gecko-dev/layout/style/nsAnimationManager.cpp

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/* vim: set shiftwidth=2 tabstop=8 autoindent cindent expandtab: */
/* 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 "nsAnimationManager.h"
#include "nsTransitionManager.h"
#include "mozilla/dom/CSSAnimationBinding.h"
#include "mozilla/AnimationTarget.h"
#include "mozilla/EffectCompositor.h"
#include "mozilla/EffectSet.h"
#include "mozilla/MemoryReporting.h"
#include "mozilla/ServoStyleSet.h"
#include "mozilla/StyleAnimationValue.h"
#include "mozilla/dom/DocumentTimeline.h"
#include "mozilla/dom/KeyframeEffectReadOnly.h"
#include "nsPresContext.h"
#include "nsStyleSet.h"
#include "nsStyleChangeList.h"
#include "nsContentUtils.h"
#include "nsCSSRules.h"
#include "mozilla/GeckoRestyleManager.h"
#include "nsLayoutUtils.h"
#include "nsIFrame.h"
#include "nsIDocument.h"
#include "nsDOMMutationObserver.h"
#include "nsIPresShell.h"
#include "nsIPresShellInlines.h"
#include <algorithm> // std::stable_sort
#include <math.h>
using namespace mozilla;
using namespace mozilla::css;
using mozilla::dom::Animation;
using mozilla::dom::AnimationPlayState;
using mozilla::dom::KeyframeEffectReadOnly;
using mozilla::dom::CSSAnimation;
typedef mozilla::ComputedTiming::AnimationPhase AnimationPhase;
namespace {
struct AnimationEventParams {
EventMessage mMessage;
StickyTimeDuration mElapsedTime;
TimeStamp mTimeStamp;
};
} // anonymous namespace
////////////////////////// CSSAnimation ////////////////////////////
JSObject*
CSSAnimation::WrapObject(JSContext* aCx, JS::Handle<JSObject*> aGivenProto)
{
return dom::CSSAnimationBinding::Wrap(aCx, this, aGivenProto);
}
mozilla::dom::Promise*
CSSAnimation::GetReady(ErrorResult& aRv)
{
FlushStyle();
return Animation::GetReady(aRv);
}
void
CSSAnimation::Play(ErrorResult &aRv, LimitBehavior aLimitBehavior)
{
mPauseShouldStick = false;
Animation::Play(aRv, aLimitBehavior);
}
void
CSSAnimation::Pause(ErrorResult& aRv)
{
mPauseShouldStick = true;
Animation::Pause(aRv);
}
AnimationPlayState
CSSAnimation::PlayStateFromJS() const
{
// Flush style to ensure that any properties controlling animation state
// (e.g. animation-play-state) are fully updated.
FlushStyle();
return Animation::PlayStateFromJS();
}
void
CSSAnimation::PlayFromJS(ErrorResult& aRv)
{
// Note that flushing style below might trigger calls to
// PlayFromStyle()/PauseFromStyle() on this object.
FlushStyle();
Animation::PlayFromJS(aRv);
}
void
CSSAnimation::PlayFromStyle()
{
mIsStylePaused = false;
if (!mPauseShouldStick) {
ErrorResult rv;
PlayNoUpdate(rv, Animation::LimitBehavior::Continue);
// play() should not throw when LimitBehavior is Continue
MOZ_ASSERT(!rv.Failed(), "Unexpected exception playing animation");
}
}
void
CSSAnimation::PauseFromStyle()
{
// Check if the pause state is being overridden
if (mIsStylePaused) {
return;
}
mIsStylePaused = true;
ErrorResult rv;
PauseNoUpdate(rv);
// pause() should only throw when *all* of the following conditions are true:
// - we are in the idle state, and
// - we have a negative playback rate, and
// - we have an infinitely repeating animation
// The first two conditions will never happen under regular style processing
// but could happen if an author made modifications to the Animation object
// and then updated animation-play-state. It's an unusual case and there's
// no obvious way to pass on the exception information so we just silently
// fail for now.
if (rv.Failed()) {
NS_WARNING("Unexpected exception pausing animation - silently failing");
}
}
void
CSSAnimation::Tick()
{
Animation::Tick();
QueueEvents();
}
bool
CSSAnimation::HasLowerCompositeOrderThan(const CSSAnimation& aOther) const
{
MOZ_ASSERT(IsTiedToMarkup() && aOther.IsTiedToMarkup(),
"Should only be called for CSS animations that are sorted "
"as CSS animations (i.e. tied to CSS markup)");
// 0. Object-equality case
if (&aOther == this) {
return false;
}
// 1. Sort by document order
if (!mOwningElement.Equals(aOther.mOwningElement)) {
return mOwningElement.LessThan(aOther.mOwningElement);
}
// 2. (Same element and pseudo): Sort by position in animation-name
return mAnimationIndex < aOther.mAnimationIndex;
}
void
CSSAnimation::QueueEvents(StickyTimeDuration aActiveTime)
{
// If the animation is pending, we ignore animation events until we finish
// pending.
if (mPendingState != PendingState::NotPending) {
return;
}
// CSS animations dispatch events at their owning element. This allows
// script to repurpose a CSS animation to target a different element,
// to use a group effect (which has no obvious "target element"), or
// to remove the animation effect altogether whilst still getting
// animation events.
