Source/core/editing/TextIterator.h - platform/external/chromium_org/third_party/WebKit - Git at Google

 /*
  * Copyright (C) 2004, 2006, 2009 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 COMPUTER, INC. ``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 COMPUTER, INC. OR
  * 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.
  */

 #ifndef TextIterator_h
 #define TextIterator_h

 #include "core/dom/Range.h"
 #include "core/editing/FindOptions.h"
 #include "wtf/Vector.h"

 namespace WebCore {

 class InlineTextBox;
 class RenderText;
 class RenderTextFragment;

 enum TextIteratorBehavior {
     TextIteratorDefaultBehavior = 0,
     TextIteratorEmitsCharactersBetweenAllVisiblePositions = 1 << 0,
     TextIteratorEntersTextControls = 1 << 1,
     TextIteratorIgnoresStyleVisibility = 1 << 2,
     TextIteratorEmitsObjectReplacementCharacters = 1 << 3,
     TextIteratorEmitsOriginalText = 1 << 4,
     TextIteratorStopsOnFormControls = 1 << 5,
     TextIteratorEmitsImageAltText = 1 << 6,
 };

 // FIXME: Can't really answer this question correctly without knowing the white-space mode.
 // FIXME: Move this somewhere else in the editing directory. It doesn't belong here.
 inline bool isCollapsibleWhitespace(UChar c)
 {
     switch (c) {
         case ' ':
         case '\n':
             return true;
         default:
             return false;
     }
 }

 String plainText(const Range*, TextIteratorBehavior defaultBehavior = TextIteratorDefaultBehavior);
 PassRefPtr<Range> findPlainText(const Range*, const String&, FindOptions);

 class BitStack {
 public:
     BitStack();
     ~BitStack();

     void push(bool);
     void pop();

     bool top() const;
     unsigned size() const;

 private:
     unsigned m_size;
     Vector<unsigned, 1> m_words;
 };

 // Iterates through the DOM range, returning all the text, and 0-length boundaries
 // at points where replaced elements break up the text flow.  The text comes back in
 // chunks so as to optimize for performance of the iteration.

 class TextIterator {
 public:
     explicit TextIterator(const Range*, TextIteratorBehavior = TextIteratorDefaultBehavior);
     ~TextIterator();

     bool atEnd() const { return !m_positionNode || m_shouldStop; }
     void advance();

     int length() const { return m_textLength; }
     UChar characterAt(unsigned index) const;
     String substring(unsigned position, unsigned length) const;
     void appendTextToStringBuilder(StringBuilder&, unsigned position = 0, unsigned maxLength = UINT_MAX) const;

     template<typename BufferType>
     void appendTextTo(BufferType& output, unsigned position = 0)
     {
         ASSERT_WITH_SECURITY_IMPLICATION(position <= static_cast<unsigned>(length()));
         unsigned lengthToAppend = length() - position;
         if (!lengthToAppend)
             return;
         if (m_singleCharacterBuffer) {
             ASSERT(!position);
             ASSERT(length() == 1);
             output.append(&m_singleCharacterBuffer, 1);
         } else {
             string().appendTo(output, startOffset() + position, lengthToAppend);
         }
     }

     PassRefPtr<Range> range() const;
     Node* node() const;

     static int rangeLength(const Range*, bool spacesForReplacedElements = false);
     static PassRefPtr<Range> subrange(Range* entireRange, int characterOffset, int characterCount);

 private:
     int startOffset() const { return m_positionStartOffset; }
     const String& string() const { return m_text; }
     void exitNode();
     bool shouldRepresentNodeOffsetZero();
     bool shouldEmitSpaceBeforeAndAfterNode(Node*);
     void representNodeOffsetZero();
     bool handleTextNode();
     bool handleReplacedElement();
     bool handleNonTextNode();
     void handleTextBox();
     void handleTextNodeFirstLetter(RenderTextFragment*);
     bool hasVisibleTextNode(RenderText*);
     void emitCharacter(UChar, Node* textNode, Node* offsetBaseNode, int textStartOffset, int textEndOffset);
     void emitText(Node* textNode, RenderObject* renderObject, int textStartOffset, int textEndOffset);
     void emitText(Node* textNode, int textStartOffset, int textEndOffset);

