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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* 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 http://mozilla.org/MPL/2.0/. */
/* representation of one line within a block frame, a CSS line box */
#ifndef nsLineBox_h___
#define nsLineBox_h___
#include "mozilla/Attributes.h"
#include "mozilla/Likely.h"
#include "nsILineIterator.h"
#include "nsIFrame.h"
#include "nsStyleConsts.h"
#include "nsTHashSet.h"
#include <algorithm>
class nsLineBox;
class nsWindowSizes;
namespace mozilla {
class PresShell;
} // namespace mozilla
/**
* Function to create a line box and initialize it with a single frame.
* The allocation is infallible.
* If the frame was moved from another line then you're responsible
* for notifying that line using NoteFrameRemoved(). Alternatively,
* it's better to use the next function that does that for you in an
* optimal way.
*/
nsLineBox* NS_NewLineBox(mozilla::PresShell* aPresShell, nsIFrame* aFrame,
bool aIsBlock);
/**
* Function to create a line box and initialize it with aCount frames
* that are currently on aFromLine. The allocation is infallible.
*/
nsLineBox* NS_NewLineBox(mozilla::PresShell* aPresShell, nsLineBox* aFromLine,
nsIFrame* aFrame, int32_t aCount);
class nsLineList;
// don't use the following names outside of this file. Instead, use
// nsLineList::iterator, etc. These are just here to allow them to
// be specified as parameters to methods of nsLineBox.
class nsLineList_iterator;
class nsLineList_const_iterator;
class nsLineList_reverse_iterator;
class nsLineList_const_reverse_iterator;
/**
* Users must have the class that is to be part of the list inherit
* from nsLineLink. If they want to be efficient, it should be the
* first base class. (This was originally nsCLink in a templatized
* nsCList, but it's still useful separately.)
*/
class nsLineLink {
public:
friend class nsLineList;
friend class nsLineList_iterator;
friend class nsLineList_reverse_iterator;
friend class nsLineList_const_iterator;
friend class nsLineList_const_reverse_iterator;
private:
nsLineLink* _mNext; // or head
nsLineLink* _mPrev; // or tail
};
/**
* The nsLineBox class represents a horizontal line of frames. It contains
* enough state to support incremental reflow of the frames, event handling
* for the frames, and rendering of the frames.
*/
class nsLineBox final : public nsLineLink {
private:
nsLineBox(nsIFrame* aFrame, int32_t aCount, bool aIsBlock);
~nsLineBox();
// Infallible overloaded new operator. Uses an arena (which comes from the
// presShell) to perform the allocation.
void* operator new(size_t sz, mozilla::PresShell* aPresShell);
void operator delete(void* aPtr, size_t sz) = delete;
public:
// Use these functions to allocate and destroy line boxes
friend nsLineBox* NS_NewLineBox(mozilla::PresShell* aPresShell,
nsIFrame* aFrame, bool aIsBlock);
friend nsLineBox* NS_NewLineBox(mozilla::PresShell* aPresShell,
nsLineBox* aFromLine, nsIFrame* aFrame,
int32_t aCount);
void Destroy(mozilla::PresShell* aPresShell);
// mBlock bit
bool IsBlock() const { return mFlags.mBlock; }
bool IsInline() const { return !mFlags.mBlock; }
// mDirty bit
void MarkDirty() { mFlags.mDirty = 1; }
void ClearDirty() { mFlags.mDirty = 0; }
bool IsDirty() const { return mFlags.mDirty; }
// mPreviousMarginDirty bit
void MarkPreviousMarginDirty() { mFlags.mPreviousMarginDirty = 1; }
void ClearPreviousMarginDirty() { mFlags.mPreviousMarginDirty = 0; }
bool IsPreviousMarginDirty() const { return mFlags.mPreviousMarginDirty; }
// mHasClearance bit
void SetHasClearance() { mFlags.mHasClearance = 1; }
void ClearHasClearance() { mFlags.mHasClearance = 0; }
bool HasClearance() const { return mFlags.mHasClearance; }
// mImpactedByFloat bit
void SetLineIsImpactedByFloat(bool aValue) {
mFlags.mImpactedByFloat = aValue;
}
bool IsImpactedByFloat() const { return mFlags.mImpactedByFloat; }
// mLineWrapped bit
void SetLineWrapped(bool aOn) { mFlags.mLineWrapped = aOn; }
bool IsLineWrapped() const { return mFlags.mLineWrapped; }
// mInvalidateTextRuns bit
void SetInvalidateTextRuns(bool aOn) { mFlags.mInvalidateTextRuns = aOn; }
bool GetInvalidateTextRuns() const { return mFlags.mInvalidateTextRuns; }
// mResizeReflowOptimizationDisabled bit
void DisableResizeReflowOptimization() {
mFlags.mResizeReflowOptimizationDisabled = true;
}
void EnableResizeReflowOptimization() {
mFlags.mResizeReflowOptimizationDisabled = false;
}
bool ResizeReflowOptimizationDisabled() const {
return mFlags.mResizeReflowOptimizationDisabled;
}
// mHasMarker bit
void SetHasMarker() {
mFlags.mHasMarker = true;
InvalidateCachedIsEmpty();
}
void ClearHasMarker() {
mFlags.mHasMarker = false;
InvalidateCachedIsEmpty();
}
bool HasMarker() const { return mFlags.mHasMarker; }
// mHadFloatPushed bit
void SetHadFloatPushed() { mFlags.mHadFloatPushed = true; }
void ClearHadFloatPushed() { mFlags.mHadFloatPushed = false; }
bool HadFloatPushed() const { return mFlags.mHadFloatPushed; }
// mHasLineClampEllipsis bit
void SetHasLineClampEllipsis() { mFlags.mHasLineClampEllipsis = true; }
void ClearHasLineClampEllipsis() { mFlags.mHasLineClampEllipsis = false; }
bool HasLineClampEllipsis() const { return mFlags.mHasLineClampEllipsis; }
// mMovedFragments bit
void SetMovedFragments() { mFlags.mMovedFragments = true; }
void ClearMovedFragments() { mFlags.mMovedFragments = false; }
bool MovedFragments() const { return mFlags.mMovedFragments; }
private:
// Add a hash table for fast lookup when the line has more frames than this.
static const uint32_t kMinChildCountForHashtable = 200;
/**
* Take ownership of aFromLine's hash table and remove the frames that
* stay on aFromLine from it, i.e. aFromLineNewCount frames starting with
* mFirstChild. This method is used to optimize moving a large number
* of frames from one line to the next.