//
// It does mean, however, that for a CSS animation that has no owning
// element (e.g. it was created using the CSSAnimation constructor or
// disassociated from CSS) no events are fired. If it becomes desirable
// for these animations to still fire events we should spec the concept
// of the "original owning element" or "event target" and allow script
// to set it when creating a CSSAnimation object.
if (!mOwningElement.IsSet()) {
return;
}
dom::Element* owningElement;
CSSPseudoElementType owningPseudoType;
mOwningElement.GetElement(owningElement, owningPseudoType);
MOZ_ASSERT(owningElement, "Owning element should be set");
// Get the nsAnimationManager so we can queue events on it
nsPresContext* presContext =
nsContentUtils::GetContextForContent(owningElement);
if (!presContext) {
return;
}
nsAnimationManager* manager = presContext->AnimationManager();
const StickyTimeDuration zeroDuration;
uint64_t currentIteration = 0;
ComputedTiming::AnimationPhase currentPhase;
StickyTimeDuration intervalStartTime;
StickyTimeDuration intervalEndTime;
StickyTimeDuration iterationStartTime;
if (!mEffect) {
currentPhase = GetAnimationPhaseWithoutEffect
<ComputedTiming::AnimationPhase>(*this);
} else {
ComputedTiming computedTiming = mEffect->GetComputedTiming();
currentPhase = computedTiming.mPhase;
currentIteration = computedTiming.mCurrentIteration;
if (currentPhase == mPreviousPhase &&
currentIteration == mPreviousIteration) {
return;
}
intervalStartTime =
std::max(std::min(StickyTimeDuration(-mEffect->SpecifiedTiming().mDelay),
computedTiming.mActiveDuration),
zeroDuration);
intervalEndTime =
std::max(std::min((EffectEnd() - mEffect->SpecifiedTiming().mDelay),
computedTiming.mActiveDuration),
zeroDuration);
uint64_t iterationBoundary = mPreviousIteration > currentIteration
? currentIteration + 1
: currentIteration;
iterationStartTime =
computedTiming.mDuration.MultDouble(
(iterationBoundary - computedTiming.mIterationStart));
}
TimeStamp startTimeStamp = ElapsedTimeToTimeStamp(intervalStartTime);
TimeStamp endTimeStamp = ElapsedTimeToTimeStamp(intervalEndTime);
TimeStamp iterationTimeStamp = ElapsedTimeToTimeStamp(iterationStartTime);
AutoTArray<AnimationEventParams, 2> events;
// Handle cancel event first
if ((mPreviousPhase != AnimationPhase::Idle &&
mPreviousPhase != AnimationPhase::After) &&
currentPhase == AnimationPhase::Idle) {
TimeStamp activeTimeStamp = ElapsedTimeToTimeStamp(aActiveTime);
events.AppendElement(AnimationEventParams{ eAnimationCancel,
aActiveTime,
activeTimeStamp });
}
switch (mPreviousPhase) {
case AnimationPhase::Idle:
case AnimationPhase::Before:
if (currentPhase == AnimationPhase::Active) {
events.AppendElement(AnimationEventParams{ eAnimationStart,
intervalStartTime,
startTimeStamp });
} else if (currentPhase == AnimationPhase::After) {
events.AppendElement(AnimationEventParams{ eAnimationStart,
intervalStartTime,
startTimeStamp });
events.AppendElement(AnimationEventParams{ eAnimationEnd,
intervalEndTime,
endTimeStamp });
}
break;
case AnimationPhase::Active:
if (currentPhase == AnimationPhase::Before) {
events.AppendElement(AnimationEventParams{ eAnimationEnd,
intervalStartTime,
startTimeStamp });
} else if (currentPhase == AnimationPhase::Active) {
// The currentIteration must have changed or element we would have
// returned early above.
