/* -*- 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 #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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ww8struc.hxx" #include "ww8scan.hxx" #include "ww8par.hxx" #include "ww8par2.hxx" #include "ww8graf.hxx" #include #include #include #include #include "writerhelper.hxx" #include "writerwordglue.hxx" #include #include #include #include #include #include #include #include using ::editeng::SvxBorderLine; using namespace ::com::sun::star; using namespace sw::types; using namespace sw::util; // helper methods Color WW8TransCol(SVBT32 nWC) { #if 1 // 1 = use predefined color, 0 = ignore // Farbtabelle zum Umrechnen RGB-Werte in vordefinierte Farben // ( Damit bei der Writer-UI die Farbnamen stimmen ) // Die Tabelle int im *3er-System* aufgeteilt. Die Grauwerte fehlen, // da sie nicht ins 3er-System passen ( 4 Werte: sw, ws, 2 * grau ) static const ColorData eColA[] = { // B G R B G R B G R COL_BLACK, COL_RED, COL_LIGHTRED, // 0 0 0, 0 0 1, 0 0 2 COL_GREEN, COL_BROWN, COL_BLACK, // 0 1 0, 0 1 1, 0 1 2 COL_LIGHTGREEN, COL_BLACK, COL_YELLOW, // 0 2 0, 0 2 1, 0 2 2 COL_BLUE, COL_MAGENTA, COL_BLACK, // 1 0 0, 1 0 1, 1 0 2 COL_CYAN, COL_LIGHTGRAY, COL_BLACK, // 1 1 0, 1 1 1, 1 1 2 COL_BLACK, COL_BLACK, COL_BLACK, // 1 2 0, 1 2 1, 1 2 2 COL_LIGHTBLUE, COL_BLACK, COL_LIGHTMAGENTA, // 2 0 0, 2 0 1, 2 0 2 COL_BLACK, COL_BLACK, COL_BLACK, // 2 1 0, 2 1 1, 2 1 2 COL_LIGHTCYAN, COL_BLACK, COL_WHITE }; // 2 2 0, 2 2 1, 2 2 2 // In nWC[3] steht ein Byte, dass in der WW-Doku nicht beschrieben ist. // Die Bedeutung ist anscheinend folgende: Bei 0 ist es eine normale // Farbe, dessen RGB-Wert in nWC[0..2] steht. stehen in nWC[3] die // Werte 0x1, 0x7d oder 0x83, dann ist es ein Grauwert, dessen // Schwarzanteil in 1/2 % in nWC[0] steht. // Ich vermute, dass es auf Bit0 in nWV[3] ankommt, ob es RGB oder Grau ist. if( !( nWC[3] & 0x1 ) && // keine Spezial-Farbe (grau) ( ( nWC[0] == 0 || nWC[0]== 0x80 || nWC[0] == 0xff ) // R-Anteil && ( nWC[1] == 0 || nWC[1]== 0x80 || nWC[1] == 0xff ) // G-Anteil && ( nWC[2] == 0 || nWC[2]== 0x80 || nWC[2] == 0xff ) ) ){// B-Anteil int nIdx = 0; // and now: Idx-calculation im 3er-System for (int i = 2; i >= 0; i--) { nIdx *= 3; if (nWC[i]) nIdx += ((nWC[i] == 0xff) ? 2 : 1); } if (eColA[nIdx] != COL_BLACK) return Color(eColA[nIdx]); // default color } #endif if (nWC[3] & 0x1) { // Special color gray sal_uInt8 u = (sal_uInt8)( (sal_uLong)( 200 - nWC[0] ) * 256 / 200 ); return Color(u, u, u); } // User-Color return Color(nWC[0], nWC[1], nWC[2]); } void wwFrameNamer::SetUniqueGraphName(SwFrmFmt *pFrmFmt, const OUString &rFixed) { if (mbIsDisabled || rFixed.isEmpty()) return; pFrmFmt->SetName(msSeed+OUString::number(++mnImportedGraphicsCount) + ": " + rFixed); } // ReadGrafStart liest die ObjektDaten ein und erzeugt falls noetig einen Anker bool SwWW8ImplReader::ReadGrafStart(void* pData, short nDataSiz, WW8_DPHEAD* pHd, const WW8_DO* pDo, SfxAllItemSet &rSet) { if (SVBT16ToShort(pHd->cb) < sizeof(WW8_DPHEAD) + nDataSiz) { OSL_ENSURE( !this, "+Grafik-Element: Size ?" ); pStrm->SeekRel(SVBT16ToShort(pHd->cb) - sizeof(WW8_DPHEAD)); return false; } bool bCouldRead = checkRead(*pStrm, pData, nDataSiz); OSL_ENSURE(bCouldRead, "Short Graphic header"); if (!bCouldRead) return false; RndStdIds eAnchor = (pDo->by < 2) ? FLY_AT_PAGE : FLY_AT_PARA; rSet.Put(SwFmtAnchor(eAnchor)); nDrawXOfs2 = nDrawXOfs; nDrawYOfs2 = nDrawYOfs; if (eAnchor == FLY_AT_PARA) { if( pDo->bx == 1 ) // Position: actually left nDrawXOfs2 = static_cast< short >(nDrawXOfs2 - maSectionManager.GetPageLeft()); if( nInTable ) // Object in table nDrawXOfs2 = nDrawXOfs2 - GetTableLeft(); // -> see comment // at GetTableLeft() } else { if( pDo->bx != 1 ) nDrawXOfs2 = static_cast< short >(nDrawXOfs2 + maSectionManager.GetPageLeft()); } return true; } // SetStdAttr() setzt die Attribute, die jedes Objekt hat static void SetStdAttr( SfxItemSet& rSet, WW8_DP_LINETYPE& rL, WW8_DP_SHADOW& rSh ) { if( SVBT16ToShort( rL.lnps ) == 5 ){ // invisible rSet.Put( XLineStyleItem( XLINE_NONE ) ); }else{ // sichtbar Color aCol( WW8TransCol( rL.lnpc ) ); // LinienFarbe rSet.Put( XLineColorItem( OUString(), aCol ) ); rSet.Put( XLineWidthItem( SVBT16ToShort( rL.lnpw ) ) ); // line thickness if( SVBT16ToShort( rL.lnps ) >= 1 && SVBT16ToShort(rL.lnps ) <= 4 ){ // line style rSet.Put( XLineStyleItem( XLINE_DASH ) ); sal_Int16 nLen = SVBT16ToShort( rL.lnpw ); XDash aD( XDASH_RECT, 1, 2 * nLen, 1, 5 * nLen, 5 * nLen ); switch( SVBT16ToShort( rL.lnps ) ){ case 1: aD.SetDots( 0 ); // Dash aD.SetDashLen( 6 * nLen ); aD.SetDistance( 4 * nLen ); break; case 2: aD.SetDashes( 0 ); break; // Dot case 3: break; // Dash Dot case 4: aD.SetDots( 2 ); break; // Dash Dot Dot } rSet.Put( XLineDashItem( OUString(), aD ) ); }else{ rSet.Put( XLineStyleItem( XLINE_SOLID ) ); // needed for TextBox } } if( SVBT16ToShort( rSh.shdwpi ) ){ // shadow rSet.Put(SdrShadowItem(true)); rSet.Put( SdrShadowXDistItem( SVBT16ToShort( rSh.xaOffset ) ) ); rSet.Put( SdrShadowYDistItem( SVBT16ToShort( rSh.yaOffset ) ) ); } } // SetFill setzt Fuellattribute wie Vordergrund- und Hintergrund-Farbe // und Muster durch Reduktion auf eine Farbe. // SetFill() setzt z.Zt kein Muster, da Sdr das nur sehr umstaendlich kann // und die Sdr-Schraffur ( XDash ) noch nicht fertig ist. // Statt dessen wird eine Mischfarbe gewaehlt, die auf den entsprechenden // Farbton zwischen den Farben liegt. static void SetFill( SfxItemSet& rSet, WW8_DP_FILL& rFill ) { static const sal_uInt8 nPatA[] = { 0, 0, 5, 10, 20, 25, 30, 40, 50, 60, 70, 75, 80, 90, 50, 50, 50, 50, 50, 50, 33, 33, 33, 33, 33, 33 }; sal_uInt16 nPat = SVBT16ToShort(rFill.flpp); if (nPat == 0) // transparent rSet.Put(XFillStyleItem(XFILL_NONE)); else { rSet.Put(XFillStyleItem(XFILL_SOLID)); // necessary for textbox if (nPat <= 1 || ((sizeof(nPatA)/sizeof(nPatA[0])) <= nPat)) { // Solid background or unknown rSet.Put(XFillColorItem(OUString(), WW8TransCol(rFill.dlpcBg))); } else { // Brush -> color mix Color aB( WW8TransCol( rFill.dlpcBg ) ); Color aF( WW8TransCol( rFill.dlpcFg ) ); aB.SetRed( (sal_uInt8)( ( (sal_uLong)aF.GetRed() * nPatA[nPat] + (sal_uLong)aB.GetRed() * ( 100 - nPatA[nPat] ) ) / 100 ) ); aB.SetGreen( (sal_uInt8)( ( (sal_uLong)aF.GetGreen() * nPatA[nPat] + (sal_uLong)aB.GetGreen() * ( 100 - nPatA[nPat] ) ) / 100 ) ); aB.SetBlue( (sal_uInt8)( ( (sal_uLong)aF.GetBlue() * nPatA[nPat] + (sal_uLong)aB.GetBlue() * ( 100 - nPatA[nPat] ) ) / 100 ) ); rSet.Put( XFillColorItem( OUString(), aB ) ); } } } static void SetLineEndAttr( SfxItemSet& rSet, WW8_DP_LINEEND& rLe, WW8_DP_LINETYPE& rLt ) { sal_uInt16 aSB = SVBT16ToShort( rLe.aStartBits ); if( aSB & 0x3 ) { ::basegfx::B2DPolygon aPolygon; aPolygon.append(::basegfx::B2DPoint(0.0, 330.0)); aPolygon.append(::basegfx::B2DPoint(100.0, 0.0)); aPolygon.append(::basegfx::B2DPoint(200.0, 330.0)); aPolygon.setClosed(true); rSet.Put( XLineEndItem( OUString(), ::basegfx::B2DPolyPolygon(aPolygon) ) ); sal_uInt16 nSiz = SVBT16ToShort( rLt.lnpw ) * ( ( aSB >> 2 & 0x3 ) + ( aSB >> 4 & 0x3 ) ); if( nSiz < 220 ) nSiz = 220; rSet.Put(XLineEndWidthItem(nSiz)); rSet.Put(XLineEndCenterItem(false)); } sal_uInt16 aEB = SVBT16ToShort( rLe.aEndBits ); if( aEB & 0x3 ){ ::basegfx::B2DPolygon aPolygon; aPolygon.append(::basegfx::B2DPoint(0.0, 330.0)); aPolygon.append(::basegfx::B2DPoint(100.0, 0.0)); aPolygon.append(::basegfx::B2DPoint(200.0, 330.0)); aPolygon.setClosed(true); rSet.Put( XLineStartItem( OUString(), ::basegfx::B2DPolyPolygon(aPolygon) ) ); sal_uInt16 nSiz = SVBT16ToShort( rLt.lnpw ) * ( ( aEB >> 2 & 0x3 ) + ( aEB >> 4 & 0x3 ) ); if( nSiz < 220 ) nSiz = 220; rSet.Put(XLineStartWidthItem(nSiz)); rSet.Put(XLineStartCenterItem(false)); } } // Ab hier folgen die Routinen fuer die einzelnen Objekte SdrObject* SwWW8ImplReader::ReadLine( WW8_DPHEAD* pHd, const WW8_DO* pDo, SfxAllItemSet &rSet) { WW8_DP_LINE aLine; if( !ReadGrafStart( (void*)&aLine, sizeof( aLine ), pHd, pDo, rSet ) ) return 0; Point aP[2]; { Point& rP0 = aP[0]; Point& rP1 = aP[1]; rP0.X() = (sal_Int16)SVBT16ToShort( pHd->xa ) + nDrawXOfs2; rP0.Y() = (sal_Int16)SVBT16ToShort( pHd->ya ) + nDrawYOfs2; rP1 = rP0; rP0.X() += (sal_Int16)SVBT16ToShort( aLine.xaStart ); rP0.Y() += (sal_Int16)SVBT16ToShort( aLine.yaStart ); rP1.X() += (sal_Int16)SVBT16ToShort( aLine.xaEnd ); rP1.Y() += (sal_Int16)SVBT16ToShort( aLine.yaEnd ); } ::basegfx::B2DPolygon aPolygon; aPolygon.append(::basegfx::B2DPoint(aP[0].X(), aP[0].Y())); aPolygon.append(::basegfx::B2DPoint(aP[1].X(), aP[1].Y())); SdrObject* pObj = new SdrPathObj(OBJ_LINE, ::basegfx::B2DPolyPolygon(aPolygon)); SetStdAttr( rSet, aLine.aLnt, aLine.aShd ); SetLineEndAttr( rSet, aLine.aEpp, aLine.aLnt ); return pObj; } SdrObject* SwWW8ImplReader::ReadRect( WW8_DPHEAD* pHd, const WW8_DO* pDo, SfxAllItemSet &rSet) { WW8_DP_RECT aRect; if( !ReadGrafStart( (void*)&aRect, sizeof( aRect ), pHd, pDo, rSet ) ) return 0; Point aP0( (sal_Int16)SVBT16ToShort( pHd->xa ) + nDrawXOfs2, (sal_Int16)SVBT16ToShort( pHd->ya ) + nDrawYOfs2 ); Point aP1( aP0 ); aP1.X() += (sal_Int16)SVBT16ToShort( pHd->dxa ); aP1.Y() += (sal_Int16)SVBT16ToShort( pHd->dya ); SdrObject* pObj = new SdrRectObj( Rectangle( aP0, aP1 ) ); SetStdAttr( rSet, aRect.aLnt, aRect.aShd ); SetFill( rSet, aRect.aFill ); return pObj; } SdrObject* SwWW8ImplReader::ReadElipse( WW8_DPHEAD* pHd, const WW8_DO* pDo, SfxAllItemSet &rSet) { WW8_DP_ELIPSE aElipse; if( !ReadGrafStart( (void*)&aElipse, sizeof( aElipse ), pHd, pDo, rSet ) ) return 0; Point aP0( (sal_Int16)SVBT16ToShort( pHd->xa ) + nDrawXOfs2, (sal_Int16)SVBT16ToShort( pHd->ya ) + nDrawYOfs2 ); Point aP1( aP0 ); aP1.X() += (sal_Int16)SVBT16ToShort( pHd->dxa ); aP1.Y() += (sal_Int16)SVBT16ToShort( pHd->dya ); SdrObject* pObj = new SdrCircObj( OBJ_CIRC, Rectangle( aP0, aP1 ) ); SetStdAttr( rSet, aElipse.aLnt, aElipse.aShd ); SetFill( rSet, aElipse.aFill ); return pObj; } SdrObject* SwWW8ImplReader::ReadArc( WW8_DPHEAD* pHd, const WW8_DO* pDo, SfxAllItemSet &rSet) { WW8_DP_ARC aArc; if( !ReadGrafStart( (void*)&aArc, sizeof( aArc ), pHd, pDo, rSet ) ) return 0; Point aP0( (sal_Int16)SVBT16ToShort( pHd->xa ) + nDrawXOfs2, (sal_Int16)SVBT16ToShort( pHd->ya ) + nDrawYOfs2 ); Point aP1( aP0 ); aP1.X() += (sal_Int16)SVBT16ToShort( pHd->dxa ) * 2; aP1.Y() += (sal_Int16)SVBT16ToShort( pHd->dya ) * 2; short nA[] = { 2, 