void
Animation::PostUpdate()
{
if (!mEffect) {
return;
}
KeyframeEffectReadOnly* keyframeEffect = mEffect->AsKeyframeEffect();
if (!keyframeEffect) {
return;
}
Maybe<NonOwningAnimationTarget> target = keyframeEffect->GetTarget();
if (!target) {
return;
}
nsPresContext* presContext = keyframeEffect->GetPresContext();
if (!presContext) {
return;
}
presContext->EffectCompositor()
->RequestRestyle(target->mElement,
target->mPseudoType,
EffectCompositor::RestyleType::Layer,
CascadeLevel());
}
// A helper function for IsScaleSubjectToAnimation which returns true if the
// given AnimationCollection contains a current effect that animates scale.
static bool
ContainsAnimatedScale(AnimationCollection* aCollection, nsIFrame* aFrame)
{
if (!aCollection) {
return false;
}
for (dom::Animation* anim : aCollection->mAnimations) {
if (!anim->HasCurrentEffect()) {
continue;
}
KeyframeEffectReadOnly* effect = anim->GetEffect();
for (const AnimationProperty& prop : effect->Properties()) {
if (prop.mProperty != eCSSProperty_transform) {
continue;
}
for (AnimationPropertySegment segment : prop.mSegments) {
gfxSize from = segment.mFromValue.GetScaleValue(aFrame);
if (from != gfxSize(1.0f, 1.0f)) {
return true;
}
gfxSize to = segment.mToValue.GetScaleValue(aFrame);
if (to != gfxSize(1.0f, 1.0f)) {
return true;
}
}
}
}
return false;
}
void
Animation::UpdateEffect()
{
if (mEffect) {
UpdateRelevance();
KeyframeEffectReadOnly* keyframeEffect = mEffect->AsKeyframeEffect();
if (keyframeEffect) {
keyframeEffect->NotifyAnimationTimingUpdated();
}
}
}
static void
UpdateOldAnimationPropertiesWithNew(
CSSAnimation& aOld,
TimingParams& aNewTiming,
nsTArray<Keyframe>& aNewKeyframes,
bool aNewIsStylePaused,
nsStyleContext* aStyleContext)
{
bool animationChanged = false;
// Update the old from the new so we can keep the original object
// identity (and any expando properties attached to it).
if (aOld.GetEffect()) {
AnimationEffectReadOnly* oldEffect = aOld.GetEffect();
animationChanged = oldEffect->SpecifiedTiming() != aNewTiming;
oldEffect->SetSpecifiedTiming(aNewTiming);
KeyframeEffectReadOnly* oldKeyframeEffect = oldEffect->AsKeyframeEffect();
if (oldKeyframeEffect) {
oldKeyframeEffect->SetKeyframes(Move(aNewKeyframes), aStyleContext);
}
}
// Handle changes in play state. If the animation is idle, however,
// changes to animation-play-state should *not* restart it.
if (aOld.PlayState() != AnimationPlayState::Idle) {
// CSSAnimation takes care of override behavior so that,
// for example, if the author has called pause(), that will
// override the animation-play-state.
// (We should check aNew->IsStylePaused() but that requires
// downcasting to CSSAnimation and we happen to know that
// aNew will only ever be paused by calling PauseFromStyle
// making IsPausedOrPausing synonymous in this case.)
if (!aOld.IsStylePaused() && aNewIsStylePaused) {
aOld.PauseFromStyle();
animationChanged = true;
} else if (aOld.IsStylePaused() && !aNewIsStylePaused) {
aOld.PlayFromStyle();
animationChanged = true;
}
}
// Updating the effect timing above might already have caused the
// animation to become irrelevant so only add a changed record if
// the animation is still relevant.
if (animationChanged && aOld.IsRelevant()) {
nsNodeUtils::AnimationChanged(&aOld);
}
}
/* static */ already_AddRefed<KeyframeEffectType>
KeyframeEffectReadOnly::ConstructKeyframeEffect(const GlobalObject& aGlobal,
KeyframeEffectReadOnly& aSource,
ErrorResult& aRv)
{
nsIDocument* doc = AnimationUtils::GetCurrentRealmDocument(aGlobal.Context());
if (!doc) {
aRv.Throw(NS_ERROR_FAILURE);
return nullptr;
}
// Create a new KeyframeEffectReadOnly object with aSource's target,
// iteration composite operation, composite operation, and spacing mode.
