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Schematics for libraries
When you create an Angular library, you can provide and package it with schematics that integrate it with the Angular CLI.
With your schematics, your users can use ng add
to install an initial version of your library,
ng generate
to create artifacts defined in your library, and ng update
to adjust their project for a new version of your library that introduces breaking changes.
All three types of schematics can be part of a collection that you package with your library.
Download the library schematics project for a completed example of the steps below.
Creating a schematics collection
To start a collection, you need to create the schematic files. The following steps show you how to add initial support without modifying any project files.
-
In your library's root folder, create a
schematics/
folder. -
In the
schematics/
folder, create anng-add/
folder for your first schematic. -
At the root level of the
schematics/
folder, create acollection.json
file. -
Edit the
collection.json
file to define the initial schema for your collection.
- The
$schema
path is relative to the Angular Devkit collection schema. - The
schematics
object describes the named schematics that are part of this collection. - The first entry is for a schematic named
ng-add
. It contains the description, and points to the factory function that is called when your schematic is executed.
- In your library project's
package.json
file, add a "schematics" entry with the path to your schema file. The Angular CLI uses this entry to find named schematics in your collection when it runs commands.
The initial schema that you have created tells the CLI where to find the schematic that supports the ng add
command.
Now you are ready to create that schematic.
Providing installation support
A schematic for the ng add
command can enhance the initial installation process for your users.
The following steps will define this type of schematic.
-
Go to the /schematics/ng-add/ folder.
-
Create the main file,
index.ts
. -
Open
index.ts
and add the source code for your schematic factory function.
The only step needed to provide initial ng add
support is to trigger an installation task using the SchematicContext
.
The task uses the user's preferred package manager to add the library to the project's package.json
configuration file, and install it in the project’s node_modules
directory.
In this example, the function receives the current Tree
and returns it without any modifications.
If you need to, you can do additional setup when your package is installed, such as generating files, updating configuration, or any other initial setup your library requires.
Define dependency type
Use the save
option of ng-add
to configure if the library should be added to the dependencies
, the devDepedencies
, or not saved at all in the project's package.json
configuration file.
Possible values are:
false
- Don't add the package to package.jsontrue
- Add the package to the dependencies"dependencies"
- Add the package to the dependencies"devDependencies"
- Add the package to the devDependencies
Building your schematics
To bundle your schematics together with your library, you must configure the library to build the schematics separately, then add them to the bundle. You must build your schematics after you build your library, so they are placed in the correct directory.
-
Your library needs a custom Typescript configuration file with instructions on how to compile your schematics into your distributed library.
-
To add the schematics to the library bundle, add scripts to the library's
package.json
file.
Assume you have a library project my-lib
in your Angular workspace.
To tell the library how to build the schematics, add a tsconfig.schematics.json
file next to the generated tsconfig.lib.json
file that configures the library build.
- Edit the
tsconfig.schematics.json
file to add the following content.
-
The
rootDir
specifies that yourschematics/
folder contains the input files to be compiled. -
The
outDir
maps to the library's output folder. By default, this is thedist/my-lib
folder at the root of your workspace.
- To make sure your schematics source files get compiled into the library bundle, add the following scripts to the
package.json
file in your library project's root folder (projects/my-lib
).
- The
build
script compiles your schematic using the customtsconfig.schematics.json
file. - The
copy:*
statements copy compiled schematic files into the proper locations in the library output folder in order to preserve the file structure. - The
postbuild
script copies the schematic files after thebuild
script completes.
Providing generation support
You can add a named schematic to your collection that lets your users use the ng generate
command to create an artifact that is defined in your library.
We'll assume that your library defines a service, my-service
, that requires some setup. You want your users to be able to generate it using the following CLI command.
To begin, create a new subfolder, my-service
, in the schematics
folder.
Configure the new schematic
When you add a schematic to the collection, you have to point to it in the collection's schema, and provide configuration files to define options that a user can pass to the command.
- Edit the
schematics/collection.json
file to point to the new schematic subfolder, and include a pointer to a schema file that will specify inputs for the new schematic.
-
Go to the
<lib-root>/schematics/my-service/
folder. -
Create a
schema.json
file and define the available options for the schematic.
- id: A unique id for the schema in the collection.
- title: A human-readable description of the schema.
- type: A descriptor for the type provided by the properties.
- properties: An object that defines the available options for the schematic.
Each option associates key with a type, description, and optional alias. The type defines the shape of the value you expect, and the description is displayed when the user requests usage help for your schematic.
See the workspace schema for additional customizations for schematic options.
- Create a
schema.ts
file and define an interface that stores the values of the options defined in theschema.json
file.
- name: The name you want to provide for the created service.
- path: Overrides the path provided to the schematic. The default path value is based on the current working directory.
- project: Provides a specific project to run the schematic on. In the schematic, you can provide a default if the option is not provided by the user.
