/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /************************************************************************* * * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * Copyright 2000, 2010 Oracle and/or its affiliates. * * OpenOffice.org - a multi-platform office productivity suite * * This file is part of OpenOffice.org. * * OpenOffice.org is free software: you can redistribute it and/or modify * it under the terms of the GNU Lesser General Public License version 3 * only, as published by the Free Software Foundation. * * OpenOffice.org is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License version 3 for more details * (a copy is included in the LICENSE file that accompanied this code). * * You should have received a copy of the GNU Lesser General Public License * version 3 along with OpenOffice.org. If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_sfx2.hxx" #ifdef WNT #undef WB_LEFT #undef WB_RIGHT #define UINT64 USE_WIN_UINT64 #define INT64 USE_WIN_INT64 #define UINT32 USE_WIN_UINT32 #define INT32 USE_WIN_INT32 #include #if defined _MSC_VER #pragma warning(push, 1) #endif #include #if defined _MSC_VER #pragma warning(pop) #endif #include #undef UINT64 #undef INT64 #undef UINT32 #undef INT32 #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "sfxresid.hxx" #include "graphhelp.hxx" #include "doc.hrc" using namespace ::com::sun::star; #define THUMBNAIL_RESOLUTION 256 //--------------------------------------------------------------- // static SvMemoryStream* GraphicHelper::getFormatStrFromGDI_Impl( const GDIMetaFile* pGDIMeta, sal_uInt32 nFormat ) { SvMemoryStream* pResult = NULL; if ( pGDIMeta ) { SvMemoryStream* pStream = new SvMemoryStream( 65535, 65535 ); if ( pStream ) { Graphic aGraph( *pGDIMeta ); if ( GraphicConverter::Export( *pStream, aGraph, nFormat ) == 0 ) pResult = pStream; else delete pStream; } } return pResult; } //--------------------------------------------------------------- // static void* GraphicHelper::getEnhMetaFileFromGDI_Impl( const GDIMetaFile* pGDIMeta ) { (void)pGDIMeta; // unused void* pResult = NULL; #ifdef WNT if ( pGDIMeta ) { String aStr = ::rtl::OUString::createFromAscii( ".emf" ); ::utl::TempFile aTempFile( ::rtl::OUString(), &aStr, NULL, sal_False ); ::rtl::OUString aMetaFile = aTempFile.GetFileName(); ::rtl::OUString aMetaURL = aTempFile.GetURL(); ::rtl::OString aWinFile = ::rtl::OUStringToOString( aMetaFile, osl_getThreadTextEncoding() ); SvStream* pStream = ::utl::UcbStreamHelper::CreateStream( aMetaURL, STREAM_STD_READWRITE ); if ( pStream ) { Graphic aGraph( *pGDIMeta ); sal_Bool bFailed = (sal_Bool)GraphicConverter::Export( *pStream, aGraph, CVT_EMF ); pStream->Flush(); delete pStream; if ( !bFailed ) pResult = GetEnhMetaFileA( aWinFile.getStr() ); } } #endif return pResult; } //--------------------------------------------------------------- // static void* GraphicHelper::getWinMetaFileFromGDI_Impl( const GDIMetaFile* pGDIMeta, const Size& aMetaSize ) { (void)pGDIMeta; // unused (void)aMetaSize; // unused void* pResult = NULL; #ifdef WNT if ( pGDIMeta ) { SvMemoryStream* pStream = new SvMemoryStream( 65535, 65535 ); if ( pStream ) { Graphic aGraph( *pGDIMeta ); sal_Bool bFailed = (sal_Bool)GraphicConverter::Export( *pStream, aGraph, CVT_WMF ); pStream->Flush(); if ( !bFailed ) { sal_Int32 nLength = pStream->Seek( STREAM_SEEK_TO_END ); if ( nLength > 22 ) { HMETAFILE hMeta = SetMetaFileBitsEx( nLength - 22, ( reinterpret_cast< const sal_uChar*>( pStream->GetData() ) ) + 22 ); if ( hMeta ) { HGLOBAL hMemory = GlobalAlloc( GMEM_DDESHARE | GMEM_MOVEABLE, sizeof( METAFILEPICT ) ); if ( hMemory ) { METAFILEPICT* pMF = (METAFILEPICT*)GlobalLock( hMemory ); pMF->hMF = hMeta; pMF->mm = MM_ANISOTROPIC; MapMode aMetaMode = pGDIMeta->GetPrefMapMode(); MapMode aWinMode( MAP_100TH_MM ); if ( aWinMode == pGDIMeta->GetPrefMapMode() ) { pMF->xExt = aMetaSize.Width(); pMF->yExt = aMetaSize.Height(); } else { Size aWinSize = OutputDevice::LogicToLogic( Size( aMetaSize.Width(), aMetaSize.Height() ), pGDIMeta->GetPrefMapMode(), aWinMode ); pMF->xExt = aWinSize.Width(); pMF->yExt = aWinSize.Height(); } GlobalUnlock( hMemory ); pResult = (void*)hMemory; } else DeleteMetaFile( hMeta ); } } } delete pStream; } } #endif return pResult; } //--------------------------------------------------------------- // static sal_Bool GraphicHelper::supportsMetaFileHandle_Impl() { #ifdef WNT return sal_True; #else return sal_False; #endif } //--------------------------------------------------------------- // static sal_Bool GraphicHelper::mergeBitmaps_Impl( const BitmapEx& rBmpEx, const BitmapEx& rOverlay, const Rectangle& rOverlayRect, BitmapEx& rReturn ) { // the implementation is provided by KA Point aNullPt; Rectangle aBmpRect( aNullPt, rBmpEx.GetSizePixel() ); VirtualDevice aVDev; if( !rReturn.IsEmpty() ) rReturn.SetEmpty(); if( !rBmpEx.IsEmpty() && aVDev.SetOutputSizePixel( aBmpRect.GetSize() ) ) { Rectangle aOverlayRect( rOverlayRect ); aOverlayRect.Intersection( aBmpRect ); if( rOverlay.IsEmpty() || rOverlayRect.IsEmpty() ) rReturn = rBmpEx; else { aVDev.DrawBitmap( aNullPt, aVDev.GetOutputSizePixel(), rBmpEx.GetBitmap() ); aVDev.DrawBitmapEx( aOverlayRect.TopLeft(), aOverlayRect.GetSize(), rOverlay ); Bitmap aBmp( aVDev.GetBitmap( aNullPt, aVDev.GetOutputSizePixel() ) ); aBmp.Convert( BMP_CONVERSION_24BIT ); if( !rBmpEx.IsTransparent() ) rReturn = aBmp; else { aVDev.DrawBitmap( aNullPt, aVDev.GetOutputSizePixel(), rBmpEx.GetMask() ); Bitmap aOverlayMergeBmp( aVDev.GetBitmap( aOverlayRect.TopLeft(), aOverlayRect.GetSize() ) ); if( rOverlay.IsTransparent() ) aVDev.DrawBitmap( aOverlayRect.TopLeft(), aOverlayRect.GetSize(), rOverlay.GetMask() ); else { aVDev.SetLineColor( COL_BLACK ); aVDev.SetFillColor( COL_BLACK ); aVDev.DrawRect( aOverlayRect); } aOverlayMergeBmp.CombineSimple( aVDev.GetBitmap( aOverlayRect.TopLeft(), aOverlayRect.GetSize() ), BMP_COMBINE_AND ); aVDev.DrawBitmap( aOverlayRect.TopLeft(), aOverlayRect.GetSize(), aOverlayMergeBmp ); rReturn = BitmapEx( aBmp, aVDev.GetBitmap( aNullPt, aVDev.GetOutputSizePixel() ) ); } } } return !rReturn.IsEmpty(); } //--------------------------------------------------------------- // static sal_Bool GraphicHelper::createThumb_Impl( const GDIMetaFile& rMtf, sal_uInt32 nMaximumExtent, BitmapEx& rBmpEx, const BitmapEx* pOverlay, const Rectangle* pOverlayRect ) { // the implementation is provided by KA // initialization seems to be complicated but is used to avoid rounding errors VirtualDevice aVDev; const