MOZ_ASSERT(currentIteration != mPreviousIteration);
events.AppendElement(AnimationEventParams{ eAnimationIteration,
iterationStartTime,
iterationTimeStamp });
} else if (currentPhase == AnimationPhase::After) {
events.AppendElement(AnimationEventParams{ eAnimationEnd,
intervalEndTime,
endTimeStamp });
}
break;
case AnimationPhase::After:
if (currentPhase == AnimationPhase::Before) {
events.AppendElement(AnimationEventParams{ eAnimationStart,
intervalEndTime,
startTimeStamp});
events.AppendElement(AnimationEventParams{ eAnimationEnd,
intervalStartTime,
endTimeStamp });
} else if (currentPhase == AnimationPhase::Active) {
events.AppendElement(AnimationEventParams{ eAnimationStart,
intervalEndTime,
endTimeStamp });
}
break;
}
mPreviousPhase = currentPhase;
mPreviousIteration = currentIteration;
for (const AnimationEventParams& event : events){
manager->QueueEvent(
AnimationEventInfo(owningElement, owningPseudoType,
event.mMessage, mAnimationName,
event.mElapsedTime, event.mTimeStamp,
this));
}
}
void
CSSAnimation::UpdateTiming(SeekFlag aSeekFlag, SyncNotifyFlag aSyncNotifyFlag)
{
if (mNeedsNewAnimationIndexWhenRun &&
PlayState() != AnimationPlayState::Idle) {
mAnimationIndex = sNextAnimationIndex++;
mNeedsNewAnimationIndexWhenRun = false;
}
Animation::UpdateTiming(aSeekFlag, aSyncNotifyFlag);
}
////////////////////////// nsAnimationManager ////////////////////////////
NS_IMPL_CYCLE_COLLECTION(nsAnimationManager, mEventDispatcher)
NS_IMPL_CYCLE_COLLECTION_ROOT_NATIVE(nsAnimationManager, AddRef)
NS_IMPL_CYCLE_COLLECTION_UNROOT_NATIVE(nsAnimationManager, Release)
// Find the matching animation by |aName| in the old list
// of animations and remove the matched animation from the list.
static already_AddRefed<CSSAnimation>
PopExistingAnimation(const nsAString& aName,
nsAnimationManager::CSSAnimationCollection* aCollection)
{
if (!aCollection) {
return nullptr;
}
// Animations are stored in reverse order to how they appear in the
// animation-name property. However, we want to match animations beginning
// from the end of the animation-name list, so we iterate *forwards*
// through the collection.
for (size_t idx = 0, length = aCollection->mAnimations.Length();
idx != length; ++ idx) {
CSSAnimation* cssAnim = aCollection->mAnimations[idx];
if (cssAnim->AnimationName() == aName) {
RefPtr<CSSAnimation> match = cssAnim;
aCollection->mAnimations.RemoveElementAt(idx);
return match.forget();
}
}
return nullptr;
}
class ResolvedStyleCache {
public:
ResolvedStyleCache() : mCache() {}
nsStyleContext* Get(nsPresContext *aPresContext,
nsStyleContext *aParentStyleContext,
Declaration* aKeyframeDeclaration);
private:
nsRefPtrHashtable<nsPtrHashKey<Declaration>, nsStyleContext> mCache;
};
nsStyleContext*
ResolvedStyleCache::Get(nsPresContext *aPresContext,
nsStyleContext *aParentStyleContext,
Declaration* aKeyframeDeclaration)
{
// FIXME (spec): The css3-animations spec isn't very clear about how
// properties are resolved when they have values that depend on other
// properties (e.g., values in 'em'). I presume that they're resolved
// relative to the other styles of the element. The question is
// whether they are resolved relative to other animations: I assume
// that they're not, since that would prevent us from caching a lot of
// data that we'd really like to cache (in particular, the
// StyleAnimationValue values in AnimationPropertySegment).
nsStyleContext *result = mCache.GetWeak(aKeyframeDeclaration);
if (!result) {
aKeyframeDeclaration->SetImmutable();
// The spec says that !important declarations should just be ignored
MOZ_ASSERT(!aKeyframeDeclaration->HasImportantData(),
"Keyframe rule has !important data");
nsCOMArray<nsIStyleRule> rules;
rules.AppendObject(aKeyframeDeclaration);
MOZ_ASSERT(aPresContext->StyleSet()->IsGecko(),
"ServoStyleSet should not use nsAnimationManager for "
"animations");
RefPtr<nsStyleContext> resultStrong = aPresContext->StyleSet()->AsGecko()->
ResolveStyleByAddingRules(aParentStyleContext, rules);
mCache.Put(aKeyframeDeclaration, resultStrong);
result = resultStrong;
}
return result;
}
class MOZ_STACK_CLASS ServoCSSAnimationBuilder final {
public:
explicit ServoCSSAnimationBuilder(const ServoComputedValues* aComputedValues)
: mComputedValues(aComputedValues)
{
MOZ_ASSERT(aComputedValues);
}
bool BuildKeyframes(nsPresContext* aPresContext,
const StyleAnimation& aSrc,
nsTArray<Keyframe>& aKeyframes)
{
ServoStyleSet* styleSet = aPresContext->StyleSet()->AsServo();
MOZ_ASSERT(styleSet);
const nsTimingFunction& timingFunction = aSrc.GetTimingFunction();
return styleSet->GetKeyframesForName(aSrc.GetName(),
timingFunction,
mComputedValues,
aKeyframes);
}
void SetKeyframes(KeyframeEffectReadOnly& aEffect,
nsTArray<Keyframe>&& aKeyframes)
{
aEffect.SetKeyframes(Move(aKeyframes), mComputedValues);
}
private:
const ServoComputedValues* mComputedValues;
};
class MOZ_STACK_CLASS GeckoCSSAnimationBuilder final {
public:
GeckoCSSAnimationBuilder(nsStyleContext* aStyleContext,
const NonOwningAnimationTarget& aTarget)
: mStyleContext(aStyleContext)
, mTarget(aTarget)
{
MOZ_ASSERT(aStyleContext);
MOZ_ASSERT(aTarget.mElement);
}
bool BuildKeyframes(nsPresContext* aPresContext,
const StyleAnimation& aSrc,
nsTArray<Keyframe>& aKeyframs);
void SetKeyframes(KeyframeEffectReadOnly& aEffect,
nsTArray<Keyframe>&& aKeyframes)
{
aEffect.SetKeyframes(Move(aKeyframes), mStyleContext);
}
private:
nsTArray<Keyframe> BuildAnimationFrames(nsPresContext* aPresContext,
const StyleAnimation& aSrc,
const nsCSSKeyframesRule* aRule);
Maybe<ComputedTimingFunction> GetKeyframeTimingFunction(
nsPresContext* aPresContext,
nsCSSKeyframeRule* aKeyframeRule,
const Maybe<ComputedTimingFunction>& aInheritedTimingFunction);
nsTArray<PropertyValuePair> GetKeyframePropertyValues(
nsPresContext* aPresContext,
nsCSSKeyframeRule* aKeyframeRule,
nsCSSPropertyIDSet& aAnimatedProperties);
void FillInMissingKeyframeValues(
nsCSSPropertyIDSet aAnimatedProperties,
nsCSSPropertyIDSet aPropertiesSetAtStart,
nsCSSPropertyIDSet aPropertiesSetAtEnd,
const Maybe<ComputedTimingFunction>& aInheritedTimingFunction,
nsTArray<Keyframe>& aKeyframes);
RefPtr<nsStyleContext> mStyleContext;
NonOwningAnimationTarget mTarget;
ResolvedStyleCache mResolvedStyles;
};
static Maybe<ComputedTimingFunction>
ConvertTimingFunction(const nsTimingFunction& aTimingFunction);
template<class BuilderType>
static void
UpdateOldAnimationPropertiesWithNew(
CSSAnimation& aOld,
TimingParams& aNewTiming,
nsTArray<Keyframe>&& aNewKeyframes,
bool aNewIsStylePaused,
BuilderType& aBuilder)
{
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()) {
dom::AnimationEffectReadOnly* oldEffect = aOld.GetEffect();
animationChanged = oldEffect->SpecifiedTiming() != aNewTiming;
oldEffect->SetSpecifiedTiming(aNewTiming);
KeyframeEffectReadOnly* oldKeyframeEffect = oldEffect->AsKeyframeEffect();
if (oldKeyframeEffect) {
aBuilder.SetKeyframes(*oldKeyframeEffect, Move(aNewKeyframes));
}
}
// 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);
}
}
// Returns a new animation set up with given StyleAnimation.
// Or returns an existing animation matching StyleAnimation's name updated
// with the new StyleAnimation.
template<class BuilderType>
static already_AddRefed<CSSAnimation>
BuildAnimation(nsPresContext* aPresContext,
const NonOwningAnimationTarget& aTarget,
const StyleAnimation& aSrc,
BuilderType& aBuilder,
nsAnimationManager::CSSAnimationCollection* aCollection)
{
MOZ_ASSERT(aPresContext);
nsTArray<Keyframe> keyframes;
if (!aBuilder.BuildKeyframes(aPresContext, aSrc, keyframes)) {
return nullptr;
}
TimingParams timing = TimingParamsFromCSSParams(aSrc.GetDuration(),
aSrc.GetDelay(),
aSrc.GetIterationCount(),
aSrc.GetDirection(),
aSrc.GetFillMode());
bool isStylePaused =
aSrc.GetPlayState() == NS_STYLE_ANIMATION_PLAY_STATE_PAUSED;
// Find the matching animation with animation name in the old list
// of animations and remove the matched animation from the list.
