/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * 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 . */ #include #include "epptdef.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace com::sun::star; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::presentation; using ::com::sun::star::beans::XPropertySet; //============================ PPTWriter ================================== PPTWriter::PPTWriter( SvStorageRef& rSvStorage, ::com::sun::star::uno::Reference< ::com::sun::star::frame::XModel > & rXModel, ::com::sun::star::uno::Reference< ::com::sun::star::task::XStatusIndicator > & rXStatInd, SvMemoryStream* pVBA, sal_uInt32 nCnvrtFlags ) : PPTWriterBase ( rXModel, rXStatInd ), mnCnvrtFlags ( nCnvrtFlags ), mbStatus ( sal_False ), mbUseNewAnimations ( sal_True ), mnStatMaxValue ( 0 ), mnLatestStatValue ( 0 ), mnTextStyle( 0 ), mbFontIndependentLineSpacing( false ), mnTextSize( 0 ), mrStg ( rSvStorage ), mpCurUserStrm ( NULL ), mpStrm ( NULL ), mpPicStrm ( NULL ), mpPptEscherEx ( NULL ), mnVBAOleOfs ( 0 ), mpVBA ( pVBA ), mnExEmbed ( 0 ), mpExEmbed ( new SvMemoryStream ), mnDrawings ( 0 ), mnPagesWritten ( 0 ), mnUniqueSlideIdentifier ( 0 ), mnTxId ( 0x7a2f64 ), mnDiaMode ( 0 ), mnShapeMasterTitle ( 0 ), mnShapeMasterBody ( 0 ) { } void PPTWriter::exportPPTPre( const std::vector< com::sun::star::beans::PropertyValue >& rMediaData ) { if ( !mrStg.Is() ) return; // master pages + slides and notes + notes master page mnDrawings = mnMasterPages + ( mnPages << 1 ) + 1; if ( mXStatusIndicator.is() ) { mbStatusIndicator = sal_True; mnStatMaxValue = ( mnPages + mnMasterPages ) * 5; mXStatusIndicator->start( OUString( "PowerPoint Export" ), mnStatMaxValue + ( mnStatMaxValue >> 3 ) ); } SvGlobalName aGName( 0x64818d10L, 0x4f9b, 0x11cf, 0x86, 0xea, 0x00, 0xaa, 0x00, 0xb9, 0x29, 0xe8 ); mrStg->SetClass( aGName, 0, OUString("MS PowerPoint 97") ); if ( !ImplCreateCurrentUserStream() ) return; mpStrm = mrStg->OpenSotStream( OUString( "PowerPoint Document" ) ); if ( !mpStrm ) return; if ( !mpPicStrm ) mpPicStrm = mrStg->OpenSotStream( OUString( "Pictures" ) ); for (std::vector< com::sun::star::beans::PropertyValue >::const_iterator aIter( rMediaData.begin() ), aEnd( rMediaData.end() ); aIter != aEnd ; ++aIter) { if ( (*aIter).Name == "BaseURI" ) { (*aIter).Value >>= maBaseURI; break; } } mpPptEscherEx = new PptEscherEx( *mpStrm, maBaseURI ); } void PPTWriter::exportPPTPost( ) { if ( !ImplCloseDocument() ) return; if ( mbStatusIndicator ) { mXStatusIndicator->setText( OUString( "PowerPoint Export" ) ); sal_uInt32 nValue = mnStatMaxValue + ( mnStatMaxValue >> 3 ); if ( nValue > mnLatestStatValue ) { mXStatusIndicator->setValue( nValue ); mnLatestStatValue = nValue; } } ImplWriteOLE(); ImplWriteVBA(); if ( !ImplWriteAtomEnding() ) return; if ( !ImplCreateDocumentSummaryInformation() ) return; mbStatus = sal_True; }; // --------------------------------------------------------------------------------------------- void ImplExportComments( uno::Reference< drawing::XDrawPage > xPage, SvMemoryStream& rBinaryTagData10Atom ); void PPTWriter::ImplWriteSlide( sal_uInt32 nPageNum, sal_uInt32 nMasterNum, sal_uInt16 nMode, sal_Bool bHasBackground, Reference< XPropertySet > aXBackgroundPropSet ) { Any aAny; const PHLayout& rLayout = GetLayout( mXPagePropSet ); mpPptEscherEx->PtReplaceOrInsert( EPP_Persist_Slide | nPageNum, mpStrm->Tell() ); mpPptEscherEx->OpenContainer( EPP_Slide ); mpPptEscherEx->AddAtom( 24, EPP_SlideAtom, 2 ); mpStrm->WriteInt32( rLayout.nLayout ); mpStrm->Write( rLayout.nPlaceHolder, 8 ); // placeholderIDs (8 parts) mpStrm->WriteUInt32( (sal_uInt32)(nMasterNum | 0x80000000) )// master ID (equals 0x80000000 on a master page) .WriteUInt32( (sal_uInt32)nPageNum + 0x100 ) // notes ID (equals null if no notes are present) .WriteUInt16( nMode ) .WriteUInt16( (sal_uInt16)0 ); // padword mnDiaMode = 0; sal_Bool bVisible = sal_True; ::com::sun::star::presentation::FadeEffect eFe = ::com::sun::star::presentation::FadeEffect_NONE; if ( GetPropertyValue( aAny, mXPagePropSet, OUString( "Visible" ) ) ) aAny >>= bVisible; if ( GetPropertyValue( aAny, mXPagePropSet, OUString( "Change" ) ) ) { switch ( *(sal_Int32*)aAny.getValue() ) { case 1 : // automatic mnDiaMode++; case 2 : // semi-automatic mnDiaMode++; default : case 0 : // manual break; } } if ( GetPropertyValue( aAny, mXPagePropSet, OUString( "Effect" ) ) ) aAny >>= eFe; sal_uInt32 nSoundRef = 0; sal_Bool bIsSound = sal_False; sal_Bool bStopSound = sal_False; sal_Bool bLoopSound = sal_False; if ( GetPropertyValue( aAny, mXPagePropSet, OUString( "Sound" ) ) ) { OUString aSoundURL; if ( aAny >>= aSoundURL ) { nSoundRef = maSoundCollection.GetId( aSoundURL ); bIsSound = sal_True; } else aAny >>= bStopSound; } if ( GetPropertyValue( aAny, mXPagePropSet, OUString( "LoopSound" ) ) ) aAny >>= bLoopSound; sal_Bool bNeedsSSSlideInfoAtom = ( bVisible == sal_False ) || ( mnDiaMode == 2 ) || ( bIsSound ) || ( bStopSound ) || ( eFe != ::com::sun::star::presentation::FadeEffect_NONE ); if ( bNeedsSSSlideInfoAtom ) { sal_uInt8 nDirection = 0; sal_uInt8 nTransitionType = 0; sal_uInt16 nBuildFlags = 1; // advange by mouseclick sal_Int32 nSlideTime = 0; // still has to !!! sal_uInt8 nSpeed = 1; if ( GetPropertyValue( aAny, mXPagePropSet, OUString( "Speed" ) ) ) { ::com::sun::star::presentation::AnimationSpeed aAs; aAny >>= aAs; nSpeed = (sal_uInt8)aAs; } sal_Int16 nTT = 0; if ( GetPropertyValue( aAny, mXPagePropSet, OUString( "TransitionType" ) ) && ( aAny >>= nTT ) ) { sal_Int16 nTST = 0; if ( GetPropertyValue( aAny, mXPagePropSet, OUString( "TransitionSubtype" ) ) && ( aAny >>= nTST ) ) nTransitionType = GetTransition( nTT, nTST, eFe, nDirection ); } if ( !nTransitionType ) nTransitionType = GetTransition( eFe, nDirection ); if ( mnDiaMode == 2 ) // automatic ? nBuildFlags |= 0x400; if ( bVisible == sal_False ) nBuildFlags |= 4; if ( bIsSound ) nBuildFlags |= 16; if ( bLoopSound ) nBuildFlags |= 64; if ( bStopSound ) nBuildFlags |= 256; if ( GetPropertyValue( aAny, mXPagePropSet, OUString( "Duration" ) ) )// duration of this slide nSlideTime = *(sal_Int32*)aAny.getValue() << 10; // in ticks mpPptEscherEx->AddAtom( 16, EPP_SSSlideInfoAtom ); mpStrm->WriteInt32( nSlideTime ) // standtime in ticks .WriteUInt32( nSoundRef ) .WriteUChar( nDirection ) .WriteUChar( nTransitionType ) .WriteUInt16( nBuildFlags ) .WriteUChar( nSpeed ) .WriteUChar( (sal_uInt8)0 ).WriteUChar( (sal_uInt8)0 ).WriteUChar( (sal_uInt8)0 ); } ImplCreateHeaderFooters( mXPagePropSet ); EscherSolverContainer aSolverContainer; mpPptEscherEx->OpenContainer( EPP_PPDrawing ); mpPptEscherEx->OpenContainer( ESCHER_DgContainer ); mpPptEscherEx->EnterGroup(0,0); ImplWritePage( rLayout, aSolverContainer, NORMAL, sal_False, nPageNum ); // the shapes of the pages are created in the PPT document mpPptEscherEx->LeaveGroup(); if ( bHasBackground ) ImplWriteBackground( aXBackgroundPropSet ); else { mpPptEscherEx->OpenContainer( ESCHER_SpContainer ); mpPptEscherEx->AddShape( ESCHER_ShpInst_Rectangle, 0xc00 ); // Flags: Connector | Background | HasSpt EscherPropertyContainer aPropOpt; aPropOpt.AddOpt( ESCHER_Prop_fillRectRight, PPTtoEMU( maDestPageSize.Width ) ); aPropOpt.AddOpt( ESCHER_Prop_fillRectBottom, PPTtoEMU( maDestPageSize.Width ) ); aPropOpt.AddOpt( ESCHER_Prop_fNoFillHitTest, 0x120012 ); aPropOpt.AddOpt( ESCHER_Prop_fNoLineDrawDash, 0x80000 ); aPropOpt.AddOpt( ESCHER_Prop_bWMode, ESCHER_wDontShow ); aPropOpt.AddOpt( ESCHER_Prop_fBackground, 0x10001 ); // if true, this is the background shape aPropOpt.Commit( *mpStrm ); mpPptEscherEx->CloseContainer(); // ESCHER_SpContainer } aSolverContainer.WriteSolver( *mpStrm ); mpPptEscherEx->CloseContainer(); // ESCHER_DgContainer mpPptEscherEx->CloseContainer(); // EPP_Drawing mpPptEscherEx->AddAtom( 32, EPP_ColorSchemeAtom, 0, 1 ); mpStrm->WriteUInt32( (sal_uInt32)0xffffff ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x808080 ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x99cc00 ).WriteUInt32( (sal_uInt32)0xcc3333 ).WriteUInt32( (sal_uInt32)0xffcccc ).WriteUInt32( (sal_uInt32)0xb2b2b2 ); SvMemoryStream aBinaryTagData10Atom; ImplExportComments( mXDrawPage, aBinaryTagData10Atom ); if ( mbUseNewAnimations ) { SvMemoryStream amsofbtAnimGroup; ppt::AnimationExporter aExporter( aSolverContainer, maSoundCollection ); aExporter.doexport( mXDrawPage, amsofbtAnimGroup ); sal_uInt32 nmsofbtAnimGroupSize = amsofbtAnimGroup.Tell(); if ( nmsofbtAnimGroupSize ) { { EscherExAtom aMagic2( aBinaryTagData10Atom, 0x2eeb ); aBinaryTagData10Atom.WriteUInt32( (sal_uInt32)0x01c45df9 ) .WriteUInt32( (sal_uInt32)0xe1471b30 ); } { EscherExAtom aMagic( aBinaryTagData10Atom, 0x2b00 ); aBinaryTagData10Atom.WriteUInt32( (sal_uInt32)0 ); } aBinaryTagData10Atom.Write( amsofbtAnimGroup.GetData(), amsofbtAnimGroup.Tell() ); { EscherExContainer aMagic2( aBinaryTagData10Atom, 0x2b02 ); } } } if ( aBinaryTagData10Atom.Tell() ) { EscherExContainer aProgTags ( *mpStrm, EPP_ProgTags ); EscherExContainer aProgBinaryTag( *mpStrm, EPP_ProgBinaryTag ); { EscherExAtom aCString( *mpStrm, EPP_CString ); mpStrm->WriteUInt32( (sal_uInt32)0x5f005f ) .WriteUInt32( (sal_uInt32)0x50005f ) .WriteUInt32( (sal_uInt32)0x540050 ) .WriteUInt16( (sal_uInt16)0x31 ) .WriteUInt16( (sal_uInt16)0x30 ); } { EscherExAtom aBinaryTagData( *mpStrm, EPP_BinaryTagData ); mpStrm->Write( aBinaryTagData10Atom.GetData(), aBinaryTagData10Atom.Tell() ); } } mpPptEscherEx->CloseContainer(); // EPP_Slide } // --------------------------------------------------------------------------------------------- void PPTWriter::ImplWriteSlideMaster( sal_uInt32 nPageNum, Reference< XPropertySet > aXBackgroundPropSet ) { mpPptEscherEx->PtReplaceOrInsert( EPP_Persist_MainMaster | nPageNum, mpStrm->Tell() ); mpPptEscherEx->OpenContainer( EPP_MainMaster ); mpPptEscherEx->AddAtom( 24, EPP_SlideAtom, 2 ); mpStrm->WriteInt32( (sal_Int32)EPP_LAYOUT_TITLEANDBODYSLIDE ) // slide layout -> title and body slide .WriteUChar( (sal_uInt8)1 ).WriteUChar( (sal_uInt8)2 ).WriteUChar( (sal_uInt8)0 ).WriteUChar( (sal_uInt8)0 ).WriteUChar( (sal_uInt8)0 ).WriteUChar( (sal_uInt8)0 ).WriteUChar( (sal_uInt8)0 ).WriteUChar( (sal_uInt8)0 ) // placeholderID .WriteUInt32( (sal_uInt32)0 ) // master ID (equals null at a master page) .WriteUInt32( (sal_uInt32)0 ) // notes ID (equals null if no notes are present) .WriteUInt16( (sal_uInt16)0 ) // Bit 1: Follow master objects, Bit 2: Follow master scheme, Bit 3: Follow master background .WriteUInt16( (sal_uInt16)0 ); // padword mpPptEscherEx->AddAtom( 32, EPP_ColorSchemeAtom, 0, 6 ); mpStrm->WriteUInt32( (sal_uInt32)0xffffff ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x808080 ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x99cc00 ).WriteUInt32( (sal_uInt32)0xcc3333 ).WriteUInt32( (sal_uInt32)0xffcccc ).WriteUInt32( (sal_uInt32)0xb2b2b2 ); mpPptEscherEx->AddAtom( 32, EPP_ColorSchemeAtom, 0, 6 ); mpStrm->WriteUInt32( (sal_uInt32)0xff0000 ).WriteUInt32( (sal_uInt32)0xffffff ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x00ffff ).WriteUInt32( (sal_uInt32)0x0099ff ).WriteUInt32( (sal_uInt32)0xffff00 ).WriteUInt32( (sal_uInt32)0x0000ff ).WriteUInt32( (sal_uInt32)0x969696 ); mpPptEscherEx->AddAtom( 32, EPP_ColorSchemeAtom, 0, 6 ); mpStrm->WriteUInt32( (sal_uInt32)0xccffff ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x336666 ).WriteUInt32( (sal_uInt32)0x008080 ).WriteUInt32( (sal_uInt32)0x339933 ).WriteUInt32( (sal_uInt32)0x000080 ).WriteUInt32( (sal_uInt32)0xcc3300 ).WriteUInt32( (sal_uInt32)0x66ccff ); mpPptEscherEx->AddAtom( 32, EPP_ColorSchemeAtom, 0, 6 ); mpStrm->WriteUInt32( (sal_uInt32)0xffffff ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x333333 ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0xdddddd ).WriteUInt32( (sal_uInt32)0x808080 ).WriteUInt32( (sal_uInt32)0x4d4d4d ).WriteUInt32( (sal_uInt32)0xeaeaea ); mpPptEscherEx->AddAtom( 32, EPP_ColorSchemeAtom, 0, 6 ); mpStrm->WriteUInt32( (sal_uInt32)0xffffff ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x808080 ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x66ccff ).WriteUInt32( (sal_uInt32)0xff0000 ).WriteUInt32( (sal_uInt32)0xcc00cc ).WriteUInt32( (sal_uInt32)0xc0c0c0 ); mpPptEscherEx->AddAtom( 32, EPP_ColorSchemeAtom, 0, 6 ); mpStrm->WriteUInt32( (sal_uInt32)0xffffff ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x808080 ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0xc0c0c0 ).WriteUInt32( (sal_uInt32)0xff6600 ).WriteUInt32( (sal_uInt32)0x0000ff ).WriteUInt32( (sal_uInt32)0x009900 ); mpPptEscherEx->AddAtom( 32, EPP_ColorSchemeAtom, 