Source/core/rendering/InlineIterator.h - platform/external/chromium_org/third_party/WebKit - Git at Google

 /*
  * Copyright (C) 2000 Lars Knoll (knoll@kde.org)
  * Copyright (C) 2003, 2004, 2006, 2007, 2008, 2009, 2010 Apple Inc. All right reserved.
  * Copyright (C) 2010 Google Inc. All rights reserved.
  *
  * 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 InlineIterator_h
 #define InlineIterator_h

 #include "core/rendering/BidiRun.h"
 #include "core/rendering/RenderBlock.h"
 #include "core/rendering/RenderText.h"
 #include "wtf/StdLibExtras.h"

 namespace WebCore {

 // This class is used to RenderInline subtrees, stepping by character within the
 // text children. InlineIterator will use bidiNext to find the next RenderText
 // optionally notifying a BidiResolver every time it steps into/out of a RenderInline.
 class InlineIterator {
 public:
     enum IncrementRule {
         FastIncrementInIsolatedRenderer,
         FastIncrementInTextNode
     };

     InlineIterator()
         : m_root(0)
         , m_obj(0)
         , m_pos(0)
         , m_nextBreakablePosition(-1)
     {
     }

     InlineIterator(RenderObject* root, RenderObject* o, unsigned p)
         : m_root(root)
         , m_obj(o)
         , m_pos(p)
         , m_nextBreakablePosition(-1)
     {
     }

     void clear() { moveTo(0, 0); }

     void moveToStartOf(RenderObject* object)
     {
         moveTo(object, 0);
     }

     void moveTo(RenderObject* object, unsigned offset, int nextBreak = -1)
     {
         m_obj = object;
         m_pos = offset;
         m_nextBreakablePosition = nextBreak;
     }

     RenderObject* object() const { return m_obj; }
     unsigned offset() const { return m_pos; }
     RenderObject* root() const { return m_root; }

     void fastIncrementInTextNode();
     void increment(InlineBidiResolver* = 0, IncrementRule = FastIncrementInTextNode);
     bool atEnd() const;

     inline bool atTextParagraphSeparator() const
     {
         return m_obj && m_obj->preservesNewline() && m_obj->isText() && toRenderText(m_obj)->textLength()
             && !toRenderText(m_obj)->isWordBreak() && toRenderText(m_obj)->characterAt(m_pos) == '\n';
     }

     inline bool atParagraphSeparator() const
     {
         return (m_obj && m_obj->isBR()) || atTextParagraphSeparator();
     }

     UChar characterAt(unsigned) const;
     UChar current() const;
     UChar previousInSameNode() const;
     ALWAYS_INLINE WTF::Unicode::Direction direction() const;

 private:
     RenderObject* m_root;

     // FIXME: These should be private.
 public:
     RenderObject* m_obj;
     unsigned m_pos;
     int m_nextBreakablePosition;
 };

 inline bool operator==(const InlineIterator& it1, const InlineIterator& it2)
 {
     return it1.m_pos == it2.m_pos && it1.m_obj == it2.m_obj;
 }

 inline bool operator!=(const InlineIterator& it1, const InlineIterator& it2)
 {
     return it1.m_pos != it2.m_pos || it1.m_obj != it2.m_obj;
 }

 static inline WTF::Unicode::Direction embedCharFromDirection(TextDirection dir, EUnicodeBidi unicodeBidi)
 {
     using namespace WTF::Unicode;
     if (unicodeBidi == Embed)
         return dir == RTL ? RightToLeftEmbedding : LeftToRightEmbedding;
     return dir == RTL ? RightToLeftOverride : LeftToRightOverride;
 }

 template <class Observer>
 static inline void notifyObserverEnteredObject(Observer* observer, RenderObject* object)
 {
     if (!observer || !object || !object->isRenderInline())
         return;

     RenderStyle* style = object->style();
     EUnicodeBidi unicodeBidi = style->unicodeBidi();
     if (unicodeBidi == UBNormal) {
         // http://dev.w3.org/csswg/css3-writing-modes/#unicode-bidi
         // "The element does not open an additional level of embedding with respect to the bidirectional algorithm."
         // Thus we ignore any possible dir= attribute on the span.
         return;
     }
     if (isIsolated(unicodeBidi)) {
         // Make sure that explicit embeddings are committed before we enter the isolated content.
         observer->commitExplicitEmbedding();
         observer->enterIsolate();
         // Embedding/Override characters implied by dir= will be handled when
         // we process the isolated span, not when laying out the "parent" run.
         return;
     }

     if (!observer->inIsolate())
         observer->embed(embedCharFromDirection(style->direction(), unicodeBidi), FromStyleOrDOM);
 }

 template <class Observer>
 static inline void notifyObserverWillExitObject(Observer* observer, RenderObject* object)
 {
     if (!observer || !object || !object->isRenderInline())
         return;

     EUnicodeBidi unicodeBidi = object->style()->unicodeBidi();
     if (unicodeBidi == UBNormal)
         return; // Nothing to do for unicode-bidi: normal
     if (isIsolated(unicodeBidi)) {
         observer->exitIsolate();
         return;
     }