*/
void StealHashTableFrom(nsLineBox* aFromLine, uint32_t aFromLineNewCount);
/**
* Does the equivalent of this->NoteFrameAdded and aFromLine->NoteFrameRemoved
* for each frame on this line, but in a optimized way.
*/
void NoteFramesMovedFrom(nsLineBox* aFromLine);
void SwitchToHashtable() {
MOZ_ASSERT(!mFlags.mHasHashedFrames);
uint32_t count = GetChildCount();
mFlags.mHasHashedFrames = 1;
uint32_t minLength =
std::max(kMinChildCountForHashtable,
uint32_t(PLDHashTable::kDefaultInitialLength));
mFrames = new nsTHashSet<nsIFrame*>(std::max(count, minLength));
for (nsIFrame* f = mFirstChild; count-- > 0; f = f->GetNextSibling()) {
mFrames->Insert(f);
}
}
void SwitchToCounter() {
MOZ_ASSERT(mFlags.mHasHashedFrames);
uint32_t count = GetChildCount();
delete mFrames;
mFlags.mHasHashedFrames = 0;
mChildCount = count;
}
public:
int32_t GetChildCount() const {
return MOZ_UNLIKELY(mFlags.mHasHashedFrames) ? mFrames->Count()
: mChildCount;
}
/**
* Register that aFrame is now on this line.
*/
void NoteFrameAdded(nsIFrame* aFrame) {
if (MOZ_UNLIKELY(mFlags.mHasHashedFrames)) {
mFrames->Insert(aFrame);
} else {
if (++mChildCount >= kMinChildCountForHashtable) {
SwitchToHashtable();
}
}
}
/**
* Register that aFrame is not on this line anymore.
*/
void NoteFrameRemoved(nsIFrame* aFrame) {
MOZ_ASSERT(GetChildCount() > 0);
if (MOZ_UNLIKELY(mFlags.mHasHashedFrames)) {
mFrames->Remove(aFrame);
if (mFrames->Count() < kMinChildCountForHashtable) {
SwitchToCounter();
}
} else {
--mChildCount;
}
}
// mHasForcedLineBreakAfter bit & mFloatClearType value
void ClearForcedLineBreak() {
mFlags.mHasForcedLineBreakAfter = false;
mFlags.mFloatClearType = mozilla::StyleClear::None;
}
bool HasFloatClearTypeBefore() const {
return FloatClearTypeBefore() != mozilla::StyleClear::None;
}
void SetFloatClearTypeBefore(mozilla::StyleClear aClearType) {
MOZ_ASSERT(IsBlock(), "Only block lines have break-before status!");
MOZ_ASSERT(aClearType != mozilla::StyleClear::None,
"Only StyleClear:Left/Right/Both are allowed before a line");
mFlags.mFloatClearType = aClearType;
}
mozilla::StyleClear FloatClearTypeBefore() const {
return IsBlock() ? mFlags.mFloatClearType : mozilla::StyleClear::None;
}
bool HasForcedLineBreakAfter() const {
MOZ_ASSERT(IsInline() || !mFlags.mHasForcedLineBreakAfter,
"A block line shouldn't set mHasForcedLineBreakAfter bit!");
return IsInline() && mFlags.mHasForcedLineBreakAfter;
}
void SetForcedLineBreakAfter(mozilla::StyleClear aClearType) {
MOZ_ASSERT(IsInline(), "Only inline lines have break-after status!");
mFlags.mHasForcedLineBreakAfter = true;
mFlags.mFloatClearType = aClearType;
}
bool HasFloatClearTypeAfter() const {
return FloatClearTypeAfter() != mozilla::StyleClear::None;
}
mozilla::StyleClear FloatClearTypeAfter() const {
return IsInline() ? mFlags.mFloatClearType : mozilla::StyleClear::None;
}
// mCarriedOutBEndMargin value
nsCollapsingMargin GetCarriedOutBEndMargin() const;
// Returns true if the margin changed
bool SetCarriedOutBEndMargin(nsCollapsingMargin aValue);
// mFloats
bool HasFloats() const {
return (IsInline() && mInlineData) && !mInlineData->mFloats.IsEmpty();
}
const nsTArray<nsIFrame*>& Floats() const {
MOZ_ASSERT(HasFloats());
return mInlineData->mFloats;
}
// Append aFloats to mFloat. aFloats will be empty.
void AppendFloats(nsTArray<nsIFrame*>&& aFloats);
void ClearFloats();
bool RemoveFloat(nsIFrame* aFrame);
// The ink overflow area should never be used for things that affect layout.
// The scrollable overflow area are permitted to affect layout for handling of
// overflow and scrollbars.
void SetOverflowAreas(const mozilla::OverflowAreas& aOverflowAreas);
mozilla::LogicalRect GetOverflowArea(mozilla::OverflowType aType,
mozilla::WritingMode aWM,
const nsSize& aContainerSize) {
return mozilla::LogicalRect(aWM, GetOverflowArea(aType), aContainerSize);
}
nsRect GetOverflowArea(mozilla::OverflowType aType) const {
return mData ? mData->mOverflowAreas.Overflow(aType) : GetPhysicalBounds();
}
mozilla::OverflowAreas GetOverflowAreas() const {
if (mData) {
return mData->mOverflowAreas;
}
nsRect bounds = GetPhysicalBounds();
return mozilla::OverflowAreas(bounds, bounds);
}
nsRect InkOverflowRect() const {
return GetOverflowArea(mozilla::OverflowType::Ink);
}
nsRect ScrollableOverflowRect() const {
return GetOverflowArea(mozilla::OverflowType::Scrollable);
}
void SlideBy(nscoord aDBCoord, const nsSize& aContainerSize) {
NS_ASSERTION(
aContainerSize == mContainerSize || mContainerSize == nsSize(-1, -1),
"container size doesn't match");
mContainerSize = aContainerSize;
mBounds.BStart(mWritingMode) += aDBCoord;
if (mData) {
// Use a null containerSize to convert vector from logical to physical.
