/************************************************************** * * 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 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_vcl.hxx" #include #include #include #include #include #include #include #include #include #include "sal/alloca.h" #include "sal/types.h" #include "rtl/tencinfo.h" #include "osl/file.hxx" #include "tools/string.hxx" #include "tools/debug.hxx" #include "tools/stream.hxx" #include "basegfx/polygon/b2dpolypolygon.hxx" #include "i18npool/mslangid.hxx" #include #include "printergfx.hxx" #include "vcl/fontmanager.hxx" #include "vcl/jobdata.hxx" #include "vcl/printerinfomanager.hxx" #include "vcl/svapp.hxx" #include "unx/salunx.h" #include "unx/saldata.hxx" #include "unx/saldisp.hxx" #include "unx/salgdi.h" #include "unx/pspgraphics.h" #include "unx/salvd.h" #include "salcvt.hxx" #include "gcach_xpeer.hxx" #include "xrender_peer.hxx" #include "impfont.hxx" #include "salframe.hxx" #include "outdev.h" #include #ifdef ENABLE_GRAPHITE #include #include #endif struct cairo_surface_t; struct cairo_t; struct cairo_font_face_t; typedef void* FT_Face; struct cairo_matrix_t { double xx; double yx; double xy; double yy; double x0; double y0; }; struct cairo_glyph_t { unsigned long index; double x; double y; }; struct BOX { short x1, x2, y1, y2; }; struct _XRegion { long size; long numRects; BOX *rects; BOX extents; }; using namespace rtl; // =========================================================================== // PspKernInfo allows on-demand-querying of psprint provided kerning info (#i29881#) class PspKernInfo : public ExtraKernInfo { public: PspKernInfo( int nFontId ) : ExtraKernInfo(nFontId) {} protected: virtual void Initialize() const; }; //-------------------------------------------------------------------------- void PspKernInfo::Initialize() const { mbInitialized = true; // get the kerning pairs from psprint const psp::PrintFontManager& rMgr = psp::PrintFontManager::get(); typedef std::list< psp::KernPair > PspKernPairs; const PspKernPairs& rKernPairs = rMgr.getKernPairs( mnFontId ); if( rKernPairs.empty() ) return; // feed psprint's kerning list into a lookup-friendly container maUnicodeKernPairs.rehash( rKernPairs.size() ); PspKernPairs::const_iterator it = rKernPairs.begin(); for(; it != rKernPairs.end(); ++it ) { ImplKernPairData aKernPair = { it->first, it->second, it->kern_x }; maUnicodeKernPairs.insert( aKernPair ); } } // ---------------------------------------------------------------------------- // // X11SalGraphics // // ---------------------------------------------------------------------------- GC X11SalGraphics::GetFontGC() { Display *pDisplay = GetXDisplay(); if( !pFontGC_ ) { XGCValues values; values.subwindow_mode = ClipByChildren; values.fill_rule = EvenOddRule; // Pict import/ Gradient values.graphics_exposures = False; values.foreground = nTextPixel_; pFontGC_ = XCreateGC( pDisplay, hDrawable_, GCSubwindowMode | GCFillRule | GCGraphicsExposures | GCForeground, &values ); } if( !bFontGC_ ) { XSetForeground( pDisplay, pFontGC_, nTextPixel_ ); SetClipRegion( pFontGC_ ); bFontGC_ = sal_True; } return pFontGC_; } //-------------------------------------------------------------------------- bool X11SalGraphics::setFont( const ImplFontSelectData *pEntry, int nFallbackLevel ) { #ifdef HDU_DEBUG ByteString aReqName( "NULL" ); if( pEntry ) aReqName = ByteString( pEntry->maName, RTL_TEXTENCODING_UTF8 ); ByteString aUseName( "NULL" ); if( pEntry && pEntry->mpFontData ) aUseName = ByteString( pEntry->mpFontData->GetFamilyName(), RTL_TEXTENCODING_UTF8 ); fprintf( stderr, "SetFont(lvl=%d,\"%s\", %d*%d, naa=%d,b=%d,i=%d) => \"%s\"\n", nFallbackLevel, aReqName.GetBuffer(), !pEntry?-1:pEntry->mnWidth, !pEntry?-1:pEntry->mnHeight, !pEntry?-1:pEntry->mbNonAntialiased, !pEntry?-1:pEntry->meWeight, !pEntry?-1:pEntry->meItalic, aUseName.GetBuffer() ); #endif // release all no longer needed font resources for( int i = nFallbackLevel; i < MAX_FALLBACK; ++i ) { if( mpServerFont[i] != NULL ) { // old server side font is no longer referenced GlyphCache::GetInstance().UncacheFont( *mpServerFont[i] ); mpServerFont[i] = NULL; } } // return early if there is no new font if( !pEntry ) return false; bFontVertical_ = pEntry->mbVertical; // return early if this is not a valid font for this graphics if( !pEntry->mpFontData ) return false; // handle the request for a non-native X11-font => use the GlyphCache ServerFont* pServerFont = GlyphCache::GetInstance().CacheFont( *pEntry ); if( pServerFont != NULL ) { // ignore fonts with e.g. corrupted font files if( !pServerFont->TestFont() ) { GlyphCache::GetInstance().UncacheFont( *pServerFont ); return false; } // register to use the font mpServerFont[ nFallbackLevel ] = pServerFont; // apply font specific-hint settings if needed // TODO: also disable it for reference devices if( !bPrinter_ ) { ImplServerFontEntry* pSFE = static_cast( pEntry->mpFontEntry ); pSFE->HandleFontOptions(); } return true; } return false; } void ImplServerFontEntry::HandleFontOptions( void ) { bool GetFCFontOptions( const ImplFontAttributes&, int nSize, ImplFontOptions& ); if( !mpServerFont ) return; if( !mbGotFontOptions ) { // get and cache the font options mbGotFontOptions = true; mbValidFontOptions = GetFCFontOptions( *maFontSelData.mpFontData, maFontSelData.mnHeight, maFontOptions ); } // apply the font options if( mbValidFontOptions ) mpServerFont->SetFontOptions( maFontOptions ); } //-------------------------------------------------------------------------- namespace { class CairoWrapper { private: oslModule mpCairoLib; cairo_surface_t* (*mp_xlib_surface_create_with_xrender_format)(Display *, Drawable , Screen *, XRenderPictFormat *, int , int ); void (*mp_surface_destroy)(cairo_surface_t *); cairo_t* (*mp_create)(cairo_surface_t *); void (*mp_destroy)(cairo_t*); void (*mp_clip)(cairo_t*); void (*mp_rectangle)(cairo_t*, double, double, double, double); cairo_font_face_t * (*mp_ft_font_face_create_for_ft_face)(FT_Face, int); void (*mp_set_font_face)(cairo_t *, cairo_font_face_t *); void (*mp_font_face_destroy)(cairo_font_face_t *); void (*mp_matrix_init_identity)(cairo_matrix_t *); void (*mp_matrix_scale)(cairo_matrix_t *, double, double); void (*mp_matrix_rotate)(cairo_matrix_t *, double); void (*mp_set_font_matrix)(cairo_t *, const cairo_matrix_t *); void (*mp_show_glyphs)(cairo_t *, const cairo_glyph_t *, int ); void (*mp_set_source_rgb)(cairo_t *, double , double , double ); void (*mp_set_font_options)(cairo_t *, const void *); void (*mp_ft_font_options_substitute)(const void*, void*); bool canEmbolden() const { return false; } CairoWrapper(); public: static CairoWrapper& get(); bool isValid() const { return (mpCairoLib != NULL); } bool isCairoRenderable(const ServerFont& rFont); cairo_surface_t* xlib_surface_create_with_xrender_format(Display *pDisplay, Drawable drawable, Screen *pScreen, XRenderPictFormat *pFormat, int width, int height) { return (*mp_xlib_surface_create_with_xrender_format)(pDisplay, drawable, pScreen, pFormat, width, height); } void surface_destroy(cairo_surface_t *surface) { (*mp_surface_destroy)(surface); } cairo_t* create(cairo_surface_t *surface) { return (*mp_create)(surface); } void destroy(cairo_t *cr) { (*mp_destroy)(cr); } void clip(cairo_t *cr) { (*mp_clip)(cr); } void rectangle(cairo_t *cr, double x, double y, double width, double height) { (*mp_rectangle)(cr, x, y, width, height); } cairo_font_face_t* ft_font_face_create_for_ft_face(FT_Face face, int load_flags) { return (*mp_ft_font_face_create_for_ft_face)(face, load_flags); } void set_font_face(cairo_t *cr, cairo_font_face_t *font_face) { (*mp_set_font_face)(cr, font_face); } void font_face_destroy(cairo_font_face_t *font_face) { (*mp_font_face_destroy)(font_face); } void matrix_init_identity(cairo_matrix_t *matrix) { (*mp_matrix_init_identity)(matrix); } void matrix_scale(cairo_matrix_t *matrix, double sx, double sy) { (*mp_matrix_scale)(matrix, sx, sy); } void matrix_rotate(cairo_matrix_t *matrix, double radians) { (*mp_matrix_rotate)(matrix, radians); } void set_font_matrix(cairo_t *cr, const cairo_matrix_t *matrix) { (*mp_set_font_matrix)(cr, matrix); } void show_glyphs(cairo_t *cr, const cairo_glyph_t *glyphs, int no_glyphs) { (*mp_show_glyphs)(cr, glyphs, no_glyphs); } void set_source_rgb(cairo_t *cr, double red, double green, double blue) { (*mp_set_source_rgb)(cr, red, green, blue); } void set_font_options(cairo_t *cr, const void *options) { (*mp_set_font_options)(cr, options); } void ft_font_options_substitute(const void *options, void *pattern) { (*mp_ft_font_options_substitute)(options, pattern); } }; static CairoWrapper* pCairoInstance = NULL; CairoWrapper& CairoWrapper::get() { if( ! pCairoInstance ) pCairoInstance = new CairoWrapper(); return *pCairoInstance; } CairoWrapper::CairoWrapper() : mpCairoLib( NULL ) { static const char* pDisableCairoText = getenv( "SAL_DISABLE_CAIROTEXT" ); if( pDisableCairoText && (pDisableCairoText[0] != '0') ) return; int nDummy; if( !XQueryExtension( GetX11SalData()->GetDisplay()->GetDisplay(), "RENDER", &nDummy, &nDummy, &nDummy ) ) return; mpCairoLib = osl_loadAsciiModule( "libcairo.so.2", SAL_LOADMODULE_DEFAULT ); if( !mpCairoLib ) return; #ifdef DEBUG // check cairo version int (*p_version)(); p_version = (int(*)()) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_version" ); const int nVersion = p_version ? (*p_version)() : 0; fprintf( stderr, "CAIRO version=%d\n", nVersion ); #endif mp_xlib_surface_create_with_xrender_format = (cairo_surface_t* (*)(Display *, Drawable , Screen *, XRenderPictFormat *, int , int )) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_xlib_surface_create_with_xrender_format" ); mp_surface_destroy = (void(*)(cairo_surface_t*)) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_surface_destroy" ); mp_create = (cairo_t*(*)(cairo_surface_t*)) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_create" ); mp_destroy = (void(*)(cairo_t*)) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_destroy" ); mp_clip = (void(*)(cairo_t*)) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_clip" ); mp_rectangle = (void(*)(cairo_t*, double, double, double, double)) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_rectangle" ); mp_ft_font_face_create_for_ft_face = (cairo_font_face_t * (*)(FT_Face, int)) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_ft_font_face_create_for_ft_face" ); mp_set_font_face = (void (*)(cairo_t *, cairo_font_face_t *)) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_set_font_face" ); mp_font_face_destroy = (void (*)(cairo_font_face_t *)) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_font_face_destroy" ); mp_matrix_init_identity = (void (*)(cairo_matrix_t *)) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_matrix_init_identity" ); mp_matrix_scale = (void (*)(cairo_matrix_t *, double, double)) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_matrix_scale" ); mp_matrix_rotate = (void (*)(cairo_matrix_t *, double)) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_matrix_rotate" ); mp_set_font_matrix = (void (*)(cairo_t *, const cairo_matrix_t *)) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_set_font_matrix" ); mp_show_glyphs = (void (*)(cairo_t *, const cairo_glyph_t *, int )) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_show_glyphs" ); mp_set_source_rgb = (void (*)(cairo_t *, double , double , double )) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_set_source_rgb" ); mp_set_font_options = (void (*)(cairo_t *, const void *options )) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_set_font_options" ); mp_ft_font_options_substitute = (void (*)(const void *, void *)) osl_getAsciiFunctionSymbol( mpCairoLib, "cairo_ft_font_options_substitute" ); if( !