gecko-dev/layout/generic/CSSOrderAwareFrameIterator.h

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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/. */
/* Iterator class for frame lists that respect CSS "order" during layout */
#ifndef mozilla_CSSOrderAwareFrameIterator_h
#define mozilla_CSSOrderAwareFrameIterator_h
#include <limits>
#include "nsFrameList.h"
#include "nsIFrame.h"
#include "mozilla/Maybe.h"
#include "mozilla/Assertions.h"
namespace mozilla {
/**
* CSSOrderAwareFrameIteratorT is a base class for iterators that traverse
* child frame lists in a way that respects their CSS "order" property.
* https://drafts.csswg.org/css-flexbox-1/#order-property
* This class isn't meant to be directly used; instead, use its specializations
* CSSOrderAwareFrameIterator and ReverseCSSOrderAwareFrameIterator.
*
* Client code can use a CSSOrderAwareFrameIterator to traverse lower-"order"
* frames before higher-"order" ones (as required for correct flex/grid
* layout), without modifying the frames' actual ordering within the frame
* tree. Any frames with equal "order" values will be traversed consecutively,
* in frametree order (which is generally equivalent to DOM order).
*
* By default, the iterator will skip past placeholder frames during
* iteration. You can adjust this behavior via the ChildFilter constructor arg.
*
* By default, the iterator will use the frames' CSS "order" property to
* determine its traversal order. However, it can be customized to instead use
* the (prefixed) legacy "box-ordinal-group" CSS property instead, as part of
* emulating "display:-webkit-box" containers. This behavior can be customized
* using the OrderingProperty constructor arg.
*
* A few notes on performance:
* - If you're iterating multiple times in a row, it's a good idea to reuse
* the same iterator (calling Reset() to start each new iteration), rather than
* instantiating a new one each time.
* - If you have foreknowledge of the list's orderedness, you can save some
* time by passing eKnownOrdered or eKnownUnordered to the constructor (which
* will skip some checks during construction).
*
* Warning: if the given frame list changes, it makes the iterator invalid and
* bad things will happen if it's used further.
*/
template <typename Iterator>
class CSSOrderAwareFrameIteratorT {
public:
enum OrderState { eUnknownOrder, eKnownOrdered, eKnownUnordered };
enum ChildFilter { eSkipPlaceholders, eIncludeAll };
enum OrderingProperty {
eUseOrder, // Default behavior: use "order".
eUseBoxOrdinalGroup // Legacy behavior: use prefixed "box-ordinal-group".
};
CSSOrderAwareFrameIteratorT(nsIFrame* aContainer,
nsIFrame::ChildListID aListID,
ChildFilter aFilter = eSkipPlaceholders,
OrderState aState = eUnknownOrder,
OrderingProperty aOrderProp = eUseOrder)
: mChildren(aContainer->GetChildList(aListID)),
mArrayIndex(0),
mItemIndex(0),
mSkipPlaceholders(aFilter == eSkipPlaceholders)
#ifdef DEBUG
,
mContainer(aContainer),
mListID(aListID)
#endif
{
MOZ_ASSERT(aContainer->IsFlexOrGridContainer(),
"Only use this iterator in a container that honors 'order'");
size_t count = 0;
bool isOrdered = aState != eKnownUnordered;
if (aState == eUnknownOrder) {
auto maxOrder = std::numeric_limits<int32_t>::min();
for (auto* child : mChildren) {
++count;
int32_t order = aOrderProp == eUseBoxOrdinalGroup
? child->StyleXUL()->mBoxOrdinal
: child->StylePosition()->mOrder;
if (order < maxOrder) {
isOrdered = false;
break;
}
maxOrder = order;
}
}
if (isOrdered) {
mIter.emplace(begin(mChildren));
mIterEnd.emplace(end(mChildren));
} else {
count *= 2; // XXX somewhat arbitrary estimate for now...
mArray.emplace(count);
for (Iterator i(begin(mChildren)), iEnd(end(mChildren)); i != iEnd; ++i) {
mArray->AppendElement(*i);
}
auto comparator = (aOrderProp == eUseBoxOrdinalGroup)
? CSSBoxOrdinalGroupComparator
: CSSOrderComparator;
mArray->StableSort(comparator);
}
if (mSkipPlaceholders) {
SkipPlaceholders();
}
}
~CSSOrderAwareFrameIteratorT() {
MOZ_ASSERT(IsForward() == mItemCount.isNothing());
}
bool IsForward() const;
nsIFrame* operator*() const {
MOZ_ASSERT(!AtEnd());
if (mIter.isSome()) {
return **mIter;
}
return (*mArray)[mArrayIndex];
}
/**
* Return the child index of the current item, placeholders not counted.
