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linq.d.ts
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linq.d.ts
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declare namespace Enumerable {
export let Utils: {
createLambda(expression: null): (x: unknown) => unknown;
createLambda(expression: string): ((...params: unknown[]) => unknown);
createLambda<T>(expression?: T): T;
createEnumerable<T>(getEnumerator: () => IEnumerator<T>): IEnumerable<T>;
createEnumerator<T>(initialize: () => void, tryGetNext: () => boolean, dispose: () => void): IEnumerator<T>;
extendTo(type: unknown): void;
recallFrom(type: unknown): void;
hasNativeIteratorSupport(): boolean;
}
export function choice<T>(...params: T[]): IEnumerable<T>;
export function cycle<T>(...params: T[]): IEnumerable<T>;
export function empty<T>(): IEnumerable<T>;
export function from(): IEnumerable<unknown>;
export function from<T>(obj: IEnumerable<T>): IEnumerable<T>;
export function from(obj: number): IEnumerable<number>;
export function from(obj: boolean): IEnumerable<boolean>;
export function from(obj: string): IEnumerable<string>;
export function from<T>(obj: T[]): IEnumerable<T>;
export function from<T>(obj: Iterator<T>): IEnumerable<T>;
export function from<T>(obj: Iterable<T>): IEnumerable<T>;
export function from<T>(obj: { length: number;[x: number]: T; }): IEnumerable<T>;
export function from<K extends PropertyKey, T>(obj: Record<K, T>): IEnumerable<{ key: K; value: T }>;
export function make<T>(element: T): IEnumerable<T>;
export function matches<T>(input: string, pattern: RegExp): IEnumerable<T>;
export function matches<T>(input: string, pattern: string, flags?: string): IEnumerable<T>;
export function range(start: number, count: number, step?: number): IEnumerable<number>;
export function rangeDown(start: number, count: number, step?: number): IEnumerable<number>;
export function rangeTo(start: number, to: number, step?: number): IEnumerable<number>;
export function repeat<T>(element: T, count?: number): IEnumerable<T>;
export function repeatWithFinalize<T>(initializer: () => T, finalizer: (element: T) => void): IEnumerable<T>;
export function generate<T>(func: () => T, count?: number): IEnumerable<T>;
export function toInfinity(start?: number, step?: number): IEnumerable<number>;
export function toNegativeInfinity(start?: number, step?: number): IEnumerable<number>;
export function unfold<T>(seed: T, func: (value: T) => T): IEnumerable<T>;
export function defer<T>(enumerableFactory: () => IEnumerable<T>): IEnumerable<T>;
export interface IEnumerable<T> {
(getEnumerator: () => IEnumerator<T>): void;
getEnumerator(): IEnumerator<T>;
[Symbol.iterator](): Iterator<T>;
// Extension Methods
traverseBreadthFirst(childrenSelector: (element: T) => IEnumerable<T>): IEnumerable<T>;
traverseBreadthFirst<TResult>(childrenSelector: (element: T) => IEnumerable<T>, resultSelector: (element: T, nestLevel: number) => TResult): IEnumerable<TResult>;
traverseDepthFirst<TResult>(childrenSelector: (element: T) => IEnumerable<T>, resultSelector?: (element: T, nestLevel: number) => TResult): IEnumerable<TResult>;
flatten(): IEnumerable<unknown>;
pairwise<TResult>(selector: (prev: T, current: T) => TResult): IEnumerable<TResult>;
scan(func: (prev: T, current: T) => T): IEnumerable<T>;
scan<TAccumulate>(seed: TAccumulate, func: (prev: TAccumulate, current: T) => TAccumulate): IEnumerable<TAccumulate>;
select<TResult>(selector: (element: T, index: number) => TResult): IEnumerable<TResult>;
selectMany<TOther>(collectionSelector: (element: T, index: number) => IEnumerable<TOther>): IEnumerable<TOther>;
selectMany<TCollection, TResult>(collectionSelector: (element: T, index: number) => IEnumerable<TCollection>, resultSelector: (outer: T, inner: TCollection) => TResult): IEnumerable<TResult>;
selectMany<TOther>(collectionSelector: (element: T, index: number) => TOther[]): IEnumerable<TOther>;