( mp_xlib_surface_create_with_xrender_format && mp_surface_destroy && mp_create && mp_destroy && mp_clip && mp_rectangle && mp_ft_font_face_create_for_ft_face && mp_set_font_face && mp_font_face_destroy && mp_matrix_init_identity && mp_matrix_scale && mp_matrix_rotate && mp_set_font_matrix && mp_show_glyphs && mp_set_source_rgb && mp_set_font_options && mp_ft_font_options_substitute ) ) { osl_unloadModule( mpCairoLib ); mpCairoLib = NULL; #if OSL_DEBUG_LEVEL > 1 fprintf( stderr, "not all needed symbols were found\n" ); #endif } } bool CairoWrapper::isCairoRenderable(const ServerFont& rFont) { return rFont.GetFtFace() && isValid() && rFont.GetAntialiasAdvice() && (rFont.NeedsArtificialBold() ? canEmbolden() : true); } } //namespace CairoFontsCache::LRUFonts CairoFontsCache::maLRUFonts; int CairoFontsCache::mnRefCount = 0; CairoFontsCache::CairoFontsCache() { ++mnRefCount; } CairoFontsCache::~CairoFontsCache() { --mnRefCount; if (!mnRefCount && !maLRUFonts.empty()) { CairoWrapper &rCairo = CairoWrapper::get(); LRUFonts::iterator aEnd = maLRUFonts.end(); for (LRUFonts::iterator aI = maLRUFonts.begin(); aI != aEnd; ++aI) rCairo.font_face_destroy((cairo_font_face_t*)aI->first); } } void CairoFontsCache::CacheFont(void *pFont, void* pId) { maLRUFonts.push_front( std::pair(pFont, pId) ); if (maLRUFonts.size() > 8) { CairoWrapper &rCairo = CairoWrapper::get(); rCairo.font_face_destroy((cairo_font_face_t*)maLRUFonts.back().first); maLRUFonts.pop_back(); } } void* CairoFontsCache::FindCachedFont(void *pId) { LRUFonts::iterator aEnd = maLRUFonts.end(); for (LRUFonts::iterator aI = maLRUFonts.begin(); aI != aEnd; ++aI) if (aI->second == pId) return aI->first; return NULL; } void X11SalGraphics::DrawCairoAAFontString( const ServerFontLayout& rLayout ) { std::vector cairo_glyphs; cairo_glyphs.reserve( 256 ); Point aPos; sal_GlyphId aGlyphId; for( int nStart = 0; rLayout.GetNextGlyphs( 1, &aGlyphId, aPos, nStart ); ) { cairo_glyph_t aGlyph; aGlyph.index = aGlyphId & GF_IDXMASK; aGlyph.x = aPos.X(); aGlyph.y = aPos.Y(); cairo_glyphs.push_back(aGlyph); } if (cairo_glyphs.empty()) return; // find a XRenderPictFormat compatible with the Drawable XRenderPictFormat* pVisualFormat = static_cast(GetXRenderFormat()); if( !pVisualFormat ) { Visual* pVisual = GetDisplay()->GetVisual( m_nScreen ).GetVisual(); pVisualFormat = XRenderPeer::GetInstance().FindVisualFormat( pVisual ); // cache the XRenderPictFormat SetXRenderFormat( static_cast(pVisualFormat) ); } DBG_ASSERT( pVisualFormat!=NULL, "no matching XRenderPictFormat for text" ); if( !pVisualFormat ) return; CairoWrapper &rCairo = CairoWrapper::get(); Display* pDisplay = GetXDisplay(); cairo_surface_t *surface = rCairo.xlib_surface_create_with_xrender_format (pDisplay, hDrawable_, ScreenOfDisplay(pDisplay, m_nScreen), pVisualFormat, SAL_MAX_INT16, SAL_MAX_INT16); /* * It might be ideal to cache surface and cairo context between calls and * only destroy it when the drawable changes, but to do that we need to at * least change the SalFrame etc impls to dtor the SalGraphics *before* the * destruction of the windows they reference */ cairo_t *cr = rCairo.create(surface); rCairo.surface_destroy(surface); if (const void *pOptions = Application::GetSettings().GetStyleSettings().GetCairoFontOptions()) rCairo.set_font_options( cr, pOptions); if( mpClipRegion && !XEmptyRegion( mpClipRegion ) ) { for (long i = 0; i < mpClipRegion->numRects; ++i) { rCairo.rectangle(cr, mpClipRegion->rects[i].x1, mpClipRegion->rects[i].y1, mpClipRegion->rects[i].x2 - mpClipRegion->rects[i].x1, mpClipRegion->rects[i].y2 - mpClipRegion->rects[i].y1); } rCairo.clip(cr); } rCairo.set_source_rgb(cr, SALCOLOR_RED(nTextColor_)/255.0, SALCOLOR_GREEN(nTextColor_)/255.0, SALCOLOR_BLUE(nTextColor_)/255.0); ServerFont& rFont = rLayout.GetServerFont(); cairo_font_face_t* font_face = NULL; void *pId = rFont.GetFtFace(); font_face = (cairo_font_face_t*)m_aCairoFontsCache.FindCachedFont(pId); if (!font_face) { font_face = rCairo.ft_font_face_create_for_ft_face(pId, rFont.GetLoadFlags()); m_aCairoFontsCache.CacheFont(font_face, pId); } rCairo.set_font_face(cr, font_face); cairo_matrix_t m; const ImplFontSelectData& rFSD = rFont.GetFontSelData(); int nWidth = rFSD.mnWidth ? rFSD.mnWidth : rFSD.mnHeight; rCairo.matrix_init_identity(&m); if (rLayout.GetOrientation()) rCairo.matrix_rotate(&m, (3600 - rLayout.GetOrientation()) * M_PI / 1800.0); rCairo.matrix_scale(&m, nWidth, rFSD.mnHeight); if (rFont.NeedsArtificialItalic()) m.xy = -m.xx * 0x6000L / 0x10000L; rCairo.set_font_matrix(cr, &m); rCairo.show_glyphs(cr, &cairo_glyphs[0], cairo_glyphs.size()); rCairo.destroy(cr); } //-------------------------------------------------------------------------- void X11SalGraphics::DrawServerAAFontString( const ServerFontLayout& rLayout ) { // get xrender target for this drawable Picture aDstPic = GetXRenderPicture(); if( !aDstPic ) return; // get a XRenderPicture for the font foreground // TODO: move into own method XRenderPeer& rRenderPeer = XRenderPeer::GetInstance(); XRenderPictFormat* pVisualFormat = (XRenderPictFormat*)GetXRenderFormat(); DBG_ASSERT( pVisualFormat, "we already have a render picture, but XRenderPictFormat==NULL???"); const int nVisualDepth = pVisualFormat->depth; SalDisplay::RenderEntry& rEntry = GetDisplay()->GetRenderEntries( m_nScreen )[ nVisualDepth ]; if( !rEntry.m_aPicture ) { // create and cache XRenderPicture for the font foreground Display* pDisplay = GetXDisplay(); #ifdef DEBUG int iDummy; unsigned uDummy; XLIB_Window wDummy; unsigned int nDrawDepth; ::XGetGeometry( pDisplay, hDrawable_, &wDummy, &iDummy, &iDummy, &uDummy, &uDummy, &uDummy, &nDrawDepth ); DBG_ASSERT( static_cast(nVisualDepth) == nDrawDepth, "depth messed up for XRender" ); #endif rEntry.m_aPixmap = ::XCreatePixmap( pDisplay, hDrawable_, 1, 1, nVisualDepth ); XRenderPictureAttributes aAttr; aAttr.repeat = true; rEntry.m_aPicture = rRenderPeer.CreatePicture ( rEntry.m_aPixmap, pVisualFormat, CPRepeat, &aAttr ); } // set font foreground color and opacity XRenderColor aRenderColor = GetXRenderColor( nTextColor_ ); rRenderPeer.FillRectangle( PictOpSrc, rEntry.m_aPicture, &aRenderColor, 0, 0, 1, 1 ); // set clipping // TODO: move into GetXRenderPicture()? if( mpClipRegion && !XEmptyRegion( mpClipRegion ) ) rRenderPeer.SetPictureClipRegion( aDstPic, mpClipRegion ); ServerFont& rFont = rLayout.GetServerFont(); X11GlyphPeer& rGlyphPeer = X11GlyphCache::GetInstance().GetPeer(); GlyphSet aGlyphSet = rGlyphPeer.GetGlyphSet( rFont, m_nScreen ); Point aPos; static const int MAXGLYPHS = 160; sal_GlyphId aGlyphAry[ MAXGLYPHS ]; int nMaxGlyphs = rLayout.GetOrientation() ? 