/* -*- 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 namespace svgio::svgreader { SvgTextPositions::SvgTextPositions() : maX(), maY(), maDx(), maDy(), maRotate(), maTextLength(), mbLengthAdjust(true) { } void SvgTextPositions::parseTextPositionAttributes(SVGToken aSVGToken, const OUString& aContent) { // parse own switch(aSVGToken) { case SVGTokenX: { if(!aContent.isEmpty()) { SvgNumberVector aVector; if(readSvgNumberVector(aContent, aVector)) { setX(aVector); } } break; } case SVGTokenY: { if(!aContent.isEmpty()) { SvgNumberVector aVector; if(readSvgNumberVector(aContent, aVector)) { setY(aVector); } } break; } case SVGTokenDx: { if(!aContent.isEmpty()) { SvgNumberVector aVector; if(readSvgNumberVector(aContent, aVector)) { setDx(aVector); } } break; } case SVGTokenDy: { if(!aContent.isEmpty()) { SvgNumberVector aVector; if(readSvgNumberVector(aContent, aVector)) { setDy(aVector); } } break; } case SVGTokenRotate: { if(!aContent.isEmpty()) { SvgNumberVector aVector; if(readSvgNumberVector(aContent, aVector)) { setRotate(aVector); } } break; } case SVGTokenTextLength: { SvgNumber aNum; if(readSingleNumber(aContent, aNum)) { if(aNum.isPositive()) { setTextLength(aNum); } } break; } case SVGTokenLengthAdjust: { if(!aContent.isEmpty()) { if(aContent.startsWith("spacing")) { setLengthAdjust(true); } else if(aContent.startsWith("spacingAndGlyphs")) { setLengthAdjust(false); } } break; } default: { break; } } } } // end of namespace svgio::svgreader namespace svgio::svgreader { namespace { class localTextBreakupHelper : public drawinglayer::primitive2d::TextBreakupHelper { private: SvgTextPosition& mrSvgTextPosition; protected: /// allow user callback to allow changes to the new TextTransformation. Default /// does nothing. virtual bool allowChange(sal_uInt32 nCount, basegfx::B2DHomMatrix& rNewTransform, sal_uInt32 nIndex, sal_uInt32 nLength) override; public: localTextBreakupHelper( const drawinglayer::primitive2d::TextSimplePortionPrimitive2D& rSource, SvgTextPosition& rSvgTextPosition) : drawinglayer::primitive2d::TextBreakupHelper(rSource), mrSvgTextPosition(rSvgTextPosition) { } }; } bool localTextBreakupHelper::allowChange(sal_uInt32 /*nCount*/, basegfx::B2DHomMatrix& rNewTransform, sal_uInt32 /*nIndex*/, sal_uInt32 /*nLength*/) { const double fRotation(mrSvgTextPosition.consumeRotation()); if(0.0 != fRotation) { const basegfx::B2DPoint aBasePoint(rNewTransform * basegfx::B2DPoint(0.0, 0.0)); rNewTransform.translate(-aBasePoint.getX(), -aBasePoint.getY()); rNewTransform.rotate(fRotation); rNewTransform.translate(aBasePoint.getX(), aBasePoint.getY()); } return true; } } // end of namespace svgio::svgreader namespace svgio::svgreader { SvgCharacterNode::SvgCharacterNode( SvgDocument& rDocument, SvgNode* pParent, const OUString& rText) : SvgNode(SVGTokenCharacter, rDocument, pParent), maText(rText) { } SvgCharacterNode::~SvgCharacterNode() { } const SvgStyleAttributes* SvgCharacterNode::getSvgStyleAttributes() const { // no own style, use parent's if(getParent()) { return getParent()->getSvgStyleAttributes(); } else { return nullptr; } } drawinglayer::primitive2d::TextSimplePortionPrimitive2D* SvgCharacterNode::createSimpleTextPrimitive( SvgTextPosition& rSvgTextPosition, const SvgStyleAttributes& rSvgStyleAttributes) const { // prepare retval, index and length drawinglayer::primitive2d::TextSimplePortionPrimitive2D* pRetval = nullptr; sal_uInt32 nIndex(0); sal_uInt32 nLength(getText().getLength()); if(nLength) { // prepare FontAttribute const SvgStringVector& rFontFamilyVector = rSvgStyleAttributes.getFontFamily(); OUString aFontFamily = rFontFamilyVector.empty() ? OUString("Times New Roman") : rFontFamilyVector[0]; // #i122324# if the FontFamily name ends on ' embedded' it is probably a re-import // of a SVG export with font embedding. Remove