void KeyframeEffect::applyEffects()
{
ASSERT(isInEffect());
ASSERT(animation());
if (!m_target || !m_model)
return;
if (hasIncompatibleStyle())
animation()->cancelAnimationOnCompositor();
double iteration = currentIteration();
ASSERT(iteration >= 0);
bool changed = false;
if (m_sampledEffect) {
changed = m_model->sample(clampTo<int>(iteration, 0), timeFraction(), iterationDuration(), m_sampledEffect->mutableInterpolations());
} else {
Vector<RefPtr<Interpolation>> interpolations;
m_model->sample(clampTo<int>(iteration, 0), timeFraction(), iterationDuration(), interpolations);
if (!interpolations.isEmpty()) {
SampledEffect* sampledEffect = SampledEffect::create(this);
sampledEffect->mutableInterpolations().swap(interpolations);
m_sampledEffect = sampledEffect;
ensureAnimationStack(m_target).add(sampledEffect);
changed = true;
} else {
return;
}
}
if (changed) {
m_target->setNeedsAnimationStyleRecalc();
if (RuntimeEnabledFeatures::webAnimationsSVGEnabled() && m_target->isSVGElement())
toSVGElement(*m_target).setWebAnimationsPending();
}
}
void KeyframeEffect::applyEffects()
{
ASSERT(isInEffect());
ASSERT(animation());
if (!m_target || !m_model)
return;
// Cancel composited animation of transform if a motion path has been introduced on the element.
if (m_target->computedStyle()
&& m_target->computedStyle()->hasMotionPath()
&& animation()->hasActiveAnimationsOnCompositor()
&& animation()->affects(*m_target, CSSPropertyTransform)) {
animation()->cancelAnimationOnCompositor();
}
double iteration = currentIteration();
ASSERT(iteration >= 0);
OwnPtrWillBeRawPtr<WillBeHeapVector<RefPtrWillBeMember<Interpolation>>> interpolations = m_sampledEffect ? m_sampledEffect->mutableInterpolations() : nullptr;
// FIXME: Handle iteration values which overflow int.
m_model->sample(static_cast<int>(iteration), timeFraction(), iterationDuration(), interpolations);
if (m_sampledEffect) {
m_sampledEffect->setInterpolations(interpolations.release());
} else if (interpolations && !interpolations->isEmpty()) {
OwnPtrWillBeRawPtr<SampledEffect> sampledEffect = SampledEffect::create(this, interpolations.release());
m_sampledEffect = sampledEffect.get();
ensureAnimationStack(m_target).add(sampledEffect.release());
} else {
return;
}
m_target->setNeedsAnimationStyleRecalc();
if (m_target->isSVGElement())
m_sampledEffect->applySVGUpdate(toSVGElement(*m_target));
}
PassOwnPtr<AnimationEffect::CompositableValueList> InertAnimation::sample()
{
updateInheritedTime(0);
if (!isInEffect())
return nullptr;
double iteration = currentIteration();
ASSERT(iteration >= 0);
// FIXME: Handle iteration values which overflow int.
return m_effect->sample(static_cast<int>(iteration), timeFraction());
}
PassOwnPtrWillBeRawPtr<WillBeHeapVector<RefPtrWillBeMember<Interpolation> > > InertAnimation::sample(double inheritedTime)
{
updateInheritedTime(inheritedTime, TimingUpdateOnDemand);
if (!isInEffect())
return nullptr;
double iteration = currentIteration();
ASSERT(iteration >= 0);
// FIXME: Handle iteration values which overflow int.
return m_effect->sample(static_cast<int>(iteration), timeFraction(), iterationDuration());
}
void InertEffect::sample(Vector<RefPtr<Interpolation>>& result)
{
updateInheritedTime(m_inheritedTime, TimingUpdateOnDemand);
if (!isInEffect()) {
result.clear();
return;
}
double iteration = currentIteration();
ASSERT(iteration >= 0);
m_model->sample(clampTo<int>(iteration, 0), timeFraction(), iterationDuration(), result);
}
void InertEffect::sample(OwnPtrWillBeRawPtr<WillBeHeapVector<RefPtrWillBeMember<Interpolation>>>& result)
{
updateInheritedTime(m_inheritedTime, TimingUpdateOnDemand);
if (!isInEffect()) {
result.clear();
return;
}
double iteration = currentIteration();
ASSERT(iteration >= 0);
// FIXME: Handle iteration values which overflow int.
return m_model->sample(static_cast<int>(iteration), timeFraction(), iterationDuration(), result);
}
bool Animation::applyEffects(bool previouslyInEffect)
{
ASSERT(isInEffect());
if (!m_target || !m_effect)
return false;
if (player() && !previouslyInEffect) {
ensureAnimationStack(m_target.get()).add(this);
m_activeInAnimationStack = true;
}
double iteration = currentIteration();
ASSERT(iteration >= 0);
// FIXME: Handle iteration values which overflow int.
m_compositableValues = m_effect->sample(static_cast<int>(iteration), timeFraction());
if (player()) {
m_target->setNeedsAnimationStyleRecalc();
return true;
}
return false;
}
void Animation::applyEffects()
{
ASSERT(isInEffect());
ASSERT(player());
if (!m_target || !m_effect)
return;
double iteration = currentIteration();
ASSERT(iteration >= 0);
// FIXME: Handle iteration values which overflow int.
OwnPtr<Vector<RefPtr<Interpolation> > > interpolations = m_effect->sample(static_cast<int>(iteration), timeFraction(), iterationDuration());
if (m_sampledEffect) {
m_sampledEffect->setInterpolations(interpolations.release());
} else if (!interpolations->isEmpty()) {
OwnPtr<SampledEffect> sampledEffect = SampledEffect::create(this, interpolations.release());
m_sampledEffect = sampledEffect.get();
ensureAnimationStack(m_target).add(sampledEffect.release());
} else {
return;
}
m_target->setNeedsAnimationStyleRecalc();
}
void AMLoopAction3::internalOnSubActionStatusTextChanged(const QString &statusText)
{
setStatusText("Step " % QString::number(currentSubActionIndex()+1) % " of loop " % QString::number(currentIteration()+1) % "\n(" % currentSubAction()->info()->shortDescription() % "): " % statusText);
}
