/* 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) 2010-2013, ITU/ISO/IEC * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * Neither the name of the ITU/ISO/IEC nor the names of its contributors may * be used to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * 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. */ /** \file TComPicYuv.cpp \brief picture YUV buffer class */ #include #include #include #ifdef __APPLE__ #include #else #include #endif #include "TComPicYuv.h" //! \ingroup TLibCommon //! \{ TComPicYuv::TComPicYuv() { m_apiPicBufY = NULL; // Buffer (including margin) m_apiPicBufU = NULL; m_apiPicBufV = NULL; m_piPicOrgY = NULL; // m_apiPicBufY + m_iMarginLuma*getStride() + m_iMarginLuma m_piPicOrgU = NULL; m_piPicOrgV = NULL; m_bIsBorderExtended = false; } TComPicYuv::~TComPicYuv() { } Void TComPicYuv::create( Int iPicWidth, Int iPicHeight, UInt uiMaxCUWidth, UInt uiMaxCUHeight, UInt uiMaxCUDepth ) { m_iPicWidth = iPicWidth; m_iPicHeight = iPicHeight; // --> After config finished! m_iCuWidth = uiMaxCUWidth; m_iCuHeight = uiMaxCUHeight; #if H_3D_IV_MERGE m_iNumCuInWidth = m_iPicWidth / m_iCuWidth; m_iNumCuInWidth += ( m_iPicWidth % m_iCuWidth ) ? 1 : 0; m_iBaseUnitWidth = uiMaxCUWidth >> uiMaxCUDepth; m_iBaseUnitHeight = uiMaxCUHeight >> uiMaxCUDepth; #endif Int numCuInWidth = m_iPicWidth / m_iCuWidth + (m_iPicWidth % m_iCuWidth != 0); Int numCuInHeight = m_iPicHeight / m_iCuHeight + (m_iPicHeight % m_iCuHeight != 0); m_iLumaMarginX = g_uiMaxCUWidth + 16; // for 16-byte alignment m_iLumaMarginY = g_uiMaxCUHeight + 16; // margin for 8-tap filter and infinite padding m_iChromaMarginX = m_iLumaMarginX>>1; m_iChromaMarginY = m_iLumaMarginY>>1; m_apiPicBufY = (Pel*)xMalloc( Pel, ( m_iPicWidth + (m_iLumaMarginX <<1)) * ( m_iPicHeight + (m_iLumaMarginY <<1))); m_apiPicBufU = (Pel*)xMalloc( Pel, ((m_iPicWidth >> 1) + (m_iChromaMarginX<<1)) * ((m_iPicHeight >> 1) + (m_iChromaMarginY<<1))); m_apiPicBufV = (Pel*)xMalloc( Pel, ((m_iPicWidth >> 1) + (m_iChromaMarginX<<1)) * ((m_iPicHeight >> 1) + (m_iChromaMarginY<<1))); m_piPicOrgY = m_apiPicBufY + m_iLumaMarginY * getStride() + m_iLumaMarginX; m_piPicOrgU = m_apiPicBufU + m_iChromaMarginY * getCStride() + m_iChromaMarginX; m_piPicOrgV = m_apiPicBufV + m_iChromaMarginY * getCStride() + m_iChromaMarginX; m_bIsBorderExtended = false; m_cuOffsetY = new Int[numCuInWidth * numCuInHeight]; m_cuOffsetC = new Int[numCuInWidth * numCuInHeight]; for (Int cuRow = 0; cuRow < numCuInHeight; cuRow++) { for (Int cuCol = 0; cuCol < numCuInWidth; cuCol++) { m_cuOffsetY[cuRow * numCuInWidth + cuCol] = getStride() * cuRow * m_iCuHeight + cuCol * m_iCuWidth; m_cuOffsetC[cuRow * numCuInWidth + cuCol] = getCStride() * cuRow * (m_iCuHeight / 2) + cuCol * (m_iCuWidth / 2); } } m_buOffsetY = new Int[(size_t)1 << (2 * uiMaxCUDepth)]; m_buOffsetC = new Int[(size_t)1 << (2 * uiMaxCUDepth)]; for (Int buRow = 0; buRow < (1 << uiMaxCUDepth); buRow++) { for (Int buCol = 0; buCol < (1 << uiMaxCUDepth); buCol++) { m_buOffsetY[(buRow << uiMaxCUDepth) + buCol] = getStride() * buRow * (uiMaxCUHeight >> uiMaxCUDepth) + buCol * (uiMaxCUWidth >> uiMaxCUDepth); m_buOffsetC[(buRow << uiMaxCUDepth) + buCol] = getCStride() * buRow * (uiMaxCUHeight / 2 >> uiMaxCUDepth) + buCol * (uiMaxCUWidth / 2 >> uiMaxCUDepth); } } return; } Void TComPicYuv::destroy() { m_piPicOrgY = NULL; m_piPicOrgU = NULL; m_piPicOrgV = NULL; if( m_apiPicBufY ){ xFree( m_apiPicBufY ); m_apiPicBufY = NULL; } if( m_apiPicBufU ){ xFree( m_apiPicBufU ); m_apiPicBufU = NULL; } if( m_apiPicBufV ){ xFree( m_apiPicBufV ); m_apiPicBufV = NULL; } delete[] m_cuOffsetY; delete[] m_cuOffsetC; delete[] m_buOffsetY; delete[] m_buOffsetC; } Void TComPicYuv::createLuma( Int iPicWidth, Int iPicHeight, UInt uiMaxCUWidth, UInt uiMaxCUHeight, UInt uiMaxCUDepth ) { m_iPicWidth = iPicWidth; m_iPicHeight = iPicHeight; // --> After config finished! m_iCuWidth = uiMaxCUWidth; m_iCuHeight = uiMaxCUHeight; Int numCuInWidth = m_iPicWidth / m_iCuWidth + (m_iPicWidth % m_iCuWidth != 0); Int numCuInHeight = m_iPicHeight / m_iCuHeight + (m_iPicHeight % m_iCuHeight != 0); m_iLumaMarginX = g_uiMaxCUWidth + 16; // for 16-byte alignment m_iLumaMarginY = g_uiMaxCUHeight + 16; // margin for 8-tap filter and infinite padding m_apiPicBufY = (Pel*)xMalloc( Pel, ( m_iPicWidth + (m_iLumaMarginX <<1)) * ( m_iPicHeight + (m_iLumaMarginY <<1))); m_piPicOrgY = m_apiPicBufY + m_iLumaMarginY * getStride() + m_iLumaMarginX; m_cuOffsetY = new Int[numCuInWidth * numCuInHeight]; m_cuOffsetC = NULL; for (Int cuRow = 0; cuRow < numCuInHeight; cuRow++) { for (Int cuCol = 0; cuCol < numCuInWidth; cuCol++) { m_cuOffsetY[cuRow * numCuInWidth + cuCol] = getStride() * cuRow * m_iCuHeight + cuCol * m_iCuWidth; } } m_buOffsetY = new Int[(size_t)1 << (2 * uiMaxCUDepth)]; m_buOffsetC = NULL; for (Int buRow = 0; buRow < (1 << uiMaxCUDepth); buRow++) { for (Int buCol = 0; buCol < (1 << uiMaxCUDepth); buCol++) { m_buOffsetY[(buRow << uiMaxCUDepth) + buCol] = getStride() * buRow * (uiMaxCUHeight >> uiMaxCUDepth) + buCol * (uiMaxCUWidth >> uiMaxCUDepth); } } return; } Void TComPicYuv::destroyLuma() { m_piPicOrgY = NULL; if( m_apiPicBufY ){ xFree( m_apiPicBufY ); m_apiPicBufY = NULL; } delete[] m_cuOffsetY; delete[] m_buOffsetY; } Void