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Web Audio API

The Web Audio API provides a powerful and versatile system for controlling audio on the Web, allowing developers to choose audio sources, add effects to audio, create audio visualizations, apply spatial effects (such as panning) and much more.

Web audio concepts and usage

The Web Audio API involves handling audio operations inside an audio context, and has been designed to allow modular routing. Basic audio operations are performed with audio nodes, which are linked together to form an audio routing graph. Several sources — with different types of channel layout — are supported even within a single context. This modular design provides the flexibility to create complex audio functions with dynamic effects.

Audio nodes are linked into chains and simple webs by their inputs and outputs. They typically start with one or more sources. Sources provide arrays of sound intensities (samples) at very small timeslices, often tens of thousands of them per second. These could be either computed mathematically (such as OscillatorNode), or they can be recordings from sound/video files (like AudioBufferSourceNode and MediaElementAudioSourceNode) and audio streams (MediaStreamAudioSourceNode). In fact, sound files are just recordings of sound intensities themselves, which come in from microphones or electric instruments, and get mixed down into a single, complicated wave.

Outputs of these nodes could be linked to inputs of others, which mix or modify these streams of sound samples into different streams. A common modification is multiplying the samples by a value to make them louder or quieter (as is the case with GainNode). Once the sound has been sufficiently processed for the intended effect, it can be linked to the input of a destination (AudioContext.destination), which sends the sound to the speakers or headphones. This last connection is only necessary if the user is supposed to hear the audio.

A simple, typical workflow for web audio would look something like this:

  1. Create audio context
  2. Inside the context, create sources — such as <audio>, oscillator, stream
  3. Create effects nodes, such as reverb, biquad filter, panner, compressor
  4. Choose final destination of audio, for example your system speakers
  5. Connect the sources up to the effects, and the effects to the destination.

A simple box diagram with an outer box labeled Audio context, and three inner boxes labeled Sources, Effects and Destination. The three inner boxes have arrow between them pointing from left to right, indicating the flow of audio information.

Timing is controlled with high precision and low latency, allowing developers to write code that responds accurately to events and is able to target specific samples, even at a high sample rate. So applications such as drum machines and sequencers are well within reach.

The Web Audio API also allows us to control how audio is spatialized. Using a system based on a source-listener model, it allows control of the panning model and deals with distance-induced attenuation or doppler shift induced by a moving source (or moving listener).

You can read about the theory of the Web Audio API in a lot more detail in our article Basic concepts behind Web Audio API.

Web Audio API target audience

The Web Audio API can seem intimidating to those that aren't familiar with audio or music terms, and as it incorporates a great deal of functionality it can prove difficult to get started if you are a developer.

It can be used to simply incorporate audio into your website or application, by providing atmosphere like futurelibrary.no, or auditory feedback on forms. However, it can also be used to create advanced interactive instruments. With that in mind, it is suitable for both developers and musicians alike.

We have a simple introductory tutorial for those that are familiar with programming but need a good introduction to some of the terms and structure of the API.

There's also a Basic Concepts Behind Web Audio API article, to help you understand the way digital audio works, specifically in the realm of the API. This also includes a good introduction to some of the concepts the API is built upon.

Learning coding is like playing cards — you learn the rules, then you play, then you go back and learn the rules again, then you play again. So if some of the theory doesn't quite fit after the first tutorial and article, there's an advanced tutorial which extends the first one to help you practise what you've learnt, and apply some more advanced techniques to build up a step sequencer.

We also have other tutorials and comprehensive reference material available that covers all features of the API. See the sidebar on this page for more.

If you are more familiar with the musical side of things, are familiar with music theory concepts, want to start building instruments, then you can go ahead and start building things with the advance tutorial and others as a guide (the above linked tutorial covers scheduling notes, creating bespoke oscillators and envelopes, as well as an LFO among other things.)

If you aren't familiar with the programming basics, you might want to consult some beginner's JavaScript tutorials first and then come back here — see our Beginner's JavaScript learning module for a great place to begin.

Web Audio API Interfaces

The Web Audio API has a number of interfaces and associated events, which we have split up into nine categories of functionality.

General audio graph definition

General containers and definitions that shape audio graphs in Web Audio API usage.

AudioContext
The AudioContext interface represents an audio-processing graph built from audio modules linked together, each represented by an AudioNode. An audio context controls the creation of the nodes it contains and the execution of the audio processing, or decoding. You need to create an AudioContext before you do anything else, as everything happens inside a context.
AudioContextOptions
The AudioContextOptions dictionary is used to provide options when instantiating a new AudioContext.
AudioNode
The AudioNodeinterface represents an audio-processing module like an audio source (e.g. an HTML <audio> or <video> element), audio destination, intermediate processing module (e.g. a filter like BiquadFilterNode, or volume control like GainNode).
AudioParam
The AudioParaminterface represents an audio-related parameter, like one of an AudioNode. It can be set to a specific value or a change in value, and can be scheduled to happen at a specific time and following a specific pattern.
AudioParamMap
Provides a maplike interface to a group of AudioParam interfaces, which means it provides the methods forEach(), get(), has(), keys(), and values(), as well as a size property.
BaseAudioContext
The BaseAudioContext interface acts as a base definition for online and offline audio-processing graphs, as represented by AudioContext and OfflineAudioContext respectively. You wouldn't use BaseAudioContext directly — you'd use its features via one of these two inheriting interfaces.
The ended event
The ended event is fired when playback has stopped because the end of the media was reached.

