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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/dom/AbstractRange.h"
#include "mozilla/dom/AbstractRangeBinding.h"
#include "mozilla/Assertions.h"
#include "mozilla/Attributes.h"
#include "mozilla/RangeUtils.h"
#include "mozilla/dom/ChildIterator.h"
#include "mozilla/dom/Document.h"
#include "mozilla/dom/StaticRange.h"
#include "mozilla/dom/Selection.h"
#include "nsContentUtils.h"
#include "nsCycleCollectionParticipant.h"
#include "nsGkAtoms.h"
#include "nsINode.h"
#include "nsRange.h"
#include "nsTArray.h"
namespace mozilla::dom {
template nsresult AbstractRange::SetStartAndEndInternal(
const RangeBoundary& aStartBoundary, const RangeBoundary& aEndBoundary,
nsRange* aRange);
template nsresult AbstractRange::SetStartAndEndInternal(
const RangeBoundary& aStartBoundary, const RawRangeBoundary& aEndBoundary,
nsRange* aRange);
template nsresult AbstractRange::SetStartAndEndInternal(
const RawRangeBoundary& aStartBoundary, const RangeBoundary& aEndBoundary,
nsRange* aRange);
template nsresult AbstractRange::SetStartAndEndInternal(
const RawRangeBoundary& aStartBoundary,
const RawRangeBoundary& aEndBoundary, nsRange* aRange);
template nsresult AbstractRange::SetStartAndEndInternal(
const RangeBoundary& aStartBoundary, const RangeBoundary& aEndBoundary,
StaticRange* aRange);
template nsresult AbstractRange::SetStartAndEndInternal(
const RangeBoundary& aStartBoundary, const RawRangeBoundary& aEndBoundary,
StaticRange* aRange);
template nsresult AbstractRange::SetStartAndEndInternal(
const RawRangeBoundary& aStartBoundary, const RangeBoundary& aEndBoundary,
StaticRange* aRange);
template nsresult AbstractRange::SetStartAndEndInternal(
const RawRangeBoundary& aStartBoundary,
const RawRangeBoundary& aEndBoundary, StaticRange* aRange);
template bool AbstractRange::MaybeCacheToReuse(nsRange& aInstance);
template bool AbstractRange::MaybeCacheToReuse(StaticRange& aInstance);
bool AbstractRange::sHasShutDown = false;
NS_IMPL_CYCLE_COLLECTING_ADDREF(AbstractRange)
NS_IMPL_CYCLE_COLLECTING_RELEASE(AbstractRange)
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(AbstractRange)
NS_WRAPPERCACHE_INTERFACE_MAP_ENTRY
NS_INTERFACE_MAP_ENTRY(nsISupports)
NS_INTERFACE_MAP_END
NS_IMPL_CYCLE_COLLECTION_WRAPPERCACHE_CLASS(AbstractRange)
NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN(AbstractRange)
NS_IMPL_CYCLE_COLLECTION_UNLINK(mOwner);
// mStart and mEnd may depend on or be depended on some other members in
// concrete classes so that they should be unlinked in sub classes.
NS_IMPL_CYCLE_COLLECTION_UNLINK_PRESERVED_WRAPPER
tmp->mSelections.Clear();
// Unregistering of the common inclusive ancestors would by design
// also happen when the actual implementations unlink `mStart`/`mEnd`.
