polygerrit-ui/app/models/dependency.ts - gerrit - Git at Google

 /**
  * @license
  * Copyright 2021 Google LLC
  * SPDX-License-Identifier: Apache-2.0
  */
 import {ReactiveController, ReactiveControllerHost} from 'lit';

 /**
  * This module provides the ability to do dependency injection in components.
  * It provides 3 functions that are for the purpose of dependency injection.
  *
  * Definitions
  * ---
  * A component's "connected lifetime" consists of the span between
  * `super.connectedCallback` and `super.disconnectedCallback`.
  *
  * Dependency Definition
  * ---
  *
  * A token for a dependency of type FooService is defined as follows:
  *
  *   const fooToken = define<FooService>('some name');
  *
  * Dependency Resolution
  * ---
  *
  * To get the value of a dependency, a component requests a resolved dependency
  *
  * ```
  *   private readonly serviceRef = resolve(this, fooToken);
  * ```
  *
  * A resolved dependency is a function that when called will return the actual
  * value for that dependency.
  *
  * A resolved dependency is guaranteed to be resolved during a components
  * connected lifetime. If no ancestor provided a value for the dependency, then
  * the resolved dependency will throw an error if the value is accessed.
  * Therefore, the following is safe-by-construction as long as it happens
  * within a components connected lifetime:
  *
  * ```
  *    serviceRef().fooServiceMethod()
  * ```
  *
  * Dependency Injection
  * ---
  *
  * Ancestor components will inject the dependencies that a child component
  * requires by providing providers for those values.
  *
  *
  * To provide a dependency, a component needs to specify the following prior
  * to finishing its connectedCallback:
  *
  * ```
  *   const fooImpl = new FooImpl();
  *   provide(this, fooToken, () => fooImpl);
  * ```
  * Dependencies are injected as factories in case the construction of them
  * depends on other dependencies further up the component chain.  For instance,
  * if the construction of FooImpl needed a BarService, then it could look
  * something like this:
  *
  * ```
  *   const barRef = resolve(this, barToken);
  *   const fooImpl = new FooImpl(barRef());
  *   provide(this, fooToken, () => fooImpl);
  * ```
  *
  * Lifetime guarantees
  * ---
  * A resolved dependency is valid for the duration of its component's connected
  * lifetime.
  *
  * Internally, this is guaranteed by the following:
  *
  *   - Dependency injection relies on using dom-events which work synchronously.
  *   - Dependency injection leverages ReactiveControllers whose lifetime
  *     mirror that of the component
  *   - Parent components' connected lifetime is guaranteed to include the
  *     connected lifetime of child components.
  *   - Dependency provider factories are only called during the lifetime of the
  *     component that provides the value.
  *
  * Best practices
  * ===
  *  - Provide dependencies in or before connectedCallback
  *  - Verify that isConnected is true when accessing a dependency after an
  *    await.
  *
  * Type Safety
  * ---
  *
  * Dependency injection is guaranteed type-safe by construction due to the
  * typing of the token used to tie together dependency providers and dependency
  * consumers.
  *
  * Two tokens can never be equal because of how they are created. And both the
  * consumer and provider logic of dependencies relies on the type of dependency
  * token.
  */

 /**
  * A dependency-token is a unique key. It's typed by the type of the value the
  * dependency needs.
  */
 export type DependencyToken<ValueType> = symbol & {__type__: ValueType};

 /**
  * Defines a unique dependency token for a given type.  The string provided
  * is purely for debugging and does not need to be unique.
  *
  * Example usage:
  *   const token = define<FooService>('foo-service');
  */
 export function define<ValueType>(name: string) {
   return Symbol(name) as unknown as DependencyToken<ValueType>;
 }

 /**
  * A provider for a value.
  */
 export type Provider<T> = () => T;

 // Symbols to cache the providers and resolvers to avoid duplicate registration.
 const PROVIDERS_SYMBOL = Symbol('providers');
 const RESOLVERS_SYMBOL = Symbol('resolvers');

 interface Registrations {
   [PROVIDERS_SYMBOL]?: Map<
     DependencyToken<unknown>,
     DependencyProvider<unknown>
   >;
   [RESOLVERS_SYMBOL]?: Map<DependencyToken<unknown>, Provider<unknown>>;
 }
 /**
  * A producer of a dependency expresses this as a need that results in a promise
  * for the given dependency.
  */
 export function provide<T>(
   host: ReactiveControllerHost & HTMLElement & Registrations,
   dependency: DependencyToken<T>,
   provider: Provider<T>
 ) {
   const hostProviders = (host[PROVIDERS_SYMBOL] ||= new Map<
     DependencyToken<unknown>,
     DependencyProvider<unknown>
   >());
   const oldController = hostProviders.get(dependency);
   if (oldController) {
     host.removeController(oldController);
     oldController.hostDisconnected();
   }
   const controller = new DependencyProvider<T>(host, dependency, provider);
   hostProviders.set(dependency, controller);
   host.addController(controller);
 }