TComPicYuv::copyToPic (TComPicYuv* pcPicYuvDst) { assert( m_iPicWidth == pcPicYuvDst->getWidth() ); assert( m_iPicHeight == pcPicYuvDst->getHeight() ); ::memcpy ( pcPicYuvDst->getBufY(), m_apiPicBufY, sizeof (Pel) * ( m_iPicWidth + (m_iLumaMarginX << 1)) * ( m_iPicHeight + (m_iLumaMarginY << 1)) ); ::memcpy ( pcPicYuvDst->getBufU(), m_apiPicBufU, sizeof (Pel) * ((m_iPicWidth >> 1) + (m_iChromaMarginX << 1)) * ((m_iPicHeight >> 1) + (m_iChromaMarginY << 1)) ); ::memcpy ( pcPicYuvDst->getBufV(), m_apiPicBufV, sizeof (Pel) * ((m_iPicWidth >> 1) + (m_iChromaMarginX << 1)) * ((m_iPicHeight >> 1) + (m_iChromaMarginY << 1)) ); return; } Void TComPicYuv::copyToPicLuma (TComPicYuv* pcPicYuvDst) { assert( m_iPicWidth == pcPicYuvDst->getWidth() ); assert( m_iPicHeight == pcPicYuvDst->getHeight() ); ::memcpy ( pcPicYuvDst->getBufY(), m_apiPicBufY, sizeof (Pel) * ( m_iPicWidth + (m_iLumaMarginX << 1)) * ( m_iPicHeight + (m_iLumaMarginY << 1)) ); return; } Void TComPicYuv::copyToPicCb (TComPicYuv* pcPicYuvDst) { assert( m_iPicWidth == pcPicYuvDst->getWidth() ); assert( m_iPicHeight == pcPicYuvDst->getHeight() ); ::memcpy ( pcPicYuvDst->getBufU(), m_apiPicBufU, sizeof (Pel) * ((m_iPicWidth >> 1) + (m_iChromaMarginX << 1)) * ((m_iPicHeight >> 1) + (m_iChromaMarginY << 1)) ); return; } Void TComPicYuv::copyToPicCr (TComPicYuv* pcPicYuvDst) { assert( m_iPicWidth == pcPicYuvDst->getWidth() ); assert( m_iPicHeight == pcPicYuvDst->getHeight() ); ::memcpy ( pcPicYuvDst->getBufV(), m_apiPicBufV, sizeof (Pel) * ((m_iPicWidth >> 1) + (m_iChromaMarginX << 1)) * ((m_iPicHeight >> 1) + (m_iChromaMarginY << 1)) ); return; } Void TComPicYuv::extendPicBorder () { if ( m_bIsBorderExtended ) return; xExtendPicCompBorder( getLumaAddr(), getStride(), getWidth(), getHeight(), m_iLumaMarginX, m_iLumaMarginY ); xExtendPicCompBorder( getCbAddr() , getCStride(), getWidth() >> 1, getHeight() >> 1, m_iChromaMarginX, m_iChromaMarginY ); xExtendPicCompBorder( getCrAddr() , getCStride(), getWidth() >> 1, getHeight() >> 1, m_iChromaMarginX, m_iChromaMarginY ); m_bIsBorderExtended = true; } Void TComPicYuv::xExtendPicCompBorder (Pel* piTxt, Int iStride, Int iWidth, Int iHeight, Int iMarginX, Int iMarginY) { Int x, y; Pel* pi; pi = piTxt; for ( y = 0; y < iHeight; y++) { for ( x = 0; x < iMarginX; x++ ) { pi[ -iMarginX + x ] = pi[0]; pi[ iWidth + x ] = pi[iWidth-1]; } pi += iStride; } pi -= (iStride + iMarginX); for ( y = 0; y < iMarginY; y++ ) { ::memcpy( pi + (y+1)*iStride, pi, sizeof(Pel)*(iWidth + (iMarginX<<1)) ); } pi -= ((iHeight-1) * iStride); for ( y = 0; y < iMarginY; y++ ) { ::memcpy( pi - (y+1)*iStride, pi, sizeof(Pel)*(iWidth + (iMarginX<<1)) ); } } Void TComPicYuv::dump (Char* pFileName, Bool bAdd) { FILE* pFile; if (!bAdd) { pFile = fopen (pFileName, "wb"); } else { pFile = fopen (pFileName, "ab"); } Int shift = g_bitDepthY-8; Int offset = (shift>0)?