/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla Communicator client code. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1998 * the Initial Developer. All Rights Reserved. * * Contributor(s): * Original Author: David W. Hyatt (hyatt@netscape.com) * Alec Flett * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #include "nsCOMPtr.h" #include "nsIXBLService.h" #include "nsIInputStream.h" #include "nsDoubleHashtable.h" #include "nsIURI.h" #include "nsIURL.h" #include "nsIChannel.h" #include "nsXPIDLString.h" #include "nsIParser.h" #include "nsParserCIID.h" #include "nsNetUtil.h" #include "plstr.h" #include "nsIContent.h" #include "nsIDOMElement.h" #include "nsIDocument.h" #include "mozilla/FunctionTimer.h" #include "nsContentUtils.h" #include "nsIPresShell.h" #include "nsIXMLContentSink.h" #include "nsContentCID.h" #include "nsXMLDocument.h" #include "nsIStreamListener.h" #include "nsXBLBinding.h" #include "nsXBLPrototypeBinding.h" #include "nsIXBLDocumentInfo.h" #include "nsXBLInsertionPoint.h" #include "nsIStyleRuleProcessor.h" #include "nsRuleProcessorData.h" #include "nsIWeakReference.h" #include "jsapi.h" #include "nsIXPConnect.h" #include "nsDOMCID.h" #include "nsIDOMScriptObjectFactory.h" #include "nsIScriptGlobalObject.h" #include "nsTHashtable.h" #include "nsIScriptContext.h" #include "nsBindingManager.h" #include "nsThreadUtils.h" // ================================================================== // = nsAnonymousContentList // ================================================================== #define NS_ANONYMOUS_CONTENT_LIST_IID \ { 0xa29df1f8, 0xaeca, 0x4356, \ { 0xa8, 0xc2, 0xa7, 0x24, 0xa2, 0x11, 0x73, 0xac } } class nsAnonymousContentList : public nsINodeList { public: nsAnonymousContentList(nsInsertionPointList* aElements); virtual ~nsAnonymousContentList(); NS_DECL_CYCLE_COLLECTING_ISUPPORTS NS_DECL_CYCLE_COLLECTION_CLASS_AMBIGUOUS(nsAnonymousContentList, nsINodeList) // nsIDOMNodeList interface NS_DECL_NSIDOMNODELIST // nsINodeList interface virtual nsIContent* GetNodeAt(PRUint32 aIndex); virtual PRInt32 IndexOf(nsIContent* aContent); PRInt32 GetInsertionPointCount() { return mElements->Length(); } nsXBLInsertionPoint* GetInsertionPointAt(PRInt32 i) { return static_cast(mElements->ElementAt(i)); } void RemoveInsertionPointAt(PRInt32 i) { mElements->RemoveElementAt(i); } NS_DECLARE_STATIC_IID_ACCESSOR(NS_ANONYMOUS_CONTENT_LIST_IID) private: nsInsertionPointList* mElements; }; NS_DEFINE_STATIC_IID_ACCESSOR(nsAnonymousContentList, NS_ANONYMOUS_CONTENT_LIST_IID) nsAnonymousContentList::nsAnonymousContentList(nsInsertionPointList* aElements) : mElements(aElements) { MOZ_COUNT_CTOR(nsAnonymousContentList); // We don't reference count our Anonymous reference (to avoid circular // references). We'll be told when the Anonymous goes away. } nsAnonymousContentList::~nsAnonymousContentList() { MOZ_COUNT_DTOR(nsAnonymousContentList); delete mElements; } NS_IMPL_CYCLE_COLLECTION_CLASS(nsAnonymousContentList) NS_IMPL_CYCLE_COLLECTING_ADDREF(nsAnonymousContentList) NS_IMPL_CYCLE_COLLECTING_RELEASE(nsAnonymousContentList) NS_INTERFACE_TABLE_HEAD(nsAnonymousContentList) NS_NODELIST_OFFSET_AND_INTERFACE_TABLE_BEGIN(nsAnonymousContentList) NS_INTERFACE_TABLE_ENTRY(nsAnonymousContentList, nsINodeList) NS_INTERFACE_TABLE_ENTRY(nsAnonymousContentList, nsIDOMNodeList) NS_INTERFACE_TABLE_ENTRY(nsAnonymousContentList, nsAnonymousContentList) NS_OFFSET_AND_INTERFACE_TABLE_END NS_OFFSET_AND_INTERFACE_TABLE_TO_MAP_SEGUE NS_DOM_INTERFACE_MAP_ENTRY_CLASSINFO(NodeList) NS_INTERFACE_MAP_ENTRIES_CYCLE_COLLECTION(nsAnonymousContentList) NS_INTERFACE_MAP_END NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN(nsAnonymousContentList) tmp->mElements->Clear(); NS_IMPL_CYCLE_COLLECTION_UNLINK_END NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN(nsAnonymousContentList) { PRInt32 i, count = tmp->mElements->Length(); for (i = 0; i < count; ++i) { NS_IMPL_CYCLE_COLLECTION_TRAVERSE_NATIVE_MEMBER(mElements->ElementAt(i), nsXBLInsertionPoint); } } NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END NS_IMETHODIMP nsAnonymousContentList::GetLength(PRUint32* aLength) { NS_ASSERTION(aLength != nsnull, "null ptr"); if (! aLength) return NS_ERROR_NULL_POINTER; PRInt32 cnt = mElements->Length(); *aLength = 0; for (PRInt32 i = 0; i < cnt; i++) *aLength += static_cast(mElements->ElementAt(i))->ChildCount(); return NS_OK; } NS_IMETHODIMP nsAnonymousContentList::Item(PRUint32 aIndex, nsIDOMNode** aReturn) { nsINode* item = GetNodeAt(aIndex); if (!item) return NS_ERROR_FAILURE; return CallQueryInterface(item, aReturn); } nsIContent* nsAnonymousContentList::GetNodeAt(PRUint32 aIndex) { PRInt32 cnt = mElements->Length(); PRUint32 pointCount = 0; for (PRInt32 i = 0; i < cnt; i++) { aIndex -= pointCount; nsXBLInsertionPoint* point = static_cast(mElements->ElementAt(i)); pointCount = point->ChildCount(); if (aIndex < pointCount) { return point->ChildAt(aIndex); } } return nsnull; } PRInt32 nsAnonymousContentList::IndexOf(nsIContent* aContent) { PRInt32 cnt = mElements->Length(); PRInt32 lengthSoFar = 0; for (PRInt32 i = 0; i < cnt; ++i) { nsXBLInsertionPoint* point = static_cast(mElements->ElementAt(i)); PRInt32 idx = point->IndexOf(aContent); if (idx != -1) { return idx + lengthSoFar; } lengthSoFar += point->ChildCount(); } // Didn't find it anywhere return -1; } // // Generic pldhash table stuff for mapping one nsISupports to another // // These values are never null - a null value implies that this // whole key should be removed (See SetOrRemoveObject) class ObjectEntry : public PLDHashEntryHdr { public: // note that these are allocated within the PLDHashTable, but we // want to keep track of them anyway ObjectEntry() { MOZ_COUNT_CTOR(ObjectEntry); } ~ObjectEntry() { MOZ_COUNT_DTOR(ObjectEntry); } nsISupports* GetValue() { return