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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/. */
#include "mozilla/Preferences.h"
#include "mozilla/dom/ShadowRoot.h"
#include "mozilla/dom/ShadowRootBinding.h"
#include "mozilla/dom/DocumentFragment.h"
#include "ChildIterator.h"
#include "nsContentUtils.h"
#include "nsDOMClassInfoID.h"
#include "nsIDOMHTMLElement.h"
#include "nsIStyleSheetLinkingElement.h"
#include "mozilla/dom/Element.h"
#include "mozilla/dom/HTMLContentElement.h"
#include "mozilla/dom/HTMLShadowElement.h"
#include "nsXBLPrototypeBinding.h"
#include "mozilla/StyleSheet.h"
#include "mozilla/StyleSheetInlines.h"
using namespace mozilla;
using namespace mozilla::dom;
NS_IMPL_CYCLE_COLLECTION_CLASS(ShadowRoot)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN_INHERITED(ShadowRoot,
DocumentFragment)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mPoolHost)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mStyleSheetList)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mOlderShadow)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mYoungerShadow)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mAssociatedBinding)
for (auto iter = tmp->mIdentifierMap.ConstIter(); !iter.Done();
iter.Next()) {
iter.Get()->Traverse(&cb);
}
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END
NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN_INHERITED(ShadowRoot,
DocumentFragment)
if (tmp->mPoolHost) {
tmp->mPoolHost->RemoveMutationObserver(tmp);
}
NS_IMPL_CYCLE_COLLECTION_UNLINK(mPoolHost)
NS_IMPL_CYCLE_COLLECTION_UNLINK(mStyleSheetList)
NS_IMPL_CYCLE_COLLECTION_UNLINK(mOlderShadow)
NS_IMPL_CYCLE_COLLECTION_UNLINK(mYoungerShadow)
NS_IMPL_CYCLE_COLLECTION_UNLINK(mAssociatedBinding)
tmp->mIdentifierMap.Clear();
NS_IMPL_CYCLE_COLLECTION_UNLINK_END
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION_INHERITED(ShadowRoot)
NS_INTERFACE_MAP_ENTRY_AMBIGUOUS(nsISupports, nsIContent)
NS_INTERFACE_MAP_ENTRY(nsIMutationObserver)
NS_INTERFACE_MAP_END_INHERITING(DocumentFragment)
NS_IMPL_ADDREF_INHERITED(ShadowRoot, DocumentFragment)
NS_IMPL_RELEASE_INHERITED(ShadowRoot, DocumentFragment)
ShadowRoot::ShadowRoot(Element* aElement,
already_AddRefed<mozilla::dom::NodeInfo>&& aNodeInfo,
nsXBLPrototypeBinding* aProtoBinding)
: DocumentFragment(aNodeInfo), mPoolHost(aElement),
mProtoBinding(aProtoBinding), mShadowElement(nullptr),
mInsertionPointChanged(false), mIsComposedDocParticipant(false)
{
SetHost(aElement);
// Nodes in a shadow tree should never store a value
// in the subtree root pointer, nodes in the shadow tree
// track the subtree root using GetContainingShadow().
ClearSubtreeRootPointer();
SetFlags(NODE_IS_IN_SHADOW_TREE);
ExtendedDOMSlots()->mBindingParent = aElement;
ExtendedDOMSlots()->mContainingShadow = this;
// Add the ShadowRoot as a mutation observer on the host to watch
// for mutations because the insertion points in this ShadowRoot
// may need to be updated when the host children are modified.
mPoolHost->AddMutationObserver(this);
}
ShadowRoot::~ShadowRoot()
{
if (mPoolHost) {
// mPoolHost may have been unlinked or a new ShadowRoot may have been
// creating, making this one obsolete.
mPoolHost->RemoveMutationObserver(this);
}
UnsetFlags(NODE_IS_IN_SHADOW_TREE);
// nsINode destructor expects mSubtreeRoot == this.
