FatOscillator is an array of oscillators with detune spread between the oscillators
const fatOsc = new Tone.FatOscillator("Ab3", "sawtooth", 40).toDestination().start();
The oscillator type without the partialsCount appended to the end
const osc = new Tone.Oscillator();
osc.type = "sine2";
console.log(osc.baseType); // "sine"
The number of seconds of 1 processing block (128 samples)
console.log(Tone.Destination.blockTime);
channelCount is the number of channels used when up-mixing and down-mixing connections to any inputs to the node. The default value is 2 except for specific nodes where its value is specially determined.
channelCountMode determines how channels will be counted when up-mixing and down-mixing connections to any inputs to the node. The default value is "max". This attribute has no effect for nodes with no inputs.
channelInterpretation determines how individual channels will be treated when up-mixing and down-mixing connections to any inputs to the node. The default value is "speakers".
The context belonging to the node.
The number of detuned oscillators. Must be an integer greater than 1.
const fatOsc = new Tone.FatOscillator("C#3", "sawtooth").toDestination().start();
// use 4 sawtooth oscillators
fatOsc.count = 4;
Set this debug flag to log all events that happen in this class.
The detune value in cents (100th of a semitone).
const osc = new Tone.PulseOscillator("F3").toDestination().start();
// pitch it 1 octave = 12 semitones = 1200 cents
osc.detune.setValueAtTime(-1200, Tone.now());
osc.detune.setValueAtTime(1200, Tone.now() + 0.5);
osc.detune.linearRampToValueAtTime(0, Tone.now() + 1);
osc.stop(Tone.now() + 1.5);
Indicates if the instance was disposed. 'Disposing' an instance means that all of the Web Audio nodes that were created for the instance are disconnected and freed for garbage collection.
The frequency value of the oscillator
const osc = new Tone.FMOscillator("Bb4").toDestination().start();
osc.frequency.rampTo("D2", 3);
Sources have no inputs
Mute the output.
const osc = new Tone.Oscillator().toDestination().start();
// mute the output
osc.mute = true;
The number of inputs feeding into the AudioNode. For source nodes, this will be 0.
const node = new Tone.Gain();
console.log(node.numberOfInputs);
The number of outputs of the AudioNode.
const node = new Tone.Gain();
console.log(node.numberOfOutputs);
The callback to invoke when the source is stopped.
'partialCount' offers an alternative way to set the number of used partials. When partialCount is 0, the maximum number of partials are used when representing the waveform using the periodicWave. When 'partials' is set, this value is not settable, but equals the length of the partials array. A square wave wave is composed of only odd harmonics up through the harmonic series. Partial count can limit the number of harmonics which are used to generate the waveform.
const osc = new Tone.Oscillator("C3", "square").toDestination().start();
osc.partialCount = 1;
setInterval(() => {
osc.partialCount++;
console.log(osc.partialCount);
}, 500);
The partials describes the relative amplitude of each of the harmonics of the oscillator. The first value in the array is the first harmonic (i.e. the fundamental frequency), the second harmonic is an octave up, the third harmonic is an octave and a fifth, etc. The resulting oscillator output is composed of a sine tone at the relative amplitude at each of the harmonic intervals.
const osc = new Tone.Oscillator("F3").toDestination().start();
setInterval(() => {
// generate 8 random partials
osc.partials = new Array(8).fill(0).map(() => Math.random());
}, 1000);
The phase is the starting position within the oscillator's cycle. For example a phase of 180 would start halfway through the oscillator's cycle.
return Tone.Offline(() => {
const osc = new Tone.Oscillator({
frequency: 20,
phase: 90
}).toDestination().start();
}, 0.1, 1);
The duration in seconds of one sample.
console.log(Tone.Transport.sampleTime);
The detune spread between the oscillators. If "count" is set to 3 oscillators and the "spread" is set to 40, the three oscillators would be detuned like this: [-20, 0, 20] for a total detune spread of 40 cents.
const fatOsc = new Tone.FatOscillator().toDestination().start();
fatOsc.spread = 70;
Returns the playback state of the source, either "started" or "stopped".
const player = new Tone.Player("https://tonejs.github.io/audio/berklee/ahntone_c3.mp3", () => {
player.start();
console.log(player.state);
}).toDestination();
The type of the oscillator
The version number semver
The volume of the output in decibels.
const source = new Tone.PWMOscillator().toDestination();
source.volume.value = -6;
Returns an array of values which represents the waveform.
Connect the output of this node to the rest of the nodes in series.
const player = new Tone.Player("https://tonejs.github.io/audio/drum-samples/handdrum-loop.mp3");
player.autostart = true;
const filter = new Tone.AutoFilter(4).start();
const distortion = new Tone.Distortion(0.5);
// connect the player to the filter, distortion and then to the master output
player.chain(filter, distortion, Tone.Destination);
connect the output of a ToneAudioNode to an AudioParam, AudioNode, or ToneAudioNode
The output to connect from
The input to connect to
disconnect the output
connect the output of this node to the rest of the nodes in parallel.
const player = new Tone.Player("https://tonejs.github.io/audio/drum-samples/conga-rhythm.mp3");
player.autostart = true;
const pitchShift = new Tone.PitchShift(4).toDestination();
const filter = new Tone.Filter("G5").toDestination();
// connect a node to the pitch shift and filter in parallel
player.fan(pitchShift, filter);
Get the object's attributes.
const osc = new Tone.Oscillator();
console.log(osc.get());
Returns all of the default options belonging to the class.
Return the current time of the Context clock without any lookAhead.
setInterval(() => {
console.log(Tone.immediate());
}, 100);
Return the current time of the Context clock plus the lookAhead.
setInterval(() => {
console.log(Tone.now());
}, 100);
Set multiple properties at once with an object.
const filter = new Tone.Filter().toDestination();
// set values using an object
filter.set({
frequency: "C6",
type: "highpass"
});
const player = new Tone.Player("https://tonejs.github.io/audio/berklee/Analogsynth_octaves_highmid.mp3").connect(filter);
player.autostart = true;
Start the source at the specified time. If no time is given, start the source now.
const source = new Tone.Oscillator().toDestination();
source.start("+0.5"); // starts the source 0.5 seconds from now
Stop the source at the specified time. If no time is given, stop the source now.
const source = new Tone.Oscillator().toDestination();
source.start();
source.stop("+0.5"); // stops the source 0.5 seconds from now
Sync the source to the Transport so that all subsequent
calls to start
and stop
are synced to the TransportTime
instead of the AudioContext time.
const osc = new Tone.Oscillator().toDestination();
// sync the source so that it plays between 0 and 0.3 on the Transport's timeline
osc.sync().start(0).stop(0.3);
// start the transport.
Tone.Transport.start();
// set it to loop once a second
Tone.Transport.loop = true;
Tone.Transport.loopEnd = 1;
Connect the output to the context's destination node.
const osc = new Tone.Oscillator("C2").start();
osc.toDestination();
Convert the input to a frequency number
const gain = new Tone.Gain();
console.log(gain.toFrequency("4n"));
Connect the output to the context's destination node. See toDestination
Convert the incoming time to seconds. This is calculated against the current Tone.Transport bpm
const gain = new Tone.Gain();
setInterval(() => console.log(gain.toSeconds("4n")), 100);
// ramp the tempo to 60 bpm over 30 seconds
Tone.getTransport().bpm.rampTo(60, 30);
Convert the class to a string
const osc = new Tone.Oscillator();
console.log(osc.toString());
Convert the input time into ticks
const gain = new Tone.Gain();
console.log(gain.toTicks("4n"));
Unsync the source to the Transport. See Source.sync