/* * Copyright (C) 2000 Lars Knoll (knoll@kde.org) * (C) 2000 Antti Koivisto (koivisto@kde.org) * (C) 2000 Dirk Mueller (mueller@kde.org) * Copyright (C) 2003, 2006, 2007, 2010, 2011 Apple Inc. All rights reserved. * Copyright (C) 2008 Holger Hans Peter Freyther * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. * */ #ifndef Font_h #define Font_h #include "DashArray.h" #include "FontDescription.h" #include "FontGlyphs.h" #include "Path.h" #include "SimpleFontData.h" #include "TextDirection.h" #include "TypesettingFeatures.h" #include #include #include // "X11/X.h" defines Complex to 0 and conflicts // with Complex value in CodePath enum. #ifdef Complex #undef Complex #endif namespace WebCore { class FloatPoint; class FloatRect; class FontData; class FontMetrics; class FontPlatformData; class FontSelector; class GlyphBuffer; class GraphicsContext; class LayoutRect; class RenderText; class TextLayout; class TextRun; struct GlyphData; struct GlyphOverflow { GlyphOverflow() : left(0) , right(0) , top(0) , bottom(0) , computeBounds(false) { } inline bool isEmpty() { return !left && !right && !top && !bottom; } inline void extendTo(const GlyphOverflow& other) { left = std::max(left, other.left); right = std::max(right, other.right); top = std::max(top, other.top); bottom = std::max(bottom, other.bottom); } bool operator!=(const GlyphOverflow& other) { return left != other.left || right != other.right || top != other.top || bottom != other.bottom; } int left; int right; int top; int bottom; bool computeBounds; }; class GlyphToPathTranslator { public: enum class GlyphUnderlineType {SkipDescenders, SkipGlyph, DrawOverGlyph}; virtual bool containsMorePaths() = 0; virtual Path path() = 0; virtual std::pair extents() = 0; virtual GlyphUnderlineType underlineType() = 0; virtual void advance() = 0; virtual ~GlyphToPathTranslator() { } }; GlyphToPathTranslator::GlyphUnderlineType computeUnderlineType(const TextRun&, const GlyphBuffer&, int index); class Font { public: WEBCORE_EXPORT Font(); WEBCORE_EXPORT Font(const FontDescription&, float letterSpacing, float wordSpacing); // This constructor is only used if the platform wants to start with a native font. WEBCORE_EXPORT Font(const FontPlatformData&, bool isPrinting, FontSmoothingMode = AutoSmoothing); // FIXME: We should make this constructor platform-independent. #if PLATFORM(IOS) Font(const FontPlatformData&, PassRefPtr); #endif ~Font(); Font(const Font&); WEBCORE_EXPORT Font& operator=(const Font&); WEBCORE_EXPORT bool operator==(const Font& other) const; bool operator!=(const Font& other) const { return !(*this == other); } const FontDescription& fontDescription() const { return m_fontDescription; } int pixelSize() const { return fontDescription().computedPixelSize(); } float size() const { return fontDescription().computedSize(); } void update(PassRefPtr) const; enum CustomFontNotReadyAction { DoNotPaintIfFontNotReady, UseFallbackIfFontNotReady }; WEBCORE_EXPORT float drawText(GraphicsContext*, const TextRun&, const FloatPoint&, int from = 0, int to = -1, CustomFontNotReadyAction = DoNotPaintIfFontNotReady) const; void drawGlyphs(GraphicsContext*, const SimpleFontData*, const GlyphBuffer&, int from, int numGlyphs, const FloatPoint&) const; void drawEmphasisMarks(GraphicsContext*, const TextRun&, const AtomicString& mark, const FloatPoint&, int from = 0, int to = -1) const; DashArray dashesForIntersectionsWithRect(const TextRun&, const FloatPoint& textOrigin, const FloatRect& lineExtents) const; WEBCORE_EXPORT float width(const TextRun&, HashSet* fallbackFonts = 0, GlyphOverflow* = 0) const; float width(const TextRun&, int& charsConsumed, String& glyphName) const; PassOwnPtr createLayout(RenderText*, float xPos, bool collapseWhiteSpace) const; static void deleteLayout(TextLayout*); static float width(TextLayout&, unsigned from, unsigned len, HashSet* fallbackFonts = 0); int offsetForPosition(const TextRun&, float position, bool includePartialGlyphs) const; void adjustSelectionRectForText(const TextRun&, LayoutRect& selectionRect, int from = 0, int to = -1) const; bool isSmallCaps() const { return m_fontDescription.smallCaps(); } float wordSpacing() const { return m_wordSpacing; } float letterSpacing() const { return m_letterSpacing; } void setWordSpacing(float s) { m_wordSpacing = s; } void setLetterSpacing(float s) { m_letterSpacing = s; } bool isFixedPitch() const; bool isPrinterFont() const { return m_fontDescription.usePrinterFont(); } FontRenderingMode