     // Current position, not necessarily of the text being returned, but position
     // as we walk through the DOM tree.
     Node* m_node;
     int m_offset;
     bool m_handledNode;
     bool m_handledChildren;
     BitStack m_fullyClippedStack;

     // The range.
     Node* m_startContainer;
     int m_startOffset;
     Node* m_endContainer;
     int m_endOffset;
     Node* m_pastEndNode;

     // The current text and its position, in the form to be returned from the iterator.
     Node* m_positionNode;
     mutable Node* m_positionOffsetBaseNode;
     mutable int m_positionStartOffset;
     mutable int m_positionEndOffset;
     int m_textLength;
     String m_text;

     // Used when there is still some pending text from the current node; when these
     // are false and 0, we go back to normal iterating.
     bool m_needsAnotherNewline;
     InlineTextBox* m_textBox;
     // Used when iteration over :first-letter text to save pointer to
     // remaining text box.
     InlineTextBox* m_remainingTextBox;
     // Used to point to RenderText object for :first-letter.
     RenderText *m_firstLetterText;

     // Used to do the whitespace collapsing logic.
     Node* m_lastTextNode;
     bool m_lastTextNodeEndedWithCollapsedSpace;
     UChar m_lastCharacter;

     // Used for whitespace characters that aren't in the DOM, so we can point at them.
     // If non-zero, overrides m_text.
     UChar m_singleCharacterBuffer;

     // Used when text boxes are out of order (Hebrew/Arabic w/ embeded LTR text)
     Vector<InlineTextBox*> m_sortedTextBoxes;
     size_t m_sortedTextBoxesPosition;

     // Used when deciding whether to emit a "positioning" (e.g. newline) before any other content
     bool m_hasEmitted;

     // Used by selection preservation code.  There should be one character emitted between every VisiblePosition
     // in the Range used to create the TextIterator.
     // FIXME <rdar://problem/6028818>: This functionality should eventually be phased out when we rewrite
     // moveParagraphs to not clone/destroy moved content.
     bool m_emitsCharactersBetweenAllVisiblePositions;
     bool m_entersTextControls;

     // Used in pasting inside password field.
     bool m_emitsOriginalText;
     // Used when deciding text fragment created by :first-letter should be looked into.
     bool m_handledFirstLetter;
     // Used when the visibility of the style should not affect text gathering.
     bool m_ignoresStyleVisibility;
     // Used when emitting the special 0xFFFC character is required.
     bool m_emitsObjectReplacementCharacters;
     // Used when the iteration should stop if form controls are reached.
     bool m_stopsOnFormControls;
     // Used when m_stopsOnFormControls is set to determine if the iterator should keep advancing.
     bool m_shouldStop;

     bool m_emitsImageAltText;
 };

 // Iterates through the DOM range, returning all the text, and 0-length boundaries
 // at points where replaced elements break up the text flow. The text comes back in
 // chunks so as to optimize for performance of the iteration.
 class SimplifiedBackwardsTextIterator {
 public:
     explicit SimplifiedBackwardsTextIterator(const Range*, TextIteratorBehavior = TextIteratorDefaultBehavior);

     bool atEnd() const { return !m_positionNode || m_shouldStop; }
     void advance();

     int length() const { return m_textLength; }

     Node* node() const { return m_node; }

     template<typename BufferType>
     void prependTextTo(BufferType& output)
     {
         if (!m_textLength)
             return;
         if (m_singleCharacterBuffer)
             output.prepend(&m_singleCharacterBuffer, 1);
         else
             m_textContainer.prependTo(output, m_textOffset, m_textLength);
     }

