AudioWorkletProcessor: AudioWorkletProcessor() constructor
Baseline Widely available
This feature is well established and works across many devices and browser versions. It’s been available across browsers since April 2021.
The AudioWorkletProcessor()
constructor creates a new AudioWorkletProcessor
object, which
represents an underlying audio processing mechanism of an
AudioWorkletNode
.
Syntax
Note: The AudioWorkletProcessor
and classes that derive from it
cannot be instantiated directly from a user-supplied code. Instead, they are created
only internally by the creation of an associated AudioWorkletNode
s.
new AudioWorkletProcessor(options)
Parameters
options
-
An object that is passed as options parameter to the
AudioWorkletNode()
constructor and passed through the structured clone algorithm. Available properties are as follows:numberOfInputs
Optional-
The value to initialize the
numberOfInputs
property to. Defaults to 1. numberOfOutputs
Optional-
The value to initialize the
numberOfOutputs
property to. Defaults to 1. outputChannelCount
Optional-
An array defining the number of channels for each output. For example, outputChannelCount: [n, m] specifies the number of channels in the first output to be n and the second output to be m. The array length must match
numberOfOutputs
. parameterData
Optional-
An object containing the initial values of custom
AudioParam
objects on this node (in itsparameters
property), withkey
being the name of a custom parameter andvalue
being its initial value. processorOptions
Optional-
Any additional data that can be used for custom initialization of the underlying
AudioWorkletProcessor
.
Note that there are default values for the first two properties, so even if there are no options object passed to the
AudioWorkletNode()
constructor, the options object passed by the node to theAudioWorkletProcessor
constructor will exist and at minimum havenumberOfInputs
andnumberOfOutputs
.
Return value
The newly constructed AudioWorkletProcessor
instance.
Examples
In this example we pass custom options to the
AudioWorkletNode()
constructor and
observe how a structured clone of them gets passed to our AudioWorkletProcessor
constructor.
First, we need to define a custom AudioWorkletProcessor
and register it.
Note that this should be done in a separate file.
// test-processor.js
class TestProcessor extends AudioWorkletProcessor {
constructor(options) {
super();
console.log(options.numberOfInputs);
console.log(options.processorOptions.someUsefulVariable);
}
process(inputs, outputs, parameters) {
return true;
}
}
registerProcessor("test-processor", TestProcessor);
Next, in our main script file we'll load the processor, create an instance of
AudioWorkletNode
passing it the name of the processor and options
object.
In the options object we pass processorOptions
with a
Map
instance under someUsefulVariable
key. We don't pass
numberOfInputs
and see how it gets its default value.
const audioContext = new AudioContext();
await audioContext.audioWorklet.addModule("test-processor.js");
const testNode = new AudioWorkletNode(audioContext, "test-processor", {
processorOptions: {
someUsefulVariable: new Map([
[1, "one"],
[2, "two"],
]),
},
});
The console output will be as follows:
> 1 // AudioWorkletNode options.numberOfInputs set to default > Map(2) { 1 => "one", 2 => "two" } // A cloned map under someUsefulVariable
Specifications
Specification |
---|
Web Audio API # dom-audioworkletprocessor-audioworkletprocessor |
Browser compatibility
BCD tables only load in the browser
See also
AudioWorkletNode
interface