time-to-botec/js/node_modules/@stdlib/stats/ttest2/lib/main.js

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/**
* @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.
*/
'use strict';
// MODULES //
var isNumberArray = require( '@stdlib/assert/is-number-array' ).primitives;
var isTypedArrayLike = require( '@stdlib/assert/is-typed-array-like' );
var setReadOnly = require( '@stdlib/utils/define-read-only-property' );
var tCDF = require( './../../base/dists/t/cdf' );
var tQuantile = require( './../../base/dists/t/quantile' );
var sqrt = require( '@stdlib/math/base/special/sqrt' );
var abs = require( '@stdlib/math/base/special/abs' );
var pow = require( '@stdlib/math/base/special/pow' );
var mean = require( './../../base/mean' );
var variance = require( './../../base/variance' );
var NINF = require( '@stdlib/constants/float64/ninf' );
var PINF = require( '@stdlib/constants/float64/pinf' );
var validate = require( './validate.js' );
var print = require( './print.js' ); // eslint-disable-line stdlib/no-redeclare
// MAIN //
/**
* Computes a two-sample Student's t test.
*
* @param {NumericArray} x - first data array
* @param {NumericArray} y - second data array
* @param {Options} [options] - function options
* @param {number} [options.alpha=0.05] - significance level
* @param {string} [options.alternative='two-sided'] - alternative hypothesis (`two-sided`, `less` or `greater`)
* @param {number} [options.difference=0] - difference in means under H0
* @param {string} [options.variance='unequal'] - whether variances are `equal` or `unequal` under H0
* @throws {TypeError} x argument has to be a typed array or array of numbers
* @throws {TypeError} y argument has to be a typed array or array of numbers
* @throws {TypeError} options has to be simple object
* @throws {TypeError} alpha option has to be a number primitive
* @throws {RangeError} alpha option has to be a number in the interval `[0,1]`
* @throws {TypeError} alternative option has to be a string primitive
* @throws {Error} alternative option must be `two-sided`, `less` or `greater`
* @throws {TypeError} difference option has to be a number primitive
* @throws {TypeError} variance option has to be a string primitive
* @throws {Error} variance option must be `equal` or `unequal`
* @returns {Object} test result object
*/
function ttest2( x, y, options ) {
var stderr;
var alpha;
var xmean;
var ymean;
var vars;
var cint;
var diff;
var opts;
var pval;
var xvar;
var yvar;
var stat;
var sdx;
var sdy;
var alt;
var err;
var out;
var nx;
var ny;
var df;
var v;
if ( !isTypedArrayLike( x ) && !isNumberArray( x ) ) {
throw new TypeError( 'invalid argument. First argument `x` must be a numeric array. Value: `' + x + '`.' );
}
if ( !isTypedArrayLike( y ) && !isNumberArray( y ) ) {
throw new TypeError( 'invalid argument. Second argument `y` must be a numeric array. Value: `' + y + '`.' );
}
opts = {};
if ( options ) {
err = validate( opts, options );
if ( err ) {
throw err;
}
}
diff = opts.difference || 0.0;
if ( opts.alpha === void 0 ) {
alpha = 0.05;
} else {
alpha = opts.alpha;
}
if ( alpha < 0.0 || alpha > 1.0 ) {
throw new RangeError( 'invalid argument. Option `alpha` must be a number in the range 0 to 1. Value: `' + alpha + '`.' );
}
nx = x.length;
ny = y.length;
xvar = variance( nx, 1, x, 1 );
yvar = variance( ny, 1, y, 1 );
vars = opts.variance || 'unequal';
if ( vars === 'equal' ) {
df = nx + ny - 2;
v = ((nx-1) * xvar) + ((ny-1) * yvar);
v /= df;
stderr = sqrt( v * ((1/nx) + (1/ny)) );
}
else if ( vars === 'unequal' ) {
sdx = sqrt( xvar/nx );
sdy = sqrt( yvar/ny );
stderr = sqrt( (sdx*sdx) + (sdy*sdy) );
v = pow( sdx, 4 ) / ( nx - 1 );
v += pow( sdy, 4 ) / ( ny - 1 );
df = pow( stderr, 4 ) / v;
}
else {
throw new Error( 'Invalid option. `variance` must be either `equal` or `unequal`. Value: `' + vars + '`' );
}
xmean = mean( nx, x, 1 );
ymean = mean( ny, y, 1 );
stat = ( xmean - ymean - diff ) / stderr;
alt = opts.alternative || 'two-sided';
switch ( alt ) {
case 'two-sided':
pval = 2.0 * tCDF( -abs(stat), df );
cint = [
stat - tQuantile( 1.0-(alpha/2.0), df ),
stat + tQuantile( 1.0-(alpha/2.0), df )
];
cint[ 0 ] = diff + (cint[ 0 ] * stderr);
cint[ 1 ] = diff + (cint[ 1 ] * stderr);
break;
case 'greater':
pval = 1.0 - tCDF( stat, df );
cint = [ stat - tQuantile( 1.0-alpha, df ), PINF ];
cint[ 0 ] = diff + (cint[ 0 ] * stderr);
break;
case 'less':
pval = tCDF( stat, df );
cint = [ NINF, stat + tQuantile( 1.0-alpha, df ) ];
cint[ 1 ] = diff + (cint[ 1 ] * stderr);
break;
default:
throw new Error( 'Invalid option. `alternative` must be either `two-sided`, `less` or `greater`. Value: `' + alt + '`' );
}
out = {};
setReadOnly( out, 'rejected', pval <= alpha );
setReadOnly( out, 'alpha', alpha );
setReadOnly( out, 'pValue', pval );
setReadOnly( out, 'statistic', stat );
setReadOnly( out, 'ci', cint );
setReadOnly( out, 'alternative', alt );
setReadOnly( out, 'df', df );
setReadOnly( out, 'method', ( vars === 'equal' ) ? 'Two-sample t-test' : 'Welch two-sample t-test' );
setReadOnly( out, 'nullValue', diff );
setReadOnly( out, 'xmean', xmean );
setReadOnly( out, 'ymean', ymean );
setReadOnly( out, 'print', print );
return out;
}
// EXPORTS //
module.exports = ttest2;