/* -*- 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 #define XML_LINE_LEFT 0 #define XML_LINE_RIGHT 1 #define XML_LINE_TOP 2 #define XML_LINE_BOTTOM 3 using namespace ::com::sun::star; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::table; using namespace ::com::sun::star::text; bool XMLTextImportPropertyMapper::handleSpecialItem( XMLPropertyState& rProperty, ::std::vector< XMLPropertyState >& rProperties, const OUString& rValue, const SvXMLUnitConverter& rUnitConverter, const SvXMLNamespaceMap& rNamespaceMap ) const { bool bRet = false; sal_Int32 nIndex = rProperty.mnIndex; switch( getPropertySetMapper()->GetEntryContextId( nIndex ) ) { case CTF_FONTNAME: case CTF_FONTNAME_CJK: case CTF_FONTNAME_CTL: if( GetImport().GetFontDecls() != nullptr ) { assert(( ( CTF_FONTFAMILYNAME == getPropertySetMapper()->GetEntryContextId(nIndex+1) && CTF_FONTSTYLENAME == getPropertySetMapper()->GetEntryContextId(nIndex+2) && CTF_FONTFAMILY == getPropertySetMapper()->GetEntryContextId(nIndex+3) && CTF_FONTPITCH == getPropertySetMapper()->GetEntryContextId(nIndex+4) && CTF_FONTCHARSET == getPropertySetMapper()->GetEntryContextId(nIndex+5) ) || ( CTF_FONTFAMILYNAME_CJK == getPropertySetMapper()->GetEntryContextId(nIndex+1) && CTF_FONTSTYLENAME_CJK == getPropertySetMapper()->GetEntryContextId(nIndex+2) && CTF_FONTFAMILY_CJK == getPropertySetMapper()->GetEntryContextId(nIndex+3) && CTF_FONTPITCH_CJK == getPropertySetMapper()->GetEntryContextId(nIndex+4) && CTF_FONTCHARSET_CJK == getPropertySetMapper()->GetEntryContextId(nIndex+5) ) || ( CTF_FONTFAMILYNAME_CTL == getPropertySetMapper()->GetEntryContextId(nIndex+1) && CTF_FONTSTYLENAME_CTL == getPropertySetMapper()->GetEntryContextId(nIndex+2) && CTF_FONTFAMILY_CTL == getPropertySetMapper()->GetEntryContextId(nIndex+3) && CTF_FONTPITCH_CTL == getPropertySetMapper()->GetEntryContextId(nIndex+4) && CTF_FONTCHARSET_CTL == getPropertySetMapper()->GetEntryContextId(nIndex+5) ) ) && "illegal property map" ); GetImport().GetFontDecls()->FillProperties( rValue, rProperties, rProperty.mnIndex+1, rProperty.mnIndex+2, rProperty.mnIndex+3, rProperty.mnIndex+4, rProperty.mnIndex+5 ); bRet = false; // the property hasn't been filled } break; // If we want to do StarMath/StarSymbol font conversion, then we'll // want these special items to be treated just like regular ones... // For the Writer, we'll catch and convert them in _FillPropertySet; // the other apps probably don't care. For the other apps, we just // imitate the default non-special-item mechanism. case CTF_FONTFAMILYNAME: case CTF_FONTFAMILYNAME_CJK: case CTF_FONTFAMILYNAME_CTL: bRet = getPropertySetMapper()->importXML( rValue, rProperty, rUnitConverter ); break; case CTF_TEXT_DISPLAY: bRet = getPropertySetMapper()->importXML( rValue, rProperty, rUnitConverter ); if( SvXMLImport::OOo_2x == GetImport().getGeneratorVersion() ) { bool bHidden = false; rProperty.maValue >>= bHidden; bHidden = !bHidden; rProperty.maValue <<= bHidden; } break; default: bRet = SvXMLImportPropertyMapper::handleSpecialItem( rProperty, rProperties, rValue, rUnitConverter, rNamespaceMap ); break; } return bRet; } XMLTextImportPropertyMapper::XMLTextImportPropertyMapper( const