const nsSize nullContainerSize;
nsPoint physicalDelta =
mozilla::LogicalPoint(mWritingMode, 0, aDBCoord)
.GetPhysicalPoint(mWritingMode, nullContainerSize);
for (const auto otype : mozilla::AllOverflowTypes()) {
mData->mOverflowAreas.Overflow(otype) += physicalDelta;
}
}
}
// Container-size for the line is changing (and therefore if writing mode
// was vertical-rl, the line will move physically; this is like SlideBy,
// but it is the container size instead of the line's own logical coord
// that is changing.
nsSize UpdateContainerSize(const nsSize aNewContainerSize) {
NS_ASSERTION(mContainerSize != nsSize(-1, -1), "container size not set");
nsSize delta = mContainerSize - aNewContainerSize;
mContainerSize = aNewContainerSize;
// this has a physical-coordinate effect only in vertical-rl mode
if (mWritingMode.IsVerticalRL() && mData) {
nsPoint physicalDelta(-delta.width, 0);
for (const auto otype : mozilla::AllOverflowTypes()) {
mData->mOverflowAreas.Overflow(otype) += physicalDelta;
}
}
return delta;
}
void IndentBy(nscoord aDICoord, const nsSize& aContainerSize) {
NS_ASSERTION(
aContainerSize == mContainerSize || mContainerSize == nsSize(-1, -1),
"container size doesn't match");
mContainerSize = aContainerSize;
mBounds.IStart(mWritingMode) += aDICoord;
}
void ExpandBy(nscoord aDISize, const nsSize& aContainerSize) {
NS_ASSERTION(
aContainerSize == mContainerSize || mContainerSize == nsSize(-1, -1),
"container size doesn't match");
mContainerSize = aContainerSize;
mBounds.ISize(mWritingMode) += aDISize;
}
/**
* The logical ascent (distance from block-start to baseline) of the
* linebox is the logical ascent of the anonymous inline box (for
* which we don't actually create a frame) that wraps all the
* consecutive inline children of a block.
*
* This is currently unused for block lines.
*/
nscoord GetLogicalAscent() const { return mAscent; }
void SetLogicalAscent(nscoord aAscent) { mAscent = aAscent; }
nscoord BStart() const { return mBounds.BStart(mWritingMode); }
nscoord BSize() const { return mBounds.BSize(mWritingMode); }
nscoord BEnd() const { return mBounds.BEnd(mWritingMode); }
nscoord IStart() const { return mBounds.IStart(mWritingMode); }
nscoord ISize() const { return mBounds.ISize(mWritingMode); }
nscoord IEnd() const { return mBounds.IEnd(mWritingMode); }
void SetBoundsEmpty() {
mBounds.IStart(mWritingMode) = 0;
mBounds.ISize(mWritingMode) = 0;
mBounds.BStart(mWritingMode) = 0;
mBounds.BSize(mWritingMode) = 0;
}
using DestroyContext = nsIFrame::DestroyContext;
static void DeleteLineList(nsPresContext* aPresContext, nsLineList& aLines,
nsFrameList* aFrames, DestroyContext&);
// search from end to beginning of [aBegin, aEnd)
// Returns true if it found the line and false if not.
// Moves aEnd as it searches so that aEnd points to the resulting line.
// aLastFrameBeforeEnd is the last frame before aEnd (so if aEnd is
// the end of the line list, it's just the last frame in the frame
// list).
static bool RFindLineContaining(nsIFrame* aFrame,
const nsLineList_iterator& aBegin,
nsLineList_iterator& aEnd,
nsIFrame* aLastFrameBeforeEnd,
int32_t* aFrameIndexInLine);
#ifdef DEBUG_FRAME_DUMP
static const char* StyleClearToString(mozilla::StyleClear aClearType);
void List(FILE* out, int32_t aIndent,
nsIFrame::ListFlags aFlags = nsIFrame::ListFlags()) const;
void List(FILE* out = stderr, const char* aPrefix = "",
nsIFrame::ListFlags aFlags = nsIFrame::ListFlags()) const;
nsIFrame* LastChild() const;
#endif
void AddSizeOfExcludingThis(nsWindowSizes& aSizes) const;
// Find the index of aFrame within the line, starting search at the start.
int32_t IndexOf(nsIFrame* aFrame) const;
// Find the index of aFrame within the line, starting search at the end.
// (Produces the same result as IndexOf, but with different performance
// characteristics.) The caller must provide the last frame in the line.
int32_t RIndexOf(nsIFrame* aFrame, nsIFrame* aLastFrameInLine) const;
bool Contains(nsIFrame* aFrame) const {
return MOZ_UNLIKELY(mFlags.mHasHashedFrames) ? mFrames->Contains(aFrame)
: IndexOf(aFrame) >= 0;
}
// whether the line box is "logically" empty (just like nsIFrame::IsEmpty)
bool IsEmpty() const;
// Call this only while in Reflow() for the block the line belongs
// to, only between reflowing the line (or sliding it, if we skip
// reflowing it) and the end of reflowing the block.
bool CachedIsEmpty();
void InvalidateCachedIsEmpty() { mFlags.mEmptyCacheValid = false; }
// For debugging purposes
bool IsValidCachedIsEmpty() { return mFlags.mEmptyCacheValid; }
#ifdef DEBUG
static int32_t GetCtorCount();
#endif
nsIFrame* mFirstChild;
mozilla::WritingMode mWritingMode;
// Physical size. Use only for physical <-> logical coordinate conversion.
