/chai-as-promised

Extends Chai with assertions about promises.

Primary LanguageJavaScriptOtherNOASSERTION

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Chai Assertions for Promises

Chai as Promised extends Chai with a fluent language for asserting facts about promises.

Instead of manually wiring up your expectations to a promise's fulfilled and rejected handlers:

doSomethingAsync().then(
    function (result) {
        result.should.equal("foo");
        done();
    },
    function (err) {
       done(err);
    }
);

you can write code that expresses what you really mean:

return doSomethingAsync().should.eventually.equal("foo");

or if you have a case where return is not preferable (e.g. style considerations) or not possible (e.g. the testing framework doesn't allow returning promises to signal asynchronous test completion), then you can use the following workaround (where done() is supplied by the test framework):

doSomethingAsync().should.eventually.equal("foo").notify(done);

Notice: either return or notify(done) must be used with promise assertions. This can be a slight departure from the existing format of assertions being used on a project or by a team. Those other assertions are likely synchronous and thus do not require special handling.

How to Use

should/expect Interface

The most powerful extension provided by Chai as Promised is the eventually property. With it, you can transform any existing Chai assertion into one that acts on a promise:

(2 + 2).should.equal(4);

// becomes
return Promise.resolve(2 + 2).should.eventually.equal(4);


expect({ foo: "bar" }).to.have.property("foo");

// becomes
return expect(Promise.resolve({ foo: "bar" })).to.eventually.have.property("foo");

There are also a few promise-specific extensions (with the usual expect equivalents also available):

return promise.should.be.fulfilled;
return promise.should.eventually.deep.equal("foo");
return promise.should.become("foo"); // same as `.eventually.deep.equal`
return promise.should.be.rejected;
return promise.should.be.rejectedWith(Error); // other variants of Chai's `throw` assertion work too.

assert Interface

As with the should/expect interface, Chai as Promised provides an eventually extender to chai.assert, allowing any existing Chai assertion to be used on a promise:

assert.equal(2 + 2, 4, "This had better be true");

// becomes
return assert.eventually.equal(Promise.resolve(2 + 2), 4, "This had better be true, eventually");

And there are, of course, promise-specific extensions:

return assert.isFulfilled(promise, "optional message");

return assert.becomes(promise, "foo", "optional message");
return assert.doesNotBecome(promise, "foo", "optional message");

return assert.isRejected(promise, Error, "optional message");
return assert.isRejected(promise, /error message regex matcher/, "optional message");
return assert.isRejected(promise, "substring to search error message for", "optional message");

Progress Callbacks

Chai as Promised does not have any intrinsic support for testing promise progress callbacks. The properties you would want to test are probably much better suited to a library like Sinon.JS, perhaps in conjunction with Sinon–Chai:

var progressSpy = sinon.spy();

return promise.then(null, null, progressSpy).then(function () {
    progressSpy.should.have.been.calledWith("33%");
    progressSpy.should.have.been.calledWith("67%");
    progressSpy.should.have.been.calledThrice;
});

Customizing Output Promises

By default, the promises returned by Chai as Promised's assertions are regular Chai assertion objects, extended with a single then method derived from the input promise. To change this behavior, for instance to output a promise with more useful sugar methods such as are found in most promise libraries, you can override chaiAsPromised.transferPromiseness. Here's an example that transfer's Q's finally and done methods:

chaiAsPromised.transferPromiseness = function (assertion, promise) {
    assertion.then = promise.then.bind(promise); // this is all you get by default
    assertion.finally = promise.finally.bind(promise);
    assertion.done = promise.done.bind(promise);
};

Transforming Arguments to the Asserters

Another advanced customization hook Chai as Promised allows is if you want to transform the arguments to the asserters, possibly asynchronously. Here is a toy example:

chaiAsPromised.transformAsserterArgs = function (args) {
    return args.map(function (x) { return x + 1; });
}

Promise.resolve(2).should.eventually.equal(2); // will now fail!
Promise.resolve(3).should.eventually.equal(2); // will now pass!

The transform can even be asynchronous, returning a promise for an array instead of an array directly. An example of that might be using Promise.all so that an array of promises becomes a promise for an array. If you do that, then you can compare promises against other promises using the asserters:

// This will normally fail, since within() only works on numbers.
Promise.resolve(2).should.eventually.be.within(Promise.resolve(1), Promise.resolve(6));

chaiAsPromised.transformAsserterArgs = function (args) {
    return Promise.all(args);
};

// But now it will pass, since we transformed the array of promises for numbers into
// (a promise for) an array of numbers
Promise.resolve(2).should.eventually.be.within(Promise.resolve(1), Promise.resolve(6));

Compatibility

Chai as Promised is compatible with all promises following the Promises/A+ specification.

Notably, jQuery's promises were not up to spec before jQuery 3.0, and Chai as Promised will not work with them. In particular, Chai as Promised makes extensive use of the standard transformation behavior of then, which jQuery<3.0 does not support.

Angular promises have a special digest cycle for their processing, and need extra setup code to work with Chai as Promised.

Working with Non-Promise–Friendly Test Runners

Some test runners (e.g. Jasmine, QUnit, or tap/tape) do not have the ability to use the returned promise to signal asynchronous test completion. If possible, I'd recommend switching to ones that do, such as Mocha, Buster, or blue-tape. But if that's not an option, Chai as Promised still has you covered. As long as your test framework takes a callback indicating when the asynchronous test run is over, Chai as Promised can adapt to that situation with its notify method, like so:

it("should be fulfilled", function (done) {
    promise.should.be.fulfilled.and.notify(done);
});

it("should be rejected", function (done) {
    otherPromise.should.be.rejected.and.notify(done);
});

In these examples, if the conditions are not met, the test runner will receive an error of the form "expected promise to be fulfilled but it was rejected with [Error: error message]", or "expected promise to be rejected but it was fulfilled."

There's another form of notify which is useful in certain situations, like doing assertions after a promise is complete. For example:

it("should change the state", function (done) {
    otherState.should.equal("before");
    promise.should.be.fulfilled.then(function () {
        otherState.should.equal("after");
    }).should.notify(done);
});

Notice how .notify(done) is hanging directly off of .should, instead of appearing after a promise assertion. This indicates to Chai as Promised that it should pass fulfillment or rejection directly through to the testing framework. Thus, the above code will fail with a Chai as Promised error ("expected promise to be fulfilled…") if promise is rejected, but will fail with a simple Chai error (expected "before" to equal "after") if otherState does not change.

Working with async/await and Promise-Friendly Test Runners

Since any assertion that must wait on a promise returns a promise itself, if you're able to use async/await and your test runner supports returning a promise from test methods, you can await assertions in tests. In many cases you can avoid using Chai as Promised at all by performing a synchronous assertion after an await, but awaiting rejectedWith is often more convenient than using try/catch blocks without Chai as Promised:

it('should work well with async/await', async () => {
  (await Promise.resolve(42)).should.equal(42)
  await Promise.reject(new Error()).should.be.rejectedWith(Error);
});

Multiple Promise Assertions

To perform assertions on multiple promises, use Promise.all to combine multiple Chai as Promised assertions:

it("should all be well", function () {
    return Promise.all([
        promiseA.should.become("happy"),
        promiseB.should.eventually.have.property("fun times"),
        promiseC.should.be.rejectedWith(TypeError, "only joyful types are allowed")
    ]);
});

This will pass any failures of the individual promise assertions up to the test framework, instead of wrapping them in an "expected promise to be fulfilled…" message as would happen if you did return Promise.all([…]).should.be.fulfilled. If you can't use return, then use .should.notify(done), similar to the previous examples.

Installation and Setup

Node

Do an npm install chai-as-promised to get up and running. Then:

var chai = require("chai");
var chaiAsPromised = require("chai-as-promised");

chai.use(chaiAsPromised);

// Then either:
var expect = chai.expect;
// or:
var assert = chai.assert;
// or:
chai.should();
// according to your preference of assertion style

You can of course put this code in a common test fixture file; for an example using Mocha, see the Chai as Promised tests themselves.

Note when using other Chai plugins: Chai as Promised finds all currently-registered asserters and promisifies them, at the time it is installed. Thus, you should install Chai as Promised last, after any other Chai plugins, if you expect their asserters to be promisified.

In the Browser

To use Chai as Promised in environments that don't support Node.js-like CommonJS modules, you'll need to use a bundling tool like browserify. See also the note below about browser compatibility.

Karma

If you're using Karma, check out the accompanying karma-chai-as-promised plugin.

Browser/Node Compatibility

Chai as Promised requires Node v4+ or a browser with equivalent support for modern JavaScript syntax. If your browser doesn't support modern JavaScript syntax, you'll need to transpile it down using a tool like Babel.