mValue; } nsISupports* GetKey() { return mKey; } void SetValue(nsISupports* aValue) { mValue = aValue; } void SetKey(nsISupports* aKey) { mKey = aKey; } private: nsCOMPtr mKey; nsCOMPtr mValue; }; static void ClearObjectEntry(PLDHashTable* table, PLDHashEntryHdr *entry) { ObjectEntry* objEntry = static_cast(entry); objEntry->~ObjectEntry(); } static PRBool InitObjectEntry(PLDHashTable* table, PLDHashEntryHdr* entry, const void* key) { new (entry) ObjectEntry; return PR_TRUE; } static PLDHashTableOps ObjectTableOps = { PL_DHashAllocTable, PL_DHashFreeTable, PL_DHashVoidPtrKeyStub, PL_DHashMatchEntryStub, PL_DHashMoveEntryStub, ClearObjectEntry, PL_DHashFinalizeStub, InitObjectEntry }; // helper routine for adding a new entry static nsresult AddObjectEntry(PLDHashTable& table, nsISupports* aKey, nsISupports* aValue) { NS_ASSERTION(aKey, "key must be non-null"); if (!aKey) return NS_ERROR_INVALID_ARG; ObjectEntry *entry = static_cast (PL_DHashTableOperate(&table, aKey, PL_DHASH_ADD)); if (!entry) return NS_ERROR_OUT_OF_MEMORY; // only add the key if the entry is new if (!entry->GetKey()) entry->SetKey(aKey); // now attach the new entry - note that entry->mValue could possibly // have a value already, this will release that. entry->SetValue(aValue); return NS_OK; } // helper routine for looking up an existing entry. Note that the // return result is NOT addreffed static nsISupports* LookupObject(PLDHashTable& table, nsIContent* aKey) { if (aKey && aKey->HasFlag(NODE_MAY_BE_IN_BINDING_MNGR)) { ObjectEntry *entry = static_cast (PL_DHashTableOperate(&table, aKey, PL_DHASH_LOOKUP)); if (PL_DHASH_ENTRY_IS_BUSY(entry)) return entry->GetValue(); } return nsnull; } inline void RemoveObjectEntry(PLDHashTable& table, nsISupports* aKey) { PL_DHashTableOperate(&table, aKey, PL_DHASH_REMOVE); } static nsresult SetOrRemoveObject(PLDHashTable& table, nsIContent* aKey, nsISupports* aValue) { if (aValue) { // lazily create the table, but only when adding elements if (!table.ops && !PL_DHashTableInit(&table, &ObjectTableOps, nsnull, sizeof(ObjectEntry), 16)) { table.ops = nsnull; return NS_ERROR_OUT_OF_MEMORY; } aKey->SetFlags(NODE_MAY_BE_IN_BINDING_MNGR); return AddObjectEntry(table, aKey, aValue); } // no value, so remove the key from the table if (table.ops) { ObjectEntry* entry = static_cast (PL_DHashTableOperate(&table, aKey, PL_DHASH_LOOKUP)); if (entry && PL_DHASH_ENTRY_IS_BUSY(entry)) { // Keep key and value alive while removing the entry. nsCOMPtr key = entry->GetKey(); nsCOMPtr value = entry->GetValue(); RemoveObjectEntry(table, aKey); } } return NS_OK; } // Implementation ///////////////////////////////////////////////////////////////// // Static member variable initialization // Implement our nsISupports methods NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN(nsBindingManager) tmp->mDestroyed = PR_TRUE; if (tmp->mBindingTable.IsInitialized()) tmp->mBindingTable.Clear(); if (tmp->mDocumentTable.IsInitialized()) tmp->mDocumentTable.Clear(); if (tmp->mLoadingDocTable.IsInitialized()) tmp->mLoadingDocTable.Clear(); if (tmp->mContentListTable.ops) PL_DHashTableFinish(&(tmp->mContentListTable)); tmp->mContentListTable.ops = nsnull; if (tmp->mAnonymousNodesTable.ops) PL_DHashTableFinish(&(tmp->mAnonymousNodesTable)); tmp->mAnonymousNodesTable.ops = nsnull; if (tmp->mInsertionParentTable.ops) PL_DHashTableFinish(&(tmp->mInsertionParentTable)); tmp->mInsertionParentTable.ops = nsnull; if (tmp->mWrapperTable.ops) PL_DHashTableFinish(&(tmp->mWrapperTable)); tmp->mWrapperTable.ops = nsnull; NS_IMPL_CYCLE_COLLECTION_UNLINK_NSTARRAY(mAttachedStack) NS_IMPL_CYCLE_COLLECTION_UNLINK_END static PLDHashOperator DocumentInfoHashtableTraverser(nsIURI* key, nsIXBLDocumentInfo* di, void* userArg) { nsCycleCollectionTraversalCallback *cb = static_cast(userArg); NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(*cb, "mDocumentTable value"); cb->NoteXPCOMChild(di); return PL_DHASH_NEXT; } static PLDHashOperator LoadingDocHashtableTraverser(nsIURI* key, nsIStreamListener* sl, void* userArg) { nsCycleCollectionTraversalCallback *cb = static_cast(userArg); NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(*cb, "mLoadingDocTable value"); cb->NoteXPCOMChild(sl); return PL_DHASH_NEXT; } NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN(nsBindingManager) // The hashes keyed on nsIContent are traversed from the nsIContent itself. if (tmp->mDocumentTable.IsInitialized()) tmp->mDocumentTable.EnumerateRead(&DocumentInfoHashtableTraverser, &cb); if (tmp->mLoadingDocTable.IsInitialized()) tmp->mLoadingDocTable.EnumerateRead(&LoadingDocHashtableTraverser, &cb); NS_IMPL_CYCLE_COLLECTION_TRAVERSE_NSTARRAY_MEMBER(mAttachedStack, nsXBLBinding) // No need to traverse mProcessAttachedQueueEvent, since it'll just // fire at some point or become revoke and drop its ref to us. NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END NS_IMPL_CYCLE_COLLECTION_CLASS(nsBindingManager) NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(nsBindingManager) NS_INTERFACE_MAP_ENTRY(nsIMutationObserver) NS_INTERFACE_MAP_ENTRY(nsISupports) NS_INTERFACE_MAP_END NS_IMPL_CYCLE_COLLECTING_ADDREF(nsBindingManager) NS_IMPL_CYCLE_COLLECTING_RELEASE(nsBindingManager) // Constructors/Destructors nsBindingManager::nsBindingManager(nsIDocument* aDocument) : mProcessingAttachedStack(PR_FALSE), mDestroyed(PR_FALSE), mAttachedStackSizeOnOutermost(0), mDocument(aDocument) { mContentListTable.ops = nsnull; mAnonymousNodesTable.ops = nsnull; mInsertionParentTable.ops = nsnull; mWrapperTable.ops = nsnull; } nsBindingManager::~nsBindingManager(void) { mDestroyed = PR_TRUE; if (mContentListTable.ops) PL_DHashTableFinish(&mContentListTable); if (mAnonymousNodesTable.ops) PL_DHashTableFinish(&mAnonymousNodesTable); NS_ASSERTION(!mInsertionParentTable.ops || !mInsertionParentTable.entryCount, "Insertion parent table isn't empty!"); if (mInsertionParentTable.ops) PL_DHashTableFinish(&mInsertionParentTable); if (mWrapperTable.ops) PL_DHashTableFinish(&mWrapperTable); } PLDHashOperator RemoveInsertionParentCB(PLDHashTable* aTable, PLDHashEntryHdr* aEntry, PRUint32 aNumber, void* aArg) { return (static_cast(aEntry)->GetValue() == static_cast(aArg)) ? PL_DHASH_REMOVE : PL_DHASH_NEXT; } static void RemoveInsertionParentForNodeList(nsIDOMNodeList* aList, nsIContent* aParent) { nsAnonymousContentList* list = nsnull; if (aList) { CallQueryInterface(aList, &list); } if (list) { PRInt32 count = list->GetInsertionPointCount(); for (PRInt32 i = 0; i < count; ++i) { nsRefPtr currPoint = list->GetInsertionPointAt(i); currPoint->UnbindDefaultContent(); #ifdef DEBUG nsCOMPtr parent = currPoint->GetInsertionParent(); NS_ASSERTION(!parent || parent == aParent, "Wrong insertion parent!"); #endif currPoint->ClearInsertionParent(); } NS_RELEASE(list); } } void nsBindingManager::RemoveInsertionParent(nsIContent* aParent) { RemoveInsertionParentForNodeList(GetContentListFor(aParent), aParent); RemoveInsertionParentForNodeList(GetAnonymousNodesFor(aParent), aParent); if (mInsertionParentTable.ops) { PL_DHashTableEnumerate(&mInsertionParentTable, RemoveInsertionParentCB, static_cast(aParent)); } } nsXBLBinding* nsBindingManager::GetBinding(nsIContent* aContent) { if (aContent && aContent->HasFlag(NODE_MAY_BE_IN_BINDING_MNGR) && mBindingTable.IsInitialized()) { return mBindingTable.GetWeak(aContent); } return nsnull; } nsresult nsBindingManager::SetBinding(nsIContent* aContent, nsXBLBinding* aBinding) { if (!mBindingTable.IsInitialized()) { if (!mBindingTable.Init()) return NS_ERROR_OUT_OF_MEMORY; } // After this point, aBinding will be the most-derived binding for aContent. // If we already have a binding for aContent in our table, make sure to // remove it from the attached stack. Otherwise we might end up firing its // constructor twice (if aBinding inherits from it) or firing its constructor // after aContent has been deleted (if aBinding is null and the content node // dies before we process mAttachedStack). nsRefPtr oldBinding = GetBinding(aContent); if (oldBinding) { if (aContent->HasFlag(NODE_IS_INSERTION_PARENT)) { nsRefPtr parentBinding = GetBinding(aContent->GetBindingParent()); // Clear insertion parent only if we don't have a parent binding which // marked content to be an insertion parent. See also ChangeDocumentFor(). if (!parentBinding || !parentBinding->HasInsertionParent(aContent)) { RemoveInsertionParent(aContent); aContent->UnsetFlags(NODE_IS_INSERTION_PARENT); } } // Don't remove items here as that could mess up an executing // ProcessAttachedQueue PRUint32 index = mAttachedStack.IndexOf(oldBinding); if (index != mAttachedStack.NoIndex) { mAttachedStack[index] = nsnull; } } PRBool result = PR_TRUE; if (aBinding) { aContent->SetFlags(NODE_MAY_BE_IN_BINDING_MNGR); result = mBindingTable.Put(aContent, aBinding); } else { mBindingTable.Remove(aContent); // The death of the bindings means the death of the JS wrapper, // and the flushing of our explicit and anonymous insertion point // lists. SetWrappedJS(aContent, nsnull); SetContentListFor(aContent, nsnull); SetAnonymousNodesFor(aContent, nsnull); } return result ? NS_OK : NS_ERROR_FAILURE; } nsIContent* nsBindingManager::GetInsertionParent(nsIContent* aContent) { if (mInsertionParentTable.ops) { return static_cast (LookupObject(mInsertionParentTable, aContent)); } return nsnull; } nsresult nsBindingManager::SetInsertionParent(nsIContent* aContent, nsIContent* aParent) { NS_ASSERTION(!aParent || aParent->HasFlag(NODE_IS_INSERTION_PARENT), "Insertion parent should have NODE_IS_INSERTION_PARENT flag!"); if (mDestroyed) { return NS_OK; } return SetOrRemoveObject(mInsertionParentTable, aContent, aParent); } nsIXPConnectWrappedJS* nsBindingManager::GetWrappedJS(nsIContent* aContent) { if (mWrapperTable.ops) { return static_cast(LookupObject(mWrapperTable, aContent)); } return nsnull; } nsresult nsBindingManager::SetWrappedJS(nsIContent* aContent, nsIXPConnectWrappedJS* aWrappedJS) { if (mDestroyed) { return NS_OK; } return SetOrRemoveObject(mWrapperTable, aContent, aWrappedJS); } nsresult nsBindingManager::ChangeDocumentFor(nsIContent* aContent, nsIDocument* aOldDocument, nsIDocument* aNewDocument) { // XXXbz this code is pretty broken, since moving from one document // to another always passes through a null document! NS_PRECONDITION(aOldDocument != nsnull, "no old document"); NS_PRECONDITION(!aNewDocument, "Changing to a non-null new document not supported yet"); if (! aOldDocument) return NS_ERROR_NULL_POINTER; // Hold a ref to the binding so it won't die when we remove it from our // table. nsRefPtr binding = GetBinding(aContent); if (aContent->HasFlag(NODE_IS_INSERTION_PARENT)) { nsRefPtr parentBinding = GetBinding(aContent->GetBindingParent()); if (parentBinding) { parentBinding->RemoveInsertionParent(aContent); // Clear insertion parent only if we don't have a binding which // marked content to be an insertion parent. See also SetBinding(). if (!binding || !binding->HasInsertionParent(aContent)) { RemoveInsertionParent(aContent); aContent->UnsetFlags(NODE_IS_INSERTION_PARENT); } } } if (binding) { binding->ChangeDocument(aOldDocument, aNewDocument); SetBinding(aContent, nsnull); if (aNewDocument) aNewDocument->BindingManager()->SetBinding(aContent, binding); } // Clear out insertion parents and content lists. SetInsertionParent(aContent, nsnull); SetContentListFor(aContent, nsnull); SetAnonymousNodesFor(aContent, nsnull); return NS_OK; } nsIAtom* nsBindingManager::ResolveTag(nsIContent* aContent, PRInt32* aNameSpaceID) { nsXBLBinding *binding = GetBinding(aContent); if (binding) { nsIAtom* base = binding->GetBaseTag(aNameSpaceID); if (base) { return base; } } *aNameSpaceID = aContent->GetNameSpaceID(); return aContent->Tag(); } nsresult nsBindingManager::GetContentListFor(nsIContent* aContent, nsIDOMNodeList** aResult) { NS_IF_ADDREF(*aResult = GetContentListFor(aContent)); return NS_OK; } nsINodeList* nsBindingManager::GetContentListFor(nsIContent* aContent) { nsINodeList* result = nsnull; if (mContentListTable.ops) { result = static_cast (LookupObject(mContentListTable, aContent)); } if (!result) { result = aContent->GetChildNodesList(); } return result; } nsresult nsBindingManager::SetContentListFor(nsIContent* aContent, nsInsertionPointList* aList) { if (mDestroyed) { return NS_OK; } nsAnonymousContentList* contentList = nsnull; if (aList) { contentList = new nsAnonymousContentList(aList); if (!contentList) { delete aList; return NS_ERROR_OUT_OF_MEMORY; } } return SetOrRemoveObject(mContentListTable, aContent, contentList); } PRBool nsBindingManager::HasContentListFor(nsIContent* aContent) { return mContentListTable.ops && LookupObject(mContentListTable, aContent); } nsINodeList* nsBindingManager::GetAnonymousNodesInternal(nsIContent* aContent, PRBool* aIsAnonymousContentList) { nsINodeList* result = nsnull; if (mAnonymousNodesTable.ops) { result = static_cast (LookupObject(mAnonymousNodesTable, aContent)); } if (!result) { *aIsAnonymousContentList = PR_FALSE; nsXBLBinding *binding = GetBinding(aContent); if (binding) { result = binding->GetAnonymousNodes(); } } else *aIsAnonymousContentList = PR_TRUE; return result; } nsresult nsBindingManager::GetAnonymousNodesFor(nsIContent* aContent, nsIDOMNodeList** aResult) { PRBool dummy; NS_IF_ADDREF(*aResult = GetAnonymousNodesInternal(aContent, &dummy)); return NS_OK; } nsINodeList* nsBindingManager::GetAnonymousNodesFor(nsIContent* aContent) { PRBool dummy; return GetAnonymousNodesInternal(aContent, &dummy); } nsresult nsBindingManager::SetAnonymousNodesFor(nsIContent* aContent, nsInsertionPointList* aList) { if (mDestroyed) { return NS_OK; } nsAnonymousContentList* contentList = nsnull; if (aList) { contentList = new nsAnonymousContentList(aList); if (!contentList) { delete aList; return NS_ERROR_OUT_OF_MEMORY; } } return SetOrRemoveObject(mAnonymousNodesTable, aContent, contentList); } nsINodeList* nsBindingManager::GetXBLChildNodesInternal(nsIContent* aContent, PRBool* aIsAnonymousContentList) { PRUint32 length; // Retrieve the anonymous content that we should build. nsINodeList* result = GetAnonymousNodesInternal(aContent, aIsAnonymousContentList); if (result) { result->GetLength(&length); if (length == 0) result = nsnull; } // We may have an altered list of children from XBL insertion points. // If we don't have any anonymous kids, we next check to see if we have // insertion points. if (!result) { if (mContentListTable.ops) { result = static_cast (LookupObject(mContentListTable, aContent)); *aIsAnonymousContentList = PR_TRUE; } } return result; } nsresult nsBindingManager::GetXBLChildNodesFor(nsIContent* aContent, nsIDOMNodeList** aResult) { NS_IF_ADDREF(*aResult = GetXBLChildNodesFor(aContent)); return NS_OK; } nsINodeList* nsBindingManager::GetXBLChildNodesFor(nsIContent* aContent) { PRBool dummy; return GetXBLChildNodesInternal(aContent, &dummy); } nsIContent* nsBindingManager::GetInsertionPoint(nsIContent* aParent, const nsIContent* aChild, PRUint32* aIndex) { nsXBLBinding *binding = GetBinding(aParent); return binding ? binding->GetInsertionPoint(aChild, aIndex) : nsnull; } nsIContent* nsBindingManager::GetSingleInsertionPoint(nsIContent* aParent, PRUint32* aIndex, PRBool* aMultipleInsertionPoints) { nsXBLBinding *binding = GetBinding(aParent); if (binding) return binding->GetSingleInsertionPoint(aIndex, aMultipleInsertionPoints); *aMultipleInsertionPoints = PR_FALSE; return nsnull; } nsresult nsBindingManager::AddLayeredBinding(nsIContent* aContent, nsIURI* aURL, nsIPrincipal* aOriginPrincipal) { // First we need to load our binding. nsresult rv; nsCOMPtr xblService = do_GetService("@mozilla.org/xbl;1", &rv); if (!xblService) return rv; // Load the bindings. nsRefPtr binding; PRBool dummy; xblService->LoadBindings(aContent, aURL, aOriginPrincipal, PR_TRUE, getter_AddRefs(binding), &dummy); if (binding) { AddToAttachedQueue(binding); ProcessAttachedQueue(); } return NS_OK; } nsresult nsBindingManager::RemoveLayeredBinding(nsIContent* aContent, nsIURI* aURL) { // Hold a ref to the binding so it won't die when we remove it from our table nsRefPtr binding = GetBinding(aContent); if (!binding) { return NS_OK; } // For now we can only handle removing a binding if it's the only one NS_ENSURE_FALSE(binding->GetBaseBinding(), NS_ERROR_FAILURE); // Make sure that the binding has the URI that is requested to be removed if (!binding->PrototypeBinding()->CompareBindingURI(aURL)) { return NS_OK; } // Make sure it isn't a style binding if (binding->IsStyleBinding()) { return NS_OK; } // Hold strong ref in case removing the binding tries to close the // window or something. // XXXbz should that be ownerdoc? Wouldn't we need a ref to the // currentdoc too? What's the one that should be passed to // ChangeDocument? nsCOMPtr doc = aContent->GetOwnerDoc(); NS_ASSERTION(doc, "No owner document?"); // Finally remove the binding... // XXXbz this doesn't remove the implementation! Should fix! Until // then we need the explicit UnhookEventHandlers here. binding->UnhookEventHandlers(); binding->ChangeDocument(doc, nsnull); SetBinding(aContent, nsnull); binding->MarkForDeath(); // ...and recreate its frames. We need to do this since the frames may have // been removed and style may have changed due to the removal of the // anonymous children. // XXXbz this should be using the current doc (if any), not the owner doc. nsIPresShell *presShell = doc->GetPrimaryShell(); NS_ENSURE_TRUE(presShell, NS_ERROR_FAILURE); return presShell->RecreateFramesFor(aContent);; } nsresult nsBindingManager::LoadBindingDocument(nsIDocument* aBoundDoc, nsIURI* aURL, nsIPrincipal* aOriginPrincipal) { NS_PRECONDITION(aURL, "Must have a URI to load!"); // First we need to load our binding. nsresult rv; nsCOMPtr xblService = do_GetService("@mozilla.org/xbl;1", &rv); if (!xblService) return rv; // Load the binding doc. nsCOMPtr info; xblService->LoadBindingDocumentInfo(nsnull, aBoundDoc, aURL, aOriginPrincipal, PR_TRUE, getter_AddRefs(info)); if (!info) return NS_ERROR_FAILURE; return NS_OK; } nsresult nsBindingManager::AddToAttachedQueue(nsXBLBinding* aBinding) { if (!mAttachedStack.AppendElement(aBinding)) return NS_ERROR_OUT_OF_MEMORY; // If we're in the middle of processing our queue already, don't // bother posting the event. if (!mProcessingAttachedStack && !mProcessAttachedQueueEvent) { PostProcessAttachedQueueEvent(); } return NS_OK; } void nsBindingManager::PostProcessAttachedQueueEvent() { mProcessAttachedQueueEvent = NS_NewRunnableMethod(this, &nsBindingManager::DoProcessAttachedQueue); nsresult rv = NS_DispatchToCurrentThread(mProcessAttachedQueueEvent); if (NS_SUCCEEDED(rv) && mDocument) { mDocument->BlockOnload(); } } void nsBindingManager::DoProcessAttachedQueue() { if (!mProcessingAttachedStack) { ProcessAttachedQueue(); NS_ASSERTION(mAttachedStack.Length() == 0, "Shouldn't have pending bindings!"); mProcessAttachedQueueEvent = nsnull; } else { // Someone's doing event processing from inside a constructor. // They're evil, but we'll fight back! Just poll on them being // done and repost the attached queue event. PostProcessAttachedQueueEvent(); } // No matter what, unblock onload for the event that's fired. if (mDocument) { // Hold a strong reference while calling UnblockOnload since that might // run script. nsCOMPtr doc = mDocument; doc->UnblockOnload(PR_TRUE); } } void nsBindingManager::ProcessAttachedQueue(PRUint32 aSkipSize) { if (mProcessingAttachedStack || mAttachedStack.Length() <= aSkipSize) return; NS_TIME_FUNCTION; mProcessingAttachedStack = PR_TRUE; // Excute constructors. Do this from high index to low while (mAttachedStack.Length() > aSkipSize) { PRUint32 lastItem = mAttachedStack.Length() - 1; nsRefPtr binding = mAttachedStack.ElementAt(lastItem); mAttachedStack.RemoveElementAt(lastItem); if (binding) { binding->ExecuteAttachedHandler(); } } // If NodeWillBeDestroyed has run we don't want to clobber // mProcessingAttachedStack set there. if (mDocument) { mProcessingAttachedStack = PR_FALSE; } NS_ASSERTION(mAttachedStack.Length() == aSkipSize, "How did we get here?"); mAttachedStack.Compact(); } // Keep bindings and bound elements alive while executing detached handlers. struct BindingTableReadClosure { nsCOMArray mBoundElements; nsBindingList mBindings; }; static PLDHashOperator AccumulateBindingsToDetach(nsISupports *aKey, nsXBLBinding *aBinding, void* aClosure) { BindingTableReadClosure* closure = static_cast(aClosure); if (aBinding && closure->mBindings.AppendElement(aBinding)) { if (!closure->mBoundElements.AppendObject(aBinding->GetBoundElement())) { closure->mBindings.RemoveElementAt(closure->mBindings.Length() - 1); } } return PL_DHASH_NEXT; } void nsBindingManager::ExecuteDetachedHandlers() { // Walk our hashtable of bindings. if (mBindingTable.IsInitialized()) { BindingTableReadClosure closure; mBindingTable.EnumerateRead(AccumulateBindingsToDetach, &closure); PRUint32 i, count = closure.mBindings.Length(); for (i = 0; i < count; ++i) { closure.mBindings[i]->ExecuteDetachedHandler(); } } } nsresult nsBindingManager::PutXBLDocumentInfo(nsIXBLDocumentInfo* aDocumentInfo) { NS_PRECONDITION(aDocumentInfo, "Must have a non-null documentinfo!"); NS_ENSURE_TRUE(mDocumentTable.IsInitialized() || mDocumentTable.Init(16), NS_ERROR_OUT_OF_MEMORY); NS_ENSURE_TRUE(mDocumentTable.Put(aDocumentInfo->DocumentURI(), aDocumentInfo), NS_ERROR_OUT_OF_MEMORY); return NS_OK; } void nsBindingManager::RemoveXBLDocumentInfo(nsIXBLDocumentInfo* aDocumentInfo) { if (mDocumentTable.IsInitialized()) { mDocumentTable.Remove(aDocumentInfo->DocumentURI()); } } nsIXBLDocumentInfo* nsBindingManager::GetXBLDocumentInfo(nsIURI* aURL) { if (!mDocumentTable.IsInitialized()) return nsnull; return mDocumentTable.GetWeak(aURL); } nsresult nsBindingManager::PutLoadingDocListener(nsIURI* aURL, nsIStreamListener* aListener) { NS_PRECONDITION(aListener, "Must have a non-null listener!"); NS_ENSURE_TRUE(mLoadingDocTable.IsInitialized() || mLoadingDocTable.Init(16), NS_ERROR_OUT_OF_MEMORY); NS_ENSURE_TRUE(mLoadingDocTable.Put(aURL, aListener), NS_ERROR_OUT_OF_MEMORY); return NS_OK; } nsIStreamListener* nsBindingManager::GetLoadingDocListener(nsIURI* aURL) { if (!mLoadingDocTable.IsInitialized()) return nsnull; return mLoadingDocTable.GetWeak(aURL); } void nsBindingManager::RemoveLoadingDocListener(nsIURI* aURL) { if (mLoadingDocTable.IsInitialized()) { mLoadingDocTable.Remove(aURL); } } static PLDHashOperator MarkForDeath(nsISupports *aKey, nsXBLBinding *aBinding, void* aClosure) { if (aBinding->MarkedForDeath()) return PL_DHASH_NEXT; // Already marked for death. nsCAutoString path; aBinding->PrototypeBinding()->DocURI()->GetPath(path); if (!strncmp(path.get(), "/skin", 5)) aBinding->MarkForDeath(); return PL_DHASH_NEXT; } void nsBindingManager::FlushSkinBindings() { if (mBindingTable.IsInitialized()) mBindingTable.EnumerateRead(MarkForDeath, nsnull); } // Used below to protect from recurring in QI calls through XPConnect. struct AntiRecursionData { nsIContent* element; REFNSIID iid; AntiRecursionData* next; AntiRecursionData(nsIContent* aElement, REFNSIID aIID, AntiRecursionData* aNext) : element(aElement), iid(aIID), next(aNext) {} }; nsresult