gecko-dev/dom/animation/EffectCompositor.h

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Bug 1226118 part 8 - Add EffectCompositor::GetAnimationsForCompositor that uses the EffectSet rather than AnimationCollection; r=dholbert This added method should behave in an equivalent manner to the existing CommonAnimationManager::GetAnimationsForCompositor except for the following differences: * It uses the EffectSet attached to a target element rather than one of the AnimationCollection object on the owning element. * It returns an array of Animation objects consisting of only those Animations that actually have the specified property as opposed to the AnimationCollection consisting of *all* CSS animations or *all* CSS transitions for the element regardless of whether they run on the compositor or not. It may not be obvious why these two methods otherwise behave in an equivalent fashion so the following explains how the existing code is mirrored in the new method. The existing code is as follows: > AnimationCollection* > CommonAnimationManager::GetAnimationsForCompositor(const nsIFrame* aFrame, > nsCSSProperty aProperty) > { > AnimationCollection* collection = GetAnimationCollection(aFrame); > if (!collection || > !collection->HasCurrentAnimationOfProperty(aProperty) || > !collection->CanPerformOnCompositorThread(aFrame)) { > return nullptr; > } > > // This animation can be done on the compositor. > return collection; > } The new EffectCompositor::GetAnimationsForCompositor begins with two checks performed at the beginning of CanPerformOnCompositorThread: the checks for whether async animations are enabled or not and whether the frame has refused async animations since these are cheap and it makes sense to check them first. The next part of EffectCompositor::GetAnimationsForCompositor checks if there is an EffectSet associated with the frame. This is equivalent to the check whether |collection| is null or not above. Following, we iterate through the effects in the EffectSet. We first check if each effect is playing or not. In the above code, HasCurrentAnimationOfProperty only checks if the effect is *current* or not. However, CanPerformOnCompositorThread will only return true if it finds an animation that can run on the compositor that is *playing*. Since playing is a strict subset of current we only need to perform the more restrictive test. Next we check if the effect should block running other animations on the compositor. This is equivalent to the remainder of CanPerformOnCompositorThread. Note that the order is important here. Only playing animations should block other animations from running on the compositor. Furthermore, this needs to happen before the following step since animations of property other than |aProperty| can still block animations from running on the compositor. Finally, we check if the effect has an animation of |aProperty|. This is equivalent to the remainder of HasCurrentAnimationOfProperty. If all these checks succeed, we add the effect's animation to the result to return.
2015-12-04 02:34:12 +03:00
/* -*- 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/. */
#ifndef mozilla_EffectCompositor_h
#define mozilla_EffectCompositor_h
#include "mozilla/EnumeratedArray.h"
#include "mozilla/Maybe.h"
#include "mozilla/OwningNonNull.h"
#include "mozilla/PseudoElementHashEntry.h"
Bug 1226118 part 8 - Add EffectCompositor::GetAnimationsForCompositor that uses the EffectSet rather than AnimationCollection; r=dholbert This added method should behave in an equivalent manner to the existing CommonAnimationManager::GetAnimationsForCompositor except for the following differences: * It uses the EffectSet attached to a target element rather than one of the AnimationCollection object on the owning element. * It returns an array of Animation objects consisting of only those Animations that actually have the specified property as opposed to the AnimationCollection consisting of *all* CSS animations or *all* CSS transitions for the element regardless of whether they run on the compositor or not. It may not be obvious why these two methods otherwise behave in an equivalent fashion so the following explains how the existing code is mirrored in the new method. The existing code is as follows: > AnimationCollection* > CommonAnimationManager::GetAnimationsForCompositor(const nsIFrame* aFrame, > nsCSSProperty aProperty) > { > AnimationCollection* collection = GetAnimationCollection(aFrame); > if (!collection || > !collection->HasCurrentAnimationOfProperty(aProperty) || > !collection->CanPerformOnCompositorThread(aFrame)) { > return nullptr; > } > > // This animation can be done on the compositor. > return collection; > } The new