     // Otherwise we pop any embed/override character we added when we opened this tag.
     if (!observer->inIsolate())
         observer->embed(WTF::Unicode::PopDirectionalFormat, FromStyleOrDOM);
 }

 static inline bool isIteratorTarget(RenderObject* object)
 {
     ASSERT(object); // The iterator will of course return 0, but its not an expected argument to this function.
     return object->isText() || object->isFloating() || object->isOutOfFlowPositioned() || object->isReplaced();
 }

 // This enum is only used for bidiNextShared()
 enum EmptyInlineBehavior {
     SkipEmptyInlines,
     IncludeEmptyInlines,
 };

 static bool isEmptyInline(RenderObject* object)
 {
     if (!object->isRenderInline())
         return false;

     for (RenderObject* curr = object->firstChild(); curr; curr = curr->nextSibling()) {
         if (curr->isFloatingOrOutOfFlowPositioned())
             continue;
         if (curr->isText() && toRenderText(curr)->isAllCollapsibleWhitespace())
             continue;

         if (!isEmptyInline(curr))
             return false;
     }
     return true;
 }

 // FIXME: This function is misleadingly named. It has little to do with bidi.
 // This function will iterate over inlines within a block, optionally notifying
 // a bidi resolver as it enters/exits inlines (so it can push/pop embedding levels).
 template <class Observer>
 static inline RenderObject* bidiNextShared(RenderObject* root, RenderObject* current, Observer* observer = 0, EmptyInlineBehavior emptyInlineBehavior = SkipEmptyInlines, bool* endOfInlinePtr = 0)
 {
     RenderObject* next = 0;
     // oldEndOfInline denotes if when we last stopped iterating if we were at the end of an inline.
     bool oldEndOfInline = endOfInlinePtr ? *endOfInlinePtr : false;
     bool endOfInline = false;

     while (current) {
         next = 0;
         if (!oldEndOfInline && !isIteratorTarget(current)) {
             next = current->firstChild();
             notifyObserverEnteredObject(observer, next);
         }

         // We hit this when either current has no children, or when current is not a renderer we care about.
         if (!next) {
             // If it is a renderer we care about, and we're doing our inline-walk, return it.
             if (emptyInlineBehavior == IncludeEmptyInlines && !oldEndOfInline && current->isRenderInline()) {
                 next = current;
                 endOfInline = true;
                 break;
             }

             while (current && current != root) {
                 notifyObserverWillExitObject(observer, current);

                 next = current->nextSibling();
                 if (next) {
                     notifyObserverEnteredObject(observer, next);
                     break;
                 }

                 current = current->parent();
                 if (emptyInlineBehavior == IncludeEmptyInlines && current && current != root && current->isRenderInline()) {
                     next = current;
                     endOfInline = true;
                     break;
                 }
             }
         }

         if (!next)
             break;

         if (isIteratorTarget(next)
             || ((emptyInlineBehavior == IncludeEmptyInlines || isEmptyInline(next)) // Always return EMPTY inlines.
                 && next->isRenderInline()))
             break;
         current = next;
     }

     if (endOfInlinePtr)
         *endOfInlinePtr = endOfInline;

     return next;
 }

 template <class Observer>
 static inline RenderObject* bidiNextSkippingEmptyInlines(RenderObject* root, RenderObject* current, Observer* observer)
 {
     // The SkipEmptyInlines callers never care about endOfInlinePtr.
     return bidiNextShared(root, current, observer, SkipEmptyInlines);
 }

 // This makes callers cleaner as they don't have to specify a type for the observer when not providing one.
 static inline RenderObject* bidiNextSkippingEmptyInlines(RenderObject* root, RenderObject* current)
 {
     InlineBidiResolver* observer = 0;
     return bidiNextSkippingEmptyInlines(root, current, observer);
 }

 static inline RenderObject* bidiNextIncludingEmptyInlines(RenderObject* root, RenderObject* current, bool* endOfInlinePtr = 0)
 {
     InlineBidiResolver* observer = 0; // Callers who include empty inlines, never use an observer.
     return bidiNextShared(root, current, observer, IncludeEmptyInlines, endOfInlinePtr);
 }

 static inline RenderObject* bidiFirstSkippingEmptyInlines(RenderObject* root, InlineBidiResolver* resolver = 0)
 {
     RenderObject* o = root->firstChild();
     if (!o)
         return 0;

     if (o->isRenderInline()) {
         notifyObserverEnteredObject(resolver, o);
         if (!isEmptyInline(o))
             o = bidiNextSkippingEmptyInlines(root, o, resolver);
         else {
             // Never skip empty inlines.
             if (resolver)
                 resolver->commitExplicitEmbedding();
             return o;
         }
     }

