/**
 * @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.dev/license
 */
import { Type } from '../../interface/type';
import { ClassProvider, ConstructorProvider, EnvironmentProviders, ExistingProvider, FactoryProvider, StaticClassProvider, ValueProvider } from './provider';
/**
 * Information about how a type or `InjectionToken` interfaces with the DI system.
 *
 * At a minimum, this includes a `factory` which defines how to create the given type `T`, possibly
 * requesting injection of other types if necessary.
 *
 * Optionally, a `providedIn` parameter specifies that the given type belongs to a particular
 * `Injector`, `NgModule`, or a special scope (e.g. `'root'`). A value of `null` indicates
 * that the injectable does not belong to any scope.
 *
 * @codeGenApi
 * @publicApi The ViewEngine compiler emits code with this type for injectables. This code is
 *   deployed to npm, and should be treated as public api.

 */
export interface ɵɵInjectableDeclaration<T> {
    /**
     * Specifies that the given type belongs to a particular injector:
     * - `InjectorType` such as `NgModule`,
     * - `'root'` the root injector
     * - `'any'` all injectors.
     * - `null`, does not belong to any injector. Must be explicitly listed in the injector
     *   `providers`.
     */
    providedIn: InjectorType<any> | 'root' | 'platform' | 'any' | 'environment' | null;
    /**
     * The token to which this definition belongs.
     *
     * Note that this may not be the same as the type that the `factory` will create.
     */
    token: unknown;
    /**
     * Factory method to execute to create an instance of the injectable.
     */
    factory: (t?: Type<any>) => T;
    /**
     * In a case of no explicit injector, a location where the instance of the injectable is stored.
     */
    value: T | undefined;
}
/**
 * Information about the providers to be included in an `Injector` as well as how the given type
 * which carries the information should be created by the DI system.
 *
 * An `InjectorDef` can import other types which have `InjectorDefs`, forming a deep nested
 * structure of providers with a defined priority (identically to how `NgModule`s also have
 * an import/dependency structure).
 *
 * NOTE: This is a private type and should not be exported
 *
 * @codeGenApi
 */
export interface ɵɵInjectorDef<T> {
    providers: (Type<any> | ValueProvider | ExistingProvider | FactoryProvider | ConstructorProvider | StaticClassProvider | ClassProvider | EnvironmentProviders | any[])[];
    imports: (InjectorType<any> | InjectorTypeWithProviders<any>)[];
}
/**
 * A `Type` which has a `ɵprov: ɵɵInjectableDeclaration` static field.
 *
 * `InjectableType`s contain their own Dependency Injection metadata and are usable in an
 * `InjectorDef`-based `StaticInjector`.
 *
 * @publicApi
 */
export interface InjectableType<T> extends Type<T> {
    /**
     * Opaque type whose structure is highly version dependent. Do not rely on any properties.
     */
    ɵprov: unknown;
}
/**
 * A type which has an `InjectorDef` static field.
 *
 * `InjectorTypes` can be used to configure a `StaticInjector`.
 *
 * This is an opaque type whose structure is highly version dependent. Do not rely on any
 * properties.
 *
 * @publicApi
 */
export interface InjectorType<T> extends Type<T> {
    ɵfac?: unknown;
}
/**
 * Describes the `InjectorDef` equivalent of a `ModuleWithProviders`, an `InjectorType` with an
 * associated array of providers.
 *
 * Objects of this type can be listed in the imports section of an `InjectorDef`.
 *
 * NOTE: This is a private type and should not be exported
 */
export interface InjectorTypeWithProviders<T> {
    ngModule: InjectorType<T>;
    providers?: (Type<any> | ValueProvider | ExistingProvider | FactoryProvider | ConstructorProvider | StaticClassProvider | ClassProvider | EnvironmentProviders | any[])[];
}
/**
 * Construct an injectable definition which defines how a token will be constructed by the DI
 * system, and in which injectors (if any) it will be available.
 *
 * This should be assigned to a static `ɵprov` field on a type, which will then be an
 * `InjectableType`.
 *
 * Options:
 * * `providedIn` determines which injectors will include the injectable, by either associating it
 *   with an `@NgModule` or other `InjectorType`, or by specifying that this injectable should be
 *   provided in the `'root'` injector, which will be the application-level injector in most apps.
 * * `factory` gives the zero argument function which will create an instance of the injectable.
 *   The factory can call [`inject`](api/core/inject) to access the `Injector` and request injection
 * of dependencies.
 *
 * @codeGenApi
 * @publicApi This instruction has been emitted by ViewEngine for some time and is deployed to npm.
 */
export declare function ɵɵdefineInjectable<T>(opts: {
    token: unknown;
    providedIn?: Type<any> | 'root' | 'platform' | 'any' | 'environment' | null;
    factory: () => T;
}): unknown;
/**
 * Construct an `InjectorDef` which configures an injector.
 *
 * This should be assigned to a static injector def (`ɵinj`) field on a type, which will then be an
 * `InjectorType`.
 *
 * Options:
 *
 * * `providers`: an optional array of providers to add to the injector. Each provider must
 *   either have a factory or point to a type which has a `ɵprov` static property (the
 *   type must be an `InjectableType`).
 * * `imports`: an optional array of imports of other `InjectorType`s or `InjectorTypeWithModule`s
 *   whose providers will also be added to the injector. Locally provided types will override
 *   providers from imports.
 *
 * @codeGenApi
 */
export declare function ɵɵdefineInjector(options: {
    providers?: any[];
    imports?: any[];
}): unknown;
/**
 * Read the injectable def (`ɵprov`) for `type` in a way which is immune to accidentally reading
 * inherited value.
 *
 * @param type A type which may have its own (non-inherited) `ɵprov`.
 */
export declare function getInjectableDef<T>(type: any): ɵɵInjectableDeclaration<T> | null;
export declare function isInjectable(type: any): boolean;
/**
 * Read the injectable def (`ɵprov`) for `type` or read the `ɵprov` from one of its ancestors.
 *
 * @param type A type which may have `ɵprov`, via inheritance.
 *
 * @deprecated Will be removed in a future version of Angular, where an error will occur in the
 *     scenario if we find the `ɵprov` on an ancestor only.
 */
export declare function getInheritedInjectableDef<T>(type: any): ɵɵInjectableDeclaration<T> | null;
/**
 * Read the injector def type in a way which is immune to accidentally reading inherited value.
 *
 * @param type type which may have an injector def (`ɵinj`)
 */
export declare function getInjectorDef<T>(type: any): ɵɵInjectorDef<T> | null;
export declare const NG_PROV_DEF: string;
export declare const NG_INJ_DEF: string;