import { Hertz, NormalRange, PowerOfTwo } from "../../core/type/Units.js"; import { MeterBase, MeterBaseOptions } from "./MeterBase.js"; export interface FFTOptions extends MeterBaseOptions { size: PowerOfTwo; smoothing: NormalRange; normalRange: boolean; } /** * Get the current frequency data of the connected audio source using a fast Fourier transform. * Read more about FFT algorithms on [Wikipedia] (https://en.wikipedia.org/wiki/Fast_Fourier_transform). * @category Component */ export declare class FFT extends MeterBase { readonly name: string; /** * If the output should be in decibels or normal range between 0-1. If `normalRange` is false, * the output range will be the measured decibel value, otherwise the decibel value will be converted to * the range of 0-1 */ normalRange: boolean; /** * @param size The size of the FFT. Value must be a power of two in the range 16 to 16384. */ constructor(size?: PowerOfTwo); constructor(options?: Partial); static getDefaults(): FFTOptions; /** * Gets the current frequency data from the connected audio source. * Returns the frequency data of length {@link size} as a Float32Array of decibel values. */ getValue(): Float32Array; /** * 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 {@link getValue} (i.e. the number of * frequency bins). Large FFT sizes may be costly to compute. */ get size(): PowerOfTwo; set size(size: PowerOfTwo); /** * 0 represents no time averaging with the last analysis frame. */ get smoothing(): NormalRange; set smoothing(val: NormalRange); /** * Returns the frequency value in hertz of each of the indices of the FFT's {@link getValue} response. * @example * const fft = new Tone.FFT(32); * console.log([0, 1, 2, 3, 4].map(index => fft.getFrequencyOfIndex(index))); */ getFrequencyOfIndex(index: number): Hertz; }