/* -*- 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 "cairo_spritecanvas.hxx" #include "cairo_textlayout.hxx" #if defined CAIRO_HAS_FT_FONT # include #else # error Native API needed. #endif using namespace ::cairo; using namespace ::com::sun::star; namespace cairocanvas { namespace { void setupLayoutMode( OutputDevice& rOutDev, sal_Int8 nTextDirection ) { // TODO(P3): avoid if already correctly set ComplexTextLayoutFlags nLayoutMode = ComplexTextLayoutFlags::Default; switch( nTextDirection ) { case rendering::TextDirection::WEAK_LEFT_TO_RIGHT: break; case rendering::TextDirection::STRONG_LEFT_TO_RIGHT: nLayoutMode = ComplexTextLayoutFlags::BiDiStrong; break; case rendering::TextDirection::WEAK_RIGHT_TO_LEFT: nLayoutMode = ComplexTextLayoutFlags::BiDiRtl; break; case rendering::TextDirection::STRONG_RIGHT_TO_LEFT: nLayoutMode = ComplexTextLayoutFlags::BiDiRtl | ComplexTextLayoutFlags::BiDiStrong; break; default: break; } // set calculated layout mode. Origin is always the left edge, // as required at the API spec rOutDev.SetLayoutMode( nLayoutMode | ComplexTextLayoutFlags::TextOriginLeft ); } bool compareFallbacks(const SystemGlyphData&rA, const SystemGlyphData &rB) { return rA.fallbacklevel < rB.fallbacklevel; } } TextLayout::TextLayout( const rendering::StringContext& aText, sal_Int8 nDirection, sal_Int64 /*nRandomSeed*/, const CanvasFont::Reference& rFont, const SurfaceProviderRef& rRefDevice ) : TextLayout_Base( m_aMutex ), maText( aText ), maLogicalAdvancements(), mpFont( rFont ), mpRefDevice( rRefDevice ), mnTextDirection( nDirection ) { } TextLayout::~TextLayout() { } void SAL_CALL TextLayout::disposing() { ::osl::MutexGuard aGuard( m_aMutex ); mpFont.clear(); mpRefDevice.clear(); } // XTextLayout uno::Sequence< uno::Reference< rendering::XPolyPolygon2D > > SAL_CALL TextLayout::queryTextShapes( ) { // TODO return uno::Sequence< uno::Reference< rendering::XPolyPolygon2D > >(); } uno::Sequence< geometry::RealRectangle2D > SAL_CALL TextLayout::queryInkMeasures( ) { // TODO return uno::Sequence< geometry::RealRectangle2D >(); } uno::Sequence< geometry::RealRectangle2D > SAL_CALL TextLayout::queryMeasures( ) { // TODO return uno::Sequence< geometry::RealRectangle2D >(); } uno::Sequence< double > SAL_CALL TextLayout::queryLogicalAdvancements( ) { ::osl::MutexGuard aGuard( m_aMutex ); return maLogicalAdvancements; } void SAL_CALL TextLayout::applyLogicalAdvancements( const uno::Sequence< double >& aAdvancements ) { ::osl::MutexGuard aGuard( m_aMutex ); if( aAdvancements.getLength() != maText.Length ) { SAL_WARN("canvas.cairo", "TextLayout::applyLogicalAdvancements(): mismatching number of advancements" ); throw lang::IllegalArgumentException(); } maLogicalAdvancements = aAdvancements; } geometry::RealRectangle2D SAL_CALL TextLayout::queryTextBounds( ) { ::osl::MutexGuard aGuard( m_aMutex ); OutputDevice* pOutDev = mpRefDevice->getOutputDevice(); if( !pOutDev ) return geometry::RealRectangle2D(); ScopedVclPtrInstance< VirtualDevice > pVDev( *pOutDev ); pVDev->SetFont( mpFont->getVCLFont() ); // need metrics for Y offset, the XCanvas always renders // relative to baseline const ::FontMetric& aMetric( pVDev->GetFontMetric() ); setupLayoutMode( *pVDev.get(), mnTextDirection ); const sal_Int32 nAboveBaseline( -aMetric.GetAscent() ); const sal_Int32 nBelowBaseline( aMetric.GetDescent() ); if( maLogicalAdvancements.getLength() ) { return geometry::RealRectangle2D( 0, nAboveBaseline, maLogicalAdvancements[ maLogicalAdvancements.getLength()-1 ], nBelowBaseline ); } else { return geometry::RealRectangle2D( 