Source/WebCore/rendering/InlineBox.h - WebKit - Git at Google

 /*
  * Copyright (C) 2003, 2004, 2005, 2006, 2007, 2009, 2010, 2011 Apple 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.
  *
  */

 #pragma once

 #include "RenderBoxModelObject.h"
 #include "RenderText.h"
 #include "TextFlags.h"
 #include <wtf/IsoMalloc.h>
 #include <wtf/TypeCasts.h>

 namespace WebCore {

 class HitTestRequest;
 class HitTestResult;
 class RootInlineBox;

 // InlineBox represents a rectangle that occurs on a line.  It corresponds to
 // some RenderObject (i.e., it represents a portion of that RenderObject).
 class InlineBox {
     WTF_MAKE_ISO_ALLOCATED(InlineBox);
 public:
     virtual ~InlineBox();

     void assertNotDeleted() const;

     virtual void deleteLine() = 0;
     virtual void extractLine() = 0;
     virtual void attachLine() = 0;

     virtual bool isLineBreak() const { return renderer().isLineBreak(); }

     WEBCORE_EXPORT virtual void adjustPosition(float dx, float dy);
     void adjustLogicalPosition(float deltaLogicalLeft, float deltaLogicalTop)
     {
         if (isHorizontal())
             adjustPosition(deltaLogicalLeft, deltaLogicalTop);
         else
             adjustPosition(deltaLogicalTop, deltaLogicalLeft);
     }
     void adjustLineDirectionPosition(float delta)
     {
         if (isHorizontal())
             adjustPosition(delta, 0);
         else
             adjustPosition(0, delta);
     }
     void adjustBlockDirectionPosition(float delta)
     {
         if (isHorizontal())
             adjustPosition(0, delta);
         else
             adjustPosition(delta, 0);
     }

     virtual void paint(PaintInfo&, const LayoutPoint&, LayoutUnit lineTop, LayoutUnit lineBottom) = 0;
     virtual bool nodeAtPoint(const HitTestRequest&, HitTestResult&, const HitTestLocation& locationInContainer, const LayoutPoint& accumulatedOffset, LayoutUnit lineTop, LayoutUnit lineBottom, HitTestAction) = 0;

 #if ENABLE(TREE_DEBUGGING)
     void showNodeTreeForThis() const;
     void showLineTreeForThis() const;

     virtual void outputLineTreeAndMark(WTF::TextStream&, const InlineBox* markedBox, int depth) const;
     virtual void outputLineBox(WTF::TextStream&, bool mark, int depth) const;
     virtual const char* boxName() const;
 #endif

     bool behavesLikeText() const { return m_bitfields.behavesLikeText(); }
     void setBehavesLikeText(bool behavesLikeText) { m_bitfields.setBehavesLikeText(behavesLikeText); }

     virtual bool isInlineElementBox() const { return false; }
     virtual bool isInlineFlowBox() const { return false; }
     virtual bool isInlineTextBox() const { return false; }
     virtual bool isRootInlineBox() const { return false; }
     virtual bool isSVGInlineTextBox() const { return false; }
     virtual bool isSVGInlineFlowBox() const { return false; }
     virtual bool isSVGRootInlineBox() const { return false; }

     bool hasVirtualLogicalHeight() const { return m_bitfields.hasVirtualLogicalHeight(); }
     void setHasVirtualLogicalHeight() { m_bitfields.setHasVirtualLogicalHeight(true); }
     virtual float virtualLogicalHeight() const
     {
         ASSERT_NOT_REACHED();
         return 0;
     }

     bool isHorizontal() const { return m_bitfields.isHorizontal(); }
     void setIsHorizontal(bool isHorizontal) { m_bitfields.setIsHorizontal(isHorizontal); }

     virtual FloatRect calculateBoundaries() const
     {
         ASSERT_NOT_REACHED();
         return FloatRect();
     }

     bool isConstructed() { return m_bitfields.constructed(); }
     virtual void setConstructed() { m_bitfields.setConstructed(true); }

     void setExtracted(bool extracted = true) { m_bitfields.setExtracted(extracted); }

     void setIsFirstLine(bool firstLine) { m_bitfields.setFirstLine(firstLine); }
     bool isFirstLine() const { return m_bitfields.firstLine(); }

     void removeFromParent();

     InlineBox* nextOnLine() const { return m_nextOnLine; }
     InlineBox* previousOnLine() const { return m_previousOnLine; }
     void setNextOnLine(InlineBox* next)
     {
         ASSERT(m_parent || !next);
         m_nextOnLine = next;
     }
     void setPreviousOnLine(InlineBox* previous)
     {
         ASSERT(m_parent || !previous);
         m_previousOnLine = previous;
     }
     bool nextOnLineExists() const;
     bool previousOnLineExists() const;

     virtual bool isLeaf() const { return true; }

     InlineBox* nextLeafOnLine() const;
     InlineBox* previousLeafOnLine() const;

     // Helper functions for editing and hit-testing code.
     // FIXME: These two functions should be moved to RenderedPosition once the code to convert between
     // Position and inline box, offset pair is moved to RenderedPosition.
     InlineBox* nextLeafOnLineIgnoringLineBreak() const;
     InlineBox* previousLeafOnLineIgnoringLineBreak() const;

