/* -*- 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 "pdfiprocessor.hxx" #include "xmlemitter.hxx" #include "pdfihelper.hxx" #include "imagecontainer.hxx" #include "style.hxx" #include "drawtreevisiting.hxx" #include "genericelements.hxx" #include "basegfx/polygon/b2dpolypolygontools.hxx" #include "basegfx/range/b2drange.hxx" #include #include #include "com/sun/star/i18n/BreakIterator.hpp" #include "com/sun/star/i18n/CharacterClassification.hpp" #include "com/sun/star/lang/XMultiServiceFactory.hpp" #include "comphelper/processfactory.hxx" #include "com/sun/star/i18n/ScriptType.hpp" #include "com/sun/star/i18n/DirectionProperty.hpp" #include using namespace ::com::sun::star; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::i18n; using namespace ::com::sun::star::uno; namespace pdfi { const Reference< XBreakIterator >& DrawXmlOptimizer::GetBreakIterator() { if ( !mxBreakIter.is() ) { Reference< XComponentContext > xContext( m_rProcessor.m_xContext, uno::UNO_SET_THROW ); mxBreakIter = BreakIterator::create(xContext); } return mxBreakIter; } const Reference< XCharacterClassification >& DrawXmlEmitter::GetCharacterClassification() { if ( !mxCharClass.is() ) { Reference< XComponentContext > xContext( m_rEmitContext.m_xContext, uno::UNO_SET_THROW ); mxCharClass = CharacterClassification::create(xContext); } return mxCharClass; } void DrawXmlEmitter::visit( HyperlinkElement& elem, const std::list< Element* >::const_iterator& ) { if( elem.Children.empty() ) return; const char* pType = dynamic_cast(elem.Children.front()) ? "draw:a" : "text:a"; PropertyMap aProps; aProps[ "xlink:type" ] = "simple"; aProps[ "xlink:href" ] = elem.URI; aProps[ "office:target-frame-name" ] = "_blank"; aProps[ "xlink:show" ] = "new"; m_rEmitContext.rEmitter.beginTag( pType, aProps ); std::list< Element* >::iterator this_it = elem.Children.begin(); while( this_it !=elem.Children.end() && *this_it != &elem ) { (*this_it)->visitedBy( *this, this_it ); ++this_it; } m_rEmitContext.rEmitter.endTag( pType ); } void DrawXmlEmitter::visit( TextElement& elem, const std::list< Element* >::const_iterator& ) { if( elem.Text.isEmpty() ) return; OUString strSpace(u' '); OUString strNbSpace(u'\x00A0'); OUString tabSpace(u'\x0009'); PropertyMap aProps; if( elem.StyleId != -1 ) { aProps[ OUString( "text:style-name" ) ] = m_rEmitContext.rStyles.getStyleName( elem.StyleId ); } OUString str(elem.Text.getStr()); // Check for RTL bool isRTL = false; Reference< i18n::XCharacterClassification > xCC( GetCharacterClassification() ); if( xCC.is() ) { for(int i=1; i< elem.Text.getLength(); i++) { css::i18n::DirectionProperty nType = (css::i18n::DirectionProperty)xCC->getCharacterDirection( str, i ); if ( nType == css::i18n::DirectionProperty_RIGHT_TO_LEFT || nType == css::i18n::DirectionProperty_RIGHT_TO_LEFT_ARABIC || nType == css::i18n::DirectionProperty_RIGHT_TO_LEFT_EMBEDDING || nType == css::i18n::DirectionProperty_RIGHT_TO_LEFT_OVERRIDE ) isRTL = true; } } if (isRTL) // If so, reverse string str = PDFIProcessor::mirrorString( str ); m_rEmitContext.rEmitter.beginTag( "text:span", aProps ); for(int i=0; i< elem.Text.getLength(); i++) { OUString strToken= str.copy(i,1) ; if( strSpace == strToken || strNbSpace == strToken ) { aProps[ "text:c" ] = "1"; m_rEmitContext.rEmitter.beginTag( "text:s", aProps ); m_rEmitContext.rEmitter.endTag( "text:s"); } else { if( tabSpace == strToken ) { m_rEmitContext.rEmitter.beginTag( "text:tab", aProps ); m_rEmitContext.rEmitter.endTag( "text:tab"); } else { m_rEmitContext.rEmitter.write( strToken ); } } } std::list< Element* >::iterator this_it = elem.Children.begin(); while( this_it !=elem.Children.end() && *this_it != &elem ) { (*this_it)->visitedBy( *this, this_it ); ++this_it; } m_rEmitContext.rEmitter.endTag( "text:span" ); } void DrawXmlEmitter::visit( ParagraphElement& elem, const std::list< Element* >::const_iterator& ) { PropertyMap aProps; if( elem.StyleId != -1 ) { aProps[ "text:style-name" ] = m_rEmitContext.rStyles.getStyleName( elem.StyleId ); } const char* pTagType = "text:p"; if( elem.Type == ParagraphElement::Headline ) pTagType = "text:h"; m_rEmitContext.rEmitter.beginTag( pTagType, aProps ); std::list< Element* >::iterator this_it = elem.Children.begin(); while( this_it !