Tone.js is a Web Audio framework for creating interactive music in the browser. The architecture of Tone.js aims to be familiar to both musicians and audio programmers looking to create web-based audio applications. On the high-level, Tone offers common DAW (digital audio workstation) features like a global transport for scheduling events and prebuilt synths and effects. For signal-processing programmers (coming from languages like Max/MSP), Tone provides a wealth of high performance, low latency building blocks and DSP modules to build your own synthesizers, effects, and complex control signals.
[Tone.Synth](https://tonejs.github.io/docs/Synth) is a basic synthesizer with a single [oscillator](https://tonejs.github.io/docs/OmniOscillator) and an [ADSR envelope](https://tonejs.github.io/docs/Envelope).
`triggerAttackRelease` is a combination of two methods: `triggerAttack` when the amplitude is rising (for example from a 'key down' or 'note on' event), and `triggerRelease` is when the amplitude is going back to 0 ('key up' / 'note off').
The first argument to `triggerAttackRelease` is the frequency which can either be a number (like `440`) or as "pitch-octave" notation (like `"D#2"`). The second argument is the duration that the note is held. This value can either be in seconds, or as a [tempo-relative value](https://github.com/Tonejs/Tone.js/wiki/Time). The third (optional) argument of `triggerAttackRelease` is _when_ along the AudioContext time the note should play. It can be used to schedule events in the future.
Tone.js abstracts away the AudioContext time. Instead of defining all values in seconds, any method which takes time as an argument can accept a number or a string. For example `"4n"` is a quarter-note, `"8t"` is an eighth-note triplet, and `"1m"` is one measure. These values can even be composed into expressions.
Browsers will not play _any_ audio until a user clicks something (like a play button) and the AudioContext has had a chance to start. Execute the above example only after a users invokes `resume()` on Tone's context, or simply `Tone.start()`.
`Tone.start` returns a promise, the audio will be ready only after that promise is resolved. Scheduling or playing audio before the AudioContext is running will result in silence or wrong scheduling.
[Tone.Transport](https://tonejs.github.io/docs/Transport) is the master timekeeper, allowing for application-wide synchronization and scheduling of sources, signals and events along a shared timeline. Time expressions (like the ones above) are evaluated against the Transport's BPM which can be set like this: `Tone.Transport.bpm.value = 120`.
Tone.js provides higher-level abstractions for scheduling events. [Tone.Loop](https://tonejs.github.io/docs/Loop) is a simple way to create a looped callback that can be scheduled to start and stop.
Since Javascript callbacks are **not** precisely timed, the sample-accurate time of the event is passed into the callback function. **Use this time value to schedule the events**.
[Read about Tone.js' Event classes](https://github.com/Tonejs/Tone.js/wiki/Events) and [scheduling events with the Transport.](https://github.com/Tonejs/Tone.js/wiki/Transport)
All instruments are monophonic (one voice) but can be made polyphonic when the constructor is passed in as the first argument to [Tone.PolySynth](https://tonejs.github.io/docs/PolySynth).
In the above examples, the synthesizer was always connected directly to the [speakers](https://tonejs.github.io/docs/Destination), but the output of the synth could also be routed through one (or more) effects before going to the speakers.
Tone has a few basic audio sources like [Tone.Oscillator](https://tonejs.github.io/docs/Oscillator) which has sine, square, triangle, and sawtooth waveforms, a buffer player ([Tone.Player](https://tonejs.github.io/docs/Player)), a noise generator ([Tone.Noise](https://tonejs.github.io/docs/Noise)), a few additional oscillator types ([pwm](https://tonejs.github.io/docs/PWMOscillator), [pulse](https://tonejs.github.io/docs/PulseOscillator), [fat](https://tonejs.github.io/docs/FatOscillator), [fm](https://tonejs.github.io/docs/FMOscillator)) and [external audio input](https://tonejs.github.io/docs/UserMedia) (when [WebRTC is supported](http://caniuse.com/#feat=stream)).
Like the underlying Web Audio API, Tone.js is built with audio-rate signal control over nearly everything. This is a powerful feature which allows for sample-accurate synchronization and scheduling of parameters.
Tone.js creates an AudioContext when it loads and shims it for maximum browser compatibility. The AudioContext can be found at `Tone.context`. Or set your own AudioContext using `Tone.setContext(audioContext)`.
Tone.js makes extensive use of the native Web Audio Nodes such as the GainNode and WaveShaperNode for all signal processing, which enables Tone.js to work well on both desktop and mobile browsers.
Tone.js runs an extensive test suite using [mocha](https://mochajs.org/) and [chai](http://chaijs.com/) with nearly 100% coverage. Each commit and pull request is run on [Travis-CI](https://travis-ci.org/Tonejs/Tone.js/) across browsers and versions. Passing builds on the 'dev' branch are published on npm as `tone@next`.
If you have questions (or answers) that are not necessarily bugs/issues, please post them to the [forum](https://groups.google.com/forum/#!forum/tonejs).