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/* 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
#include "ViewTransition.h"
#include "nsPresContext.h"
#include "mozilla/dom/BindContext.h"
#include "mozilla/dom/DocumentInlines.h"
#include "mozilla/dom/Promise-inl.h"
#include "mozilla/dom/ViewTransitionBinding.h"
#include "mozilla/ServoStyleConsts.h"
#include "mozilla/WritingModes.h"
#include "nsITimer.h"
#include "Units.h"
static inline void ImplCycleCollectionTraverse(
nsCycleCollectionTraversalCallback&, const nsRefPtrHashKey<nsAtom>&,
const char* aName, uint32_t aFlags = 0) {
// Nothing, but needed to compile.
}
namespace mozilla::dom {
// Set capture's old transform to a <transform-function> that would map
// element's border box from the snapshot containing block origin to its
// current visual position.
//
// Since we're using viewport as the snapshot origin, we can use
// GetBoundingClientRect() effectively...
//
// TODO(emilio): This might need revision.
static CSSToCSSMatrix4x4Flagged EffectiveTransform(nsIFrame* aFrame) {
CSSToCSSMatrix4x4Flagged matrix;
if (aFrame->GetSize().IsEmpty() || aFrame->Style()->IsRootElementStyle()) {
return matrix;
}
CSSSize untransformedSize = CSSSize::FromAppUnits(aFrame->GetSize());
CSSRect boundingRect = CSSRect::FromAppUnits(aFrame->GetBoundingClientRect());
if (boundingRect.Size() != untransformedSize) {
float sx = boundingRect.width / untransformedSize.width;
float sy = boundingRect.height / untransformedSize.height;
matrix = CSSToCSSMatrix4x4Flagged::Scaling(sx, sy, 0.0f);
}
if (boundingRect.TopLeft() != CSSPoint()) {
matrix.PostTranslate(boundingRect.x, boundingRect.y, 0.0f);
}
return matrix;
}
struct CapturedElementOldState {
// TODO: mImage
bool mHasImage = false;
// Encompasses width and height.
nsSize mSize;
CSSToCSSMatrix4x4Flagged mTransform;
// Encompasses writing-mode / direction / text-orientation.
WritingMode mWritingMode;
StyleBlend mMixBlendMode = StyleBlend::Normal;
StyleOwnedSlice<StyleFilter> mBackdropFilters;
StyleColorSchemeFlags mColorScheme{0};
CapturedElementOldState(nsIFrame* aFrame,
const nsSize& aSnapshotContainingBlockSize)
: mHasImage(true),
mSize(aFrame->Style()->IsRootElementStyle()
? aSnapshotContainingBlockSize
: aFrame->GetRect().Size()),
mTransform(EffectiveTransform(aFrame)),
mWritingMode(aFrame->GetWritingMode()),
mMixBlendMode(aFrame->StyleEffects()->mMixBlendMode),
mBackdropFilters(aFrame->StyleEffects()->mBackdropFilters),
mColorScheme(aFrame->StyleUI()->mColorScheme.bits) {}
CapturedElementOldState() = default;
};
struct ViewTransition::CapturedElement {
CapturedElementOldState mOldState;
RefPtr<Element> mNewElement;
CapturedElement() = default;
CapturedElement(nsIFrame* aFrame, const nsSize& aSnapshotContainingBlockSize)
: mOldState(aFrame, aSnapshotContainingBlockSize) {}
// TODO: Style definitions as per:
};
static inline void ImplCycleCollectionTraverse(
nsCycleCollectionTraversalCallback& aCb,
const UniquePtr<ViewTransition::CapturedElement>& aField, const char* aName,
uint32_t aFlags = 0) {
ImplCycleCollectionTraverse(aCb, aField->mNewElement, aName, aFlags);
}
NS_IMPL_CYCLE_COLLECTION_WRAPPERCACHE(ViewTransition, mDocument,
mUpdateCallback,
mUpdateCallbackDonePromise, mReadyPromise,
mFinishedPromise, mNamedElements,
mViewTransitionRoot)
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(ViewTransition)
NS_WRAPPERCACHE_INTERFACE_MAP_ENTRY
NS_INTERFACE_MAP_ENTRY(nsISupports)
NS_INTERFACE_MAP_END
NS_IMPL_CYCLE_COLLECTING_ADDREF(ViewTransition)
NS_IMPL_CYCLE_COLLECTING_RELEASE(ViewTransition)
