export type Schema = { $schema?: string; cli?: CliOptions; /** * Path where new projects will be created. */ newProjectRoot?: string; projects?: Projects; schematics?: SchematicOptions; version: number; }; export type CliOptions = { /** * Share pseudonymous usage data with the Angular Team at Google. */ analytics?: Analytics; /** * Control disk cache. */ cache?: Cache; /** * Specify which package manager tool to use. */ packageManager?: PackageManager; /** * The list of schematic collections to use. */ schematicCollections?: string[]; /** * Control CLI specific console warnings */ warnings?: Warnings; }; /** * Share pseudonymous usage data with the Angular Team at Google. */ export type Analytics = boolean | string; /** * Control disk cache. */ export type Cache = { /** * Configure whether disk caching is enabled. */ enabled?: boolean; /** * Configure in which environment disk cache is enabled. */ environment?: Environment; /** * Cache base path. */ path?: string; }; /** * Configure in which environment disk cache is enabled. */ export declare enum Environment { All = "all", Ci = "ci", Local = "local" } /** * Specify which package manager tool to use. * * The package manager used to install dependencies. */ export declare enum PackageManager { Bun = "bun", Npm = "npm", Pnpm = "pnpm", Yarn = "yarn" } /** * Control CLI specific console warnings */ export type Warnings = { /** * Show a warning when the global version is newer than the local one. */ versionMismatch?: boolean; }; export type Projects = {}; export type SchematicOptions = { "@schematics/angular:application"?: AngularApplicationOptionsSchema; "@schematics/angular:class"?: AngularClassOptionsSchema; "@schematics/angular:component"?: AngularComponentOptionsSchema; "@schematics/angular:directive"?: AngularDirectiveOptionsSchema; "@schematics/angular:enum"?: AngularEnumOptionsSchema; "@schematics/angular:guard"?: AngularGuardOptionsSchema; "@schematics/angular:interceptor"?: AngularInterceptorOptionsSchema; "@schematics/angular:interface"?: AngularInterfaceOptionsSchema; "@schematics/angular:library"?: LibraryOptionsSchema; "@schematics/angular:ng-new"?: AngularNgNewOptionsSchema; "@schematics/angular:pipe"?: AngularPipeOptionsSchema; "@schematics/angular:resolver"?: AngularResolverOptionsSchema; "@schematics/angular:service"?: AngularServiceOptionsSchema; "@schematics/angular:web-worker"?: AngularWebWorkerOptionsSchema; [property: string]: any; }; /** * Generates a new Angular application within your workspace. This schematic sets up the * foundational structure of your project, including the root component, module, and * configuration files. You can customize various aspects of the application, such as * routing, styling, and testing. */ export type AngularApplicationOptionsSchema = { /** * The file naming convention to use for generated files. The '2025' style guide (default) * uses a concise format (e.g., `app.ts` for the root component), while the '2016' style * guide includes the type in the file name (e.g., `app.component.ts`). For more * information, see the Angular Style Guide (https://angular.dev/style-guide). */ fileNameStyleGuide?: FileNameStyleGuide; /** * Include the styles for the root component directly within the `app.ts` file. Only CSS * styles can be included inline. By default, a separate stylesheet file (e.g., `app.css`) * is created. */ inlineStyle?: boolean; /** * Include the HTML template for the root component directly within the `app.ts` file. By * default, a separate template file (e.g., `app.html`) is created. */ inlineTemplate?: boolean; /** * Generate a minimal project without any testing frameworks. This is intended for learning * purposes and simple experimentation, not for production applications. */ minimal?: boolean; /** * The name for the new application. This name will be used for the project directory and * various identifiers throughout the application's code. */ name: string; /** * A prefix to be added to the selectors of components generated within this application. * For example, if the prefix is `my-app` and you generate a component named `my-component`, * the selector will be `my-app-my-component`. */ prefix?: string; /** * The directory where the new application's files will be created, relative to the * workspace root. If not specified, the application will be created in a subfolder within * the `projects` directory, using the application's name. */ projectRoot?: string; /** * Generate an application with routing already configured. This sets up the necessary files * and modules for managing navigation between different views in your application. */ routing?: boolean; /** * Skip the automatic installation of packages. You will need to manually install the * dependencies later. */ skipInstall?: boolean; /** * Do not add dependencies to the `package.json` file. */ skipPackageJson?: boolean; /** * Skip the generation of a unit test files `spec.ts`. */ skipTests?: boolean; /** * Configure the application for Server-Side Rendering (SSR) and Static