rtl::Reference< XMLPropertySetMapper >& rMapper, SvXMLImport& rImp ) : SvXMLImportPropertyMapper( rMapper, rImp ), m_nSizeTypeIndex( -2 ), m_nWidthTypeIndex( -2 ) { } XMLTextImportPropertyMapper::~XMLTextImportPropertyMapper() { } void XMLTextImportPropertyMapper::FontFinished( XMLPropertyState *pFontFamilyNameState, XMLPropertyState *pFontStyleNameState, XMLPropertyState *pFontFamilyState, XMLPropertyState *pFontPitchState, XMLPropertyState *pFontCharsetState ) { if( pFontFamilyNameState && pFontFamilyNameState->mnIndex != -1 ) { OUString sName; pFontFamilyNameState->maValue >>= sName; if( sName.isEmpty() ) pFontFamilyNameState->mnIndex = -1; } if( !pFontFamilyNameState || pFontFamilyNameState->mnIndex == -1 ) { if( pFontStyleNameState ) pFontStyleNameState->mnIndex = -1; if( pFontFamilyState ) pFontFamilyState->mnIndex = -1; if( pFontPitchState ) pFontPitchState->mnIndex = -1; if( pFontCharsetState ) pFontCharsetState->mnIndex = -1; } } /** since the properties "CharFontFamilyName", "CharFontStyleName", "CharFontFamily", "CharFontPitch" and "CharFontSet" and their CJK and CTL counterparts are only usable as a union, we add defaults to all values that are not set as long as we have an "CharFontFamilyName" #99928# CL */ void XMLTextImportPropertyMapper::FontDefaultsCheck( XMLPropertyState const * pFontFamilyName, XMLPropertyState const * pFontStyleName, XMLPropertyState const * pFontFamily, XMLPropertyState const * pFontPitch, XMLPropertyState const * pFontCharSet, std::optional* ppNewFontStyleName, std::optional* ppNewFontFamily, std::optional* ppNewFontPitch, std::optional* ppNewFontCharSet ) const { if( pFontFamilyName ) { Any aAny; if( !pFontStyleName ) { aAny <<= OUString(); #if OSL_DEBUG_LEVEL > 0 && !defined NDEBUG sal_Int16 nTmp = getPropertySetMapper()->GetEntryContextId( pFontFamilyName->mnIndex + 1 ); assert(nTmp == CTF_FONTSTYLENAME || nTmp == CTF_FONTSTYLENAME_CJK || nTmp == CTF_FONTSTYLENAME_CTL); #endif ppNewFontStyleName->emplace( pFontFamilyName->mnIndex + 1, aAny ); } if( !pFontFamily ) { aAny <<= sal_Int16(css::awt::FontFamily::DONTKNOW); #if OSL_DEBUG_LEVEL > 0 && !defined NDEBUG sal_Int16 nTmp = getPropertySetMapper()->GetEntryContextId( pFontFamilyName->mnIndex + 2 ); assert(nTmp == CTF_FONTFAMILY || nTmp == CTF_FONTFAMILY_CJK || nTmp == CTF_FONTFAMILY_CTL); #endif ppNewFontFamily->emplace( pFontFamilyName->mnIndex + 2, aAny ); } if( !pFontPitch ) { aAny <<= sal_Int16(css::awt::FontPitch::DONTKNOW); #if OSL_DEBUG_LEVEL > 0 && !defined NDEBUG sal_Int16 nTmp = getPropertySetMapper()->GetEntryContextId( pFontFamilyName->mnIndex + 3 ); assert(nTmp == CTF_FONTPITCH || nTmp == CTF_FONTPITCH_CJK || nTmp == CTF_FONTPITCH_CTL); #endif ppNewFontPitch->emplace( pFontFamilyName->mnIndex + 3, aAny ); } if( !pFontCharSet ) { aAny <<= static_cast(osl_getThreadTextEncoding()); #if OSL_DEBUG_LEVEL > 0 && !defined NDEBUG sal_Int16 nTmp = getPropertySetMapper()->GetEntryContextId( pFontFamilyName->mnIndex + 4 ); assert(nTmp == CTF_FONTCHARSET || nTmp == CTF_FONTCHARSET_CJK || nTmp == CTF_FONTCHARSET_CTL); #endif ppNewFontCharSet->emplace( pFontFamilyName->mnIndex + 