=elem.Children.end() && *this_it != &elem ) { (*this_it)->visitedBy( *this, this_it ); ++this_it; } m_rEmitContext.rEmitter.endTag( pTagType ); } void DrawXmlEmitter::fillFrameProps( DrawElement& rElem, PropertyMap& rProps, const EmitContext& rEmitContext, bool bWasTransformed ) { rProps[ "draw:z-index" ] = OUString::number( rElem.ZOrder ); rProps[ "draw:style-name"] = rEmitContext.rStyles.getStyleName( rElem.StyleId ); if (rElem.IsForText) rProps["draw:text-style-name"] = rEmitContext.rStyles.getStyleName(rElem.TextStyleId); const GraphicsContext& rGC = rEmitContext.rProcessor.getGraphicsContext( rElem.GCId ); if (bWasTransformed) { rProps[ "svg:x" ] = convertPixelToUnitString(rElem.x); rProps[ "svg:y" ] = convertPixelToUnitString(rElem.y); rProps[ "svg:width" ] = convertPixelToUnitString(rElem.w); rProps[ "svg:height" ] = convertPixelToUnitString(rElem.h); } else { OUStringBuffer aBuf(256); basegfx::B2DHomMatrix mat(rGC.Transformation); if (rElem.MirrorVertical) { basegfx::B2DHomMatrix mat2; mat2.translate(0, -0.5); mat2.scale(1, -1); mat2.translate(0, 0.5); mat = mat * mat2; } double scale = convPx2mm(100); mat.scale(scale, scale); aBuf.append("matrix("); aBuf.append(mat.get(0, 0)); aBuf.append(' '); aBuf.append(mat.get(1, 0)); aBuf.append(' '); aBuf.append(mat.get(0, 1)); aBuf.append(' '); aBuf.append(mat.get(1, 1)); aBuf.append(' '); aBuf.append(mat.get(0, 2)); aBuf.append(' '); aBuf.append(mat.get(1, 2)); aBuf.append(")"); rProps["draw:transform"] = aBuf.makeStringAndClear(); } } void DrawXmlEmitter::visit( FrameElement& elem, const std::list< Element* >::const_iterator& ) { if( elem.Children.empty() ) return; bool bTextBox = (dynamic_cast(elem.Children.front()) != nullptr); PropertyMap aFrameProps; fillFrameProps( elem, aFrameProps, m_rEmitContext, false ); m_rEmitContext.rEmitter.beginTag( "draw:frame", aFrameProps ); if( bTextBox ) m_rEmitContext.rEmitter.beginTag( "draw:text-box", PropertyMap() ); std::list< Element* >::iterator this_it = elem.Children.begin(); while( this_it !=elem.Children.end() && *this_it != &elem ) { (*this_it)->visitedBy( *this, this_it ); ++this_it; } if( bTextBox ) m_rEmitContext.rEmitter.endTag( "draw:text-box" ); m_rEmitContext.rEmitter.endTag( "draw:frame" ); } void DrawXmlEmitter::visit( PolyPolyElement& elem, const std::list< Element* >::const_iterator& ) { elem.updateGeometry(); /* note: * aw recommends using 100dth of mm in all respects since the xml import * (a) is buggy (see issue 37213) * (b) is optimized for 100dth of mm and does not scale itself then, * this does not gain us speed but makes for smaller rounding errors since * the xml importer coordinates are integer based */ for (sal_uInt32 i = 0; i< elem.PolyPoly.count(); i++) { basegfx::B2DPolygon b2dPolygon; b2dPolygon = elem.PolyPoly.getB2DPolygon( i ); for ( sal_uInt32 j = 0; j< b2dPolygon.count(); j++ ) { basegfx::B2DPoint point; basegfx::B2DPoint nextPoint; point = b2dPolygon.getB2DPoint( j ); basegfx::B2DPoint prevPoint; prevPoint = b2dPolygon.getPrevControlPoint( j ) ; point.setX( convPx2mmPrec2( point.getX() )*100.0 ); point.setY( convPx2mmPrec2( point.getY() )*100.0 ); if ( b2dPolygon.isPrevControlPointUsed( j ) ) { prevPoint.setX( convPx2mmPrec2( prevPoint.getX() )*100.0 ); prevPoint.setY( convPx2mmPrec2( prevPoint.getY() )*100.0 ); } if ( b2dPolygon.isNextControlPointUsed( j ) ) { nextPoint = b2dPolygon.getNextControlPoint( j ) ; nextPoint.setX( convPx2mmPrec2( nextPoint.getX() )*100.0 ); nextPoint.setY( convPx2mmPrec2( nextPoint.getY() )*100.0 ); } b2dPolygon.setB2DPoint( j, point ); if ( b2dPolygon.isPrevControlPointUsed( j ) ) b2dPolygon.setPrevControlPoint( j , prevPoint ) ; if ( b2dPolygon.isNextControlPointUsed( j ) ) b2dPolygon.setNextControlPoint( j , nextPoint ) ; } elem.PolyPoly.setB2DPolygon( i, b2dPolygon ); } PropertyMap aProps; // PDFIProcessor transforms geometrical objects, not images and text // so we need to tell fillFrameProps here that the transformation for // a PolyPolyElement was already applied (aside form translation) fillFrameProps( elem, aProps, m_rEmitContext, true ); OUStringBuffer aBuf( 64 ); aBuf.append( "0 0 " ); aBuf.append( convPx2mmPrec2(elem.w)*100.0 ); aBuf.append( ' ' ); aBuf.append( convPx2mmPrec2(elem.h)*100.0 ); aProps[ "svg:viewBox" ] = aBuf.makeStringAndClear(); aProps[ "svg:d" ] = basegfx::tools::exportToSvgD( elem.PolyPoly, false, true, false ); m_rEmitContext.rEmitter.beginTag( "draw:path", aProps ); m_rEmitContext.rEmitter.endTag( "draw:path" ); } void DrawXmlEmitter::visit( ImageElement& elem, const std::list< Element* >::const_iterator& ) { PropertyMap aImageProps; m_rEmitContext.rEmitter.beginTag( "draw:image", aImageProps ); m_rEmitContext.rEmitter.beginTag( "office:binary-data", PropertyMap() ); m_rEmitContext.rImages.writeBase64EncodedStream( elem.Image, m_rEmitContext); m_rEmitContext.rEmitter.endTag( "office:binary-data" ); m_rEmitContext.rEmitter.endTag( "draw:image" ); } void DrawXmlEmitter::visit( PageElement& elem, const std::list< Element* >::const_iterator& ) { PropertyMap aPageProps; aPageProps[ "draw:master-page-name" ] = m_rEmitContext.rStyles.getStyleName( elem.StyleId ); m_rEmitContext.rEmitter.beginTag("draw:page", aPageProps); if( m_rEmitContext.xStatusIndicator.is() ) m_rEmitContext.xStatusIndicator->setValue( elem.PageNumber ); std::list< Element* >::iterator this_it = elem.Children.begin(); while( this_it != elem.Children.end() && *this_it != &elem ) { (*this_it)->visitedBy( *this, this_it ); ++this_it; } m_rEmitContext.rEmitter.endTag("draw:page"); } void DrawXmlEmitter::visit( DocumentElement& elem, const std::list< Element* >::const_iterator&) { m_rEmitContext.rEmitter.beginTag( "office:body", PropertyMap() ); m_rEmitContext.rEmitter.beginTag( m_bWriteDrawDocument ? "office:drawing" : "office:presentation", PropertyMap() ); std::list< Element* >::iterator this_it = elem.Children.begin(); while( this_it != elem.Children.end() && *this_it != &elem ) { (*this_it)->visitedBy( *this, this_it ); ++this_it; } m_rEmitContext.rEmitter.endTag( m_bWriteDrawDocument ? "office:drawing" : "office:presentation" ); m_rEmitContext.rEmitter.endTag( "office:body" ); } void DrawXmlOptimizer::visit( HyperlinkElement&, const std::list< Element* >::const_iterator& ) { } void DrawXmlOptimizer::visit( TextElement&, const std::list< Element* >::const_iterator&) { } void DrawXmlOptimizer::visit( FrameElement& elem, const std::list< Element* >::const_iterator& ) { elem.applyToChildren(*this); } void DrawXmlOptimizer::visit( ImageElement&, const std::list< Element* >::const_iterator& ) { } void DrawXmlOptimizer::visit( PolyPolyElement& elem, const std::list< Element* >::const_iterator& elemIt ) { /* note: optimize two consecutive PolyPolyElements that * have the same path but one of which is a stroke while * the other is a fill */ if( !elem.Parent ) return; // find following PolyPolyElement in parent's children list if( elemIt == elem.Parent->Children.end() ) return; std::list< Element* >::const_iterator next_it = elemIt; ++next_it; if( next_it == elem.Parent->Children.end() ) return; PolyPolyElement* pNext = dynamic_cast(*next_it); // TODO(F2): this comparison fails for OOo-generated polygons with beziers. if( !pNext || pNext->PolyPoly != elem.PolyPoly ) return; const GraphicsContext& rNextGC = m_rProcessor.getGraphicsContext( pNext->GCId ); const GraphicsContext& rThisGC = m_rProcessor.getGraphicsContext( elem.GCId ); if( rThisGC.BlendMode == rNextGC.BlendMode && rThisGC.Flatness == rNextGC.Flatness && rThisGC.Transformation == rNextGC.Transformation && rThisGC.Clip == rNextGC.Clip && rThisGC.FillColor.Red == rNextGC.FillColor.Red && rThisGC.FillColor.Green== rNextGC.FillColor.Green && rThisGC.FillColor.Blue == rNextGC.FillColor.Blue && rThisGC.FillColor.Alpha== rNextGC.FillColor.Alpha && pNext->Action == PATH_STROKE && (elem.Action == PATH_FILL || elem.Action == PATH_EOFILL) ) { GraphicsContext aGC = rThisGC; aGC.LineJoin = rNextGC.LineJoin; aGC.LineCap = rNextGC.LineCap; aGC.LineWidth = rNextGC.LineWidth; aGC.MiterLimit= rNextGC.MiterLimit; aGC.DashArray = rNextGC.DashArray; aGC.LineColor = rNextGC.LineColor; elem.GCId = m_rProcessor.getGCId( aGC ); elem.Action |= pNext->Action; elem.Children.splice( elem.Children.end(), pNext->Children ); // workaround older compilers that do not have std::list::erase(const_iterator) #if HAVE_BROKEN_CONST_ITERATORS std::list< Element* >::iterator tmpIt = elem.Parent->Children.begin(); std::advance(tmpIt, std::distance(elem.Parent->Children.cbegin(), next_it)); elem.Parent->Children.erase(tmpIt); #else elem.Parent->Children.erase(next_it); #endif delete pNext; } } void DrawXmlOptimizer::visit( ParagraphElement& elem, const std::list< Element* >::const_iterator& ) { optimizeTextElements( elem ); elem.applyToChildren(*this); } void DrawXmlOptimizer::visit( PageElement& elem, const std::list< Element* >::const_iterator& ) { if( m_rProcessor.getStatusIndicator().is() ) m_rProcessor.getStatusIndicator()->setValue( elem.PageNumber ); // resolve hyperlinks elem.resolveHyperlinks(); elem.resolveFontStyles( m_rProcessor ); // underlines and such // FIXME: until hyperlinks and font effects are adjusted for // geometrical search handle them before sorting m_rProcessor.sortElements( &elem ); // find paragraphs in text ParagraphElement* pCurPara = nullptr; std::list< Element* >::iterator page_element, next_page_element; next_page_element = elem.Children.begin(); double fCurLineHeight = 0.0; // average height of text items in current para int nCurLineElements = 0; // number of line contributing elements in current para double line_left = elem.w, line_right = 0.0; double column_width = elem.w*0.75; // estimate text width // TODO: guess columns while( next_page_element != elem.Children.end() ) { page_element = next_page_element++; ParagraphElement* pPagePara = dynamic_cast(*page_element); if( pPagePara ) { pCurPara = pPagePara; // adjust line height and text items fCurLineHeight = 0.0; nCurLineElements = 0; for( std::list< Element* >::iterator it = pCurPara->Children.begin(); it != pCurPara->Children.end(); ++it ) { TextElement* pTestText = dynamic_cast(*it); if( pTestText ) { fCurLineHeight = (fCurLineHeight*double(nCurLineElements) + pTestText->h)/double(nCurLineElements+1); nCurLineElements++; } } continue; } HyperlinkElement* pLink = dynamic_cast(*page_element); DrawElement* pDraw = dynamic_cast(*page_element); if( ! pDraw && pLink && ! pLink->Children.empty() ) pDraw = dynamic_cast(pLink->Children.front() ); if( pDraw ) { // insert small drawing objects as character, else leave them page bound bool bInsertToParagraph = false; // first check if this is either inside the paragraph if( pCurPara && pDraw->y < pCurPara->y + pCurPara->h ) { if( pDraw->h < fCurLineHeight * 1.5 ) { bInsertToParagraph = true; fCurLineHeight = (fCurLineHeight*double(nCurLineElements) + pDraw->h)/double(nCurLineElements+1); nCurLineElements++; // mark draw element as character pDraw->isCharacter = true; } } // or perhaps the draw element begins a new paragraph else if( next_page_element != elem.Children.end() ) { TextElement* pText = dynamic_cast(*next_page_element); if( ! pText ) { ParagraphElement* pPara = dynamic_cast(*next_page_element); if( pPara && ! pPara->Children.empty() ) pText = dynamic_cast(pPara->Children.front()); } if( pText && // check there is a text pDraw->h < pText->h*1.5 && // and it is approx the same height // and either upper or lower edge of pDraw is inside text's vertical range ( ( pDraw->y >= pText->y && pDraw->y <= pText->y+pText->h ) || ( pDraw->y+pDraw->h >= pText->y && pDraw->y+pDraw->h <= pText->y+pText->h ) ) ) { bInsertToParagraph = true; fCurLineHeight = pDraw->h; nCurLineElements = 1; line_left = pDraw->x; line_right = pDraw->x + pDraw->w; // begin a new paragraph pCurPara = nullptr; // mark draw element as character pDraw->isCharacter = true; } } if( ! bInsertToParagraph ) { pCurPara = nullptr; continue; } } TextElement* pText = dynamic_cast(*page_element); if( ! pText && pLink && ! pLink->Children.empty() ) pText = dynamic_cast(pLink->Children.front()); if( pText ) { Element* pGeo = pLink ? static_cast(pLink) : static_cast(pText); if( pCurPara ) { // there was already a text element, check for a new paragraph if( nCurLineElements > 0 ) { // if the new text is significantly distant from the paragraph // begin a new paragraph if( pGeo->y > pCurPara->y + pCurPara->h + fCurLineHeight*0.5 ) pCurPara = nullptr; // insert new paragraph else if( pGeo->y > (pCurPara->y+pCurPara->h - fCurLineHeight*0.05) ) { // new paragraph if either the last line of the paragraph // was significantly shorter than the paragraph as a whole if( (line_right - line_left) < pCurPara->w*0.75 ) pCurPara = nullptr; // or the last line was significantly smaller than the column width else if( (line_right - line_left) < column_width*0.75 ) pCurPara = nullptr; } } } // update line height/width if( pCurPara ) { fCurLineHeight = (fCurLineHeight*double(nCurLineElements) + pGeo->h)/double(nCurLineElements+1); nCurLineElements++; if( pGeo->x < line_left ) line_left = pGeo->x; if( pGeo->x+pGeo->w > line_right ) line_right = pGeo->x+pGeo->w; } else { fCurLineHeight = pGeo->h; nCurLineElements = 1; line_left = pGeo->x; line_right = pGeo->x + pGeo->w; } } // move element to current paragraph if (! pCurPara ) // new paragraph, insert one { pCurPara = ElementFactory::createParagraphElement( nullptr ); // set parent pCurPara->Parent = &elem; //insert new paragraph before current element page_element = elem.Children.insert( page_element, pCurPara ); // forward iterator to current element again ++ page_element; // update next_element which is now invalid next_page_element = page_element; ++ next_page_element; } Element* pCurEle = *page_element; Element::setParent( page_element, pCurPara ); OSL_ENSURE( !pText || pCurEle == pText || pCurEle == pLink, "paragraph child list in disorder" ); if( pText || pDraw ) pCurPara->updateGeometryWith( pCurEle ); } // process children elem.applyToChildren(*this); } bool isSpaces(TextElement* pTextElem) { for (sal_Int32 i = 0; i != pTextElem->Text.getLength(); ++i) { if (pTextElem->Text[i] != ' ') { return false; } } return true; } bool notTransformed(const GraphicsContext& GC) { return rtl::math::approxEqual(GC.Transformation.get(0,0), 100.00) && GC.Transformation.get(1,0) == 0.00 && GC.Transformation.get(0,1) == 0.00 && rtl::math::approxEqual(GC.Transformation.get(1,1), -100.00); } void DrawXmlOptimizer::optimizeTextElements(Element& rParent) { if( rParent.Children.empty() ) // this should not happen { OSL_FAIL( "empty paragraph optimized" ); return; } // concatenate child elements with same font id std::list< Element* >::iterator next = rParent.Children.begin(); std::list< Element* >::iterator it = next++; while( next != rParent.Children.end() ) { bool bConcat = false; TextElement* pCur = dynamic_cast(*it); if( pCur ) { TextElement* pNext = dynamic_cast(*next); bool isComplex = false; OUString str(pCur->Text.getStr()); for(int i=0; i< str.getLength(); i++) { sal_Int16 nType = GetBreakIterator()->getScriptType( str, i ); if (nType == css::i18n::ScriptType::COMPLEX) isComplex = true; } bool bPara = strspn("ParagraphElement", typeid(rParent).name()); ParagraphElement* pPara = dynamic_cast(&rParent); if (bPara && pPara && isComplex) pPara->bRtl = true; if( pNext ) { const GraphicsContext& rCurGC = m_rProcessor.getGraphicsContext( pCur->GCId ); const GraphicsContext& rNextGC = m_rProcessor.getGraphicsContext( pNext->GCId ); // line