0, nAboveBaseline, pVDev->GetTextWidth( maText.Text, ::canvas::tools::numeric_cast(maText.StartPosition), ::canvas::tools::numeric_cast(maText.Length) ), nBelowBaseline ); } } double SAL_CALL TextLayout::justify( double /*nSize*/ ) { // TODO return 0.0; } double SAL_CALL TextLayout::combinedJustify( const uno::Sequence< uno::Reference< rendering::XTextLayout > >& /*aNextLayouts*/, double /*nSize*/ ) { // TODO return 0.0; } rendering::TextHit SAL_CALL TextLayout::getTextHit( const geometry::RealPoint2D& /*aHitPoint*/ ) { // TODO return rendering::TextHit(); } rendering::Caret SAL_CALL TextLayout::getCaret( sal_Int32 /*nInsertionIndex*/, sal_Bool /*bExcludeLigatures*/ ) { // TODO return rendering::Caret(); } sal_Int32 SAL_CALL TextLayout::getNextInsertionIndex( sal_Int32 /*nStartIndex*/, sal_Int32 /*nCaretAdvancement*/, sal_Bool /*bExcludeLigatures*/ ) { // TODO return 0; } uno::Reference< rendering::XPolyPolygon2D > SAL_CALL TextLayout::queryVisualHighlighting( sal_Int32 /*nStartIndex*/, sal_Int32 /*nEndIndex*/ ) { // TODO return uno::Reference< rendering::XPolyPolygon2D >(); } uno::Reference< rendering::XPolyPolygon2D > SAL_CALL TextLayout::queryLogicalHighlighting( sal_Int32 /*nStartIndex*/, sal_Int32 /*nEndIndex*/ ) { // TODO return uno::Reference< rendering::XPolyPolygon2D >(); } double SAL_CALL TextLayout::getBaselineOffset( ) { // TODO return 0.0; } sal_Int8 SAL_CALL TextLayout::getMainTextDirection( ) { ::osl::MutexGuard aGuard( m_aMutex ); return mnTextDirection; } uno::Reference< rendering::XCanvasFont > SAL_CALL TextLayout::getFont( ) { ::osl::MutexGuard aGuard( m_aMutex ); return mpFont.get(); } rendering::StringContext SAL_CALL TextLayout::getText( ) { ::osl::MutexGuard aGuard( m_aMutex ); return maText; } /** * TextLayout::isCairoRenderable * * Features currently not supported by Cairo (VCL rendering is used as fallback): * - vertical glyphs * * @return true, if text/font can be rendered with cairo **/ bool TextLayout::isCairoRenderable(SystemFontData aSysFontData) const { #if defined CAIRO_HAS_FT_FONT // is font usable? if (!aSysFontData.nFontId) return false; #endif // vertical glyph rendering is not supported in cairo for now if (aSysFontData.bVerticalCharacterType) { SAL_WARN("canvas.cairo", ":cairocanvas::TextLayout::isCairoRenderable(): Vertical Character Style not supported"); return false; } return true; } /** * TextLayout::draw * * Cairo-based text rendering. Draw text directly on the cairo surface with cairo fonts. * Avoid using VCL VirtualDevices for that, bypassing VCL DrawText functions, when possible * * Note: some text effects are not rendered due to lacking generic canvas or cairo canvas * implementation. See issues 92657, 92658, 92659, 92660, 97529 * * @return true, if successful **/ bool TextLayout::draw( CairoSharedPtr const & pSCairo, OutputDevice& rOutDev, const Point& rOutpos, const rendering::ViewState& viewState, const rendering::RenderState& renderState ) const { ::osl::MutexGuard aGuard( m_aMutex ); SystemTextLayoutData aSysLayoutData; setupLayoutMode( rOutDev, mnTextDirection ); // TODO(P2): cache that std::unique_ptr< long []> aOffsets(new long[maLogicalAdvancements.getLength()]); if( maLogicalAdvancements.getLength() ) { setupTextOffsets( aOffsets.get(), maLogicalAdvancements, viewState, renderState ); // TODO(F3): ensure correct length and termination for DX // array (last entry _must_ contain the overall width) } aSysLayoutData = rOutDev.GetSysTextLayoutData(rOutpos, maText.Text, ::canvas::tools::numeric_cast(maText.StartPosition), ::canvas::tools::numeric_cast(maText.Length), maLogicalAdvancements.getLength() ? aOffsets.get() : nullptr); // Sort them so that all glyphs on the same glyph fallback level are consecutive