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mathjs

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Math.js is an extensive math library for JavaScript and Node.js. It features a flexible expression parser with support for symbolic computation, comes with a large set of built-in functions and constants, and offers an integrated solution to work with dif

josdejong/mathjs

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JavaScript

import { factory } from '../../utils/factory.js'; import { deepMap } from '../../utils/collection.js'; import { createAlgorithm11 } from '../../type/matrix/utils/algorithm11.js'; import { createAlgorithm12 } from '../../type/matrix/utils/algorithm12.js'; import { createAlgorithm14 } from '../../type/matrix/utils/algorithm14.js'; import { roundNumber } from '../../plain/number/index.js'; var NO_INT = 'Number of decimals in function round must be an integer'; var name = 'round'; var dependencies = ['typed', 'matrix', 'equalScalar', 'zeros', 'BigNumber', 'DenseMatrix']; export var createRound = /* #__PURE__ */factory(name, dependencies, _ref => { var { typed, matrix, equalScalar, zeros, BigNumber, DenseMatrix } = _ref; var algorithm11 = createAlgorithm11({ typed, equalScalar }); var algorithm12 = createAlgorithm12({ typed, DenseMatrix }); var algorithm14 = createAlgorithm14({ typed }); /** * Round a value towards the nearest integer. * For matrices, the function is evaluated element wise. * * Syntax: * * math.round(x) * math.round(x, n) * * Examples: * * math.round(3.22) // returns number 3 * math.round(3.82) // returns number 4 * math.round(-4.2) // returns number -4 * math.round(-4.7) // returns number -5 * math.round(3.22, 1) // returns number 3.2 * math.round(3.88, 1) // returns number 3.9 * math.round(-4.21, 1) // returns number -4.2 * math.round(-4.71, 1) // returns number -4.7 * math.round(math.pi, 3) // returns number 3.142 * math.round(123.45678, 2) // returns number 123.46 * * const c = math.complex(3.2, -2.7) * math.round(c) // returns Complex 3 - 3i * * math.round([3.2, 3.8, -4.7]) // returns Array [3, 4, -5] * * See also: * * ceil, fix, floor * * @param {number | BigNumber | Fraction | Complex | Array | Matrix} x Number to be rounded * @param {number | BigNumber | Array} [n=0] Number of decimals * @return {number | BigNumber | Fraction | Complex | Array | Matrix} Rounded value */ return typed(name, { number: roundNumber, 'number, number': roundNumber, 'number, BigNumber': function numberBigNumber(x, n) { if (!n.isInteger()) { throw new TypeError(NO_INT); } return new BigNumber(x).toDecimalPlaces(n.toNumber()); }, Complex: function Complex(x) { return x.round(); }, 'Complex, number': function ComplexNumber(x, n) { if (n % 1) { throw new TypeError(NO_INT); } return x.round(n); }, 'Complex, BigNumber': function ComplexBigNumber(x, n) { if (!n.isInteger()) { throw new TypeError(NO_INT); } var _n = n.toNumber(); return x.round(_n); }, BigNumber: function BigNumber(x) { return x.toDecimalPlaces(0); }, 'BigNumber, BigNumber': function BigNumberBigNumber(x, n) { if (!n.isInteger()) { throw new TypeError(NO_INT); } return x.toDecimalPlaces(n.toNumber()); }, Fraction: function Fraction(x) { return x.round(); }, 'Fraction, number': function FractionNumber(x, n) { if (n % 1) { throw new TypeError(NO_INT); } return x.round(n); }, 'Fraction, BigNumber': function FractionBigNumber(x, n) { if (!n.isInteger()) { throw new TypeError(NO_INT); } return x.round(n.toNumber()); }, 'Array | Matrix': function ArrayMatrix(x) { // deep map collection, skip zeros since round(0) = 0 return deepMap(x, this, true); }, 'SparseMatrix, number | BigNumber': function SparseMatrixNumberBigNumber(x, y) { return algorithm11(x, y, this, false); }, 'DenseMatrix, number | BigNumber': function DenseMatrixNumberBigNumber(x, y) { return algorithm14(x, y, this, false); }, 'Array, number | BigNumber': function ArrayNumberBigNumber(x, y) { // use matrix implementation return algorithm14(matrix(x), y, this, false).valueOf(); }, 'number | Complex | BigNumber | Fraction, SparseMatrix': function numberComplexBigNumberFractionSparseMatrix(x, y) { // check scalar is zero if (equalScalar(x, 0)) { // do not execute algorithm, result will be a zero matrix return zeros(y.size(), y.storage()); } return algorithm12(y, x, this, true); }, 'number | Complex | BigNumber | Fraction, DenseMatrix': function numberComplexBigNumberFractionDenseMatrix(x, y) { // check scalar is zero if (equalScalar(x, 0)) { // do not execute algorithm, result will be a zero matrix return zeros(y.size(), y.storage()); } return algorithm14(y, x, this, true); }, 'number | Complex | BigNumber | Fraction, Array': function numberComplexBigNumberFractionArray(x, y) { // use matrix implementation return algorithm14(matrix(y), x, this, true).valueOf(); } }); });