671 lines
19 KiB
Plaintext
Executable File
671 lines
19 KiB
Plaintext
Executable File
/**
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* Copyright (c) 2014-present, Facebook, Inc.
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*
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* This source code is licensed under the MIT license found in the
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* LICENSE file in the root directory of this source tree.
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*/
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/**
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* This file provides type definitions for use with the Flow type checker.
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*
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* An important caveat when using these definitions is that the types for
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* `Iterable.Keyed`, `Iterable.Indexed`, `Seq.Keyed`, and so on are stubs.
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* When referring to those types, you can get the proper definitions by
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* importing the types `KeyedIterable`, `IndexedIterable`, `KeyedSeq`, etc.
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* For example,
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*
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* import { Seq } from 'immutable'
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* import type { IndexedIterable, IndexedSeq } from 'immutable'
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*
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* const someSeq: IndexedSeq<number> = Seq.Indexed.of(1, 2, 3)
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*
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* function takesASeq<T, TS: IndexedIterable<T>>(iter: TS): TS {
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* return iter.butLast()
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* }
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*
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* takesASeq(someSeq)
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*
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* @flow
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*/
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/*
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* Alias for ECMAScript `Iterable` type, declared in
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* https://github.com/facebook/flow/blob/master/lib/core.js
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*
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* Note that Immutable values implement the `ESIterable` interface.
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*/
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type ESIterable<T> = $Iterable<T,void,void>;
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declare class Iterable<K, V> extends _Iterable<K, V, typeof KeyedIterable, typeof IndexedIterable, typeof SetIterable> {}
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declare class _Iterable<K, V, KI, II, SI> {
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static Keyed: KI;
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static Indexed: II;
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static Set: SI;
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static isIterable(maybeIterable: any): boolean;
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static isKeyed(maybeKeyed: any): boolean;
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static isIndexed(maybeIndexed: any): boolean;
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static isAssociative(maybeAssociative: any): boolean;
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static isOrdered(maybeOrdered: any): boolean;
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equals(other: Iterable<K,V>): boolean;
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hashCode(): number;
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get(key: K): V;
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get<V_>(key: K, notSetValue: V_): V|V_;
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has(key: K): boolean;
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includes(value: V): boolean;
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contains(value: V): boolean;
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first(): V;
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last(): V;
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getIn<T>(searchKeyPath: ESIterable<any>, notSetValue: T): T;
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getIn<T>(searchKeyPath: ESIterable<any>): T;
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hasIn(searchKeyPath: ESIterable<any>): boolean;
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toJS(): any;
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toArray(): V[];
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toObject(): { [key: string]: V };
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toMap(): Map<K,V>;
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toOrderedMap(): Map<K,V>;
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toSet(): Set<V>;
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toOrderedSet(): Set<V>;
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toList(): List<V>;
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toStack(): Stack<V>;
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toSeq(): Seq<K,V>;
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toKeyedSeq(): KeyedSeq<K,V>;
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toIndexedSeq(): IndexedSeq<V>;
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toSetSeq(): SetSeq<V>;
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keys(): Iterator<K>;
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values(): Iterator<V>;
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entries(): Iterator<[K,V]>;
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keySeq(): IndexedSeq<K>;
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valueSeq(): IndexedSeq<V>;
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entrySeq(): IndexedSeq<[K,V]>;
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reverse(): this;
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sort(comparator?: (valueA: V, valueB: V) => number): this;
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sortBy<C>(
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comparatorValueMapper: (value: V, key: K, iter: this) => C,
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comparator?: (valueA: C, valueB: C) => number
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): this;
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groupBy<G>(
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grouper: (value: V, key: K, iter: this) => G,
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context?: any
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): KeyedSeq<G, this>;
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forEach(
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sideEffect: (value: V, key: K, iter: this) => any,
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context?: any
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): number;
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slice(begin?: number, end?: number): this;
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rest(): this;
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butLast(): this;
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skip(amount: number): this;
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skipLast(amount: number): this;
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skipWhile(predicate: (value: V, key: K, iter: this) => mixed, context?: any): this;
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skipUntil(predicate: (value: V, key: K, iter: this) => mixed, context?: any): this;
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take(amount: number): this;
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takeLast(amount: number): this;
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takeWhile(predicate: (value: V, key: K, iter: this) => mixed, context?: any): this;
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takeUntil(predicate: (value: V, key: K, iter: this) => mixed, context?: any): this;
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flatten(depth?: number): /*this*/Iterable<any,any>;
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flatten(shallow?: boolean): /*this*/Iterable<any,any>;
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filter(
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predicate: (value: V, key: K, iter: this) => mixed,
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context?: any
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): this;
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filterNot(
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predicate: (value: V, key: K, iter: this) => mixed,
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context?: any
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): this;
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reduce<R>(
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reducer: (reduction: R, value: V, key: K, iter: this) => R,
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initialReduction?: R,
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context?: any,
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): R;
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reduceRight<R>(
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reducer: (reduction: R, value: V, key: K, iter: this) => R,
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initialReduction?: R,
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context?: any,
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): R;
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every(predicate: (value: V, key: K, iter: this) => mixed, context?: any): boolean;
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some(predicate: (value: V, key: K, iter: this) => mixed, context?: any): boolean;
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join(separator?: string): string;
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isEmpty(): boolean;
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count(predicate?: (value: V, key: K, iter: this) => mixed, context?: any): number;
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countBy<G>(grouper: (value: V, key: K, iter: this) => G, context?: any): Map<G,number>;
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find(
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predicate: (value: V, key: K, iter: this) => mixed,
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context?: any,
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): ?V;
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find<V_>(
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predicate: (value: V, key: K, iter: this) => mixed,
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context: any,
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notSetValue: V_
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): V|V_;
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findLast(
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predicate: (value: V, key: K, iter: this) => mixed,
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context?: any,
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): ?V;
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findLast<V_>(
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predicate: (value: V, key: K, iter: this) => mixed,
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context: any,
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notSetValue: V_
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): V|V_;
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findEntry(predicate: (value: V, key: K, iter: this) => mixed): ?[K,V];
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findLastEntry(predicate: (value: V, key: K, iter: this) => mixed): ?[K,V];
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findKey(predicate: (value: V, key: K, iter: this) => mixed, context?: any): ?K;
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findLastKey(predicate: (value: V, key: K, iter: this) => mixed, context?: any): ?K;
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keyOf(searchValue: V): ?K;
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lastKeyOf(searchValue: V): ?K;
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max(comparator?: (valueA: V, valueB: V) => number): V;
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maxBy<C>(
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comparatorValueMapper: (value: V, key: K, iter: this) => C,
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comparator?: (valueA: C, valueB: C) => number
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): V;
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min(comparator?: (valueA: V, valueB: V) => number): V;
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minBy<C>(
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comparatorValueMapper: (value: V, key: K, iter: this) => C,
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comparator?: (valueA: C, valueB: C) => number
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): V;
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isSubset(iter: Iterable<any, V>): boolean;
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isSubset(iter: ESIterable<V>): boolean;
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isSuperset(iter: Iterable<any, V>): boolean;
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isSuperset(iter: ESIterable<V>): boolean;
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}
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declare class KeyedIterable<K,V> extends Iterable<K,V> {
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static <K,V>(iter?: ESIterable<[K,V]>): KeyedIterable<K,V>;
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static <K,V>(obj?: { [key: K]: V }): KeyedIterable<K,V>;
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@@iterator(): Iterator<[K,V]>;
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toSeq(): KeyedSeq<K,V>;
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flip(): /*this*/KeyedIterable<V,K>;
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mapKeys<K_>(
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mapper: (key: K, value: V, iter: this) => K_,
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context?: any
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): /*this*/KeyedIterable<K_,V>;
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mapEntries<K_,V_>(
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mapper: (entry: [K,V], index: number, iter: this) => [K_,V_],
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context?: any
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): /*this*/KeyedIterable<K_,V_>;
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concat(...iters: ESIterable<[K,V]>[]): this;
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map<V_>(
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mapper: (value: V, key: K, iter: this) => V_,
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context?: any
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): /*this*/KeyedIterable<K,V_>;
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flatMap<K_, V_>(
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mapper: (value: V, key: K, iter: this) => ESIterable<[K_,V_]>,
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context?: any
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): /*this*/KeyedIterable<K_,V_>;
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flatten(depth?: number): /*this*/KeyedIterable<any,any>;
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flatten(shallow?: boolean): /*this*/KeyedIterable<any,any>;
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}
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declare class IndexedIterable<T> extends Iterable<number,T> {
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static <T>(iter?: ESIterable<T>): IndexedIterable<T>;
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@@iterator(): Iterator<T>;
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toSeq(): IndexedSeq<T>;
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fromEntrySeq<K,V>(): KeyedSeq<K,V>;
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interpose(separator: T): this;
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interleave(...iterables: ESIterable<T>[]): this;
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splice(
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index: number,
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removeNum: number,
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...values: T[]
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): this;
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zip<A>(
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a: ESIterable<A>,
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$?: null
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): IndexedIterable<[T,A]>;
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zip<A,B>(
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a: ESIterable<A>,
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b: ESIterable<B>,
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$?: null
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): IndexedIterable<[T,A,B]>;
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zip<A,B,C>(
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a: ESIterable<A>,
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b: ESIterable<B>,
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c: ESIterable<C>,
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$?: null
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): IndexedIterable<[T,A,B,C]>;
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zip<A,B,C,D>(
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a: ESIterable<A>,
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b: ESIterable<B>,
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c: ESIterable<C>,
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d: ESIterable<D>,
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$?: null
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): IndexedIterable<[T,A,B,C,D]>;
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zip<A,B,C,D,E>(
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a: ESIterable<A>,
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b: ESIterable<B>,
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c: ESIterable<C>,
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d: ESIterable<D>,
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e: ESIterable<E>,
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$?: null
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): IndexedIterable<[T,A,B,C,D,E]>;
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zipWith<A,R>(
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zipper: (value: T, a: A) => R,
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a: ESIterable<A>,
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$?: null
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): IndexedIterable<R>;
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zipWith<A,B,R>(
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zipper: (value: T, a: A, b: B) => R,
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a: ESIterable<A>,
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b: ESIterable<B>,
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$?: null
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): IndexedIterable<R>;
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zipWith<A,B,C,R>(
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zipper: (value: T, a: A, b: B, c: C) => R,
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a: ESIterable<A>,
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b: ESIterable<B>,
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c: ESIterable<C>,
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$?: null
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): IndexedIterable<R>;
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zipWith<A,B,C,D,R>(
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zipper: (value: T, a: A, b: B, c: C, d: D) => R,
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a: ESIterable<A>,
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b: ESIterable<B>,
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c: ESIterable<C>,
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d: ESIterable<D>,
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$?: null
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): IndexedIterable<R>;
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zipWith<A,B,C,D,E,R>(
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zipper: (value: T, a: A, b: B, c: C, d: D, e: E) => R,
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a: ESIterable<A>,
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b: ESIterable<B>,
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c: ESIterable<C>,
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d: ESIterable<D>,
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e: ESIterable<E>,
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$?: null
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): IndexedIterable<R>;
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indexOf(searchValue: T): number;
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lastIndexOf(searchValue: T): number;
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findIndex(
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predicate: (value: T, index: number, iter: this) => mixed,
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context?: any
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): number;
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findLastIndex(
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predicate: (value: T, index: number, iter: this) => mixed,
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context?: any
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): number;
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concat(...iters: ESIterable<T>[]): this;
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map<U>(
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mapper: (value: T, index: number, iter: this) => U,
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context?: any
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): /*this*/IndexedIterable<U>;
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flatMap<U>(
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mapper: (value: T, index: number, iter: this) => ESIterable<U>,
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context?: any
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): /*this*/IndexedIterable<U>;
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flatten(depth?: number): /*this*/IndexedIterable<any>;
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flatten(shallow?: boolean): /*this*/IndexedIterable<any>;
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}
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declare class SetIterable<T> extends Iterable<T,T> {
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static <T>(iter?: ESIterable<T>): SetIterable<T>;
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@@iterator(): Iterator<T>;
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toSeq(): SetSeq<T>;
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concat(...iters: ESIterable<T>[]): this;
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// `map` and `flatMap` cannot be defined further up the hiearchy, because the
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// implementation for `KeyedIterable` allows the value type to change without
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// constraining the key type. That does not work for `SetIterable` - the value
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// and key types *must* match.
