/************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_vcl.hxx" #include #include #include #include // ----------- // - Defines - // ----------- #define IMPL_CASE_GET_FORMAT( Format ) \ case( BMP_FORMAT##Format ): \ pFncGetPixel = BitmapReadAccess::GetPixelFor##Format; \ break // ----------------------------------------------------------------------------- #define IMPL_CASE_SET_FORMAT( Format, BitCount ) \ case( BMP_FORMAT##Format ): \ { \ pFncSetPixel = BitmapReadAccess::SetPixelFor##Format; \ pDstBuffer->mnBitCount = BitCount; \ } \ break // ----------------------------------------------------------------------------- #define DOUBLE_SCANLINES() \ while( ( nActY < nHeight1 ) && ( pMapY[ nActY + 1 ] == nMapY ) ) \ { \ memcpy( pDstScanMap[ nActY + 1L ], pDstScan, rDstBuffer.mnScanlineSize ); \ nActY++; \ } // ----------- // - Inlines - // ----------- #define TC_TO_PAL_COLORS 4096 static long ImplIndexFromColor( const BitmapColor& rCol ) { #if TC_TO_PAL_COLORS == 4096 return( ( ( (long) rCol.GetBlue() >> 4L) << 8L ) | ( ( (long) rCol.GetGreen() >> 4L ) << 4L ) | ( (long) rCol.GetRed() >> 4L ) ); #elif TC_TO_PAL_COLORS == 32768 return( ( ( (long) rCol.GetBlue() >> 3L) << 10L ) | ( ( (long) rCol.GetGreen() >> 3L ) << 5L ) | ( (long) rCol.GetRed() >> 3L ) ); #endif } #define COLOR_TO_INDEX( _def_rCol ) // ------------------------ // - conversion functions - // ------------------------ static void ImplPALToPAL( const BitmapBuffer& rSrcBuffer, BitmapBuffer& rDstBuffer, FncGetPixel pFncGetPixel, FncSetPixel pFncSetPixel, Scanline* pSrcScanMap, Scanline* pDstScanMap, long* pMapX, long* pMapY ) { const long nWidth = rDstBuffer.mnWidth, nHeight = rDstBuffer.mnHeight, nHeight1 = nHeight - 1; const ColorMask& rSrcMask = rSrcBuffer.maColorMask; const ColorMask& rDstMask = rDstBuffer.maColorMask; BitmapPalette aColMap( rSrcBuffer.maPalette.GetEntryCount() ); BitmapColor* pColMapBuf = aColMap.ImplGetColorBuffer(); BitmapColor aIndex( 0 ); for( sal_uInt16 i = 0, nSrcCount = aColMap.GetEntryCount(), nDstCount = rDstBuffer.maPalette.GetEntryCount(); i < nSrcCount; i++ ) { if( ( i < nDstCount ) && ( rSrcBuffer.maPalette[ i ] == rDstBuffer.maPalette[ i ] ) ) aIndex.SetIndex( sal::static_int_cast(i) ); else aIndex.SetIndex( sal::static_int_cast(rDstBuffer.maPalette.GetBestIndex( rSrcBuffer.maPalette[ i ] )) ); pColMapBuf[ i ] = aIndex; } for( long nActY = 0, nMapY; nActY < nHeight; nActY++ ) { Scanline pSrcScan( pSrcScanMap[ nMapY = pMapY[ nActY ] ] ), pDstScan( pDstScanMap[ nActY ] ); for( long nX = 0L; nX < nWidth; nX++ ) pFncSetPixel( pDstScan, nX, pColMapBuf[ pFncGetPixel( pSrcScan, pMapX[ nX ], rSrcMask ).GetIndex() ], rDstMask ); DOUBLE_SCANLINES(); } } // ----------------------------------------------------------------------------- static void ImplPALToTC( const BitmapBuffer& rSrcBuffer, BitmapBuffer& rDstBuffer, FncGetPixel