 /**
  * A consumer of a service will resolve a given dependency token. The resolved
  * dependency is returned as a simple function that can be called to access
  * the injected value.
  */
 export function resolve<T>(
   host: ReactiveControllerHost & HTMLElement & Registrations,
   dependency: DependencyToken<T>
 ): Provider<T> {
   const hostResolvers = (host[RESOLVERS_SYMBOL] ||= new Map<
     DependencyToken<unknown>,
     Provider<unknown>
   >());
   let resolver = hostResolvers.get(dependency);
   if (!resolver) {
     const controller = new DependencySubscriber(host, dependency);
     host.addController(controller);
     resolver = () => controller.get();
     hostResolvers.set(dependency, resolver);
   }
   return resolver as Provider<T>;
 }

 /**
  * A callback for a value.
  */
 type Callback<T> = (value: T) => void;

 /**
  * A Dependency Request gets sent by an element to ask for a dependency.
  */
 export interface DependencyRequest<T> {
   readonly dependency: DependencyToken<T>;
   readonly callback: Callback<Provider<T>>;
 }

 declare global {
   interface HTMLElementEventMap {
     /**
      * An 'request-dependency' can be emitted by any element which desires a
      * dependency to be injected by an external provider.
      */
     'request-dependency': DependencyRequestEvent<unknown>;
   }
   interface DocumentEventMap {
     /**
      * An 'request-dependency' can be emitted by any element which desires a
      * dependency to be injected by an external provider.
      */
     'request-dependency': DependencyRequestEvent<unknown>;
   }
 }

 /**
  * Dependency Consumers fire DependencyRequests in the form of
  * DependencyRequestEvent
  */
 export class DependencyRequestEvent<T>
   extends Event
   implements DependencyRequest<T>
 {
   public constructor(
     public readonly dependency: DependencyToken<T>,
     public readonly callback: Callback<Provider<T>>
   ) {
     super('request-dependency', {bubbles: true, composed: true});
   }
 }

 /**
  * A resolved dependency is valid within the connected lifetime of a component,
  * namely between connectedCallback and disconnectedCallback.
  */
 interface ResolvedDependency<T> {
   get(): T;
 }

 export class DependencyError<T> extends Error {
   constructor(public readonly dependency: DependencyToken<T>, message: string) {
     super(message);
   }
 }

 function makeDependencyError<T>(
   host: HTMLElement,
   dependency: DependencyToken<T>
 ): DependencyError<T> {
   const dep = dependency.description;
   const tag = host.tagName;
   const msg = `Could not resolve dependency '${dep}' in '${tag}'`;
   return new DependencyError(dependency, msg);
 }

 class DependencySubscriber<T>
   implements ReactiveController, ResolvedDependency<T>
 {
   private provider?: Provider<T>;

   constructor(
     private readonly host: ReactiveControllerHost & HTMLElement,
     private readonly dependency: DependencyToken<T>
   ) {}

   get() {
     if (!this.provider) {
       throw makeDependencyError(this.host, this.dependency);
     }
     return this.provider();
   }

   hostConnected() {
     this.provider = undefined;
     this.host.dispatchEvent(
       new DependencyRequestEvent(this.dependency, (provider: Provider<T>) => {
         this.provider = provider;
       })
     );
     if (!this.provider) {
       throw makeDependencyError(this.host, this.dependency);
     }
   }
 }

 class DependencyProvider<T> implements ReactiveController {
   constructor(
     private readonly host: ReactiveControllerHost & HTMLElement,
     private readonly dependency: DependencyToken<T>,
     private readonly provider: Provider<T>
   ) {}

   hostConnected() {
     this.host.addEventListener('request-dependency', this.fullfill);
   }

   hostDisconnected() {
     this.host.removeEventListener('request-dependency', this.fullfill);
   }

   private readonly fullfill = (ev: DependencyRequestEvent<unknown>) => {
     if (ev.dependency !== this.dependency) return;
     ev.stopPropagation();
     ev.preventDefault();
     ev.callback(this.provider);
   };
 }
	/**
	* @license
	* Copyright 2021 Google LLC
	* SPDX-License-Identifier: Apache-2.0
	*/
	import {ReactiveController, ReactiveControllerHost} from 'lit';

