1248

Suppose I have any variable, which is defined as follows:

var a = function() {/* Statements */};

I want a function which checks if the type of the variable is function-like. i.e. :

function foo(v) {if (v is function type?) {/* do something */}};
foo(a);

How can I check if the variable a is of type Function in the way defined above?

3
  • 3
    here a benchmark for this most common ways to check this jsben.ch/#/e5Ogr Oct 25, 2016 at 8:31
  • An introspection method like isES3Function detects whether the passed value is the function type exclusively known back at ES3, whereas isGenericFunction would detect whether the passed value is a generic (or unspecific/non-specific) function, hence either a good old ES3 function or a non async arrow function Nov 28, 2023 at 13:05
  • Nowadays function specific introspection is much more complex than what one might think first place. A few cases can be solved directly. The ones not being detectable have to be looked up from configs. The majority can be deduced by combining both approaches, applying including and excluding strategies. Detecting a good old ES3 function e.g. reads like that ... is a function type and has a writable prototype and is neither generator nor class. Nov 28, 2023 at 14:00

22 Answers 22

2281
if (typeof v === 'function') {
    // do something
}
12
  • 63
    Just watch out for a few things like typeof Object, typeof Date, and typeof String, which all return 'function' too.
    – Dave Ward
    May 14, 2011 at 6:21
  • 451
    @Dave, I'm not sure what the problem is since those are functions. May 14, 2011 at 15:41
  • 22
    What is the difference with if (v instanceOf Function)?
    – mquandalle
    Sep 17, 2013 at 23:38
  • 15
    @mquandalle No big difference, except instanceof won't work if you're checking a function that came from another document (an iframe, maybe). Performance varies.
    – rvighne
    Feb 1, 2014 at 0:18
  • 16
    unlike the accepted answer this works for async functions too. For an asyncfunctionToCheck, getType.toString.call(functionToCheck)==='[object AsyncFunction]' where as typeof asyncfunctionToCheck === 'function'
    – TDreama
    Nov 4, 2017 at 15:45
447

Sure underscore's way is more efficient, but the best way to check, when efficiency isn't an issue, is written on underscore's page linked by @Paul Rosania.

Inspired by underscore, the final isFunction function is as follows:

function isFunction(functionToCheck) {
 return functionToCheck && {}.toString.call(functionToCheck) === '[object Function]';
}

Note: This solution doesn't work for async functions, generators or proxied functions. Please see other answers for more up to date solutions.

15
  • 1
    There might be someone who has made more extensive research on the matter, but have a look at the results of revision 4 of the jsperf with simple "result verification". isFunctionA shows an implementation difference compared to the other methods.
    – Joel Purra
    Feb 2, 2012 at 18:41
  • 30
    With updated performance tests it looks like there's a huge speed difference depending on your browser. In Chrome typeof(obj) === 'function' appears to be the fastest by far; however, in Firefox obj instanceof Function is the clear winner. Oct 3, 2012 at 18:04
  • 7
    Regarding the part: typeof should only be used for checking if variables or properties are undefined. At javascript.info/tutorial/type-detection in the A good use of typeof section and the following one the author states, that the case is exactly the opposite Aug 20, 2013 at 11:05
  • 13
    Alex, I'm curious why you say typeof should only be uset to check for undefined. It's name suggests it's purpose is to check the type of something, not just whether it exists. Are there technical issues or problems that can arise when using it to do type checking, or is it more of a preference? If there are caveats it would be good to list them so others can avoid tripping over them. Jan 15, 2014 at 19:07
  • 8
    Please continue scrolling to find a much easier solution.
    – jlh
    Feb 11, 2020 at 15:14
201

There are several ways so I will summarize them all

  1. Best way is:
    function foo(v) {if (v instanceof Function) {/* do something */} };
    

    Most performant (no string comparison) and elegant solution - the instanceof operator has been supported in browsers for a very long time, so don't worry - it will work in IE 6.