// The constructor creates a new AnimationEffect(ReadOnly) object by
// aSource's TimingParams.
// Note: we don't need to re-throw exceptions since the value specified on
// aSource's timing object can be assumed valid.
RefPtr<KeyframeEffectType> effect =
new KeyframeEffectType(doc,
aSource.mTarget,
aSource.SpecifiedTiming(),
aSource.mEffectOptions);
// Copy cumulative change hint. mCumulativeChangeHint should be the same as
// the source one because both of targets are the same.
effect->mCumulativeChangeHint = aSource.mCumulativeChangeHint;
// Copy aSource's keyframes and animation properties.
// Note: We don't call SetKeyframes directly, which might revise the
// computed offsets and rebuild the animation properties.
// FIXME: Bug 1314537: We have to make sure SharedKeyframeList is handled
// properly.
effect->mKeyframes = aSource.mKeyframes;
effect->mProperties = aSource.mProperties;
return effect.forget();
}
void
nsAnimationManager::CopyIsRunningOnCompositor(
KeyframeEffectReadOnly& aSourceEffect,
KeyframeEffectReadOnly& aDestEffect)
{
nsCSSPropertySet sourceProperties;
for (AnimationProperty& property : aSourceEffect.Properties()) {
if (property.mIsRunningOnCompositor) {
sourceProperties.AddProperty(property.mProperty);
}
}
for (AnimationProperty& property : aDestEffect.Properties()) {
if (sourceProperties.HasProperty(property.mProperty)) {
property.mIsRunningOnCompositor = true;
}
}
}
bool AnimationStack::getAnimatedBoundingBox(FloatBox& box,
CSSPropertyID property) const {
FloatBox originalBox(box);
for (const auto& sampledEffect : m_sampledEffects) {
if (sampledEffect->effect() &&
sampledEffect->effect()->affects(PropertyHandle(property))) {
KeyframeEffectReadOnly* effect = sampledEffect->effect();
const Timing& timing = effect->specifiedTiming();
double startRange = 0;
double endRange = 1;
timing.timingFunction->range(&startRange, &endRange);
FloatBox expandingBox(originalBox);
if (!CompositorAnimations::getAnimatedBoundingBox(
expandingBox, *effect->model(), startRange, endRange))
return false;
box.expandTo(expandingBox);
}
}
return true;
}
static inline Element*
GetTarget(Animation* aAnimation)
{
KeyframeEffectReadOnly* effect = aAnimation->GetEffect();
if (!effect) {
return nullptr;
}
Element* target;
nsCSSPseudoElements::Type pseudoType;
effect->GetTarget(target, pseudoType);
// If the animation targets a pseudo-element, we don't dispatch
// notifications for it. (In the future we will have PseudoElement
// objects we can use as the target of the notifications.)
if (pseudoType != nsCSSPseudoElements::ePseudo_NotPseudoElement) {
return nullptr;
}
return effect->GetTarget();
}
void
Animation::Tick()
{
// Finish pending if we have a pending ready time, but only if we also
// have an active timeline.
if (mPendingState != PendingState::NotPending &&
!mPendingReadyTime.IsNull() &&
mTimeline &&
!mTimeline->GetCurrentTime().IsNull()) {
// Even though mPendingReadyTime is initialized using TimeStamp::Now()
// during the *previous* tick of the refresh driver, it can still be
// ahead of the *current* timeline time when we are using the
// vsync timer so we need to clamp it to the timeline time.
mPendingReadyTime.SetValue(std::min(mTimeline->GetCurrentTime().Value(),
mPendingReadyTime.Value()));
FinishPendingAt(mPendingReadyTime.Value());
mPendingReadyTime.SetNull();
}
if (IsPossiblyOrphanedPendingAnimation()) {
MOZ_ASSERT(mTimeline && !mTimeline->GetCurrentTime().IsNull(),
"Orphaned pending animations should have an active timeline");
FinishPendingAt(mTimeline->GetCurrentTime().Value());
}
UpdateTiming(SeekFlag::NoSeek, SyncNotifyFlag::Async);
if (!mEffect) {
return;
}
// Update layers if we are newly finished.