3, 1, 0 }; short nW = nA[ ( ( aArc.fLeft & 1 ) << 1 ) + ( aArc.fUp & 1 ) ]; if( !aArc.fLeft ){ aP0.Y() -= (sal_Int16)SVBT16ToShort( pHd->dya ); aP1.Y() -= (sal_Int16)SVBT16ToShort( pHd->dya ); } if( aArc.fUp ){ aP0.X() -= (sal_Int16)SVBT16ToShort( pHd->dxa ); aP1.X() -= (sal_Int16)SVBT16ToShort( pHd->dxa ); } SdrObject* pObj = new SdrCircObj( OBJ_SECT, Rectangle( aP0, aP1 ), nW * 9000, ( ( nW + 1 ) & 3 ) * 9000 ); SetStdAttr( rSet, aArc.aLnt, aArc.aShd ); SetFill( rSet, aArc.aFill ); return pObj; } SdrObject* SwWW8ImplReader::ReadPolyLine( WW8_DPHEAD* pHd, const WW8_DO* pDo, SfxAllItemSet &rSet) { WW8_DP_POLYLINE aPoly; if( !ReadGrafStart( (void*)&aPoly, sizeof( aPoly ), pHd, pDo, rSet ) ) return 0; sal_uInt16 nCount = SVBT16ToShort( aPoly.aBits1 ) >> 1 & 0x7fff; boost::scoped_array xP(new SVBT16[nCount * 2]); bool bCouldRead = checkRead(*pStrm, xP.get(), nCount * 4); // Punkte einlesen OSL_ENSURE(bCouldRead, "Short PolyLine header"); if (!bCouldRead) return 0; Polygon aP( nCount ); Point aPt; for (sal_uInt16 i=0; ixa ); aPt.Y() = SVBT16ToShort( xP[( i << 1 ) + 1] ) + nDrawYOfs2 + (sal_Int16)SVBT16ToShort( pHd->ya ); aP[i] = aPt; } xP.reset(); SdrObject* pObj = new SdrPathObj(( SVBT16ToShort( aPoly.aBits1 ) & 0x1 ) ? OBJ_POLY : OBJ_PLIN, ::basegfx::B2DPolyPolygon(aP.getB2DPolygon())); SetStdAttr( rSet, aPoly.aLnt, aPoly.aShd ); SetFill( rSet, aPoly.aFill ); return pObj; } ESelection SwWW8ImplReader::GetESelection( long nCpStart, long nCpEnd ) { sal_Int32 nPCnt = mpDrawEditEngine->GetParagraphCount(); sal_Int32 nSP = 0; sal_Int32 nEP = 0; while( (nSP < nPCnt) && (nCpStart >= mpDrawEditEngine->GetTextLen( nSP ) + 1) ) { nCpStart -= mpDrawEditEngine->GetTextLen( nSP ) + 1; nSP++; } // Beim Ende erst 1 Zeichen spaeter auf naechste Zeile umschalten, // da sonst Zeilenattribute immer eine Zeile zu weit reichen. while( (nEP < nPCnt) && (nCpEnd > mpDrawEditEngine->GetTextLen( nEP ) + 1) ) { nCpEnd -= mpDrawEditEngine->GetTextLen( nEP ) + 1; nEP++; } return ESelection( nSP, nCpStart, nEP, nCpEnd ); } // InsertTxbxStyAttrs() setzt die Style-Attribute in den uebergebenen ItemSet. // Es werden die SW-Styles genommen, die Import-WW-Styles sind zu diesem // Zeitpunkt schon destruiert. // Die SW-Styles werden per Tiefensuche, d.h. mit Parent-Styles nach den // in aSrcTab angegebenen Attributen untersucht. Diese werden per Clone // dupliziert, bei den Duplikaten werden die Which-IDs // gemaess der Tabelle aDstTab umgesetzt, damit die EditEngine sie nicht // ignoriert. // Es werden hierbei sowohl Para- wie auch Zeichen-Attribute in den // ItemSet gestopft. void SwWW8ImplReader::InsertTxbxStyAttrs( SfxItemSet& rS, sal_uInt16 nColl ) { SwWW8StyInf * pStyInf = GetStyle(nColl); if( pStyInf != NULL && pStyInf->pFmt && pStyInf->bColl ) { const SfxPoolItem* pItem; for( sal_uInt16 i = POOLATTR_BEGIN; i < POOLATTR_END; i++ ) { // If we are set in the source and not set in the destination // then add it in. if ( SFX_ITEM_SET == pStyInf->pFmt->GetItemState( i, true, &pItem ) ) { SfxItemPool *pEditPool = rS.GetPool(); sal_uInt16 nWhich = i; sal_uInt16 nSlotId = rDoc.GetAttrPool().GetSlotId(nWhich); if ( nSlotId && nWhich != nSlotId && 0 != (nWhich = pEditPool->GetWhich(nSlotId)) && nWhich != nSlotId && ( SFX_ITEM_SET != rS.GetItemState(nWhich, false) ) ) { SfxPoolItem* pCopy = pItem->Clone(); pCopy->SetWhich( nWhich ); rS.Put( *pCopy ); delete pCopy; } } } } } static void lcl_StripFields(OUString &rString, long &rNewStartCp) { sal_Int32 nStartPos = 0; for (;;) { nStartPos = rString.indexOf(0x13, nStartPos); if (nStartPos<0) return; const sal_Unicode cStops[] = {0x14, 0x15, 0}; const sal_Int32 nStopPos = comphelper::string::indexOfAny(rString, cStops, nStartPos); if (nStopPos<0) { rNewStartCp += rString.getLength()-nStartPos; rString = rString.copy(0, nStartPos); return; } const bool was0x14 = rString[nStopPos]==0x14; rString = rString.replaceAt(nStartPos, nStopPos+1-nStartPos, ""); rNewStartCp += nStopPos-nStartPos; if (was0x14) { ++rNewStartCp; nStartPos = rString.indexOf(0x15, nStartPos); if (nStartPos<0) return; rString = rString.replaceAt(nStartPos, 1, ""); } } } class Chunk { private: OUString msURL; long mnStartPos; // 0x13 long mnEndPos; // 0x15 public: explicit Chunk(long nStart, const OUString &rURL) : msURL(rURL), mnStartPos(nStart), mnEndPos(0) {} void SetEndPos(long nEnd) { mnEndPos = nEnd; } long GetStartPos() const {return mnStartPos;} long GetEndPos() const {return mnEndPos;} const OUString &GetURL() const {return msURL;} void Adjust(sal_Int32 nAdjust) { mnStartPos-=nAdjust; mnEndPos-=nAdjust; } }; // InsertAttrsAsDrawingAttrs() setzt zwischen StartCp und EndCp die Attribute. // Dabei werden Style-Attribute als harte Attribute, Absatz- und Zeichen- // attribute gesetzt. void SwWW8ImplReader::InsertAttrsAsDrawingAttrs(long nStartCp, long nEndCp, ManTypes eType, bool bONLYnPicLocFc) { /* Save and create new plcxman for this drawing object, of the type that will include the para end mark inside a paragraph property range, as drawing boxes have real paragraph marks as part of their text, while normal writer has separate nodes for each paragraph and so has no actual paragraph mark as part of the paragraph text. */ WW8ReaderSave aSave(this); pPlcxMan = new WW8PLCFMan(pSBase, eType, nStartCp, true); WW8_CP nStart = pPlcxMan->Where(); WW8_CP nNext, nEnd, nStartReplace=0; bool bDoingSymbol = false; sal_Unicode cReplaceSymbol = cSymbol; SfxItemSet *pS = new SfxItemSet(mpDrawEditEngine->GetEmptyItemSet()); WW8PLCFManResult aRes; std::deque aChunks; // Here store stack location size_t nCurrentCount = pCtrlStck->size(); while (nStart < nEndCp) { // nStart is the beginning of the attributes for this range, and // may be before the text itself. So watch out for that WW8_CP nTxtStart = nStart; if (nTxtStart < nStartCp) nTxtStart = nStartCp; // get position of next SPRM bool bStartAttr = pPlcxMan->Get(&aRes); nAktColl = pPlcxMan->GetColl(); if (aRes.nSprmId) { if( bONLYnPicLocFc ) { if ( (68 == aRes.nSprmId) || (0x6A03 == aRes.nSprmId) ) { Read_PicLoc(aRes.nSprmId, aRes.pMemPos + mpSprmParser->DistanceToData(aRes.nSprmId), 4); // Ok, that's what we were looking for. Now let's get // out of here! break; } } else if ( aRes.nSprmId && ( (eFTN > aRes.nSprmId) || (0x0800 <= aRes.nSprmId) ) ) { // Here place them onto our usual stack and we will pop them // off and convert them later if (bStartAttr) { ImportSprm(aRes.pMemPos, aRes.nSprmId); if (!bDoingSymbol && bSymbol == true) { bDoingSymbol = true; nStartReplace = nTxtStart; cReplaceSymbol = cSymbol; } } else { EndSprm( aRes.nSprmId ); if (bSymbol == false && bDoingSymbol) { bDoingSymbol = false; OUStringBuffer sTemp; comphelper::string::padToLength(sTemp, nTxtStart - nStartReplace, cReplaceSymbol); mpDrawEditEngine->QuickInsertText(sTemp.makeStringAndClear(), GetESelection(nStartReplace - nStartCp, nTxtStart - nStartCp ) ); } } } else if (aRes.nSprmId == eFLD) { if (bStartAttr) { size_t nCount = pCtrlStck->size(); if (maFieldStack.empty() && Read_Field(&aRes)) { OUString sURL; for (size_t nI = pCtrlStck->size(); nI > nCount; --nI) { const SfxPoolItem *pItem = ((*pCtrlStck)[nI-1]).pAttr; sal_uInt16 nWhich = pItem->Which(); if (nWhich == RES_TXTATR_INETFMT) { const SwFmtINetFmt *pURL = (const SwFmtINetFmt *)pItem; sURL = pURL->GetValue(); } pCtrlStck->DeleteAndDestroy(nI-1); } aChunks.push_back(Chunk(nStart, sURL)); } } else { if (!maFieldStack.empty() && End_Field()) aChunks.back().SetEndPos(nStart+1); } } } pPlcxMan->advance(); nNext = pPlcxMan->Where(); if( (nNext != nStart) && !bONLYnPicLocFc ) { nEnd = ( nNext < nEndCp ) ? nNext : nEndCp; SfxItemPool *pEditPool = pS->GetPool(); // Here read current properties and convert them into pS // and put those attrs into the draw box if they can be converted // to draw attributes if (pCtrlStck->size() - nCurrentCount) { for (size_t i = nCurrentCount; i < pCtrlStck->size(); ++i) { const SfxPoolItem *pItem = ((*pCtrlStck)[i]).pAttr; sal_uInt16 nWhich = pItem->Which(); if( nWhich < RES_FLTRATTR_BEGIN || nWhich >= RES_FLTRATTR_END ) { sal_uInt16 nSlotId = rDoc.GetAttrPool().GetSlotId(nWhich); if ( nSlotId && nWhich != nSlotId && 0 != (nWhich = pEditPool->GetWhich(nSlotId)) && nWhich != nSlotId ) { SfxPoolItem* pCopy = pItem->Clone(); pCopy->SetWhich( nWhich ); pS->Put( *pCopy ); delete pCopy; } } } } // Fill in the remainder from the style InsertTxbxStyAttrs(*pS, nAktColl); if( pS->Count() ) { mpDrawEditEngine->QuickSetAttribs( *pS, GetESelection( nTxtStart - nStartCp, nEnd - nStartCp ) ); delete pS; pS = new SfxItemSet(mpDrawEditEngine->GetEmptyItemSet()); } } nStart = nNext; } delete pS; // pop off as far as recorded location just in case there were some left // unclosed for (size_t nI = pCtrlStck->size(); nI > nCurrentCount; --nI) pCtrlStck->DeleteAndDestroy(nI-1); typedef std::deque::iterator myIter; myIter aEnd = aChunks.end(); for (myIter aIter = aChunks.begin(); aIter != aEnd; ++aIter) { ESelection aSel(GetESelection(aIter->GetStartPos()-nStartCp, aIter->GetEndPos()-nStartCp)); OUString aString(mpDrawEditEngine->GetText(aSel)); const sal_Int32 nOrigLen = aString.getLength(); long nDummy(0); lcl_StripFields(aString, nDummy); sal_Int32 nChanged; if (!aIter->GetURL().isEmpty()) { SvxURLField aURL(aIter->GetURL(), aString, SVXURLFORMAT_APPDEFAULT); mpDrawEditEngine->QuickInsertField(SvxFieldItem(aURL, EE_FEATURE_FIELD), aSel); nChanged = nOrigLen - 1; } else { mpDrawEditEngine->QuickInsertText(aString, aSel); nChanged = nOrigLen - aString.getLength(); } for (myIter aIter2 = aIter+1; aIter2 != aEnd; ++aIter2) aIter2->Adjust(nChanged); } /* Don't worry about the new pPlcxMan, the restorer removes it when replacing the current one with the old one. */ aSave.Restore(this); } bool SwWW8ImplReader::GetTxbxTextSttEndCp(WW8_CP& rStartCp, WW8_CP& rEndCp, sal_uInt16 nTxBxS, sal_uInt16 nSequence) { // grab the TextBox-PLCF quickly WW8PLCFspecial* pT = pPlcxMan ? pPlcxMan->GetTxbx() : 0; if( !pT ) { OSL_ENSURE( !this, "+Wo ist der Grafik-Text (1) ?" ); return false; } // ggfs. zuerst die richtige TextBox-Story finden bool bCheckTextBoxStory = ( nTxBxS && pT->GetIMax() >= nTxBxS ); if( bCheckTextBoxStory ) pT->SetIdx( nTxBxS-1 ); // then determine start and end void* pT0; if( !pT->Get( rStartCp, pT0 ) ) { OSL_ENSURE( !this, "+Wo ist der Grafik-Text (2) ?" ); return false; } if( bCheckTextBoxStory ) { bool