this to make font matching work. This // is pretty safe since there should be no font family names ending on ' embedded'. // Remove again when FontEmbedding is implemented in SVG import if(aFontFamily.endsWith(" embedded")) { aFontFamily = aFontFamily.copy(0, aFontFamily.getLength() - 9); } const ::FontWeight nFontWeight(getVclFontWeight(rSvgStyleAttributes.getFontWeight())); bool bItalic(FontStyle_italic == rSvgStyleAttributes.getFontStyle() || FontStyle_oblique == rSvgStyleAttributes.getFontStyle()); const drawinglayer::attribute::FontAttribute aFontAttribute( aFontFamily, OUString(), nFontWeight, false/*bSymbol*/, false/*bVertical*/, bItalic, false/*bMonospaced*/, false/*bOutline*/, false/*bRTL*/, false/*bBiDiStrong*/); // prepare FontSizeNumber double fFontWidth(rSvgStyleAttributes.getFontSizeNumber().solve(*this)); double fFontHeight(fFontWidth); // prepare locale css::lang::Locale aLocale; // prepare TextLayouterDevice drawinglayer::primitive2d::TextLayouterDevice aTextLayouterDevice; aTextLayouterDevice.setFontAttribute(aFontAttribute, fFontWidth, fFontHeight, aLocale); // prepare TextArray ::std::vector< double > aTextArray(rSvgTextPosition.getX()); if(!aTextArray.empty() && aTextArray.size() < nLength) { const sal_uInt32 nArray(aTextArray.size()); if(nArray < nLength) { double fStartX(0.0); if(rSvgTextPosition.getParent() && rSvgTextPosition.getParent()->getAbsoluteX()) { fStartX = rSvgTextPosition.getParent()->getPosition().getX(); } else { fStartX = aTextArray[nArray - 1]; } ::std::vector< double > aExtendArray(aTextLayouterDevice.getTextArray(getText(), nArray, nLength - nArray)); aTextArray.reserve(nLength); for(size_t a(0); a < aExtendArray.size(); a++) { aTextArray.push_back(aExtendArray[a] + fStartX); } } } // get current TextPosition and TextWidth in units basegfx::B2DPoint aPosition(rSvgTextPosition.getPosition()); double fTextWidth(aTextLayouterDevice.getTextWidth(getText(), nIndex, nLength)); // check for user-given TextLength if(0.0 != rSvgTextPosition.getTextLength() && !basegfx::fTools::equal(fTextWidth, rSvgTextPosition.getTextLength())) { const double fFactor(rSvgTextPosition.getTextLength() / fTextWidth); if(rSvgTextPosition.getLengthAdjust()) { // spacing, need to create and expand TextArray if(aTextArray.empty()) { aTextArray = aTextLayouterDevice.getTextArray(getText(), nIndex, nLength); } for(size_t a(0); a < aTextArray.size(); a++) { aTextArray[a] *= fFactor; } } else { // spacing and glyphs, just apply to FontWidth fFontWidth *= fFactor; } fTextWidth = rSvgTextPosition.getTextLength(); } // get TextAlign TextAlign aTextAlign(rSvgStyleAttributes.getTextAlign()); // map TextAnchor to TextAlign, there seems not to be a difference if(TextAnchor_notset != rSvgStyleAttributes.getTextAnchor()) { switch(rSvgStyleAttributes.getTextAnchor()) { case TextAnchor_start: { aTextAlign = TextAlign_left; break; } case TextAnchor_middle: { aTextAlign = TextAlign_center; break; } case TextAnchor_end: { aTextAlign = TextAlign_right; break; } default: { break; } } } // apply TextAlign switch(aTextAlign) { case TextAlign_right: { aPosition.setX(aPosition.getX() - fTextWidth); break; } case TextAlign_center: { aPosition.setX(aPosition.getX() - (fTextWidth * 0.5)); break; } case TextAlign_notset: case TextAlign_left: case TextAlign_justify: { // TextAlign_notset, TextAlign_left: nothing to do // TextAlign_justify is not clear currently; handle as TextAlign_left break; } } // get BaselineShift const BaselineShift aBaselineShift(rSvgStyleAttributes.getBaselineShift()); // apply BaselineShift switch(aBaselineShift) { case BaselineShift_Sub: { aPosition.setY(aPosition.getY() + aTextLayouterDevice.getUnderlineOffset()); break; } case BaselineShift_Super: { aPosition.setY(aPosition.getY() + aTextLayouterDevice.getOverlineOffset()); break; } case