nsSize mContainerSize;
private:
mozilla::LogicalRect mBounds;
public:
const mozilla::LogicalRect& GetBounds() { return mBounds; }
nsRect GetPhysicalBounds() const {
if (mBounds.IsAllZero()) {
return nsRect(0, 0, 0, 0);
}
NS_ASSERTION(mContainerSize != nsSize(-1, -1),
"mContainerSize not initialized");
return mBounds.GetPhysicalRect(mWritingMode, mContainerSize);
}
void SetBounds(mozilla::WritingMode aWritingMode, nscoord aIStart,
nscoord aBStart, nscoord aISize, nscoord aBSize,
const nsSize& aContainerSize) {
mWritingMode = aWritingMode;
mContainerSize = aContainerSize;
mBounds =
mozilla::LogicalRect(aWritingMode, aIStart, aBStart, aISize, aBSize);
}
// mFlags.mHasHashedFrames says which one to use
union {
nsTHashSet<nsIFrame*>* mFrames;
uint32_t mChildCount;
};
struct FlagBits {
bool mDirty : 1;
bool mPreviousMarginDirty : 1;
bool mHasClearance : 1;
bool mBlock : 1;
bool mImpactedByFloat : 1;
bool mLineWrapped : 1;
bool mInvalidateTextRuns : 1;
// default 0 = means that the opt potentially applies to this line.
// 1 = never skip reflowing this line for a resize reflow
bool mResizeReflowOptimizationDisabled : 1;
bool mEmptyCacheValid : 1;
bool mEmptyCacheState : 1;
// mHasMarker indicates that this is an inline line whose block's
// ::marker is adjacent to this line and non-empty.
bool mHasMarker : 1;
// Indicates that this line *may* have a placeholder for a float
// that was pushed to a later column or page.
bool mHadFloatPushed : 1;
bool mHasHashedFrames : 1;
// Indicates that this line is the one identified by an ancestor block
// with -webkit-line-clamp on its legacy flex container, and that subsequent
// lines under that block are "clamped" away, and therefore we need to
// render a 'text-overflow: ellipsis'-like marker in this line. At most one
// line in the set of lines found by LineClampLineIterator for a given
// block will have this flag set.
bool mHasLineClampEllipsis : 1;
// Has this line moved to a different fragment of the block since
// the last time it was reflowed?
bool mMovedFragments : 1;
// mHasForcedLineBreakAfter indicates that this *inline* line has a
// break-after status due to a float clearance or ending with <br>. A block
// line shouldn't set this bit.
//
// Note: This bit is unrelated to CSS break-after property because it is all
// about line break-after for inline-level boxes.
bool mHasForcedLineBreakAfter : 1;
// mFloatClearType indicates that there's a float clearance before a block
// line, or after an inline line.
mozilla::StyleClear mFloatClearType;
};
struct ExtraData {
explicit ExtraData(const nsRect& aBounds)
: mOverflowAreas(aBounds, aBounds) {}
mozilla::OverflowAreas mOverflowAreas;
};
struct ExtraBlockData : public ExtraData {
explicit ExtraBlockData(const nsRect& aBounds) : ExtraData(aBounds) {}
nsCollapsingMargin mCarriedOutBEndMargin;
};
struct ExtraInlineData : public ExtraData {
explicit ExtraInlineData(const nsRect& aBounds)
: ExtraData(aBounds),
mFloatEdgeIStart(nscoord_MIN),
mFloatEdgeIEnd(nscoord_MIN) {}
nscoord mFloatEdgeIStart;
nscoord mFloatEdgeIEnd;
nsTArray<nsIFrame*> mFloats;
};
bool GetFloatEdges(nscoord* aStart, nscoord* aEnd) const {
MOZ_ASSERT(IsInline(), "block line can't have float edges");
if (mInlineData && mInlineData->mFloatEdgeIStart != nscoord_MIN) {
*aStart = mInlineData->mFloatEdgeIStart;
*aEnd = mInlineData->mFloatEdgeIEnd;
return true;
}
return false;
}
void SetFloatEdges(nscoord aStart, nscoord aEnd);
void ClearFloatEdges();
protected:
nscoord mAscent; // see |SetAscent| / |GetAscent|
static_assert(sizeof(FlagBits) <= sizeof(uint32_t),
"size of FlagBits should not be larger than size of uint32_t");
union {
uint32_t mAllFlags;
FlagBits mFlags;
};
union {
ExtraData* mData;
ExtraBlockData* mBlockData;
ExtraInlineData* mInlineData;
};
void Cleanup();
void MaybeFreeData();
};
/**
* A linked list type where the items in the list must inherit from
* a link type to fuse allocations.
*
* API heavily based on the |list| class in the C++ standard.
*/
class nsLineList_iterator {
public:
friend class nsLineList;
friend class nsLineList_reverse_iterator;
friend class nsLineList_const_iterator;
friend class nsLineList_const_reverse_iterator;
typedef nsLineList_iterator iterator_self_type;
typedef nsLineList_reverse_iterator iterator_reverse_type;
typedef nsLineBox& reference;
typedef const nsLineBox& const_reference;
typedef nsLineBox* pointer;
typedef const nsLineBox* const_pointer;
typedef uint32_t size_type;
typedef int32_t difference_type;
typedef nsLineLink link_type;
#ifdef DEBUG
nsLineList_iterator() : mListLink(nullptr) {
memset(&mCurrent, 0xcd, sizeof(mCurrent));
}
#else
// Auto generated default constructor OK.