SetSubtreeRootPointer(this);
SetHost(nullptr);
}
JSObject*
ShadowRoot::WrapObject(JSContext* aCx, JS::Handle<JSObject*> aGivenProto)
{
return mozilla::dom::ShadowRootBinding::Wrap(aCx, this, aGivenProto);
}
ShadowRoot*
ShadowRoot::FromNode(nsINode* aNode)
{
if (aNode->IsInShadowTree() && !aNode->GetParentNode()) {
MOZ_ASSERT(aNode->NodeType() == nsIDOMNode::DOCUMENT_FRAGMENT_NODE,
"ShadowRoot is a document fragment.");
return static_cast<ShadowRoot*>(aNode);
}
return nullptr;
}
void
ShadowRoot::StyleSheetChanged()
{
mProtoBinding->FlushSkinSheets();
nsIPresShell* shell = OwnerDoc()->GetShell();
if (shell) {
OwnerDoc()->BeginUpdate(UPDATE_STYLE);
shell->RecordShadowStyleChange(this);
OwnerDoc()->EndUpdate(UPDATE_STYLE);
}
}
void
ShadowRoot::InsertSheet(StyleSheet* aSheet,
nsIContent* aLinkingContent)
{
nsCOMPtr<nsIStyleSheetLinkingElement>
linkingElement = do_QueryInterface(aLinkingContent);
MOZ_ASSERT(linkingElement, "The only styles in a ShadowRoot should come "
"from <style>.");
linkingElement->SetStyleSheet(aSheet); // This sets the ownerNode on the sheet
// Find the correct position to insert into the style sheet list (must
// be in tree order).
for (size_t i = 0; i <= mProtoBinding->SheetCount(); i++) {
if (i == mProtoBinding->SheetCount()) {
mProtoBinding->AppendStyleSheet(aSheet);
break;
}
nsINode* sheetOwningNode = mProtoBinding->StyleSheetAt(i)->GetOwnerNode();
if (nsContentUtils::PositionIsBefore(aLinkingContent, sheetOwningNode)) {
mProtoBinding->InsertStyleSheetAt(i, aSheet);
break;
}
}
if (aSheet->IsApplicable()) {
StyleSheetChanged();
}
}
void
ShadowRoot::RemoveSheet(StyleSheet* aSheet)
{
mProtoBinding->RemoveStyleSheet(aSheet);
if (aSheet->IsApplicable()) {
StyleSheetChanged();
}
}
Element*
ShadowRoot::GetElementById(const nsAString& aElementId)
{
nsIdentifierMapEntry *entry = mIdentifierMap.GetEntry(aElementId);
return entry ? entry->GetIdElement() : nullptr;
}
already_AddRefed<nsContentList>
ShadowRoot::GetElementsByTagName(const nsAString& aTagName)
{
return NS_GetContentList(this, kNameSpaceID_Unknown, aTagName);
}
already_AddRefed<nsContentList>
ShadowRoot::GetElementsByTagNameNS(const nsAString& aNamespaceURI,
const nsAString& aLocalName)
{
int32_t nameSpaceId = kNameSpaceID_Wildcard;
if (!aNamespaceURI.EqualsLiteral("*")) {
nsresult rv =
nsContentUtils::NameSpaceManager()->RegisterNameSpace(aNamespaceURI,
nameSpaceId);
NS_ENSURE_SUCCESS(rv, nullptr);
}
NS_ASSERTION(nameSpaceId != kNameSpaceID_Unknown, "Unexpected namespace ID!");
return NS_GetContentList(this, nameSpaceId, aLocalName);
}
void
ShadowRoot::AddToIdTable(Element* aElement, nsIAtom* aId)
{
nsIdentifierMapEntry *entry =
mIdentifierMap.PutEntry(nsDependentAtomString(aId));
if (entry) {
entry->AddIdElement(aElement);
}
}
void
ShadowRoot::RemoveFromIdTable(Element* aElement, nsIAtom* aId)
{
nsIdentifierMapEntry *entry =
mIdentifierMap.GetEntry(nsDependentAtomString(aId));
if (entry) {
entry->RemoveIdElement(aElement);
if (entry->IsEmpty()) {
mIdentifierMap.RemoveEntry(entry);
}
}
}
already_AddRefed<nsContentList>
ShadowRoot::GetElementsByClassName(const nsAString& aClasses)
{
return nsContentUtils::GetElementsByClassName(this, aClasses);
}
void
ShadowRoot::AddInsertionPoint(HTMLContentElement* aInsertionPoint)
{
TreeOrderComparator comparator;
mInsertionPoints.InsertElementSorted(aInsertionPoint, comparator);
}
void
ShadowRoot::RemoveInsertionPoint(HTMLContentElement* aInsertionPoint)
{
mInsertionPoints.RemoveElement(aInsertionPoint);
}
void
ShadowRoot::SetYoungerShadow(ShadowRoot* aYoungerShadow)
{
mYoungerShadow = aYoungerShadow;
mYoungerShadow->mOlderShadow = this;
ChangePoolHost(mYoungerShadow->GetShadowElement());
}
void
ShadowRoot::RemoveDestInsertionPoint(nsIContent* aInsertionPoint,
nsTArray<nsIContent*>& aDestInsertionPoints)
{
// Remove the insertion point from the destination insertion points.