and space optimization; works only in strictly horizontal mode // concatenate consecutive text elements unless there is a // font or text color or matrix change, leave a new span in that case if( (pCur->FontId == pNext->FontId || isSpaces(pNext)) && rCurGC.FillColor.Red == rNextGC.FillColor.Red && rCurGC.FillColor.Green == rNextGC.FillColor.Green && rCurGC.FillColor.Blue == rNextGC.FillColor.Blue && rCurGC.FillColor.Alpha == rNextGC.FillColor.Alpha && (rCurGC.Transformation == rNextGC.Transformation || notTransformed(rNextGC)) ) { pCur->updateGeometryWith( pNext ); // append text to current element pCur->Text.append( pNext->Text.getStr(), pNext->Text.getLength() ); str = pCur->Text.getStr(); for(int i=0; i< str.getLength(); i++) { sal_Int16 nType = GetBreakIterator()->getScriptType( str, i ); if (nType == css::i18n::ScriptType::COMPLEX) isComplex = true; } if (bPara && pPara && isComplex) pPara->bRtl = true; // append eventual children to current element // and clear children (else the children just // appended to pCur would be destroyed) pCur->Children.splice( pCur->Children.end(), pNext->Children ); // get rid of the now useless element rParent.Children.erase( next ); delete pNext; bConcat = true; } } } else if( dynamic_cast(*it) ) optimizeTextElements( **it ); if ( bConcat ) next = it; else ++it; ++next; } } void DrawXmlOptimizer::visit( DocumentElement& elem, const std::list< Element* >::const_iterator&) { elem.applyToChildren(*this); } void DrawXmlFinalizer::visit( PolyPolyElement& elem, const std::list< Element* >::const_iterator& ) { // xxx TODO copied from DrawElement const GraphicsContext& rGC = m_rProcessor.getGraphicsContext(elem.GCId ); PropertyMap aProps; aProps[ "style:family" ] = "graphic"; aProps[ "style:parent-style-name" ] = "standard"; // generate standard graphic style if necessary m_rStyleContainer.getStandardStyleId( "graphic" ); PropertyMap aGCProps; if (elem.Action & PATH_STROKE) { double scale = GetAverageTransformationScale(rGC.Transformation); if (rGC.DashArray.size() < 2) { aGCProps[ "draw:stroke" ] = "solid"; } else { PropertyMap props; FillDashStyleProps(props, rGC.DashArray, scale); StyleContainer::Style style("draw:stroke-dash", props); aGCProps[ "draw:stroke" ] = "dash"; aGCProps[ "draw:stroke-dash" ] = m_rStyleContainer.getStyleName( m_rStyleContainer.getStyleId(style)); } aGCProps[ "svg:stroke-color" ] = getColorString(rGC.LineColor); if (rGC.LineColor.Alpha != 1.0) aGCProps["svg:stroke-opacity"] = getPercentString(rGC.LineColor.Alpha * 100.0); aGCProps[ "svg:stroke-width" ] = convertPixelToUnitString(rGC.LineWidth * scale); aGCProps[ "draw:stroke-linejoin" ] = rGC.GetLineJoinString(); aGCProps[ "svg:stroke-linecap" ] = rGC.GetLineCapString(); } else { aGCProps[ "draw:stroke" ] = "none"; } // TODO(F1): check whether stuff could be emulated by gradient/bitmap/hatch if( elem.Action & (PATH_FILL | PATH_EOFILL) ) { aGCProps[ "draw:fill" ] = "solid"; aGCProps[ "draw:fill-color" ] = getColorString(rGC.FillColor); if (rGC.FillColor.Alpha != 1.0) aGCProps["draw:opacity"] = getPercentString(rGC.FillColor.Alpha * 100.0); } else { aGCProps[ "draw:fill" ] = "none"; } StyleContainer::Style aStyle( "style:style", aProps ); StyleContainer::Style aSubStyle( "style:graphic-properties", aGCProps ); aStyle.SubStyles.push_back( &aSubStyle ); elem.StyleId = m_rStyleContainer.getStyleId( aStyle ); } void DrawXmlFinalizer::visit( HyperlinkElement&, const std::list< Element* >::const_iterator& ) { } void SetFontsizeProperties(PropertyMap& props, double fontSize) { OUStringBuffer aBuf(32); aBuf.append(fontSize * 72 / PDFI_OUTDEV_RESOLUTION); aBuf.append("pt"); OUString aFSize = aBuf.makeStringAndClear(); props["fo:font-size"] = aFSize; props["style:font-size-asian"] = aFSize; props["style:font-size-complex"] = aFSize; } void DrawXmlFinalizer::visit( TextElement& elem, const std::list< Element* >::const_iterator& ) { const FontAttributes& rFont = m_rProcessor.getFont( elem.FontId ); PropertyMap aProps; aProps[ "style:family" ] = "text"; PropertyMap aFontProps; // family name aFontProps[ "fo:font-family" ] = rFont.familyName; aFontProps[ "style:font-family-complex" ] = rFont.familyName; // bold if( rFont.isBold ) { aFontProps[ "fo:font-weight" ] = "bold"; aFontProps[ "fo:font-weight-asian" ] = "bold"; aFontProps[ "style:font-weight-complex" ] = "bold"; } // italic if( rFont.isItalic ) { aFontProps[ "fo:font-style" ] = "italic"; aFontProps[ "fo:font-style-asian" ] = "italic"; aFontProps[ "style:font-style-complex" ] = "italic"; } // underline if( rFont.isUnderline ) { aFontProps[ "style:text-underline-style" ] = "solid"; aFontProps[ "style:text-underline-width" ] = "auto"; aFontProps[ "style:text-underline-color" ] = "font-color"; } // outline if( rFont.isOutline ) { aFontProps[ "style:text-outline" ] = "true"; } // size SetFontsizeProperties(aFontProps, rFont.size); // color const GraphicsContext& rGC = m_rProcessor.getGraphicsContext( elem.GCId ); aFontProps[ "fo:color" ] = getColorString( rFont.isOutline ? rGC.LineColor : rGC.FillColor ); // scale double fRotate, fShearX; basegfx::B2DTuple aScale, aTranslation; rGC.Transformation.decompose(aScale, aTranslation, fRotate, fShearX); double textScale = 100 * aScale.getX() / aScale.getY(); if (((textScale >= 1) && (textScale <= 99)) || ((textScale >= 101) && (textScale <= 999))) { aFontProps[ "style:text-scale" ] = getPercentString(textScale); } StyleContainer::Style aStyle( "style:style", aProps ); StyleContainer::Style aSubStyle( "style:text-properties", aFontProps ); aStyle.SubStyles.push_back( &aSubStyle ); elem.StyleId = m_rStyleContainer.getStyleId( aStyle ); } void DrawXmlFinalizer::visit( ParagraphElement& elem, const std::list< Element* >::const_iterator& ) { PropertyMap aProps; aProps[ "style:family" ] = "paragraph"; // generate standard paragraph style if necessary m_rStyleContainer.getStandardStyleId( "paragraph" ); PropertyMap aParProps; aParProps[ "fo:text-align"] = "start"; if (elem.bRtl) aParProps[ "style:writing-mode"] = "rl-tb"; else aParProps[ "style:writing-mode"] = "lr-tb"; StyleContainer::Style aStyle( "style:style", aProps ); StyleContainer::Style aSubStyle( "style:paragraph-properties", aParProps ); aStyle.SubStyles.push_back( &aSubStyle ); elem.StyleId = m_rStyleContainer.getStyleId( aStyle ); elem.applyToChildren(*this); } void DrawXmlFinalizer::visit( FrameElement& elem, const std::list< Element* >::const_iterator&) { PropertyMap props1; props1[ "style:family" ] = "graphic"; props1[ "style:parent-style-name" ] = "standard"; // generate standard graphic style if necessary m_rStyleContainer.getStandardStyleId( "graphic" ); PropertyMap aGCProps; aGCProps[ "draw:stroke" ] = "none"; aGCProps[ "draw:fill" ] = "none"; aGCProps[ "draw:auto-grow-height" ] = "true"; aGCProps[ "draw:auto-grow-width" ] = "true"; aGCProps[ "draw:textarea-horizontal-align" ] = "left"; aGCProps[ "draw:textarea-vertical-align" ] = "top"; aGCProps[ "fo:min-height"] = "0cm"; aGCProps[ "fo:min-width"] = "0cm"; aGCProps[ "fo:padding-top" ] = "0cm"; aGCProps[ "fo:padding-left" ] = "0cm"; aGCProps[ "fo:padding-right" ] = "0cm"; aGCProps[ "fo:padding-bottom" ] = "0cm"; StyleContainer::Style style1( "style:style", props1 ); StyleContainer::Style subStyle1( "style:graphic-properties", aGCProps ); style1.SubStyles.push_back(&subStyle1); elem.StyleId = m_rStyleContainer.getStyleId(style1); if (elem.IsForText) { PropertyMap props2; props2["style:family"] = "paragraph"; PropertyMap textProps; SetFontsizeProperties(textProps, elem.FontSize); StyleContainer::Style style2("style:style", props2); StyleContainer::Style subStyle2("style:text-properties", textProps); style2.SubStyles.push_back(&subStyle2); elem.TextStyleId = m_rStyleContainer.getStyleId(style2); } elem.applyToChildren(*this); } void DrawXmlFinalizer::visit( ImageElement&, const std::list< Element* >::const_iterator& ) { } void DrawXmlFinalizer::visit( PageElement& elem, const