  2. Next best way is:
    function foo(v) {if (typeof v === "function") {/* do something */} };
    

    disadvantage of typeof is that it is susceptible to silent failure, bad, so if you have a typo (e.g. "finction") - in this case the if will just return false and you won't know you have an error until later in your code

  3. The next best way is:
    function isFunction(functionToCheck) {
        var getType = {};
        return functionToCheck && getType.toString.call(functionToCheck) === '[object Function]';
    }
    

    This has no advantage over solution #1 or #2 but is a lot less readable. An improved version of this is

    function isFunction(x) {
        return Object.prototype.toString.call(x) == '[object Function]';
    }
    

    but still lot less semantic than solution #1

3
  • 17
    The first solution fails in case of a function passed to a different frame context. For example, from an iframe top.Function !== Function. To be sure, use the second one (any misspelling of "function" would be corrected during debug, hopefully).
    – MaxArt
    Aug 15, 2014 at 19:34
  • 4
    Regarding your point about typos: any code which has this typo is likely to fail quickly/ is no more apparent than any other bugs based on typos. typeof === "function" is the cleanest solution. Additionally your “best” solution where you use instanceof does not take into account multiple globals, such as a check across frames, and can return false negatives.
    – brainkim
    Apr 12, 2018 at 17:30
  • The typo story was just to mention the harmfulness of magic strings. Avoid magic strings where you can.
    – ThaJay
    Oct 5, 2021 at 11:55
145

Underscore.js uses a more elaborate but highly performant test:

_.isFunction = function(obj) {
  return !!(obj && obj.constructor && obj.call && obj.apply);
};

See: https://jsben.ch/B6h73

EDIT: updated tests suggest that typeof might be faster, see https://jsben.ch/B6h73

7
  • 1
    Underscore's version is much faster in most browsers. See: jsperf.com/alternative-isfunction-implementations May 14, 2011 at 6:16
  • 22
    I sure do like underscore, simple but powerful. That said, its probably worth noting that this implementation could be spoofed by an object with those attributes.
    – studgeek
    Aug 26, 2011 at 18:57
  • 3
    @PaulRosania Stumbled upon these performance tests earlier today, and updated them with verification plus more test data as revision 4 - please run it to increase browser test coverage. It's slower in operations per second (due to the many tests), but it also shows one implementation difference (open your javascript console and reload page, there might be logged error messages). Note: Revision 3 added isFunctionD (based on only typeof == "function") - and it seems to be much faster than Underscore's "fast" version.
    – Joel Purra
    Feb 2, 2012 at 18:35
  • 8
    This answer is a bit misleading now, as Underscore.js is now on revision 12, not the above-referenced revision 4, of its test of alternative isFunction() implementations. It currently uses something very close to what dandean suggested. May 4, 2013 at 3:09
  • 3
    Underscore.js now uses typeof obj == 'function' || false. (Source) Apr 29, 2021 at 19:41
93

jQuery (deprecated since version 3.3) Reference

$.isFunction(functionName);

AngularJS Reference

angular.isFunction(value);

Lodash Reference

_.isFunction(value);

Underscore Reference

_.isFunction(object); 

Node.js deprecated since v4.0.0 Reference

var util = require('util');
util.isFunction(object);
62

@grandecomplex: There's a fair amount of verbosity to your solution. It would be much clearer if written like this:

function isFunction(x) {
  return Object.prototype.toString.call(x) == '[object Function]';
}
4
  • Object.prototype.toString.call is useful for other javascript types your interested in. You can even check against null or undefined which makes it very powerful. Nov 29, 2012 at 15:43
  • This answer needs more upvotes as it is currently the most accurate
    – Bobby Axe
    Jun 20, 2021 at 16:00
  • 1
    This doesn't work for async functions nor generator functions
    – lwdthe1
    Mar 26, 2023 at 21:23
  • @lwdthe1 Excellent point: var f = async () => 5; Object.prototype.toString.call(f) gives '[object AsyncFunction]' Not insane or out of left field, but good to keep in mind.
    – ruffin
    Nov 14, 2023 at 18:40
58
+50

Something with more browser support and also include async functions could be:

const isFunction = value => value ? (Object.prototype.toString.call(value) === "[object Function]" || "function" === typeof value || value instanceof Function) : false;

and then test it like:

isFunction(isFunction); //true
isFunction(function(){}); //true
isFunction(()=> {}); //true
isFunction(()=> {return 1}); //true
isFunction(async function asyncFunction(){}); //true
isFunction(Array); //true
isFunction(Date); //true
isFunction(Object); //true
isFunction(Number); //true
isFunction(String); //true
isFunction(Symbol); //true
isFunction({}); //false
isFunction([]); //false
isFunction("function"); //false
isFunction(true); //false
isFunction(1); //false
isFunction("Alireza Dezfoolian"); //false
2
  • isFunction(null) or isFunction(undefined) returns null instead of true or false. Nov 22, 2023 at 10:32
  • Also isFunction('[object Function]') gives a false positive Nov 22, 2023 at 11:59
52

const foo = function() {};
if (typeof foo === 'function') {
  console.log('is function')
}

1
  • 1
    ...and (() => (typeof obj === 'function') && doSomething()) is still fastest option.
    – darcher
    Dec 21, 2018 at 16:15
43

Try the instanceof operator: it seems that all functions inherit from the Function class:

// Test data
var f1 = function () { alert("test"); }
var o1 = { Name: "Object_1" };
F_est = function () { };
var o2 = new F_est();

// Results
alert(f1 instanceof Function); // true
alert(o1 instanceof Function); // false
alert(o2 instanceof Function); // false
1
  • 1
    As is pointed out elsewhere, this can fail if the function comes from another document (e.g. iframe), as each will have its own separate Function.
    – snarf
    Mar 13, 2021 at 22:23
13

An other simply way:

var fn = function () {}
if (fn.constructor === Function) {
  // true
} else {
  // false
}
2
  • 2
    if fn will be undefined it will throw an Error Dec 7, 2017 at 14:45
  • fn && fn.constructor === Function how about this? Mar 1, 2019 at 11:04
12

For those who's interested in functional style, or looks for more expressive approach to utilize in meta programming (such as type checking), it could be interesting to see Ramda library to accomplish such task.

Next code contains only pure and pointfree functions:

const R = require('ramda');

const isPrototypeEquals = R.pipe(Object.getPrototypeOf, R.equals);

const equalsSyncFunction = isPrototypeEquals(() => {});

const isSyncFunction = R.pipe(Object.getPrototypeOf, equalsSyncFunction);

As of ES2017, async functions are available, so we can check against them as well:

const equalsAsyncFunction = isPrototypeEquals(async () => {});

const isAsyncFunction = R.pipe(Object.getPrototypeOf, equalsAsyncFunction);

And then combine them together:

const isFunction = R.either(isSyncFunction, isAsyncFunction);

Of course, function should be protected against null and undefined values, so to make it "safe":

const safeIsFunction = R.unless(R.isNil, isFunction);

And, complete snippet to sum up:

const R = require('ramda');

const isPrototypeEquals = R.pipe(Object.getPrototypeOf, R.equals);

const equalsSyncFunction = isPrototypeEquals(() => {});
const equalsAsyncFunction = isPrototypeEquals(async () => {});

const isSyncFunction = R.pipe(Object.getPrototypeOf, equalsSyncFunction);
const isAsyncFunction = R.pipe(Object.getPrototypeOf, equalsAsyncFunction);

const isFunction = R.either(isSyncFunction, isAsyncFunction);

const safeIsFunction = R.unless(R.isNil, isFunction);

// ---

console.log(safeIsFunction( function () {} ));
console.log(safeIsFunction( () => {} ));
console.log(safeIsFunction( (async () => {}) ));
console.log(safeIsFunction( new class {} ));
console.log(safeIsFunction( {} ));
console.log(safeIsFunction( [] ));
console.log(safeIsFunction( 'a' ));
console.log(safeIsFunction( 1 ));
console.log(safeIsFunction( null ));
console.log(safeIsFunction( undefined ));

However, note the this solution could show less performance than other available options due to extensive usage of higher-order functions.

0
7

If you use Lodash you can do it with _.isFunction.

_.isFunction(function(){});
// => true

_.isFunction(/abc/);
// => false

_.isFunction(true);
// => false

_.isFunction(null);
// => false

This method returns true if value is a function, else false.

7

This is an old question but there are some considerations in 2022:

First, browser compatibility: instanceof is supported by all modern browsers as well as Deno and NodeJS. Also, it's syntactically readable and more friendly than typeof. Finally, it provides a good performance over string comparison but is slower than typeof. Therefore, for me this is the a good option

const fnc = () => {}
const isFunction = f => !!f && f instanceof Function
const isFunctionFaster = f => !!f && 'function' === typeof f

console.log({
  isFunction: isFunction(fnc),
  isFunctionFaster: isFunctionFaster(fnc),
})

Notice

It is important to understand that this is a optimized function for benchmarking. When you bench mark you want to pass all the test like null, undefined and some on possible parameters received. f && ... filter this null like parameters to reduce computation time.

