Prototype of a CLI for Angular applications based on the ember-cli project.
This project is very much still a work in progress.
The CLI is now in beta. If you wish to collaborate while the project is still young, check out our issue list.
Before submitting new issues, have a look at issues marked with the type: faq
label.
We changed the build system between beta.10 and beta.14, from SystemJS to Webpack. And with it comes a lot of benefits. To take advantage of these, your app built with the old beta will need to migrate.
You can update your beta.10
projects to beta.14
by following these instructions.
Both the CLI and generated project have dependencies that require Node 4 or higher, together with NPM 3 or higher.
- Installation
- Usage
- Generating a New Project
- Generating Components, Directives, Pipes and Services
- Generating a Route
- Creating a Build
- Build Targets and Environment Files
- Base tag handling in index.html
- Bundling
- Running Unit Tests
- Running End-to-End Tests
- Proxy To Backend
- Deploying the App via GitHub Pages
- Linting code
- Commands autocompletion
- Project assets
- Global styles
- CSS preprocessor integration
- 3rd Party Library Installation
- Global Library Installation
- Updating angular-cli
- Development Hints for hacking on angular-cli
BEFORE YOU INSTALL: please read the prerequisites
npm install -g angular-cli
ng help
ng new PROJECT_NAME
cd PROJECT_NAME
ng serve
Navigate to http://localhost:4200/
. The app will automatically reload if you change any of the source files.
You can configure the default HTTP port and the one used by the LiveReload server with two command-line options :
ng serve --host 0.0.0.0 --port 4201 --live-reload-port 49153
You can use the ng generate
(or just ng g
) command to generate Angular components:
ng generate component my-new-component
ng g component my-new-component # using the alias
# components support relative path generation
# if in the directory src/app/feature/ and you run
ng g component new-cmp
# your component will be generated in src/app/feature/new-cmp
# but if you were to run
ng g component ../newer-cmp
# your component will be generated in src/app/newer-cmp
You can find all possible blueprints in the table below:
Scaffold | Usage |
---|---|
Component | ng g component my-new-component |
Directive | ng g directive my-new-directive |
Pipe | ng g pipe my-new-pipe |
Service | ng g service my-new-service |
Class | ng g class my-new-class |
Interface | ng g interface my-new-interface |
Enum | ng g enum my-new-enum |
Module | ng g module my-module |
The CLI supports routing in several ways:
-
We include the
@angular/router
NPM package when creating or initializing a project. -
When you generate a module, you can use the
--routing
option likeng g module my-module --routing
to create a separate filemy-module-routing.module.ts
to store the module routes.The file includes an empty
Routes
object that you can fill with routes to different components and/or modules.The
--routing
option also generates a default component with the same name as the module. -
You can use the
--routing
option withng new
to create aapp-routing.module.ts
file when you create or initialize a project.
ng build
The build artifacts will be stored in the dist/
directory.
ng build
can specify both a build target (--target=production
or --target=development
) and an
environment file to be used with that build (--environment=dev
or --environment=prod
).
By default, the development build target and environment are used.
The mapping used to determine which environment file is used can be found in angular-cli.json
:
"environments": {
"source": "environments/environment.ts",
"dev": "environments/environment.ts",
"prod": "environments/environment.prod.ts"
}
These options also apply to the serve command. If you do not pass a value for environment
,
it will default to dev
for development
and prod
for production
.
# these are equivalent
ng build --target=production --environment=prod
ng build --prod --env=prod
ng build --prod
# and so are these
ng build --target=development --environment=dev
ng build --dev --e=dev
ng build --dev
ng build
You can also add your own env files other than dev
and prod
by doing the following:
- create a
src/environments/environment.NAME.ts
- add
{ "NAME": 'src/environments/environment.NAME.ts' }
to theapps[0].environments
object inangular-cli.json
- use them via the
--env=NAME
flag on the build/serve commands.
When building you can modify base tag (<base href="/">
) in your index.html with --base-href your-url
option.
# Sets base tag href to /myUrl/ in your index.html
ng build --base-href /myUrl/
ng build --bh /myUrl/
All builds make use of bundling, and using the --prod
flag in ng build --prod
or ng serve --prod
will also make use of uglifying and tree-shaking functionality.
ng test
Tests will execute after a build is executed via Karma, and it will automatically watch your files for changes. You can run tests a single time via --watch=false
or --single-run
.
You can run tests with coverage via --code-coverage
. The coverage report will be in the coverage/
directory.
Linting during tests is also available via the --lint
flag. See Linting code chapter for more information.
ng e2e
Before running the tests make sure you are serving the app via ng serve
.
End-to-end tests are run via Protractor.
Using the proxying support in webpack's dev server we can highjack certain urls and send them to a backend server.
We do this by passing a file to --proxy-config
Say we have a server running on http://localhost:3000/api
and we want all calls to http://localhost:4200/api
to go to that server.
We create a file next to projects package.json
called proxy.conf.json
with the content
{
"/api": {
"target": "http://localhost:3000",
"secure": false
}
}
You can read more about what options are available here webpack-dev-server proxy settings
and then we edit the package.json
file's start script to be
"start": "ng serve --proxy-config proxy.conf.json",
now run it with npm start
You can deploy your apps quickly via:
ng github-pages:deploy --message "Optional commit message"
This will do the following:
- creates GitHub repo for the current project if one doesn't exist
- rebuilds the app in production mode at the current
HEAD
- creates a local
gh-pages
branch if one doesn't exist - moves your app to the
gh-pages
branch and creates a commit - edit the base tag in index.html to support GitHub Pages
- pushes the
gh-pages
branch to GitHub - returns back to the original
HEAD
Creating the repo requires a token from GitHub, and the remaining functionality relies on ssh authentication for all git operations that communicate with github.com. To simplify the authentication, be sure to setup your ssh keys.
If you are deploying a user or organization page, you can instead use the following command:
ng github-pages:deploy --user-page --message "Optional commit message"
This command pushes the app to the master
branch on the GitHub repo instead
of pushing to gh-pages
, since user and organization pages require this.
You can lint your app code by running ng lint
.
This will use the lint
npm script that in generated projects uses tslint
.
You can modify the these scripts in package.json
to run whatever tool you prefer.
To turn on auto completion use the following commands:
For bash:
ng completion 1>> ~/.bashrc 2>>&1
source ~/.bashrc
For zsh:
ng completion 1>> ~/.zshrc 2>>&1
source ~/.zshrc
Windows users using gitbash:
ng completion 1>> ~/.bash_profile 2>>&1
source ~/.bash_profile
You use the assets
array in angular-cli.json
to list files or folders you want to copy as-is when building your project:
"assets": [
"assets",
"favicon.ico"
]
The styles.css
file allows users to add global styles and supports
CSS imports.
If the project is created with the --style=sass
option, this will be a .sass
file instead, and the same applies to scss/less/styl
.
You can add more global styles via the apps[0].styles
property in angular-cli.json
.
Angular-CLI supports all major CSS preprocessors:
- sass/scss (http://sass-lang.com/)
- less (http://lesscss.org/)
- stylus (http://stylus-lang.com/)
To use these preprocessors simply add the file to your component's styleUrls
:
@Component({
selector: 'app-root',
templateUrl: './app.component.html',
styleUrls: ['./app.component.scss']
})
export class AppComponent {
title = 'app works!';
}
When generating a new project you can also define which extension you want for style files:
ng new sassy-project --style=sass
Or set the default style on an existing project:
ng set defaults.styleExt scss
Simply install your library via npm install lib-name --save
and import it in your code.
If the library does not include typings, you can install them using npm:
npm install d3 --save
npm install @types/d3 --save-dev
If the library doesn't have typings available at @types/
, you can still use it by
manually adding typings for it:
-
First, create a
typings.d.ts
file in yoursrc/
folder. This file will be automatically included as global type definition. -
Then, in
src/typings.d.ts
, add the following code:
declare module 'typeless-package';
- Finally, in the component or file that uses the library, add the following code:
import * as typelessPackage from 'typeless-package';
typelessPackage.method();
Done. Note: you might need or find useful to define more typings for the library that you're trying to use.
Some javascript libraries need to be added to the global scope, and loaded as if
they were in a script tag. We can do this using the apps[0].scripts
and
apps[0].styles
properties of angular-cli.json
.
As an example, to use Bootstrap 4 this is what you need to do:
First install Bootstrap from npm
:
npm install bootstrap@next
Then add the needed script files to apps[0].scripts
:
"scripts": [
"../node_modules/jquery/dist/jquery.js",
"../node_modules/tether/dist/js/tether.js",
"../node_modules/bootstrap/dist/js/bootstrap.js"
],
Finally add the Bootstrap CSS to the apps[0].styles
array:
"styles": [
"../node_modules/bootstrap/dist/css/bootstrap.css",
"styles.css"
],
Restart ng serve
if you're running it, and Bootstrap 4 should be working on
your app.
To update angular-cli
to a new version, you must update both the global package and your project's local package.
Global package:
npm uninstall -g angular-cli
npm cache clean
npm install -g angular-cli@latest
Local project package:
rm -rf node_modules dist # use rmdir on Windows
npm install --save-dev angular-cli@latest
npm install
ng update
Running ng update
will check for changes in all the auto-generated files created by ng new
and allow you to update yours. You are offered four choices for each changed file: y
(overwrite), n
(don't overwrite), d
(show diff between your file and the updated file) and h
(help).
Carefully read the diffs for each code file, and either accept the changes or incorporate them manually after ng update
finishes.
The main cause of errors after an update is failing to incorporate these updates into your code.
You can find more details about changes between versions in CHANGELOG.md.
git clone https://github.com/angular/angular-cli.git
cd angular-cli
npm link
npm link
is very similar to npm install -g
except that instead of downloading the package
from the repo, the just cloned angular-cli/
folder becomes the global package.
Any changes to the files in the angular-cli/
folder will immediately affect the global angular-cli
package,
allowing you to quickly test any changes you make to the cli project.
Now you can use angular-cli
via the command line:
ng new foo
cd foo
npm link angular-cli
ng serve
npm link angular-cli
is needed because by default the globally installed angular-cli
just loads
the local angular-cli
from the project which was fetched remotely from npm.
npm link angular-cli
symlinks the global angular-cli
package to the local angular-cli
package.
Now the angular-cli
you cloned before is in three places:
The folder you cloned it into, npm's folder where it stores global packages and the angular-cli
project you just created.
You can also use ng new foo --link-cli
to automatically link the angular-cli
package.
Please read the official npm-link documentation and the npm-link cheatsheet for more information.
MIT