| Current File : /home/tradevaly/www/node_modules/chance/test/test.misc.js |
import test from 'ava'
import Chance from '../chance.js'
import _ from 'lodash'
const chance = new Chance()
// chance.coin()
test('coin() returns a coin', t => {
_.times(1000, () => {
t.true(/(heads|tails)/.test(chance.coin()))
})
})
// chance.d4()
test('d4() returns a properly bounded d4', t => {
_.times(1000, () => {
let die = chance.d4()
t.true(die >= 1)
t.true(die <= 4)
})
})
// chance.d6()
test('d6() returns a properly bounded d6', t => {
_.times(1000, () => {
let die = chance.d6()
t.true(die >= 1)
t.true(die <= 6)
})
})
// chance.d8()
test('d8() returns a properly bounded d8', t => {
_.times(1000, () => {
let die = chance.d8()
t.true(die >= 1)
t.true(die <= 8)
})
})
// chance.d10()
test('d10() returns a properly bounded d10', t => {
_.times(1000, () => {
let die = chance.d10()
t.true(die >= 1)
t.true(die <= 10)
})
})
// chance.d12()
test('d12() returns a properly bounded d12', t => {
_.times(1000, () => {
let die = chance.d12()
t.true(die >= 1)
t.true(die <= 12)
})
})
// chance.d20()
test('d20() returns a properly bounded d20', t => {
_.times(1000, () => {
let die = chance.d20()
t.true(die >= 1)
t.true(die <= 20)
})
})
// chance.d30()
test('d30() returns a properly bounded d30', t => {
_.times(1000, () => {
let die = chance.d30()
t.true(die >= 1)
t.true(die <= 30)
})
})
// chance.d100()
test('d100() returns a properly bounded d100', t => {
_.times(1000, () => {
let die = chance.d100()
t.true(die >= 1)
t.true(die <= 100)
})
})
// chance.emotion()
test('emotion() returns a random emotion', t => {
_.times(1000, () => {
let emotion = chance.emotion()
t.true(_.isString(emotion))
t.true(emotion.length >= 2)
t.true(emotion.length <= 30)
})
})
// chance.guid()
test('guid() returns a proper guid', t => {
_.times(1000, () => {
t.true(/([0-9a-fA-F]){8}(-([0-9a-fA-F]){4}){3}-([0-9a-fA-F]){12}/.test(chance.guid()))
})
})
test('guid() returns a proper version 1 guid', t => {
_.times(1000, () => {
t.true(/([0-9a-fA-F]){8}-([0-9a-fA-F]){4}-1([0-9a-fA-F]){3}-([ab89])([0-9a-fA-F]){3}-([0-9a-fA-F]){12}/.test(chance.guid({ version: 1 })))
})
})
test('guid() returns a proper version 2 guid', t => {
_.times(1000, () => {
t.true(/([0-9a-fA-F]){8}-([0-9a-fA-F]){4}-2([0-9a-fA-F]){3}-([ab89])([0-9a-fA-F]){3}-([0-9a-fA-F]){12}/.test(chance.guid({ version: 2 })))
})
})
test('guid() returns a proper version 3 guid', t => {
_.times(1000, () => {
t.true(/([0-9a-fA-F]){8}-([0-9a-fA-F]){4}-3([0-9a-fA-F]){3}-([ab89])([0-9a-fA-F]){3}-([0-9a-fA-F]){12}/.test(chance.guid({ version: 3 })))
})
})
test('guid() returns a proper version 4 guid', t => {
_.times(1000, () => {
t.true(/([0-9a-fA-F]){8}-([0-9a-fA-F]){4}-4([0-9a-fA-F]){3}-([ab89])([0-9a-fA-F]){3}-([0-9a-fA-F]){12}/.test(chance.guid({ version: 4 })))
})
})
test('guid() returns a proper version 5 guid', t => {
_.times(1000, () => {
t.true(/([0-9a-fA-F]){8}-([0-9a-fA-F]){4}-5([0-9a-fA-F]){3}-([ab89])([0-9a-fA-F]){3}-([0-9a-fA-F]){12}/.test(chance.guid({ version: 5 })))
})
})
// chance.hash()
test('hash() returns a proper hash', t => {
_.times(1000, () => {
let hash = chance.hash()
t.true(/([0-9a-f]){40}/.test(hash))
t.is(hash.length, 40)
})
})
test('hash() obeys length, if supplied', t => {
_.times(1000, () => {
let length = chance.natural({ min: 1, max: 64 })
let hash = chance.hash({ length: length })
t.is(hash.length, length)
})
})
// chance.mac_address()
test('mac_address() returns a proper mac address', t => {
_.times(1000, () => {
t.true(/([0-9a-fA-F]){2}:([0-9a-fA-F]){2}:([0-9a-fA-F]){2}:([0-9a-fA-F]){2}:([0-9a-fA-F]){2}:([0-9a-fA-F]){2}/.test(chance.mac_address()))
})
})
test('mac_address() returns a proper colon separated mac address', t => {
_.times(1000, () => {
t.true(/([0-9a-fA-F]){2}:([0-9a-fA-F]){2}:([0-9a-fA-F]){2}:([0-9a-fA-F]){2}:([0-9a-fA-F]){2}:([0-9a-fA-F]){2}/.test(chance.mac_address({ separator: ':' })))
})
})
test('mac_address() returns a proper hyphen separated mac address', t => {
_.times(1000, () => {
t.true(/([0-9a-fA-F]){2}-([0-9a-fA-F]){2}-([0-9a-fA-F]){2}-([0-9a-fA-F]){2}-([0-9a-fA-F]){2}-([0-9a-fA-F]){2}/.test(chance.mac_address({ separator: '-' })))
})
})
test('mac_address() returns a proper network version mac address', t => {
_.times(1000, () => {
t.true(/([0-9a-fA-F]){4}.([0-9a-fA-F]){4}.([0-9a-fA-F]){4}/.test(chance.mac_address({ networkVersion: true })))
})
})
// chance.mixin()
test('mixin() works with a simple function', t => {
chance.mixin({
user: () => {
return {
first: chance.first(),
last: chance.last(),
email: chance.email()
}
}
})
t.truthy(chance.user)
_.times(1000, () => {
let user = chance.user()
t.truthy(user)
t.truthy(user.first)
t.true(_.isString(user.last))
t.true(_.isString(user.email))
})
})
test('mixin() multiple work, we can call previously defined mixins', t => {
chance.mixin({
user: () => {
return {
first: chance.first(),
last: chance.last(),
email: chance.email()
}
},
social_user: () => {
let user = chance.user()
user.network = chance.pick(['facebook', 'twitter'])
return user
}
})
t.truthy(chance.user)
t.truthy(chance.social_user)
_.times(1000, () => {
let social_user = chance.social_user()
t.truthy(social_user)
t.truthy(social_user.first)
t.truthy(social_user.network)
t.true(social_user.network === 'facebook' ||
social_user.network === 'twitter')
})
})
// chance.radio()
test('radio() works as expected', t => {
_.times(1000, () => {
let radio = chance.radio()
t.true(_.isString(radio))
t.is(radio.length, 4)
t.true(/^[KW][A-Z][A-Z][A-Z]/.test(radio))
})
})
test('radio() accepts east', t => {
_.times(1000, () => {
let radio = chance.radio({ side: 'east' })
t.true(_.isString(radio))
t.is(radio.length, 4)
t.true(/^[W][A-Z][A-Z][A-Z]/.test(radio))
})
})
test('radio() accepts west', t => {
_.times(1000, () => {
let radio = chance.radio({ side: 'west' })
t.true(_.isString(radio))
t.is(radio.length, 4)
t.true(/^[K][A-Z][A-Z][A-Z]/.test(radio))
})
})
// chance.rpg()
test('rpg() appears to work as expected', t => {
_.times(1000, () => {
let dice = chance.rpg('5d20')
t.true(_.isArray(dice))
t.is(dice.length, 5)
dice.map((die) => {
t.true(die >= 1)
t.true(die <= 20)
})
})
})
test('rpg() without a die roll throws an error', t => {
t.throws(() => chance.rpg(), 'Chance: A type of die roll must be included')
})
test('rpg() throws errors where it should', t => {
const errorFns = [
() => chance.rpg('3'),
() => chance.rpg('hd23'),
() => chance.rpg('3d23d2'),
() => chance.rpg('d20')
]
errorFns.map((fn) => {
t.throws(fn, 'Chance: Invalid format provided. Please provide #d# where the first # is the number of dice to roll, the second # is the max of each die')
})
})
test('rpg() will take and obey a sum', t => {
_.times(1000, () => {
let rpg = chance.rpg('4d20', { sum: true })
t.true(_.isNumber(rpg))
t.true(rpg >= 4)
t.true(rpg <= 80)
})
})
// chance.tv()
test('tv() works as expected', t => {
_.times(1000, () => {
let tv = chance.tv()
t.true(_.isString(tv))
t.is(tv.length, 4)
t.true(/^[KW][A-Z][A-Z][A-Z]/.test(tv))
})
})