mirror of
https://github.com/Tonejs/Tone.js
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539 lines
18 KiB
TypeScript
539 lines
18 KiB
TypeScript
import { AbstractParam } from "../context/AbstractParam";
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import { dbToGain, gainToDb } from "../type/Conversions";
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import { Decibels, Frequency, Positive, Time, UnitMap, UnitName } from "../type/Units";
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import { isAudioParam } from "../util/AdvancedTypeCheck";
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import { optionsFromArguments } from "../util/Defaults";
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import { Timeline } from "../util/Timeline";
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import { isDefined } from "../util/TypeCheck";
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import { ToneWithContext, ToneWithContextOptions } from "./ToneWithContext";
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import { EQ } from "../util/Math";
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import { assert, assertRange } from "../util/Debug";
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export interface ParamOptions<TypeName extends UnitName> extends ToneWithContextOptions {
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units: TypeName;
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value?: UnitMap[TypeName];
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param: AudioParam | Param<TypeName>;
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convert: boolean;
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minValue?: number;
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maxValue?: number;
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swappable?: boolean;
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}
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/**
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* the possible automation types
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*/
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type AutomationType = "linearRampToValueAtTime" | "exponentialRampToValueAtTime" | "setValueAtTime" | "setTargetAtTime" | "cancelScheduledValues";
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interface TargetAutomationEvent {
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type: "setTargetAtTime";
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time: number;
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value: number;
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constant: number;
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}
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interface NormalAutomationEvent {
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type: Exclude<AutomationType, "setTargetAtTime">;
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time: number;
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value: number;
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}
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/**
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* The events on the automation
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*/
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export type AutomationEvent = NormalAutomationEvent | TargetAutomationEvent;
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/**
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* Param wraps the native Web Audio's AudioParam to provide
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* additional unit conversion functionality. It also
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* serves as a base-class for classes which have a single,
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* automatable parameter.
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*/
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export class Param<TypeName extends UnitName = "number">
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extends ToneWithContext<ParamOptions<TypeName>>
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implements AbstractParam<TypeName> {
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readonly name: string = "Param";
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readonly input: GainNode | AudioParam;
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readonly units: UnitName;
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convert: boolean;
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overridden = false;
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/**
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* The timeline which tracks all of the automations.
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*/
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protected _events: Timeline<AutomationEvent>;
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/**
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* The native parameter to control
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*/
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protected _param: AudioParam;
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/**
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* The default value before anything is assigned
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*/
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protected _initialValue: number;
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/**
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* The minimum output value
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*/
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private _minOutput = 1e-7;
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/**
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* Private reference to the min and max values if passed into the constructor
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*/
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private readonly _minValue?: number;
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private readonly _maxValue?: number;
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/**
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* If the underlying AudioParam can be swapped out
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* using the setParam method.
