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A JavaScript framework for creating ambitious web applications
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declare module '@ember/array' {
import Mixin from '@ember/object/mixin';
import Enumerable from '@ember/enumerable';
import MutableEnumerable from '@ember/enumerable/mutable';
import Observable from '@ember/object/observable';
import type { MethodNamesOf, MethodParams, MethodReturns } from '@ember/-internals/utility-types';
export { default as makeArray } from '@ember/array/make';
export type EmberArrayLike<T> = EmberArray<T> | NativeArray<T>;
export function uniqBy<T>(
array: T[] | EmberArray<T>,
keyOrFunc?: string | ((item: T) => unknown)
): T[] | EmberArray<T>;
export function removeAt<T, A extends T[] | MutableArray<T>>(
array: A,
index: number,
len?: number
): A;
/**
Returns true if the passed object is an array or Array-like.
Objects are considered Array-like if any of the following are true:
- the object is a native Array
- the object has an objectAt property
- the object is an Object, and has a length property
Unlike `typeOf` this method returns true even if the passed object is
not formally an array but appears to be array-like (i.e. implements `Array`)
```javascript
import { isArray } from '@ember/array';
import ArrayProxy from '@ember/array/proxy';
isArray(); // false
isArray([]); // true
isArray(ArrayProxy.create({ content: [] })); // true
```
@method isArray
@static
@for @ember/array
@param {Object} obj The object to test
@return {Boolean} true if the passed object is an array or Array-like
@public
*/
export function isArray(obj: unknown): obj is ArrayLike<unknown> | EmberArray<unknown>;
/**
This mixin implements Observer-friendly Array-like behavior. It is not a
concrete implementation, but it can be used up by other classes that want
to appear like arrays.
For example, ArrayProxy is a concrete class that can be instantiated to
implement array-like behavior. This class uses the Array Mixin by way of
the MutableArray mixin, which allows observable changes to be made to the
underlying array.
This mixin defines methods specifically for collections that provide
index-ordered access to their contents. When you are designing code that
needs to accept any kind of Array-like object, you should use these methods
instead of Array primitives because these will properly notify observers of
changes to the array.
Although these methods are efficient, they do add a layer of indirection to
your application so it is a good idea to use them only when you need the
flexibility of using both true JavaScript arrays and "virtual" arrays such
as controllers and collections.
You can use the methods defined in this module to access and modify array
contents in an observable-friendly way. You can also be notified whenever
the membership of an array changes by using `.observes('myArray.[]')`.
To support `EmberArray` in your own class, you must override two
primitives to use it: `length()` and `objectAt()`.
@class EmberArray
@uses Enumerable
@since Ember 0.9.0
@public
*/
interface EmberArray<T> extends Enumerable {
/**
__Required.__ You must implement this method to apply this mixin.
Your array must support the `length` property. Your replace methods should
set this property whenever it changes.
@property {Number} length
@public
*/
length: number;
/**
Returns the object at the given `index`. If the given `index` is negative
or is greater or equal than the array length, returns `undefined`.
This is one of the primitives you must implement to support `EmberArray`.
If your object supports retrieving the value of an array item using `get()`
(i.e. `myArray.get(0)`), then you do not need to implement this method
yourself.
```javascript
let arr = ['a', 'b', 'c', 'd'];
arr.objectAt(0); // 'a'
arr.objectAt(3); // 'd'
arr.objectAt(-1); // undefined
arr.objectAt(4); // undefined
arr.objectAt(5); // undefined
```
@method objectAt
@param {Number} idx The index of the item to return.
@return {*} item at index or undefined
@public
*/
objectAt(idx: number): T | undefined;
/**
This returns the objects at the specified indexes, using `objectAt`.
```javascript
let arr = ['a', 'b', 'c', 'd'];
arr.objectsAt([0, 1, 2]); // ['a', 'b', 'c']
arr.objectsAt([2, 3, 4]); // ['c', 'd', undefined]
```
@method objectsAt
@param {Array} indexes An array of indexes of items to return.
@return {Array}
@public
*/
objectsAt(indexes: number[]): Array<T | undefined>;
/**
This is the handler for the special array content property. If you get
this property, it will return this. If you set this property to a new
array, it will replace the current content.
```javascript
let peopleToMoon = ['Armstrong', 'Aldrin'];
peopleToMoon.get('[]'); // ['Armstrong', 'Aldrin']
peopleToMoon.set('[]', ['Collins']); // ['Collins']
peopleToMoon.get('[]'); // ['Collins']
```
@property []
@return this
@public
*/
get '[]'(): this;
set '[]'(newValue: T[] | EmberArray<T>);
/**
The first object in the array, or `undefined` if the array is empty.