bReusable = (0 != SVBT16ToShort( ((WW8_TXBXS*)pT0)->fReusable )); while( bReusable ) { pT->advance(); if( !pT->Get( rStartCp, pT0 ) ) { OSL_ENSURE( !this, "+Wo ist der Grafik-Text (2-a) ?" ); return false; } bReusable = (0 != SVBT16ToShort( ((WW8_TXBXS*)pT0)->fReusable )); } } pT->advance(); if( !pT->Get( rEndCp, pT0 ) ) { OSL_ENSURE( !this, "+Wo ist der Grafik-Text (3) ?" ); return false; } // jetzt ggfs. die passende Page in der Break-Table finden if( bCheckTextBoxStory ) { // Sonderfall: gesamte(!) Kette soll ermittelt werden, // dann sind wir hier schon fertig! if( USHRT_MAX > nSequence ) { long nMinStartCp = rStartCp; long nMaxEndCp = rEndCp; // rasch den TextBox-Break-Deskriptor-PLCF greifen pT = pPlcxMan->GetTxbxBkd(); if (!pT) // It can occur on occasion, Caolan return false; // den ersten Eintrag fuer diese TextBox-Story finden if( !pT->SeekPos( rStartCp ) ) { OSL_ENSURE( !this, "+Wo ist der Grafik-Text (4) ?" ); return false; } // ggfs. entsprechende Anzahl Eintraege weitergehen for (sal_uInt16 iSequence = 0; iSequence < nSequence; ++iSequence) pT->advance(); // dann die tatsaechlichen Start und Ende ermitteln if( (!pT->Get( rStartCp, pT0 )) || ( nMinStartCp > rStartCp ) ) { OSL_ENSURE( !this, "+Wo ist der Grafik-Text (5) ?" ); return false; } if( rStartCp >= nMaxEndCp ) rEndCp = rStartCp; // kein Error: leerer String! else { pT->advance(); if ( (!pT->Get(rEndCp, pT0)) || (nMaxEndCp < rEndCp-1) ) { OSL_ENSURE( !this, "+Wo ist der Grafik-Text (6) ?" ); return false; } rEndCp -= 1; } } else rEndCp -= 1; } else rEndCp -= 1; return true; } // TxbxText() holt aus WW-File den Text und gibt diesen und den Anfangs- und // den um -2 (bzw. -1 bei Ver8) korrigierten End-Cp zurueck bool SwWW8ImplReader::GetRangeAsDrawingString(OUString& rString, long nStartCp, long nEndCp, ManTypes eType) { WW8_CP nOffset = pWwFib->GetBaseCp(eType); OSL_ENSURE(nStartCp <= nEndCp, "+Wo ist der Grafik-Text (7) ?"); if (nStartCp == nEndCp) rString = OUString(); // leerer String: durchaus denkbar! else if (nStartCp < nEndCp) { // den Text einlesen: kann sich ueber mehrere Pieces erstrecken!!! const sal_Int32 nLen = pSBase->WW8ReadString(*pStrm, rString, nStartCp + nOffset, nEndCp - nStartCp, GetCurrentCharSet()); OSL_ENSURE(nLen, "+Wo ist der Grafik-Text (8) ?"); if (nLen>0) { if( rString[nLen-1]==0x0d ) rString = rString.copy(0, nLen-1); rString = rString.replace( 0xb, 0xa ); return true; } } return false; } OutlinerParaObject* SwWW8ImplReader::ImportAsOutliner(OUString &rString, WW8_CP nStartCp, WW8_CP nEndCp, ManTypes eType) { OutlinerParaObject* pRet = 0; if (GetRangeAsDrawingString( rString, nStartCp, nEndCp, eType )) { if (!mpDrawEditEngine) mpDrawEditEngine = new EditEngine(0); mpDrawEditEngine->SetText(rString); InsertAttrsAsDrawingAttrs(nStartCp, nEndCp, eType); // Annotations typically begin with a (useless) 0x5 if ((eType == MAN_AND) && mpDrawEditEngine->GetTextLen()) { ESelection aFirstChar(0, 0, 0, 1); if (comphelper::string::equals(mpDrawEditEngine->GetText( aFirstChar ), 0x5)) mpDrawEditEngine->QuickDelete(aFirstChar); } EditTextObject* pTemporaryText = mpDrawEditEngine->CreateTextObject(); pRet = new OutlinerParaObject(*pTemporaryText); pRet->SetOutlinerMode( OUTLINERMODE_TEXTOBJECT ); delete pTemporaryText; mpDrawEditEngine->SetText( OUString() ); mpDrawEditEngine->SetParaAttribs(0, mpDrawEditEngine->GetEmptyItemSet()); // Strip out fields, leaving the result long nDummy(0); lcl_StripFields(rString, nDummy); // Strip out word's special characters for the simple string rString = rString.replaceAll(OUString(0x1), ""); rString = rString.replaceAll(OUString(0x5), ""); rString = rString.replaceAll(OUString(0x8), ""); rString = rString.replaceAll("\007\007", "\007\012"); rString = rString.replace(0x7, ' '); } return pRet; } // InsertTxbxText() fuegt fuer TextBoxen und CaptionBoxen den Text // und die Attribute ein SwFrmFmt* SwWW8ImplReader::InsertTxbxText(SdrTextObj* pTextObj, Size* pObjSiz, sal_uInt16 nTxBxS, sal_uInt16 nSequence, long nPosCp, SwFrmFmt* pOldFlyFmt, bool bMakeSdrGrafObj, bool& rbEraseTextObj, bool* pbTestTxbxContainsText, long* pnStartCp, long* pnEndCp, bool* pbContainsGraphics, SvxMSDffImportRec* pRecord) { SwFrmFmt* pFlyFmt = 0; sal_uLong nOld = pStrm->Tell(); ManTypes eType = pPlcxMan->GetManType() == MAN_HDFT ? MAN_TXBX_HDFT : MAN_TXBX; rbEraseTextObj = false; OUString aString; WW8_CP nStartCp, nEndCp; bool bContainsGraphics = false; bool bTextWasRead = GetTxbxTextSttEndCp( nStartCp, nEndCp, nTxBxS, nSequence ) && GetRangeAsDrawingString( aString, nStartCp, nEndCp, eType ); if (!mpDrawEditEngine) mpDrawEditEngine = new EditEngine(0); if( pObjSiz ) mpDrawEditEngine->SetPaperSize( *pObjSiz ); const OUString aOrigString(aString); if( bTextWasRead ) { long nNewStartCp = nStartCp; lcl_StripFields(aString, nNewStartCp); if (aString.getLength()!=1) { bContainsGraphics = aString.indexOf(0x1)<0 || aString.indexOf(0x8)<0; } else // May be a single graphic or object { bool bDone = true; switch( aString[0] ) { case 0x1: if (!pbTestTxbxContainsText) { WW8ReaderSave aSave(this, nNewStartCp -1); bool bOldEmbeddObj = bEmbeddObj; // bEmbedd Ordinarily would have been set by field // parse, but this is impossible here so... bEmbeddObj = true; // 1st look for OLE- or Graph-Indicator Sprms WW8PLCFx_Cp_FKP* pChp = pPlcxMan->GetChpPLCF(); WW8PLCFxDesc aDesc; pChp->GetSprms( &aDesc ); WW8SprmIter aSprmIter(aDesc.pMemPos, aDesc.nSprmsLen, *mpSprmParser); for( int nLoop = 0; nLoop < 2; ++nLoop ) { const sal_uInt8* pParams; while( aSprmIter.GetSprms() && (0 != (pParams = aSprmIter.GetAktParams())) ) { sal_uInt16 nAktId = aSprmIter.GetAktId(); switch( nAktId ) { case 75: case 118: case 0x080A: case 0x0856: Read_Obj(nAktId, pParams, 1); break; case 68: // Read_Pic() case 0x6A03: case 0x680E: Read_PicLoc(nAktId, pParams, 1); break; } aSprmIter.advance(); } if( !nLoop ) { pChp->GetPCDSprms( aDesc ); aSprmIter.SetSprms( aDesc.pMemPos, aDesc.nSprmsLen ); } } aSave.Restore(this); bEmbeddObj=bOldEmbeddObj; // then import either an OLE of a Graphic if( bObj ) { if( bMakeSdrGrafObj && pTextObj && pTextObj->GetUpGroup() ) { // SdrOleObj/SdrGrafObj anstatt des // SdrTextObj in dessen Gruppe einsetzen Graphic aGraph; SdrObject* pNew = ImportOleBase(aGraph); if( !pNew ) { pNew = new SdrGrafObj; ((SdrGrafObj*)pNew)->SetGraphic(aGraph); } GrafikCtor(); pNew->SetModel( pDrawModel ); pNew->SetLogicRect( pTextObj->GetCurrentBoundRect() ); pNew->SetLayer( pTextObj->GetLayer() ); pTextObj->GetUpGroup()->GetSubList()-> ReplaceObject(pNew, pTextObj->GetOrdNum()); } else pFlyFmt = ImportOle(); bObj = false; } else { InsertAttrsAsDrawingAttrs(nNewStartCp, nNewStartCp+1, eType, true); pFlyFmt = ImportGraf(bMakeSdrGrafObj ? pTextObj : 0, pOldFlyFmt); } } break; case 0x8: if ( (!pbTestTxbxContainsText) && (!bObj) ) pFlyFmt = Read_GrafLayer( nPosCp ); break; default: bDone = false; break; } if( bDone ) { if( pFlyFmt ) { if( pRecord ) { SfxItemSet aFlySet( rDoc.GetAttrPool(), RES_FRMATR_BEGIN, RES_FRMATR_END-1 ); Rectangle aInnerDist( pRecord->nDxTextLeft, pRecord->nDyTextTop, pRecord->nDxTextRight, pRecord->nDyTextBottom ); MatchSdrItemsIntoFlySet( pTextObj, aFlySet, pRecord->eLineStyle, pRecord->eLineDashing, pRecord->eShapeType, aInnerDist ); pFlyFmt->SetFmtAttr( aFlySet ); MapWrapIntoFlyFmt(pRecord, pFlyFmt); } } aString = OUString(); rbEraseTextObj = (0 != pFlyFmt); } } } if( pnStartCp ) *pnStartCp = nStartCp; if( pnEndCp ) *pnEndCp = nEndCp; if( pbTestTxbxContainsText ) *pbTestTxbxContainsText = bTextWasRead && ! rbEraseTextObj; else if( !rbEraseTextObj ) { if( bTextWasRead ) { mpDrawEditEngine->SetText(aOrigString); InsertAttrsAsDrawingAttrs(nStartCp, nEndCp, eType); } bool bVertical = pTextObj->IsVerticalWriting(); EditTextObject* pTemporaryText = mpDrawEditEngine->CreateTextObject(); OutlinerParaObject* pOp = new OutlinerParaObject(*pTemporaryText); pOp->SetOutlinerMode( OUTLINERMODE_TEXTOBJECT ); pOp->SetVertical( bVertical ); delete pTemporaryText; pTextObj->NbcSetOutlinerParaObject( pOp ); pTextObj->SetVerticalWriting(bVertical); // Fuer die naechste Textbox noch die alten Absatz-Attribute // und Styles entfernen, sonst startet die naechste Box // mit falschen Attributen. // Vorgehen: Text loeschen = auf 1 Absatz reduzieren // und an diesem Absatz die Absatzattribute und Styles loeschen // (Empfehlung JOE) mpDrawEditEngine->SetText( OUString() ); mpDrawEditEngine->SetParaAttribs(0, mpDrawEditEngine->GetEmptyItemSet()); } pStrm->Seek( nOld ); if (pbContainsGraphics) *pbContainsGraphics = bContainsGraphics; return pFlyFmt; } bool SwWW8ImplReader::TxbxChainContainsRealText(sal_uInt16 nTxBxS, long& rStartCp, long& rEndCp) { bool bErase, bContainsText; InsertTxbxText( 0,0,nTxBxS,USHRT_MAX,0,0,false, bErase, &bContainsText, &rStartCp, &rEndCp ); return bContainsText; } // TextBoxes only for Ver67 !! SdrObject* SwWW8ImplReader::ReadTxtBox( WW8_DPHEAD* pHd, const WW8_DO* pDo, SfxAllItemSet &rSet) { bool bDummy; WW8_DP_TXTBOX aTxtB; if( !ReadGrafStart( (void*)&aTxtB, sizeof( aTxtB ), pHd, pDo, rSet ) ) return 0; Point aP0( (sal_Int16)SVBT16ToShort( pHd->xa ) + nDrawXOfs2, (sal_Int16)SVBT16ToShort( pHd->ya ) + nDrawYOfs2 ); Point aP1( aP0 ); aP1.X() += (sal_Int16)SVBT16ToShort( pHd->dxa ); aP1.Y() += (sal_Int16)SVBT16ToShort( pHd->dya ); SdrObject* pObj = new SdrRectObj( OBJ_TEXT, Rectangle( aP0, aP1 ) ); pObj->SetModel( pDrawModel ); pObj->NbcSetSnapRect(Rectangle(aP0, aP1)); Size aSize( (sal_Int16)SVBT16ToShort( pHd->dxa ) , (sal_Int16)SVBT16ToShort( pHd->dya ) ); long nStartCpFly,nEndCpFly; bool bContainsGraphics; InsertTxbxText(PTR_CAST(SdrTextObj,pObj), &aSize, 0, 0, 0, 0, false, bDummy,0,&nStartCpFly,&nEndCpFly,&bContainsGraphics); SetStdAttr( rSet, aTxtB.aLnt, aTxtB.aShd ); SetFill( rSet, aTxtB.aFill ); rSet.Put( SdrTextFitToSizeTypeItem( SDRTEXTFIT_NONE ) ); rSet.Put( SdrTextAutoGrowWidthItem(false)); rSet.Put( SdrTextAutoGrowHeightItem(false)); rSet.Put( SdrTextLeftDistItem( MIN_BORDER_DIST*2 ) ); rSet.Put( SdrTextRightDistItem( MIN_BORDER_DIST*2 ) ); rSet.Put( SdrTextUpperDistItem( MIN_BORDER_DIST ) ); rSet.Put( SdrTextLowerDistItem( MIN_BORDER_DIST ) ); return pObj; } SdrObject* SwWW8ImplReader::ReadCaptionBox( WW8_DPHEAD* pHd, const WW8_DO* pDo, SfxAllItemSet &rSet) { static const SdrCaptionType aCaptA[] = { SDRCAPT_TYPE1, SDRCAPT_TYPE2, SDRCAPT_TYPE3, SDRCAPT_TYPE4 }; WW8_DP_CALLOUT_TXTBOX