std::sort(aSysLayoutData.rGlyphData.begin(), aSysLayoutData.rGlyphData.end(), compareFallbacks); bool bCairoRenderable = true; //Pull all the fonts we need to render the text typedef std::pair FontLevel; std::vector aFontData; SystemGlyphDataVector::const_iterator aGlyphIter=aSysLayoutData.rGlyphData.begin(); const SystemGlyphDataVector::const_iterator aGlyphEnd=aSysLayoutData.rGlyphData.end(); for( ; aGlyphIter != aGlyphEnd; ++aGlyphIter ) { if( aFontData.empty() || aGlyphIter->fallbacklevel != aFontData.back().second ) { aFontData.push_back(FontLevel(rOutDev.GetSysFontData(aGlyphIter->fallbacklevel), aGlyphIter->fallbacklevel)); if( !isCairoRenderable(aFontData.back().first) ) { bCairoRenderable = false; SAL_INFO("canvas.cairo", ":cairocanvas::TextLayout::draw(S,O,p,v,r): VCL FALLBACK " << (maLogicalAdvancements.getLength() ? "ADV " : "") << (aFontData.back().first.bAntialias ? "AA " : "") << (aFontData.back().first.bFakeBold ? "FB " : "") << (aFontData.back().first.bFakeItalic ? "FI " : "") << " - " << maText.Text.copy( maText.StartPosition, maText.Length)); break; } } } // The ::GetSysTextLayoutData(), i.e. layouting of text to glyphs can change the font being used. // The fallback checks need to be done after final font is known. if (!bCairoRenderable) // VCL FALLBACKS { if (maLogicalAdvancements.getLength()) // VCL FALLBACK - with glyph advances { rOutDev.DrawTextArray( rOutpos, maText.Text, aOffsets.get(), ::canvas::tools::numeric_cast(maText.StartPosition), ::canvas::tools::numeric_cast(maText.Length) ); return true; } else // VCL FALLBACK - without advances { rOutDev.DrawText( rOutpos, maText.Text, ::canvas::tools::numeric_cast(maText.StartPosition), ::canvas::tools::numeric_cast(maText.Length) ); return true; } } if (aSysLayoutData.rGlyphData.empty()) return false; //??? false? /** * Setup platform independent glyph vector into cairo-based glyphs vector. **/ // Loop through the fonts used and render the matching glyphs for each std::vector::const_iterator aFontDataIter = aFontData.begin(); const std::vector::const_iterator aFontDataEnd = aFontData.end(); for( ; aFontDataIter != aFontDataEnd; ++aFontDataIter ) { const SystemFontData &rSysFontData = aFontDataIter->first; // setup glyphs std::vector cairo_glyphs; cairo_glyphs.reserve( 256 ); aGlyphIter=aSysLayoutData.rGlyphData.begin(); for( ; aGlyphIter != aGlyphEnd; ++aGlyphIter ) { SystemGlyphData systemGlyph = *aGlyphIter; if( systemGlyph.fallbacklevel != aFontDataIter->second ) continue; cairo_glyph_t aGlyph; aGlyph.index = systemGlyph.index; aGlyph.x = systemGlyph.x; aGlyph.y = systemGlyph.y; cairo_glyphs.push_back(aGlyph); } if (cairo_glyphs.empty()) continue; vcl::Font aFont = rOutDev.GetFont(); long nWidth = aFont.GetAverageFontWidth(); long nHeight = aFont.GetFontHeight(); if (nWidth == 0) nWidth = nHeight; if (nWidth == 0 || nHeight == 0) continue; /** * Setup font **/ cairo_font_face_t* font_face = nullptr; #if defined CAIRO_HAS_FT_FONT font_face = cairo_ft_font_face_create_for_ft_face(static_cast(rSysFontData.nFontId), rSysFontData.nFontFlags); #else # error Native API needed. #endif cairo_set_font_face( pSCairo.get(), font_face); // create default font options. cairo_get_font_options() does not retrieve the surface defaults, // only what has been set before with cairo_set_font_options() cairo_font_options_t* options = cairo_font_options_create(); if (rSysFontData.bAntialias) { // CAIRO_ANTIALIAS_GRAY provides more similar result to VCL Canvas, // so we're not using CAIRO_ANTIALIAS_SUBPIXEL cairo_font_options_set_antialias(options, CAIRO_ANTIALIAS_GRAY); } cairo_set_font_options( pSCairo.get(), options); // Font color