Site Generation * (SSG/Prerendering). */ ssr?: boolean; /** * Create an application that utilizes the standalone API, eliminating the need for * NgModules. This can simplify the structure of your application. */ standalone?: boolean; /** * Enable stricter bundle budget settings for the application. This helps to keep your * application's bundle size small and improve performance. For more information, see * https://angular.dev/tools/cli/template-typecheck#strict-mode */ strict?: boolean; /** * The type of stylesheet files to be created for components in the application. */ style?: SchematicsAngularApplicationStyle; /** * The unit testing runner to use. */ testRunner?: TestRunner; /** * Sets the view encapsulation mode for the application's components. This determines how * component styles are scoped and applied. */ viewEncapsulation?: ViewEncapsulation; /** * Generate an application that does not use `zone.js`. */ zoneless?: boolean; }; /** * The file naming convention to use for generated files. The '2025' style guide (default) * uses a concise format (e.g., `app.ts` for the root component), while the '2016' style * guide includes the type in the file name (e.g., `app.component.ts`). For more * information, see the Angular Style Guide (https://angular.dev/style-guide). */ export declare enum FileNameStyleGuide { The2016 = "2016", The2025 = "2025" } /** * The type of stylesheet files to be created for components in the application. * * The type of stylesheet files to be created for components in the initial project. */ export declare enum SchematicsAngularApplicationStyle { Css = "css", Less = "less", Sass = "sass", Scss = "scss", Tailwind = "tailwind" } /** * The unit testing runner to use. */ export declare enum TestRunner { Karma = "karma", Vitest = "vitest" } /** * Sets the view encapsulation mode for the application's components. This determines how * component styles are scoped and applied. * * Sets the view encapsulation mode for the component. This determines how the component's * styles are scoped and applied. * * Sets the view encapsulation mode for components in the initial project. This determines * how component styles are scoped and applied. Options include: `Emulated` (default, styles * are scoped to the component), `None` (styles are global), and `ShadowDom` (styles are * encapsulated using Shadow DOM). */ export declare enum ViewEncapsulation { Emulated = "Emulated", None = "None", ShadowDom = "ShadowDom" } /** * Creates a new class in your project. Classes are the fundamental building blocks for * object-oriented programming in TypeScript. They provide a blueprint for creating objects * with properties and methods. This schematic helps you generate a new class with the basic * structure and optional test files. */ export type AngularClassOptionsSchema = { /** * The name for the new class. This will be used to create the class file (e.g., * `my-class.ts`) and, if enabled, the corresponding test file `my-class.spec.ts`. */ name: string; /** * The path where the class file should be created, relative to the workspace root. If not * specified, the class will be created in the current directory. */ path?: string; /** * The name of the project where the class should be added. If not specified, the CLI will * determine the project from the current directory. */ project: string; /** * Skip the generation of a unit test file `spec.ts` for the new class. */ skipTests?: boolean; /** * Adds a custom type to the filename, allowing you to create more descriptive class names. * For example, if you set the type to `helper`, the filename will be `my-class.helper.ts`. */ type?: string; }; /** * Creates a new Angular component. Components are the basic building blocks of Angular * applications. Each component consists of a TypeScript class, an HTML template, and an * optional CSS stylesheet. Use this schematic to generate a new component in your project. */ export type AngularComponentOptionsSchema = { /** * When true, the 'type' option will be appended to the generated class name. When false, * only the file name will include the type. */ addTypeToClassName?: boolean; /** * Configures the change detection strategy for the component. */ changeDetection?: ChangeDetection; /** * Adds `:host { display: block; }` to the component's stylesheet, ensuring the component * renders as a block-level element. This is useful for layout purposes. */ displayBlock?: boolean; /** * Automatically export the component from the specified NgModule, making it accessible to * other modules in the application. */ export?: boolean; /** * Use a default export for the component in its TypeScript file instead of a named export. */ exportDefault?: boolean; /** * Create the component files directly in the project's `src/app` directory instead of * creating a new folder for them. */ flat?: boolean; /** * Include the component's styles directly in the `component.ts` file. By default, a * separate stylesheet file (e.g., `my-component.css`) is created. */ inlineStyle?: boolean; /** * Include the component's HTML template directly in the `component.ts` file. By default, a * separate template file (e.g., `my-component.html`) is created. */ inlineTemplate?: boolean; /** * Specify the NgModule where the component should be declared. If not provided, the CLI * will attempt to find the closest NgModule in the component's path. */ module?: string; /** * The name for the new component. This will be used to create the component's class, * template, and stylesheet files. For example, if you provide `my-component`, the files * will be named `my-component.ts`, `my-component.html`, and `my-component.css`. */ name: string; /** * Generate component template files with an '.ng.html' file extension instead of '.html'. */ ngHtml?: boolean; /** * The path where the component files should be created, relative to the current workspace. * If not provided, a folder with the same name as the component will be created in the * project's `src/app` directory. */ path?: string; /** * A prefix to be added to the component's selector. For example, if the prefix is `app` and * the component name is `my-component`, the selector will be `app-my-component`. */ prefix?: string; /** * The name of the project where the component should be added. If not specified, the CLI * will determine the project from the current directory. */ project: string; /** * The HTML selector to use for this component. If not provided, a selector will be * generated based on the component name (e.g., `app-my-component`). */ selector?: string; /** * Do not automatically import the new component into its closest NgModule. */ skipImport?: boolean; /** * Skip the generation of an HTML selector for the component. */ skipSelector?: boolean; /** * Skip the generation of unit test files `spec.ts`. */ skipTests?: boolean; /** * Generate a standalone component. Standalone components are self-contained and don't need * to be declared in an NgModule. They can be used independently or imported directly into * other standalone components. */ standalone?: boolean; /** * Specify the type of stylesheet to be created for the component, or `none` to skip * creating a stylesheet. */ style?: SchematicsAngularComponentStyle; /** * Append a custom type to the component's filename. For example, if you set the type to * `container`, the file will be named `my-component.container.ts`. */ type?: string; /** * Sets the view encapsulation mode for the component. This determines how the component's * styles are scoped and applied. */ viewEncapsulation?: ViewEncapsulation; }; /** * Configures the change detection strategy for the component. */ export declare enum ChangeDetection { Default = "Default", OnPush = "OnPush" } /** * Specify the type of stylesheet to be created for the component, or `none` to skip * creating a stylesheet. */ export declare enum SchematicsAngularComponentStyle { Css = "css", Less = "less", None = "none", Sass = "sass", Scss = "scss" } /** * Creates a new directive in your project. Directives are used to extend the behavior or * appearance of HTML elements and components. They allow you to manipulate the DOM, add * custom attributes, and respond to events. This schematic generates the necessary files * and boilerplate code for a new directive. */ export type AngularDirectiveOptionsSchema = { /** * When true, the 'type' option will be appended to the generated class name. When false, * only the file name will include the type. */ addTypeToClassName?: boolean; /** * Automatically export the directive from the specified NgModule, making it accessible to * other modules in the application. */ export?: boolean; /** * Creates the new directive files at the top level of the current project. If set to false, * a new folder with the directive's name will be created to contain the files. */ flat?: boolean; /** * Specify the NgModule where the directive should be declared. If not provided, the CLI * will attempt to find the closest NgModule in the directive's path. */ module?: string; /** * The name for the new directive. This will be used to create the directive's class and * spec files (e.g., `my-directive.directive.ts` and `my-directive.directive.spec.ts`). */ name: string; /** * The path where the directive files should be created, relative to the workspace root. If * not provided, the directive will be created in the current directory. */ path?: string; /** * A prefix to be added to the directive's selector. For example, if the prefix is `app` and * the directive name is `highlight`, the selector will be `appHighlight`. */ prefix?: string; /** * The name of the project where the directive should be added. If not specified, the CLI * will determine the project from the current directory. */ project: string; /** * The HTML selector to use for this directive. If not provided, a selector will be * generated based on the directive's name (e.g., `appHighlight`). */ selector?: string; /** * Do not automatically import the new directive into its closest NgModule. */ skipImport?: boolean; /** * Skip the generation of a unit test file `spec.ts` for the new directive. */ skipTests?: boolean; /** * Generate a standalone directive. Standalone directives are self-contained and don't need * to be declared in an NgModule. They can be used independently or imported directly into * other standalone components or directives. */ standalone?: boolean; /** * Append a custom type to the directive's filename. For example, if you set the type to * `directive`, the file will be named `example.directive.ts`. */ type?: string; }; /** * Creates a new enum in your project. Enums (enumerations) are a way to define a set of * named constants, making your code more readable and maintainable. This schematic * generates a new enum with the specified name and type. */ export type AngularEnumOptionsSchema = { /** * The name for the new enum. This will be used to create the enum file (e.g., * `my-enum.enum.ts`). */ name: string; /** * The path where the enum file should be created, relative to the current workspace. If not * specified, the enum will be created in the current directory. */ path?: string; /** * The name of the project where the enum should be created. If not specified, the CLI will * determine the project from the current directory. */ project: string; /** * Adds a custom type to the filename, allowing you to create more descriptive enum names. * For example, if you set the type to `status`, the filename will be `my-enum.status.ts`. */ type?: string; }; /** * Creates a new route guard in your project. Route guards are used to control access to * parts of your application by checking certain conditions before a route is activated. * This schematic generates a new guard with the specified name, type, and options. */ export type AngularGuardOptionsSchema = { /** * Creates the new guard files at the top level of the current project. If set to false, a * new folder with the guard's name will be created to contain the files. */ flat?: boolean; /** * Generate the guard as a function instead of a class. Functional guards can be simpler for * basic scenarios. */ functional?: boolean; /** * Specifies the type(s) of guard to create. You can choose one or more of the following: * `CanActivate` (controls access to a route), `CanActivateChild` (controls access to child * routes), `CanDeactivate` (asks for confirmation before leaving a route), `CanMatch` * (determines if a route can be matched). */ implements?: Implement[]; /** * The name for the new route guard. This will be used to create the guard's class and spec * files (e.g., `my-guard.guard.ts` and `my-guard.guard.spec.ts`). */ name: string; /** * The path where the guard files should be created, relative to the current workspace. If * not provided, the guard will be created in the current directory. */ path?: string; /** * The name of the project where the guard should be created. If not specified, the CLI will * determine the project from the current directory. */ project: string; /** * Skip the generation of a unit test file `spec.ts` for the new guard. */ skipTests?: boolean; /** * The separator character to use before the type within the generated file's name. For * example, if you set the option to `.`, the file will be named `example.guard.ts`. */ typeSeparator?: TypeSeparator; }; export declare enum Implement { CanActivate = "CanActivate", CanActivateChild = "CanActivateChild", CanDeactivate = "CanDeactivate", CanMatch = "CanMatch" } /** * The separator character to use before the type within the generated file's name. For * example, if you set the option to `.`, the file will be named `example.guard.ts`. * * The separator character to use before the type within the generated file's name. For * example, if you set the option to `.`, the file will be named `example.interceptor.ts`. * * The separator character to use before the type within the generated file's name. For * example, if you set the option to `.`, the file will be named `example.pipe.ts`. * * The separator character to use before the type within the generated file's name. For * example, if you set the option to `.`, the file will be named `example.resolver.ts`. */ export declare enum TypeSeparator { Empty = "-", TypeSeparator = "." } /** * Creates a new interceptor in your project. Interceptors are used to intercept and modify * HTTP requests and responses before they reach their destination. This allows you to * perform tasks like adding authentication headers, handling errors, or logging requests. * This schematic generates the necessary files and boilerplate code for a new interceptor. */ export type AngularInterceptorOptionsSchema = { /** * Creates the new interceptor files at the top level of the current project. If set to * false, a new folder with the interceptor's name will be created to contain the files. */ flat?: boolean; /** * Creates the interceptor as a function `HttpInterceptorFn` instead of a class. Functional * interceptors can be simpler for basic scenarios. */ functional?: boolean; /** * The name for the new