renderingMode() const { return m_fontDescription.renderingMode(); } TypesettingFeatures typesettingFeatures() const { return static_cast(m_typesettingFeatures); } const AtomicString& firstFamily() const { return m_fontDescription.firstFamily(); } unsigned familyCount() const { return m_fontDescription.familyCount(); } const AtomicString& familyAt(unsigned i) const { return m_fontDescription.familyAt(i); } FontItalic italic() const { return m_fontDescription.italic(); } FontWeight weight() const { return m_fontDescription.weight(); } FontWidthVariant widthVariant() const { return m_fontDescription.widthVariant(); } bool isPlatformFont() const { return m_glyphs->isForPlatformFont(); } const FontMetrics& fontMetrics() const { return primaryFont()->fontMetrics(); } float spaceWidth() const { return primaryFont()->spaceWidth() + m_letterSpacing; } float tabWidth(const SimpleFontData&, unsigned tabSize, float position) const; float tabWidth(unsigned tabSize, float position) const { return tabWidth(*primaryFont(), tabSize, position); } bool hasValidAverageCharWidth() const; bool fastAverageCharWidthIfAvailable(float &width) const; // returns true on success int emphasisMarkAscent(const AtomicString&) const; int emphasisMarkDescent(const AtomicString&) const; int emphasisMarkHeight(const AtomicString&) const; const SimpleFontData* primaryFont() const; const FontData* fontDataAt(unsigned) const; GlyphData glyphDataForCharacter(UChar32 c, bool mirror, FontDataVariant variant = AutoVariant) const { return glyphDataAndPageForCharacter(c, mirror, variant).first; } #if PLATFORM(COCOA) const SimpleFontData* fontDataForCombiningCharacterSequence(const UChar*, size_t length, FontDataVariant) const; #endif std::pair glyphDataAndPageForCharacter(UChar32 c, bool mirror, FontDataVariant variant) const { return m_glyphs->glyphDataAndPageForCharacter(m_fontDescription, c, mirror, variant); } bool primaryFontHasGlyphForCharacter(UChar32) const; static bool isCJKIdeograph(UChar32); static bool isCJKIdeographOrSymbol(UChar32); static unsigned expansionOpportunityCount(const StringView&, TextDirection, bool& isAfterExpansion); WEBCORE_EXPORT static void setShouldUseSmoothing(bool); WEBCORE_EXPORT static bool shouldUseSmoothing(); enum CodePath { Auto, Simple, Complex, SimpleWithGlyphOverflow }; CodePath codePath(const TextRun&) const; static CodePath characterRangeCodePath(const LChar*, unsigned) { return Simple; } static CodePath characterRangeCodePath(const UChar*, unsigned len); bool primaryFontDataIsSystemFont() const; private: enum ForTextEmphasisOrNot { NotForTextEmphasis, ForTextEmphasis }; // Returns the initial in-stream advance. float getGlyphsAndAdvancesForSimpleText(const TextRun&, int from, int to, GlyphBuffer&, ForTextEmphasisOrNot = NotForTextEmphasis) const; float drawSimpleText(GraphicsContext*, const TextRun&, const FloatPoint&, int from, int to) const; void drawEmphasisMarksForSimpleText(GraphicsContext*, const TextRun&, const AtomicString& mark, const FloatPoint&, int from, int to) const; void drawGlyphBuffer(GraphicsContext*, const TextRun&, const GlyphBuffer&, FloatPoint&) const; void drawEmphasisMarks(GraphicsContext*, const TextRun&, const GlyphBuffer&, const AtomicString&, const FloatPoint&) const; float floatWidthForSimpleText(const TextRun&, HashSet* fallbackFonts = 0, GlyphOverflow* = 0) const; int offsetForPositionForSimpleText(const TextRun&, float position, bool includePartialGlyphs) const; void adjustSelectionRectForSimpleText(const TextRun&, LayoutRect& selectionRect, int from, int to) const; bool getEmphasisMarkGlyphData(const AtomicString&, GlyphData&) const; static bool canReturnFallbackFontsForComplexText(); static bool canExpandAroundIdeographsInComplexText(); // Returns the initial in-stream advance. float getGlyphsAndAdvancesForComplexText(const TextRun&, int from, int to, GlyphBuffer&, ForTextEmphasisOrNot = NotForTextEmphasis) const; float drawComplexText(GraphicsContext*, const TextRun&, const FloatPoint&, int from, int to) const; void drawEmphasisMarksForComplexText(GraphicsContext*, const TextRun&, const AtomicString& mark, const FloatPoint&, int from, int to) const; float floatWidthForComplexText(const TextRun&, HashSet* fallbackFonts = 0, GlyphOverflow* = 0) const; int offsetForPositionForComplexText(const TextRun&, float position, bool includePartialGlyphs) const; void adjustSelectionRectForComplexText(const TextRun&, LayoutRect& selectionRect, int