Building Angular Apps in an Nx Monorepo

In this tutorial you'll learn how to use Angular with Nx in a monorepo (integrated) setup.

What will you learn?

  • how to create a new Angular application
  • how to run a single task (i.e. serve your app) or run multiple tasks in parallel
  • how to leverage code generators to scaffold components
  • how to modularize your codebase and impose architectural constraints for better maintainability
  • how to speed up CI with Nx Cloud ⚡
Looking for an Angular standalone app?

Note, this tutorial sets up a repo with applications and libraries in their own subfolders. If you are looking for an Angular standalone app setup then check out our Angular standalone app tutorial.

Nx CLI vs. Angular CLI

Nx evolved from being an extension of the Angular CLI to a fully standalone CLI working with multiple frameworks. As a result, adopting Nx as an Angular user is relatively straightforward. Your existing code, including builders and schematics, will still work as before, but you'll also have access to all the benefits Nx offers.

Advantages of Nx over the Angular CLI:

Visit our "Nx and the Angular CLI" page for more details.

Final Code

Here's the source code of the final result for this tutorial.

Creating a new Angular Monorepo

Create a new Angular monorepo with the following command:

~

npx create-nx-workspace@latest angular-monorepo --preset=angular-monorepo

1 2NX Let's create a new workspace [https://nx.dev/getting-started/intro] 3 4✔ Application name · angular-store 5✔ Which bundler would you like to use? · esbuild 6Default stylesheet format · css 7Do you want to enable Server-Side Rendering (SSR) and Static Site Generation (SSG/Prerendering)? · No 8Test runner to use for end to end (E2E) tests · cypress 9✔ Which CI provider would you like to use? · github 10

Let's name the initial application angular-store. In this tutorial we're going to use cypress for e2e tests and css for styling. We'll talk more about how Nx integrates with GitHub Actions later in the tutorial. The above command generates the following structure:

1└─ angular-monorepo 2 ├─ ... 3 ├─ apps 4 │ ├─ angular-store 5 │ │ ├─ src 6 │ │ │ ├─ app 7 │ │ │ │ ├─ app.component.css 8 │ │ │ │ ├─ app.component.html 9 │ │ │ │ ├─ app.component.spec.ts 10 │ │ │ │ ├─ app.component.ts 11 │ │ │ │ ├─ app.config.ts 12 │ │ │ │ ├─ app.routes.ts 13 │ │ │ │ └─ nx-welcome.component.ts 14 │ │ │ ├─ assets 15 │ │ │ ├─ index.html 16 │ │ │ ├─ main.ts 17 │ │ │ ├─ styles.css 18 │ │ │ └─ test-setup.ts 19 │ │ ├─ eslintrc.json 20 │ │ ├─ jest.config.ts 21 │ │ ├─ project.json 22 │ │ ├─ tsconfig.app.json 23 │ │ ├─ tsconfig.editor.json 24 │ │ ├─ tsconfig.json 25 │ │ └─ tsconfig.spec.json 26 │ └─ angular-store-e2e 27 │ └─ ... 28 ├─ nx.json 29 ├─ tsconfig.base.json 30 └─ package.json 31

The setup includes:

  • a new Angular application (apps/angular-store/)
  • a Cypress based set of e2e tests (apps/angular-store-e2e/)
  • Prettier preconfigured
  • ESLint preconfigured
  • Jest preconfigured

Typically, an integrated Nx workspace places application projects in the apps folder and library projects in the libs folder. Applications are encouraged to be as light-weight as possible so that more code is pushed into libraries and can be reused in other projects. This folder structure is just a suggestion and can be modified to suit your organization's needs.

The nx.json file contains configuration settings for Nx itself and global default settings that individual projects inherit. The apps/angular-store/project.json file contains settings that are specific to the angular-store project. We'll examine that file more in the next section.

Serving the App

To serve your new Angular application, just run:

npx nx serve angular-store

Your application should be served at http://localhost:4200.

Nx uses the following syntax to run tasks:

Syntax for Running Tasks in Nx

Manually Defined Tasks

The project tasks are defined in the project.json file.

