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writing-marble-tests.md

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Writing Marble Tests

"Marble Tests" are tests that use a specialized VirtualScheduler called the TestScheduler. They enable us to test asynchronous operations in a synchronous and dependable manner. The "marble notation" is something that's been adapted from many teachings and documents by people such as @jhusain, @headinthebox, @mattpodwysocki and @staltz. In fact, @staltz first recommended this as a DSL for creating unit tests, and it has since been altered and adopted.

links

Basic methods

The unit tests have helper methods that have been added to make creating tests easier.

  • hot(marbles: string, values?: object, error?: any) - creates a "hot" observable (a subject) that will behave as though it's already "running" when the test begins. An interesting difference is that hot marbles allow a ^ character to signal where the "zero frame" is. That is the point at which the subscription to observables being tested begins.
  • cold(marbles: string, values?: object, error?: any) - creates a "cold" observable whose subscription starts when the test begins.
  • expectObservable(actual: Observable<T>).toBe(marbles: string, values?: object, error?: any) - schedules an assertion for when the TestScheduler flushes. The TestScheduler will automatically flush at the end of your jasmine it block.
  • expectSubscriptions(actualSubscriptionLogs: SubscriptionLog[]).toBe(subscriptionMarbles: string) - like expectObservable schedules an assertion for when the testScheduler flushes. Both cold() and hot() return an observable with a property subscriptions of type SubscriptionLog[]. Give subscriptions as parameter to expectSubscriptions to assert whether it matches the subscriptionsMarbles marble diagram given in toBe(). Subscription marble diagrams are slightly different than Observable marble diagrams. Read more below.

Ergonomic defaults for hot and cold

In both hot and cold methods, value charecters specified in marble diagrams are emitted as strings unless a values argument is passed to the method. Therefor:

hot('--a--b') will emit "a" and "b" whereas

hot('--a--b', { a: 1, b: 2 }) will emit 1 and 2.

Likewise, unspecified errors will just default to the string "error", so:

hot('---#') will emit error "error" whereas

hot('---#', null, new SpecialError('test')) will emit new SpecialError('test')

Marble Syntax

Marble syntax is a string represents events happening over "time". The first character of any marble string always represents the "zero frame". A "frame" is somewhat analogous to a virtual millisecond.

  • "-" time: 10 "frames" of time passage.
  • "|" complete: The successful completion of an observable. This is the observable producer signaling complete()
  • "#" error: An error terminating the observable. This is the observable producer signaling error()
  • "a" any character: All other characters represent a value being emitted by the producure signaling next()
  • "()" sync groupings: When multiple events need to single in the same frame synchronously, parenthesis are used to group those events. You can group nexted values, a completion or an error in this manner. The position of the initial ( determines the time at which its values are emitted.
  • "^" subscription point: (hot observables only) shows the point at which the tested observables will be subscribed to the hot observable. This is the "zero frame" for that observable, every frame before the ^ will be negative.

Examples

'-' or '------': Equivalent to Observable.never(), or an observable that never emits or completes

|: Equivalent to Observable.empty()

#: Equivalent to Observable.throw()

'--a--': An observable that waits 20 "frames", emits value a and then never completes.

'--a--b--|: On frame 20 emit a, on frame 50 emit b, and on frame 80, complete

'--a--b--#: On frame 20 emit a, on frame 50 emit b, and on frame 80, error

'-a-^-b--|: In a hot observable, on frame -20 emit a, then on frame 20 emit b, and on frame 50, complete.

'--(abc)-|': on frame 20, emit a, b, and c, then on frame 80 complete

'-----(a|)': on frame 50, emit a and complete.

Subscription Marble Syntax

The subscription marble syntax is slightly different to conventional marble syntax. It represents the subscription and an unsubscription points happening over time. There should be no other type of event represented in such diagram.

  • "-" time: 10 "frames" of the passage.
  • "^" subscription point: shows the point in time at which a subscription happen.
  • "!" unsubscription point: shows the point in time at which a subscription is unsubscribed.

There should be at most one ^ point in a subscription marble diagram, and at most one ! point. Other than that, the - character is the only one allowed in a subscription marble diagram.

Examples

'-' or '------': no subscription ever happened.

'--^--': a subscription happened after 20 "frames" of time passed, and the subscription was not unsubscribed.

'--^--!-: on frame 20 a subscription happened, and on frame 50 was unsubscribed.

Anatomy of a Test

A basic test might look as follows:

var e1 = hot('----a--^--b-------c--|');
var e2 = hot(  '---d-^--e---------f-----|');
var expected =      '---(be)----c-f-----|';

expectObservable(e1.merge(e2)).toBe(expected);
  • The ^ characters of hot observables should always be aligned.
  • The first charactor of cold observables or expected observables should always be aligned with each other, and with the ^ of hot observables.
  • Use default emission values when you can. Specify values when you have to.

A test example with specified values:

var values = {
  a: 1,
  b: 2,
  c: 3,
  d: 4,
  x: 1 + 3, // a + c
  y: 2 + 4, // b + d
}
var e1 =    hot('---a---b---|', values);
var e2 =    hot('-----c---d---|', values);
var expected =  '-----x---y---|';

expectObservable(e1.zip(e2, function(x, y) { return x + y; }))
  .toBe(expected, values);
  • Use the same hash to look up all values, this ensures that multiple uses of the same character have the same value.
  • Make the result values as obvious as possible as to what they represent, these are tests afterall, we want clarity more than efficiency, so x: 1 + 3, // a + c is better than just x: 4. The former conveys why it's 4, the latter does not.

A test example with subscription assertions:

var x = cold(        '--a---b---c--|');
var xsubs =    '------^-------!';
var y = cold(                '---d--e---f---|');
var ysubs =    '--------------^-------------!';
var e1 = hot(  '------x-------y------|', { x: x, y: y });
var expected = '--------a---b----d--e---f---|';

expectObservable(e1.switch()).toBe(expected);
expectSubscriptions(x.subscriptions).toBe(xsubs);
expectSubscriptions(y.subscriptions).toBe(ysubs);
  • Align the start of xsubs and ysubs diagrams with expected diagram.
  • Notice how the x cold observable is unsubscribed at the same time e1 emits y.

In most tests it will be unnecessary to test subscription and unsubscription points, be either obvious or can be implied from the expected diagram. In those cases do not write subscription assertions. In test cases that have inner subscriptions or cold observables with multiple subscribers, these subscription assertions can be useful.

Generating PNG marble diagrams from tests

Typically, each test case in Jasmine is written as it('should do something', function () { /* ... */ }). To mark a test case for PNG diagram generation, you must use the asDiagram(label) function, like this:

it.asDiagram(operatorLabel)('should do something', function () {
  // ...
});

For instance, with zip, we would write

it.asDiagram('zip')('should zip by concatenating', function () {
  var e1 =    hot('---a---b---|');
  var e2 =    hot('-----c---d---|');
  var expected =  '-----x---y---|';
  var values = { x: 'ac', y: 'bd' };

  var result = e1.zip(e2, function(x, y) { return String(x) + String(y); });

  expectObservable(result).toBe(expected, values);
});

Then, when running npm run tests2png, this test case will be parsed and a PNG file zip.png (filename determined by ${operatorLabel}.png) will be created in the img/ folder.