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@stdlib/stats

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Standard library statistical functions.

stdlib-js/stats

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JavaScript

/** * @license Apache-2.0 * * Copyright (c) 2018 The Stdlib Authors. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* eslint-disable no-restricted-syntax, no-invalid-this */ 'use strict'; // MODULES // var defineProperty = require( '@stdlib/utils/define-property' ); var setReadOnly = require( '@stdlib/utils/define-nonenumerable-read-only-property' ); var setReadOnlyAccessor = require( '@stdlib/utils/define-nonenumerable-read-only-accessor' ); var isPositive = require( '@stdlib/assert/is-positive-number' ).isPrimitive; var entropy = require( './../../../../../base/dists/exponential/entropy' ); var kurtosis = require( './../../../../../base/dists/exponential/kurtosis' ); var mean = require( './../../../../../base/dists/exponential/mean' ); var median = require( './../../../../../base/dists/exponential/median' ); var mode = require( './../../../../../base/dists/exponential/mode' ); var skewness = require( './../../../../../base/dists/exponential/skewness' ); var stdev = require( './../../../../../base/dists/exponential/stdev' ); var variance = require( './../../../../../base/dists/exponential/variance' ); var cdf = require( './../../../../../base/dists/exponential/cdf' ); var logcdf = require( './../../../../../base/dists/exponential/logcdf' ); var logpdf = require( './../../../../../base/dists/exponential/logpdf' ); var mgf = require( './../../../../../base/dists/exponential/mgf' ); var pdf = require( './../../../../../base/dists/exponential/pdf' ); var quantile = require( './../../../../../base/dists/exponential/quantile' ); var format = require( '@stdlib/string/format' ); // FUNCTIONS // /** * Evaluates the cumulative distribution function (CDF). * * @private * @param {number} x - input value * @returns {number} evaluated CDF */ function exponentialCDF( x ) { return cdf( x, this.lambda ); } /** * Evaluates the natural logarithm of the cumulative distribution function (CDF). * * @private * @param {number} x - input value * @returns {number} evaluated logCDF */ function exponentialLogCDF( x ) { return logcdf( x, this.lambda ); } /** * Evaluates the natural logarithm of the probability density function (PDF). * * @private * @param {number} x - input value * @returns {number} evaluated logPDF */ function exponentialLogPDF( x ) { return logpdf( x, this.lambda ); } /** * Evaluates the moment-generating function (MGF). * * @private * @param {number} t - input value * @returns {number} evaluated MGF */ function exponentialMGF( t ) { return mgf( t, this.lambda ); } /** * Evaluates the probability density function (PDF). * * @private * @param {number} x - input value * @returns {number} evaluated PDF */ function exponentialPDF( x ) { return pdf( x, this.lambda ); } /** * Evaluates the quantile function. * * @private * @param {Probability} p - input probability * @returns {number} evaluated quantile function */ function exponentialQuantile( p ) { return quantile( p, this.lambda ); } // MAIN // /** * Exponential distribution constructor. * * @constructor * @param {PositiveNumber} [lambda=1.0] - rate parameter * @throws {TypeError} `lambda` must be a positive number * @returns {Exponential} distribution instance * * @example * var exponential = new Exponential( 1.0 ); * * var y = exponential.cdf( 0.8 ); * // returns ~0.551 * * var v = exponential.mode; * // returns 0.0 */ function Exponential() { var lambda; if ( !(this instanceof Exponential) ) { if ( arguments.length === 0 ) { return new Exponential(); } return new Exponential( arguments[ 0 ] ); } if ( arguments.length ) { lambda = arguments[ 0 ]; if ( !isPositive( lambda ) ) { throw new TypeError( format( 'invalid argument. Rate parameter must be a positive number. Value: `%s`.', lambda ) ); } } else { lambda = 1.0; } defineProperty( this, 'lambda', { 'configurable': false, 'enumerable': true, 'get': function get() { return lambda; }, 'set': function set( value ) { if ( !isPositive( value ) ) { throw new TypeError( format( 'invalid assignment. Must be a positive number. Value: `%s`.', value ) ); } lambda = value; } }); return this; } /** * Exponential distribution differential entropy. * * @name entropy * @memberof Exponential.prototype * @type {number} * @see [differential entropy]{@link https://en.wikipedia.org/wiki/Entropy_%28information_theory%29} * * @example * var exponential = new Exponential( 4.0 ); * * var v = exponential.entropy; * // returns ~-0.386 */ setReadOnlyAccessor( Exponential.prototype, 'entropy', function get() { return entropy( this.lambda ); }); /** * Exponential distribution excess kurtosis. * * @name kurtosis * @memberof Exponential.prototype * @type {number} * @see [kurtosis]{@link https://en.wikipedia.org/wiki/Kurtosis} * * @example * var exponential = new Exponential( 4.0 ); * * var v = exponential.kurtosis; * // returns 6.0 */ setReadOnlyAccessor( Exponential.prototype, 'kurtosis', function get() { return kurtosis( this.lambda ); }); /** * Exponential distribution expected value. * * @name mean * @memberof Exponential.prototype * @type {number} * @see [expected value]{@link https://en.wikipedia.org/wiki/Expected_value} * * @example * var exponential = new Exponential( 4.0 ); * * var v = exponential.mean; * // returns 0.25 */ setReadOnlyAccessor( Exponential.prototype, 'mean', function get() { return mean( this.lambda ); }); /** * Exponential distribution median. * * @name median * @memberof Exponential.prototype * @type {number} * @see [median]{@link https://en.wikipedia.org/wiki/Median} * * @example * var exponential = new Exponential( 4.0 ); * * var v = exponential.median; * // returns ~0.173 */ setReadOnlyAccessor( Exponential.prototype, 'median', function get() { return median( this.lambda ); }); /** * Exponential distribution mode. * * @name mode * @memberof Exponential.prototype * @type {number} * @see [mode]{@link https://en.wikipedia.org/wiki/Mode_%28statistics%29} * * @example * var exponential = new Exponential( 4.0 ); * * var v = exponential.mode; * // returns 0.0 */ setReadOnlyAccessor( Exponential.prototype, 'mode', function get() { return mode( this.lambda ); }); /** * Exponential distribution skewness. * * @name skewness * @memberof Exponential.prototype * @type {number} * @see [skewness]{@link https://en.wikipedia.org/wiki/Skewness} * * @example * var exponential = new Exponential( 4.0 ); * * var v = exponential.skewness; * // returns 2.0 */ setReadOnlyAccessor( Exponential.prototype, 'skewness', function get() { return skewness( this.lambda ); }); /** * Exponential distribution standard deviation. * * @name stdev * @memberof Exponential.prototype * @type {number} * @see [standard deviation]{@link https://en.wikipedia.org/wiki/Standard_deviation} * * @example * var exponential = new Exponential( 4.0 ); * * var v = exponential.stdev; * // returns ~0.25 */ setReadOnlyAccessor( Exponential.prototype, 'stdev', function get() { return stdev( this.lambda ); }); /** * Exponential distribution variance. * * @name variance * @memberof Exponential.prototype * @type {number} * @see [variance]{@link https://en.wikipedia.org/wiki/Variance} * * @example * var exponential = new Exponential( 4.0 ); * * var v = exponential.variance; * // returns ~0.063 */ setReadOnlyAccessor( Exponential.prototype, 'variance', function get() { return variance( this.lambda ); }); /** * Evaluates the cumulative distribution function (CDF). * * @name cdf * @memberof Exponential.prototype * @type {Function} * @param {number} x - input value * @returns {number} evaluated CDF * @see [cdf]{@link https://en.wikipedia.org/wiki/Cumulative_distribution_function} * * @example * var exponential = new Exponential( 2.0 ); * * var v = exponential.cdf( 0.5 ); * // returns ~0.632 */ setReadOnly( Exponential.prototype, 'cdf', exponentialCDF ); /** * Evaluates the natural logarithm of the cumulative distribution function (CDF). * * @name logcdf * @memberof Exponential.prototype * @type {Function} * @param {number} x - input value * @returns {number} evaluated logCDF * @see [cdf]{@link https://en.wikipedia.org/wiki/Cumulative_distribution_function} * * @example * var exponential = new Exponential( 2.0 ); * * var v = exponential.logcdf( 0.5 ); * // returns ~-0.459 */ setReadOnly( Exponential.prototype, 'logcdf', exponentialLogCDF ); /** * Evaluates the natural logarithm of the probability density function (PDF). * * @name logpdf * @memberof Exponential.prototype * @type {Function} * @param {number} x - input value * @returns {number} evaluated logPDF * @see [pdf]{@link https://en.wikipedia.org/wiki/Probability_density_function} * * @example * var exponential = new Exponential( 2.0 ); * * var v = exponential.logpdf( 0.8 ); * // returns ~-0.907 */ setReadOnly( Exponential.prototype, 'logpdf', exponentialLogPDF ); /** * Evaluates the moment-generating function (MGF). * * @name mgf * @memberof Exponential.prototype * @type {Function} * @param {number} t - input value * @returns {number} evaluated MGF * @see [mgf]{@link https://en.wikipedia.org/wiki/Moment-generating_function} * * @example * var exponential = new Exponential( 2.0 ); * * var v = exponential.mgf( 0.5 ); * // returns ~1.333 */ setReadOnly( Exponential.prototype, 'mgf', exponentialMGF ); /** * Evaluates the probability density function (PDF). * * @name pdf * @memberof Exponential.prototype * @type {Function} * @param {number} x - input value * @returns {number} evaluated PDF * @see [pdf]{@link https://en.wikipedia.org/wiki/Probability_density_function} * * @example * var exponential = new Exponential( 2.0 ); * * var v = exponential.pdf( 0.8 ); * // returns ~0.404 */ setReadOnly( Exponential.prototype, 'pdf', exponentialPDF ); /** * Evaluates the quantile function. * * @name quantile * @memberof Exponential.prototype * @type {Function} * @param {Probability} p - input probability * @returns {number} evaluated quantile function * @see [quantile function]{@link https://en.wikipedia.org/wiki/Quantile_function} * * @example * var exponential = new Exponential( 2.0 ); * * var v = exponential.quantile( 0.5 ); * // returns ~0.347 */ setReadOnly( Exponential.prototype, 'quantile', exponentialQuantile ); // EXPORTS // module.exports = Exponential;