1{ 2 "name": "angular-store", 3 ... 4 "targets": { 5 "build": { ... }, 6 "serve": { ... }, 7 "extract-i18n": { ... }, 8 "lint": { ... }, 9 "test": { ... }, 10 "serve-static": { ... }, 11 }, 12} 13

Each target contains a configuration object that tells Nx how to run that target.

1{ 2 "name": "angular-store", 3 ... 4 "targets": { 5 "serve": { 6 "executor": "@angular-devkit/build-angular:dev-server", 7 "defaultConfiguration": "development", 8 "options": { 9 "buildTarget": "angular-store:build" 10 }, 11 "configurations": { 12 "development": { 13 "buildTarget": "angular-store:build:development", 14 "hmr": true 15 }, 16 "production": { 17 "buildTarget": "angular-store:build:production", 18 "hmr": false 19 } 20 } 21 }, 22 ... 23 }, 24} 25

The most critical parts are:

  • executor - this is of the syntax <plugin>:<executor-name>, where the plugin is an NPM package containing an Nx Plugin and <executor-name> points to a function that runs the task.
  • options - these are additional properties and flags passed to the executor function to customize it

Learn more about how to run tasks with Nx. We'll revisit running tasks later in this tutorial.

Adding Another Application

Nx plugins usually provide generators that allow you to easily scaffold code, configuration or entire projects. To see what capabilities the @nx/angular plugin provides, run the following command and inspect the output:

angular-monorepo

npx nx list @nx/angular

1 2NX Capabilities in @nx/angular: 3 4 GENERATORS 5 6 add-linting : Adds linting configuration to an Angular project. 7 application : Creates an Angular application. 8 component : Generate an Angular Component. 9 component-cypress-spec : Creates a Cypress spec for a UI component that has a story. 10 component-story : Creates a stories.ts file for a component. 11 component-test : Creates a cypress component test file for a component. 12 convert-tslint-to-eslint : Converts a project from TSLint to ESLint. 13 init : Initializes the `@nx/angular` plugin. 14 library : Creates an Angular library. 15 library-secondary-entry-point : Creates a secondary entry point for an Angular publishable library. 16 remote : Generate a Remote Angular Module Federation Application. 17 move : Moves an Angular application or library to another folder within the workspace and updates the project configuration. 18 // etc... 19 20 EXECUTORS/BUILDERS 21 22 delegate-build : Delegates the build to a different target while supporting incremental builds. 23 ng-packagr-lite : Builds a library with support for incremental builds. 24This executor is meant to be used with buildable libraries in an incremental build scenario. It is similar to the `@nx/angular:package` executor but with some key differences: 25- It doesn't run `ngcc` automatically (`ngcc` needs to be run separately beforehand if needed, this can be done in a `postinstall` hook on `package.json`). 26- It only produces ESM2020 bundles. 27- It doesn't generate package exports in the `package.json`. 28 package : Builds and packages an Angular library producing an output following the Angular Package Format (APF) to be distributed as an NPM package. 29This executor is similar to the `@angular-devkit/build-angular:ng-packagr` with additional support for incremental builds. 30 // etc... 31
Prefer a more visual UI?

If you prefer a more integrated experience, you can install the "Nx Console" extension for your code editor. It has support for VSCode, IntelliJ and ships a LSP for Vim. Nx Console provides autocompletion support in Nx configuration files and has UIs for browsing and running generators.

More info can be found in the integrate with editors article.