#endif
// Auto generated copy-constructor OK.
inline iterator_self_type& operator=(const iterator_self_type& aOther);
inline iterator_self_type& operator=(const iterator_reverse_type& aOther);
iterator_self_type& operator++() {
mCurrent = mCurrent->_mNext;
return *this;
}
iterator_self_type operator++(int) {
iterator_self_type rv(*this);
mCurrent = mCurrent->_mNext;
return rv;
}
iterator_self_type& operator--() {
mCurrent = mCurrent->_mPrev;
return *this;
}
iterator_self_type operator--(int) {
iterator_self_type rv(*this);
mCurrent = mCurrent->_mPrev;
return rv;
}
reference operator*() {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return *static_cast<pointer>(mCurrent);
}
pointer operator->() {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<pointer>(mCurrent);
}
pointer get() {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<pointer>(mCurrent);
}
operator pointer() {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<pointer>(mCurrent);
}
const_reference operator*() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return *static_cast<const_pointer>(mCurrent);
}
const_pointer operator->() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<const_pointer>(mCurrent);
}
#ifndef __MWERKS__
operator const_pointer() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<const_pointer>(mCurrent);
}
#endif /* !__MWERKS__ */
iterator_self_type next() {
iterator_self_type copy(*this);
return ++copy;
}
const iterator_self_type next() const {
iterator_self_type copy(*this);
return ++copy;
}
iterator_self_type prev() {
iterator_self_type copy(*this);
return --copy;
}
const iterator_self_type prev() const {
iterator_self_type copy(*this);
return --copy;
}
bool operator==(const iterator_self_type& aOther) const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mListLink == aOther.mListLink,
"comparing iterators over different lists");
return mCurrent == aOther.mCurrent;
}
bool operator!=(const iterator_self_type& aOther) const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mListLink == aOther.mListLink,
"comparing iterators over different lists");
return mCurrent != aOther.mCurrent;
}
#ifdef DEBUG
bool IsInSameList(const iterator_self_type& aOther) const {
return mListLink == aOther.mListLink;
}
#endif
private:
link_type* mCurrent;
#ifdef DEBUG
link_type* mListLink; // the list's link, i.e., the end
#endif
};
class nsLineList_reverse_iterator {
public:
friend class nsLineList;
friend class nsLineList_iterator;
friend class nsLineList_const_iterator;
friend class nsLineList_const_reverse_iterator;
typedef nsLineList_reverse_iterator iterator_self_type;
typedef nsLineList_iterator iterator_reverse_type;
typedef nsLineBox& reference;
typedef const nsLineBox& const_reference;
typedef nsLineBox* pointer;
typedef const nsLineBox* const_pointer;
typedef uint32_t size_type;
typedef int32_t difference_type;
typedef nsLineLink link_type;
#ifdef DEBUG
nsLineList_reverse_iterator() : mListLink(nullptr) {
memset(&mCurrent, 0xcd, sizeof(mCurrent));
}
#else
// Auto generated default constructor OK.
#endif
// Auto generated copy-constructor OK.
inline iterator_self_type& operator=(const iterator_reverse_type& aOther);
inline iterator_self_type& operator=(const iterator_self_type& aOther);
iterator_self_type& operator++() {
mCurrent = mCurrent->_mPrev;
return *this;
}
iterator_self_type operator++(int) {
iterator_self_type rv(*this);
mCurrent = mCurrent->_mPrev;
return rv;
}
iterator_self_type& operator--() {
mCurrent = mCurrent->_mNext;
return *this;
}
iterator_self_type operator--(int) {
iterator_self_type rv(*this);
mCurrent = mCurrent->_mNext;
return rv;
}
reference operator*() {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return *static_cast<pointer>(mCurrent);
}
pointer operator->() {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<pointer>(mCurrent);
}
pointer get() {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<pointer>(mCurrent);
}
operator pointer() {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<pointer>(mCurrent);
}
const_reference operator*() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return *static_cast<const_pointer>(mCurrent);
}
const_pointer operator->() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<const_pointer>(mCurrent);
}
#ifndef __MWERKS__
operator const_pointer() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<const_pointer>(mCurrent);
}
#endif /* !__MWERKS__ */
bool operator==(const iterator_self_type& aOther) const {
MOZ_ASSERT(mListLink);
NS_ASSERTION(mListLink == aOther.mListLink,
"comparing iterators over different lists");
return mCurrent == aOther.mCurrent;
}
bool operator!=(const iterator_self_type& aOther) const {
MOZ_ASSERT(mListLink);
NS_ASSERTION(mListLink == aOther.mListLink,
"comparing iterators over different lists");
return mCurrent != aOther.mCurrent;
}
#ifdef DEBUG
bool IsInSameList(const iterator_self_type& aOther) const {
return mListLink == aOther.mListLink;
}
#endif
private:
link_type* mCurrent;
#ifdef DEBUG
link_type* mListLink; // the list's link, i.e., the end
#endif
};
class nsLineList_const_iterator {
public:
friend class nsLineList;
friend class nsLineList_iterator;
friend class nsLineList_reverse_iterator;
friend class nsLineList_const_reverse_iterator;
typedef nsLineList_const_iterator iterator_self_type;
typedef nsLineList_const_reverse_iterator iterator_reverse_type;
typedef nsLineList_iterator iterator_nonconst_type;
typedef nsLineList_reverse_iterator iterator_nonconst_reverse_type;
typedef nsLineBox& reference;
typedef const nsLineBox& const_reference;
typedef nsLineBox* pointer;
typedef const nsLineBox* const_pointer;
typedef uint32_t size_type;
typedef int32_t difference_type;
typedef nsLineLink link_type;
#ifdef DEBUG
nsLineList_const_iterator() : mListLink(nullptr) {
memset(&mCurrent, 0xcd, sizeof(mCurrent));
}
#else
// Auto generated default constructor OK.
#endif
// Auto generated copy-constructor OK.
