gecko-dev/dom/smil/nsSMILCompositor.cpp

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
2012-05-21 15:12:37 +04:00
/* 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 "nsSMILCompositor.h"
#include "nsComputedDOMStyle.h"
#include "nsCSSProps.h"
#include "nsHashKeys.h"
#include "nsSMILCSSProperty.h"
// PLDHashEntryHdr methods
bool
nsSMILCompositor::KeyEquals(KeyTypePointer aKey) const
{
return aKey && aKey->Equals(mKey);
}
/*static*/ PLDHashNumber
nsSMILCompositor::HashKey(KeyTypePointer aKey)
{
// Combine the 3 values into one numeric value, which will be hashed.
// NOTE: We right-shift one of the pointers by 2 to get some randomness in
// its 2 lowest-order bits. (Those shifted-off bits will always be 0 since
// our pointers will be word-aligned.)
return (NS_PTR_TO_UINT32(aKey->mElement.get()) >> 2) +
NS_PTR_TO_UINT32(aKey->mAttributeName.get());
}
// Cycle-collection support
void
nsSMILCompositor::Traverse(nsCycleCollectionTraversalCallback* aCallback)
{
if (!mKey.mElement)
return;
NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(*aCallback, "Compositor mKey.mElement");
aCallback->NoteXPCOMChild(mKey.mElement);
}
// Other methods
void
nsSMILCompositor::AddAnimationFunction(nsSMILAnimationFunction* aFunc)
{
if (aFunc) {
mAnimationFunctions.AppendElement(aFunc);
}
}
void
nsSMILCompositor::ComposeAttribute(bool& aMightHavePendingStyleUpdates)
{
if (!mKey.mElement)
return;
// If we might need to resolve base styles, grab a suitable style context
// for initializing our nsISMILAttr with.
RefPtr<nsStyleContext> baseStyleContext;
if (MightNeedBaseStyle()) {
baseStyleContext =
nsComputedDOMStyle::GetUnanimatedStyleContextNoFlush(mKey.mElement,
nullptr, nullptr);
}
// FIRST: Get the nsISMILAttr (to grab base value from, and to eventually
// give animated value to)
UniquePtr<nsISMILAttr> smilAttr = CreateSMILAttr(baseStyleContext);
if (!smilAttr) {
// Target attribute not found (or, out of memory)
return;
}
if (mAnimationFunctions.IsEmpty()) {
// No active animation functions. (We can still have a nsSMILCompositor in
// that case if an animation function has *just* become inactive)
smilAttr->ClearAnimValue();
// Removing the animation effect may require a style update.
aMightHavePendingStyleUpdates = true;
return;
}
// SECOND: Sort the animationFunctions, to prepare for compositing.
nsSMILAnimationFunction::Comparator comparator;
mAnimationFunctions.Sort(comparator);
// THIRD: Step backwards through animation functions to find out
// which ones we actually care about.
uint32_t firstFuncToCompose = GetFirstFuncToAffectSandwich();
// FOURTH: Get & cache base value
nsSMILValue sandwichResultValue;
if (!mAnimationFunctions[firstFuncToCompose]->WillReplace()) {
sandwichResultValue = smilAttr->GetBaseValue();
Bug 1353208 - Don't allocate separate heap memory for nsSMILCompositor::mCachedBaseValue; r=dholbert nsSMILCompositor::mCachedBaseValue is an nsAutoPtr<nsSMILValue> that we allocate on the heap. It looks like we did that back in bug 533291 presumably because it makes transferring these cached values between nsSMILCompositor objects cheaper. One drawback of this, however, is that mCachedBaseValue has two null states: the mCachedBaseValue pointer can be null, and the pointed-to nsSMILValue can be a null value (i.e. IsNull() returns true). Now that we have move ctors and operators defined for nsSMILValue we can transfer these objects between compositors cheaply without requiring the object to be allocated as separate heap object. This patch makes mCachedBaseValue just a regular nsSMILValue class member (i.e. drops the nsAutoPtr). There's a subtle difference in behavior with regards to the first sample. Previously we would compare the (initially) null mCachedBaseValue pointer with the passed-in nsSMILValue and set mForceCompositing to true. With this patch, however, we will only set mForceCompositing to true if the passed-in mCachedBaseValue is not null. I believe this is correct, however, since if we don't call GetBaseValue in ComposeAttribute we should not be setting mForceCompositing to true (something else should ensure that gets set to true), and if we do call GetBaseValue the result should not be a null nsSMILValue (except in some OOM cases where we don't really care if we miss a sample). This patch adds an assertion to check that GetBaseValue does, in fact, return a non-null value. (I checked the code and this appears to be the case. Even in error cases we typically return an empty nsSMILValue of a non-null type. For example, the early return in nsSMILCSSProperty::GetBaseValue() does this.) MozReview-Commit-ID: BRJFa4xMdxz --HG-- extra : rebase_source : f3e3ca1e01e73610523bde7583e2a002d2473184
2017-03-30 07:10:07 +03:00
MOZ_ASSERT(!sandwichResultValue.IsNull(),
"Result of GetBaseValue should not be null");
}
UpdateCachedBaseValue(sandwichResultValue);
if (!mForceCompositing) {
return;
}
// FIFTH: Compose animation functions
aMightHavePendingStyleUpdates = true;
uint32_t length = mAnimationFunctions.Length();
for (uint32_t i = firstFuncToCompose; i < length; ++i) {
mAnimationFunctions[i]->ComposeResult(*smilAttr, sandwichResultValue);
}
if (sandwichResultValue.IsNull()) {
smilAttr->ClearAnimValue();
return;
}
// SIXTH: Set the animated value to the final composited result.
nsresult rv = smilAttr->SetAnimValue(sandwichResultValue);
if (NS_FAILED(rv)) {
NS_WARNING("nsISMILAttr::SetAnimValue failed");
}
}
void
nsSMILCompositor::ClearAnimationEffects()
{
if (!mKey.mElement || !mKey.mAttributeName)
return;
UniquePtr<nsISMILAttr> smilAttr = CreateSMILAttr(nullptr);
if (!smilAttr) {
// Target attribute not found (or, out of memory)
return;
}
smilAttr->ClearAnimValue();
}
// Protected Helper Functions
// --------------------------
UniquePtr<nsISMILAttr>
nsSMILCompositor::CreateSMILAttr(nsStyleContext* aBaseStyleContext)
{
nsCSSPropertyID propID = GetCSSPropertyToAnimate();
if (propID != eCSSProperty_UNKNOWN) {
return MakeUnique<nsSMILCSSProperty>(propID, mKey.mElement.get(),
aBaseStyleContext);
}
return mKey.mElement->GetAnimatedAttr(mKey.mAttributeNamespaceID,
mKey.mAttributeName);
}
nsCSSPropertyID
nsSMILCompositor::GetCSSPropertyToAnimate() const
{
if (mKey.mAttributeNamespaceID != kNameSpaceID_None) {
return eCSSProperty_UNKNOWN;
}
nsCSSPropertyID propID =
nsCSSProps::LookupProperty(nsDependentAtomString(mKey.mAttributeName),
CSSEnabledState::eForAllContent);
if (!nsSMILCSSProperty::IsPropertyAnimatable(propID,
mKey.mElement->OwnerDoc()->GetStyleBackendType())) {
return eCSSProperty_UNKNOWN;
}
// If we are animating the 'width' or 'height' of an outer SVG
// element we should animate it as a CSS property, but for other elements
// (e.g. <rect>) we should animate it as a length attribute.
// The easiest way to test for an outer SVG element, is to see if it is an
// SVG-namespace element mapping its width/height attribute to style.
//
// If we have animation of 'width' or 'height' on an SVG element that is
// NOT mapping that attributes to style then it must not be an outermost SVG
// element so we should return eCSSProperty_UNKNOWN to indicate that we
// should animate as an attribute instead.
if ((mKey.mAttributeName == nsGkAtoms::width ||
mKey.mAttributeName == nsGkAtoms::height) &&
mKey.mElement->GetNameSpaceID() == kNameSpaceID_SVG &&
!mKey.mElement->IsAttributeMapped(mKey.mAttributeName)) {
return eCSSProperty_UNKNOWN;
}
return propID;
}
bool
nsSMILCompositor::MightNeedBaseStyle() const
{
if (GetCSSPropertyToAnimate() == eCSSProperty_UNKNOWN) {
return false;
}
// We should return true if at least one animation function might build on
// the base value.
for (const nsSMILAnimationFunction* func : mAnimationFunctions) {
if (!func->WillReplace()) {
return true;
}
}
return false;
}
uint32_t
nsSMILCompositor::GetFirstFuncToAffectSandwich()
{
// For performance reasons, we throttle most animations on elements in
// display:none subtrees. (We can't throttle animations that target the
// "display" property itself, though -- if we did, display:none elements
// could never be dynamically displayed via animations.)
// To determine whether we're in a display:none subtree, we will check the
// element's primary frame since element in display:none subtree doesn't have
// a primary frame. Before this process, we will construct frame when we
// append an element to subtree. So we will not need to worry about pending
// frame construction in this step.
bool canThrottle = mKey.mAttributeName != nsGkAtoms::display &&
!mKey.mElement->GetPrimaryFrame();
uint32_t i;
for (i = mAnimationFunctions.Length(); i > 0; --i) {
nsSMILAnimationFunction* curAnimFunc = mAnimationFunctions[i-1];
// In the following, the lack of short-circuit behavior of |= means that we
// will ALWAYS run UpdateCachedTarget (even if mForceCompositing is true)
// but only call HasChanged and WasSkippedInPrevSample if necessary. This
// is important since we need UpdateCachedTarget to run in order to detect
// changes to the target in subsequent samples.
mForceCompositing |=
curAnimFunc->UpdateCachedTarget(mKey) ||
(curAnimFunc->HasChanged() && !canThrottle) ||
curAnimFunc->WasSkippedInPrevSample();
if (curAnimFunc->WillReplace()) {
--i;
break;
}
}
// Mark remaining animation functions as having been skipped so if we later
// use them we'll know to force compositing.
// Note that we only really need to do this if something has changed
// (otherwise we would have set the flag on a previous sample) and if
// something has changed mForceCompositing will be true.
if (mForceCompositing) {
for (uint32_t j = i; j > 0; --j) {
mAnimationFunctions[j-1]->SetWasSkipped();
}
}
return i;
}
void
nsSMILCompositor::UpdateCachedBaseValue(const nsSMILValue& aBaseValue)
{
Bug 1353208 - Don't allocate separate heap memory for nsSMILCompositor::mCachedBaseValue; r=dholbert nsSMILCompositor::mCachedBaseValue is an nsAutoPtr<nsSMILValue> that we allocate on the heap. It looks like we did that back in bug 533291 presumably because it makes transferring these cached values between nsSMILCompositor objects cheaper. One drawback of this, however, is that mCachedBaseValue has two null states: the mCachedBaseValue pointer can be null, and the pointed-to nsSMILValue can be a null value (i.e. IsNull() returns true). Now that we have move ctors and operators defined for nsSMILValue we can transfer these objects between compositors cheaply without requiring the object to be allocated as separate heap object. This patch makes mCachedBaseValue just a regular nsSMILValue class member (i.e. drops the nsAutoPtr). There's a subtle difference in behavior with regards to the first sample. Previously we would compare the (initially) null mCachedBaseValue pointer with the passed-in nsSMILValue and set mForceCompositing to true. With this patch, however, we will only set mForceCompositing to true if the passed-in mCachedBaseValue is not null. I believe this is correct, however, since if we don't call GetBaseValue in ComposeAttribute we should not be setting mForceCompositing to true (something else should ensure that gets set to true), and if we do call GetBaseValue the result should not be a null nsSMILValue (except in some OOM cases where we don't really care if we miss a sample). This patch adds an assertion to check that GetBaseValue does, in fact, return a non-null value. (I checked the code and this appears to be the case. Even in error cases we typically return an empty nsSMILValue of a non-null type. For example, the early return in nsSMILCSSProperty::GetBaseValue() does this.) MozReview-Commit-ID: BRJFa4xMdxz --HG-- extra : rebase_source : f3e3ca1e01e73610523bde7583e2a002d2473184
2017-03-30 07:10:07 +03:00
if (mCachedBaseValue != aBaseValue) {
// Base value has changed since last sample.
Bug 1353208 - Don't allocate separate heap memory for nsSMILCompositor::mCachedBaseValue; r=dholbert nsSMILCompositor::mCachedBaseValue is an nsAutoPtr<nsSMILValue> that we allocate on the heap. It looks like we did that back in bug 533291 presumably because it makes transferring these cached values between nsSMILCompositor objects cheaper. One drawback of this, however, is that mCachedBaseValue has two null states: the mCachedBaseValue pointer can be null, and the pointed-to nsSMILValue can be a null value (i.e. IsNull() returns true). Now that we have move ctors and operators defined for nsSMILValue we can transfer these objects between compositors cheaply without requiring the object to be allocated as separate heap object. This patch makes mCachedBaseValue just a regular nsSMILValue class member (i.e. drops the nsAutoPtr). There's a subtle difference in behavior with regards to the first sample. Previously we would compare the (initially) null mCachedBaseValue pointer with the passed-in nsSMILValue and set mForceCompositing to true. With this patch, however, we will only set mForceCompositing to true if the passed-in mCachedBaseValue is not null. I believe this is correct, however, since if we don't call GetBaseValue in ComposeAttribute we should not be setting mForceCompositing to true (something else should ensure that gets set to true), and if we do call GetBaseValue the result should not be a null nsSMILValue (except in some OOM cases where we don't really care if we miss a sample). This patch adds an assertion to check that GetBaseValue does, in fact, return a non-null value. (I checked the code and this appears to be the case. Even in error cases we typically return an empty nsSMILValue of a non-null type. For example, the early return in nsSMILCSSProperty::GetBaseValue() does this.) MozReview-Commit-ID: BRJFa4xMdxz --HG-- extra : rebase_source : f3e3ca1e01e73610523bde7583e2a002d2473184
2017-03-30 07:10:07 +03:00
mCachedBaseValue = aBaseValue;
mForceCompositing = true;
}
}