KeyframeEffectReadOnly* keyframeEffect = mEffect->AsKeyframeEffect();
if (keyframeEffect &&
!keyframeEffect->Properties().IsEmpty() &&
!mFinishedAtLastComposeStyle &&
PlayState() == AnimationPlayState::Finished) {
PostUpdate();
}
}
/* static */ void
nsAnimationManager::UpdateCascadeResults(
nsStyleContext* aStyleContext,
AnimationCollection* aElementAnimations)
{
/*
* Figure out which properties we need to examine.
*/
// size of 2 since we only currently have 2 properties we animate on
// the compositor
nsAutoTArray<nsCSSProperty, 2> propertiesToTrack;
{
nsCSSPropertySet propertiesToTrackAsSet;
for (size_t animIdx = aElementAnimations->mAnimations.Length();
animIdx-- != 0; ) {
const Animation* anim = aElementAnimations->mAnimations[animIdx];
const KeyframeEffectReadOnly* effect = anim->GetEffect();
if (!effect) {
continue;
}
for (size_t propIdx = 0, propEnd = effect->Properties().Length();
propIdx != propEnd; ++propIdx) {
const AnimationProperty& prop = effect->Properties()[propIdx];
// We only bother setting mWinsInCascade for properties that we
// can animate on the compositor.
if (nsCSSProps::PropHasFlags(prop.mProperty,
CSS_PROPERTY_CAN_ANIMATE_ON_COMPOSITOR)) {
if (!propertiesToTrackAsSet.HasProperty(prop.mProperty)) {
propertiesToTrack.AppendElement(prop.mProperty);
propertiesToTrackAsSet.AddProperty(prop.mProperty);
}
}
}
}
}
/*
* Determine whether those properties are set in things that
* override animations.
*/
nsCSSPropertySet propertiesOverridden;
nsRuleNode::ComputePropertiesOverridingAnimation(propertiesToTrack,
aStyleContext,
propertiesOverridden);
/*
* Set mWinsInCascade based both on what is overridden at levels
* higher than animations and based on one animation overriding
* another.
*
* We iterate from the last animation to the first, just like we do
* when calling ComposeStyle from AnimationCollection::EnsureStyleRuleFor.
* Later animations override earlier ones, so we add properties to the set
* of overridden properties as we encounter them, if the animation is
* currently in effect.
*/
bool changed = false;
for (size_t animIdx = aElementAnimations->mAnimations.Length();
animIdx-- != 0; ) {
CSSAnimation* anim =
aElementAnimations->mAnimations[animIdx]->AsCSSAnimation();
KeyframeEffectReadOnly* effect = anim->GetEffect();
anim->mInEffectForCascadeResults = anim->IsInEffect();
if (!effect) {
continue;
}
for (size_t propIdx = 0, propEnd = effect->Properties().Length();
propIdx != propEnd; ++propIdx) {
AnimationProperty& prop = effect->Properties()[propIdx];
// We only bother setting mWinsInCascade for properties that we
// can animate on the compositor.
if (nsCSSProps::PropHasFlags(prop.mProperty,
CSS_PROPERTY_CAN_ANIMATE_ON_COMPOSITOR)) {
bool newWinsInCascade =
!propertiesOverridden.HasProperty(prop.mProperty);
if (newWinsInCascade != prop.mWinsInCascade) {
changed = true;
}
prop.mWinsInCascade = newWinsInCascade;
if (prop.mWinsInCascade && anim->mInEffectForCascadeResults) {
// This animation is in effect right now, so it overrides
// earlier animations. (For animations that aren't in effect,
// we set mWinsInCascade as though they were, but they don't
// suppress animations lower in the cascade.)
propertiesOverridden.AddProperty(prop.mProperty);
}
}
}
}
if (changed) {
nsPresContext* presContext = aElementAnimations->mManager->PresContext();
presContext->RestyleManager()->IncrementAnimationGeneration();
aElementAnimations->UpdateAnimationGeneration(presContext);
aElementAnimations->PostUpdateLayerAnimations();
// Invalidate our style rule.
aElementAnimations->mNeedsRefreshes = true;
aElementAnimations->mStyleRuleRefreshTime = TimeStamp();
}
}
nsIStyleRule*
nsAnimationManager::CheckAnimationRule(nsStyleContext* aStyleContext,
mozilla::dom::Element* aElement)
{
if (!mPresContext->IsDynamic()) {
// For print or print preview, ignore animations.
return nullptr;
}
// Everything that causes our animation data to change triggers a
// style change, which in turn triggers a non-animation restyle.