// Also remove all succeeding insertion points because it is no longer
// possible for the content to be distributed into deeper node trees.
int32_t index = aDestInsertionPoints.IndexOf(aInsertionPoint);
// It's possible that we already removed the insertion point while processing
// other insertion point removals.
if (index >= 0) {
aDestInsertionPoints.SetLength(index);
}
}
void
ShadowRoot::DistributeSingleNode(nsIContent* aContent)
{
// Find the insertion point to which the content belongs.
HTMLContentElement* insertionPoint = nullptr;
for (uint32_t i = 0; i < mInsertionPoints.Length(); i++) {
if (mInsertionPoints[i]->Match(aContent)) {
if (mInsertionPoints[i]->MatchedNodes().Contains(aContent)) {
// Node is already matched into the insertion point. We are done.
return;
}
// Matching may cause the insertion point to drop fallback content.
if (mInsertionPoints[i]->MatchedNodes().IsEmpty() &&
static_cast<nsINode*>(mInsertionPoints[i])->GetFirstChild()) {
// This match will cause the insertion point to drop all fallback
// content and used matched nodes instead. Give up on the optimization
// and just distribute all nodes.
DistributeAllNodes();
return;
}
insertionPoint = mInsertionPoints[i];
break;
}
}
// Find the index into the insertion point.
if (insertionPoint) {
nsCOMArray<nsIContent>& matchedNodes = insertionPoint->MatchedNodes();
// Find the appropriate position in the matched node list for the
// newly distributed content.
bool isIndexFound = false;
MOZ_ASSERT(mPoolHost, "Where did the content come from if there is no pool host?");
ExplicitChildIterator childIterator(mPoolHost);
for (uint32_t i = 0; i < matchedNodes.Length(); i++) {
// Seek through the host's explicit children until the inserted content
// is found or when the current matched node is reached.
if (childIterator.Seek(aContent, matchedNodes[i])) {
// aContent was found before the current matched node.
insertionPoint->InsertMatchedNode(i, aContent);
isIndexFound = true;
break;
}
}
if (!isIndexFound) {
// We have still not found an index in the insertion point,
// thus it must be at the end.
MOZ_ASSERT(childIterator.Seek(aContent, nullptr),
"Trying to match a node that is not a candidate to be matched");
insertionPoint->AppendMatchedNode(aContent);
}
// Handle the case where the parent of the insertion point is a ShadowRoot
// that is projected into the younger ShadowRoot's shadow insertion point.
// The node distributed into the insertion point must be reprojected
// to the shadow insertion point.
if (insertionPoint->GetParent() == this &&
mYoungerShadow && mYoungerShadow->GetShadowElement()) {
mYoungerShadow->GetShadowElement()->DistributeSingleNode(aContent);
}
// Handle the case where the parent of the insertion point has a ShadowRoot.
// The node distributed into the insertion point must be reprojected to the
// insertion points of the parent's ShadowRoot.
ShadowRoot* parentShadow = insertionPoint->GetParent()->GetShadowRoot();
if (parentShadow) {
parentShadow->DistributeSingleNode(aContent);
}
// Handle the case where the parent of the insertion point is the <shadow>
// element. The node distributed into the insertion point must be reprojected
// into the older ShadowRoot's insertion points.
if (mShadowElement && mShadowElement == insertionPoint->GetParent()) {
ShadowRoot* olderShadow = mShadowElement->GetOlderShadowRoot();
if (olderShadow) {
olderShadow->DistributeSingleNode(aContent);
}
}
}
}
void
ShadowRoot::RemoveDistributedNode(nsIContent* aContent)
{
// Find insertion point containing the content and remove the node.
for (uint32_t i = 0; i < mInsertionPoints.Length(); i++) {
if (mInsertionPoints[i]->MatchedNodes().Contains(aContent)) {
// Removing the matched node may cause the insertion point to use
// fallback content.
if (mInsertionPoints[i]->MatchedNodes().Length() == 1 &&
static_cast<nsINode*>(mInsertionPoints[i])->GetFirstChild()) {
// Removing the matched node will cause fallback content to be
// used instead. Give up optimization and distribute all nodes.