Run the following command to generate a new inventory application. Note how we append --dry-run to first check the output.

angular-monorepo

npx nx g @nx/angular:app inventory --directory=apps/inventory --dry-run

1NX Generating @nx/angular:application 2 3✔ Would you like to configure routing for this application? (y/N) · false 4✔ Would you like to use Standalone Components? (y/N) · true 5CREATE apps/inventory/project.json 6CREATE apps/inventory/src/assets/.gitkeep 7CREATE apps/inventory/src/favicon.ico 8CREATE apps/inventory/src/index.html 9CREATE apps/inventory/src/styles.css 10CREATE apps/inventory/tsconfig.app.json 11CREATE apps/inventory/tsconfig.editor.json 12CREATE apps/inventory/tsconfig.json 13CREATE apps/inventory/src/app/app.component.css 14CREATE apps/inventory/src/app/app.component.html 15CREATE apps/inventory/src/app/app.component.spec.ts 16CREATE apps/inventory/src/app/app.component.ts 17CREATE apps/inventory/src/app/app.config.ts 18CREATE apps/inventory/src/app/nx-welcome.component.ts 19CREATE apps/inventory/src/main.ts 20CREATE apps/inventory/.eslintrc.json 21CREATE apps/inventory/jest.config.ts 22CREATE apps/inventory/src/test-setup.ts 23CREATE apps/inventory/tsconfig.spec.json 24CREATE apps/inventory-e2e/cypress.config.ts 25CREATE apps/inventory-e2e/src/e2e/app.cy.ts 26CREATE apps/inventory-e2e/src/fixtures/example.json 27CREATE apps/inventory-e2e/src/support/app.po.ts 28CREATE apps/inventory-e2e/src/support/commands.ts 29CREATE apps/inventory-e2e/src/support/e2e.ts 30CREATE apps/inventory-e2e/tsconfig.json 31CREATE apps/inventory-e2e/project.json 32CREATE apps/inventory-e2e/.eslintrc.json 33 34NOTE: The "dryRun" flag means no changes were made. 35

As you can see, it generates a new application in the apps/inventory/ folder. Let's actually run the generator by removing the --dry-run flag.

npx nx g @nx/angular:app inventory --directory=apps/inventory

Sharing Code with Local Libraries

When you develop your Angular application, usually all your logic sits in the app folder. Ideally separated by various folder names which represent your "domains". As your app grows, however, the app becomes more and more monolithic and the code is unable to be shared with other applications.

1└─ angular-monorepo 2 ├─ ... 3 ├─ apps 4 │ └─ angular-store 5 │ ├─ ... 6 │ ├─ src 7 │ │ ├─ app 8 │ │ │ ├─ products 9 │ │ │ ├─ cart 10 │ │ │ ├─ ui 11 │ │ │ ├─ ... 12 │ │ │ └─ app.tsx 13 │ │ ├─ ... 14 │ │ └─ main.tsx 15 │ ├─ ... 16 │ └─ project.json 17 ├─ nx.json 18 ├─ ... 19

Nx allows you to separate this logic into "local libraries". The main benefits include

  • better separation of concerns
  • better reusability
  • more explicit "APIs" between your "domain areas"
  • better scalability in CI by enabling independent test/lint/build commands for each library
  • better scalability in your teams by allowing different teams to work on separate libraries

Creating Local Libraries

Let's assume our domain areas include products, orders and some more generic design system components, called ui. We can generate a new library for each of these areas using the Angular library generator:

1npx nx g @nx/angular:library products --directory=libs/products --standalone 2npx nx g @nx/angular:library orders --directory=libs/orders --standalone 3npx nx g @nx/angular:library shared-ui --directory=libs/shared/ui --standalone 4

Note how we type out the full path in the directory flag to place the libraries into a subfolder. You can choose whatever folder structure you like to organize your projects. If you change your mind later, you can run the move generator to move a project to a different folder.

Running the above commands should lead to the following directory structure:

1└─ angular-monorepo 2 ├─ ... 3 ├─ apps 4 ├─ libs 5 │ ├─ products 6 │ │ ├─ ... 7 │ │ ├─ project.json 8 │ │ ├─ src 9 │ │ │ ├─ index.ts 10 │ │ │ ├─ test-setup.ts 11 │ │ │ └─ lib 12 │ │ │ └─ products 13 │ │ ├─ tsconfig.json 14 │ │ ├─ tsconfig.lib.json 15 │ │ └─ tsconfig.spec.json 16 │ ├─ orders 17 │ │ ├─ ... 18 │ │ ├─ project.json 19 │ │ ├─ src 20 │ │ │ ├─ index.ts 21 │ │ │ └─ ... 22 │ │ └─ ... 23 │ └─ shared 24 │ └─ ui 25 │ ├─ ... 26 │ ├─ project.json 27 │ ├─ src 28 │ │ ├─ index.ts 29 │ │ └─ ... 30 │ └─ ... 31 ├─ ... 32

