video for(Int iBaseViewIdx=0; iBaseViewIdx < m_iNumberOfInputViews; iBaseViewIdx++ ) { m_apcTVideoIOYuvVideoInput[iBaseViewIdx]->read( apcPicYuvBaseVideo[iBaseViewIdx], aiPad ) ; apcPicYuvBaseVideo[iBaseViewIdx]->extendPicBorder(); bAnyEOS |= m_apcTVideoIOYuvVideoInput[iBaseViewIdx]->isEof(); m_apcTVideoIOYuvDepthInput[iBaseViewIdx]->read( apcPicYuvBaseDepth[iBaseViewIdx], aiPad ) ; apcPicYuvBaseDepth[iBaseViewIdx]->extendPicBorder(); bAnyEOS |= m_apcTVideoIOYuvDepthInput[iBaseViewIdx]->isEof(); if ( m_bTempDepthFilter && (iFrame >= m_iFrameSkip) ) { m_pcRenTop->temporalFilterVSRS( apcPicYuvBaseVideo[iBaseViewIdx], apcPicYuvBaseDepth[iBaseViewIdx], apcPicYuvLastBaseVideo[iBaseViewIdx], apcPicYuvLastBaseDepth[iBaseViewIdx], ( iFrame == m_iFrameSkip) ); } } } else { std::cout << "Skipping Frame " << iFrame << std::endl; iFrame++; continue; } m_cCameraData.update( (UInt)iFrame - m_iFrameSkip ); for(Int iSynthViewIdx=0; iSynthViewIdx < m_iNumberOfOutputViews; iSynthViewIdx++ ) { Int iLeftBaseViewIdx = -1; Int iRightBaseViewIdx = -1; Bool bIsBaseView = false; Int iRelDistToLeft; Bool bHasLRView = m_cCameraData.getLeftRightBaseView( iSynthViewIdx, iLeftBaseViewIdx, iRightBaseViewIdx, iRelDistToLeft, bIsBaseView ); Bool bHasLView = ( iLeftBaseViewIdx != -1 ); Bool bHasRView = ( iRightBaseViewIdx != -1 ); Bool bRender = true; Int iBlendMode = m_iBlendMode; Int iSimEnhBaseView = 0; switch( m_iRenderDirection ) { /// INTERPOLATION case 0: AOF( bHasLRView || bIsBaseView ); if ( !bHasLRView && bIsBaseView && m_iBlendMode == 0 ) { bRender = false; } else { if ( bIsBaseView ) { AOF( iLeftBaseViewIdx == iRightBaseViewIdx ); Int iSortedBaseViewIdx = m_cCameraData.getBaseId2SortedId() [iLeftBaseViewIdx]; if ( m_iBlendMode == 1 ) { if ( iSortedBaseViewIdx - 1 >= 0 ) { iLeftBaseViewIdx = m_cCameraData.getBaseSortedId2Id()[ iSortedBaseViewIdx - 1]; bRender = true; } else { bRender = false; } } else if ( m_iBlendMode == 2 ) { if ( iSortedBaseViewIdx + 1 < m_iNumberOfInputViews ) { iRightBaseViewIdx = m_cCameraData.getBaseSortedId2Id()[ iSortedBaseViewIdx + 1]; bRender = true; } else { bRender = false; } } } if ( m_iBlendMode == 3 ) { if ( bIsBaseView && (iLeftBaseViewIdx == 0) ) { bRender = false; } else { Int iDistLeft = abs( m_cCameraData.getBaseId2SortedId()[0] - m_cCameraData.getBaseId2SortedId() [iLeftBaseViewIdx ] ); Int iDistRight = abs( m_cCameraData.getBaseId2SortedId()[0] - m_cCameraData.getBaseId2SortedId() [iRightBaseViewIdx] ); Int iFillViewIdx = iDistLeft > iDistRight ? iLeftBaseViewIdx : iRightBaseViewIdx; if( m_cCameraData.getBaseId2SortedId()[0] < m_cCameraData.getBaseId2SortedId() [iFillViewIdx] ) { iBlendMode = 1; iLeftBaseViewIdx = 0; iRightBaseViewIdx = iFillViewIdx; } else { iBlendMode = 2; iLeftBaseViewIdx = iFillViewIdx; iRightBaseViewIdx = 0; } } } else { iBlendMode = m_iBlendMode; } } if ( m_bSimEnhance ) { if ( m_iNumberOfInputViews == 3 && m_cCameraData.getRelSynthViewNumbers()[ iSynthViewIdx ] < VIEW_NUM_PREC ) { iSimEnhBaseView = 2; // Take middle view } else { iSimEnhBaseView = 