4, aAny ); } } (void) this; // avoid loplugin:staticmethods } namespace { //fdo#58730 The [UL|LR]Space class has a deficiency where "100%" also serves as //a flag that the value is an absolute value so we can't truly handle an //up/lower space property which wants to specify its 200% upper but 100% lower //of its parent (try typing 100% vs 200% into the edit style dialog and revisit //your style). So on xml load that ends up meaning 200%, 0 lower. This is a //crock. //On import clear 100% all-margins relative sizes. bool isNotDefaultRelSize(const XMLPropertyState* pRelState, const rtl::Reference& rPrMap) { if (rPrMap->GetEntryContextId(pRelState->mnIndex) == CTF_PARAMARGINALL_REL) { sal_Int32 nTemp = 0; pRelState->maValue >>= nTemp; return nTemp != 100; } return true; } /** * Separate compressed border attributes. * During export, border attributes are compressed if there are equal to all four side. * Since Writer hasn't the same compressed attributes, but has distinct ones for all * four side, we have to duplicate the compressed attribute during import. **/ void lcl_SeparateBorder( sal_uInt16 nIndex, XMLPropertyState const * pAllBorderDistance, XMLPropertyState* pBorderDistances[4], XMLPropertyState* pNewBorderDistances[4], XMLPropertyState const * pAllBorder, XMLPropertyState* pBorders[4], XMLPropertyState* pNewBorders[4], XMLPropertyState* pAllBorderWidth, XMLPropertyState* pBorderWidths[4] #if OSL_DEBUG_LEVEL > 0 && !defined NDEBUG , const rtl::Reference< XMLPropertySetMapper >& rMapper #endif ) { if( pAllBorderDistance && !pBorderDistances[nIndex] ) { #if OSL_DEBUG_LEVEL > 0 && !defined NDEBUG sal_Int16 nTmp = rMapper->GetEntryContextId( pAllBorderDistance->mnIndex + nIndex + 1 ); if (CTF_CHARALLBORDERDISTANCE == rMapper->GetEntryContextId(pAllBorderDistance->mnIndex)) { assert(nTmp >= CTF_CHARLEFTBORDERDISTANCE && nTmp <= CTF_CHARBOTTOMBORDERDISTANCE); } else { assert(nTmp >= CTF_LEFTBORDERDISTANCE && nTmp <= CTF_BOTTOMBORDERDISTANCE); } #endif pNewBorderDistances[nIndex] = new XMLPropertyState( pAllBorderDistance->mnIndex + nIndex + 1, pAllBorderDistance->maValue ); pBorderDistances[nIndex] = pNewBorderDistances[nIndex]; } if( pAllBorder && !pBorders[nIndex] ) { #if OSL_DEBUG_LEVEL > 0 && !defined NDEBUG sal_Int16 nTmp = rMapper->GetEntryContextId( pAllBorder->mnIndex + nIndex + 1 ); if (CTF_CHARALLBORDER == rMapper->GetEntryContextId(pAllBorder->mnIndex)) { assert(nTmp >= CTF_CHARLEFTBORDER && nTmp <= CTF_CHARBOTTOMBORDER); } else { assert(nTmp >= CTF_LEFTBORDER && nTmp <= CTF_BOTTOMBORDER); } #endif pNewBorders[nIndex] = new XMLPropertyState( pAllBorder->mnIndex + nIndex + 1, pAllBorder->maValue ); pBorders[nIndex] = pNewBorders[nIndex]; } if( !pBorderWidths[nIndex] ) pBorderWidths[nIndex] = pAllBorderWidth; else pBorderWidths[nIndex]->mnIndex = -1; if( !