selectMany<TCollection, TResult>(collectionSelector: (element: T, index: number) => TCollection[], resultSelector: (outer: T, inner: TCollection) => TResult): IEnumerable<TResult>;
selectMany<TOther>(collectionSelector: (element: T, index: number) => { length: number;[x: number]: TOther; }): IEnumerable<TOther>;
selectMany<TCollection, TResult>(collectionSelector: (element: T, index: number) => { length: number;[x: number]: TCollection; }, resultSelector: (outer: T, inner: TCollection) => TResult): IEnumerable<TResult>;
where<TOther extends T>(predicate: (element: T, index: number) => element is TOther): IEnumerable<TOther>;
where(predicate: (element: T, index: number) => boolean): IEnumerable<T>;
choose(selector: (element: T, index: number) => T): IEnumerable<T>;
ofType<TResult>(type: unknown): IEnumerable<TResult>;
zip<U, TResult>(second: IEnumerable<U>, resultSelector: (first: T, second: U, index: number) => TResult): IEnumerable<TResult>;
zip<U, TResult>(second: { length: number;[x: number]: U; }, resultSelector: (first: T, second: U, index: number) => TResult): IEnumerable<TResult>;
zip<U, TResult>(second: U[], resultSelector: (first: T, second: U, index: number) => TResult): IEnumerable<TResult>;
zip<TResult>(...params: unknown[]): IEnumerable<TResult>; // last one is selector
merge(...params: (T[] | IEnumerable<T> | { length: number;[x: number]: T; })[]): IEnumerable<T>;
join<TInner, TKey, TResult>(inner: IEnumerable<TInner>, outerKeySelector: (outer: T) => TKey, innerKeySelector: (inner: TInner) => TKey, resultSelector: (outer: T, inner: TInner) => TResult, compareSelector?: (obj: T) => TKey): IEnumerable<TResult>;
join<TInner, TKey, TResult>(inner: { length: number;[x: number]: TInner; }, outerKeySelector: (outer: T) => TKey, innerKeySelector: (inner: TInner) => TKey, resultSelector: (outer: T, inner: TInner) => TResult, compareSelector?: (obj: T) => TKey): IEnumerable<TResult>;
join<TInner, TKey, TResult>(inner: TInner[], outerKeySelector: (outer: T) => TKey, innerKeySelector: (inner: TInner) => TKey, resultSelector: (outer: T, inner: TInner) => TResult, compareSelector?: (obj: T) => TKey): IEnumerable<TResult>;
leftJoin<TInner, TKey, TResult>(inner: IEnumerable<TInner>, outerKeySelector: (outer: T) => TKey, innerKeySelector: (inner: TInner) => TKey, resultSelector: (outer: T, inner: TInner) => TResult, compareSelector?: (obj: T) => TKey): IEnumerable<TResult>;
leftJoin<TInner, TKey, TResult>(inner: { length: number;[x: number]: TInner; }, outerKeySelector: (outer: T) => TKey, innerKeySelector: (inner: TInner) => TKey, resultSelector: (outer: T, inner: TInner) => TResult, compareSelector?: (obj: T) => TKey): IEnumerable<TResult>;
leftJoin<TInner, TKey, TResult>(inner: TInner[], outerKeySelector: (outer: T) => TKey, innerKeySelector: (inner: TInner) => TKey, resultSelector: (outer: T, inner: TInner) => TResult, compareSelector?: (obj: T) => TKey): IEnumerable<TResult>;
groupJoin<TInner, TKey, TResult>(inner: IEnumerable<TInner>, outerKeySelector: (outer: T) => TKey, innerKeySelector: (inner: TInner) => TKey, resultSelector: (outer: T, inner: IEnumerable<TInner>) => TResult, compareSelector?: (obj: T) => TKey): IEnumerable<TResult>;
groupJoin<TInner, TKey, TResult>(inner: { length: number;[x: number]: TInner; }, outerKeySelector: (outer: T) => TKey, innerKeySelector: (inner: TInner) => TKey, resultSelector: (outer: T, inner: IEnumerable<TInner>) => TResult, compareSelector?: (obj: T) => TKey): IEnumerable<TResult>;
groupJoin<TInner, TKey, TResult>(inner: TInner[], outerKeySelector: (outer: T) => TKey, innerKeySelector: (inner: TInner) => TKey, resultSelector: (outer: T, inner: IEnumerable<TInner>) => TResult, compareSelector?: (obj: T) => TKey): IEnumerable<TResult>;
all(predicate: (element: T) => boolean): boolean;
any(predicate?: (element: T) => boolean): boolean;
isEmpty(): boolean;
concat(...sequences: (T[] | IEnumerable<T> | { length: number;[x: number]: T; })[]): IEnumerable<T>;