// Likewise, when we initially construct frames, we're not in a
// style change, but also not in an animation restyle.
const nsStyleDisplay* disp = aStyleContext->StyleDisplay();
AnimationCollection* collection =
GetAnimations(aElement, aStyleContext->GetPseudoType(), false);
if (!collection &&
disp->mAnimationNameCount == 1 &&
disp->mAnimations[0].GetName().IsEmpty()) {
return nullptr;
}
nsAutoAnimationMutationBatch mb(aElement);
// build the animations list
dom::DocumentTimeline* timeline = aElement->OwnerDoc()->Timeline();
AnimationPtrArray newAnimations;
if (!aStyleContext->IsInDisplayNoneSubtree()) {
BuildAnimations(aStyleContext, aElement, timeline, newAnimations);
}
if (newAnimations.IsEmpty()) {
if (collection) {
// There might be transitions that run now that animations don't
// override them.
mPresContext->TransitionManager()->
UpdateCascadeResultsWithAnimationsToBeDestroyed(collection);
collection->Destroy();
}
return nullptr;
}
if (collection) {
collection->mStyleRule = nullptr;
collection->mStyleRuleRefreshTime = TimeStamp();
collection->UpdateAnimationGeneration(mPresContext);
// Copy over the start times and (if still paused) pause starts
// for each animation (matching on name only) that was also in the
// old list of animations.
// This means that we honor dynamic changes, which isn't what the
// spec says to do, but WebKit seems to honor at least some of
// them. See
// http://lists.w3.org/Archives/Public/www-style/2011Apr/0079.html
// In order to honor what the spec said, we'd copy more data over
// (or potentially optimize BuildAnimations to avoid rebuilding it
// in the first place).
if (!collection->mAnimations.IsEmpty()) {
for (size_t newIdx = newAnimations.Length(); newIdx-- != 0;) {
Animation* newAnim = newAnimations[newIdx];
// Find the matching animation with this name in the old list
// of animations. We iterate through both lists in a backwards
// direction which means that if there are more animations in
// the new list of animations with a given name than in the old
// list, it will be the animations towards the of the beginning of
// the list that do not match and are treated as new animations.
nsRefPtr<CSSAnimation> oldAnim;
size_t oldIdx = collection->mAnimations.Length();
while (oldIdx-- != 0) {
CSSAnimation* a = collection->mAnimations[oldIdx]->AsCSSAnimation();
MOZ_ASSERT(a, "All animations in the CSS Animation collection should"
" be CSSAnimation objects");
if (a->Name() == newAnim->Name()) {
oldAnim = a;
break;
}
}
if (!oldAnim) {
continue;
}
bool animationChanged = false;
// Update the old from the new so we can keep the original object
// identity (and any expando properties attached to it).
if (oldAnim->GetEffect() && newAnim->GetEffect()) {
KeyframeEffectReadOnly* oldEffect = oldAnim->GetEffect();
KeyframeEffectReadOnly* newEffect = newAnim->GetEffect();
animationChanged =
oldEffect->Timing() != newEffect->Timing() ||
oldEffect->Properties() != newEffect->Properties();
oldEffect->Timing() = newEffect->Timing();
oldEffect->Properties() = newEffect->Properties();
}
// Reset compositor state so animation will be re-synchronized.
oldAnim->ClearIsRunningOnCompositor();
// Handle changes in play state. If the animation is idle, however,
// changes to animation-play-state should *not* restart it.
if (oldAnim->PlayState() != AnimationPlayState::Idle) {
// CSSAnimation takes care of override behavior so that,
// for example, if the author has called pause(), that will
// override the animation-play-state.
// (We should check newAnim->IsStylePaused() but that requires
// downcasting to CSSAnimation and we happen to know that
// newAnim will only ever be paused by calling PauseFromStyle
// making IsPausedOrPausing synonymous in this case.)
if (!oldAnim->IsStylePaused() && newAnim->IsPausedOrPausing()) {
oldAnim->PauseFromStyle();
animationChanged = true;
} else if (oldAnim->IsStylePaused() &&
!newAnim->IsPausedOrPausing()) {
oldAnim->PlayFromStyle();
animationChanged = true;
}
}
if (animationChanged) {
nsNodeUtils::AnimationChanged(oldAnim);
}
// Replace new animation with the (updated) old one and remove the
// old one from the array so we don't try to match it any more.
//
// Although we're doing this while iterating this is safe because
// we're not changing the length of newAnimations and we've finished
// iterating over the list of old iterations.
newAnim->CancelFromStyle();
newAnim = nullptr;
newAnimations.ReplaceElementAt(newIdx, oldAnim);
collection->mAnimations.RemoveElementAt(oldIdx);
// We've touched the old animation's timing properties, so this
// could update the old animation's relevance.
oldAnim->UpdateRelevance();
}
}
} else {
collection =
GetAnimations(aElement, aStyleContext->GetPseudoType(), true);
}
collection->mAnimations.SwapElements(newAnimations);
collection->mNeedsRefreshes = true;
collection->Tick();
// Cancel removed animations
for (size_t newAnimIdx = newAnimations.Length(); newAnimIdx-- != 0; ) {
newAnimations[newAnimIdx]->CancelFromStyle();
}
UpdateCascadeResults(aStyleContext, collection);
TimeStamp refreshTime = mPresContext->RefreshDriver()->MostRecentRefresh();
UpdateStyleAndEvents(collection, refreshTime,
EnsureStyleRule_IsNotThrottled);
// We don't actually dispatch the mPendingEvents now. We'll either
// dispatch them the next time we get a refresh driver notification
// or the next time somebody calls
// nsPresShell::FlushPendingNotifications.
if (!mPendingEvents.IsEmpty()) {
mPresContext->Document()->SetNeedStyleFlush();
}
return GetAnimationRule(aElement, aStyleContext->GetPseudoType());
}
nsIStyleRule*
nsAnimationManager::CheckAnimationRule(nsStyleContext* aStyleContext,
mozilla::dom::Element* aElement)
{
// Ignore animations for print or print preview, and for elements
// that are not attached to the document tree.
if (!mPresContext->IsDynamic() || !aElement->IsInComposedDoc()) {
return nullptr;
}
// Everything that causes our animation data to change triggers a
// style change, which in turn triggers a non-animation restyle.
// Likewise, when we initially construct frames, we're not in a
// style change, but also not in an animation restyle.
const nsStyleDisplay* disp = aStyleContext->StyleDisplay();
AnimationCollection* collection =
GetAnimationCollection(aElement,
aStyleContext->GetPseudoType(),
false /* aCreateIfNeeded */);
if (!collection &&
disp->mAnimationNameCount == 1 &&
disp->mAnimations[0].GetName().IsEmpty()) {
return nullptr;
}
nsAutoAnimationMutationBatch mb(aElement->OwnerDoc());
// build the animations list
dom::DocumentTimeline* timeline = aElement->OwnerDoc()->Timeline();
AnimationPtrArray newAnimations;
if (!aStyleContext->IsInDisplayNoneSubtree()) {
BuildAnimations(aStyleContext, aElement, timeline, newAnimations);
}
if (newAnimations.IsEmpty()) {
if (collection) {
collection->Destroy();
}
return nullptr;
}
if (collection) {
collection->mStyleRuleRefreshTime = TimeStamp();
EffectSet* effectSet =
EffectSet::GetEffectSet(aElement, aStyleContext->GetPseudoType());
if (effectSet) {
effectSet->UpdateAnimationGeneration(mPresContext);
}
// Copy over the start times and (if still paused) pause starts
// for each animation (matching on name only) that was also in the
// old list of animations.
