AudioWorkletProcessor.process
The process()
method of an AudioWorkletProcessor
-derived class implements the audio processing algorithm for the audio processor worklet.
Although the method is not a part of the AudioWorkletProcessor
interface, any implementation of AudioWorkletProcessor
must provide a process()
method.
The method is called synchronously from the audio rendering thread, once for each block of audio (also known as a rendering quantum) being directed through the processor's corresponding AudioWorkletNode
. In other words, every time a new block of audio is ready for your processor to manipulate, your process()
function is invoked to do so.
Note: Currently, audio data blocks are always 128 frames long—that is, they contain 128 32-bit floating-point samples for each of the inputs' channels. However, plans are already in place to revise the specification to allow the size of the audio blocks to be changed depending on circumstances (for example, if the audio hardware or CPU utilization is more efficient with larger block sizes). Therefore, you must always check the size of the sample array rather than assuming a particular size.
This size may even be allowed to change over time, so you mustn't look at just the first block and assume the sample buffers will always be the same size.
Syntax
var isActivelyProcessing = audioWorkletProcessor.process(inputs, outputs, parameters);
Parameters
inputs
-
An array of inputs connected to the node, each item of which is, in turn, an array of channels. Each channel is a
Float32Array
containing 128 samples. For example,inputs[n][m][i]
will access n-th input, m-th channel of that input, and i-th sample of that channel.Each sample value is in range of
[-1 .. 1]
.The number of inputs and thus the length of that array is fixed at the construction of the node (see
AudioWorkletNode
). If there is no active node connected to the n-th input of the node,inputs[n]
will be an empty array (zero input channels available).The number of channels in each input may vary, depending on
channelCount
andchannelCountMode
properties. outputs
-
An array of outputs that is similar to the
inputs
parameter in structure. It is intended to be filled during the execution of theprocess()
method. Each of the output channels is filled with zeros by default — the processor will output silence unless the output arrays are modified. parameters
-
An object containing string keys and
Float32Array
values. For each customAudioParam
defined using theparameterDescriptors
getter, the key in the object is aname
of thatAudioParam
, and the value is aFloat32Array
. The values of the array are calculated by taking scheduled automation events into consideration.If the automation rate of the parameter is
"a-rate"
, the array will contain 128 values — one for each frame in the current audio block. If there's no automation happening during the time represented by the current block, the array may contain a single value that is constant for the entire block, instead of 128 identical values.If the automation rate is
"k-rate"
, the array will contain a single value, which is to be used for each of 128 frames.
Return value
A Boolean value indicating whether or not to force the AudioWorkletNode
to remain active even if the user agent's internal logic would otherwise decide that it's safe to shut down the node.
The returned value lets your processor have influence over the lifetime policy of the AudioWorkletProcessor
and the node that owns it. If the combination of the return value and the state of the node causes the browser to decide to stop the node, process()
will not be called again.
Returning true
forces the Web Audio API to keep the node alive, while returning false
allows the browser to terminate the node if it is neither generating new audio data nor receiving data through its inputs that it is processing.
The 3 most common types of audio node are:
- A source of output. An
AudioWorkletProcessor
implementing such a node should returntrue
from theprocess
method as long as it produces an output. The method should returnfalse
as soon as it's known that it will no longer produce an output. For example, take theAudioBufferSourceNode
— the processor behind such a node should returntrue
from theprocess
method while the buffer is playing, and start returningfalse
when the buffer playing has ended (there's no way to callplay
on the sameAudioBufferSourceNode
again). - A node that transforms its input. A processor implementing such a node should return
false
from theprocess
method to allow the presence of active input nodes and references to the node to determine whether it can be garbage-collected. An example of a node with this behavior is theGainNode
. As soon as there are no inputs connected and references retained, gain can no longer be applied to anything, so it can be safely garbage-collected. - A node that transforms its input, but has a so-called tail-time — this means that it will produce an output for some time even after its inputs are disconnected or are inactive (producing zero-channels). A processor implementing such a node should return
true
from theprocess
method for the period of the tail-time, beginning as soon as inputs are found that contain zero-channels. An example of such a node is theDelayNode
— it has a tail-time equal to itsdelayTime
property.
Note: An absence of the return
statement means that the method returns undefined
, and as this is a falsy value, it is like returning false
. Omitting an explicit return
statement may cause hard-to-detect problems for your nodes.
Exceptions
As the process()
method is implemented by the user, it can throw anything. If an uncaught error is thrown, the node will emit an onprocessorerror
event and will output silence for the rest of its lifetime.
Examples
In this example we create an AudioWorkletProcessor
that outputs white noise to its first output. The gain can be controlled by the customGain
parameter.
class WhiteNoiseProcessor extends AudioWorkletProcessor { process (inputs, outputs, parameters) { // take the first output const output = outputs[0] // fill each channel with random values multiplied by gain output.forEach(channel => { for (let i = 0; i < channel.length; i++) { // generate random value for each sample // Math.random range is [0; 1); we need [-1; 1] // this won't include exact 1 but is fine for now for simplicity channel[i] = (Math.random() * 2 - 1) * // the array can contain 1 or 128 values // depending on if the automation is present // and if the automation rate is k-rate or a-rate (parameters['customGain'].length > 1 ? parameters['customGain'][i] : parameters['customGain'][0]) } }) // as this is a source node which generates its own output, // we return true so it won't accidentally get garbage-collected // if we don't have any references to it in the main thread return true } // define the customGain parameter used in process method static get parameterDescriptors () { return [{ name: 'customGain', defaultValue: 1, minValue: 0, maxValue: 1, automationRate: 'a-rate' }] } }
Specifications
No specification data found for api.AudioWorkletProcessor.process
.
Check for problems with this page or contribute a missing spec_url
to mdn/browser-compat-data. Also make sure the specification is included in w3c/browser-specs.
Browser compatibility
No compatibility data found for api.AudioWorkletProcessor.process
.
Check for problems with this page or contribute missing data to mdn/browser-compat-data.
See also
© 2005–2021 MDN contributors.
Licensed under the Creative Commons Attribution-ShareAlike License v2.5 or later.
https://developer.mozilla.org/en-US/docs/Web/API/AudioWorkletProcessor/process