BaselineShift_Percentage: case BaselineShift_Length: { const SvgNumber aNumber(rSvgStyleAttributes.getBaselineShiftNumber()); const double mfBaselineShift(aNumber.solve(*this)); aPosition.setY(aPosition.getY() + mfBaselineShift); break; } default: // BaselineShift_Baseline { // nothing to do break; } } // get fill color const basegfx::BColor aFill(rSvgStyleAttributes.getFill() ? *rSvgStyleAttributes.getFill() : basegfx::BColor(0.0, 0.0, 0.0)); // prepare TextTransformation basegfx::B2DHomMatrix aTextTransform; aTextTransform.scale(fFontWidth, fFontHeight); aTextTransform.translate(aPosition.getX(), aPosition.getY()); // check TextDecoration and if TextDecoratedPortionPrimitive2D is needed const TextDecoration aDeco(rSvgStyleAttributes.getTextDecoration()); if(TextDecoration_underline == aDeco || TextDecoration_overline == aDeco || TextDecoration_line_through == aDeco) { // get the fill for decoration as described by SVG. We cannot // have different stroke colors/definitions for those, though const SvgStyleAttributes* pDecoDef = rSvgStyleAttributes.getTextDecorationDefiningSvgStyleAttributes(); const basegfx::BColor aDecoColor(pDecoDef && pDecoDef->getFill() ? *pDecoDef->getFill() : aFill); // create decorated text primitive pRetval = new drawinglayer::primitive2d::TextDecoratedPortionPrimitive2D( aTextTransform, getText(), nIndex, nLength, aTextArray, aFontAttribute, aLocale, aFill, COL_TRANSPARENT, // extra props for decorated aDecoColor, aDecoColor, TextDecoration_overline == aDeco ? drawinglayer::primitive2d::TEXT_LINE_SINGLE : drawinglayer::primitive2d::TEXT_LINE_NONE, TextDecoration_underline == aDeco ? drawinglayer::primitive2d::TEXT_LINE_SINGLE : drawinglayer::primitive2d::TEXT_LINE_NONE, false, TextDecoration_line_through == aDeco ? drawinglayer::primitive2d::TEXT_STRIKEOUT_SINGLE : drawinglayer::primitive2d::TEXT_STRIKEOUT_NONE, false, drawinglayer::primitive2d::TEXT_FONT_EMPHASIS_MARK_NONE, true, false, drawinglayer::primitive2d::TEXT_RELIEF_NONE, false); } else { // create text primitive pRetval = new drawinglayer::primitive2d::TextSimplePortionPrimitive2D( aTextTransform, getText(), nIndex, nLength, aTextArray, aFontAttribute, aLocale, aFill); } // advance current TextPosition rSvgTextPosition.setPosition(rSvgTextPosition.getPosition() + basegfx::B2DVector(fTextWidth, 0.0)); } return pRetval; } void SvgCharacterNode::decomposeTextWithStyle( drawinglayer::primitive2d::Primitive2DContainer& rTarget, SvgTextPosition& rSvgTextPosition, const SvgStyleAttributes& rSvgStyleAttributes) const { const drawinglayer::primitive2d::Primitive2DReference xRef( createSimpleTextPrimitive( rSvgTextPosition, rSvgStyleAttributes)); if(!(xRef.is() && (Visibility_visible == rSvgStyleAttributes.getVisibility()))) return; if(!rSvgTextPosition.isRotated()) { rTarget.push_back(xRef); } else { // need to apply rotations to each character as given const drawinglayer::primitive2d::TextSimplePortionPrimitive2D* pCandidate = dynamic_cast< const drawinglayer::primitive2d::TextSimplePortionPrimitive2D* >(xRef.get()); if(pCandidate) { const localTextBreakupHelper alocalTextBreakupHelper(*pCandidate, rSvgTextPosition); const drawinglayer::primitive2d::Primitive2DContainer& aResult( alocalTextBreakupHelper.getResult()); if(!aResult.empty()) { rTarget.append(aResult); } // also consume for the implied single space rSvgTextPosition.consumeRotation(); } else { OSL_ENSURE(false, "Used primitive is not a text primitive (!)"); } } } void SvgCharacterNode::whiteSpaceHandling() { if(XmlSpace_default == getXmlSpace()) { maText = whiteSpaceHandlingDefault(maText); } else { maText = whiteSpaceHandlingPreserve(maText); } } void SvgCharacterNode::addGap() { maText += " "; } void SvgCharacterNode::concatenate(const OUString& rText) { maText += rText; } void