EffectCompositor::GetAnimationsForCompositor begins with two checks performed at the beginning of CanPerformOnCompositorThread: the checks for whether async animations are enabled or not and whether the frame has refused async animations since these are cheap and it makes sense to check them first. The next part of EffectCompositor::GetAnimationsForCompositor checks if there is an EffectSet associated with the frame. This is equivalent to the check whether |collection| is null or not above. Following, we iterate through the effects in the EffectSet. We first check if each effect is playing or not. In the above code, HasCurrentAnimationOfProperty only checks if the effect is *current* or not. However, CanPerformOnCompositorThread will only return true if it finds an animation that can run on the compositor that is *playing*. Since playing is a strict subset of current we only need to perform the more restrictive test. Next we check if the effect should block running other animations on the compositor. This is equivalent to the remainder of CanPerformOnCompositorThread. Note that the order is important here. Only playing animations should block other animations from running on the compositor. Furthermore, this needs to happen before the following step since animations of property other than |aProperty| can still block animations from running on the compositor. Finally, we check if the effect has an animation of |aProperty|. This is equivalent to the remainder of HasCurrentAnimationOfProperty. If all these checks succeed, we add the effect's animation to the result to return.
2015-12-04 02:34:12 +03:00
#include "mozilla/RefPtr.h"
#include "nsCSSPropertyID.h"
#include "nsCycleCollectionParticipant.h"
#include "nsDataHashtable.h"
#include "nsIStyleRuleProcessor.h"
Bug 1226118 part 8 - Add EffectCompositor::GetAnimationsForCompositor that uses the EffectSet rather than AnimationCollection; r=dholbert This added method should behave in an equivalent manner to the existing CommonAnimationManager::GetAnimationsForCompositor except for the following differences: * It uses the EffectSet attached to a target element rather than one of the AnimationCollection object on the owning element. * It returns an array of Animation objects consisting of only those Animations that actually have the specified property as opposed to the AnimationCollection consisting of *all* CSS animations or *all* CSS transitions for the element regardless of whether they run on the compositor or not. It may not be obvious why these two methods otherwise behave in an equivalent fashion so the following explains how the existing code is mirrored in the new method. The existing code is as follows: > AnimationCollection* > CommonAnimationManager::GetAnimationsForCompositor(const nsIFrame* aFrame, > nsCSSProperty aProperty) > { > AnimationCollection* collection = GetAnimationCollection(aFrame); > if (!collection || > !collection->HasCurrentAnimationOfProperty(aProperty) || > !collection->CanPerformOnCompositorThread(aFrame)) { > return nullptr; > } > > // This animation can be done on the compositor. > return collection; > } The new EffectCompositor::GetAnimationsForCompositor begins with two checks performed at the beginning of CanPerformOnCompositorThread: the checks for whether async animations are enabled or not and whether the frame has refused async animations since these are cheap and it makes sense to check them first. The next part of EffectCompositor::GetAnimationsForCompositor checks if there is an EffectSet associated with the frame. This is equivalent to the check whether |collection| is null or not above. Following, we iterate through the effects in the EffectSet. We first check if each effect is playing or not. In the above code, HasCurrentAnimationOfProperty only checks if the effect is *current* or not. However, CanPerformOnCompositorThread will only return true if it finds an animation that can run on the compositor that is *playing*. Since playing is a strict subset of current we only need to perform the more restrictive test. Next we check if the effect should block running other animations on the compositor. This is equivalent to the remainder of CanPerformOnCompositorThread. Note that the order is important here. Only playing animations should block other animations from running on the compositor. Furthermore, this needs to happen before the following step since animations of property other than |aProperty| can still block animations from running on the compositor. Finally, we check if the effect has an animation of |aProperty|. This is equivalent to the remainder of HasCurrentAnimationOfProperty. If all these checks succeed, we add the effect's animation to the result to return.