insert(index: number, second: IEnumerable<T>): IEnumerable<T>;
insert(index: number, second: { length: number;[x: number]: T; }): IEnumerable<T>;
alternate(alternateValue: T): IEnumerable<T>;
alternate(alternateSequence: { length: number;[x: number]: T; }): IEnumerable<T>;
alternate(alternateSequence: IEnumerable<T>): IEnumerable<T>;
alternate(alternateSequence: T[]): IEnumerable<T>;
contains(value: T): boolean;
contains<TCompare>(value: T, compareSelector?: (element: T) => TCompare): boolean;
defaultIfEmpty(defaultValue?: T): IEnumerable<T>;
distinct(): IEnumerable<T>;
distinct<TCompare>(compareSelector: (element: T) => TCompare): IEnumerable<T>;
distinctUntilChanged(): IEnumerable<T>;
distinctUntilChanged<TCompare>(compareSelector: (element: T) => TCompare): IEnumerable<T>;
except(second: { length: number;[x: number]: T; }): IEnumerable<T>;
except<TCompare>(second: { length: number;[x: number]: T; }, compareSelector: (element: T) => TCompare): IEnumerable<T>;
except(second: IEnumerable<T>): IEnumerable<T>;
except<TCompare>(second: IEnumerable<T>, compareSelector: (element: T) => TCompare): IEnumerable<T>;
except(second: T[]): IEnumerable<T>;
except<TCompare>(second: T[], compareSelector: (element: T) => TCompare): IEnumerable<T>;
intersect(second: { length: number;[x: number]: T; }): IEnumerable<T>;
intersect<TCompare>(second: { length: number;[x: number]: T; }, compareSelector: (element: T) => TCompare): IEnumerable<T>;
intersect(second: IEnumerable<T>): IEnumerable<T>;
intersect<TCompare>(second: IEnumerable<T>, compareSelector: (element: T) => TCompare): IEnumerable<T>;
intersect(second: T[]): IEnumerable<T>;
intersect<TCompare>(second: T[], compareSelector: (element: T) => TCompare): IEnumerable<T>;
union(second: { length: number;[x: number]: T; }): IEnumerable<T>;
union<TCompare>(second: { length: number;[x: number]: T; }, compareSelector: (element: T) => TCompare): IEnumerable<T>;
union(second: IEnumerable<T>): IEnumerable<T>;
union<TCompare>(second: IEnumerable<T>, compareSelector: (element: T) => TCompare): IEnumerable<T>;
union(second: T[]): IEnumerable<T>;
union<TCompare>(second: T[], compareSelector: (element: T) => TCompare): IEnumerable<T>;
sequenceEqual(second: { length: number;[x: number]: T; }): boolean;
sequenceEqual<TCompare>(second: { length: number;[x: number]: T; }, compareSelector: (element: T) => TCompare): boolean;
sequenceEqual(second: IEnumerable<T>): boolean;
sequenceEqual<TCompare>(second: IEnumerable<T>, compareSelector: (element: T) => TCompare): boolean;
sequenceEqual(second: T[]): boolean;
sequenceEqual<TCompare>(second: T[], compareSelector: (element: T) => TCompare): boolean;
orderBy<TKey>(keySelector: (element: T) => TKey): IOrderedEnumerable<T>;
orderBy<TKey>(keySelector: (element: T) => TKey, comparer: (first: TKey, second: TKey) => number): IOrderedEnumerable<T>;
orderByDescending<TKey>(keySelector: (element: T) => TKey): IOrderedEnumerable<T>;
orderByDescending<TKey>(keySelector: (element: T) => TKey, comparer: (first: TKey, second: TKey) => number): IOrderedEnumerable<T>;
reverse(): IEnumerable<T>;
shuffle(): IEnumerable<T>;
weightedSample(weightSelector: (element: T) => number): IEnumerable<T>;
groupBy<TKey>(keySelector: (element: T) => TKey): IEnumerable<IGrouping<TKey, T>>;
groupBy<TKey, TElement>(keySelector: (element: T) => TKey, elementSelector: (element: T) => TElement): IEnumerable<IGrouping<TKey, TElement>>;
groupBy<TKey, TElement, TResult>(keySelector: (element: T) => TKey, elementSelector: (element: T) => TElement, resultSelector: (key: TKey, element: IEnumerable<TElement>) => TResult): IEnumerable<TResult>;
groupBy<TKey, TElement, TResult, TCompare>(keySelector: (element: T) => TKey, elementSelector: (element: T) => TElement, resultSelector: (key: TKey, element: IEnumerable<TElement>) => TResult, compareSelector: (element: TKey) => TCompare): IEnumerable<TResult>;
partitionBy<TKey>(keySelector: (element: T) => TKey): IEnumerable<IGrouping<TKey, unknown>>;