ViewTransition::ViewTransition(Document& aDoc,
ViewTransitionUpdateCallback* aCb)
: mDocument(&aDoc), mUpdateCallback(aCb) {}
ViewTransition::~ViewTransition() { ClearTimeoutTimer(); }
nsIGlobalObject* ViewTransition::GetParentObject() const {
return mDocument ? mDocument->GetParentObject() : nullptr;
}
Promise* ViewTransition::GetUpdateCallbackDone(ErrorResult& aRv) {
if (!mUpdateCallbackDonePromise) {
mUpdateCallbackDonePromise = Promise::Create(GetParentObject(), aRv);
}
return mUpdateCallbackDonePromise;
}
Promise* ViewTransition::GetReady(ErrorResult& aRv) {
if (!mReadyPromise) {
mReadyPromise = Promise::Create(GetParentObject(), aRv);
}
return mReadyPromise;
}
Promise* ViewTransition::GetFinished(ErrorResult& aRv) {
if (!mFinishedPromise) {
mFinishedPromise = Promise::Create(GetParentObject(), aRv);
}
return mFinishedPromise;
}
void ViewTransition::CallUpdateCallbackIgnoringErrors(CallIfDone aCallIfDone) {
if (aCallIfDone == CallIfDone::No && mPhase == Phase::Done) {
return;
}
CallUpdateCallback(IgnoreErrors());
}
void ViewTransition::CallUpdateCallback(ErrorResult& aRv) {
MOZ_ASSERT(mDocument);
// Step 1: Assert: transition's phase is "done", or before
// "update-callback-called".
MOZ_ASSERT(mPhase == Phase::Done ||
UnderlyingValue(mPhase) <
UnderlyingValue(Phase::UpdateCallbackCalled));
// Step 5: If transition's phase is not "done", then set transition's phase
// to "update-callback-called".
//
// NOTE(emilio): This is swapped with the spec because the spec is broken,
if (mPhase != Phase::Done) {
mPhase = Phase::UpdateCallbackCalled;
}
// Step 2: Let callbackPromise be null.
RefPtr<Promise> callbackPromise;
if (!mUpdateCallback) {
// Step 3: If transition's update callback is null, then set callbackPromise
// to a promise resolved with undefined, in transition’s relevant Realm.
callbackPromise =
Promise::CreateResolvedWithUndefined(GetParentObject(), aRv);
} else {
// Step 4: Otherwise set callbackPromise to the result of invoking
// transition’s update callback. MOZ_KnownLive because the callback can only
// go away when we get CCd.
callbackPromise = MOZ_KnownLive(mUpdateCallback)->Call(aRv);
}
if (aRv.Failed()) {
// TODO(emilio): Do we need extra error handling here?
return;
}
MOZ_ASSERT(callbackPromise);
// Step 8: React to callbackPromise with fulfillSteps and rejectSteps.
callbackPromise->AddCallbacksWithCycleCollectedArgs(
[](JSContext*, JS::Handle<JS::Value>, ErrorResult& aRv,
ViewTransition* aVt) {
// Step 6: Let fulfillSteps be to following steps:
if (Promise* ucd = aVt->GetUpdateCallbackDone(aRv)) {
// 6.1: Resolve transition's update callback done promise with
// undefined.
ucd->MaybeResolveWithUndefined();
}
if (aVt->mPhase == Phase::Done) {
// "Skip a transition" step 8. We need to resolve "finished" after
// update-callback-done.
if (Promise* finished = aVt->GetFinished(aRv)) {
finished->MaybeResolveWithUndefined();
}
}
aVt->Activate();
},
[](JSContext*, JS::Handle<JS::Value> aReason, ErrorResult& aRv,
ViewTransition* aVt) {
// Step 7: Let rejectSteps be to following steps:
if (Promise* ucd = aVt->GetUpdateCallbackDone(aRv)) {
// 7.1: Reject transition's update callback done promise with reason.
ucd->MaybeReject(aReason);
}
// 7.2: If transition's phase is "done", then return.
if (aVt->mPhase == Phase::Done) {
// "Skip a transition" step 8. We need to resolve "finished" after
// update-callback-done.
if (Promise* finished = aVt->GetFinished(aRv)) {
finished->MaybeReject(aReason);
}
return;
}
// 7.3: Mark as handled transition's ready promise.