// This may introduce additional overhead which is not needed when unlinking,
// therefore this is done here beforehand.
if (tmp->mRegisteredClosestCommonInclusiveAncestor) {
tmp->UnregisterClosestCommonInclusiveAncestor(
tmp->mRegisteredClosestCommonInclusiveAncestor, true);
}
MOZ_DIAGNOSTIC_ASSERT(!tmp->isInList(),
"Shouldn't be registered now that we're unlinking");
NS_IMPL_CYCLE_COLLECTION_UNLINK_END
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN(AbstractRange)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mOwner)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mStart)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mEnd)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mRegisteredClosestCommonInclusiveAncestor)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END
// When aMarkDesendants is true, Set
// DescendantOfClosestCommonInclusiveAncestorForRangeInSelection flag for the
// flattened children of aNode. When aMarkDesendants is false, unset that flag
// for the flattened children of aNode.
void UpdateDescendantsInFlattenedTree(const nsIContent& aNode,
bool aMarkDesendants) {
if (!aNode.IsElement() || aNode.IsHTMLElement(nsGkAtoms::slot)) {
return;
}
FlattenedChildIterator iter(&aNode);
for (nsIContent* child = iter.GetNextChild(); child;
child = iter.GetNextChild()) {
if (aMarkDesendants) {
child->SetDescendantOfClosestCommonInclusiveAncestorForRangeInSelection();
} else {
child
->ClearDescendantOfClosestCommonInclusiveAncestorForRangeInSelection();
}
UpdateDescendantsInFlattenedTree(*child, aMarkDesendants);
}
}
void AbstractRange::MarkDescendants(const nsINode& aNode) {
// Set NodeIsDescendantOfClosestCommonInclusiveAncestorForRangeInSelection on
// aNode's descendants unless aNode is already marked as a range common
// ancestor or a descendant of one, in which case all of our descendants have
// the bit set already.
if (!aNode.IsMaybeSelected()) {
// don't set the Descendant bit on |aNode| itself
nsINode* node = aNode.GetNextNode(&aNode);
if (!node) {
if (aNode.GetShadowRootForSelection()) {
UpdateDescendantsInFlattenedTree(*aNode.AsContent(), true);
}
return;
}
while (node) {
node->SetDescendantOfClosestCommonInclusiveAncestorForRangeInSelection();
if (!node->IsClosestCommonInclusiveAncestorForRangeInSelection()) {
if (StaticPrefs::dom_shadowdom_selection_across_boundary_enabled()) {
UpdateDescendantsInFlattenedTree(*node->AsContent(), true);
// sub-tree of node has been marked already
node = node->GetNextNonChildNode(&aNode);
} else {
node = node->GetNextNode(&aNode);
}
} else {
// optimize: skip this sub-tree since it's marked already.
node = node->GetNextNonChildNode(&aNode);
}
}
}
}
void AbstractRange::UnmarkDescendants(const nsINode& aNode) {
// Unset NodeIsDescendantOfClosestCommonInclusiveAncestorForRangeInSelection
// on aNode's descendants unless aNode is a descendant of another range common
// ancestor. Also, exclude descendants of range common ancestors (but not the
// common ancestor itself).
if (!aNode
.IsDescendantOfClosestCommonInclusiveAncestorForRangeInSelection()) {
// we know |aNode| doesn't have any bit set
nsINode* node = aNode.GetNextNode(&aNode);
if (!node) {
if (aNode.GetShadowRootForSelection()) {
UpdateDescendantsInFlattenedTree(*aNode.AsContent(), false);
}
return;
}
while (node) {
node->ClearDescendantOfClosestCommonInclusiveAncestorForRangeInSelection();
if (!node->IsClosestCommonInclusiveAncestorForRangeInSelection()) {
if (StaticPrefs::dom_shadowdom_selection_across_boundary_enabled()) {
UpdateDescendantsInFlattenedTree(*node->AsContent(), false);
// sub-tree has been marked already
node = node->GetNextNonChildNode(&aNode);
} else {
node = node->GetNextNode(&aNode);
}
} else {
// We found an ancestor of an overlapping range, skip its descendants.
node = node->GetNextNonChildNode(&aNode);
}
}
}
}
// NOTE: If you need to change default value of members of AbstractRange,
// update nsRange::Create(nsINode* aNode) and ClearForReuse() too.