     // FIXME: Unify this with the bidiNext call above.
     if (o && !isIteratorTarget(o))
         o = bidiNextSkippingEmptyInlines(root, o, resolver);

     if (resolver)
         resolver->commitExplicitEmbedding();
     return o;
 }

 // FIXME: This method needs to be renamed when bidiNext finds a good name.
 static inline RenderObject* bidiFirstIncludingEmptyInlines(RenderObject* root)
 {
     RenderObject* o = root->firstChild();
     // If either there are no children to walk, or the first one is correct
     // then just return it.
     if (!o || o->isRenderInline() || isIteratorTarget(o))
         return o;

     return bidiNextIncludingEmptyInlines(root, o);
 }

 inline void InlineIterator::fastIncrementInTextNode()
 {
     ASSERT(m_obj);
     ASSERT(m_obj->isText());
     ASSERT(m_pos <= toRenderText(m_obj)->textLength());
     if (m_pos < INT_MAX)
         m_pos++;
 }

 // FIXME: This is used by RenderBlock for simplified layout, and has nothing to do with bidi
 // it shouldn't use functions called bidiFirst and bidiNext.
 class InlineWalker {
 public:
     InlineWalker(RenderObject* root)
         : m_root(root)
         , m_current(0)
         , m_atEndOfInline(false)
     {
         // FIXME: This class should be taught how to do the SkipEmptyInlines codepath as well.
         m_current = bidiFirstIncludingEmptyInlines(m_root);
     }

     RenderObject* root() { return m_root; }
     RenderObject* current() { return m_current; }

     bool atEndOfInline() { return m_atEndOfInline; }
     bool atEnd() const { return !m_current; }

     RenderObject* advance()
     {
         // FIXME: Support SkipEmptyInlines and observer parameters.
         m_current = bidiNextIncludingEmptyInlines(m_root, m_current, &m_atEndOfInline);
         return m_current;
     }
 private:
     RenderObject* m_root;
     RenderObject* m_current;
     bool m_atEndOfInline;
 };

 inline void InlineIterator::increment(InlineBidiResolver* resolver, IncrementRule rule)
 {
     if (!m_obj)
         return;

     if (resolver && resolver->inIsolate() && rule == FastIncrementInIsolatedRenderer) {
         moveTo(bidiNextSkippingEmptyInlines(m_root, m_obj, resolver), 0);
         return;
     }

     if (m_obj->isText()) {
         fastIncrementInTextNode();
         if (m_pos < toRenderText(m_obj)->textLength())
             return;
     }
     // bidiNext can return 0, so use moveTo instead of moveToStartOf
     moveTo(bidiNextSkippingEmptyInlines(m_root, m_obj, resolver), 0);
 }

 inline bool InlineIterator::atEnd() const
 {
     return !m_obj;
 }

 inline UChar InlineIterator::characterAt(unsigned index) const
 {
     if (!m_obj || !m_obj->isText())
         return 0;

     return toRenderText(m_obj)->characterAt(index);
 }

 inline UChar InlineIterator::current() const
 {
     return characterAt(m_pos);
 }

 inline UChar InlineIterator::previousInSameNode() const
 {
     if (!m_pos)
         return 0;

     return characterAt(m_pos - 1);
 }

 ALWAYS_INLINE WTF::Unicode::Direction InlineIterator::direction() const
 {
     if (UChar c = current())
         return WTF::Unicode::direction(c);

     if (m_obj && m_obj->isListMarker())
         return m_obj->style()->isLeftToRightDirection() ? WTF::Unicode::LeftToRight : WTF::Unicode::RightToLeft;

     return WTF::Unicode::OtherNeutral;
 }

 template<>
 inline void InlineBidiResolver::increment()
 {
     m_current.increment(this, InlineIterator::FastIncrementInIsolatedRenderer);
 }

 template <>
 inline bool InlineBidiResolver::isEndOfParagraph(const InlineIterator& end)
 {
     bool inEndOfParagraph = m_current == end || m_current.atEnd() || (inIsolate() && m_current.m_obj == end.m_obj);
     if (inIsolate() && inEndOfParagraph) {
         m_current.moveTo(m_current.m_obj, end.m_pos, m_current.m_nextBreakablePosition);
         m_last = m_current;
         updateStatusLastFromCurrentDirection(WTF::Unicode::OtherNeutral);
     }
     return inEndOfParagraph;
 }

 static inline bool isIsolatedInline(RenderObject* object)
 {
     ASSERT(object);
     return object->isRenderInline() && isIsolated(object->style()->unicodeBidi());
 }

 static inline RenderObject* highestContainingIsolateWithinRoot(RenderObject* object, RenderObject* root)
 {
     ASSERT(object);
     RenderObject* containingIsolateObj = 0;
     while (object && object != root) {
         if (isIsolatedInline(object))
             containingIsolateObj = object;

         object = object->parent();
     }
     return containingIsolateObj;
 }

 static inline unsigned numberOfIsolateAncestors(const InlineIterator& iter)
 {
     RenderObject* object = iter.object();
     if (!object)
         return 0;
     unsigned count = 0;
     while (object && object != iter.root()) {
         if (isIsolatedInline(object))
             count++;
         object = object->parent();
     }
     return count;
 }