inline iterator_self_type& operator=(const iterator_nonconst_type& aOther);
inline iterator_self_type& operator=(
const iterator_nonconst_reverse_type& aOther);
inline iterator_self_type& operator=(const iterator_self_type& aOther);
inline iterator_self_type& operator=(const iterator_reverse_type& aOther);
iterator_self_type& operator++() {
mCurrent = mCurrent->_mNext;
return *this;
}
iterator_self_type operator++(int) {
iterator_self_type rv(*this);
mCurrent = mCurrent->_mNext;
return rv;
}
iterator_self_type& operator--() {
mCurrent = mCurrent->_mPrev;
return *this;
}
iterator_self_type operator--(int) {
iterator_self_type rv(*this);
mCurrent = mCurrent->_mPrev;
return rv;
}
const_reference operator*() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return *static_cast<const_pointer>(mCurrent);
}
const_pointer operator->() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<const_pointer>(mCurrent);
}
const_pointer get() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<const_pointer>(mCurrent);
}
#ifndef __MWERKS__
operator const_pointer() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<const_pointer>(mCurrent);
}
#endif /* !__MWERKS__ */
const iterator_self_type next() const {
iterator_self_type copy(*this);
return ++copy;
}
const iterator_self_type prev() const {
iterator_self_type copy(*this);
return --copy;
}
bool operator==(const iterator_self_type& aOther) const {
MOZ_ASSERT(mListLink);
NS_ASSERTION(mListLink == aOther.mListLink,
"comparing iterators over different lists");
return mCurrent == aOther.mCurrent;
}
bool operator!=(const iterator_self_type& aOther) const {
MOZ_ASSERT(mListLink);
NS_ASSERTION(mListLink == aOther.mListLink,
"comparing iterators over different lists");
return mCurrent != aOther.mCurrent;
}
#ifdef DEBUG
bool IsInSameList(const iterator_self_type& aOther) const {
return mListLink == aOther.mListLink;
}
#endif
private:
const link_type* mCurrent;
#ifdef DEBUG
const link_type* mListLink; // the list's link, i.e., the end
#endif
};
class nsLineList_const_reverse_iterator {
public:
friend class nsLineList;
friend class nsLineList_iterator;
friend class nsLineList_reverse_iterator;
friend class nsLineList_const_iterator;
typedef nsLineList_const_reverse_iterator iterator_self_type;
typedef nsLineList_const_iterator iterator_reverse_type;
typedef nsLineList_iterator iterator_nonconst_reverse_type;
typedef nsLineList_reverse_iterator iterator_nonconst_type;
typedef nsLineBox& reference;
typedef const nsLineBox& const_reference;
typedef nsLineBox* pointer;
typedef const nsLineBox* const_pointer;
typedef uint32_t size_type;
typedef int32_t difference_type;
typedef nsLineLink link_type;
#ifdef DEBUG
nsLineList_const_reverse_iterator() : mListLink(nullptr) {
memset(&mCurrent, 0xcd, sizeof(mCurrent));
}
#else
// Auto generated default constructor OK.
#endif
// Auto generated copy-constructor OK.
inline iterator_self_type& operator=(const iterator_nonconst_type& aOther);
inline iterator_self_type& operator=(
const iterator_nonconst_reverse_type& aOther);
inline iterator_self_type& operator=(const iterator_self_type& aOther);
inline iterator_self_type& operator=(const iterator_reverse_type& aOther);
iterator_self_type& operator++() {
mCurrent = mCurrent->_mPrev;
return *this;
}
iterator_self_type operator++(int) {
iterator_self_type rv(*this);
mCurrent = mCurrent->_mPrev;
return rv;
}
iterator_self_type& operator--() {
mCurrent = mCurrent->_mNext;
return *this;
}
iterator_self_type operator--(int) {
iterator_self_type rv(*this);
mCurrent = mCurrent->_mNext;
return rv;
}
const_reference operator*() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return *static_cast<const_pointer>(mCurrent);
}
const_pointer operator->() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<const_pointer>(mCurrent);
}
const_pointer get() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<const_pointer>(mCurrent);
}
#ifndef __MWERKS__
operator const_pointer() const {
MOZ_ASSERT(mListLink);
MOZ_ASSERT(mCurrent != mListLink, "running past end");
return static_cast<const_pointer>(mCurrent);
}
#endif /* !__MWERKS__ */
bool operator==(const iterator_self_type& aOther) const {
MOZ_ASSERT(mListLink);
NS_ASSERTION(mListLink == aOther.mListLink,
"comparing iterators over different lists");
return mCurrent == aOther.mCurrent;
}
bool operator!=(const iterator_self_type& aOther) const {
MOZ_ASSERT(mListLink);
NS_ASSERTION(mListLink == aOther.mListLink,
"comparing iterators over different lists");
return mCurrent != aOther.mCurrent;
}
#ifdef DEBUG
bool IsInSameList(const iterator_self_type& aOther) const {
return mListLink == aOther.mListLink;
}
#endif
// private:
const link_type* mCurrent;
#ifdef DEBUG
const link_type* mListLink; // the list's link, i.e., the end
#endif
};
class nsLineList {
public:
friend class nsLineList_iterator;
friend class nsLineList_reverse_iterator;
friend class nsLineList_const_iterator;
friend class nsLineList_const_reverse_iterator;
typedef uint32_t size_type;
typedef int32_t difference_type;
typedef nsLineLink link_type;
private:
link_type mLink;
public:
typedef nsLineList self_type;
typedef nsLineBox& reference;
typedef const nsLineBox& const_reference;
typedef nsLineBox* pointer;
typedef const nsLineBox* const_pointer;
typedef nsLineList_iterator iterator;
typedef nsLineList_reverse_iterator reverse_iterator;
typedef nsLineList_const_iterator const_iterator;
typedef nsLineList_const_reverse_iterator const_reverse_iterator;
nsLineList() {
MOZ_COUNT_CTOR(nsLineList);
clear();
}
MOZ_COUNTED_DTOR(nsLineList)
const_iterator begin() const {
const_iterator rv;
rv.mCurrent = mLink._mNext;
#ifdef DEBUG
rv.mListLink = &mLink;
#endif
return rv;
}
iterator begin() {
iterator rv;
rv.mCurrent = mLink._mNext;
#ifdef DEBUG
rv.mListLink = &mLink;
#endif
return rv;
}
iterator begin(nsLineBox* aLine) {
iterator rv;
rv.mCurrent = aLine;
#ifdef DEBUG
rv.mListLink = &mLink;
#endif
return rv;
}
const_iterator end() const {
const_iterator rv;
rv.mCurrent = &mLink;
#ifdef DEBUG
rv.mListLink = &mLink;
#endif
return rv;
}
iterator end() {
iterator rv;
rv.mCurrent = &mLink;
#ifdef DEBUG
rv.mListLink = &mLink;
#endif
return rv;
}
const_reverse_iterator rbegin() const {
const_reverse_iterator rv;
rv.mCurrent = mLink._mPrev;
#ifdef DEBUG
rv.mListLink = &mLink;
#endif
return rv;
}
reverse_iterator rbegin() {
reverse_iterator rv;
rv.mCurrent = mLink._mPrev;
#ifdef DEBUG
rv.mListLink = &mLink;
#endif
return rv;
}
reverse_iterator rbegin(nsLineBox* aLine) {
reverse_iterator rv;
rv.mCurrent = aLine;
#ifdef DEBUG
rv.mListLink = &mLink;
#endif
return rv;
}
const_reverse_iterator rend() const {
const_reverse_iterator rv;
rv.mCurrent = &mLink;
#ifdef DEBUG
rv.mListLink = &mLink;
#endif
return rv;
}
reverse_iterator rend() {
reverse_iterator rv;
rv.mCurrent = &mLink;
#ifdef DEBUG
rv.mListLink = &mLink;
#endif
return rv;
}
bool empty() const { return mLink._mNext == &mLink; }
// NOTE: O(N).