if (Promise* ready = aVt->GetReady(aRv)) {
MOZ_ALWAYS_TRUE(ready->SetAnyPromiseIsHandled());
}
aVt->SkipTransition(SkipTransitionReason::UpdateCallbackRejected,
aReason);
},
RefPtr(this));
// Step 9: To skip a transition after a timeout, the user agent may perform
// the following steps in parallel:
MOZ_ASSERT(!mTimeoutTimer);
ClearTimeoutTimer(); // Be safe just in case.
mTimeoutTimer = NS_NewTimer();
mTimeoutTimer->InitWithNamedFuncCallback(
TimeoutCallback, this, StaticPrefs::dom_viewTransitions_timeout_ms(),
nsITimer::TYPE_ONE_SHOT, "ViewTransition::TimeoutCallback");
}
void ViewTransition::ClearTimeoutTimer() {
if (mTimeoutTimer) {
mTimeoutTimer->Cancel();
mTimeoutTimer = nullptr;
}
}
void ViewTransition::TimeoutCallback(nsITimer* aTimer, void* aClosure) {
RefPtr vt = static_cast<ViewTransition*>(aClosure);
MOZ_DIAGNOSTIC_ASSERT(aTimer == vt->mTimeoutTimer);
vt->Timeout();
}
void ViewTransition::Timeout() {
ClearTimeoutTimer();
if (mPhase != Phase::Done && mDocument) {
SkipTransition(SkipTransitionReason::Timeout);
}
}
static already_AddRefed<Element> MakePseudo(Document& aDoc,
PseudoStyleType aType,
nsAtom* aName) {
RefPtr<Element> el = aDoc.CreateHTMLElement(nsGkAtoms::div);
if (!aName) {
MOZ_ASSERT(aType == PseudoStyleType::viewTransition);
el->SetIsNativeAnonymousRoot();
}
el->SetPseudoElementType(aType);
if (aName) {
el->SetAttr(nsGkAtoms::name, nsDependentAtomString(aName), IgnoreErrors());
}
// This is not needed, but useful for debugging.
el->SetAttr(nsGkAtoms::type,
nsDependentAtomString(nsCSSPseudoElements::GetPseudoAtom(aType)),
IgnoreErrors());
return el.forget();
}
void ViewTransition::SetupTransitionPseudoElements() {
MOZ_ASSERT(!mViewTransitionRoot);
nsAutoScriptBlocker scriptBlocker;
RefPtr docElement = mDocument->GetRootElement();
if (!docElement) {
return;
}
// Step 1 is a declaration.
// Step 2: Set document's show view transition tree to true.
// (we lazily create this pseudo-element so we don't need the flag for now at
// least).
mViewTransitionRoot =
MakePseudo(*mDocument, PseudoStyleType::viewTransition, nullptr);
#ifdef DEBUG
// View transition pseudos don't care about frame tree ordering, so can be
// restyled just fine.
mViewTransitionRoot->SetProperty(nsGkAtoms::restylableAnonymousNode,
reinterpret_cast<void*>(true));
#endif
// Step 3: For each transitionName -> capturedElement of transition’s named
// elements:
for (auto& entry : mNamedElements) {
// We don't need to notify while constructing the tree.
constexpr bool kNotify = false;
nsAtom* transitionName = entry.GetKey();
const CapturedElement& capturedElement = *entry.GetData();
// Let group be a new ::view-transition-group(), with its view transition
// name set to transitionName.
RefPtr<Element> group = MakePseudo(
*mDocument, PseudoStyleType::viewTransitionGroup, transitionName);
// Append group to transition’s transition root pseudo-element.
mViewTransitionRoot->AppendChildTo(group, kNotify, IgnoreErrors());
// Let imagePair be a new ::view-transition-image-pair(), with its view
// transition name set to transitionName.
RefPtr<Element> imagePair = MakePseudo(
*mDocument, PseudoStyleType::viewTransitionImagePair, transitionName);
// Append imagePair to group.
group->AppendChildTo(imagePair, kNotify, IgnoreErrors());
// If capturedElement's old image is not null, then:
if (capturedElement.mOldState.mHasImage) {
// Let old be a new ::view-transition-old(), with its view transition
// name set to transitionName, displaying capturedElement's old image as
// its replaced content.
RefPtr<Element> old = MakePseudo(
*mDocument, PseudoStyleType::viewTransitionOld, transitionName);
// Append old to imagePair.
imagePair->AppendChildTo(old, kNotify, IgnoreErrors());
}
// If capturedElement's new element is not null, then:
if (capturedElement.mNewElement) {
// Let new be a new ::view-transition-new(), with its view transition
// name set to transitionName.