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map<U>(
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mapper: (value: T, value: T, iter: this) => U,
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context?: any
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): /*this*/SetIterable<U>;
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flatMap<U>(
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mapper: (value: T, value: T, iter: this) => ESIterable<U>,
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context?: any
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): /*this*/SetIterable<U>;
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flatten(depth?: number): /*this*/SetIterable<any>;
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flatten(shallow?: boolean): /*this*/SetIterable<any>;
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}
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declare class Collection<K,V> extends _Iterable<K,V, typeof KeyedCollection, typeof IndexedCollection, typeof SetCollection> {
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size: number;
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}
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declare class KeyedCollection<K,V> extends Collection<K,V> mixins KeyedIterable<K,V> {
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toSeq(): KeyedSeq<K,V>;
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}
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declare class IndexedCollection<T> extends Collection<number,T> mixins IndexedIterable<T> {
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toSeq(): IndexedSeq<T>;
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}
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declare class SetCollection<T> extends Collection<T,T> mixins SetIterable<T> {
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toSeq(): SetSeq<T>;
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}
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declare class Seq<K,V> extends _Iterable<K,V, typeof KeyedSeq, typeof IndexedSeq, typeof SetSeq> {
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static <K,V>(iter: KeyedSeq<K,V>): KeyedSeq<K,V>;
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static <T> (iter: SetSeq<T>): SetSeq<K,V>;
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static <T> (iter?: ESIterable<T>): IndexedSeq<T>;
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static <K,V>(iter: { [key: K]: V }): KeyedSeq<K,V>;
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static isSeq(maybeSeq: any): boolean;
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static of<T>(...values: T[]): IndexedSeq<T>;
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size: ?number;
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cacheResult(): this;
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toSeq(): this;
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}
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declare class KeyedSeq<K,V> extends Seq<K,V> mixins KeyedIterable<K,V> {
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static <K,V>(iter?: ESIterable<[K,V]>): KeyedSeq<K,V>;
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static <K,V>(iter?: { [key: K]: V }): KeyedSeq<K,V>;
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}
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declare class IndexedSeq<T> extends Seq<number,T> mixins IndexedIterable<T> {
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static <T>(iter?: ESIterable<T>): IndexedSeq<T>;
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static of<T>(...values: T[]): IndexedSeq<T>;
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}
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declare class SetSeq<T> extends Seq<T,T> mixins SetIterable<T> {
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static <T>(iter?: ESIterable<T>): IndexedSeq<T>;
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static of<T>(...values: T[]): SetSeq<T>;
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}
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declare class List<T> extends IndexedCollection<T> {
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static (iterable?: ESIterable<T>): List<T>;
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static isList(maybeList: any): boolean;
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static of<T>(...values: T[]): List<T>;
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set<U>(index: number, value: U): List<T|U>;
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delete(index: number): this;
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remove(index: number): this;