SvgCharacterNode::decomposeText(drawinglayer::primitive2d::Primitive2DContainer& rTarget, SvgTextPosition& rSvgTextPosition) const { if(!getText().isEmpty()) { const SvgStyleAttributes* pSvgStyleAttributes = getSvgStyleAttributes(); if(pSvgStyleAttributes) { decomposeTextWithStyle(rTarget, rSvgTextPosition, *pSvgStyleAttributes); } } } } // end of namespace svgio::svgreader namespace svgio::svgreader { SvgTextPosition::SvgTextPosition( SvgTextPosition* pParent, const InfoProvider& rInfoProvider, const SvgTextPositions& rSvgTextPositions) : mpParent(pParent), maX(), // computed below maY(), // computed below maRotate(solveSvgNumberVector(rSvgTextPositions.getRotate(), rInfoProvider)), mfTextLength(0.0), maPosition(), // computed below mnRotationIndex(0), mbLengthAdjust(rSvgTextPositions.getLengthAdjust()), mbAbsoluteX(false) { // get TextLength if provided if(rSvgTextPositions.getTextLength().isSet()) { mfTextLength = rSvgTextPositions.getTextLength().solve(rInfoProvider); } // SVG does not really define in which units a \91rotate\92 for Text/TSpan is given, // but it seems to be degrees. Convert here to radians if(!maRotate.empty()) { for (double& f : maRotate) { f = basegfx::deg2rad(f); } } // get text positions X const sal_uInt32 nSizeX(rSvgTextPositions.getX().size()); if(nSizeX) { // we have absolute positions, get first one as current text position X maPosition.setX(rSvgTextPositions.getX()[0].solve(rInfoProvider, xcoordinate)); mbAbsoluteX = true; if(nSizeX > 1) { // fill deltas to maX maX.reserve(nSizeX); for(sal_uInt32 a(1); a < nSizeX; a++) { maX.push_back(rSvgTextPositions.getX()[a].solve(rInfoProvider, xcoordinate) - maPosition.getX()); } } } else { // no absolute position, get from parent if(pParent) { maPosition.setX(pParent->getPosition().getX()); } const sal_uInt32 nSizeDx(rSvgTextPositions.getDx().size()); if(nSizeDx) { // relative positions given, translate position derived from parent maPosition.setX(maPosition.getX() + rSvgTextPositions.getDx()[0].solve(rInfoProvider, xcoordinate)); if(nSizeDx > 1) { // fill deltas to maX maX.reserve(nSizeDx); for(sal_uInt32 a(1); a < nSizeDx; a++) { maX.push_back(rSvgTextPositions.getDx()[a].solve(rInfoProvider, xcoordinate)); } } } } // get text positions Y const sal_uInt32 nSizeY(rSvgTextPositions.getY().size()); if(nSizeY) { // we have absolute positions, get first one as current text position Y maPosition.setY(rSvgTextPositions.getY()[0].solve(rInfoProvider, ycoordinate)); mbAbsoluteX = true; if(nSizeY > 1) { // fill deltas to maY maY.reserve(nSizeY); for(sal_uInt32 a(1); a < nSizeY; a++) { maY.push_back(rSvgTextPositions.getY()[a].solve(rInfoProvider, ycoordinate) - maPosition.getY()); } } } else { // no absolute position, get from parent if(pParent) { maPosition.setY(pParent->getPosition().getY()); } const sal_uInt32 nSizeDy(rSvgTextPositions.getDy().size()); if(nSizeDy) { // relative positions given, translate position derived from parent maPosition.setY(maPosition.getY() + rSvgTextPositions.getDy()[0].solve(rInfoProvider, ycoordinate)); if(nSizeDy > 1) { // fill deltas to maY maY.reserve(nSizeDy); for(sal_uInt32 a(1); a < nSizeDy; a++) { maY.push_back(rSvgTextPositions.getDy()[a].solve(rInfoProvider, ycoordinate)); } } } } } bool SvgTextPosition::isRotated() const { if(maRotate.empty()) { if(getParent()) { return getParent()->isRotated(); } else { return false; } } else { return true; } } double SvgTextPosition::consumeRotation() { double fRetval(0.0); if(maRotate.empty()) { if(getParent()) { fRetval = mpParent->consumeRotation(); } else { fRetval = 0.0; } } else { const sal_uInt32 nSize(maRotate.size()); if(mnRotationIndex < nSize) { fRetval = maRotate[mnRotationIndex++]; } else { fRetval = maRotate[nSize - 1]; } } return fRetval; } } // end of namespace svgio /* vim:set shiftwidth=4 softtabstop=4 expandtab: */