This operator tests the presence of constructor.prototype in the object's prototype chain. This usually (though not always) means object was constructed with constructor. Therefore, this process is slower compared with typeof operator.

typeof v === 'function')

This operator returns a string indicating the type of the operand's value. This is executed very fast.

  • Caveats of instanceof and typeof operators:

Remember that a class declaration, it's also considered as a function by the these operators, as you can see in this snippet:

// Class Declaration
class A {}

// Instances
const obj = {}
const arr = []
const fnc = () => {}
const a = new A()

console.log('typeof')
console.log(`Object[${typeof Object}], obj[${typeof obj}]`)
console.log(`Array[${typeof Array}], arr[${typeof arr}]`)
console.log(`Function[${typeof Function}], fnc[${typeof fnc}]`)
console.log(`A[${typeof A}], a[${typeof a}]`)

console.log('instanceof')
console.log(`Object[${Object instanceof Object}], obj[${obj instanceof Object}]`)
console.log(`Array[${Array instanceof Array}], arr[${arr instanceof Array}]`)
console.log(`Function[${Function instanceof Function}], fnc[${fnc instanceof Function}]`)
console.log(`A[${A instanceof A}], a[${a instanceof A}]`)

Here is a basic sample of the isFunction and isFunctionFaster usage with different instances:

// Functions
const isNil = o => o == null
const isFunction = f => !!f && f instanceof Function
const isFunctionFaster = f => !!f && 'function' === typeof f

class A {}

function basicFnc(){}
async function asyncFnc(){}

const arrowFnc = ()=> {}
const arrowRFnc = ()=> 1

// Not functions
const obj = {}
const arr = []
const str = 'function'
const bol = true
const num = 1
const a = new A()

const list = [
    isFunction,
    isFunctionFaster,
    basicFnc,
    arrowFnc,
    arrowRFnc,
    asyncFnc,
    Array,
    Date,
    Object,
    Number,
    String,
    Symbol,
    A,
    obj,
    arr,
    str,
    bol,
    num,
    a,
    null,
    undefined,
]

for (const arg of list) {
  console.log(`${arg} is a function: ${isFunction(arg)}`)
}

Here is a basic benchmark of these functions:

/**
 * Figure out how long it takes for a method to execute.
 * 
 * @param {Function} method to test 
 * @param {number} iterations number of executions.
 * @param {Array} args to pass in. 
 * @param {T} context the context to call the method in.
 * @return {number} the time it took, in milliseconds to execute.
 */
const bench = (method, list, iterations, context) => {
    let start = 0
    const timer = action => {
        const time = performance.now()
        switch (action) {
            case 'start':
                start = time
                return 0
            case 'stop':
                const elapsed = time - start
                start = 0
                return elapsed
            default:
                return time - start
        }
    };

    const result = []
    timer('start')
    list = [...list]
    for (let i = 0; i < iterations; i++) {
      for (const args of list) {
        result.push(method.apply(context, args))
      }
    }
    const elapsed = timer('stop')
    
    console.log(`Called method [${method.name}]`)
    console.log(`Mean: ${elapsed / iterations}`)
    console.log(`Exec. time: ${elapsed}`)

    return elapsed
}

const fnc = () => {}
const isFunction = (f) => f && f instanceof Function
const isFunctionFaster = (f) => f && 'function' === typeof f


class A {}

function basicFnc(){}
async function asyncFnc(){}

const arrowFnc = ()=> {}
const arrowRFnc = ()=> 1

// Not functions
const obj = {}
const arr = []
const str = 'function'
const bol = true
const num = 1
const a = new A()

const list = [
    [isFunction],
    [basicFnc],
    [arrowFnc],
    [arrowRFnc],
    [asyncFnc],
    [Array],
    [Date],
    [Object],
    [Number],
    [String],
    [Symbol],
    [A],
    [obj],
    [arr],
    [str],
    [bol],
    [num],
    [a],
    [null],
    [undefined],
]

const e1 = bench(isFunction, list, 10000)
const e2 = bench(isFunctionFaster, list, 10000)

const rate = e2/e1
const percent = Math.abs(1 - rate)*100

console.log(`[isFunctionFaster] is ${(percent).toFixed(2)}% ${rate < 1 ? 'faster' : 'slower'} than [isFunction]`)

Conclusion

In general isFunctionFaster is faster than isFunction in 30%.