```javascript
let vowels = ['a', 'e', 'i', 'o', 'u'];
vowels.firstObject; // 'a'
vowels.shiftObject();
vowels.firstObject; // 'e'
vowels.reverseObjects();
vowels.firstObject; // 'u'
vowels.clear();
vowels.firstObject; // undefined
```
@property firstObject
@return {Object | undefined} The first object in the array
@public
*/
firstObject: T | undefined;
/**
The last object in the array, or `undefined` if the array is empty.
@property lastObject
@return {Object | undefined} The last object in the array
@public
*/
lastObject: T | undefined;
/**
Returns a new array that is a slice of the receiver. This implementation
uses the observable array methods to retrieve the objects for the new
slice.
```javascript
let arr = ['red', 'green', 'blue'];
arr.slice(0); // ['red', 'green', 'blue']
arr.slice(0, 2); // ['red', 'green']
arr.slice(1, 100); // ['green', 'blue']
```
@method slice
@param {Number} beginIndex (Optional) index to begin slicing from.
@param {Number} endIndex (Optional) index to end the slice at (but not included).
@return {Array} New array with specified slice
@public
*/
slice(beginIndex?: number, endIndex?: number): NativeArray<T>;
/**
Used to determine the passed object's first occurrence in the array.
Returns the index if found, -1 if no match is found.
The optional `startAt` argument can be used to pass a starting
index to search from, effectively slicing the searchable portion
of the array. If it's negative it will add the array length to
the startAt value passed in as the index to search from. If less
than or equal to `-1 * array.length` the entire array is searched.
```javascript
let arr = ['a', 'b', 'c', 'd', 'a'];
arr.indexOf('a'); // 0
arr.indexOf('z'); // -1
arr.indexOf('a', 2); // 4
arr.indexOf('a', -1); // 4, equivalent to indexOf('a', 4)
arr.indexOf('a', -100); // 0, searches entire array
arr.indexOf('b', 3); // -1
arr.indexOf('a', 100); // -1
let people = [{ name: 'Zoey' }, { name: 'Bob' }]
let newPerson = { name: 'Tom' };
people = [newPerson, ...people, newPerson];
people.indexOf(newPerson); // 0
people.indexOf(newPerson, 1); // 3
people.indexOf(newPerson, -4); // 0
people.indexOf(newPerson, 10); // -1
```
@method indexOf
@param {Object} object the item to search for
@param {Number} startAt optional starting location to search, default 0
@return {Number} index or -1 if not found
@public
*/
indexOf(object: T, startAt?: number): number;
/**
Returns the index of the given `object`'s last occurrence.
- If no `startAt` argument is given, the search starts from
the last position.
- If it's greater than or equal to the length of the array,
the search starts from the last position.
- If it's negative, it is taken as the offset from the end
of the array i.e. `startAt + array.length`.
- If it's any other positive number, will search backwards
from that index of the array.
Returns -1 if no match is found.
```javascript
let arr = ['a', 'b', 'c', 'd', 'a'];
arr.lastIndexOf('a'); // 4
arr.lastIndexOf('z'); // -1
arr.lastIndexOf('a', 2); // 0
arr.lastIndexOf('a', -1); // 4
arr.lastIndexOf('a', -3); // 0
arr.lastIndexOf('b', 3); // 1
arr.lastIndexOf('a', 100); // 4
```
@method lastIndexOf
@param {Object} object the item to search for
@param {Number} startAt optional starting location to search from
backwards, defaults to `(array.length - 1)`
@return {Number} The last index of the `object` in the array or -1
if not found
@public
*/
lastIndexOf(object: T, startAt?: number): number;
/**
Iterates through the array, calling the passed function on each
item. This method corresponds to the `forEach()` method defined in
JavaScript 1.6.
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(item, index, array);
```
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `array` is the array itself.
Note that in addition to a callback, you can also pass an optional target
object that will be set as `this` on the context. This is a good way
to give your iterator function access to the current object.
Example Usage:
```javascript
let foods = [
{ name: 'apple', eaten: false },
{ name: 'banana', eaten: false },
{ name: 'carrot', eaten: false }
];
foods.forEach((food) => food.eaten = true);
let output = '';
foods.forEach((item, index, array) =>
output += `${index + 1}/${array.length} ${item.name}\n`;
);
console.log(output);
// 1/3 apple
// 2/3 banana
// 3/3 carrot
```
@method forEach
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Object} receiver
@public
*/
forEach<Target>(
callback: (this: Target, item: T, index: number, arr: this) => void,
target?: Target
): this;
/**
Alias for `mapBy`.