(pBorders[nIndex] && pBorderWidths[nIndex]) ) return; table::BorderLine2 aBorderLine; pBorders[nIndex]->maValue >>= aBorderLine; table::BorderLine2 aBorderLineWidth; pBorderWidths[nIndex]->maValue >>= aBorderLineWidth; aBorderLine.OuterLineWidth = aBorderLineWidth.OuterLineWidth; aBorderLine.InnerLineWidth = aBorderLineWidth.InnerLineWidth; aBorderLine.LineDistance = aBorderLineWidth.LineDistance; aBorderLine.LineWidth = aBorderLineWidth.LineWidth; pBorders[nIndex]->maValue <<= aBorderLine; } } void XMLTextImportPropertyMapper::finished( ::std::vector< XMLPropertyState >& rProperties, sal_Int32 /*nStartIndex*/, sal_Int32 /*nEndIndex*/ ) const { bool bHasAnyHeight = false; bool bHasAnyMinHeight = false; bool bHasAnyWidth = false; bool bHasAnyMinWidth = false; XMLPropertyState* pFontFamilyName = nullptr; XMLPropertyState* pFontStyleName = nullptr; XMLPropertyState* pFontFamily = nullptr; XMLPropertyState* pFontPitch = nullptr; XMLPropertyState* pFontCharSet = nullptr; std::optional pNewFontStyleName; std::optional pNewFontFamily; std::optional pNewFontPitch; std::optional pNewFontCharSet; XMLPropertyState* pFontFamilyNameCJK = nullptr; XMLPropertyState* pFontStyleNameCJK = nullptr; XMLPropertyState* pFontFamilyCJK = nullptr; XMLPropertyState* pFontPitchCJK = nullptr; XMLPropertyState* pFontCharSetCJK = nullptr; std::optional pNewFontStyleNameCJK; std::optional pNewFontFamilyCJK; std::optional pNewFontPitchCJK; std::optional pNewFontCharSetCJK; XMLPropertyState* pFontFamilyNameCTL = nullptr; XMLPropertyState* pFontStyleNameCTL = nullptr; XMLPropertyState* pFontFamilyCTL = nullptr; XMLPropertyState* pFontPitchCTL = nullptr; XMLPropertyState* pFontCharSetCTL = nullptr; std::optional pNewFontStyleNameCTL; std::optional pNewFontFamilyCTL; std::optional pNewFontPitchCTL; std::optional pNewFontCharSetCTL; XMLPropertyState* pAllBorderDistance = nullptr; XMLPropertyState* pBorderDistances[4] = { nullptr, nullptr, nullptr, nullptr }; XMLPropertyState* pNewBorderDistances[4] = { nullptr, nullptr, nullptr, nullptr }; XMLPropertyState* pAllBorder = nullptr; XMLPropertyState* pBorders[4] = { nullptr, nullptr, nullptr, nullptr }; XMLPropertyState* pNewBorders[4] = { nullptr, nullptr, nullptr, nullptr }; XMLPropertyState* pAllBorderWidth = nullptr; XMLPropertyState* pBorderWidths[4] = { nullptr, nullptr, nullptr, nullptr }; XMLPropertyState* pCharAllBorderDistance = nullptr; XMLPropertyState* pCharBorderDistances[4] = { nullptr, nullptr, nullptr, nullptr }; XMLPropertyState* pCharNewBorderDistances[4] = { nullptr, nullptr, nullptr, nullptr }; XMLPropertyState* pCharAllBorder = nullptr; XMLPropertyState* pCharBorders[4] = { nullptr, nullptr, nullptr, nullptr }; XMLPropertyState* pCharNewBorders[4] = { nullptr, nullptr, nullptr, nullptr }; XMLPropertyState* pCharAllBorderWidth = nullptr; XMLPropertyState* pCharBorderWidths[4] = { nullptr, nullptr, nullptr, nullptr }; XMLPropertyState* pVertOrient = nullptr; XMLPropertyState* pVertOrientRelAsChar = nullptr; XMLPropertyState* pBackTransparency = nullptr; // transparency in % XMLPropertyState* pBackTransparent = nullptr; // transparency as boolean XMLPropertyState* pAllParaMargin = nullptr; XMLPropertyState* pParaMargins[4] = { nullptr, nullptr, nullptr, nullptr }; ::std::optional pNewParaMargins[4]; XMLPropertyState* pAllMargin = nullptr; XMLPropertyState* pMargins[4] = { nullptr, nullptr, nullptr, nullptr }; ::std::optional pNewMargins[4]; XMLPropertyState* pFillStyle(nullptr); XMLPropertyState* pFillColor(nullptr); for( auto& rProperty : rProperties ) { XMLPropertyState* property = &rProperty; if( -1 == property->mnIndex ) continue; switch( getPropertySetMapper()->GetEntryContextId( property->mnIndex ) ) { case CTF_FONTFAMILYNAME: pFontFamilyName = property; break; case CTF_FONTSTYLENAME: pFontStyleName = property; break; case CTF_FONTFAMILY: pFontFamily = property; break; case CTF_FONTPITCH: pFontPitch = property; break; case CTF_FONTCHARSET: pFontCharSet = property; break; case CTF_FONTFAMILYNAME_CJK: pFontFamilyNameCJK = property; break; case CTF_FONTSTYLENAME_CJK: pFontStyleNameCJK = property; break; case CTF_FONTFAMILY_CJK: pFontFamilyCJK = property; break; case CTF_FONTPITCH_CJK: pFontPitchCJK = property; break; case CTF_FONTCHARSET_CJK: pFontCharSetCJK = property; break; case CTF_FONTFAMILYNAME_CTL: pFontFamilyNameCTL = property; break; case CTF_FONTSTYLENAME_CTL: pFontStyleNameCTL = property; break; case CTF_FONTFAMILY_CTL: pFontFamilyCTL = property; break; case CTF_FONTPITCH_CTL: pFontPitchCTL = property; break; case CTF_FONTCHARSET_CTL: pFontCharSetCTL = property; break; case CTF_ALLBORDERDISTANCE: pAllBorderDistance = property; break; case CTF_LEFTBORDERDISTANCE: pBorderDistances[XML_LINE_LEFT] = property; break; case CTF_RIGHTBORDERDISTANCE: pBorderDistances[XML_LINE_RIGHT] = property; break; case CTF_TOPBORDERDISTANCE: pBorderDistances[XML_LINE_TOP] = property; break; case CTF_BOTTOMBORDERDISTANCE: pBorderDistances[XML_LINE_BOTTOM] = property; break; case CTF_ALLBORDER: pAllBorder = property; break; case CTF_LEFTBORDER: pBorders[XML_LINE_LEFT] = property; break; case CTF_RIGHTBORDER: pBorders[XML_LINE_RIGHT] = property; break; case CTF_TOPBORDER: pBorders[XML_LINE_TOP] = property; break; case CTF_BOTTOMBORDER: pBorders[XML_LINE_BOTTOM] = property; break; case CTF_ALLBORDERWIDTH: pAllBorderWidth = property; break; case CTF_LEFTBORDERWIDTH: pBorderWidths[XML_LINE_LEFT] = property; break; case CTF_RIGHTBORDERWIDTH: pBorderWidths[XML_LINE_RIGHT] = property; break; case CTF_TOPBORDERWIDTH: pBorderWidths[XML_LINE_TOP] = property; break; case CTF_BOTTOMBORDERWIDTH: pBorderWidths[XML_LINE_BOTTOM] = property; break; case CTF_CHARALLBORDERDISTANCE: pCharAllBorderDistance = property; break; case CTF_CHARLEFTBORDERDISTANCE: pCharBorderDistances[XML_LINE_LEFT] = property; break; case CTF_CHARRIGHTBORDERDISTANCE: pCharBorderDistances[XML_LINE_RIGHT] = property; break; case CTF_CHARTOPBORDERDISTANCE: pCharBorderDistances[XML_LINE_TOP] = property; break; case CTF_CHARBOTTOMBORDERDISTANCE: pCharBorderDistances[XML_LINE_BOTTOM] = property; break; case CTF_CHARALLBORDER: pCharAllBorder = property; break; case CTF_CHARLEFTBORDER: pCharBorders[XML_LINE_LEFT] = property; break; case CTF_CHARRIGHTBORDER: pCharBorders[XML_LINE_RIGHT] = property; break; case CTF_CHARTOPBORDER: pCharBorders[XML_LINE_TOP] = property; break; case CTF_CHARBOTTOMBORDER: pCharBorders[XML_LINE_BOTTOM] = property; break; case CTF_CHARALLBORDERWIDTH: pCharAllBorderWidth = property; break; case CTF_CHARLEFTBORDERWIDTH: pCharBorderWidths[XML_LINE_LEFT] = property; break; case CTF_CHARRIGHTBORDERWIDTH: pCharBorderWidths[XML_LINE_RIGHT] = property; break; case