5

The below seems to work for me as well (tested from node.js):

var isFunction = function(o) {
     return Function.prototype.isPrototypeOf(o);
};

console.log(isFunction(function(){})); // true
console.log(isFunction({})); // false
4

I found that when testing native browser functions in IE8, using toString, instanceof, and typeof did not work. Here is a method that works fine in IE8 (as far as I know):

function isFn(f){
    return !!(f && f.call && f.apply);
}
//Returns true in IE7/8
isFn(document.getElementById);

Alternatively, you can check for native functions using:

"getElementById" in document

Though, I have read somewhere that this will not always work in IE7 and below.

0
4

I think you can just define a flag on the Function prototype and check if the instance you want to test inherited that

define a flag:

Function.prototype.isFunction = true; 

and then check if it exist

var foo = function(){};
foo.isFunction; // will return true

The downside is that another prototype can define the same flag and then it's worthless, but if you have full control over the included modules it is the easiest way

1
  • 2
    It will fail with Error if foo is undefined. Not mentioning that you modify native prototype which is totally wrong. Dec 7, 2017 at 14:29
3

you should use typeOf operator in js.

var a=function(){
    alert("fun a");
}
alert(typeof a);// alerts "function"
3

Since node v0.11 you can use the standard util function :

var util = require('util');
util.isFunction('foo');
1
  • 3
    util.isFunction is deprecated
    – kehers
    Jan 28, 2016 at 8:09
2

if you are looking for a simple solution:

 function isFunction(value) {
   return value instanceof Function
}
0

Becareful about this :

typeof Object === "function" // true.
typeof Array  === "function" // true
1
  • 1
    Object and Array are both constructors, even though they share some static methods you might wanna use, it's highly unlikely anybody's going to check their types like that. Are there any reasons that could happen? I currently can't come out with any except for programmer's error.
    – Shape
    Dec 21, 2021 at 21:41
0

There are functions whose arguments can be passed either as a value or though a callback. To implement them a nice helper function that utilizes type detection is the following:

const toCallback = (v)=>(v instanceof Function)?v:()=>v

Then let's say you want to implement a function that can receive either a fixed value or a callback that returns the value. See below:

let someFunction=(valueOrFunction)=>{
    let f = toCallback(valueOrFunction); 
    [1,2,3].forEach(v=>console.log(`value passed: ${f()}`))   
}

and now you can execute the above in two ways:

someFunction(5);
//value passed: 5
//value passed: 5
//value passed: 5

someFunction(()=>Math.random());
//value passed: 0.3218832537523002
//value passed: 0.2343617971814611
//value passed: 0.38216627030533656
0

This is a bit tricky question as you need to define "what is a function?" first. Let's look at node (V8 implementation of JavaScript engine). It is written in C++ but also has parts in JavaScript. Some functions are magically mapped to C++ functions. Those do not have all the properties of standard function. Other functions are simply JavaScript functions with prototype set to null. It means they don't inherit from Object and wouldn't have methods such as toString() and similar. Then finally you have standard instances of Function. And there is also AsyncFunction which is a Function but a bit different. Think what about a promise that returns a function - is it a Function or rather a Promise? Is Promise a Function?

This told let's see how node implements checking if an argument is an AsyncFunction: readable-stream defined AsyncFunction as a prototype of async function. Then type check is simply typeof arg === 'function' as seen here.

  • You need to define "what is a function" first
  • If you understand it as an instance of some class then you can use for example arg instanceof Function which returns a boolean
  • If you wish to see what the function inherits from then you could check its prototype
  • If you define anything that can be called a function - check if it is callable
  • There are still some issues with that :(
// It doesn't really matter if you use named function or not - but that is cool to know that it can have a name :)
let f = function aNamedFunction(){console.log('hello')};
f.prototype = null;
console.log(f instanceof Function, typeof f); // true, function
f.__proto__ = null;
console.log(f instanceof Function); // false, function
console.log(Object.getOwnPropertyNames(f)); // prototype, length, name
f(); // 'hello'

To summarize: The typeof arg === 'function' seems pretty good (though there are few fancy scenarios where it would fail).

1
  • Function specific introspection is even more complex than what you mentioned above. Few cases can be solved directly. The ones not being detectable have to be looked up from configs. The majority can be deduced by combining both approaches, applying including/excluding strategies. Detecting a good old ES3 function e.g. reads like that ... is a function type and has a writable prototype and is neither generator nor class. Nov 28, 2023 at 14:02

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