interceptor. This will be used to create the interceptor's class and * spec files (e.g., `my-interceptor.interceptor.ts` and * `my-interceptor.interceptor.spec.ts`). */ name: string; /** * The path where the interceptor files should be created, relative to the workspace root. * If not provided, the interceptor will be created in the current directory. */ path?: string; /** * The name of the project where the interceptor should be created. If not specified, the * CLI will determine the project from the current directory. */ project: string; /** * Skip the generation of a unit test file `spec.ts` for the new interceptor. */ skipTests?: boolean; /** * The separator character to use before the type within the generated file's name. For * example, if you set the option to `.`, the file will be named `example.interceptor.ts`. */ typeSeparator?: TypeSeparator; }; /** * Creates a new interface in your project. Interfaces define the structure of objects in * TypeScript, ensuring type safety and code clarity. This schematic generates a new * interface with the specified name and type. */ export type AngularInterfaceOptionsSchema = { /** * The name for the new interface. This will be used to create the interface file (e.g., * `my-interface.interface.ts`). */ name: string; /** * The path where the interface file should be created, relative to the workspace root. If * not provided, the interface will be created in the current directory. */ path?: string; /** * A prefix to be added to the interface name. This is typically not used for interfaces, as * they don't have selectors like components or directives. */ prefix?: string; /** * The name of the project where the interface should be created. If not specified, the CLI * will determine the project from the current directory. */ project: string; /** * Adds a custom type to the filename, allowing you to create more descriptive interface * names. For example, if you set the type to `data`, the filename will be * `my-interface.data.ts`. */ type?: string; }; /** * Creates a new library project in your Angular workspace. Libraries are reusable * collections of components, services, and other Angular artifacts that can be shared * across multiple applications. This schematic simplifies the process of generating a new * library with the necessary files and configurations. */ export type LibraryOptionsSchema = { /** * The path to the library's public API file, relative to the workspace root. This file * defines what parts of the library are accessible to applications that import it. */ entryFile?: string; /** * The name for the new library. This name will be used for the project directory and * various identifiers within the library's code. */ name: string; /** * A prefix to be added to the selectors of components generated within this library. For * example, if the prefix is `my-lib` and you generate a component named `my-component`, the * selector will be `my-lib-my-component`. */ prefix?: string; /** * The root directory for the new library, relative to the workspace root. If not specified, * the library will be created in a subfolder within the `projects` directory, using the * library's name. */ projectRoot?: string; /** * Skip the automatic installation of packages. You will need to manually install the * dependencies later. */ skipInstall?: boolean; /** * Do not automatically add dependencies to the `package.json` file. */ skipPackageJson?: boolean; /** * Do not update the workspace `tsconfig.json` file to add a path mapping for the new * library. The path mapping is needed to use the library in an application, but can be * disabled here to simplify development. */ skipTsConfig?: boolean; /** * Create a library that utilizes the standalone API, eliminating the need for NgModules. * This can simplify the structure of your library and its usage in applications. */ standalone?: boolean; /** * The unit testing runner to use. */ testRunner?: TestRunner; }; /** * Creates a new Angular workspace and an initial project. This schematic sets up the * foundation for your Angular development, generating the workspace configuration files and * an optional starter application. You can customize various aspects of the workspace and * the initial project, such as routing, styling, and testing. */ export type AngularNgNewOptionsSchema = { /** * Specifies which AI tools to generate configuration files for. These file are used to * improve the outputs of AI tools by following the best practices. */ aiConfig?: AiConfig[]; /** * Configure the initial Git commit for the new repository. */ commit?: CommitUnion; /** * Create a new initial application project in the new workspace. When false, creates an * empty workspace with no initial application. You can then use the `ng generate * application` command to create applications in the `projects` directory. */ createApplication?: boolean; /** * The directory where the new workspace and project should be created. If not specified, * the workspace will be created in the current