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authorMatt A. Tobin <mattatobin@localhost.localdomain>2018-02-02 04:16:08 -0500
committerMatt A. Tobin <mattatobin@localhost.localdomain>2018-02-02 04:16:08 -0500
commit5f8de423f190bbb79a62f804151bc24824fa32d8 (patch)
tree10027f336435511475e392454359edea8e25895d /dom/smil/nsSMILAnimationFunction.cpp
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Add m-esr52 at 52.6.0
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diff --git a/dom/smil/nsSMILAnimationFunction.cpp b/dom/smil/nsSMILAnimationFunction.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: */
+/* 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 "nsSMILAnimationFunction.h"
+
+#include "mozilla/dom/SVGAnimationElement.h"
+#include "mozilla/Move.h"
+#include "nsISMILAttr.h"
+#include "nsSMILCSSValueType.h"
+#include "nsSMILParserUtils.h"
+#include "nsSMILNullType.h"
+#include "nsSMILTimedElement.h"
+#include "nsAttrValueInlines.h"
+#include "nsGkAtoms.h"
+#include "nsCOMPtr.h"
+#include "nsCOMArray.h"
+#include "nsIContent.h"
+#include "nsContentUtils.h"
+#include "nsReadableUtils.h"
+#include "nsString.h"
+#include <math.h>
+#include <algorithm>
+
+using namespace mozilla::dom;
+
+//----------------------------------------------------------------------
+// Static members
+
+nsAttrValue::EnumTable nsSMILAnimationFunction::sAccumulateTable[] = {
+ {"none", false},
+ {"sum", true},
+ {nullptr, 0}
+};
+
+nsAttrValue::EnumTable nsSMILAnimationFunction::sAdditiveTable[] = {
+ {"replace", false},
+ {"sum", true},
+ {nullptr, 0}
+};
+
+nsAttrValue::EnumTable nsSMILAnimationFunction::sCalcModeTable[] = {
+ {"linear", CALC_LINEAR},
+ {"discrete", CALC_DISCRETE},
+ {"paced", CALC_PACED},
+ {"spline", CALC_SPLINE},
+ {nullptr, 0}
+};
+
+// Any negative number should be fine as a sentinel here,
+// because valid distances are non-negative.
+#define COMPUTE_DISTANCE_ERROR (-1)
+
+//----------------------------------------------------------------------
+// Constructors etc.
+
+nsSMILAnimationFunction::nsSMILAnimationFunction()
+ : mSampleTime(-1),
+ mRepeatIteration(0),
+ mBeginTime(INT64_MIN),
+ mAnimationElement(nullptr),
+ mErrorFlags(0),
+ mIsActive(false),
+ mIsFrozen(false),
+ mLastValue(false),
+ mHasChanged(true),
+ mValueNeedsReparsingEverySample(false),
+ mPrevSampleWasSingleValueAnimation(false),
+ mWasSkippedInPrevSample(false)
+{
+}
+
+void
+nsSMILAnimationFunction::SetAnimationElement(
+ SVGAnimationElement* aAnimationElement)
+{
+ mAnimationElement = aAnimationElement;
+}
+
+bool
+nsSMILAnimationFunction::SetAttr(nsIAtom* aAttribute, const nsAString& aValue,
+ nsAttrValue& aResult, nsresult* aParseResult)
+{
+ bool foundMatch = true;
+ nsresult parseResult = NS_OK;
+
+ // The attributes 'by', 'from', 'to', and 'values' may be parsed differently
+ // depending on the element & attribute we're animating. So instead of
+ // parsing them now we re-parse them at every sample.
+ if (aAttribute == nsGkAtoms::by ||
+ aAttribute == nsGkAtoms::from ||
+ aAttribute == nsGkAtoms::to ||
+ aAttribute == nsGkAtoms::values) {
+ // We parse to, from, by, values at sample time.
+ // XXX Need to flag which attribute has changed and then when we parse it at
+ // sample time, report any errors and reset the flag
+ mHasChanged = true;
+ aResult.SetTo(aValue);
+ } else if (aAttribute == nsGkAtoms::accumulate) {
+ parseResult = SetAccumulate(aValue, aResult);
+ } else if (aAttribute == nsGkAtoms::additive) {
+ parseResult = SetAdditive(aValue, aResult);
+ } else if (aAttribute == nsGkAtoms::calcMode) {
+ parseResult = SetCalcMode(aValue, aResult);
+ } else if (aAttribute == nsGkAtoms::keyTimes) {
+ parseResult = SetKeyTimes(aValue, aResult);
+ } else if (aAttribute == nsGkAtoms::keySplines) {
+ parseResult = SetKeySplines(aValue, aResult);
+ } else {
+ foundMatch = false;
+ }
+
+ if (foundMatch && aParseResult) {
+ *aParseResult = parseResult;
+ }
+
+ return foundMatch;
+}
+
+bool
+nsSMILAnimationFunction::UnsetAttr(nsIAtom* aAttribute)
+{
+ bool foundMatch = true;
+
+ if (aAttribute == nsGkAtoms::by ||
+ aAttribute == nsGkAtoms::from ||
+ aAttribute == nsGkAtoms::to ||
+ aAttribute == nsGkAtoms::values) {
+ mHasChanged = true;
+ } else if (aAttribute == nsGkAtoms::accumulate) {
+ UnsetAccumulate();
+ } else if (aAttribute == nsGkAtoms::additive) {
+ UnsetAdditive();
+ } else if (aAttribute == nsGkAtoms::calcMode) {
+ UnsetCalcMode();
+ } else if (aAttribute == nsGkAtoms::keyTimes) {
+ UnsetKeyTimes();
+ } else if (aAttribute == nsGkAtoms::keySplines) {
+ UnsetKeySplines();
+ } else {
+ foundMatch = false;
+ }
+
+ return foundMatch;
+}
+
+void
+nsSMILAnimationFunction::SampleAt(nsSMILTime aSampleTime,
+ const nsSMILTimeValue& aSimpleDuration,
+ uint32_t aRepeatIteration)
+{
+ // * Update mHasChanged ("Might this sample be different from prev one?")
