/* 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 files #include "TAppComCamPara.h" #include #include #include #include #include #include #include #include #include #include #if H_3D Void TAppComCamPara::xCreateLUTs( UInt uiNumberSourceViews, UInt uiNumberTargetViews, Double****& radLUT, Int****& raiLUT, Double***& radShiftParams, Int64***& raiShiftParams ) { AOF( m_uiBitDepthForLUT == 8 ); AOF( radShiftParams == NULL && raiShiftParams == NULL && radLUT == NULL && raiLUT == NULL ); uiNumberSourceViews = std::max( (UInt) 1, uiNumberSourceViews ); uiNumberTargetViews = std::max( (UInt) 1, uiNumberTargetViews ); radShiftParams = new Double** [ uiNumberSourceViews ]; raiShiftParams = new Int64 ** [ uiNumberSourceViews ]; radLUT = new Double***[ uiNumberSourceViews ]; raiLUT = new Int ***[ uiNumberSourceViews ]; for( UInt uiSourceView = 0; uiSourceView < uiNumberSourceViews; uiSourceView++ ) { radShiftParams[ uiSourceView ] = new Double* [ uiNumberTargetViews ]; raiShiftParams[ uiSourceView ] = new Int64 * [ uiNumberTargetViews ]; radLUT [ uiSourceView ] = new Double**[ uiNumberTargetViews ]; raiLUT [ uiSourceView ] = new Int **[ uiNumberTargetViews ]; for( UInt uiTargetView = 0; uiTargetView < uiNumberTargetViews; uiTargetView++ ) { radShiftParams[ uiSourceView ][ uiTargetView ] = new Double [ 2 ]; raiShiftParams[ uiSourceView ][ uiTargetView ] = new Int64 [ 2 ]; radLUT [ uiSourceView ][ uiTargetView ] = new Double*[ 2 ]; radLUT [ uiSourceView ][ uiTargetView ][ 0 ] = new Double [ 257 ]; radLUT [ uiSourceView ][ uiTargetView ][ 1 ] = new Double [ 257 ]; raiLUT [ uiSourceView ][ uiTargetView ] = new Int* [ 2 ]; raiLUT [ uiSourceView ][ uiTargetView ][ 0 ] = new Int [ 257 ]; raiLUT [ uiSourceView ][ uiTargetView ][ 1 ] = new Int [ 257 ]; } } } Void TAppComCamPara::xCreate2dArray( UInt uiNum1Ids, UInt uiNum2Ids, Int**& raaiArray ) { AOT( raaiArray || uiNum1Ids == 0 || uiNum2Ids == 0 ); raaiArray = new Int* [ uiNum1Ids ]; for( UInt uiId1 = 0; uiId1 < uiNum1Ids; uiId1++ ) { raaiArray[ uiId1 ] = new Int [ uiNum2Ids ]; } } Void TAppComCamPara::xInit2dArray( UInt uiNum1Ids, UInt uiNum2Ids, Int**& raaiArray, Int iValue ) { for( UInt uiId1 = 0; uiId1 < uiNum1Ids; uiId1++ ) { for( UInt uiId2 = 0; uiId2 < uiNum2Ids; uiId2++ ) { raaiArray[ uiId1 ][ uiId2 ] = iValue; } } } Void TAppComCamPara::convertNumberString( Char* pchViewNumberString, std::vector& raiViewNumbers, Double dViewNumPrec ) { Bool bStringIsRange = false; Int iIdx = 0; std::vector adViewNumbers; while( pchViewNumberString != 0 && pchViewNumberString[ iIdx ] != 0 ) { if( pchViewNumberString[ iIdx ] == ':' ) { bStringIsRange = true; pchViewNumberString[ iIdx ] = ' '; } iIdx++; } Char* pcNextStart = pchViewNumberString; Char* pcEnd = pcNextStart + iIdx; Char* pcOldStart = 0; while( pcNextStart < pcEnd ) { errno = 0; adViewNumbers.push_back( ( strtod( pcNextStart, &pcNextStart ) ) ); if( errno == ERANGE || pcNextStart == pcOldStart ) { std::cerr << "Error Parsing View Number String: `" << pchViewNumberString << "'" << std::endl; AOT(true); exit( EXIT_FAILURE ); }; while( pcNextStart < pcEnd && ( *pcNextStart == ' ' || *pcNextStart == '\t' || *pcNextStart == '\r' ) ) pcNextStart++; pcOldStart = pcNextStart; } if( bStringIsRange ) { if( adViewNumbers.size() != 3 ) { std::cerr << "Error Parsing SynthViewNumbers: `" << pchViewNumberString << "'" << std::endl; AOT(true); exit( EXIT_FAILURE ); } Double dRangeBegin = adViewNumbers[0]; Double dRangeStep = adViewNumbers[1]; Double dRangeEnd = adViewNumbers[2]; if( ( ( dRangeEnd - dRangeBegin > 0 ) != ( dRangeStep > 0 ) ) || dRangeStep == 0 ) { std::cerr << "Error Parsing SynthViewNumbers: `" << pchViewNumberString << "'" << std::endl; AOT(true); exit( EXIT_FAILURE ); } raiViewNumbers.clear(); Double dFac = ( dRangeBegin > dRangeEnd ? -1 : 1 ); for( Double dViewNumber = dRangeBegin; ( dViewNumber - dRangeEnd ) * dFac <= 0; dViewNumber += dRangeStep ) { raiViewNumbers.push_back( (Int)( dViewNumber * dViewNumPrec ) ); } } else { for( UInt uiViewNum = 0; uiViewNum < adViewNumbers.size(); uiViewNum++ ) { raiViewNumbers.push_back( (Int)( adViewNumbers[ uiViewNum ] * dViewNumPrec ) ); } } } Void TAppComCamPara::xReadCameraParameterFile( Char* pchCfgFileName ) { std::ifstream cCfgStream( pchCfgFileName, std::ifstream::in ); if( !cCfgStream ) { std::cerr << "Failed to open camera parameter file: `" << pchCfgFileName << "'" << std::endl; exit( EXIT_FAILURE ); } Int iLineNumber = 0; do { std::string cLine; getline( cCfgStream, cLine ); iLineNumber++; size_t iStart = cLine.find_first_not_of( " \t\n\r" ); if( iStart == std::string::npos ) { continue; } if( cLine[iStart] == '#' ) { continue; } Char* pcNextStart = (Char*) cLine.data(); Char* pcEnd = pcNextStart + cLine.length(); std::vector caNewLine; caNewLine.clear(); Char* pcOldStart = 0; while( pcNextStart < pcEnd ) { errno = 0; caNewLine.push_back( strtod( pcNextStart, &pcNextStart ) ) ; if( errno == ERANGE || ( pcNextStart == pcOldStart ) ) { std::cerr << "Failed reading config file: `" << pchCfgFileName << "' Error parsing double values in Line: " << iLineNumber << ' ' << std::endl; assert( 0 ); exit( EXIT_FAILURE ); }; pcOldStart = pcNextStart; while( ( pcNextStart < pcEnd ) && ( *pcNextStart == ' ' || *pcNextStart == '\t' || *pcNextStart == '\r' ) ) pcNextStart++; } if ( ( caNewLine.size() != 2 ) && ( caNewLine.size() != 7 ) && ( caNewLine.size() != 6 ) && ( caNewLine.size() != 8 ) ) { std::cerr << "Failed reading config file: `" << pchCfgFileName << "'" << std::endl; std::cerr << "Invalid number of entries" << std::endl; AOF(false); exit( EXIT_FAILURE ); } m_aadCameraParameters.push_back( caNewLine ); } while( cCfgStream ); } Void TAppComCamPara::xGetCodedCameraData( UInt uiSourceView, UInt uiTargetView, Bool bByIdx, UInt uiFrame, Int& riScale, Int& riOffset, Int& riPrecision ) { if( bByIdx ) { uiSourceView = m_aiBaseViews[ uiSourceView ]; uiTargetView = m_aiBaseViews[ uiTargetView ]; } Int iFoundLine = -1; for( UInt uiCurViewLine = 0; uiCurViewLine < m_aadCameraParameters.size(); uiCurViewLine++ ) { if ( m_aadCameraParameters[uiCurViewLine].size() == 2 ) continue; if( ( (Int)( m_aadCameraParameters[ uiCurViewLine ][ 3 ] * m_dViewNumPrec ) == uiSourceView ) && ( (Int)( m_aadCameraParameters[ uiCurViewLine ][ 2 ] * m_dViewNumPrec ) == uiTargetView ) ) { if( ( (UInt)m_aadCameraParameters[ uiCurViewLine ][ 0 ] <= uiFrame ) && ( (UInt)m_aadCameraParameters[ uiCurViewLine ][ 1 ] >= uiFrame ) ) { if( iFoundLine != -1 ) { std::cerr << "Error CameraParameters for SourceView " << (Double) uiSourceView / m_dViewNumPrec << " and Target View " << (Double) uiTargetView / m_dViewNumPrec << " and Frame " << uiFrame << " given multiple times." << std::endl; AOT(true); exit( EXIT_FAILURE ); } else { iFoundLine = uiCurViewLine; } } } } if ( iFoundLine == -1 ) { std::cerr << "Error CameraParameters for SourceView " << (Double) uiSourceView / m_dViewNumPrec << " and Target View " << (Double) uiTargetView / m_dViewNumPrec << " and Frame " << uiFrame << " not found." << std::endl; AOT(true); exit( EXIT_FAILURE ); } riScale = (Int)( m_aadCameraParameters[ iFoundLine ][ 4 ] ); riOffset = (Int)( m_aadCameraParameters[ iFoundLine ][ 5 ] ); riPrecision = (Int)( m_aadCameraParameters[ iFoundLine ][ 6 ] ); } Bool TAppComCamPara::xGetCameraDataRow( Int iView, UInt uiFrame, UInt& ruiFoundLine ) { ruiFoundLine = -1; for( UInt uiCurViewLine = 0; uiCurViewLine < m_aadCameraParameters.size(); uiCurViewLine++ ) { if( (Int)( m_aadCameraParameters[ uiCurViewLine ][ 0 ] * m_dViewNumPrec ) == iView ) { if( ( (UInt)m_aadCameraParameters[ uiCurViewLine ][ 1 ] <= uiFrame ) && ( (UInt)m_aadCameraParameters[ uiCurViewLine ][ 2 ] >= uiFrame ) ) { if( ruiFoundLine != -1 ) { std::cerr << "Error CameraParameters for View " << (Double) iView / m_dViewNumPrec << " and Frame " << uiFrame << " given multiple times." << std::endl; exit( EXIT_FAILURE ); } else { ruiFoundLine = uiCurViewLine; } } } } return ( ruiFoundLine == -1 ); } Void TAppComCamPara::xGetSortedViewList( const std::vector& raiViews, std::vector& raiSortedViews, std::vector& raiId2SortedId, std::vector& raiSortedId2Id ) { AOF( raiViews.size() > 0 ); Int iNumViews = (Int)raiViews.size(); raiId2SortedId = std::vector( raiViews.size(), -1 ); raiSortedId2Id.clear(); raiSortedViews.clear(); for( Int iSortId = 0; iSortId < iNumViews; iSortId++ ) { Int iLeftMostBaseId = -1; for( Int iBaseId = 0; iLeftMostBaseId == -1 && iBaseId < iNumViews; iBaseId++ ) { if( raiId2SortedId[ iBaseId ] == -1 ) { UInt uiFoundLine = -1; xGetCameraDataRow( raiViews[ iBaseId ], 0, uiFoundLine ); AOT( uiFoundLine == -1 ); // something wrong Double dXPos = m_aadCameraParameters[ uiFoundLine ][ 4 ]; Double dZNear = m_aadCameraParameters[ uiFoundLine ][ 6 ]; Double dZFar = m_aadCameraParameters[ uiFoundLine ][ 7 ]; Double dSign = ( dZFar > 0 ? 1.0 : -1.0 ); Bool bLeftMost = true; AOF( dZNear * dZFar > 0.0 ); // otherwise, z parameters are not correct for( Int iTestBaseId = 0; bLeftMost && iTestBaseId < iNumViews; iTestBaseId++ ) { if( iTestBaseId != iBaseId && raiId2SortedId[ iTestBaseId ] == -1 ) { UInt uiFoundLineTest = -1; xGetCameraDataRow( raiViews[ iTestBaseId ], 0, uiFoundLineTest ); AOT( uiFoundLineTest == -1 ); // something wrong Double dXPosTest = m_aadCameraParameters[ uiFoundLineTest ][ 4 ]; Double dZNearTest = m_aadCameraParameters[ uiFoundLineTest ][ 6 ]; Double dZFarTest = m_aadCameraParameters[ uiFoundLineTest ][ 7 ]; AOF( dZNearTest * dZFarTest > 0.0 ); // otherwise, z parameters are not correct AOF( dZNearTest * dSign > 0.0 ); // otherwise, z parameters are not consistent Double dDeltaXPos = dSign * ( dXPosTest - dXPos ); bLeftMost = ( bLeftMost && dDeltaXPos > 0.0 ); } } if( bLeftMost ) { iLeftMostBaseId = iBaseId; } } } AOT( iLeftMostBaseId == -1 ); // something wrong raiId2SortedId[ iLeftMostBaseId ] = iSortId; raiSortedId2Id.push_back( iLeftMostBaseId ); raiSortedViews.push_back( raiViews[ iLeftMostBaseId ] ); } // sanity check if( iNumViews > 2 ) { Int iDeltaView = gSign( raiSortedViews[ 1 ] - raiSortedViews[ 0 ] ); Bool bOutOfOrder = false; for( Int iSIdx = 2; iSIdx < iNumViews; iSIdx++ ) { bOutOfOrder = ( bOutOfOrder || iDeltaView * gSign( raiSortedViews[ iSIdx ] - raiSortedViews[ iSIdx - 1 ] ) < 0 ); } if( bOutOfOrder ) { std::cerr << "ERROR: View numbering must be strictly increasing or decreasing from left to right" << std::endl; exit(EXIT_FAILURE); } } } Void TAppComCamPara::xGetViewOrderIndices( const std::vector& raiId2SortedId, std::vector& raiVOIdx ) { AOF( raiId2SortedId.size() ); raiVOIdx = raiId2SortedId; Int iSize = (Int)raiId2SortedId.size(); Int iOffs = raiId2SortedId[ 0 ]; for( Int iIdx = 0; iIdx < iSize; iIdx++ ) { raiVOIdx[ iIdx ] -= iOffs; } } Bool TAppComCamPara::xGetCamParsChangeFlag() { Bool bChangeDetected = false; for( Int iBaseViewId = 0; !bChangeDetected && iBaseViewId < m_iNumberOfBaseViews; iBaseViewId++ ) { if ( m_bSetupFromCoded ) { for( Int iTargetViewId = 0; !bChangeDetected && iTargetViewId < m_iNumberOfBaseViews; iTargetViewId++ ) { Int iTargetView = m_aiBaseViews[iTargetViewId]; Int iSourceView = m_aiBaseViews[iBaseViewId ]; Int iS1 ,iSX; Int iO1 ,iOX; Int iP1 ,iPX; if ( iSourceView == iTargetView ) continue; xGetCodedCameraData( iSourceView, iTargetView, false, 0, iS1, iO1, iP1 ); for( UInt uiFrameId = m_uiFirstFrameId + 1; !bChangeDetected && uiFrameId <= m_uiLastFrameId; uiFrameId++ ) { xGetCodedCameraData( iSourceView, iTargetView, false, uiFrameId, iSX, iOX, iPX ); if( iS1 != iSX || iO1 != iOX || iP1 != iPX ) { bChangeDetected = true; } } } } else { Int iBaseView = m_aiBaseViews[ iBaseViewId ]; Double dFL1, dFLX; Double dCP1, dCPX; Double dCS1, dCSX; Double dZN1, dZNX; Double dZF1, dZFX; Bool