/** * @license * Copyright Google LLC All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ import { analytics, experimental, json, logging } from '@angular-devkit/core'; import { Observable, SubscribableOrPromise } from 'rxjs'; import { Schema as RealBuilderInput, Target as RealTarget } from './input-schema'; import { Schema as RealBuilderOutput } from './output-schema'; import { State as BuilderProgressState, Schema as RealBuilderProgress } from './progress-schema'; export declare type Target = json.JsonObject & RealTarget; export { BuilderProgressState }; export declare type BuilderRegistry = experimental.jobs.Registry; /** * An API typed BuilderProgress. The interface generated from the schema is too permissive, * so this API is the one we show in our API. Please note that not all fields are in there; this * is in addition to fields in the schema. */ export declare type TypedBuilderProgress = { state: BuilderProgressState.Stopped; } | { state: BuilderProgressState.Error; error: json.JsonValue; } | { state: BuilderProgressState.Waiting; status?: string; } | { state: BuilderProgressState.Running; status?: string; current: number; total?: number; }; /** * Declaration of those types as JsonObject compatible. JsonObject is not compatible with * optional members, so those wouldn't be directly assignable to our internal Json typings. * Forcing the type to be both a JsonObject and the type from the Schema tells Typescript they * are compatible (which they are). * These types should be used everywhere. */ export declare type BuilderInput = json.JsonObject & RealBuilderInput; export declare type BuilderOutput = json.JsonObject & RealBuilderOutput; export declare type BuilderProgress = json.JsonObject & RealBuilderProgress & TypedBuilderProgress; /** * A progress report is what the tooling will receive. It contains the builder info and the target. * Although these are serializable, they are only exposed through the tooling interface, not the * builder interface. The watch dog sends BuilderProgress and the Builder has a set of functions * to manage the state. */ export declare type BuilderProgressReport = BuilderProgress & { target?: Target; builder: BuilderInfo; }; /** * A Run, which is what is returned by scheduleBuilder or scheduleTarget functions. This should * be reconstructed across memory boundaries (it's not serializable but all internal information * are). */ export interface BuilderRun { /** * Unique amongst runs. This is the same ID as the context generated for the run. It can be * used to identify multiple unique runs. There is no guarantee that a run is a single output; * a builder can rebuild on its own and will generate multiple outputs. */ id: number; /** * The builder information. */ info: BuilderInfo; /** * The next output from a builder. This is recommended when scheduling a builder and only being * interested in the result of that single run, not of a watch-mode builder. */ result: Promise; /** * The output(s) from the builder. A builder can have multiple outputs. * This always replay the last output when subscribed. */ output: Observable; /** * The progress report. A progress also contains an ID, which can be different than this run's * ID (if the builder calls scheduleBuilder or scheduleTarget). * This will always replay the last progress on new subscriptions. */ progress: Observable; /** * Stop the builder from running. Returns a promise that resolves when the builder is stopped. * Some builders might not handle stopping properly and should have a timeout here. */ stop(): Promise; } /** * Additional optional scheduling options. */ export interface ScheduleOptions { /** * Logger to pass to the builder. Note that messages will stop being forwarded, and if you want * to log a builder scheduled from your builder you should forward log events yourself. */ logger?: logging.Logger; /** * Target to pass to the builder. */ target?: Target; } /** * The context received as a second argument in your builder. */ export interface BuilderContext { /** * Unique amongst contexts. Contexts instances are not guaranteed to be the same (but it could * be the same context), and all the fields in a context could be the same, yet the builder's * context could be different. This is the same ID as the corresponding run. */ id: number; /** * The builder info that called your function. Since the builder info is from the builder.json * (or the host), it could contain information that is different than expected. */ builder: BuilderInfo; /** * A logger that appends messages to a log. This could be a separate interface or completely * ignored. `console.log` could also be completely ignored. */ logger: logging.LoggerApi; /** * The absolute workspace root of this run. This is a system path and will not be normalized; * ie. on Windows it will starts with `C:\\` (or whatever drive). */ workspaceRoot: string; /** * The current directory the user is in. This could be outside the workspace root. This is a * system path and will not be normalized; ie. on Windows it will starts with `C:\\` (or * whatever drive). */ currentDirectory: string; /** * The target that was used to run this builder. * Target is optional if a builder was ran using `scheduleBuilder()`. */ target?: Target; /** * Schedule a target in the same workspace. This can be the same target that is being executed * right now, but targets of the same name are serialized. * Running the same target and waiting for it to end will result in a deadlocking scenario. * Targets are considered the same if the project, the target AND the configuration are the same. * @param target The target to schedule. * @param overrides A set of options to override the workspace set of