fancy-test
extendable utilities for testing
Why
Mocha out of the box often requires a lot of setup and teardown code in beforeEach/afterEach
filters. Using this library, you can get rid of those entirely and build your tests declaratively by chaining functionality together. Using the builtin plugins and your own, you create bits of functionality and chain them together with a concise syntax. It will greatly reduce the amount of repetition in your codebase.
It should be compatible with other testing libraries as well (e.g. jest), but may require a couple small changes. If you're interested, try it out and let me know if it works.
As an example, here is what a test file might look like for an application setup with fancy-test. This chain could partially be stored to a variable for reuse.
describe('api', () => {
fancy
.initDB({withUser: mockDBUser})
.mockGithubAPI({user: mockGithubUser})
.call('POST', '/api/user/foo', {id: mockDBUser.id})
.add('user', ctx => ctx.db.fetchUserAsync(mockDBUser.id))
.do(ctx => expect(ctx.user.foo).to.equal('bar'))
.it('POST /api/user/foo updates the user')
})
V3 Breaking Changes
Version 3 now uses sinon
under the hood to manage stubs. Because of this stubs are now set like this:
import * as os from 'os'
describe('stub tests', () => {
fancy
.stub(os, 'platform', stub => stub.returns('foobar'))
.it('sets os', () => {
expect(os.platform()).to.equal('foobar')
})
})
Usage
Setup is pretty easy, just install mocha and fancy-test, then you can use any of the examples below.
Assume the following is before all the examples:
import {fancy} from 'fancy-test'
import {expect} from 'chai'
Stub
Stub any object. Like all fancy plugins, it ensures that it is reset to normal after the test runs.
import * as os from 'os'
describe('stub tests', () => {
fancy
.stub(os, 'platform', stub => stub.returns('foobar'))
.it('sets os', () => {
expect(os.platform()).to.equal('foobar')
})
})
Catch
catch errors in a declarative way. By default, ensures they are actually thrown as well.
describe('catch tests', () => {
fancy
.do(() => { throw new Error('foobar') })
.catch(/foo/)
.it('uses regex')
fancy
.do(() => { throw new Error('foobar') })
.catch('foobar')
.it('uses string')
fancy
.do(() => { throw new Error('foobar') })
.catch(err => expect(err.message).to.match(/foo/))
.it('uses function')
fancy
.catch('foobar', {raiseIfNotThrown: false})
.it('do not error if not thrown')
})
Without fancy, you could check an error like this:
it('dont do this', () => {
try {
myfunc()
} catch (err) {
expect(err.message).to.match(/my custom errorr/)
}
})
But this has a common flaw, if the test does not error, the test will still pass. Chai and other assertion libraries have helpers for this, but they still end up with somewhat messy code.
Finally
Run a task even if the test errors out.
describe('finally tests', () => {
fancy
.do(() => { throw new Error('x') })
.finally(() => { })
.end('always calls finally')
})
Nock
Uses nock to mock out HTTP calls to external APIs. You'll need to also install nock in your devDependencies
.
Automatically calls done()
to ensure the calls were made and cleanAll()
to remove any pending requests.
const fancy = require('fancy-test')
describe('nock tests', () => {
fancy
.nock('https://api.github.com', api => api
.get('/me')
.reply(200, {name: 'jdxcode'})
)
.it('mocks http call to github', async () => {
const {body: user} = await HTTP.get('https://api.github.com/me')
expect(user).to.have.property('name', 'jdxcode')
})
})
Environment Variables
Sometimes it's helpful to clear out environment variables before running tests or override them to something common.
describe('env tests', () => {
fancy
.env({FOO: 'BAR'})
.it('mocks FOO', () => {
expect(process.env.FOO).to.equal('BAR')
expect(process.env).to.not.deep.equal({FOO: 'BAR'})
})
fancy
.env({FOO: 'BAR'}, {clear: true})
.it('clears all env vars', () => {
expect(process.env).to.deep.equal({FOO: 'BAR'})
})
})
Do
Run some arbitrary code within the pipeline. Useful to create custom logic and debugging.
describe('run', () => {
fancy
.stdout()
.do(() => console.log('foo'))
.do(({stdout}) => expect(stdout).to.equal('foo\n'))
.it('runs this callback last', () => {
})
fancy
.add('a', () => 1)
.add('b', () => 2)
.it('does something with context', context => {
})
})
Add
Similar to run, but extends the context object with a new property.