0, 6 ); mpStrm->WriteUInt32( (sal_uInt32)0xffffff ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x808080 ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0xff9933 ).WriteUInt32( (sal_uInt32)0xccff99 ).WriteUInt32( (sal_uInt32)0xcc00cc ).WriteUInt32( (sal_uInt32)0xb2b2b2 ); for ( int nInstance = EPP_TEXTTYPE_Title; nInstance <= EPP_TEXTTYPE_QuarterBody; nInstance++ ) { if ( nInstance == EPP_TEXTTYPE_notUsed ) continue; // the auto color is dependent to the page background,so we have to set a page that is in the right context if ( nInstance == EPP_TEXTTYPE_Notes ) GetPageByIndex( 0, NOTICE ); else GetPageByIndex( 0, MASTER ); mpPptEscherEx->BeginAtom(); sal_Bool bFirst = sal_True; sal_Bool bSimpleText = sal_False; mpStrm->WriteUInt16( (sal_uInt16)5 ); // paragraph count for ( sal_uInt16 nLev = 0; nLev < 5; nLev++ ) { if ( nInstance >= EPP_TEXTTYPE_CenterBody ) { bFirst = sal_False; bSimpleText = sal_True; mpStrm->WriteUInt16( nLev ); } mpStyleSheet->mpParaSheet[ nInstance ]->Write( *mpStrm, mpPptEscherEx, nLev, bFirst, bSimpleText, mXPagePropSet ); mpStyleSheet->mpCharSheet[ nInstance ]->Write( *mpStrm, mpPptEscherEx, nLev, bFirst, bSimpleText, mXPagePropSet ); bFirst = sal_False; } mpPptEscherEx->EndAtom( EPP_TxMasterStyleAtom, 0, nInstance ); } GetPageByIndex( nPageNum, MASTER ); EscherSolverContainer aSolverContainer; mpPptEscherEx->OpenContainer( EPP_PPDrawing ); mpPptEscherEx->OpenContainer( ESCHER_DgContainer ); mpPptEscherEx->EnterGroup(0,0); ImplWritePage( GetLayout( 0 ), aSolverContainer, MASTER, sal_True ); // the shapes of the pages are created in the PPT document mpPptEscherEx->LeaveGroup(); ImplWriteBackground( aXBackgroundPropSet ); aSolverContainer.WriteSolver( *mpStrm ); mpPptEscherEx->CloseContainer(); // ESCHER_DgContainer mpPptEscherEx->CloseContainer(); // EPP_Drawing mpPptEscherEx->AddAtom( 32, EPP_ColorSchemeAtom, 0, 1 ); mpStrm->WriteUInt32( (sal_uInt32)0xffffff ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x808080 ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x99cc00 ).WriteUInt32( (sal_uInt32)0xcc3333 ).WriteUInt32( (sal_uInt32)0xffcccc ).WriteUInt32( (sal_uInt32)0xb2b2b2 ); if ( aBuExMasterStream.Tell() ) { ImplProgTagContainer( mpStrm, &aBuExMasterStream ); } mpPptEscherEx->CloseContainer(); // EPP_MainMaster }; // --------------------------------------------------------------------------------------------- PPTWriter::~PPTWriter() { delete mpExEmbed; delete mpPptEscherEx; delete mpCurUserStrm; delete mpPicStrm; delete mpStrm; std::vector< PPTExStyleSheet* >::iterator aStyleSheetIter( maStyleSheetList.begin() ); while( aStyleSheetIter < maStyleSheetList.end() ) delete *aStyleSheetIter++; for ( std::vector::const_iterator it = maExOleObj.begin(); it != maExOleObj.end(); ++it ) delete *it; if ( mbStatusIndicator ) mXStatusIndicator->end(); } // --------------------------------------------------------------------------------------------- sal_Bool PPTWriter::ImplCreateCurrentUserStream() { mpCurUserStrm = mrStg->OpenSotStream( OUString( "Current User" ) ); if ( !mpCurUserStrm ) return sal_False; char pUserName[] = "Current User"; sal_uInt32 nLenOfUserName = strlen( pUserName ); sal_uInt32 nSizeOfRecord = 0x14 + ( ( nLenOfUserName + 4 ) & ~ 3 ); mpCurUserStrm->WriteUInt16( (sal_uInt16)0 ).WriteUInt16( (sal_uInt16)EPP_CurrentUserAtom ).WriteUInt32( nSizeOfRecord ); mpCurUserStrm->WriteUInt32( (sal_uInt32)0x14 ) // Len .WriteUInt32( (sal_uInt32)0xe391c05f ); // Magic sal_uInt32 nEditPos = mpCurUserStrm->Tell(); mpCurUserStrm->WriteUInt32( (sal_uInt32)0x0 ) // OffsetToCurrentEdit; .WriteUInt16( (sal_uInt16)nLenOfUserName ) // .WriteUInt16( (sal_uInt16)0x3f4 ) // DocFileVersion .WriteUChar( (sal_uInt8)3 ) // MajorVersion .WriteUChar( (sal_uInt8)0 ) // MinorVersion .WriteUInt16( (sal_uInt16)0 ); // Pad Word pUserName[ nLenOfUserName ] = 8; mpCurUserStrm->Write( pUserName, nLenOfUserName + 1 ); for ( sal_uInt32 i = 0x15 + nLenOfUserName; i < nSizeOfRecord; i++ ) { mpCurUserStrm->WriteUChar( (sal_uInt8)0 ); // pad bytes }; mpCurUserStrm->Seek( nEditPos ); return sal_True; }; // --------------------------------------------------------------------------------------------- sal_Bool PPTWriter::ImplCreateDocumentSummaryInformation() { uno::Reference xDPS( mXModel, uno::UNO_QUERY_THROW); uno::Reference xDocProps( xDPS->getDocumentProperties()); if (xDocProps.is()) { // no idea what this is... static const sal_uInt8 aGuid[ 0x52 ] = { 0x4e, 0x00, 0x00, 0x00, '{',0,'D',0,'B',0,'1',0,'A',0,'C',0,'9',0,'6',0,'4',0,'-',0, 'E',0,'3',0,'9',0,'C',0,'-',0,'1',0,'1',0,'D',0,'2',0,'-',0, 'A',0,'1',0,'E',0,'F',0,'-',0,'0',0,'0',0,'6',0,'0',0,'9',0, '7',0,'D',0,'A',0,'5',0,'6',0,'8',0,'9',0,'}',0 }; uno::Sequence aGuidSeq(aGuid, 0x52); SvMemoryStream aHyperBlob; ImplCreateHyperBlob( aHyperBlob ); uno::Sequence aHyperSeq(aHyperBlob.Tell()); const sal_uInt8* pBlob( static_cast(aHyperBlob.GetData())); for (sal_Int32 j = 0; j < aHyperSeq.getLength(); ++j) { aHyperSeq[j] = pBlob[j]; } if ( mnCnvrtFlags & 0x8000 ) { uno::Sequence aThumbSeq; if ( GetPageByIndex( 0, NORMAL ) && ImplGetPropertyValue( mXPagePropSet, OUString( "PreviewBitmap" ) ) ) { aThumbSeq = *static_cast*>(mAny.getValue()); } sfx2::SaveOlePropertySet( xDocProps, mrStg, &aThumbSeq, &aGuidSeq, &aHyperSeq); } else { sfx2::SaveOlePropertySet( xDocProps, mrStg, NULL, &aGuidSeq, &aHyperSeq ); } } return sal_True; } // --------------------------------------------------------------------------------------------- void PPTWriter::ImplWriteExtParaHeader( SvMemoryStream& rSt, sal_uInt32 nRef, sal_uInt32 nInstance, sal_uInt32 nSlideId ) { if ( rSt.Tell() ) { aBuExOutlineStream.WriteUInt32( (sal_uInt32)( ( EPP_PST_ExtendedParagraphHeaderAtom << 16 ) | ( nRef << 4 ) ) ) .WriteUInt32( (sal_uInt32)8 ) .WriteUInt32( (sal_uInt32)nSlideId ) .WriteUInt32( (sal_uInt32)nInstance ); aBuExOutlineStream.Write( rSt.GetData(), rSt.Tell() ); } } // --------------------------------------------------------------------------------------------- void PPTWriter::ImplCreateHeaderFooterStrings( SvStream& rStrm, ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet >& rXPagePropSet ) { if ( rXPagePropSet.is() ) { OUString aString; ::com::sun::star::uno::Any aAny; if ( PropValue::GetPropertyValue( aAny, rXPagePropSet, OUString( "HeaderText" ), sal_True ) ) { if ( aAny >>= aString ) PPTWriter::WriteCString( rStrm, aString, 1 ); } if ( PropValue::GetPropertyValue( aAny, rXPagePropSet, OUString( "FooterText" ), sal_True ) ) { if ( aAny >>= aString ) PPTWriter::WriteCString( rStrm, aString, 2 ); } if ( PropValue::GetPropertyValue( aAny, rXPagePropSet, OUString( "DateTimeText" ), sal_True ) ) { if ( aAny >>= aString ) PPTWriter::WriteCString( rStrm, aString, 0 ); } } } // --------------------------------------------------------------------------------------------- void PPTWriter::ImplCreateHeaderFooters( ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet >& rXPagePropSet ) { if ( rXPagePropSet.is() ) { sal_Bool bVal = sal_False; sal_uInt32 nVal = 0; ::com::sun::star::uno::Any aAny; if ( PropValue::GetPropertyValue( aAny, rXPagePropSet, OUString( "IsHeaderVisible" ), sal_True ) ) { if ( ( aAny >>= bVal ) && bVal ) nVal |= 0x100000; } if ( PropValue::GetPropertyValue( aAny, rXPagePropSet, OUString( "IsFooterVisible" ), sal_True ) ) { if ( ( aAny >>= bVal ) && bVal ) nVal |= 0x200000; } if ( PropValue::GetPropertyValue( aAny, rXPagePropSet, OUString( "IsDateTimeVisible" ), sal_True ) ) { if ( ( aAny >>= bVal ) && bVal ) nVal |= 0x010000; } if ( PropValue::GetPropertyValue( aAny, rXPagePropSet, OUString( "IsPageNumberVisible" ), sal_True ) ) { if ( ( aAny >>= bVal ) && bVal ) nVal |= 0x080000; } if ( PropValue::GetPropertyValue( aAny, rXPagePropSet, OUString( "IsDateTimeFixed" ), sal_True ) ) { if ( ( aAny >>= bVal ) && !bVal ) nVal |= 0x20000; else nVal |= 0x40000; } if ( PropValue::GetPropertyValue( aAny, rXPagePropSet, OUString( "DateTimeFormat" ), sal_True ) ) { sal_Int32 nFormat = *(sal_Int32*)aAny.getValue(); SvxDateFormat eDateFormat = (SvxDateFormat)( nFormat & 0xf ); SvxTimeFormat eTimeFormat = (SvxTimeFormat)( ( nFormat >> 4 ) & 0xf ); switch( eDateFormat ) { case SVXDATEFORMAT_F : nFormat = 1; break; case SVXDATEFORMAT_D : nFormat = 2; break; case SVXDATEFORMAT_C : nFormat = 4; break; default: case SVXDATEFORMAT_A : nFormat = 0; } switch( eTimeFormat ) { case SVXTIMEFORMAT_24_HM : nFormat = 9; break; case SVXTIMEFORMAT_12_HM : nFormat = 11; break; case SVXTIMEFORMAT_24_HMS : nFormat = 10; break; case SVXTIMEFORMAT_12_HMS : nFormat = 12; break; default: break; } nVal |= nFormat; } mpPptEscherEx->OpenContainer( EPP_HeadersFooters, 0 ); mpPptEscherEx->AddAtom( 4, EPP_HeadersFootersAtom ); mpStrm->WriteUInt32( nVal ); ImplCreateHeaderFooterStrings( *mpStrm, rXPagePropSet ); mpPptEscherEx->CloseContainer(); } } // --------------------------------------------------------------------------------------------- sal_Bool PPTWriter::ImplCreateDocument() { sal_uInt32 i; sal_uInt16 nSlideType = EPP_SLIDESIZE_TYPECUSTOM; sal_uInt32 nWidth = maDestPageSize.Width; sal_uInt32 nHeight = maDestPageSize.Height; if ( ( nWidth == 0x1680 ) && ( nHeight == 0x10e0 ) ) nSlideType = EPP_SLIDESIZE_TYPEONSCREEN; else if ( ( nWidth == 0x1200 ) && ( nHeight == 0x240 ) ) nSlideType = EPP_SLIDESIZE_TYPEBANNER; else if ( ( nWidth == 0x1950 ) && ( nHeight == 0x10e0 ) ) nSlideType = EPP_SLIDESIZE_TYPE35MM; else if ( ( nWidth == 0x1860 ) && ( nHeight == 0x10e0 ) ) nSlideType = EPP_SLIDESIZE_TYPEA4PAPER; mpPptEscherEx->OpenContainer( EPP_Document ); // CREATE DOCUMENT ATOM mpPptEscherEx->AddAtom( 40, EPP_DocumentAtom, 1 ); mpStrm->WriteUInt32( nWidth ) // Slide Size in Master coordinates X .WriteUInt32( nHeight ) // " " " " " Y .WriteInt32( (sal_Int32)maNotesPageSize.Width ) // Notes Page Size X .WriteInt32( (sal_Int32)maNotesPageSize.Height ) // " " " Y .WriteInt32( (sal_Int32)1 ).WriteInt32( (sal_Int32)2 ); // the scale used when the Powerpoint document is embedded. the default is 1:2 mpPptEscherEx->InsertPersistOffset( EPP_MAINNOTESMASTER_PERSIST_KEY, mpStrm->Tell() ); mpStrm->WriteUInt32( (sal_uInt32)0 ) // Reference to NotesMaster ( 0 if none ); .WriteUInt32( (sal_uInt32)0 ) // Reference to HandoutMaster ( 0 if none ); .WriteInt16( (sal_Int16)1 ) // Number of the first slide; .WriteUInt16( nSlideType ) // Size of the document slides ( default: EPP_SLIDESIZETYPEONSCREEN ) .WriteUChar( (sal_uInt8)0 ) // bool1 indicates if document was saved with embedded true type fonts .WriteUChar( (sal_uInt8)0 ) // bool1 indicates if the placeholders on the title slide are omitted .WriteUChar( (sal_uInt8)0 ) // bool1 right to left ( flag for Bidi version ) .WriteUChar( (sal_uInt8)1 ); // bool1 visibility of comments shapes mpPptEscherEx->PtInsert( EPP_Persist_Document, mpStrm->Tell() ); mpPptEscherEx->OpenContainer( EPP_HeadersFooters, 3 ); //Master footer (default) mpPptEscherEx->AddAtom( 4, EPP_HeadersFootersAtom ); mpStrm->WriteUInt32( (sal_uInt32)0x25000d ); if ( GetPageByIndex( 0, MASTER ) ) ImplCreateHeaderFooterStrings( *mpStrm, mXPagePropSet ); mpPptEscherEx->CloseContainer(); mpPptEscherEx->OpenContainer( EPP_HeadersFooters, 4 ); //NotesMaster footer (default) mpPptEscherEx->AddAtom( 4, EPP_HeadersFootersAtom ); mpStrm->WriteUInt32( (sal_uInt32)0x3d000d ); if ( GetPageByIndex( 0, NOTICE ) ) ImplCreateHeaderFooterStrings( *mpStrm, mXPagePropSet ); mpPptEscherEx->CloseContainer(); mpPptEscherEx->OpenContainer( EPP_SlideListWithText ); // animation information for the slides for ( i = 0; i < mnPages; i++ ) { mpPptEscherEx->AddAtom( 20, EPP_SlidePersistAtom ); mpPptEscherEx->InsertPersistOffset( EPP_MAINSLIDE_PERSIST_KEY | i, mpStrm->Tell() ); mpStrm->WriteUInt32( (sal_uInt32)0 ) // psrReference - logical reference to the slide persist object ( EPP_MAINSLIDE_PERSIST_KEY ) .WriteUInt32( (sal_uInt32)4 ) // flags - only bit 3 used, if set then slide contains shapes other than placeholders .WriteInt32( (sal_Int32)0 ) // numberTexts - number of placeholder texts stored with the persist object. Allows to display outline view without loading the slide persist objects .WriteInt32( (sal_Int32)i + 0x100 ) // slideId - Unique slide identifier, used for OLE link monikers for example .WriteUInt32( (sal_uInt32)0 ); // reserved, usualy 0 if ( !GetPageByIndex( i, NORMAL ) ) // very exciting: once again through all pages return sal_False; SetCurrentStyleSheet( GetMasterIndex( NORMAL ) ); ::com::sun::star::uno::Reference< ::com::sun::star::container::XNamed > aXName( mXDrawPage, ::com::sun::star::uno::UNO_QUERY ); if ( aXName.is() ) maSlideNameList.push_back( aXName->getName() ); else maSlideNameList.push_back( OUString() ); } mpPptEscherEx->CloseContainer(); // EPP_SlideListWithText mpPptEscherEx->OpenContainer( EPP_SlideListWithText, 2 ); // animation information for the notes for( i = 0; i < mnPages; i++ ) { mpPptEscherEx->AddAtom( 20, EPP_SlidePersistAtom ); mpPptEscherEx->InsertPersistOffset( EPP_MAINNOTES_PERSIST_KEY | i, mpStrm->Tell() ); mpStrm->WriteUInt32( (sal_uInt32)0 ) .WriteUInt32( (sal_uInt32)4 ) .WriteInt32( (sal_Int32)0 ) .WriteInt32( (sal_Int32)i + 0x100 ) .WriteUInt32( (sal_uInt32)0 ); } mpPptEscherEx->CloseContainer(); // EPP_SlideListWithText ::com::sun::star::uno::Reference< ::com::sun::star::presentation::XPresentationSupplier > aXPresSupplier( mXModel, ::com::sun::star::uno::UNO_QUERY ); ; if ( aXPresSupplier.is() ) { ::com::sun::star::uno::Reference< ::com::sun::star::presentation::XPresentation > aXPresentation( aXPresSupplier->getPresentation() ); if ( aXPresentation.is() ) { mXPropSet = ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > ( aXPresentation, ::com::sun::star::uno::UNO_QUERY ); if ( mXPropSet.is() ) { OUString aCustomShow; sal_uInt32 nPenColor = 0x1000000; sal_Int32 nRestartTime = 0x7fffffff; sal_Int16 nStartSlide = 0; sal_Int16 nEndSlide = 0; sal_uInt32 nFlags = 0; // Bit 0: Auto advance // Bit 1 Skip builds ( do not allow slide effects ) // Bit 2 Use slide range // Bit 3 Use named show // Bit 4 Browse mode on // Bit 5 Kiosk mode on // Bit 7 loop continuously // Bit ? show scrollbar if ( ImplGetPropertyValue( OUString( "CustomShow" ) ) ) { aCustomShow = ( *(OUString*)mAny.getValue() ); if ( !aCustomShow.isEmpty() ) { nFlags |= 8; } } if ( ( nFlags & 8 ) == 0 ) { if ( ImplGetPropertyValue( OUString( "FirstPage" ) ) ) { OUString aSlideName( *(OUString*)mAny.getValue() ); std::vector::const_iterator pIter = std::find( maSlideNameList.begin(),maSlideNameList.end(),aSlideName); if (pIter != maSlideNameList.end()) { nStartSlide = pIter - maSlideNameList.begin() + 1; nFlags |= 4; nEndSlide = (sal_uInt16)mnPages; } } } if ( ImplGetPropertyValue( OUString("IsAutomatic" ) ) ) { sal_Bool bBool = sal_False; mAny >>= bBool; if ( !bBool ) nFlags |= 1; } if ( ImplGetPropertyValue( OUString( "IsEndless" ) ) ) // the correct name would be IsNotEndless: WTF? { sal_Bool bBool = sal_False; mAny >>= bBool; if ( bBool ) nFlags |= 0x80; } if ( ImplGetPropertyValue( OUString( "IsFullScreen" ) ) ) { sal_Bool bBool = sal_False; mAny >>= bBool; if ( !bBool ) nFlags |= 0x11; } mpPptEscherEx->AddAtom( 80, EPP_SSDocInfoAtom, 1 ); mpStrm->WriteUInt32( nPenColor ).WriteInt32( nRestartTime ).WriteInt16( nStartSlide ).WriteInt16( nEndSlide ); sal_uInt32 nCustomShowNameLen = aCustomShow.getLength(); if ( nCustomShowNameLen > 31 ) nCustomShowNameLen = 31; if ( nCustomShowNameLen ) // named show identifier { const sal_Unicode* pCustomShow = aCustomShow.getStr(); for ( i = 0; i < nCustomShowNameLen; i++ ) { mpStrm->WriteUInt16( (sal_uInt16)( pCustomShow[ i ] ) ); } } for ( i = nCustomShowNameLen; i < 32; i++, mpStrm->WriteUInt16( (sal_uInt16)0 ) ) ; mpStrm->WriteUInt32( nFlags ); ::com::sun::star::uno::Reference< ::com::sun::star::presentation::XCustomPresentationSupplier > aXCPSup( mXModel, ::com::sun::star::uno::UNO_QUERY ); if ( aXCPSup.is() ) { ::com::sun::star::uno::Reference< ::com::sun::star::container::XNameContainer > aXCont( aXCPSup->getCustomPresentations() ); if ( aXCont.is() ) { ::com::sun::star::uno::Sequence< OUString> aNameSeq( aXCont->getElementNames() ); const OUString* pUString = aNameSeq.getArray(); sal_uInt32 nCount = aNameSeq.getLength(); if ( nCount ) { mpPptEscherEx->OpenContainer( EPP_NamedShows ); sal_uInt32 nCustomShowIndex = 0; for( i = 0; i < nCount; i++ ) // number of custom shows { if ( !pUString[ i ].isEmpty() ) { mpPptEscherEx->OpenContainer( EPP_NamedShow, nCustomShowIndex++ ); sal_uInt32 nNamedShowLen = pUString[ i ].getLength(); if ( nNamedShowLen > 31 ) nNamedShowLen = 31; mpPptEscherEx->AddAtom( nNamedShowLen << 1, EPP_CString ); const sal_Unicode* pCustomShowName = pUString[ i ].getStr(); for ( sal_uInt32 k = 0; k < nNamedShowLen; mpStrm->WriteUInt16( (sal_uInt16)( pCustomShowName[ k++ ] ) ) ) ; mAny = aXCont->getByName( pUString[ i ] ); if ( mAny.getValue() ) { ::com::sun::star::uno::Reference< ::com::sun::star::container::XIndexContainer > aXIC; if ( mAny >>= aXIC ) { mpPptEscherEx->BeginAtom(); sal_Int32 nSlideCount = aXIC->getCount(); for ( sal_Int32 j = 0; j < nSlideCount; j++ ) // number of slides { mAny = aXIC->getByIndex( j ); if ( mAny.getValue() ) { ::com::sun::star::uno::Reference< ::com::sun::star::drawing::XDrawPage > aXDrawPage; if ( mAny >>= aXDrawPage ) { ::com::sun::star::uno::Reference< ::com::sun::star::container::XNamed > aXName( aXDrawPage, ::com::sun::star::uno::UNO_QUERY ); if ( aXName.is() ) { OUString aSlideName( aXName->getName() ); std::vector::const_iterator pIter = std::find( maSlideNameList.begin(),maSlideNameList.end(),aSlideName); if (pIter != maSlideNameList.end()) { sal_uInt32 nPageNumber = pIter - maSlideNameList.begin(); mpStrm->WriteUInt32( (sal_uInt32)( nPageNumber + 0x100 ) ); // unique slide id } } } } } mpPptEscherEx->EndAtom( EPP_NamedShowSlides ); } } mpPptEscherEx->CloseContainer(); // EPP_NamedShow } } mpPptEscherEx->CloseContainer(); // EPP_NamedShows } } } } } } mpPptEscherEx->AddAtom( 0, EPP_EndDocument ); mpPptEscherEx->CloseContainer(); // EPP_Document return sal_True; }; // --------------------------------------------------------------------------------------------- sal_Bool PPTWriter::ImplCreateHyperBlob( SvMemoryStream& rStrm ) { sal_uInt32 nCurrentOfs, nParaOfs, nParaCount = 0; nParaOfs = rStrm.Tell(); rStrm.WriteUInt32( (sal_uInt32)0 ); // property size rStrm.WriteUInt32( (sal_uInt32)0 ); // property count for ( std::vector::const_iterator pIter = maHyperlink.begin(); pIter != maHyperlink.end(); ++pIter ) { nParaCount += 6; rStrm .WriteUInt32( (sal_uInt32)3 ) // Type VT_I4 .WriteUInt32( (sal_uInt32)7 ) // (VTI4 - Private1) .WriteUInt32( (sal_uInt32)3 ) // Type VT_I4 .WriteUInt32( (sal_uInt32)6 ) // (VTI4 - Private2) .WriteUInt32( (sal_uInt32)3 ) // Type VT_I4 .WriteUInt32( (sal_uInt32)0 ); // (VTI4 - Private3) // INFO // HIWORD: = 0 : do not change anything // = 1 : replace the hyperlink with the target and subadress in the following two VTLPWSTR // = 2 : delete the hyperlink // LOWORD: = 0 : graphic shown as background (link) // = 1 : graphic shown as shape (link) // = 2 : graphic is used to fill a shape // = 3 : graphic used to fill a shape outline (future use) // = 4 : hyperlink attached to a shape // = 5 : " " " " (Word) field // = 6 : " " " " (Excel) range // = 7 : " " " " (PPT) text range // = 8 : " " " " (Project) task sal_Int32 nUrlLen = pIter->aURL.getLength(); const OUString& rUrl = pIter->aURL; sal_uInt32 nInfo = 7; rStrm .WriteUInt32( (sal_uInt32)3 ) // Type VT_I4 .WriteUInt32( nInfo ); // Info switch( pIter->nType & 0xff ) { case 1 : // click action to slidenumber { rStrm.WriteUInt32( (sal_uInt32)0x1f ).WriteUInt32( (sal_uInt32)1 ).WriteUInt32( (sal_uInt32)0 ); // path rStrm.WriteUInt32( (sal_uInt32)0x1f ).WriteUInt32( (sal_uInt32)( nUrlLen + 1 ) ); for ( sal_Int32 i = 0; i < nUrlLen; i++ ) { rStrm.WriteUInt16( rUrl[ i ] ); } rStrm.WriteUInt16( (sal_uInt16)0 ); } break; case 2 : { sal_Int32 i; rStrm .WriteUInt32( (sal_uInt32)0x1f ) .WriteUInt32( (sal_uInt32)( nUrlLen + 1 ) ); for ( i = 0; i < nUrlLen; i++ ) { rStrm.WriteUInt16( rUrl[ i ] ); } if ( ! ( i & 1 ) ) rStrm.WriteUInt16( (sal_uInt16)0 ); rStrm .WriteUInt16( (sal_uInt16)0 ) .WriteUInt32( (sal_uInt32)0x1f ) .WriteUInt32( (sal_uInt32)1 ) .WriteUInt32( (sal_uInt32)0 ); } break; } } nCurrentOfs = rStrm.Tell(); rStrm.Seek( nParaOfs ); rStrm.WriteUInt32( (sal_uInt32)( nCurrentOfs - ( nParaOfs + 4 ) ) ); rStrm.WriteUInt32( nParaCount ); rStrm.Seek( nCurrentOfs ); return sal_True; } // --------------------------------------------------------------------------------------------- sal_Bool PPTWriter::ImplCreateMainNotes() { EscherSolverContainer aSolverContainer; mpPptEscherEx->PtReplaceOrInsert( EPP_Persist_MainNotes, mpStrm->Tell() ); mpPptEscherEx->OpenContainer( EPP_Notes ); mpPptEscherEx->AddAtom( 8, EPP_NotesAtom, 1 ); mpStrm->WriteUInt32( (sal_uInt32)0x80000001 ) // Number that identifies this slide .WriteUInt32( (sal_uInt32)0 ); // follow nothing mpPptEscherEx->OpenContainer( EPP_PPDrawing ); mpPptEscherEx->OpenContainer( ESCHER_DgContainer ); mpPptEscherEx->EnterGroup(0,0); ImplWritePage( GetLayout( 20 ), aSolverContainer, NOTICE, sal_True ); mpPptEscherEx->LeaveGroup(); mpPptEscherEx->OpenContainer( ESCHER_SpContainer ); mpPptEscherEx->AddShape( ESCHER_ShpInst_Rectangle, 0xc00 ); EscherPropertyContainer aPropOpt; aPropOpt.AddOpt( ESCHER_Prop_fillColor, 0xffffff ); // stock valued fill color aPropOpt.AddOpt( ESCHER_Prop_fillBackColor, 0 ); aPropOpt.AddOpt( ESCHER_Prop_fillRectRight, 0x68bdde ); aPropOpt.AddOpt( ESCHER_Prop_fillRectBottom, 0x8b9f8e ); aPropOpt.AddOpt( ESCHER_Prop_fNoFillHitTest, 0x120012 ); aPropOpt.AddOpt( ESCHER_Prop_fNoLineDrawDash, 0 ); aPropOpt.AddOpt( ESCHER_Prop_bWMode, ESCHER_wDontShow ); aPropOpt.AddOpt( ESCHER_Prop_fBackground, 0x10001 ); // if true, this is the background shape aPropOpt.Commit( *mpStrm ); mpPptEscherEx->CloseContainer(); // ESCHER_SpContainer aSolverContainer.WriteSolver( *mpStrm ); mpPptEscherEx->CloseContainer(); // ESCHER_DgContainer mpPptEscherEx->CloseContainer(); // EPP_Drawing mpPptEscherEx->AddAtom( 32, EPP_ColorSchemeAtom, 0, 1 ); mpStrm->WriteUInt32( (sal_uInt32)0xffffff ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x808080 ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x99cc00 ).WriteUInt32( (sal_uInt32)0xcc3333 ).WriteUInt32( (sal_uInt32)0xffcccc ).WriteUInt32( (sal_uInt32)0xb2b2b2 ); mpPptEscherEx->CloseContainer(); // EPP_Notes return sal_True; } // --------------------------------------------------------------------------------------------- static OUString getInitials( const OUString& rName ) { OUString sInitials; const sal_Unicode * pStr = rName.getStr(); sal_Int32 nLength = rName.getLength(); while( nLength ) { // skip whitespace while( nLength && (*pStr <= ' ') ) { nLength--; pStr++; } // take letter if( nLength ) { sInitials += OUString( *pStr ); nLength--; pStr++; } // skip letters until whitespace while( nLength && (*pStr > ' ') ) { nLength--; pStr++; } } return sInitials; } void ImplExportComments( uno::Reference< drawing::XDrawPage > xPage, SvMemoryStream& rBinaryTagData10Atom ) { try { uno::Reference< office::XAnnotationAccess > xAnnotationAccess( xPage, uno::UNO_QUERY_THROW ); uno::Reference< office::XAnnotationEnumeration > xAnnotationEnumeration( xAnnotationAccess->createAnnotationEnumeration() ); sal_Int32 nIndex = 1; while( xAnnotationEnumeration->hasMoreElements() ) { EscherExContainer aComment10( rBinaryTagData10Atom, EPP_Comment10 ); { uno::Reference< office::XAnnotation > xAnnotation( xAnnotationEnumeration->nextElement() ); geometry::RealPoint2D aRealPoint2D( xAnnotation->getPosition() ); MapMode aMapDest( MAP_INCH, Point(), Fraction( 1, 576 ), Fraction( 1, 576 ) ); Point aPoint( OutputDevice::LogicToLogic( Point( static_cast< sal_Int32 >( aRealPoint2D.X * 100.0 ), static_cast< sal_Int32 >( aRealPoint2D.Y * 100.0 ) ), MAP_100TH_MM, aMapDest ) ); OUString sAuthor( xAnnotation->getAuthor() ); uno::Reference< text::XText > xText( xAnnotation->getTextRange() ); OUString sText( xText->getString() ); OUString sInitials( getInitials( sAuthor ) ); util::DateTime aDateTime( xAnnotation->getDateTime() ); if ( !sAuthor.isEmpty() ) PPTWriter::WriteCString( rBinaryTagData10Atom, sAuthor, 0 ); if ( !sText.isEmpty() ) PPTWriter::WriteCString( rBinaryTagData10Atom, sText, 1 ); if ( !sInitials.isEmpty() ) PPTWriter::WriteCString( rBinaryTagData10Atom, sInitials, 2 ); sal_Int16 nMilliSeconds = static_cast(::rtl::math::round(static_cast(aDateTime.NanoSeconds) / 1000000000.0)); EscherExAtom aCommentAtom10( rBinaryTagData10Atom, EPP_CommentAtom10 ); rBinaryTagData10Atom.WriteInt32( nIndex++ ) .WriteInt16( aDateTime.Year ) .WriteUInt16( aDateTime.Month ) .WriteUInt16( aDateTime.Day ) // todo: day of week .WriteUInt16( aDateTime.Day ) .WriteUInt16( aDateTime.Hours ) .WriteUInt16( aDateTime.Minutes ) .WriteUInt16( aDateTime.Seconds ) .WriteInt16( nMilliSeconds ) .WriteInt32( static_cast< sal_Int32 >( aPoint.X() ) ) .WriteInt32( static_cast< sal_Int32 >( aPoint.Y() ) ); } } } catch ( uno::Exception& ) { } } // --------------------------------------------------------------------------------------------- void PPTWriter::ImplWriteNotes( sal_uInt32 nPageNum ) { mpPptEscherEx->PtReplaceOrInsert( EPP_Persist_Notes | nPageNum, mpStrm->Tell() ); mpPptEscherEx->OpenContainer( EPP_Notes ); mpPptEscherEx->AddAtom( 8, EPP_NotesAtom, 1 ); mpStrm->WriteUInt32( (sal_uInt32)nPageNum + 0x100 ) .WriteUInt16( (sal_uInt16)3 ) // follow master .... .WriteUInt16( (sal_uInt16)0 ); ImplCreateHeaderFooters( mXPagePropSet ); EscherSolverContainer aSolverContainer; mpPptEscherEx->OpenContainer( EPP_PPDrawing ); mpPptEscherEx->OpenContainer( ESCHER_DgContainer ); mpPptEscherEx->EnterGroup(0,0); ImplWritePage( GetLayout( 20 ), aSolverContainer, NOTICE, sal_False ); // the shapes of the pages are created in the PPT document mpPptEscherEx->LeaveGroup(); mpPptEscherEx->OpenContainer( ESCHER_SpContainer ); mpPptEscherEx->AddShape( ESCHER_ShpInst_Rectangle, 0xc00 ); // Flags: Connector | Background | HasSpt EscherPropertyContainer aPropOpt; aPropOpt.AddOpt( ESCHER_Prop_fillColor, 0xffffff ); // stock valued fill color aPropOpt.AddOpt( ESCHER_Prop_fillBackColor, 0 ); aPropOpt.AddOpt( ESCHER_Prop_fillRectRight, 0x8b9f8e ); aPropOpt.AddOpt( ESCHER_Prop_fillRectBottom, 0x68bdde ); aPropOpt.AddOpt( ESCHER_Prop_fNoFillHitTest, 0x120012 ); aPropOpt.AddOpt( ESCHER_Prop_fNoLineDrawDash, 0x80000 ); aPropOpt.AddOpt( ESCHER_Prop_bWMode, ESCHER_wDontShow ); aPropOpt.AddOpt( ESCHER_Prop_fBackground, 0x10001 ); aPropOpt.Commit( *mpStrm ); mpPptEscherEx->CloseContainer(); // ESCHER_SpContainer aSolverContainer.WriteSolver( *mpStrm ); mpPptEscherEx->CloseContainer(); // ESCHER_DgContainer mpPptEscherEx->CloseContainer(); // EPP_Drawing mpPptEscherEx->AddAtom( 32, EPP_ColorSchemeAtom, 0, 1 ); mpStrm->WriteUInt32( (sal_uInt32)0xffffff ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x808080 ).WriteUInt32( (sal_uInt32)0x000000 ).WriteUInt32( (sal_uInt32)0x99cc00 ).WriteUInt32( (sal_uInt32)0xcc3333 ).WriteUInt32( (sal_uInt32)0xffcccc ).WriteUInt32( (sal_uInt32)0xb2b2b2 ); mpPptEscherEx->CloseContainer(); // EPP_Notes }; void PPTWriter::ImplWriteBackground( ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > & rXPropSet ) { //************************ ****** //** DEFAULT BACKGROUND SHAPE ** //****************************** sal_uInt32 nFillColor = 0xffffff; sal_uInt32 nFillBackColor = 0; mpPptEscherEx->OpenContainer( ESCHER_SpContainer ); mpPptEscherEx->AddShape( ESCHER_ShpInst_Rectangle, 0xc00 ); // Flags: Connector | Background | HasSpt // #i121183# Use real PageSize in 100th mm Rectangle aRect(Point(0, 0), Size(maPageSize.Width, maPageSize.Height)); EscherPropertyContainer aPropOpt( mpPptEscherEx->GetGraphicProvider(), mpPicStrm, aRect ); aPropOpt.AddOpt( ESCHER_Prop_fillType, ESCHER_FillSolid ); ::com::sun::star::drawing::FillStyle aFS( ::com::sun::star::drawing::FillStyle_NONE ); if ( ImplGetPropertyValue( rXPropSet, OUString( "FillStyle" ) ) ) mAny >>= aFS; switch( aFS ) { case ::com::sun::star::drawing::FillStyle_GRADIENT : { aPropOpt.CreateGradientProperties( rXPropSet ); aPropOpt.AddOpt( ESCHER_Prop_fNoFillHitTest, 0x1f001e ); aPropOpt.GetOpt( ESCHER_Prop_fillColor, nFillColor ); aPropOpt.GetOpt( ESCHER_Prop_fillBackColor, nFillBackColor ); } break; case ::com::sun::star::drawing::FillStyle_BITMAP : aPropOpt.CreateGraphicProperties( rXPropSet, OUString( "FillBitmapURL" ), sal_True ); break; case ::com::sun::star::drawing::FillStyle_HATCH : aPropOpt.CreateGraphicProperties( rXPropSet, OUString( "FillHatch" ), sal_True ); break; case ::com::sun::star::drawing::FillStyle_SOLID : { if ( ImplGetPropertyValue( rXPropSet, OUString( "FillColor" ) ) ) { nFillColor = mpPptEscherEx->GetColor( *((sal_uInt32*)mAny.getValue()) ); nFillBackColor = nFillColor ^ 0xffffff; } } // PASSTHROUGH INTENDED case ::com::sun::star::drawing::FillStyle_NONE : default: aPropOpt.AddOpt( ESCHER_Prop_fNoFillHitTest, 0x120012 ); break; } aPropOpt.AddOpt( ESCHER_Prop_fillColor, nFillColor ); aPropOpt.AddOpt( ESCHER_Prop_fillBackColor, nFillBackColor ); aPropOpt.AddOpt( ESCHER_Prop_fillRectRight, PPTtoEMU( maDestPageSize.Width ) ); aPropOpt.AddOpt( ESCHER_Prop_fillRectBottom, PPTtoEMU( maDestPageSize.Height ) ); aPropOpt.AddOpt( ESCHER_Prop_fNoLineDrawDash, 0x80000 ); aPropOpt.AddOpt( ESCHER_Prop_bWMode, ESCHER_bwWhite ); aPropOpt.AddOpt( ESCHER_Prop_fBackground, 0x10001 ); aPropOpt.Commit( *mpStrm ); mpPptEscherEx->CloseContainer(); // ESCHER_SpContainer } void PPTWriter::ImplWriteVBA() { if ( mpVBA ) { mpVBA->Seek( STREAM_SEEK_TO_END ); sal_uInt32 nLen = mpVBA->Tell(); if ( nLen > 8 ) { nLen -= 8; mnVBAOleOfs = mpStrm->Tell(); mpPptEscherEx->BeginAtom(); mpStrm->Write( (sal_Int8*)mpVBA->GetData() + 8, nLen ); mpPptEscherEx->EndAtom( EPP_ExOleObjStg, 0, 1 ); } } } // --------------------------------------------------------------------------------------------- void PPTWriter::ImplWriteOLE( ) { SvxMSExportOLEObjects aOleExport( mnCnvrtFlags ); for ( std::vector::const_iterator it = maExOleObj.begin(); it != maExOleObj.end(); ++it ) { PPTExOleObjEntry* pPtr = *it; SvMemoryStream* pStrm = NULL; pPtr->nOfsB = mpStrm->Tell(); switch ( pPtr->eType ) { case NORMAL_OLE_OBJECT : { SdrObject* pSdrObj = GetSdrObjectFromXShape( pPtr->xShape ); if ( pSdrObj && pSdrObj->ISA( SdrOle2Obj ) ) { ::uno::Reference < embed::XEmbeddedObject > xObj( ( (SdrOle2Obj*) pSdrObj )->GetObjRef() ); if( xObj.is() ) { SvStorageRef xTempStorage( new SvStorage( new SvMemoryStream(), true ) ); aOleExport.ExportOLEObject( xObj, *xTempStorage ); //TODO/MBA: testing OUString aPersistStream( SVEXT_PERSIST_STREAM ); SvMemoryStream aStream; SvStorageRef xCleanStorage( new SvStorage( false, aStream ) ); xTempStorage->CopyTo( xCleanStorage ); // create a dummy content stream, the dummy content is necessary for ppt, but not for // doc files, so we can't share code. SotStorageStreamRef xStm = xCleanStorage->OpenSotStream( aPersistStream, STREAM_STD_READWRITE ); xStm->WriteUInt32( (sal_uInt32)0 ) // no ClipboardId .WriteUInt32( (sal_uInt32)4 ) // no target device .WriteUInt32( (sal_uInt32)1 ) // aspect ratio .WriteInt32( (sal_Int32)-1 ) // L-Index .WriteUInt32( (sal_uInt32)0 ) // Advanced Flags .WriteUInt32( (sal_uInt32)0 ) // compression .WriteUInt32( (sal_uInt32)0 ) // Size .WriteUInt32( (sal_uInt32)0 ) // " .WriteUInt32( (sal_uInt32)0 ); pStrm = xCleanStorage->CreateMemoryStream(); } } } break; case OCX_CONTROL : { if ( pPtr->xControlModel.is() ) { OUString aName; //Initialize the graphic size which will be used on export ::com::sun::star::awt::Size aSize( pPtr->xShape->getSize() ); SvStorageRef xDest( new SvStorage( new SvMemoryStream(), true ) ); sal_Bool bOk = oox::ole::MSConvertOCXControls::WriteOCXStream( mXModel, xDest, pPtr->xControlModel, aSize, aName ); if ( bOk ) pStrm = xDest->CreateMemoryStream(); } } } if ( pStrm ) { mpPptEscherEx->BeginAtom(); pStrm->Seek( STREAM_SEEK_TO_END ); sal_uInt32 npStrmSize = pStrm->Tell(); mpStrm->WriteUInt32( npStrmSize ); // uncompressed size pStrm->Seek( 0 ); ZCodec aZCodec( 0x8000, 0x8000 ); aZCodec.BeginCompression(); aZCodec.Compress( *pStrm, *mpStrm ); aZCodec.EndCompression(); delete pStrm; mpPptEscherEx->EndAtom( EPP_ExOleObjStg, 0, 1 ); } } } // --------------------------------------------------------------------------------------------- // write PersistantTable and UserEditAtom sal_Bool PPTWriter::ImplWriteAtomEnding() { #define EPP_LastViewTypeSlideView 1 sal_uInt32 i, nPos, nOfs, nPersistOfs = mpStrm->Tell(); sal_uInt32 nPersistEntrys = 0; mpStrm->WriteUInt32( (sal_uInt32)0 ).WriteUInt32( (sal_uInt32)0 ).WriteUInt32( (sal_uInt32)0 ); // skip record header and first entry // write document persist nPersistEntrys++; mpStrm->WriteUInt32( (sal_uInt32)0 ); // write MasterPages persists for ( i = 0; i < mnMasterPages; i++ ) { nOfs = mpPptEscherEx->PtGetOffsetByID( EPP_Persist_MainMaster | i ); if ( nOfs ) { mpStrm->WriteUInt32( nOfs ); mpPptEscherEx->InsertAtPersistOffset( EPP_MAINMASTER_PERSIST_KEY | i, ++nPersistEntrys ); } } // write MainNotesMaster persist nOfs = mpPptEscherEx->PtGetOffsetByID( EPP_Persist_MainNotes ); if ( nOfs ) { mpStrm->WriteUInt32( nOfs ); mpPptEscherEx->InsertAtPersistOffset( EPP_MAINNOTESMASTER_PERSIST_KEY, ++nPersistEntrys ); } // write slide persists -> we have to write a valid value into EPP_SlidePersistAtome too for ( i = 0; i < mnPages; i++ ) { nOfs = mpPptEscherEx->PtGetOffsetByID( EPP_Persist_Slide | i ); if ( nOfs ) { mpStrm->WriteUInt32( nOfs ); mpPptEscherEx->InsertAtPersistOffset( EPP_MAINSLIDE_PERSIST_KEY | i, ++nPersistEntrys ); } } // write Notes persists for ( i = 0; i < mnPages; i++ ) { nOfs = mpPptEscherEx->PtGetOffsetByID( EPP_Persist_Notes | i ); if ( nOfs ) { mpStrm->WriteUInt32( nOfs ); mpPptEscherEx->InsertAtPersistOffset( EPP_MAINNOTES_PERSIST_KEY | i, ++nPersistEntrys ); } } // Ole persists for ( std::vector::const_iterator it = maExOleObj.begin(); it != maExOleObj.end(); ++it ) { PPTExOleObjEntry* pPtr = *it; nOfs = mpPptEscherEx->PtGetOffsetByID( EPP_Persist_ExObj ); if ( nOfs ) { nPersistEntrys++; mpStrm->WriteUInt32( pPtr->nOfsB ); sal_uInt32 nOldPos, nPersOfs = nOfs + pPtr->nOfsA + 16 + 8; // 8 bytes atom header, +16 to the persist entry nOldPos = mpStrm->Tell(); mpStrm->Seek( nPersOfs ); mpStrm->WriteUInt32( nPersistEntrys ); mpStrm->Seek( nOldPos ); } } // VB persist if ( mnVBAOleOfs && mpVBA ) { nOfs = mpPptEscherEx->PtGetOffsetByID( EPP_Persist_VBAInfoAtom ); if ( nOfs ) { nPersistEntrys++; sal_uInt32 n1, n2; mpVBA->Seek( 0 ); mpVBA->ReadUInt32( n1 ) .ReadUInt32( n2 ); mpStrm->WriteUInt32( mnVBAOleOfs ); sal_uInt32 nOldPos = mpStrm->Tell(); mpStrm->Seek( nOfs ); // Fill the VBAInfoAtom with the correct index to the persisttable mpStrm->WriteUInt32( nPersistEntrys ) .WriteUInt32( n1 ) .WriteInt32( sal_Int32(2) ); mpStrm->Seek( nOldPos ); } } nPos = mpStrm->Tell(); mpStrm->Seek( nPersistOfs ); mpPptEscherEx->AddAtom( ( nPersistEntrys + 1 ) << 2, EPP_PersistPtrIncrementalBlock ); // insert Record Header mpStrm->WriteUInt32( (sal_uInt32)( ( nPersistEntrys << 20 ) | 1 ) ); mpStrm->Seek( nPos ); mpCurUserStrm->WriteUInt32( (sal_uInt32)nPos ); // set offset to current edit mpPptEscherEx->AddAtom( 28, EPP_UserEditAtom ); mpStrm->WriteInt32( (sal_Int32)0x100 ) // last slide ID .WriteUInt32( (sal_uInt32)0x03000dbc ) // minor and major app version that did the save .WriteUInt32( (sal_uInt32)0 ) // offset last save, 0 after a full save .WriteUInt32( nPersistOfs ) // File offset to persist pointers for this save operation .WriteUInt32( (sal_uInt32)1 ) // Persist reference to the document persist object .WriteUInt32( (sal_uInt32)nPersistEntrys ) // max persists written, Seed value for persist object id management .WriteInt16( (sal_Int16)EPP_LastViewTypeSlideView ) // last view type .WriteInt16( (sal_Int16)0x12 ); // padword return sal_True; } // --------------------- // - exported function - // --------------------- extern "C" SAL_DLLPUBLIC_EXPORT sal_Bool SAL_CALL ExportPPT( const std::vector< com::sun::star::beans::PropertyValue >& rMediaData, SvStorageRef& rSvStorage, ::com::sun::star::uno::Reference< ::com::sun::star::frame::XModel > & rXModel, ::com::sun::star::uno::Reference< ::com::sun::star::task::XStatusIndicator > & rXStatInd, SvMemoryStream* pVBA, sal_uInt32 nCnvrtFlags ) { PPTWriter* pPPTWriter; sal_Bool bStatus = sal_False; pPPTWriter = new PPTWriter( rSvStorage, rXModel, rXStatInd, pVBA, nCnvrtFlags ); if ( pPPTWriter ) { pPPTWriter->exportPPT(rMediaData); bStatus = ( pPPTWriter->IsValid() == sal_True ); delete pPPTWriter; } return bStatus; } extern "C" SAL_DLLPUBLIC_EXPORT sal_Bool SAL_CALL SaveVBA( SfxObjectShell& rDocShell, SvMemoryStream*& pBas ) { SvStorageRef xDest( new SvStorage( new SvMemoryStream(), true ) ); SvxImportMSVBasic aMSVBas( rDocShell, *xDest ); aMSVBas.SaveOrDelMSVBAStorage( sal_True, OUString( "_MS_VBA_Overhead" ) ); SvStorageRef xOverhead = xDest->OpenSotStorage( OUString( "_MS_VBA_Overhead") ); if ( xOverhead.Is() && ( xOverhead->GetError() == SVSTREAM_OK ) ) { SvStorageRef xOverhead2 = xOverhead->OpenSotStorage( OUString( "_MS_VBA_Overhead") ); if ( xOverhead2.Is() && ( xOverhead2->GetError() == SVSTREAM_OK ) ) { SvStorageStreamRef xTemp = xOverhead2->OpenSotStream( OUString( "_MS_VBA_Overhead2") ); if ( xTemp.Is() && ( xTemp->GetError() == SVSTREAM_OK ) ) { sal_uInt32 nLen = xTemp->GetSize(); if ( nLen ) { char* pTemp = new char[ nLen ]; if ( pTemp ) { xTemp->Seek( STREAM_SEEK_TO_BEGIN ); xTemp->Read( pTemp, nLen ); pBas = new SvMemoryStream( pTemp, nLen, STREAM_READ ); pBas->ObjectOwnsMemory( true ); return sal_True; } } } } } return sal_False; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */