diff options
Diffstat (limited to 'layout/style/nsTransitionManager.cpp')
| -rw-r--r-- | layout/style/nsTransitionManager.cpp | 113 |
1 files changed, 82 insertions, 31 deletions
diff --git a/layout/style/nsTransitionManager.cpp b/layout/style/nsTransitionManager.cpp index 4a1a5b7adf..118702e8f5 100644 --- a/layout/style/nsTransitionManager.cpp +++ b/layout/style/nsTransitionManager.cpp @@ -46,8 +46,6 @@ using mozilla::dom::KeyframeEffectReadOnly; using namespace mozilla; using namespace mozilla::css; -typedef mozilla::ComputedTiming::AnimationPhase AnimationPhase; - namespace { struct TransitionEventParams { EventMessage mMessage; @@ -180,10 +178,9 @@ CSSTransition::UpdateTiming(SeekFlag aSeekFlag, SyncNotifyFlag aSyncNotifyFlag) } void -CSSTransition::QueueEvents() +CSSTransition::QueueEvents(StickyTimeDuration aActiveTime) { - if (!mEffect || - !mOwningElement.IsSet()) { + if (!mOwningElement.IsSet()) { return; } @@ -197,69 +194,123 @@ CSSTransition::QueueEvents() return; } - ComputedTiming computedTiming = mEffect->GetComputedTiming(); - const StickyTimeDuration zeroDuration; - StickyTimeDuration intervalStartTime = - std::max(std::min(StickyTimeDuration(-mEffect->SpecifiedTiming().mDelay), - computedTiming.mActiveDuration), zeroDuration); - StickyTimeDuration intervalEndTime = - std::max(std::min((EffectEnd() - mEffect->SpecifiedTiming().mDelay), - computedTiming.mActiveDuration), zeroDuration); + const StickyTimeDuration zeroDuration = StickyTimeDuration(); + + TransitionPhase currentPhase; + StickyTimeDuration intervalStartTime; + StickyTimeDuration intervalEndTime; + + if (!mEffect) { + currentPhase = GetAnimationPhaseWithoutEffect<TransitionPhase>(*this); + intervalStartTime = zeroDuration; + intervalEndTime = zeroDuration; + } else { + ComputedTiming computedTiming = mEffect->GetComputedTiming(); + + currentPhase = static_cast<TransitionPhase>(computedTiming.mPhase); + intervalStartTime = + std::max(std::min(StickyTimeDuration(-mEffect->SpecifiedTiming().mDelay), + computedTiming.mActiveDuration), zeroDuration); + intervalEndTime = + std::max(std::min((EffectEnd() - mEffect->SpecifiedTiming().mDelay), + computedTiming.mActiveDuration), zeroDuration); + } // TimeStamps to use for ordering the events when they are dispatched. We // use a TimeStamp so we can compare events produced by different elements, // perhaps even with different timelines. // The zero timestamp is for transitionrun events where we ignore the delay // for the purpose of ordering events. - TimeStamp startTimeStamp = ElapsedTimeToTimeStamp(intervalStartTime); - TimeStamp endTimeStamp = ElapsedTimeToTimeStamp(intervalEndTime); + TimeStamp zeroTimeStamp = AnimationTimeToTimeStamp(zeroDuration); + TimeStamp startTimeStamp = ElapsedTimeToTimeStamp(intervalStartTime); + TimeStamp endTimeStamp = ElapsedTimeToTimeStamp(intervalEndTime); - TransitionPhase currentPhase; if (mPendingState != PendingState::NotPending && (mPreviousTransitionPhase == TransitionPhase::Idle || mPreviousTransitionPhase == TransitionPhase::Pending)) { currentPhase = TransitionPhase::Pending; - } else { - currentPhase = static_cast<TransitionPhase>(computedTiming.mPhase); } AutoTArray<TransitionEventParams, 3> events; + + // Handle cancel events firts + if (mPreviousTransitionPhase != TransitionPhase::Idle && + currentPhase == TransitionPhase::Idle) { + TimeStamp activeTimeStamp = ElapsedTimeToTimeStamp(aActiveTime); + events.AppendElement(TransitionEventParams{ eTransitionCancel, + aActiveTime, + activeTimeStamp }); + } + + // All other events switch (mPreviousTransitionPhase) { case TransitionPhase::Idle: - if (currentPhase == TransitionPhase::After) { + if (currentPhase == TransitionPhase::Pending || + currentPhase == TransitionPhase::Before) { + events.AppendElement(TransitionEventParams{ eTransitionRun, + intervalStartTime, + zeroTimeStamp }); + } else if (currentPhase == TransitionPhase::Active) { + events.AppendElement(TransitionEventParams{ eTransitionRun, + intervalStartTime, + zeroTimeStamp }); + events.AppendElement(TransitionEventParams{ eTransitionStart, + intervalStartTime, + startTimeStamp }); + } else if (currentPhase == TransitionPhase::After) { + events.AppendElement(TransitionEventParams{ eTransitionRun, + intervalStartTime, + zeroTimeStamp }); + events.AppendElement(TransitionEventParams{ eTransitionStart, + intervalStartTime, + startTimeStamp }); events.AppendElement(TransitionEventParams{ eTransitionEnd, - intervalEndTime, - endTimeStamp }); + intervalEndTime, + endTimeStamp }); } break; case TransitionPhase::Pending: case TransitionPhase::Before: - if (currentPhase == TransitionPhase::After) { + if (currentPhase == TransitionPhase::Active) { + events.AppendElement(TransitionEventParams{ eTransitionStart, + intervalStartTime, + startTimeStamp }); + } else if (currentPhase == TransitionPhase::After) { + events.AppendElement(TransitionEventParams{ eTransitionStart, + intervalStartTime, + startTimeStamp }); events.AppendElement(TransitionEventParams{ eTransitionEnd, - intervalEndTime, - endTimeStamp }); + intervalEndTime, + endTimeStamp }); } break; case TransitionPhase::Active: if (currentPhase == TransitionPhase::After) { events.AppendElement(TransitionEventParams{ eTransitionEnd, - intervalEndTime, - endTimeStamp }); + intervalEndTime, + endTimeStamp }); } else if (currentPhase == TransitionPhase::Before) { events.AppendElement(TransitionEventParams{ eTransitionEnd, - intervalStartTime, - startTimeStamp }); + intervalStartTime, + startTimeStamp }); } break; case TransitionPhase::After: - if (currentPhase == TransitionPhase::Before) { + if (currentPhase == TransitionPhase::Active) { + events.AppendElement(TransitionEventParams{ eTransitionStart, + intervalEndTime, + startTimeStamp }); + } else if (currentPhase == TransitionPhase::Before) { + events.AppendElement(TransitionEventParams{ eTransitionStart, + intervalEndTime, + startTimeStamp }); events.AppendElement(TransitionEventParams{ eTransitionEnd, - intervalStartTime, - endTimeStamp }); + intervalStartTime, + endTimeStamp }); } break; } |