Testing your Angular application helps you check that your app is working as you expect.
Before writing tests for your Angular app, you should have a basic understanding of the following concepts:
The testing documentation offers tips and techniques for unit and integration testing Angular applications through a sample application created with the Angular CLI. This sample application is much like the one in the Tour of Heroes tutorial.
For the sample app that the testing guides describe, see the sample app.
For the tests features in the testing guides, see tests.
The Angular CLI downloads and installs everything you need to test an Angular application with the Jasmine test framework.
The project you create with the CLI is immediately ready to test. Just run the ng test
CLI command:
ng test
The ng test
command builds the app in watch mode, and launches the Karma test runner.
The console output looks a bit like this:
10% building modules 1/1 modules 0 active ...INFO [karma]: Karma v1.7.1 server started at http://0.0.0.0:9876/ ...INFO [launcher]: Launching browser Chrome ... ...INFO [launcher]: Starting browser Chrome ...INFO [Chrome ...]: Connected on socket ... Chrome ...: Executed 3 of 3 SUCCESS (0.135 secs / 0.205 secs)
The last line of the log is the most important. It shows that Karma ran three tests that all passed.
A Chrome browser also opens and displays the test output in the "Jasmine HTML Reporter" like this.
Most people find this browser output easier to read than the console log. You can click on a test row to re-run just that test or click on a description to re-run the tests in the selected test group ("test suite").
Meanwhile, the ng test
command is watching for changes.
To see this in action, make a small change to app.component.ts
and save. The tests run again, the browser refreshes, and the new test results appear.
The CLI takes care of Jasmine and Karma configuration for you.
You can fine-tune many options by editing the karma.conf.js
in the root folder of the project and the test.ts
files in the src/
folder.
The karma.conf.js
file is a partial Karma configuration file. The CLI constructs the full runtime configuration in memory, based on application structure specified in the angular.json
file, supplemented by karma.conf.js
.
Search the web for more details about Jasmine and Karma configuration.
You can also unit test an Angular app with other testing libraries and test runners. Each library and runner has its own distinctive installation procedures, configuration, and syntax.
Search the web to learn more.
Look inside the src/app
folder.
The CLI generated a test file for the AppComponent
named app.component.spec.ts
.
The test file extension must be
.spec.ts
so that tooling can identify it as a file with tests (AKA, a spec file).
The app.component.ts
and app.component.spec.ts
files are siblings in the same folder. The root file names (app.component
) are the same for both files.
Adopt these two conventions in your own projects for every kind of test file.
It's a good idea to put unit test spec files in the same folder as the application source code files that they test:
Application integration specs can test the interactions of multiple parts spread across folders and modules. They don't really belong to any part in particular, so they don't have a natural home next to any one file.
It's often better to create an appropriate folder for them in the tests
directory.
Of course specs that test the test helpers belong in the test
folder, next to their corresponding helper files.
One of the best ways to keep your project bug-free is through a test suite, but it's easy to forget to run tests all the time. Continuous integration (CI) servers let you set up your project repository so that your tests run on every commit and pull request.
There are paid CI services like Circle CI and Travis CI, and you can also host your own for free using Jenkins and others. Although Circle CI and Travis CI are paid services, they are provided free for open source projects. You can create a public project on GitHub and add these services without paying. Contributions to the Angular repo are automatically run through a whole suite of Circle CI tests.
This article explains how to configure your project to run Circle CI and Travis CI, and also update your test configuration to be able to run tests in the Chrome browser in either environment.
Step 1: Create a folder called .circleci
at the project root.
Step 2: In the new folder, create a file called config.yml
with the following content:
version: 2 jobs: build: working_directory: ~/my-project docker: - image: circleci/node:10-browsers steps: - checkout - restore_cache: key: my-project-{{ .Branch }}-{{ checksum "package-lock.json" }} - run: npm install - save_cache: key: my-project-{{ .Branch }}-{{ checksum "package-lock.json" }} paths: - "node_modules" - run: npm run test -- --no-watch --no-progress --browsers=ChromeHeadlessCI - run: npm run e2e -- --protractor-config=e2e/protractor-ci.conf.js
This configuration caches node_modules/
and uses npm run
to run CLI commands, because @angular/cli
is not installed globally. The double dash (--
) is needed to pass arguments into the npm
script.
Step 3: Commit your changes and push them to your repository.
Step 4: Sign up for Circle CI and add your project. Your project should start building.
Step 1: Create a file called .travis.yml
at the project root, with the following content:
dist: trusty sudo: false language: node_js node_js: - "10" addons: apt: sources: - google-chrome packages: - google-chrome-stable cache: directories: - ./node_modules install: - npm install script: - npm run test -- --no-watch --no-progress --browsers=ChromeHeadlessCI - npm run e2e -- --protractor-config=e2e/protractor-ci.conf.js
This does the same things as the CircleCI configuration, except that Travis doesn't come with Chrome, so use Chromium instead.
Step 2: Commit your changes and push them to your repository.
Step 3: Sign up for Travis CI and add your project. You'll need to push a new commit to trigger a build.
When the CLI commands ng test
and ng e2e
are generally running the CI tests in your environment, you might still need to adjust your configuration to run the Chrome browser tests.
There are configuration files for both the Karma JavaScript test runner and Protractor end-to-end testing tool, which you must adjust to start Chrome without sandboxing.
We'll be using Headless Chrome in these examples.
karma.conf.js
, add a custom launcher called ChromeHeadlessCI below browsers:browsers: ['ChromeHeadlessCI'], customLaunchers: { ChromeHeadlessCI: { base: 'ChromeHeadless', flags: ['--no-sandbox'] } },
protractor-ci.conf.js
. This new file extends the original protractor.conf.js
.const config = require('./protractor.conf').config; config.capabilities = { browserName: 'chrome', chromeOptions: { args: ['--headless', '--no-sandbox'] } }; exports.config = config;
Now you can run the following commands to use the --no-sandbox
flag:
ng test --no-watch --no-progress --browsers=ChromeHeadlessCI ng e2e --protractor-config=e2e/protractor-ci.conf.js
Note: Right now, you'll also want to include the
--disable-gpu
flag if you're running on Windows. See crbug.com/737678.
After you've set up your app for testing, you may find the following testing guides useful.
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Licensed under the Creative Commons Attribution License 4.0.
https://v10.angular.io/guide/testing