nsBindingManager::GetBindingImplementation(nsIContent* aContent, REFNSIID aIID, void** aResult) { *aResult = nsnull; nsXBLBinding *binding = GetBinding(aContent); if (binding) { // The binding should not be asked for nsISupports NS_ASSERTION(!aIID.Equals(NS_GET_IID(nsISupports)), "Asking a binding for nsISupports"); if (binding->ImplementsInterface(aIID)) { nsCOMPtr wrappedJS = GetWrappedJS(aContent); if (wrappedJS) { // Protect from recurring in QI calls through XPConnect. // This can happen when a second binding is being resolved. // At that point a wrappedJS exists, but it doesn't yet know about // the iid we are asking for. So, without this protection, // AggregatedQueryInterface would end up recurring back into itself // through this code. // // With this protection, when we detect the recursion we return // NS_NOINTERFACE in the inner call. The outer call will then fall // through (see below) and build a new chained wrappedJS for the iid. // // We're careful to not assume that only one direct nesting can occur // because there is a call into JS in the middle and we can't assume // that this code won't be reached by some more complex nesting path. // // NOTE: We *assume* this is single threaded, so we can use a // static linked list to do the check. static AntiRecursionData* list = nsnull; for (AntiRecursionData* p = list; p; p = p->next) { if (p->element == aContent && p->iid.Equals(aIID)) { *aResult = nsnull; return NS_NOINTERFACE; } } AntiRecursionData item(aContent, aIID, list); list = &item; nsresult rv = wrappedJS->AggregatedQueryInterface(aIID, aResult); list = item.next; if (*aResult) return rv; // No result was found, so this must be another XBL interface. // Fall through to create a new wrapper. } // We have never made a wrapper for this implementation. // Create an XPC wrapper for the script object and hand it back. nsIDocument* doc = aContent->GetOwnerDoc(); if (!doc) return NS_NOINTERFACE; nsIScriptGlobalObject *global = doc->GetScriptGlobalObject(); if (!global) return NS_NOINTERFACE; nsIScriptContext *context = global->GetContext(); if (!context) return NS_NOINTERFACE; JSContext* jscontext = (JSContext*)context->GetNativeContext(); if (!jscontext) return NS_NOINTERFACE; nsIXPConnect *xpConnect = nsContentUtils::XPConnect(); nsCOMPtr wrapper; xpConnect->GetWrappedNativeOfNativeObject(jscontext, global->GetGlobalJSObject(), aContent, NS_GET_IID(nsISupports), getter_AddRefs(wrapper)); NS_ENSURE_TRUE(wrapper, NS_NOINTERFACE); JSObject* jsobj = nsnull; wrapper->GetJSObject(&jsobj); NS_ENSURE_TRUE(jsobj, NS_NOINTERFACE); nsresult rv = xpConnect->WrapJSAggregatedToNative(aContent, jscontext, jsobj, aIID, aResult); if (NS_FAILED(rv)) return rv; // We successfully created a wrapper. We will own this wrapper for as long as the binding remains // alive. At the time the binding is cleared out of the bindingManager, we will remove the wrapper // from the bindingManager as well. nsISupports* supp = static_cast(*aResult); wrappedJS = do_QueryInterface(supp); SetWrappedJS(aContent, wrappedJS); return rv; } } *aResult = nsnull; return NS_NOINTERFACE; } nsresult nsBindingManager::WalkRules(nsIStyleRuleProcessor::EnumFunc aFunc, RuleProcessorData* aData, PRBool* aCutOffInheritance) { *aCutOffInheritance = PR_FALSE; NS_ASSERTION(aData->mElement, "How did that happen?"); // Walk the binding scope chain, starting with the binding attached to our // content, up till we run out of scopes or we get cut off. nsIContent *content = aData->mElement; do { nsXBLBinding *binding = GetBinding(content); if (binding) { aData->mScopedRoot = content; binding->WalkRules(aFunc, aData); // If we're not looking at our original content, allow the binding to cut // off style inheritance if (content != aData->mElement) { if (!binding->InheritsStyle()) { // Go no further; we're not inheriting style from anything above here break; } } } if (content->IsRootOfNativeAnonymousSubtree()) { break; // Deliberately cut off style inheritance here. } content = content->GetBindingParent(); } while (content); // If "content" is non-null that means we cut off inheritance at some point // in the loop. *aCutOffInheritance = (content != nsnull); // Null out the scoped root that we set repeatedly aData->mScopedRoot = nsnull; return NS_OK; } typedef nsTHashtable RuleProcessorSet; static PLDHashOperator EnumRuleProcessors(nsISupports *aKey, nsXBLBinding *aBinding, void* aClosure) { RuleProcessorSet *set = static_cast(aClosure); for (nsXBLBinding *binding = aBinding; binding; binding = binding->GetBaseBinding()) { nsIStyleRuleProcessor *ruleProc = binding->PrototypeBinding()->GetRuleProcessor(); if (ruleProc) { if (!set->IsInitialized() && !set->Init(16)) return PL_DHASH_STOP; set->PutEntry(ruleProc); } } return PL_DHASH_NEXT; } struct WalkAllRulesData { nsIStyleRuleProcessor::EnumFunc mFunc; RuleProcessorData* mData; }; static PLDHashOperator EnumWalkAllRules(nsVoidPtrHashKey *aKey, void* aClosure) { nsIStyleRuleProcessor *ruleProcessor = static_cast(const_cast(aKey->GetKey())); WalkAllRulesData *data = static_cast(aClosure); (*(data->mFunc))(ruleProcessor, data->mData); return PL_DHASH_NEXT; } void nsBindingManager::WalkAllRules(nsIStyleRuleProcessor::EnumFunc aFunc, RuleProcessorData* aData) { if (!mBindingTable.IsInitialized()) return; RuleProcessorSet set; mBindingTable.EnumerateRead(EnumRuleProcessors, &set); if (!set.IsInitialized()) return; WalkAllRulesData data = { aFunc, aData }; set.EnumerateEntries(EnumWalkAllRules, &data); } struct MediumFeaturesChangedData { nsPresContext *mPresContext; PRBool *mRulesChanged; }; static PLDHashOperator EnumMediumFeaturesChanged(nsVoidPtrHashKey *aKey, void* aClosure) { nsIStyleRuleProcessor *ruleProcessor = static_cast(const_cast(aKey->GetKey())); MediumFeaturesChangedData *data = static_cast(aClosure); PRBool thisChanged = PR_FALSE; ruleProcessor->MediumFeaturesChanged(data->mPresContext, &thisChanged); *data->mRulesChanged = *data->mRulesChanged || thisChanged; return PL_DHASH_NEXT; } nsresult nsBindingManager::MediumFeaturesChanged(nsPresContext* aPresContext, PRBool* aRulesChanged) { *aRulesChanged = PR_FALSE; if (!mBindingTable.IsInitialized()) return NS_OK; RuleProcessorSet set; mBindingTable.EnumerateRead(EnumRuleProcessors, &set); if (!set.IsInitialized()) return NS_OK; MediumFeaturesChangedData data = { aPresContext, aRulesChanged }; set.EnumerateEntries(EnumMediumFeaturesChanged, &data); return NS_OK; } nsIContent* nsBindingManager::GetNestedInsertionPoint(nsIContent* aParent, const nsIContent* aChild) { // Check to see if the content is anonymous. if (aChild->GetBindingParent() == aParent) return nsnull; // It is anonymous. Don't use the insertion point, since that's only // for the explicit kids. PRUint32 index; nsIContent *insertionElement = GetInsertionPoint(aParent, aChild, &index); if (insertionElement && insertionElement != aParent) { // See if we nest even further in. nsIContent* nestedPoint = GetNestedInsertionPoint(insertionElement, aChild); if (nestedPoint) insertionElement = nestedPoint; } return insertionElement; } nsIContent* nsBindingManager::GetNestedSingleInsertionPoint(nsIContent* aParent, PRBool* aMultipleInsertionPoints) { *aMultipleInsertionPoints = PR_FALSE; PRUint32 index; nsIContent *insertionElement = GetSingleInsertionPoint(aParent, &index, aMultipleInsertionPoints); if (*aMultipleInsertionPoints) { return nsnull; } if (insertionElement && insertionElement != aParent) { // See if we nest even further in. nsIContent* nestedPoint = GetNestedSingleInsertionPoint(insertionElement, aMultipleInsertionPoints); if (nestedPoint) insertionElement = nestedPoint; } return insertionElement; } nsXBLInsertionPoint* nsBindingManager::FindInsertionPointAndIndex(nsIContent* aContainer, nsIContent* aInsertionParent, PRUint32 aIndexInContainer, PRInt32 aAppend, PRInt32* aInsertionIndex) { PRBool isAnonymousContentList; nsINodeList* nodeList = GetXBLChildNodesInternal(aInsertionParent, &isAnonymousContentList); if (!nodeList || !isAnonymousContentList) { return nsnull; } // Find a non-pseudo-insertion point and just jam ourselves in. This is // not 100% correct, since there might be multiple insertion points under // this insertion parent, and we should really be using the one that // matches our content... Hack city, baby. nsAnonymousContentList* contentList = static_cast(nodeList); PRInt32 count = contentList->GetInsertionPointCount(); for (PRInt32 i = 0; i < count; i++) { nsXBLInsertionPoint* point = contentList->GetInsertionPointAt(i); if (point->GetInsertionIndex() != -1) { // We're real. Jam the kid in. // Find the right insertion spot. Can't just insert in the insertion // point at aIndexInContainer since the point may contain anonymous // content, not all of aContainer's kids, etc. So find the last // child of aContainer that comes before aIndexInContainer and is in // the insertion point and insert right after it. PRInt32 pointSize = point->ChildCount(); for (PRInt32 parentIndex = aIndexInContainer - 1; parentIndex >= 0; --parentIndex) { nsIContent* currentSibling = aContainer->GetChildAt(parentIndex); for (PRInt32 pointIndex = pointSize - 1; pointIndex >= 0; --pointIndex) { if (point->ChildAt(pointIndex) == currentSibling) { *aInsertionIndex = pointIndex + 1; return point; } } } // None of our previous siblings are in here... just stick // ourselves in at the end of the insertion point if we're // appending, and at the beginning otherwise. // XXXbz if we ever start doing the filter thing right, this may be no // good, since we may _still_ have anonymous kids in there and may need // to get the ordering with those right. In fact, this is even wrong // without the filter thing for nested insertion points, since they might // contain anonymous content that needs to come after all explicit // kids... but we have no way to know that here easily. if (aAppend) { *aInsertionIndex = pointSize; } else { *aInsertionIndex = 0; } return point; } } return nsnull; } void nsBindingManager::ContentAppended(nsIDocument* aDocument, nsIContent* aContainer, nsIContent* aFirstNewContent, PRInt32 aNewIndexInContainer) { if (aNewIndexInContainer != -1 && (mContentListTable.ops || mAnonymousNodesTable.ops)) { // It's not anonymous. NS_ASSERTION(aNewIndexInContainer >= 0, "Bogus index"); PRBool multiple; nsIContent* ins = GetNestedSingleInsertionPoint(aContainer, &multiple); if (multiple) { // Do each kid individually PRInt32 childCount = aContainer->GetChildCount(); for (PRInt32 idx = aNewIndexInContainer; idx < childCount; ++idx) { HandleChildInsertion(aContainer, aContainer->GetChildAt(idx), idx, PR_TRUE); } } else if (ins) { PRInt32 insertionIndex; nsXBLInsertionPoint* point = FindInsertionPointAndIndex(aContainer, ins, aNewIndexInContainer, PR_TRUE, &insertionIndex); if (point) { PRInt32 childCount = aContainer->GetChildCount(); for (PRInt32 j = aNewIndexInContainer; j < childCount; j++, insertionIndex++) { nsIContent* child = aContainer->GetChildAt(j); point->InsertChildAt(insertionIndex, child); SetInsertionParent(child, ins); } } } } } void nsBindingManager::ContentInserted(nsIDocument* aDocument, nsIContent* aContainer, nsIContent* aChild, PRInt32 aIndexInContainer) { if (aIndexInContainer != -1 && (mContentListTable.ops || mAnonymousNodesTable.ops)) { // It's not anonymous. NS_ASSERTION(aIndexInContainer >= 0, "Bogus index"); HandleChildInsertion(aContainer, aChild, aIndexInContainer, PR_FALSE); } } static void RemoveChildFromInsertionPoint(nsAnonymousContentList* aInsertionPointList, nsIContent* aChild, PRBool