'use strict'; function factory (type, config, load, typed) { var collection = load(require('../../type/collection')); var larger = load(require('../relational/larger')); /** * Compute the maximum value of a matrix or a list with values. * In case of a multi dimensional array, the maximum of the flattened array * will be calculated. When `dim` is provided, the maximum over the selected * dimension will be calculated. Parameter `dim` is zero-based. * * Syntax: * * math.max(a, b, c, ...) * math.max(A) * math.max(A, dim) * * Examples: * * math.max(2, 1, 4, 3); // returns 4 * math.max([2, 1, 4, 3]); // returns 4 * * // maximum over a specified dimension (zero-based) * math.max([[2, 5], [4, 3], [1, 7]], 0); // returns [4, 7] * math.max([[2, 5], [4, 3]], [1, 7], 1); // returns [5, 4, 7] * * math.max(2.7, 7.1, -4.5, 2.0, 4.1); // returns 7.1 * math.min(2.7, 7.1, -4.5, 2.0, 4.1); // returns -4.5 * * See also: * * mean, median, min, prod, std, sum, var * * @param {... *} args A single matrix or or multiple scalar values * @return {*} The maximum value */ return typed('max', { // max([a, b, c, d, ...]) 'Array | Matrix': _max, // max([a, b, c, d, ...], dim) 'Array | Matrix, number | BigNumber': function (array, dim) { return collection.reduce(array, dim.valueOf(), _largest); }, // max(a, b, c, d, ...) '...': function () { return _max(arguments); } }); /** * Return the largest of two values * @param {*} x * @param {*} y * @returns {*} Returns x when x is largest, or y when y is largest * @private */ function _largest(x, y){ return larger(x, y) ? x : y; } /** * Recursively calculate the maximum value in an n-dimensional array * @param {Array} array * @return {Number} max * @private */ function _max(array) { var max = undefined; collection.deepForEach(array, function (value) { if (max === undefined || larger(value, max)) { max = value; } }); if (max === undefined) { throw new Error('Cannot calculate max of an empty array'); } return max; } } exports.name = 'max'; exports.factory = factory;