     PassRefPtr<Range> range() const;

 private:
     void exitNode();
     bool handleTextNode();
     RenderText* handleFirstLetter(int& startOffset, int& offsetInNode);
     bool handleReplacedElement();
     bool handleNonTextNode();
     void emitCharacter(UChar, Node*, int startOffset, int endOffset);
     bool advanceRespectingRange(Node*);

     // Current position, not necessarily of the text being returned, but position
     // as we walk through the DOM tree.
     Node* m_node;
     int m_offset;
     bool m_handledNode;
     bool m_handledChildren;
     BitStack m_fullyClippedStack;

     // End of the range.
     Node* m_startNode;
     int m_startOffset;
     // Start of the range.
     Node* m_endNode;
     int m_endOffset;

     // The current text and its position, in the form to be returned from the iterator.
     Node* m_positionNode;
     int m_positionStartOffset;
     int m_positionEndOffset;

     String m_textContainer; // We're interested in the range [m_textOffset, m_textOffset + m_textLength) of m_textContainer.
     int m_textOffset;
     int m_textLength;

     // Used to do the whitespace logic.
     Node* m_lastTextNode;
     UChar m_lastCharacter;

     // Used for whitespace characters that aren't in the DOM, so we can point at them.
     UChar m_singleCharacterBuffer;

     // Whether m_node has advanced beyond the iteration range (i.e. m_startNode).
     bool m_havePassedStartNode;

     // Should handle first-letter renderer in the next call to handleTextNode.
     bool m_shouldHandleFirstLetter;

     // Used when the iteration should stop if form controls are reached.
     bool m_stopsOnFormControls;

     // Used when m_stopsOnFormControls is set to determine if the iterator should keep advancing.
     bool m_shouldStop;

     // Used in pasting inside password field.
     bool m_emitsOriginalText;
 };

 // Builds on the text iterator, adding a character position so we can walk one
 // character at a time, or faster, as needed. Useful for searching.
 class CharacterIterator {
 public:
     explicit CharacterIterator(const Range*, TextIteratorBehavior = TextIteratorDefaultBehavior);

     void advance(int numCharacters);

     bool atBreak() const { return m_atBreak; }
     bool atEnd() const { return m_textIterator.atEnd(); }

     int length() const { return m_textIterator.length() - m_runOffset; }
     UChar characterAt(unsigned index) const { return m_textIterator.characterAt(m_runOffset + index); }

     template<typename BufferType>
     void appendTextTo(BufferType& output) { m_textIterator.appendTextTo(output, m_runOffset); }

     String string(int numChars);

     int characterOffset() const { return m_offset; }
     PassRefPtr<Range> range() const;

 private:
     int m_offset;
     int m_runOffset;
     bool m_atBreak;

     TextIterator m_textIterator;
 };

 class BackwardsCharacterIterator {
 public:
     explicit BackwardsCharacterIterator(const Range*, TextIteratorBehavior = TextIteratorDefaultBehavior);

     void advance(int);

     bool atEnd() const { return m_textIterator.atEnd(); }

     PassRefPtr<Range> range() const;

 private:
     int m_offset;
     int m_runOffset;
     bool m_atBreak;

     SimplifiedBackwardsTextIterator m_textIterator;
 };

 // Very similar to the TextIterator, except that the chunks of text returned are "well behaved",
 // meaning they never end split up a word.  This is useful for spellcheck or (perhaps one day) searching.
 class WordAwareIterator {
 public:
     explicit WordAwareIterator(const Range*);
     ~WordAwareIterator();

     bool atEnd() const { return !m_didLookAhead && m_textIterator.atEnd(); }
     void advance();

     String substring(unsigned position, unsigned length) const;
     UChar characterAt(unsigned index) const;
     int length() const;

     // Range of the text we're currently returning
     PassRefPtr<Range> range() const { return m_range; }

 private:
     Vector<UChar> m_buffer;
     // Did we have to look ahead in the textIterator to confirm the current chunk?
     bool m_didLookAhead;
     RefPtr<Range> m_range;
     TextIterator m_textIterator;
 };

