/* -*- 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 namespace pdfi { Element::~Element() { } void Element::applyToChildren( ElementTreeVisitor& rVisitor ) { for( auto it = Children.begin(); it != Children.end(); ++it ) (*it)->visitedBy( rVisitor, it ); } void Element::setParent( std::list>::iterator const & el, Element* pNewParent ) { if( pNewParent ) { pNewParent->Children.splice( pNewParent->Children.end(), (*el)->Parent->Children, el ); (*el)->Parent = pNewParent; } } void Element::updateGeometryWith( const Element* pMergeFrom ) { if( w == 0 && h == 0 ) { x = pMergeFrom->x; y = pMergeFrom->y; w = pMergeFrom->w; h = pMergeFrom->h; } else { if( pMergeFrom->x < x ) { w += x - pMergeFrom->x; x = pMergeFrom->x; } if( pMergeFrom->x+pMergeFrom->w > x+w ) w = pMergeFrom->w+pMergeFrom->x - x; if( pMergeFrom->y < y ) { h += y - pMergeFrom->y; y = pMergeFrom->y; } if( pMergeFrom->y+pMergeFrom->h > y+h ) h = pMergeFrom->h+pMergeFrom->y - y; } } #if OSL_DEBUG_LEVEL > 0 #include void Element::emitStructure( int nLevel) { SAL_INFO( "sdext", std::string(nLevel, ' ') << "<" << typeid( *this ).name() << " " << this << "> (" << std::setprecision(1) << x << "," << y << ")+(" << w << "x" << h << ")" ); for (auto const& child : Children) child->emitStructure(nLevel+1); SAL_INFO( "sdext", std::string(nLevel, ' ') << "" ); } #endif void ListElement::visitedBy( ElementTreeVisitor& visitor, const std::list< std::unique_ptr >::const_iterator& ) { // this is only an inner node applyToChildren(visitor); } void HyperlinkElement::visitedBy( ElementTreeVisitor& rVisitor, const std::list< std::unique_ptr >::const_iterator& rParentIt ) { rVisitor.visit(*this,rParentIt); } void TextElement::visitedBy( ElementTreeVisitor& rVisitor, const std::list< std::unique_ptr >::const_iterator& rParentIt ) { rVisitor.visit(*this,rParentIt); } void FrameElement::visitedBy( ElementTreeVisitor& rVisitor, const std::list< std::unique_ptr >::const_iterator& rParentIt ) { rVisitor.visit(*this,rParentIt); } void ImageElement::visitedBy( ElementTreeVisitor& rVisitor, const std::list< std::unique_ptr >::const_iterator& rParentIt) { rVisitor.visit( *this, rParentIt); } PolyPolyElement::PolyPolyElement( Element* pParent, sal_Int32 nGCId, const basegfx::B2DPolyPolygon& rPolyPoly, sal_Int8 nAction ) : DrawElement( pParent, nGCId ), PolyPoly( rPolyPoly ), Action( nAction ) { } void PolyPolyElement::updateGeometry() { basegfx::B2DRange aRange; if( PolyPoly.areControlPointsUsed() ) aRange = basegfx::utils::getRange( basegfx::utils::adaptiveSubdivideByAngle( PolyPoly ) ); else aRange = basegfx::utils::getRange( PolyPoly ); x = aRange.getMinX(); y = aRange.getMinY(); w = aRange.getWidth(); h = aRange.getHeight(); // fdo#32330 - non-closed paths will not show up filled in LibO if( Action & (PATH_FILL | PATH_EOFILL) ) PolyPoly.setClosed(true); } void PolyPolyElement::visitedBy( ElementTreeVisitor& rVisitor, const std::list< std::unique_ptr >::const_iterator& rParentIt) { rVisitor.visit( *this, rParentIt); } #if OSL_DEBUG_LEVEL > 0 void PolyPolyElement::emitStructure( int nLevel) { SAL_WARN( "sdext", std::string(nLevel, ' ') << "<" << typeid( *this ).name() << " " << this << ">" ); SAL_WARN( "sdext", "path=" ); int