author Nigel Babu <>
Mon, 12 Jan 2015 10:43:11 +0530
changeset 249016 b684185c1c542c75868adf0b7d16293d3cc6b1c7
parent 249014 3cbd9323c8963df4f15b83a19e6efa7a74a2c23e
child 250429 8fca3694654a61a7ff05284e952a1d4863fc6acd
child 250584 c4553528cfdd8d9f858f92d15562890e5777ee22
permissions -rw-r--r--
Backed out 4 changesets (bug 1055658) for M5 bustage on a CLOSED TREE Backed out changeset 3cbd9323c896 (bug 1055658) Backed out changeset 99e071295c42 (bug 1055658) Backed out changeset 55119d19e4c5 (bug 1055658) Backed out changeset e82f640cb53f (bug 1055658)

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*-
 * vim:cindent:ts=2:et:sw=2:
 * This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at
 * This Original Code has been modified by IBM Corporation. Modifications made by IBM 
 * described herein are Copyright (c) International Business Machines Corporation, 2000.
 * Modifications to Mozilla code or documentation identified per MPL Section 3.3
 * Date             Modified by     Description of modification
 * 04/20/2000       IBM Corp.      OS/2 VisualAge build.

/* state and methods used while laying out a single line of a block frame */

#ifndef nsLineLayout_h___
#define nsLineLayout_h___

#include "nsLineBox.h"
#include "nsBlockReflowState.h"
#include "plarena.h"
#include "gfxTypes.h"
#include "WritingModes.h"
#include "JustificationUtils.h"

class nsFloatManager;
struct nsStyleText;

namespace mozilla {
class RubyReflowState;

class nsLineLayout {
   * @param aBaseLineLayout the nsLineLayout for ruby base,
   * nullptr if no separate base nsLineLayout is needed.
  nsLineLayout(nsPresContext* aPresContext,
               nsFloatManager* aFloatManager,
               const nsHTMLReflowState* aOuterReflowState,
               const nsLineList::iterator* aLine,
               nsLineLayout* aBaseLineLayout);

  void Init(nsBlockReflowState* aState, nscoord aMinLineBSize,
            int32_t aLineNumber) {
    mBlockRS = aState;
    mMinLineBSize = aMinLineBSize;
    mLineNumber = aLineNumber;

  int32_t GetLineNumber() const {
    return mLineNumber;

  void BeginLineReflow(nscoord aICoord, nscoord aBCoord,
                       nscoord aISize, nscoord aBSize,
                       bool aImpactedByFloats,
                       bool aIsTopOfPage,
                       mozilla::WritingMode aWritingMode,
                       nscoord aContainerWidth);

  void EndLineReflow();

   * Called when a float has been placed. This method updates the
   * inline frame and span data to account for any change in positions
   * due to available space for the line boxes changing.
   * @param aX/aY/aWidth/aHeight are the new available
   * space rectangle, relative to the containing block.
   * @param aFloatFrame the float frame that was placed.
  void UpdateBand(mozilla::WritingMode aWM,
                  const mozilla::LogicalRect& aNewAvailableSpace,
                  nsIFrame* aFloatFrame);

  void BeginSpan(nsIFrame* aFrame, const nsHTMLReflowState* aSpanReflowState,
                 nscoord aLeftEdge, nscoord aRightEdge, nscoord* aBaseline);

  // Returns the width of the span
  nscoord EndSpan(nsIFrame* aFrame);

  // This method attaches the last frame reflowed in this line layout
  // to that in the base line layout.
  void AttachLastFrameToBaseLineLayout()

  // This method attaches the root frame of this line layout to the
  // last reflowed frame in the base line layout.
  void AttachRootFrameToBaseLineLayout()

  int32_t GetCurrentSpanCount() const;

  void SplitLineTo(int32_t aNewCount);

  bool IsZeroBSize();

  // The ruby layout will be passed to the next frame to be reflowed
  // via the HTML reflow state.
  void SetRubyReflowState(mozilla::RubyReflowState* aRubyReflowState)
    mRubyReflowState = aRubyReflowState;

  // Reflows the frame and returns the reflow status. aPushedFrame is true
  // if the frame is pushed to the next line because it doesn't fit.
  void ReflowFrame(nsIFrame* aFrame,
                   nsReflowStatus& aReflowStatus,
                   nsHTMLReflowMetrics* aMetrics,
                   bool& aPushedFrame);

  void AddBulletFrame(nsIFrame* aFrame, const nsHTMLReflowMetrics& aMetrics);

  void RemoveBulletFrame(nsIFrame* aFrame) {

   * Place frames in the block direction (CSS property vertical-align)
  void VerticalAlignLine();

  // Get the final size of the line, in the block direction.
  // Do not call this until after we've called VerticalAlignLine.
  nscoord GetFinalLineBSize() const
    NS_ASSERTION(mFinalLineBSize != nscoord_MIN,
                 "VerticalAlignLine should have been called before");
    return mFinalLineBSize;

  bool TrimTrailingWhiteSpace();

   * Place frames in the inline direction (CSS property text-align).
  void TextAlignLine(nsLineBox* aLine, bool aIsLastLine);

   * Handle all the relative positioning in the line, compute the
   * combined area (== overflow area) for the line, and handle view
   * sizing/positioning and the setting of the overflow rect.
  void RelativePositionFrames(nsOverflowAreas& aOverflowAreas);

  // Support methods for word-wrapping during line reflow

  void SetJustificationInfo(const mozilla::JustificationInfo& aInfo)
    mJustificationInfo = aInfo;

   * @return true if so far during reflow no non-empty content has been
   * placed in the line (according to nsIFrame::IsEmpty())
  bool LineIsEmpty() const
    return mLineIsEmpty;

   * @return true if so far during reflow no non-empty leaf content
   * (non-collapsed whitespace, replaced element, inline-block, etc) has been
   * placed in the line
  bool LineAtStart() const
    return mLineAtStart;

  bool LineIsBreakable() const;

  bool GetLineEndsInBR() const 
    return mLineEndsInBR;

  void SetLineEndsInBR(bool aOn) 
    mLineEndsInBR = aOn;

  // Inform the line-layout about the presence of a floating frame
  // XXX get rid of this: use get-frame-type?
  bool AddFloat(nsIFrame* aFloat, nscoord aAvailableISize)
    // When reflowing ruby text frames, no block reflow state is
    // provided to the line layout. However, floats should never be
    // associated with ruby text containers, hence this method should
    // not be called in that case.
    NS_ABORT_IF_FALSE(mBlockRS, "Should not call this method "
                      "if there is no block reflow state available");
    return mBlockRS->AddFloat(this, aFloat, aAvailableISize);

  void SetTrimmableISize(nscoord aTrimmableISize) {
    mTrimmableISize = aTrimmableISize;


  bool GetFirstLetterStyleOK() const {
    return mFirstLetterStyleOK;

  void SetFirstLetterStyleOK(bool aSetting) {
    mFirstLetterStyleOK = aSetting;

  bool GetInFirstLetter() const {
    return mInFirstLetter;

  void SetInFirstLetter(bool aSetting) {
    mInFirstLetter = aSetting;

  bool GetInFirstLine() const {
    return mInFirstLine;

  void SetInFirstLine(bool aSetting) {
    mInFirstLine = aSetting;

  // Calling this during block reflow ensures that the next line of inlines
  // will be marked dirty, if there is one.
  void SetDirtyNextLine() {
    mDirtyNextLine = true;
  bool GetDirtyNextLine() {
    return mDirtyNextLine;


  nsPresContext* mPresContext;

   * Record where an optional break could have been placed. During line reflow,
   * frames containing optional break points (e.g., whitespace in text frames)
   * can call SetLastOptionalBreakPosition to record where a break could
   * have been made, but wasn't because we decided to place more content on
   * the line. For non-text frames, offset 0 means before the frame, offset
   * INT32_MAX means after the frame.
   * Currently this is used to handle cases where a single word comprises
   * multiple frames, and the first frame fits on the line but the whole word
   * doesn't. We look back to the last optional break position and
   * reflow the whole line again, forcing a break at that position. The last
   * optional break position could be in a text frame or else after a frame
   * that cannot be part of a text run, so those are the positions we record.
   * @param aFrame the frame which contains the optional break position.
   * @param aFits set to true if the break position is within the available width.
   * @param aPriority the priority of the break opportunity. If we are
   * prioritizing break opportunities, we will not set a break if we have
   * already set a break with a higher priority. @see gfxBreakPriority.
   * @return true if we are actually reflowing with forced break position and we
   * should break here
  bool NotifyOptionalBreakPosition(nsIFrame* aFrame, int32_t aOffset,
                                   bool aFits, gfxBreakPriority aPriority) {
    NS_ASSERTION(!aFits || !mNeedBackup,
                  "Shouldn't be updating the break position with a break that fits after we've already flagged an overrun");
    // Remember the last break position that fits; if there was no break that fit,
    // just remember the first break
    if ((aFits && aPriority >= mLastOptionalBreakPriority) ||
        !mLastOptionalBreakFrame) {
      mLastOptionalBreakFrame = aFrame;
      mLastOptionalBreakFrameOffset = aOffset;
      mLastOptionalBreakPriority = aPriority;
    return aFrame && mForceBreakFrame == aFrame &&
      mForceBreakFrameOffset == aOffset;
   * Like NotifyOptionalBreakPosition, but here it's OK for mNeedBackup
   * to be set, because the caller is merely pruning some saved break position(s)
   * that are actually not feasible.
  void RestoreSavedBreakPosition(nsIFrame* aFrame, int32_t aOffset,
                                 gfxBreakPriority aPriority) {
    mLastOptionalBreakFrame = aFrame;
    mLastOptionalBreakFrameOffset = aOffset;
    mLastOptionalBreakPriority = aPriority;
   * Signal that no backing up will be required after all.
  void ClearOptionalBreakPosition() {
    mNeedBackup = false;
    mLastOptionalBreakFrame = nullptr;
    mLastOptionalBreakFrameOffset = -1;
    mLastOptionalBreakPriority = gfxBreakPriority::eNoBreak;
  // Retrieve last set optional break position. When this returns null, no
  // optional break has been recorded (which means that the line can't break yet).
  nsIFrame* GetLastOptionalBreakPosition(int32_t* aOffset,
                                         gfxBreakPriority* aPriority) {
    *aOffset = mLastOptionalBreakFrameOffset;
    *aPriority = mLastOptionalBreakPriority;
    return mLastOptionalBreakFrame;
   * Check whether frames overflowed the available width and CanPlaceFrame
   * requested backing up to a saved break position.
  bool NeedsBackup() { return mNeedBackup; }
  // Line layout may place too much content on a line, overflowing its available
  // width. When that happens, if SetLastOptionalBreakPosition has been
  // used to record an optional break that wasn't taken, we can reflow the line
  // again and force the break to happen at that point (i.e., backtracking
  // to the last choice point).

  // Record that we want to break at the given content+offset (which
  // should have been previously returned by GetLastOptionalBreakPosition
  // from another nsLineLayout).
  void ForceBreakAtPosition(nsIFrame* aFrame, int32_t aOffset) {
    mForceBreakFrame = aFrame;
    mForceBreakFrameOffset = aOffset;
  bool HaveForcedBreakPosition() { return mForceBreakFrame != nullptr; }
  int32_t GetForcedBreakPosition(nsIFrame* aFrame) {
    return mForceBreakFrame == aFrame ? mForceBreakFrameOffset : -1;

   * This can't be null. It usually returns a block frame but may return
   * some other kind of frame when inline frames are reflowed in a non-block
   * context (e.g. MathML or floating first-letter).
  nsIFrame* LineContainerFrame() const { return mBlockReflowState->frame; }
  const nsHTMLReflowState* LineContainerRS() const { return mBlockReflowState; }
  const nsLineList::iterator* GetLine() const {
    return mGotLineBox ? &mLineBox : nullptr;
  nsLineList::iterator* GetLine() {
    return mGotLineBox ? &mLineBox : nullptr;
   * Returns the accumulated advance width of frames before the current frame
   * on the line, plus the line container's left border+padding.
   * This is always positive, the advance width is measured from
   * the right edge for RTL blocks and from the left edge for LTR blocks.
   * In other words, the current frame's distance from the line container's
   * start content edge is:
   * <code>GetCurrentFrameInlineDistanceFromBlock() - lineContainer->GetUsedBorderAndPadding().left</code>
   * Note the use of <code>.left</code> for both LTR and RTL line containers.
  nscoord GetCurrentFrameInlineDistanceFromBlock();

   * Move the inline position where the next frame will be reflowed forward by
   * aAmount.
  void AdvanceICoord(nscoord aAmount);
   * Returns the writing mode for the root span.
  mozilla::WritingMode GetWritingMode();
   * Returns the inline position where the next frame will be reflowed.
  nscoord GetCurrentICoord();

  // This state is constant for a given block frame doing line layout
  nsFloatManager* mFloatManager;
  const nsStyleText* mStyleText; // for the block
  const nsHTMLReflowState* mBlockReflowState;

  // The line layout for the base text. It is usually same as |this|.
  // It becomes different when the current line layout is for ruby
  // annotations. All line layouts share the same base line layout
  // when they are associated. The base line layout is responsible
  // for managing the life cycle of per-frame data and per-span data,
  // and handling floats.
  nsLineLayout* const mBaseLineLayout;

  nsIFrame* mLastOptionalBreakFrame;
  nsIFrame* mForceBreakFrame;
  // XXX remove this when landing bug 154892 (splitting absolute positioned frames)
  friend class nsInlineFrame;

  nsBlockReflowState* mBlockRS;/* XXX hack! */

  // XXX Take care that nsRubyBaseContainer would give nullptr to this
  //     member. It should not be a problem currently, since the only
  //     code use it is handling float, which does not affect ruby.
  //     See comment in nsLineLayout::AddFloat
  nsLineList::iterator mLineBox;

  // Per-frame data recorded by the line-layout reflow logic. This
  // state is the state needed to post-process the line after reflow
  // has completed (block-direction alignment, inline-direction alignment,
  // justification and relative positioning).

  struct PerSpanData;
  struct PerFrameData;
  friend struct PerSpanData;
  friend struct PerFrameData;
  struct PerFrameData
    explicit PerFrameData(mozilla::WritingMode aWritingMode)
      : mBounds(aWritingMode)
      , mMargin(aWritingMode)
      , mBorderPadding(aWritingMode)
      , mOffsets(aWritingMode)

    // link to next/prev frame in same span
    PerFrameData* mNext;
    PerFrameData* mPrev;

    // Link to the frame of next ruby annotation.  It is a linked list
    // through this pointer from ruby base to all its annotations.  It
    // could be nullptr if there is no more annotation.
    // If PFD_ISLINKEDTOBASE is set, the current PFD is one of the ruby
    // annotations in the base's list, otherwise it is the ruby base,
    // and its mNextAnnotation is the start of the linked list.
    PerFrameData* mNextAnnotation;

    // pointer to child span data if this is an inline container frame
    PerSpanData* mSpan;

    // The frame
    nsIFrame* mFrame;

    // From metrics
    nscoord mAscent;
    // note that mBounds is a logical rect in the *line*'s writing mode.
    // When setting frame coordinates, we have to convert to the frame's
    //  writing mode
    mozilla::LogicalRect mBounds;
    nsOverflowAreas mOverflowAreas;

    // From reflow-state
    mozilla::LogicalMargin mMargin;        // in *line* writing mode
    mozilla::LogicalMargin mBorderPadding; // in *line* writing mode
    mozilla::LogicalMargin mOffsets;       // in *frame* writing mode

    // state for text justification
    // Note that, although all frames would have correct inner
    // opportunities computed after ComputeFrameJustification, start
    // and end justifiable info are not reliable for non-text frames.
    mozilla::JustificationInfo mJustificationInfo;
    mozilla::JustificationAssignment mJustificationAssignment;
    // PerFrameData flags
    bool mRelativePos : 1;
    bool mIsTextFrame : 1;
    bool mIsNonEmptyTextFrame : 1;
    bool mIsNonWhitespaceTextFrame : 1;
    bool mIsLetterFrame : 1;
    bool mRecomputeOverflow : 1;
    bool mIsBullet : 1;
    bool mSkipWhenTrimmingWhitespace : 1;
    bool mIsEmpty : 1;
    bool mIsLinkedToBase : 1;

    // Other state we use
    uint8_t mBlockDirAlign;

    PerFrameData* Last() {
      PerFrameData* pfd = this;
      while (pfd->mNext) {
        pfd = pfd->mNext;
      return pfd;

    bool IsStartJustifiable() const
      return mJustificationInfo.mIsStartJustifiable;

    bool IsEndJustifiable() const
      return mJustificationInfo.mIsEndJustifiable;

    bool ParticipatesInJustification() const;
  PerFrameData* mFrameFreeList;

  struct PerSpanData {
    union {
      PerSpanData* mParent;
      PerSpanData* mNextFreeSpan;
    PerFrameData* mFrame;
    PerFrameData* mFirstFrame;
    PerFrameData* mLastFrame;

    const nsHTMLReflowState* mReflowState;
    bool mNoWrap;
    mozilla::WritingMode mWritingMode;
    bool mZeroEffectiveSpanBox;
    bool mContainsFloat;
    bool mHasNonemptyContent;

    nscoord mIStart;
    nscoord mICoord;
    nscoord mIEnd;

    nscoord mBStartLeading, mBEndLeading;
    nscoord mLogicalBSize;
    nscoord mMinBCoord, mMaxBCoord;
    nscoord* mBaseline;

    void AppendFrame(PerFrameData* pfd) {
      if (nullptr == mLastFrame) {
        mFirstFrame = pfd;
      else {
        mLastFrame->mNext = pfd;
        pfd->mPrev = mLastFrame;
      mLastFrame = pfd;
  PerSpanData* mSpanFreeList;
  PerSpanData* mRootSpan;
  PerSpanData* mCurrentSpan;

  // The container width to use when converting between logical and
  // physical coordinates for frames in this span. For the root span
  // this is the width of the block cached in mContainerWidth; for
  // child spans it's the width of the root span
  nscoord ContainerWidthForSpan(PerSpanData* aPSD) {
    return (aPSD == mRootSpan)
      ? mContainerWidth
      : aPSD->mFrame->mBounds.Width(mRootSpan->mWritingMode);

  gfxBreakPriority mLastOptionalBreakPriority;
  int32_t     mLastOptionalBreakFrameOffset;
  int32_t     mForceBreakFrameOffset;

  nscoord mMinLineBSize;
  // The amount of text indent that we applied to this line, needed for
  // max-element-size calculation.
  nscoord mTextIndent;

  // This state varies during the reflow of a line but is line
  // "global" state not span "local" state.
  int32_t mLineNumber;
  mozilla::JustificationInfo mJustificationInfo;

  // The ruby layout for the next frame to be reflowed.
  // It is reset every time it is used.
  mozilla::RubyReflowState* mRubyReflowState;

  int32_t mTotalPlacedFrames;

  nscoord mBStartEdge;
  nscoord mMaxStartBoxBSize;
  nscoord mMaxEndBoxBSize;

  nscoord mInflationMinFontSize;

  // Final computed line-bSize value after VerticalAlignFrames for
  // the block has been called.
  nscoord mFinalLineBSize;
  // Amount of trimmable whitespace inline size for the trailing text
  // frame, if any
  nscoord mTrimmableISize;

  // Physical width. Use only for physical <-> logical coordinate conversion.
  nscoord mContainerWidth;

  bool mFirstLetterStyleOK      : 1;
  bool mIsTopOfPage             : 1;
  bool mImpactedByFloats        : 1;
  bool mLastFloatWasLetterFrame : 1;
  bool mLineIsEmpty             : 1;
  bool mLineEndsInBR            : 1;
  bool mNeedBackup              : 1;
  bool mInFirstLine             : 1;
  bool mGotLineBox              : 1;
  bool mInFirstLetter           : 1;
  bool mHasBullet               : 1;
  bool mDirtyNextLine           : 1;
  bool mLineAtStart             : 1;
  bool mHasRuby                 : 1;

  int32_t mSpanDepth;
#ifdef DEBUG
  int32_t mSpansAllocated, mSpansFreed;
  int32_t mFramesAllocated, mFramesFreed;
  PLArenaPool mArena; // Per span and per frame data, 4 byte aligned

   * Allocate a PerFrameData from the mArena pool. The allocation is infallible.
  PerFrameData* NewPerFrameData(nsIFrame* aFrame);

   * Allocate a PerSpanData from the mArena pool. The allocation is infallible.
  PerSpanData* NewPerSpanData();

  PerFrameData* LastFrame() const { return mCurrentSpan->mLastFrame; }

   * Unlink the given PerFrameData and all the siblings after it from
   * the span. The unlinked PFDs are usually freed immediately.
   * However, if PFD_ISLINKEDTOBASE is set, it won't be freed until
   * the frame of its base is unlinked.
  void UnlinkFrame(PerFrameData* pfd);

   * Free the given PerFrameData.
  void FreeFrame(PerFrameData* pfd);

  void FreeSpan(PerSpanData* psd);

  bool InBlockContext() const {
    return mSpanDepth == 0;

  void PushFrame(nsIFrame* aFrame);

  void AllowForStartMargin(PerFrameData* pfd,
                           nsHTMLReflowState& aReflowState);

  void SyncAnnotationContainersBounds(PerFrameData* aRubyFrame);

  bool CanPlaceFrame(PerFrameData* pfd,
                       bool aNotSafeToBreak,
                       bool aFrameCanContinueTextRun,
                       bool aCanRollBackBeforeFrame,
                       nsHTMLReflowMetrics& aMetrics,
                       nsReflowStatus& aStatus,
                       bool* aOptionalBreakAfterFits);

  void PlaceFrame(PerFrameData* pfd,
                  nsHTMLReflowMetrics& aMetrics);

  void VerticalAlignFrames(PerSpanData* psd);

  void PlaceTopBottomFrames(PerSpanData* psd,
                            nscoord aDistanceFromStart,
                            nscoord aLineBSize);

  void RelativePositionFrames(PerSpanData* psd, nsOverflowAreas& aOverflowAreas);

  bool TrimTrailingWhiteSpaceIn(PerSpanData* psd, nscoord* aDeltaISize);

  struct JustificationComputationState;
  int32_t ComputeFrameJustification(PerSpanData* psd,
                                    JustificationComputationState& aState);

  void AdvanceAnnotationInlineBounds(PerFrameData* aPFD,
                                     nscoord aContainerWidth,
                                     nscoord aDeltaICoord,
                                     nscoord aDeltaISize);

  void ApplyLineJustificationToAnnotations(PerFrameData* aPFD,
                                           PerSpanData* aContainingSpan,
                                           nscoord aDeltaICoord,
                                           nscoord aDeltaISize);

  // Apply justification.  The return value is the amount by which the width of
  // the span corresponding to aPSD got increased due to justification.
  nscoord ApplyFrameJustification(
      PerSpanData* aPSD, mozilla::JustificationApplicationState& aState);

  void ExpandRubyBox(PerFrameData* aFrame, nscoord aReservedISize,
                     nscoord aContainerWidth);

  void ExpandRubyBoxWithAnnotations(PerFrameData* aFrame,
                                    nscoord aContainerWidth);

  void ExpandInlineRubyBoxes(PerSpanData* aSpan);

  void AttachFrameToBaseLineLayout(PerFrameData* aFrame);

#ifdef DEBUG
  void DumpPerSpanData(PerSpanData* psd, int32_t aIndent);

#endif /* nsLineLayout_h___ */