 // FIXME: This belongs on InlineBidiResolver, except it's a template specialization
 // of BidiResolver which knows nothing about RenderObjects.
 static inline void addPlaceholderRunForIsolatedInline(InlineBidiResolver& resolver, RenderObject* obj, unsigned pos)
 {
     ASSERT(obj);
     BidiRun* isolatedRun = new BidiRun(pos, 0, obj, resolver.context(), resolver.dir());
     resolver.runs().addRun(isolatedRun);
     // FIXME: isolatedRuns() could be a hash of object->run and then we could cheaply
     // ASSERT here that we didn't create multiple objects for the same inline.
     resolver.isolatedRuns().append(isolatedRun);
 }

 class IsolateTracker {
 public:
     explicit IsolateTracker(unsigned nestedIsolateCount)
         : m_nestedIsolateCount(nestedIsolateCount)
         , m_haveAddedFakeRunForRootIsolate(false)
     {
     }

     void enterIsolate() { m_nestedIsolateCount++; }
     void exitIsolate()
     {
         ASSERT(m_nestedIsolateCount >= 1);
         m_nestedIsolateCount--;
         if (!inIsolate())
             m_haveAddedFakeRunForRootIsolate = false;
     }
     bool inIsolate() const { return m_nestedIsolateCount; }

     // We don't care if we encounter bidi directional overrides.
     void embed(WTF::Unicode::Direction, BidiEmbeddingSource) { }
     void commitExplicitEmbedding() { }

     void addFakeRunIfNecessary(RenderObject* obj, unsigned pos, InlineBidiResolver& resolver)
     {
         // We only need to add a fake run for a given isolated span once during each call to createBidiRunsForLine.
         // We'll be called for every span inside the isolated span so we just ignore subsequent calls.
         // We also avoid creating a fake run until we hit a child that warrants one, e.g. we skip floats.
         if (m_haveAddedFakeRunForRootIsolate || RenderBlock::shouldSkipCreatingRunsForObject(obj))
             return;
         m_haveAddedFakeRunForRootIsolate = true;
         // obj and pos together denote a single position in the inline, from which the parsing of the isolate will start.
         // We don't need to mark the end of the run because this is implicit: it is either endOfLine or the end of the
         // isolate, when we call createBidiRunsForLine it will stop at whichever comes first.
         addPlaceholderRunForIsolatedInline(resolver, obj, pos);
         // FIXME: Inline isolates don't work properly with collapsing whitespace, see webkit.org/b/109624
         // For now, if we enter an isolate between midpoints, we increment our current midpoint or else
         // we'll leave the isolate and ignore the content that follows.
         MidpointState<InlineIterator>& midpointState = resolver.midpointState();
         if (midpointState.betweenMidpoints && midpointState.midpoints[midpointState.currentMidpoint].object() == obj) {
             midpointState.betweenMidpoints = false;
             ++midpointState.currentMidpoint;
         }
     }

 private:
     unsigned m_nestedIsolateCount;
     bool m_haveAddedFakeRunForRootIsolate;
 };

 template <>
 inline void InlineBidiResolver::appendRun()
 {
     if (!m_emptyRun && !m_eor.atEnd() && !m_reachedEndOfLine) {
         // Keep track of when we enter/leave "unicode-bidi: isolate" inlines.
         // Initialize our state depending on if we're starting in the middle of such an inline.
         // FIXME: Could this initialize from this->inIsolate() instead of walking up the render tree?
         IsolateTracker isolateTracker(numberOfIsolateAncestors(m_sor));
         int start = m_sor.m_pos;
         RenderObject* obj = m_sor.m_obj;
         while (obj && obj != m_eor.m_obj && obj != endOfLine.m_obj) {
             if (isolateTracker.inIsolate())
                 isolateTracker.addFakeRunIfNecessary(obj, start, *this);
             else
                 RenderBlock::appendRunsForObject(m_runs, start, obj->length(), obj, *this);
             // FIXME: start/obj should be an InlineIterator instead of two separate variables.
             start = 0;
             obj = bidiNextSkippingEmptyInlines(m_sor.root(), obj, &isolateTracker);
         }
         if (obj) {
             unsigned pos = obj == m_eor.m_obj ? m_eor.m_pos : INT_MAX;
             if (obj == endOfLine.m_obj && endOfLine.m_pos <= pos) {
                 m_reachedEndOfLine = true;
                 pos = endOfLine.m_pos;
             }
             // It's OK to add runs for zero-length RenderObjects, just don't make the run larger than it should be
             int end = obj->length() ? pos + 1 : 0;
             if (isolateTracker.inIsolate())
                 isolateTracker.addFakeRunIfNecessary(obj, start, *this);
             else
                 RenderBlock::appendRunsForObject(m_runs, start, end, obj, *this);
         }

         m_eor.increment();
         m_sor = m_eor;
     }

     m_direction = WTF::Unicode::OtherNeutral;
     m_status.eor = WTF::Unicode::OtherNeutral;
 }