partitionBy<TKey, TElement>(keySelector: (element: T) => TKey, elementSelector: (element: T) => TElement): IEnumerable<IGrouping<TKey, TElement>>;
partitionBy<TKey, TElement, TResult>(keySelector: (element: T) => TKey, elementSelector: (element: T) => TElement, resultSelector: (key: TKey, element: IEnumerable<TElement>) => TResult): IEnumerable<TResult>;
partitionBy<TKey, TElement, TResult, TCompare>(keySelector: (element: T) => TKey, elementSelector: (element: T) => TElement, resultSelector: (key: TKey, element: IEnumerable<TElement>) => TResult, compareSelector: (element: TKey) => TCompare): IEnumerable<TResult>;
buffer(count: number): IEnumerable<T[]>;
aggregate(func: (prev: T, current: T) => T): T;
aggregate<TAccumulate>(seed: TAccumulate, func: (prev: TAccumulate, current: T) => TAccumulate): TAccumulate;
aggregate<TAccumulate, TResult>(seed: TAccumulate, func: (prev: TAccumulate, current: T) => TAccumulate, resultSelector: (last: TAccumulate) => TResult): TResult;
average(selector?: (element: T) => number): number;
count(predicate?: (element: T, index: number) => boolean): number;
max(selector?: (element: T) => number): number;
min(selector?: (element: T) => number): number;
maxBy<TKey>(keySelector: (element: T) => TKey): T;
minBy<TKey>(keySelector: (element: T) => TKey): T;
sum(selector?: (element: T) => number): number;
elementAt(index: number): T;
elementAtOrDefault(index: number, defaultValue?: T): T | undefined;
first<TOther extends T>(predicate: (element: T, index: number) => element is TOther): TOther;
first(predicate?: (element: T, index: number) => boolean): T;
firstOrDefault<TOther extends T, TDefault>(predicate: (element: T, index: number) => element is TOther, defaultValue: TDefault): TOther | TDefault;
firstOrDefault<TDefault>(predicate: (element: T, index: number) => boolean, defaultValue: TDefault): T | TDefault;
firstOrDefault<TOther extends T>(predicate: (element: T, index: number) => element is TOther): TOther | undefined;
firstOrDefault(predicate: (element: T, index: number) => boolean): T | undefined;
firstOrDefault<TDefault>(defaultValue: TDefault): T | TDefault;
firstOrDefault(): T | undefined;
last<TOther extends T>(predicate: (element: T, index: number) => element is TOther): TOther;
last(predicate?: (element: T, index: number) => boolean): T;
lastOrDefault<TOther extends T, TDefault>(predicate: (element: T, index: number) => element is TOther, defaultValue: TDefault): TOther | TDefault;
lastOrDefault<TDefault>(predicate: (element: T, index: number) => boolean, defaultValue: TDefault): T | TDefault;
lastOrDefault<TOther extends T>(predicate: (element: T, index: number) => element is TOther): TOther | undefined;
lastOrDefault(predicate: (element: T, index: number) => boolean): T | undefined;
lastOrDefault<TDefault>(defaultValue: TDefault): T | TDefault;
lastOrDefault(): T | undefined;
single<TOther extends T>(predicate: (element: T, index: number) => element is TOther): TOther;
single(predicate?: (element: T, index: number) => boolean): T;
singleOrDefault<TOther extends T, TDefault>(predicate: (element: T, index: number) => element is TOther, defaultValue: TDefault): TOther | TDefault;
singleOrDefault<TDefault>(predicate: (element: T, index: number) => boolean, defaultValue: TDefault): T | TDefault;
singleOrDefault<TOther extends T>(predicate: (element: T, index: number) => element is TOther): TOther | undefined;
singleOrDefault(predicate: (element: T, index: number) => boolean): T | undefined;
singleOrDefault<TDefault>(defaultValue: TDefault): T | TDefault;
singleOrDefault(): T | undefined;
skip(count: number): IEnumerable<T>;
skipWhile(predicate: (element: T, index: number) => boolean): IEnumerable<T>;
take(count: number): IEnumerable<T>;
takeWhile(predicate: (element: T, index: number) => boolean): IEnumerable<T>;
takeExceptLast(count?: number): IEnumerable<T>;
takeFromLast(count: number): IEnumerable<T>;