// This means that we honor dynamic changes, which isn't what the
// spec says to do, but WebKit seems to honor at least some of
// them. See
// http://lists.w3.org/Archives/Public/www-style/2011Apr/0079.html
// In order to honor what the spec said, we'd copy more data over
// (or potentially optimize BuildAnimations to avoid rebuilding it
// in the first place).
if (!collection->mAnimations.IsEmpty()) {
for (size_t newIdx = newAnimations.Length(); newIdx-- != 0;) {
Animation* newAnim = newAnimations[newIdx];
// Find the matching animation with this name in the old list
// of animations. We iterate through both lists in a backwards
// direction which means that if there are more animations in
// the new list of animations with a given name than in the old
// list, it will be the animations towards the of the beginning of
// the list that do not match and are treated as new animations.
RefPtr<CSSAnimation> oldAnim;
size_t oldIdx = collection->mAnimations.Length();
while (oldIdx-- != 0) {
CSSAnimation* a = collection->mAnimations[oldIdx]->AsCSSAnimation();
MOZ_ASSERT(a, "All animations in the CSS Animation collection should"
" be CSSAnimation objects");
if (a->AnimationName() ==
newAnim->AsCSSAnimation()->AnimationName()) {
oldAnim = a;
break;
}
}
if (!oldAnim) {
// FIXME: Bug 1134163 - We shouldn't queue animationstart events
// until the animation is actually ready to run. However, we
// currently have some tests that assume that these events are
// dispatched within the same tick as the animation is added
// so we need to queue up any animationstart events from newly-created
// animations.
newAnim->AsCSSAnimation()->QueueEvents();
continue;
}
bool animationChanged = false;
// Update the old from the new so we can keep the original object
// identity (and any expando properties attached to it).
if (oldAnim->GetEffect() && newAnim->GetEffect()) {
KeyframeEffectReadOnly* oldEffect = oldAnim->GetEffect();
KeyframeEffectReadOnly* newEffect = newAnim->GetEffect();
animationChanged =
oldEffect->Timing() != newEffect->Timing() ||
oldEffect->Properties() != newEffect->Properties();
oldEffect->SetTiming(newEffect->Timing());
// To preserve the mIsRunningOnCompositor value on each property,
// we copy it from the old effect to the new effect since, in the
// following step, we will completely clobber the properties on the
// old effect with the values on the new effect.
CopyIsRunningOnCompositor(*oldEffect, *newEffect);
oldEffect->Properties() = newEffect->Properties();
}
// Handle changes in play state. If the animation is idle, however,
// changes to animation-play-state should *not* restart it.
if (oldAnim->PlayState() != AnimationPlayState::Idle) {
// CSSAnimation takes care of override behavior so that,
// for example, if the author has called pause(), that will
// override the animation-play-state.
// (We should check newAnim->IsStylePaused() but that requires
// downcasting to CSSAnimation and we happen to know that
// newAnim will only ever be paused by calling PauseFromStyle
// making IsPausedOrPausing synonymous in this case.)
if (!oldAnim->IsStylePaused() && newAnim->IsPausedOrPausing()) {
oldAnim->PauseFromStyle();
animationChanged = true;
} else if (oldAnim->IsStylePaused() &&
!newAnim->IsPausedOrPausing()) {
oldAnim->PlayFromStyle();
animationChanged = true;
}
}
oldAnim->CopyAnimationIndex(*newAnim->AsCSSAnimation());
// Updating the effect timing above might already have caused the
// animation to become irrelevant so only add a changed record if
// the animation is still relevant.
if (animationChanged && oldAnim->IsRelevant()) {
nsNodeUtils::AnimationChanged(oldAnim);
}
// Replace new animation with the (updated) old one and remove the
// old one from the array so we don't try to match it any more.
//
// Although we're doing this while iterating this is safe because
// we're not changing the length of newAnimations and we've finished
// iterating over the list of old iterations.
newAnim->CancelFromStyle();
newAnim = nullptr;
newAnimations.ReplaceElementAt(newIdx, oldAnim);
collection->mAnimations.RemoveElementAt(oldIdx);
}
}
} else {
collection = GetAnimationCollection(aElement,
aStyleContext->GetPseudoType(),
true /* aCreateIfNeeded */);
for (Animation* animation : newAnimations) {
// FIXME: Bug 1134163 - As above, we have shouldn't actually need to
// queue events here. (But we do for now since some tests expect
// animationstart events to be dispatched immediately.)