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*/
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protected readonly _swappable: boolean;
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/**
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* @param param The AudioParam to wrap
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* @param units The unit name
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* @param convert Whether or not to convert the value to the target units
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*/
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constructor(param: AudioParam, units?: TypeName, convert?: boolean);
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constructor(options: Partial<ParamOptions<TypeName>>);
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constructor() {
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super(optionsFromArguments(Param.getDefaults(), arguments, ["param", "units", "convert"]));
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const options = optionsFromArguments(Param.getDefaults(), arguments, ["param", "units", "convert"]);
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assert(isDefined(options.param) &&
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(isAudioParam(options.param) || options.param instanceof Param), "param must be an AudioParam");
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while (!isAudioParam(options.param)) {
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options.param = options.param._param;
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}
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this._swappable = isDefined(options.swappable) ? options.swappable : false;
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if (this._swappable) {
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this.input = this.context.createGain();
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// initialize
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this._param = options.param;
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this.input.connect(this._param);
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} else {
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this._param = this.input = options.param;
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}
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this._events = new Timeline<AutomationEvent>(1000);
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this._initialValue = this._param.defaultValue;
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this.units = options.units;
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this.convert = options.convert;
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this._minValue = options.minValue;
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this._maxValue = options.maxValue;
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// if the value is defined, set it immediately
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if (isDefined(options.value) && options.value !== this._toType(this._initialValue)) {
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this.setValueAtTime(options.value, 0);
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}
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}
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static getDefaults(): ParamOptions<any> {
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return Object.assign(ToneWithContext.getDefaults(), {
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convert: true,
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units: "number" as UnitName,
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} as ParamOptions<any>);
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}
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get value(): UnitMap[TypeName] {
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const now = this.now();
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return this.getValueAtTime(now);
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}
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set value(value) {
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this.cancelScheduledValues(this.now());
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this.setValueAtTime(value, this.now());
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}
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get minValue(): number {
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// if it's not the default minValue, return it
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if (isDefined(this._minValue)) {
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return this._minValue;
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} else if (this.units === "time" || this.units === "frequency" ||
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this.units === "normalRange" || this.units === "positive" ||
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this.units === "transportTime" || this.units === "ticks" ||
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this.units === "bpm" || this.units === "hertz" || this.units === "samples") {
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return 0;
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} else if (this.units === "audioRange") {
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return -1;
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} else if (this.units === "decibels") {
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return -Infinity;
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} else {
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return this._param.minValue;
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}
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}
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get maxValue(): number {
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if (isDefined(this._maxValue)) {
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return this._maxValue;
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} else if (this.units === "normalRange" ||
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this.units === "audioRange") {
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return 1;
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} else {
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return this._param.maxValue;
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}
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}
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/**
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* Type guard based on the unit name
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*/
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private _is<T>(arg: any, type: UnitName): arg is T {
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return this.units === type;
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}
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/**
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* Make sure the value is always in the defined range
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*/
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private _assertRange(value: number): number {
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if (isDefined(this.maxValue) && isDefined(this.minValue)) {
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assertRange(value, this._fromType(this.minValue), this._fromType(this.maxValue));
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}
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return value;
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}
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/**
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* Convert the given value from the type specified by Param.units
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* into the destination value (such as Gain or Frequency).
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*/
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protected _fromType(val: UnitMap[TypeName]): number {
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if (this.convert && !this.overridden) {
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if (this._is<Time>(val, "time")) {
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return this.toSeconds(val);
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} else if (this._is<Decibels>(val, "decibels")) {
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return dbToGain(val);
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} else if (this._is<Frequency>(val, "frequency")) {
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return this.toFrequency(val);
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} else {
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return val as number;
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}
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} else if (this.overridden) {
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// if it's overridden, should only schedule 0s
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return 0;
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} else {
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return val as number;
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}
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}
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/**
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* Convert the parameters value into the units specified by Param.units.
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*/
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protected _toType(val: number): UnitMap[TypeName] {
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if (this.convert && this.units === "decibels") {
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return gainToDb(val) as UnitMap[TypeName];
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} else {
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return val as UnitMap[TypeName];
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}
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}
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//-------------------------------------
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// ABSTRACT PARAM INTERFACE
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// all docs are generated from ParamInterface.ts
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//-------------------------------------
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setValueAtTime(value: UnitMap[TypeName], time: Time): this {
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const computedTime = this.toSeconds(time);
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const numericValue = this._fromType(value);
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assert(isFinite(numericValue) && isFinite(computedTime),
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`Invalid argument(s) to setValueAtTime: ${JSON.stringify(value)}, ${JSON.stringify(time)}`);
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this._assertRange(numericValue);
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this.log(this.units, "setValueAtTime", value, computedTime);
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this._events.add({
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time: computedTime,
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type: "setValueAtTime",
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value: numericValue,
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});
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this._param.setValueAtTime(numericValue, computedTime);
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return this;
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}
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getValueAtTime(time: Time): UnitMap[TypeName] {
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const computedTime = Math.max(this.toSeconds(time), 0);
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const after = this._events.getAfter(computedTime);
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const before = this._events.get(computedTime);
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let value = this._initialValue;
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// if it was set by
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if (before === null) {
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value = this._initialValue;
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} else if (before.type === "setTargetAtTime" && (after === null || after.type === "setValueAtTime")) {
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const previous = this._events.getBefore(before.time);
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let previousVal;
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if (previous === null) {
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previousVal = this._initialValue;
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} else {
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previousVal = previous.value;
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}
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if (before.type === "setTargetAtTime") {
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value = this._exponentialApproach(before.time, previousVal, before.value, before.constant, computedTime);
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}
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} else if (after === null) {
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value = before.value;
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} else if (after.type === "linearRampToValueAtTime" || after.type === "exponentialRampToValueAtTime") {
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let beforeValue = before.value;
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if (before.type === "setTargetAtTime") {
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const previous = this._events.getBefore(before.time);
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if (previous === null) {
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beforeValue = this._initialValue;
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} else {
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beforeValue = previous.value;
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}
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}
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if (after.type === "linearRampToValueAtTime") {
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value = this._linearInterpolate(before.time, beforeValue, after.time, after.value, computedTime);
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} else {
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value = this._exponentialInterpolate(before.time, beforeValue, after.time, after.value, computedTime);
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}
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} else {
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value = before.value;
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}
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return this._toType(value);
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}
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setRampPoint(time: Time): this {
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time = this.toSeconds(time);
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let currentVal = this.getValueAtTime(time);
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this.cancelAndHoldAtTime(time);
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if (this._fromType(currentVal) === 0) {
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currentVal = this._toType(this._minOutput);
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}
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this.setValueAtTime(currentVal, time);
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return this;
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}
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linearRampToValueAtTime(value: UnitMap[TypeName], endTime: Time): this {
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const numericValue = this._fromType(value);
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const computedTime = this.toSeconds(endTime);
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assert(isFinite(numericValue) && isFinite(computedTime),
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`Invalid argument(s) to linearRampToValueAtTime: ${JSON.stringify(value)}, ${JSON.stringify(endTime)}`);
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this._assertRange(numericValue);
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this._events.add({
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time: computedTime,
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type: "linearRampToValueAtTime",
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value: numericValue,
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});
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this.log(this.units, "linearRampToValueAtTime", value, computedTime);
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this._param.linearRampToValueAtTime(numericValue, computedTime);
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return this;
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}
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exponentialRampToValueAtTime(value: UnitMap[TypeName], endTime: Time): this {
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let numericValue = this._fromType(value);
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numericValue = Math.max(this._minOutput, numericValue);
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this._assertRange(numericValue);
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const computedTime = this.toSeconds(endTime);
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assert(isFinite(numericValue) && isFinite(computedTime),
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`Invalid argument(s) to exponentialRampToValueAtTime: ${JSON.stringify(value)}, ${JSON.stringify(endTime)}`);
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// store the event
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this._events.add({
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time: computedTime,
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type: "exponentialRampToValueAtTime",
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value: numericValue,
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});
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this.log(this.units, "exponentialRampToValueAtTime", value, computedTime);
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this._param.exponentialRampToValueAtTime(numericValue, computedTime);
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return this;
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}
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exponentialRampTo(value: UnitMap[TypeName], rampTime: Time, startTime?: Time): this {
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startTime = this.toSeconds(startTime);
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this.setRampPoint(startTime);
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this.exponentialRampToValueAtTime(value, startTime + this.toSeconds(rampTime));
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return this;
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}
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linearRampTo(value: UnitMap[TypeName], rampTime: Time, startTime?: Time): this {
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startTime = this.toSeconds(startTime);
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this.setRampPoint(startTime);
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this.linearRampToValueAtTime(value, startTime + this.toSeconds(rampTime));
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return this;
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}
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targetRampTo(value: UnitMap[TypeName], rampTime: Time, startTime?: Time): this {
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startTime = this.toSeconds(startTime);
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this.setRampPoint(startTime);
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this.exponentialApproachValueAtTime(value, startTime, rampTime);
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return this;
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}
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exponentialApproachValueAtTime(value: UnitMap[TypeName], time: Time, rampTime: Time): this {
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time = this.toSeconds(time);
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rampTime = this.toSeconds(rampTime);
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const timeConstant = Math.log(rampTime + 1) / Math.log(200);
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this.setTargetAtTime(value, time, timeConstant);
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// at 90% start a linear ramp to the final value
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this.cancelAndHoldAtTime(time + rampTime * 0.9);
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this.linearRampToValueAtTime(value, time + rampTime);
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return this;
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}
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setTargetAtTime(value: UnitMap[TypeName], startTime: Time, timeConstant: Positive): this {
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const numericValue = this._fromType(value);
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// The value will never be able to approach without timeConstant > 0.