 }

 #endif
	/*
	* Copyright (C) 2004, 2006, 2009 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 COMPUTER, INC. ``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 COMPUTER, INC. OR
	* 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.
	*/

	#ifndef TextIterator_h
	#define TextIterator_h

	#include "core/dom/Range.h"
	#include "core/editing/FindOptions.h"
	#include "wtf/Vector.h"

	namespace WebCore {

	class InlineTextBox;
	class RenderText;
	class RenderTextFragment;

	enum TextIteratorBehavior {
	TextIteratorDefaultBehavior = 0,
	TextIteratorEmitsCharactersBetweenAllVisiblePositions = 1 << 0,
	TextIteratorEntersTextControls = 1 << 1,
	TextIteratorIgnoresStyleVisibility = 1 << 2,
	TextIteratorEmitsObjectReplacementCharacters = 1 << 3,
	TextIteratorEmitsOriginalText = 1 << 4,
	TextIteratorStopsOnFormControls = 1 << 5,
	TextIteratorEmitsImageAltText = 1 << 6,
	};

	// FIXME: Can't really answer this question correctly without knowing the white-space mode.
	// FIXME: Move this somewhere else in the editing directory. It doesn't belong here.
	inline bool isCollapsibleWhitespace(UChar c)
	{
	switch (c) {
	case ' ':
	case '\n':
	return true;
	default:
	return false;
	}
	}

	String plainText(const Range*, TextIteratorBehavior defaultBehavior = TextIteratorDefaultBehavior);
	PassRefPtr<Range> findPlainText(const Range*, const String&, FindOptions);

	class BitStack {
	public:
	BitStack();
	~BitStack();

	void push(bool);
	void pop();

	bool top() const;
	unsigned size() const;

	private:
	unsigned m_size;
	Vector<unsigned, 1> m_words;
	};

	// Iterates through the DOM range, returning all the text, and 0-length boundaries
	// at points where replaced elements break up the text flow. The text comes back in
	// chunks so as to optimize for performance of the iteration.

	class TextIterator {
	public:
	explicit TextIterator(const Range*, TextIteratorBehavior = TextIteratorDefaultBehavior);
	~TextIterator();

	bool atEnd() const { return !m_positionNode \|\| m_shouldStop; }
	void advance();

	int length() const { return m_textLength; }
	UChar characterAt(unsigned index) const;
	String substring(unsigned position, unsigned length) const;
	void appendTextToStringBuilder(StringBuilder&, unsigned position = 0, unsigned maxLength = UINT_MAX) const;

	template<typename BufferType>
	void appendTextTo(BufferType& output, unsigned position = 0)
	{
	ASSERT_WITH_SECURITY_IMPLICATION(position <= static_cast<unsigned>(length()));
	unsigned lengthToAppend = length() - position;
	if (!lengthToAppend)
	return;
	if (m_singleCharacterBuffer) {
	ASSERT(!position);
	ASSERT(length() == 1);
	output.append(&m_singleCharacterBuffer, 1);
	} else {
	string().appendTo(output, startOffset() + position, lengthToAppend);
	}
	}

	PassRefPtr<Range> range() const;
	Node* node() const;

	static int rangeLength(const Range*, bool spacesForReplacedElements = false);
	static PassRefPtr<Range> subrange(Range* entireRange, int characterOffset, int characterCount);

	private:
	int startOffset() const { return m_positionStartOffset; }
	const String& string() const { return m_text; }
	void exitNode();
	bool shouldRepresentNodeOffsetZero();
	bool shouldEmitSpaceBeforeAndAfterNode(Node*);
	void representNodeOffsetZero();
	bool handleTextNode();
	bool handleReplacedElement();
	bool handleNonTextNode();
	void handleTextBox();
	void handleTextNodeFirstLetter(RenderTextFragment*);
	bool hasVisibleTextNode(RenderText*);
	void emitCharacter(UChar, Node* textNode, Node* offsetBaseNode, int textStartOffset, int textEndOffset);
	void emitText(Node* textNode, RenderObject* renderObject, int textStartOffset, int textEndOffset);
	void emitText(Node* textNode, int textStartOffset, int textEndOffset);

