Function.prototype.apply()
The apply()
method of Function
instances calls this function with a given this
value, and arguments
provided as an array (or an array-like object).
Try it
Syntax
apply(thisArg)
apply(thisArg, argsArray)
Parameters
thisArg
-
The value of
this
provided for the call tofunc
. If the function is not in strict mode,null
andundefined
will be replaced with the global object, and primitive values will be converted to objects. argsArray
Optional-
An array-like object, specifying the arguments with which
func
should be called, ornull
orundefined
if no arguments should be provided to the function.
Return value
The result of calling the function with the specified this
value and arguments.
Description
Note: This function is almost identical to call()
, except that the function arguments are passed to call()
individually as a list, while for apply()
they are combined in one object, typically an array — for example, func.call(this, "eat", "bananas")
vs. func.apply(this, ["eat", "bananas"])
.
Normally, when calling a function, the value of this
inside the function is the object that the function was accessed on. With apply()
, you can assign an arbitrary value as this
when calling an existing function, without first attaching the function to the object as a property. This allows you to use methods of one object as generic utility functions.
You can also use any kind of object which is array-like as the second parameter. In practice, this means that it needs to have a length
property, and integer ("index") properties in the range (0..length - 1)
. For example, you could use a NodeList
, or a custom object like { 'length': 2, '0': 'eat', '1': 'bananas' }
. You can also use arguments
, for example:
function wrapper() {
return anotherFn.apply(null, arguments);
}
With the rest parameters and parameter spread syntax, this can be rewritten as:
function wrapper(...args) {
return anotherFn(...args);
}
In general, fn.apply(null, args)
is equivalent to fn(...args)
with the parameter spread syntax, except args
is expected to be an array-like object in the former case with apply()
, and an iterable object in the latter case with spread syntax.
Warning: Do not use apply()
to chain constructors (for example, to implement inheritance). This invokes the constructor function as a plain function, which means new.target
is undefined
, and classes throw an error because they can't be called without new
. Use Reflect.construct()
or extends
instead.
Examples
Using apply() to append an array to another
You can use Array.prototype.push()
to append an element to an array. Because push()
accepts a variable number of arguments, you can also push multiple elements at once. But if you pass an array to push()
, it will actually add that array as a single element, instead of adding the elements individually, ending up with an array inside an array. On the other hand, Array.prototype.concat()
does have the desired behavior in this case, but it does not append to the existing array — it creates and returns a new array.
In this case, you can use apply
to implicitly "spread" an array as a series of arguments.
const array = ["a", "b"];
const elements = [0, 1, 2];
array.push.apply(array, elements);
console.info(array); // ["a", "b", 0, 1, 2]
The same effect can be achieved with the spread syntax.
const array = ["a", "b"];
const elements = [0, 1, 2];
array.push(...elements);
console.info(array); // ["a", "b", 0, 1, 2]
Using apply() and built-in functions
Clever usage of apply()
allows you to use built-in functions for some tasks that would probably otherwise require manually looping over a collection (or using the spread syntax).
For example, we can use Math.max()
and Math.min()
to find out the maximum and minimum value in an array.
// min/max number in an array
const numbers = [5, 6, 2, 3, 7];
// using Math.min/Math.max apply
let max = Math.max.apply(null, numbers);
// This about equal to Math.max(numbers[0], …)
// or Math.max(5, 6, …)
let min = Math.min.apply(null, numbers);
// vs. simple loop based algorithm
max = -Infinity;
min = +Infinity;
for (let i = 0; i < numbers.length; i++) {
if (numbers[i] > max) {
max = numbers[i];
}
if (numbers[i] < min) {
min = numbers[i];
}
}
But beware: by using apply()
(or the spread syntax) with an arbitrarily long arguments list, you run the risk of exceeding the JavaScript engine's argument length limit.
The consequences of calling a function with too many arguments (that is, more than tens of thousands of arguments) is unspecified and varies across engines. (The JavaScriptCore engine has a hard-coded argument limit of 65536.) Most engines throw an exception; but there's no normative specification preventing other behaviors, such as arbitrarily limiting the number of arguments actually passed to the applied function. To illustrate this latter case: if such an engine had a limit of four arguments (actual limits are of course significantly higher), it would be as if the arguments 5, 6, 2, 3
had been passed to apply
in the examples above, rather than the full array.
If your value array might grow into the tens of thousands, use a hybrid strategy: apply your function to chunks of the array at a time:
function minOfArray(arr) {
let min = Infinity;
const QUANTUM = 32768;
for (let i = 0; i < arr.length; i += QUANTUM) {
const submin = Math.min.apply(
null,
arr.slice(i, Math.min(i + QUANTUM, arr.length)),
);
min = Math.min(submin, min);
}
return min;
}
const min = minOfArray([5, 6, 2, 3, 7]);
Specifications
Specification |
---|
ECMAScript Language Specification # sec-function.prototype.apply |
Browser compatibility
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