bInterpolated; xGetGeometryData( iBaseView, m_uiFirstFrameId, dFL1, dCP1, dCS1, bInterpolated ); AOT( bInterpolated ); xGetZNearZFar ( iBaseView, m_uiFirstFrameId, dZN1, dZF1 ); for( UInt uiFrameId = m_uiFirstFrameId + 1; !bChangeDetected && uiFrameId <= m_uiLastFrameId; uiFrameId++ ) { xGetGeometryData( iBaseView, uiFrameId, dFLX, dCPX, dCSX, bInterpolated ); AOT( bInterpolated ); xGetZNearZFar ( iBaseView, uiFrameId, dZNX, dZFX ); if( dFL1 != dFLX || dCP1 != dCPX || dCS1 != dCSX || dZN1 != dZNX || dZF1 != dZFX ) { bChangeDetected = true; } } } } return bChangeDetected; } Int TAppComCamPara::xGetViewId( std::vector aiViewList, Int iBaseView ) { Int iViewId = -1; for( Int iId = 0; iId < (Int)aiViewList.size(); iId++ ) { if( aiViewList[ iId ] == iBaseView ) { iViewId = iId; break; } } AOT( iViewId == -1 ); return iViewId; } Int TAppComCamPara::xGetBaseViewId( Int iBaseView ) { return xGetViewId( m_aiBaseViews, iBaseView ); } Bool TAppComCamPara::xGetLeftRightView( Int iView, std::vector aiSortedViews, Int& riLeftView, Int& riRightView, Int& riLeftSortedViewIdx, Int& riRightSortedViewIdx ) { Bool bFoundLRView = false; Int iLeftView = -1; Int iRightView = -1; Int iLeftViewIdx = -1; Int iRightViewIdx = -1; Bool bDecencdingVN = ( aiSortedViews.size() >= 2 && aiSortedViews[ 0 ] > aiSortedViews[ 1 ] ); Int iFactor = ( bDecencdingVN ? -1 : 1 ); for( Int iIdx = -1; iIdx < (Int)aiSortedViews.size(); iIdx++ ) { if( iIdx == -1 ) { if( ( aiSortedViews[ iIdx + 1 ] - iView ) * iFactor > 0 ) { bFoundLRView = false; iLeftView = -1; iRightView = aiSortedViews[ iIdx + 1 ]; iLeftViewIdx = -1; iRightViewIdx = iIdx + 1; break; } } else if ( iIdx == (Int)aiSortedViews.size() - 1 ) { if( ( aiSortedViews[ iIdx ] - iView ) * iFactor < 0 ) { bFoundLRView = false; iLeftView = aiSortedViews[ iIdx ]; iRightView = -1; iLeftViewIdx = iIdx; iRightViewIdx = -1; break; } } else { if( ( ( aiSortedViews[ iIdx ] - iView ) * iFactor <= 0 ) && ( ( aiSortedViews[ iIdx + 1 ] - iView ) * iFactor >= 0 ) ) { bFoundLRView = true; iLeftView = aiSortedViews[ iIdx ]; iRightView = aiSortedViews[ iIdx + 1 ]; iLeftViewIdx = iIdx; iRightViewIdx = iIdx + 1; break; } } } if ( ( iView == iLeftView ) || ( iView == iRightView ) ) { iLeftViewIdx = ( iView == iLeftView ) ? iLeftViewIdx : iRightViewIdx; iRightViewIdx = iLeftViewIdx; iLeftView = iView; iRightView = iView; bFoundLRView = false; } riLeftView = iLeftView; riRightView = iRightView; riLeftSortedViewIdx = iLeftViewIdx; riRightSortedViewIdx = iRightViewIdx; return bFoundLRView; } Void TAppComCamPara::xGetPrevAndNextBaseView( Int iSourceViewNum, Int iTargetViewNum, Int& riPrevBaseViewNum, Int& riNextBaseViewNum ) { Int iLeftView; Int iRightView; Int iDummy; xGetLeftRightView( iTargetViewNum, m_aiSortedBaseViews, iLeftView, iRightView, iDummy, iDummy ); if( iLeftView == iRightView ) { riPrevBaseViewNum = iLeftView; riNextBaseViewNum = iLeftView; } else { Bool bDecencdingVN = ( m_aiSortedBaseViews.size() >= 2 && m_aiSortedBaseViews[ 0 ] > m_aiSortedBaseViews[ 1 ] ); Bool bNextViewIsLeft = ( bDecencdingVN ? ( iSourceViewNum < iTargetViewNum ) : ( iSourceViewNum > iTargetViewNum ) ); if ( bNextViewIsLeft ) { riPrevBaseViewNum = iRightView; riNextBaseViewNum = iLeftView; } else { riPrevBaseViewNum = iLeftView; riNextBaseViewNum = iRightView; } } } Void TAppComCamPara::xGetZNearZFar( Int iView, UInt uiFrame, Double& rdZNear, Double& rdZFar ) { UInt uiFoundLine = -1; if( !xGetCameraDataRow( iView, uiFrame, uiFoundLine ) || !( m_aadCameraParameters[ uiFoundLine ].size() < 8 ) ) { rdZNear = m_aadCameraParameters[ uiFoundLine ][ 6 ]; rdZFar = m_aadCameraParameters[ uiFoundLine ][ 7 ]; } else { std::cerr << "No ZNear or no ZFar for View " << (Double)iView / m_dViewNumPrec << " and Frame " << uiFrame << " given in CameraParameterFile" << std::endl; exit( EXIT_FAILURE ); } } Void TAppComCamPara::xGetGeometryData( Int iView, UInt uiFrame, Double& rdFocalLength, Double& rdPosition, Double& rdCameraShift, Bool& rbInterpolated ) { UInt uiFoundLine = -1; #if H_3D_FIX_REN_WARNING if ( !xGetCameraDataRow( iView, uiFrame, uiFoundLine ) && xIsIn( m_aiSortedBaseViews, iView )) #else if ( !xGetCameraDataRow( iView, uiFrame, uiFoundLine ) ) #endif { AOT( m_aadCameraParameters[ uiFoundLine ].size() < 6 ); rbInterpolated = false; rdFocalLength = m_aadCameraParameters[ uiFoundLine ][ 3 ]; rdPosition = m_aadCameraParameters[ uiFoundLine ][ 4 ]; rdCameraShift = m_aadCameraParameters[ uiFoundLine ][ 5 ]; } else { UInt uiLeftViewLine; UInt uiRightViewLine; Int iLeftView; Int iRightView; Int iDummy; #if H_3D_FIX_REN_WARNING if( !xGetLeftRightView( iView, m_aiSortedBaseViews, iLeftView, iRightView, iDummy, iDummy ) || #else if( !xGetLeftRightView( iView, m_aiViewsInCfgFile, iLeftView, iRightView, iDummy, iDummy ) || #endif xGetCameraDataRow( iLeftView, uiFrame, uiLeftViewLine ) || xGetCameraDataRow( iRightView, uiFrame, uiRightViewLine ) ) { #if H_3D_FIX_REN_WARNING std::cerr << "No left or no right base view next to view " << (Double)iView / m_dViewNumPrec << " for Frame " << uiFrame << " given in CameraParameterFile" << std::endl; #else std::cerr << "No Left or no Right View next to View " << (Double)iView / m_dViewNumPrec << " for Frame " << uiFrame << " given in CameraParameterFile" << std::endl; #endif AOT(true); exit( EXIT_FAILURE ); } AOT( m_aadCameraParameters[ uiLeftViewLine ].size() < 6 ); AOT( m_aadCameraParameters[ uiRightViewLine ].size() < 6 ); // Linear Interpolation Double dFactor = ( (Double)( iView - iLeftView ) ) / ( (Double)( iRightView - iLeftView ) ); rdFocalLength = m_aadCameraParameters[ uiLeftViewLine ][ 3 ] + dFactor * ( m_aadCameraParameters[ uiRightViewLine ][ 3 ] - m_aadCameraParameters[ uiLeftViewLine ][ 3 ] ); rdPosition = m_aadCameraParameters[ uiLeftViewLine ][ 4 ] + dFactor * ( m_aadCameraParameters[ uiRightViewLine ][ 4 ] - m_aadCameraParameters[ uiLeftViewLine ][ 4 ] ); rdCameraShift = m_aadCameraParameters[ uiLeftViewLine ][ 5 ] + dFactor * ( m_aadCameraParameters[ uiRightViewLine ][ 5 ] - m_aadCameraParameters[ uiLeftViewLine ][ 5 ] ); rbInterpolated = true; } } Bool TAppComCamPara::xGetShiftParameterReal( UInt uiSourceView, UInt uiTargetView, UInt uiFrame, Bool bExternal, Bool bByIdx, Double& rdScale, Double& rdOffset ) { AOT( m_bSetupFromCoded ); Bool bInterpolatedSource; Double dMinDepthSource; Double dMaxDepthSource; Double dFocalLengthSource; Double dPositionSource; Double dIntersectionSource; Bool bInterpolatedTarget; Double dPositionTarget; Double dIntersectionTarget; Double dFocalLengthTarget; Int iTargetViewNum; Int iSourceViewNum; if( bByIdx ) { iSourceViewNum = m_aiBaseViews[ uiSourceView ]; iTargetViewNum = ( bExternal ? m_aiSynthViews[ uiTargetView ] : m_aiBaseViews[ uiTargetView ] ); } else { iSourceViewNum = (Int) uiSourceView; iTargetViewNum = (Int) uiTargetView; } xGetGeometryData( iSourceViewNum, uiFrame, dFocalLengthSource, dPositionSource, dIntersectionSource, bInterpolatedSource ); xGetZNearZFar ( iSourceViewNum, uiFrame, dMinDepthSource, dMaxDepthSource ); xGetGeometryData( iTargetViewNum, uiFrame, dFocalLengthTarget, dPositionTarget, dIntersectionTarget, bInterpolatedTarget ); Double dFactor = dFocalLengthSource * ( dPositionTarget - dPositionSource ); rdScale = dFactor * ( 1.0 / dMinDepthSource - 1.0 / dMaxDepthSource ) / (Double)( ( 1 << m_uiInputBitDepth ) - 1 ); rdOffset = dFactor / dMaxDepthSource - dIntersectionTarget + dIntersectionSource; return ( bInterpolatedSource || bInterpolatedTarget ); } Void TAppComCamPara::xGetShiftParameterCoded( UInt uiSourceView, UInt uiTargetView, UInt uiFrame, Bool bByIdx, Int& riScale, Int& riOffset ) { if ( m_bSetupFromCoded ) { if ( uiSourceView == uiTargetView ) { riScale = 0; riOffset = 0; return; } Int iCamParsCodedPrecision; xGetCodedCameraData( uiSourceView, uiTargetView, bByIdx, uiFrame, riScale, riOffset, iCamParsCodedPrecision ); if ( m_bCamParsCodedPrecSet ) { AOT( m_uiCamParsCodedPrecision != (UInt) iCamParsCodedPrecision ); } else { m_uiCamParsCodedPrecision = (UInt) iCamParsCodedPrecision; m_bCamParsCodedPrecSet = true; } } else { Double dScale, dOffset; Bool bInterpolated = xGetShiftParameterReal( uiSourceView, uiTargetView, uiFrame, false, bByIdx, dScale, dOffset ); AOT( bInterpolated ); // must be base view Double dMultOffset = (Double)( 1 << ( m_uiCamParsCodedPrecision + 1 ) ); Double dMultScale = (Double)( 1 << ( m_uiCamParsCodedPrecision + 1 + m_uiInputBitDepth ) ); riOffset = (Int)floor( dMultOffset * dOffset + .5 ); riScale = (Int)floor( dMultScale * dScale + .5 ); } } Void TAppComCamPara::xGetShiftParameterInt( UInt uiSourceView, UInt uiTargetView, UInt uiFrame, Bool bExternal, Bool bByIdx, Int64& riScale, Int64& riOffset ) { Int iTargetViewNum; Int iSourceViewNum; Int iPrevBaseViewNum; Int iNextBaseViewNum; Int iTargetViewRelNum; if( bByIdx ) { iSourceViewNum = m_aiBaseViews[ uiSourceView ]; if ( bExternal ) { iTargetViewNum = m_aiSynthViews [ uiTargetView ]; iTargetViewRelNum = m_aiRelSynthViewsNum[ uiTargetView ]; } else { iTargetViewNum = m_aiBaseViews [ uiTargetView ]; iTargetViewRelNum = m_aiBaseId2SortedId [ uiTargetView ] * ((Int) m_dViewNumPrec ); } } else { iSourceViewNum = (Int) uiSourceView; iTargetViewNum = (Int) uiTargetView; if ( bExternal ) { iTargetViewRelNum = m_aiRelSynthViewsNum[ xGetViewId( m_aiSynthViews, (Int) uiTargetView )]; } else { iTargetViewRelNum = m_aiBaseId2SortedId[ xGetBaseViewId( uiTargetView) ] * ((Int) m_dViewNumPrec ); } } xGetPrevAndNextBaseView( iSourceViewNum, iTargetViewNum, iPrevBaseViewNum, iNextBaseViewNum ); AOT( iPrevBaseViewNum == -1 ); // should not happen AOT( iNextBaseViewNum == -1 ); // should not happen Int iSrcId = xGetBaseViewId( iSourceViewNum ); Int iPrevId = xGetBaseViewId( iPrevBaseViewNum ); Int iNextId = xGetBaseViewId( iNextBaseViewNum ); AOF( m_aaiScaleAndOffsetSet[ iSrcId ][ iPrevId ] ); // coded scale and offset must be set AOF( m_aaiScaleAndOffsetSet[ iSrcId ][ iNextId ] ); // coded scale and offset must be set Int iNextBaseViewRelNum = m_aiBaseId2SortedId[ iNextId ] * ((Int) m_dViewNumPrec ); Int iPrevBaseViewRelNum = m_aiBaseId2SortedId[ iPrevId ] * ((Int) m_dViewNumPrec ); Int64 iPrevScale = (Int64)m_aaiCodedScale [ iSrcId ][ iPrevId ]; Int64 iNextScale = (Int64)m_aaiCodedScale [ iSrcId ][ iNextId ]; Int64 iPrevOffset = (Int64)m_aaiCodedOffset[ iSrcId ][ iPrevId ] << m_uiBitDepthForLUT; Int64 iNextOffset = (Int64)m_aaiCodedOffset[ iSrcId ][ iNextId ] << m_uiBitDepthForLUT; if( iPrevBaseViewNum == iNextBaseViewNum ) { riScale = iNextScale; riOffset = iNextOffset; } else { riScale = Int64( iTargetViewRelNum - iPrevBaseViewRelNum ) * iNextScale; riScale += Int64( iNextBaseViewRelNum - iTargetViewRelNum ) * iPrevScale; riOffset = Int64( iTargetViewRelNum - iPrevBaseViewRelNum ) * iNextOffset; riOffset += Int64( iNextBaseViewRelNum - iTargetViewRelNum ) * iPrevOffset; Int64 iD = Int64( iNextBaseViewRelNum - iPrevBaseViewRelNum ); Int64 iSA = ( riScale > 0 ? iD / 2 : -iD / 2 ); Int64 iOA = ( riOffset > 0 ? iD / 2 : -iD / 2 ); riScale = ( riScale + iSA ) / iD; riOffset = ( riOffset + iOA ) / iD; } } Void TAppComCamPara::xSetCodedScaleOffset( UInt uiFrame ) { for( UInt uiSourceId = 0; uiSourceId < m_iNumberOfBaseViews; uiSourceId++ ) { for( UInt uiTargetId = 0; uiTargetId < m_iNumberOfBaseViews; uiTargetId++ ) { Int iScale, iOffset; xGetShiftParameterCoded( uiSourceId, uiTargetId, uiFrame, true, iScale, iOffset ); m_aaiCodedScale [ uiSourceId ][ uiTargetId ] = iScale; m_aaiCodedOffset [ uiSourceId ][ uiTargetId ] = iOffset; m_aaiScaleAndOffsetSet [ uiSourceId ][ uiTargetId ] = 1; } } } Void TAppComCamPara::xSetShiftParametersAndLUT( UInt uiNumberSourceViews, UInt uiNumberTargetViews, UInt uiFrame, Bool bExternalReference , Double****& radLUT, Int****& raiLUT, Double***& radShiftParams, Int64***& raiShiftParams ) { if( uiNumberSourceViews <= 1 || uiNumberTargetViews == 0 ) { return; } AOF( radShiftParams != NULL && raiShiftParams != NULL && radLUT != NULL && raiLUT != NULL ); AOF( m_uiBitDepthForLUT == 8 ); Int iLog2DivLuma = m_uiBitDepthForLUT + m_uiCamParsCodedPrecision + 1 - m_iLog2Precision; AOF( iLog2DivLuma > 0 ); Int iLog2DivChroma = iLog2DivLuma + 1; Double dMaxDispDev = 0.0; Double dMaxRndDispDvL = 0.0; Double dMaxRndDispDvC = 0.0; for( UInt uiSourceView = 0; uiSourceView < uiNumberSourceViews; uiSourceView++ ) { for( UInt uiTargetView = 0; uiTargetView < uiNumberTargetViews; uiTargetView++ ) { // integer-valued scale and offset Int64 iScale, iOffset; xGetShiftParameterInt ( uiSourceView, uiTargetView, uiFrame, bExternalReference, true, iScale, iOffset ); raiShiftParams[ uiSourceView][ uiTargetView ][ 0 ] = iScale; raiShiftParams[ uiSourceView][ uiTargetView ][ 1 ] = iOffset; // offsets including rounding offsets Int64 iOffsetLuma = iOffset + ( ( 1 << iLog2DivLuma ) >> 1 ); Int64 iOffsetChroma = iOffset + ( ( 1 << iLog2DivChroma ) >> 1 ); // real-valued scale and offset Double dScale, dOffset; if ( m_bSetupFromCoded ) { dScale = (Double) iScale / (( Double ) ( 1 << iLog2DivLuma )); dOffset = (Double) iOffset / (( Double ) ( 1 << iLog2DivLuma )); } else { xGetShiftParameterReal( uiSourceView, uiTargetView, uiFrame, bExternalReference, true, dScale, dOffset ); } radShiftParams[ uiSourceView][ uiTargetView ][ 0 ] = dScale; radShiftParams[ uiSourceView][ uiTargetView ][ 1 ] = dOffset; for( UInt uiDepthValue = 0; uiDepthValue < 256; uiDepthValue++ ) { // real-valued look-up tables Double dShiftLuma = ( (Double)uiDepthValue * dScale + dOffset ) * Double( 1 << m_iLog2Precision ); Double dShiftChroma = dShiftLuma / 2; radLUT[ uiSourceView ][ uiTargetView ][ 0 ][ uiDepthValue ] = dShiftLuma; radLUT[ uiSourceView ][ uiTargetView ][ 1 ][ uiDepthValue ] = dShiftChroma; // integer-valued look-up tables Int64 iTempScale = (Int64)uiDepthValue * iScale; Int64 iTestScale = ( iTempScale + iOffset ); // for checking accuracy of camera parameters Int64 iShiftLuma = ( iTempScale + iOffsetLuma ) >> iLog2DivLuma; Int64 iShiftChroma = ( iTempScale + iOffsetChroma ) >> iLog2DivChroma; raiLUT[ uiSourceView ][ uiTargetView ][ 0 ][ uiDepthValue ] = (Int)iShiftLuma; raiLUT[ uiSourceView ][ uiTargetView ][ 1 ][ uiDepthValue ] = (Int)iShiftChroma; // maximum deviation #if H_3D_REN_MAX_DEV_OUT m_dMaxShiftDeviation = std::max( m_dMaxShiftDeviation, fabs( Double( (Int) iShiftLuma ) - dShiftLuma ) / Double( 1 << m_iLog2Precision ) ); #endif dMaxDispDev = std::max( dMaxDispDev, fabs( Double( (Int) iTestScale ) - dShiftLuma * Double( 1 << iLog2DivLuma ) ) / Double( 1 << iLog2DivLuma ) ); dMaxRndDispDvL = std::max( dMaxRndDispDvL, fabs( Double( (Int) iShiftLuma ) - dShiftLuma ) ); dMaxRndDispDvC = std::max( dMaxRndDispDvC, fabs( Double( (Int) iShiftChroma ) - dShiftChroma ) ); } radLUT[ uiSourceView ][ uiTargetView ][ 0 ][ 256 ] = radLUT[ uiSourceView ][ uiTargetView ][ 0 ][ 255 ]; radLUT[ uiSourceView ][ uiTargetView ][ 1 ][ 256 ] = radLUT[ uiSourceView ][ uiTargetView ][ 1 ][ 255 ]; raiLUT[ uiSourceView ][ uiTargetView ][ 0 ][ 256 ] = raiLUT[ uiSourceView ][ uiTargetView ][ 0 ][ 255 ]; raiLUT[ uiSourceView ][ uiTargetView ][ 1 ][ 256 ] = raiLUT[ uiSourceView ][ uiTargetView ][ 1 ][ 255 ]; } } // check maximum deviation Double dMaxAllowedDispDev = Double( 1 << m_iLog2Precision ) / Double( 1 << m_uiCamParsCodedPrecision ); // counting only the impact of camera parameter rounding Double dMaxAllowedRndDispDvL = 0.5 + Double( 1 << m_iLog2Precision ) / Double( 1 << m_uiCamParsCodedPrecision ); // final rounding and impact of camera parameter rounding Double dMaxAllowedRndDispDvC = 0.5 + Double( 1 << m_iLog2Precision ) / Double( 1 << m_uiCamParsCodedPrecision ) / 2.0; // final rounding and impact of camera parameter rounding if( ( dMaxDispDev >= dMaxAllowedDispDev || dMaxRndDispDvL >= dMaxAllowedRndDispDvL || dMaxRndDispDvC >= dMaxAllowedRndDispDvC ) && !m_bSetupFromCoded ) { std::cout << "Warning: Something wrong with the accuracy of coded camera parameters:" << std::endl; if( dMaxDispDev >= dMaxAllowedDispDev ) { std::cout << " max disparity difference is " << dMaxDispDev << " (allowed: " << dMaxAllowedDispDev << ")" << std::endl; } if( dMaxRndDispDvL >= dMaxAllowedRndDispDvL ) { std::cout << " max rnd luma disp diff is " << dMaxRndDispDvL << " (allowed: " << dMaxAllowedRndDispDvL << ")" << std::endl; } if( dMaxRndDispDvC >= dMaxAllowedRndDispDvC ) { std::cout << " max rnd chroma disp diff is " << dMaxRndDispDvC << " (allowed: " << dMaxAllowedRndDispDvC << ")" << std::endl; } } } Void TAppComCamPara::xSetShiftParametersAndLUT( UInt uiFrame ) { xInit2dArray ( (UInt)m_iNumberOfBaseViews, (UInt)m_iNumberOfBaseViews, m_aaiScaleAndOffsetSet, 0 ); xSetCodedScaleOffset ( uiFrame ); xSetShiftParametersAndLUT( (UInt)m_iNumberOfBaseViews, (UInt)m_iNumberOfBaseViews, uiFrame, false, m_adBaseViewShiftLUT, m_aiBaseViewShiftLUT, m_adBaseViewShiftParameter, m_aiBaseViewShiftParameter ); xSetShiftParametersAndLUT( (UInt)m_iNumberOfBaseViews, (UInt)m_iNumberOfSynthViews, uiFrame, true, m_adSynthViewShiftLUT, m_aiSynthViewShiftLUT, m_adSynthViewShiftParameter, m_aiSynthViewShiftParameter ); }; Void TAppComCamPara::xGetCameraShifts( UInt uiSourceView, UInt uiTargetView, UInt uiFrame, Double& rdCamPosShift, Double& rdPicPosShift ) { Double dDummy, dCamPosSource, dCamPosTarget, dPicPosSource, dPicPosTarget; Bool bInterpolatedSource, bInterpolatedTarget; Int iTargetViewNum = m_aiBaseViews[ uiTargetView ]; Int iSourceViewNum = m_aiBaseViews[ uiSourceView ]; xGetGeometryData( iSourceViewNum, uiFrame, dDummy, dCamPosSource, dPicPosSource, bInterpolatedSource ); xGetGeometryData( iTargetViewNum, uiFrame, dDummy, dCamPosTarget, dPicPosTarget, bInterpolatedTarget ); AOT( bInterpolatedSource || bInterpolatedTarget ); rdCamPosShift = ( dCamPosTarget - dCamPosSource ); rdPicPosShift = -( dPicPosTarget - dPicPosSource ); // to be consistent } Void TAppComCamPara::xSetPdmConversionParams() { AOF( m_aiViewOrderIndex[ 0 ] == 0 ); if ( m_bSetupFromCoded || m_iNumberOfBaseViews < 2 ) { return; } //--- determine (virtual) camera parameter shift between view order index 1 and base view (view order index 0) --- Double dCamPosShift, dPicPosShift; Int iMinAbsVOI = (1<<30); Int iMinAbsVOIId = 0; for( Int iBaseId = 1; iBaseId < m_iNumberOfBaseViews; iBaseId++ ) { Int iAbsVOI = ( m_aiViewOrderIndex[ iBaseId ] < 0 ? -m_aiViewOrderIndex[ iBaseId ] : m_aiViewOrderIndex[ iBaseId ] ); if( iAbsVOI < iMinAbsVOI ) { iMinAbsVOI = iAbsVOI; iMinAbsVOIId = iBaseId; } } AOF( iMinAbsVOIId != 0 && iMinAbsVOI != 0 ); xGetCameraShifts( 0, iMinAbsVOIId, m_uiFirstFrameId, dCamPosShift, dPicPosShift ); //--- determine maximum absolute camera position shift, precision, and base scale --- Double dMaxAbsCamPosShift = 0.0; for( Int iTargetId = 1; iTargetId < m_iNumberOfBaseViews; iTargetId++ ) { for( Int iBaseId = 0; iBaseId < iTargetId; iBaseId++ ) { xGetCameraShifts( (UInt)iBaseId, (UInt)iTargetId, m_uiFirstFrameId, dCamPosShift, dPicPosShift ); dCamPosShift = ( dCamPosShift < 0.0 ? -dCamPosShift : dCamPosShift ); dMaxAbsCamPosShift = ( dCamPosShift > dMaxAbsCamPosShift ? dCamPosShift : dMaxAbsCamPosShift ); } } } TAppComCamPara::TAppComCamPara() { m_dViewNumPrec = VIEW_NUM_PREC; // fixed m_iLog2Precision = -1; m_uiInputBitDepth = 0; m_uiBitDepthForLUT = 8; // fixed m_uiFirstFrameId = 0; m_uiLastFrameId = 0; m_iNumberOfBaseViews = -1; m_iNumberOfSynthViews = -1; m_uiCamParsCodedPrecision = 0; m_bCamParsVaryOverTime = true; m_aaiCodedScale = 0; m_aaiCodedOffset = 0; m_aaiScaleAndOffsetSet = 0; m_adBaseViewShiftParameter = 0; m_aiBaseViewShiftParameter = 0; m_adSynthViewShiftParameter = 0; m_aiSynthViewShiftParameter = 0; m_adBaseViewShiftLUT = 0; m_aiBaseViewShiftLUT = 0; m_adSynthViewShiftLUT = 0; m_aiSynthViewShiftLUT = 0; m_bSetupFromCoded = false; m_bCamParsCodedPrecSet = false; #if H_3D_REN_MAX_DEV_OUT m_dMaxShiftDeviation = -1; #endif } TAppComCamPara::~TAppComCamPara() { xDeleteArray( m_adBaseViewShiftParameter, m_iNumberOfBaseViews, m_iNumberOfBaseViews ); xDeleteArray( m_aiBaseViewShiftParameter, m_iNumberOfBaseViews, m_iNumberOfBaseViews ); xDeleteArray( m_adBaseViewShiftLUT, m_iNumberOfBaseViews, m_iNumberOfBaseViews, 2 ); xDeleteArray( m_aiBaseViewShiftLUT, m_iNumberOfBaseViews, m_iNumberOfBaseViews, 2 ); xDeleteArray( m_adSynthViewShiftParameter, m_iNumberOfBaseViews, std::max((Int) 1 ,m_iNumberOfSynthViews)); xDeleteArray( m_aiSynthViewShiftParameter, m_iNumberOfBaseViews, std::max((Int) 1 ,m_iNumberOfSynthViews)); xDeleteArray( m_adSynthViewShiftLUT, m_iNumberOfBaseViews, std::max((Int) 1 ,m_iNumberOfSynthViews), 2 ); xDeleteArray( m_aiSynthViewShiftLUT, m_iNumberOfBaseViews, std::max( (Int)1 ,m_iNumberOfSynthViews), 2 ); xDeleteArray( m_aaiCodedScale, m_iNumberOfBaseViews ); xDeleteArray( m_aaiCodedOffset, m_iNumberOfBaseViews ); xDeleteArray( m_aaiScaleAndOffsetSet, m_iNumberOfBaseViews ); } Void TAppComCamPara::xSetupBaseViewsFromCoded() { //===== get and sort views given in camera parameter file and set list of base views and related arrays ===== // get left-right order and coding order from cfg-file std::vector aiViewOrderIdx; // Left Right Order std::vector aiViewId ; // Coding Order Int iMinViewOrderIdx = MAX_INT; for( UInt uiRow = 0; uiRow < m_aadCameraParameters.size(); uiRow++ ) { if (m_aadCameraParameters[uiRow].size() != 2 ) break; Int iViewOrderIdx = (Int)( m_aadCameraParameters[ uiRow ][ 1 ] ); iMinViewOrderIdx = std::min( iViewOrderIdx, iMinViewOrderIdx ); aiViewOrderIdx .push_back( iViewOrderIdx ); aiViewId .push_back( (Int) m_aadCameraParameters[ uiRow ][ 0 ] ); } // create base view numbers AOT( aiViewId.size() != aiViewOrderIdx.size() ); m_iNumberOfBaseViews = (Int) aiViewId.size(); for (Int iCurBaseView = 0; iCurBaseView < m_iNumberOfBaseViews; iCurBaseView++ ) { aiViewOrderIdx[iCurBaseView] = ( aiViewOrderIdx[iCurBaseView] - iMinViewOrderIdx); m_aiBaseViews .push_back( aiViewOrderIdx[iCurBaseView] * ( (Int) m_dViewNumPrec) ); m_aiBaseId2SortedId.push_back( iCurBaseView ); m_aiBaseSortedId2Id.push_back( iCurBaseView ); } m_iNumberOfBaseViews = (Int) m_aiBaseViews.size(); std::vector aiSortedViewOrderIdx = aiViewOrderIdx; // sort base views according to View Order Idx m_aiSortedBaseViews = m_aiBaseViews; for (Int iCurBaseView = 1; iCurBaseView < m_iNumberOfBaseViews; iCurBaseView++ ) { Int iCurViewOrder = aiSortedViewOrderIdx[iCurBaseView]; for (Int iCurSearchPos = iCurBaseView; iCurSearchPos >= 0; iCurSearchPos-- ) { if ( iCurViewOrder < aiSortedViewOrderIdx[iCurSearchPos] ) { Int iTempViewId = m_aiSortedBaseViews[iCurSearchPos]; m_aiSortedBaseViews[iCurSearchPos] = m_aiSortedBaseViews[iCurBaseView]; m_aiSortedBaseViews[iCurBaseView ] = iTempViewId; Int iTempViewOrderIdx = aiSortedViewOrderIdx[iCurSearchPos]; aiSortedViewOrderIdx[iCurSearchPos] = aiSortedViewOrderIdx[iCurBaseView]; aiSortedViewOrderIdx[iCurBaseView ] = iTempViewOrderIdx; Int iTempPos = m_aiBaseSortedId2Id[iCurSearchPos]; m_aiBaseSortedId2Id[iCurSearchPos] = m_aiBaseSortedId2Id[iCurBaseView]; m_aiBaseSortedId2Id[iCurBaseView] = iTempPos; iCurBaseView--; } } } for (Int iCurBaseView = 0; iCurBaseView < m_iNumberOfBaseViews; iCurBaseView++ ) { m_aiBaseId2SortedId[m_aiBaseSortedId2Id[iCurBaseView]] = iCurBaseView; } m_aiViewsInCfgFile = m_aiSortedBaseViews; // check if( m_aiViewsInCfgFile.size() < 2 ) { std::cerr << "Failed reading camera parameter file" << std::endl; std::cerr << "At least two views must be given" << std::endl; AOT(true); exit( EXIT_FAILURE ); } // translate coding