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insert<U>(index: number, value: U): List<T|U>;
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clear(): this;
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push<U>(...values: U[]): List<T|U>;
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pop(): this;
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|
unshift<U>(...values: U[]): List<T|U>;
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shift(): this;
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update<U>(updater: (value: this) => List<U>): List<U>;
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update<U>(index: number, updater: (value: T) => U): List<T|U>;
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update<U>(index: number, notSetValue: U, updater: (value: T) => U): List<T|U>;
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merge<U>(...iterables: ESIterable<U>[]): List<T|U>;
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mergeWith<U,V>(
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merger: (previous: T, next: U, key: number) => V,
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...iterables: ESIterable<U>[]
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): List<T|U|V>;
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mergeDeep<U>(...iterables: ESIterable<U>[]): List<T|U>;
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mergeDeepWith<U,V>(
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merger: (previous: T, next: U, key: number) => V,
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...iterables: ESIterable<U>[]
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): List<T|U|V>;
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setSize(size: number): List<?T>;
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setIn(keyPath: ESIterable<any>, value: any): List<T>;
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deleteIn(keyPath: ESIterable<any>, value: any): this;
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removeIn(keyPath: ESIterable<any>, value: any): this;
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updateIn(keyPath: ESIterable<any>, notSetValue: any, value: any): List<T>;
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updateIn(keyPath: ESIterable<any>, value: any): List<T>;
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mergeIn(keyPath: ESIterable<any>, ...iterables: ESIterable<any>[]): List<T>;
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mergeDeepIn(keyPath: ESIterable<any>, ...iterables: ESIterable<any>[]): List<T>;
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|
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withMutations(mutator: (mutable: this) => any): this;
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asMutable(): this;
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|
asImmutable(): this;
|
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|
|
// Overrides that specialize return types
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|
map<M>(
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mapper: (value: T, index: number, iter: this) => M,
|
|
context?: any
|
|
): List<M>;
|
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flatMap<M>(
|
|
mapper: (value: T, index: number, iter: this) => ESIterable<M>,
|
|
context?: any
|
|
): List<M>;
|
|
|
|
flatten(depth?: number): /*this*/List<any>;
|
|
flatten(shallow?: boolean): /*this*/List<any>;
|
|
}
|
|
|
|
declare class Map<K,V> extends KeyedCollection<K,V> {
|
|
static <K, V>(): Map<K, V>;
|
|
static <V>(obj?: {[key: string]: V}): Map<string, V>;
|
|
static <K, V>(iterable?: ESIterable<[K,V]>): Map<K, V>;
|
|
|
|
static isMap(maybeMap: any): boolean;
|
|
|
|
set<K_, V_>(key: K_, value: V_): Map<K|K_, V|V_>;
|
|
delete(key: K): this;
|
|
remove(key: K): this;
|
|
clear(): this;
|
|
|
|
update<K_,V_>(updater: (value: this) => Map<K_,V_>): Map<K_,V_>;
|
|
update<V_>(key: K, updater: (value: V) => V_): Map<K,V|V_>;
|
|
update<V_>(key: K, notSetValue: V_, updater: (value: V) => V_): Map<K,V|V_>;
|
|
|
|
merge<K_,V_>(
|
|
...iterables: (ESIterable<[K_,V_]> | { [key: K_]: V_ })[]
|
|
): Map<K|K_,V|V_>;
|
|
|
|
mergeWith<K_,W,X>(
|
|
merger: (previous: V, next: W, key: number) => X,
|
|
...iterables: ESIterable<W>[]
|
|
): Map<K,V|W|X>;
|
|
|
|
mergeDeep<K_,V_>(
|
|
...iterables: (ESIterable<[K_,V_]> | { [key: K_]: V_ })[]
|
|
): Map<K|K_,V|V_>;
|
|
|
|
mergeDeepWith<K_,W,X>(
|
|
merger: (previous: V, next: W, key: number) => X,
|
|
...iterables: ESIterable<W>[]
|
|
): Map<K,V|W|X>;
|
|
|
|
setIn(keyPath: ESIterable<any>, value: any): Map<K,V>;
|
|
deleteIn(keyPath: ESIterable<any>, value: any): this;
|
|
removeIn(keyPath: ESIterable<any>, value: any): this;
|
|
|
|
updateIn(keyPath: ESIterable<any>, notSetValue: any, value: any): Map<K,V>;
|
|
updateIn(keyPath: ESIterable<any>, value: any): Map<K,V>;
|
|
|
|
mergeIn(keyPath: ESIterable<any>, ...iterables: ESIterable<any>[]): Map<K,V>;
|
|
mergeDeepIn(keyPath: ESIterable<any>, ...iterables: ESIterable<any>[]): Map<K,V>;
|
|
|
|
withMutations(mutator: (mutable: this) => any): this;
|
|
asMutable(): this;
|
|
asImmutable(): this;
|
|
|
|
// Overrides that specialize return types
|
|
|
|
map<V_>(
|
|
mapper: (value: V, key: K, iter: this) => V_,
|
|
context?: any
|
|
): Map<K,V_>;
|
|
|
|
flatMap<K_,V_>(
|
|
mapper: (value: V, key: K, iter: this) => ESIterable<[K_,V_]>,
|
|
context?: any
|
|
): Map<K_,V_>;
|
|
|
|
flip(): Map<V,K>;
|
|
|
|
mapKeys<K_>(
|
|
mapper: (key: K, value: V, iter: this) => K_,
|
|
context?: any
|
|
): Map<K_,V>;
|
|
|
|
flatten(depth?: number): /*this*/Map<any,any>;
|
|
flatten(shallow?: boolean): /*this*/Map<any,any>;
|
|
}
|
|
|
|
// OrderedMaps have nothing that Maps do not have. We do not need to override constructor & other statics
|
|
declare class OrderedMap<K,V> extends Map<K,V> {
|
|
static isOrderedMap(maybeOrderedMap: any): bool;
|
|
}
|
|
|
|
declare class Set<T> extends SetCollection<T> {
|
|
static <T>(iterable?: ESIterable<T>): Set<T>;
|
|
|
|
static isSet(maybeSet: any): boolean;
|
|
static of<T>(...values: T[]): Set<T>;
|
|
static fromKeys<T>(iter: ESIterable<[T,any]>): Set<T>;
|
|
static fromKeys(iter: { [key: string]: any }): Set<string>;
|
|
|
|
add<U>(value: U): Set<T|U>;
|
|
delete(value: T): this;
|
|
remove(value: T): this;
|
|
clear(): this;
|
|
union<U>(...iterables: ESIterable<U>[]): Set<T|U>;
|
|
merge<U>(...iterables: ESIterable<U>[]): Set<T|U>;
|
|
intersect<U>(...iterables: ESIterable<U>[]): Set<T&U>;
|
|
subtract<U>(...iterables: ESIterable<U>[]): Set<T>;
|
|
|
|
withMutations(mutator: (mutable: this) => any): this;
|
|
asMutable(): this;
|
|
asImmutable(): this;
|
|
|
|
// Overrides that specialize return types
|
|
|
|
map<M>(
|
|
mapper: (value: T, value: T, iter: this) => M,
|
|
context?: any
|
|
): Set<M>;
|
|
|
|
flatMap<M>(
|
|
mapper: (value: T, value: T, iter: this) => ESIterable<M>,
|
|
context?: any
|
|
): Set<M>;
|
|
|
|
flatten(depth?: number): /*this*/Set<any>;
|
|
flatten(shallow?: boolean): /*this*/Set<any>;
|
|
}
|
|
|
|
// OrderedSets have nothing that Sets do not have. We do not need to override constructor & other statics
|
|
declare class OrderedSet<T> extends Set<T> {
|
|
static isOrderedSet(maybeOrderedSet: any): bool;
|
|
}
|
|
|
|
declare class Stack<T> extends IndexedCollection<T> {
|
|
static <T>(iterable?: ESIterable<T>): Stack<T>;
|
|
|
|
static isStack(maybeStack: any): boolean;
|
|
static of<T>(...values: T[]): Stack<T>;
|
|
|
|
peek(): T;
|
|
clear(): this;
|
|
unshift<U>(...values: U[]): Stack<T|U>;
|
|
unshiftAll<U>(iter: ESIterable<U>): Stack<T|U>;
|
|
shift(): this;
|
|
push<U>(...values: U[]): Stack<T|U>;
|
|
pushAll<U>(iter: ESIterable<U>): Stack<T|U>;
|
|
pop(): this;
|
|
|
|
withMutations(mutator: (mutable: this) => any): this;
|
|
asMutable(): this;
|
|
asImmutable(): this;
|
|
|
|
// Overrides that specialize return types
|
|
|
|
map<U>(
|
|
mapper: (value: T, index: number, iter: this) => U,
|
|
context?: any
|
|
): Stack<U>;
|
|
|
|
flatMap<U>(
|
|
mapper: (value: T, index: number, iter: this) => ESIterable<U>,
|
|
context?: any
|
|
): Stack<U>;
|
|
|
|
flatten(depth?: number): /*this*/Stack<any>;
|
|
flatten(shallow?: boolean): /*this*/Stack<any>;
|
|
}
|
|
|
|
declare function Range(start?: number, end?: number, step?: number): IndexedSeq<number>;
|
|
declare function Repeat<T>(value: T, times?: number): IndexedSeq<T>;
|
|
|
|
//TODO: Once flow can extend normal Objects we can change this back to actually reflect Record behavior.
|
|
// For now fallback to any to not break existing Code
|
|
declare class Record<T: Object> {
|
|
static <T: Object>(spec: T, name?: string): /*T & Record<T>*/any;
|
|
get<A>(key: $Keys<T>): A;
|
|
set<A>(key: $Keys<T>, value: A): /*T & Record<T>*/this;
|
|
remove(key: $Keys<T>): /*T & Record<T>*/this;
|
|
}
|
|
|
|
declare function fromJS(json: any, reviver?: (k: any, v: Iterable<any,any>) => any): any;
|
|
declare function is(first: any, second: any): boolean;
|
|
|
|
export {
|
|
Iterable,
|
|
Collection,
|
|
Seq,
|
|
|
|
// These classes do not actually exist under these names. But it is useful to
|
|
// have the types available.
|
|
KeyedIterable,
|
|
IndexedIterable,
|
|
SetIterable,
|
|
KeyedCollection,
|
|
IndexedCollection,
|
|
SetCollection,
|
|
KeyedSeq,
|
|
IndexedSeq,
|
|
SetSeq,
|
|
|
|
List,
|
|
Map,
|
|
OrderedMap,
|
|
OrderedSet,
|
|
Range,
|
|
Repeat,
|
|
Record,
|
|
Set,
|
|
Stack,
|
|
|
|
fromJS,
|
|
is,
|
|
}
|