Each of these libraries

  • has its own project.json file with corresponding targets you can run (e.g. running tests for just orders: npx nx test orders)
  • has the name you specified in the generate command; you can find the name in the corresponding project.json file
  • has a dedicated index.ts file which is the "public API" of the library
  • is mapped in the tsconfig.base.json at the root of the workspace

Importing Libraries into the Angular Applications

All libraries that we generate automatically have aliases created in the root-level tsconfig.base.json.

tsconfig.base.json
1{ 2 "compilerOptions": { 3 ... 4 "paths": { 5 "@angular-monorepo/orders": ["libs/orders/src/index.ts"], 6 "@angular-monorepo/products": ["libs/products/src/index.ts"], 7 "@angular-monorepo/shared-ui": ["libs/shared/ui/src/index.ts"] 8 }, 9 ... 10 }, 11} 12

Hence we can easily import them into other libraries and our Angular application. As an example, let's use the pre-generated ProductsComponent component from our libs/products library.

You can see that the ProductsComponent is exported via the index.ts file of our products library so that other projects in the repository can use it. This is our public API with the rest of the workspace. Only export what's really necessary to be usable outside the library itself.

libs/products/src/index.ts
1export * from './lib/products/products.component'; 2

We're ready to import it into our main application now. First (if you haven't already), let's set up the Angular router. Configure it in the app.config.ts.

apps/angular-store/src/app/app.config.ts
1import { ApplicationConfig } from '@angular/core'; 2import { 3 provideRouter, 4 withEnabledBlockingInitialNavigation, 5} from '@angular/router'; 6import { appRoutes } from './app.routes'; 7 8export const appConfig: ApplicationConfig = { 9 providers: [provideRouter(appRoutes, withEnabledBlockingInitialNavigation())], 10}; 11

And in app.component.html:

apps/angular-store/src/app/app.component.html
1<router-outlet></router-outlet> 2

Then we can add the ProductsComponent component to our app.routes.ts and render it via the routing mechanism whenever a user hits the /products route.

apps/angular-store/src/app/app.routes.ts
1import { Route } from '@angular/router'; 2import { NxWelcomeComponent } from './nx-welcome.component'; 3 4export const appRoutes: Route[] = [ 5 { 6 path: '', 7 component: NxWelcomeComponent, 8 pathMatch: 'full', 9 }, 10 { 11 path: 'products', 12 loadComponent: () => 13 import('@angular-monorepo/products').then((m) => m.ProductsComponent), 14 }, 15]; 16

Serving your app (npx nx serve angular-store) and then navigating to /products should give you the following result:

products route

Let's apply the same for our orders library.

  • import the OrdersComponent from libs/orders into the app.routes.ts and render it via the routing mechanism whenever a user hits the /orders route

In the end, your app.routes.ts should look similar to this:

apps/angular-store/src/app/app.routes.ts
1import { Route } from '@angular/router'; 2import { NxWelcomeComponent } from './nx-welcome.component'; 3 4export const appRoutes: Route[] = [ 5 { 6 path: '', 7 component: NxWelcomeComponent, 8 pathMatch: 'full', 9 }, 10 { 11 path: 'products', 12 loadComponent: () => 13 import('@angular-monorepo/products').then((m) => m.ProductsComponent), 14 }, 15 { 16 path: 'orders', 17 loadComponent: () => 18 import('@angular-monorepo/orders').then((m) => m.OrdersComponent), 19 }, 20]; 21

Let's also show products in the inventory app.