 }

 #endif // InlineIterator_h
	/*
	* Copyright (C) 2000 Lars Knoll (knoll@kde.org)
	* Copyright (C) 2003, 2004, 2006, 2007, 2008, 2009, 2010 Apple Inc. All right reserved.
	* Copyright (C) 2010 Google Inc. All rights reserved.
	*
	* 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 InlineIterator_h
	#define InlineIterator_h

	#include "core/rendering/BidiRun.h"
	#include "core/rendering/RenderBlock.h"
	#include "core/rendering/RenderText.h"
	#include "wtf/StdLibExtras.h"

	namespace WebCore {

	// This class is used to RenderInline subtrees, stepping by character within the
	// text children. InlineIterator will use bidiNext to find the next RenderText
	// optionally notifying a BidiResolver every time it steps into/out of a RenderInline.
	class InlineIterator {
	public:
	enum IncrementRule {
	FastIncrementInIsolatedRenderer,
	FastIncrementInTextNode
	};

	InlineIterator()
	: m_root(0)
	, m_obj(0)
	, m_pos(0)
	, m_nextBreakablePosition(-1)
	{
	}

	InlineIterator(RenderObject* root, RenderObject* o, unsigned p)
	: m_root(root)
	, m_obj(o)
	, m_pos(p)
	, m_nextBreakablePosition(-1)
	{
	}

	void clear() { moveTo(0, 0); }

	void moveToStartOf(RenderObject* object)
	{
	moveTo(object, 0);
	}

	void moveTo(RenderObject* object, unsigned offset, int nextBreak = -1)
	{
	m_obj = object;
	m_pos = offset;
	m_nextBreakablePosition = nextBreak;
	}

	RenderObject* object() const { return m_obj; }
	unsigned offset() const { return m_pos; }
	RenderObject* root() const { return m_root; }

	void fastIncrementInTextNode();
	void increment(InlineBidiResolver* = 0, IncrementRule = FastIncrementInTextNode);
	bool atEnd() const;

	inline bool atTextParagraphSeparator() const
	{
	return m_obj && m_obj->preservesNewline() && m_obj->isText() && toRenderText(m_obj)->textLength()
	&& !toRenderText(m_obj)->isWordBreak() && toRenderText(m_obj)->characterAt(m_pos) == '\n';
	}

	inline bool atParagraphSeparator() const
	{
	return (m_obj && m_obj->isBR()) \|\| atTextParagraphSeparator();
	}

	UChar characterAt(unsigned) const;
	UChar current() const;
	UChar previousInSameNode() const;
	ALWAYS_INLINE WTF::Unicode::Direction direction() const;

	private:
	RenderObject* m_root;

	// FIXME: These should be private.
	public:
	RenderObject* m_obj;
	unsigned m_pos;
	int m_nextBreakablePosition;
	};

	inline bool operator==(const InlineIterator& it1, const InlineIterator& it2)
	{
	return it1.m_pos == it2.m_pos && it1.m_obj == it2.m_obj;
	}

	inline bool operator!=(const InlineIterator& it1, const InlineIterator& it2)
	{
	return it1.m_pos != it2.m_pos \|\| it1.m_obj != it2.m_obj;
	}

	static inline WTF::Unicode::Direction embedCharFromDirection(TextDirection dir, EUnicodeBidi unicodeBidi)
	{
	using namespace WTF::Unicode;
	if (unicodeBidi == Embed)
	return dir == RTL ? RightToLeftEmbedding : LeftToRightEmbedding;
	return dir == RTL ? RightToLeftOverride : LeftToRightOverride;
	}

	template <class Observer>
	static inline void notifyObserverEnteredObject(Observer* observer, RenderObject* object)
	{
	if (!observer \|\| !object \|\| !object->isRenderInline())
	return;

	RenderStyle* style = object->style();
	EUnicodeBidi unicodeBidi = style->unicodeBidi();
	if (unicodeBidi == UBNormal) {
	// http://dev.w3.org/csswg/css3-writing-modes/#unicode-bidi
	// "The element does not open an additional level of embedding with respect to the bidirectional algorithm."
	// Thus we ignore any possible dir= attribute on the span.
	return;
	}
	if (isIsolated(unicodeBidi)) {
	// Make sure that explicit embeddings are committed before we enter the isolated content.
	observer->commitExplicitEmbedding();
	observer->enterIsolate();
	// Embedding/Override characters implied by dir= will be handled when
	// we process the isolated span, not when laying out the "parent" run.
	return;
	}

	if (!observer->inIsolate())
	observer->embed(embedCharFromDirection(style->direction(), unicodeBidi), FromStyleOrDOM);
	}

	template <class Observer>
	static inline void notifyObserverWillExitObject(Observer* observer, RenderObject* object)
	{
	if (!observer \|\| !object \|\| !object->isRenderInline())
	return;

	EUnicodeBidi unicodeBidi = object->style()->unicodeBidi();
	if (unicodeBidi == UBNormal)
	return; // Nothing to do for unicode-bidi: normal
	if (isIsolated(unicodeBidi)) {
	observer->exitIsolate();
	return;
	}