nPoly = PolyPoly.count(); for( int i = 0; i < nPoly; i++ ) { OUStringBuffer buff; basegfx::B2DPolygon aPoly = PolyPoly.getB2DPolygon( i ); int nPoints = aPoly.count(); for( int n = 0; n < nPoints; n++ ) { basegfx::B2DPoint aPoint = aPoly.getB2DPoint( n ); buff.append( " (").append(aPoint.getX()).append(",").append(aPoint.getY()).append(")"); } SAL_WARN( "sdext", " " << buff.makeStringAndClear() ); } for (auto const& child : Children) child->emitStructure( nLevel+1 ); SAL_WARN( "sdext", std::string(nLevel, ' ') << ""); } #endif void ParagraphElement::visitedBy( ElementTreeVisitor& rVisitor, const std::list< std::unique_ptr >::const_iterator& rParentIt ) { rVisitor.visit(*this,rParentIt); } bool ParagraphElement::isSingleLined( PDFIProcessor const & rProc ) const { TextElement* pText = nullptr, *pLastText = nullptr; for( auto& rxChild : Children ) { // a paragraph containing subparagraphs cannot be single lined if( dynamic_cast< ParagraphElement* >(rxChild.get()) != nullptr ) return false; pText = dynamic_cast< TextElement* >(rxChild.get()); if( pText ) { const FontAttributes& rFont = rProc.getFont( pText->FontId ); if( pText->h > rFont.size*1.5 ) return false; if( pLastText ) { if( pText->y > pLastText->y+pLastText->h || pLastText->y > pText->y+pText->h ) return false; } else pLastText = pText; } } // a paragraph without a single text is not considered single lined return pLastText != nullptr; } double ParagraphElement::getLineHeight( PDFIProcessor& rProc ) const { double line_h = 0; for( auto& rxChild : Children ) { ParagraphElement* pPara = dynamic_cast< ParagraphElement* >(rxChild.get()); TextElement* pText = nullptr; if( pPara ) { double lh = pPara->getLineHeight( rProc ); if( lh > line_h ) line_h = lh; } else if( (pText = dynamic_cast< TextElement* >( rxChild.get() )) != nullptr ) { const FontAttributes& rFont = rProc.getFont( pText->FontId ); double lh = pText->h; if( pText->h > rFont.size*1.5 ) lh = rFont.size; if( lh > line_h ) line_h = lh; } } return line_h; } TextElement* ParagraphElement::getFirstTextChild() const { TextElement* pText = nullptr; auto it = std::find_if(Children.begin(), Children.end(), [](const std::unique_ptr& rxElem) { return dynamic_cast(rxElem.get()) != nullptr; }); if (it != Children.end()) pText = dynamic_cast(it->get()); return pText; } PageElement::~PageElement() { } void PageElement::visitedBy( ElementTreeVisitor& rVisitor, const std::list< std::unique_ptr >::const_iterator& rParentIt ) { rVisitor.visit(*this, rParentIt); } bool PageElement::resolveHyperlink( const std::list>::iterator& link_it, std::list>& rElements ) { HyperlinkElement* pLink = dynamic_cast(link_it->get()); if( ! pLink ) // sanity check return false; for( auto it = rElements.begin(); it != rElements.end(); ++it ) { if( (*it)->x >= pLink->x && (*it)->x + (*it)->w <= pLink->x + pLink->w && (*it)->y >= pLink->y && (*it)->y + (*it)->h <= pLink->y + pLink->h ) { TextElement* pText = dynamic_cast(it->get()); if( pText ) { if( pLink->Children.empty() ) { // insert the hyperlink before the frame rElements.splice( it, Hyperlinks.Children, link_it ); pLink->Parent = (*it)->Parent; } // move text element into hyperlink auto next = it; ++next; Element::setParent( it, pLink ); it = next; --it; continue; } // a link can contain multiple text elements or a single frame if( ! pLink->Children.empty() ) continue; if( dynamic_cast(it->get()) ) { if( resolveHyperlink( link_it, (*it)->Children ) ) break; continue; } FrameElement* pFrame = dynamic_cast(it->get()); if( pFrame ) { // insert the hyperlink before the frame rElements.splice( it, Hyperlinks.Children, link_it ); pLink->Parent = (*it)->Parent; // move frame into hyperlink Element::setParent( it, pLink ); break; } } } return ! pLink->Children.empty(); } void PageElement::resolveHyperlinks() { while( ! Hyperlinks.Children.empty() ) { if( ! resolveHyperlink( Hyperlinks.Children.begin(), Children ) ) { Hyperlinks.Children.pop_front(); } } } void PageElement::resolveFontStyles( PDFIProcessor const & rProc ) { resolveUnderlines(rProc); } void PageElement::resolveUnderlines( PDFIProcessor const & rProc ) { // FIXME: currently the algorithm used is quadratic // this could be solved by some sorting beforehand auto poly_it = Children.begin(); while( poly_it != Children.end() ) { PolyPolyElement* pPoly = dynamic_cast< PolyPolyElement* >(poly_it->get()); if( ! pPoly || ! pPoly->Children.empty() ) { ++poly_it; continue; } /* check for: no filling * only two points (FIXME: handle small rectangles, too) * y coordinates of points are equal */ if( pPoly->Action != PATH_STROKE ) { ++poly_it; continue; } if( pPoly->PolyPoly.count() != 1 ) { ++poly_it; continue; } bool bRemovePoly = false; basegfx::B2DPolygon aPoly = pPoly->PolyPoly.getB2DPolygon(0); if( aPoly.count() != 2 || aPoly.getB2DPoint(0).getY() != aPoly.getB2DPoint(1).getY() ) { ++poly_it; continue; } double l_x = aPoly.getB2DPoint(0).getX(); double r_x = aPoly.getB2DPoint(1).getX(); double u_y; if( r_x < l_x ) { u_y = r_x; r_x = l_x; l_x = u_y; } u_y = aPoly.getB2DPoint(0).getY(); for( const auto& rxChild : Children ) { Element* pEle = rxChild.get(); if( pEle->y <= u_y && pEle->y + pEle->h*1.1 >= u_y ) { // first: is the element underlined completely ? if( pEle->x + pEle->w*0.1 >= l_x && pEle->x + pEle->w*0.9 <= r_x ) { TextElement* pText = dynamic_cast< TextElement* >(pEle); if( pText ) { const GraphicsContext& rTextGC = rProc.getGraphicsContext( pText->GCId ); if( ! rTextGC.isRotatedOrSkewed() ) { bRemovePoly = true; // retrieve ID for modified font FontAttributes aAttr = rProc.getFont( pText->FontId ); aAttr.isUnderline = true; pText->FontId = rProc.getFontId( aAttr ); } } else if( dynamic_cast< HyperlinkElement* >(pEle) ) bRemovePoly = true; } // second: hyperlinks may be larger than their underline // since they are just arbitrary rectangles in the action definition else if( dynamic_cast< HyperlinkElement* >(pEle) != nullptr && l_x >= pEle->x && r_x <= pEle->x+pEle->w ) { bRemovePoly = true; } } } if( bRemovePoly ) { auto next_it = poly_it; ++next_it; Children.erase( poly_it ); poly_it = next_it; } else ++poly_it; } } DocumentElement::~DocumentElement() { } void DocumentElement::visitedBy( ElementTreeVisitor& rVisitor, const std::list< std::unique_ptr >::const_iterator& rParentIt) { rVisitor.visit(*this, rParentIt); } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */