third_party/WebKit/Source/core/layout/LayoutFlexibleBox.h - chromium/src - Git at Google

 /*
  * Copyright (C) 2011 Google 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:
  *
  *     * Redistributions of source code must retain the above copyright
  * notice, this list of conditions and the following disclaimer.
  *     * 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.
  *     * Neither the name of Google Inc. nor the names of its
  * contributors may be used to endorse or promote products derived from
  * this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
  * OWNER 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 LayoutFlexibleBox_h
 #define LayoutFlexibleBox_h

 #include "core/CoreExport.h"
 #include "core/layout/LayoutBlock.h"
 #include "core/layout/OrderIterator.h"

 namespace blink {

 class CORE_EXPORT LayoutFlexibleBox : public LayoutBlock {
 public:
     LayoutFlexibleBox(Element*);
     ~LayoutFlexibleBox() override;

     static LayoutFlexibleBox* createAnonymous(Document*);

     const char* name() const override { return "LayoutFlexibleBox"; }

     bool isFlexibleBox() const final { return true; }
     bool canCollapseAnonymousBlockChild() const override { return false; }
     void layoutBlock(bool relayoutChildren) final;

     int baselinePosition(FontBaseline, bool firstLine, LineDirectionMode, LinePositionMode = PositionOnContainingLine) const override;
     int firstLineBoxBaseline() const override;
     int inlineBlockBaseline(LineDirectionMode) const override;

     void paintChildren(const PaintInfo&, const LayoutPoint&) const final;

     bool isHorizontalFlow() const;

     const OrderIterator& orderIterator() const { return m_orderIterator; }

 protected:
     void computeIntrinsicLogicalWidths(LayoutUnit& minLogicalWidth, LayoutUnit& maxLogicalWidth) const override;

     void styleDidChange(StyleDifference, const ComputedStyle* oldStyle) override;
     void removeChild(LayoutObject*) override;

 private:
     enum FlexSign {
         PositiveFlexibility,
         NegativeFlexibility,
     };

     enum PositionedLayoutMode {
         FlipForRowReverse,
         NoFlipForRowReverse,
     };

     enum ChildLayoutType {
         LayoutIfNeeded,
         ForceLayout,
         NeverLayout
     };

     enum class TransformedWritingMode {
         TopToBottomWritingMode, RightToLeftWritingMode, LeftToRightWritingMode, BottomToTopWritingMode
     };

     typedef HashMap<const LayoutBox*, LayoutUnit> InflexibleFlexItemSize;
     typedef Vector<LayoutBox*> OrderedFlexItemList;

     struct LineContext;
     struct Violation;

     // Use an inline capacity of 8, since flexbox containers usually have less than 8 children.
     typedef Vector<LayoutRect, 8> ChildFrameRects;

     bool hasOrthogonalFlow(const LayoutBox& child) const;
     bool isColumnFlow() const;
     bool isLeftToRightFlow() const;
     bool isMultiline() const;
     Length flexBasisForChild(const LayoutBox& child) const;
     LayoutUnit crossAxisExtentForChild(const LayoutBox& child) const;
     LayoutUnit crossAxisIntrinsicExtentForChild(const LayoutBox& child) const;
     LayoutUnit childIntrinsicHeight(const LayoutBox& child) const;
     LayoutUnit childIntrinsicWidth(const LayoutBox& child) const;
     LayoutUnit mainAxisExtentForChild(const LayoutBox& child) const;
     LayoutUnit crossAxisExtent() const;
     LayoutUnit mainAxisExtent() const;
     LayoutUnit crossAxisContentExtent() const;
     LayoutUnit mainAxisContentExtent(LayoutUnit contentLogicalHeight);
     LayoutUnit computeMainAxisExtentForChild(const LayoutBox& child, SizeType, const Length& size);
     TransformedWritingMode transformedWritingMode() const;
     LayoutUnit flowAwareBorderStart() const;
     LayoutUnit flowAwareBorderEnd() const;
     LayoutUnit flowAwareBorderBefore() const;
     LayoutUnit flowAwareBorderAfter() const;
     LayoutUnit flowAwarePaddingStart() const;
     LayoutUnit flowAwarePaddingEnd() const;
     LayoutUnit flowAwarePaddingBefore() const;
     LayoutUnit flowAwarePaddingAfter() const;
     LayoutUnit flowAwareMarginStartForChild(const LayoutBox& child) const;
     LayoutUnit flowAwareMarginEndForChild(const LayoutBox& child) const;
     LayoutUnit flowAwareMarginBeforeForChild(const LayoutBox& child) const;
     LayoutUnit crossAxisMarginExtentForChild(const LayoutBox& child) const;
     LayoutUnit crossAxisScrollbarExtent() const;
     LayoutUnit crossAxisScrollbarExtentForChild(const LayoutBox& child) const;
     LayoutPoint flowAwareLocationForChild(const LayoutBox& child) const;
     void setFlowAwareLocationForChild(LayoutBox& child, const LayoutPoint&);
     void adjustAlignmentForChild(LayoutBox& child, LayoutUnit);
     ItemPosition alignmentForChild(const LayoutBox& child) const;
     LayoutUnit mainAxisBorderAndPaddingExtentForChild(const LayoutBox& child) const;
     LayoutUnit computeInnerFlexBaseSizeForChild(LayoutBox& child, ChildLayoutType = LayoutIfNeeded);
     bool mainAxisLengthIsDefinite(const LayoutBox& child, const Length& flexBasis) const;
     bool childFlexBaseSizeRequiresLayout(const LayoutBox& child) const;
     bool needToStretchChildLogicalHeight(const LayoutBox& child) const;
     bool childHasIntrinsicMainAxisSize(const LayoutBox& child) const;
     EOverflow mainAxisOverflowForChild(const LayoutBox& child) const;
     EOverflow crossAxisOverflowForChild(const LayoutBox& child) const;

     void layoutFlexItems(bool relayoutChildren, SubtreeLayoutScope&);
     LayoutUnit autoMarginOffsetInMainAxis(const OrderedFlexItemList&, LayoutUnit& availableFreeSpace);
     void updateAutoMarginsInMainAxis(LayoutBox& child, LayoutUnit autoMarginOffset);
     bool hasAutoMarginsInCrossAxis(const LayoutBox& child) const;
     bool updateAutoMarginsInCrossAxis(LayoutBox& child, LayoutUnit availableAlignmentSpace);
     void repositionLogicalHeightDependentFlexItems(Vector<LineContext>&);
     LayoutUnit clientLogicalBottomAfterRepositioning();

     LayoutUnit availableAlignmentSpaceForChild(LayoutUnit lineCrossAxisExtent, const LayoutBox& child);
     LayoutUnit availableAlignmentSpaceForChildBeforeStretching(LayoutUnit lineCrossAxisExtent, const LayoutBox& child);
     LayoutUnit marginBoxAscentForChild(const LayoutBox& child);

     LayoutUnit computeChildMarginValue(Length margin);
     void prepareOrderIteratorAndMargins();
     LayoutUnit adjustChildSizeForMinAndMax(const LayoutBox& child, LayoutUnit childSize);
     // The hypothetical main size of an item is the flex base size clamped according to its min and max main size properties
     bool computeNextFlexLine(OrderedFlexItemList& orderedChildren, LayoutUnit& sumFlexBaseSize, double& totalFlexGrow, double& totalWeightedFlexShrink, LayoutUnit& sumHypotheticalMainSize, bool relayoutChildren);

     bool resolveFlexibleLengths(FlexSign, const OrderedFlexItemList&, LayoutUnit& availableFreeSpace, double& totalFlexGrow, double& totalWeightedFlexShrink, InflexibleFlexItemSize&, Vector<LayoutUnit, 16>& childSizes);
     void freezeViolations(const Vector<Violation>&, LayoutUnit& availableFreeSpace, double& totalFlexGrow, double& totalWeightedFlexShrink, InflexibleFlexItemSize&);

     void resetAutoMarginsAndLogicalTopInCrossAxis(LayoutBox& child);
     void setOverrideMainAxisSizeForChild(LayoutBox& child, LayoutUnit childPreferredSize);
     void prepareChildForPositionedLayout(LayoutBox& child, LayoutUnit mainAxisOffset, LayoutUnit crossAxisOffset, PositionedLayoutMode);
     size_t numberOfInFlowPositionedChildren(const OrderedFlexItemList&) const;
     void layoutAndPlaceChildren(LayoutUnit& crossAxisOffset, const OrderedFlexItemList&, const Vector<LayoutUnit, 16>& childSizes, LayoutUnit availableFreeSpace, bool relayoutChildren, SubtreeLayoutScope&, Vector<LineContext>&);
     void layoutColumnReverse(const OrderedFlexItemList&, LayoutUnit crossAxisOffset, LayoutUnit availableFreeSpace);
     void alignFlexLines(Vector<LineContext>&);
     void alignChildren(const Vector<LineContext>&);
     void applyStretchAlignmentToChild(LayoutBox& child, LayoutUnit lineCrossAxisExtent);
     void flipForRightToLeftColumn();
     void flipForWrapReverse(const Vector<LineContext>&, LayoutUnit crossAxisStartEdge);

     float countIntrinsicSizeForAlgorithmChange(LayoutUnit maxPreferredWidth, LayoutBox* child, float previousMaxContentFlexFraction) const;

     // This is used to cache the preferred size for orthogonal flow children so we don't have to relayout to get it
     HashMap<const LayoutObject*, LayoutUnit> m_intrinsicSizeAlongMainAxis;

     mutable OrderIterator m_orderIterator;
     int m_numberOfInFlowChildrenOnFirstLine;
 };

 DEFINE_LAYOUT_OBJECT_TYPE_CASTS(LayoutFlexibleBox, isFlexibleBox());

 } // namespace blink

 #endif // LayoutFlexibleBox_h
	/*
	* Copyright (C) 2011 Google 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:
	*
	* * Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* * 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.
	* * Neither the name of Google Inc. nor the names of its
	* contributors may be used to endorse or promote products derived from
	* this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	* OWNER 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 LayoutFlexibleBox_h
	#define LayoutFlexibleBox_h

	#include "core/CoreExport.h"
	#include "core/layout/LayoutBlock.h"
	#include "core/layout/OrderIterator.h"

	namespace blink {

	class CORE_EXPORT LayoutFlexibleBox : public LayoutBlock {
	public:
	LayoutFlexibleBox(Element*);
	~LayoutFlexibleBox() override;

	static LayoutFlexibleBox* createAnonymous(Document*);

	const char* name() const override { return "LayoutFlexibleBox"; }

	bool isFlexibleBox() const final { return true; }
	bool canCollapseAnonymousBlockChild() const override { return false; }
	void layoutBlock(bool relayoutChildren) final;

	int baselinePosition(FontBaseline, bool firstLine, LineDirectionMode, LinePositionMode = PositionOnContainingLine) const override;
	int firstLineBoxBaseline() const override;
	int inlineBlockBaseline(LineDirectionMode) const override;

	void paintChildren(const PaintInfo&, const LayoutPoint&) const final;

	bool isHorizontalFlow() const;

	const OrderIterator& orderIterator() const { return m_orderIterator; }

	protected:
	void computeIntrinsicLogicalWidths(LayoutUnit& minLogicalWidth, LayoutUnit& maxLogicalWidth) const override;

	void styleDidChange(StyleDifference, const ComputedStyle* oldStyle) override;
	void removeChild(LayoutObject*) override;

	private:
	enum FlexSign {
	PositiveFlexibility,
	NegativeFlexibility,
	};

	enum PositionedLayoutMode {
	FlipForRowReverse,
	NoFlipForRowReverse,
	};

	enum ChildLayoutType {
	LayoutIfNeeded,
	ForceLayout,
	NeverLayout
	};

	enum class TransformedWritingMode {
	TopToBottomWritingMode, RightToLeftWritingMode, LeftToRightWritingMode, BottomToTopWritingMode
	};

	typedef HashMap<const LayoutBox*, LayoutUnit> InflexibleFlexItemSize;
	typedef Vector<LayoutBox*> OrderedFlexItemList;

	struct LineContext;
	struct Violation;

	// Use an inline capacity of 8, since flexbox containers usually have less than 8 children.
	typedef Vector<LayoutRect, 8> ChildFrameRects;

	bool hasOrthogonalFlow(const LayoutBox& child) const;
	bool isColumnFlow() const;
	bool isLeftToRightFlow() const;
	bool isMultiline() const;
	Length flexBasisForChild(const LayoutBox& child) const;
	LayoutUnit crossAxisExtentForChild(const LayoutBox& child) const;
	LayoutUnit crossAxisIntrinsicExtentForChild(const LayoutBox& child) const;
	LayoutUnit childIntrinsicHeight(const LayoutBox& child) const;
	LayoutUnit childIntrinsicWidth(const LayoutBox& child) const;
	LayoutUnit mainAxisExtentForChild(const LayoutBox& child) const;
	LayoutUnit crossAxisExtent() const;
	LayoutUnit mainAxisExtent() const;
	LayoutUnit crossAxisContentExtent() const;
	LayoutUnit mainAxisContentExtent(LayoutUnit contentLogicalHeight);
	LayoutUnit computeMainAxisExtentForChild(const LayoutBox& child, SizeType, const Length& size);
	TransformedWritingMode transformedWritingMode() const;
	LayoutUnit flowAwareBorderStart() const;
	LayoutUnit flowAwareBorderEnd() const;
	LayoutUnit flowAwareBorderBefore() const;
	LayoutUnit flowAwareBorderAfter() const;
	LayoutUnit flowAwarePaddingStart() const;
	LayoutUnit flowAwarePaddingEnd() const;
	LayoutUnit flowAwarePaddingBefore() const;
	LayoutUnit flowAwarePaddingAfter() const;
	LayoutUnit flowAwareMarginStartForChild(const LayoutBox& child) const;
	LayoutUnit flowAwareMarginEndForChild(const LayoutBox& child) const;
	LayoutUnit flowAwareMarginBeforeForChild(const LayoutBox& child) const;
	LayoutUnit crossAxisMarginExtentForChild(const LayoutBox& child) const;
	LayoutUnit crossAxisScrollbarExtent() const;
	LayoutUnit crossAxisScrollbarExtentForChild(const LayoutBox& child) const;
	LayoutPoint flowAwareLocationForChild(const LayoutBox& child) const;
	void setFlowAwareLocationForChild(LayoutBox& child, const LayoutPoint&);
	void adjustAlignmentForChild(LayoutBox& child, LayoutUnit);
	ItemPosition alignmentForChild(const LayoutBox& child) const;
	LayoutUnit mainAxisBorderAndPaddingExtentForChild(const LayoutBox& child) const;
	LayoutUnit computeInnerFlexBaseSizeForChild(LayoutBox& child, ChildLayoutType = LayoutIfNeeded);
	bool mainAxisLengthIsDefinite(const LayoutBox& child, const Length& flexBasis) const;
	bool childFlexBaseSizeRequiresLayout(const LayoutBox& child) const;
	bool needToStretchChildLogicalHeight(const LayoutBox& child) const;
	bool childHasIntrinsicMainAxisSize(const LayoutBox& child) const;
	EOverflow mainAxisOverflowForChild(const LayoutBox& child) const;
	EOverflow crossAxisOverflowForChild(const LayoutBox& child) const;

	void layoutFlexItems(bool relayoutChildren, SubtreeLayoutScope&);
	LayoutUnit autoMarginOffsetInMainAxis(const OrderedFlexItemList&, LayoutUnit& availableFreeSpace);
	void updateAutoMarginsInMainAxis(LayoutBox& child, LayoutUnit autoMarginOffset);
	bool hasAutoMarginsInCrossAxis(const LayoutBox& child) const;
	bool updateAutoMarginsInCrossAxis(LayoutBox& child, LayoutUnit availableAlignmentSpace);
	void repositionLogicalHeightDependentFlexItems(Vector<LineContext>&);
	LayoutUnit clientLogicalBottomAfterRepositioning();

	LayoutUnit availableAlignmentSpaceForChild(LayoutUnit lineCrossAxisExtent, const LayoutBox& child);
	LayoutUnit availableAlignmentSpaceForChildBeforeStretching(LayoutUnit lineCrossAxisExtent, const LayoutBox& child);
	LayoutUnit marginBoxAscentForChild(const LayoutBox& child);

	LayoutUnit computeChildMarginValue(Length margin);
	void prepareOrderIteratorAndMargins();
	LayoutUnit adjustChildSizeForMinAndMax(const LayoutBox& child, LayoutUnit childSize);
	// The hypothetical main size of an item is the flex base size clamped according to its min and max main size properties
	bool computeNextFlexLine(OrderedFlexItemList& orderedChildren, LayoutUnit& sumFlexBaseSize, double& totalFlexGrow, double& totalWeightedFlexShrink, LayoutUnit& sumHypotheticalMainSize, bool relayoutChildren);

	bool resolveFlexibleLengths(FlexSign, const OrderedFlexItemList&, LayoutUnit& availableFreeSpace, double& totalFlexGrow, double& totalWeightedFlexShrink, InflexibleFlexItemSize&, Vector<LayoutUnit, 16>& childSizes);
	void freezeViolations(const Vector<Violation>&, LayoutUnit& availableFreeSpace, double& totalFlexGrow, double& totalWeightedFlexShrink, InflexibleFlexItemSize&);

	void resetAutoMarginsAndLogicalTopInCrossAxis(LayoutBox& child);
	void setOverrideMainAxisSizeForChild(LayoutBox& child, LayoutUnit childPreferredSize);
	void prepareChildForPositionedLayout(LayoutBox& child, LayoutUnit mainAxisOffset, LayoutUnit crossAxisOffset, PositionedLayoutMode);
	size_t numberOfInFlowPositionedChildren(const OrderedFlexItemList&) const;
	void layoutAndPlaceChildren(LayoutUnit& crossAxisOffset, const OrderedFlexItemList&, const Vector<LayoutUnit, 16>& childSizes, LayoutUnit availableFreeSpace, bool relayoutChildren, SubtreeLayoutScope&, Vector<LineContext>&);
	void layoutColumnReverse(const OrderedFlexItemList&, LayoutUnit crossAxisOffset, LayoutUnit availableFreeSpace);
	void alignFlexLines(Vector<LineContext>&);
	void alignChildren(const Vector<LineContext>&);
	void applyStretchAlignmentToChild(LayoutBox& child, LayoutUnit lineCrossAxisExtent);
	void flipForRightToLeftColumn();
	void flipForWrapReverse(const Vector<LineContext>&, LayoutUnit crossAxisStartEdge);

	float countIntrinsicSizeForAlgorithmChange(LayoutUnit maxPreferredWidth, LayoutBox* child, float previousMaxContentFlexFraction) const;

	// This is used to cache the preferred size for orthogonal flow children so we don't have to relayout to get it
	HashMap<const LayoutObject*, LayoutUnit> m_intrinsicSizeAlongMainAxis;

	mutable OrderIterator m_orderIterator;
	int m_numberOfInFlowChildrenOnFirstLine;
	};

	DEFINE_LAYOUT_OBJECT_TYPE_CASTS(LayoutFlexibleBox, isFlexibleBox());

	} // namespace blink

	#endif // LayoutFlexibleBox_h