DistributeAllNodes();
return;
}
mInsertionPoints[i]->RemoveMatchedNode(aContent);
// Handle the case where the parent of the insertion point is a ShadowRoot
// that is projected into the younger ShadowRoot's shadow insertion point.
// The removed node needs to be removed from the shadow insertion point.
if (mInsertionPoints[i]->GetParent() == this) {
if (mYoungerShadow && mYoungerShadow->GetShadowElement()) {
mYoungerShadow->GetShadowElement()->RemoveDistributedNode(aContent);
}
}
// Handle the case where the parent of the insertion point has a ShadowRoot.
// The removed node needs to be removed from the insertion points of the
// parent's ShadowRoot.
ShadowRoot* parentShadow = mInsertionPoints[i]->GetParent()->GetShadowRoot();
if (parentShadow) {
parentShadow->RemoveDistributedNode(aContent);
}
// Handle the case where the parent of the insertion point is the <shadow>
// element. The removed node must be removed from the older ShadowRoot's
// insertion points.
if (mShadowElement && mShadowElement == mInsertionPoints[i]->GetParent()) {
ShadowRoot* olderShadow = mShadowElement->GetOlderShadowRoot();
if (olderShadow) {
olderShadow->RemoveDistributedNode(aContent);
}
}
break;
}
}
}
void
ShadowRoot::DistributeAllNodes()
{
// Create node pool.
nsTArray<nsIContent*> nodePool;
// Make sure there is a pool host, an older shadow may not have
// one if the younger shadow does not have a <shadow> element.
if (mPoolHost) {
ExplicitChildIterator childIterator(mPoolHost);
for (nsIContent* content = childIterator.GetNextChild();
content;
content = childIterator.GetNextChild()) {
nodePool.AppendElement(content);
}
}
nsTArray<ShadowRoot*> shadowsToUpdate;
for (uint32_t i = 0; i < mInsertionPoints.Length(); i++) {
mInsertionPoints[i]->ClearMatchedNodes();
// Assign matching nodes from node pool.
for (uint32_t j = 0; j < nodePool.Length(); j++) {
if (mInsertionPoints[i]->Match(nodePool[j])) {
mInsertionPoints[i]->AppendMatchedNode(nodePool[j]);
nodePool.RemoveElementAt(j--);
}
}
// Keep track of instances where the content insertion point is distributed
// (parent of insertion point has a ShadowRoot).
nsIContent* insertionParent = mInsertionPoints[i]->GetParent();
MOZ_ASSERT(insertionParent, "The only way for an insertion point to be in the"
"mInsertionPoints array is to be a descendant of a"
"ShadowRoot, in which case, it should have a parent");
// If the parent of the insertion point has a ShadowRoot, the nodes distributed
// to the insertion point must be reprojected to the insertion points of the
// parent's ShadowRoot.
ShadowRoot* parentShadow = insertionParent->GetShadowRoot();
if (parentShadow && !shadowsToUpdate.Contains(parentShadow)) {
shadowsToUpdate.AppendElement(parentShadow);
}
}
// If there is a shadow insertion point in this ShadowRoot, the children
// of the shadow insertion point needs to be distributed into the insertion
// points of the older ShadowRoot.
if (mShadowElement && mOlderShadow) {
mOlderShadow->DistributeAllNodes();
}
// If there is a younger ShadowRoot with a shadow insertion point,
// then the children of this ShadowRoot needs to be distributed to
// the younger ShadowRoot's shadow insertion point.