	/**
	* This module provides the ability to do dependency injection in components.
	* It provides 3 functions that are for the purpose of dependency injection.
	*
	* Definitions
	* ---
	* A component's "connected lifetime" consists of the span between
	* `super.connectedCallback` and `super.disconnectedCallback`.
	*
	* Dependency Definition
	* ---
	*
	* A token for a dependency of type FooService is defined as follows:
	*
	* const fooToken = define<FooService>('some name');
	*
	* Dependency Resolution
	* ---
	*
	* To get the value of a dependency, a component requests a resolved dependency
	*
	* ```
	* private readonly serviceRef = resolve(this, fooToken);
	* ```
	*
	* A resolved dependency is a function that when called will return the actual
	* value for that dependency.
	*
	* A resolved dependency is guaranteed to be resolved during a components
	* connected lifetime. If no ancestor provided a value for the dependency, then
	* the resolved dependency will throw an error if the value is accessed.
	* Therefore, the following is safe-by-construction as long as it happens
	* within a components connected lifetime:
	*
	* ```
	* serviceRef().fooServiceMethod()
	* ```
	*
	* Dependency Injection
	* ---
	*
	* Ancestor components will inject the dependencies that a child component
	* requires by providing providers for those values.
	*
	*
	* To provide a dependency, a component needs to specify the following prior
	* to finishing its connectedCallback:
	*
	* ```
	* const fooImpl = new FooImpl();
	* provide(this, fooToken, () => fooImpl);
	* ```
	* Dependencies are injected as factories in case the construction of them
	* depends on other dependencies further up the component chain. For instance,
	* if the construction of FooImpl needed a BarService, then it could look
	* something like this:
	*
	* ```
	* const barRef = resolve(this, barToken);
	* const fooImpl = new FooImpl(barRef());
	* provide(this, fooToken, () => fooImpl);
	* ```
	*
	* Lifetime guarantees
	* ---
	* A resolved dependency is valid for the duration of its component's connected
	* lifetime.
	*
	* Internally, this is guaranteed by the following:
	*
	* - Dependency injection relies on using dom-events which work synchronously.
	* - Dependency injection leverages ReactiveControllers whose lifetime
	* mirror that of the component
	* - Parent components' connected lifetime is guaranteed to include the
	* connected lifetime of child components.
	* - Dependency provider factories are only called during the lifetime of the
	* component that provides the value.
	*
	* Best practices
	* ===
	* - Provide dependencies in or before connectedCallback
	* - Verify that isConnected is true when accessing a dependency after an
	* await.
	*
	* Type Safety
	* ---
	*
	* Dependency injection is guaranteed type-safe by construction due to the
	* typing of the token used to tie together dependency providers and dependency
	* consumers.
	*
	* Two tokens can never be equal because of how they are created. And both the
	* consumer and provider logic of dependencies relies on the type of dependency
	* token.
	*/

	/**
	* A dependency-token is a unique key. It's typed by the type of the value the
	* dependency needs.
	*/
	export type DependencyToken<ValueType> = symbol & {__type__: ValueType};

	/**
	* Defines a unique dependency token for a given type. The string provided
	* is purely for debugging and does not need to be unique.
	*
	* Example usage:
	* const token = define<FooService>('foo-service');
	*/
	export function define<ValueType>(name: string) {
	return Symbol(name) as unknown as DependencyToken<ValueType>;
	}

	/**
	* A provider for a value.
	*/
	export type Provider<T> = () => T;

	// Symbols to cache the providers and resolvers to avoid duplicate registration.
	const PROVIDERS_SYMBOL = Symbol('providers');
	const RESOLVERS_SYMBOL = Symbol('resolvers');

	interface Registrations {
	[PROVIDERS_SYMBOL]?: Map<
	DependencyToken<unknown>,
	DependencyProvider<unknown>
	>;
	[RESOLVERS_SYMBOL]?: Map<DependencyToken<unknown>, Provider<unknown>>;
	}
	/**
	* A producer of a dependency expresses this as a need that results in a promise
	* for the given dependency.
	*/
	export function provide<T>(
	host: ReactiveControllerHost & HTMLElement & Registrations,
	dependency: DependencyToken<T>,
	provider: Provider<T>
	) {
	const hostProviders = (host[PROVIDERS_SYMBOL] \|\|= new Map<
	DependencyToken<unknown>,
	DependencyProvider<unknown>
	>());
	const oldController = hostProviders.get(dependency);
	if (oldController) {
	host.removeController(oldController);
	oldController.hostDisconnected();
	}
	const controller = new DependencyProvider<T>(host, dependency, provider);
	hostProviders.set(dependency, controller);
	host.addController(controller);
	}

