import { Gain } from "../../core/context/Gain"; import { Degrees, Frequency, Seconds } from "../../core/type/Units"; import { optionsFromArguments } from "../../core/util/Defaults"; import { readOnly } from "../../core/util/Interface"; import { AudioToGain } from "../../signal/AudioToGain"; import { Multiply } from "../../signal/Multiply"; import { Signal } from "../../signal/Signal"; import { Source } from "../Source"; import { Oscillator } from "./Oscillator"; import { AMConstructorOptions, AMOscillatorOptions, generateWaveform, NonCustomOscillatorType, ToneOscillatorInterface, ToneOscillatorType } from "./OscillatorInterface"; export { AMOscillatorOptions } from "./OscillatorInterface"; /** * An amplitude modulated oscillator node. It is implemented with * two oscillators, one which modulators the other's amplitude * through a gain node. * ``` * +-------------+ +----------+ * | Carrier Osc +>------> GainNode | * +-------------+ | +--->Output * +---> gain | * +---------------+ | +----------+ * | Modulator Osc +>---+ * +---------------+ * ``` * @example * return Tone.Offline(() => { * const amOsc = new Tone.AMOscillator(30, "sine", "square").toDestination().start(); * }, 0.2, 1); * @category Source */ export class AMOscillator extends Source implements ToneOscillatorInterface { readonly name: string = "AMOscillator"; /** * The carrier oscillator */ private _carrier: Oscillator; readonly frequency: Signal<"frequency">; readonly detune: Signal<"cents">; /** * The modulating oscillator */ private _modulator: Oscillator; /** * convert the -1,1 output to 0,1 */ private _modulationScale = new AudioToGain({ context: this.context }); /** * Harmonicity is the frequency ratio between the carrier and the modulator oscillators. * A harmonicity of 1 gives both oscillators the same frequency. * Harmonicity = 2 means a change of an octave. * @example * const amOsc = new Tone.AMOscillator("D2").toDestination().start(); * Tone.Transport.scheduleRepeat(time => { * amOsc.harmonicity.setValueAtTime(1, time); * amOsc.harmonicity.setValueAtTime(0.5, time + 0.5); * amOsc.harmonicity.setValueAtTime(1.5, time + 1); * amOsc.harmonicity.setValueAtTime(1, time + 2); * amOsc.harmonicity.linearRampToValueAtTime(2, time + 4); * }, 4); * Tone.Transport.start(); */ readonly harmonicity: Signal<"positive">; /** * the node where the modulation happens */ private _modulationNode = new Gain({ context: this.context, }); /** * @param frequency The starting frequency of the oscillator. * @param type The type of the carrier oscillator. * @param modulationType The type of the modulator oscillator. */ constructor(frequency?: Frequency, type?: ToneOscillatorType, modulationType?: ToneOscillatorType); constructor(options?: Partial); constructor() { super(optionsFromArguments(AMOscillator.getDefaults(), arguments, ["frequency", "type", "modulationType"])); const options = optionsFromArguments(AMOscillator.getDefaults(), arguments, ["frequency", "type", "modulationType"]); this._carrier = new Oscillator({ context: this.context, detune: options.detune, frequency: options.frequency, onstop: () => this.onstop(this), phase: options.phase, type: options.type, } as OscillatorOptions); this.frequency = this._carrier.frequency, this.detune = this._carrier.detune; this._modulator = new Oscillator({ context: this.context, phase: options.phase, type: options.modulationType, } as OscillatorOptions); this.harmonicity = new Multiply({ context: this.context, units: "positive", value: options.harmonicity, }); // connections this.frequency.chain(this.harmonicity, this._modulator.frequency); this._modulator.chain(this._modulationScale, this._modulationNode.gain); this._carrier.chain(this._modulationNode, this.output); readOnly(this, ["frequency", "detune", "harmonicity"]); } static getDefaults(): AMOscillatorOptions { return Object.assign(Oscillator.getDefaults(), { harmonicity: 1, modulationType: "square" as NonCustomOscillatorType, }); } /** * start the oscillator */ protected _start(time: Seconds): void { this._modulator.start(time); this._carrier.start(time); } /** * stop the oscillator */ protected _stop(time: Seconds): void { this._modulator.stop(time); this._carrier.stop(time); } protected _restart(time: Seconds): void { this._modulator.restart(time); this._carrier.restart(time); } /** * The type of the carrier oscillator */ get type(): ToneOscillatorType { return this._carrier.type; } set type(type: ToneOscillatorType) { this._carrier.type = type; } get baseType(): OscillatorType { return this._carrier.baseType; } set baseType(baseType: OscillatorType) { this._carrier.baseType = baseType; } get partialCount(): number { return this._carrier.partialCount; } set partialCount(partialCount: number) { this._carrier.partialCount = partialCount; } /** * The type of the modulator oscillator */ get modulationType(): ToneOscillatorType { return this._modulator.type; } set modulationType(type: ToneOscillatorType) { this._modulator.type = type; } get phase(): Degrees { return this._carrier.phase; } set phase(phase: Degrees) { this._carrier.phase = phase; this._modulator.phase = phase; } get partials(): number[] { return this._carrier.partials; } set partials(partials: number[]) { this._carrier.partials = partials; } async asArray(length = 1024): Promise { return generateWaveform(this, length); } /** * Clean up. */ dispose(): this { super.dispose(); this.frequency.dispose(); this.detune.dispose(); this.harmonicity.dispose(); this._carrier.dispose(); this._modulator.dispose(); this._modulationNode.dispose(); this._modulationScale.dispose(); return this; } }