interface EventTarget {
void addEventListener(DOMString type, EventListener? callback, optional boolean capture = false);
void removeEventListener(DOMString type, EventListener? callback, optional boolean capture = false);
boolean dispatchEvent(Event event);
};
/*
callback interface EventListener {
void handleEvent(Event event);
};
*/
// Callback interfaces are not supported yet, but that's ok
interface EventListener {};
callback DecodeSuccessCallback = void (AudioBuffer decodedData);
callback DecodeErrorCallback = void ();
[Constructor]
interface AudioContext : EventTarget {
readonly attribute AudioDestinationNode destination;
readonly attribute float sampleRate;
readonly attribute double currentTime;
readonly attribute AudioListener listener;
AudioBuffer createBuffer(unsigned long numberOfChannels, unsigned long length, float sampleRate);
void decodeAudioData(ArrayBuffer audioData,
DecodeSuccessCallback successCallback,
optional DecodeErrorCallback errorCallback);
// AudioNode creation
AudioBufferSourceNode createBufferSource();
MediaElementAudioSourceNode createMediaElementSource(HTMLMediaElement mediaElement);
MediaStreamAudioSourceNode createMediaStreamSource(MediaStream mediaStream);
MediaStreamAudioDestinationNode createMediaStreamDestination();
ScriptProcessorNode createScriptProcessor(optional unsigned long bufferSize = 0,
optional unsigned long numberOfInputChannels = 2,
optional unsigned long numberOfOutputChannels = 2);
AnalyserNode createAnalyser();
GainNode createGain();
DelayNode createDelay(optional double maxDelayTime = 1.0);
BiquadFilterNode createBiquadFilter();
WaveShaperNode createWaveShaper();
PannerNode createPanner();
ConvolverNode createConvolver();
ChannelSplitterNode createChannelSplitter(optional unsigned long numberOfOutputs = 6);
ChannelMergerNode createChannelMerger(optional unsigned long numberOfInputs = 6);
DynamicsCompressorNode createDynamicsCompressor();
OscillatorNode createOscillator();
PeriodicWave createPeriodicWave(Float32Array real, Float32Array imag);
};
enum ChannelCountMode {
"max",
"clamped-max",
"explicit"
};
enum ChannelInterpretation {
"speakers",
"discrete"
};
interface AudioNode : EventTarget {
void connect(AudioNode destination, optional unsigned long output = 0, optional unsigned long input = 0);
void connect(AudioParam destination, optional unsigned long output = 0);
void disconnect(optional unsigned long output = 0);
readonly attribute AudioContext context;
readonly attribute unsigned long numberOfInputs;
readonly attribute unsigned long numberOfOutputs;
// Channel up-mixing and down-mixing rules for all inputs.
attribute unsigned long channelCount;
attribute ChannelCountMode channelCountMode;
attribute ChannelInterpretation channelInterpretation;
};
interface AudioParam {
attribute float value;
readonly attribute float defaultValue;
// Parameter automation.
void setValueAtTime(float value, double startTime);
void linearRampToValueAtTime(float value, double endTime);
void exponentialRampToValueAtTime(float value, double endTime);
// Exponentially approach the target value with a rate having the given time constant.
void setTargetAtTime(float target, double startTime, double timeConstant);
// Sets an array of arbitrary parameter values starting at time for the given duration.
// The number of values will be scaled to fit into the desired duration.
void setValueCurveAtTime(Float32Array values, double startTime, double duration);
// Cancels all scheduled parameter changes with times greater than or equal to startTime.
void cancelScheduledValues(double startTime);
};
interface DelayNode : AudioNode {
readonly attribute AudioParam delayTime;
};