AbstractRange::AbstractRange(nsINode* aNode, bool aIsDynamicRange)
: mRegisteredClosestCommonInclusiveAncestor(nullptr),
mIsPositioned(false),
mIsGenerated(false),
mCalledByJS(false),
mIsDynamicRange(aIsDynamicRange) {
mRefCnt.SetIsOnMainThread();
Init(aNode);
}
AbstractRange::~AbstractRange() = default;
void AbstractRange::Init(nsINode* aNode) {
MOZ_ASSERT(aNode, "range isn't in a document!");
mOwner = aNode->OwnerDoc();
}
// static
void AbstractRange::Shutdown() {
sHasShutDown = true;
if (nsTArray<RefPtr<nsRange>>* cachedRanges = nsRange::sCachedRanges) {
nsRange::sCachedRanges = nullptr;
cachedRanges->Clear();
delete cachedRanges;
}
if (nsTArray<RefPtr<StaticRange>>* cachedRanges =
StaticRange::sCachedRanges) {
StaticRange::sCachedRanges = nullptr;
cachedRanges->Clear();
delete cachedRanges;
}
}
// static
template <class RangeType>
bool AbstractRange::MaybeCacheToReuse(RangeType& aInstance) {
static const size_t kMaxRangeCache = 64;
// If the instance is not used by JS and the cache is not yet full, we
// should reuse it. Otherwise, delete it.
if (sHasShutDown || aInstance.GetWrapperMaybeDead() || aInstance.GetFlags() ||
(RangeType::sCachedRanges &&
RangeType::sCachedRanges->Length() == kMaxRangeCache)) {
return false;
}
aInstance.ClearForReuse();
if (!RangeType::sCachedRanges) {
RangeType::sCachedRanges = new nsTArray<RefPtr<RangeType>>(16);
}
RangeType::sCachedRanges->AppendElement(&aInstance);
return true;
}
nsINode* AbstractRange::GetClosestCommonInclusiveAncestor(
AllowRangeCrossShadowBoundary aAllowCrossShadowBoundary) const {
if (!mIsPositioned) {
return nullptr;
}
nsINode* startContainer =
aAllowCrossShadowBoundary == AllowRangeCrossShadowBoundary::Yes
? GetMayCrossShadowBoundaryStartContainer()
: GetStartContainer();
nsINode* endContainer =
aAllowCrossShadowBoundary == AllowRangeCrossShadowBoundary::Yes
? GetMayCrossShadowBoundaryEndContainer()
: GetEndContainer();
if (MayCrossShadowBoundary() &&
aAllowCrossShadowBoundary == AllowRangeCrossShadowBoundary::Yes) {
// Since both the start container and the end container are
// guaranteed to be in the same composed document.
// If one of the boundary is a document, use that document
// as the common ancestor since both nodes.
const bool oneBoundaryIsDocument =
(startContainer && startContainer->IsDocument()) ||
(endContainer && endContainer->IsDocument());
if (oneBoundaryIsDocument) {
MOZ_ASSERT_IF(
startContainer && startContainer->IsDocument(),
!endContainer || endContainer->GetComposedDoc() == startContainer);
MOZ_ASSERT_IF(
endContainer && endContainer->IsDocument(),
!startContainer || startContainer->GetComposedDoc() == endContainer);
return startContainer ? startContainer->GetComposedDoc()
: endContainer->GetComposedDoc();
}
const auto rescope = [](nsINode*& aContainer) {
if (!aContainer) {
return;
}
// RangeBoundary allows the container to be shadow roots; When
// this happens, we should use the shadow host here.