animation->AsCSSAnimation()->QueueEvents();
}
}
collection->mAnimations.SwapElements(newAnimations);
collection->mStyleChanging = true;
// Cancel removed animations
for (size_t newAnimIdx = newAnimations.Length(); newAnimIdx-- != 0; ) {
newAnimations[newAnimIdx]->CancelFromStyle();
}
EffectCompositor::UpdateCascadeResults(aElement,
aStyleContext->GetPseudoType(),
aStyleContext);
TimeStamp refreshTime = mPresContext->RefreshDriver()->MostRecentRefresh();
collection->EnsureStyleRuleFor(refreshTime);
// We don't actually dispatch the pending events now. We'll either
// dispatch them the next time we get a refresh driver notification
// or the next time somebody calls
// nsPresShell::FlushPendingNotifications.
if (mEventDispatcher.HasQueuedEvents()) {
mPresContext->Document()->SetNeedStyleFlush();
}
return GetAnimationRule(aElement, aStyleContext->GetPseudoType());
}
Maybe<NonOwningAnimationTarget>
nsNodeUtils::GetTargetForAnimation(const Animation* aAnimation)
{
KeyframeEffectReadOnly* effect = aAnimation->GetEffect();
return effect ? effect->GetTarget() : Nothing();
}
void
Animation::ComposeStyle(RefPtr<AnimValuesStyleRule>& aStyleRule,
nsCSSPropertyIDSet& aSetProperties)
{
if (!mEffect) {
return;
}
if (!IsInEffect()) {
return;
}
// In order to prevent flicker, there are a few cases where we want to use
// a different time for rendering that would otherwise be returned by
// GetCurrentTime. These are:
//
// (a) For animations that are pausing but which are still running on the
// compositor. In this case we send a layer transaction that removes the
// animation but which also contains the animation values calculated on
// the main thread. To prevent flicker when this occurs we want to ensure
// the timeline time used to calculate the main thread animation values
// does not lag far behind the time used on the compositor. Ideally we
// would like to use the "animation ready time" calculated at the end of
// the layer transaction as the timeline time but it will be too late to
// update the style rule at that point so instead we just use the current
// wallclock time.
//
// (b) For animations that are pausing that we have already taken off the
// compositor. In this case we record a pending ready time but we don't
// apply it until the next tick. However, while waiting for the next tick,
// we should still use the pending ready time as the timeline time. If we
// use the regular timeline time the animation may appear jump backwards
// if the main thread's timeline time lags behind the compositor.
//
// (c) For animations that are play-pending due to an aborted pause operation
// (i.e. a pause operation that was interrupted before we entered the
// paused state). When we cancel a pending pause we might momentarily take
// the animation off the compositor, only to re-add it moments later. In
// that case the compositor might have been ahead of the main thread so we
// should use the current wallclock time to ensure the animation doesn't
// temporarily jump backwards.
//
// To address each of these cases we temporarily tweak the hold time
// immediately before updating the style rule and then restore it immediately
// afterwards. This is purely to prevent visual flicker. Other behavior
// such as dispatching events continues to rely on the regular timeline time.
AnimationPlayState playState = PlayState();
{
AutoRestore<Nullable<TimeDuration>> restoreHoldTime(mHoldTime);
if (playState == AnimationPlayState::Pending &&
mHoldTime.IsNull() &&
!mStartTime.IsNull()) {
Nullable<TimeDuration> timeToUse = mPendingReadyTime;
if (timeToUse.IsNull() &&
mTimeline &&
mTimeline->TracksWallclockTime()) {
timeToUse = mTimeline->ToTimelineTime(TimeStamp::Now());
}
if (!timeToUse.IsNull()) {
mHoldTime.SetValue((timeToUse.Value() - mStartTime.Value())
.MultDouble(mPlaybackRate));
}
}
KeyframeEffectReadOnly* keyframeEffect = mEffect->AsKeyframeEffect();
if (keyframeEffect) {
keyframeEffect->ComposeStyle(aStyleRule, aSetProperties);
}
}
MOZ_ASSERT(playState == PlayState(),
"Play state should not change during the course of compositing");
mFinishedAtLastComposeStyle = (playState == AnimationPlayState::Finished);
}