aRemoveFromPseudoPoints) { // We need to find the insertion point that contains aChild and remove it // from that insertion point. Sadly, we don't know which point it is, or // when we've hit it, but just trying to remove from all the pseudo or // non-pseudo insertion points, depending on the value of // aRemoveFromPseudoPoints, should work. // XXXbz nsXBLInsertionPoint::RemoveChild could return whether it // removed something. Wouldn't that let us short-circuit the walk? // Or can a child be in multiple insertion points? I wouldn't think // so... PRInt32 count = aInsertionPointList->GetInsertionPointCount(); for (PRInt32 i = 0; i < count; i++) { nsXBLInsertionPoint* point = aInsertionPointList->GetInsertionPointAt(i); if ((point->GetInsertionIndex() == -1) == aRemoveFromPseudoPoints) { point->RemoveChild(aChild); } } } void nsBindingManager::ContentRemoved(nsIDocument* aDocument, nsIContent* aContainer, nsIContent* aChild, PRInt32 aIndexInContainer) { if (aContainer && aIndexInContainer != -1 && (mContentListTable.ops || mAnonymousNodesTable.ops)) { // It's not anonymous nsCOMPtr point = GetNestedInsertionPoint(aContainer, aChild); if (point) { PRBool isAnonymousContentList; nsCOMPtr nodeList = GetXBLChildNodesInternal(point, &isAnonymousContentList); if (nodeList && isAnonymousContentList) { // Find a non-pseudo-insertion point and remove ourselves. RemoveChildFromInsertionPoint(static_cast (static_cast (nodeList)), aChild, PR_FALSE); SetInsertionParent(aChild, nsnull); } // Also remove from the list in mContentListTable, if any. if (mContentListTable.ops) { nsCOMPtr otherNodeList = static_cast (LookupObject(mContentListTable, point)); if (otherNodeList && otherNodeList != nodeList) { // otherNodeList is always anonymous RemoveChildFromInsertionPoint(static_cast (static_cast (otherNodeList)), aChild, PR_FALSE); } } } // Whether the child has a nested insertion point or not, aContainer might // have insertion points under it. If that's the case, we need to remove // aChild from the pseudo insertion point it's in. if (mContentListTable.ops) { nsAnonymousContentList* insertionPointList = static_cast(LookupObject(mContentListTable, aContainer)); if (insertionPointList) { RemoveChildFromInsertionPoint(insertionPointList, aChild, PR_TRUE); } } } } void nsBindingManager::DropDocumentReference() { // Make sure to not run any more XBL constructors mProcessingAttachedStack = PR_TRUE; if (mProcessAttachedQueueEvent) { mProcessAttachedQueueEvent->Revoke(); } if (mContentListTable.ops) PL_DHashTableFinish(&(mContentListTable)); mContentListTable.ops = nsnull; if (mAnonymousNodesTable.ops) PL_DHashTableFinish(&(mAnonymousNodesTable)); mAnonymousNodesTable.ops = nsnull; if (mInsertionParentTable.ops) PL_DHashTableFinish(&(mInsertionParentTable)); mInsertionParentTable.ops = nsnull; mDocument = nsnull; } void nsBindingManager::Traverse(nsIContent *aContent, nsCycleCollectionTraversalCallback &cb) { if (!aContent->HasFlag(NODE_MAY_BE_IN_BINDING_MNGR)) { return; } nsISupports *value; if (mInsertionParentTable.ops && (value = LookupObject(mInsertionParentTable, aContent))) { NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(cb, "[via binding manager] mInsertionParentTable key"); cb.NoteXPCOMChild(aContent); NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(cb, "[via binding manager] mInsertionParentTable value"); cb.NoteXPCOMChild(value); } // XXXbz how exactly would NODE_MAY_BE_IN_BINDING_MNGR end up on non-elements? if (!aContent->IsElement()) { return; } nsXBLBinding *binding = GetBinding(aContent); if (binding) { NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(cb, "[via binding manager] mBindingTable key"); cb.NoteXPCOMChild(aContent); NS_IMPL_CYCLE_COLLECTION_TRAVERSE_NATIVE_PTR(binding, nsXBLBinding, "[via binding manager] mBindingTable value") } if (mContentListTable.ops && (value = LookupObject(mContentListTable, aContent))) { NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(cb, "[via binding manager] mContentListTable key"); cb.NoteXPCOMChild(aContent); NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(cb, "[via binding manager] mContentListTable value"); cb.NoteXPCOMChild(value); } if (mAnonymousNodesTable.ops && (value = LookupObject(mAnonymousNodesTable, aContent))) { NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(cb, "[via binding manager] mAnonymousNodesTable key"); cb.NoteXPCOMChild(aContent); NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(cb, "[via binding manager] mAnonymousNodesTable value"); cb.NoteXPCOMChild(value); } if (mWrapperTable.ops && (value = LookupObject(mWrapperTable, aContent))) { NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(cb, "[via binding manager] mWrapperTable key"); cb.NoteXPCOMChild(aContent); NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(cb, "[via binding manager] mWrapperTable value"); cb.NoteXPCOMChild(value); } } void nsBindingManager::BeginOutermostUpdate() { mAttachedStackSizeOnOutermost = mAttachedStack.Length(); } void nsBindingManager::EndOutermostUpdate() { if (!mProcessingAttachedStack) { ProcessAttachedQueue(mAttachedStackSizeOnOutermost); mAttachedStackSizeOnOutermost = 0; } } void nsBindingManager::HandleChildInsertion(nsIContent* aContainer, nsIContent* aChild, PRUint32 aIndexInContainer, PRBool aAppend) { NS_PRECONDITION(aChild, "Must have child"); NS_PRECONDITION(!aContainer || PRUint32(aContainer->IndexOf(aChild)) == aIndexInContainer, "Child not at the right index?"); nsIContent* ins = GetNestedInsertionPoint(aContainer, aChild); if (ins) { PRInt32 insertionIndex; nsXBLInsertionPoint* point = FindInsertionPointAndIndex(aContainer, ins, aIndexInContainer, aAppend, &insertionIndex); if (point) { point->InsertChildAt(insertionIndex, aChild); SetInsertionParent(aChild, ins); } } }