	// Otherwise we pop any embed/override character we added when we opened this tag.
	if (!observer->inIsolate())
	observer->embed(WTF::Unicode::PopDirectionalFormat, FromStyleOrDOM);
	}

	static inline bool isIteratorTarget(RenderObject* object)
	{
	ASSERT(object); // The iterator will of course return 0, but its not an expected argument to this function.
	return object->isText() \|\| object->isFloating() \|\| object->isOutOfFlowPositioned() \|\| object->isReplaced();
	}

	// This enum is only used for bidiNextShared()
	enum EmptyInlineBehavior {
	SkipEmptyInlines,
	IncludeEmptyInlines,
	};

	static bool isEmptyInline(RenderObject* object)
	{
	if (!object->isRenderInline())
	return false;

	for (RenderObject* curr = object->firstChild(); curr; curr = curr->nextSibling()) {
	if (curr->isFloatingOrOutOfFlowPositioned())
	continue;
	if (curr->isText() && toRenderText(curr)->isAllCollapsibleWhitespace())
	continue;

	if (!isEmptyInline(curr))
	return false;
	}
	return true;
	}

	// FIXME: This function is misleadingly named. It has little to do with bidi.
	// This function will iterate over inlines within a block, optionally notifying
	// a bidi resolver as it enters/exits inlines (so it can push/pop embedding levels).
	template <class Observer>
	static inline RenderObject* bidiNextShared(RenderObject* root, RenderObject* current, Observer* observer = 0, EmptyInlineBehavior emptyInlineBehavior = SkipEmptyInlines, bool* endOfInlinePtr = 0)
	{
	RenderObject* next = 0;
	// oldEndOfInline denotes if when we last stopped iterating if we were at the end of an inline.
	bool oldEndOfInline = endOfInlinePtr ? *endOfInlinePtr : false;
	bool endOfInline = false;

	while (current) {
	next = 0;
	if (!oldEndOfInline && !isIteratorTarget(current)) {
	next = current->firstChild();
	notifyObserverEnteredObject(observer, next);
	}

	// We hit this when either current has no children, or when current is not a renderer we care about.
	if (!next) {
	// If it is a renderer we care about, and we're doing our inline-walk, return it.
	if (emptyInlineBehavior == IncludeEmptyInlines && !oldEndOfInline && current->isRenderInline()) {
	next = current;
	endOfInline = true;
	break;
	}

	while (current && current != root) {
	notifyObserverWillExitObject(observer, current);

	next = current->nextSibling();
	if (next) {
	notifyObserverEnteredObject(observer, next);
	break;
	}

	current = current->parent();
	if (emptyInlineBehavior == IncludeEmptyInlines && current && current != root && current->isRenderInline()) {
	next = current;
	endOfInline = true;
	break;
	}
	}
	}

	if (!next)
	break;

	if (isIteratorTarget(next)
	\|\| ((emptyInlineBehavior == IncludeEmptyInlines \|\| isEmptyInline(next)) // Always return EMPTY inlines.
	&& next->isRenderInline()))
	break;
	current = next;
	}

	if (endOfInlinePtr)
	*endOfInlinePtr = endOfInline;

	return next;
	}

	template <class Observer>
	static inline RenderObject* bidiNextSkippingEmptyInlines(RenderObject* root, RenderObject* current, Observer* observer)
	{
	// The SkipEmptyInlines callers never care about endOfInlinePtr.
	return bidiNextShared(root, current, observer, SkipEmptyInlines);
	}

	// This makes callers cleaner as they don't have to specify a type for the observer when not providing one.
	static inline RenderObject* bidiNextSkippingEmptyInlines(RenderObject* root, RenderObject* current)
	{
	InlineBidiResolver* observer = 0;
	return bidiNextSkippingEmptyInlines(root, current, observer);
	}

	static inline RenderObject* bidiNextIncludingEmptyInlines(RenderObject* root, RenderObject* current, bool* endOfInlinePtr = 0)
	{
	InlineBidiResolver* observer = 0; // Callers who include empty inlines, never use an observer.
	return bidiNextShared(root, current, observer, IncludeEmptyInlines, endOfInlinePtr);
	}

	static inline RenderObject* bidiFirstSkippingEmptyInlines(RenderObject* root, InlineBidiResolver* resolver = 0)
	{
	RenderObject* o = root->firstChild();
	if (!o)
	return 0;

	if (o->isRenderInline()) {
	notifyObserverEnteredObject(resolver, o);
	if (!isEmptyInline(o))
	o = bidiNextSkippingEmptyInlines(root, o, resolver);
	else {
	// Never skip empty inlines.
	if (resolver)
	resolver->commitExplicitEmbedding();
	return o;
	}
	}

