import assert from 'assert' import math from '../../../../src/bundleAny' import approx from '../../../../tools/approx' const pi = math.pi const complex = math.complex const matrix = math.matrix const unit = math.unit const sec = math.sec const bigmath = math.create({ number: 'BigNumber', precision: 20 }) const biggermath = math.create({ number: 'BigNumber', precision: 21 }) describe('sec', function () { it('should return the secant of a boolean', function () { approx.equal(sec(true), 1.85081571768093) assert.strictEqual(sec(false), 1) }) it('should return the secant of a number', function () { approx.equal(1 / sec(0), 1) approx.equal(1 / sec(pi * 1 / 4), 0.707106781186548) approx.equal(1 / sec(pi * 1 / 8), 0.923879532511287) approx.equal(1 / sec(pi * 2 / 4), 0) approx.equal(1 / sec(pi * 3 / 4), -0.707106781186548) approx.equal(1 / sec(pi * 4 / 4), -1) approx.equal(1 / sec(pi * 5 / 4), -0.707106781186548) approx.equal(1 / sec(pi * 6 / 4), 0) approx.equal(1 / sec(pi * 7 / 4), 0.707106781186548) approx.equal(1 / sec(pi * 8 / 4), 1) approx.equal(1 / sec(pi / 4), math.sqrt(2) / 2) approx.equal(math.pow(sec(pi / 4), 2), 2) approx.equal(sec(0), 1) approx.equal(sec(pi), -1) approx.equal(sec(-pi), -1) approx.equal(math.pow(sec(-pi / 4), 2), 2) approx.equal(sec(2 * pi), 1) approx.equal(sec(-2 * pi), 1) }) it('should return the secant of a bignumber', function () { const Big = bigmath.bignumber let bigPi = bigmath.pi const sqrt2 = bigmath.SQRT2.toString() assert.deepStrictEqual(bigmath.sec(Big(0)), Big(1)) assert.deepStrictEqual(bigmath.sec(bigPi.div(8)).toString(), '1.0823922002923939688') assert.deepStrictEqual(bigmath.sec(bigPi.div(4)).toString(), sqrt2) assert.deepStrictEqual(bigmath.sec(bigPi).toString(), '-1') assert.deepStrictEqual(bigmath.sec(bigPi.times(2)).toString(), '1') assert.deepStrictEqual(bigmath.sec(bigmath.tau).toString(), '1') assert.deepStrictEqual(bigmath.sec(bigmath.tau.times(-2)).toString(), '1') /* Pass in one more digit of pi. */ bigPi = biggermath.pi assert.deepStrictEqual(bigmath.sec(bigPi.div(2)), Big('756606132568153667460')) // (large number, about infinity) assert.deepStrictEqual(bigmath.sec(bigPi.times(3).div(4)).toString(), '-' + sqrt2) assert.deepStrictEqual(bigmath.sec(bigPi.times(5).div(4)).toString(), '-' + sqrt2) }) it('should return the secant of a complex number', function () { const re = 0.0416749644111443 const im = 0.0906111371962376 approx.deepEqual(sec(complex('2+3i')), complex(-re, im)) approx.deepEqual(sec(complex('2-3i')), complex(-re, -im)) approx.deepEqual(sec(complex('-2+3i')), complex(-re, -im)) approx.deepEqual(sec(complex('-2-3i')), complex(-re, im)) approx.deepEqual(sec(complex('i')), complex(0.648054273663885, 0)) approx.deepEqual(sec(complex('1')), complex(1.85081571768093, 0)) approx.deepEqual(sec(complex('1+i')), complex(0.498337030555187, 0.591083841721045)) }) it('should return the secant of an angle', function () { approx.equal(sec(unit('45deg')), 1.41421356237310) approx.equal(sec(unit('-45deg')), 1.41421356237310) assert(math.isBigNumber(sec(unit(math.bignumber(45), 'deg')))) approx.equal(sec(unit(math.bignumber(45), 'deg')).toNumber(), 1.41421356237310) approx.deepEqual(sec(unit(complex('1+i'), 'rad')), complex(0.498337030555187, 0.591083841721045)) }) it('should throw an error if called with an invalid unit', function () { assert.throws(function () { sec(unit('5 celsius')) }) }) it('should throw an error if called with a string', function () { assert.throws(function () { sec('string') }) }) const sec123 = [1.85081571768093, -2.40299796172238, -1.01010866590799] it('should return the secant of each element of an array', function () { approx.deepEqual(sec([1, 2, 3]), sec123) }) it('should return the secant of each element of a matrix', function () { approx.deepEqual(sec(matrix([1, 2, 3])), matrix(sec123)) }) it('should throw an error in case of invalid number of arguments', function () { assert.throws(function () { sec() }, /TypeError: Too few arguments/) assert.throws(function () { sec(1, 2) }, /TypeError: Too many arguments/) }) it('should LaTeX sec', function () { const expression = math.parse('sec(1)') assert.strictEqual(expression.toTex(), '\\sec\\left(1\\right)') }) })