1 : MAXGLYPHS; for( int nStart = 0;;) { int nGlyphs = rLayout.GetNextGlyphs( nMaxGlyphs, aGlyphAry, aPos, nStart ); if( !nGlyphs ) break; // #i51924# avoid 32->16bit coordinate truncation problem in X11 // TODO: reevaluate once displays with >30000 pixels are available if( aPos.X() >= 30000 || aPos.Y() >= 30000 ) continue; unsigned int aRenderAry[ MAXGLYPHS ]; for( int i = 0; i < nGlyphs; ++i ) aRenderAry[ i ] = rGlyphPeer.GetXRGlyph( rFont, aGlyphAry[i] ); rRenderPeer.CompositeString32( rEntry.m_aPicture, aDstPic, aGlyphSet, aPos.X(), aPos.Y(), aRenderAry, nGlyphs ); } } //-------------------------------------------------------------------------- bool X11SalGraphics::DrawServerAAForcedString( const ServerFontLayout& rLayout ) { ServerFont& rFont = rLayout.GetServerFont(); // prepare glyphs and get extent of operation X11GlyphPeer& rGlyphPeer = X11GlyphCache::GetInstance().GetPeer(); int nXmin = 0; int nXmax = 0; int nYmin = 0; int nYmax = 0; int nStart = 0; Point aPos; sal_GlyphId nGlyph; for( bool bFirst=true; rLayout.GetNextGlyphs( 1, &nGlyph, aPos, nStart ); ) { const RawBitmap* const pRawBitmap = rGlyphPeer.GetRawBitmap( rFont, nGlyph ); if( !pRawBitmap ) continue; const int nX1 = aPos.X() + pRawBitmap->mnXOffset; const int nY1 = aPos.Y() + pRawBitmap->mnYOffset; const int nX2 = nX1 + pRawBitmap->mnWidth; const int nY2 = nY1 + pRawBitmap->mnHeight; if( bFirst ) { bFirst = false; nXmin = nX1; nXmax = nX2; nYmin = nY1; nYmax = nY2; } else { if( nXmin > nX1 ) nXmin = nX1; if( nXmax < nX2 ) nXmax = nX2; if( nYmin > nY1 ) nYmin = nY1; if( nYmax < nY2 ) nYmax = nY2; } } // get XImage GetDisplay()->GetXLib()->PushXErrorLevel( true ); Display* pDisplay = GetXDisplay(); XRectangle aXRect; long nWidth = 1, nHeight = 1; if( m_pFrame ) nWidth = m_pFrame->maGeometry.nWidth, nHeight = m_pFrame->maGeometry.nHeight; else if( m_pVDev ) nWidth = m_pVDev->GetWidth(), nHeight = m_pVDev->GetHeight(); if( mpClipRegion && !XEmptyRegion( mpClipRegion ) ) { // get bounding box XClipBox( mpClipRegion, &aXRect ); // clip with window if( aXRect.x < 0 ) aXRect.x = 0; if( aXRect.y < 0 ) aXRect.y = 0; if( aXRect.width+aXRect.x > nWidth ) aXRect.width = nWidth-aXRect.x; if( aXRect.height+aXRect.y > nHeight ) aXRect.height = nHeight-aXRect.y; } else { aXRect.x = 0; aXRect.y = 0; aXRect.width = nWidth; aXRect.height = nHeight; } if( m_pFrame ) { // clip with screen int nScreenX = m_pFrame->maGeometry.nX+aXRect.x; int nScreenY = m_pFrame->maGeometry.nY+aXRect.y; const Size& rScreenSize = GetDisplay()->getDataForScreen( m_nScreen ).m_aSize; int nScreenW = rScreenSize.Width(); int nScreenH = rScreenSize.Height(); if( nScreenX < 0 ) aXRect.x -= nScreenX, aXRect.width += nScreenX; if( nScreenX+aXRect.width > nScreenW ) aXRect.width = nScreenW-nScreenX; if( nScreenY < 0 ) aXRect.y -= nScreenY, aXRect.height += nScreenY; if( nScreenY+aXRect.height > nScreenH ) aXRect.height = nScreenH-nScreenY; } if( nXmin < aXRect.x ) nXmin = aXRect.x; if( nYmin < aXRect.y ) nYmin = aXRect.y; if( nXmax >= aXRect.x+aXRect.width ) nXmax = aXRect.x + aXRect.width - 1; if( nYmax >= aXRect.y+aXRect.height ) nYmax = aXRect.y + aXRect.height - 1; if( nXmin > nXmax ) return false; if( nYmin > nYmax ) return false; XImage* pImg = XGetImage( pDisplay, hDrawable_, nXmin, nYmin, (nXmax-nXmin+1), (nYmax-nYmin+1), ~0, ZPixmap ); if( pImg == NULL ) { if( m_pFrame ) { // the reason we did not get an image could be that the frame // geometry changed in the meantime; lets get the current geometry // and clip against the current window size as well as the screen // with the current frame position const Size& rScreenSize = GetDisplay()->getDataForScreen(m_nScreen).m_aSize; int nScreenW = rScreenSize.Width(); int nScreenH = rScreenSize.Height(); XLIB_Window aRoot = None; int x = 0, y = 0; unsigned int w = 0, h = 0, bw = 0, d; XGetGeometry( pDisplay, hDrawable_, &aRoot, &x, &y, &w, &h, &bw, &d ); XTranslateCoordinates( pDisplay, hDrawable_, aRoot, 0, 0, &x, &y, &aRoot ); if( nXmin + x < 0 ) // clip on left screen edge nXmin += x-nXmin; if( nYmin + y < 0 ) // clip on top screen edge nYmin += y-nYmin; if( nXmax >= int(w) ) // clip on right window egde nXmax = w-1; if( nYmax >= int(h) ) // clip on bottom window edge nYmax = h-1; if( nXmax + x >= nScreenW ) // clip on right screen edge nXmax -= (nXmax + x - nScreenW)+1; if( nYmax + y >= nScreenH ) // clip on bottom screen edge nYmax -= (nYmax + y - nScreenH)+1; if( nXmax >= nXmin && nYmax >= nYmin ) { // try again to get the image pImg = XGetImage( pDisplay, hDrawable_, nXmin, nYmin, (nXmax-nXmin+1), (nYmax-nYmin+1), ~0, ZPixmap ); } } if( pImg == NULL ) { GetDisplay()->GetXLib()->PopXErrorLevel(); return false; } } // prepare context GC nGC = GetFontGC(); XGCValues aGCVal; XGetGCValues( pDisplay, nGC, GCForeground, &aGCVal ); unsigned long nOrigColor = XGetPixel( pImg, 0, 0 ); XPutPixel( pImg, 0, 0, aGCVal.foreground ); unsigned char aColor[4]; aColor[0] = pImg->data[0]; aColor[1] = pImg->data[1]; aColor[2] = pImg->data[2]; aColor[3] = pImg->data[3]; XPutPixel( pImg, 0, 0, nOrigColor ); // work on XImage const int bpp = pImg->bits_per_pixel >> 3; for( nStart = 0; rLayout.GetNextGlyphs( 1, &nGlyph, aPos, nStart ); ) { const RawBitmap* const pRawBitmap = rGlyphPeer.GetRawBitmap( rFont, nGlyph ); if( !pRawBitmap ) continue; const int nX1 = aPos.X() + pRawBitmap->mnXOffset; const int nY1 = aPos.Y() + pRawBitmap->mnYOffset; if( (nX1 <= nXmax) && (int(nX1 + pRawBitmap->mnWidth) > nXmin) && (nY1 <= nYmax) && (int(nY1 + pRawBitmap->mnHeight) > nYmin) ) { const unsigned char* p10 = pRawBitmap->mpBits; unsigned char* p20 = (unsigned char*)pImg->data; // dest left limit p20 += (nY1 - nYmin) * pImg->bytes_per_line; unsigned char* p21 = p20 + (nX1 - nXmin + pImg->xoffset) * bpp; int y = pRawBitmap->mnHeight; if( y > nYmax - nY1 ) y = nYmax - nY1 + 1; while( --y >= 0 ) { if( p20 >= (unsigned char*)pImg->data ) { unsigned char* const p22 = p20 + pImg->width * bpp; // dest right limit unsigned char* pDst = p21; const unsigned char* pSrc = p10; for( int x = pRawBitmap->mnWidth; (--x >= 0) && (p22 > pDst); ++pSrc ) { if( (*pSrc == 0) || (p20 > pDst) ) // keep background pDst += bpp; else if( *pSrc == 0xFF ) // paint foreground { const unsigned char* pColor = aColor; for( int z = bpp; --z >= 0; ++pColor, ++pDst ) *pDst = *pColor; } else // blend fg into bg { const unsigned char* pColor = aColor; for( int z = bpp; --z >= 0; ++pColor, ++pDst ) // theoretically it should be *257) >> 16 // but the error is <0.4% worst case and we are in // the innermost loop of very perf-sensitive code *pDst += (*pSrc * ((int)*pColor - *pDst)) >> 8; } } } p10 += pRawBitmap->mnScanlineSize; p20 += pImg->bytes_per_line; p21 += pImg->bytes_per_line; } } } // put XImage XPutImage( pDisplay, hDrawable_, nGC, pImg, 0, 0, nXmin, nYmin, (nXmax - nXmin + 1), (nYmax - nYmin + 1) ); XDestroyImage( pImg ); GetDisplay()->GetXLib()->PopXErrorLevel(); return true; } //-------------------------------------------------------------------------- void X11SalGraphics::DrawServerSimpleFontString( const ServerFontLayout& rSalLayout ) { ServerFont& rFont = rSalLayout.GetServerFont(); X11GlyphPeer& rGlyphPeer = X11GlyphCache::GetInstance().GetPeer(); Display* pDisplay = GetXDisplay(); GC nGC = GetFontGC(); XGCValues aGCVal; aGCVal.fill_style = FillStippled; aGCVal.line_width = 0; GC tmpGC = XCreateGC( pDisplay, hDrawable_, GCFillStyle|GCLineWidth, &aGCVal ); XCopyGC( pDisplay, nGC, (1<16bit coordinate truncation problem in X11 // TODO: reevaluate once displays with >30000 pixels are available if( aPos.X() >= 30000 || aPos.Y() >= 30000 ) continue; Pixmap aStipple = rGlyphPeer.GetPixmap( rFont, nGlyph, m_nScreen ); const GlyphMetric& rGM = rFont.GetGlyphMetric( nGlyph ); if( aStipple != None ) { const int nDestX = aPos.X() + rGM.GetOffset().X(); const int nDestY = aPos.Y() + rGM.GetOffset().Y(); aGCVal.stipple = aStipple; aGCVal.ts_x_origin = nDestX; aGCVal.ts_y_origin = nDestY; XChangeGC( pDisplay, tmpGC, GCStipple|GCTileStipXOrigin|GCTileStipYOrigin, &aGCVal ); const int nWidth = rGM.GetSize().Width(); const int nHeight = rGM.GetSize().Height(); XFillRectangle( pDisplay, hDrawable_, tmpGC, nDestX, nDestY, nWidth, nHeight ); } } XFreeGC( pDisplay, tmpGC ); } //-------------------------------------------------------------------------- void X11SalGraphics::DrawServerFontLayout( const ServerFontLayout& rLayout ) { // draw complex text ServerFont& rFont = rLayout.GetServerFont(); const bool bVertical = rFont.GetFontSelData().mbVertical; if( !bVertical && CairoWrapper::get().isCairoRenderable(rFont) ) DrawCairoAAFontString( rLayout ); else { X11GlyphPeer& rGlyphPeer = X11GlyphCache::GetInstance().GetPeer(); if( rGlyphPeer.GetGlyphSet( rFont, m_nScreen ) ) DrawServerAAFontString( rLayout ); else if( !rGlyphPeer.ForcedAntialiasing( rFont, m_nScreen ) ) DrawServerSimpleFontString( rLayout ); else DrawServerAAForcedString( rLayout ); } } //-------------------------------------------------------------------------- const ImplFontCharMap* X11SalGraphics::GetImplFontCharMap() const { if( !mpServerFont[0] ) return NULL; const ImplFontCharMap* pIFCMap = mpServerFont[0]->GetImplFontCharMap(); return pIFCMap; } // ---------------------------------------------------------------------------- // // SalGraphics // // ---------------------------------------------------------------------------- sal_uInt16 X11SalGraphics::SetFont( ImplFontSelectData *pEntry, int nFallbackLevel ) { sal_uInt16 nRetVal = 0; if( !setFont( pEntry, nFallbackLevel ) ) nRetVal |= SAL_SETFONT_BADFONT; if( bPrinter_ || (mpServerFont[ nFallbackLevel ] != NULL) ) nRetVal |= SAL_SETFONT_USEDRAWTEXTARRAY; return nRetVal; } // ---------------------------------------------------------------------------- void X11SalGraphics::SetTextColor( SalColor nSalColor ) { if( nTextColor_ != nSalColor ) { nTextColor_ = nSalColor; nTextPixel_ = GetPixel( nSalColor ); bFontGC_ = sal_False; } } // ---------------------------------------------------------------------------- bool X11SalGraphics::AddTempDevFont( ImplDevFontList* pFontList, const String& rFileURL, const String& rFontName ) { // inform PSP font manager rtl::OUString aUSystemPath; OSL_VERIFY( !osl::FileBase::getSystemPathFromFileURL( rFileURL, aUSystemPath ) ); rtl_TextEncoding aEncoding = osl_getThreadTextEncoding(); OString aOFileName( OUStringToOString( aUSystemPath, aEncoding ) ); psp::PrintFontManager& rMgr = psp::PrintFontManager::get(); int nFontId = rMgr.addFontFile( aOFileName, 0 ); if( !nFontId ) return false; // prepare font data psp::FastPrintFontInfo aInfo; rMgr.getFontFastInfo( nFontId, aInfo ); aInfo.m_aFamilyName = rFontName; // inform glyph cache of new font ImplDevFontAttributes aDFA = PspGraphics::Info2DevFontAttributes( aInfo ); aDFA.mnQuality += 5800; int nFaceNum = rMgr.getFontFaceNumber( aInfo.m_nID ); if( nFaceNum < 0 ) nFaceNum = 0; GlyphCache& rGC = X11GlyphCache::GetInstance(); const rtl::OString& rFileName = rMgr.getFontFileSysPath( aInfo.m_nID ); rGC.AddFontFile( rFileName, nFaceNum, aInfo.m_nID, aDFA ); // announce new font to device's font list rGC.AnnounceFonts( pFontList ); return true; } // ---------------------------------------------------------------------------- void RegisterFontSubstitutors( ImplDevFontList* ); void X11SalGraphics::GetDevFontList( ImplDevFontList *pList ) { // prepare the GlyphCache using psprint's font infos X11GlyphCache& rGC = X11GlyphCache::GetInstance(); psp::PrintFontManager& rMgr = psp::PrintFontManager::get(); ::std::list< psp::fontID > aList; ::std::list< psp::fontID >::iterator it; psp::FastPrintFontInfo aInfo; rMgr.getFontList( aList ); for( it = aList.begin(); it != aList.end(); ++it ) { if( !rMgr.getFontFastInfo( *it, aInfo ) ) continue; // the GlyphCache must not bother with builtin fonts because // it cannot access or use them anyway if( aInfo.m_eType == psp::fonttype::Builtin ) continue; // normalize face number to the GlyphCache int nFaceNum = rMgr.getFontFaceNumber( aInfo.m_nID ); if( nFaceNum < 0 ) nFaceNum = 0; // for fonts where extra kerning info can be provided on demand // an ExtraKernInfo object is supplied const ExtraKernInfo* pExtraKernInfo = NULL; if( aInfo.m_eType == psp::fonttype::Type1 ) pExtraKernInfo = new PspKernInfo( *it ); // inform GlyphCache about this font provided by the PsPrint subsystem ImplDevFontAttributes aDFA = PspGraphics::Info2DevFontAttributes( aInfo ); aDFA.mnQuality += 4096; const rtl::OString& rFileName = rMgr.getFontFileSysPath( aInfo.m_nID ); rGC.AddFontFile( rFileName, nFaceNum, aInfo.m_nID, aDFA, pExtraKernInfo ); } // announce glyphcache fonts rGC.AnnounceFonts( pList ); // register platform specific font substitutions if available