import { Mapper } from 'augmentative-iterable';
import { Reducer } from '../base';
export interface ToMapFunction<T> {
    /**
     * Create a Map from the iterable. This is a resolving operation
     * @typeparam K The type of the data the element equality is based on.
     * @param getKey The projection to use to determine element equality. It serves as key of the resulting Map.
     * @param mapper: Maps the first iterated item to the Map value type
     * @param reduceValue reduce the following items to the map value type. If not informed, assumes only the first value
     * @returns The [[FluentIterable]] of the distinct elements.
     */
    <K, V>(getKey: Mapper<T, K>, mapper: Mapper<T, V>, reduceValue?: Reducer<V, T>): Map<K, V>;
    /**
     * Create a Map from the iterable. This is a resolving operation
     * @typeparam K The type of the data the element equality is based on.
     * @param getKey The key of T for element equality. It serves as key of the resulting Map.
     * @param mapper: Maps the first iterated item to the Map value type
     * @param reduceValue reduce the following items to the map value type. If not informed, assumes only the first value
     * @returns The [[FluentIterable]] of the distinct elements.
     */
    <K extends keyof T, V>(getKey: K, mapper: Mapper<T, V>, reduceValue?: Reducer<V, T>): Map<T[K], V>;
    /**
     * Create a Map from the iterable. This is a resolving operation
     * @typeparam K The type of the data the element equality is based on.
     * @param getKey The key of T for element equality. It serves as key of the resulting Map.
     * @param getValue: The key to be used as value
     * @param reduceValue reduce the following items to the map value type. If not informed, assumes only the first value
     * @returns The [[FluentIterable]] of the distinct elements.
     */
    <K extends keyof T, V extends keyof T>(getKey: K, mapper: V, reduceValue?: Reducer<T[V], T>): Map<T[K], T[V]>;
}
export interface AsyncToMapFunction<T> {
    /**
     * Create a Map from the iterable. This is a resolving operation
     * @typeparam K The type of the data the element equality is based on.
     * @param getKey The projection to use to determine element equality. It serves as key of the resulting Map.
     * @param mapper: Maps the first iterated item to the Map value type
     * @param reduceValue reduce the following items to the map value type. If not informed, assumes only the first value
     * @returns The [[FluentIterable]] of the distinct elements.
     */
    <K, V>(getKey: Mapper<T, K>, mapper: Mapper<T, V>, reduceValue: Reducer<V, T>): Promise<Map<K, V>>;
    /**
     * Create a Map from the iterable. This is a resolving operation
     * @typeparam K The type of the data the element equality is based on.
     * @param getKey The key of T for element equality. It serves as key of the resulting Map.
     * @param mapper: Maps the first iterated item to the Map value type
     * @param reduceValue reduce the following items to the map value type. If not informed, assumes only the first value
     * @returns The [[FluentIterable]] of the distinct elements.
     */
    <K extends keyof T, V>(getKey: K, mapper: Mapper<T, V>, reduceValue: Reducer<V, T>): Promise<Map<T[K], V>>;
    /**
     * Create a Map from the iterable. This is a resolving operation
     * @typeparam K The type of the data the element equality is based on.
     * @param getKey The key of T for element equality. It serves as key of the resulting Map.
     * @param getValue: The key to be used as value
     * @param reduceValue reduce the following items to the map value type. If not informed, assumes only the first value
     * @returns The [[FluentIterable]] of the distinct elements.
     */
    <K extends keyof T, V extends keyof T>(getKey: K, mapper: V, reduceValue?: Reducer<T[V], T>): Promise<Map<T[K], T[V]>>;
}
