Source/WebCore/platform/graphics/ComplexTextController.h - WebKit - Git at Google

 /*
  * Copyright (C) 2007, 2008, 2009, 2011 Apple Inc. All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS'' AND ANY
  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
  * DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS BE LIABLE FOR ANY
  * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
  * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
  * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 #pragma once

 #include "FloatPoint.h"
 #include "GlyphBuffer.h"
 #include <wtf/HashSet.h>
 #include <wtf/RefCounted.h>
 #include <wtf/RetainPtr.h>
 #include <wtf/Vector.h>
 #include <wtf/text/WTFString.h>

 typedef unsigned short CGGlyph;

 typedef const struct __CTRun * CTRunRef;
 typedef const struct __CTLine * CTLineRef;

 typedef struct hb_buffer_t hb_buffer_t;

 namespace WebCore {

 class FontCascade;
 class Font;
 class TextRun;

 enum GlyphIterationStyle { IncludePartialGlyphs, ByWholeGlyphs };

 // See https://trac.webkit.org/wiki/ComplexTextController for more information about ComplexTextController.
 class ComplexTextController {
     WTF_MAKE_FAST_ALLOCATED;
 public:
     ComplexTextController(const FontCascade&, const TextRun&, bool mayUseNaturalWritingDirection = false, HashSet<const Font*>* fallbackFonts = 0, bool forTextEmphasis = false);

     class ComplexTextRun;
     WEBCORE_EXPORT ComplexTextController(const FontCascade&, const TextRun&, Vector<Ref<ComplexTextRun>>&);

     // Advance and emit glyphs up to the specified character.
     WEBCORE_EXPORT void advance(unsigned to, GlyphBuffer* = nullptr, GlyphIterationStyle = IncludePartialGlyphs, HashSet<const Font*>* fallbackFonts = nullptr);

     // Compute the character offset for a given x coordinate.
     unsigned offsetForPosition(float x, bool includePartialGlyphs);

     // Returns the width of everything we've consumed so far.
     float runWidthSoFar() const { return m_runWidthSoFar; }

     FloatSize totalAdvance() const { return m_totalAdvance; }

     float minGlyphBoundingBoxX() const { return m_minGlyphBoundingBoxX; }
     float maxGlyphBoundingBoxX() const { return m_maxGlyphBoundingBoxX; }
     float minGlyphBoundingBoxY() const { return m_minGlyphBoundingBoxY; }
     float maxGlyphBoundingBoxY() const { return m_maxGlyphBoundingBoxY; }

     class ComplexTextRun : public RefCounted<ComplexTextRun> {
     public:
         static Ref<ComplexTextRun> create(CTRunRef ctRun, const Font& font, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd)
         {
             return adoptRef(*new ComplexTextRun(ctRun, font, characters, stringLocation, stringLength, indexBegin, indexEnd));
         }

         static Ref<ComplexTextRun> create(hb_buffer_t* buffer, const Font& font, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd)
         {
             return adoptRef(*new ComplexTextRun(buffer, font, characters, stringLocation, stringLength, indexBegin, indexEnd));
         }

         static Ref<ComplexTextRun> create(const Font& font, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd, bool ltr)
         {
             return adoptRef(*new ComplexTextRun(font, characters, stringLocation, stringLength, indexBegin, indexEnd, ltr));
         }

         static Ref<ComplexTextRun> create(const Vector<FloatSize>& advances, const Vector<FloatPoint>& origins, const Vector<Glyph>& glyphs, const Vector<unsigned>& stringIndices, FloatSize initialAdvance, const Font& font, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd, bool ltr)
         {
             return adoptRef(*new ComplexTextRun(advances, origins, glyphs, stringIndices, initialAdvance, font, characters, stringLocation, stringLength, indexBegin, indexEnd, ltr));
         }

         unsigned glyphCount() const { return m_glyphCount; }
         const Font& font() const { return m_font; }
         const UChar* characters() const { return m_characters; }
         unsigned stringLocation() const { return m_stringLocation; }
         unsigned stringLength() const { return m_stringLength; }
         ALWAYS_INLINE unsigned indexAt(unsigned) const;
         unsigned indexBegin() const { return m_indexBegin; }
         unsigned indexEnd() const { return m_indexEnd; }
         unsigned endOffsetAt(unsigned i) const { ASSERT(!m_isMonotonic); return m_glyphEndOffsets[i]; }
         const CGGlyph* glyphs() const { return m_glyphs.data(); }

         void growInitialAdvanceHorizontally(float delta) { m_initialAdvance.expand(delta, 0); }
         FloatSize initialAdvance() const { return m_initialAdvance; }
         const FloatSize* baseAdvances() const { return m_baseAdvances.data(); }
         const FloatPoint* glyphOrigins() const { return m_glyphOrigins.size() == glyphCount() ? m_glyphOrigins.data() : nullptr; }
         bool isLTR() const { return m_isLTR; }
         bool isMonotonic() const { return m_isMonotonic; }
         void setIsNonMonotonic();

     private:
         ComplexTextRun(CTRunRef, const Font&, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd);
         ComplexTextRun(hb_buffer_t*, const Font&, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd);
         ComplexTextRun(const Font&, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd, bool ltr);
         WEBCORE_EXPORT ComplexTextRun(const Vector<FloatSize>& advances, const Vector<FloatPoint>& origins, const Vector<Glyph>& glyphs, const Vector<unsigned>& stringIndices, FloatSize initialAdvance, const Font&, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd, bool ltr);

         Vector<FloatSize, 64> m_baseAdvances;
         Vector<FloatPoint, 64> m_glyphOrigins;
         Vector<CGGlyph, 64> m_glyphs;
         Vector<unsigned, 64> m_glyphEndOffsets;
         Vector<unsigned, 64> m_coreTextIndices;
         FloatSize m_initialAdvance;
         const Font& m_font;
         const UChar* m_characters;
         unsigned m_stringLength;
         unsigned m_indexBegin;
         unsigned m_indexEnd;
         unsigned m_glyphCount;
         unsigned m_stringLocation;
         bool m_isLTR;
         bool m_isMonotonic { true };
     };
 private:
     void computeExpansionOpportunity();
     void finishConstruction();

     static unsigned stringBegin(const ComplexTextRun& run) { return run.stringLocation() + run.indexBegin(); }
     static unsigned stringEnd(const ComplexTextRun& run) { return run.stringLocation() + run.indexEnd(); }

     void collectComplexTextRuns();

     void collectComplexTextRunsForCharacters(const UChar*, unsigned length, unsigned stringLocation, const Font*);
     void adjustGlyphsAndAdvances();

     unsigned indexOfCurrentRun(unsigned& leftmostGlyph);
     unsigned incrementCurrentRun(unsigned& leftmostGlyph);

     float runWidthSoFarFraction(unsigned glyphStartOffset, unsigned glyphEndOffset, unsigned oldCharacterInCurrentGlyph, GlyphIterationStyle) const;

     FloatPoint glyphOrigin(unsigned index) const { return index < m_glyphOrigins.size() ? m_glyphOrigins[index] : FloatPoint(); }

     Vector<FloatSize, 256> m_adjustedBaseAdvances;
     Vector<FloatPoint, 256> m_glyphOrigins;
     Vector<CGGlyph, 256> m_adjustedGlyphs;

     Vector<UChar, 256> m_smallCapsBuffer;

     // There is a 3-level hierarchy here. At the top, we are interested in m_run.string(). We partition that string
     // into Lines, each of which is a sequence of characters which should use the same Font. Core Text then partitions
     // the Line into ComplexTextRuns.
     // ComplexTextRun::stringLocation() and ComplexTextRun::stringLength() refer to the offset and length of the Line
     // relative to m_run.string(). ComplexTextRun::indexAt() returns to the offset of a codepoint relative to
     // its Line. ComplexTextRun::glyphs() and ComplexTextRun::advances() refer to glyphs relative to the ComplexTextRun.
     // The length of the entire TextRun is m_run.length()
     Vector<RefPtr<ComplexTextRun>, 16> m_complexTextRuns;

     // The initial capacity of these vectors was selected as being the smallest power of two greater than
     // the average (3.5) plus one standard deviation (7.5) of nonzero sizes used on Arabic Wikipedia.
     Vector<unsigned, 16> m_runIndices;
     Vector<unsigned, 16> m_glyphCountFromStartToIndex;

 #if PLATFORM(COCOA)
     Vector<RetainPtr<CTLineRef>> m_coreTextLines;
 #endif

     Vector<String> m_stringsFor8BitRuns;

     HashSet<const Font*>* m_fallbackFonts { nullptr };

     const FontCascade& m_font;
     const TextRun& m_run;

     unsigned m_currentCharacter { 0 };
     unsigned m_end { 0 };

     FloatSize m_totalAdvance;
     float m_runWidthSoFar { 0 };
     unsigned m_numGlyphsSoFar { 0 };
     unsigned m_currentRun { 0 };
     unsigned m_glyphInCurrentRun { 0 };
     unsigned m_characterInCurrentGlyph { 0 };
     float m_expansion { 0 };
     float m_expansionPerOpportunity { 0 };

     float m_minGlyphBoundingBoxX { std::numeric_limits<float>::max() };
     float m_maxGlyphBoundingBoxX { std::numeric_limits<float>::min() };
     float m_minGlyphBoundingBoxY { std::numeric_limits<float>::max() };
     float m_maxGlyphBoundingBoxY { std::numeric_limits<float>::min() };

     bool m_isLTROnly { true };
     bool m_mayUseNaturalWritingDirection { false };
     bool m_forTextEmphasis { false };
 };

 } // namespace WebCore
	/*
	* Copyright (C) 2007, 2008, 2009, 2011 Apple Inc. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS'' AND ANY
	* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
	* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
	* DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS BE LIABLE FOR ANY
	* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
	* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
	* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
	* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
	* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#pragma once

	#include "FloatPoint.h"
	#include "GlyphBuffer.h"
	#include <wtf/HashSet.h>
	#include <wtf/RefCounted.h>
	#include <wtf/RetainPtr.h>
	#include <wtf/Vector.h>
	#include <wtf/text/WTFString.h>

	typedef unsigned short CGGlyph;

	typedef const struct __CTRun * CTRunRef;
	typedef const struct __CTLine * CTLineRef;

	typedef struct hb_buffer_t hb_buffer_t;

	namespace WebCore {

	class FontCascade;
	class Font;
	class TextRun;

	enum GlyphIterationStyle { IncludePartialGlyphs, ByWholeGlyphs };

	// See https://trac.webkit.org/wiki/ComplexTextController for more information about ComplexTextController.
	class ComplexTextController {
	WTF_MAKE_FAST_ALLOCATED;
	public:
	ComplexTextController(const FontCascade&, const TextRun&, bool mayUseNaturalWritingDirection = false, HashSet<const Font> fallbackFonts = 0, bool forTextEmphasis = false);

	class ComplexTextRun;
	WEBCORE_EXPORT ComplexTextController(const FontCascade&, const TextRun&, Vector<Ref<ComplexTextRun>>&);

	// Advance and emit glyphs up to the specified character.
	WEBCORE_EXPORT void advance(unsigned to, GlyphBuffer* = nullptr, GlyphIterationStyle = IncludePartialGlyphs, HashSet<const Font> fallbackFonts = nullptr);

	// Compute the character offset for a given x coordinate.
	unsigned offsetForPosition(float x, bool includePartialGlyphs);

	// Returns the width of everything we've consumed so far.
	float runWidthSoFar() const { return m_runWidthSoFar; }

	FloatSize totalAdvance() const { return m_totalAdvance; }

	float minGlyphBoundingBoxX() const { return m_minGlyphBoundingBoxX; }
	float maxGlyphBoundingBoxX() const { return m_maxGlyphBoundingBoxX; }
	float minGlyphBoundingBoxY() const { return m_minGlyphBoundingBoxY; }
	float maxGlyphBoundingBoxY() const { return m_maxGlyphBoundingBoxY; }

	class ComplexTextRun : public RefCounted<ComplexTextRun> {
	public:
	static Ref<ComplexTextRun> create(CTRunRef ctRun, const Font& font, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd)
	{
	return adoptRef(*new ComplexTextRun(ctRun, font, characters, stringLocation, stringLength, indexBegin, indexEnd));
	}

	static Ref<ComplexTextRun> create(hb_buffer_t* buffer, const Font& font, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd)
	{
	return adoptRef(*new ComplexTextRun(buffer, font, characters, stringLocation, stringLength, indexBegin, indexEnd));
	}

	static Ref<ComplexTextRun> create(const Font& font, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd, bool ltr)
	{
	return adoptRef(*new ComplexTextRun(font, characters, stringLocation, stringLength, indexBegin, indexEnd, ltr));
	}

	static Ref<ComplexTextRun> create(const Vector<FloatSize>& advances, const Vector<FloatPoint>& origins, const Vector<Glyph>& glyphs, const Vector<unsigned>& stringIndices, FloatSize initialAdvance, const Font& font, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd, bool ltr)
	{
	return adoptRef(*new ComplexTextRun(advances, origins, glyphs, stringIndices, initialAdvance, font, characters, stringLocation, stringLength, indexBegin, indexEnd, ltr));
	}

	unsigned glyphCount() const { return m_glyphCount; }
	const Font& font() const { return m_font; }
	const UChar* characters() const { return m_characters; }
	unsigned stringLocation() const { return m_stringLocation; }
	unsigned stringLength() const { return m_stringLength; }
	ALWAYS_INLINE unsigned indexAt(unsigned) const;
	unsigned indexBegin() const { return m_indexBegin; }
	unsigned indexEnd() const { return m_indexEnd; }
	unsigned endOffsetAt(unsigned i) const { ASSERT(!m_isMonotonic); return m_glyphEndOffsets[i]; }
	const CGGlyph* glyphs() const { return m_glyphs.data(); }

	void growInitialAdvanceHorizontally(float delta) { m_initialAdvance.expand(delta, 0); }
	FloatSize initialAdvance() const { return m_initialAdvance; }
	const FloatSize* baseAdvances() const { return m_baseAdvances.data(); }
	const FloatPoint* glyphOrigins() const { return m_glyphOrigins.size() == glyphCount() ? m_glyphOrigins.data() : nullptr; }
	bool isLTR() const { return m_isLTR; }
	bool isMonotonic() const { return m_isMonotonic; }
	void setIsNonMonotonic();

	private:
	ComplexTextRun(CTRunRef, const Font&, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd);
	ComplexTextRun(hb_buffer_t, const Font&, const UChar characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd);
	ComplexTextRun(const Font&, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd, bool ltr);
	WEBCORE_EXPORT ComplexTextRun(const Vector<FloatSize>& advances, const Vector<FloatPoint>& origins, const Vector<Glyph>& glyphs, const Vector<unsigned>& stringIndices, FloatSize initialAdvance, const Font&, const UChar* characters, unsigned stringLocation, unsigned stringLength, unsigned indexBegin, unsigned indexEnd, bool ltr);

	Vector<FloatSize, 64> m_baseAdvances;
	Vector<FloatPoint, 64> m_glyphOrigins;
	Vector<CGGlyph, 64> m_glyphs;
	Vector<unsigned, 64> m_glyphEndOffsets;
	Vector<unsigned, 64> m_coreTextIndices;
	FloatSize m_initialAdvance;
	const Font& m_font;
	const UChar* m_characters;
	unsigned m_stringLength;
	unsigned m_indexBegin;
	unsigned m_indexEnd;
	unsigned m_glyphCount;
	unsigned m_stringLocation;
	bool m_isLTR;
	bool m_isMonotonic { true };
	};
	private:
	void computeExpansionOpportunity();
	void finishConstruction();

	static unsigned stringBegin(const ComplexTextRun& run) { return run.stringLocation() + run.indexBegin(); }
	static unsigned stringEnd(const ComplexTextRun& run) { return run.stringLocation() + run.indexEnd(); }

	void collectComplexTextRuns();

	void collectComplexTextRunsForCharacters(const UChar, unsigned length, unsigned stringLocation, const Font);
	void adjustGlyphsAndAdvances();

	unsigned indexOfCurrentRun(unsigned& leftmostGlyph);
	unsigned incrementCurrentRun(unsigned& leftmostGlyph);

	float runWidthSoFarFraction(unsigned glyphStartOffset, unsigned glyphEndOffset, unsigned oldCharacterInCurrentGlyph, GlyphIterationStyle) const;

	FloatPoint glyphOrigin(unsigned index) const { return index < m_glyphOrigins.size() ? m_glyphOrigins[index] : FloatPoint(); }

	Vector<FloatSize, 256> m_adjustedBaseAdvances;
	Vector<FloatPoint, 256> m_glyphOrigins;
	Vector<CGGlyph, 256> m_adjustedGlyphs;

	Vector<UChar, 256> m_smallCapsBuffer;

	// There is a 3-level hierarchy here. At the top, we are interested in m_run.string(). We partition that string
	// into Lines, each of which is a sequence of characters which should use the same Font. Core Text then partitions
	// the Line into ComplexTextRuns.
	// ComplexTextRun::stringLocation() and ComplexTextRun::stringLength() refer to the offset and length of the Line
	// relative to m_run.string(). ComplexTextRun::indexAt() returns to the offset of a codepoint relative to
	// its Line. ComplexTextRun::glyphs() and ComplexTextRun::advances() refer to glyphs relative to the ComplexTextRun.
	// The length of the entire TextRun is m_run.length()
	Vector<RefPtr<ComplexTextRun>, 16> m_complexTextRuns;

	// The initial capacity of these vectors was selected as being the smallest power of two greater than
	// the average (3.5) plus one standard deviation (7.5) of nonzero sizes used on Arabic Wikipedia.
	Vector<unsigned, 16> m_runIndices;
	Vector<unsigned, 16> m_glyphCountFromStartToIndex;

	#if PLATFORM(COCOA)
	Vector<RetainPtr<CTLineRef>> m_coreTextLines;
	#endif

	Vector<String> m_stringsFor8BitRuns;

	HashSet<const Font> m_fallbackFonts { nullptr };

	const FontCascade& m_font;
	const TextRun& m_run;

	unsigned m_currentCharacter { 0 };
	unsigned m_end { 0 };

	FloatSize m_totalAdvance;
	float m_runWidthSoFar { 0 };
	unsigned m_numGlyphsSoFar { 0 };
	unsigned m_currentRun { 0 };
	unsigned m_glyphInCurrentRun { 0 };
	unsigned m_characterInCurrentGlyph { 0 };
	float m_expansion { 0 };
	float m_expansionPerOpportunity { 0 };

	float m_minGlyphBoundingBoxX { std::numeric_limits<float>::max() };
	float m_maxGlyphBoundingBoxX { std::numeric_limits<float>::min() };
	float m_minGlyphBoundingBoxY { std::numeric_limits<float>::max() };
	float m_maxGlyphBoundingBoxY { std::numeric_limits<float>::min() };

	bool m_isLTROnly { true };
	bool m_mayUseNaturalWritingDirection { false };
	bool m_forTextEmphasis { false };
	};

	} // namespace WebCore