Returns the value of the named
property on all items in the enumeration.
```javascript
let people = [{name: 'Joe'}, {name: 'Matt'}];
people.getEach('name');
// ['Joe', 'Matt'];
people.getEach('nonexistentProperty');
// [undefined, undefined];
```
@method getEach
@param {String} key name of the property
@return {Array} The mapped array.
@public
*/
getEach<K extends keyof T>(key: K): NativeArray<T[K]>;
/**
Sets the value on the named property for each member. This is more
ergonomic than using other methods defined on this helper. If the object
implements Observable, the value will be changed to `set(),` otherwise
it will be set directly. `null` objects are skipped.
```javascript
let people = [{name: 'Joe'}, {name: 'Matt'}];
people.setEach('zipCode', '10011');
// [{name: 'Joe', zipCode: '10011'}, {name: 'Matt', zipCode: '10011'}];
```
@method setEach
@param {String} key The key to set
@param {Object} value The object to set
@return {Object} receiver
@public
*/
setEach<K extends keyof T>(key: K, value: T[K]): this;
/**
Maps all of the items in the enumeration to another value, returning
a new array. This method corresponds to `map()` defined in JavaScript 1.6.
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(item, index, array);
let arr = [1, 2, 3, 4, 5, 6];
arr.map(element => element * element);
// [1, 4, 9, 16, 25, 36];
arr.map((element, index) => element + index);
// [1, 3, 5, 7, 9, 11];
```
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `array` is the array itself.
It should return the mapped value.
Note that in addition to a callback, you can also pass an optional target
object that will be set as `this` on the context. This is a good way
to give your iterator function access to the current object.
@method map
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Array} The mapped array.
@public
*/
map<U, Target>(
callback: (this: Target, item: T, index: number, arr: this) => U,
target?: Target
): NativeArray<U>;
/**
Similar to map, this specialized function returns the value of the named
property on all items in the enumeration.
```javascript
let people = [{name: 'Joe'}, {name: 'Matt'}];
people.mapBy('name');
// ['Joe', 'Matt'];
people.mapBy('unknownProperty');
// [undefined, undefined];
```
@method mapBy
@param {String} key name of the property
@return {Array} The mapped array.
@public
*/
mapBy<K extends keyof T>(key: K): NativeArray<T[K]>;
mapBy(key: string): NativeArray<unknown>;
/**
Returns a new array with all of the items in the enumeration that the provided
callback function returns true for. This method corresponds to [Array.prototype.filter()](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/filter).
The callback method should have the following signature:
```javascript
function(item, index, array);
```
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `array` is the array itself.
All parameters are optional. The function should return `true` to include the item
in the results, and `false` otherwise.
Example:
```javascript
function isAdult(person) {
return person.age > 18;
};
let people = Ember.A([{ name: 'John', age: 14 }, { name: 'Joan', age: 45 }]);
people.filter(isAdult); // returns [{ name: 'Joan', age: 45 }];
```
Note that in addition to a callback, you can pass an optional target object
that will be set as `this` on the context. This is a good way to give your
iterator function access to the current object. For example:
```javascript
function isAdultAndEngineer(person) {
return person.age > 18 && this.engineering;
}
class AdultsCollection {
engineering = false;
constructor(opts = {}) {
super(...arguments);
this.engineering = opts.engineering;
this.people = Ember.A([{ name: 'John', age: 14 }, { name: 'Joan', age: 45 }]);
}
}
let collection = new AdultsCollection({ engineering: true });
collection.people.filter(isAdultAndEngineer, { target: collection });
```
@method filter
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Array} A filtered array.
@public
*/
filter<Target>(
callback: (this: Target, item: T, index: number, arr: this) => unknown,
target?: Target
): NativeArray<T>;
/**
Returns an array with all of the items in the enumeration where the passed
function returns false. This method is the inverse of filter().
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(item, index, array);
```
- *item* is the current item in the iteration.
- *index* is the current index in the iteration
- *array* is the array itself.
It should return a falsey value to include the item in the results.
Note that in addition to a callback, you can also pass an optional target
object that will be set as "this" on the context. This is a good way
to give your iterator function access to the current object.
Example Usage:
```javascript
const food = [
{ food: 'apple', isFruit: true },
{ food: 'bread', isFruit: false },
{ food: 'banana', isFruit: true }
];
const nonFruits = food.reject(function(thing) {
return thing.isFruit;
}); // [{food: 'bread', isFruit: false}]
```
@method reject
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Array} A rejected array.
@public
*/
reject<Target>(
callback: (this: Target, item: T, index: number, arr: this) => unknown,
target?: Target
): NativeArray<T>;
/**
Filters the array by the property and an optional value. If a value is given, it returns
the items that have said value for the property. If not, it returns all the items that
have a truthy value for the property.
Example Usage:
```javascript
let things = Ember.A([{ food: 'apple', isFruit: true }, { food: 'beans', isFruit: false }]);
things.filterBy('food', 'beans'); // [{ food: 'beans', isFruit: false }]
things.filterBy('isFruit'); // [{ food: 'apple', isFruit: true }]
```
@method filterBy
@param {String} key the property to test
@param {*} [value] optional value to test against.
@return {Array} filtered array
@public
*/
filterBy(key: string, value?: unknown): NativeArray<T>;
/**
Returns an array with the items that do not have truthy values for the provided key.
You can pass an optional second argument with a target value to reject for the key.
Otherwise this will reject objects where the provided property evaluates to false.
Example Usage:
```javascript
let food = [
{ name: "apple", isFruit: true },
{ name: "carrot", isFruit: false },
{ name: "bread", isFruit: false },
];
food.rejectBy('isFruit'); // [{ name: "carrot", isFruit: false }, { name: "bread", isFruit: false }]
food.rejectBy('name', 'carrot'); // [{ name: "apple", isFruit: true }}, { name: "bread", isFruit: false }]
```
@method rejectBy
@param {String} key the property to test
@param {*} [value] optional value to test against.
@return {Array} rejected array
@public
*/
rejectBy(key: string, value?: unknown): NativeArray<T>;
/**
Returns the first item in the array for which the callback returns true.
This method is similar to the `find()` method defined in ECMAScript 2015.
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(item, index, array);
```
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `array` is the array itself.
It should return the `true` to include the item in the results, `false`
otherwise.
Note that in addition to a callback, you can also pass an optional target
object that will be set as `this` on the context. This is a good way
to give your iterator function access to the current object.
Example Usage:
```javascript
let users = [
{ id: 1, name: 'Yehuda' },
{ id: 2, name: 'Tom' },
{ id: 3, name: 'Melanie' },
{ id: 4, name: 'Leah' }
];
users.find((user) => user.name == 'Tom'); // [{ id: 2, name: 'Tom' }]
users.find(({ id }) => id == 3); // [{ id: 3, name: 'Melanie' }]
```
@method find
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Object} Found item or `undefined`.
@public
*/
find<S extends T, Target = void>(
predicate: (this: void, value: T, index: number, obj: T[]) => value is S,
thisArg?: Target
): S | undefined;
find<Target = void>(
callback: (this: Target, item: T, index: number, arr: this) => unknown,
target?: Target
): T | undefined;
/**
Returns the first item with a property matching the passed value. You
can pass an optional second argument with the target value. Otherwise
this will match any property that evaluates to `true`.
This method works much like the more generic `find()` method.
Usage Example:
```javascript
let users = [
{ id: 1, name: 'Yehuda', isTom: false },
{ id: 2, name: 'Tom', isTom: true },
{ id: 3, name: 'Melanie', isTom: false },
{ id: 4, name: 'Leah', isTom: false }
];
users.findBy('id', 4); // { id: 4, name: 'Leah', isTom: false }
users.findBy('name', 'Melanie'); // { id: 3, name: 'Melanie', isTom: false }
users.findBy('isTom'); // { id: 2, name: 'Tom', isTom: true }
```
@method findBy
@param {String} key the property to test
@param {String} [value] optional value to test against.
@return {Object} found item or `undefined`
@public
*/
findBy<K extends keyof T>(key: K, value?: T[K]): T | undefined;
findBy(key: string, value?: unknown): T | undefined;
/**
Returns `true` if the passed function returns true for every item in the
enumeration. This corresponds with the `Array.prototype.every()` method defined in ES5.
The callback method should have the following signature:
```javascript
function(item, index, array);
```
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `array` is the array itself.
All params are optional. The method should return `true` or `false`.
Note that in addition to a callback, you can also pass an optional target
object that will be set as `this` on the context. This is a good way
to give your iterator function access to the current object.
Usage example:
```javascript
function isAdult(person) {
return person.age > 18;
};
const people = Ember.A([{ name: 'John', age: 24 }, { name: 'Joan', age: 45 }]);
const areAllAdults = people.every(isAdult);
```
@method every
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Boolean}
@public
*/
every<Target = void>(
callback: (this: Target, item: T, index: number, arr: this) => unknown,
target?: Target
): boolean;
/**
Returns `true` if the passed property resolves to the value of the second
argument for all items in the array. This method is often simpler/faster
than using a callback.
Note that like the native `Array.every`, `isEvery` will return true when called
on any empty array.
```javascript
class Language {
constructor(name, isProgrammingLanguage) {
this.name = name;
this.programmingLanguage = isProgrammingLanguage;
}
}
const compiledLanguages = [
new Language('Java', true),
new Language('Go', true),
new Language('Rust', true)
]
const languagesKnownByMe = [
new Language('Javascript', true),
new Language('English', false),
new Language('Ruby', true)
]
compiledLanguages.isEvery('programmingLanguage'); // true
languagesKnownByMe.isEvery('programmingLanguage'); // false
```
@method isEvery
@param {String} key the property to test
@param {String} [value] optional value to test against. Defaults to `true`
@return {Boolean}
@since 1.3.0
@public
*/
isEvery<K extends keyof T>(key: K, value?: T[K]): boolean;
isEvery(key: string, value?: unknown): boolean;
/**
The any() method executes the callback function once for each element
present in the array until it finds the one where callback returns a truthy
value (i.e. `true`). If such an element is found, any() immediately returns
true. Otherwise, any() returns false.
```javascript
function(item, index, array);
```
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `array` is the array object itself.
Note that in addition to a callback, you can also pass an optional target
object that will be set as `this` on the context. It can be a good way
to give your iterator function access to an object in cases where an ES6
arrow function would not be appropriate.
Usage Example:
```javascript
let includesManager = people.any(this.findPersonInManagersList, this);
let includesStockHolder = people.any(person => {
return this.findPersonInStockHoldersList(person)
});
if (includesManager || includesStockHolder) {
Paychecks.addBiggerBonus();
}
```
@method any
@param {Function} callback The callback to execute
@param {Object} [target] The target object to use
@return {Boolean} `true` if the passed function returns `true` for any item
@public
*/
any<Target = void>(
callback: (this: Target, item: T, index: number, arr: this) => unknown,
target?: Target
): boolean;
/**
Returns `true` if the passed property resolves to the value of the second
argument for any item in the array. This method is often simpler/faster
than using a callback.
Example usage:
```javascript
const food = [
{ food: 'apple', isFruit: true },
{ food: 'bread', isFruit: false },
{ food: 'banana', isFruit: true }
];
food.isAny('isFruit'); // true
```
@method isAny
@param {String} key the property to test
@param {String} [value] optional value to test against. Defaults to `true`
@return {Boolean}
@since 1.3.0
@public
*/
isAny<K extends keyof T>(key: K, value?: T[K]): boolean;
isAny(key: string, value?: unknown): boolean;
/**
This will combine the values of the array into a single value. It
is a useful way to collect a summary value from an array. This
corresponds to the `reduce()` method defined in JavaScript 1.8.
The callback method you provide should have the following signature (all
parameters are optional):
```javascript
function(previousValue, item, index, array);
```
- `previousValue` is the value returned by the last call to the iterator.
- `item` is the current item in the iteration.
- `index` is the current index in the iteration.
- `array` is the array itself.
Return the new cumulative value.
In addition to the callback you can also pass an `initialValue`. An error
will be raised if you do not pass an initial value and the enumerator is
empty.
Note that unlike the other methods, this method does not allow you to
pass a target object to set as this for the callback. It's part of the
spec. Sorry.
Example Usage:
```javascript
let numbers = [1, 2, 3, 4, 5];
numbers.reduce(function(summation, current) {
return summation + current;
}); // 15 (1 + 2 + 3 + 4 + 5)
numbers.reduce(function(summation, current) {
return summation + current;
}, -15); // 0 (-15 + 1 + 2 + 3 + 4 + 5)
let binaryValues = [true, false, false];
binaryValues.reduce(function(truthValue, current) {
return truthValue && current;
}); // false (true && false && false)
```
@method reduce
@param {Function} callback The callback to execute
@param {Object} initialValue Initial value for the reduce
@return {Object} The reduced value.
@public
*/
reduce<V>(
callback: (summation: V, current: T, index: number, arr: this) => V,
initialValue?: V
): V;
/**
Invokes the named method on every object in the receiver that
implements it. This method corresponds to the implementation in
Prototype 1.6.
```javascript
class Person {
name = null;
constructor(name) {
this.name = name;
}
greet(prefix='Hello') {
return `${prefix} ${this.name}`;
}
}
let people = [new Person('Joe'), new Person('Matt')];
people.invoke('greet'); // ['Hello Joe', 'Hello Matt']
people.invoke('greet', 'Bonjour'); // ['Bonjour Joe', 'Bonjour Matt']
```
@method invoke
@param {String} methodName the name of the method
@param {Object...} args optional arguments to pass as well.
@return {Array} return values from calling invoke.
@public
*/
invoke<M extends MethodNamesOf<T>>(
methodName: M,
...args: MethodParams<T, M>
): NativeArray<MethodReturns<T, M>>;
/**
Simply converts the object into a genuine array. The order is not
guaranteed. Corresponds to the method implemented by Prototype.
@method toArray
@return {Array} the object as an array.
@public
*/
toArray(): T[];
/**
Returns a copy of the array with all `null` and `undefined` elements removed.
```javascript
let arr = ['a', null, 'c', undefined];
arr.compact(); // ['a', 'c']
```
@method compact
@return {Array} the array without null and undefined elements.
@public
*/
compact(): NativeArray<NonNullable<T>>;
/**
Used to determine if the array contains the passed object.
Returns `true` if found, `false` otherwise.
The optional `startAt` argument can be used to pass a starting
index to search from, effectively slicing the searchable portion
of the array. If it's negative it will add the array length to
the startAt value passed in as the index to search from. If less
than or equal to `-1 * array.length` the entire array is searched.
This method has the same behavior of JavaScript's [Array.includes](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Array/includes).
```javascript
[1, 2, 3].includes(2); // true
[1, 2, 3].includes(4); // false
[1, 2, 3].includes(3, 2); // true
[1, 2, 3].includes(3, 3); // false
[1, 2, 3].includes(3, -1); // true
[1, 2, 3].includes(1, -1); // false
[1, 2, 3].includes(1, -4); // true
[1, 2, NaN].includes(NaN); // true
```
@method includes
@param {Object} object The object to search for.
@param {Number} startAt optional starting location to search, default 0
@return {Boolean} `true` if object is found in the array.
@public
*/
includes(object: T, startAt?: number): boolean;
/**
Sorts the array by the keys specified in the argument.
You may provide multiple arguments to sort by multiple properties.
```javascript
let colors = [
{ name: 'red', weight: 500 },
{ name: 'green', weight: 600 },
{ name: 'blue', weight: 500 }
];
colors.sortBy('name');
// [{name: 'blue', weight: 500}, {name: 'green', weight: 600}, {name: 'red', weight: 500}]
colors.sortBy('weight', 'name');
// [{name: 'blue', weight: 500}, {name: 'red', weight: 500}, {name: 'green', weight: 600}]
```
@method sortBy
@param {String} property name(s) to sort on
@return {Array} The sorted array.
@since 1.2.0
@public
*/
sortBy(...keys: string[]): T[];
/**
Returns a new array that contains only unique values. The default
implementation returns an array regardless of the receiver type.
```javascript
let arr = ['a', 'a', 'b', 'b'];
arr.uniq(); // ['a', 'b']
```
This only works on primitive data types, e.g. Strings, Numbers, etc.
@method uniq
@return {EmberArray}
@public
*/
uniq(): NativeArray<T>;
/**
Returns a new array that contains only items containing a unique property value.
The default implementation returns an array regardless of the receiver type.
```javascript
let arr = [{ value: 'a' }, { value: 'a' }, { value: 'b' }, { value: 'b' }];
arr.uniqBy('value'); // [{ value: 'a' }, { value: 'b' }]
let arr = [2.2, 2.1, 3.2, 3.3];
arr.uniqBy(Math.floor); // [2.2, 3.2];
```
@method uniqBy
@param {String,Function} key
@return {EmberArray}
@public
*/
uniqBy(key: string): NativeArray<T>;
uniqBy(callback: (value: T) => unknown): NativeArray<T>;
/**
Returns a new array that excludes the passed value. The default
implementation returns an array regardless of the receiver type.
If the receiver does not contain the value it returns the original array.
```javascript
let arr = ['a', 'b', 'a', 'c'];
arr.without('a'); // ['b', 'c']
```
@method without
@param {Object} value
@return {EmberArray}
@public
*/
without(value: T): NativeArray<T>;
}
const EmberArray: Mixin;
/**
This mixin defines the API for modifying array-like objects. These methods
can be applied only to a collection that keeps its items in an ordered set.
It builds upon the Array mixin and adds methods to modify the array.
One concrete implementations of this class include ArrayProxy.
It is important to use the methods in this class to modify arrays so that
changes are observable. This allows the binding system in Ember to function
correctly.
Note that an Array can change even if it does not implement this mixin.
For example, one might implement a SparseArray that cannot be directly
modified, but if its underlying enumerable changes, it will change also.
@class MutableArray
@uses EmberArray
@uses MutableEnumerable
@public
*/
interface MutableArray<T> extends EmberArray<T>, MutableEnumerable {
/**
__Required.__ You must implement this method to apply this mixin.
This is one of the primitives you must implement to support `Array`.
You should replace amt objects started at idx with the objects in the
passed array.
Note that this method is expected to validate the type(s) of objects that it expects.
@method replace
@param {Number} idx Starting index in the array to replace. If
idx >= length, then append to the end of the array.
@param {Number} amt Number of elements that should be removed from
the array, starting at *idx*.
@param {EmberArray} [objects] An optional array of zero or more objects that should be
inserted into the array at *idx*
@public
*/
replace(idx: number, amt: number, objects?: readonly T[]): void;
/**
Remove all elements from the array. This is useful if you
want to reuse an existing array without having to recreate it.
```javascript
let colors = ['red', 'green', 'blue'];
colors.length; // 3
colors.clear(); // []
colors.length; // 0
```
@method clear
@return {Array} An empty Array.
@public
*/
clear(): this;
/**
This will use the primitive `replace()` method to insert an object at the
specified index.
```javascript
let colors = ['red', 'green', 'blue'];
colors.insertAt(2, 'yellow'); // ['red', 'green', 'yellow', 'blue']
colors.insertAt(5, 'orange'); // Error: Index out of range
```
@method insertAt
@param {Number} idx index of insert the object at.
@param {Object} object object to insert
@return {EmberArray} receiver
@public
*/
insertAt(idx: number, object: T): this;
/**
Remove an object at the specified index using the `replace()` primitive
method. You can pass either a single index, or a start and a length.
If you pass a start and length that is beyond the
length this method will throw an assertion.
```javascript
let colors = ['red', 'green', 'blue', 'yellow', 'orange'];
colors.removeAt(0); // ['green', 'blue', 'yellow', 'orange']
colors.removeAt(2, 2); // ['green', 'blue']
colors.removeAt(4, 2); // Error: Index out of range
```
@method removeAt
@param {Number} start index, start of range
@param {Number} len length of passing range
@return {EmberArray} receiver
@public
*/
removeAt(start: number, len?: number): this;
/**
Push the object onto the end of the array. Works just like `push()` but it
is KVO-compliant.
```javascript
let colors = ['red', 'green'];
colors.pushObject('black'); // ['red', 'green', 'black']
colors.pushObject(['yellow']); // ['red', 'green', ['yellow']]
```
@method pushObject
@param {*} obj object to push
@return object same object passed as a param
@public
*/
pushObject(obj: T): T;
/**
Add the objects in the passed array to the end of the array. Defers
notifying observers of the change until all objects are added.
```javascript
let colors = ['red'];
colors.pushObjects(['yellow', 'orange']); // ['red', 'yellow', 'orange']
```
@method pushObjects
@param {Array} objects the objects to add
@return {MutableArray} receiver
@public
*/
pushObjects(objects: T[]): this;
/**
Pop object from array or nil if none are left. Works just like `pop()` but
it is KVO-compliant.
```javascript
let colors = ['red', 'green', 'blue'];
colors.popObject(); // 'blue'
console.log(colors); // ['red', 'green']
```
@method popObject
@return object
@public
*/
popObject(): T | null | undefined;
/**
Shift an object from start of array or nil if none are left. Works just
like `shift()` but it is KVO-compliant.
```javascript
let colors = ['red', 'green', 'blue'];
colors.shiftObject(); // 'red'
console.log(colors); // ['green', 'blue']
```
@method shiftObject
@return object
@public
*/
shiftObject(): T | null | undefined;
/**
Unshift an object to start of array. Works just like `unshift()` but it is
KVO-compliant.
```javascript
let colors = ['red'];
colors.unshiftObject('yellow'); // ['yellow', 'red']
colors.unshiftObject(['black']); // [['black'], 'yellow', 'red']
```
@method unshiftObject
@param {*} obj object to unshift
@return object same object passed as a param
@public
*/
unshiftObject(object: T): T;
/**
Adds the named objects to the beginning of the array. Defers notifying
observers until all objects have been added.
```javascript
let colors = ['red'];
colors.unshiftObjects(['black', 'white']); // ['black', 'white', 'red']
colors.unshiftObjects('yellow'); // Type Error: 'undefined' is not a function
```
@method unshiftObjects
@param {Enumerable} objects the objects to add
@return {EmberArray} receiver
@public
*/
unshiftObjects(objects: T[]): this;
/**
Reverse objects in the array. Works just like `reverse()` but it is
KVO-compliant.
@method reverseObjects
@return {EmberArray} receiver
@public
*/
reverseObjects(): this;
/**
Replace all the receiver's content with content of the argument.
If argument is an empty array receiver will be cleared.
```javascript
let colors = ['red', 'green', 'blue'];
colors.setObjects(['black', 'white']); // ['black', 'white']
colors.setObjects([]); // []
```
@method setObjects
@param {EmberArray} objects array whose content will be used for replacing
the content of the receiver
@return {EmberArray} receiver with the new content
@public
*/
setObjects(object: T[]): this;
/**
Remove all occurrences of an object in the array.
```javascript
let cities = ['Chicago', 'Berlin', 'Lima', 'Chicago'];
cities.removeObject('Chicago'); // ['Berlin', 'Lima']
cities.removeObject('Lima'); // ['Berlin']
cities.removeObject('Tokyo') // ['Berlin']
```
@method removeObject
@param {*} obj object to remove
@return {EmberArray} receiver
@public
*/
removeObject(object: T): this;
/**
Removes each object in the passed array from the receiver.
@method removeObjects
@param {EmberArray} objects the objects to remove
@return {EmberArray} receiver
@public
*/
removeObjects(objects: T[]): this;
/**
Push the object onto the end of the array if it is not already
present in the array.
```javascript
let cities = ['Chicago', 'Berlin'];
cities.addObject('Lima'); // ['Chicago', 'Berlin', 'Lima']
cities.addObject('Berlin'); // ['Chicago', 'Berlin', 'Lima']
```
@method addObject
@param {*} obj object to add, if not already present
@return {EmberArray} receiver
@public
*/
addObject(obj: T): this;
/**
Adds each object in the passed array to the receiver.
@method addObjects
@param {EmberArray} objects the objects to add.
@return {EmberArray} receiver
@public
*/
addObjects(objects: T[]): this;
}
const MutableArray: Mixin;
/**
Creates an `Ember.NativeArray` from an Array-like object.
Does not modify the original object's contents.
Example
```app/components/my-component.js
import Component from '@ember/component';
import { A } from '@ember/array';
export default Component.extend({
tagName: 'ul',
classNames: ['pagination'],
init() {
this._super(...arguments);
if (!this.get('content')) {
this.set('content', A());
this.set('otherContent', A([1,2,3]));
}
}
});
```
@method A
@static
@for @ember/array
@return {Ember.NativeArray}
@public
*/
/**
@module ember
*/
type AnyArray<T> = EmberArray<T> | Array<T> | ReadonlyArray<T>;
/**
* The final definition of NativeArray removes all native methods. This is the list of removed methods
* when run in Chrome 106.
*/
type IGNORED_MUTABLE_ARRAY_METHODS =
| 'length'
| 'slice'
| 'indexOf'
| 'lastIndexOf'
| 'forEach'
| 'map'
| 'filter'
| 'find'
| 'every'
| 'reduce'
| 'includes';
/**
* These additional items must be redefined since `Omit` causes methods that return `this` to return the
* type at the time of the Omit.
*/
type RETURN_SELF_ARRAY_METHODS =
| '[]'
| 'clear'
| 'insertAt'
| 'removeAt'
| 'pushObjects'
| 'unshiftObjects'
| 'reverseObjects'
| 'setObjects'
| 'removeObject'
| 'removeObjects'
| 'addObject'
| 'addObjects'
| 'setEach';
interface MutableArrayWithoutNative<T>
extends Omit<MutableArray<T>, IGNORED_MUTABLE_ARRAY_METHODS | RETURN_SELF_ARRAY_METHODS> {
/**
* Remove all elements from the array. This is useful if you
* want to reuse an existing array without having to recreate it.
*/
clear(): this;
/**
* This will use the primitive `replace()` method to insert an object at the
* specified index.
*/
insertAt(idx: number, object: T): this;
/**
* Remove an object at the specified index using the `replace()` primitive
* method. You can pass either a single index, or a start and a le