from, int to) const; static unsigned expansionOpportunityCountInternal(const LChar*, size_t length, TextDirection, bool& isAfterExpansion); static unsigned expansionOpportunityCountInternal(const UChar*, size_t length, TextDirection, bool& isAfterExpansion); friend struct WidthIterator; friend class SVGTextRunRenderingContext; public: #if ENABLE(IOS_TEXT_AUTOSIZING) bool equalForTextAutoSizing(const Font& other) const { return m_fontDescription.equalForTextAutoSizing(other.m_fontDescription) && m_letterSpacing == other.m_letterSpacing && m_wordSpacing == other.m_wordSpacing; } #endif // Useful for debugging the different font rendering code paths. WEBCORE_EXPORT static void setCodePath(CodePath); static CodePath codePath(); static CodePath s_codePath; WEBCORE_EXPORT static void setDefaultTypesettingFeatures(TypesettingFeatures); static TypesettingFeatures defaultTypesettingFeatures(); static const uint8_t s_roundingHackCharacterTable[256]; static bool isRoundingHackCharacter(UChar32 c) { return !(c & ~0xFF) && s_roundingHackCharacterTable[c]; } FontSelector* fontSelector() const; static bool treatAsSpace(UChar c) { return c == ' ' || c == '\t' || c == '\n' || c == noBreakSpace; } static bool treatAsZeroWidthSpace(UChar c) { return treatAsZeroWidthSpaceInComplexScript(c) || c == 0x200c || c == 0x200d; } static bool treatAsZeroWidthSpaceInComplexScript(UChar c) { return c < 0x20 || (c >= 0x7F && c < 0xA0) || c == softHyphen || c == zeroWidthSpace || (c >= 0x200e && c <= 0x200f) || (c >= 0x202a && c <= 0x202e) || c == zeroWidthNoBreakSpace || c == objectReplacementCharacter; } static bool canReceiveTextEmphasis(UChar32 c); static inline UChar normalizeSpaces(UChar character) { if (treatAsSpace(character)) return space; if (treatAsZeroWidthSpace(character)) return zeroWidthSpace; return character; } static String normalizeSpaces(const LChar*, unsigned length); static String normalizeSpaces(const UChar*, unsigned length); bool useBackslashAsYenSymbol() const { return m_useBackslashAsYenSymbol; } FontGlyphs* glyphs() const { return m_glyphs.get(); } private: bool loadingCustomFonts() const { return m_glyphs && m_glyphs->loadingCustomFonts(); } TypesettingFeatures computeTypesettingFeatures() const { TextRenderingMode textRenderingMode = m_fontDescription.textRenderingMode(); TypesettingFeatures features = s_defaultTypesettingFeatures; switch (textRenderingMode) { case AutoTextRendering: break; case OptimizeSpeed: features &= ~(Kerning | Ligatures); break; case GeometricPrecision: case OptimizeLegibility: features |= Kerning | Ligatures; break; } switch (m_fontDescription.kerning()) { case FontDescription::NoneKerning: features &= ~Kerning; break; case FontDescription::NormalKerning: features |= Kerning; break; case FontDescription::AutoKerning: break; } switch (m_fontDescription.commonLigaturesState()) { case FontDescription::DisabledLigaturesState: features &= ~Ligatures; break; case FontDescription::EnabledLigaturesState: features |= Ligatures; break; case FontDescription::NormalLigaturesState: break; } return features; } static TypesettingFeatures s_defaultTypesettingFeatures; FontDescription m_fontDescription; mutable RefPtr m_glyphs; float m_letterSpacing; float m_wordSpacing; mutable bool m_useBackslashAsYenSymbol; mutable unsigned m_typesettingFeatures : 2; // (TypesettingFeatures) Caches values computed from m_fontDescription. }; void invalidateFontGlyphsCache(); void pruneUnreferencedEntriesFromFontGlyphsCache(); void clearWidthCaches(); inline Font::~Font() { } inline const SimpleFontData* Font::primaryFont() const { ASSERT(m_glyphs); return m_glyphs->primarySimpleFontData(m_fontDescription); } inline const FontData* Font::fontDataAt(unsigned index) const { ASSERT(m_glyphs); return m_glyphs->realizeFontDataAt(m_fontDescription, index); } inline bool Font::isFixedPitch() const { ASSERT(m_glyphs); return m_glyphs->isFixedPitch(m_fontDescription); } inline FontSelector* Font::fontSelector() const { return m_glyphs ? m_glyphs->fontSelector() : 0; } inline float Font::tabWidth(const SimpleFontData& fontData, unsigned tabSize, float position) const { if (!tabSize) return letterSpacing(); float tabWidth = tabSize * fontData.spaceWidth() + letterSpacing(); float tabDeltaWidth = tabWidth - fmodf(position, tabWidth); return (tabDeltaWidth < fontData.spaceWidth() / 2) ? tabWidth : tabDeltaWidth; } } namespace WTF { template <> void deleteOwnedPtr(WebCore::TextLayout*); } #endif