Tone.js/Tone/component/analysis/FFT.js
2019-05-23 14:00:49 -04:00

74 lines
1.7 KiB
JavaScript

import Tone from "../core/Tone";
import "../component/Analyser";
import "../core/AudioNode";
/**
* @class Get the current frequency data of the connected audio source
* using a fast Fourier transform.
* @extends {Tone.AudioNode}
* @param {Number=} size The size of the FFT. Value must be a power of
* two in the range 16 to 16384.
*/
Tone.FFT = function(){
var options = Tone.defaults(arguments, ["size"], Tone.FFT);
options.type = Tone.Analyser.Type.FFT;
Tone.AudioNode.call(this);
/**
* The analyser node.
* @private
* @type {Tone.Analyser}
*/
this._analyser = this.input = this.output = new Tone.Analyser(options);
};
Tone.extend(Tone.FFT, Tone.AudioNode);
/**
* The default values.
* @type {Object}
* @const
*/
Tone.FFT.defaults = {
"size" : 1024
};
/**
* Gets the current frequency data from the connected audio source.
* Returns the frequency data of length [size](#size) as a Float32Array of decibel values.
* @returns {TypedArray}
*/
Tone.FFT.prototype.getValue = function(){
return this._analyser.getValue();
};
/**
* The size of analysis. This must be a power of two in the range 16 to 16384.
* Determines the size of the array returned by [getValue](#getvalue) (i.e. the number of
* frequency bins). Large FFT sizes may be costly to compute.
* @memberOf Tone.FFT#
* @type {Number}
* @name size
*/
Object.defineProperty(Tone.FFT.prototype, "size", {
get : function(){
return this._analyser.size;
},
set : function(size){
this._analyser.size = size;
}
});
/**
* Clean up.
* @return {Tone.FFT} this
*/
Tone.FFT.prototype.dispose = function(){
Tone.AudioNode.prototype.dispose.call(this);
this._analyser.dispose();
this._analyser = null;
};
export default Tone.FFT;