	// FIXME: Unify this with the bidiNext call above.
	if (o && !isIteratorTarget(o))
	o = bidiNextSkippingEmptyInlines(root, o, resolver);

	if (resolver)
	resolver->commitExplicitEmbedding();
	return o;
	}

	// FIXME: This method needs to be renamed when bidiNext finds a good name.
	static inline RenderObject* bidiFirstIncludingEmptyInlines(RenderObject* root)
	{
	RenderObject* o = root->firstChild();
	// If either there are no children to walk, or the first one is correct
	// then just return it.
	if (!o \|\| o->isRenderInline() \|\| isIteratorTarget(o))
	return o;

	return bidiNextIncludingEmptyInlines(root, o);
	}

	inline void InlineIterator::fastIncrementInTextNode()
	{
	ASSERT(m_obj);
	ASSERT(m_obj->isText());
	ASSERT(m_pos <= toRenderText(m_obj)->textLength());
	if (m_pos < INT_MAX)
	m_pos++;
	}

	// FIXME: This is used by RenderBlock for simplified layout, and has nothing to do with bidi
	// it shouldn't use functions called bidiFirst and bidiNext.
	class InlineWalker {
	public:
	InlineWalker(RenderObject* root)
	: m_root(root)
	, m_current(0)
	, m_atEndOfInline(false)
	{
	// FIXME: This class should be taught how to do the SkipEmptyInlines codepath as well.
	m_current = bidiFirstIncludingEmptyInlines(m_root);
	}

	RenderObject* root() { return m_root; }
	RenderObject* current() { return m_current; }

	bool atEndOfInline() { return m_atEndOfInline; }
	bool atEnd() const { return !m_current; }

	RenderObject* advance()
	{
	// FIXME: Support SkipEmptyInlines and observer parameters.
	m_current = bidiNextIncludingEmptyInlines(m_root, m_current, &m_atEndOfInline);
	return m_current;
	}
	private:
	RenderObject* m_root;
	RenderObject* m_current;
	bool m_atEndOfInline;
	};

	inline void InlineIterator::increment(InlineBidiResolver* resolver, IncrementRule rule)
	{
	if (!m_obj)
	return;

	if (resolver && resolver->inIsolate() && rule == FastIncrementInIsolatedRenderer) {
	moveTo(bidiNextSkippingEmptyInlines(m_root, m_obj, resolver), 0);
	return;
	}

	if (m_obj->isText()) {
	fastIncrementInTextNode();
	if (m_pos < toRenderText(m_obj)->textLength())
	return;
	}
	// bidiNext can return 0, so use moveTo instead of moveToStartOf
	moveTo(bidiNextSkippingEmptyInlines(m_root, m_obj, resolver), 0);
	}

	inline bool InlineIterator::atEnd() const
	{
	return !m_obj;
	}

	inline UChar InlineIterator::characterAt(unsigned index) const
	{
	if (!m_obj \|\| !m_obj->isText())
	return 0;

	return toRenderText(m_obj)->characterAt(index);
	}

	inline UChar InlineIterator::current() const
	{
	return characterAt(m_pos);
	}

	inline UChar InlineIterator::previousInSameNode() const
	{
	if (!m_pos)
	return 0;

	return characterAt(m_pos - 1);
	}

	ALWAYS_INLINE WTF::Unicode::Direction InlineIterator::direction() const
	{
	if (UChar c = current())
	return WTF::Unicode::direction(c);

	if (m_obj && m_obj->isListMarker())
	return m_obj->style()->isLeftToRightDirection() ? WTF::Unicode::LeftToRight : WTF::Unicode::RightToLeft;

	return WTF::Unicode::OtherNeutral;
	}

	template<>
	inline void InlineBidiResolver::increment()
	{
	m_current.increment(this, InlineIterator::FastIncrementInIsolatedRenderer);
	}

	template <>
	inline bool InlineBidiResolver::isEndOfParagraph(const InlineIterator& end)
	{
	bool inEndOfParagraph = m_current == end \|\| m_current.atEnd() \|\| (inIsolate() && m_current.m_obj == end.m_obj);
	if (inIsolate() && inEndOfParagraph) {
	m_current.moveTo(m_current.m_obj, end.m_pos, m_current.m_nextBreakablePosition);
	m_last = m_current;
	updateStatusLastFromCurrentDirection(WTF::Unicode::OtherNeutral);
	}
	return inEndOfParagraph;
	}

	static inline bool isIsolatedInline(RenderObject* object)
	{
	ASSERT(object);
	return object->isRenderInline() && isIsolated(object->style()->unicodeBidi());
	}

	static inline RenderObject* highestContainingIsolateWithinRoot(RenderObject* object, RenderObject* root)
	{
	ASSERT(object);
	RenderObject* containingIsolateObj = 0;
	while (object && object != root) {
	if (isIsolatedInline(object))
	containingIsolateObj = object;

	object = object->parent();
	}
	return containingIsolateObj;
	}

	static inline unsigned numberOfIsolateAncestors(const InlineIterator& iter)
	{
	RenderObject* object = iter.object();
	if (!object)
	return 0;
	unsigned count = 0;
	while (object && object != iter.root()) {
	if (isIsolatedInline(object))
	count++;
	object = object->parent();
	}
	return count;
	}