RefPtr<Element> new_ = MakePseudo(
*mDocument, PseudoStyleType::viewTransitionNew, transitionName);
// Append new to imagePair.
imagePair->AppendChildTo(new_, kNotify, IgnoreErrors());
}
// TODO(emilio): Dynamic UA sheet shenanigans. Seems we could have a custom
// element class with a transition-specific
}
BindContext context(*docElement, BindContext::ForNativeAnonymous);
if (NS_FAILED(mViewTransitionRoot->BindToTree(context, *docElement))) {
mViewTransitionRoot->UnbindFromTree();
mViewTransitionRoot = nullptr;
return;
}
if (PresShell* ps = mDocument->GetPresShell()) {
ps->ContentAppended(mViewTransitionRoot);
}
}
void ViewTransition::Activate() {
// Step 1: If transition's phase is "done", then return.
if (mPhase == Phase::Done) {
return;
}
// TODO(emilio): Step 2: Set rendering suppression for view transitions to
// false.
// Step 3: If transition's initial snapshot containing block size is not
// equal to the snapshot containing block size, then skip the view transition
// for transition, and return.
if (mInitialSnapshotContainingBlockSize !=
SnapshotContainingBlockRect().Size()) {
return SkipTransition(SkipTransitionReason::Resize);
}
// Step 4: Capture the new state for transition.
if (auto skipReason = CaptureNewState()) {
// If failure is returned, then skip the view transition for transition...
return SkipTransition(*skipReason);
}
// TODO(emilio): Step 5.
// Step 6: Setup transition pseudo-elements for transition.
SetupTransitionPseudoElements();
// TODO(emilio): Step 7.
// Step 8: Set transition's phase to "animating".
mPhase = Phase::Animating;
// Step 9: Resolve transition's ready promise.
if (Promise* ready = GetReady(IgnoreErrors())) {
ready->MaybeResolveWithUndefined();
}
}
void ViewTransition::PerformPendingOperations() {
MOZ_ASSERT(mDocument);
MOZ_ASSERT(mDocument->GetActiveViewTransition() == this);
switch (mPhase) {
case Phase::PendingCapture:
return Setup();
case Phase::Animating:
return HandleFrame();
default:
break;
}
}
nsRect ViewTransition::SnapshotContainingBlockRect() const {
nsPresContext* pc = mDocument->GetPresContext();
// TODO(emilio): Ensure this is correct with Android's dynamic toolbar and
// scrollbars.
return pc ? pc->GetVisibleArea() : nsRect();
}
// FIXME(emilio): This should actually iterate in paint order.
template <typename Callback>
static bool ForEachChildFrame(nsIFrame* aFrame, const Callback& aCb) {
if (!aCb(aFrame)) {
return false;
}
for (auto& [list, id] : aFrame->ChildLists()) {
for (nsIFrame* f : list) {
if (!ForEachChildFrame(f, aCb)) {
return false;
}
}
}
return true;
}
template <typename Callback>
static void ForEachFrame(Document* aDoc, const Callback& aCb) {
PresShell* ps = aDoc->GetPresShell();
if (!ps) {
return;
}
nsIFrame* root = ps->GetRootFrame();
if (!root) {
return;
}
ForEachChildFrame(root, aCb);
}
static nsAtom* DocumentScopedTransitionNameFor(nsIFrame* aFrame) {
auto* name = aFrame->StyleUIReset()->mViewTransitionName._0.AsAtom();
if (name->IsEmpty()) {
return nullptr;
}
// TODO(emilio): This isn't quite correct, per spec we're supposed to only
// honor names coming from the document, but that's quite some magic,
// and it's getting actively discussed, see:
return name;
}
Maybe<SkipTransitionReason> ViewTransition::CaptureOldState() {
MOZ_ASSERT(mNamedElements.IsEmpty());
// Steps 1/2 are variable declarations.
// Step 3: Let usedTransitionNames be a new set of strings.
nsTHashSet<nsAtom*> usedTransitionNames;
// Step 4: Let captureElements be a new list of elements.
AutoTArray<std::pair<nsIFrame*, nsAtom*>, 32> captureElements;
// Step 5: If the snapshot containing block size exceeds an
// implementation-defined maximum, then return failure.