if( rMgr.hasFontconfig() ) RegisterFontSubstitutors( pList ); ImplGetSVData()->maGDIData.mbNativeFontConfig = rMgr.hasFontconfig(); } // ---------------------------------------------------------------------------- void X11SalGraphics::GetDevFontSubstList( OutputDevice* ) { // no device specific font substitutions on X11 needed } // ---------------------------------------------------------------------------- void cairosubcallback( void* pPattern ) { CairoWrapper& rCairo = CairoWrapper::get(); if( !rCairo.isValid() ) return; const StyleSettings& rStyleSettings = Application::GetSettings().GetStyleSettings(); const void* pFontOptions = rStyleSettings.GetCairoFontOptions(); if( !pFontOptions ) return; rCairo.ft_font_options_substitute( pFontOptions, pPattern ); } bool GetFCFontOptions( const ImplFontAttributes& rFontAttributes, int nSize, ImplFontOptions& rFontOptions) { // TODO: get rid of these insane enum-conversions // e.g. by using the classic vclenum values inside VCL psp::FastPrintFontInfo aInfo; // set family name aInfo.m_aFamilyName = rFontAttributes.GetFamilyName(); // set italic switch( rFontAttributes.GetSlant() ) { case ITALIC_NONE: aInfo.m_eItalic = psp::italic::Upright; break; case ITALIC_NORMAL: aInfo.m_eItalic = psp::italic::Italic; break; case ITALIC_OBLIQUE: aInfo.m_eItalic = psp::italic::Oblique; break; default: aInfo.m_eItalic = psp::italic::Unknown; break; } // set weight switch( rFontAttributes.GetWeight() ) { case WEIGHT_THIN: aInfo.m_eWeight = psp::weight::Thin; break; case WEIGHT_ULTRALIGHT: aInfo.m_eWeight = psp::weight::UltraLight; break; case WEIGHT_LIGHT: aInfo.m_eWeight = psp::weight::Light; break; case WEIGHT_SEMILIGHT: aInfo.m_eWeight = psp::weight::SemiLight; break; case WEIGHT_NORMAL: aInfo.m_eWeight = psp::weight::Normal; break; case WEIGHT_MEDIUM: aInfo.m_eWeight = psp::weight::Medium; break; case WEIGHT_SEMIBOLD: aInfo.m_eWeight = psp::weight::SemiBold; break; case WEIGHT_BOLD: aInfo.m_eWeight = psp::weight::Bold; break; case WEIGHT_ULTRABOLD: aInfo.m_eWeight = psp::weight::UltraBold; break; case WEIGHT_BLACK: aInfo.m_eWeight = psp::weight::Black; break; default: aInfo.m_eWeight = psp::weight::Unknown; break; } // set width switch( rFontAttributes.GetWidthType() ) { case WIDTH_ULTRA_CONDENSED: aInfo.m_eWidth = psp::width::UltraCondensed; break; case WIDTH_EXTRA_CONDENSED: aInfo.m_eWidth = psp::width::ExtraCondensed; break; case WIDTH_CONDENSED: aInfo.m_eWidth = psp::width::Condensed; break; case WIDTH_SEMI_CONDENSED: aInfo.m_eWidth = psp::width::SemiCondensed; break; case WIDTH_NORMAL: aInfo.m_eWidth = psp::width::Normal; break; case WIDTH_SEMI_EXPANDED: aInfo.m_eWidth = psp::width::SemiExpanded; break; case WIDTH_EXPANDED: aInfo.m_eWidth = psp::width::Expanded; break; case WIDTH_EXTRA_EXPANDED: aInfo.m_eWidth = psp::width::ExtraExpanded; break; case WIDTH_ULTRA_EXPANDED: aInfo.m_eWidth = psp::width::UltraExpanded; break; default: aInfo.m_eWidth = psp::width::Unknown; break; } const psp::PrintFontManager& rPFM = psp::PrintFontManager::get(); bool bOK = rPFM.getFontOptions( aInfo, nSize, cairosubcallback, rFontOptions); return bOK; } // ---------------------------------------------------------------------------- void X11SalGraphics::GetFontMetric( ImplFontMetricData *pMetric, int nFallbackLevel ) { if( nFallbackLevel >= MAX_FALLBACK ) return; if( mpServerFont[nFallbackLevel] != NULL ) { long rDummyFactor; mpServerFont[nFallbackLevel]->FetchFontMetric( *pMetric, rDummyFactor ); } } // --------------------------------------------------------------------------- sal_uLong X11SalGraphics::GetKernPairs( sal_uLong nPairs, ImplKernPairData *pKernPairs ) { if( ! bPrinter_ ) { if( mpServerFont[0] != NULL ) { ImplKernPairData* pTmpKernPairs; sal_uLong nGotPairs = mpServerFont[0]->GetKernPairs( &pTmpKernPairs ); for( unsigned int i = 0; i < nPairs && i < nGotPairs; ++i ) pKernPairs[ i ] = pTmpKernPairs[ i ]; delete[] pTmpKernPairs; return nGotPairs; } } return 0; } // --------------------------------------------------------------------------- bool X11SalGraphics::GetGlyphBoundRect( sal_GlyphId aGlyphId, Rectangle& rRect ) { const int nLevel = aGlyphId >> GF_FONTSHIFT; if( nLevel >= MAX_FALLBACK ) return false; ServerFont* pSF = mpServerFont[ nLevel ]; if( !pSF ) return false; aGlyphId &= ~GF_FONTMASK; const GlyphMetric& rGM = pSF->GetGlyphMetric( aGlyphId ); rRect = Rectangle( rGM.GetOffset(), rGM.GetSize() ); return true; } // --------------------------------------------------------------------------- bool X11SalGraphics::GetGlyphOutline( sal_GlyphId aGlyphId, ::basegfx::B2DPolyPolygon& rPolyPoly ) { const int nLevel = aGlyphId >> GF_FONTSHIFT; if( nLevel >= MAX_FALLBACK ) return false; ServerFont* pSF = mpServerFont[ nLevel ]; if( !pSF ) return false; aGlyphId &= ~GF_FONTMASK; bool bOK = pSF->GetGlyphOutline( aGlyphId, rPolyPoly ); return bOK; } //-------------------------------------------------------------------------- SalLayout* X11SalGraphics::GetTextLayout( ImplLayoutArgs& rArgs, int nFallbackLevel ) { SalLayout* pLayout = NULL; if( mpServerFont[ nFallbackLevel ] && !(rArgs.mnFlags & SAL_LAYOUT_DISABLE_GLYPH_PROCESSING) ) { #ifdef ENABLE_GRAPHITE // Is this a Graphite font? if (!bDisableGraphite_ && GraphiteFontAdaptor::IsGraphiteEnabledFont(*mpServerFont[nFallbackLevel])) { sal_Int32 xdpi = GetDisplay()->GetResolution().A(); sal_Int32 ydpi = GetDisplay()->GetResolution().B(); GraphiteFontAdaptor * pGrfont = new GraphiteFontAdaptor( *mpServerFont[nFallbackLevel], xdpi, ydpi); if (!pGrfont) return NULL; pLayout = new GraphiteServerFontLayout(pGrfont); } else #endif pLayout = new ServerFontLayout( *mpServerFont[ nFallbackLevel ] ); } return pLayout; } //-------------------------------------------------------------------------- SystemFontData X11SalGraphics::GetSysFontData( int nFallbacklevel ) const { SystemFontData aSysFontData; aSysFontData.nSize = sizeof( SystemFontData ); aSysFontData.nFontId = 0; if (nFallbacklevel >= MAX_FALLBACK) nFallbacklevel = MAX_FALLBACK - 1; if (nFallbacklevel < 0 ) nFallbacklevel = 0; if (mpServerFont[nFallbacklevel] != NULL) { ServerFont* rFont = mpServerFont[nFallbacklevel]; aSysFontData.nFontId = rFont->GetFtFace(); aSysFontData.nFontFlags = rFont->GetLoadFlags(); aSysFontData.bFakeBold = rFont->NeedsArtificialBold(); aSysFontData.bFakeItalic = rFont->NeedsArtificialItalic(); aSysFontData.bAntialias = rFont->GetAntialiasAdvice(); aSysFontData.bVerticalCharacterType = rFont->GetFontSelData().mbVertical; } return aSysFontData; } //-------------------------------------------------------------------------- sal_Bool X11SalGraphics::CreateFontSubset( const rtl::OUString& rToFile, const ImplFontData* pFont, sal_GlyphId* pGlyphIds, sal_uInt8* pEncoding, sal_Int32* pWidths, int nGlyphCount, FontSubsetInfo& rInfo ) { // in this context the pFont->GetFontId() is a valid PSP // font since they are the only ones left after the PDF // export has filtered its list of subsettable fonts (for // which this method was created). The correct way would // be to have the GlyphCache search for the ImplFontData pFont psp::fontID aFont = pFont->GetFontId(); psp::PrintFontManager& rMgr = psp::PrintFontManager::get(); bool bSuccess = rMgr.createFontSubset( rInfo, aFont, rToFile, pGlyphIds, pEncoding, pWidths, nGlyphCount ); return bSuccess; } //-------------------------------------------------------------------------- const void* X11SalGraphics::GetEmbedFontData( const ImplFontData* pFont, const sal_Ucs* pUnicodes, sal_Int32* pWidths, FontSubsetInfo& rInfo, long* pDataLen ) { // in this context the pFont->GetFontId() is a valid PSP // font since they are the only ones left after the PDF // export has filtered its list of subsettable fonts (for // which this method was created). The correct way would // be to have the GlyphCache search for the ImplFontData pFont psp::fontID aFont = pFont->GetFontId(); return PspGraphics::DoGetEmbedFontData( aFont, pUnicodes, pWidths, rInfo, pDataLen ); } //-------------------------------------------------------------------------- void X11SalGraphics::FreeEmbedFontData( const void* pData, long nLen ) { PspGraphics::DoFreeEmbedFontData( pData, nLen ); } //-------------------------------------------------------------------------- const Ucs2SIntMap* X11SalGraphics::GetFontEncodingVector( const ImplFontData* pFont, const Ucs2OStrMap** pNonEncoded ) { // in this context the pFont->GetFontId() is a valid PSP // font since they are the only ones left after the PDF // export has filtered its list of subsettable fonts (for // which this method was created). The correct way would // be to have the GlyphCache search for the ImplFontData pFont psp::fontID aFont = pFont->GetFontId(); return PspGraphics::DoGetFontEncodingVector( aFont, pNonEncoded ); } //-------------------------------------------------------------------------- void X11SalGraphics::GetGlyphWidths( const ImplFontData* pFont, bool bVertical, Int32Vector& rWidths, Ucs2UIntMap& rUnicodeEnc ) { // in this context the pFont->GetFontId() is a valid PSP // font since they are the only ones left after the PDF // export has filtered its list of subsettable fonts (for // which this method was created). The correct way would // be to have the GlyphCache search for the ImplFontData pFont psp::fontID aFont = pFont->GetFontId(); PspGraphics::DoGetGlyphWidths( aFont, bVertical, rWidths, rUnicodeEnc ); } // =========================================================================== // platform specific font substitution hooks class FcPreMatchSubstititution : public ImplPreMatchFontSubstitution { public: bool FindFontSubstitute( ImplFontSelectData& ) const; }; class FcGlyphFallbackSubstititution : public ImplGlyphFallbackFontSubstitution { // TODO: add a cache public: bool FindFontSubstitute( ImplFontSelectData&, OUString& rMissingCodes ) const; }; void RegisterFontSubstitutors( ImplDevFontList* pList ) { // init font substitution defaults int nDisableBits = 0; #ifdef SOLARIS nDisableBits = 1; // disable "font fallback" here on default #endif // apply the environment variable if any const char* pEnvStr = ::getenv( "SAL_DISABLE_FC_SUBST" ); if( pEnvStr ) { if( (*pEnvStr >= '0') && (*pEnvStr <= '9') ) nDisableBits = (*pEnvStr - '0'); else nDisableBits = ~0U; // no specific bits set: disable all } // register font fallback substitutions (unless disabled by bit0) if( (nDisableBits & 1) == 0 ) { static FcPreMatchSubstititution aSubstPreMatch; pList->SetPreMatchHook( &aSubstPreMatch ); } // register glyph fallback substitutions (unless disabled by bit1) if( (nDisableBits & 2) == 0 ) { static FcGlyphFallbackSubstititution aSubstFallback; pList->SetFallbackHook( &aSubstFallback ); } } // ----------------------------------------------------------------------- static ImplFontSelectData GetFcSubstitute(const ImplFontSelectData &rFontSelData, OUString& rMissingCodes ) { ImplFontSelectData aRet(rFontSelData); const rtl::OString aLangAttrib = MsLangId::convertLanguageToIsoByteString( rFontSelData.meLanguage ); psp::italic::type eItalic = psp::italic::Unknown; if( rFontSelData.GetSlant() != ITALIC_DONTKNOW ) { switch( rFontSelData.GetSlant() ) { case ITALIC_NONE: eItalic = psp::italic::Upright; break; case ITALIC_NORMAL: eItalic = psp::italic::Italic; break; case ITALIC_OBLIQUE: eItalic = psp::italic::Oblique; break; default: break; } } psp::weight::type eWeight = psp::weight::Unknown; if( rFontSelData.GetWeight() != WEIGHT_DONTKNOW ) { switch( rFontSelData.GetWeight() ) { case WEIGHT_THIN: eWeight = psp::weight::Thin; break; case WEIGHT_ULTRALIGHT: eWeight = psp::weight::UltraLight; break; case WEIGHT_LIGHT: eWeight = psp::weight::Light; break; case WEIGHT_SEMILIGHT: eWeight = psp::weight::SemiLight; break; case WEIGHT_NORMAL: eWeight = psp::weight::Normal; break; case WEIGHT_MEDIUM: eWeight = psp::weight::Medium; break; case WEIGHT_SEMIBOLD: eWeight = psp::weight::SemiBold; break; case WEIGHT_BOLD: eWeight = psp::weight::Bold; break; case WEIGHT_ULTRABOLD: eWeight = psp::weight::UltraBold; break; case WEIGHT_BLACK: eWeight = psp::weight::Black; break; default: break; } } psp::width::type eWidth = psp::width::Unknown; if( rFontSelData.GetWidthType() != WIDTH_DONTKNOW ) { switch( rFontSelData.GetWidthType() ) { case WIDTH_ULTRA_CONDENSED: eWidth = psp::width::UltraCondensed; break; case WIDTH_EXTRA_CONDENSED: eWidth = psp::width::ExtraCondensed; break; case WIDTH_CONDENSED: eWidth = psp::width::Condensed; break; case WIDTH_SEMI_CONDENSED: eWidth = psp::width::SemiCondensed; break; case