Defining audio sources

Interfaces that define audio sources for use in the Web Audio API.

AudioScheduledSourceNode
The AudioScheduledSourceNode is a parent interface for several types of audio source node interfaces. It is an AudioNode.
OscillatorNode
The OscillatorNodeinterface represents a periodic waveform, such as a sine or triangle wave. It is an AudioNode audio-processing module that causes a given frequency of wave to be created.
AudioBuffer
The AudioBuffer interface represents a short audio asset residing in memory, created from an audio file using the AudioContext.decodeAudioData() method, or created with raw data using AudioContext.createBuffer(). Once decoded into this form, the audio can then be put into an AudioBufferSourceNode.
AudioBufferSourceNode
The AudioBufferSourceNode interface represents an audio source consisting of in-memory audio data, stored in an AudioBuffer. It is an AudioNode that acts as an audio source.
MediaElementAudioSourceNode
The MediaElementAudioSourceNode interface represents an audio source consisting of an HTML5 <audio> or <video> element. It is an AudioNode that acts as an audio source.
MediaStreamAudioSourceNode
The MediaStreamAudioSourceNode interface represents an audio source consisting of a WebRTC MediaStream (such as a webcam, microphone, or a stream being sent from a remote computer). It is an AudioNode that acts as an audio source.

Defining audio effects filters

Interfaces for defining effects that you want to apply to your audio sources.

BiquadFilterNode
The BiquadFilterNodeinterface represents a simple low-order filter. It is an AudioNode that can represent different kinds of filters, tone control devices, or graphic equalizers. A BiquadFilterNode always has exactly one input and one output.
ConvolverNode
The ConvolverNodeinterface is an AudioNode that performs a Linear Convolution on a given AudioBuffer, and is often used to achieve a reverb effect.
DelayNode
The DelayNodeinterface represents a delay-line; an AudioNode audio-processing module that causes a delay between the arrival of an input data and its propagation to the output.
DynamicsCompressorNode
The DynamicsCompressorNode interface provides a compression effect, which lowers the volume of the loudest parts of the signal in order to help prevent clipping and distortion that can occur when multiple sounds are played and multiplexed together at once.
GainNode
The GainNodeinterface represents a change in volume. It is an AudioNode audio-processing module that causes a given gain to be applied to the input data before its propagation to the output.
WaveShaperNode
The WaveShaperNodeinterface represents a non-linear distorter. It is an AudioNode that use a curve to apply a waveshaping distortion to the signal. Beside obvious distortion effects, it is often used to add a warm feeling to the signal.
PeriodicWave
Describes a periodic waveform that can be used to shape the output of an OscillatorNode.
IIRFilterNode
Implements a general infinite impulse response (IIR) filter; this type of filter can be used to implement tone control devices and graphic equalizers as well.

Defining audio destinations

Once you are done processing your audio, these interfaces define where to output it.

AudioDestinationNode
The AudioDestinationNode interface represents the end destination of an audio source in a given context — usually the speakers of your device.
MediaStreamAudioDestinationNode
The MediaStreamAudioDestinationNode interface represents an audio destination consisting of a WebRTC MediaStream with a single AudioMediaStreamTrack, which can be used in a similar way to a MediaStream obtained from getUserMedia(). It is an AudioNode that acts as an audio destination.

Data analysis and visualization

If you want to extract time, frequency, and other data from your audio, the AnalyserNode is what you need.

AnalyserNode
The AnalyserNode interface represents a node able to provide real-time frequency and time-domain analysis information, for the purposes of data analysis and visualization.

Splitting and merging audio channels

To split and merge audio channels, you'll use these interfaces.

ChannelSplitterNode
The ChannelSplitterNode interface separates the different channels of an audio source out into a set of mono outputs.
ChannelMergerNode
The ChannelMergerNode interface reunites different mono inputs into a single output. Each input will be used to fill a channel of the output.

Audio spatialization

These interfaces allow you to add audio spatialization panning effects to your audio sources.

AudioListener
The AudioListenerinterface represents the position and orientation of the unique person listening to the audio scene used in audio spatialization.
PannerNode
The PannerNode interface represents the position and behavior of an audio source signal in 3D space, allowing you to create complex panning effects.
StereoPannerNode
The StereoPannerNode interface represents a simple stereo panner node that can be used to pan an audio stream left or right.

Audio processing in JavaScript

Using audio worklets, you can define custom audio nodes written in JavaScript or WebAssembly. Audio worklets implement the Worklet interface, a lightweight version of the Worker interface. As of January 2018, audio worklets are available in Chrome 64 behind a flag.

AudioWorklet
The AudioWorklet interface is available via BaseAudioContext.audioWorklet and allows you to add new modules to the audio worklet.
AudioWorkletNode
The AudioWorkletNode interface represents an AudioNode that is embedded into an audio graph and can pass messages to the AudioWorkletProcessor.
AudioWorkletProcessor
The AudioWorkletProcessor interface represents audio processing code running in a AudioWorkletGlobalScope that generates, processes, or analyses audio directly, and can pass messages to the AudioWorkletNode.
AudioWorkletGlobalScope
The AudioWorkletGlobalScope interface is a WorkletGlobalScope-derived object representing a worker context in which an audio processing script is run; it is designed to enable the generation, processing, and analysis of audio data directly using JavaScript in a worklet thread.

Before audio worklets were defined, the Web Audio API used the ScriptProcessorNode for JavaScript-based audio processing. Because the code is running in the main thread, it had bad performance. The ScriptProcessorNode is kept for historic reasons but is marked as deprecated and will be removed in a future version of the specification.

ScriptProcessorNode
The ScriptProcessorNodeinterface allows the generation, processing, or analyzing of audio using JavaScript. It is an AudioNode audio-processing module that is linked to two buffers, one containing the current input, one containing the output. An event, implementing the AudioProcessingEvent interface, is sent to the object each time the input buffer contains new data, and the event handler terminates when it has filled the output buffer with data.
audioprocess (event)
The audioprocess event is fired when an input buffer of a Web Audio API ScriptProcessorNode is ready to be processed.
AudioProcessingEvent
The Web Audio API AudioProcessingEvent represents events that occur when a ScriptProcessorNode input buffer is ready to be processed.

Offline/background audio processing

It is possible to process/render an audio graph very quickly in the background — rendering it to an AudioBuffer rather than to the device's speakers — with the following.

OfflineAudioContext
The OfflineAudioContext interface is an AudioContext interface representing an audio-processing graph built from linked together AudioNodes. In contrast with a standard AudioContext, an OfflineAudioContext doesn't really render the audio but rather generates it, as fast as it can, in a buffer.
complete (event)
The complete event is fired when the rendering of an OfflineAudioContext is terminated.
OfflineAudioCompletionEvent
The OfflineAudioCompletionEvent represents events that occur when the processing of an OfflineAudioContext is terminated. The complete event implements this interface.

Obsolete interfaces

The following interfaces were defined in old versions of the Web Audio API spec, but are now obsolete and have been replaced by other interfaces.

JavaScriptNode
Used for direct audio processing via JavaScript. This interface is obsolete, and has been replaced by ScriptProcessorNode.
WaveTableNode
Used to define a periodic waveform. This interface is obsolete, and has been replaced by PeriodicWave.

Examples

You can find a number of examples at our webaudio-example repo on GitHub.

Specifications

Specification Status Comment
Web Audio API Working Draft

Browser compatibilityUpdate compatibility data on GitHub

AudioContext

Desktop
Chrome Edge Firefox Internet Explorer Opera Safari
Basic support 35
35
14 — 57
Prefixed
Prefixed Requires the vendor prefix: webkit
Yes 25 No 22
22
15 — 44
Prefixed
Prefixed Requires the vendor prefix: webkit
6
Prefixed
6
Prefixed
Prefixed Requires the vendor prefix: webkit
Mobile
Android webview Chrome for Android Edge Mobile Firefox for Android Opera for Android iOS Safari Samsung Internet
Basic support Yes 35
35
18 — 57
Prefixed
Prefixed Requires the vendor prefix: webkit
Yes 26 22
22
15 — 44
Prefixed
Prefixed Requires the vendor prefix: webkit
? Yes
Yes
? — 7.0
Prefixed
Prefixed Requires the vendor prefix: webkit

See also

Tutorials/guides

Libraries

  • Tones: a simple library for playing specific tones/notes using the Web Audio API.
  • Tone.js: a framework for creating interactive music in the browser.
  • howler.js: a JS audio library that defaults to Web Audio API and falls back to HTML5 Audio, as well as providing other useful features.
  • Mooog: jQuery-style chaining of AudioNodes, mixer-style sends/returns, and more.
  • XSound: Web Audio API Library for Synthesizer, Effects, Visualization, Recording ... etc
  • OpenLang: HTML5 video language lab web application using the Web Audio API to record and combine video and audio from different sources into a single file (source on GitHub)

© 2005–2018 Mozilla Developer Network and individual contributors.
Licensed under the Creative Commons Attribution-ShareAlike License v2.5 or later.
https://developer.mozilla.org/en-US/docs/Web/API/Web_Audio_API