Color aTextColor = rOutDev.GetTextColor(); cairo_set_source_rgb(pSCairo.get(), aTextColor.GetRed()/255.0, aTextColor.GetGreen()/255.0, aTextColor.GetBlue()/255.0); // Font rotation and scaling cairo_matrix_t m; cairo_matrix_init_identity(&m); if (aSysLayoutData.orientation) cairo_matrix_rotate(&m, (3600 - aSysLayoutData.orientation) * M_PI / 1800.0); cairo_matrix_scale(&m, nWidth, nHeight); //faux italics if (rSysFontData.bFakeItalic) m.xy = -m.xx * 0x6000 / 0x10000; cairo_set_font_matrix(pSCairo.get(), &m); SAL_INFO( "canvas.cairo", "Size:(" << aFont.GetAverageFontWidth() << "," << aFont.GetFontHeight() << "), Pos (" << rOutpos.X() << "," << rOutpos.Y() << "), G(" << (cairo_glyphs.size() > 0 ? cairo_glyphs[0].index : -1) << "," << (cairo_glyphs.size() > 1 ? cairo_glyphs[1].index : -1) << "," << (cairo_glyphs.size() > 2 ? cairo_glyphs[2].index : -1) << ") " << (maLogicalAdvancements.getLength() ? "ADV " : "") << (rSysFontData.bAntialias ? "AA " : "") << (rSysFontData.bFakeBold ? "FB " : "") << (rSysFontData.bFakeItalic ? "FI " : "") << " || Name:" << aFont.GetFamilyName() << " - " << maText.Text.copy(maText.StartPosition, maText.Length)); cairo_show_glyphs(pSCairo.get(), &cairo_glyphs[0], cairo_glyphs.size()); //faux bold if (rSysFontData.bFakeBold) { double bold_dx = 0.5 * sqrt( 0.7 * aFont.GetFontHeight() ); int total_steps = 1 * ((int) (bold_dx + 0.5)); // loop to draw the text for every half pixel of displacement for (int nSteps = 0; nSteps < total_steps; nSteps++) { for(cairo_glyph_t & cairo_glyph : cairo_glyphs) { cairo_glyph.x += (bold_dx * nSteps / total_steps) / 4; cairo_glyph.y -= (bold_dx * nSteps / total_steps) / 4; } cairo_show_glyphs(pSCairo.get(), &cairo_glyphs[0], cairo_glyphs.size()); } SAL_INFO("canvas.cairo",":cairocanvas::TextLayout::draw(S,O,p,v,r): FAKEBOLD - dx:" << (int) bold_dx); } cairo_font_face_destroy(font_face); cairo_font_options_destroy(options); } return true; } namespace { class OffsetTransformer { public: explicit OffsetTransformer( const ::basegfx::B2DHomMatrix& rMat ) : maMatrix( rMat ) { } sal_Int32 operator()( const double& rOffset ) { // This is an optimization of the normal rMat*[x,0] // transformation of the advancement vector (in x // direction), followed by a length calculation of the // resulting vector: advancement' = // ||rMat*[x,0]||. Since advancements are vectors, we // can ignore translational components, thus if [x,0], // it follows that rMat*[x,0]=[x',0] holds. Thus, we // just have to calc the transformation of the x // component. // TODO(F2): Handle non-horizontal advancements! return ::basegfx::fround( hypot(maMatrix.get(0,0)*rOffset, maMatrix.get(1,0)*rOffset) ); } private: ::basegfx::B2DHomMatrix maMatrix; }; } void TextLayout::setupTextOffsets( long* outputOffsets, const uno::Sequence< double >& inputOffsets, const rendering::ViewState& viewState, const rendering::RenderState& renderState ) const { ENSURE_OR_THROW( outputOffsets!=nullptr, "TextLayout::setupTextOffsets offsets NULL" ); ::basegfx::B2DHomMatrix aMatrix; ::canvas::tools::mergeViewAndRenderTransform(aMatrix, viewState, renderState); // fill integer offsets std::transform( inputOffsets.begin(), inputOffsets.end(), outputOffsets, OffsetTransformer( aMatrix ) ); } OUString SAL_CALL TextLayout::getImplementationName() { return OUString( "CairoCanvas::TextLayout" ); } sal_Bool SAL_CALL TextLayout::supportsService( const OUString& ServiceName ) { return cppu::supportsService( this, ServiceName ); } uno::Sequence< OUString > SAL_CALL TextLayout::getSupportedServiceNames() { return { "com.sun.star.rendering.TextLayout" }; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */