Attention! This repository is archived and the library has been moved to tinkoff/ng-web-apis monorepository
Part of Web APIs for Angular
This is a library for declarative use of Web Audio API with Angular 7+. It is a complete conversion to declarative Angular directives, if you find any inconsistencies or errors, please file an issue. Watch out for π‘ emoji in this README for additional features and special use cases.
After you installed the package, you must add
@ng-web-apis/audio/polyfill
to yourpolyfills.ts
. It is required to normalize things likewebkitAudioContext
, otherwise your code would fail.
You can build audio graph with directives. For example, here's a typical echo feedback loop:
<audio src="/demo.wav" waMediaElementAudioSourceNode>
<ng-container #node="AudioNode" waDelayNode [delayTime]="delayTime">
<ng-container waGainNode [gain]="gain">
<ng-container [waOutput]="node"></ng-container>
<ng-container waAudioDestinationNode></ng-container>
</ng-container>
</ng-container>
<ng-container waAudioDestinationNode></ng-container>
</audio>
This library has AudioBufferService
with fetch
method, returning
Promise
which allows you to easily turn your hosted audio file into
AudioBuffer through GET requests.
Result is stored in service's cache so same file is not requested again while application is running.
This service is also used within directives that have AudioBuffer inputs (such as AudioBufferSourceNode or ConvolverNode) so you can just pass string URL, as well as an actual AudioBuffer. For example:
<button
#source="AudioNode"
buffer="/demo.wav"
waAudioBufferSourceNode
(click)="source.start()"
>
Play
<ng-container waAudioDestinationNode></ng-container>
</button>
You can use following audio nodes through directives of the same name
(prefixed with wa
standing for Web API):
-
π‘ Not required if you only need one, global context will be created when needed
π‘ Also gives you access to AudioListener parameters such as positionX
-
π‘ Additionally supports empty
autoplay
attribute similar toaudio
tag so it would start rendering immediatelyπ‘ Also gives you access to AudioListener parameters such as positionX
-
π‘ Use it to terminate branch of your graph
π‘ can be used multiple times inside single BaseAudioContext referencing the same BaseAudioContext.destination
π‘ Has
(quiet)
output to watch for particular graph branch going almost silent for 5 seconds straight so you can remove branch after all effects played out to silence to free up resources
-
π‘ Additionally supports setting URL to media file as buffer so it will be fetched and turned into AudioBuffer
π‘ Additionally supports empty
autoplay
attribute similar toaudio
tag so it would start playing immediately -
π‘ Additionally supports empty
autoplay
attribute similar toaudio
tag so it would start playing immediately -
π‘ Additionally supports empty
autoplay
attribute similar toaudio
tag so it would start playing immediately
-
π‘ Use
Channel
directive to merge channels, see example in Special cases section -
π‘ Additionally supports setting URL to media file as buffer so it will be fetched and turned into AudioBuffer
You can use AudioWorkletNode in supporting browsers. To register your AudioWorkletProcessors in a global default AudioContext you can use tokens:
@NgModule({
bootstrap: [AppComponent],
declarations: [AppComponent],
providers: [
{
provide: AUDIO_WORKLET_PROCESSORS,
useValue: 'assets/my-processor.js',
multi: true,
},
],
})
export class AppModule {}
@Component({
selector: 'app',
templateUrl: './app.component.html',
})
export class AppComponent {
constructor(
@Inject(AUDIO_WORKLET_PROCESSORS_READY) readonly processorsReady: Promise<boolean>,
) {}
// ...
}
You can then instantiate your AudioWorkletNode:
<ng-container *ngIf="processorsReady | async" waAudioWorkletNode name="my-processor">
<ng-container waAudioDestinationNode></ng-container>
</ng-container>
If you need to create your own node with custom
AudioParam
and control it declaratively you can extend WebAudioWorklet
class
and add audioParam
decorator to new component's inputs:
@Directive({
selector: '[my-worklet-node]',
exportAs: 'AudioNode',
providers: [
{
provide: AUDIO_NODE,
useExisting: forwardRef(() => MyWorklet),
},
],
})
export class MyWorklet extends WebAudioWorklet {
@Input()
@audioParam()
customParam?: AudioParamInput;
constructor(
@Inject(AUDIO_CONTEXT) context: BaseAudioContext,
@SkipSelf() @Inject(AUDIO_NODE) node: AudioNode | null,
) {
super(context, node, 'my-processor');
}
}
π‘ AudioParam
Since work with AudioParam is imperative in its nature, there are difference to native API when working with declarative inputs and directives.
NOTE: You can always access directives through template reference variables / @ViewChild and since they extend native nodes work with AudioParam in traditional Web Audio fashion
AudioParam inputs for directives accept following arguments:
-
number
to set in instantly, equivalent to setting AudioParam.value -
AudioParamCurve
to set array of values over given duration, equivalent to AudioParam.setValueCurveAtTime called with AudioContext.currentTimeexport type AudioParamCurve = { readonly value: number[]; readonly duration: number; }
-
AudioParamAutomation
to linearly or exponentially ramp to given value starting from AudioContext.currentTimeexport type AudioParamAutomation = { readonly value: number; readonly duration: number; readonly mode: 'instant' | 'linear' | 'exponential'; };
-
AudioParamAutomation[]
to schedule multiple changes in value, stacking one after another
You can use waAudioParam
pipe to turn your number values into AudioParamAutomation
(default mode is exponential
, so last argument can be omitted)
or number arrays to AudioParamCurve
(second argument duration
is in seconds):
<ng-container
waGainNode
gain="0"
[gain]="gain | waAudioParam : 0.1 : 'linear'"
></ng-container>
This way values would change smoothly rather than abruptly, causing audio artifacts.
NOTE: You can set initial value for AudioParam through argument binding combined with dynamic property binding as seen above.
To schedule an audio envelope looking something like this:
You would need to pass the following array of AudioParamAutomation
items:
envelope = [
{
value: 0,
duration: 0,
mode: 'instant',
},
{
value: 1,
duration: ATTACK_TIME,
mode: 'linear',
},
{
value: SUS,
duration: DECAY_TIME,
mode: 'linear',
},
{
value: SUS,
duration: SUSTAIN_TIME,
mode: 'instant',
},
{
value: 0,
duration: RELEASE_TIME,
mode: 'exponential',
},
];
- Use
waOutput
directive when you need non-linear graph (see feedback loop example above) or to manually connect AudioNode to AudioNode or AudioParam - Use
waPeriodicWave
pipe to create PeriodicWave for OscillatorNode - All node directives are exported as
AudioNode
so you can use them with template reference variables (see feedback loop example above) - Use
waChannel
directive within ChannelMergerNode and directwaOutput
directive to it in order to perform channel merging:
<!-- Inverting left and right channel -->
<audio src="/demo.wav" waMediaElementAudioSourceNode>
<ng-container waChannelSplitterNode>
<ng-container [waOutput]="right"></ng-container>
<ng-container [waOutput]="left"></ng-container>
</ng-container>
<ng-container waChannelMergerNode>
<ng-container #left="AudioNode" waChannel></ng-container>
<ng-container #right="AudioNode" waChannel></ng-container>
<ng-container waAudioDestinationNode></ng-container>
</ng-container>
</audio>
- You can check
Web Audio API
support in current browser by injecting
WEB_AUDIO_SUPPORT
token - You can check
AudioWorklet
support in current browser by injecting
AUDIO_WORKLET_SUPPORT
token - You can inject
BaseAudioContext
through
AUDIO_CONTEXT
token - AudioContext is created by default with default options when token is requested
- You can also provide custom BaseAudioContext through that token
- Provide
FEEDBACK_COEFFICIENTS
andFEEDFORWARD_COEFFICIENTS
tokens to be able to create IIRFilterNode - Provide
MEDIA_STREAM
token to be able to create MediaStreamAudioSourceNode - Provide
MEDIA_STREAM_TRACK
token to be able to create MediaStreamTrackAudioSourceNode - All node directives provide underlying
AudioNode
as
AUDIO_NODE
token - Use
AUDIO_WORKLET_PROCESSORS
token to declare array of AudioWorkletProcessors to be added to default AudioContext - Inject
AUDIO_WORKLET_PROCESSORS_READY
token to initialize provided AudioWorkletProcessors loading and watch for Promise resolution before instantiating dependent AudioWorkletNodes
12+ | 31+ | 34+ | 9+ |
Note that some features (AudioWorklet etc.) were added later and are supported only by more recent versions
IMPORTANT: You must add @ng-web-apis/audio/polyfill
to your polyfills.ts
,
otherwise you will get ReferenceError: X is not defined
in browsers for entities
they do not support
π‘ StereoPannerNode is emulated with PannerNode in browsers that do not support it yet
π‘ positionX (orientationX) and other similar properties of AudioListener and PannerNode fall back to setPosition (setOrientation) method if browser does not support it
If you want to use this package with SSR, you need to mock native Web Audio API classes on the server. You can use our Universal package for this, see this example.
You can try online demo here
Other Web APIs for Angular by @ng-web-apis
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