// test sqrt import assert from 'assert' import math from '../../../../src/bundleAny' const mathPredictable = math.create({ predictable: true }) const sqrt = math.sqrt const bignumber = math.bignumber describe('sqrt', function () { it('should return the square root of a boolean', function () { assert.strictEqual(sqrt(true), 1) assert.strictEqual(sqrt(false), 0) }) it('should return the square root of a positive number', function () { assert.strictEqual(sqrt(0), 0) assert.strictEqual(sqrt(1), 1) assert.strictEqual(sqrt(4), 2) assert.strictEqual(sqrt(9), 3) assert.strictEqual(sqrt(16), 4) assert.strictEqual(sqrt(25), 5) }) it('should return the square root of a negative number', function () { assert.deepStrictEqual(sqrt(-4), math.complex(0, 2)) assert.deepStrictEqual(sqrt(-16), math.complex(0, 4)) }) it('should return the square root of a negative number when predictable:true', function () { assert.strictEqual(mathPredictable.sqrt(4), 2) assert(typeof mathPredictable.sqrt(-4), 'number') assert(isNaN(mathPredictable.sqrt(-4))) }) it('should return the square root of a positive bignumber', function () { assert.deepStrictEqual(sqrt(bignumber(0)), bignumber(0)) assert.deepStrictEqual(sqrt(bignumber(1)), bignumber(1)) assert.deepStrictEqual(sqrt(bignumber(4)), bignumber(2)) assert.deepStrictEqual(sqrt(bignumber(9)), bignumber(3)) assert.deepStrictEqual(sqrt(bignumber(16)), bignumber(4)) assert.deepStrictEqual(sqrt(bignumber(25)), bignumber(5)) // validate whether we are really working at high precision const bigmath = math.create({ precision: 100 }) assert.deepStrictEqual(bigmath.sqrt(bigmath.bignumber(2)), bigmath.bignumber('1.414213562373095048801688724209698078569671875376948073176679737990732478462107038850387534327641573')) }) it('should return the square root of a negative bignumber', function () { assert.deepStrictEqual(sqrt(bignumber(-4)), math.complex(0, 2)) }) it('should return the square root of a negative bignumber when predictable:true', function () { assert.deepStrictEqual(mathPredictable.sqrt(bignumber(4)), bignumber(2)) assert.ok(mathPredictable.sqrt(bignumber(-4)).isNaN()) }) it('should return the square root of a complex number', function () { assert.deepStrictEqual(sqrt(math.complex(3, -4)), math.complex(2, -1)) assert.deepStrictEqual(sqrt(math.complex(1e10, 1e-10)), math.complex(1e5, 5e-16)) }) it('should return the square root of a unit', function () { assert.strictEqual(sqrt(math.unit('25 m^2/s^2')).toString(), '5 m / s') assert.strictEqual(sqrt(math.unit('4 kg')).toString(), '2 kg^0.5') }) it('should return a Unit with a Complex value when computing the square root of a negative unit', function () { // Update this when support for complex units is added // assert.strictEqual(sqrt(math.unit('-25 m^2/s^2')).toString(), 'NaN m / s') assert.strictEqual(math.format(sqrt(math.unit('-25 m^2/s^2')), 14), '(5i) m / s') }) it('should return NaN if input is NaN', function () { assert(isNaN(sqrt(NaN))) }) it('should throw an error when used with a string', function () { assert.throws(function () { sqrt('a string') }) }) it('should return the square root of each element of a matrix', function () { assert.deepStrictEqual(sqrt([4, 9, 16, 25]), [2, 3, 4, 5]) assert.deepStrictEqual(sqrt([[4, 9], [16, 25]]), [[2, 3], [4, 5]]) assert.deepStrictEqual(sqrt(math.matrix([[4, 9], [16, 25]])), math.matrix([[2, 3], [4, 5]])) }) it('should throw an error in case of invalid number of arguments', function () { assert.throws(function () { sqrt() }, /TypeError: Too few arguments/) assert.throws(function () { sqrt(1, 2) }, /TypeError: Too many arguments/) }) it('should throw an in case of wrong type of arguments', function () { assert.throws(function () { sqrt(null) }, /TypeError: Unexpected type of argument/) }) it('should LaTeX sqrt', function () { const expression = math.parse('sqrt(2)') assert.strictEqual(expression.toTex(), '\\sqrt{2}') }) })