// TODO(emilio): Implement a maximum if we deem it needed.
//
// Step 6: Set transition's initial snapshot containing block size to the
// snapshot containing block size.
mInitialSnapshotContainingBlockSize = SnapshotContainingBlockRect().Size();
// Step 7: For each element of every element that is connected, and has a node
// document equal to document, in paint order:
Maybe<SkipTransitionReason> result;
ForEachFrame(mDocument, [&](nsIFrame* aFrame) {
auto* name = DocumentScopedTransitionNameFor(aFrame);
if (!name) {
// As a fast path we check for v-t-n first.
// If transitionName is none, or element is not rendered, then continue.
return true;
}
if (aFrame->IsHiddenByContentVisibilityOnAnyAncestor()) {
// If any flat tree ancestor of this element skips its contents, then
// continue.
return true;
}
if (aFrame->GetPrevContinuation() || aFrame->GetNextContinuation()) {
// If element has more than one box fragment, then continue.
return true;
}
if (!usedTransitionNames.EnsureInserted(name)) {
// If usedTransitionNames contains transitionName, then return failure.
result.emplace(
SkipTransitionReason::DuplicateTransitionNameCapturingOldState);
return false;
}
// TODO: Set element's captured in a view transition to true.
captureElements.AppendElement(std::make_pair(aFrame, name));
return true;
});
if (result) {
return result;
}
// Step 8: For each element in captureElements:
for (auto& [f, name] : captureElements) {
MOZ_ASSERT(f);
MOZ_ASSERT(f->GetContent()->IsElement());
auto capture =
MakeUnique<CapturedElement>(f, mInitialSnapshotContainingBlockSize);
mNamedElements.InsertOrUpdate(name, std::move(capture));
}
// TODO step 9: For each element in captureElements, set element's captured
// in a view transition to false.
return result;
}
Maybe<SkipTransitionReason> ViewTransition::CaptureNewState() {
nsTHashSet<nsAtom*> usedTransitionNames;
Maybe<SkipTransitionReason> result;
ForEachFrame(mDocument, [&](nsIFrame* aFrame) {
// As a fast path we check for v-t-n first.
auto* name = DocumentScopedTransitionNameFor(aFrame);
if (!name) {
return true;
}
if (aFrame->IsHiddenByContentVisibilityOnAnyAncestor()) {
// If any flat tree ancestor of this element skips its contents, then
// continue.
return true;
}
if (aFrame->GetPrevContinuation() || aFrame->GetNextContinuation()) {
// If element has more than one box fragment, then continue.
return true;
}
if (!usedTransitionNames.EnsureInserted(name)) {
result.emplace(
SkipTransitionReason::DuplicateTransitionNameCapturingNewState);
return false;
}
auto& capturedElement = mNamedElements.LookupOrInsertWith(
name, [&] { return MakeUnique<CapturedElement>(); });
capturedElement->mNewElement = aFrame->GetContent()->AsElement();
return true;
});
return result;
}
void ViewTransition::Setup() {
// Step 2: Capture the old state for transition.
if (auto skipReason = CaptureOldState()) {
// If failure is returned, then skip the view transition for transition
// with an "InvalidStateError" DOMException in transition’s relevant Realm,
// and return.
return SkipTransition(*skipReason);
}
// TODO Step 3: Set document's rendering suppression for view transitions to
// true.
// Step 4: Queue a global task on the DOM manipulation task source, given
// transition's relevant global object, to perform the following steps:
// 4.1: If transition's phase is "done", then abort these steps. That is
// achieved via CallIfDone::No.
// 4.2: call the update callback.
mDocument->Dispatch(NewRunnableMethod<CallIfDone>(
"ViewTransition::CallUpdateCallbackFromSetup", this,
&ViewTransition::CallUpdateCallbackIgnoringErrors, CallIfDone::No));
}
void ViewTransition::HandleFrame() {
// TODO(emilio): Steps 1-3: Compute active animations.
bool hasActiveAnimations = false;
// Step 4: If hasActiveAnimations is false:
if (!hasActiveAnimations) {
// 4.1: Set transition's phase to "done".
mPhase = Phase::Done;
// 4.2: Clear view transition transition.
ClearActiveTransition();
// 4.3: Resolve transition's finished promise.
if (Promise* finished = GetFinished(IgnoreErrors())) {
finished->MaybeResolveWithUndefined();
}
return;
}
// TODO(emilio): Steps 5-6 (check CB size, update pseudo styles).