if (auto* shadowRoot = ShadowRoot::FromNode(aContainer)) {
aContainer = shadowRoot->GetHost();
return;
}
};
rescope(startContainer);
rescope(endContainer);
return nsContentUtils::GetCommonFlattenedTreeAncestorForSelection(
startContainer ? startContainer->AsContent() : nullptr,
endContainer ? endContainer->AsContent() : nullptr);
}
return nsContentUtils::GetClosestCommonInclusiveAncestor(startContainer,
endContainer);
}
// static
template <typename SPT, typename SRT, typename EPT, typename ERT,
typename RangeType>
nsresult AbstractRange::SetStartAndEndInternal(
const RangeBoundaryBase<SPT, SRT>& aStartBoundary,
const RangeBoundaryBase<EPT, ERT>& aEndBoundary, RangeType* aRange) {
if (NS_WARN_IF(!aStartBoundary.IsSet()) ||
NS_WARN_IF(!aEndBoundary.IsSet())) {
return NS_ERROR_INVALID_ARG;
}
nsINode* newStartRoot =
RangeUtils::ComputeRootNode(aStartBoundary.Container());
if (!newStartRoot) {
return NS_ERROR_DOM_INVALID_NODE_TYPE_ERR;
}
if (!aStartBoundary.IsSetAndValid()) {
return NS_ERROR_DOM_INDEX_SIZE_ERR;
}
if (aStartBoundary.Container() == aEndBoundary.Container()) {
if (!aEndBoundary.IsSetAndValid()) {
return NS_ERROR_DOM_INDEX_SIZE_ERR;
}
// XXX: Offsets - handle this more efficiently.
// If the end offset is less than the start offset, this should be
// collapsed at the end offset.
if (*aStartBoundary.Offset(
RangeBoundaryBase<SPT, SRT>::OffsetFilter::kValidOffsets) >
*aEndBoundary.Offset(
RangeBoundaryBase<EPT, ERT>::OffsetFilter::kValidOffsets)) {
aRange->DoSetRange(aEndBoundary, aEndBoundary, newStartRoot);
} else {
aRange->DoSetRange(aStartBoundary, aEndBoundary, newStartRoot);
}
return NS_OK;
}
nsINode* newEndRoot = RangeUtils::ComputeRootNode(aEndBoundary.Container());
if (!newEndRoot) {
return NS_ERROR_DOM_INVALID_NODE_TYPE_ERR;
}
if (!aEndBoundary.IsSetAndValid()) {
return NS_ERROR_DOM_INDEX_SIZE_ERR;
}
// Different root
if (newStartRoot != newEndRoot) {
if (aRange->IsStaticRange()) {
// StaticRange allows nodes in different trees, so set start and end
// accordingly
aRange->DoSetRange(aStartBoundary, aEndBoundary, newEndRoot);
} else {
MOZ_ASSERT(aRange->IsDynamicRange());
// In contrast, nsRange keeps both. It has a pair of start and end
// which they have been collapsed to one end, and it also may have a pair
// of start and end which are the original value.
aRange->DoSetRange(aEndBoundary, aEndBoundary, newEndRoot);
// Don't create the cross shadow bounday range if the one of the roots is
// an UA widget regardless whether the boundaries are allowed to cross
// shadow boundary or not.
if (!IsRootUAWidget(newStartRoot) && !IsRootUAWidget(newEndRoot)) {
aRange->AsDynamicRange()
->CreateOrUpdateCrossShadowBoundaryRangeIfNeeded(aStartBoundary,
aEndBoundary);
}
}
return NS_OK;
}
const Maybe<int32_t> pointOrder =
nsContentUtils::ComparePoints(aStartBoundary, aEndBoundary);
if (!pointOrder) {
// Safely return a value but also detected this in debug builds.
MOZ_ASSERT_UNREACHABLE();
return NS_ERROR_INVALID_ARG;
}
// If the end point is before the start point, this should be collapsed at
// the end point.
if (*pointOrder == 1) {
aRange->DoSetRange(aEndBoundary, aEndBoundary, newEndRoot);
return NS_OK;
}
// Otherwise, set the range as specified.
