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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim:set ts=2 sw=2 sts=2 et cindent: */
/* 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 AudioEventTimeline_h_
#define AudioEventTimeline_h_
#include <algorithm>
#include "mozilla/Assertions.h"
#include "mozilla/FloatingPoint.h"
#include "mozilla/PodOperations.h"
#include "MainThreadUtils.h"
#include "nsTArray.h"
#include "math.h"
#include "WebAudioUtils.h"
namespace mozilla {
class MediaStream;
namespace dom {
struct AudioTimelineEvent final
{
enum Type : uint32_t
{
SetValue,
SetValueAtTime,
LinearRamp,
ExponentialRamp,
SetTarget,
SetValueCurve,
Stream,
Cancel
};
AudioTimelineEvent(Type aType, double aTime, float aValue, double aTimeConstant = 0.0,
double aDuration = 0.0, const float* aCurve = nullptr,
uint32_t aCurveLength = 0)
: mType(aType)
, mCurve(nullptr)
, mTimeConstant(aTimeConstant)
, mDuration(aDuration)
#ifdef DEBUG
, mTimeIsInTicks(false)
#endif
{
mTime = aTime;
if (aType == AudioTimelineEvent::SetValueCurve) {
SetCurveParams(aCurve, aCurveLength);
} else {
mValue = aValue;
}
}
explicit AudioTimelineEvent(MediaStream* aStream)
: mType(Stream)
, mCurve(nullptr)
, mStream(aStream)
, mTimeConstant(0.0)
, mDuration(0.0)
#ifdef DEBUG
, mTimeIsInTicks(false)
#endif
{
}
AudioTimelineEvent(const AudioTimelineEvent& rhs)
{
PodCopy(this, &rhs, 1);
if (rhs.mType == AudioTimelineEvent::SetValueCurve) {
SetCurveParams(rhs.mCurve, rhs.mCurveLength);
} else if (rhs.mType == AudioTimelineEvent::Stream) {
new (&mStream) decltype(mStream)(rhs.mStream);
}
}
~AudioTimelineEvent()
{
if (mType == AudioTimelineEvent::SetValueCurve) {
delete[] mCurve;
}
}
template <class TimeType>
TimeType Time() const;
void SetTimeInTicks(int64_t aTimeInTicks)
{
mTimeInTicks = aTimeInTicks;
#ifdef DEBUG
mTimeIsInTicks = true;
#endif
}
void SetCurveParams(const float* aCurve, uint32_t aCurveLength) {
mCurveLength = aCurveLength;
if (aCurveLength) {
mCurve = new float[aCurveLength];
PodCopy(mCurve, aCurve, aCurveLength);
} else {
mCurve = nullptr;
}
}
Type mType;
union {
float mValue;
uint32_t mCurveLength;
};
// mCurve contains a buffer of SetValueCurve samples. We sample the
// values in the buffer depending on how far along we are in time.
// If we're at time T and the event has started as time T0 and has a
// duration of D, we sample the buffer at floor(mCurveLength*(T-T0)/D)
// if T<T0+D, and just take the last sample in the buffer otherwise.
float* mCurve;
RefPtr<MediaStream> mStream;
double mTimeConstant;
double mDuration;
#ifdef DEBUG
bool mTimeIsInTicks;
#endif
private:
// This member is accessed using the `Time` method, for safety.
//
// The time for an event can either be in absolute value or in ticks.
// Initially the time of the event is always in absolute value.
// In order to convert it to ticks, call SetTimeInTicks. Once this
// method has been called for an event, the time cannot be converted
// back to absolute value.
union {
double mTime;
int64_t mTimeInTicks;
};
};
template <>
inline double AudioTimelineEvent::Time<double>() const
{
MOZ_ASSERT(!mTimeIsInTicks);
return mTime;
}
template <>
inline int64_t AudioTimelineEvent::Time<int64_t>() const
{
MOZ_ASSERT(!NS_IsMainThread());
MOZ_ASSERT(mTimeIsInTicks);
return mTimeInTicks;
}
/**
* Some methods in this class will be instantiated with different ErrorResult
* template arguments for testing and production code.
*
* ErrorResult is a type which satisfies the following:
* - Implements a Throw() method taking an nsresult argument, representing an error code.
*/
class AudioEventTimeline
{
public:
explicit AudioEventTimeline(float aDefaultValue)
: mValue(aDefaultValue),
mComputedValue(aDefaultValue),
mLastComputedValue(aDefaultValue)
{ }
template <class ErrorResult>
bool ValidateEvent(AudioTimelineEvent& aEvent, ErrorResult& aRv)
{
MOZ_ASSERT(NS_IsMainThread());
auto TimeOf = [](const AudioTimelineEvent& aEvent) -> double {
return aEvent.template Time<double>();
};
// Validate the event itself
if (!WebAudioUtils::IsTimeValid(TimeOf(aEvent)) ||
!WebAudioUtils::IsTimeValid(aEvent.mTimeConstant)) {
aRv.Throw(NS_ERROR_DOM_SYNTAX_ERR);
return false;
}
if (aEvent.mType == AudioTimelineEvent::SetValueCurve) {
if (!aEvent.mCurve || !aEvent.mCurveLength) {
aRv.Throw(NS_ERROR_DOM_SYNTAX_ERR);
return false;
}
for (uint32_t i = 0; i < aEvent.mCurveLength; ++i) {
if (!IsValid(aEvent.mCurve[i])) {
aRv.Throw(NS_ERROR_DOM_SYNTAX_ERR);
return false;
}
}
}
bool timeAndValueValid = IsValid(aEvent.mValue) &&
IsValid(aEvent.mDuration);
if (!timeAndValueValid) {
aRv.Throw(NS_ERROR_DOM_SYNTAX_ERR);
return false;
}
// Make sure that non-curve events don't fall within the duration of a
// curve event.
for (unsigned i = 0; i < mEvents.Length(); ++i) {
if (mEvents[i].mType == AudioTimelineEvent::SetValueCurve &&
!(aEvent.mType == AudioTimelineEvent::SetValueCurve &&
TimeOf(aEvent) == TimeOf(mEvents[i])) &&
TimeOf(mEvents[i]) <= TimeOf(aEvent) &&
TimeOf(mEvents[i]) + mEvents[i].mDuration >= TimeOf(aEvent)) {
aRv.Throw(NS_ERROR_DOM_SYNTAX_ERR);
return false;
}
}
// Make sure that curve events don't fall in a range which includes other
// events.
if (aEvent.mType == AudioTimelineEvent::SetValueCurve) {
for (unsigned i = 0; i < mEvents.Length(); ++i) {
// In case we have two curve at the same time
if (mEvents[i].mType == AudioTimelineEvent::SetValueCurve &&
TimeOf(mEvents[i]) == TimeOf(aEvent)) {
continue;
}
if (TimeOf(mEvents[i]) > TimeOf(aEvent) &&
TimeOf(mEvents[i]) < TimeOf(aEvent) + aEvent.mDuration) {
aRv.Throw(NS_ERROR_DOM_SYNTAX_ERR);
return false;
}
}
}
// Make sure that invalid values are not used for exponential curves
if (aEvent.mType == AudioTimelineEvent::ExponentialRamp) {
if (aEvent.mValue <= 0.f) {
aRv.Throw(NS_ERROR_DOM_SYNTAX_ERR);
return false;
}
const AudioTimelineEvent* previousEvent = GetPreviousEvent(TimeOf(aEvent));
if (previousEvent) {
if (previousEvent->mValue <= 0.f) {
aRv.Throw(NS_ERROR_DOM_SYNTAX_ERR);
return false;
}
} else {
if (mValue <= 0.f) {
aRv.Throw(NS_ERROR_DOM_SYNTAX_ERR);
return false;
}
}
}
return true;
}
template<typename TimeType>
void InsertEvent(const AudioTimelineEvent& aEvent)
{
for (unsigned i = 0; i < mEvents.Length(); ++i) {
if (aEvent.template Time<TimeType>() == mEvents[i].template Time<TimeType>()) {
if (aEvent.mType == mEvents[i].mType) {
// If times and types are equal, replace the event
mEvents.ReplaceElementAt(i, aEvent);
} else {
// Otherwise, place the element after the last event of another type
do {
++i;
} while (i < mEvents.Length() &&
aEvent.mType != mEvents[i].mType &&
aEvent.template Time<TimeType>() == mEvents[i].template Time<TimeType>());
mEvents.InsertElementAt(i, aEvent);
}
return;
}
// Otherwise, place the event right after the latest existing event
if (aEvent.template Time<TimeType>() < mEvents[i].template Time<TimeType>()) {
mEvents.InsertElementAt(i, aEvent);
return;
}
}
// If we couldn't find a place for the event, just append it to the list
mEvents.AppendElement(aEvent);
}
bool HasSimpleValue() const
{
return mEvents.IsEmpty();
}
float GetValue() const
{
// This method should only be called if HasSimpleValue() returns true
MOZ_ASSERT(HasSimpleValue());
return mValue;
}
float Value() const
{
// TODO: Return the current value based on the timeline of the AudioContext
return mValue;
}
void SetValue(float aValue)
{
// Silently don't change anything if there are any events
if (mEvents.IsEmpty()) {
mLastComputedValue = mComputedValue = mValue = aValue;
}
}
template <class ErrorResult>
void SetValueAtTime(float aValue, double aStartTime, ErrorResult& aRv)
{
AudioTimelineEvent event(AudioTimelineEvent::SetValueAtTime, aStartTime, aValue);
if (ValidateEvent(event, aRv)) {
InsertEvent<double>(event);
}
}
template <class ErrorResult>
void LinearRampToValueAtTime(float aValue, double aEndTime, ErrorResult& aRv)
{
AudioTimelineEvent event(AudioTimelineEvent::LinearRamp, aEndTime, aValue);
if (ValidateEvent(event, aRv)) {
InsertEvent<double>(event);
}
}
template <class ErrorResult>
void ExponentialRampToValueAtTime(float aValue, double aEndTime, ErrorResult& aRv)
{
AudioTimelineEvent event(AudioTimelineEvent::ExponentialRamp, aEndTime, aValue);
if (ValidateEvent(event, aRv)) {
InsertEvent<double>(event);
}
}
template <class ErrorResult>
void SetTargetAtTime(float aTarget, double aStartTime, double aTimeConstant, ErrorResult& aRv)
{
AudioTimelineEvent event(AudioTimelineEvent::SetTarget, aStartTime, aTarget, aTimeConstant);
if (ValidateEvent(event, aRv)) {
InsertEvent<double>(event);
}
}
template <class ErrorResult>
void SetValueCurveAtTime(const float* aValues, uint32_t aValuesLength, double aStartTime, double aDuration, ErrorResult& aRv)
{
AudioTimelineEvent event(AudioTimelineEvent::SetValueCurve, aStartTime, 0.0f, 0.0f, aDuration, aValues, aValuesLength);
if (ValidateEvent(event, aRv)) {
InsertEvent<double>(event);
}
}
template<typename TimeType>
void CancelScheduledValues(TimeType aStartTime)
{
for (unsigned i = 0; i < mEvents.Length(); ++i) {
if (mEvents[i].template Time<TimeType>() >= aStartTime) {
#ifdef DEBUG
// Sanity check: the array should be sorted, so all of the following
// events should have a time greater than aStartTime too.
for (unsigned j = i + 1; j < mEvents.Length(); ++j) {
MOZ_ASSERT(mEvents[j].template Time<TimeType>() >= aStartTime);
}
#endif
mEvents.TruncateLength(i);
break;
}
}
}
void CancelAllEvents()
{
mEvents.Clear();
}
static bool TimesEqual(int64_t aLhs, int64_t aRhs)
{
return aLhs == aRhs;
}
// Since we are going to accumulate error by adding 0.01 multiple time in a
// loop, we want to fuzz the equality check in GetValueAtTime.
static bool TimesEqual(double aLhs, double aRhs)
{
const float kEpsilon = 0.0000000001f;
return fabs(aLhs - aRhs) < kEpsilon;
}
template<class TimeType>
float GetValueAtTime(TimeType aTime)
{
float result;
GetValuesAtTimeHelper(aTime, &result, 1);
return result;
}
template<class TimeType>
void GetValuesAtTime(TimeType aTime, float* aBuffer, const size_t aSize)
{
MOZ_ASSERT(aBuffer);
GetValuesAtTimeHelper(aTime, aBuffer, aSize);
}
// Return the number of events scheduled
uint32_t GetEventCount() const
{
return mEvents.Length();
}
template<class TimeType>
void CleanupEventsOlderThan(TimeType aTime)
{
while (mEvents.Length() > 1 &&
aTime > mEvents[1].template Time<TimeType>()) {
if (mEvents[1].mType == AudioTimelineEvent::SetTarget) {
mLastComputedValue = GetValuesAtTimeHelperInternal(
mEvents[1].template Time<TimeType>(),
&mEvents[0], nullptr);
}
mEvents.RemoveElementAt(0);
}
}
private:
template<class TimeType>
void GetValuesAtTimeHelper(TimeType aTime, float* aBuffer, const size_t aSize);
template<class TimeType>
float GetValueAtTimeOfEvent(const AudioTimelineEvent* aNext);
template<class TimeType>
float GetValuesAtTimeHelperInternal(TimeType aTime,
const AudioTimelineEvent* aPrevious,
const AudioTimelineEvent* aNext);
const AudioTimelineEvent* GetPreviousEvent(double aTime) const;
static bool IsValid(double value)
{
return mozilla::IsFinite(value);
}
// This is a sorted array of the events in the timeline. Queries of this
// data structure should probably be more frequent than modifications to it,
// and that is the reason why we're using a simple array as the data structure.
// We can optimize this in the future if the performance of the array ends up
// being a bottleneck.
nsTArray<AudioTimelineEvent> mEvents;
float mValue;
// This is the value of this AudioParam we computed at the last tick.
float mComputedValue;
// This is the value of this AudioParam at the last tick of the previous event.
float mLastComputedValue;
};
} // namespace dom
} // namespace mozilla
#endif
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