/* -*- 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/. */ #ifndef ChildIterator_h #define ChildIterator_h #include "nsIContent.h" /** * Iterates over the children on a node. If a child is an insertion point, * iterates over the children inserted there instead, or the default content * if no children are inserted there. * * The FlattenedChildIterator expands any anonymous content bound from an XBL * binding's element. */ #include #include "nsAutoPtr.h" class nsIContent; namespace mozilla { namespace dom { // This class iterates normal DOM child nodes of a given DOM node with // nodes replaced by the elements that have been filtered into that // insertion point. Any bindings on the given element are ignored for purposes // of determining which insertion point children are filtered into. The iterator // can be initialized to start at the end by providing false for aStartAtBeginning // in order to start iterating in reverse from the last child. class ExplicitChildIterator { public: explicit ExplicitChildIterator(const nsIContent* aParent, bool aStartAtBeginning = true); ExplicitChildIterator(const ExplicitChildIterator& aOther) : mParent(aOther.mParent), mParentAsSlot(aOther.mParentAsSlot), mChild(aOther.mChild), mDefaultChild(aOther.mDefaultChild), mIsFirst(aOther.mIsFirst), mIndexInInserted(aOther.mIndexInInserted) {} ExplicitChildIterator(ExplicitChildIterator&& aOther) : mParent(aOther.mParent), mParentAsSlot(aOther.mParentAsSlot), mChild(aOther.mChild), mDefaultChild(aOther.mDefaultChild), mIsFirst(aOther.mIsFirst), mIndexInInserted(aOther.mIndexInInserted) {} nsIContent* GetNextChild(); // Looks for aChildToFind respecting insertion points until aChildToFind is // found. This version can take shortcuts that the two-argument version // can't, so can be faster (and in fact can be O(1) instead of O(N) in many // cases). bool Seek(const nsIContent* aChildToFind); // Looks for aChildToFind respecting insertion points until aChildToFind is found. // or aBound is found. If aBound is nullptr then the seek is unbounded. Returns // whether aChildToFind was found as an explicit child prior to encountering // aBound. bool Seek(const nsIContent* aChildToFind, nsIContent* aBound) { // It would be nice to assert that we find aChildToFind, but bz thinks that // we might not find aChildToFind when called from ContentInserted // if first-letter frames are about. // We can't easily take shortcuts here because we'd have to have a way to // compare aChildToFind to aBound. nsIContent* child; do { child = GetNextChild(); } while (child && child != aChildToFind && child != aBound); return child == aChildToFind; } // Returns the current target of this iterator (which might be an explicit // child of the node, fallback content of an insertion point or // a node distributed to an insertion point. nsIContent* Get() const; // The inverse of GetNextChild. Properly steps in and out of insertion // points. nsIContent* GetPreviousChild(); protected: // The parent of the children being iterated. For the FlattenedChildIterator, // if there is a binding attached to the original parent, mParent points to // the element for the binding. const nsIContent* mParent; // If parent is a slot element, this points to the parent as HTMLSlotElement, // otherwise, it's null. const HTMLSlotElement* mParentAsSlot; // The current child. When we encounter an insertion point, // mChild remains as the insertion point whose content we're iterating (and // our state is controled by mDefaultChild or mIndexInInserted depending on // whether the insertion point expands to its default content or not). nsIContent* mChild; // If non-null, this points to the current default content for the current // insertion point that we're iterating (i.e. mChild, which must be an // nsXBLChildrenElement or HTMLContentElement). Once this transitions back // to null, we continue iterating at mChild's next sibling. nsIContent* mDefaultChild; // A flag to let us know that we haven't started iterating yet. bool mIsFirst; // If not zero, we're iterating inserted children for an insertion point. This // is an index into mChild's inserted children array (mChild must be an // nsXBLChildrenElement). The index is one past the "current" child (as // opposed to mChild which represents the "current" child). uint32_t mIndexInInserted; }; // Iterates over the flattened children of a node, which accounts for anonymous // children and nodes moved by insertion points. If a node has anonymous // children, those are iterated over. The iterator can be initialized to start // at the end by providing false for aStartAtBeginning in order to start // iterating in reverse from the last child. class FlattenedChildIterator : public ExplicitChildIterator { public: explicit FlattenedChildIterator(const nsIContent* aParent, bool aStartAtBeginning = true) : ExplicitChildIterator(aParent, aStartAtBeginning) , mOriginalContent(aParent) { Init(false); } FlattenedChildIterator(FlattenedChildIterator&& aOther) : ExplicitChildIterator(std::move(aOther)) , mOriginalContent(aOther.mOriginalContent) , mXBLInvolved(aOther.mXBLInvolved) {} FlattenedChildIterator(const FlattenedChildIterator& aOther) : ExplicitChildIterator(aOther) , mOriginalContent(aOther.mOriginalContent) , mXBLInvolved(aOther.mXBLInvolved) {} bool XBLInvolved() { if (mXBLInvolved.isNothing()) { mXBLInvolved = Some(ComputeWhetherXBLIsInvolved()); } return *mXBLInvolved; } const nsIContent* Parent() const { return mOriginalContent; } private: bool ComputeWhetherXBLIsInvolved() const; void Init(bool aIgnoreXBL); protected: /** * This constructor is a hack to help AllChildrenIterator which sometimes * doesn't want to consider XBL. */ FlattenedChildIterator(const nsIContent* aParent, uint32_t aFlags, bool aStartAtBeginning = true) : ExplicitChildIterator(aParent, aStartAtBeginning) , mOriginalContent(aParent) { bool ignoreXBL = aFlags & nsIContent::eAllButXBL; Init(ignoreXBL); } const nsIContent* mOriginalContent; private: // For certain optimizations, nsCSSFrameConstructor needs to know if the child // list of the element that we're iterating matches its .childNodes. // // This is lazily computed when asked for it. Maybe mXBLInvolved; }; /** * AllChildrenIterator traverses the children of an element including before / * after content and optionally XBL children. The iterator can be initialized * to start at the end by providing false for aStartAtBeginning in order to * start iterating in reverse from the last child. * * Note: it assumes that no mutation of the DOM or frame tree takes place during * iteration, and will break horribly if that is not true. */ class AllChildrenIterator : private FlattenedChildIterator { public: AllChildrenIterator(const nsIContent* aNode, uint32_t aFlags, bool aStartAtBeginning = true) : FlattenedChildIterator(aNode, aFlags, aStartAtBeginning), mAnonKidsIdx(aStartAtBeginning ? UINT32_MAX : 0), mFlags(aFlags), mPhase(aStartAtBeginning ? eAtBegin : eAtEnd) { } AllChildrenIterator(AllChildrenIterator&& aOther) : FlattenedChildIterator(std::move(aOther)), mAnonKids(std::move(aOther.mAnonKids)), mAnonKidsIdx(aOther.mAnonKidsIdx), mFlags(aOther.mFlags), mPhase(aOther.mPhase) #ifdef DEBUG , mMutationGuard(aOther.mMutationGuard) #endif {} #ifdef DEBUG ~AllChildrenIterator() { MOZ_ASSERT(!mMutationGuard.Mutated(0)); } #endif // Returns the current target the iterator is at, or null if the iterator // doesn't point to any child node (either eAtBegin or eAtEnd phase). nsIContent* Get() const; // Seeks the given node in children of a parent element, starting from // the current iterator's position, and sets the iterator at the given child // node if it was found. bool Seek(const nsIContent* aChildToFind); nsIContent* GetNextChild(); nsIContent* GetPreviousChild(); enum IteratorPhase { eAtBegin, eAtBeforeKid, eAtExplicitKids, eAtAnonKids, eAtAfterKid, eAtEnd }; IteratorPhase Phase() const { return mPhase; } private: // Helpers. void AppendNativeAnonymousChildren(); // mAnonKids is an array of native anonymous children, mAnonKidsIdx is index // in the array. If mAnonKidsIdx < mAnonKids.Length() and mPhase is // eAtAnonKids then the iterator points at a child at mAnonKidsIdx index. If // mAnonKidsIdx == mAnonKids.Length() then the iterator is somewhere after // the last native anon child. If mAnonKidsIdx == UINT32_MAX then the iterator // is somewhere before the first native anon child. nsTArray mAnonKids; uint32_t mAnonKidsIdx; uint32_t mFlags; IteratorPhase mPhase; #ifdef DEBUG // XXX we should really assert there are no frame tree changes as well, but // there's no easy way to do that. nsMutationGuard mMutationGuard; #endif }; /** * StyleChildrenIterator traverses the children of the element from the * perspective of the style system, particularly the children we need to * traverse during restyle. * * At present, this is identical to AllChildrenIterator with * (eAllChildren | eSkipDocumentLevelNativeAnonymousContent). We used to have * detect and skip any native anonymous children that are used to implement some * special magic in here that went away, but we keep the separate class so * we can reintroduce special magic back if needed. * * Note: it assumes that no mutation of the DOM or frame tree takes place during * iteration, and will break horribly if that is not true. * * We require this to be memmovable since Rust code can create and move * StyleChildrenIterators. */ class MOZ_NEEDS_MEMMOVABLE_MEMBERS StyleChildrenIterator : private AllChildrenIterator { public: explicit StyleChildrenIterator(const nsIContent* aContent) : AllChildrenIterator(aContent, nsIContent::eAllChildren | nsIContent::eSkipDocumentLevelNativeAnonymousContent) { MOZ_COUNT_CTOR(StyleChildrenIterator); } ~StyleChildrenIterator() { MOZ_COUNT_DTOR(StyleChildrenIterator); } nsIContent* GetNextChild(); }; } // namespace dom } // namespace mozilla #endif