pFncGetPixel, FncSetPixel pFncSetPixel, Scanline* pSrcScanMap, Scanline* pDstScanMap, long* pMapX, long* pMapY ) { const long nWidth = rDstBuffer.mnWidth, nHeight = rDstBuffer.mnHeight, nHeight1 = nHeight - 1; const ColorMask& rSrcMask = rSrcBuffer.maColorMask; const ColorMask& rDstMask = rDstBuffer.maColorMask; const BitmapColor* pColBuf = rSrcBuffer.maPalette.ImplGetColorBuffer(); if( BMP_SCANLINE_FORMAT( rSrcBuffer.mnFormat ) == BMP_FORMAT_1BIT_MSB_PAL ) { const BitmapColor aCol0( pColBuf[ 0 ] ); const BitmapColor aCol1( pColBuf[ 1 ] ); long nMapX; for( long nActY = 0, nMapY; nActY < nHeight; nActY++ ) { Scanline pSrcScan( pSrcScanMap[ nMapY = pMapY[ nActY ] ] ), pDstScan( pDstScanMap[ nActY ] ); for( long nX = 0L; nX < nWidth; ) { nMapX = pMapX[ nX ]; pFncSetPixel( pDstScan, nX++, pSrcScan[ nMapX >> 3 ] & ( 1 << ( 7 - ( nMapX & 7 ) ) ) ? aCol1 : aCol0, rDstMask ); } DOUBLE_SCANLINES(); } } else if( BMP_SCANLINE_FORMAT( rSrcBuffer.mnFormat ) == BMP_FORMAT_4BIT_MSN_PAL ) { long nMapX; for( long nActY = 0, nMapY; nActY < nHeight; nActY++ ) { Scanline pSrcScan( pSrcScanMap[ nMapY = pMapY[ nActY ] ] ), pDstScan( pDstScanMap[ nActY ] ); for( long nX = 0L; nX < nWidth; ) { nMapX = pMapX[ nX ]; pFncSetPixel( pDstScan, nX++, pColBuf[ ( pSrcScan[ nMapX >> 1 ] >> ( nMapX & 1 ? 0 : 4 ) ) & 0x0f ], rDstMask ); } DOUBLE_SCANLINES(); } } else if( BMP_SCANLINE_FORMAT( rSrcBuffer.mnFormat ) == BMP_FORMAT_8BIT_PAL ) { for( long nActY = 0, nMapY; nActY < nHeight; nActY++ ) { Scanline pSrcScan( pSrcScanMap[ nMapY = pMapY[ nActY ] ] ), pDstScan( pDstScanMap[ nActY ] ); for( long nX = 0L; nX < nWidth; nX++ ) pFncSetPixel( pDstScan, nX, pColBuf[ pSrcScan[ pMapX[ nX ] ] ], rDstMask ); DOUBLE_SCANLINES(); } } else { for( long nActY = 0, nMapY; nActY < nHeight; nActY++ ) { Scanline pSrcScan( pSrcScanMap[ nMapY = pMapY[ nActY ] ] ), pDstScan( pDstScanMap[ nActY ] ); for( long nX = 0L; nX < nWidth; nX++ ) pFncSetPixel( pDstScan, nX, pColBuf[ pFncGetPixel( pSrcScan, pMapX[ nX ], rSrcMask ).GetIndex() ], rDstMask ); DOUBLE_SCANLINES(); } } } // ----------------------------------------------------------------------------- static void ImplTCToTC( const BitmapBuffer& rSrcBuffer, BitmapBuffer& rDstBuffer, FncGetPixel pFncGetPixel, FncSetPixel pFncSetPixel, Scanline* pSrcScanMap, Scanline* pDstScanMap, long* pMapX, long* pMapY ) { const long nWidth = rDstBuffer.mnWidth, nHeight = rDstBuffer.mnHeight, nHeight1 = nHeight - 1; const ColorMask& rSrcMask = rSrcBuffer.maColorMask; const ColorMask& rDstMask = rDstBuffer.maColorMask; if( BMP_SCANLINE_FORMAT( rSrcBuffer.mnFormat ) == BMP_FORMAT_24BIT_TC_BGR ) { BitmapColor aCol; sal_uInt8* pPixel; for( long nActY = 0, nMapY; nActY < nHeight; nActY++ ) { Scanline pSrcScan( pSrcScanMap[ nMapY = pMapY[ nActY ] ] ), pDstScan( pDstScanMap[ nActY ] ); for( long nX = 0L; nX < nWidth; nX++ ) { aCol.SetBlue( *( pPixel = ( pSrcScan + pMapX[ nX ] * 3 ) )++ ); aCol.SetGreen( *pPixel++ ); aCol.SetRed( *pPixel ); pFncSetPixel( pDstScan, nX, aCol, rDstMask ); } DOUBLE_SCANLINES() } } else { for( long nActY = 0, nMapY; nActY < nHeight; nActY++ ) { Scanline pSrcScan( pSrcScanMap[ nMapY = pMapY[ nActY ] ] ), pDstScan( pDstScanMap[ nActY ] ); for( long nX = 0L; nX < nWidth; nX++ ) pFncSetPixel( pDstScan, nX, pFncGetPixel( pSrcScan, pMapX[ nX ], rSrcMask ), rDstMask ); DOUBLE_SCANLINES(); } } } // ----------------------------------------------------------------------------- static void ImplTCToPAL( const BitmapBuffer& rSrcBuffer, BitmapBuffer& rDstBuffer, FncGetPixel pFncGetPixel, FncSetPixel pFncSetPixel, Scanline* pSrcScanMap, Scanline* pDstScanMap, long* pMapX, long* pMapY ) { const long nWidth = rDstBuffer.mnWidth, nHeight = rDstBuffer.mnHeight, nHeight1 = nHeight - 1; const ColorMask& rSrcMask = rSrcBuffer.maColorMask; const ColorMask& rDstMask = rDstBuffer.maColorMask; BitmapPalette aColMap( rSrcBuffer.maPalette.GetEntryCount() ); sal_uInt8* pColToPalMap = new sal_uInt8[ TC_TO_PAL_COLORS ]; BitmapColor aIndex( 0 ); for( long nR = 0; nR < 16; nR++ ) { for( long nG = 0; nG < 16; nG++ ) { for( long nB = 0; nB < 16; nB++ ) { BitmapColor aCol( sal::static_int_cast(nR << 4), sal::static_int_cast(nG << 4), sal::static_int_cast(nB << 4) ); pColToPalMap[ ImplIndexFromColor( aCol ) ] = (sal_uInt8) rDstBuffer.maPalette.GetBestIndex( aCol ); } } } for( long nActY = 0, nMapY; nActY < nHeight; nActY++ ) { Scanline pSrcScan( pSrcScanMap[ nMapY = pMapY[ nActY ] ] ), pDstScan( pDstScanMap[ nActY ] ); for( long nX = 0L; nX < nWidth; nX++ ) { aIndex.SetIndex( pColToPalMap[ ImplIndexFromColor( pFncGetPixel( pSrcScan, pMapX[ nX ], rSrcMask ) ) ] ); pFncSetPixel( pDstScan, nX, aIndex, rDstMask ); } DOUBLE_SCANLINES(); } delete[] pColToPalMap; } // ----------------------------------------------------------------------------- // --------------------- // - StretchAndConvert - // --------------------- BitmapBuffer* StretchAndConvert( const BitmapBuffer& rSrcBuffer, const SalTwoRect& rTwoRect, sal_uLong nDstBitmapFormat, const BitmapPalette* pDstPal, const ColorMask* pDstMask ) { FncGetPixel pFncGetPixel; FncSetPixel pFncSetPixel; BitmapBuffer* pDstBuffer = new BitmapBuffer; long i; // set function for getting pixels switch( BMP_SCANLINE_FORMAT( rSrcBuffer.mnFormat ) ) { IMPL_CASE_GET_FORMAT( _1BIT_MSB_PAL ); IMPL_CASE_GET_FORMAT( _1BIT_LSB_PAL ); IMPL_CASE_GET_FORMAT( _4BIT_MSN_PAL ); IMPL_CASE_GET_FORMAT( _4BIT_LSN_PAL ); IMPL_CASE_GET_FORMAT( _8BIT_PAL ); IMPL_CASE_GET_FORMAT( _8BIT_TC_MASK ); IMPL_CASE_GET_FORMAT( _16BIT_TC_MSB_MASK ); IMPL_CASE_GET_FORMAT( _16BIT_TC_LSB_MASK ); IMPL_CASE_GET_FORMAT( _24BIT_TC_BGR ); IMPL_CASE_GET_FORMAT( _24BIT_TC_RGB ); IMPL_CASE_GET_FORMAT( _24BIT_TC_MASK ); IMPL_CASE_GET_FORMAT( _32BIT_TC_ABGR ); IMPL_CASE_GET_FORMAT( _32BIT_TC_ARGB ); IMPL_CASE_GET_FORMAT( _32BIT_TC_BGRA ); IMPL_CASE_GET_FORMAT( _32BIT_TC_RGBA ); IMPL_CASE_GET_FORMAT( _32BIT_TC_MASK ); default: // should never come here // initialize pFncGetPixel to something valid that is // least likely to crash pFncGetPixel = BitmapReadAccess::GetPixelFor_1BIT_MSB_PAL; DBG_ERROR( "unknown read format" ); break; } // set function for setting pixels const sal_uLong nDstScanlineFormat = BMP_SCANLINE_FORMAT( nDstBitmapFormat ); switch( nDstScanlineFormat ) { IMPL_CASE_SET_FORMAT( _1BIT_MSB_PAL, 1 ); IMPL_CASE_SET_FORMAT( _1BIT_LSB_PAL, 1 ); IMPL_CASE_SET_FORMAT( _4BIT_MSN_PAL, 1 ); IMPL_CASE_SET_FORMAT( _4BIT_LSN_PAL, 4 ); IMPL_CASE_SET_FORMAT( _8BIT_PAL, 8 ); IMPL_CASE_SET_FORMAT( _8BIT_TC_MASK, 8 ); IMPL_CASE_SET_FORMAT( _16BIT_TC_MSB_MASK, 16 ); IMPL_CASE_SET_FORMAT( _16BIT_TC_LSB_MASK, 16 ); IMPL_CASE_SET_FORMAT( _24BIT_TC_BGR, 24 ); IMPL_CASE_SET_FORMAT( _24BIT_TC_RGB, 24 ); IMPL_CASE_SET_FORMAT( _24BIT_TC_MASK, 24 ); IMPL_CASE_SET_FORMAT( _32BIT_TC_ABGR, 32 ); IMPL_CASE_SET_FORMAT( _32BIT_TC_ARGB, 32 ); IMPL_CASE_SET_FORMAT( _32BIT_TC_BGRA, 32 ); IMPL_CASE_SET_FORMAT( _32BIT_TC_RGBA, 32 ); IMPL_CASE_SET_FORMAT( _32BIT_TC_MASK, 32 ); default: // should never come here // initialize pFncSetPixel to something valid that is // least likely to crash pFncSetPixel = BitmapReadAccess::SetPixelFor_1BIT_MSB_PAL; pDstBuffer->mnBitCount = 1; DBG_ERROR( "unknown write format" ); break; } // fill destination buffer pDstBuffer->mnFormat = nDstBitmapFormat; pDstBuffer->mnWidth = rTwoRect.mnDestWidth; pDstBuffer->mnHeight = rTwoRect.mnDestHeight; pDstBuffer->mnScanlineSize = AlignedWidth4Bytes( pDstBuffer->mnBitCount * pDstBuffer->mnWidth ); try { pDstBuffer->mpBits = new sal_uInt8[ pDstBuffer->mnScanlineSize * pDstBuffer->mnHeight ]; } catch( const std::bad_alloc& ) { // memory exception, clean up pDstBuffer->mpBits = NULL; delete pDstBuffer; return NULL; } // do we need a destination palette or color mask? if( ( nDstScanlineFormat == BMP_FORMAT_1BIT_MSB_PAL ) || ( nDstScanlineFormat == BMP_FORMAT_1BIT_LSB_PAL ) || ( nDstScanlineFormat == BMP_FORMAT_4BIT_MSN_PAL ) || ( nDstScanlineFormat == BMP_FORMAT_4BIT_LSN_PAL ) || ( nDstScanlineFormat == BMP_FORMAT_8BIT_PAL ) ) { DBG_ASSERT( pDstPal, "destination buffer requires palette" ); pDstBuffer->maPalette = *pDstPal; } else if( ( nDstScanlineFormat == BMP_FORMAT_8BIT_TC_MASK ) || ( nDstScanlineFormat == BMP_FORMAT_16BIT_TC_MSB_MASK ) || ( nDstScanlineFormat == BMP_FORMAT_16BIT_TC_LSB_MASK ) || ( nDstScanlineFormat == BMP_FORMAT_24BIT_TC_MASK ) || ( nDstScanlineFormat == BMP_FORMAT_32BIT_TC_MASK ) ) { DBG_ASSERT( pDstMask, "destination buffer requires color mask" ); pDstBuffer->maColorMask = *pDstMask; } // short circuit the most important conversions bool bFastConvert = ImplFastBitmapConversion( *pDstBuffer, rSrcBuffer, rTwoRect ); if( bFastConvert ) return pDstBuffer; const long nSrcX = rTwoRect.mnSrcX, nSrcY = rTwoRect.mnSrcY; const long nSrcDX = rTwoRect.mnSrcWidth, nSrcDY = rTwoRect.mnSrcHeight; const long nDstDX = rTwoRect.mnDestWidth, nDstDY = rTwoRect.mnDestHeight; Scanline* pSrcScan = NULL; Scanline* pDstScan = NULL; long* pMapX = NULL; long* pMapY = NULL; long nTmp, nOffset; try { pSrcScan = new Scanline[ rSrcBuffer.mnHeight ]; pDstScan = new Scanline[ nDstDY ]; pMapX = new long[ nDstDX ]; pMapY = new long[ nDstDY ]; } catch( const std::bad_alloc& ) { // memory exception, clean up // remark: the buffer ptr causing the exception // is still NULL here delete[] pSrcScan; delete[] pDstScan; delete[] pMapX; delete[] pMapY; delete pDstBuffer; return NULL; } // horizontal mapping table if( nDstDX != nSrcDX ) { const double fFactorX = ( nDstDX > 1 ) ? (double) ( nSrcDX - 1 ) / ( nDstDX - 1 ) : 0.0; for( i = 0L; i < nDstDX; i++ ) pMapX[ i ] = nSrcX + FRound( i * fFactorX ); } else { for( i = 0L, nTmp = nSrcX; i < nDstDX; i++ ) pMapX[ i ] = nTmp++; } // vertical mapping table if( nDstDY != nSrcDY ) { const double fFactorY = ( nDstDY > 1 ) ? (double) ( nSrcDY - 1 ) / ( nDstDY - 1 ) : 0.0; for( i = 0L; i < nDstDY; i++ ) pMapY[ i ] = nSrcY + FRound( i * fFactorY ); } else { for( i = 0L, nTmp = nSrcY; i < nDstDY; i++ ) pMapY[ i ] = nTmp++; } // source scanline buffer Scanline pTmpScan; if( BMP_SCANLINE_ADJUSTMENT( rSrcBuffer.mnFormat ) == BMP_FORMAT_TOP_DOWN ) pTmpScan = rSrcBuffer.mpBits, nOffset = rSrcBuffer.mnScanlineSize; else { pTmpScan = rSrcBuffer.mpBits + ( rSrcBuffer.mnHeight - 1 ) * rSrcBuffer.mnScanlineSize; nOffset = -rSrcBuffer.mnScanlineSize; } for( i = 0L; i < rSrcBuffer.mnHeight; i++, pTmpScan += nOffset ) pSrcScan[ i ] = pTmpScan; // destination scanline buffer if( BMP_SCANLINE_ADJUSTMENT( pDstBuffer->mnFormat ) == BMP_FORMAT_TOP_DOWN ) pTmpScan = pDstBuffer->mpBits, nOffset = pDstBuffer->mnScanlineSize; else { pTmpScan = pDstBuffer->mpBits + ( nDstDY - 1 ) * pDstBuffer->mnScanlineSize; nOffset = -pDstBuffer->mnScanlineSize; } for( i = 0L; i < nDstDY; i++, pTmpScan += nOffset ) pDstScan[ i ] = pTmpScan; // do buffer scaling and conversion if( rSrcBuffer.mnBitCount <= 8 && pDstBuffer->mnBitCount <= 8 ) { ImplPALToPAL( rSrcBuffer, *pDstBuffer, pFncGetPixel, pFncSetPixel, pSrcScan, pDstScan, pMapX, pMapY ); } else if( rSrcBuffer.mnBitCount <= 8 && pDstBuffer->mnBitCount > 8 ) { ImplPALToTC( rSrcBuffer, *pDstBuffer, pFncGetPixel, pFncSetPixel, pSrcScan, pDstScan, pMapX, pMapY ); } else if( rSrcBuffer.mnBitCount > 8 && pDstBuffer->mnBitCount > 8 ) { ImplTCToTC( rSrcBuffer, *pDstBuffer, pFncGetPixel, pFncSetPixel, pSrcScan, pDstScan, pMapX, pMapY ); } else { ImplTCToPAL( rSrcBuffer, *pDstBuffer, pFncGetPixel, pFncSetPixel, pSrcScan, pDstScan, pMapX, pMapY ); } // cleanup delete[] pSrcScan; delete[] pDstScan; delete[] pMapX; delete[] pMapY; return pDstBuffer; }