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assert(isFinite(timeConstant) && timeConstant > 0, "timeConstant must be a number greater than 0");
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const computedTime = this.toSeconds(startTime);
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this._assertRange(numericValue);
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assert(isFinite(numericValue) && isFinite(computedTime),
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`Invalid argument(s) to setTargetAtTime: ${JSON.stringify(value)}, ${JSON.stringify(startTime)}`);
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this._events.add({
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constant: timeConstant,
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time: computedTime,
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type: "setTargetAtTime",
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value: numericValue,
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});
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this.log(this.units, "setTargetAtTime", value, computedTime, timeConstant);
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this._param.setTargetAtTime(numericValue, computedTime, timeConstant);
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return this;
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}
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setValueCurveAtTime(values: UnitMap[TypeName][], startTime: Time, duration: Time, scaling = 1): this {
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duration = this.toSeconds(duration);
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startTime = this.toSeconds(startTime);
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const startingValue = this._fromType(values[0]) * scaling;
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this.setValueAtTime(this._toType(startingValue), startTime);
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const segTime = duration / (values.length - 1);
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for (let i = 1; i < values.length; i++) {
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const numericValue = this._fromType(values[i]) * scaling;
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this.linearRampToValueAtTime(this._toType(numericValue), startTime + i * segTime);
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}
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return this;
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}
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cancelScheduledValues(time: Time): this {
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const computedTime = this.toSeconds(time);
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assert(isFinite(computedTime), `Invalid argument to cancelScheduledValues: ${JSON.stringify(time)}`);
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this._events.cancel(computedTime);
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this._param.cancelScheduledValues(computedTime);
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this.log(this.units, "cancelScheduledValues", computedTime);
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return this;
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}
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cancelAndHoldAtTime(time: Time): this {
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const computedTime = this.toSeconds(time);
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const valueAtTime = this._fromType(this.getValueAtTime(computedTime));
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// remove the schedule events
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assert(isFinite(computedTime), `Invalid argument to cancelAndHoldAtTime: ${JSON.stringify(time)}`);
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this.log(this.units, "cancelAndHoldAtTime", computedTime, "value=" + valueAtTime);
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// if there is an event at the given computedTime
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// and that even is not a "set"
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const before = this._events.get(computedTime);
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const after = this._events.getAfter(computedTime);
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if (before && EQ(before.time, computedTime)) {
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// remove everything after
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if (after) {
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this._param.cancelScheduledValues(after.time);
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this._events.cancel(after.time);
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} else {
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this._param.cancelAndHoldAtTime(computedTime);
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this._events.cancel(computedTime + this.sampleTime);
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}
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} else if (after) {
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this._param.cancelScheduledValues(after.time);
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// cancel the next event(s)
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this._events.cancel(after.time);
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if (after.type === "linearRampToValueAtTime") {
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this.linearRampToValueAtTime(this._toType(valueAtTime), computedTime);
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} else if (after.type === "exponentialRampToValueAtTime") {
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this.exponentialRampToValueAtTime(this._toType(valueAtTime), computedTime);
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}
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}
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// set the value at the given time
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this._events.add({
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time: computedTime,
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type: "setValueAtTime",
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value: valueAtTime,
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});
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this._param.setValueAtTime(valueAtTime, computedTime);
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return this;
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}
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rampTo(value: UnitMap[TypeName], rampTime: Time = 0.1, startTime?: Time): this {
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if (this.units === "frequency" || this.units === "bpm" || this.units === "decibels") {
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this.exponentialRampTo(value, rampTime, startTime);
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} else {
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this.linearRampTo(value, rampTime, startTime);
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}
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return this;
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}
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/**
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* Apply all of the previously scheduled events to the passed in Param or AudioParam.
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* The applied values will start at the context's current time and schedule
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* all of the events which are scheduled on this Param onto the passed in param.
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*/
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apply(param: Param | AudioParam): this {
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const now = this.context.currentTime;
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// set the param's value at the current time and schedule everything else
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param.setValueAtTime(this.getValueAtTime(now) as number, now);
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// if the previous event was a curve, then set the rest of it
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const previousEvent = this._events.get(now);
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if (previousEvent && previousEvent.type === "setTargetAtTime") {
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// approx it until the next event with linear ramps
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const nextEvent = this._events.getAfter(previousEvent.time);
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// or for 2 seconds if there is no event
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const endTime = nextEvent ? nextEvent.time : now + 2;
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const subdivisions = (endTime - now) / 10;
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for (let i = now; i < endTime; i += subdivisions) {
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param.linearRampToValueAtTime(this.getValueAtTime(i) as number, i);
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}
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}
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this._events.forEachAfter(this.context.currentTime, event => {
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if (event.type === "cancelScheduledValues") {
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param.cancelScheduledValues(event.time);
|
|
} else if (event.type === "setTargetAtTime") {
|
|
param.setTargetAtTime(event.value, event.time, event.constant);
|
|
} else {
|
|
param[event.type](event.value, event.time);
|
|
}
|
|
});
|
|
return this;
|
|
}
|
|
|
|
/**
|
|
* Replace the Param's internal AudioParam. Will apply scheduled curves
|
|
* onto the parameter and replace the connections.
|
|
*/
|
|
setParam(param: AudioParam): this {
|
|
assert(this._swappable, "The Param must be assigned as 'swappable' in the constructor");
|
|
const input = this.input as GainNode;
|
|
input.disconnect(this._param);
|
|
this.apply(param);
|
|
this._param = param;
|
|
input.connect(this._param);
|
|
return this;
|
|
}
|
|
|
|
dispose(): this {
|
|
super.dispose();
|
|
this._events.dispose();
|
|
return this;
|
|
}
|
|
|
|
get defaultValue(): UnitMap[TypeName] {
|
|
return this._toType(this._param.defaultValue);
|
|
}
|
|
|
|
//-------------------------------------
|
|
// AUTOMATION CURVE CALCULATIONS
|
|
// MIT License, copyright (c) 2014 Jordan Santell
|
|
//-------------------------------------
|
|
|
|
// Calculates the the value along the curve produced by setTargetAtTime
|
|
protected _exponentialApproach(t0: number, v0: number, v1: number, timeConstant: number, t: number): number {
|
|
return v1 + (v0 - v1) * Math.exp(-(t - t0) / timeConstant);
|
|
}
|
|
|
|
// Calculates the the value along the curve produced by linearRampToValueAtTime
|
|
protected _linearInterpolate(t0: number, v0: number, t1: number, v1: number, t: number): number {
|
|
return v0 + (v1 - v0) * ((t - t0) / (t1 - t0));
|
|
}
|
|
|
|
// Calculates the the value along the curve produced by exponentialRampToValueAtTime
|
|
protected _exponentialInterpolate(t0: number, v0: number, t1: number, v1: number, t: number): number {
|
|
return v0 * Math.pow(v1 / v0, (t - t0) / (t1 - t0));
|
|
}
|
|
}
|