	// Current position, not necessarily of the text being returned, but position
	// as we walk through the DOM tree.
	Node* m_node;
	int m_offset;
	bool m_handledNode;
	bool m_handledChildren;
	BitStack m_fullyClippedStack;

	// The range.
	Node* m_startContainer;
	int m_startOffset;
	Node* m_endContainer;
	int m_endOffset;
	Node* m_pastEndNode;

	// The current text and its position, in the form to be returned from the iterator.
	Node* m_positionNode;
	mutable Node* m_positionOffsetBaseNode;
	mutable int m_positionStartOffset;
	mutable int m_positionEndOffset;
	int m_textLength;
	String m_text;

	// Used when there is still some pending text from the current node; when these
	// are false and 0, we go back to normal iterating.
	bool m_needsAnotherNewline;
	InlineTextBox* m_textBox;
	// Used when iteration over :first-letter text to save pointer to
	// remaining text box.
	InlineTextBox* m_remainingTextBox;
	// Used to point to RenderText object for :first-letter.
	RenderText *m_firstLetterText;

	// Used to do the whitespace collapsing logic.
	Node* m_lastTextNode;
	bool m_lastTextNodeEndedWithCollapsedSpace;
	UChar m_lastCharacter;

	// Used for whitespace characters that aren't in the DOM, so we can point at them.
	// If non-zero, overrides m_text.
	UChar m_singleCharacterBuffer;

	// Used when text boxes are out of order (Hebrew/Arabic w/ embeded LTR text)
	Vector<InlineTextBox*> m_sortedTextBoxes;
	size_t m_sortedTextBoxesPosition;

	// Used when deciding whether to emit a "positioning" (e.g. newline) before any other content
	bool m_hasEmitted;

	// Used by selection preservation code. There should be one character emitted between every VisiblePosition
	// in the Range used to create the TextIterator.
	// FIXME <rdar://problem/6028818>: This functionality should eventually be phased out when we rewrite
	// moveParagraphs to not clone/destroy moved content.
	bool m_emitsCharactersBetweenAllVisiblePositions;
	bool m_entersTextControls;

	// Used in pasting inside password field.
	bool m_emitsOriginalText;
	// Used when deciding text fragment created by :first-letter should be looked into.
	bool m_handledFirstLetter;
	// Used when the visibility of the style should not affect text gathering.
	bool m_ignoresStyleVisibility;
	// Used when emitting the special 0xFFFC character is required.
	bool m_emitsObjectReplacementCharacters;
	// Used when the iteration should stop if form controls are reached.
	bool m_stopsOnFormControls;
	// Used when m_stopsOnFormControls is set to determine if the iterator should keep advancing.
	bool m_shouldStop;

	bool m_emitsImageAltText;
	};

	// Iterates through the DOM range, returning all the text, and 0-length boundaries
	// at points where replaced elements break up the text flow. The text comes back in
	// chunks so as to optimize for performance of the iteration.
	class SimplifiedBackwardsTextIterator {
	public:
	explicit SimplifiedBackwardsTextIterator(const Range*, TextIteratorBehavior = TextIteratorDefaultBehavior);

	bool atEnd() const { return !m_positionNode \|\| m_shouldStop; }
	void advance();

	int length() const { return m_textLength; }

	Node* node() const { return m_node; }

	template<typename BufferType>
	void prependTextTo(BufferType& output)
	{
	if (!m_textLength)
	return;
	if (m_singleCharacterBuffer)
	output.prepend(&m_singleCharacterBuffer, 1);
	else
	m_textContainer.prependTo(output, m_textOffset, m_textLength);
	}