aRange->DoSetRange(aStartBoundary, aEndBoundary, newStartRoot);
return NS_OK;
}
bool AbstractRange::IsInSelection(const Selection& aSelection) const {
return mSelections.Contains(&aSelection);
}
void AbstractRange::RegisterSelection(Selection& aSelection) {
if (IsInSelection(aSelection)) {
return;
}
bool isFirstSelection = mSelections.IsEmpty();
mSelections.AppendElement(&aSelection);
if (isFirstSelection && !mRegisteredClosestCommonInclusiveAncestor) {
nsINode* commonAncestor = GetClosestCommonInclusiveAncestor(
StaticPrefs::dom_shadowdom_selection_across_boundary_enabled()
? AllowRangeCrossShadowBoundary::Yes
: AllowRangeCrossShadowBoundary::No);
MOZ_ASSERT(commonAncestor, "unexpected disconnected nodes");
RegisterClosestCommonInclusiveAncestor(commonAncestor);
}
}
const nsTArray<WeakPtr<Selection>>& AbstractRange::GetSelections() const {
return mSelections;
}
void AbstractRange::UnregisterSelection(const Selection& aSelection) {
mSelections.RemoveElement(&aSelection);
if (mSelections.IsEmpty() && mRegisteredClosestCommonInclusiveAncestor) {
UnregisterClosestCommonInclusiveAncestor(
mRegisteredClosestCommonInclusiveAncestor, false);
MOZ_DIAGNOSTIC_ASSERT(
!mRegisteredClosestCommonInclusiveAncestor,
"How can we have a registered common ancestor when we "
"just unregistered?");
MOZ_DIAGNOSTIC_ASSERT(
!isInList(),
"Shouldn't be registered if we have no "
"mRegisteredClosestCommonInclusiveAncestor after unregistering");
}
}
void AbstractRange::RegisterClosestCommonInclusiveAncestor(nsINode* aNode) {
MOZ_ASSERT(aNode, "bad arg");
MOZ_DIAGNOSTIC_ASSERT(IsInAnySelection(),
"registering range not in selection");
mRegisteredClosestCommonInclusiveAncestor = aNode;
MarkDescendants(*aNode);
UniquePtr<LinkedList<AbstractRange>>& ranges =
aNode->GetClosestCommonInclusiveAncestorRangesPtr();
if (!ranges) {
ranges = MakeUnique<LinkedList<AbstractRange>>();
}
MOZ_DIAGNOSTIC_ASSERT(!isInList());
ranges->insertBack(this);
aNode->SetClosestCommonInclusiveAncestorForRangeInSelection();
}
void AbstractRange::UnregisterClosestCommonInclusiveAncestor(
nsINode* aNode, bool aIsUnlinking) {
MOZ_ASSERT(aNode, "bad arg");
NS_ASSERTION(aNode->IsClosestCommonInclusiveAncestorForRangeInSelection(),
"wrong node");
MOZ_DIAGNOSTIC_ASSERT(aNode == mRegisteredClosestCommonInclusiveAncestor,
"wrong node");
LinkedList<AbstractRange>* ranges =
aNode->GetExistingClosestCommonInclusiveAncestorRanges();
MOZ_ASSERT(ranges);
mRegisteredClosestCommonInclusiveAncestor = nullptr;
#ifdef DEBUG
bool found = false;
for (AbstractRange* range : *ranges) {
if (range == this) {
found = true;
break;
}
}
MOZ_ASSERT(found,
"We should be in the list on our registered common ancestor");
#endif // DEBUG
remove();
// We don't want to waste time unmarking flags on nodes that are
// being unlinked anyway.
if (!aIsUnlinking && ranges->isEmpty()) {
aNode->ClearClosestCommonInclusiveAncestorForRangeInSelection();
UnmarkDescendants(*aNode);
}
}
void AbstractRange::UpdateCommonAncestorIfNecessary() {
nsINode* oldCommonAncestor = mRegisteredClosestCommonInclusiveAncestor;
nsINode* newCommonAncestor =
GetClosestCommonInclusiveAncestor(AllowRangeCrossShadowBoundary::Yes);
if (newCommonAncestor != oldCommonAncestor) {
if (oldCommonAncestor) {
UnregisterClosestCommonInclusiveAncestor(oldCommonAncestor, false);
}
if (newCommonAncestor) {
RegisterClosestCommonInclusiveAncestor(newCommonAncestor);
} else {
MOZ_DIAGNOSTIC_ASSERT(!mIsPositioned, "unexpected disconnected nodes");
mSelections.Clear();
MOZ_DIAGNOSTIC_ASSERT(
!mRegisteredClosestCommonInclusiveAncestor,
"How can we have a registered common ancestor when we "
"didn't register ourselves?");
MOZ_DIAGNOSTIC_ASSERT(!isInList(),
"Shouldn't be registered if we have no "
"mRegisteredClosestCommonInclusiveAncestor");
}
}
}
const RangeBoundary& AbstractRange::MayCrossShadowBoundaryStartRef() const {
return IsDynamicRange() ? AsDynamicRange()->MayCrossShadowBoundaryStartRef()
: mStart;
}
const RangeBoundary& AbstractRange::MayCrossShadowBoundaryEndRef() const {
return IsDynamicRange() ? AsDynamicRange()->MayCrossShadowBoundaryEndRef()
: mEnd;
}
nsIContent* AbstractRange::GetMayCrossShadowBoundaryChildAtStartOffset() const {
return IsDynamicRange()
? AsDynamicRange()->GetMayCrossShadowBoundaryChildAtStartOffset()
: mStart.GetChildAtOffset();
}
nsIContent* AbstractRange::GetMayCrossShadowBoundaryChildAtEndOffset() const {
return IsDynamicRange()
? AsDynamicRange()->GetMayCrossShadowBoundaryChildAtEndOffset()
: mEnd.GetChildAtOffset();
}
nsINode* AbstractRange::GetMayCrossShadowBoundaryStartContainer() const {
return IsDynamicRange()
? AsDynamicRange()->GetMayCrossShadowBoundaryStartContainer()
: mStart.Container();
}
nsINode* AbstractRange::GetMayCrossShadowBoundaryEndContainer() const {
return IsDynamicRange()
? AsDynamicRange()->GetMayCrossShadowBoundaryEndContainer()
: mEnd.Container();
}
bool AbstractRange::MayCrossShadowBoundary() const {
return IsDynamicRange() ? !!AsDynamicRange()->GetCrossShadowBoundaryRange()
: false;
}
uint32_t AbstractRange::MayCrossShadowBoundaryStartOffset() const {
return IsDynamicRange()
? AsDynamicRange()->MayCrossShadowBoundaryStartOffset()
: static_cast<uint32_t>(*mStart.Offset(
RangeBoundary::OffsetFilter::kValidOrInvalidOffsets));
}
uint32_t AbstractRange::MayCrossShadowBoundaryEndOffset() const {
return IsDynamicRange()
? AsDynamicRange()->MayCrossShadowBoundaryEndOffset()
: static_cast<uint32_t>(*mEnd.Offset(
RangeBoundary::OffsetFilter::kValidOrInvalidOffsets));
}
nsINode* AbstractRange::GetParentObject() const { return mOwner; }
JSObject* AbstractRange::WrapObject(JSContext* aCx,
JS::Handle<JSObject*> aGivenProto) {
MOZ_CRASH("Must be overridden");
}
void AbstractRange::ClearForReuse() {
mOwner = nullptr;
mStart = RangeBoundary();
mEnd = RangeBoundary();
mIsPositioned = false;
mIsGenerated = false;
mCalledByJS = false;
}
/*static*/
bool AbstractRange::IsRootUAWidget(const nsINode* aRoot) {
MOZ_ASSERT(aRoot);
if (const ShadowRoot* shadowRoot = ShadowRoot::FromNode(aRoot)) {
return shadowRoot->IsUAWidget();
}
return false;
}
} // namespace mozilla::dom
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