std::list< Element* >::const_iterator& ) { if( m_rProcessor.getStatusIndicator().is() ) m_rProcessor.getStatusIndicator()->setValue( elem.PageNumber ); // transform from pixel to mm double page_width = convPx2mm( elem.w ), page_height = convPx2mm( elem.h ); // calculate page margins out of the relevant children (paragraphs) elem.TopMargin = elem.h; elem.BottomMargin = 0; elem.LeftMargin = elem.w; elem.RightMargin = 0; for( std::list< Element* >::const_iterator it = elem.Children.begin(); it != elem.Children.end(); ++it ) { if( (*it)->x < elem.LeftMargin ) elem.LeftMargin = (*it)->x; if( (*it)->y < elem.TopMargin ) elem.TopMargin = (*it)->y; if( (*it)->x + (*it)->w > elem.RightMargin ) elem.RightMargin = ((*it)->x + (*it)->w); if( (*it)->y + (*it)->h > elem.BottomMargin ) elem.BottomMargin = ((*it)->y + (*it)->h); } // transform margins to mm double left_margin = convPx2mm( elem.LeftMargin ); double right_margin = convPx2mm( elem.RightMargin ); double top_margin = convPx2mm( elem.TopMargin ); double bottom_margin = convPx2mm( elem.BottomMargin ); // round left/top margin to nearest mm left_margin = rtl_math_round( left_margin, 0, rtl_math_RoundingMode_Floor ); top_margin = rtl_math_round( top_margin, 0, rtl_math_RoundingMode_Floor ); // round (fuzzy) right/bottom margin to nearest cm right_margin = rtl_math_round( right_margin, right_margin >= 10 ? -1 : 0, rtl_math_RoundingMode_Floor ); bottom_margin = rtl_math_round( bottom_margin, bottom_margin >= 10 ? -1 : 0, rtl_math_RoundingMode_Floor ); // set reasonable default in case of way too large margins // e.g. no paragraph case if( left_margin > page_width/2.0 - 10 ) left_margin = 10; if( right_margin > page_width/2.0 - 10 ) right_margin = 10; if( top_margin > page_height/2.0 - 10 ) top_margin = 10; if( bottom_margin > page_height/2.0 - 10 ) bottom_margin = 10; // catch the weird cases if( left_margin < 0 ) left_margin = 0; if( right_margin < 0 ) right_margin = 0; if( top_margin < 0 ) top_margin = 0; if( bottom_margin < 0 ) bottom_margin = 0; // widely differing margins are unlikely to be correct if( right_margin > left_margin*1.5 ) right_margin = left_margin; elem.LeftMargin = convmm2Px( left_margin ); elem.RightMargin = convmm2Px( right_margin ); elem.TopMargin = convmm2Px( top_margin ); elem.BottomMargin = convmm2Px( bottom_margin ); // get styles for paragraphs PropertyMap aPageProps; PropertyMap aPageLayoutProps; aPageLayoutProps[ "fo:margin-top" ] = unitMMString( top_margin ); aPageLayoutProps[ "fo:margin-bottom" ] = unitMMString( bottom_margin ); aPageLayoutProps[ "fo:margin-left" ] = unitMMString( left_margin ); aPageLayoutProps[ "fo:margin-right" ] = unitMMString( right_margin ); aPageLayoutProps[ "fo:page-width" ] = unitMMString( page_width ); aPageLayoutProps[ "fo:page-height" ] = unitMMString( page_height ); aPageLayoutProps[ "style:print-orientation" ]= elem.w < elem.h ? OUString("portrait") : OUString("landscape"); aPageLayoutProps[ "style:writing-mode" ]= "lr-tb"; StyleContainer::Style aStyle( "style:page-layout", aPageProps); StyleContainer::Style aSubStyle( "style:page-layout-properties", aPageLayoutProps); aStyle.SubStyles.push_back(&aSubStyle); sal_Int32 nPageStyle = m_rStyleContainer.impl_getStyleId( aStyle, false ); // create master page OUString aMasterPageLayoutName = m_rStyleContainer.getStyleName( nPageStyle ); aPageProps[ "style:page-layout-name" ] = aMasterPageLayoutName; StyleContainer::Style aMPStyle( "style:master-page", aPageProps); StyleContainer::Style aHeaderStyle( "style:header", PropertyMap() ); StyleContainer::Style aFooterStyle( "style:footer", PropertyMap() ); elem.StyleId = m_rStyleContainer.impl_getStyleId( aMPStyle,false ); // create styles for children elem.applyToChildren(*this); } void DrawXmlFinalizer::visit( DocumentElement& elem, const std::list< Element* >::const_iterator& ) { elem.applyToChildren(*this); } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */