1
0
mirror of https://github.com/cp6/my-idlers.git synced 2024-11-16 23:42:32 +01:00
my-idlers/node_modules/collect.js/index.d.ts
cp6 fd22b0bf58 V2 (Laravel re-make)
V2 (Laravel re-make)
2022-03-06 02:02:12 +11:00

506 lines
17 KiB
TypeScript

type Operator = "===" | "==" | "!==" | "!=" | "<>" | ">" | "<" | ">=" | "<="
declare module 'collect.js' {
export function collect<T>(collection?: T[] | Object): Collection<T>;
export default function collect<T>(collection?: T[] | Object): Collection<T>;
export class Collection<Item> {
constructor(collection?: Item[] | Object);
/**
* The all method returns the underlying array represented by the collection.
*/
all(): Item[];
/**
* Alias for the avg() method.
*/
average<K>(key?: keyof Item | K): number;
/**
* The avg method returns the average of all items in the collection.
*/
avg<K>(key?: keyof Item | K): number;
/**
* The chunk method breaks the collection into multiple, smaller collections of a given size.
*/
chunk(size: number): Collection<Item[]>;
/**
* The collapse method collapses a collection of arrays into a single, flat collection.
*/
collapse(): Collection<Item>;
/**
* The combine method combines the keys of the collection with the values of another array or collection.
*/
combine<T, U>(array: U[]): Collection<T>;
/**
* The concat method is used to merge two or more collections/arrays/objects.
*/
concat<T>(collectionOrArrayOrObject: Collection<T> | T[] | object): any;
/**
* The contains method determines whether the collection contains a given item.
*/
contains<K, V>(key: keyof Item | K | Function, value?: V): boolean;
/**
* The count method returns the total number of items in the collection.
*/
count(): number;
/**
* The crossJoin method cross joins the collection with the given array or collection, returning all possible permutations.
*/
crossJoin<T>(values: T[]): Collection<[Item, T]>;
/**
* The dd method will console.log the collection and exit the current process.
*/
dd(): void;
/**
* The diff method compares the collection against another collection or a plain array based on its values.
* This method will return the values in the original collection that are not present in the given collection.
*/
diff<T>(values: T[] | Collection<Item>): Collection<Item>;
/**
* The diffAssoc method compares the collection against another collection or a plain object based on its keys
* and values. This method will return the key / value pairs in the original collection that are not present in
* the given collection:
*/
diffAssoc<T>(values: T[] | Collection<T>): Collection<Item>;
/**
* The diffKeys method compares the collection against another collection or a plain object based on its keys.
* This method will return the key / value pairs in the original collection that are not present in the given collection.
*/
diffKeys<K extends keyof Item>(object: object): Collection<K>;
/**
* The dump method outputs the results at that moment and then continues processing.
*/
dump(): this;
/**
* The each method iterates over the items in the collection and passes each item to a callback.
*/
each(fn: (currentItem: Item, key?: string | number, collection?: Item[]) => void): this;
/**
* The every method may be used to verify that all elements of a collection pass a given truth test.
*/
every(fn: (item: Item) => boolean): boolean;
/**
* The except method returns all items in the collection except for those with the specified keys.
*/
except<K>(properties: K[]): Collection<Item>;
/**
* The filter method filters the collection using the given callback,
* keeping only those items that pass a given truth test.
*/
filter(fn: (item: Item) => boolean): Collection<Item>;
filter(fn: (item: Item, key?: any) => boolean): Collection<Item>;
/**
* The first method returns the first element in the collection that passes a given truth test.
*/
first<V>(fn?: (item: Item) => boolean, defaultValue?: ((...any: any[]) => V | Item) | V | Item): Item;
/**
* The flatMap method iterates through the collection and passes each value to the given callback.
* The callback is free to modify the item and return it, thus forming a new collection of modified items.
* Then, the array is flattened by a level.
*/
flatMap<T>(fn: (item: Item, key: any) => T): Collection<T>;
/**
* The flatten method flattens a multi-dimensional collection into a single dimension.
*/
flatten(depth?: number): Collection<Item>;
/**
* The flip method swaps the collection's keys with their corresponding values.
*/
flip(): Collection<Item>;
/**
* The forget method removes an item from the collection by its key.
*/
forget<K>(key: keyof Item | K): this;
/**
* The forPage method returns a new collection containing the items that would be present on a given page number.
* The method accepts the page number as its first argument
* and the number of items to show per page as its second argument.
*/
forPage(page: number, chunk: number): Collection<Item>;
/**
* The get method returns the item at a given key. If the key does not exist, null is returned.
*/
get<K, V>(key: keyof Item | K, defaultValue?: ((...any: any[]) => V | Item) | V | Item): Item | null;
/**
* The groupBy method groups the collection's items by a given key.
*
*/
groupBy<T, K>(key: ((item: Item, index?: number) => K) | keyof Item | K): Collection<T>;
/**
* The has method determines if one or more keys exists in the collection.
*/
has<K>(key: keyof Item | K | (keyof Item)[]): boolean;
/**
* The implode method joins the items in a collection.
* Its arguments depend on the type of items in the collection.
*
* If the collection contains arrays or objects,
* you should pass the key of the attributes you wish to join,
* and the "glue" string you wish to place between the values.
*/
implode<K>(key: keyof Item | K, glue?: string): string;
/**
* The intersect method removes any values from the original collection
* that are not present in the given array or collection.
* The resulting collection will preserve the original collection's keys.
*/
intersect(values: Item[] | Collection<Item>): Collection<Item>;
/**
* The intersectByKeys method removes any keys from the original collection
* that are not present in the given array or collection.
*/
intersectByKeys<K extends keyof Item>(values: Item | Collection<Item>): Collection<K>
/**
* The isEmpty method returns true if the collection is empty; otherwise, false is returned.
*/
isEmpty(): boolean;
/**
* The isNotEmpty method returns true if the collection is not empty; otherwise, false is returned.
*/
isNotEmpty(): boolean;
/**
* The keyBy method keys the collection by the given key.
* If multiple items have the same key, only the last one will appear in the new collection.
*/
keyBy<T, K>(key: keyof Item | K | Function): Collection<T>;
/**
* The keys method returns all of the collection's keys.
*/
keys(): Collection<string>;
/**
* The last method returns the last element in the collection that passes a given truth test.
*/
last(fn?: (item: Item) => boolean): Item;
/**
* The macro method lets you register custom methods.
*/
macro(name: string, fn: Function): void;
/**
* The map method iterates through the collection and passes each value to the given callback.
* The callback is free to modify the item and return it, thus forming a new collection of modified items.
*/
map<T>(fn: (item: Item, index: any) => T): Collection<T>;
/**
* The mapInto method iterates through the collection and instantiates the given class with each element as a constructor.
*/
mapInto<T extends Function>(ClassName: T): Collection<T>;
/**
* The mapToGroups method iterates through the collection and passes each value to the given callback.
*/
mapToGroups(fn: Function): Collection<any>;
/**
* The mapWithKeys method iterates through the collection and passes each value to the given callback.
* The callback should return an array where the first element represents the key
* and the second element represents the value pair.
*/
mapWithKeys<T>(fn: Function): Collection<T>;
/**
* The max method returns the maximum value of a given key.
*/
max(key?: keyof Item | string): number;
/**
* The median method returns the median value of a given key.
*/
median<K>(key?: keyof Item | K): Item;
/**
* The merge method merges the given object into the original collection.
* If a key in the given object matches a key in the original collection,
* the given objects value will overwrite the value in the original collection.
*/
merge<T>(objectOrArray: object | T[]): Collection<T>;
/**
* The min method returns the minimum value of a given key.
*/
min<K>(key?: keyof Item | K): number;
/**
* The mode method returns the mode value of a given key.
*/
mode<K>(key?: keyof Item | K): Collection<Item> | null;
/**
* The nth method creates a new collection consisting of every n-th element.
*/
nth(n: number, offset?: number): Collection<Item>;
/**
* The only method returns the items in the collection with the specified keys.
*/
only<K>(properties: K[]): Collection<Item>;
/**
* The partition method may be combined with destructuring to separate elements
* that pass a given truth test from those that do not.
*/
partition(fn: (item: Item) => boolean): [Item[], Item[]];
/**
* The pipe method passes the collection to the given callback and returns the result.
*/
pipe<U>(fn: (...any: any[]) => U): U;
/**
* The pluck method retrieves all of the values for a given key.
*/
pluck<T, K, V>(value: keyof Item | V, key?: keyof Item | K): Collection<T>;
/**
* The pop method removes and returns the last item from the collection.
*/
pop(): Item;
/**
* The prepend method adds an item to the beginning of the collection.
*/
prepend<K, V>(value: V, key?: K): this;
/**
* The pull method removes and returns an item from the collection by its key.
*/
pull<K>(key: keyof Item | K): Item | null;
/**
* The push method appends an item to the end of the collection.
*/
push(item: Item): this;
/**
* The put method sets the given key and value in the collection.
*/
put<K, V>(key: K, value: V): this;
/**
* The random method returns a random item from the collection.
*/
random(length?: number): this | Item;
/**
* The reduce method reduces the collection to a single value,
* passing the result of each iteration into the subsequent iteration.
*/
reduce<T>(fn: (_carry: T | null, item: Item) => T, carry?: T): any;
/**
* The reject method filters the collection using the given callback.
* The callback should return true if the item should be removed from the resulting collection.
*/
reject(fn: (item: Item) => boolean): Collection<Item>;
/**
* The reverse method reverses the order of the collection's items.
*/
reverse(): Collection<Item>;
/**
* The search method searches the collection for the given value and returns its key if found.
* If the item is not found, false is returned.
*/
search(valueOrFunction: Item | ((value: Item, key: number) => boolean), strict?: boolean): any;
/**
* The shift method removes and returns the first item from the collection.
*/
shift(): Item;
/**
* The shuffle method randomly shuffles the items in the collection.
*/
shuffle(): this;
/**
* The slice method returns a slice of the collection starting at the given index.
*/
slice(remove: number, limit?: number): Collection<Item>;
/**
* The sort method sorts the collection.
*/
sort(fn?: (a: Item, b: Item) => number): Collection<Item>;
/**
* The sortBy method sorts the collection by the given key.
* The sorted collection keeps the original array keys.
*/
sortBy<V>(value: V): Collection<Item>;
/**
* The sortBy method sorts the collection by the given callback.
* The sorted collection keeps the original array keys.
*/
sortBy(fn: (item: Item) => number): Collection<Item>;
/**
* This method has the same signature as the sortBy method,
* but will sort the collection in the opposite order.
*/
sortByDesc<V>(value: V): Collection<Item>;
/**
* This method has the same signature as the sortBy method,
* but will sort the collection in the opposite order.
*/
sortByDesc(fn: (item: Item) => number): Collection<Item>;
/**
* The splice method removes and returns a slice of items starting at the specified index.
* You may pass a second argument to limit the size of the resulting chunk.
*/
splice(index: number, limit: number, replace?: Item[]): Collection<Item>;
/**
* The split method breaks a collection into the given number of groups.
*/
split(numberOfGroups: number): Item[];
/**
* The sum method returns the sum of all items in the collection.
*/
sum<K>(key?: keyof Item | K | ((item: Item) => number | string)): number | string;
[Symbol.iterator]: () => Iterator<Item>;
/**
* The take method returns a new collection with the specified number of items:
* You may also pass a negative integer to take the specified amount of items from the end of the collection.
*/
take(length: number): Collection<Item>;
/**
* The tap method passes the collection to the given callback,
* allowing you to "tap" into the collection at a specific point
* and do something with the items while not affecting the collection itself.
*/
tap(fn: (collection: Collection<Item>) => void): this;
/**
* The times method creates a new collection by invoking the callback a given amount of times.
*/
times<T>(times: number, fn: (time: number) => T): T[];
/**
* The toArray method converts the collection into a plain array.
* If the collection is an object, an array containing the values will be returned.
*/
toArray<T>(): T[];
/**
* The toJson method converts the collection into JSON string.
*/
toJson(): string;
/**
* The transform method iterates over the collection and calls the given callback with each item in the collection.
* The items in the collection will be replaced by the values returned by the callback.
*/
transform<T>(fn: (item: Item) => T): Collection<T>;
/**
* The union method adds the given array to the collection.
* If the given array contains keys that are already in the original collection,
* the original collection's values will be preferred.
*/
union<T>(object: Object): Collection<T>;
/**
* The unique method returns all of the unique items in the collection.
*/
unique<K>(key?: keyof Item | K | Function): Collection<Item>;
/**
* The unless method will execute the given callback when the first argument given to the method evaluates to false.
*/
unless(value: boolean, fn: (this: any) => any, defaultFn: (this: any) => any): void;
/**
* The unwrap method will unwrap the given collection.
*/
unwrap<T>(value: T[] | Collection<T>): T[];
/**
* The values method returns a new collection with the keys reset to consecutive integers.
*/
values<T>(): Collection<T>;
/**
* The when method will execute the given callback when the first argument given to the method evaluates to true.
*/
when(condition: boolean, fn: (this: any) => any, defaultFn: (this: any) => any): void;
/**
* The where method filters the collection by a given key / value pair.
*/
where<K, V>(key: keyof Item | K, value: V): Collection<Item>;
/**
* The where method filters the collection by a given key / value pair.
*/
where<K, V>(key: keyof Item | K, operator: Operator, value: V): Collection<Item>;
/**
* The whereIn method filters the collection by a given key / value contained within the given array.
*/
whereIn<K, V>(key: keyof Item | K, values: V[]): Collection<Item>;
/**
* The whereNotIn method filters the collection by a given key / value not contained within the given array.
*/
whereNotIn<K, V>(key: keyof Item | K, values: V[]): Collection<Item>;
/**
* The wrap method will wrap the given value in a collection.
*/
wrap<T>(value: T | T[] | Collection<T>): Collection<T>;
/**
* The zip method merges together the values of the given array with the values
* of the original collection at the corresponding index.
*/
zip<T>(array: T[]): Collection<[Item, T]>;
[macroFn: string]: Function;
}
}