apps/inventory/src/app/app.component.ts
1import { Component } from '@angular/core'; 2import { ProductsComponent } from '@angular-monorepo/products'; 3 4@Component({ 5 standalone: true, 6 imports: [ProductsComponent], 7 selector: 'app-root', 8 templateUrl: './app.component.html', 9 styleUrls: ['./app.component.css'], 10}) 11export class AppComponent { 12 title = 'inventory'; 13} 14
apps/inventory/src/app/app.component.html
1<lib-products></lib-products> 2

Visualizing your Project Structure

Nx automatically detects the dependencies between the various parts of your workspace and builds a project graph. This graph is used by Nx to perform various optimizations such as determining the correct order of execution when running tasks like npx nx build, identifying affected projects and more. Interestingly you can also visualize it.

Just run:

npx nx graph

You should be able to see something similar to the following in your browser.

Loading...

Notice how shared-ui is not yet connected to anything because we didn't import it in any of our projects.

Exercise for you: change the codebase such that shared-ui is used by orders and products. Note: you need to restart the npx nx graph command to update the graph visualization or run the CLI command with the --watch flag.

Testing and Linting

Our current setup not only has targets for serving and building the Angular application, but also has targets for unit testing, e2e testing and linting. The test and lint targets are defined in the application project.json file, while the e2e target is inferred from the apps/angular-store-e2e/cypress.config.ts file. We can use the same syntax as before to run these tasks:

1npx nx test angular-store # runs the tests for angular-store 2npx nx lint inventory # runs the linter on inventory 3npx nx e2e angular-store-e2e # runs e2e tests for the angular-store 4

Inferred Tasks

Nx identifies available tasks for your project from tooling configuration files, package.json scripts and the targets defined in project.json. All tasks from the angular-store project are defined in its project.json file, but the companion angular-store-e2e project has its tasks inferred from configuration files. To view the tasks that Nx has detected, look in the Nx Console, Project Details View or run:

npx nx show project angular-store-e2e --web

Project Details View

angular-store-e2e

Cypress
ESLint

Root: apps/angular-store-e2e

Type:application

Targets

E2E (CI) 2 targets
  • e2e-ci

    Cypress

    nx:noop

    Cacheable
  • e2e-ci--src/e2e/app.cy.ts

    Cypress

    cypress run --env webServerCommand="nx run angular-store:serve-static" --spec src/e2e/app.cy.ts

    Cacheable
Others 2 targets
  • e2e

    Cypress

    cypress run

    Cacheable
  • lint

    ESLint

    eslint .

    Cacheable

If you expand the e2e task, you can see that it was created by the @nx/cypress plugin by analyzing the apps/angular-store-e2e/cypress.config.ts file. Notice the outputs are defined as:

1[ 2 [ 3 "{workspaceRoot}/dist/cypress/apps/angular-store-e2e/videos", 4 "{workspaceRoot}/dist/cypress/apps/angular-store-e2e/screenshots" 5 ] 6] 7

This value is being read from the videosFolder and screenshotsFolder defined by the nxE2EPreset in your apps/angular-store-e2e/cypress.config.ts file. Let's change their value in your apps/angular-store-e2e/cypress.config.ts file:

apps/angular-store-e2e/cypress.config.ts
1// ... 2export default defineConfig({ 3 e2e: { 4 ...nxE2EPreset(__filename, { 5 // ... 6 }), 7 baseUrl: 'http://localhost:4200', 8 videosFolder: '../dist/cypress/apps/angular-store-e2e/videos-changed', 9 screenshotsFolder: 10 '../dist/cypress/apps/angular-store-e2e/screenshots-changed', 11 }, 12}); 13

Now if you look at the project details view again, the outputs for the e2e target will be:

1[ 2 "{workspaceRoot}/apps/dist/cypress/apps/angular-store-e2e/videos-changed", 3 "{workspaceRoot}/apps/dist/cypress/apps/angular-store-e2e/screenshots-changed" 4] 5

This feature ensures that Nx will always cache the correct files.

You can also override the settings for inferred tasks by modifying the targetDefaults in nx.json or setting a value in your project.json file. Nx will merge the values from the inferred tasks with the values you define in targetDefaults and in your specific project's configuration.