}
void ViewTransition::ClearNamedElements() {
// TODO(emilio): TODO: Set element's captured in a view transition to false.
mNamedElements.Clear();
}
void ViewTransition::ClearActiveTransition() {
// Steps 1-2
MOZ_ASSERT(mDocument);
MOZ_ASSERT(mDocument->GetActiveViewTransition() == this);
// Step 3
ClearNamedElements();
// Step 4: Clear show transition tree flag (we just destroy the pseudo tree,
// see SetupTransitionPseudoElements).
if (mViewTransitionRoot) {
nsAutoScriptBlocker scriptBlocker;
if (PresShell* ps = mDocument->GetPresShell()) {
ps->ContentWillBeRemoved(mViewTransitionRoot);
}
mViewTransitionRoot->UnbindFromTree();
mViewTransitionRoot = nullptr;
}
mDocument->ClearActiveViewTransition();
}
void ViewTransition::SkipTransition(SkipTransitionReason aReason) {
SkipTransition(aReason, JS::UndefinedHandleValue);
}
void ViewTransition::SkipTransition(
SkipTransitionReason aReason,
JS::Handle<JS::Value> aUpdateCallbackRejectReason) {
MOZ_ASSERT(mDocument);
MOZ_ASSERT_IF(aReason != SkipTransitionReason::JS, mPhase != Phase::Done);
MOZ_ASSERT_IF(aReason != SkipTransitionReason::UpdateCallbackRejected,
aUpdateCallbackRejectReason == JS::UndefinedHandleValue);
if (mPhase == Phase::Done) {
return;
}
// Step 3: If transition's phase is before "update-callback-called", then
// queue a global task on the DOM manipulation task source, given
// transition’s relevant global object, to call the update callback of
// transition.
if (UnderlyingValue(mPhase) < UnderlyingValue(Phase::UpdateCallbackCalled)) {
mDocument->Dispatch(NewRunnableMethod<CallIfDone>(
"ViewTransition::CallUpdateCallbackFromSkip", this,
&ViewTransition::CallUpdateCallbackIgnoringErrors, CallIfDone::Yes));
}
// Step 4: Set rendering suppression for view transitions to false.
// TODO(emilio): We don't have that flag yet.
// Step 5: If document's active view transition is transition, Clear view
// transition transition.
if (mDocument->GetActiveViewTransition() == this) {
ClearActiveTransition();
}
// Step 6: Set transition's phase to "done".
mPhase = Phase::Done;
// Step 7: Reject transition's ready promise with reason.
if (Promise* readyPromise = GetReady(IgnoreErrors())) {
switch (aReason) {
case SkipTransitionReason::JS:
readyPromise->MaybeRejectWithAbortError(
"Skipped ViewTransition due to skipTransition() call");
break;
case SkipTransitionReason::ClobberedActiveTransition:
readyPromise->MaybeRejectWithAbortError(
"Skipped ViewTransition due to another transition starting");
break;
case SkipTransitionReason::DocumentHidden:
readyPromise->MaybeRejectWithAbortError(
"Skipped ViewTransition due to document being hidden");
break;
case SkipTransitionReason::Timeout:
readyPromise->MaybeRejectWithAbortError(
"Skipped ViewTransition due to timeout");
break;
case SkipTransitionReason::DuplicateTransitionNameCapturingOldState:
readyPromise->MaybeRejectWithInvalidStateError(
"Duplicate view-transition-name value while capturing old state");
break;
case SkipTransitionReason::DuplicateTransitionNameCapturingNewState:
readyPromise->MaybeRejectWithInvalidStateError(
"Duplicate view-transition-name value while capturing new state");
break;
case SkipTransitionReason::Resize:
readyPromise->MaybeRejectWithInvalidStateError(
"Skipped view transition due to viewport resize");
break;
case SkipTransitionReason::UpdateCallbackRejected:
readyPromise->MaybeReject(aUpdateCallbackRejectReason);
break;
}
}
// Step 8: Resolve transition's finished promise with the result of reacting
// to transition's update callback done promise.
//
// This is done in CallUpdateCallback()
}
JSObject* ViewTransition::WrapObject(JSContext* aCx,
JS::Handle<JSObject*> aGivenProto) {
return ViewTransition_Binding::Wrap(aCx, this, aGivenProto);
}
}; // namespace mozilla::dom