if (mYoungerShadow && mYoungerShadow->GetShadowElement()) {
mYoungerShadow->GetShadowElement()->DistributeAllNodes();
}
for (uint32_t i = 0; i < shadowsToUpdate.Length(); i++) {
shadowsToUpdate[i]->DistributeAllNodes();
}
}
void
ShadowRoot::GetInnerHTML(nsAString& aInnerHTML)
{
GetMarkup(false, aInnerHTML);
}
void
ShadowRoot::SetInnerHTML(const nsAString& aInnerHTML, ErrorResult& aError)
{
SetInnerHTMLInternal(aInnerHTML, aError);
}
Element*
ShadowRoot::Host()
{
nsIContent* host = GetHost();
MOZ_ASSERT(host && host->IsElement(),
"ShadowRoot host should always be an element, "
"how else did we create this ShadowRoot?");
return host->AsElement();
}
bool
ShadowRoot::ApplyAuthorStyles()
{
return mProtoBinding->InheritsStyle();
}
void
ShadowRoot::SetApplyAuthorStyles(bool aApplyAuthorStyles)
{
mProtoBinding->SetInheritsStyle(aApplyAuthorStyles);
nsIPresShell* shell = OwnerDoc()->GetShell();
if (shell) {
OwnerDoc()->BeginUpdate(UPDATE_STYLE);
shell->RecordShadowStyleChange(this);
OwnerDoc()->EndUpdate(UPDATE_STYLE);
}
}
StyleSheetList*
ShadowRoot::StyleSheets()
{
if (!mStyleSheetList) {
mStyleSheetList = new ShadowRootStyleSheetList(this);
}
return mStyleSheetList;
}
void
ShadowRoot::SetShadowElement(HTMLShadowElement* aShadowElement)
{
// If there is already a shadow element point, remove
// the projected shadow because it is no longer an insertion
// point.
if (mShadowElement) {
mShadowElement->SetProjectedShadow(nullptr);
}
if (mOlderShadow) {
// Nodes for distribution will come from the new shadow element.
mOlderShadow->ChangePoolHost(aShadowElement);
}
// Set the new shadow element to project the older ShadowRoot because
// it is the current shadow insertion point.
mShadowElement = aShadowElement;
if (mShadowElement) {
mShadowElement->SetProjectedShadow(mOlderShadow);
}
}
void
ShadowRoot::ChangePoolHost(nsIContent* aNewHost)
{
if (mPoolHost) {
mPoolHost->RemoveMutationObserver(this);
}
// Clear the nodes matched to content insertion points
// because it is no longer relevant.
for (uint32_t i = 0; i < mInsertionPoints.Length(); i++) {
mInsertionPoints[i]->ClearMatchedNodes();
}
mPoolHost = aNewHost;
if (mPoolHost) {
mPoolHost->AddMutationObserver(this);
}
}
bool
ShadowRoot::IsShadowInsertionPoint(nsIContent* aContent)
{
if (!aContent) {
return false;
}
HTMLShadowElement* shadowElem = HTMLShadowElement::FromContent(aContent);
return shadowElem && shadowElem->IsInsertionPoint();
}
/**
* Returns whether the web components pool population algorithm
* on the host would contain |aContent|. This function ignores
* insertion points in the pool, thus should only be used to
* test nodes that have not yet been distributed.
*/
bool
ShadowRoot::IsPooledNode(nsIContent* aContent, nsIContent* aContainer,
nsIContent* aHost)
{
if (nsContentUtils::IsContentInsertionPoint(aContent) ||
IsShadowInsertionPoint(aContent)) {
// Insertion points never end up in the pool.
return false;
}
if (aContainer == aHost &&
nsContentUtils::IsInSameAnonymousTree(aContainer, aContent)) {
// Children of the host will end up in the pool. We check to ensure
// that the content is in the same anonymous tree as the container
// because anonymous content may report its container as the host
// but it may not be in the host's child list.
return true;
}
if (aContainer) {
// Fallback content will end up in pool if its parent is a child of the host.
HTMLContentElement* content = HTMLContentElement::FromContent(aContainer);
return content && content->IsInsertionPoint() &&
content->MatchedNodes().IsEmpty() &&
aContainer->GetParentNode() == aHost;
}
return false;
}
void
ShadowRoot::AttributeChanged(nsIDocument* aDocument,
Element* aElement,
int32_t aNameSpaceID,
nsIAtom* aAttribute,
int32_t aModType,
const nsAttrValue* aOldValue)
{
if (!IsPooledNode(aElement, aElement->GetParent(), mPoolHost)) {
return;
}
// Attributes may change insertion point matching, find its new distribution.