* It's forbidden to call this method when the current frame is placeholder.
*/
size_t ItemIndex() const {
MOZ_ASSERT(!AtEnd());
MOZ_ASSERT(!(**this)->IsPlaceholderFrame(),
"MUST not call this when at a placeholder");
MOZ_ASSERT(IsForward() || mItemIndex < *mItemCount,
"Returning an out-of-range mItemIndex...");
return mItemIndex;
}
void SetItemCount(size_t aItemCount) {
MOZ_ASSERT(mIter.isSome() || aItemCount <= mArray->Length(),
"item count mismatch");
mItemCount.emplace(aItemCount);
// Note: it's OK if mItemIndex underflows -- ItemIndex()
// will not be called unless there is at least one item.
mItemIndex = IsForward() ? 0 : *mItemCount - 1;
}
/**
* Skip over placeholder children.
*/
void SkipPlaceholders() {
if (mIter.isSome()) {
for (; *mIter != *mIterEnd; ++*mIter) {
nsIFrame* child = **mIter;
if (!child->IsPlaceholderFrame()) {
return;
}
}
} else {
for (; mArrayIndex < mArray->Length(); ++mArrayIndex) {
nsIFrame* child = (*mArray)[mArrayIndex];
if (!child->IsPlaceholderFrame()) {
return;
}
}
}
}
bool AtEnd() const {
MOZ_ASSERT(mIter.isSome() || mArrayIndex <= mArray->Length());
return mIter ? (*mIter == *mIterEnd) : mArrayIndex >= mArray->Length();
}
void Next() {
#ifdef DEBUG
MOZ_ASSERT(!AtEnd());
nsFrameList list = mContainer->GetChildList(mListID);
MOZ_ASSERT(list.FirstChild() == mChildren.FirstChild() &&
list.LastChild() == mChildren.LastChild(),
"the list of child frames must not change while iterating!");
#endif
if (mSkipPlaceholders || !(**this)->IsPlaceholderFrame()) {
IsForward() ? ++mItemIndex : --mItemIndex;
}
if (mIter.isSome()) {
++*mIter;
} else {
++mArrayIndex;
}
if (mSkipPlaceholders) {
SkipPlaceholders();
}
}
void Reset(ChildFilter aFilter = eSkipPlaceholders) {
if (mIter.isSome()) {
mIter.reset();
mIter.emplace(begin(mChildren));
mIterEnd.reset();
mIterEnd.emplace(end(mChildren));
} else {
mArrayIndex = 0;
}
mItemIndex = IsForward() ? 0 : *mItemCount - 1;
mSkipPlaceholders = aFilter == eSkipPlaceholders;
if (mSkipPlaceholders) {
SkipPlaceholders();
}
}
bool IsValid() const { return mIter.isSome() || mArray.isSome(); }
void Invalidate() {
mIter.reset();
mArray.reset();
mozWritePoison(&mChildren, sizeof(mChildren));
}
bool ItemsAreAlreadyInOrder() const { return mIter.isSome(); }
private:
Iterator begin(const nsFrameList& aList);
Iterator end(const nsFrameList& aList);
static int CSSOrderComparator(nsIFrame* const& a, nsIFrame* const& b);
static int CSSBoxOrdinalGroupComparator(nsIFrame* const& a,
nsIFrame* const& b);
nsFrameList mChildren;
// Used if child list is already in ascending 'order'.
Maybe<Iterator> mIter;
Maybe<Iterator> mIterEnd;
// Used if child list is *not* in ascending 'order'.
// This array is pre-sorted in reverse order for a reverse iterator.
Maybe<nsTArray<nsIFrame*>> mArray;
size_t mArrayIndex;
// The index of the current item (placeholders excluded).
size_t mItemIndex;
// The number of items (placeholders excluded).
// It's only initialized and used in a reverse iterator.
Maybe<size_t> mItemCount;
// Skip placeholder children in the iteration?
bool mSkipPlaceholders;
#ifdef DEBUG
nsIFrame* mContainer;
nsIFrame::ChildListID mListID;
#endif
};
using CSSOrderAwareFrameIterator =
CSSOrderAwareFrameIteratorT<nsFrameList::iterator>;
using ReverseCSSOrderAwareFrameIterator =
CSSOrderAwareFrameIteratorT<nsFrameList::reverse_iterator>;
} // namespace mozilla
#endif // mozilla_CSSOrderAwareFrameIterator_h