WIDTH_NORMAL: eWidth = psp::width::Normal; break; case WIDTH_SEMI_EXPANDED: eWidth = psp::width::SemiExpanded; break; case WIDTH_EXPANDED: eWidth = psp::width::Expanded; break; case WIDTH_EXTRA_EXPANDED: eWidth = psp::width::ExtraExpanded; break; case WIDTH_ULTRA_EXPANDED: eWidth = psp::width::UltraExpanded; break; default: break; } } psp::pitch::type ePitch = psp::pitch::Unknown; if( rFontSelData.GetPitch() != PITCH_DONTKNOW ) { switch( rFontSelData.GetPitch() ) { case PITCH_FIXED: ePitch=psp::pitch::Fixed; break; case PITCH_VARIABLE: ePitch=psp::pitch::Variable; break; default: break; } } const psp::PrintFontManager& rMgr = psp::PrintFontManager::get(); aRet.maSearchName = rMgr.Substitute( rFontSelData.maTargetName, rMissingCodes, aLangAttrib, eItalic, eWeight, eWidth, ePitch); switch (eItalic) { case psp::italic::Upright: aRet.meItalic = ITALIC_NONE; break; case psp::italic::Italic: aRet.meItalic = ITALIC_NORMAL; break; case psp::italic::Oblique: aRet.meItalic = ITALIC_OBLIQUE; break; default: break; } switch (eWeight) { case psp::weight::Thin: aRet.meWeight = WEIGHT_THIN; break; case psp::weight::UltraLight: aRet.meWeight = WEIGHT_ULTRALIGHT; break; case psp::weight::Light: aRet.meWeight = WEIGHT_LIGHT; break; case psp::weight::SemiLight: aRet.meWeight = WEIGHT_SEMILIGHT; break; case psp::weight::Normal: aRet.meWeight = WEIGHT_NORMAL; break; case psp::weight::Medium: aRet.meWeight = WEIGHT_MEDIUM; break; case psp::weight::SemiBold: aRet.meWeight = WEIGHT_SEMIBOLD; break; case psp::weight::Bold: aRet.meWeight = WEIGHT_BOLD; break; case psp::weight::UltraBold: aRet.meWeight = WEIGHT_ULTRABOLD; break; case psp::weight::Black: aRet.meWeight = WEIGHT_BLACK; break; default: break; } switch (eWidth) { case psp::width::UltraCondensed: aRet.meWidthType = WIDTH_ULTRA_CONDENSED; break; case psp::width::ExtraCondensed: aRet.meWidthType = WIDTH_EXTRA_CONDENSED; break; case psp::width::Condensed: aRet.meWidthType = WIDTH_CONDENSED; break; case psp::width::SemiCondensed: aRet.meWidthType = WIDTH_SEMI_CONDENSED; break; case psp::width::Normal: aRet.meWidthType = WIDTH_NORMAL; break; case psp::width::SemiExpanded: aRet.meWidthType = WIDTH_SEMI_EXPANDED; break; case psp::width::Expanded: aRet.meWidthType = WIDTH_EXPANDED; break; case psp::width::ExtraExpanded: aRet.meWidthType = WIDTH_EXTRA_EXPANDED; break; case psp::width::UltraExpanded: aRet.meWidthType = WIDTH_ULTRA_EXPANDED; break; default: break; } switch (ePitch) { case psp::pitch::Fixed: aRet.mePitch = PITCH_FIXED; break; case psp::pitch::Variable: aRet.mePitch = PITCH_VARIABLE; break; default: break; } return aRet; } namespace { bool uselessmatch(const ImplFontSelectData &rOrig, const ImplFontSelectData &rNew) { return ( rOrig.maTargetName == rNew.maSearchName && rOrig.meWeight == rNew.meWeight && rOrig.meItalic == rNew.meItalic && rOrig.mePitch == rNew.mePitch && rOrig.meWidthType == rNew.meWidthType ); } } //-------------------------------------------------------------------------- bool FcPreMatchSubstititution::FindFontSubstitute( ImplFontSelectData &rFontSelData ) const { // We dont' actually want to talk to Fontconfig at all for symbol fonts if( rFontSelData.IsSymbolFont() ) return false; // StarSymbol is a unicode font, but it still deserves the symbol flag if( 0 == rFontSelData.maSearchName.CompareIgnoreCaseToAscii( "starsymbol", 10) || 0 == rFontSelData.maSearchName.CompareIgnoreCaseToAscii( "opensymbol", 10) ) return false; rtl::OUString aDummy; const ImplFontSelectData aOut = GetFcSubstitute( rFontSelData, aDummy ); // TODO: cache the font substitution suggestion // FC doing it would be preferable because it knows the invariables // e.g. FC knows the FC rule that all Arial gets replaced by LiberationSans // whereas we would have to check for every size or attribute if( !aOut.maSearchName.Len() ) return false; const bool bHaveSubstitute = !uselessmatch( rFontSelData, aOut ); #ifdef DEBUG const ByteString aOrigName( rFontSelData.maTargetName, RTL_TEXTENCODING_UTF8 ); const ByteString aSubstName( aOut.maSearchName, RTL_TEXTENCODING_UTF8 ); printf( "FcPreMatchSubstititution \"%s\" bipw=%d%d%d%d -> ", aOrigName.GetBuffer(), rFontSelData.meWeight, rFontSelData.meItalic, rFontSelData.mePitch, rFontSelData.meWidthType ); if( !bHaveSubstitute ) printf( "no substitute available\n" ); else printf( "\"%s\" bipw=%d%d%d%d\n", aSubstName.GetBuffer(), aOut.meWeight, aOut.meItalic, aOut.mePitch, aOut.meWidthType ); #endif if( bHaveSubstitute ) rFontSelData = aOut; return bHaveSubstitute; } // ----------------------------------------------------------------------- bool FcGlyphFallbackSubstititution::FindFontSubstitute( ImplFontSelectData& rFontSelData, rtl::OUString& rMissingCodes ) const { // We dont' actually want to talk to Fontconfig at all for symbol fonts if( rFontSelData.IsSymbolFont() ) return false; // StarSymbol is a unicode font, but it still deserves the symbol flag if( 0 == rFontSelData.maSearchName.CompareIgnoreCaseToAscii( "starsymbol", 10) || 0 == rFontSelData.maSearchName.CompareIgnoreCaseToAscii( "opensymbol", 10) ) return false; const ImplFontSelectData aOut = GetFcSubstitute( rFontSelData, rMissingCodes ); // TODO: cache the unicode + srcfont specific result // FC doing it would be preferable because it knows the invariables // e.g. FC knows the FC rule that all Arial gets replaced by LiberationSans // whereas we would have to check for every size or attribute if( !aOut.maSearchName.Len() ) return false; const bool bHaveSubstitute = !uselessmatch( rFontSelData, aOut ); #ifdef DEBUG const ByteString aOrigName( rFontSelData.maTargetName, RTL_TEXTENCODING_UTF8 ); const ByteString aSubstName( aOut.maSearchName, RTL_TEXTENCODING_UTF8 ); printf( "FcGFSubstititution \"%s\" bipw=%d%d%d%d ->", aOrigName.GetBuffer(), rFontSelData.meWeight, rFontSelData.meItalic, rFontSelData.mePitch, rFontSelData.meWidthType ); if( !bHaveSubstitute ) printf( "no substitute available\n" ); else printf( "\"%s\" bipw=%d%d%d%d\n", aSubstName.GetBuffer(), aOut.meWeight, aOut.meItalic, aOut.mePitch, aOut.meWidthType ); #endif if( bHaveSubstitute ) rFontSelData = aOut; return bHaveSubstitute; } // ===========================================================================