Add template files
To add artifacts to a project, your schematic needs its own template files. Schematic templates support special syntax to execute code and variable substitution.
-
Create a
files/
folder inside theschematics/my-service/
folder. -
Create a file named
__name@dasherize__.service.ts.template
that defines a template you can use for generating files. This template will generate a service that already has Angular'sHttpClient
injected into its constructor.
import { Injectable } from '@angular/core'; import { HttpClient } from '@angular/common/http';
@Injectable({ providedIn: 'root' }) export class <%= classify(name) %>Service { constructor(private http: HttpClient) { } }
-
The
classify
anddasherize
methods are utility functions that your schematic will use to transform your source template and filename. -
The
name
is provided as a property from your factory function. It is the samename
you defined in the schema.
Add the factory function
Now that you have the infrastructure in place, you can define the main function that performs the modifications you need in the user's project.
The Schematics framework provides a file templating system, which supports both path and content templates.
The system operates on placeholders defined inside files or paths that loaded in the input Tree
.
It fills these in using values passed into the Rule
.
For details of these data structures and syntax, see the Schematics README.
-
Create the main file
index.ts
and add the source code for your schematic factory function. -
First, import the schematics definitions you will need. The Schematics framework offers many utility functions to create and use rules when running a schematic.
- Import the defined schema interface that provides the type information for your schematic's options.
- To build up the generation schematic, start with an empty rule factory.
This rule factory returns the tree without modification.
The options are the option values passed through from the ng generate
command.
Define a generation rule
We now have the framework in place for creating the code that actually modifies the user's application to set it up for the service defined in your library.
The Angular workspace where the user has installed your library contains multiple projects (applications and libraries). The user can specify the project on the command line, or allow it to default. In either case, your code needs to identify the specific project to which this schematic is being applied, so that you can retrieve information from the project configuration.
You can do this using the Tree
object that is passed in to the factory function.
The Tree
methods give you access to the complete file tree in your workspace, allowing you to read and write files during the execution of the schematic.
Get the project configuration
- To determine the destination project, use the
workspaces.readWorkspace
method to read the contents of the workspace configuration file,angular.json
. To useworkspaces.readWorkspace
you need to create aworkspaces.WorkspaceHost
from theTree
. Add the following code to your factory function.
- Be sure to check that the context exists and throw the appropriate error.
- The
WorkspaceDefinition
,extensions
property includes adefaultProject
value for determining which project to use if not provided. We will use that value as a fallback, if no project is explicitly specified in theng generate
command.
- Now that you have the project name, use it to retrieve the project-specific configuration information.
The workspace projects
object contains all the project-specific configuration information.
-
The
options.path
determines where the schematic template files are moved to once the schematic is applied.The
path
option in the schematic's schema is substituted by default with the current working directory. If thepath
is not defined, use thesourceRoot
from the project configuration along with theprojectType
.
Define the rule
A Rule
can use external template files, transform them, and return another Rule
object with the transformed template. You can use the templating to generate any custom files required for your schematic.
- Add the following code to your factory function.
- The
apply()
method applies multiple rules to a source and returns the transformed source. It takes 2 arguments, a source and an array of rules. - The
url()
method reads source files from your filesystem, relative to the schematic. - The
applyTemplates()
method receives an argument of methods and properties you want make available to the schematic template and the schematic filenames. It returns aRule
. This is where you define theclassify()
anddasherize()
methods, and thename
property. - The
classify()
method takes a value and returns the value in title case. For example, if the provided name ismy service
, it is returned asMyService
- The
dasherize()
method takes a value and returns the value in dashed and lowercase. For example, if the provided name is MyService, it is returned asmy-service
. - The
move
method moves the provided source files to their destination when the schematic is applied.
- Finally, the rule factory must return a rule.
The chain()
method allows you to combine multiple rules into a single rule, so that you can perform multiple operations in a single schematic.
Here you are only merging the template rules with any code executed by the schematic.
See a complete exampled of the schematic rule function.
For more information about rules and utility methods, see Provided Rules.
Running your library schematic
After you build your library and schematics, you can install the schematics collection to run against your project. The steps below show you how to generate a service using the schematic you created above.
Build your library and schematics
From the root of your workspace, run the ng build
command for your library.
ng build my-lib
Then, you change into your library directory to build the schematic
cd projects/my-lib npm run build
Link the library
Your library and schematics are packaged and placed in the dist/my-lib
folder at the root of your workspace. For running the schematic, you need to link the library into your node_modules
folder. From the root of your workspace, run the npm link
command with the path to your distributable library.
npm link dist/my-lib
Run the schematic
Now that your library is installed, you can run the schematic using the ng generate
command.
ng generate my-lib:my-service --name my-data
In the console, you will see that the schematic was run and the my-data.service.ts
file was created in your application folder.
CREATE src/app/my-data.service.ts (208 bytes)