import type { MaybeCallable } from "./misc";
export interface CachedRefreshedValueOptions<TValue> {
    /** Delay between calling resolver. */
    delayMs: MaybeCallable<number>;
    /** Log a timeout Error if a resolver takes more than X ms to complete. */
    warningTimeoutMs: MaybeCallable<number>;
    /** The handler deps.handler() is called every deps.delayMs; if it returns a
     * different value than previously, then waiting for the next delayMs is
     * interrupted prematurely, and the value gets refreshed. */
    deps: {
        delayMs: MaybeCallable<number>;
        handler: () => string;
    };
    /** A resolver function that returns the value. It's assumed that this
     * function would eventually either resolve or throw. */
    resolverFn: () => Promise<TValue>;
    /** An error handler. */
    onError: (error: unknown, elapsed: number) => void;
    /** A custom delay implementation. */
    delay: (ms: number) => Promise<void>;
}
/**
 * Utility class to provide a caching layer for a resolverFn with the following
 * assumptions:
 * - The value is stable and does not change frequently.
 * - The resolverFn can throw or take more time to resolve (e.g. outage). In
 *   that case, the cached value is still valid, unless a fresh value is
 *   requested with waitRefresh().
 *
 * The implementation is as follows:
 * - Once value is accessed, we schedule an endless loop of calling resolver to
 *   get latest value.
 * - The result is cached, so next calls will return it immediately in most of
 *   the cases.
 * - Once every delayMs we call resolverFn to get latest value. All calls during
 *   this time will get previous value (if available).
 */
export declare class CachedRefreshedValue<TValue> {
    readonly options: CachedRefreshedValueOptions<TValue>;
    /** Latest value pulled from the cache. */
    private latestValue;
    /** Deferred promise containing the next value. Fulfilled promises are
     * replaced right away. */
    private nextValue;
    /** Each time before resolverFn() is called, this value is increased. */
    private resolverFnCallCount;
    /** Whether the instance is destroyed or not. Used to prevent memory leaks in
     * unit tests. */
    private destroyedError;
    /** A callback to skip the current delay() call. */
    private skipDelay;
    /** A never throwing version of options.onError(). */
    private onErrorNothrow;
    /**
     * Initializes the instance.
     */
    constructor(options: CachedRefreshedValueOptions<TValue>);
    /**
     * Returns latest cached value.
     */
    cached(): Promise<TValue>;
    /**
     * Triggers the call to resolverFn() ASAP (i.e. sooner than the next interval
     * specified in delayMs) and waits for the next successful cache refresh.
     */
    waitRefresh(): Promise<void>;
    /**
     * Destroys the instance. Stops refreshing the value and any call to it will
     * result in an error.
     */
    destroy(): void;
    private refreshLoop;
}
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