1; // Take left view } } if ( bRender ) { std::cout << "Rendering Frame " << iFrame << " of View " << (Double) m_cCameraData.getSynthViewNumbers()[iSynthViewIdx ] / VIEW_NUM_PREC << " Left BaseView: " << (Double) m_cCameraData.getBaseViewNumbers() [iLeftBaseViewIdx ] / VIEW_NUM_PREC << " Right BaseView: " << (Double) m_cCameraData.getBaseViewNumbers() [iRightBaseViewIdx] / VIEW_NUM_PREC << " BlendMode: " << iBlendMode << std::endl; m_pcRenTop->setShiftLUTs( m_cCameraData.getSynthViewShiftLUTD()[iLeftBaseViewIdx ][iSynthViewIdx], m_cCameraData.getSynthViewShiftLUTI()[iLeftBaseViewIdx ][iSynthViewIdx], m_cCameraData.getBaseViewShiftLUTI ()[iLeftBaseViewIdx ][iRightBaseViewIdx], m_cCameraData.getSynthViewShiftLUTD()[iRightBaseViewIdx][iSynthViewIdx], m_cCameraData.getSynthViewShiftLUTI()[iRightBaseViewIdx][iSynthViewIdx], m_cCameraData.getBaseViewShiftLUTI ()[iRightBaseViewIdx][iLeftBaseViewIdx ], iRelDistToLeft ); m_pcRenTop->interpolateView( apcPicYuvBaseVideo[iLeftBaseViewIdx ], apcPicYuvBaseDepth[iLeftBaseViewIdx ], apcPicYuvBaseVideo[iRightBaseViewIdx], apcPicYuvBaseDepth[iRightBaseViewIdx], pcPicYuvSynthOut, iBlendMode, iSimEnhBaseView ); } else { AOT(iLeftBaseViewIdx != iRightBaseViewIdx ); apcPicYuvBaseVideo[iLeftBaseViewIdx]->copyToPic( pcPicYuvSynthOut ); std::cout << "Copied Frame " << iFrame << " of View " << (Double) m_cCameraData.getSynthViewNumbers()[iSynthViewIdx] / VIEW_NUM_PREC << " (BaseView) " << std::endl; } break; /// EXTRAPOLATION FROM LEFT case 1: if ( !bHasLView ) // View to render is BaseView { bRender = false; } if ( bIsBaseView ) { AOF( iLeftBaseViewIdx == iRightBaseViewIdx ); Int iSortedBaseViewIdx = m_cCameraData.getBaseId2SortedId() [iLeftBaseViewIdx]; if ( iSortedBaseViewIdx - 1 >= 0 ) { iLeftBaseViewIdx = m_cCameraData.getBaseSortedId2Id()[ iSortedBaseViewIdx - 1]; } else { std::cout << "Copied Frame " << iFrame << " of BaseView " << (Double) m_cCameraData.getSynthViewNumbers()[iSynthViewIdx] / VIEW_NUM_PREC << std::endl; apcPicYuvBaseVideo[iLeftBaseViewIdx]->copyToPic( pcPicYuvSynthOut ); // Copy Original bRender = false; } } if (bRender) { std::cout << "Rendering Frame " << iFrame << " of View " << (Double) m_cCameraData.getSynthViewNumbers()[iSynthViewIdx] / VIEW_NUM_PREC << std::endl; m_pcRenTop->setShiftLUTs( m_cCameraData.getSynthViewShiftLUTD()[iLeftBaseViewIdx ][iSynthViewIdx], m_cCameraData.getSynthViewShiftLUTI()[iLeftBaseViewIdx ][iSynthViewIdx], NULL, NULL, NULL, NULL, -1 ); m_pcRenTop->extrapolateView( apcPicYuvBaseVideo[iLeftBaseViewIdx ], apcPicYuvBaseDepth[iLeftBaseViewIdx ], pcPicYuvSynthOut, true ); } break; /// EXTRAPOLATION FROM RIGHT case 2: // extrapolation from right if ( !bHasRView ) // View to render is BaseView { bRender = false; } if ( bIsBaseView ) { AOF( iLeftBaseViewIdx == iRightBaseViewIdx ); Int iSortedBaseViewIdx = m_cCameraData.getBaseId2SortedId() [iLeftBaseViewIdx]; if ( iSortedBaseViewIdx + 1 < m_iNumberOfInputViews ) { iRightBaseViewIdx = m_cCameraData.getBaseSortedId2Id()[ iSortedBaseViewIdx + 1]; } else { std::cout << "Copied