2015-12-04 02:34:12 +03:00
#include "nsTArray.h"
class nsCSSPropertyIDSet;
class nsIFrame;
class nsIStyleRule;
class nsPresContext;
class nsStyleContext;
Bug 1226118 part 8 - Add EffectCompositor::GetAnimationsForCompositor that uses the EffectSet rather than AnimationCollection; r=dholbert This added method should behave in an equivalent manner to the existing CommonAnimationManager::GetAnimationsForCompositor except for the following differences: * It uses the EffectSet attached to a target element rather than one of the AnimationCollection object on the owning element. * It returns an array of Animation objects consisting of only those Animations that actually have the specified property as opposed to the AnimationCollection consisting of *all* CSS animations or *all* CSS transitions for the element regardless of whether they run on the compositor or not. It may not be obvious why these two methods otherwise behave in an equivalent fashion so the following explains how the existing code is mirrored in the new method. The existing code is as follows: > AnimationCollection* > CommonAnimationManager::GetAnimationsForCompositor(const nsIFrame* aFrame, > nsCSSProperty aProperty) > { > AnimationCollection* collection = GetAnimationCollection(aFrame); > if (!collection || > !collection->HasCurrentAnimationOfProperty(aProperty) || > !collection->CanPerformOnCompositorThread(aFrame)) { > return nullptr; > } > > // This animation can be done on the compositor. > return collection; > } The new EffectCompositor::GetAnimationsForCompositor begins with two checks performed at the beginning of CanPerformOnCompositorThread: the checks for whether async animations are enabled or not and whether the frame has refused async animations since these are cheap and it makes sense to check them first. The next part of EffectCompositor::GetAnimationsForCompositor checks if there is an EffectSet associated with the frame. This is equivalent to the check whether |collection| is null or not above. Following, we iterate through the effects in the EffectSet. We first check if each effect is playing or not. In the above code, HasCurrentAnimationOfProperty only checks if the effect is *current* or not. However, CanPerformOnCompositorThread will only return true if it finds an animation that can run on the compositor that is *playing*. Since playing is a strict subset of current we only need to perform the more restrictive test. Next we check if the effect should block running other animations on the compositor. This is equivalent to the remainder of CanPerformOnCompositorThread. Note that the order is important here. Only playing animations should block other animations from running on the compositor. Furthermore, this needs to happen before the following step since animations of property other than |aProperty| can still block animations from running on the compositor. Finally, we check if the effect has an animation of |aProperty|. This is equivalent to the remainder of HasCurrentAnimationOfProperty. If all these checks succeed, we add the effect's animation to the result to return.
2015-12-04 02:34:12 +03:00
namespace mozilla {
class EffectSet;
class RestyleTracker;
class StyleAnimationValue;
struct AnimationPerformanceWarning;
struct NonOwningAnimationTarget;
Bug 1226118 part 8 - Add EffectCompositor::GetAnimationsForCompositor that uses the EffectSet rather than AnimationCollection; r=dholbert This added method should behave in an equivalent manner to the existing CommonAnimationManager::GetAnimationsForCompositor except for the following differences: * It uses the EffectSet attached to a target element rather than one of the AnimationCollection object on the owning element. * It returns an array of Animation objects consisting of only those Animations that actually have the specified property as opposed to the AnimationCollection consisting of *all* CSS animations or *all* CSS transitions for the element regardless of whether they run on the compositor or not. It may not be obvious why these two methods otherwise behave in an equivalent fashion so the following explains how the existing code is mirrored in the new method. The existing code is as follows: > AnimationCollection* > CommonAnimationManager::GetAnimationsForCompositor(const nsIFrame* aFrame, > nsCSSProperty aProperty) > { > AnimationCollection* collection = GetAnimationCollection(aFrame); > if (!collection || > !collection->HasCurrentAnimationOfProperty(aProperty) || > !collection->CanPerformOnCompositorThread(aFrame)) { > return nullptr; > } > > // This animation can be done on the compositor. > return collection; > } The new EffectCompositor::GetAnimationsForCompositor begins with two checks performed at the beginning of CanPerformOnCompositorThread: the checks for whether async animations are enabled or not and whether the frame has refused async animations since these are cheap and it makes sense to check them first. The next part of EffectCompositor::GetAnimationsForCompositor checks if there is an EffectSet associated with the frame. This is equivalent to the check whether |collection| is null or not above. Following, we iterate through the effects in the EffectSet. We first check if each effect is playing or not. In the above code, HasCurrentAnimationOfProperty only checks if the effect is *current* or not. However, CanPerformOnCompositorThread will only return true if it finds an animation that can run on the compositor that is *playing*. Since playing is a strict subset of current we only need to perform the more restrictive test. Next we check if the effect should block running other animations on the compositor. This is equivalent to the remainder of CanPerformOnCompositorThread. Note that the order is important here. Only playing animations should block other animations from running on the compositor. Furthermore, this needs to happen before the following step since animations of property other than |aProperty| can still block animations from running on the compositor. Finally, we check if the effect has an animation of |aProperty|. This is equivalent to the remainder of HasCurrentAnimationOfProperty. If all these checks succeed, we add the effect's animation to the result to return.
2015-12-04 02:34:12 +03:00
namespace dom {
class Animation;
class Element;
Bug 1226118 part 8 - Add EffectCompositor::GetAnimationsForCompositor that uses the EffectSet rather than AnimationCollection; r=dholbert This added method should behave in an equivalent manner to the existing CommonAnimationManager::GetAnimationsForCompositor except for the following differences: * It uses the EffectSet attached to a target element rather than one of the AnimationCollection object on the owning element. * It returns an array of Animation objects consisting of only those Animations that actually have the specified property as opposed to the AnimationCollection consisting of *all* CSS animations or *all* CSS transitions for the element regardless of whether they run on the compositor or not. It may not be obvious why these two methods otherwise behave in an equivalent fashion so the following explains how the existing code is mirrored in the new method. The existing code is as follows: > AnimationCollection* > CommonAnimationManager::GetAnimationsForCompositor(const nsIFrame* aFrame, > nsCSSProperty aProperty) > { > AnimationCollection* collection = GetAnimationCollection(aFrame); > if (!collection || > !collection->HasCurrentAnimationOfProperty(aProperty) || > !collection->CanPerformOnCompositorThread(aFrame)) { > return nullptr; > } > > // This animation can be done on the compositor. > return collection; > } The new EffectCompositor::GetAnimationsForCompositor begins with two checks performed at the beginning of CanPerformOnCompositorThread: the checks for whether async animations are enabled or not and whether the frame has refused async animations since these are cheap and it makes sense to check them first. The next part of EffectCompositor::GetAnimationsForCompositor checks if there is an EffectSet associated with the frame. This is equivalent to the check whether |collection| is null or not above. Following, we iterate through the effects in the EffectSet. We first check if each effect is playing or not. In the above code, HasCurrentAnimationOfProperty only checks if the effect is *current* or not. However, CanPerformOnCompositorThread will only return true if it finds an animation that can run on the compositor that is *playing*. Since playing is a strict subset of current we only need to perform the more restrictive test. Next we check if the effect should block running other animations on the compositor. This is equivalent to the remainder of CanPerformOnCompositorThread. Note that the order is important here. Only playing animations should block other animations from running on the compositor. Furthermore, this needs to happen before the following step since animations of property other than |aProperty| can still block animations from running on the compositor. Finally, we check if the effect has an animation of |aProperty|. This is equivalent to the remainder of HasCurrentAnimationOfProperty. If all these checks succeed, we add the effect's animation to the result to return.
2015-12-04 02:34:12 +03:00
}
class EffectCompositor
{
public:
explicit EffectCompositor(nsPresContext* aPresContext)
: mPresContext(aPresContext)
{
for (size_t i = 0; i < kCascadeLevelCount; i++) {
CascadeLevel cascadeLevel = CascadeLevel(i);
mRuleProcessors[cascadeLevel] =
new AnimationStyleRuleProcessor(this, cascadeLevel);
}
}
NS_INLINE_DECL_CYCLE_COLLECTING_NATIVE_REFCOUNTING(EffectCompositor)
NS_DECL_CYCLE_COLLECTION_NATIVE_CLASS(EffectCompositor)
void Disconnect() {
mPresContext = nullptr;
}
// Animations can be applied at two different levels in the CSS cascade:
enum class CascadeLevel {
// The animations sheet (CSS animations, script-generated animations,
// and CSS transitions that are no longer tied to CSS markup)
Animations,
// The transitions sheet (CSS transitions that are tied to CSS markup)
Transitions
};
// We don't define this as part of CascadeLevel as then we'd have to add
// explicit checks for the Count enum value everywhere CascadeLevel is used.
static const size_t kCascadeLevelCount =
static_cast<size_t>(CascadeLevel::Transitions) + 1;
// NOTE: This can return null after Disconnect().
nsPresContext* PresContext() const { return mPresContext; }
enum class RestyleType {
// Animation style has changed but the compositor is applying the same
// change so we might be able to defer updating the main thread until it
// becomes necessary.
Throttled,
// Animation style has changed and needs to be updated on the main thread.
Standard,
// Animation style has changed and needs to be updated on the main thread
// as well as forcing animations on layers to be updated.
// This is needed in cases such as when an animation becomes paused or has
// its playback rate changed. In such cases, although the computed style
// and refresh driver time might not change, we still need to ensure the
// corresponding animations on layers are updated to reflect the new
// configuration of the animation.
Layer
};
// Notifies the compositor that the animation rule for the specified
// (pseudo-)element at the specified cascade level needs to be updated.
// The specified steps taken to update the animation rule depend on
// |aRestyleType| whose values are described above.
void RequestRestyle(dom::Element* aElement,
CSSPseudoElementType aPseudoType,
RestyleType aRestyleType,
CascadeLevel aCascadeLevel);
// Schedule an animation restyle. This is called automatically by
// RequestRestyle when necessary. However, it is exposed here since we also
// need to perform this step when triggering transitions *without* also
// invalidating the animation style rule (which RequestRestyle would do).
void PostRestyleForAnimation(dom::Element* aElement,
CSSPseudoElementType aPseudoType,
CascadeLevel aCascadeLevel);
// Posts an animation restyle for any elements whose animation style rule
// is out of date but for which an animation restyle has not yet been
// posted because updates on the main thread are throttled.
void PostRestyleForThrottledAnimations();
// Called when the style context on the specified (pseudo-) element might
// have changed so that any context-sensitive values stored within
// animation effects (e.g. em-based endpoints used in keyframe effects)
// can be re-resolved to computed values.
void UpdateEffectProperties(nsStyleContext* aStyleContext,
dom::Element* aElement,
CSSPseudoElementType aPseudoType);
// Updates the animation rule stored on the EffectSet for the
// specified (pseudo-)element for cascade level |aLevel|.
// If the animation rule is not marked as needing an update,
// no work is done.
// |aStyleContext| is used for UpdateCascadingResults.
// |aStyleContext| can be nullptr if style context, which is associated with
// the primary frame of the specified (pseudo-)element, is the current style
// context.
// If we are resolving a new style context, we shoud pass the newly created
// style context, otherwise we may use an old style context, it will result
// unexpected cascading results.
void MaybeUpdateAnimationRule(dom::Element* aElement,
CSSPseudoElementType aPseudoType,
CascadeLevel aCascadeLevel,
nsStyleContext *aStyleContext);
// We need to pass the newly resolved style context as |aStyleContext| when
// we call this function during resolving style context because this function
// calls UpdateCascadingResults with a style context if necessary, at the
// time, we end up using the previous style context if we don't pass the new
// style context.