Can return a promise or not.
describe('add', () => {
fancy
.add('foo', () => 'foo')
.add('bar', () => Promise.resolve('bar'))
.do(ctx => expect(ctx).to.include({foo: 'foo', bar: 'bar'}))
.it('adds the properties')
})
Stdin Mocking
Mocks stdin. You may have to pass a delay to have it wait a bit until it sends the event.
describe('stdin test', () => {
fancy
.stdin('whoa there!\n')
.stdout()
.it('mocks', () => {
process.stdin.setEncoding('utf8')
process.stdin.once('data', data => {
})
})
})
Stdout/Stderr Mocking
This is used for tests that ensure that certain stdout/stderr messages are made.
By default this also trims the output from the screen. See the output by setting TEST_OUTPUT=1
, or by setting {print: true}
in the options passed.
You can use the library stdout-stderr directly for doing this, but you have to be careful to always reset it after the tests run. We do that work for you so you don't have to worry about mocha's output being hidden.
describe('stdmock tests', () => {
fancy
.stdout()
.it('mocks stdout', output => {
console.log('foobar')
expect(output.stdout).to.equal('foobar\n')
})
fancy
.stderr()
.it('mocks stderr', output => {
console.error('foobar')
expect(output.stderr).to.equal('foobar\n')
})
fancy
.stdout()
.stderr()
.it('mocks stdout and stderr', output => {
console.log('foo')
console.error('bar')
expect(output.stdout).to.equal('foo\n')
expect(output.stderr).to.equal('bar\n')
})
})
Done
You can get the mocha done()
callback by passing in a second argument.
describe('calls done', () => {
fancy
.it('expects FOO=bar', (_, done) => {
done()
})
})
Retries
Retry the test n times.
let count = 3
describe('test retries', () => {
fancy
.retries(2)
.do(() => {
count--
if (count > 0) throw new Error('x')
})
.it('retries 3 times')
})
Timeout
Set mocha timeout duration.
const wait = (ms = 10) => new Promise(resolve => setTimeout(resolve, ms))
describe('timeout', () => {
fancy
.timeout(50)
.it('times out after 50ms', async () => {
await wait(100)
})
})
Chai
This library includes chai for convenience:
import {expect, fancy} from 'fancy-test'
describe('has chai', () => {
fancy
.env({FOO: 'BAR'})
.it('expects FOO=bar', () => {
expect(process.env.FOO).to.equal('BAR')
})
})
Chaining
Everything here is chainable. You can also store parts of a chain to re-use later on.
For example:
describe('my suite', () => {
let setupDB = fancy
.do(() => setupDB())
.env({FOO: 'FOO'})
setupDB
.stdout()
.it('tests with stdout mocked', () => {
})
setupDB
.env({BAR: 'BAR'})
.it('also mocks the BAR environment variable', () => {
})
})
Using do you can really maximize this ability. In fact, you don't even need to pass a callback to it if you prefer this syntax:
describe('my suite', () => {
let setupDB = fancy
.do(() => setupDB())
.catch(/spurious db error/)
.do(() => setupDeps())
let testMyApp = testInfo => {
return setupDB.run()
.do(context => myApp(testInfo, context))
}
testMyApp({info: 'test run a'})
.it('tests a')
testMyApp({info: 'test run b'})
.it('tests b')
})
Custom Plugins
It's easy to create your own plugins to extend fancy. In oclif we use fancy to create custom command testers.
Here is an example that creates a counter that could be used to label each test run. See the actual test to see the TypeScript types needed.
let count = 0
fancy = fancy
.register('count', prefix => {
return {
run(ctx) {
ctx.count = ++count
ctx.testLabel = `${prefix}${count}`
}
}
})
describe('register', () => {
fancy
.count('test-')
.it('is test #1', context => {
expect(context.count).to.equal(1)
expect(context.testLabel).to.equal('test-1')
})
fancy
.count('test-')
.it('is test #2', context => {
expect(context.count).to.equal(2)
expect(context.testLabel).to.equal('test-2')
})
})
TypeScript
This module is built in typescript and exports the typings. Doing something with dynamic chaining like this was not easy, but it should be fully typed throughout. Look at the internal plugins to get an idea of how to keep typings for your custom plugins.