indexOf(item: T): number;
indexOf(predicate: (element: T, index: number) => boolean): number;
lastIndexOf(item: T): number;
lastIndexOf(predicate: (element: T, index: number) => boolean): number;
asEnumerable(): IEnumerable<T>;
cast<TResult>(): IEnumerable<TResult>;
toArray(): T[];
toLookup<TKey>(keySelector: (element: T) => TKey): ILookup<TKey, T>;
toLookup<TKey, TElement>(keySelector: (element: T) => TKey, elementSelector: (element: T) => TElement): ILookup<TKey, TElement>;
toLookup<TKey, TElement, TCompare>(keySelector: (element: T) => TKey, elementSelector: (element: T) => TElement, compareSelector: (key: TKey) => TCompare): ILookup<TKey, TElement>;
toObject<TKey extends PropertyKey, TElement>(keySelector: (element: T) => TKey, elementSelector?: (element: T) => TElement): Record<TKey, TElement>;
toDictionary<TKey>(keySelector: (element: T) => TKey): IDictionary<TKey, T>;
toDictionary<TKey, TValue>(keySelector: (element: T) => TKey, elementSelector: (element: T) => TValue): IDictionary<TKey, TValue>;
toDictionary<TKey, TValue, TCompare>(keySelector: (element: T) => TKey, elementSelector: (element: T) => TValue, compareSelector: (key: TKey) => TCompare): IDictionary<TKey, TValue>;
toJSONString(replacer?: (key: string, value: unknown) => unknown, space?: string | number): string;
toJSONString(replacer?: (string | number)[], space?: string | number): string;
toJoinedString(separator?: string): string;
toJoinedString<TResult>(separator: string, selector: (element: T, index: number) => TResult): string;
doAction(action: (element: T, index: number) => void): IEnumerable<T>;
doAction(action: (element: T, index: number) => boolean): IEnumerable<T>;
forEach(action: (element: T, index: number) => void): void;
forEach(action: (element: T, index: number) => boolean): void;
force(): void;
letBind<TResult>(func: (source: IEnumerable<T>) => { length: number;[x: number]: TResult; }): IEnumerable<TResult>;
letBind<TResult>(func: (source: IEnumerable<T>) => TResult[]): IEnumerable<TResult>;
letBind<TResult>(func: (source: IEnumerable<T>) => IEnumerable<TResult>): IEnumerable<TResult>;
share(): IDisposableEnumerable<T>;
memoize(): IDisposableEnumerable<T>;
catchError(handler: string | ((exception: unknown) => void)): IEnumerable<T>;
finallyAction(finallyAction: () => void): IEnumerable<T>;
log(): IEnumerable<T>;
log<TValue>(selector: (element: T) => TValue): IEnumerable<T>;
trace(message?: string): IEnumerable<T>;
trace<TValue>(message: string, selector: (element: T) => TValue): IEnumerable<T>;
}
export interface IEnumerator<T> {
current(): T;
moveNext(): boolean;
dispose(): void;
}
export interface IOrderedEnumerable<T> extends IEnumerable<T> {
createOrderedEnumerable<TKey>(keySelector: (element: T) => TKey, comparer?: (first: TKey, second: TKey) => number, descending?: boolean): IOrderedEnumerable<T>;
thenBy<TKey>(keySelector: (element: T) => TKey): IOrderedEnumerable<T>;
thenBy<TKey>(keySelector: (element: T) => TKey, comparer: (first: TKey, second: TKey) => number): IOrderedEnumerable<T>;
thenByDescending<TKey>(keySelector: (element: T) => TKey): IOrderedEnumerable<T>;
thenByDescending<TKey>(keySelector: (element: T) => TKey, comparer: (first: TKey, second: TKey) => number): IOrderedEnumerable<T>;
}
export interface IDisposableEnumerable<T> extends IEnumerable<T> {
dispose(): void;
}
export interface IDictionary<TKey, TValue> {
add(key: TKey, value: TValue): void;
get(key: TKey): TValue;
set(key: TKey, value: TValue): boolean;
contains(key: TKey): boolean;
clear(): void;
remove(key: TKey): void;
count(): number;
toEnumerable(): IEnumerable<{ key: TKey; value: TValue }>;
}
export interface ILookup<TKey, TElement> {
count(): number;
get(key: TKey): IEnumerable<TElement>;
contains(key: TKey): boolean;
toEnumerable(): IEnumerable<IGrouping<TKey, TElement>>;
}
export interface IGrouping<TKey, TElement> extends IEnumerable<TElement> {
key(): TKey;
getSource(): TElement[];
}
}
export default Enumerable;