+ // Were we previously sampling a fill="freeze" final val? (We're not anymore.)
+ mHasChanged |= mLastValue;
+
+ // Are we sampling at a new point in simple duration? And does that matter?
+ mHasChanged |=
+ (mSampleTime != aSampleTime || mSimpleDuration != aSimpleDuration) &&
+ !IsValueFixedForSimpleDuration();
+
+ // Are we on a new repeat and accumulating across repeats?
+ if (!mErrorFlags) { // (can't call GetAccumulate() if we've had parse errors)
+ mHasChanged |= (mRepeatIteration != aRepeatIteration) && GetAccumulate();
+ }
+
+ mSampleTime = aSampleTime;
+ mSimpleDuration = aSimpleDuration;
+ mRepeatIteration = aRepeatIteration;
+ mLastValue = false;
+}
+
+void
+nsSMILAnimationFunction::SampleLastValue(uint32_t aRepeatIteration)
+{
+ if (mHasChanged || !mLastValue || mRepeatIteration != aRepeatIteration) {
+ mHasChanged = true;
+ }
+
+ mRepeatIteration = aRepeatIteration;
+ mLastValue = true;
+}
+
+void
+nsSMILAnimationFunction::Activate(nsSMILTime aBeginTime)
+{
+ mBeginTime = aBeginTime;
+ mIsActive = true;
+ mIsFrozen = false;
+ mHasChanged = true;
+}
+
+void
+nsSMILAnimationFunction::Inactivate(bool aIsFrozen)
+{
+ mIsActive = false;
+ mIsFrozen = aIsFrozen;
+ mHasChanged = true;
+}
+
+void
+nsSMILAnimationFunction::ComposeResult(const nsISMILAttr& aSMILAttr,
+ nsSMILValue& aResult)
+{
+ mHasChanged = false;
+ mPrevSampleWasSingleValueAnimation = false;
+ mWasSkippedInPrevSample = false;
+
+ // Skip animations that are inactive or in error
+ if (!IsActiveOrFrozen() || mErrorFlags != 0)
+ return;
+
+ // Get the animation values
+ nsSMILValueArray values;
+ nsresult rv = GetValues(aSMILAttr, values);
+ if (NS_FAILED(rv))
+ return;
+
+ // Check that we have the right number of keySplines and keyTimes
+ CheckValueListDependentAttrs(values.Length());
+ if (mErrorFlags != 0)
+ return;
+
+ // If this interval is active, we must have a non-negative mSampleTime
+ MOZ_ASSERT(mSampleTime >= 0 || !mIsActive,
+ "Negative sample time for active animation");
+ MOZ_ASSERT(mSimpleDuration.IsResolved() || mLastValue,
+ "Unresolved simple duration for active or frozen animation");
+
+ // If we want to add but don't have a base value then just fail outright.
+ // This can happen when we skipped getting the base value because there's an
+ // animation function in the sandwich that should replace it but that function
+ // failed unexpectedly.
+ bool isAdditive = IsAdditive();
+ if (isAdditive && aResult.IsNull())
+ return;
+
+ nsSMILValue result;
+
+ if (values.Length() == 1 && !IsToAnimation()) {
+
+ // Single-valued animation
+ result = values[0];
+ mPrevSampleWasSingleValueAnimation = true;
+
+ } else if (mLastValue) {
+
+ // Sampling last value
+ const nsSMILValue& last = values[values.Length() - 1];
+ result = last;
+
+ // See comment in AccumulateResult: to-animation does not accumulate
+ if (!IsToAnimation() && GetAccumulate() && mRepeatIteration) {
+ // If the target attribute type doesn't support addition Add will
+ // fail leaving result = last
+ result.Add(last, mRepeatIteration);
+ }
+
+ } else {
+
+ // Interpolation
+ if (NS_FAILED(InterpolateResult(values, result, aResult)))
+ return;
+
+ if (NS_FAILED(AccumulateResult(values, result)))
+ return;
+ }
+
+ // If additive animation isn't required or isn't supported, set the value.
+ if (!isAdditive || NS_FAILED(aResult.SandwichAdd(result))) {
+ aResult = Move(result);
+ }
+}
+
+int8_t
+nsSMILAnimationFunction::CompareTo(const nsSMILAnimationFunction* aOther) const
+{
+ NS_ENSURE_TRUE(aOther, 0);
+
+ NS_ASSERTION(aOther != this, "Trying to compare to self");
+
+ // Inactive animations sort first
+ if (!IsActiveOrFrozen() && aOther->IsActiveOrFrozen())
+ return -1;
+
+ if (IsActiveOrFrozen() && !aOther->IsActiveOrFrozen())
+ return 1;
+
+ // Sort based on begin time
+ if (mBeginTime != aOther->GetBeginTime())
+ return mBeginTime > aOther->GetBeginTime() ? 1 : -1;
+
+ // Next sort based on syncbase dependencies: the dependent element sorts after
+ // its syncbase
+ const nsSMILTimedElement& thisTimedElement =
+ mAnimationElement->TimedElement();
+ const nsSMILTimedElement& otherTimedElement =
+ aOther->mAnimationElement->TimedElement();
+ if (thisTimedElement.IsTimeDependent(otherTimedElement))
+ return 1;
+ if (otherTimedElement.IsTimeDependent(thisTimedElement))
+ return -1;
+
+ // Animations that appear later in the document sort after those earlier in
+ // the document
+ MOZ_ASSERT(mAnimationElement != aOther->mAnimationElement,
+ "Two animations cannot have the same animation content element!");
+
+ return (nsContentUtils::PositionIsBefore(mAnimationElement, aOther->mAnimationElement))
+ ? -1 : 1;
+}
+
+bool
+nsSMILAnimationFunction::WillReplace() const
+{
+ /*
+ * In IsAdditive() we don't consider to-animation to be additive as it is
+ * a special case that is dealt with differently in the compositing method.
+ * Here, however, we return FALSE for to-animation (i.e. it will NOT replace
+ * the underlying value) as it builds on the underlying value.
+ */
+ return !mErrorFlags && !(IsAdditive() || IsToAnimation());
+}
+
+bool
+nsSMILAnimationFunction::HasChanged() const
+{
+ return mHasChanged || mValueNeedsReparsingEverySample;
+}
+
+bool
+nsSMILAnimationFunction::UpdateCachedTarget(
+ const nsSMILTargetIdentifier& aNewTarget)
+{
+ if (!mLastTarget.Equals(aNewTarget)) {
+ mLastTarget = aNewTarget;
+ return true;
+ }
+ return false;
+}
+
+//----------------------------------------------------------------------
+// Implementation helpers
+
+nsresult
+nsSMILAnimationFunction::InterpolateResult(const nsSMILValueArray& aValues,
+ nsSMILValue& aResult,
+ nsSMILValue& aBaseValue)
+{
+ // Sanity check animation values
+ if ((!IsToAnimation() && aValues.Length() < 2) ||
+ (IsToAnimation() && aValues.Length() != 1)) {
+ NS_ERROR("Unexpected number of values");
+ return NS_ERROR_FAILURE;
+ }
+
+ if (IsToAnimation() && aBaseValue.IsNull()) {
+ return NS_ERROR_FAILURE;
+ }
+
+ // Get the normalised progress through the simple duration.
+ //
+ // If we have an indefinite simple duration, just set the progress to be
+ // 0 which will give us the expected behaviour of the animation being fixed at
+ // its starting point.
+ double simpleProgress = 0.0;
+
+ if (mSimpleDuration.IsDefinite()) {
+ nsSMILTime dur = mSimpleDuration.GetMillis();
+
+ MOZ_ASSERT(dur >= 0, "Simple duration should not be negative");
+ MOZ_ASSERT(mSampleTime >= 0, "Sample time should not be negative");
+
+ if (mSampleTime >= dur || mSampleTime < 0) {
+ NS_ERROR("Animation sampled outside interval");
+ return NS_ERROR_FAILURE;
+ }
+
+ if (dur > 0) {
+ simpleProgress = (double)mSampleTime / dur;
+ } // else leave simpleProgress at 0.0 (e.g. if mSampleTime == dur == 0)
+ }
+
+ nsresult rv = NS_OK;
+ nsSMILCalcMode calcMode = GetCalcMode();
+
+ // Force discrete calcMode for visibility since StyleAnimationValue will
+ // try to interpolate it using the special clamping behavior defined for
+ // CSS.
+ if (nsSMILCSSValueType::PropertyFromValue(aValues[0])
+ == eCSSProperty_visibility) {
+ calcMode = CALC_DISCRETE;
+ }
+
+ if (calcMode != CALC_DISCRETE) {
+ // Get the normalised progress between adjacent values
+ const nsSMILValue* from = nullptr;
+ const nsSMILValue* to = nullptr;
+ // Init to -1 to make sure that if we ever forget to set this, the
+ // MOZ_ASSERT that tests that intervalProgress is in range will fail.
+ double intervalProgress = -1.f;
+ if (IsToAnimation()) {
+ from = &aBaseValue;
+ to = &aValues[0];
+ if (calcMode == CALC_PACED) {
+ // Note: key[Times/Splines/Points] are ignored for calcMode="paced"
+ intervalProgress = simpleProgress;
+ } else {
+ double scaledSimpleProgress =
+ ScaleSimpleProgress(simpleProgress, calcMode);
+ intervalProgress = ScaleIntervalProgress(scaledSimpleProgress, 0);
+ }
+ } else if (calcMode == CALC_PACED) {
+ rv = ComputePacedPosition(aValues, simpleProgress,
+ intervalProgress, from, to);
+ // Note: If the above call fails, we'll skip the "from->Interpolate"
+ // call below, and we'll drop into the CALC_DISCRETE section
+ // instead. (as the spec says we should, because our failure was
+ // presumably due to the values being non-additive)
+ } else { // calcMode == CALC_LINEAR or calcMode == CALC_SPLINE
+ double scaledSimpleProgress =
+ ScaleSimpleProgress(simpleProgress, calcMode);
+ uint32_t index = (uint32_t)floor(scaledSimpleProgress *
+ (aValues.Length() - 1));
+ from = &aValues[index];
+ to = &aValues[index + 1];
+ intervalProgress =
+ scaledSimpleProgress * (aValues.Length() - 1) - index;
+ intervalProgress = ScaleIntervalProgress(intervalProgress, index);
+ }
+
+ if (NS_SUCCEEDED(rv)) {
+ MOZ_ASSERT(from, "NULL from-value during interpolation");
+ MOZ_ASSERT(to, "NULL to-value during interpolation");
+ MOZ_ASSERT(0.0f <= intervalProgress && intervalProgress < 1.0f,
+ "Interval progress should be in the range [0, 1)");
+ rv = from->Interpolate(*to, intervalProgress, aResult);
+ }
+ }
+
+ // Discrete-CalcMode case
+ // Note: If interpolation failed (isn't supported for this type), the SVG
+ // spec says to force discrete mode.
+ if (calcMode == CALC_DISCRETE || NS_FAILED(rv)) {
+ double scaledSimpleProgress =
+ ScaleSimpleProgress(simpleProgress, CALC_DISCRETE);
+
+ // Floating-point errors can mean that, for example, a sample time of 29s in
+ // a 100s duration animation gives us a simple progress of 0.28999999999
+ // instead of the 0.29 we'd expect. Normally this isn't a noticeable
+ // problem, but when we have sudden jumps in animation values (such as is
+ // the case here with discrete animation) we can get unexpected results.
+ //
+ // To counteract this, before we perform a floor() on the animation
+ // progress, we add a tiny fudge factor to push us into the correct interval
+ // in cases where floating-point errors might cause us to fall short.
+ static const double kFloatingPointFudgeFactor = 1.0e-16;
+ if (scaledSimpleProgress + kFloatingPointFudgeFactor <= 1.0) {
+ scaledSimpleProgress += kFloatingPointFudgeFactor;
+ }
+
+ if (IsToAnimation()) {
+ // We don't follow SMIL 3, 12.6.4, where discrete to animations
+ // are the same as <set> animations. Instead, we treat it as a
+ // discrete animation with two values (the underlying value and
+ // the to="" value), and honor keyTimes="" as well.
+ uint32_t index = (uint32_t)floor(scaledSimpleProgress * 2);
+ aResult = index == 0 ? aBaseValue : aValues[0];
+ } else {
+ uint32_t index = (uint32_t)floor(scaledSimpleProgress * aValues.Length());
+ aResult = aValues[index];
+ }
+ rv = NS_OK;
+ }
+ return rv;
+}
+
+nsresult
+nsSMILAnimationFunction::AccumulateResult(const nsSMILValueArray& aValues,
+ nsSMILValue& aResult)
+{
+ if (!IsToAnimation() && GetAccumulate() && mRepeatIteration) {
+ const nsSMILValue& lastValue = aValues[aValues.Length() - 1];
+
+ // If the target attribute type doesn't support addition, Add will
+ // fail and we leave aResult untouched.
+ aResult.Add(lastValue, mRepeatIteration);
+ }
+
+ return NS_OK;
+}
+
+/*
+ * Given the simple progress for a paced animation, this method:
+ * - determines which two elements of the values array we're in between
+ * (returned as aFrom and aTo)
+ * - determines where we are between them
+ * (returned as aIntervalProgress)
+ *
+ * Returns NS_OK, or NS_ERROR_FAILURE if our values don't support distance
+ * computation.
+ */
+nsresult
+nsSMILAnimationFunction::ComputePacedPosition(const nsSMILValueArray& aValues,
+ double aSimpleProgress,
+ double& aIntervalProgress,
+ const nsSMILValue*& aFrom,
+ const nsSMILValue*& aTo)
+{
+ NS_ASSERTION(0.0f <= aSimpleProgress && aSimpleProgress < 1.0f,
+ "aSimpleProgress is out of bounds");
+ NS_ASSERTION(GetCalcMode() == CALC_PACED,
+ "Calling paced-specific function, but not in paced mode");
+ MOZ_ASSERT(aValues.Length() >= 2, "Unexpected number of values");
+
+ // Trivial case: If we have just 2 values, then there's only one interval
+ // for us to traverse, and our progress across that interval is the exact
+ // same as our overall progress.
+ if (aValues.Length() == 2) {
+ aIntervalProgress = aSimpleProgress;
+ aFrom = &aValues[0];
+ aTo = &aValues[1];
+ return NS_OK;
+ }
+
+ double totalDistance = ComputePacedTotalDistance(aValues);
+ if (totalDistance == COMPUTE_DISTANCE_ERROR)
+ return NS_ERROR_FAILURE;
+
+ // If we have 0 total distance, then it's unclear where our "paced" position
+ // should be. We can just fail, which drops us into discrete animation mode.
+ // (That's fine, since our values are apparently indistinguishable anyway.)
+ if (totalDistance == 0.0) {
+ return NS_ERROR_FAILURE;
+ }
+
+ // total distance we should have moved at this point in time.
+ // (called 'remainingDist' due to how it's used in loop below)
+ double remainingDist = aSimpleProgress * totalDistance;
+
+ // Must be satisfied, because totalDistance is a sum of (non-negative)
+ // distances, and aSimpleProgress is non-negative
+ NS_ASSERTION(remainingDist >= 0, "distance values must be non-negative");
+
+ // Find where remainingDist puts us in the list of values
+ // Note: We could optimize this next loop by caching the
+ // interval-distances in an array, but maybe that's excessive.
+ for (uint32_t i = 0; i < aValues.Length() - 1; i++) {
+ // Note: The following assertion is valid because remainingDist should
+ // start out non-negative, and this loop never shaves off more than its
+ // current value.
+ NS_ASSERTION(remainingDist >= 0, "distance values must be non-negative");
+
+ double curIntervalDist;
+
+#ifdef DEBUG
+ nsresult rv =
+#endif
+ aValues[i].ComputeDistance(aValues[i+1], curIntervalDist);
+ MOZ_ASSERT(NS_SUCCEEDED(rv),
+ "If we got through ComputePacedTotalDistance, we should "
+ "be able to recompute each sub-distance without errors");
+
+ NS_ASSERTION(curIntervalDist >= 0, "distance values must be non-negative");
+ // Clamp distance value at 0, just in case ComputeDistance is evil.
+ curIntervalDist = std::max(curIntervalDist, 0.0);
+
+ if (remainingDist >= curIntervalDist) {
+ remainingDist -= curIntervalDist;
+ } else {
+ // NOTE: If we get here, then curIntervalDist necessarily is not 0. Why?
+ // Because this clause is only hit when remainingDist < curIntervalDist,
+ // and if curIntervalDist were 0, that would mean remainingDist would
+ // have to be < 0. But that can't happen, because remainingDist (as
+ // a distance) is non-negative by definition.
+ NS_ASSERTION(curIntervalDist != 0,
+ "We should never get here with this set to 0...");
+
+ // We found the right spot -- an interpolated position between
+ // values i and i+1.
+ aFrom = &aValues[i];
+ aTo = &aValues[i+1];
+ aIntervalProgress = remainingDist / curIntervalDist;
+ return NS_OK;
+ }
+ }
+
+ NS_NOTREACHED("shouldn't complete loop & get here -- if we do, "
+ "then aSimpleProgress was probably out of bounds");
+ return NS_ERROR_FAILURE;
+}
+
+/*
+ * Computes the total distance to be travelled by a paced animation.
+ *
+ * Returns the total distance, or returns COMPUTE_DISTANCE_ERROR if
+ * our values don't support distance computation.
+ */
+double
+nsSMILAnimationFunction::ComputePacedTotalDistance(
+ const nsSMILValueArray& aValues) const
+{
+ NS_ASSERTION(GetCalcMode() == CALC_PACED,
+ "Calling paced-specific function, but not in paced mode");
+
+ double totalDistance = 0.0;
+ for (uint32_t i = 0; i < aValues.Length() - 1; i++) {
+ double tmpDist;
+ nsresult rv = aValues[i].ComputeDistance(aValues[i+1], tmpDist);
+ if (NS_FAILED(rv)) {
+ return COMPUTE_DISTANCE_ERROR;
+ }
+
+ // Clamp distance value to 0, just in case we have an evil ComputeDistance
+ // implementation somewhere
+ MOZ_ASSERT(tmpDist >= 0.0f, "distance values must be non-negative");
+ tmpDist = std::max(tmpDist, 0.0);
+
+ totalDistance += tmpDist;
+ }
+
+ return totalDistance;
+}
+
+double
+nsSMILAnimationFunction::ScaleSimpleProgress(double aProgress,
+ nsSMILCalcMode aCalcMode)
+{
+ if (!HasAttr(nsGkAtoms::keyTimes))
+ return aProgress;
+
+ uint32_t numTimes = mKeyTimes.Length();
+
+ if (numTimes < 2)
+ return aProgress;
+
+ uint32_t i = 0;
+ for (; i < numTimes - 2 && aProgress >= mKeyTimes[i+1]; ++i) { }
+
+ if (aCalcMode == CALC_DISCRETE) {
+ // discrete calcMode behaviour differs in that each keyTime defines the time
+ // from when the corresponding value is set, and therefore the last value
+ // needn't be 1. So check if we're in the last 'interval', that is, the
+ // space between the final value and 1.0.
+ if (aProgress >= mKeyTimes[i+1]) {
+ MOZ_ASSERT(i == numTimes - 2,
+ "aProgress is not in range of the current interval, yet the "
+ "current interval is not the last bounded interval either.");
+ ++i;
+ }
+ return (double)i / numTimes;
+ }
+
+ double& intervalStart = mKeyTimes[i];
+ double& intervalEnd = mKeyTimes[i+1];
+
+ double intervalLength = intervalEnd - intervalStart;
+ if (intervalLength <= 0.0)
+ return intervalStart;
+
+ return (i + (aProgress - intervalStart) / intervalLength) /
+ double(numTimes - 1);
+}
+
+double
+nsSMILAnimationFunction::ScaleIntervalProgress(double aProgress,
+ uint32_t aIntervalIndex)
+{
+ if (GetCalcMode() != CALC_SPLINE)
+ return aProgress;
+
+ if (!HasAttr(nsGkAtoms::keySplines))
+ return aProgress;
+
+ MOZ_ASSERT(aIntervalIndex < mKeySplines.Length(),
+ "Invalid interval index");
+
+ nsSMILKeySpline const &spline = mKeySplines[aIntervalIndex];
+ return spline.GetSplineValue(aProgress);
+}
+
+bool
+nsSMILAnimationFunction::HasAttr(nsIAtom* aAttName) const
+{
+ return mAnimationElement->HasAnimAttr(aAttName);
+}
+
+const nsAttrValue*
+nsSMILAnimationFunction::GetAttr(nsIAtom* aAttName) const
+{
+ return mAnimationElement->GetAnimAttr(aAttName);
+}
+
+bool
+nsSMILAnimationFunction::GetAttr(nsIAtom* aAttName, nsAString& aResult) const
+{
+ return mAnimationElement->GetAnimAttr(aAttName, aResult);
+}
+
+/*
+ * A utility function to make querying an attribute that corresponds to an
+ * nsSMILValue a little neater.
+ *
+ * @param aAttName The attribute name (in the global namespace).
+ * @param aSMILAttr The SMIL attribute to perform the parsing.
+ * @param[out] aResult The resulting nsSMILValue.
+ * @param[out] aPreventCachingOfSandwich
+ * If |aResult| contains dependencies on its context that
+ * should prevent the result of the animation sandwich from
+ * being cached and reused in future samples (as reported
+ * by nsISMILAttr::ValueFromString), then this outparam
+ * will be set to true. Otherwise it is left unmodified.
+ *
+ * Returns false if a parse error occurred, otherwise returns true.
+ */
+bool
+nsSMILAnimationFunction::ParseAttr(nsIAtom* aAttName,
+ const nsISMILAttr& aSMILAttr,
+ nsSMILValue& aResult,
+ bool& aPreventCachingOfSandwich) const
+{
+ nsAutoString attValue;
+ if (GetAttr(aAttName, attValue)) {
+ bool preventCachingOfSandwich = false;
+ nsresult rv = aSMILAttr.ValueFromString(attValue, mAnimationElement,
+ aResult, preventCachingOfSandwich);
+ if (NS_FAILED(rv))
+ return false;
+
+ if (preventCachingOfSandwich) {
+ aPreventCachingOfSandwich = true;
+ }
+ }
+ return true;
+}
+
+/*
+ * SMILANIM specifies the following rules for animation function values:
+ *
+ * (1) if values is set, it overrides everything
+ * (2) for from/to/by animation at least to or by must be specified, from on its
+ * own (or nothing) is an error--which we will ignore
+ * (3) if both by and to are specified only to will be used, by will be ignored
+ * (4) if by is specified without from (by animation), forces additive behaviour
+ * (5) if to is specified without from (to animation), special care needs to be
+ * taken when compositing animation as such animations are composited last.
+ *
+ * This helper method applies these rules to fill in the values list and to set
+ * some internal state.
+ */
+nsresult
+nsSMILAnimationFunction::GetValues(const nsISMILAttr& aSMILAttr,
+ nsSMILValueArray& aResult)
+{
+ if (!mAnimationElement)
+ return NS_ERROR_FAILURE;
+
+ mValueNeedsReparsingEverySample = false;
+ nsSMILValueArray result;
+
+ // If "values" is set, use it
+ if (HasAttr(nsGkAtoms::values)) {
+ nsAutoString attValue;
+ GetAttr(nsGkAtoms::values, attValue);
+ bool preventCachingOfSandwich = false;
+ if (!nsSMILParserUtils::ParseValues(attValue, mAnimationElement,
+ aSMILAttr, result,
+ preventCachingOfSandwich)) {
+ return NS_ERROR_FAILURE;
+ }
+
+ if (preventCachingOfSandwich) {
+ mValueNeedsReparsingEverySample = true;
+ }
+ // Else try to/from/by
+ } else {
+ bool preventCachingOfSandwich = false;
+ bool parseOk = true;
+ nsSMILValue to, from, by;
+ parseOk &= ParseAttr(nsGkAtoms::to, aSMILAttr, to,
+ preventCachingOfSandwich);
+ parseOk &= ParseAttr(nsGkAtoms::from, aSMILAttr, from,
+ preventCachingOfSandwich);
+ parseOk &= ParseAttr(nsGkAtoms::by, aSMILAttr, by,
+ preventCachingOfSandwich);
+
+ if (preventCachingOfSandwich) {
+ mValueNeedsReparsingEverySample = true;
+ }
+
+ if (!parseOk || !result.SetCapacity(2, mozilla::fallible)) {
+ return NS_ERROR_FAILURE;
+ }
+
+ // AppendElement() below must succeed, because SetCapacity() succeeded.
+ if (!to.IsNull()) {
+ if (!from.IsNull()) {
+ MOZ_ALWAYS_TRUE(result.AppendElement(from, mozilla::fallible));
+ MOZ_ALWAYS_TRUE(result.AppendElement(to, mozilla::fallible));
+ } else {
+ MOZ_ALWAYS_TRUE(result.AppendElement(to, mozilla::fallible));
+ }
+ } else if (!by.IsNull()) {
+ nsSMILValue effectiveFrom(by.mType);
+ if (!from.IsNull())
+ effectiveFrom = from;
+ // Set values to 'from; from + by'
+ MOZ_ALWAYS_TRUE(result.AppendElement(effectiveFrom, mozilla::fallible));
+ nsSMILValue effectiveTo(effectiveFrom);
+ if (!effectiveTo.IsNull() && NS_SUCCEEDED(effectiveTo.Add(by))) {
+ MOZ_ALWAYS_TRUE(result.AppendElement(effectiveTo, mozilla::fallible));
+ } else {
+ // Using by-animation with non-additive type or bad base-value
+ return NS_ERROR_FAILURE;
+ }
+ } else {
+ // No values, no to, no by -- call it a day
+ return NS_ERROR_FAILURE;
+ }
+ }
+
+ result.SwapElements(aResult);
+
+ return NS_OK;
+}
+
+void
+nsSMILAnimationFunction::CheckValueListDependentAttrs(uint32_t aNumValues)
+{
+ CheckKeyTimes(aNumValues);
+ CheckKeySplines(aNumValues);
+}
+
+/**
+ * Performs checks for the keyTimes attribute required by the SMIL spec but
+ * which depend on other attributes and therefore needs to be updated as
+ * dependent attributes are set.
+ */
+void
+nsSMILAnimationFunction::CheckKeyTimes(uint32_t aNumValues)
+{
+ if (!HasAttr(nsGkAtoms::keyTimes))
+ return;
+
+ nsSMILCalcMode calcMode = GetCalcMode();
+
+ // attribute is ignored for calcMode = paced
+ if (calcMode == CALC_PACED) {
+ SetKeyTimesErrorFlag(false);
+ return;
+ }
+
+ uint32_t numKeyTimes = mKeyTimes.Length();
+ if (numKeyTimes < 1) {
+ // keyTimes isn't set or failed preliminary checks
+ SetKeyTimesErrorFlag(true);
+ return;
+ }
+
+ // no. keyTimes == no. values
+ // For to-animation the number of values is considered to be 2.
+ bool matchingNumOfValues =
+ numKeyTimes == (IsToAnimation() ? 2 : aNumValues);
+ if (!matchingNumOfValues) {
+ SetKeyTimesErrorFlag(true);
+ return;
+ }
+
+ // first value must be 0
+ if (mKeyTimes[0] != 0.0) {
+ SetKeyTimesErrorFlag(true);
+ return;
+ }
+
+ // last value must be 1 for linear or spline calcModes
+ if (calcMode != CALC_DISCRETE && numKeyTimes > 1 &&
+ mKeyTimes[numKeyTimes - 1] != 1.0) {
+ SetKeyTimesErrorFlag(true);
+ return;
+ }
+
+ SetKeyTimesErrorFlag(false);
+}
+
+void
+nsSMILAnimationFunction::CheckKeySplines(uint32_t aNumValues)
+{
+ // attribute is ignored if calc mode is not spline
+ if (GetCalcMode() != CALC_SPLINE) {
+ SetKeySplinesErrorFlag(false);
+ return;
+ }
+
+ // calc mode is spline but the attribute is not set
+ if (!HasAttr(nsGkAtoms::keySplines)) {
+ SetKeySplinesErrorFlag(false);
+ return;
+ }
+
+ if (mKeySplines.Length() < 1) {
+ // keyTimes isn't set or failed preliminary checks
+ SetKeySplinesErrorFlag(true);
+ return;
+ }
+
+ // ignore splines if there's only one value
+ if (aNumValues == 1 && !IsToAnimation()) {
+ SetKeySplinesErrorFlag(false);
+ return;
+ }
+
+ // no. keySpline specs == no. values - 1
+ uint32_t splineSpecs = mKeySplines.Length();
+ if ((splineSpecs != aNumValues - 1 && !IsToAnimation()) ||
+ (IsToAnimation() && splineSpecs != 1)) {
+ SetKeySplinesErrorFlag(true);
+ return;
+ }
+
+ SetKeySplinesErrorFlag(false);
+}
+
+bool
+nsSMILAnimationFunction::IsValueFixedForSimpleDuration() const
+{
+ return mSimpleDuration.IsIndefinite() ||
+ (!mHasChanged && mPrevSampleWasSingleValueAnimation);
+}
+
+//----------------------------------------------------------------------
+// Property getters
+
+bool
+nsSMILAnimationFunction::GetAccumulate() const
+{
+ const nsAttrValue* value = GetAttr(nsGkAtoms::accumulate);
+ if (!value)
+ return false;
+
+ return value->GetEnumValue();
+}
+
+bool
+nsSMILAnimationFunction::GetAdditive() const
+{
+ const nsAttrValue* value = GetAttr(nsGkAtoms::additive);
+ if (!value)
+ return false;
+
+ return value->GetEnumValue();
+}
+
+nsSMILAnimationFunction::nsSMILCalcMode
+nsSMILAnimationFunction::GetCalcMode() const
+{
+ const nsAttrValue* value = GetAttr(nsGkAtoms::calcMode);
+ if (!value)
+ return CALC_LINEAR;
+
+ return nsSMILCalcMode(value->GetEnumValue());
+}
+
+//----------------------------------------------------------------------
+// Property setters / un-setters:
+
+nsresult
+nsSMILAnimationFunction::SetAccumulate(const nsAString& aAccumulate,
+ nsAttrValue& aResult)
+{
+ mHasChanged = true;
+ bool parseResult =
+ aResult.ParseEnumValue(aAccumulate, sAccumulateTable, true);
+ SetAccumulateErrorFlag(!parseResult);
+ return parseResult ? NS_OK : NS_ERROR_FAILURE;
+}
+
+void
+nsSMILAnimationFunction::UnsetAccumulate()
+{
+ SetAccumulateErrorFlag(false);
+ mHasChanged = true;
+}
+
+nsresult
+nsSMILAnimationFunction::SetAdditive(const nsAString& aAdditive,
+ nsAttrValue& aResult)
+{
+ mHasChanged = true;
+ bool parseResult
+ = aResult.ParseEnumValue(aAdditive, sAdditiveTable, true);
+ SetAdditiveErrorFlag(!parseResult);
+ return parseResult ? NS_OK : NS_ERROR_FAILURE;
+}
+
+void
+nsSMILAnimationFunction::UnsetAdditive()
+{
+ SetAdditiveErrorFlag(false);
+ mHasChanged = true;
+}
+
+nsresult
+nsSMILAnimationFunction::SetCalcMode(const nsAString& aCalcMode,
+ nsAttrValue& aResult)
+{
+ mHasChanged = true;
+ bool parseResult
+ = aResult.ParseEnumValue(aCalcMode, sCalcModeTable, true);
+ SetCalcModeErrorFlag(!parseResult);
+ return parseResult ? NS_OK : NS_ERROR_FAILURE;
+}
+
+void
+nsSMILAnimationFunction::UnsetCalcMode()
+{
+ SetCalcModeErrorFlag(false);
+ mHasChanged = true;
+}
+
+nsresult
+nsSMILAnimationFunction::SetKeySplines(const nsAString& aKeySplines,
+ nsAttrValue& aResult)
+{
+ mKeySplines.Clear();
+ aResult.SetTo(aKeySplines);
+
+ mHasChanged = true;
+
+ if (!nsSMILParserUtils::ParseKeySplines(aKeySplines, mKeySplines)) {
+ mKeySplines.Clear();
+ return NS_ERROR_FAILURE;
+ }
+
+ return NS_OK;
+}
+
+void
+nsSMILAnimationFunction::UnsetKeySplines()
+{
+ mKeySplines.Clear();
+ SetKeySplinesErrorFlag(false);
+ mHasChanged = true;
+}
+
+nsresult
+nsSMILAnimationFunction::SetKeyTimes(const nsAString& aKeyTimes,
+ nsAttrValue& aResult)
+{
+ mKeyTimes.Clear();
+ aResult.SetTo(aKeyTimes);
+
+ mHasChanged = true;
+
+ if (!nsSMILParserUtils::ParseSemicolonDelimitedProgressList(aKeyTimes, true,
+ mKeyTimes)) {
+ mKeyTimes.Clear();
+ return NS_ERROR_FAILURE;
+ }
+
+ return NS_OK;
+}
+
+void
+nsSMILAnimationFunction::UnsetKeyTimes()
+{
+ mKeyTimes.Clear();
+ SetKeyTimesErrorFlag(false);
+ mHasChanged = true;
+}