Frame " << iFrame << " of BaseView " << (Double) m_cCameraData.getSynthViewNumbers()[iSynthViewIdx] / VIEW_NUM_PREC << std::endl; apcPicYuvBaseVideo[iLeftBaseViewIdx]->copyToPic( pcPicYuvSynthOut ); // Copy Original bRender = false; } } if ( bRender ) { std::cout << "Rendering Frame " << iFrame << " of View " << (Double) m_cCameraData.getSynthViewNumbers()[iSynthViewIdx] / VIEW_NUM_PREC << std::endl; m_pcRenTop->setShiftLUTs( NULL, NULL,NULL, m_cCameraData.getSynthViewShiftLUTD()[iRightBaseViewIdx ][iSynthViewIdx], m_cCameraData.getSynthViewShiftLUTI()[iRightBaseViewIdx ][iSynthViewIdx],NULL, iRelDistToLeft); m_pcRenTop->extrapolateView( apcPicYuvBaseVideo[iRightBaseViewIdx ], apcPicYuvBaseDepth[iRightBaseViewIdx ], pcPicYuvSynthOut, false); } break; } // Write Output #if PIC_CROPPING m_apcTVideoIOYuvSynthOutput[m_bSweep ? 0 : iSynthViewIdx]->write( pcPicYuvSynthOut, 0, 0, 0, 0 ); #else m_apcTVideoIOYuvSynthOutput[m_bSweep ? 0 : iSynthViewIdx]->write( pcPicYuvSynthOut, aiPad ); #endif } iFrame++; iNumOfRenderedFrames++; } // Delete Buffers for ( UInt uiBaseView = 0; uiBaseView < m_iNumberOfInputViews; uiBaseView++ ) { apcPicYuvBaseVideo[uiBaseView]->destroy(); delete apcPicYuvBaseVideo[uiBaseView]; apcPicYuvBaseDepth[uiBaseView]->destroy(); delete apcPicYuvBaseDepth[uiBaseView]; // Temporal Filter if ( m_bTempDepthFilter ) { apcPicYuvLastBaseVideo[uiBaseView]->destroy(); delete apcPicYuvLastBaseVideo[uiBaseView]; apcPicYuvLastBaseDepth[uiBaseView]->destroy(); delete apcPicYuvLastBaseDepth[uiBaseView]; } } pcPicYuvSynthOut->destroy(); delete pcPicYuvSynthOut; xDestroyLib(); } Void TAppRendererTop::go() { switch ( m_iRenderMode ) { case 0: render(); break; case 1: renderModel(); break; case 10: renderUsedPelsMap( ); break; default: AOT(true); } } Void TAppRendererTop::renderModel() { if ( m_bUseSetupString ) { xRenderModelFromString(); } else { xRenderModelFromNums(); } } Void TAppRendererTop::xRenderModelFromString() { xCreateLib(); xInitLib(); // Create Buffers Input Views; std::vector apcPicYuvBaseVideo; std::vector apcPicYuvBaseDepth; for ( UInt uiBaseView = 0; uiBaseView < m_iNumberOfInputViews; uiBaseView++ ) { TComPicYuv* pcNewVideoPic = new TComPicYuv; TComPicYuv* pcNewDepthPic = new TComPicYuv; pcNewVideoPic->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); apcPicYuvBaseVideo.push_back(pcNewVideoPic); pcNewDepthPic->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); apcPicYuvBaseDepth.push_back(pcNewDepthPic); } Int aiPad[2] = { 0, 0 }; // Init Model TRenModel cCurModel; AOT( m_iLog2SamplingFactor != 0 ); #if LGE_VSO_EARLY_SKIP_A0093 cCurModel.create( m_cRenModStrParser.getNumOfBaseViews(), m_cRenModStrParser.getNumOfModels(), m_iSourceWidth, m_iSourceHeight, m_iShiftPrecision, m_iBlendHoleMargin, false ); #else cCurModel.create( m_cRenModStrParser.getNumOfBaseViews(), m_cRenModStrParser.getNumOfModels(), m_iSourceWidth, m_iSourceHeight, m_iShiftPrecision, m_iBlendHoleMargin ); #endif cCurModel.setupPart( 0, m_iSourceHeight ); for ( Int iViewIdx = 0; iViewIdx < m_iNumberOfInputViews; iViewIdx++ ) { Int iNumOfModels = m_cRenModStrParser.getNumOfModelsForView(iViewIdx, 1); for (Int iCurModel = 0; iCurModel < iNumOfModels; iCurModel++ ) { Int iModelNum; Int iLeftViewNum; Int iRightViewNum; Int iDump; Int iOrgRefNum; Int iBlendMode; m_cRenModStrParser.getSingleModelData ( iViewIdx, 1, iCurModel, iModelNum, iBlendMode, iLeftViewNum, iRightViewNum, iOrgRefNum, iDump ) ; cCurModel .createSingleModel ( iViewIdx, 1, iModelNum, iLeftViewNum, iRightViewNum, false, iBlendMode ); } } // Create Buffer for synthesized View TComPicYuv* pcPicYuvSynthOut = new TComPicYuv; pcPicYuvSynthOut->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); Bool bAnyEOS = false; Int iNumOfRenderedFrames = 0; Int iFrame = 0; while ( ( ( iNumOfRenderedFrames < m_iFramesToBeRendered ) || ( m_iFramesToBeRendered == 0 ) ) && !bAnyEOS ) { if ( iFrame >= m_iFrameSkip ) { // read in depth and video for(Int iBaseViewIdx=0; iBaseViewIdx < m_iNumberOfInputViews; iBaseViewIdx++ ) { m_apcTVideoIOYuvVideoInput[iBaseViewIdx]->read( apcPicYuvBaseVideo[iBaseViewIdx], aiPad ) ; bAnyEOS |= m_apcTVideoIOYuvVideoInput[iBaseViewIdx]->isEof(); m_apcTVideoIOYuvDepthInput[iBaseViewIdx]->read( apcPicYuvBaseDepth[iBaseViewIdx], aiPad ) ; bAnyEOS |= m_apcTVideoIOYuvDepthInput[iBaseViewIdx]->isEof(); } } else { iFrame++; continue; } for(Int iBaseViewIdx=0; iBaseViewIdx < m_iNumberOfInputViews; iBaseViewIdx++ ) { TComPicYuv* pcPicYuvVideo = apcPicYuvBaseVideo[iBaseViewIdx]; TComPicYuv* pcPicYuvDepth = apcPicYuvBaseDepth[iBaseViewIdx]; Int iBaseViewSIdx = m_cCameraData.getBaseId2SortedId()[iBaseViewIdx ]; cCurModel.setBaseView( iBaseViewSIdx, pcPicYuvVideo, pcPicYuvDepth, NULL, NULL ); } m_cCameraData.update( (UInt) ( iFrame - m_iFrameSkip )); for(Int iBaseViewIdx=0; iBaseViewIdx < m_iNumberOfInputViews; iBaseViewIdx++ ) { // setup virtual views Int iBaseViewSIdx = m_cCameraData.getBaseId2SortedId()[iBaseViewIdx]; cCurModel.setErrorMode( iBaseViewSIdx, 1, 0 ); Int iNumOfSV = m_cRenModStrParser.getNumOfModelsForView( iBaseViewSIdx, 1); for (Int iCurView = 0; iCurView < iNumOfSV; iCurView++ ) { Int iOrgRefBaseViewSIdx; Int iLeftBaseViewSIdx; Int iRightBaseViewSIdx; Int iSynthViewRelNum; Int iModelNum; Int iBlendMode; m_cRenModStrParser.getSingleModelData(iBaseViewSIdx, 1, iCurView, iModelNum, iBlendMode, iLeftBaseViewSIdx, iRightBaseViewSIdx, iOrgRefBaseViewSIdx, iSynthViewRelNum ); Int iLeftBaseViewIdx = -1; Int iRightBaseViewIdx = -1; TComPicYuv* pcPicYuvOrgRef = NULL; Int** ppiShiftLUTLeft = NULL; Int** ppiShiftLUTRight = NULL; Int** ppiBaseShiftLUTLeft = NULL; Int** ppiBaseShiftLUTRight = NULL; Int iDistToLeft = -1; Int iSynthViewIdx = m_cCameraData.synthRelNum2Idx( iSynthViewRelNum ); if ( iLeftBaseViewSIdx != -1 ) { iLeftBaseViewIdx = m_cCameraData.getBaseSortedId2Id() [ iLeftBaseViewSIdx ]; ppiShiftLUTLeft = m_cCameraData.getSynthViewShiftLUTI()[ iLeftBaseViewIdx ][ iSynthViewIdx ]; } if ( iRightBaseViewSIdx != -1 ) { iRightBaseViewIdx = m_cCameraData.getBaseSortedId2Id() [iRightBaseViewSIdx ]; ppiShiftLUTRight = m_cCameraData.getSynthViewShiftLUTI()[ iRightBaseViewIdx ][ iSynthViewIdx ]; } if ( iRightBaseViewSIdx != -1 && iLeftBaseViewSIdx != -1 ) { ppiBaseShiftLUTLeft = m_cCameraData.getBaseViewShiftLUTI() [ iLeftBaseViewIdx ][ iRightBaseViewIdx ]; ppiBaseShiftLUTRight = m_cCameraData.getBaseViewShiftLUTI() [ iRightBaseViewIdx ][ iLeftBaseViewIdx ]; iDistToLeft = m_cCameraData.getRelDistLeft( iSynthViewIdx , iLeftBaseViewIdx, iRightBaseViewIdx); } std::cout << "Rendering Frame " << iFrame << " of View " << (Double) m_cCameraData.getSynthViewNumbers()[iSynthViewIdx] / VIEW_NUM_PREC << std::endl; cCurModel.setSingleModel( iModelNum, ppiShiftLUTLeft, ppiBaseShiftLUTLeft, ppiShiftLUTRight, ppiBaseShiftLUTRight, iDistToLeft, pcPicYuvOrgRef ); Int iViewPos; if (iLeftBaseViewSIdx != -1 && iRightBaseViewSIdx != -1) { iViewPos = VIEWPOS_MERGED; } else if ( iLeftBaseViewSIdx != -1 ) { iViewPos = VIEWPOS_LEFT; } else if ( iRightBaseViewSIdx != -1 ) { iViewPos = VIEWPOS_RIGHT; } else { AOT(true); } cCurModel.getSynthVideo ( iModelNum, iViewPos, pcPicYuvSynthOut ); // Write Output #if PIC_CROPPING m_apcTVideoIOYuvSynthOutput[m_bSweep ? 0 : iModelNum]->write( pcPicYuvSynthOut, 0 ,0 ,0, 0 ); #else m_apcTVideoIOYuvSynthOutput[m_bSweep ? 0 : iModelNum]->write( pcPicYuvSynthOut, aiPad ); #endif } } iFrame++; iNumOfRenderedFrames++; } // Delete Buffers for ( UInt uiBaseView = 0; uiBaseView < m_iNumberOfInputViews; uiBaseView++ ) { apcPicYuvBaseVideo[uiBaseView]->destroy(); delete apcPicYuvBaseVideo[uiBaseView]; apcPicYuvBaseDepth[uiBaseView]->destroy(); delete apcPicYuvBaseDepth[uiBaseView]; } pcPicYuvSynthOut->destroy(); delete pcPicYuvSynthOut; xDestroyLib(); } Void TAppRendererTop::xRenderModelFromNums() { xCreateLib(); xInitLib(); // Create Buffers Input Views; std::vector apcPicYuvBaseVideo; std::vector apcPicYuvBaseDepth; Int aiPad[2] = { 0, 0 }; // Init Model TRenModel cCurModel; AOT( m_iLog2SamplingFactor != 0 ); cCurModel.setupPart( 0, m_iSourceHeight ); #if LGE_VSO_EARLY_SKIP_A0093 cCurModel.create( m_iNumberOfInputViews, m_iNumberOfOutputViews, m_iSourceWidth, m_iSourceHeight, m_iShiftPrecision, m_iBlendHoleMargin, false ); #else cCurModel.create( m_iNumberOfInputViews, m_iNumberOfOutputViews, m_iSourceWidth, m_iSourceHeight, m_iShiftPrecision, m_iBlendHoleMargin ); #endif for ( UInt uiBaseView = 0; uiBaseView < m_iNumberOfInputViews; uiBaseView++ ) { TComPicYuv* pcNewVideoPic = new TComPicYuv; TComPicYuv* pcNewDepthPic = new TComPicYuv; pcNewVideoPic->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); apcPicYuvBaseVideo.push_back(pcNewVideoPic); pcNewDepthPic->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); apcPicYuvBaseDepth.push_back(pcNewDepthPic); } for(Int iSynthViewIdx=0; iSynthViewIdx < m_iNumberOfOutputViews; iSynthViewIdx++ ) { Int iLeftBaseViewIdx = -1; Int iRightBaseViewIdx = -1; Bool bIsBaseView = false; Int iRelDistToLeft; m_cCameraData.getLeftRightBaseView( iSynthViewIdx, iLeftBaseViewIdx, iRightBaseViewIdx, iRelDistToLeft, bIsBaseView ); if (m_iRenderDirection == 1 ) { iRightBaseViewIdx = -1; AOT( iLeftBaseViewIdx == -1); } if (m_iRenderDirection == 2 ) { iLeftBaseViewIdx = -1; AOT( iRightBaseViewIdx == -1); } Int iLeftBaseViewSIdx = -1; Int iRightBaseViewSIdx = -1; if (iLeftBaseViewIdx != -1 ) { iLeftBaseViewSIdx = m_cCameraData.getBaseId2SortedId()[iLeftBaseViewIdx]; } if (iRightBaseViewIdx != -1 ) { iRightBaseViewSIdx = m_cCameraData.getBaseId2SortedId()[iRightBaseViewIdx]; } cCurModel.createSingleModel(-1, -1, iSynthViewIdx, iLeftBaseViewSIdx, iRightBaseViewSIdx, false, m_iBlendMode ); } // Create Buffer for synthesized View TComPicYuv* pcPicYuvSynthOut = new TComPicYuv; pcPicYuvSynthOut->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); Bool bAnyEOS = false; Int iNumOfRenderedFrames = 0; Int iFrame = 0; while ( ( ( iNumOfRenderedFrames < m_iFramesToBeRendered ) || ( m_iFramesToBeRendered == 0 ) ) && !bAnyEOS ) { if ( iFrame >= m_iFrameSkip ) { // read in depth and video for(Int iBaseViewIdx=0; iBaseViewIdx < m_iNumberOfInputViews; iBaseViewIdx++ ) { m_apcTVideoIOYuvVideoInput[iBaseViewIdx]->read( apcPicYuvBaseVideo[iBaseViewIdx], aiPad ) ; bAnyEOS |= m_apcTVideoIOYuvVideoInput[iBaseViewIdx]->isEof(); m_apcTVideoIOYuvDepthInput[iBaseViewIdx]->read( apcPicYuvBaseDepth[iBaseViewIdx], aiPad ) ; bAnyEOS |= m_apcTVideoIOYuvDepthInput[iBaseViewIdx]->isEof(); if ( iFrame >= m_iFrameSkip ) { Int iBaseViewSIdx = m_cCameraData.getBaseId2SortedId()[iBaseViewIdx]; cCurModel.setBaseView( iBaseViewSIdx, apcPicYuvBaseVideo[iBaseViewIdx], apcPicYuvBaseDepth[iBaseViewIdx], NULL, NULL ); } } } else { iFrame++; continue; } m_cCameraData.update( (UInt) (iFrame - m_iFrameSkip )); for(Int iSynthViewIdx=0; iSynthViewIdx < m_iNumberOfOutputViews; iSynthViewIdx++ ) { Int iLeftBaseViewIdx = -1; Int iRightBaseViewIdx = -1; Bool bIsBaseView = false; Int iRelDistToLeft; Bool bHasLRView = m_cCameraData.getLeftRightBaseView( iSynthViewIdx, iLeftBaseViewIdx, iRightBaseViewIdx, iRelDistToLeft, bIsBaseView ); Bool bHasLView = ( iLeftBaseViewIdx != -1 ); Bool bHasRView = ( iRightBaseViewIdx != -1 ); switch( m_iRenderDirection ) { /// INTERPOLATION case 0: assert( bHasLRView || bIsBaseView ); if ( !bHasLRView && bIsBaseView ) // View to render is BaseView { std::cout << "Copied Frame " << iFrame << " of BaseView " << (Double) m_cCameraData.getSynthViewNumbers()[iSynthViewIdx] / VIEW_NUM_PREC << std::endl; apcPicYuvBaseVideo[iLeftBaseViewIdx]->copyToPic( pcPicYuvSynthOut ); // Copy Original } else // Render { std::cout << "Rendering Frame " << iFrame << " of View " << (Double) m_cCameraData.getSynthViewNumbers()[iSynthViewIdx] / VIEW_NUM_PREC << std::endl; cCurModel.setSingleModel( iSynthViewIdx, m_cCameraData.getSynthViewShiftLUTI()[iLeftBaseViewIdx ][iSynthViewIdx] , m_cCameraData.getBaseViewShiftLUTI ()[iLeftBaseViewIdx ][iRightBaseViewIdx], m_cCameraData.getSynthViewShiftLUTI()[iRightBaseViewIdx][iSynthViewIdx] , m_cCameraData.getBaseViewShiftLUTI ()[iRightBaseViewIdx][iLeftBaseViewIdx] , iRelDistToLeft, NULL ); cCurModel.getSynthVideo ( iSynthViewIdx, VIEWPOS_MERGED, pcPicYuvSynthOut ); } break; /// EXTRAPOLATION FROM LEFT case 1: if ( !bHasLView ) // View to render is BaseView { std::cout << "Copied Frame " << iFrame << " of BaseView " << (Double) m_cCameraData.getSynthViewNumbers()[iSynthViewIdx] / VIEW_NUM_PREC << std::endl; apcPicYuvBaseVideo[iLeftBaseViewIdx]->copyToPic( pcPicYuvSynthOut ); // Copy Original } else // Render { std::cout << "Rendering Frame " << iFrame << " of View " << (Double) m_cCameraData.getSynthViewNumbers()[iSynthViewIdx] / VIEW_NUM_PREC << std::endl; cCurModel.setSingleModel( iSynthViewIdx, m_cCameraData.getSynthViewShiftLUTI()[iLeftBaseViewIdx ][iSynthViewIdx], NULL, NULL, NULL, -1, NULL); cCurModel.getSynthVideo ( iSynthViewIdx, VIEWPOS_LEFT, pcPicYuvSynthOut ); } break; /// EXTRAPOLATION FROM RIGHT case 2: // extrapolation from right if ( !bHasRView ) // View to render is BaseView { std::cout << "Copied Frame " << iFrame << " of BaseView " << (Double) m_cCameraData.getSynthViewNumbers()[iSynthViewIdx] / VIEW_NUM_PREC << std::endl; apcPicYuvBaseVideo[iRightBaseViewIdx]->copyToPic( pcPicYuvSynthOut ); // Copy Original } else // Render { std::cout << "Rendering Frame " << iFrame << " of View " << (Double) m_cCameraData.getSynthViewNumbers()[iSynthViewIdx] / VIEW_NUM_PREC << std::endl; cCurModel.setSingleModel( iSynthViewIdx, NULL , NULL, m_cCameraData.getSynthViewShiftLUTI()[iRightBaseViewIdx ][iSynthViewIdx], NULL, -1, NULL); cCurModel.getSynthVideo ( iSynthViewIdx, VIEWPOS_RIGHT, pcPicYuvSynthOut ); } break; } // Write Output #if PIC_CROPPING m_apcTVideoIOYuvSynthOutput[m_bSweep ? 0 : iSynthViewIdx]->write( pcPicYuvSynthOut, 0, 0, 0, 0 ); #else m_apcTVideoIOYuvSynthOutput[m_bSweep ? 0 : iSynthViewIdx]->write( pcPicYuvSynthOut, aiPad ); #endif } iFrame++; iNumOfRenderedFrames++; } // Delete Buffers for ( UInt uiBaseView = 0; uiBaseView < m_iNumberOfInputViews; uiBaseView++ ) { apcPicYuvBaseVideo[uiBaseView]->destroy(); delete apcPicYuvBaseVideo[uiBaseView]; apcPicYuvBaseDepth[uiBaseView]->destroy(); delete apcPicYuvBaseDepth[uiBaseView]; } pcPicYuvSynthOut->destroy(); delete pcPicYuvSynthOut; xDestroyLib(); } Void TAppRendererTop::renderUsedPelsMap( ) { xCreateLib(); xInitLib(); // Create Buffers Input Views; std::vector apcPicYuvBaseVideo; std::vector apcPicYuvBaseDepth; // TemporalImprovement Filter std::vector apcPicYuvLastBaseVideo; std::vector apcPicYuvLastBaseDepth; Int aiPad[2] = { 0, 0 }; for ( UInt uiBaseView = 0; uiBaseView < m_iNumberOfInputViews; uiBaseView++ ) { TComPicYuv* pcNewVideoPic = new TComPicYuv; TComPicYuv* pcNewDepthPic = new TComPicYuv; pcNewVideoPic->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); apcPicYuvBaseVideo.push_back(pcNewVideoPic); pcNewDepthPic->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); apcPicYuvBaseDepth.push_back(pcNewDepthPic); //Temporal improvement Filter if ( m_bTempDepthFilter ) { pcNewVideoPic = new TComPicYuv; pcNewDepthPic = new TComPicYuv; pcNewVideoPic->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); apcPicYuvLastBaseVideo.push_back(pcNewVideoPic); pcNewDepthPic->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); apcPicYuvLastBaseDepth.push_back(pcNewDepthPic); } } // Create