Running Multiple Tasks

In addition to running individual tasks, you can also run multiple tasks in parallel using the following syntax:

npx nx run-many -t test lint e2e

Caching

One thing to highlight is that Nx is able to cache the tasks you run.

Note that all of these targets are automatically cached by Nx. If you re-run a single one or all of them again, you'll see that the task completes immediately. In addition, (as can be seen in the output example below) there will be a note that a matching cache result was found and therefore the task was not run again.

angular-monorepo

npx nx run-many -t test lint e2e

1✔ nx run e2e:lint [existing outputs match the cache, left as is] 2✔ nx run angular-store:lint [existing outputs match the cache, left as is] 3✔ nx run angular-store:test [existing outputs match the cache, left as is] 4✔ nx run e2e:e2e [existing outputs match the cache, left as is] 5 6—————————————————————————————————————————————————————— 7 8NX Successfully ran targets test, lint, e2e for 5 projects (54ms) 9 10Nx read the output from the cache instead of running the command for 10 out of 10 tasks. 11

Not all tasks might be cacheable though. You can configure which tasks are cacheable in the project configuration or in the global Nx configuration. You can also learn more about how caching works.

Testing Affected Projects

Commit your changes to git.

git commit -a -m "some commit message"

And then make a small change to the products library.

libs/products/src/lib/product-list/product-list.component.html
1<p>product-list works!</p> 2<p>This is a change. 👋</p> 3

One of the key features of Nx in a monorepo setting is that you're able to run tasks only for projects that are actually affected by the code changes that you've made. To run the tests for only the projects affected by this change, run:

npx nx affected -t test

Note that the unit tests were run for products, angular-store and inventory, but not for orders because a change to products can not possibly break the tests for orders. In a small repo like this, there isn't a lot of time saved, but as there are more tests and more projects, this quickly becomes an essential command.

You can also see what projects are affected in the graph visualizer with;

npx nx graph --affected

Loading...

Building the Apps for Deployment

If you're ready and want to ship your applications, you can build them using

angular-monorepo

npx nx run-many -t build

1NX Generating @nx/angular:component 2 3CREATE libs/orders/src/lib/order-list/order-list.component.css 4CREATE libs/orders/src/lib/order-list/order-list.component.html 5CREATE libs/orders/src/lib/order-list/order-list.component.spec.ts 6CREATE libs/orders/src/lib/order-list/order-list.component.ts 7UPDATE libs/orders/src/index.ts 8❯ nx run-many -t build 9 10✔ nx run inventory:build:production (7s) 11✔ nx run angular-store:build:production (7s) 12 13——————————————————————————————————————————————————————————————————————— 14 15NX Successfully ran target build for 2 projects (7s) 16

All the required files will be placed in dist/apps/angular-store and dist/apps/inventory and can be deployed to your favorite hosting provider.

You can even create your own deploy task that sends the build output to your hosting provider.

apps/angular-store/project.json
1{ 2 "targets": { 3 "deploy": { 4 "dependsOn": "build", 5 "command": "netlify deploy --dir=dist/angular-store" 6 } 7 } 8} 9

Replace the command with whatever terminal command you use to deploy your site.

The "dependsOn": "build" setting tells Nx to make sure that the project's build task has been run successfully before the deploy task.

With the deploy tasks defined, you can deploy a single application with npx nx deploy angular-store or deploy any applications affected by the current changes with:

npx nx affected -t deploy

Imposing Constraints with Module Boundary Rules

Once you modularize your codebase you want to make sure that the libs are not coupled to each other in an uncontrolled way. Here are some examples of how we might want to guard our small demo workspace:

  • we might want to allow orders to import from shared-ui but not the other way around
  • we might want to allow orders to import from products but not the other way around
  • we might want to allow all libraries to import the shared-ui components, but not the other way around

When building these kinds of constraints you usually have two dimensions:

  • type of project: what is the type of your library. Example: "feature" library, "utility" library, "data-access" library, "ui" library
  • scope (domain) of the project: what domain area is covered by the project. Example: "orders", "products", "shared" ... this really depends on the type of product you're developing

Nx comes with a generic mechanism that allows you to assign "tags" to projects. "tags" are arbitrary strings you can assign to a project that can be used later when defining boundaries between projects. For example, go to the project.json of your orders library and assign the tags type:feature and scope:orders to it.

libs/orders/project.json
1{ 2 ... 3 "tags": ["type:feature", "scope:orders"], 4} 5

Then go to the project.json of your products library and assign the tags type:feature and scope:products to it.

libs/products/project.json
1{ 2 ... 3 "tags": ["type:feature", "scope:products"], 4} 5

Finally, go to the project.json of the shared-ui library and assign the tags type:ui and scope:shared to it.

libs/shared/ui/project.json
1{ 2 ... 3 "tags": ["type:ui", "scope:shared"], 4} 5

Notice how we assign scope:shared to our UI library because it is intended to be used throughout the workspace.

Next, let's come up with a set of rules based on these tags:

  • type:feature should be able to import from type:feature and type:ui
  • type:ui should only be able to import from type:ui
  • scope:orders should be able to import from scope:orders, scope:shared and scope:products
  • scope:products should be able to import from scope:products and scope:shared

To enforce the rules, Nx ships with a custom ESLint rule. Open the .eslintrc.base.json at the root of the workspace and add the following depConstraints in the @nx/enforce-module-boundaries rule configuration:

.eslintrc.base.json
1{ 2 ... 3 "overrides": [ 4 { 5 ... 6 "rules": { 7 "@nx/enforce-module-boundaries": [ 8 "error", 9 { 10 "enforceBuildableLibDependency": true, 11 "allow": [], 12 "depConstraints": [ 13 { 14 "sourceTag": "*", 15 "onlyDependOnLibsWithTags": ["*"] 16 }, 17 { 18 "sourceTag": "type:feature", 19 "onlyDependOnLibsWithTags": ["type:feature", "type:ui"] 20 }, 21 { 22 "sourceTag": "type:ui", 23 "onlyDependOnLibsWithTags": ["type:ui"] 24 }, 25 { 26 "sourceTag": "scope:orders", 27 "onlyDependOnLibsWithTags": [ 28 "scope:orders", 29 "scope:products", 30 "scope:shared" 31 ] 32 }, 33 { 34 "sourceTag": "scope:products", 35 "onlyDependOnLibsWithTags": ["scope:products", "scope:shared"] 36 }, 37 { 38 "sourceTag": "scope:shared", 39 "onlyDependOnLibsWithTags": ["scope:shared"] 40 } 41 ] 42 } 43 ] 44 } 45 }, 46 ... 47 ] 48} 49

To test it, go to your libs/products/src/lib/product-list/product-list.component.ts file and import the OrdersComponent from the orders project:

libs/products/src/lib/product-list/product-list.component.ts
1import { Component } from '@angular/core'; 2import { CommonModule } from '@angular/common'; 3 4// This import is not allowed 👇 5import { OrdersComponent } from '@angular-monorepo/orders'; 6 7@Component({ 8 selector: 'angular-monorepo-product-list', 9 standalone: true, 10 imports: [CommonModule], 11 templateUrl: './product-list.component.html', 12 styleUrls: ['./product-list.component.css'], 13}) 14export class ProductsComponent {} 15

If you lint your workspace you'll get an error now:

npx nx run-many -t lint

1NX Running target lint for 7 projects 2✖ nx run products:lint 3 Linting "products"... 4 5 /Users/isaac/Documents/code/nx-recipes/angular-monorepo/libs/products/src/lib/product-list/product-list.component.ts 6 5:1 error A project tagged with "scope:products" can only depend on libs tagged with "scope:products", "scope:shared" @nx/enforce-module-boundaries 7 5:10 warning 'OrdersComponent' is defined but never used @typescript-eslint/no-unused-vars 8 92 problems (1 error, 1 warning) 10 11 Lint warnings found in the listed files. 12 13 Lint errors found in the listed files. 14 15 16✔ nx run orders:lint (1s) 17✔ nx run angular-store:lint (1s) 18✔ nx run angular-store-e2e:lint (689ms) 19✔ nx run inventory-e2e:lint (690ms) 20✔ nx run inventory:lint (858ms) 21✔ nx run shared-ui:lint (769ms) 22 23——————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————————— 24 25NX Ran target lint for 7 projects (3s) 26 276/7 succeeded [0 read from cache] 28 291/7 targets failed, including the following: 30 - nx run products:lint 31

If you have the ESLint plugin installed in your IDE you should immediately see an error:

ESLint module boundary error

Learn more about how to enforce module boundaries.

Fast CI ⚡

Repository with Nx

Make sure you have completed the previous sections of this tutorial before starting this one. If you want a clean starting point, you can check out the reference code as a starting point.

This tutorial walked you through how Nx can improve the local development experience, but the biggest difference Nx makes is in CI. As repositories get bigger, making sure that the CI is fast, reliable and maintainable can get very challenging. Nx provides a solution.

Connect to Nx Cloud

Nx Cloud is a companion app for your CI system that provides remote caching, task distribution, e2e tests deflaking, better DX and more.

Now that we're working on the CI pipeline, it is important for your changes to be pushed to a GitHub repository.

  1. Commit your existing changes with git add . && git commit -am "updates"
  2. Create a new GitHub repository
  3. Follow GitHub's instructions to push your existing code to the repository

When we set up the repository at the beginning of this tutorial, we chose to use GitHub Actions as a CI provider. This created a basic CI pipeline and configured Nx Cloud in the repository. It also printed a URL in the terminal to register your repository in your Nx Cloud account. If you didn't click on the link when first creating your repository, you can show it again by running:

npx nx connect

Once you click the link, follow the steps provided and make sure Nx Cloud is enabled on the main branch of your repository.

Configure Your CI Workflow

When you chose GitHub Actions as your CI provider at the beginning of the tutorial, create-nx-workspace created a .github/workflows/ci.yml file that contains a CI pipeline that will run the lint, test, build and e2e tasks for projects that are affected by any given PR. Since we are using Nx Cloud, the pipeline will also distribute tasks across multiple machines to ensure fast and reliable CI runs.

If you need to generate a new workflow file for GitHub Actions or other providers, you can do so with this command:

npx nx generate ci-workflow

The key lines in the CI pipeline are:

.github/workflows/ci.yml
1name: CI 2# ... 3jobs: 4 main: 5 runs-on: ubuntu-latest 6 steps: 7 - uses: actions/checkout@v4 8 with: 9 fetch-depth: 0 10 # This enables task distribution via Nx Cloud 11 # Run this command as early as possible, before dependencies are installed 12 # Learn more at https://nx.dev/ci/reference/nx-cloud-cli#npx-nxcloud-startcirun 13 # Connect your workspace by running "nx connect" and uncomment this 14 - run: npx nx-cloud start-ci-run --distribute-on="3 linux-medium-js" --stop-agents-after="build" 15 - uses: actions/setup-node@v3 16 with: 17 node-version: 20 18 cache: 'npm' 19 - run: npm ci --legacy-peer-deps 20 - uses: nrwl/nx-set-shas@v4 21 # Nx Affected runs only tasks affected by the changes in this PR/commit. Learn more: https://nx.dev/ci/features/affected 22 - run: npx nx affected -t lint test build 23

Open a Pull Request

Commit the changes and open a new PR on GitHub.

git add .

git commit -m 'add CI workflow file'

git push origin add-workflow

When you view the PR on GitHub, you will see a comment from Nx Cloud that reports on the status of the CI run.

Nx Cloud report

The See all runs link goes to a page with the progress and results of tasks that were run in the CI pipeline.

Run details

For more information about how Nx can improve your CI pipeline, check out one of these detailed tutorials:

Next Steps

Here's some things you can dive into next:

Also, make sure you