     // FIXME: Hide this once all callers are using tighter types.
     RenderObject& renderer() const { return m_renderer; }

     InlineFlowBox* parent() const
     {
         assertNotDeleted();
         ASSERT_WITH_SECURITY_IMPLICATION(!m_hasBadParent);
         return m_parent;
     }
     void setParent(InlineFlowBox* par) { m_parent = par; }

     const RootInlineBox& root() const;
     RootInlineBox& root();

     // x() is the left side of the box in the containing block's coordinate system.
     void setX(float x) { m_topLeft.setX(x); }
     float x() const { return m_topLeft.x(); }
     float left() const { return m_topLeft.x(); }

     // y() is the top side of the box in the containing block's coordinate system.
     void setY(float y) { m_topLeft.setY(y); }
     float y() const { return m_topLeft.y(); }
     float top() const { return m_topLeft.y(); }

     const FloatPoint& topLeft() const { return m_topLeft; }

     float width() const { return isHorizontal() ? logicalWidth() : logicalHeight(); }
     float height() const { return isHorizontal() ? logicalHeight() : logicalWidth(); }
     FloatSize size() const { return FloatSize(width(), height()); }
     float right() const { return left() + width(); }
     float bottom() const { return top() + height(); }

     // The logicalLeft position is the left edge of the line box in a horizontal line and the top edge in a vertical line.
     float logicalLeft() const { return isHorizontal() ? m_topLeft.x() : m_topLeft.y(); }
     float logicalRight() const { return logicalLeft() + logicalWidth(); }
     void setLogicalLeft(float left)
     {
         if (isHorizontal())
             setX(left);
         else
             setY(left);
     }

     // The logicalTop[ position is the top edge of the line box in a horizontal line and the left edge in a vertical line.
     float logicalTop() const { return isHorizontal() ? m_topLeft.y() : m_topLeft.x(); }
     float logicalBottom() const { return logicalTop() + logicalHeight(); }
     void setLogicalTop(float top)
     {
         if (isHorizontal())
             setY(top);
         else
             setX(top);
     }

     // The logical width is our extent in the line's overall inline direction, i.e., width for horizontal text and height for vertical text.
     void setLogicalWidth(float w) { m_logicalWidth = w; }
     float logicalWidth() const { return m_logicalWidth; }

     // The logical height is our extent in the block flow direction, i.e., height for horizontal text and width for vertical text.
     float logicalHeight() const;

     FloatRect logicalFrameRect() const { return isHorizontal() ? FloatRect(m_topLeft.x(), m_topLeft.y(), m_logicalWidth, logicalHeight()) : FloatRect(m_topLeft.y(), m_topLeft.x(), m_logicalWidth, logicalHeight()); }
     FloatRect frameRect() const { return FloatRect(topLeft(), size()); }

     WEBCORE_EXPORT virtual int baselinePosition(FontBaseline baselineType) const;
     WEBCORE_EXPORT virtual LayoutUnit lineHeight() const;

     WEBCORE_EXPORT virtual int caretMinOffset() const;
     WEBCORE_EXPORT virtual int caretMaxOffset() const;

     unsigned char bidiLevel() const { return m_bitfields.bidiEmbeddingLevel(); }
     void setBidiLevel(unsigned char level) { m_bitfields.setBidiEmbeddingLevel(level); }
     TextDirection direction() const { return bidiLevel() % 2 ? TextDirection::RTL : TextDirection::LTR; }
     bool isLeftToRightDirection() const { return direction() == TextDirection::LTR; }
     int caretLeftmostOffset() const { return isLeftToRightDirection() ? caretMinOffset() : caretMaxOffset(); }
     int caretRightmostOffset() const { return isLeftToRightDirection() ? caretMaxOffset() : caretMinOffset(); }

     virtual void clearTruncation() { }

     bool isDirty() const { return m_bitfields.dirty(); }
     virtual void markDirty(bool dirty = true) { m_bitfields.setDirty(dirty); }

     WEBCORE_EXPORT virtual void dirtyLineBoxes();

     WEBCORE_EXPORT virtual RenderObject::SelectionState selectionState();

     WEBCORE_EXPORT virtual bool canAccommodateEllipsis(bool ltr, int blockEdge, int ellipsisWidth) const;
     // visibleLeftEdge, visibleRightEdge are in the parent's coordinate system.
     WEBCORE_EXPORT virtual float placeEllipsisBox(bool ltr, float visibleLeftEdge, float visibleRightEdge, float ellipsisWidth, float &truncatedWidth, bool&);

 #if !ASSERT_WITH_SECURITY_IMPLICATION_DISABLED
     void setHasBadParent();
     void invalidateParentChildList();
 #endif

     bool visibleToHitTesting() const { return renderer().style().visibility() == Visibility::Visible && renderer().style().pointerEvents() != PointerEvents::None; }

     const RenderStyle& lineStyle() const { return m_bitfields.firstLine() ? renderer().firstLineStyle() : renderer().style(); }