CTF_CHARTOPBORDERWIDTH: pCharBorderWidths[XML_LINE_TOP] = property; break; case CTF_CHARBOTTOMBORDERWIDTH: pCharBorderWidths[XML_LINE_BOTTOM] = property; break; case CTF_ANCHORTYPE: break; case CTF_VERTICALPOS: pVertOrient = property; break; case CTF_VERTICALREL_ASCHAR: pVertOrientRelAsChar = property; break; case CTF_FRAMEHEIGHT_MIN_ABS: case CTF_FRAMEHEIGHT_MIN_REL: // case CTF_SYNCHEIGHT_MIN: bHasAnyMinHeight = true; [[fallthrough]]; case CTF_FRAMEHEIGHT_ABS: case CTF_FRAMEHEIGHT_REL: // case CTF_SYNCHEIGHT: bHasAnyHeight = true; break; case CTF_FRAMEWIDTH_MIN_ABS: case CTF_FRAMEWIDTH_MIN_REL: bHasAnyMinWidth = true; [[fallthrough]]; case CTF_FRAMEWIDTH_ABS: case CTF_FRAMEWIDTH_REL: bHasAnyWidth = true; break; case CTF_BACKGROUND_TRANSPARENCY: pBackTransparency = property; break; case CTF_BACKGROUND_TRANSPARENT: pBackTransparent = property; break; case CTF_FILLSTYLE: pFillStyle = property; break; case CTF_FILLCOLOR: pFillColor = property; break; case CTF_PARAMARGINALL: case CTF_PARAMARGINALL_REL: pAllParaMargin = property; break; case CTF_PARALEFTMARGIN: case CTF_PARALEFTMARGIN_REL: pParaMargins[XML_LINE_LEFT] = property; break; case CTF_PARARIGHTMARGIN: case CTF_PARARIGHTMARGIN_REL: pParaMargins[XML_LINE_RIGHT] = property; break; case CTF_PARATOPMARGIN: case CTF_PARATOPMARGIN_REL: pParaMargins[XML_LINE_TOP] = property; break; case CTF_PARABOTTOMMARGIN: case CTF_PARABOTTOMMARGIN_REL: pParaMargins[XML_LINE_BOTTOM] = property; break; case CTF_MARGINALL: pAllMargin = property; break; case CTF_MARGINLEFT: pMargins[XML_LINE_LEFT] = property; break; case CTF_MARGINRIGHT: pMargins[XML_LINE_RIGHT] = property; break; case CTF_MARGINTOP: pMargins[XML_LINE_TOP] = property; break; case CTF_MARGINBOTTOM: pMargins[XML_LINE_BOTTOM] = property; break; } } if( pFontFamilyName || pFontStyleName || pFontFamily || pFontPitch || pFontCharSet ) FontFinished( pFontFamilyName, pFontStyleName, pFontFamily, pFontPitch, pFontCharSet ); if( pFontFamilyNameCJK || pFontStyleNameCJK || pFontFamilyCJK || pFontPitchCJK || pFontCharSetCJK ) FontFinished( pFontFamilyNameCJK, pFontStyleNameCJK, pFontFamilyCJK, pFontPitchCJK, pFontCharSetCJK ); if( pFontFamilyNameCTL || pFontStyleNameCTL || pFontFamilyCTL || pFontPitchCTL || pFontCharSetCTL ) FontFinished( pFontFamilyNameCTL, pFontStyleNameCTL, pFontFamilyCTL, pFontPitchCTL, pFontCharSetCTL ); for (sal_uInt16 i = 0; i < 4; i++) { if (pAllParaMargin && !pParaMargins[i] && isNotDefaultRelSize(pAllParaMargin, getPropertySetMapper())) { #if OSL_DEBUG_LEVEL > 0 && !defined NDEBUG sal_Int16 nTmp = getPropertySetMapper()->GetEntryContextId( pAllParaMargin->mnIndex + (2*i) + 2 ); assert(nTmp >= CTF_PARALEFTMARGIN && nTmp <= CTF_PARABOTTOMMARGIN_REL); #endif pNewParaMargins[i].emplace( pAllParaMargin->mnIndex + (2*i) + 2, pAllParaMargin->maValue); } if (pAllMargin && !pMargins[i]) { #if OSL_DEBUG_LEVEL > 0 && !defined NDEBUG sal_Int16 nTmp = getPropertySetMapper()->GetEntryContextId( pAllMargin->mnIndex + i + 1 ); assert(nTmp >= CTF_MARGINLEFT && nTmp <= CTF_MARGINBOTTOM); #endif pNewMargins[i].emplace( pAllMargin->mnIndex + i + 