options. * @param scheduleOptions Additional optional scheduling options. * @return A promise of a run. It will resolve when all the members of the run are available. */ scheduleTarget(target: Target, overrides?: json.JsonObject, scheduleOptions?: ScheduleOptions): Promise; /** * Schedule a builder by its name. This can be the same builder that is being executed. * @param builderName The name of the builder, ie. its `packageName:builderName` tuple. * @param options All options to use for the builder (by default empty object). There is no * additional options added, e.g. from the workspace. * @param scheduleOptions Additional optional scheduling options. * @return A promise of a run. It will resolve when all the members of the run are available. */ scheduleBuilder(builderName: string, options?: json.JsonObject, scheduleOptions?: ScheduleOptions): Promise; /** * Resolve and return options for a specified target. If the target isn't defined in the * workspace this will reject the promise. This object will be read directly from the workspace * but not validated against the builder of the target. * @param target The target to resolve the options of. * @return A non-validated object resolved from the workspace. */ getTargetOptions(target: Target): Promise; getProjectMetadata(projectName: string): Promise; getProjectMetadata(target: Target): Promise; /** * Resolves and return a builder name. The exact format of the name is up to the host, * so it should not be parsed to gather information (it's free form). This string can be * used to validate options or schedule a builder directly. * @param target The target to resolve the builder name. */ getBuilderNameForTarget(target: Target): Promise; /** * Validates the options against a builder schema. This uses the same methods as the * scheduleTarget and scheduleBrowser methods to validate and apply defaults to the options. * It can be generically typed, if you know which interface it is supposed to validate against. * @param options A generic option object to validate. * @param builderName The name of a builder to use. This can be gotten for a target by using the * getBuilderForTarget() method on the context. */ validateOptions(options: json.JsonObject, builderName: string): Promise; /** * Set the builder to running. This should be used if an external event triggered a re-run, * e.g. a file watched was changed. */ reportRunning(): void; /** * Update the status string shown on the interface. * @param status The status to set it to. An empty string can be used to remove the status. */ reportStatus(status: string): void; /** * Update the progress for this builder run. * @param current The current progress. This will be between 0 and total. * @param total A new total to set. By default at the start of a run this is 1. If omitted it * will use the same value as the last total. * @param status Update the status string. If omitted the status string is not modified. */ reportProgress(current: number, total?: number, status?: string): void; /** * API to report analytics. This might be undefined if the feature is unsupported. This might * not be undefined, but the backend could also not report anything. */ readonly analytics: analytics.Analytics; /** * Add teardown logic to this Context, so that when it's being stopped it will execute teardown. */ addTeardown(teardown: () => Promise | void): void; } /** * An accepted return value from a builder. Can be either an Observable, a Promise or a vector. */ export declare type BuilderOutputLike = AsyncIterable | SubscribableOrPromise | BuilderOutput; export declare function isBuilderOutput(obj: any): obj is BuilderOutput; export declare function fromAsyncIterable(iterable: AsyncIterable): Observable; /** * A builder handler function. The function signature passed to `createBuilder()`. */ export interface BuilderHandlerFn { /** * Builders are defined by users to perform any kind of task, like building, testing or linting, * and should use this interface. * @param input The options (a JsonObject), validated by the schema and received by the * builder. This can include resolved options from the CLI or the workspace. * @param context A context that can be used to interact with the Architect framework. * @return One or many builder output. */ (input: A, context: BuilderContext): BuilderOutputLike; } /** * A Builder general information. This is generated by the host and is expanded by the host, but * the public API contains those fields. */ export declare type BuilderInfo = json.JsonObject & { builderName: string; description: string; optionSchema: json.schema.JsonSchema; }; /** * Returns a string of "project:target[:configuration]" for the target object. */ export declare function targetStringFromTarget({ project, target, configuration }: Target): string; /** * Return a Target tuple from a string. */ export declare function targetFromTargetString(str: string): Target; /** * Schedule a target, and forget about its run. This will return an observable of outputs, that * as a a teardown will stop the target from running. This means that the Run object this returns * should not be shared. * * The reason this is not part of the Context interface is to keep the Context as normal form as * possible. This is really an utility that people would implement in their project. * * @param context The context of your current execution. * @param target The target to schedule. * @param overrides Overrides that are used in the target. * @param scheduleOptions Additional scheduling options. */ export declare function scheduleTargetAndForget(context: BuilderContext, target: Target, overrides?: json.JsonObject, scheduleOptions?: ScheduleOptions): Observable;