// When we are not resolving style context, |aStyleContext| can be nullptr, we
// will use a style context associated with the primary frame of the specified
// (pseudo-)element.
nsIStyleRule* GetAnimationRule(dom::Element* aElement,
CSSPseudoElementType aPseudoType,
CascadeLevel aCascadeLevel,
nsStyleContext* aStyleContext);
2016-01-13 01:54:55 +03:00
bool HasPendingStyleUpdates() const;
bool HasThrottledStyleUpdates() const;
// Tell the restyle tracker about all the animated styles that have
// pending updates so that it can update the animation rule for these
// elements.
void AddStyleUpdatesTo(RestyleTracker& aTracker);
nsIStyleRuleProcessor* RuleProcessor(CascadeLevel aCascadeLevel) const
{
return mRuleProcessors[aCascadeLevel];
}
static bool HasAnimationsForCompositor(const nsIFrame* aFrame,
nsCSSPropertyID aProperty);
Bug 1226118 part 8 - Add EffectCompositor::GetAnimationsForCompositor that uses the EffectSet rather than AnimationCollection; r=dholbert This added method should behave in an equivalent manner to the existing CommonAnimationManager::GetAnimationsForCompositor except for the following differences: * It uses the EffectSet attached to a target element rather than one of the AnimationCollection object on the owning element. * It returns an array of Animation objects consisting of only those Animations that actually have the specified property as opposed to the AnimationCollection consisting of *all* CSS animations or *all* CSS transitions for the element regardless of whether they run on the compositor or not. It may not be obvious why these two methods otherwise behave in an equivalent fashion so the following explains how the existing code is mirrored in the new method. The existing code is as follows: > AnimationCollection* > CommonAnimationManager::GetAnimationsForCompositor(const nsIFrame* aFrame, > nsCSSProperty aProperty) > { > AnimationCollection* collection = GetAnimationCollection(aFrame); > if (!collection || > !collection->HasCurrentAnimationOfProperty(aProperty) || > !collection->CanPerformOnCompositorThread(aFrame)) { > return nullptr; > } > > // This animation can be done on the compositor. > return collection; > } The new EffectCompositor::GetAnimationsForCompositor begins with two checks performed at the beginning of CanPerformOnCompositorThread: the checks for whether async animations are enabled or not and whether the frame has refused async animations since these are cheap and it makes sense to check them first. The next part of EffectCompositor::GetAnimationsForCompositor checks if there is an EffectSet associated with the frame. This is equivalent to the check whether |collection| is null or not above. Following, we iterate through the effects in the EffectSet. We first check if each effect is playing or not. In the above code, HasCurrentAnimationOfProperty only checks if the effect is *current* or not. However, CanPerformOnCompositorThread will only return true if it finds an animation that can run on the compositor that is *playing*. Since playing is a strict subset of current we only need to perform the more restrictive test. Next we check if the effect should block running other animations on the compositor. This is equivalent to the remainder of CanPerformOnCompositorThread. Note that the order is important here. Only playing animations should block other animations from running on the compositor. Furthermore, this needs to happen before the following step since animations of property other than |aProperty| can still block animations from running on the compositor. Finally, we check if the effect has an animation of |aProperty|. This is equivalent to the remainder of HasCurrentAnimationOfProperty. If all these checks succeed, we add the effect's animation to the result to return.
2015-12-04 02:34:12 +03:00
static nsTArray<RefPtr<dom::Animation>>
GetAnimationsForCompositor(const nsIFrame* aFrame,
nsCSSPropertyID aProperty);
static void ClearIsRunningOnCompositor(const nsIFrame* aFrame,
nsCSSPropertyID aProperty);
// Update animation cascade results for the specified (pseudo-)element
// but only if we have marked the cascade as needing an update due a
// the change in the set of effects or a change in one of the effects'
// "in effect" state.
// |aStyleContext| may be nullptr in which case we will use the
// nsStyleContext of the primary frame of the specified (pseudo-)element.
//
// This method does NOT detect if other styles that apply above the
// animation level of the cascade have changed.
static void
MaybeUpdateCascadeResults(dom::Element* aElement,
CSSPseudoElementType aPseudoType,
nsStyleContext* aStyleContext);
// Update the mPropertiesWithImportantRules and
// mPropertiesForAnimationsLevel members of the corresponding EffectSet.
//
// This can be expensive so we should only call it if styles that apply
// above the animation level of the cascade might have changed. For all
// other cases we should call MaybeUpdateCascadeResults.
static void
UpdateCascadeResults(dom::Element* aElement,
CSSPseudoElementType aPseudoType,
nsStyleContext* aStyleContext);
// Helper to fetch the corresponding element and pseudo-type from a frame.
//
// For frames corresponding to pseudo-elements, the returned element is the
// element on which we store the animations (i.e. the EffectSet and/or
// AnimationCollection), *not* the generated content.
//
// Returns an empty result when a suitable element cannot be found including
// when the frame represents a pseudo-element on which we do not support
// animations.
static Maybe<NonOwningAnimationTarget>
GetAnimationElementAndPseudoForFrame(const nsIFrame* aFrame);
// Associates a performance warning with effects on |aFrame| that animates
// |aProperty|.
static void SetPerformanceWarning(
const nsIFrame* aFrame,
nsCSSPropertyID aProperty,
const AnimationPerformanceWarning& aWarning);
// Get resolved base style on |aElement| for |aProperty| with |aStyleContext|.
static StyleAnimationValue GetBaseStyle(nsCSSPropertyID aProperty,
nsStyleContext* aStyleContext,
dom::Element& aElement);
private:
~EffectCompositor() = default;
// Rebuilds the animation rule corresponding to |aCascadeLevel| on the
// EffectSet associated with the specified (pseudo-)element.
static void ComposeAnimationRule(dom::Element* aElement,
CSSPseudoElementType aPseudoType,
CascadeLevel aCascadeLevel,
TimeStamp aRefreshTime);
static dom::Element* GetElementToRestyle(dom::Element* aElement,
CSSPseudoElementType
aPseudoType);
// Get the properties in |aEffectSet| that we are able to animate on the
// compositor but which are also specified at a higher level in the cascade
// than the animations level in |aStyleContext|.
static void
GetOverriddenProperties(nsStyleContext* aStyleContext,
EffectSet& aEffectSet,
nsCSSPropertyIDSet& aPropertiesOverridden);
static void
UpdateCascadeResults(EffectSet& aEffectSet,
dom::Element* aElement,
CSSPseudoElementType aPseudoType,
nsStyleContext* aStyleContext);
static nsPresContext* GetPresContext(dom::Element* aElement);
nsPresContext* mPresContext;
// Elements with a pending animation restyle. The associated bool value is
// true if a pending animation restyle has also been dispatched. For
// animations that can be throttled, we will add an entry to the hashtable to
// indicate that the style rule on the element is out of date but without
// posting a restyle to update it.
EnumeratedArray<CascadeLevel, CascadeLevel(kCascadeLevelCount),
nsDataHashtable<PseudoElementHashEntry, bool>>
mElementsToRestyle;
class AnimationStyleRuleProcessor final : public nsIStyleRuleProcessor
{
public:
AnimationStyleRuleProcessor(EffectCompositor* aCompositor,
CascadeLevel aCascadeLevel)
: mCompositor(aCompositor)
, mCascadeLevel(aCascadeLevel)
{
MOZ_ASSERT(aCompositor);
}
NS_DECL_ISUPPORTS
// nsIStyleRuleProcessor (parts)
nsRestyleHint HasStateDependentStyle(
StateRuleProcessorData* aData) override;
nsRestyleHint HasStateDependentStyle(
PseudoElementStateRuleProcessorData* aData) override;
bool HasDocumentStateDependentStyle(StateRuleProcessorData* aData) override;
nsRestyleHint HasAttributeDependentStyle(
AttributeRuleProcessorData* aData,
RestyleHintData& aRestyleHintDataResult) override;
bool MediumFeaturesChanged(nsPresContext* aPresContext) override;
void RulesMatching(ElementRuleProcessorData* aData) override;
void RulesMatching(PseudoElementRuleProcessorData* aData) override;
void RulesMatching(AnonBoxRuleProcessorData* aData) override;
#ifdef MOZ_XUL
void RulesMatching(XULTreeRuleProcessorData* aData) override;
#endif
size_t SizeOfExcludingThis(MallocSizeOf aMallocSizeOf)
const MOZ_MUST_OVERRIDE override;
size_t SizeOfIncludingThis(MallocSizeOf aMallocSizeOf)
const MOZ_MUST_OVERRIDE override;
private:
~AnimationStyleRuleProcessor() = default;
EffectCompositor* mCompositor;
CascadeLevel mCascadeLevel;
};
EnumeratedArray<CascadeLevel, CascadeLevel(kCascadeLevelCount),
OwningNonNull<AnimationStyleRuleProcessor>>
mRuleProcessors;
Bug 1226118 part 8 - Add EffectCompositor::GetAnimationsForCompositor that uses the EffectSet rather than AnimationCollection; r=dholbert This added method should behave in an equivalent manner to the existing CommonAnimationManager::GetAnimationsForCompositor except for the following differences: * It uses the EffectSet attached to a target element rather than one of the AnimationCollection object on the owning element. * It returns an array of Animation objects consisting of only those Animations that actually have the specified property as opposed to the AnimationCollection consisting of *all* CSS animations or *all* CSS transitions for the element regardless of whether they run on the compositor or not. It may not be obvious why these two methods otherwise behave in an equivalent fashion so the following explains how the existing code is mirrored in the new method. The existing code is as follows: > AnimationCollection* > CommonAnimationManager::GetAnimationsForCompositor(const nsIFrame* aFrame, > nsCSSProperty aProperty) > { > AnimationCollection* collection = GetAnimationCollection(aFrame); > if (!collection || > !collection->HasCurrentAnimationOfProperty(aProperty) || > !collection->CanPerformOnCompositorThread(aFrame)) { > return nullptr; > } > > // This animation can be done on the compositor. > return collection; > } The new EffectCompositor::GetAnimationsForCompositor begins with two checks performed at the beginning of CanPerformOnCompositorThread: the checks for whether async animations are enabled or not and whether the frame has refused async animations since these are cheap and it makes sense to check them first. The next part of EffectCompositor::GetAnimationsForCompositor checks if there is an EffectSet associated with the frame. This is equivalent to the check whether |collection| is null or not above. Following, we iterate through the effects in the EffectSet. We first check if each effect is playing or not. In the above code, HasCurrentAnimationOfProperty only checks if the effect is *current* or not. However, CanPerformOnCompositorThread will only return true if it finds an animation that can run on the compositor that is *playing*. Since playing is a strict subset of current we only need to perform the more restrictive test. Next we check if the effect should block running other animations on the compositor. This is equivalent to the remainder of CanPerformOnCompositorThread. Note that the order is important here. Only playing animations should block other animations from running on the compositor. Furthermore, this needs to happen before the following step since animations of property other than |aProperty| can still block animations from running on the compositor. Finally, we check if the effect has an animation of |aProperty|. This is equivalent to the remainder of HasCurrentAnimationOfProperty. If all these checks succeed, we add the effect's animation to the result to return.
2015-12-04 02:34:12 +03:00
};
} // namespace mozilla
#endif // mozilla_EffectCompositor_h