Buffer for synthesized View TComPicYuv* pcPicYuvSynthOut = new TComPicYuv; pcPicYuvSynthOut->create( m_iSourceWidth, m_iSourceHeight, 1, 1, 1 ); Bool bAnyEOS = false; Int iNumOfRenderedFrames = 0; Int iFrame = 0; while ( ( ( iNumOfRenderedFrames < m_iFramesToBeRendered ) || ( m_iFramesToBeRendered == 0 ) ) && !bAnyEOS ) { if ( iFrame >= m_iFrameSkip ) { // read in depth and video for(Int iBaseViewIdx=0; iBaseViewIdx < m_iNumberOfInputViews; iBaseViewIdx++ ) { m_apcTVideoIOYuvVideoInput[iBaseViewIdx]->read( apcPicYuvBaseVideo[iBaseViewIdx], aiPad ) ; apcPicYuvBaseVideo[iBaseViewIdx]->extendPicBorder(); bAnyEOS |= m_apcTVideoIOYuvVideoInput[iBaseViewIdx]->isEof(); m_apcTVideoIOYuvDepthInput[iBaseViewIdx]->read( apcPicYuvBaseDepth[iBaseViewIdx], aiPad ) ; apcPicYuvBaseDepth[iBaseViewIdx]->extendPicBorder(); bAnyEOS |= m_apcTVideoIOYuvDepthInput[iBaseViewIdx]->isEof(); if ( m_bTempDepthFilter && (iFrame >= m_iFrameSkip) ) { m_pcRenTop->temporalFilterVSRS( apcPicYuvBaseVideo[iBaseViewIdx], apcPicYuvBaseDepth[iBaseViewIdx], apcPicYuvLastBaseVideo[iBaseViewIdx], apcPicYuvLastBaseDepth[iBaseViewIdx], ( iFrame == m_iFrameSkip) ); } } } else { std::cout << "Skipping Frame " << iFrame << std::endl; iFrame++; continue; } m_cCameraData.update( (UInt) ( iFrame - m_iFrameSkip ) ); for(Int iViewIdx=1; iViewIdx < m_iNumberOfInputViews; iViewIdx++ ) { std::cout << "Rendering UsedPelsMap for Frame " << iFrame << " of View " << (Double) m_cCameraData.getBaseViewNumbers()[iViewIdx] << std::endl; Int iViewSIdx = m_cCameraData.getBaseId2SortedId()[iViewIdx]; Int iFirstViewSIdx = m_cCameraData.getBaseId2SortedId()[0]; AOT( iViewSIdx == iFirstViewSIdx ); Bool bFirstIsLeft = (iFirstViewSIdx < iViewSIdx); m_pcRenTop->setShiftLUTs( m_cCameraData.getBaseViewShiftLUTD()[0][iViewIdx], m_cCameraData.getBaseViewShiftLUTI()[0][iViewIdx], m_cCameraData.getBaseViewShiftLUTI()[0][iViewIdx], m_cCameraData.getBaseViewShiftLUTD()[0][iViewIdx], m_cCameraData.getBaseViewShiftLUTI()[0][iViewIdx], m_cCameraData.getBaseViewShiftLUTI()[0][iViewIdx], -1 ); m_pcRenTop->getUsedSamplesMap( apcPicYuvBaseDepth[0], pcPicYuvSynthOut, bFirstIsLeft ); // Write Output #if PIC_CROPPING m_apcTVideoIOYuvSynthOutput[iViewIdx-1]->write( pcPicYuvSynthOut, 0, 0, 0 ); #else m_apcTVideoIOYuvSynthOutput[iViewIdx-1]->write( pcPicYuvSynthOut, aiPad ); #endif } iFrame++; iNumOfRenderedFrames++; } // Delete Buffers for ( UInt uiBaseView = 0; uiBaseView < m_iNumberOfInputViews; uiBaseView++ ) { apcPicYuvBaseVideo[uiBaseView]->destroy(); delete apcPicYuvBaseVideo[uiBaseView]; apcPicYuvBaseDepth[uiBaseView]->destroy(); delete apcPicYuvBaseDepth[uiBaseView]; // Temporal Filter if ( m_bTempDepthFilter ) { apcPicYuvLastBaseVideo[uiBaseView]->destroy(); delete apcPicYuvLastBaseVideo[uiBaseView]; apcPicYuvLastBaseDepth[uiBaseView]->destroy(); delete apcPicYuvLastBaseDepth[uiBaseView]; } } pcPicYuvSynthOut->destroy(); delete pcPicYuvSynthOut; xDestroyLib(); } #endif