RefPtr<CSSAnimation> oldAnim =
PopExistingAnimation(aSrc.GetName(), aCollection);
if (oldAnim) {
// 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.
UpdateOldAnimationPropertiesWithNew(*oldAnim,
timing,
Move(keyframes),
isStylePaused,
aBuilder);
return oldAnim.forget();
}
// mTarget is non-null here, so we emplace it directly.
Maybe<OwningAnimationTarget> target;
target.emplace(aTarget.mElement, aTarget.mPseudoType);
KeyframeEffectParams effectOptions;
RefPtr<KeyframeEffectReadOnly> effect =
new KeyframeEffectReadOnly(aPresContext->Document(), target, timing,
effectOptions);
aBuilder.SetKeyframes(*effect, Move(keyframes));
RefPtr<CSSAnimation> animation =
new CSSAnimation(aPresContext->Document()->GetScopeObject(),
aSrc.GetName());
animation->SetOwningElement(
OwningElementRef(*aTarget.mElement, aTarget.mPseudoType));
animation->SetTimelineNoUpdate(aTarget.mElement->OwnerDoc()->Timeline());
animation->SetEffectNoUpdate(effect);
if (isStylePaused) {
animation->PauseFromStyle();
} else {
animation->PlayFromStyle();
}
return animation.forget();
}
bool
GeckoCSSAnimationBuilder::BuildKeyframes(nsPresContext* aPresContext,
const StyleAnimation& aSrc,
nsTArray<Keyframe>& aKeyframes)
{
MOZ_ASSERT(aPresContext);
MOZ_ASSERT(aPresContext->StyleSet()->IsGecko());
nsCSSKeyframesRule* rule =
aPresContext->StyleSet()->AsGecko()->KeyframesRuleForName(aSrc.GetName());
if (!rule) {
return false;
}
aKeyframes = BuildAnimationFrames(aPresContext, aSrc, rule);
return true;
}
nsTArray<Keyframe>
GeckoCSSAnimationBuilder::BuildAnimationFrames(nsPresContext* aPresContext,
const StyleAnimation& aSrc,
const nsCSSKeyframesRule* aRule)
{
// Ideally we'd like to build up a set of Keyframe objects that more-or-less
// reflect the keyframes as-specified in the @keyframes rule(s) so that
// authors get something intuitive when they call anim.effect.getKeyframes().
//
// That, however, proves to be difficult because the way CSS declarations are
// processed differs from how we are able to represent keyframes as
// JavaScript objects in the Web Animations API.
//
// For example,
//
// { margin: 10px; margin-left: 20px }
//
// could be represented as:
//
// { margin: '10px', marginLeft: '20px' }
//
// BUT:
//
// { margin-left: 20px; margin: 10px }
//
// would be represented as:
//
// { margin: '10px' }
//
// Likewise,
//
// { margin-left: 20px; margin-left: 30px }
//
// would be represented as:
//
// { marginLeft: '30px' }
//
// As such, the mapping between source @keyframes and the Keyframe objects
// becomes obscured. The deviation is even more significant when we consider
// cascading between @keyframes rules and variable references in shorthand
// properties.
//
// We could, perhaps, produce a mapping that makes sense most of the time
// but it would be complex and need to be specified and implemented
// interoperably. Instead, for now, for CSS Animations (and CSS Transitions,
// for that matter) we resolve values on @keyframes down to computed values
// (thereby expanding shorthands and variable references) and then pick up the
// last value for each longhand property at each offset.
// FIXME: There is a pending spec change to make multiple @keyframes
// rules with the same name cascade but we don't support that yet.
Maybe<ComputedTimingFunction> inheritedTimingFunction =
ConvertTimingFunction(aSrc.GetTimingFunction());
// First, make up Keyframe objects for each rule
nsTArray<Keyframe> keyframes;
nsCSSPropertyIDSet animatedProperties;
for (auto ruleIdx = 0, ruleEnd = aRule->StyleRuleCount();
ruleIdx != ruleEnd; ++ruleIdx) {
css::Rule* cssRule = aRule->GetStyleRuleAt(ruleIdx);
MOZ_ASSERT(cssRule, "must have rule");
MOZ_ASSERT(cssRule->GetType() == css::Rule::KEYFRAME_RULE,
"must be keyframe rule");
nsCSSKeyframeRule* keyframeRule = static_cast<nsCSSKeyframeRule*>(cssRule);
const nsTArray<float>& keys = keyframeRule->GetKeys();
for (float key : keys) {
if (key < 0.0f || key > 1.0f) {
continue;
}
Keyframe keyframe;
keyframe.mOffset.emplace(key);
keyframe.mTimingFunction =
GetKeyframeTimingFunction(aPresContext, keyframeRule,
inheritedTimingFunction);
keyframe.mPropertyValues =
GetKeyframePropertyValues(aPresContext, keyframeRule,
animatedProperties);
keyframes.AppendElement(Move(keyframe));
}
}
// Next, stable sort by offset
std::stable_sort(keyframes.begin(), keyframes.end(),
[](const Keyframe& a, const Keyframe& b)
{
return a.mOffset < b.mOffset;
});
// Then walk backwards through the keyframes and drop overridden properties.
nsCSSPropertyIDSet propertiesSetAtCurrentOffset;
nsCSSPropertyIDSet propertiesSetAtStart;
nsCSSPropertyIDSet propertiesSetAtEnd;
double currentOffset = -1.0;
for (size_t keyframeIdx = keyframes.Length();
keyframeIdx > 0;
--keyframeIdx) {
Keyframe& keyframe = keyframes[keyframeIdx - 1];
MOZ_ASSERT(keyframe.mOffset, "Should have filled in the offset");
if (keyframe.mOffset.value() != currentOffset) {
propertiesSetAtCurrentOffset.Empty();
currentOffset = keyframe.mOffset.value();
}
// Get the set of properties from this keyframe that have not
// already been set at this offset.
nsTArray<PropertyValuePair> uniquePropertyValues;
uniquePropertyValues.SetCapacity(keyframe.mPropertyValues.Length());
for (const PropertyValuePair& pair : keyframe.mPropertyValues) {
if (!propertiesSetAtCurrentOffset.HasProperty(pair.mProperty)) {
uniquePropertyValues.AppendElement(pair);
propertiesSetAtCurrentOffset.AddProperty(pair.mProperty);
if (currentOffset == 0.0) {
propertiesSetAtStart.AddProperty(pair.mProperty);
} else if (currentOffset == 1.0) {
propertiesSetAtEnd.AddProperty(pair.mProperty);
}
}
}
// If we have a keyframe at the same offset with the same timing
// function we should merge our (unique) values into it.
// Otherwise, we should update the existing keyframe with only the
// unique properties.
//
// Bug 1293490: We should also match composite modes here.
Keyframe* existingKeyframe = nullptr;
// Don't bother searching for an existing keyframe if we don't
// have anything to contribute to it.
if (!uniquePropertyValues.IsEmpty()) {
for (size_t i = keyframeIdx; i < keyframes.Length(); i++) {
Keyframe& kf = keyframes[i];
if (kf.mOffset.value() != currentOffset) {
break;
}
if (kf.mTimingFunction == keyframe.mTimingFunction) {
existingKeyframe = &kf;
break;
}
}
}
if (existingKeyframe) {
existingKeyframe->
mPropertyValues.AppendElements(Move(uniquePropertyValues));
keyframe.mPropertyValues.Clear();
} else {
keyframe.mPropertyValues.SwapElements(uniquePropertyValues);
}
// Check for a now-empty keyframe
if (keyframe.mPropertyValues.IsEmpty()) {
keyframes.RemoveElementAt(keyframeIdx - 1);
// existingKeyframe might dangle now
}
}
// Finally, we need to look for any animated properties that have an
// implicit 'to' or 'from' value and fill in the appropriate keyframe
// with the current computed style.
FillInMissingKeyframeValues(animatedProperties, propertiesSetAtStart,
propertiesSetAtEnd, inheritedTimingFunction,
keyframes);
return keyframes;
}
Maybe<ComputedTimingFunction>
GeckoCSSAnimationBuilder::GetKeyframeTimingFunction(
nsPresContext* aPresContext,
nsCSSKeyframeRule* aKeyframeRule,
const Maybe<ComputedTimingFunction>& aInheritedTimingFunction)
{
Maybe<ComputedTimingFunction> result;
if (aKeyframeRule->Declaration() &&
aKeyframeRule->Declaration()->HasProperty(
eCSSProperty_animation_timing_function)) {
RefPtr<nsStyleContext> keyframeRuleContext =
mResolvedStyles.Get(aPresContext, mStyleContext,
aKeyframeRule->Declaration());
const nsTimingFunction& tf = keyframeRuleContext->StyleDisplay()->
mAnimations[0].GetTimingFunction();
result = ConvertTimingFunction(tf);
} else {
result = aInheritedTimingFunction;
}
return result;
}
static Maybe<ComputedTimingFunction>
ConvertTimingFunction(const nsTimingFunction& aTimingFunction)
{
Maybe<ComputedTimingFunction> result;
if (aTimingFunction.mType != nsTimingFunction::Type::Linear) {
result.emplace();
result->Init(aTimingFunction);
}
return result;
}
nsTArray<PropertyValuePair>
GeckoCSSAnimationBuilder::GetKeyframePropertyValues(
nsPresContext* aPresContext,
nsCSSKeyframeRule* aKeyframeRule,
nsCSSPropertyIDSet& aAnimatedProperties)
{
nsTArray<PropertyValuePair> result;
RefPtr<nsStyleContext> styleContext =
mResolvedStyles.Get(aPresContext, mStyleContext,
aKeyframeRule->Declaration());
for (nsCSSPropertyID prop = nsCSSPropertyID(0);
prop < eCSSProperty_COUNT_no_shorthands;
prop = nsCSSPropertyID(prop + 1)) {
if (nsCSSProps::kAnimTypeTable[prop] == eStyleAnimType_None ||
!aKeyframeRule->Declaration()->HasNonImportantValueFor(prop)) {
continue;
}
StyleAnimationValue computedValue;
if (!StyleAnimationValue::ExtractComputedValue(prop, styleContext,
computedValue)) {
continue;
}
nsCSSValue propertyValue;
DebugOnly<bool> uncomputeResult =
StyleAnimationValue::UncomputeValue(prop, Move(computedValue),
propertyValue);
MOZ_ASSERT(uncomputeResult,
"Unable to get specified value from computed value");
MOZ_ASSERT(propertyValue.GetUnit() != eCSSUnit_Null,
"Not expecting to read invalid properties");
result.AppendElement(Move(PropertyValuePair(prop, Move(propertyValue))));
aAnimatedProperties.AddProperty(prop);
}
return result;
}
void
GeckoCSSAnimationBuilder::FillInMissingKeyframeValues(
nsCSSPropertyIDSet aAnimatedProperties,
nsCSSPropertyIDSet aPropertiesSetAtStart,
nsCSSPropertyIDSet aPropertiesSetAtEnd,
const Maybe<ComputedTimingFunction>& aInheritedTimingFunction,
nsTArray<Keyframe>& aKeyframes)
{
static const size_t kNotSet = static_cast<size_t>(-1);
// Find/create the keyframe to add start values to
size_t startKeyframeIndex = kNotSet;
if (!aAnimatedProperties.Equals(aPropertiesSetAtStart) &&
!nsAnimationManager::FindMatchingKeyframe(aKeyframes,
0.0,
aInheritedTimingFunction,
startKeyframeIndex)) {
Keyframe newKeyframe;
newKeyframe.mOffset.emplace(0.0);
newKeyframe.mTimingFunction = aInheritedTimingFunction;
aKeyframes.InsertElementAt(startKeyframeIndex, Move(newKeyframe));
}
// Find/create the keyframe to add end values to
size_t endKeyframeIndex = kNotSet;
if (!aAnimatedProperties.Equals(aPropertiesSetAtEnd)) {
if (!nsAnimationManager::FindMatchingKeyframe(Reversed(aKeyframes),
1.0,
aInheritedTimingFunction,
endKeyframeIndex)) {
Keyframe newKeyframe;
newKeyframe.mOffset.emplace(1.0);
newKeyframe.mTimingFunction = aInheritedTimingFunction;
aKeyframes.AppendElement(Move(newKeyframe));
endKeyframeIndex = aKeyframes.Length() - 1;
} else {
// endKeyframeIndex is currently a count from the end of the array
// so we need to reverse it.
endKeyframeIndex = aKeyframes.Length() - 1 - endKeyframeIndex;
}
}
if (startKeyframeIndex == kNotSet && endKeyframeIndex == kNotSet) {
return;
}
// Now that we have finished manipulating aKeyframes, it is safe to
// take pointers to its elements.
Keyframe* startKeyframe = startKeyframeIndex == kNotSet
? nullptr : &aKeyframes[startKeyframeIndex];
Keyframe* endKeyframe = endKeyframeIndex == kNotSet
? nullptr : &aKeyframes[endKeyframeIndex];
// Iterate through all properties and fill-in missing values
for (nsCSSPropertyID prop = nsCSSPropertyID(0);
prop < eCSSProperty_COUNT_no_shorthands;
prop = nsCSSPropertyID(prop + 1)) {
if (!aAnimatedProperties.HasProperty(prop)) {
continue;
}
if (startKeyframe && !aPropertiesSetAtStart.HasProperty(prop)) {
// An uninitialized nsCSSValue represents the underlying value.
PropertyValuePair propertyValue(prop, Move(nsCSSValue()));
startKeyframe->mPropertyValues.AppendElement(Move(propertyValue));
}
if (endKeyframe && !aPropertiesSetAtEnd.HasProperty(prop)) {
// An uninitialized nsCSSValue represents the underlying value.
PropertyValuePair propertyValue(prop, Move(nsCSSValue()));
endKeyframe->mPropertyValues.AppendElement(Move(propertyValue));
}
}
}
template<class BuilderType>
static nsAnimationManager::OwningCSSAnimationPtrArray
BuildAnimations(nsPresContext* aPresContext,
const NonOwningAnimationTarget& aTarget,
const nsStyleAutoArray<StyleAnimation>& aStyleAnimations,
uint32_t aStyleAnimationNameCount,
BuilderType& aBuilder,
nsAnimationManager::CSSAnimationCollection* aCollection)
{
nsAnimationManager::OwningCSSAnimationPtrArray result;
for (size_t animIdx = aStyleAnimationNameCount; animIdx-- != 0;) {
const StyleAnimation& src = aStyleAnimations[animIdx];
// CSS Animations whose animation-name does not match a @keyframes rule do
// not generate animation events. This includes when the animation-name is
// "none" which is represented by an empty name in the StyleAnimation.
// Since such animations neither affect style nor dispatch events, we do
// not generate a corresponding CSSAnimation for them.
if (src.GetName().IsEmpty()) {
continue;
}
RefPtr<CSSAnimation> dest = BuildAnimation(aPresContext,
aTarget,
src,
aBuilder,
aCollection);
if (!dest) {
continue;
}
dest->SetAnimationIndex(static_cast<uint64_t>(animIdx));
result.AppendElement(dest);
}
return result;
}
void
nsAnimationManager::UpdateAnimations(nsStyleContext* aStyleContext,
mozilla::dom::Element* aElement)
{
MOZ_ASSERT(mPresContext->IsDynamic(),
"Should not update animations for print or print preview");
MOZ_ASSERT(aElement->IsInComposedDoc(),
"Should not update animations that are not attached to the "
"document tree");
if (aStyleContext->IsInDisplayNoneSubtree()) {
StopAnimationsForElement(aElement, aStyleContext->GetPseudoType());
return;
}
NonOwningAnimationTarget target(aElement, aStyleContext->GetPseudoType());
GeckoCSSAnimationBuilder builder(aStyleContext, target);
const nsStyleDisplay* disp = aStyleContext->StyleDisplay();
DoUpdateAnimations(target, *disp, builder);
}
void
nsAnimationManager::UpdateAnimations(
dom::Element* aElement,
CSSPseudoElementType aPseudoType,
const ServoComputedValues* aComputedValues)
{
MOZ_ASSERT(mPresContext->IsDynamic(),
"Should not update animations for print or print preview");
MOZ_ASSERT(aElement->IsInComposedDoc(),
"Should not update animations that are not attached to the "
"document tree");
if (!aComputedValues) {
// If we are in a display:none subtree we will have no computed values.
// Since CSS animations should not run in display:none subtrees we should
// stop (actually, destroy) any animations on this element here.
StopAnimationsForElement(aElement, aPseudoType);
return;
}
NonOwningAnimationTarget target(aElement, aPseudoType);
ServoCSSAnimationBuilder builder(aComputedValues);
const nsStyleDisplay *disp =
Servo_GetStyleDisplay(aComputedValues);
DoUpdateAnimations(target, *disp, builder);
}
template<class BuilderType>
void
nsAnimationManager::DoUpdateAnimations(
const NonOwningAnimationTarget& aTarget,
const nsStyleDisplay& aStyleDisplay,
BuilderType& aBuilder)
{
// 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.
CSSAnimationCollection* collection =
CSSAnimationCollection::GetAnimationCollection(aTarget.mElement,
aTarget.mPseudoType);
if (!collection &&
aStyleDisplay.mAnimationNameCount == 1 &&
aStyleDisplay.mAnimations[0].GetName().IsEmpty()) {
return;
}
nsAutoAnimationMutationBatch mb(aTarget.mElement->OwnerDoc());
// Build the updated animations list, extracting matching animations from
// the existing collection as we go.
OwningCSSAnimationPtrArray newAnimations;
newAnimations = BuildAnimations(mPresContext,
aTarget,
aStyleDisplay.mAnimations,
aStyleDisplay.mAnimationNameCount,
aBuilder,
collection);
if (newAnimations.IsEmpty()) {
if (collection) {
collection->Destroy();
}
return;
}
if (!collection) {
bool createdCollection = false;
collection =
CSSAnimationCollection::GetOrCreateAnimationCollection(
aTarget.mElement, aTarget.mPseudoType, &createdCollection);
if (!collection) {
MOZ_ASSERT(!createdCollection, "outparam should agree with return value");
NS_WARNING("allocating collection failed");
return;
}
if (createdCollection) {
AddElementCollection(collection);
}
}
collection->mAnimations.SwapElements(newAnimations);
// Cancel removed animations
for (size_t newAnimIdx = newAnimations.Length(); newAnimIdx-- != 0; ) {
newAnimations[newAnimIdx]->CancelFromStyle();
}
}