/* -*- 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 http://mozilla.org/MPL/2.0/. */ /* * used by nsCSSFrameConstructor to determine and iterate the child list * used to construct frames (normal children or something from XBL) */ #include "nsCOMPtr.h" #include "nsIContent.h" #include "nsINodeList.h" /** * Helper class for iterating children during frame construction. * This class should always be used in lieu of the straight content * node APIs, since it handles XBL-generated anonymous content as * well. */ class NS_STACK_CLASS ChildIterator { protected: nsIContent* mContent; // If mNodes is non-null (so XBLInvolved() is true), mIndex is the // index into mNodes for our current position. Otherwise, mChild is // our current child (which might be null if we're done iterating). union { uint32_t mIndex; nsIContent* mChild; }; nsINodeList* mNodes; public: ChildIterator() : mContent(nullptr), mChild(0), mNodes(nullptr) {} ChildIterator(const ChildIterator& aOther) : mContent(aOther.mContent), mNodes(aOther.mNodes) { if (XBLInvolved()) { mIndex = aOther.mIndex; } else { mChild = aOther.mChild; } } ChildIterator& operator=(const ChildIterator& aOther) { mContent = aOther.mContent; mNodes = aOther.mNodes; if (XBLInvolved()) { mIndex = aOther.mIndex; } else { mChild = aOther.mChild; } return *this; } ChildIterator& operator++() { if (XBLInvolved()) { ++mIndex; } else { NS_ASSERTION(mChild, "Walking off end of list?"); mChild = mChild->GetNextSibling(); } return *this; } ChildIterator operator++(int) { ChildIterator result(*this); ++(*this); return result; } ChildIterator& operator--() { if (XBLInvolved()) { --mIndex; } else if (mChild) { mChild = mChild->GetPreviousSibling(); NS_ASSERTION(mChild, "Walking off beginning of list"); } else { mChild = mContent->GetLastChild(); } return *this; } ChildIterator operator--(int) { ChildIterator result(*this); --(*this); return result; } nsIContent* get() const { if (XBLInvolved()) { return mNodes->Item(mIndex); } return mChild; } nsIContent* operator*() const { return get(); } bool operator==(const ChildIterator& aOther) const { if (XBLInvolved()) { return mContent == aOther.mContent && mIndex == aOther.mIndex; } return mContent == aOther.mContent && mChild == aOther.mChild; } bool operator!=(const ChildIterator& aOther) const { return !aOther.operator==(*this); } void seek(nsIContent* aContent) { if (XBLInvolved()) { int32_t index = mNodes->IndexOf(aContent); // XXXbz I wish we could assert that index != -1, but it seems to not be // the case in some XBL cases with filtered insertion points and no // default insertion point. I will now claim that XBL's management of // its insertion points is broken in those cases, since it's returning an // insertion parent for a node that doesn't actually have the node in its // child list according to ChildIterator. See bug 474324. if (index != -1) { mIndex = index; } else { // If aContent isn't going to get hit by this iterator, just seek to the // end of the list for lack of anything better to do. mIndex = length(); } } else if (aContent->GetParent() == mContent) { mChild = aContent; } else { // XXXbz I wish we could assert this doesn't happen, but I think that's // not necessarily the case when called from ContentInserted if // first-letter frames are about. mChild = nullptr; } } bool XBLInvolved() const { return mNodes != nullptr; } /** * Create a pair of ChildIterators for a content node. aFirst will * point to the first child of aContent; aLast will point one past * the last child of aContent. */ static nsresult Init(nsIContent* aContent, ChildIterator* aFirst, ChildIterator* aLast); private: uint32_t length() { NS_PRECONDITION(XBLInvolved(), "Don't call me"); uint32_t l; mNodes->GetLength(&l); return l; } };