1, pAllMargin->maValue); } lcl_SeparateBorder( i, pAllBorderDistance, pBorderDistances, pNewBorderDistances, pAllBorder, pBorders, pNewBorders, pAllBorderWidth, pBorderWidths #if OSL_DEBUG_LEVEL > 0 && !defined NDEBUG , getPropertySetMapper() #endif ); lcl_SeparateBorder( i, pCharAllBorderDistance, pCharBorderDistances, pCharNewBorderDistances, pCharAllBorder, pCharBorders, pCharNewBorders, pCharAllBorderWidth, pCharBorderWidths #if OSL_DEBUG_LEVEL > 0 && !defined NDEBUG , getPropertySetMapper() #endif ); } if (pAllParaMargin) { pAllParaMargin->mnIndex = -1; } if (pAllMargin) { pAllMargin->mnIndex = -1; } if( pAllBorderDistance ) pAllBorderDistance->mnIndex = -1; if( pAllBorder ) pAllBorder->mnIndex = -1; if( pAllBorderWidth ) pAllBorderWidth->mnIndex = -1; if( pCharAllBorderDistance ) pCharAllBorderDistance->mnIndex = -1; if( pCharAllBorder ) pCharAllBorder->mnIndex = -1; if( pCharAllBorderWidth ) pCharAllBorderWidth->mnIndex = -1; if( pVertOrient && pVertOrientRelAsChar ) { sal_Int16 nVertOrient; pVertOrient->maValue >>= nVertOrient; sal_Int16 nVertOrientRel = 0; pVertOrientRelAsChar->maValue >>= nVertOrientRel; switch( nVertOrient ) { case VertOrientation::TOP: nVertOrient = nVertOrientRel; break; case VertOrientation::CENTER: switch( nVertOrientRel ) { case VertOrientation::CHAR_TOP: nVertOrient = VertOrientation::CHAR_CENTER; break; case VertOrientation::LINE_TOP: nVertOrient = VertOrientation::LINE_CENTER; break; } break; case VertOrientation::BOTTOM: switch( nVertOrientRel ) { case VertOrientation::CHAR_TOP: nVertOrient = VertOrientation::CHAR_BOTTOM; break; case VertOrientation::LINE_TOP: nVertOrient = VertOrientation::LINE_BOTTOM; break; } break; } pVertOrient->maValue <<= nVertOrient; pVertOrientRelAsChar->mnIndex = -1; } FontDefaultsCheck( pFontFamilyName, pFontStyleName, pFontFamily, pFontPitch, pFontCharSet, &pNewFontStyleName, &pNewFontFamily, &pNewFontPitch, &pNewFontCharSet ); FontDefaultsCheck( pFontFamilyNameCJK, pFontStyleNameCJK, pFontFamilyCJK, pFontPitchCJK, pFontCharSetCJK, &pNewFontStyleNameCJK, &pNewFontFamilyCJK, &pNewFontPitchCJK, &pNewFontCharSetCJK ); FontDefaultsCheck( pFontFamilyNameCTL, pFontStyleNameCTL, pFontFamilyCTL, pFontPitchCTL, pFontCharSetCTL, &pNewFontStyleNameCTL, &pNewFontFamilyCTL, &pNewFontPitchCTL, &pNewFontCharSetCTL ); if (pFillStyle && !pFillColor && pBackTransparent && drawing::FillStyle_SOLID == pFillStyle->maValue.get() && pBackTransparent->maValue.get()) { // fo:background="transparent", draw:fill="solid" without draw:fill-color // prevent getSvxBrushItemFromSourceSet from adding bogus default color pFillStyle->mnIndex = -1; } // #i5775# don't overwrite %transparency with binary transparency if( ( pBackTransparency != nullptr ) && ( pBackTransparent != nullptr ) ) { if( ! *o3tl::doAccess(pBackTransparent->maValue) ) pBackTransparent->mnIndex = -1; } // insert newly created properties. This invalidates all iterators! // Most of the pXXX variables in this method are iterators and will be // invalidated!!! if( pNewFontStyleName ) { rProperties.push_back( *pNewFontStyleName ); pNewFontStyleName.reset(); } if( pNewFontFamily ) { rProperties.push_back( *pNewFontFamily ); pNewFontFamily.reset(); } if( pNewFontPitch ) { rProperties.push_back( *pNewFontPitch ); pNewFontPitch.reset(); } if( pNewFontCharSet ) { rProperties.push_back( *pNewFontCharSet ); pNewFontCharSet.reset(); } if( pNewFontStyleNameCJK ) { rProperties.push_back( *pNewFontStyleNameCJK ); pNewFontStyleNameCJK.reset(); } if( pNewFontFamilyCJK ) { rProperties.push_back( *pNewFontFamilyCJK ); pNewFontFamilyCJK.reset(); } if( pNewFontPitchCJK ) { rProperties.push_back( *pNewFontPitchCJK ); pNewFontPitchCJK.reset(); } if( pNewFontCharSetCJK ) { rProperties.push_back( *pNewFontCharSetCJK ); pNewFontCharSetCJK.reset(); } if( pNewFontStyleNameCTL) { rProperties.push_back( *pNewFontStyleNameCTL ); pNewFontStyleNameCTL.reset(); } if( pNewFontFamilyCTL ) { rProperties.push_back( *pNewFontFamilyCTL ); pNewFontFamilyCTL.reset(); } if( pNewFontPitchCTL ) { rProperties.push_back( *pNewFontPitchCTL ); pNewFontPitchCTL.reset(); } if( pNewFontCharSetCTL ) { rProperties.push_back( *pNewFontCharSetCTL ); pNewFontCharSetCTL.reset(); } for (sal_uInt16 i=0; i<4; i++) { if (pNewParaMargins[i]) { rProperties.push_back(*pNewParaMargins[i]); } if (pNewMargins[i]) { rProperties.push_back(*pNewMargins[i]); } if( pNewBorderDistances[i] ) { rProperties.push_back( *pNewBorderDistances[i] ); delete pNewBorderDistances[i]; } if( pNewBorders[i] ) { rProperties.push_back( *pNewBorders[i] ); delete pNewBorders[i]; } if( pCharNewBorderDistances[i] ) { rProperties.push_back( *pCharNewBorderDistances[i] ); delete pCharNewBorderDistances[i]; } if( pCharNewBorders[i] ) { rProperties.push_back( *pCharNewBorders[i] ); delete pCharNewBorders[i]; } } if( bHasAnyHeight ) { if( m_nSizeTypeIndex == -2 ) { const_cast < XMLTextImportPropertyMapper * > ( this ) ->m_nSizeTypeIndex = -1; sal_Int32 nPropCount = getPropertySetMapper()->GetEntryCount(); for( sal_Int32 j=0; j < nPropCount; j++ ) { if( CTF_SIZETYPE == getPropertySetMapper() ->GetEntryContextId( j ) ) { const_cast < XMLTextImportPropertyMapper * > ( this ) ->m_nSizeTypeIndex = j; break; } } } if( m_nSizeTypeIndex != -1 ) { XMLPropertyState aSizeTypeState( m_nSizeTypeIndex ); aSizeTypeState.maValue <<= static_cast( bHasAnyMinHeight ? SizeType::MIN : SizeType::FIX); rProperties.push_back( aSizeTypeState ); } } if( !bHasAnyWidth ) return; if( m_nWidthTypeIndex == -2 ) { const_cast < XMLTextImportPropertyMapper * > ( this ) ->m_nWidthTypeIndex = -1; sal_Int32 nCount = getPropertySetMapper()->GetEntryCount(); for( sal_Int32 j=0; j < nCount; j++ ) { if( CTF_FRAMEWIDTH_TYPE == getPropertySetMapper() ->GetEntryContextId( j ) ) { const_cast < XMLTextImportPropertyMapper * > ( this ) ->m_nWidthTypeIndex = j; break; } } } if( m_nWidthTypeIndex != -1 ) { XMLPropertyState aSizeTypeState( m_nWidthTypeIndex ); aSizeTypeState.maValue <<= static_cast( bHasAnyMinWidth ? SizeType::MIN : SizeType::FIX); rProperties.push_back( aSizeTypeState ); } // DO NOT USE ITERATORS/POINTERS INTO THE rProperties-VECTOR AFTER // THIS LINE. All iterators into the rProperties-vector, especially all // pXXX-type variables set in the first switch statement of this method, // may have been invalidated by the above push_back() calls! } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */