import { Effect, EffectOptions } from "./Effect"; import { Positive } from "../core/type/Units"; import { optionsFromArguments } from "../core/util/Defaults"; import { WaveShaper } from "../signal/WaveShaper"; import { assert } from "../core/util/Debug"; export interface ChebyshevOptions extends EffectOptions { order: Positive; oversample: OverSampleType; } /** * Chebyshev is a waveshaper which is good * for making different types of distortion sounds. * Note that odd orders sound very different from even ones, * and order = 1 is no change. * Read more at [music.columbia.edu](http://music.columbia.edu/cmc/musicandcomputers/chapter4/04_06.php). * @example * // create a new cheby * const cheby = new Tone.Chebyshev(50).toDestination(); * // create a monosynth connected to our cheby * const synth = new Tone.MonoSynth().connect(cheby); * synth.triggerAttackRelease("C2", 0.4); * @category Effect */ export class Chebyshev extends Effect { readonly name: string = "Chebyshev"; /** * The private waveshaper node */ private _shaper: WaveShaper; /** * holds onto the order of the filter */ private _order: number; /** * @param order The order of the chebyshev polynomial. Normal range between 1-100. */ constructor(order?: Positive); constructor(options?: Partial); constructor() { super(optionsFromArguments(Chebyshev.getDefaults(), arguments, ["order"])); const options = optionsFromArguments(Chebyshev.getDefaults(), arguments, ["order"]); this._shaper = new WaveShaper({ context: this.context, length: 4096 }); this._order = options.order; this.connectEffect(this._shaper); this.order = options.order; this.oversample = options.oversample; } static getDefaults(): ChebyshevOptions { return Object.assign(Effect.getDefaults(), { order: 1, oversample: "none" as "none" }); } /** * get the coefficient for that degree * @param x the x value * @param degree * @param memo memoize the computed value. this speeds up computation greatly. */ private _getCoefficient(x: number, degree: number, memo: Map): number { if (memo.has(degree)) { return memo.get(degree) as number; } else if (degree === 0) { memo.set(degree, 0); } else if (degree === 1) { memo.set(degree, x); } else { memo.set(degree, 2 * x * this._getCoefficient(x, degree - 1, memo) - this._getCoefficient(x, degree - 2, memo)); } return memo.get(degree) as number; } /** * The order of the Chebyshev polynomial which creates the equation which is applied to the incoming * signal through a Tone.WaveShaper. Must be an integer. The equations are in the form: * ``` * order 2: 2x^2 + 1 * order 3: 4x^3 + 3x * ``` * @min 1 * @max 100 */ get order(): Positive { return this._order; } set order(order) { assert(Number.isInteger(order), "'order' must be an integer"); this._order = order; this._shaper.setMap((x => { return this._getCoefficient(x, order, new Map()); })); } /** * The oversampling of the effect. Can either be "none", "2x" or "4x". */ get oversample(): OverSampleType { return this._shaper.oversample; } set oversample(oversampling) { this._shaper.oversample = oversampling; } dispose(): this { super.dispose(); this._shaper.dispose(); return this; } }