     VerticalAlign verticalAlign() const { return lineStyle().verticalAlign(); }

     // Use with caution! The type is not checked!
     RenderBoxModelObject* boxModelObject() const
     {
         if (!is<RenderText>(m_renderer))
             return &downcast<RenderBoxModelObject>(m_renderer);
         return nullptr;
     }

     FloatPoint locationIncludingFlipping() const;
     void flipForWritingMode(FloatRect&) const;
     FloatPoint flipForWritingMode(const FloatPoint&) const;
     void flipForWritingMode(LayoutRect&) const;
     LayoutPoint flipForWritingMode(const LayoutPoint&) const;

     bool knownToHaveNoOverflow() const { return m_bitfields.knownToHaveNoOverflow(); }
     void clearKnownToHaveNoOverflow();

     bool dirOverride() const { return m_bitfields.dirOverride(); }
     void setDirOverride(bool dirOverride) { m_bitfields.setDirOverride(dirOverride); }

     void setExpansion(float newExpansion)
     {
         m_logicalWidth -= m_expansion;
         m_expansion = newExpansion;
         m_logicalWidth += m_expansion;
     }
     void setExpansionWithoutGrowing(float newExpansion)
     {
         ASSERT(!m_expansion);
         m_expansion = newExpansion;
     }
     float expansion() const { return m_expansion; }

     void setHasHyphen(bool hasHyphen) { m_bitfields.setHasEllipsisBoxOrHyphen(hasHyphen); }
     void setCanHaveLeadingExpansion(bool canHaveLeadingExpansion) { m_bitfields.setHasSelectedChildrenOrCanHaveLeadingExpansion(canHaveLeadingExpansion); }
     void setCanHaveTrailingExpansion(bool canHaveTrailingExpansion) { m_bitfields.setCanHaveTrailingExpansion(canHaveTrailingExpansion); }
     void setForceTrailingExpansion() { m_bitfields.setForceTrailingExpansion(true); }
     void setForceLeadingExpansion() { m_bitfields.setForceLeadingExpansion(true); }

 private:
     InlineBox* m_nextOnLine { nullptr }; // The next element on the same line as us.
     InlineBox* m_previousOnLine { nullptr }; // The previous element on the same line as us.

     InlineFlowBox* m_parent { nullptr }; // The box that contains us.

     RenderObject& m_renderer;

 private:
     float m_logicalWidth { 0 };
     float m_expansion { 0 };
     FloatPoint m_topLeft;

 #define ADD_BOOLEAN_BITFIELD(name, Name) \
     private:\
     unsigned m_##name : 1;\
     public:\
     bool name() const { return m_##name; }\
     void set##Name(bool name) { m_##name = name; }\

     class InlineBoxBitfields {
     public:
         explicit InlineBoxBitfields(bool firstLine = false, bool constructed = false, bool dirty = false, bool extracted = false, bool isHorizontal = true)
             : m_firstLine(firstLine)
             , m_constructed(constructed)
             , m_bidiEmbeddingLevel(0)
             , m_dirty(dirty)
             , m_extracted(extracted)
             , m_hasVirtualLogicalHeight(false)
             , m_isHorizontal(isHorizontal)
             , m_endsWithBreak(false)
             , m_hasSelectedChildrenOrCanHaveLeadingExpansion(false)
             , m_canHaveTrailingExpansion(false)
             , m_knownToHaveNoOverflow(true)
             , m_hasEllipsisBoxOrHyphen(false)
             , m_dirOverride(false)
             , m_behavesLikeText(false)
             , m_forceTrailingExpansion(false)
             , m_forceLeadingExpansion(false)
             , m_determinedIfNextOnLineExists(false)
             , m_nextOnLineExists(false)
         {
         }

         // Some of these bits are actually for subclasses and moved here to compact the structures.
         // for this class
         ADD_BOOLEAN_BITFIELD(firstLine, FirstLine);
         ADD_BOOLEAN_BITFIELD(constructed, Constructed);

     private:
         unsigned m_bidiEmbeddingLevel : 6; // The maximium bidi level is 62: http://unicode.org/reports/tr9/#Explicit_Levels_and_Directions

     public:
         unsigned char bidiEmbeddingLevel() const { return m_bidiEmbeddingLevel; }
         void setBidiEmbeddingLevel(unsigned char bidiEmbeddingLevel) { m_bidiEmbeddingLevel = bidiEmbeddingLevel; }