size_type size() const {
size_type count = 0;
for (const link_type* cur = mLink._mNext; cur != &mLink;
cur = cur->_mNext) {
++count;
}
return count;
}
pointer front() {
NS_ASSERTION(!empty(), "no element to return");
return static_cast<pointer>(mLink._mNext);
}
const_pointer front() const {
NS_ASSERTION(!empty(), "no element to return");
return static_cast<const_pointer>(mLink._mNext);
}
pointer back() {
NS_ASSERTION(!empty(), "no element to return");
return static_cast<pointer>(mLink._mPrev);
}
const_pointer back() const {
NS_ASSERTION(!empty(), "no element to return");
return static_cast<const_pointer>(mLink._mPrev);
}
void push_front(pointer aNew) {
aNew->_mNext = mLink._mNext;
mLink._mNext->_mPrev = aNew;
aNew->_mPrev = &mLink;
mLink._mNext = aNew;
}
void pop_front()
// NOTE: leaves dangling next/prev pointers
{
NS_ASSERTION(!empty(), "no element to pop");
link_type* newFirst = mLink._mNext->_mNext;
newFirst->_mPrev = &mLink;
// mLink._mNext->_mNext = nullptr;
// mLink._mNext->_mPrev = nullptr;
mLink._mNext = newFirst;
}
void push_back(pointer aNew) {
aNew->_mPrev = mLink._mPrev;
mLink._mPrev->_mNext = aNew;
aNew->_mNext = &mLink;
mLink._mPrev = aNew;
}
void pop_back()
// NOTE: leaves dangling next/prev pointers
{
NS_ASSERTION(!empty(), "no element to pop");
link_type* newLast = mLink._mPrev->_mPrev;
newLast->_mNext = &mLink;
// mLink._mPrev->_mPrev = nullptr;
// mLink._mPrev->_mNext = nullptr;
mLink._mPrev = newLast;
}
// inserts x before position
iterator before_insert(iterator position, pointer x) {
// use |mCurrent| to prevent DEBUG_PASS_END assertions
x->_mPrev = position.mCurrent->_mPrev;
x->_mNext = position.mCurrent;
position.mCurrent->_mPrev->_mNext = x;
position.mCurrent->_mPrev = x;
return --position;
}
// inserts x after position
iterator after_insert(iterator position, pointer x) {
// use |mCurrent| to prevent DEBUG_PASS_END assertions
x->_mNext = position.mCurrent->_mNext;
x->_mPrev = position.mCurrent;
position.mCurrent->_mNext->_mPrev = x;
position.mCurrent->_mNext = x;
return ++position;
}
// returns iterator pointing to after the element
iterator erase(iterator position)
// NOTE: leaves dangling next/prev pointers
{
position->_mPrev->_mNext = position->_mNext;
position->_mNext->_mPrev = position->_mPrev;
return ++position;
}
void swap(self_type& y) {
link_type tmp(y.mLink);
y.mLink = mLink;
mLink = tmp;
if (!empty()) {
mLink._mNext->_mPrev = &mLink;
mLink._mPrev->_mNext = &mLink;
}
if (!y.empty()) {
y.mLink._mNext->_mPrev = &y.mLink;
y.mLink._mPrev->_mNext = &y.mLink;
}
}
void clear()
// NOTE: leaves dangling next/prev pointers
{
mLink._mNext = &mLink;
mLink._mPrev = &mLink;
}
// inserts the conts of x before position and makes x empty
void splice(iterator position, self_type& x) {
// use |mCurrent| to prevent DEBUG_PASS_END assertions
position.mCurrent->_mPrev->_mNext = x.mLink._mNext;
x.mLink._mNext->_mPrev = position.mCurrent->_mPrev;
x.mLink._mPrev->_mNext = position.mCurrent;
position.mCurrent->_mPrev = x.mLink._mPrev;
x.clear();
}
// Inserts element *i from list x before position and removes
// it from x.
void splice(iterator position, self_type& x, iterator i) {
NS_ASSERTION(!x.empty(), "Can't insert from empty list.");
NS_ASSERTION(position != i && position.mCurrent != i->_mNext,
"We don't check for this case.");
// remove from |x|
i->_mPrev->_mNext = i->_mNext;
i->_mNext->_mPrev = i->_mPrev;
// use |mCurrent| to prevent DEBUG_PASS_END assertions
// link into |this|, before-side
i->_mPrev = position.mCurrent->_mPrev;
position.mCurrent->_mPrev->_mNext = i.get();
// link into |this|, after-side
i->_mNext = position.mCurrent;
position.mCurrent->_mPrev = i.get();
}
// Inserts elements in [|first|, |last|), which are in |x|,
// into |this| before |position| and removes them from |x|.
void splice(iterator position, self_type& x, iterator first, iterator last) {
NS_ASSERTION(!x.empty(), "Can't insert from empty list.");
if (first == last) return;
--last; // so we now want to move [first, last]
// remove from |x|
first->_mPrev->_mNext = last->_mNext;
last->_mNext->_mPrev = first->_mPrev;
// use |mCurrent| to prevent DEBUG_PASS_END assertions
// link into |this|, before-side
first->_mPrev = position.mCurrent->_mPrev;
position.mCurrent->_mPrev->_mNext = first.get();
// link into |this|, after-side
last->_mNext = position.mCurrent;
position.mCurrent->_mPrev = last.get();
}
};
// Many of these implementations of operator= don't work yet. I don't
// know why.