directory. */ directory?: string; /** * The file naming convention to use for generated files. The '2025' style guide (default) * uses a concise format (e.g., `app.ts` for the root component), while the '2016' style * guide includes the type in the file name (e.g., `app.component.ts`). For more * information, see the Angular Style Guide (https://angular.dev/style-guide). */ fileNameStyleGuide?: FileNameStyleGuide; /** * Include the styles for the initial application's root component directly within the * `app.ts` file. By default, a separate stylesheet file (e.g., `app.css`) is created. */ inlineStyle?: boolean; /** * Include the HTML template for the initial application's root component directly within * the `app.ts` file. By default, a separate template file (e.g., `app.html`) is created. */ inlineTemplate?: boolean; /** * Generate a minimal Angular workspace without any testing frameworks. This is intended for * learning purposes and simple experimentation, not for production applications. */ minimal?: boolean; /** * The name for the new workspace and the initial project. This name will be used for the * root directory and various identifiers throughout the project. */ name: string; /** * The path where new projects will be created within the workspace, relative to the * workspace root. By default, new projects are created in the `projects` directory. */ newProjectRoot?: string; /** * The package manager used to install dependencies. */ packageManager?: PackageManager; /** * The prefix to apply to generated selectors for the initial project. For example, if the * prefix is `my-app` and you generate a component named `my-component`, the selector will * be `my-app-my-component`. */ prefix?: string; /** * Enable routing in the initial application project. This sets up the necessary files and * modules for managing navigation between different views in your application. */ routing?: boolean; /** * Do not initialize a Git repository in the new workspace. By default, a Git repository is * initialized to help you track changes to your project. */ skipGit?: boolean; /** * Skip the automatic installation of packages. You will need to manually install the * dependencies later. */ skipInstall?: boolean; /** * Skip the generation of unit test files `spec.ts`. */ skipTests?: boolean; /** * Configure the initial application for Server-Side Rendering (SSR) and Static Site * Generation (SSG/Prerendering). */ ssr?: boolean; /** * Creates an application based upon the standalone API, without NgModules. */ standalone?: boolean; /** * Enable stricter type checking and stricter bundle budgets settings. This setting helps * improve maintainability and catch bugs ahead of time. For more information, see * https://angular.dev/tools/cli/template-typecheck#strict-mode */ strict?: boolean; /** * The type of stylesheet files to be created for components in the initial project. */ style?: SchematicsAngularApplicationStyle; /** * The unit testing runner to use. */ testRunner?: TestRunner; /** * The version of the Angular CLI to use. */ version: string; /** * Sets the view encapsulation mode for components in the initial project. This determines * how component styles are scoped and applied. Options include: `Emulated` (default, styles * are scoped to the component), `None` (styles are global), and `ShadowDom` (styles are * encapsulated using Shadow DOM). */ viewEncapsulation?: ViewEncapsulation; /** * Create an initial application that does not utilize `zone.js`. */ zoneless?: boolean; }; export declare enum AiConfig { Agents = "agents", Claude = "claude", Copilot = "copilot", Cursor = "cursor", Gemini = "gemini", Jetbrains = "jetbrains", None = "none", Windsurf = "windsurf" } /** * Configure the initial Git commit for the new repository. */ export type CommitUnion = boolean | CommitObject; export type CommitObject = { email: string; message?: string; name: string; [property: string]: any; }; /** * Creates a new pipe in your project. Pipes are used to transform data for display in * templates. They take input values and apply a specific transformation, such as formatting * dates, currency, or filtering arrays. This schematic generates the necessary files and * boilerplate code for a new pipe. */ export type AngularPipeOptionsSchema = { /** * Automatically export the pipe from the specified NgModule, making it accessible to other * modules in the application. */ export?: boolean; /** * Creates the new pipe files at the top level of the current project. If set to false, a * new folder with the pipe's name will be created to contain the files. */ flat?: boolean; /** * Specify the NgModule where the pipe should be declared. If not provided, the CLI will * attempt to find the closest NgModule in the pipe's path. */ module?: string; /** * The name for the new pipe. This will be used to create the pipe's class and spec files * (e.g., `my-pipe.pipe.ts` and `my-pipe.pipe.spec.ts`). */ name: string; /** * The path where the pipe files should be created, relative to the workspace