	// FIXME: This belongs on InlineBidiResolver, except it's a template specialization
	// of BidiResolver which knows nothing about RenderObjects.
	static inline void addPlaceholderRunForIsolatedInline(InlineBidiResolver& resolver, RenderObject* obj, unsigned pos)
	{
	ASSERT(obj);
	BidiRun* isolatedRun = new BidiRun(pos, 0, obj, resolver.context(), resolver.dir());
	resolver.runs().addRun(isolatedRun);
	// FIXME: isolatedRuns() could be a hash of object->run and then we could cheaply
	// ASSERT here that we didn't create multiple objects for the same inline.
	resolver.isolatedRuns().append(isolatedRun);
	}

	class IsolateTracker {
	public:
	explicit IsolateTracker(unsigned nestedIsolateCount)
	: m_nestedIsolateCount(nestedIsolateCount)
	, m_haveAddedFakeRunForRootIsolate(false)
	{
	}

	void enterIsolate() { m_nestedIsolateCount++; }
	void exitIsolate()
	{
	ASSERT(m_nestedIsolateCount >= 1);
	m_nestedIsolateCount--;
	if (!inIsolate())
	m_haveAddedFakeRunForRootIsolate = false;
	}
	bool inIsolate() const { return m_nestedIsolateCount; }

	// We don't care if we encounter bidi directional overrides.
	void embed(WTF::Unicode::Direction, BidiEmbeddingSource) { }
	void commitExplicitEmbedding() { }

	void addFakeRunIfNecessary(RenderObject* obj, unsigned pos, InlineBidiResolver& resolver)
	{
	// We only need to add a fake run for a given isolated span once during each call to createBidiRunsForLine.
	// We'll be called for every span inside the isolated span so we just ignore subsequent calls.
	// We also avoid creating a fake run until we hit a child that warrants one, e.g. we skip floats.
	if (m_haveAddedFakeRunForRootIsolate \|\| RenderBlock::shouldSkipCreatingRunsForObject(obj))
	return;
	m_haveAddedFakeRunForRootIsolate = true;
	// obj and pos together denote a single position in the inline, from which the parsing of the isolate will start.
	// We don't need to mark the end of the run because this is implicit: it is either endOfLine or the end of the
	// isolate, when we call createBidiRunsForLine it will stop at whichever comes first.
	addPlaceholderRunForIsolatedInline(resolver, obj, pos);
	// FIXME: Inline isolates don't work properly with collapsing whitespace, see webkit.org/b/109624
	// For now, if we enter an isolate between midpoints, we increment our current midpoint or else
	// we'll leave the isolate and ignore the content that follows.
	MidpointState<InlineIterator>& midpointState = resolver.midpointState();
	if (midpointState.betweenMidpoints && midpointState.midpoints[midpointState.currentMidpoint].object() == obj) {
	midpointState.betweenMidpoints = false;
	++midpointState.currentMidpoint;
	}
	}

	private:
	unsigned m_nestedIsolateCount;
	bool m_haveAddedFakeRunForRootIsolate;
	};

	template <>
	inline void InlineBidiResolver::appendRun()
	{
	if (!m_emptyRun && !m_eor.atEnd() && !m_reachedEndOfLine) {
	// Keep track of when we enter/leave "unicode-bidi: isolate" inlines.
	// Initialize our state depending on if we're starting in the middle of such an inline.
	// FIXME: Could this initialize from this->inIsolate() instead of walking up the render tree?
	IsolateTracker isolateTracker(numberOfIsolateAncestors(m_sor));
	int start = m_sor.m_pos;
	RenderObject* obj = m_sor.m_obj;
	while (obj && obj != m_eor.m_obj && obj != endOfLine.m_obj) {
	if (isolateTracker.inIsolate())
	isolateTracker.addFakeRunIfNecessary(obj, start, *this);
	else
	RenderBlock::appendRunsForObject(m_runs, start, obj->length(), obj, *this);
	// FIXME: start/obj should be an InlineIterator instead of two separate variables.
	start = 0;
	obj = bidiNextSkippingEmptyInlines(m_sor.root(), obj, &isolateTracker);
	}
	if (obj) {
	unsigned pos = obj == m_eor.m_obj ? m_eor.m_pos : INT_MAX;
	if (obj == endOfLine.m_obj && endOfLine.m_pos <= pos) {
	m_reachedEndOfLine = true;
	pos = endOfLine.m_pos;
	}
	// It's OK to add runs for zero-length RenderObjects, just don't make the run larger than it should be
	int end = obj->length() ? pos + 1 : 0;
	if (isolateTracker.inIsolate())
	isolateTracker.addFakeRunIfNecessary(obj, start, *this);
	else
	RenderBlock::appendRunsForObject(m_runs, start, end, obj, *this);
	}

	m_eor.increment();
	m_sor = m_eor;
	}

	m_direction = WTF::Unicode::OtherNeutral;
	m_status.eor = WTF::Unicode::OtherNeutral;
	}

	}

	#endif // InlineIterator_h