aCallB; if( !ReadGrafStart( (void*)&aCallB, sizeof( aCallB ), pHd, pDo, rSet ) ) return 0; sal_uInt16 nCount = SVBT16ToShort( aCallB.dpPolyLine.aBits1 ) >> 1 & 0x7fff; boost::scoped_array xP(new SVBT16[nCount * 2]); bool bCouldRead = checkRead(*pStrm, xP.get(), nCount * 4); // Punkte einlesen OSL_ENSURE(bCouldRead, "Short CaptionBox header"); if (!bCouldRead) return 0; sal_uInt8 nTyp = (sal_uInt8)nCount - 1; if( nTyp == 1 && SVBT16ToShort( xP[0] ) == SVBT16ToShort( xP[2] ) ) nTyp = 0; Point aP0( (sal_Int16)SVBT16ToShort( pHd->xa ) + (sal_Int16)SVBT16ToShort( aCallB.dpheadTxbx.xa ) + nDrawXOfs2, (sal_Int16)SVBT16ToShort( pHd->ya ) + (sal_Int16)SVBT16ToShort( aCallB.dpheadTxbx.ya ) + nDrawYOfs2 ); Point aP1( aP0 ); aP1.X() += (sal_Int16)SVBT16ToShort( aCallB.dpheadTxbx.dxa ); aP1.Y() += (sal_Int16)SVBT16ToShort( aCallB.dpheadTxbx.dya ); Point aP2( (sal_Int16)SVBT16ToShort( pHd->xa ) + (sal_Int16)SVBT16ToShort( aCallB.dpheadPolyLine.xa ) + nDrawXOfs2 + (sal_Int16)SVBT16ToShort( xP[0] ), (sal_Int16)SVBT16ToShort( pHd->ya ) + (sal_Int16)SVBT16ToShort( aCallB.dpheadPolyLine.ya ) + nDrawYOfs2 + (sal_Int16)SVBT16ToShort( xP[1] ) ); xP.reset(); SdrCaptionObj* pObj = new SdrCaptionObj( Rectangle( aP0, aP1 ), aP2 ); pObj->SetModel( pDrawModel ); pObj->NbcSetSnapRect(Rectangle(aP0, aP1)); Size aSize( (sal_Int16)SVBT16ToShort( aCallB.dpheadTxbx.dxa ), (sal_Int16)SVBT16ToShort( aCallB.dpheadTxbx.dya ) ); bool bEraseThisObject; InsertTxbxText(pObj, &aSize, 0, 0, 0, 0, false, bEraseThisObject ); if( SVBT16ToShort( aCallB.dptxbx.aLnt.lnps ) != 5 ) // Umrandung sichtbar ? SetStdAttr( rSet, aCallB.dptxbx.aLnt, aCallB.dptxbx.aShd ); else // nein -> Nimm Linie SetStdAttr( rSet, aCallB.dpPolyLine.aLnt, aCallB.dptxbx.aShd ); SetFill( rSet, aCallB.dptxbx.aFill ); rSet.Put( SdrCaptionTypeItem( aCaptA[nTyp] ) ); return pObj; } SdrObject *SwWW8ImplReader::ReadGroup( WW8_DPHEAD* pHd, const WW8_DO* pDo, SfxAllItemSet &rSet) { sal_Int16 nGrouped; if( !ReadGrafStart( (void*)&nGrouped, sizeof( nGrouped ), pHd, pDo, rSet ) ) return 0; #ifdef OSL_BIGENDIAN nGrouped = (sal_Int16)OSL_SWAPWORD( nGrouped ); #endif nDrawXOfs = nDrawXOfs + (sal_Int16)SVBT16ToShort( pHd->xa ); nDrawYOfs = nDrawYOfs + (sal_Int16)SVBT16ToShort( pHd->ya ); SdrObject* pObj = new SdrObjGroup; short nLeft = (sal_Int16)SVBT16ToShort( pHd->cb ) - sizeof( WW8_DPHEAD ); for (int i = 0; i < nGrouped; i++) { SfxAllItemSet aSet(pDrawModel->GetItemPool()); if (SdrObject *pObject = ReadGrafPrimitive(nLeft, pDo, aSet)) { // first add and then set ItemSet SdrObjList *pSubGroup = pObj->GetSubList(); OSL_ENSURE(pSubGroup, "Why no sublist available?"); if (pSubGroup) pSubGroup->InsertObject(pObject, 0); pObject->SetMergedItemSetAndBroadcast(aSet); } } nDrawXOfs = nDrawXOfs - (sal_Int16)SVBT16ToShort( pHd->xa ); nDrawYOfs = nDrawYOfs - (sal_Int16)SVBT16ToShort( pHd->ya ); return pObj; } SdrObject* SwWW8ImplReader::ReadGrafPrimitive( short& rLeft, const WW8_DO* pDo, SfxAllItemSet &rSet) { // cmc: This whole archaic word 6 graphic import can probably be refactored // into an object hierarachy with a little effort. SdrObject *pRet=0; WW8_DPHEAD aHd; // Lese Draw-Primitive-Header bool bCouldRead = checkRead(*pStrm, &aHd, sizeof(WW8_DPHEAD)); OSL_ENSURE(bCouldRead, "Graphic Primitive header short read" ); if (!bCouldRead) { rLeft=0; return pRet; } if( rLeft >= SVBT16ToShort(aHd.cb) ) // Vorsichtsmassmahme { rSet.Put(SwFmtSurround(SURROUND_THROUGHT)); switch (SVBT16ToShort(aHd.dpk) & 0xff ) { case 0: pRet = ReadGroup( &aHd, pDo, rSet ); break; case 1: pRet = ReadLine( &aHd, pDo, rSet ); break; case 2: pRet = ReadTxtBox( &aHd, pDo, rSet ); break; case 3: pRet = ReadRect( &aHd, pDo, rSet ); break; case 4: pRet = ReadElipse( &aHd, pDo, rSet ); break; case 5: pRet = ReadArc( &aHd, pDo, rSet ); break; case 6: pRet = ReadPolyLine( &aHd, pDo, rSet ); break; case 7: pRet = ReadCaptionBox( &aHd, pDo, rSet ); break; default: // unbekannt pStrm->SeekRel(SVBT16ToShort(aHd.cb) - sizeof(WW8_DPHEAD)); break; } } else { OSL_ENSURE( !this, "+Grafik-Overlap" ); } rLeft = rLeft - SVBT16ToShort( aHd.cb ); return pRet; } void SwWW8ImplReader::ReadGrafLayer1( WW8PLCFspecial* pPF, long nGrafAnchorCp ) { pPF->SeekPos( nGrafAnchorCp ); WW8_FC nStartFc; void* pF0; if( !pPF->Get( nStartFc, pF0 ) ) { OSL_ENSURE( !this, "+Wo ist die Grafik (2) ?" ); return; } WW8_FDOA* pF = (WW8_FDOA*)pF0; if( !SVBT32ToUInt32( pF->fc ) ) { OSL_ENSURE( !this, "+Wo ist die Grafik (3) ?" ); return; } bool bCouldSeek = checkSeek(*pStrm, SVBT32ToUInt32(pF->fc)); OSL_ENSURE(bCouldSeek, "Invalid Graphic offset"); if (!bCouldSeek) return; // Lese Draw-Header WW8_DO aDo; bool bCouldRead = checkRead(*pStrm, &aDo, sizeof(WW8_DO)); OSL_ENSURE(bCouldRead, "Short Graphic header"); if (!bCouldRead) return; short nLeft = SVBT16ToShort( aDo.cb ) - sizeof( WW8_DO ); while (nLeft > static_cast(sizeof(WW8_DPHEAD))) { SfxAllItemSet aSet( pDrawModel->GetItemPool() ); if (SdrObject *pObject = ReadGrafPrimitive( nLeft, &aDo, aSet )) { pWWZOrder->InsertDrawingObject(pObject, SVBT16ToShort(aDo.dhgt)); SwFrmFmt *pFrm = rDoc.InsertDrawObj( *pPaM, *pObject, aSet ); pObject->SetMergedItemSet(aSet); pAnchorStck->AddAnchor(*pPaM->GetPoint(), pFrm); } } } sal_Int32 SwMSDffManager::GetEscherLineMatch(MSO_LineStyle eStyle, MSO_SPT eShapeType, sal_Int32 &rThick) { sal_Int32 nOutsideThick = 0; /* Beachte: im Gegensatz zu den Winword-ueblichen Tabellen- und Rahmen-Randbreiten-Angaben, bei denen jeweils aus der Staerke *einer* Linie die Gesamt-Randbreite zu errechnen ist, liegen die aus dem ESCHER stammenden Daten bereits als Gesamt-Breite [twips] vor! Der Winword default ist 15 tw. Wir nehmen hierfuer unsere 20 tw Linie. ( 0.75 pt uns 1.0 pt sehen sich auf dem Ausdruck naemlich aehnlicher als etwas 0.75 pt und unsere 0.05 pt Haarlinie. ) Die Haarlinie setzen wir nur bei Winword-Staerken bis zu maximal 0.5 pt ein. */ switch( eStyle ) { case mso_lineTriple: case mso_lineSimple: nOutsideThick = eShapeType != mso_sptTextBox ? rThick : rThick/2; break; case mso_lineDouble: if (eShapeType == mso_sptTextBox) { nOutsideThick = rThick/6; rThick = rThick*2/3; } else nOutsideThick = rThick*2/3; break; case mso_lineThickThin: if (eShapeType == mso_sptTextBox) { nOutsideThick = rThick*3/10; rThick = rThick*4/5; } else nOutsideThick = rThick*4/5; break; case mso_lineThinThick: { if (eShapeType == mso_sptTextBox) { nOutsideThick = rThick/10; rThick = rThick*3/5; } else nOutsideThick = rThick*3/5; } break; default: break; } return nOutsideThick; } // Returns the thickness of the line outside the frame, the logic of // words positioning of borders around floating objects is that of a // disturbed mind. sal_Int32 SwWW8ImplReader::MatchSdrBoxIntoFlyBoxItem(const Color& rLineColor, MSO_LineStyle eLineStyle, MSO_LineDashing eDashing, MSO_SPT eShapeType, sal_Int32 &rLineThick, SvxBoxItem& rBox ) { sal_Int32 nOutsideThick = 0; if( !rLineThick ) return nOutsideThick; ::editeng::SvxBorderStyle nIdx = table::BorderLineStyle::NONE; sal_Int32 nLineThick=rLineThick; nOutsideThick = SwMSDffManager::GetEscherLineMatch(eLineStyle, eShapeType, rLineThick); /* Beachte: im Gegensatz zu den Winword-ueblichen Tabellen- und Rahmen-Randbreiten-Angaben, bei denen jeweils aus der Staerke *einer* Linie die Gesamt-Randbreite zu errechnen ist, liegen die aus dem ESCHER stammenden Daten bereits als Gesamt-Breite [twips] vor! Der Winword default ist 15 tw. Wir nehmen hierfuer unsere 20 tw Linie. ( 0.75 pt uns 1.0 pt sehen sich auf dem Ausdruck naemlich aehnlicher als etwas 0.75 pt und unsere 0.05 pt Haarlinie. ) Die Haarlinie setzen wir nur bei Winword-Staerken bis zu maximal 0.5 pt ein. */ switch( +eLineStyle ) { // zuerst die Einzel-Linien case mso_lineSimple: nIdx = table::BorderLineStyle::SOLID; break; // dann die Doppel-Linien, fuer die wir feine Entsprechungen haben :-))) case mso_lineDouble: nIdx = table::BorderLineStyle::DOUBLE; break; case mso_lineThickThin: nIdx = table::BorderLineStyle::THICKTHIN_SMALLGAP; break; case mso_lineThinThick: nIdx = table::BorderLineStyle::THINTHICK_SMALLGAP; break; // We have no triple border, use double instead. case mso_lineTriple: nIdx = table::BorderLineStyle::DOUBLE; break; // no line style is set case (MSO_LineStyle)USHRT_MAX: break; // erroneously not implemented line style is set default: OSL_ENSURE(!this, "eLineStyle is not (yet) implemented!"); break; } switch( eDashing ) { case mso_lineDashGEL: nIdx = table::BorderLineStyle::DASHED; break; case mso_lineDotGEL: nIdx = table::BorderLineStyle::DOTTED; break; default: break; } if (table::BorderLineStyle::NONE != nIdx) { SvxBorderLine aLine; aLine.SetColor( rLineColor ); aLine.SetWidth( nLineThick ); // No conversion here, nLineThick is already in twips aLine.SetBorderLineStyle(nIdx); for(sal_uInt16 nLine = 0; nLine < 4; ++nLine) { // aLine is cloned by SetLine rBox.SetLine(&aLine, nLine); } } return nOutsideThick; } #define WW8ITEMVALUE(ItemSet,Id,Cast) ((const Cast&)(ItemSet).Get(Id)).GetValue() void SwWW8ImplReader::MatchSdrItemsIntoFlySet( SdrObject* pSdrObj, SfxItemSet& rFlySet, MSO_LineStyle eLineStyle, MSO_LineDashing eDashing, MSO_SPT eShapeType, Rectangle& rInnerDist ) { /* am Rahmen zu setzende Frame-Attribute ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ SwFmtFrmSize falls noch nicht gesetzt, hier setzen SvxLRSpaceItem hier setzen SvxULSpaceItem hier setzen SvxOpaqueItem (Derzeit bei Rahmen nicht moeglich! khz 10.2.1999) SwFmtSurround bereits gesetzt SwFmtVertOrient bereits gesetzt SwFmtHoriOrient bereits gesetzt SwFmtAnchor bereits gesetzt SvxBoxItem hier setzen SvxBrushItem hier setzen SvxShadowItem hier setzen */ // 1. GrafikObjekt des Docs? GrafikCtor(); const SfxItemSet& rOldSet = pSdrObj->GetMergedItemSet(); // einige Items koennen direkt so uebernommen werden const sal_uInt16 nDirectMatch = 2; static RES_FRMATR const aDirectMatch[ nDirectMatch ] = { RES_LR_SPACE, // Aussenabstand links/rechts: SvxLRSpaceItem RES_UL_SPACE // Aussenabstand Oben/unten: SvxULSpaceItem }; const SfxPoolItem* pPoolItem; for(sal_uInt16 nItem = 0; nItem < nDirectMatch; ++nItem) if( SFX_ITEM_SET == rOldSet.GetItemState( static_cast< sal_uInt16 >(aDirectMatch[ nItem ]), false, &pPoolItem) ) { rFlySet.Put( *pPoolItem ); } // jetzt die Umrandung berechnen und die Box bauen: Das Mass wird fuer die // Rahmen-GROESSE benoetigt! SvxBoxItem