(1<<(shift-1)):0; Int x, y; UChar uc; Pel* piY = getLumaAddr(); Pel* piCb = getCbAddr(); Pel* piCr = getCrAddr(); for ( y = 0; y < m_iPicHeight; y++ ) { for ( x = 0; x < m_iPicWidth; x++ ) { uc = (UChar)Clip3(0, 255, (piY[x]+offset)>>shift); fwrite( &uc, sizeof(UChar), 1, pFile ); } piY += getStride(); } shift = g_bitDepthC-8; offset = (shift>0)?(1<<(shift-1)):0; for ( y = 0; y < m_iPicHeight >> 1; y++ ) { for ( x = 0; x < m_iPicWidth >> 1; x++ ) { uc = (UChar)Clip3(0, 255, (piCb[x]+offset)>>shift); fwrite( &uc, sizeof(UChar), 1, pFile ); } piCb += getCStride(); } for ( y = 0; y < m_iPicHeight >> 1; y++ ) { for ( x = 0; x < m_iPicWidth >> 1; x++ ) { uc = (UChar)Clip3(0, 255, (piCr[x]+offset)>>shift); fwrite( &uc, sizeof(UChar), 1, pFile ); } piCr += getCStride(); } fclose(pFile); } #if H_3D #if H_3D_IV_MERGE Void TComPicYuv::getTopLeftSamplePos( Int iCuAddr, Int iAbsZorderIdx, Int& riX, Int& riY ) { Int iRastPartIdx = g_auiZscanToRaster[iAbsZorderIdx]; Int iCuSizeInBases = m_iCuWidth / m_iBaseUnitWidth; Int iCuX = iCuAddr % m_iNumCuInWidth; Int iCuY = iCuAddr / m_iNumCuInWidth; Int iBaseX = iRastPartIdx % iCuSizeInBases; Int iBaseY = iRastPartIdx / iCuSizeInBases; riX = iCuX * m_iCuWidth + iBaseX * m_iBaseUnitWidth; riY = iCuY * m_iCuHeight + iBaseY * m_iBaseUnitHeight; } Void TComPicYuv::getCUAddrAndPartIdx( Int iX, Int iY, Int& riCuAddr, Int& riAbsZorderIdx ) { Int iCuX = iX / m_iCuWidth; Int iCuY = iY / m_iCuHeight; Int iBaseX = ( iX - iCuX * m_iCuWidth ) / m_iBaseUnitWidth; Int iBaseY = ( iY - iCuY * m_iCuHeight ) / m_iBaseUnitHeight; Int iCuSizeInBases = m_iCuWidth / m_iBaseUnitWidth; riCuAddr = iCuY * m_iNumCuInWidth + iCuX; Int iRastPartIdx = iBaseY * iCuSizeInBases + iBaseX; riAbsZorderIdx = g_auiRasterToZscan[ iRastPartIdx ]; } #endif Void TComPicYuv::setLumaTo( Pel pVal ) { xSetPels( getLumaAddr(), getStride(), getWidth(), getHeight(), pVal ); } Void TComPicYuv::setChromaTo( Pel pVal ) { xSetPels( getCbAddr(), getCStride(), getWidth() >> 1, getHeight() >> 1, pVal ); xSetPels( getCrAddr(), getCStride(), getWidth() >> 1, getHeight() >> 1, pVal ); } Void TComPicYuv::xSetPels( Pel* piPelSource , Int iSourceStride, Int iWidth, Int iHeight, Pel iVal ) { for (Int iYPos = 0; iYPos < iHeight; iYPos++) { for (Int iXPos = 0; iXPos < iWidth; iXPos++) { piPelSource[iXPos] = iVal; } piPelSource += iSourceStride; } } #endif //! \}