export = limitFactory declare namespace limitFactory {} /** * Returns a function that can be used to wrap promise returning functions, * limiting them to concurrency outstanding calls. * @param concurrency the concurrency, i.e. 1 will limit calls to one at a * time, effectively in sequence or serial. 2 will allow two at a time, etc. * 0 or undefined specify no limit, and all calls will be run in parallel. */ declare function limitFactory(concurrency?: number): limit declare type limit = limitFunc & limitInterface declare interface limitInterface { /** * Maps an array of items using mapper, but limiting the number of concurrent * calls to mapper with the concurrency of limit. If at least one call to * mapper returns a rejected promise, the result of map is a the same rejected * promise, and no further calls to mapper are made. * @param items any items * @param mapper iterator */ map(items: ReadonlyArray, mapper: (value: T) => Promise): Promise /** * Returns the queue length, the number of jobs that are waiting to be started. * You could use this to throttle incoming jobs, so the queue doesn't * overwhealm the available memory - for e.g. pause() a stream. */ queue: number } /** * A function that limits calls to fn, based on concurrency above. Returns a * promise that resolves or rejects the same value or error as fn. All functions * are executed in the same order in which they were passed to limit. fn must * return a promise. * @param fn a function that is called with no arguments and returns a promise. * You can pass arguments to your function by putting it inside another function, * i.e. `() -> myfunc(a, b, c)`. */ declare type limitFunc = (fn: () => Promise) => Promise