aBox(sw::util::ItemGet(rFlySet, RES_BOX)); // dashed oder solid wird zu solid // WW-default: 0.75 pt = 15 twips sal_Int32 nLineThick = 15, nOutside=0; // check if LineStyle is *really* set! const SfxPoolItem* pItem; SfxItemState eState = rOldSet.GetItemState(XATTR_LINESTYLE,true,&pItem); if( eState == SFX_ITEM_SET ) { // Now, that we know there is a line style we will make use the // parameter given to us when calling the method... :-) const Color aLineColor = static_cast< XLineColorItem const & >( rOldSet.Get(XATTR_LINECOLOR)).GetColorValue(); nLineThick = WW8ITEMVALUE(rOldSet, XATTR_LINEWIDTH, XLineWidthItem); if( !nLineThick ) nLineThick = 1; // for Writer, zero is "no border", so set a minimal value nOutside = MatchSdrBoxIntoFlyBoxItem(aLineColor, eLineStyle, eDashing, eShapeType, nLineThick, aBox); } rInnerDist.Left()+=nLineThick; rInnerDist.Top()+=nLineThick; rInnerDist.Right()+=nLineThick; rInnerDist.Bottom()+=nLineThick; const SvxBorderLine *pLine; if (0 != (pLine = aBox.GetLine(BOX_LINE_LEFT))) { rInnerDist.Left() -= (pLine->GetScaledWidth()); } if (0 != (pLine = aBox.GetLine(BOX_LINE_TOP))) { rInnerDist.Top() -= (pLine->GetScaledWidth()); } if (0 != (pLine = aBox.GetLine(BOX_LINE_RIGHT))) { rInnerDist.Right() -= (pLine->GetScaledWidth()); } if (0 != (pLine = aBox.GetLine(BOX_LINE_BOTTOM))) { rInnerDist.Bottom() -= (pLine->GetScaledWidth()); } // set distances from box's border to text contained within the box if( 0 < rInnerDist.Left() ) aBox.SetDistance( (sal_uInt16)rInnerDist.Left(), BOX_LINE_LEFT ); if( 0 < rInnerDist.Top() ) aBox.SetDistance( (sal_uInt16)rInnerDist.Top(), BOX_LINE_TOP ); if( 0 < rInnerDist.Right() ) aBox.SetDistance( (sal_uInt16)rInnerDist.Right(), BOX_LINE_RIGHT ); if( 0 < rInnerDist.Bottom() ) aBox.SetDistance( (sal_uInt16)rInnerDist.Bottom(), BOX_LINE_BOTTOM ); bool bFixSize = !(WW8ITEMVALUE(rOldSet, SDRATTR_TEXT_AUTOGROWHEIGHT, SdrTextAutoGrowHeightItem)); // Size: SwFmtFrmSize if( SFX_ITEM_SET != rFlySet.GetItemState(RES_FRM_SIZE, false) ) { const Rectangle& rSnapRect = pSdrObj->GetSnapRect(); // if necessary adapt width and position of the framework: The // recorded interior is to remain equally large despite thick edges. rFlySet.Put( SwFmtFrmSize(bFixSize ? ATT_FIX_SIZE : ATT_VAR_SIZE, rSnapRect.GetWidth() + 2*nOutside, rSnapRect.GetHeight() + 2*nOutside) ); } else // If a size is set, adjust it to consider border thickness { SwFmtFrmSize aSize = (const SwFmtFrmSize &)(rFlySet.Get(RES_FRM_SIZE)); SwFmtFrmSize aNewSize = SwFmtFrmSize(bFixSize ? ATT_FIX_SIZE : ATT_VAR_SIZE, aSize.GetWidth() + 2*nOutside, aSize.GetHeight() + 2*nOutside); aNewSize.SetWidthSizeType(aSize.GetWidthSizeType()); rFlySet.Put( aNewSize ); } // Sadly word puts escher borders outside the graphic, but orients the // graphic in relation to the top left inside the border. We don't if (nOutside) { SwFmtHoriOrient aHori = (const SwFmtHoriOrient &)(rFlySet.Get( RES_HORI_ORIENT)); aHori.SetPos(MakeSafePositioningValue(aHori.GetPos()-nOutside)); rFlySet.Put(aHori); SwFmtVertOrient aVert = (const SwFmtVertOrient &)(rFlySet.Get( RES_VERT_ORIENT)); aVert.SetPos(aVert.GetPos()-nOutside); rFlySet.Put(aVert); } // jetzt die Umrandung setzen rFlySet.Put( aBox ); // Schattenwurf der Box: SvxShadowItem if( WW8ITEMVALUE(rOldSet, SDRATTR_SHADOW, SdrShadowItem) ) { SvxShadowItem aShadow( RES_SHADOW ); const Color aShdColor = static_cast< SdrShadowColorItem const & >( rOldSet.Get(SDRATTR_SHADOWCOLOR)).GetColorValue(); const sal_Int32 nShdDistX = WW8ITEMVALUE(rOldSet, SDRATTR_SHADOWXDIST, SdrShadowXDistItem); const sal_Int32 nShdDistY = WW8ITEMVALUE(rOldSet, SDRATTR_SHADOWYDIST, SdrShadowYDistItem); aShadow.SetColor( Color( aShdColor ) ); aShadow.SetWidth(writer_cast((std::abs( nShdDistX) + std::abs( nShdDistY )) / 2 )); SvxShadowLocation eShdPosi; if( 0 <= nShdDistX ) { if( 0 <= nShdDistY ) eShdPosi = SVX_SHADOW_BOTTOMRIGHT; else eShdPosi = SVX_SHADOW_TOPRIGHT; } else { if( 0 <= nShdDistY ) eShdPosi = SVX_SHADOW_BOTTOMLEFT; else eShdPosi = SVX_SHADOW_TOPLEFT; } aShadow.SetLocation( eShdPosi ); rFlySet.Put( aShadow ); } Color Temp(COL_WHITE); SvxBrushItem aBrushItem(Temp, RES_BACKGROUND); bool bBrushItemOk = false; sal_uInt8 nTrans = 0; // Separate transparency eState = rOldSet.GetItemState(XATTR_FILLTRANSPARENCE, true, &pItem); if (eState == SFX_ITEM_SET) { sal_uInt16 nRes = WW8ITEMVALUE(rOldSet, XATTR_FILLTRANSPARENCE, XFillTransparenceItem); nTrans = sal_uInt8((nRes * 0xFE) / 100); aBrushItem.GetColor().SetTransparency(nTrans); bBrushItemOk = true; } // Hintergrund: SvxBrushItem eState = rOldSet.GetItemState(XATTR_FILLSTYLE, true, &pItem); if (eState == SFX_ITEM_SET) { const XFillStyle eFill = ((const XFillStyleItem*)pItem)->GetValue(); switch (eFill) { case XFILL_NONE: // Writer graphics don't have it yet if (eShapeType != mso_sptPictureFrame) { aBrushItem.GetColor().SetTransparency(0xFE); bBrushItemOk = true; } break; case XFILL_SOLID: case XFILL_GRADIENT: { const Color aColor = static_cast< XFillColorItem const & >( rOldSet.Get(XATTR_FILLCOLOR)).GetColorValue(); aBrushItem.SetColor(aColor); if (bBrushItemOk) // has trans aBrushItem.GetColor().SetTransparency(nTrans); bBrushItemOk = true; } break; // case XFILL_GRADIENT: // break; case XFILL_HATCH: break; case XFILL_BITMAP: { GraphicObject aGrfObj(static_cast< XFillBitmapItem const & >(rOldSet.Get(XATTR_FILLBITMAP)).GetGraphicObject()); const bool bTile(WW8ITEMVALUE(rOldSet, XATTR_FILLBMP_TILE, SfxBoolItem) ? true: false); if(bBrushItemOk) // has trans { GraphicAttr aAttr(aGrfObj.GetAttr()); aAttr.SetTransparency(nTrans); aGrfObj.SetAttr(aAttr); } aBrushItem.SetGraphicObject(aGrfObj); aBrushItem.SetGraphicPos(bTile ? GPOS_TILED : GPOS_AREA); bBrushItemOk = true; } break; } } if (bBrushItemOk) rFlySet.Put(aBrushItem, RES_BACKGROUND); } void SwWW8ImplReader::AdjustLRWrapForWordMargins( const SvxMSDffImportRec &rRecord, SvxLRSpaceItem &rLR) { sal_uInt32 nXRelTo = SvxMSDffImportRec::RELTO_DEFAULT; if ( rRecord.pXRelTo ) { nXRelTo = *(rRecord.pXRelTo); } // Left adjustments - if horizontally aligned to left of // margin or column then remove the left wrapping if (rRecord.nXAlign == 1) { if ((nXRelTo == 0) || (nXRelTo == 2)) rLR.SetLeft((sal_uInt16)0); } // Right adjustments - if horizontally aligned to right of // margin or column then remove the right wrapping if (rRecord.nXAlign == 3) { if ((nXRelTo == 0) || (nXRelTo == 2)) rLR.SetRight((sal_uInt16)0); } // Inside margin, remove left wrapping if ((rRecord.nXAlign == 4) && (nXRelTo == 0)) { rLR.SetLeft((sal_uInt16)0); } // Outside margin, remove left wrapping if ((rRecord.nXAlign == 5) && (nXRelTo == 0)) { rLR.SetRight((sal_uInt16)0); } } void SwWW8ImplReader::AdjustULWrapForWordMargins( const SvxMSDffImportRec &rRecord, SvxULSpaceItem &rUL) { sal_uInt32 nYRelTo = SvxMSDffImportRec::RELTO_DEFAULT; if ( rRecord.pYRelTo ) { nYRelTo = *(rRecord.pYRelTo); } // Top adjustment - remove upper wrapping if aligned to page // printable area or to page if (rRecord.nYAlign == 1) { if ((nYRelTo == 0) || (nYRelTo == 1)) rUL.SetUpper((sal_uInt16)0); } // Bottom adjustment - remove bottom wrapping if aligned to page or // printable area or to page if (rRecord.nYAlign == 3) { if ((nYRelTo == 0) || (nYRelTo == 1)) rUL.SetLower((sal_uInt16)0); } // Remove top margin if aligned vertically inside margin if ((rRecord.nYAlign == 4) && (nYRelTo == 0)) rUL.SetUpper((sal_uInt16)0); } void SwWW8ImplReader::MapWrapIntoFlyFmt(SvxMSDffImportRec* pRecord, SwFrmFmt* pFlyFmt) { if (!pRecord || !pFlyFmt) return; if (pRecord->nDxWrapDistLeft || pRecord->nDxWrapDistRight) { SvxLRSpaceItem aLR(writer_cast(pRecord->nDxWrapDistLeft), writer_cast(pRecord->nDxWrapDistRight), 0, 0, RES_LR_SPACE); AdjustLRWrapForWordMargins(*pRecord, aLR); pFlyFmt->SetFmtAttr(aLR); } if (pRecord->nDyWrapDistTop || pRecord->nDyWrapDistBottom) { SvxULSpaceItem aUL(writer_cast(pRecord->nDyWrapDistTop), writer_cast(pRecord->nDyWrapDistBottom), RES_UL_SPACE); AdjustULWrapForWordMargins(*pRecord, aUL); pFlyFmt->SetFmtAttr(aUL); } // If we are contoured and have a custom polygon... if (pRecord->pWrapPolygon && pFlyFmt->GetSurround().IsContour()) { if (SwNoTxtNode *pNd = GetNoTxtNodeFromSwFrmFmt(*pFlyFmt)) { /* Gather round children and hear of a tale that will raise the hairs on the back of your neck this dark halloween night. There is a polygon in word that describes the wraping around the graphic. Here are some sample values for the simplest case of a square around some solid coloured graphics X Y Pixel size of graphic TopLeft -54 21600 400x400 Bottom Right 0 21546 TopLeft -108 21600 200x200 Bottom Right 0 21492 TopLeft -216 21600 100x100 Bottom Right 0 21384 TopLeft -432 21600 50x50 Bottom Right 0 21168 TopLeft -76 21600 283x212 Bottom Right 0 21498 So given that the size of the values remains pretty much the same despite the size of the graphic, we can tell that the polygon is measured in units that are independent of the graphic. But why does the left corner move a different value to the left each time, and why does the bottom move upwards each time, when the right and top remain at the same value ? I have no idea, but clearly once we calculate the values out we see that the left margin is always a fixed realworld distance from the true left and the polygon bottom is the same fixed value from the bottom. i.e. 15twips. So here we take our word provided polygon, shift it to the right by 15twips and rescale it widthwise to shrink the width a little to fit the now moved right margin back to where it was, and stretch the height a little to make the bottom move down the missing 15twips then we get a polygon that matches what I actually see in word */ PolyPolygon aPoly(*pRecord->pWrapPolygon); const Size &rSize = pNd->GetTwipSize(); /* Move to the left by 15twips, and rescale to a) shrink right bound back to orig position b) stretch bottom bound to where I think it should have been in the first place */ Fraction aMoveHack(ww::nWrap100Percent, rSize.Width()); aMoveHack *= Fraction(15, 1); long nMove(aMoveHack); aPoly.Move(nMove, 0); Fraction aHackX(ww::nWrap100Percent, ww::nWrap100Percent + nMove); Fraction aHackY(ww::nWrap100Percent, ww::nWrap100Percent - nMove); aPoly.Scale(aHackX, aHackY); // Turn polygon back into units that match the graphic's const Size &rOrigSize = pNd->GetGraphic().GetPrefSize(); Fraction aMapPolyX(rOrigSize.Width(), ww::nWrap100Percent); Fraction