import test from 'ava' import Chance from '../chance.js' import _ from 'lodash' const chance = new Chance() const timeout = (seconds) => { new Promise((resolve, reject) => { setTimeout(() => resolve(), seconds) }) } test('bool() returns a random boolean', t => { let bool = chance.bool() t.is(typeof bool, 'boolean') }) test('bool() is within the bounds of what we would call random', t => { let trueCount = 0; _.times(1000, () => { if (chance.bool()) { trueCount++ } }) // The probability of this test failing is approximately 4.09e-86. // So, in theory, it could give a false negative, but the sun will // probably die long before that happens. t.true((trueCount > 200) && (trueCount < 800)) }) test('bool() takes and obeys likelihood', t => { let trueCount = 0 _.times(1000, () => { if (chance.bool({ likelihood: 30 })) { trueCount++ } }) // Expect it to average around 300 t.true((trueCount > 200) && (trueCount < 400)) trueCount = 0 _.times(1000, () => { if (chance.bool({ likelihood: 99 })) { trueCount++ } }) // Expect it to average at 990 t.true(trueCount > 900) }) test('bool() throws an error if likelihood < 0 or > 100', t => { const fn1 = () => chance.bool({likelihood: -23}) t.throws(fn1, RangeError) const fn2 = () => chance.bool({likelihood: 7933}) t.throws(fn2, RangeError) }) test('Chance() null works', async t => { t.plan(1) let chance1 = Chance(null) // Wait 5 ms before creating chance2 else sometimes they happen on the same // tick and end up with the same seed! await timeout(5) let chance2 = Chance(null) t.not(chance1.random(), chance2.random()) }) test('Chance() does return differing results if differing seeds provided', t => { let chance1 = new Chance(12345) let chance2 = new Chance(54321) t.not(chance1.random(), chance2.random()) }) test('Chance() does not return repeatable results if no seed provided', async t => { t.plan(1000) let chance1 = new Chance() await timeout(5) let chance2 = new Chance() _.times(1000, () => { t.not(chance1.random(), chance2.random()) }) }) test('Chance() returns repeatable results if seed provided on the Chance object', t => { let seed = new Date().getTime() let chance1 = new Chance(seed) let chance2 = new Chance(seed) _.times(1000, () => { t.is(chance1.random(), chance2.random()) }) }) test('Chance() returns repeatable results if a string is provided as a seed', t => { let seed = "foo" let chance1 = new Chance(seed) let chance2 = new Chance(seed) _.times(1000, () => { t.is(chance1.random(), chance2.random()) }) }) test('Chance() returns different results if two different strings are provided', t => { let chance1 = new Chance("foo") let chance2 = new Chance("baz") _.times(1000, () => { t.not(chance1.random(), chance2.random()) }) }) test('Chance() returns different results if two different strings are provided redux', t => { // Credit to @dan-tilley for noticing this flaw in the old seed let chance1 = new Chance("abe") let chance2 = new Chance("acc") _.times(1000, () => { t.not(chance1.random(), chance2.random()) }) }) test('Chance() returns different results if multiple arguments are provided', t => { let seed = new Date().getTime() let chance1 = new Chance(seed, "foo") let chance2 = new Chance(seed, "bar") _.times(1000, () => { t.not(chance1.random(), chance2.random()) }) }) test('Chance() will take an arbitrary function for the seed and use it', t => { let chance = new Chance(() => 123) _.times(1000, () => { t.is(chance.random(), 123) }) }) test('character() returns a character', t => { let char = chance.character() t.is(typeof char, 'string') t.is(char.length, 1) }) test('character() pulls only from pool, when specified', t => { _.times(1000, () => { let char = chance.character({ pool: 'abcde' }) t.true(/[abcde]/.test(char)) }) }) test('character() allows only alpha', t => { _.times(1000, () => { let char = chance.character({ alpha: true }) t.true(/[a-zA-Z]/.test(char)) }) }) test('character() allows only alphanumeric', t => { _.times(1000, () => { let char = chance.character({ alpha: true, numeric: true }) t.true(/[a-zA-Z0-9]/.test(char)) }) }) test('character() obeys upper case', t => { _.times(1000, () => { let char = chance.character({ alpha: true, casing: 'upper' }) t.true(/[A-Z]/.test(char)) }) }) test('character() obeys lower case', t => { _.times(1000, () => { let char = chance.character({ alpha: true, casing: 'lower' }) t.true(/[a-z]/.test(char)) }) }) test('floating() returns a random floating', t => { t.is(typeof chance.floating(), 'number') }) test('floating() can take both a max and min and obey them both', t => { _.times(1000, () => { let floating = chance.floating({ min: 90, max: 100 }) t.true(floating > 89) t.true(floating < 101) }) }) test('floating() will not take fixed + min that would be out of range', t => { const fn = () => chance.floating({ fixed: 13, min: -9007199254740992 }) t.throws(fn, "Chance: Min specified is out of range with fixed. Min should be, at least, -900.7199254740992") }) test('floating() will not take fixed + max that would be out of range', t => { const fn = () => chance.floating({ fixed: 13, max: 9007199254740992 }) t.throws(fn, "Chance: Max specified is out of range with fixed. Max should be, at most, 900.7199254740992") }) test('floating() obeys the fixed parameter, when present', t => { _.times(1000, () => { let floating = chance.floating({ fixed: 4 }) let decimals = floating.toString().split('.')[1] ? floating.toString().split('.')[1] : '' t.true(decimals.length < 5) }) }) test('floating() can take fixed and obey it', t => { _.times(1000, () => { let floating = chance.floating({ fixed: 3 }) let parsed = parseFloat(floating.toFixed(3)) t.is(floating, parsed) }) }) test('floating() will not take both fixed and precision', t => { const fn = () => chance.floating({fixed: 2, precision: 8}) t.throws(fn, 'Chance: Cannot specify both fixed and precision.') }) test('get() works as expected', t => { let data = chance.get('lastNames') t.true(typeof data === 'object') }) test('hex() works as expected', t => { _.times(1000, () => { t.true(/[0-9a-f]/.test(chance.hex())) }) }) test('hex() can take Upper and obey it', t => { _.times(1000, () => { t.true(/[0-9A-F]/.test(chance.hex({ casing: 'upper' }))) }) }) test('integer() returns a random integer', t => { t.is(typeof chance.integer(), 'number') }) test('integer() is sometimes negative, sometimes positive', t => { let positiveCount = 0 _.times(1000, () => { if (chance.integer() > 0) { positiveCount++ } }) // Note: In very extreme circumstances this test may fail as, by its // nature it's random. But it's a low enough percentage that I'm // willing to accept it. t.true((positiveCount > 200) && (positiveCount < 800)) }) test('integer() can take a zero min and obey it', t => { _.times(1000, () => { t.true(chance.integer({ min: 0 }) > 0) }) }) test('integer() can take a negative min and obey it', t => { _.times(1000, () => { t.true(chance.integer({ min: -25 }) > -26) }) }) test('integer() can take a negative min and max and obey both', t => { _.times(1000, () => { let integer = chance.integer({ min: -25, max: -1 }) t.true((integer > -26) && integer < 0) }) }) test('integer() can take a min with absolute value less than max and return in range above', t => { let count = 0 _.times(1000, () => { // With a range this large we'd expect most values to be // greater than 1 if this works correctly. if (Math.abs(chance.integer({ min: -1, max: 1000000 })) < 2) { count++ } }) t.true(count < 900) }) test('integer() throws an error when min > max', t => { const fn = () => chance.integer({ min: 1000, max: 500 }) t.throws(fn, 'Chance: Min cannot be greater than Max.') }) test('letter() returns a letter', t => { _.times(1000, () => { let letter = chance.letter() t.is(typeof letter, 'string') t.is(letter.length, 1) t.true(letter.match(/[a-z]/) !== null) }) }) test('letter() can take upper case', t => { _.times(1000, () => { let letter = chance.letter({ casing: 'upper' }) t.is(typeof letter, 'string') t.is(letter.length, 1) t.true(letter.match(/[A-Z]/) !== null) }) }) test('natural() returns a random natural', t => { t.is(typeof chance.natural(), 'number') }) test('natural() throws an error if min < 0', t => { const fn = () => chance.natural({ min: -23 }) t.throws(fn, 'Chance: Min cannot be less than zero.') }) test('natural() is always positive or zero', t => { let positiveCount = 0 _.times(1000, () => { if (chance.natural() >= 0) { positiveCount++ } }) t.is(positiveCount, 1000) }) test('natural() can take just a min and obey it', t => { _.times(1000, () => { t.true(chance.natural({ min: 9007199254740991 }) > 9007199254740990) }) }) test('natural() can take just a max and obey it', t => { _.times(1000, () => { t.true(chance.natural({ max: 100 }) < 101) }) }) test('natural() can take both a max and min and obey them both', t => { _.times(1000, () => { let natural = chance.natural({ min: 90, max: 100 }) t.true(natural > 89) t.true(natural < 101) }) }) test('natural() works with both bounds 0', t => { _.times(1000, () => { t.is(chance.natural({ min: 0, max: 0 }), 0) }) }) test('natural() respects numerals', t => { _.times(1000, () => { let natural = chance.natural({ numerals: 2 }) t.true(natural <= 99) t.true(natural >= 10) }) }) test('natural() works with excluded numbers', t => { _.times(1000, () => { let natural = chance.natural({ min: 1, max: 5, exclude: [1, 3] }) t.true(natural <= 5) t.true(natural >= 1) t.true(natural !== 1) t.true(natural !== 3) }) }) test('natural() works within empty exclude option', t => { _.times(1000, () => { let natural = chance.natural({ min: 1, max: 5, exclude: [] }) t.true(natural <= 5) t.true(natural >= 1) }) }) test('natural() throws an error if exclude is not an array', t => { const fn = () => chance.natural({ min: 1, max: 5, exclude: "foo" }) t.throws(fn, 'Chance: exclude must be an array.') }) test('natural() throws an error if exclude is not an array', t => { const fn = () => chance.natural({ min: 1, max: 5, exclude: ["puppies", 1] }) t.throws(fn, 'Chance: exclude must be numbers.') }) test('natural() throws an error if min > max', t => { const fn = () => chance.natural({ min: 1000, max: 500 }) t.throws(fn, 'Chance: Min cannot be greater than Max.') }) test('natural() throws an error if numerals is less than 1', t => { const fn = () => chance.natural({ numerals: 0 }) t.throws(fn, 'Chance: Numerals cannot be less than one.') }) test('prime() returns a number', t => { t.is(typeof chance.prime(), 'number') }) test('prime() throws an error if min < 0', t => { const fn = () => chance.prime({ min: -23 }) t.throws(fn, 'Chance: Min cannot be less than zero.') }) test('prime() throws an error if min > max', t => { const fn = () => chance.prime({ min: 1000, max: 500 }) t.throws(fn, 'Chance: Min cannot be greater than Max.') }) test('prime() is always positive and odd (or 2)', t => { let positiveCount = 0 _.times(1000, () => { const prime = chance.prime() if (prime > 0 && (prime % 2 === 1 || prime === 2)) { positiveCount++ } }) t.is(positiveCount, 1000) }) test('prime() can take just a min and obey it', t => { _.times(1000, () => { t.true(chance.prime({ min: 5000 }) >= 5000) }) }) test('prime() can take just a max and obey it', t => { _.times(1000, () => { t.true(chance.prime({ max: 20000 }) <= 20000) }) }) test('prime() can take both a max and min and obey them both', t => { _.times(1000, () => { const prime = chance.prime({ min: 90, max: 100 }) t.true(prime >= 90) t.true(prime <= 100) }) }) test('set() works as expected', t => { let cData = { lastNames: ['customName', 'testLast'] } chance.set(cData) let data = chance.get('lastNames') t.true(_.isArray(data)) t.is(data.length, 2) }) test('string() returns a string', t => { t.is(typeof chance.string(), 'string') }) test('string() obeys length, when specified', t => { _.times(1000, () => { let length = chance.natural({ min: 1, max: 25 }) t.is(chance.string({ length: length }).length, length) }) }) test('string() throws error if length < 0', t => { const fn = () => chance.string({ length: -23 }) t.throws(fn, 'Chance: Length cannot be less than zero.') }) test('string() returns only letters with alpha', t => { _.times(1000, () => { let str = chance.string({ alpha: true }) t.true(/[a-zA-Z]+/.test(str)) }) }) test('string() obeys upper case', t => { _.times(1000, () => { let str = chance.string({ alpha: true, casing: 'upper' }) t.true(/[A-Z]+/.test(str)) }) }) test('string() obeys lower case', t => { _.times(1000, () => { let str = chance.string({ alpha: true, casing: 'lower' }) t.true(/[a-z]+/.test(str)) }) }) test('string() obeys symbol', t => { _.times(1000, () => { let str = chance.string({ symbols: true }) t.true(/[\!\@\#\$\%\^\&\*\(\)\[\]]+/.test(str)) }) }) test('string() can take just a min and obey it', t => { _.times(1000, () => { t.true(chance.string({ min: 6 }).length >= 6) }) }) test('string() can take just a max and obey it', t => { _.times(1000, () => { t.true(chance.string({ max: 20 }).length <= 20) }) }) test('falsy() should return a falsy value', t => { _.times(1000, () => { const value = chance.falsy() t.falsy(value) }) }) test('falsy() should return a falsy value using a pool data', t => { _.times(1000, () => { const value = chance.falsy({pool: [null, undefined]}) t.falsy(value) }) }) test('template() returns alpha numeric substituted', t => { _.times(1000, () => { let str = chance.template('ID-{Aa}-{##}') t.regex(str, /^ID-[A-Z][a-z]-[0-9][0-9]$/) }) }) test('template() rejects unknown tokens', t => { t.throws(() => chance.template('{Aa-}'), 'Invalid replacement character: "-".') t.throws(() => chance.template('{Aa{}'), 'Invalid replacement character: "{".') t.throws(() => chance.template('{Aab}'), 'Invalid replacement character: "b".') }) test('template() allows escape sequnce', t => { t.is(chance.template('\\\\ID-\\{Aa\\}'), '\\ID-{Aa}') }) test('template() rejects invalid escape sequnce', t => { t.throws(() => chance.template('ID-\\Aa'), 'Invalid escape sequence: "\\A".') }) test('template() cannot be undefined', t => { t.throws(() => chance.template(), 'Template string is required') }) test('template() cannot be empty', t => { t.throws(() => chance.template(''), 'Template string is required') })