	PassRefPtr<Range> range() const;

	private:
	void exitNode();
	bool handleTextNode();
	RenderText* handleFirstLetter(int& startOffset, int& offsetInNode);
	bool handleReplacedElement();
	bool handleNonTextNode();
	void emitCharacter(UChar, Node*, int startOffset, int endOffset);
	bool advanceRespectingRange(Node*);

	// Current position, not necessarily of the text being returned, but position
	// as we walk through the DOM tree.
	Node* m_node;
	int m_offset;
	bool m_handledNode;
	bool m_handledChildren;
	BitStack m_fullyClippedStack;

	// End of the range.
	Node* m_startNode;
	int m_startOffset;
	// Start of the range.
	Node* m_endNode;
	int m_endOffset;

	// The current text and its position, in the form to be returned from the iterator.
	Node* m_positionNode;
	int m_positionStartOffset;
	int m_positionEndOffset;

	String m_textContainer; // We're interested in the range [m_textOffset, m_textOffset + m_textLength) of m_textContainer.
	int m_textOffset;
	int m_textLength;

	// Used to do the whitespace logic.
	Node* m_lastTextNode;
	UChar m_lastCharacter;

	// Used for whitespace characters that aren't in the DOM, so we can point at them.
	UChar m_singleCharacterBuffer;

	// Whether m_node has advanced beyond the iteration range (i.e. m_startNode).
	bool m_havePassedStartNode;

	// Should handle first-letter renderer in the next call to handleTextNode.
	bool m_shouldHandleFirstLetter;

	// Used when the iteration should stop if form controls are reached.
	bool m_stopsOnFormControls;

	// Used when m_stopsOnFormControls is set to determine if the iterator should keep advancing.
	bool m_shouldStop;

	// Used in pasting inside password field.
	bool m_emitsOriginalText;
	};

	// Builds on the text iterator, adding a character position so we can walk one
	// character at a time, or faster, as needed. Useful for searching.
	class CharacterIterator {
	public:
	explicit CharacterIterator(const Range*, TextIteratorBehavior = TextIteratorDefaultBehavior);

	void advance(int numCharacters);

	bool atBreak() const { return m_atBreak; }
	bool atEnd() const { return m_textIterator.atEnd(); }

	int length() const { return m_textIterator.length() - m_runOffset; }
	UChar characterAt(unsigned index) const { return m_textIterator.characterAt(m_runOffset + index); }

	template<typename BufferType>
	void appendTextTo(BufferType& output) { m_textIterator.appendTextTo(output, m_runOffset); }

	String string(int numChars);

	int characterOffset() const { return m_offset; }
	PassRefPtr<Range> range() const;

	private:
	int m_offset;
	int m_runOffset;
	bool m_atBreak;

	TextIterator m_textIterator;
	};

	class BackwardsCharacterIterator {
	public:
	explicit BackwardsCharacterIterator(const Range*, TextIteratorBehavior = TextIteratorDefaultBehavior);

	void advance(int);

	bool atEnd() const { return m_textIterator.atEnd(); }

	PassRefPtr<Range> range() const;

	private:
	int m_offset;
	int m_runOffset;
	bool m_atBreak;

	SimplifiedBackwardsTextIterator m_textIterator;
	};

	// Very similar to the TextIterator, except that the chunks of text returned are "well behaved",
	// meaning they never end split up a word. This is useful for spellcheck or (perhaps one day) searching.
	class WordAwareIterator {
	public:
	explicit WordAwareIterator(const Range*);
	~WordAwareIterator();

	bool atEnd() const { return !m_didLookAhead && m_textIterator.atEnd(); }
	void advance();

	String substring(unsigned position, unsigned length) const;
	UChar characterAt(unsigned index) const;
	int length() const;

	// Range of the text we're currently returning
	PassRefPtr<Range> range() const { return m_range; }

	private:
	Vector<UChar> m_buffer;
	// Did we have to look ahead in the textIterator to confirm the current chunk?
	bool m_didLookAhead;
	RefPtr<Range> m_range;
	TextIterator m_textIterator;
	};

	}

	#endif