aMapPolyY(rOrigSize.Height(), ww::nWrap100Percent); aPoly.Scale(aMapPolyX, aMapPolyY); // #i47277# - contour is already in unit of the // graphic preferred unit. Thus, call method pNd->SetContour(&aPoly); } } } void SwWW8ImplReader::SetAttributesAtGrfNode(SvxMSDffImportRec const*const pRecord, SwFrmFmt *pFlyFmt, WW8_FSPA *pF ) { const SwNodeIndex* pIdx = pFlyFmt->GetCntnt(false).GetCntntIdx(); SwGrfNode* pGrfNd; if( pIdx && 0 != (pGrfNd = rDoc.GetNodes()[pIdx->GetIndex() + 1]->GetGrfNode() )) { Size aSz(pGrfNd->GetTwipSize()); // use type instead of sal_uLong to get correct results // in the following calculations. sal_uInt64 rHeight = aSz.Height(); sal_uInt64 rWidth = aSz.Width(); if( !rWidth && pF) rWidth = pF->nXaRight - pF->nXaLeft; else if( !rHeight && pF) rHeight = pF->nYaBottom - pF->nYaTop; if( pRecord->nCropFromTop || pRecord->nCropFromBottom || pRecord->nCropFromLeft || pRecord->nCropFromRight ) { SwCropGrf aCrop; // Cropping is stored in 'fixed floats' // 16.16 (it est fraction times total if( pRecord->nCropFromTop ) // image width or height resp.) aCrop.SetTop( static_cast< sal_Int32 >( ( ( (pRecord->nCropFromTop >> 16 ) * rHeight ) + (((pRecord->nCropFromTop & 0xffff) * rHeight ) >> 16) ))); if( pRecord->nCropFromBottom ) aCrop.SetBottom( static_cast< sal_Int32 >( ( ( (pRecord->nCropFromBottom >> 16 ) * rHeight ) + (((pRecord->nCropFromBottom & 0xffff) * rHeight ) >> 16) ))); if( pRecord->nCropFromLeft ) aCrop.SetLeft( static_cast< sal_Int32 >( ( ( (pRecord->nCropFromLeft >> 16 ) * rWidth ) + (((pRecord->nCropFromLeft & 0xffff) * rWidth ) >> 16) ))); if( pRecord->nCropFromRight ) aCrop.SetRight( static_cast< sal_Int32 >( ( ( (pRecord->nCropFromRight >> 16 ) * rWidth ) + (((pRecord->nCropFromRight & 0xffff) * rWidth ) >> 16) ))); pGrfNd->SetAttr( aCrop ); } if (pRecord->pObj) { const SfxItemSet& rOldSet = pRecord->pObj->GetMergedItemSet(); // contrast if (WW8ITEMVALUE(rOldSet, SDRATTR_GRAFCONTRAST, SdrGrafContrastItem)) { SwContrastGrf aContrast( WW8ITEMVALUE(rOldSet, SDRATTR_GRAFCONTRAST, SdrGrafContrastItem)); pGrfNd->SetAttr( aContrast ); } // luminance if (WW8ITEMVALUE(rOldSet, SDRATTR_GRAFLUMINANCE, SdrGrafLuminanceItem)) { SwLuminanceGrf aLuminance(WW8ITEMVALUE(rOldSet, SDRATTR_GRAFLUMINANCE, SdrGrafLuminanceItem)); pGrfNd->SetAttr( aLuminance ); } // gamma if (WW8ITEMVALUE(rOldSet, SDRATTR_GRAFGAMMA, SdrGrafGamma100Item)) { double fVal = WW8ITEMVALUE(rOldSet, SDRATTR_GRAFGAMMA, SdrGrafGamma100Item); pGrfNd->SetAttr(SwGammaGrf(fVal/100.)); } // drawmode if (WW8ITEMVALUE(rOldSet, SDRATTR_GRAFMODE, SdrGrafModeItem)) { SwDrawModeGrf aDrawMode( static_cast< sal_uInt16 >(WW8ITEMVALUE(rOldSet, SDRATTR_GRAFMODE, SdrGrafModeItem)) ); pGrfNd->SetAttr( aDrawMode ); } } } } SdrObject* SwWW8ImplReader::CreateContactObject(SwFrmFmt* pFlyFmt) { if (pFlyFmt) { SdrObject* pNewObject = mbNewDoc ? 0 : pFlyFmt->FindRealSdrObject(); if (!pNewObject) pNewObject = pFlyFmt->FindSdrObject(); if (!pNewObject && pFlyFmt->ISA(SwFlyFrmFmt)) { SwFlyDrawContact* pContactObject = new SwFlyDrawContact(static_cast(pFlyFmt), pDrawModel); pNewObject = pContactObject->GetMaster(); } return pNewObject; } return 0; } // Miserable miserable hack to fudge word's graphic layout in RTL mode to ours. bool SwWW8ImplReader::MiserableRTLGraphicsHack(SwTwips &rLeft, SwTwips nWidth, sal_Int16 eHoriOri, sal_Int16 eHoriRel) { if (!IsRightToLeft()) return false; return RTLGraphicsHack(rLeft, nWidth, eHoriOri, eHoriRel, maSectionManager.GetPageLeft(), maSectionManager.GetPageRight(), maSectionManager.GetPageWidth()); } RndStdIds SwWW8ImplReader::ProcessEscherAlign(SvxMSDffImportRec* pRecord, WW8_FSPA *pFSPA, SfxItemSet &rFlySet, bool /*bOrgObjectWasReplace*/) { OSL_ENSURE(pRecord || pFSPA, "give me something! to work with for anchoring"); if (!pRecord && !pFSPA) return FLY_AT_PAGE; bool bCurSectionVertical = maSectionManager.CurrentSectionIsVertical(); SvxMSDffImportRec aRecordFromFSPA; if (!pRecord) pRecord = &aRecordFromFSPA; if (!(pRecord->pXRelTo) && pFSPA) { pRecord->pXRelTo = new sal_uInt32; *(pRecord->pXRelTo) = pFSPA->nbx; } if (!(pRecord->pYRelTo) && pFSPA) { pRecord->pYRelTo = new sal_uInt32; *(pRecord->pYRelTo) = pFSPA->nby; } // nXAlign - abs. Position, Left, Centered, Right, Inside, Outside // nYAlign - abs. Position, Top, Centered, Bottom, Inside, Outside // nXRelTo - Page printable area, Page, Column, Character // nYRelTo - Page printable area, Page, Paragraph, Line const sal_uInt32 nCntXAlign = 6; const sal_uInt32 nCntYAlign = 6; const sal_uInt32 nCntRelTo = 4; sal_uInt32 nXAlign = nCntXAlign > pRecord->nXAlign ? pRecord->nXAlign : 1; sal_uInt32 nYAlign = nCntYAlign > pRecord->nYAlign ? pRecord->nYAlign : 1; if (pFSPA) { /* #i15718# #i19008# Strangely in this case the FSPA value seems to be considered before the newer escher nXRelTo record. */ // #i52565# - correct condition checking: // first check, if and have default values. This // is a hint that these values aren't set by the escher import - see // method . Then, check if for each // values, if it differs from the one in the FSPA. if ( *(pRecord->pXRelTo) == 2 && *(pRecord->pYRelTo) == 2 && !bCurSectionVertical) { // if differs from overwrite if ( pFSPA->nby != *(pRecord->pYRelTo) ) { *(pRecord->pYRelTo) = pFSPA->nby; } } } sal_uInt32 nXRelTo = (pRecord->pXRelTo && nCntRelTo > *(pRecord->pXRelTo)) ? *(pRecord->pXRelTo) : 1; sal_uInt32 nYRelTo = (pRecord->pYRelTo && nCntRelTo > *(pRecord->pYRelTo)) ? *(pRecord->pYRelTo) : 1; RndStdIds eAnchor = IsInlineEscherHack() ? FLY_AS_CHAR : FLY_AT_CHAR; // #i43718# SwFmtAnchor aAnchor( eAnchor ); aAnchor.SetAnchor( pPaM->GetPoint() ); rFlySet.Put( aAnchor ); if (pFSPA) { // #i18732# // Given new layout where everything is changed to be anchored to // character the following 4 tables may need to be changed. // horizontal Adjustment static const sal_Int16 aHoriOriTab[ nCntXAlign ] = { text::HoriOrientation::NONE, // From left position text::HoriOrientation::LEFT, // left text::HoriOrientation::CENTER, // centered text::HoriOrientation::RIGHT, // right // #i36649# // - inside -> text::HoriOrientation::LEFT and outside -> text::HoriOrientation::RIGHT text::HoriOrientation::LEFT, // inside text::HoriOrientation::RIGHT // outside }; // generic vertical Adjustment static const sal_Int16 aVertOriTab[ nCntYAlign ] = { text::VertOrientation::NONE, // From Top position text::VertOrientation::TOP, // top text::VertOrientation::CENTER, // centered text::VertOrientation::BOTTOM, // bottom text::VertOrientation::LINE_TOP, // inside (obscure) text::VertOrientation::LINE_BOTTOM // outside (obscure) }; // #i22673# - to-line vertical alignment static const sal_Int16 aToLineVertOriTab[ nCntYAlign ] = { text::VertOrientation::NONE, // below text::VertOrientation::LINE_BOTTOM, // top text::VertOrientation::LINE_CENTER, // centered text::VertOrientation::LINE_TOP, // bottom text::VertOrientation::LINE_BOTTOM, // inside (obscure) text::VertOrientation::LINE_TOP // outside (obscure) }; // Adjustment is horizontally relative to... static const sal_Int16 aHoriRelOriTab[nCntRelTo] = { text::RelOrientation::PAGE_PRINT_AREA, // 0 is page textarea margin text::RelOrientation::PAGE_FRAME, // 1 is page margin text::RelOrientation::FRAME, // 2 is relative to column text::RelOrientation::CHAR // 3 is relative to character }; // Adjustment is vertically relative to... // #i22673# - adjustment for new vertical alignment at top of line. static const sal_Int16 aVertRelOriTab[nCntRelTo] = { text::RelOrientation::PAGE_PRINT_AREA, // 0 is page textarea margin text::RelOrientation::PAGE_FRAME, // 1 is page margin text::RelOrientation::FRAME, // 2 is relative to paragraph text::RelOrientation::TEXT_LINE // 3 is relative to line }; sal_Int16 eHoriOri = aHoriOriTab[ nXAlign ]; sal_Int16 eHoriRel = aHoriRelOriTab[ nXRelTo ]; // #i36649# - adjustments for certain alignments if ( eHoriOri == text::HoriOrientation::LEFT && eHoriRel == text::RelOrientation::PAGE_FRAME ) { // convert 'left to page' to 'from left - to page text area' eHoriOri = text::HoriOrientation::NONE; eHoriRel = text::RelOrientation::PAGE_PRINT_AREA; const long nWidth = pFSPA->nXaRight - pFSPA->nXaLeft; pFSPA->nXaLeft = -nWidth; pFSPA->nXaRight = 0; } else if ( eHoriOri == text::HoriOrientation::RIGHT && eHoriRel == text::RelOrientation::PAGE_FRAME ) { // convert 'right to page' to 'from left 0 to right page border' eHoriOri = text::HoriOrientation::NONE; eHoriRel = text::RelOrientation::PAGE_RIGHT; const long nWidth = pFSPA->nXaRight - pFSPA->nXaLeft; pFSPA->nXaLeft = 0; pFSPA->nXaRight = nWidth; } // #i24255# - position of floating screen objects in // R2L layout are given in L2R layout, thus convert them of all // floating screen objects, which are imported. { // Miserable miserable hack. SwTwips nWidth = (pFSPA->nXaRight - pFSPA->nXaLeft); SwTwips nLeft = pFSPA->nXaLeft; if (MiserableRTLGraphicsHack(nLeft, nWidth, eHoriOri, eHoriRel)) { pFSPA->nXaLeft = nLeft; pFSPA->nXaRight = pFSPA->nXaLeft + nWidth; } } // if the object is anchored inside a table cell, is horizontal aligned // at frame|character and has wrap through, but its attribute // 'layout in table cell' isn't set, convert its horizontal alignment to page text area. // #i84783# - use new method if ( nInTable && ( eHoriRel == text::RelOrientation::FRAME || eHoriRel == text::RelOrientation::CHAR ) && pFSPA->nwr == 3 && !IsObjectLayoutInTableCell( pRecord->nLayoutInTableCell ) ) { eHoriRel = text::RelOrientation::PAGE_PRINT_AREA; } // Writer honours this wrap distance when aligned as "left" or "right", // Word doesn't. Writer doesn't honour it when its "from left". if (eHoriOri == text::HoriOrientation::LEFT) pRecord->nDxWrapDistLeft=0; else if (eHoriOri == text::HoriOrientation::RIGHT) pRecord->nDxWrapDistRight=0; sal_Int16 eVertRel; eVertRel = aVertRelOriTab[ nYRelTo ]; // #i18732# if ( bCurSectionVertical && nYRelTo == 2 ) eVertRel = text::RelOrientation::PAGE_PRINT_AREA; // #i22673# - fill in dependence of sal_Int16 eVertOri; if ( eVertRel == text::RelOrientation::TEXT_LINE ) { eVertOri = aToLineVertOriTab[ nYAlign ]; } else { eVertOri = aVertOriTab[ nYAlign ]; } // Below line in word is a positive value, while in writer its // negative long nYPos = pFSPA->nYaTop; // #i22673# if ((eVertRel == text::RelOrientation::TEXT_LINE) && (eVertOri == text::VertOrientation::NONE)) nYPos = -nYPos; SwFmtHoriOrient aHoriOri(MakeSafePositioningValue( bCurSectionVertical ? nYPos : pFSPA->nXaLeft ), bCurSectionVertical ? eVertOri : eHoriOri, bCurSectionVertical ? eVertRel : eHoriRel); if( 4 <= nXAlign ) aHoriOri.SetPosToggle(true); rFlySet.Put( aHoriOri ); rFlySet.Put(SwFmtVertOrient(MakeSafePositioningValue( !bCurSectionVertical ? nYPos : -pFSPA->nXaRight ), !bCurSectionVertical ? eVertOri : eHoriOri, !bCurSectionVertical ? eVertRel : eHoriRel )); } return eAnchor; } // #i84783# bool SwWW8ImplReader::IsObjectLayoutInTableCell( const sal_uInt32 nLayoutInTableCell ) const { bool bIsObjectLayoutInTableCell = false; if ( bVer8 ) { const sal_uInt16 nWWVersion = pWwFib->nProduct & 0xE000; switch ( nWWVersion ) { case 0x0000: // version 8 aka Microsoft Word 97 { bIsObjectLayoutInTableCell = false; OSL_ENSURE( nLayoutInTableCell == 0xFFFFFFFF, "no explicit object attribute layout in table cell expected." ); } break; case 0x2000: // version 9 aka Microsoft Word 2000 case 0x4000: // version 10 aka Microsoft Word 2002 case 0x6000: // version 11 aka Microsoft Word 2003 case 0x8000: // version 12 aka Microsoft Word 2007 case 0xC000: // version 14 aka Microsoft Word 2010 { // #i98037# // adjustment of conditions needed after deeper analysis of // certain test cases. if ( nLayoutInTableCell == 0xFFFFFFFF || // no explicit attribute value given nLayoutInTableCell == 0x80008000 || ( nLayoutInTableCell & 0x02000000 && !