#ifdef DEBUG
// NOTE: ASSIGN_FROM is meant to be used *only* as the entire body
// of a function and therefore lacks PR_{BEGIN,END}_MACRO
# define ASSIGN_FROM(other_) \
mCurrent = other_.mCurrent; \
mListLink = other_.mListLink; \
return *this;
#else /* !NS_LINELIST_DEBUG_PASS_END */
# define ASSIGN_FROM(other_) \
mCurrent = other_.mCurrent; \
return *this;
#endif /* !NS_LINELIST_DEBUG_PASS_END */
inline nsLineList_iterator& nsLineList_iterator::operator=(
const nsLineList_iterator& aOther) = default;
inline nsLineList_iterator& nsLineList_iterator::operator=(
const nsLineList_reverse_iterator& aOther) {
ASSIGN_FROM(aOther)
}
inline nsLineList_reverse_iterator& nsLineList_reverse_iterator::operator=(
const nsLineList_iterator& aOther) {
ASSIGN_FROM(aOther)
}
inline nsLineList_reverse_iterator& nsLineList_reverse_iterator::operator=(
const nsLineList_reverse_iterator& aOther) = default;
inline nsLineList_const_iterator& nsLineList_const_iterator::operator=(
const nsLineList_iterator& aOther) {
ASSIGN_FROM(aOther)
}
inline nsLineList_const_iterator& nsLineList_const_iterator::operator=(
const nsLineList_reverse_iterator& aOther) {
ASSIGN_FROM(aOther)
}
inline nsLineList_const_iterator& nsLineList_const_iterator::operator=(
const nsLineList_const_iterator& aOther) = default;
inline nsLineList_const_iterator& nsLineList_const_iterator::operator=(
const nsLineList_const_reverse_iterator& aOther) {
ASSIGN_FROM(aOther)
}
inline nsLineList_const_reverse_iterator&
nsLineList_const_reverse_iterator::operator=(
const nsLineList_iterator& aOther) {
ASSIGN_FROM(aOther)
}
inline nsLineList_const_reverse_iterator&
nsLineList_const_reverse_iterator::operator=(
const nsLineList_reverse_iterator& aOther) {
ASSIGN_FROM(aOther)
}
inline nsLineList_const_reverse_iterator&
nsLineList_const_reverse_iterator::operator=(
const nsLineList_const_iterator& aOther) {
ASSIGN_FROM(aOther)
}
inline nsLineList_const_reverse_iterator&
nsLineList_const_reverse_iterator::operator=(
const nsLineList_const_reverse_iterator& aOther) = default;
//----------------------------------------------------------------------
class nsLineIterator final : public nsILineIterator {
public:
nsLineIterator(const nsLineList& aLines, bool aRightToLeft)
: mLines(aLines), mRightToLeft(aRightToLeft) {
mIter = mLines.begin();
if (mIter != mLines.end()) {
mIndex = 0;
}
}
int32_t GetNumLines() const final {
if (mNumLines < 0) {
mNumLines = int32_t(mLines.size()); // This is O(N) in number of lines!
}
return mNumLines;
}
bool IsLineIteratorFlowRTL() final { return mRightToLeft; }
// Note that this updates the iterator's current position!
mozilla::Result<LineInfo, nsresult> GetLine(int32_t aLineNumber) final;
int32_t FindLineContaining(nsIFrame* aFrame, int32_t aStartLine = 0) final;
NS_IMETHOD FindFrameAt(int32_t aLineNumber, nsPoint aPos,
nsIFrame** aFrameFound, bool* aPosIsBeforeFirstFrame,
bool* aPosIsAfterLastFrame) final;
NS_IMETHOD CheckLineOrder(int32_t aLine, bool* aIsReordered,
nsIFrame** aFirstVisual,
nsIFrame** aLastVisual) final;
private:
nsLineIterator() = delete;
nsLineIterator(const nsLineIterator& aOther) = delete;
const nsLineBox* GetNextLine() {
MOZ_ASSERT(mIter != mLines.end(), "Already at end!");
++mIndex;
++mIter;
if (mIter == mLines.end()) {
MOZ_ASSERT(mNumLines < 0 || mNumLines == mIndex);
mNumLines = mIndex;
return nullptr;
}
return mIter.get();
}
// Note that this updates the iterator's current position to the given line.
const nsLineBox* GetLineAt(int32_t aIndex) {
MOZ_ASSERT(mIndex >= 0);
if (aIndex < 0 || (mNumLines >= 0 && aIndex >= mNumLines)) {
return nullptr;
}
// Check if we should start counting lines from mIndex, or reset to the
// start or end of the list and count from there (if the requested index is
// closer to an end than to the current position).
if (aIndex < mIndex / 2) {
// Reset to the beginning and search from there.
mIter = mLines.begin();
mIndex = 0;
} else if (mNumLines > 0 && aIndex > (mNumLines + mIndex) / 2) {
// Jump to the end and search back from there.
mIter = mLines.end();
--mIter;
mIndex = mNumLines - 1;
}
while (mIndex > aIndex) {
// This cannot run past the start of the list, because we checked that
// aIndex is non-negative.
--mIter;
--mIndex;
}
while (mIndex < aIndex) {
// Here we have to check for reaching the end, as aIndex could be out of
// range (if mNumLines was not initialized, so we couldn't range-check
// aIndex on entry).
if (mIter == mLines.end()) {
MOZ_ASSERT(mNumLines < 0 || mNumLines == mIndex);
mNumLines = mIndex;
return nullptr;
}
++mIter;
++mIndex;
}
return mIter.get();
}
const nsLineList& mLines;
nsLineList_const_iterator mIter;
int32_t mIndex = -1;
mutable int32_t mNumLines = -1;
const bool mRightToLeft;
};
#endif /* nsLineBox_h___ */
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