order to view order for( UInt uiRow = 0; uiRow < m_aadCameraParameters.size(); uiRow++ ) { if (m_aadCameraParameters[uiRow].size() == 2 ) continue; m_aadCameraParameters[ uiRow ][ 2 ] = (Double) aiViewOrderIdx[ xGetViewId( aiViewId, (Int) m_aadCameraParameters[ uiRow ][ 2 ] ) ]; m_aadCameraParameters[ uiRow ][ 3 ] = (Double) aiViewOrderIdx[ xGetViewId( aiViewId, (Int) m_aadCameraParameters[ uiRow ][ 3 ] ) ]; } } Void TAppComCamPara::xSetupBaseViews( Char* pchBaseViewNumbers, UInt uiNumBaseViews ) { // init list std::vector aiViewsInCfg; for( UInt uiRow = 0; uiRow < m_aadCameraParameters.size(); uiRow++ ) { aiViewsInCfg.push_back( (Int)( m_aadCameraParameters[ uiRow ][ 0 ] * m_dViewNumPrec ) ); } // remove duplicated items std::sort( aiViewsInCfg.begin(), aiViewsInCfg.end() ); std::vector::iterator cIterNewEnd = std::unique( aiViewsInCfg.begin(), aiViewsInCfg.end() ); aiViewsInCfg.erase( cIterNewEnd, aiViewsInCfg.end() ); // sort (from left to right) std::vector aiDummyI2SI, aiDummySI2I; xGetSortedViewList( aiViewsInCfg, m_aiViewsInCfgFile, aiDummyI2SI, aiDummySI2I ); // check if( m_aiViewsInCfgFile.size() < 2 ) { std::cerr << "Failed reading config file" << std::endl; std::cerr << "At least two views must be given" << std::endl; exit( EXIT_FAILURE ); } //===== set list of base views and related arrays ===== if( pchBaseViewNumbers == 0 ) { std::cerr << "BaseViewCameraNumbers must be given" << std::endl; exit( EXIT_FAILURE ); }; convertNumberString( pchBaseViewNumbers, m_aiBaseViews, m_dViewNumPrec ); while( (UInt)m_aiBaseViews.size() > uiNumBaseViews ) { m_aiBaseViews.pop_back(); } xGetSortedViewList( m_aiBaseViews, m_aiSortedBaseViews, m_aiBaseId2SortedId, m_aiBaseSortedId2Id ); m_iNumberOfBaseViews = (Int)m_aiBaseViews.size(); } Void TAppComCamPara::init( UInt uiNumBaseViews, UInt uiInputBitDepth, UInt uiCodedCamParsPrecision, UInt uiStartFrameId, UInt uiNumFrames, Char* pchCfgFileName, Char* pchBaseViewNumbers, Char* pchSynthViewNumbers, std::vector* paiSynthViewNumbers, Int iLog2Precision ) { //===== set miscellaneous variables ===== m_uiInputBitDepth = uiInputBitDepth; m_uiFirstFrameId = uiStartFrameId; m_uiLastFrameId = uiStartFrameId + uiNumFrames - 1; m_uiCamParsCodedPrecision = uiCodedCamParsPrecision; m_iLog2Precision = iLog2Precision; #if HHI_INTERVIEW_SKIP m_iCurrentFrameId = 0 ; #endif xReadCameraParameterFile( pchCfgFileName ); m_bSetupFromCoded = ( m_aadCameraParameters[ 0 ].size() == 2 ); if ( m_bSetupFromCoded ) { std::cout << "Detected decoded camera parameter file. Overwriting base view settings from cfg file. " << std::endl; xSetupBaseViewsFromCoded(); } else { xSetupBaseViews( pchBaseViewNumbers, uiNumBaseViews ); } //===== set list of external (virtual) views ===== m_aiSynthViews.clear(); if( pchSynthViewNumbers != 0 || paiSynthViewNumbers != 0) { std::vector aiTmpSynthViews; AOT( ( pchSynthViewNumbers != NULL ) && ( paiSynthViewNumbers != NULL ) ); if ( pchSynthViewNumbers != NULL ) { convertNumberString( pchSynthViewNumbers, aiTmpSynthViews, m_dViewNumPrec ); } else { aiTmpSynthViews = (*paiSynthViewNumbers); } for( UInt uiSId = 0; uiSId < (UInt)aiTmpSynthViews.size(); uiSId++ ) { Int iViewNumPrec = (Int) m_dViewNumPrec; Int iLeftBaseViewIdx = aiTmpSynthViews[ uiSId ] / iViewNumPrec; Int iRightBaseViewIdx = ( aiTmpSynthViews[ uiSId ] + (iViewNumPrec - 1) ) / iViewNumPrec; if ( iLeftBaseViewIdx < 0 || iRightBaseViewIdx >= m_iNumberOfBaseViews ) { std::cerr << "SynthViewCameraNumbers must be greater and equal to 0 and smaller than number of base views" << std::endl; AOT(true); exit( EXIT_FAILURE ); } Int64 iLeftBaseViewRelNum = iLeftBaseViewIdx * iViewNumPrec; Int64 iRightBaseViewRelNum = iRightBaseViewIdx * iViewNumPrec; Int64 iDiffBaseViewRelNum = iRightBaseViewRelNum - iLeftBaseViewRelNum; Int64 iSynthViewRelNum = aiTmpSynthViews[ uiSId ]; Int64 iLeftBaseNum = m_aiSortedBaseViews[ iLeftBaseViewIdx ]; Int64 iRightBaseNum = m_aiSortedBaseViews[ iRightBaseViewIdx ]; Int64 iDiffBaseNum = iRightBaseNum - iLeftBaseNum; Int64 iSynthViewNum; if ( iDiffBaseViewRelNum != 0) { AOT( (Int) iDiffBaseViewRelNum != iViewNumPrec ); Int iFact = iDiffBaseNum > 0 ? 1 : -1; iSynthViewNum = iLeftBaseNum + ( iDiffBaseNum * ( iSynthViewRelNum - iLeftBaseViewRelNum ) + (iViewNumPrec >> 1) * iFact ) / ( iViewNumPrec ); } else { iSynthViewNum = iLeftBaseNum; } m_aiRelSynthViewsNum.push_back( aiTmpSynthViews[ uiSId ] ); m_aiSynthViews .push_back( (Int) iSynthViewNum ); } } m_iNumberOfSynthViews = (Int)m_aiSynthViews.size(); //===== set derived parameters ===== xGetViewOrderIndices( m_aiBaseId2SortedId, m_aiViewOrderIndex ); m_bCamParsVaryOverTime = xGetCamParsChangeFlag(); //===== create arrays ===== xCreateLUTs ( (UInt)m_iNumberOfBaseViews, (UInt)m_iNumberOfBaseViews, m_adBaseViewShiftLUT, m_aiBaseViewShiftLUT, m_adBaseViewShiftParameter, m_aiBaseViewShiftParameter ); xCreateLUTs ( (UInt)m_iNumberOfBaseViews, (UInt)m_iNumberOfSynthViews, m_adSynthViewShiftLUT, m_aiSynthViewShiftLUT, m_adSynthViewShiftParameter, m_aiSynthViewShiftParameter ); xCreate2dArray( (UInt)m_iNumberOfBaseViews, (UInt)m_iNumberOfBaseViews, m_aaiCodedScale ); xCreate2dArray( (UInt)m_iNumberOfBaseViews, (UInt)m_iNumberOfBaseViews, m_aaiCodedOffset ); xCreate2dArray( (UInt)m_iNumberOfBaseViews, (UInt)m_iNumberOfBaseViews, m_aaiScaleAndOffsetSet ); xInit2dArray ( (UInt)m_iNumberOfBaseViews, (UInt)m_iNumberOfBaseViews, m_aaiScaleAndOffsetSet, 0 ); //===== init arrays for first frame ===== xSetShiftParametersAndLUT( m_uiFirstFrameId ); } Void TAppComCamPara::check( Bool bCheckViewRange, Bool bCheckFrameRange ) { if( bCheckFrameRange ) { Double dDummy; for( UInt uiBaseView = 0; uiBaseView < m_aiBaseViews.size(); uiBaseView++ ) { if ( m_bSetupFromCoded ) { for( UInt uiTargetView = 0; uiTargetView < m_aiBaseViews.size(); uiTargetView++ ) { if ( uiTargetView == uiBaseView ) continue; for( UInt uiFrame = m_uiFirstFrameId; uiFrame <= m_uiLastFrameId; uiFrame++ ) { Int iDummy; xGetCodedCameraData( uiBaseView, uiTargetView, true , uiFrame, iDummy, iDummy, iDummy ); } } } else { for( UInt uiFrame = m_uiFirstFrameId; uiFrame <= m_uiLastFrameId; uiFrame++ ) { Bool bInterpolatedCur; xGetGeometryData( m_aiBaseViews[ uiBaseView ], uiFrame, dDummy, dDummy, dDummy, bInterpolatedCur ); xGetZNearZFar ( m_aiBaseViews[ uiBaseView ], uiFrame, dDummy, dDummy ); if( bInterpolatedCur ) { std::cerr << "Error: CameraParameters for BaseView " << (Double)m_aiBaseViews[ uiBaseView ] / m_dViewNumPrec << " and Frame " << uiFrame << " not defined. " << std::endl; exit( EXIT_FAILURE ); } } } } #if H_3D_FIX_REN_WARNING Bool bIgnoreFirst = true; for( UInt uiERView = 0; uiERView < m_aiSynthViews.size() && !m_bSetupFromCoded; uiERView++ ) { if ( xIsIn(m_aiViewsInCfgFile, m_aiSynthViews[ uiERView ] ) ) { if ( bIgnoreFirst ) { std::cout << "Ignoring CameraParameterFile entries for virtual view(s): " ; //GT: Integer precision virtual view camera parameters are always interpolated from coded views camera parameters. bIgnoreFirst = false; } std::cout << (Double)m_aiSynthViews[ uiERView ] / m_dViewNumPrec << " " ; } } if ( !bIgnoreFirst ) { std::cout << std::endl; } #endif Bool bInterpolateFirst = true; Bool bAnyInterpolated = false; for( UInt uiERView = 0; uiERView < m_aiSynthViews.size() && !m_bSetupFromCoded; uiERView++ ) { Bool bInterpolated = false; for( UInt uiFrame = m_uiFirstFrameId; uiFrame <= m_uiLastFrameId; uiFrame++ ) { Bool bInterpolatedCur; xGetGeometryData( m_aiSynthViews[ uiERView ], uiFrame, dDummy, dDummy, dDummy, bInterpolatedCur ); bInterpolated |= bInterpolatedCur; } if( bInterpolated ) { bAnyInterpolated = true; if ( bInterpolateFirst ) { #if H_3D_FIX_REN_WARNING std::cout << "Interpolating camera parameters for virtual view(s): " ; #else std::cout << "Interpolating Camera Parameters for View(s) " ; #endif bInterpolateFirst = false; } std::cout << (Double)m_aiSynthViews[ uiERView ] / m_dViewNumPrec << " " ; } } if ( bAnyInterpolated ) std::cout << std::endl; } if( bCheckViewRange ) { Bool bAllExist = true; for( Int iSynthViewIdx = 0; iSynthViewIdx < m_iNumberOfSynthViews; iSynthViewIdx++ ) { Bool bIsBaseView; Int iDummy; Bool bExist = getLeftRightBaseView( iSynthViewIdx, iDummy, iDummy, iDummy, bIsBaseView ); bAllExist &= ( bExist || bIsBaseView ); } if( !bAllExist ) { std::cerr << "SynthViewNumbers must be within the range of BaseViewNumbers" << std::endl; exit( EXIT_FAILURE ); } } } Void TAppComCamPara::update( UInt uiFrameId ) { m_iCurrentFrameId = uiFrameId; m_bCamParsCodedPrecSet = false; if ( m_bCamParsVaryOverTime ) { xSetShiftParametersAndLUT( m_uiFirstFrameId + uiFrameId ); } } #if H_3D_VSO Void TAppComCamPara::setDispCoeff( UInt uiFrameId, Int iViewIdx ) { UInt uiFrame = m_uiFirstFrameId + uiFrameId; Int iSourceViewNum = m_aiBaseViews[ iViewIdx ]; Double dBaseLine = 0.0; Double dFL1, dCS1, dCP1, dZN1, dZF1; Bool bInterpolated; double dPos[3]; if( m_iNumberOfBaseViews == 3 ) { xGetGeometryData( m_aiBaseViews[0], uiFrame, dFL1, dPos[0], dCS1, bInterpolated ); xGetGeometryData( m_aiBaseViews[1], uiFrame, dFL1, dPos[1], dCS1, bInterpolated ); xGetGeometryData( m_aiBaseViews[2], uiFrame, dFL1, dPos[2], dCS1, bInterpolated ); xGetGeometryData( iSourceViewNum, uiFrame, dFL1, dCP1, dCS1, bInterpolated ); xGetZNearZFar ( iSourceViewNum, uiFrame, dZN1, dZF1 ); dBaseLine = ( std::max( dPos[0], std::max( dPos[1], dPos[2] ) ) - std::min( dPos[0], std::min( dPos[1], dPos[2] ) ) ) / 2.0; } else if( m_iNumberOfBaseViews == 2 ) { xGetGeometryData( m_aiBaseViews[0], uiFrame, dFL1, dPos[0], dCS1, bInterpolated ); xGetGeometryData( m_aiBaseViews[1], uiFrame, dFL1, dPos[1], dCS1, bInterpolated ); xGetGeometryData( iSourceViewNum, uiFrame, dFL1, dCP1, dCS1, bInterpolated ); xGetZNearZFar ( iSourceViewNum, uiFrame, dZN1, dZF1 ); dBaseLine = dPos[0] - dPos[1]; } m_dDispCoeff = fabs( dFL1 * ( dBaseLine / 2.0 ) / 255.0 * ( 1.0/dZN1 - 1.0/dZF1 ) ); } #endif Bool TAppComCamPara::getLeftRightBaseView( Int iSynthViewIdx, Int &riLeftViewIdx, Int &riRightViewIdx, Int &riRelDistToLeft, Bool& rbIsBaseView ) { Int iLeftSortedViewIdx, iRightSortedViewIdx, iDummy; Bool bExist = xGetLeftRightView( m_aiSynthViews[ iSynthViewIdx ], m_aiSortedBaseViews, iDummy, iDummy, iLeftSortedViewIdx, iRightSortedViewIdx ); rbIsBaseView = ( iLeftSortedViewIdx == iRightSortedViewIdx && iLeftSortedViewIdx != -1 ); Int iLeftViewIdx = ( iLeftSortedViewIdx != -1 ? m_aiBaseSortedId2Id[ iLeftSortedViewIdx ] : -1 ); Int iRightViewIdx = ( iRightSortedViewIdx != -1 ? m_aiBaseSortedId2Id[ iRightSortedViewIdx ] : -1 ); if ( iLeftSortedViewIdx != -1 && iRightSortedViewIdx != -1 ) { riRelDistToLeft = getRelDistLeft( iSynthViewIdx, iLeftViewIdx, iRightViewIdx); } else { riRelDistToLeft = -1; } riLeftViewIdx = iLeftViewIdx; riRightViewIdx = iRightViewIdx; return bExist; } #if H_3D_FIX_REN_WARNING Bool TAppComCamPara::xIsIn( std::vector& rVec, Int iElem) { Bool bFound = false; for (Int idx = 0; idx < rVec.size() && !bFound; idx++) { bFound = bFound || rVec[idx] == iElem; } return bFound; } #endif Int TAppComCamPara::getRelDistLeft( Int iSynthViewIdx, Int iLeftViewIdx, Int iRightViewIdx ) { //GT: Get normalized distance Int iLeftViewDist = abs ( m_aiBaseId2SortedId[ iLeftViewIdx ] * ((Int) m_dViewNumPrec) - m_aiRelSynthViewsNum [ iSynthViewIdx ]); Int iRightViewDist = abs ( m_aiBaseId2SortedId[ iRightViewIdx ] * ((Int) m_dViewNumPrec) - m_aiRelSynthViewsNum [ iSynthViewIdx ]); Int64 iDistSum = iLeftViewDist + iRightViewDist; return (iDistSum == 0) ? (1 << (REN_VDWEIGHT_PREC -1) ) : (Int) (( (((Int64) iLeftViewDist ) << REN_VDWEIGHT_PREC ) + (iDistSum >> 1) ) / iDistSum ); } Int TAppComCamPara::synthRelNum2Idx( Int iRelNum ) { return xGetViewId(m_aiRelSynthViewsNum, iRelNum ); } #endif