(nLayoutInTableCell & 0x80000000 ) ) ) { bIsObjectLayoutInTableCell = true; } else { bIsObjectLayoutInTableCell = false; } } break; default: { OSL_FAIL( "unknown version." ); } } } return bIsObjectLayoutInTableCell; } SwFrmFmt* SwWW8ImplReader::Read_GrafLayer( long nGrafAnchorCp ) { if( nIniFlags & WW8FL_NO_GRAFLAYER ) return 0; ::SetProgressState(nProgress, mpDocShell); // Update nDrawCpO = pWwFib->GetBaseCp(pPlcxMan->GetManType() == MAN_HDFT ? MAN_TXBX_HDFT : MAN_TXBX); GrafikCtor(); WW8PLCFspecial* pPF = pPlcxMan->GetFdoa(); if( !pPF ) { OSL_ENSURE( !this, "Where is the grapic (1) ?" ); return 0; } if( bVer67 ) { long nOldPos = pStrm->Tell(); nDrawXOfs = nDrawYOfs = 0; ReadGrafLayer1( pPF, nGrafAnchorCp ); pStrm->Seek( nOldPos ); return 0; } // Normal case of Word 8+ version stuff pPF->SeekPos( nGrafAnchorCp ); WW8_FC nStartFc; void* pF0; if( !pPF->Get( nStartFc, pF0 ) ){ OSL_ENSURE( !this, "+Wo ist die Grafik (2) ?" ); return 0; } WW8_FSPA_SHADOW* pFS = (WW8_FSPA_SHADOW*)pF0; WW8_FSPA* pF; WW8_FSPA aFSFA; pF = &aFSFA; WW8FSPAShadowToReal( pFS, pF ); if( !pF->nSpId ) { OSL_ENSURE( !this, "+Wo ist die Grafik (3) ?" ); return 0; } if (!pMSDffManager->GetModel()) pMSDffManager->SetModel(pDrawModel, 1440); Rectangle aRect(pF->nXaLeft, pF->nYaTop, pF->nXaRight, pF->nYaBottom); SvxMSDffImportData aData( aRect ); /* #i20540# The SdrOle2Obj will try and manage any ole objects it finds, causing all sorts of trouble later on */ SwDocShell* pPersist = rDoc.GetDocShell(); rDoc.SetDocShell(0); // #i20540# Persist guard SdrObject* pObject = 0; bool bOk = (pMSDffManager->GetShape(pF->nSpId, pObject, aData) && pObject); rDoc.SetDocShell(pPersist); // #i20540# Persist guard if (!bOk) { OSL_ENSURE( !this, "Where is the Shape ?" ); return 0; } bool bDone = false; SdrObject* pOurNewObject = 0; bool bReplaceable = false; switch (SdrObjKind(pObject->GetObjIdentifier())) { case OBJ_GRAF: bReplaceable = true; bDone = true; break; case OBJ_OLE2: bReplaceable = true; break; default: break; } // when in a header or footer word appears to treat all elements as wrap through // Umfluss-Modus ermitteln SfxItemSet aFlySet(rDoc.GetAttrPool(), RES_FRMATR_BEGIN, RES_FRMATR_END-1); SwSurround eSurround = SURROUND_PARALLEL; bool bContour = false; switch (pF->nwr) { case 0: // 0 like 2, but doesn't require absolute object case 2: // 2 wrap around absolute object eSurround = SURROUND_PARALLEL; break; case 1: // 1 no text next to shape eSurround = SURROUND_NONE; break; case 3: // 3 wrap as if no object present eSurround = SURROUND_THROUGHT; break; case 4: // 4 wrap tightly around object case 5: // 5 wrap tightly, but allow holes eSurround = SURROUND_PARALLEL; bContour = true; break; } // bei Modus 2 oder 4 auch den Zusatzparameter beruecksichtigen if ( (2 == pF->nwr) || (4 == pF->nwr) ) { switch( pF->nwrk ) { // 0 wrap both sides case 0: eSurround = SURROUND_PARALLEL; break; // 1 wrap only on left case 1: eSurround = SURROUND_LEFT; break; // 2 wrap only on right case 2: eSurround = SURROUND_RIGHT; break; // 3 wrap only on largest side case 3: eSurround = SURROUND_IDEAL; break; } } SwFmtSurround aSur( eSurround ); aSur.SetContour( bContour ); aSur.SetOutside(true); // Winword kann nur Aussen-Konturen aFlySet.Put( aSur ); // eingelesenes Objekt (kann eine ganze Gruppe sein) jetzt korrekt // positionieren usw. OSL_ENSURE(!((aData.size() != 1) && bReplaceable), "Replaceable drawing with > 1 entries ?"); if (aData.size() != 1) bReplaceable = false; SvxMSDffImportRec* pRecord = 0; /* Get the record for top level object, so we can get the word anchoring and wrapping information for it. */ for (MSDffImportRecords::const_iterator it = aData.begin(); it != aData.end(); ++it) // MSVC2008 wants const_iterator here??? { if (it->pObj == pObject) { pRecord = &const_cast(*it); break; } } OSL_ENSURE(pRecord, "how did that happen?"); if (!pRecord) return 0; const bool bLayoutInTableCell = nInTable && IsObjectLayoutInTableCell( pRecord->nLayoutInTableCell ); // #i18732# - Switch on 'follow text flow', if object is laid out // inside table cell and its wrapping isn't 'SURROUND_THROUGH' if (bLayoutInTableCell && eSurround != SURROUND_THROUGHT) { SwFmtFollowTextFlow aFollowTextFlow( true ); aFlySet.Put( aFollowTextFlow ); } // #i21847# // Some shapes are set to *hidden*, don't import those ones. if (pRecord->bHidden) return 0; sal_uInt16 nCount = pObject->GetUserDataCount(); if(nCount) { OUString lnName, aObjName, aTarFrm; for (sal_uInt16 i = 0; i < nCount; i++ ) { SdrObjUserData* pData = pObject->GetUserData( i ); if( pData && pData->GetInventor() == SW_DRAWLAYER && pData->GetId() == SW_UD_IMAPDATA) { SwMacroInfo* macInf = dynamic_cast(pData); if( macInf )// && macInf->GetShapeId() == pF->nSpId) { sal_Int32 nShapeId = macInf->GetShapeId(); if ( nShapeId == pF->nSpId ) { lnName = macInf->GetHlink(); aObjName = macInf->GetName(); aTarFrm = macInf->GetTarFrm(); break; } } } } SwFmtURL* pFmtURL = new SwFmtURL(); pFmtURL->SetURL( lnName, false ); if (!aObjName.isEmpty()) pFmtURL->SetName(aObjName); if (!aTarFrm.isEmpty()) pFmtURL->SetTargetFrameName(aTarFrm); pFmtURL->SetMap(0); aFlySet.Put(*pFmtURL); } // If we are to be "below text" then we are not to be opaque // #i14045# MM If we are in a header or footer then make the object transparent // Not exactly like word but close enough for now // both flags and have to be set to move object into the background. // #i46794# - it reveals that value of flag can be neglected. const bool bMoveToBackgrd = pRecord->bDrawHell || ( ( bIsHeader || bIsFooter ) && pF->nwr == 3 ); if ( bMoveToBackgrd ) aFlySet.Put(SvxOpaqueItem(RES_OPAQUE,false)); OUString aObjName = pObject->GetName(); SwFrmFmt* pRetFrmFmt = 0; if (bReplaceable) { // Single graphics or ole objects pRetFrmFmt = ImportReplaceableDrawables(pObject, pOurNewObject, pRecord, pF, aFlySet); } else { // Drawing objects, (e.g. ovals or drawing groups) if (pF->bRcaSimple) { pF->nbx = WW8_FSPA::RelPageBorder; pF->nby = WW8_FSPA::RelPageBorder; } RndStdIds eAnchor = ProcessEscherAlign(pRecord, pF, aFlySet, bReplaceable); // Should we, and is it possible to make this into a writer textbox if ((!(nIniFlags1 & WW8FL_NO_FLY_FOR_TXBX)) && pRecord->bReplaceByFly) { pRetFrmFmt = ConvertDrawTextToFly(pObject, pOurNewObject, pRecord, eAnchor, pF, aFlySet); if (pRetFrmFmt) bDone = true; } if (!bDone) { sw::util::SetLayer aSetLayer(rDoc); if ( bMoveToBackgrd ) aSetLayer.SendObjectToHell(*pObject); else aSetLayer.SendObjectToHeaven(*pObject); if (!IsInlineEscherHack()) { /* Need to make sure that the correct layer ordering is applied. */ // pass information, if object is in page header|footer to method. pWWZOrder->InsertEscherObject( pObject, pF->nSpId, bIsHeader || bIsFooter ); } else { pWWZOrder->InsertTextLayerObject(pObject); } pRetFrmFmt = rDoc.InsertDrawObj(*pPaM, *pObject, aFlySet ); OSL_ENSURE(pRetFrmFmt->GetAnchor().GetAnchorId() == eAnchor, "Not the anchor type requested!"); /* Insert text if necessary into textboxes contained in groups. */ if (!aData.empty()) { for (MSDffImportRecords::const_iterator it = aData.begin(); it != aData.end(); ++it) { pRecord = &const_cast(*it); if (pRecord->pObj && pRecord->aTextId.nTxBxS) { // #i52825# pRetFrmFmt can be NULL pRetFrmFmt = MungeTextIntoDrawBox(pRecord->pObj, pRecord, nGrafAnchorCp, pRetFrmFmt); } } } } } // #i44344#, #i44681# - positioning attributes already set if ( pRetFrmFmt /*#i52825# */ && pRetFrmFmt->ISA(SwDrawFrmFmt) ) { static_cast(pRetFrmFmt)->PosAttrSet(); } if (!IsInlineEscherHack()) MapWrapIntoFlyFmt(pRecord, pRetFrmFmt); // Set frame name with object name if( pRetFrmFmt /*#i52825# */ && !aObjName.isEmpty() ) pRetFrmFmt->SetName( aObjName ); return AddAutoAnchor(pRetFrmFmt); } SwFrmFmt *SwWW8ImplReader::AddAutoAnchor(SwFrmFmt *pFmt) { /* * anchored to character at the current position will move along the * paragraph as text is added because we are at the insertion point. * * Leave to later and set the correct location then. */ if ((pFmt) && (pFmt->GetAnchor().GetAnchorId() != FLY_AS_CHAR)) { pAnchorStck->AddAnchor(*pPaM->GetPoint(), pFmt); } return pFmt; } SwFrmFmt* SwWW8ImplReader::MungeTextIntoDrawBox(SdrObject* pTrueObject, SvxMSDffImportRec *pRecord, long nGrafAnchorCp, SwFrmFmt* pRetFrmFmt) { SdrTextObj* pSdrTextObj; // Pruefen, ob Gruppenobjekt (z.B. zwei Klammern) vorliegt if (SdrObjGroup* pThisGroup = PTR_CAST(SdrObjGroup, pRecord->pObj)) { // Gruppenobjekte haben keinen Text. Fuege ein Textobjekt in die // Gruppe ein, um den Text zu halten. pSdrTextObj = new SdrRectObj( OBJ_TEXT, pThisGroup->GetCurrentBoundRect()); SfxItemSet aSet(pDrawModel->GetItemPool()); aSet.Put(XFillStyleItem(XFILL_NONE)); aSet.Put(XLineStyleItem(XLINE_NONE)); aSet.Put(SdrTextFitToSizeTypeItem( SDRTEXTFIT_NONE )); aSet.Put(SdrTextAutoGrowHeightItem(false)); aSet.Put(SdrTextAutoGrowWidthItem(false)); pSdrTextObj->SetMergedItemSet(aSet); long nAngle = pRecord->nTextRotationAngle; if ( nAngle ) { double a = nAngle*nPi180; pSdrTextObj->NbcRotate(pSdrTextObj->GetCurrentBoundRect().Center(), nAngle, sin(a), cos(a) ); } pSdrTextObj->NbcSetLayer( pThisGroup->GetLayer() ); pThisGroup->GetSubList()->NbcInsertObject(pSdrTextObj); } else pSdrTextObj = PTR_CAST(SdrTextObj, pRecord->pObj); if( pSdrTextObj ) { Size aObjSize(pSdrTextObj->GetSnapRect().GetWidth(), pSdrTextObj->GetSnapRect().GetHeight()); // Objekt ist Bestandteil einer Gruppe? SdrObject* pGroupObject = pSdrTextObj->GetUpGroup(); sal_uInt32 nOrdNum = pSdrTextObj->GetOrdNum(); bool bEraseThisObject; InsertTxbxText( pSdrTextObj, &aObjSize, pRecord->aTextId.nTxBxS, pRecord->aTextId.nSequence, nGrafAnchorCp, pRetFrmFmt, (pSdrTextObj != pTrueObject) || (0 != pGroupObject), bEraseThisObject, 0, 0, 0, 0, pRecord); // wurde dieses Objekt ersetzt ?? if (bEraseThisObject) { if( pGroupObject || (pSdrTextObj != pTrueObject) ) { // Objekt wurde bereits (in der Gruppe und) der Drawing-Page // durch ein neues SdrGrafObj ersetzt. SdrObject* pNewObj = pGroupObject ? pGroupObject->GetSubList()->GetObj(nOrdNum) : pTrueObject; if (pSdrTextObj != pNewObj) { // Objekt in der Z-Order-Liste ersetzen pMSDffManager->ExchangeInShapeOrder(pSdrTextObj, 0,0, pNewObj); // Objekt jetzt noch loeschen SdrObject::Free( pRecord->pObj ); // und das neue Objekt merken. pRecord->pObj = pNewObj; } } else { // Objekt aus der Z-Order-Liste loeschen pMSDffManager->RemoveFromShapeOrder( pSdrTextObj ); // Objekt aus der Drawing-Page rausnehmen if( pSdrTextObj->GetPage() ) pDrawPg->RemoveObject( pSdrTextObj->GetOrdNum() ); // und FrameFormat entfernen, da durch Grafik ersetzt (dies // loescht auch das Objekt) rDoc.DelFrmFmt( pRetFrmFmt ); pRetFrmFmt = 0; // auch den Objektmerker loeschen pRecord->pObj = 0; } } else { // ww8-default Randabstand einsetzen SfxItemSet aItemSet(pDrawModel->GetItemPool(), SDRATTR_TEXT_LEFTDIST, SDRATTR_TEXT_LOWERDIST); aItemSet.Put( SdrTextLeftDistItem( pRecord->nDxTextLeft ) ); aItemSet.Put( SdrTextRightDistItem( pRecord->nDxTextRight ) ); aItemSet.Put( SdrTextUpperDistItem( pRecord->nDyTextTop ) ); aItemSet.Put( SdrTextLowerDistItem( pRecord->nDyTextBottom ) ); pSdrTextObj->SetMergedItemSetAndBroadcast(aItemSet); } } return pRetFrmFmt; } SwFlyFrmFmt* SwWW8ImplReader::ConvertDrawTextToFly(SdrObject* &rpObject, SdrObject* &rpOurNewObject, SvxMSDffImportRec* pRecord, RndStdIds eAnchor, WW8_FSPA *pF, SfxItemSet &rFlySet) { SwFlyFrmFmt* pRetFrmFmt = 0; long nStartCp; long nEndCp; // Check if this textbox chain contains text as conversion of an empty // chain would not make sense. if ( TxbxChainContainsRealText(pRecord->aTextId.nTxBxS,nStartCp,nEndCp) ) { // The Text is not read into SdrTextObj! Rather insert a frame and // insert the text from nStartCp to nEndCp. // More attributes can be used in a frame compared to the // Edit-Engine, and it can contain field, OLEs or graphics... Rectangle aInnerDist(pRecord->nDxTextLeft, pRecord->nDyTextTop, pRecord->nDxTextRight, pRecord->nDyTextBottom); SwFmtFrmSize aFrmSize(ATT_FIX_SIZE, pF->nXaRight - pF->nXaLeft, pF->nYaBottom - pF->nYaTop); aFrmSize.SetWidthSizeType(pRecord->bAutoWidth ? ATT_VAR_SIZE : ATT_FIX_SIZE); rFlySet.Put(aFrmSize); MatchSdrItemsIntoFlySet( rpObject, rFlySet, pRecord->eLineStyle, pRecord->eLineDashing, pRecord->eShapeType, aInnerDist ); SdrTextObj *pSdrTextObj = PTR_CAST(SdrTextObj, rpObject); if (pSdrTextObj && pSdrTextObj->IsVerticalWriting()) rFlySet.Put(SvxFrameDirectionItem(FRMDIR_VERT_TOP_RIGHT, RES_FRAMEDIR)); pRetFrmFmt = rDoc.MakeFlySection(eAnchor, pPaM->GetPoint(), &rFlySet); OSL_ENSURE(pRetFrmFmt->GetAnchor().GetAnchorId() == eAnchor, "Not the anchor type requested!"); // if everything is OK, find pointer on new object and correct // Z-order list (oder delete entry) rpOurNewObject = CreateContactObject(pRetFrmFmt); // remove old object from the Z-Order list pMSDffManager->RemoveFromShapeOrder( rpObject ); // and delete the object SdrObject::Free( rpObject ); /* NB: only query pOrgShapeObject starting here! */ if (rpOurNewObject) { /* We do not store our rpOutNewObject in the ShapeOrder because we have a FrmFmt from which we can regenerate the contact object when we need it. Because, we can have frames anchored to paragraphs in header/footers and we can copy header/footers, if we do copy a header/footer with a nonpage anchored frame in it then the contact objects are invalidated. Under this condition the FrmFmt will be updated to reflect this change and can be used to get a new contact object, while a raw rpOutNewObject stored here becomes deleted and useless. */ pMSDffManager->StoreShapeOrder(pF->nSpId, (((sal_uLong)pRecord->aTextId.nTxBxS) << 16) + pRecord->aTextId.nSequence, 0, pRetFrmFmt); // The Contact object has to be inserted into the draw page, so // SwWW8ImplReader::LoadDoc1() can determine the z-order. if (!rpOurNewObject->IsInserted()) { // pass information, if object is in page header|footer to method. pWWZOrder->InsertEscherObject( rpOurNewObject, pF->nSpId, bIsHeader || bIsFooter ); } } // Box-0 receives the text for the whole chain! if( !pRecord->aTextId.nSequence ) { // save flags etc and reset them WW8ReaderSave aSave( this ); MoveInsideFly(pRetFrmFmt); SwNodeIndex aStart(pPaM->GetPoint()->nNode); pWWZOrder->InsideEscher(pF->nSpId); // read in the text bTxbxFlySection = true; bool bJoined = ReadText(nStartCp, (nEndCp-nStartCp), MAN_MAINTEXT == pPlcxMan->GetManType() ? MAN_TXBX : MAN_TXBX_HDFT); pWWZOrder->OutsideEscher(); MoveOutsideFly(pRetFrmFmt, aSave.GetStartPos(),!bJoined); aSave.Restore( this ); } } return pRetFrmFmt; } void MatchEscherMirrorIntoFlySet(const SvxMSDffImportRec &rRecord, SfxItemSet &rFlySet) { if (rRecord.bVFlip || rRecord.bHFlip) { MirrorGraph eType(RES_MIRROR_GRAPH_DONT); if (rRecord.bVFlip && rRecord.bHFlip) eType = RES_MIRROR_GRAPH_BOTH; else if (rRecord.bVFlip) eType = RES_MIRROR_GRAPH_HOR; else eType = RES_MIRROR_GRAPH_VERT; rFlySet.Put( SwMirrorGrf(eType) ); } } SwFlyFrmFmt* SwWW8ImplReader::ImportReplaceableDrawables( SdrObject* &rpObject, SdrObject* &rpOurNewObject, SvxMSDffImportRec* pRecord, WW8_FSPA *pF, SfxItemSet &rFlySet ) { SwFlyFrmFmt* pRetFrmFmt = 0; long nWidthTw = pF->nXaRight - pF->nXaLeft; if (0 > nWidthTw) nWidthTw = 0; long nHeightTw = pF->nYaBottom - pF->nYaTop; if (0 > nHeightTw) nHeightTw = 0; ProcessEscherAlign(pRecord, pF, rFlySet, true); rFlySet.Put(SwFmtFrmSize(ATT_FIX_SIZE, nWidthTw, nHeightTw)); SfxItemSet aGrSet(rDoc.GetAttrPool(), RES_GRFATR_BEGIN, RES_GRFATR_END-1); if (pRecord) { // Note that the escher inner distance only seems to be honoured in // word for textboxes, not for graphics and ole objects. Rectangle aInnerDist(0, 0, 0, 0); MatchSdrItemsIntoFlySet(rpObject, rFlySet, pRecord->eLineStyle, pRecord->eLineDashing, pRecord->eShapeType, aInnerDist); MatchEscherMirrorIntoFlySet(*pRecord, aGrSet); } OUString aObjectName(rpObject->GetName()); if (OBJ_OLE2 == SdrObjKind(rpObject->GetObjIdentifier())) pRetFrmFmt = InsertOle(*((SdrOle2Obj*)rpObject), rFlySet, aGrSet); else { const SdrGrafObj *pGrf= (const SdrGrafObj*)rpObject; bool bDone = false; if (pGrf->IsLinkedGraphic() && !pGrf->GetFileName().isEmpty()) { GraphicType eType = pGrf->GetGraphicType(); OUString aGrfName( URIHelper::SmartRel2Abs( INetURLObject(sBaseURL), pGrf->GetFileName(), URIHelper::GetMaybeFileHdl())); // correction of fix for issue #i10939#: // One of the two conditions have to be true to insert the graphic // as a linked graphic - if (GRAPHIC_NONE == eType || CanUseRemoteLink(aGrfName)) { pRetFrmFmt = rDoc.Insert(*pPaM, aGrfName, OUString(), 0, &rFlySet, &aGrSet, NULL); bDone = true; } } if (!bDone) { const Graphic& rGraph = pGrf->GetGraphic(); pRetFrmFmt = rDoc.Insert(*pPaM, OUString(), OUString(), &rGraph, &rFlySet, &aGrSet, NULL); } } if (pRetFrmFmt) { if( pRecord ) { if( OBJ_OLE2 != SdrObjKind(rpObject->GetObjIdentifier()) ) SetAttributesAtGrfNode( pRecord, pRetFrmFmt, pF ); } // mehrfaches Auftreten gleicher Grafik-Namen vermeiden maGrfNameGenerator.SetUniqueGraphName(pRetFrmFmt, aObjectName); } // falls alles Ok, Zeiger auf neues Objekt ermitteln und Z-Order-Liste // entsprechend korrigieren (oder Eintrag loeschen) rpOurNewObject = CreateContactObject(pRetFrmFmt); // altes Objekt aus der Z-Order-Liste entfernen pMSDffManager->RemoveFromShapeOrder( rpObject ); // aus der Drawing-Page rausnehmen if( rpObject->GetPage() ) pDrawPg->RemoveObject( rpObject->GetOrdNum() ); // und das Objekt loeschen SdrObject::Free( rpObject ); /* Achtung: ab jetzt nur noch pOrgShapeObject abfragen! */ // Kontakt-Objekt in die Z-Order-Liste und die Page aufnehmen if (rpOurNewObject) { if (!bHdFtFtnEdn) pMSDffManager->StoreShapeOrder(pF->nSpId, 0, rpOurNewObject, 0 ); // Das Kontakt-Objekt MUSS in die Draw-Page gesetzt werden, damit in // SwWW8ImplReader::LoadDoc1() die Z-Order festgelegt werden kann !!! if (!rpOurNewObject->IsInserted()) { // pass information, if object is in page header|footer to method. pWWZOrder->InsertEscherObject( rpOurNewObject, pF->nSpId, bIsHeader || bIsFooter ); } } return pRetFrmFmt; } void SwWW8ImplReader::GrafikCtor() // Fuer SVDraw und VCControls und Escher { if (!pDrawModel) { rDoc.GetOrCreateDrawModel(); // #i52858# - method name changed pDrawModel = rDoc.GetDrawModel(); OSL_ENSURE(pDrawModel, "Kann DrawModel nicht anlegen"); pDrawPg = pDrawModel->GetPage(0); pMSDffManager = new SwMSDffManager(*this); pMSDffManager->SetModel(pDrawModel, 1440); /* Now the dff manager always needs a controls // converter as well, but a control converter may still exist // without a dffmanager. cmc */ pFormImpl = new SwMSConvertControls(mpDocShell, pPaM); pWWZOrder = new wwZOrderer(sw::util::SetLayer(rDoc), pDrawPg, pMSDffManager->GetShapeOrders()); } } void SwWW8ImplReader::GrafikDtor() { DELETEZ(mpDrawEditEngine); // evtl. von Grafik angelegt DELETEZ(pWWZOrder); // dito } void SwWW8FltAnchorStack::AddAnchor(const SwPosition& rPos, SwFrmFmt *pFmt) { OSL_ENSURE(pFmt->GetAnchor().GetAnchorId() != FLY_AS_CHAR, "Don't use fltanchors with inline frames, slap!"); NewAttr(rPos, SwFltAnchor(pFmt)); } void SwWW8FltAnchorStack::Flush() { size_t nCnt = size(); for (size_t i=0; i < nCnt; ++i) { SwFltStackEntry &rEntry = (*this)[i]; SwPosition aDummy(rEntry.m_aMkPos.m_nNode); SetAttrInDoc(aDummy, rEntry); DeleteAndDestroy(i--); --nCnt; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */