import assert from 'assert' import math from '../../../../src/defaultInstance.js' const BigNumber = math.BigNumber const Complex = math.Complex const DenseMatrix = math.DenseMatrix const fraction = math.fraction const min = math.min const unit = math.unit describe('min', function () { it('should return the min between several numbers', function () { assert.strictEqual(min(5), 5) assert.strictEqual(min(1, 3), 1) assert.strictEqual(min(3, 1), 1) assert.strictEqual(min(1, 3, 5, -5, 2), -5) assert.strictEqual(min(0, 0, 0, 0), 0) }) it('should return the min of strings by their numerical value', function () { assert.strictEqual(min('10', '3', '4', '2'), 2) assert.strictEqual(min('10'), 10) }) it('should return the max of strings by their numerical value (with BigNumber config)', function () { const bigmath = math.create({ number: 'BigNumber' }) assert.deepStrictEqual(bigmath.min('10', '3', '4', '2'), bigmath.bignumber(2)) assert.deepStrictEqual(bigmath.min('10'), bigmath.bignumber(10)) }) it('should return the max of strings by their numerical value (with bigint config)', function () { const bigmath = math.create({ number: 'bigint' }) assert.strictEqual(bigmath.min('10', '3', '4', '2'), 2n) assert.strictEqual(bigmath.min('10'), 10n) assert.strictEqual(bigmath.min('2.5'), 2.5) // fallback to number assert.strictEqual(bigmath.min('2.5', '4'), 2.5) // fallback to number }) it('should return the min element from a vector', function () { assert.strictEqual(min([1, 3, 5, -5, 2]), -5) }) it('should return the min of big numbers', function () { assert.deepStrictEqual(min(new BigNumber(1), new BigNumber(3), new BigNumber(5), new BigNumber(2), new BigNumber(-5)), new BigNumber(-5)) }) it('should return the min element from a vector array', function () { assert.strictEqual(min(new DenseMatrix([1, 3, 5, -5, 2])), -5) }) it('should return the max element from a 2d matrix', function () { assert.deepStrictEqual(min([ [1, 4, 7], [3, 0, 5], [-1, 9, 11] ]), -1) assert.deepStrictEqual(min(new DenseMatrix([ [1, 4, 7], [3, 0, 5], [-1, 9, 11] ])), -1) }) it('should return a reduced n-1 matrix from a n matrix', function () { assert.deepStrictEqual(min([ [1, 2, 3], [4, 5, 6], [7, 8, 9]], 0), [1, 2, 3]) assert.deepStrictEqual(min([ [1, 2, 3], [4, 5, 6], [7, 8, 9]], 1), [1, 4, 7]) assert.deepStrictEqual(min([ [1, 2, 3], [6, 5, 4], [8, 7, 9]], 1), [1, 4, 7]) assert.deepStrictEqual(min([ [[1, 2], [3, 4], [5, 6]], [[6, 7], [8, 9], [10, 11]]], 2), [[1, 3, 5], [6, 8, 10]]) assert.deepStrictEqual(min([ [[1, 2], [3, 4], [5, 6]], [[6, 7], [8, 9], [10, 11]]], 1), [[1, 2], [6, 7]]) assert.deepStrictEqual(min([ [[1, 2], [3, 4], [5, 6]], [[6, 7], [8, 9], [10, 11]]], 0), [[1, 2], [3, 4], [5, 6]]) }) it('should return NaN if any of the inputs contains NaN', function () { assert(isNaN(min([NaN]))) assert(isNaN(min([1, NaN]))) assert(isNaN(min([NaN, 1]))) assert(isNaN(min([1, 3, NaN]))) assert(isNaN(min([NaN, NaN, NaN]))) assert(isNaN(min(NaN, NaN, NaN))) assert(isNaN(min(BigNumber(NaN), BigNumber(123)))) assert(isNaN((min(BigNumber(123), BigNumber(NaN), NaN)))) assert(isNaN(min(unit(NaN, 's'), unit(123, 's')).value)) assert(isNaN(min(unit(123, 's'), unit(NaN, 's')).value)) assert(isNaN(min(1, 3, fraction(2, 3), fraction(1, 2), NaN, BigNumber(1), BigNumber(NaN), 5, Infinity, -Infinity))) }) it('should return the smallest of mixed types', function () { assert.deepStrictEqual(min(1n, 3, new BigNumber(7), fraction(5, 4)), 1n) assert.deepStrictEqual(min(3n, 1, new BigNumber(7), fraction(5, 4)), 1) const big1 = new BigNumber(1) assert.deepStrictEqual(min(3n, 7, big1, fraction(5, 4)), big1) const threeq = fraction(3, 4) assert.deepStrictEqual(min(3n, 7, new BigNumber(1.25), threeq), threeq) assert.strictEqual(min(3n, 7, big1, threeq, -Infinity), -Infinity) }) it('should throw an error when called multiple arrays or matrices', function () { assert.throws(function () { min([1, 2], [3, 4]) }, /Scalar values expected/) assert.throws(function () { min(math.matrix([1, 2]), math.matrix([3, 4])) }, /Scalar values expected/) }) it('should throw an error if called a dimension out of range', function () { assert.throws(function () { min([1, 2, 3], -1) }, /IndexError: Index out of range \(-1 < 0\)/) assert.throws(function () { min([1, 2, 3], 1) }, /IndexError: Index out of range \(1 > 0\)/) }) it('should throw an error if called with invalid number of arguments', function () { assert.throws(function () { min() }) assert.throws(function () { min([], 2, 3) }) }) it('should throw an error if called with an empty array', function () { assert.throws(function () { min([]) }) }) it('should throw an error if called with invalid type of arguments', function () { assert.throws(function () { min(2, new Complex(2, 5)) }, /TypeError: Cannot calculate min, no ordering relation is defined for complex numbers/) assert.throws(function () { min(new Complex(2, 3), new Complex(2, 1)) }, /TypeError: Cannot calculate min, no ordering relation is defined for complex numbers/) assert.throws(function () { min([[2, undefined, 4]]) }, /TypeError: Cannot calculate min, unexpected type of argument/) assert.throws(function () { min([[2, new Date(), 4]]) }, /TypeError: Cannot calculate min, unexpected type of argument/) assert.throws(function () { min([2, null, 4]) }, /TypeError: Cannot calculate min, unexpected type of argument/) assert.throws(function () { min([[2, 5], [4, null], [1, 7]], 0) }, /TypeError: Cannot calculate min, unexpected type of argument/) assert.throws(function () { min('a', 'b') }, /Error: Cannot convert "a" to a number/) assert.throws(function () { min('a') }, /Error: Cannot convert "a" to a number/) }) it('should LaTeX min', function () { const expression = math.parse('min(1,2,3)') assert.strictEqual(expression.toTex(), '\\min\\left(1,2,3\\right)') }) })