         ADD_BOOLEAN_BITFIELD(dirty, Dirty);
         ADD_BOOLEAN_BITFIELD(extracted, Extracted);
         ADD_BOOLEAN_BITFIELD(hasVirtualLogicalHeight, HasVirtualLogicalHeight);
         ADD_BOOLEAN_BITFIELD(isHorizontal, IsHorizontal);
         // for RootInlineBox
         ADD_BOOLEAN_BITFIELD(endsWithBreak, EndsWithBreak); // Whether the line ends with a <br>.
         // shared between RootInlineBox and InlineTextBox
         ADD_BOOLEAN_BITFIELD(hasSelectedChildrenOrCanHaveLeadingExpansion, HasSelectedChildrenOrCanHaveLeadingExpansion);
         ADD_BOOLEAN_BITFIELD(canHaveTrailingExpansion, CanHaveTrailingExpansion);
         ADD_BOOLEAN_BITFIELD(knownToHaveNoOverflow, KnownToHaveNoOverflow);
         ADD_BOOLEAN_BITFIELD(hasEllipsisBoxOrHyphen, HasEllipsisBoxOrHyphen);
         // for InlineTextBox
         ADD_BOOLEAN_BITFIELD(dirOverride, DirOverride);
         ADD_BOOLEAN_BITFIELD(behavesLikeText, BehavesLikeText); // Whether or not this object represents text with a non-zero height. Includes non-image list markers, text boxes, br.
         ADD_BOOLEAN_BITFIELD(forceTrailingExpansion, ForceTrailingExpansion);
         ADD_BOOLEAN_BITFIELD(forceLeadingExpansion, ForceLeadingExpansion);

     private:
         mutable unsigned m_determinedIfNextOnLineExists : 1;

     public:
         bool determinedIfNextOnLineExists() const { return m_determinedIfNextOnLineExists; }
         void setDeterminedIfNextOnLineExists(bool determinedIfNextOnLineExists) const { m_determinedIfNextOnLineExists = determinedIfNextOnLineExists; }

     private:
         mutable unsigned m_nextOnLineExists : 1;

     public:
         bool nextOnLineExists() const { return m_nextOnLineExists; }
         void setNextOnLineExists(bool nextOnLineExists) const { m_nextOnLineExists = nextOnLineExists; }
     };
 #undef ADD_BOOLEAN_BITFIELD

     InlineBoxBitfields m_bitfields;

 protected:
     explicit InlineBox(RenderObject& renderer)
         : m_renderer(renderer)
     {
     }

     InlineBox(RenderObject& renderer, FloatPoint topLeft, float logicalWidth, bool firstLine, bool constructed, bool dirty, bool extracted, bool isHorizontal, InlineBox* next, InlineBox* previous, InlineFlowBox* parent)
         : m_nextOnLine(next)
         , m_previousOnLine(previous)
         , m_parent(parent)
         , m_renderer(renderer)
         , m_logicalWidth(logicalWidth)
         , m_topLeft(topLeft)
         , m_bitfields(firstLine, constructed, dirty, extracted, isHorizontal)
     {
     }

     // For RootInlineBox
     bool endsWithBreak() const { return m_bitfields.endsWithBreak(); }
     void setEndsWithBreak(bool endsWithBreak) { m_bitfields.setEndsWithBreak(endsWithBreak); }
     bool hasEllipsisBox() const { return m_bitfields.hasEllipsisBoxOrHyphen(); }
     bool hasSelectedChildren() const { return m_bitfields.hasSelectedChildrenOrCanHaveLeadingExpansion(); }
     void setHasSelectedChildren(bool hasSelectedChildren) { m_bitfields.setHasSelectedChildrenOrCanHaveLeadingExpansion(hasSelectedChildren); }
     void setHasEllipsisBox(bool hasEllipsisBox) { m_bitfields.setHasEllipsisBoxOrHyphen(hasEllipsisBox); }

     // For InlineTextBox
     bool hasHyphen() const { return m_bitfields.hasEllipsisBoxOrHyphen(); }
     bool canHaveLeadingExpansion() const { return m_bitfields.hasSelectedChildrenOrCanHaveLeadingExpansion(); }
     bool canHaveTrailingExpansion() const { return m_bitfields.canHaveTrailingExpansion(); }
     bool forceTrailingExpansion() const { return m_bitfields.forceTrailingExpansion(); }
     bool forceLeadingExpansion() const { return m_bitfields.forceLeadingExpansion(); }

     // For InlineFlowBox and InlineTextBox
     bool extracted() const { return m_bitfields.extracted(); }

 protected:

 #if !ASSERT_WITH_SECURITY_IMPLICATION_DISABLED
 private:
     static constexpr unsigned deletionSentinelNotDeletedValue = 0xF0F0F0F0U;
     static constexpr unsigned deletionSentinelDeletedValue = 0xF0DEADF0U;
     unsigned m_deletionSentinel { deletionSentinelNotDeletedValue };
     bool m_hasBadParent { false };
 protected:
     bool m_isEverInChildList { true };
 #endif
 };

 #if ASSERT_WITH_SECURITY_IMPLICATION_DISABLED

 inline InlineBox::~InlineBox()
 {
 }

 inline void InlineBox::assertNotDeleted() const
 {
 }

 #endif

 } // namespace WebCore

 #define SPECIALIZE_TYPE_TRAITS_INLINE_BOX(ToValueTypeName, predicate) \
 SPECIALIZE_TYPE_TRAITS_BEGIN(WebCore::ToValueTypeName) \
     static bool isType(const WebCore::InlineBox& box) { return box.predicate; } \
 SPECIALIZE_TYPE_TRAITS_END()

 #if ENABLE(TREE_DEBUGGING)
 // Outside the WebCore namespace for ease of invocation from the debugger.
 void showNodeTree(const WebCore::InlineBox*);
 void showLineTree(const WebCore::InlineBox*);
 #endif
	/*
	* Copyright (C) 2003, 2004, 2005, 2006, 2007, 2009, 2010, 2011 Apple 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.
	*
	*/

	#pragma once

	#include "RenderBoxModelObject.h"
	#include "RenderText.h"
	#include "TextFlags.h"
	#include <wtf/IsoMalloc.h>
	#include <wtf/TypeCasts.h>

	namespace WebCore {

	class HitTestRequest;
	class HitTestResult;
	class RootInlineBox;

	// InlineBox represents a rectangle that occurs on a line. It corresponds to
	// some RenderObject (i.e., it represents a portion of that RenderObject).
	class InlineBox {
	WTF_MAKE_ISO_ALLOCATED(InlineBox);
	public:
	virtual ~InlineBox();

	void assertNotDeleted() const;

	virtual void deleteLine() = 0;
	virtual void extractLine() = 0;
	virtual void attachLine() = 0;

	virtual bool isLineBreak() const { return renderer().isLineBreak(); }

	WEBCORE_EXPORT virtual void adjustPosition(float dx, float dy);
	void adjustLogicalPosition(float deltaLogicalLeft, float deltaLogicalTop)
	{
	if (isHorizontal())
	adjustPosition(deltaLogicalLeft, deltaLogicalTop);
	else
	adjustPosition(deltaLogicalTop, deltaLogicalLeft);
	}
	void adjustLineDirectionPosition(float delta)
	{
	if (isHorizontal())
	adjustPosition(delta, 0);
	else
	adjustPosition(0, delta);
	}
	void adjustBlockDirectionPosition(float delta)
	{
	if (isHorizontal())
	adjustPosition(0, delta);
	else
	adjustPosition(delta, 0);
	}

	virtual void paint(PaintInfo&, const LayoutPoint&, LayoutUnit lineTop, LayoutUnit lineBottom) = 0;
	virtual bool nodeAtPoint(const HitTestRequest&, HitTestResult&, const HitTestLocation& locationInContainer, const LayoutPoint& accumulatedOffset, LayoutUnit lineTop, LayoutUnit lineBottom, HitTestAction) = 0;

	#if ENABLE(TREE_DEBUGGING)
	void showNodeTreeForThis() const;
	void showLineTreeForThis() const;

	virtual void outputLineTreeAndMark(WTF::TextStream&, const InlineBox* markedBox, int depth) const;
	virtual void outputLineBox(WTF::TextStream&, bool mark, int depth) const;
	virtual const char* boxName() const;
	#endif

	bool behavesLikeText() const { return m_bitfields.behavesLikeText(); }
	void setBehavesLikeText(bool behavesLikeText) { m_bitfields.setBehavesLikeText(behavesLikeText); }

	virtual bool isInlineElementBox() const { return false; }
	virtual bool isInlineFlowBox() const { return false; }
	virtual bool isInlineTextBox() const { return false; }
	virtual bool isRootInlineBox() const { return false; }
	virtual bool isSVGInlineTextBox() const { return false; }
	virtual bool isSVGInlineFlowBox() const { return false; }
	virtual bool isSVGRootInlineBox() const { return false; }

	bool hasVirtualLogicalHeight() const { return m_bitfields.hasVirtualLogicalHeight(); }
	void setHasVirtualLogicalHeight() { m_bitfields.setHasVirtualLogicalHeight(true); }
	virtual float virtualLogicalHeight() const
	{
	ASSERT_NOT_REACHED();
	return 0;
	}

	bool isHorizontal() const { return m_bitfields.isHorizontal(); }
	void setIsHorizontal(bool isHorizontal) { m_bitfields.setIsHorizontal(isHorizontal); }

	virtual FloatRect calculateBoundaries() const
	{
	ASSERT_NOT_REACHED();
	return FloatRect();
	}

	bool isConstructed() { return m_bitfields.constructed(); }
	virtual void setConstructed() { m_bitfields.setConstructed(true); }

	void setExtracted(bool extracted = true) { m_bitfields.setExtracted(extracted); }

	void setIsFirstLine(bool firstLine) { m_bitfields.setFirstLine(firstLine); }
	bool isFirstLine() const { return m_bitfields.firstLine(); }

	void removeFromParent();

	InlineBox* nextOnLine() const { return m_nextOnLine; }
	InlineBox* previousOnLine() const { return m_previousOnLine; }
	void setNextOnLine(InlineBox* next)
	{
	ASSERT(m_parent \|\| !next);
	m_nextOnLine = next;
	}
	void setPreviousOnLine(InlineBox* previous)
	{
	ASSERT(m_parent \|\| !previous);
	m_previousOnLine = previous;
	}
	bool nextOnLineExists() const;
	bool previousOnLineExists() const;

	virtual bool isLeaf() const { return true; }

	InlineBox* nextLeafOnLine() const;
	InlineBox* previousLeafOnLine() const;

	// Helper functions for editing and hit-testing code.
	// FIXME: These two functions should be moved to RenderedPosition once the code to convert between
	// Position and inline box, offset pair is moved to RenderedPosition.
	InlineBox* nextLeafOnLineIgnoringLineBreak() const;
	InlineBox* previousLeafOnLineIgnoringLineBreak() const;

	// FIXME: Hide this once all callers are using tighter types.
	RenderObject& renderer() const { return m_renderer; }

	InlineFlowBox* parent() const
	{
	assertNotDeleted();
	ASSERT_WITH_SECURITY_IMPLICATION(!m_hasBadParent);
	return m_parent;
	}
	void setParent(InlineFlowBox* par) { m_parent = par; }

	const RootInlineBox& root() const;
	RootInlineBox& root();

	// x() is the left side of the box in the containing block's coordinate system.
	void setX(float x) { m_topLeft.setX(x); }
	float x() const { return m_topLeft.x(); }
	float left() const { return m_topLeft.x(); }

	// y() is the top side of the box in the containing block's coordinate system.
	void setY(float y) { m_topLeft.setY(y); }
	float y() const { return m_topLeft.y(); }
	float top() const { return m_topLeft.y(); }

	const FloatPoint& topLeft() const { return m_topLeft; }

	float width() const { return isHorizontal() ? logicalWidth() : logicalHeight(); }
	float height() const { return isHorizontal() ? logicalHeight() : logicalWidth(); }
	FloatSize size() const { return FloatSize(width(), height()); }
	float right() const { return left() + width(); }
	float bottom() const { return top() + height(); }

	// The logicalLeft position is the left edge of the line box in a horizontal line and the top edge in a vertical line.
	float logicalLeft() const { return isHorizontal() ? m_topLeft.x() : m_topLeft.y(); }
	float logicalRight() const { return logicalLeft() + logicalWidth(); }
	void setLogicalLeft(float left)
	{
	if (isHorizontal())
	setX(left);
	else
	setY(left);
	}

	// The logicalTop[ position is the top edge of the line box in a horizontal line and the left edge in a vertical line.
	float logicalTop() const { return isHorizontal() ? m_topLeft.y() : m_topLeft.x(); }
	float logicalBottom() const { return logicalTop() + logicalHeight(); }
	void setLogicalTop(float top)
	{
	if (isHorizontal())
	setY(top);
	else
	setX(top);
	}

	// The logical width is our extent in the line's overall inline direction, i.e., width for horizontal text and height for vertical text.
	void setLogicalWidth(float w) { m_logicalWidth = w; }
	float logicalWidth() const { return m_logicalWidth; }

	// The logical height is our extent in the block flow direction, i.e., height for horizontal text and width for vertical text.
	float logicalHeight() const;

	FloatRect logicalFrameRect() const { return isHorizontal() ? FloatRect(m_topLeft.x(), m_topLeft.y(), m_logicalWidth, logicalHeight()) : FloatRect(m_topLeft.y(), m_topLeft.x(), m_logicalWidth, logicalHeight()); }
	FloatRect frameRect() const { return FloatRect(topLeft(), size()); }

	WEBCORE_EXPORT virtual int baselinePosition(FontBaseline baselineType) const;
	WEBCORE_EXPORT virtual LayoutUnit lineHeight() const;

	WEBCORE_EXPORT virtual int caretMinOffset() const;
	WEBCORE_EXPORT virtual int caretMaxOffset() const;

	unsigned char bidiLevel() const { return m_bitfields.bidiEmbeddingLevel(); }
	void setBidiLevel(unsigned char level) { m_bitfields.setBidiEmbeddingLevel(level); }
	TextDirection direction() const { return bidiLevel() % 2 ? TextDirection::RTL : TextDirection::LTR; }
	bool isLeftToRightDirection() const { return direction() == TextDirection::LTR; }
	int caretLeftmostOffset() const { return isLeftToRightDirection() ? caretMinOffset() : caretMaxOffset(); }
	int caretRightmostOffset() const { return isLeftToRightDirection() ? caretMaxOffset() : caretMinOffset(); }

	virtual void clearTruncation() { }

	bool isDirty() const { return m_bitfields.dirty(); }
	virtual void markDirty(bool dirty = true) { m_bitfields.setDirty(dirty); }

	WEBCORE_EXPORT virtual void dirtyLineBoxes();

	WEBCORE_EXPORT virtual RenderObject::SelectionState selectionState();

	WEBCORE_EXPORT virtual bool canAccommodateEllipsis(bool ltr, int blockEdge, int ellipsisWidth) const;
	// visibleLeftEdge, visibleRightEdge are in the parent's coordinate system.
	WEBCORE_EXPORT virtual float placeEllipsisBox(bool ltr, float visibleLeftEdge, float visibleRightEdge, float ellipsisWidth, float &truncatedWidth, bool&);

	#if !ASSERT_WITH_SECURITY_IMPLICATION_DISABLED
	void setHasBadParent();
	void invalidateParentChildList();
	#endif

	bool visibleToHitTesting() const { return renderer().style().visibility() == Visibility::Visible && renderer().style().pointerEvents() != PointerEvents::None; }

	const RenderStyle& lineStyle() const { return m_bitfields.firstLine() ? renderer().firstLineStyle() : renderer().style(); }

	VerticalAlign verticalAlign() const { return lineStyle().verticalAlign(); }

	// Use with caution! The type is not checked!
	RenderBoxModelObject* boxModelObject() const
	{
	if (!is<RenderText>(m_renderer))
	return &downcast<RenderBoxModelObject>(m_renderer);
	return nullptr;
	}

	FloatPoint locationIncludingFlipping() const;
	void flipForWritingMode(FloatRect&) const;
	FloatPoint flipForWritingMode(const FloatPoint&) const;
	void flipForWritingMode(LayoutRect&) const;
	LayoutPoint flipForWritingMode(const LayoutPoint&) const;

	bool knownToHaveNoOverflow() const { return m_bitfields.knownToHaveNoOverflow(); }
	void clearKnownToHaveNoOverflow();

	bool dirOverride() const { return m_bitfields.dirOverride(); }
	void setDirOverride(bool dirOverride) { m_bitfields.setDirOverride(dirOverride); }

	void setExpansion(float newExpansion)
	{
	m_logicalWidth -= m_expansion;
	m_expansion = newExpansion;
	m_logicalWidth += m_expansion;
	}
	void setExpansionWithoutGrowing(float newExpansion)
	{
	ASSERT(!m_expansion);
	m_expansion = newExpansion;
	}
	float expansion() const { return m_expansion; }

	void setHasHyphen(bool hasHyphen) { m_bitfields.setHasEllipsisBoxOrHyphen(hasHyphen); }
	void setCanHaveLeadingExpansion(bool canHaveLeadingExpansion) { m_bitfields.setHasSelectedChildrenOrCanHaveLeadingExpansion(canHaveLeadingExpansion); }
	void setCanHaveTrailingExpansion(bool canHaveTrailingExpansion) { m_bitfields.setCanHaveTrailingExpansion(canHaveTrailingExpansion); }
	void setForceTrailingExpansion() { m_bitfields.setForceTrailingExpansion(true); }
	void setForceLeadingExpansion() { m_bitfields.setForceLeadingExpansion(true); }

	private:
	InlineBox* m_nextOnLine { nullptr }; // The next element on the same line as us.
	InlineBox* m_previousOnLine { nullptr }; // The previous element on the same line as us.

	InlineFlowBox* m_parent { nullptr }; // The box that contains us.

	RenderObject& m_renderer;

	private:
	float m_logicalWidth { 0 };
	float m_expansion { 0 };
	FloatPoint m_topLeft;

	#define ADD_BOOLEAN_BITFIELD(name, Name) \
	private:\
	unsigned m_##name : 1;\
	public:\
	bool name() const { return m_##name; }\
	void set##Name(bool name) { m_##name = name; }\

	class InlineBoxBitfields {
	public:
	explicit InlineBoxBitfields(bool firstLine = false, bool constructed = false, bool dirty = false, bool extracted = false, bool isHorizontal = true)
	: m_firstLine(firstLine)
	, m_constructed(constructed)
	, m_bidiEmbeddingLevel(0)
	, m_dirty(dirty)
	, m_extracted(extracted)
	, m_hasVirtualLogicalHeight(false)
	, m_isHorizontal(isHorizontal)
	, m_endsWithBreak(false)
	, m_hasSelectedChildrenOrCanHaveLeadingExpansion(false)
	, m_canHaveTrailingExpansion(false)
	, m_knownToHaveNoOverflow(true)
	, m_hasEllipsisBoxOrHyphen(false)
	, m_dirOverride(false)
	, m_behavesLikeText(false)
	, m_forceTrailingExpansion(false)
	, m_forceLeadingExpansion(false)
	, m_determinedIfNextOnLineExists(false)
	, m_nextOnLineExists(false)
	{
	}

	// Some of these bits are actually for subclasses and moved here to compact the structures.
	// for this class
	ADD_BOOLEAN_BITFIELD(firstLine, FirstLine);
	ADD_BOOLEAN_BITFIELD(constructed, Constructed);

	private:
	unsigned m_bidiEmbeddingLevel : 6; // The maximium bidi level is 62: http://unicode.org/reports/tr9/#Explicit_Levels_and_Directions

	public:
	unsigned char bidiEmbeddingLevel() const { return m_bidiEmbeddingLevel; }
	void setBidiEmbeddingLevel(unsigned char bidiEmbeddingLevel) { m_bidiEmbeddingLevel = bidiEmbeddingLevel; }

	ADD_BOOLEAN_BITFIELD(dirty, Dirty);
	ADD_BOOLEAN_BITFIELD(extracted, Extracted);
	ADD_BOOLEAN_BITFIELD(hasVirtualLogicalHeight, HasVirtualLogicalHeight);
	ADD_BOOLEAN_BITFIELD(isHorizontal, IsHorizontal);
	// for RootInlineBox
	ADD_BOOLEAN_BITFIELD(endsWithBreak, EndsWithBreak); // Whether the line ends with a <br>.
	// shared between RootInlineBox and InlineTextBox
	ADD_BOOLEAN_BITFIELD(hasSelectedChildrenOrCanHaveLeadingExpansion, HasSelectedChildrenOrCanHaveLeadingExpansion);
	ADD_BOOLEAN_BITFIELD(canHaveTrailingExpansion, CanHaveTrailingExpansion);
	ADD_BOOLEAN_BITFIELD(knownToHaveNoOverflow, KnownToHaveNoOverflow);
	ADD_BOOLEAN_BITFIELD(hasEllipsisBoxOrHyphen, HasEllipsisBoxOrHyphen);
	// for InlineTextBox
	ADD_BOOLEAN_BITFIELD(dirOverride, DirOverride);
	ADD_BOOLEAN_BITFIELD(behavesLikeText, BehavesLikeText); // Whether or not this object represents text with a non-zero height. Includes non-image list markers, text boxes, br.
	ADD_BOOLEAN_BITFIELD(forceTrailingExpansion, ForceTrailingExpansion);
	ADD_BOOLEAN_BITFIELD(forceLeadingExpansion, ForceLeadingExpansion);

	private:
	mutable unsigned m_determinedIfNextOnLineExists : 1;

	public:
	bool determinedIfNextOnLineExists() const { return m_determinedIfNextOnLineExists; }
	void setDeterminedIfNextOnLineExists(bool determinedIfNextOnLineExists) const { m_determinedIfNextOnLineExists = determinedIfNextOnLineExists; }

	private:
	mutable unsigned m_nextOnLineExists : 1;

	public:
	bool nextOnLineExists() const { return m_nextOnLineExists; }
	void setNextOnLineExists(bool nextOnLineExists) const { m_nextOnLineExists = nextOnLineExists; }
	};
	#undef ADD_BOOLEAN_BITFIELD

	InlineBoxBitfields m_bitfields;

	protected:
	explicit InlineBox(RenderObject& renderer)
	: m_renderer(renderer)
	{
	}

	InlineBox(RenderObject& renderer, FloatPoint topLeft, float logicalWidth, bool firstLine, bool constructed, bool dirty, bool extracted, bool isHorizontal, InlineBox* next, InlineBox* previous, InlineFlowBox* parent)
	: m_nextOnLine(next)
	, m_previousOnLine(previous)
	, m_parent(parent)
	, m_renderer(renderer)
	, m_logicalWidth(logicalWidth)
	, m_topLeft(topLeft)
	, m_bitfields(firstLine, constructed, dirty, extracted, isHorizontal)
	{
	}

	// For RootInlineBox
	bool endsWithBreak() const { return m_bitfields.endsWithBreak(); }
	void setEndsWithBreak(bool endsWithBreak) { m_bitfields.setEndsWithBreak(endsWithBreak); }
	bool hasEllipsisBox() const { return m_bitfields.hasEllipsisBoxOrHyphen(); }
	bool hasSelectedChildren() const { return m_bitfields.hasSelectedChildrenOrCanHaveLeadingExpansion(); }
	void setHasSelectedChildren(bool hasSelectedChildren) { m_bitfields.setHasSelectedChildrenOrCanHaveLeadingExpansion(hasSelectedChildren); }
	void setHasEllipsisBox(bool hasEllipsisBox) { m_bitfields.setHasEllipsisBoxOrHyphen(hasEllipsisBox); }

	// For InlineTextBox
	bool hasHyphen() const { return m_bitfields.hasEllipsisBoxOrHyphen(); }
	bool canHaveLeadingExpansion() const { return m_bitfields.hasSelectedChildrenOrCanHaveLeadingExpansion(); }
	bool canHaveTrailingExpansion() const { return m_bitfields.canHaveTrailingExpansion(); }
	bool forceTrailingExpansion() const { return m_bitfields.forceTrailingExpansion(); }
	bool forceLeadingExpansion() const { return m_bitfields.forceLeadingExpansion(); }

	// For InlineFlowBox and InlineTextBox
	bool extracted() const { return m_bitfields.extracted(); }

	protected:

	#if !ASSERT_WITH_SECURITY_IMPLICATION_DISABLED
	private:
	static constexpr unsigned deletionSentinelNotDeletedValue = 0xF0F0F0F0U;
	static constexpr unsigned deletionSentinelDeletedValue = 0xF0DEADF0U;
	unsigned m_deletionSentinel { deletionSentinelNotDeletedValue };
	bool m_hasBadParent { false };
	protected:
	bool m_isEverInChildList { true };
	#endif
	};

	#if ASSERT_WITH_SECURITY_IMPLICATION_DISABLED

	inline InlineBox::~InlineBox()
	{
	}

	inline void InlineBox::assertNotDeleted() const
	{
	}

	#endif

	} // namespace WebCore

	#define SPECIALIZE_TYPE_TRAITS_INLINE_BOX(ToValueTypeName, predicate) \
	SPECIALIZE_TYPE_TRAITS_BEGIN(WebCore::ToValueTypeName) \
	static bool isType(const WebCore::InlineBox& box) { return box.predicate; } \
	SPECIALIZE_TYPE_TRAITS_END()

	#if ENABLE(TREE_DEBUGGING)
	// Outside the WebCore namespace for ease of invocation from the debugger.
	void showNodeTree(const WebCore::InlineBox*);
	void showLineTree(const WebCore::InlineBox*);
	#endif