RemoveDistributedNode(aElement);
DistributeSingleNode(aElement);
}
void
ShadowRoot::ContentAppended(nsIDocument* aDocument,
nsIContent* aContainer,
nsIContent* aFirstNewContent,
int32_t aNewIndexInContainer)
{
if (mInsertionPointChanged) {
DistributeAllNodes();
mInsertionPointChanged = false;
return;
}
// Watch for new nodes added to the pool because the node
// may need to be added to an insertion point.
nsIContent* currentChild = aFirstNewContent;
while (currentChild) {
// Add insertion point to destination insertion points of fallback content.
if (nsContentUtils::IsContentInsertionPoint(aContainer)) {
HTMLContentElement* content = HTMLContentElement::FromContent(aContainer);
if (content->MatchedNodes().IsEmpty()) {
currentChild->DestInsertionPoints().AppendElement(aContainer);
}
}
if (IsPooledNode(currentChild, aContainer, mPoolHost)) {
DistributeSingleNode(currentChild);
}
currentChild = currentChild->GetNextSibling();
}
}
void
ShadowRoot::ContentInserted(nsIDocument* aDocument,
nsIContent* aContainer,
nsIContent* aChild,
int32_t aIndexInContainer)
{
if (mInsertionPointChanged) {
DistributeAllNodes();
mInsertionPointChanged = false;
return;
}
// Watch for new nodes added to the pool because the node
// may need to be added to an insertion point.
if (IsPooledNode(aChild, aContainer, mPoolHost)) {
// Add insertion point to destination insertion points of fallback content.
if (nsContentUtils::IsContentInsertionPoint(aContainer)) {
HTMLContentElement* content = HTMLContentElement::FromContent(aContainer);
if (content->MatchedNodes().IsEmpty()) {
aChild->DestInsertionPoints().AppendElement(aContainer);
}
}
DistributeSingleNode(aChild);
}
}
void
ShadowRoot::ContentRemoved(nsIDocument* aDocument,
nsIContent* aContainer,
nsIContent* aChild,
int32_t aIndexInContainer,
nsIContent* aPreviousSibling)
{
if (mInsertionPointChanged) {
DistributeAllNodes();
mInsertionPointChanged = false;
return;
}
// Clear destination insertion points for removed
// fallback content.
if (nsContentUtils::IsContentInsertionPoint(aContainer)) {
HTMLContentElement* content = HTMLContentElement::FromContent(aContainer);
if (content->MatchedNodes().IsEmpty()) {
aChild->DestInsertionPoints().Clear();
}
}
// Watch for node that is removed from the pool because
// it may need to be removed from an insertion point.
if (IsPooledNode(aChild, aContainer, mPoolHost)) {
RemoveDistributedNode(aChild);
}
}
nsresult
ShadowRoot::Clone(mozilla::dom::NodeInfo *aNodeInfo, nsINode **aResult) const
{
*aResult = nullptr;
return NS_ERROR_DOM_DATA_CLONE_ERR;
}
void
ShadowRoot::DestroyContent()
{
if (mOlderShadow) {
mOlderShadow->DestroyContent();
}
DocumentFragment::DestroyContent();
}
NS_IMPL_CYCLE_COLLECTION_INHERITED(ShadowRootStyleSheetList, StyleSheetList,
mShadowRoot)
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION_INHERITED(ShadowRootStyleSheetList)
NS_INTERFACE_MAP_END_INHERITING(StyleSheetList)
NS_IMPL_ADDREF_INHERITED(ShadowRootStyleSheetList, StyleSheetList)
NS_IMPL_RELEASE_INHERITED(ShadowRootStyleSheetList, StyleSheetList)
ShadowRootStyleSheetList::ShadowRootStyleSheetList(ShadowRoot* aShadowRoot)
: mShadowRoot(aShadowRoot)
{
MOZ_COUNT_CTOR(ShadowRootStyleSheetList);
}
ShadowRootStyleSheetList::~ShadowRootStyleSheetList()
{
MOZ_COUNT_DTOR(ShadowRootStyleSheetList);
}
StyleSheet*
ShadowRootStyleSheetList::IndexedGetter(uint32_t aIndex, bool& aFound)
{
aFound = aIndex < mShadowRoot->mProtoBinding->SheetCount();
if (!aFound) {
return nullptr;
}
return mShadowRoot->mProtoBinding->StyleSheetAt(aIndex);
}
uint32_t
ShadowRootStyleSheetList::Length()
{
return mShadowRoot->mProtoBinding->SheetCount();
}
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