root. If not * provided, the pipe will be created in the current directory. */ path?: string; /** * The name of the project where the pipe should be created. If not specified, the CLI will * determine the project from the current directory. */ project: string; /** * Do not automatically import the new pipe into its closest NgModule. */ skipImport?: boolean; /** * Prevent the generation of a unit test file `spec.ts` for the new pipe. */ skipTests?: boolean; /** * Generate a standalone pipe. Standalone pipes are self-contained and don't need to be * declared in an NgModule. They can be used independently or imported directly into other * standalone components, directives, or pipes. */ standalone?: boolean; /** * The separator character to use before the type within the generated file's name. For * example, if you set the option to `.`, the file will be named `example.pipe.ts`. */ typeSeparator?: TypeSeparator; }; /** * Creates a new resolver in your project. Resolvers are used to pre-fetch data before a * route is activated, ensuring that the necessary data is available before the component is * displayed. This can improve the user experience by preventing delays and loading states. * This schematic generates a new resolver with the specified name and options. */ export type AngularResolverOptionsSchema = { /** * Creates the new resolver files at the top level of the current project. If set to false, * a new folder with the resolver's name will be created to contain the files. */ flat?: boolean; /** * Creates the resolver as a function `ResolveFn` instead of a class. Functional resolvers * can be simpler for basic scenarios. */ functional?: boolean; /** * The name for the new resolver. This will be used to create the resolver's class and spec * files (e.g., `my-resolver.resolver.ts` and `my-resolver.resolver.spec.ts`). */ name: string; /** * The path where the resolver files should be created, relative to the current workspace. * If not provided, the resolver will be created in the current directory. */ path?: string; /** * The name of the project where the resolver should be created. If not specified, the CLI * will determine the project from the current directory. */ project: string; /** * Skip the generation of a unit test file `spec.ts` for the new resolver. */ skipTests?: boolean; /** * The separator character to use before the type within the generated file's name. For * example, if you set the option to `.`, the file will be named `example.resolver.ts`. */ typeSeparator?: TypeSeparator; }; /** * Creates a new service in your project. Services are used to encapsulate reusable logic, * such as data access, API calls, or utility functions. This schematic simplifies the * process of generating a new service with the necessary files and boilerplate code. */ export type AngularServiceOptionsSchema = { /** * When true, the 'type' option will be appended to the generated class name. When false, * only the file name will include the type. */ addTypeToClassName?: boolean; /** * Creates files at the top level of the project or the given path. If set to false, a new * folder with the service's name will be created to contain the files. */ flat?: boolean; /** * The name for the new service. This will be used to create the service's class and spec * files (e.g., `my-service.service.ts` and `my-service.service.spec.ts`). */ name: string; /** * The path where the service files should be created, relative to the workspace root. If * not provided, the service will be created in the project's `src/app` directory. */ path?: string; /** * The name of the project where the service should be added. If not specified, the CLI will * determine the project from the current directory. */ project: string; /** * Skip the generation of a unit test file `spec.ts` for the service. */ skipTests?: boolean; /** * Append a custom type to the service's filename. For example, if you set the type to * `service`, the file will be named `my-service.service.ts`. */ type?: string; }; /** * Creates a new web worker in your project. Web workers allow you to run JavaScript code in * the background, improving the performance and responsiveness of your application by * offloading computationally intensive tasks. This schematic generates the necessary files * for a new web worker and provides an optional code snippet to demonstrate its usage. */ export type AngularWebWorkerOptionsSchema = { /** * The name for the new web worker. This will be used to create the worker file (e.g., * `my-worker.worker.ts`). */ name: string; /** * The path where the web worker file should be created, relative to the current workspace. * If not specified, the worker will be created in the current directory. */ path?: string; /** * The name of the project where the web worker should be created. If not specified, the CLI * will determine the project from the current directory. */ project: string; /** * Generate a code snippet that demonstrates how to create and use the new web worker. */ snippet?: boolean; };