	/**
	* A consumer of a service will resolve a given dependency token. The resolved
	* dependency is returned as a simple function that can be called to access
	* the injected value.
	*/
	export function resolve<T>(
	host: ReactiveControllerHost & HTMLElement & Registrations,
	dependency: DependencyToken<T>
	): Provider<T> {
	const hostResolvers = (host[RESOLVERS_SYMBOL] \|\|= new Map<
	DependencyToken<unknown>,
	Provider<unknown>
	>());
	let resolver = hostResolvers.get(dependency);
	if (!resolver) {
	const controller = new DependencySubscriber(host, dependency);
	host.addController(controller);
	resolver = () => controller.get();
	hostResolvers.set(dependency, resolver);
	}
	return resolver as Provider<T>;
	}

	/**
	* A callback for a value.
	*/
	type Callback<T> = (value: T) => void;

	/**
	* A Dependency Request gets sent by an element to ask for a dependency.
	*/
	export interface DependencyRequest<T> {
	readonly dependency: DependencyToken<T>;
	readonly callback: Callback<Provider<T>>;
	}

	declare global {
	interface HTMLElementEventMap {
	/**
	* An 'request-dependency' can be emitted by any element which desires a
	* dependency to be injected by an external provider.
	*/
	'request-dependency': DependencyRequestEvent<unknown>;
	}
	interface DocumentEventMap {
	/**
	* An 'request-dependency' can be emitted by any element which desires a
	* dependency to be injected by an external provider.
	*/
	'request-dependency': DependencyRequestEvent<unknown>;
	}
	}

	/**
	* Dependency Consumers fire DependencyRequests in the form of
	* DependencyRequestEvent
	*/
	export class DependencyRequestEvent<T>
	extends Event
	implements DependencyRequest<T>
	{
	public constructor(
	public readonly dependency: DependencyToken<T>,
	public readonly callback: Callback<Provider<T>>
	) {
	super('request-dependency', {bubbles: true, composed: true});
	}
	}

	/**
	* A resolved dependency is valid within the connected lifetime of a component,
	* namely between connectedCallback and disconnectedCallback.
	*/
	interface ResolvedDependency<T> {
	get(): T;
	}

	export class DependencyError<T> extends Error {
	constructor(public readonly dependency: DependencyToken<T>, message: string) {
	super(message);
	}
	}

	function makeDependencyError<T>(
	host: HTMLElement,
	dependency: DependencyToken<T>
	): DependencyError<T> {
	const dep = dependency.description;
	const tag = host.tagName;
	const msg = `Could not resolve dependency '${dep}' in '${tag}'`;
	return new DependencyError(dependency, msg);
	}

	class DependencySubscriber<T>
	implements ReactiveController, ResolvedDependency<T>
	{
	private provider?: Provider<T>;

	constructor(
	private readonly host: ReactiveControllerHost & HTMLElement,
	private readonly dependency: DependencyToken<T>
	) {}

	get() {
	if (!this.provider) {
	throw makeDependencyError(this.host, this.dependency);
	}
	return this.provider();
	}

	hostConnected() {
	this.provider = undefined;
	this.host.dispatchEvent(
	new DependencyRequestEvent(this.dependency, (provider: Provider<T>) => {
	this.provider = provider;
	})
	);
	if (!this.provider) {
	throw makeDependencyError(this.host, this.dependency);
	}
	}
	}

	class DependencyProvider<T> implements ReactiveController {
	constructor(
	private readonly host: ReactiveControllerHost & HTMLElement,
	private readonly dependency: DependencyToken<T>,
	private readonly provider: Provider<T>
	) {}

	hostConnected() {
	this.host.addEventListener('request-dependency', this.fullfill);
	}

	hostDisconnected() {
	this.host.removeEventListener('request-dependency', this.fullfill);
	}

	private readonly fullfill = (ev: DependencyRequestEvent<unknown>) => {
	if (ev.dependency !== this.dependency) return;
	ev.stopPropagation();
	ev.preventDefault();
	ev.callback(this.provider);
	};
	}