Point aNullPt; const Point aTLPix( aVDev.LogicToPixel( aNullPt, rMtf.GetPrefMapMode() ) ); const Point aBRPix( aVDev.LogicToPixel( Point( rMtf.GetPrefSize().Width() - 1, rMtf.GetPrefSize().Height() - 1 ), rMtf.GetPrefMapMode() ) ); Size aDrawSize( aVDev.LogicToPixel( rMtf.GetPrefSize(), rMtf.GetPrefMapMode() ) ); Size aSizePix( labs( aBRPix.X() - aTLPix.X() ) + 1, labs( aBRPix.Y() - aTLPix.Y() ) + 1 ); Point aPosPix; if ( !rBmpEx.IsEmpty() ) rBmpEx.SetEmpty(); // determine size that has the same aspect ratio as image size and // fits into the rectangle determined by nMaximumExtent if ( aSizePix.Width() && aSizePix.Height() && ( sal::static_int_cast(aSizePix.Width()) > nMaximumExtent || sal::static_int_cast(aSizePix.Height()) > nMaximumExtent ) ) { const Size aOldSizePix( aSizePix ); double fWH = static_cast< double >( aSizePix.Width() ) / aSizePix.Height(); if ( fWH <= 1.0 ) { aSizePix.Width() = FRound( nMaximumExtent * fWH ); aSizePix.Height() = nMaximumExtent; } else { aSizePix.Width() = nMaximumExtent; aSizePix.Height() = FRound( nMaximumExtent / fWH ); } aDrawSize.Width() = FRound( ( static_cast< double >( aDrawSize.Width() ) * aSizePix.Width() ) / aOldSizePix.Width() ); aDrawSize.Height() = FRound( ( static_cast< double >( aDrawSize.Height() ) * aSizePix.Height() ) / aOldSizePix.Height() ); } Size aFullSize; Point aBackPosPix; Rectangle aOverlayRect; // calculate addigtional positions and sizes if an overlay image is used if ( pOverlay ) { aFullSize = Size( nMaximumExtent, nMaximumExtent ); aOverlayRect = Rectangle( aNullPt, aFullSize ); aOverlayRect.Intersection( pOverlayRect ? *pOverlayRect : Rectangle( aNullPt, pOverlay->GetSizePixel() ) ); if ( !aOverlayRect.IsEmpty() ) aBackPosPix = Point( ( nMaximumExtent - aSizePix.Width() ) >> 1, ( nMaximumExtent - aSizePix.Height() ) >> 1 ); else pOverlay = NULL; } else { aFullSize = aSizePix; pOverlay = NULL; } // draw image(s) into VDev and get resulting image if ( aVDev.SetOutputSizePixel( aFullSize ) ) { // draw metafile into VDev const_cast< GDIMetaFile& >( rMtf ).WindStart(); const_cast< GDIMetaFile& >( rMtf ).Play( &aVDev, aBackPosPix, aDrawSize ); // draw overlay if neccessary if ( pOverlay ) aVDev.DrawBitmapEx( aOverlayRect.TopLeft(), aOverlayRect.GetSize(), *pOverlay ); // get paint bitmap Bitmap aBmp( aVDev.GetBitmap( aNullPt, aVDev.GetOutputSizePixel() ) ); // assure that we have a true color image if ( aBmp.GetBitCount() != 24 ) aBmp.Convert( BMP_CONVERSION_24BIT ); rBmpEx = BitmapEx( aBmp ); } return !rBmpEx.IsEmpty(); } //--------------------------------------------------------------- // static sal_Bool GraphicHelper::getThumbnailFormatFromGDI_Impl( GDIMetaFile* pMetaFile, sal_Bool bSigned, const uno::Reference< io::XStream >& xStream ) { sal_Bool bResult = sal_False; SvStream* pStream = NULL; if ( xStream.is() ) pStream = ::utl::UcbStreamHelper::CreateStream( xStream ); if ( pMetaFile && pStream && !pStream->GetError() ) { BitmapEx aResultBitmap; BitmapEx* pSignatureBitmap = NULL; if ( bSigned ) pSignatureBitmap = new BitmapEx( SfxResId( BMP_SIGNATURE ) ); bResult = createThumb_Impl( *pMetaFile, THUMBNAIL_RESOLUTION, aResultBitmap, pSignatureBitmap ); if ( bResult ) bResult = ( !aResultBitmap.IsEmpty() && GraphicConverter::Export( *pStream, aResultBitmap, CVT_PNG ) == 0 && ( pStream->Flush(), !pStream->GetError() ) ); if ( pSignatureBitmap ) delete pSignatureBitmap; delete pStream; } return bResult; } //--------------------------------------------------------------- // static sal_Bool GraphicHelper::getSignedThumbnailFormatFromBitmap_Impl( const BitmapEx& aBitmap, const uno::Reference< io::XStream >& xStream ) { sal_Bool bResult = sal_False; SvStream* pStream = NULL; if ( xStream.is() ) pStream = ::utl::UcbStreamHelper::CreateStream( xStream ); if ( pStream && !pStream->GetError() ) { BitmapEx aResultBitmap; BitmapEx aSignatureBitmap( SfxResId( BMP_SIGNATURE ) ); bResult = mergeBitmaps_Impl( aBitmap, aSignatureBitmap, Rectangle( Point(), aBitmap.GetSizePixel() ), aResultBitmap ); if ( bResult ) { bResult = ( !aResultBitmap.IsEmpty() && GraphicConverter::Export( *pStream, aResultBitmap, CVT_PNG ) == 0 && ( pStream->Flush(), !pStream->GetError() ) ); } delete pStream; } return bResult; } //--------------------------------------------------------------- // static sal_Bool GraphicHelper::getThumbnailReplacement_Impl( sal_Int32 nResID, const uno::Reference< io::XStream >& xStream ) { sal_Bool bResult = sal_False; if ( nResID && xStream.is() ) { uno::Reference< lang::XMultiServiceFactory > xServiceManager = ::comphelper::getProcessServiceFactory(); if ( xServiceManager.is() ) { try { uno::Reference< graphic::XGraphicProvider > xGraphProvider( xServiceManager->createInstance( ::rtl::OUString::createFromAscii( "com.sun.star.graphic.GraphicProvider" ) ), uno::UNO_QUERY ); if ( xGraphProvider.is() ) { ::rtl::OUString aURL = ::rtl::OUString::createFromAscii( "private:resource/sfx/bitmapex/" ); aURL += ::rtl::OUString::valueOf( nResID ); uno::Sequence< beans::PropertyValue > aMediaProps( 1 ); aMediaProps[0].Name = ::rtl::OUString::createFromAscii( "URL" ); aMediaProps[0].Value <<= aURL; uno::Reference< graphic::XGraphic > xGraphic = xGraphProvider->queryGraphic( aMediaProps ); if ( xGraphic.is() ) { uno::Sequence< beans::PropertyValue > aStoreProps( 2 ); aStoreProps[0].Name = ::rtl::OUString::createFromAscii( "OutputStream" ); aStoreProps[0].Value <<= xStream; aStoreProps[1].Name = ::rtl::OUString::createFromAscii( "MimeType" ); aStoreProps[1].Value <<= ::rtl::OUString::createFromAscii( "image/png" ); xGraphProvider->storeGraphic( xGraphic, aStoreProps ); bResult = sal_True; } } } catch( uno::Exception& ) { } } } return bResult; } //--------------------------------------------------------------- // static sal_uInt16 GraphicHelper::getThumbnailReplacementIDByFactoryName_Impl( const ::rtl::OUString& aFactoryShortName, sal_Bool /*bIsTemplate*/ ) { sal_uInt16 nResult = 0; if ( aFactoryShortName.equalsAscii( "scalc" ) ) { nResult = BMP_128X128_CALC_DOC; } else if ( aFactoryShortName.equalsAscii( "sdraw" ) ) { nResult = BMP_128X128_DRAW_DOC; } else if ( aFactoryShortName.equalsAscii( "simpress" ) ) { nResult = BMP_128X128_IMPRESS_DOC; } else if ( aFactoryShortName.equalsAscii( "smath" ) ) { nResult = BMP_128X128_MATH_DOC; } else if ( aFactoryShortName.equalsAscii( "swriter" ) || aFactoryShortName.compareToAscii( "swriter/", 8 ) == 0 ) { nResult = BMP_128X128_WRITER_DOC; } return nResult; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */