If you are updating from a beta or RC version, check out our 1.0 Update Guide.
If you wish to collaborate, check out our issue list.
Before submitting new issues, have a look at issues marked with the type: faq
label.
Both the CLI and generated project have dependencies that require Node 8.9 or higher, together with NPM 5.5.1 or higher.
- Installation
- Usage
- Generating a New Project
- Generating Components, Directives, Pipes and Services
- Updating Angular CLI
- Development Hints for working on Angular CLI
- Documentation
- License
BEFORE YOU INSTALL: please read the prerequisites
npm install -g @angular/cli
npm install @angular/cli
To run a locally installed version of the angular-cli, you can call ng
commands directly by adding the .bin
folder within your local node_modules
folder to your PATH. The node_modules
and .bin
folders are created in the directory where npm install @angular/cli
was run upon completion of the install command.
Alternatively, you can install npx and run npx ng <command>
within the local directory where npm install @angular/cli
was run, which will use the locally installed angular-cli.
npm install -g @angular/[email protected]
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 host and port used by the development server with two command-line options :
ng serve --host 0.0.0.0 --port 4201
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
# if in the directory src/app you can also run
ng g component feature/new-cmp
# and your component will be generated in src/app/feature/new-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 |
Guard | ng g guard my-new-guard |
Interface | ng g interface my-new-interface |
Enum | ng g enum my-new-enum |
Module | ng g module my-module |
angular-cli will add reference to components
, directives
and pipes
automatically in the app.module.ts
. If you need to add this references to another custom module, follow these steps:
ng g module new-module
to create a new module- call
ng g component new-module/new-component
This should add the new component
, directive
or pipe
reference to the new-module
you've created.
If you're using Angular CLI 1.0.0-beta.28
or less, you need to uninstall angular-cli
package. It should be done due to changing of package's name and scope from angular-cli
to @angular/cli
:
npm uninstall -g angular-cli
npm uninstall --save-dev angular-cli
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 verify
# if npm version is < 5 then use `npm cache clean`
npm install -g @angular/cli@latest
Local project package:
rm -rf node_modules dist # use rmdir /S/Q node_modules dist in Windows Command Prompt; use rm -r -fo node_modules,dist in Windows PowerShell
npm install --save-dev @angular/cli@latest
npm install
If you are updating to 1.0 from a beta or RC version, check out our 1.0 Update Guide.
You can find more details about changes between versions in the Releases tab on GitHub.
git clone https://github.com/angular/angular-cli.git
yarn
npm run build
cd dist/@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 built dist/@angular/cli/
folder becomes the global package.
Additionally, this repository publishes several packages and we use special logic to load all of them
on development setups.
Any changes to the files in the angular-cli/
folder will immediately affect the global @angular/cli
package,
meaning that, in order to quickly test any changes you make to the cli project, you should simply just run npm run build
again.
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.
To run the Angular CLI E2E test suite, use the node ./tests/legacy-cli/run_e2e
command.
It can also receive a filename to only run that test (e.g. node ./tests/legacy-cli/run_e2e tests/legacy-cli/e2e/tests/build/dev-build.ts
).
As part of the test procedure, all packages will be built and linked.
You will need to re-run npm link
to re-link the development Angular CLI environment after tests finish.
In order to debug some Angular CLI behaviour using Visual Studio Code, you can run npm run build
, and then use a launch configuration like the following:
{
"type": "node",
"request": "launch",
"name": "ng serve",
"cwd": "<path to an Angular project generated with Angular-CLI>",
"program": "${workspaceFolder}/dist/@angular/cli/bin/ng",
"args": [
"<ng command>",
...other arguments
],
"console": "integratedTerminal"
}
Then you can add breakpoints in dist/@angular
files.
For more informations about Node.js debugging in VS Code, see the related VS Code Documentation.
In order to investigate performance issues, CPU profiling is often useful.
Node.js 16+ users can use the Node.js command line argument --cpu-prof
to create a CPU profile.
node --cpu-prof node_modules/.bin/ng build
In addition to this one, another, more elaborated way to capture a CPU profile using the Chrome Devtools is detailed in angular#8259 (comment).
You can use the Chrome Devtools to process it. To do so:
- open
chrome://inspect
in Chrome - click on "Open dedicated DevTools for Node"
- go to the "profiler" tab
- click on the "Load" button and select the generated
.cpuprofile
file - on the left panel, select the associated file
The documentation for the Angular CLI is located on our documentation website.