The typeof operator doesn't really help us to find the real type of an object.

I've already seen the following code :



Is it the most accurate way of checking the object's type?


The JavaScript specification gives exactly one proper way to determine the class of an object:



  • 5
    If you're looking for a specific type you would likely want to do something along the lines of: Object.prototype.toString.call(new FormData()) === "[object FormData]" which would be true. You can also use slice(8, -1) to return FormData instead of [object FormData] – Chris Marisic Dec 17 '14 at 0:36
  • 4
    Is there any difference between using Object.prototype and {}? – GetFree Jun 13 '15 at 5:25
  • 3
    maybe this has changed over the years, but Object.prototype.toString.call(new MyCustomObject()) returns [object Object] whereas new MyCustomObject() instanceOf MyCustomObject returns true which is what I wanted (Chrome 54.0.2840.99 m) – Maslow Nov 18 '16 at 18:54
  • @Maslow, I've ran into the same issue that you brought up. After looking through some documentation online, I ended up using new MyCustomObject().constructor === MyCustomObject. – solstice333 Apr 15 '17 at 22:23
  • 3
    It begs the question, why have they no wrapped this code in a more convenient method, or allowed an additional operator compile to this. I know you are only the messenger, but quite frankly that is awful. – Andrew S Apr 1 '18 at 16:04

the Object.prototype.toString is a good way, but its performance is the worst.


check js type performance

Use typeof to solve some basic problem(String, Number, Boolean...) and use Object.prototype.toString to solve something complex(like Array, Date, RegExp).

and this is my solution:

var type = (function(global) {
    var cache = {};
    return function(obj) {
        var key;
        return obj === null ? 'null' // null
            : obj === global ? 'global' // window in browser or global in nodejs
            : (key = typeof obj) !== 'object' ? key // basic: string, boolean, number, undefined, function
            : obj.nodeType ? 'object' // DOM element
            : cache[key = ({}).toString.call(obj)] // cached. date, regexp, error, object, array, math
            || (cache[key] = key.slice(8, -1).toLowerCase()); // get XXXX from [object XXXX], and cache it

use as:

type(function(){}); // -> "function"
type([1, 2, 3]); // -> "array"
type(new Date()); // -> "date"
type({}); // -> "object"
  • That test on jsPerf isn't quite accurate. Those tests are not equal (testing for the same thing). E.g., typeof [] returns "object", typeof {} also returns "object", even though one is an object Array and the other is an object Object. There are many other problems with that test... Be careful when looking at jsPerf that the tests are comparing Apples to Apples. – kmatheny Sep 26 '12 at 19:43
  • Your type function is good, but look at how it does compared to some other type functions. http://jsperf.com/code-type-test-a-test – Progo Mar 20 '14 at 12:26
  • 20
    These performance metrics should be tempered with some common sense. Sure, the prototype.toString is slower than the others by an order of magnitude, but in the grand scheme of things it takes on average a couple hundred nanoseconds per call. Unless this call is being used in a critical path that's very frequently executed, this is probably harmless. I'd rather have straight forward code than code that finishes one microsecond faster. – David Oct 9 '14 at 14:58
  • ({}).toString.call(obj) is slower than Object.prototype.toString jsperf.com/object-check-test77 – timaschew Oct 10 '15 at 10:41
  • Nice solution. I borrow your function into my lib :) – Dong Nguyen Apr 8 '16 at 8:01

Accepted answer is correct, but I like to define this little utility in most projects I build.

var types = {
   'get': function(prop) {
      return Object.prototype.toString.call(prop);
   'null': '[object Null]',
   'object': '[object Object]',
   'array': '[object Array]',
   'string': '[object String]',
   'boolean': '[object Boolean]',
   'number': '[object Number]',
   'date': '[object Date]',

Used like this:

if(types.get(prop) == types.number) {


If you're using angular you can even have it cleanly injected:

angular.constant('types', types);
var o = ...
var proto =  Object.getPrototypeOf(o);
proto === SomeThing;

Keep a handle on the prototype you expect the object to have, then compare against it.

for example

var o = "someString";
var proto =  Object.getPrototypeOf(o);
proto === String.prototype; // true
  • How is this better/different than saying o instanceof String; //true? – Jamie Treworgy Oct 25 '11 at 18:53
  • @jamietre because "foo" instanceof String breaks – Raynos Oct 25 '11 at 18:58
  • OK, so "typeof(o) === 'object' && o instanceof SomeObject". It's easy to test for strings. Just seems like extra work, without solving the basic problem of having to know in advance what you are testing for. – Jamie Treworgy Oct 25 '11 at 19:01
  • Sorry that code snippet makes no sense but I think you know what I mean, if you are testing for strings, then use typeof(x)==='string' instead. – Jamie Treworgy Oct 25 '11 at 19:06
  • BTW, Object.getPrototypeOf(true) fails where (true).constructor returns Boolean. – katspaugh Oct 25 '11 at 19:46

I'd argue that most of the solutions shown here suffer from being over-engineerd. Probably the most simple way to check if a value is of type [object Object] is to check against the .constructor property of it:

function isObject (a) { return a != null && a.constructor === Object; }

or even shorter with arrow-functions:

const isObject = a => a != null && a.constructor === Object;

The a != null part is necessary because one might pass in null or undefined and you cannot extract a constructor property from either of these.

It works with any object created via:

  • the Object constructor
  • literals {}

Another neat feature of it, is it's ability to give correct reports for custom classes which make use of Symbol.toStringTag. For example:

class MimicObject {
  get [Symbol.toStringTag]() {
    return 'Object';

The problem here is that when calling Object.prototype.toString on an instance of it, the false report [object Object] will be returned:

let fakeObj = new MimicObject();
Object.prototype.toString.call(fakeObj); // -> [object Object]

But checking against the constructor gives a correct result:

let fakeObj = new MimicObject();
fakeObj.constructor === Object; // -> false

The best way to find out the REAL type of an object (including BOTH the native Object or DataType name (such as String, Date, Number, ..etc) AND the REAL type of an object (even custom ones); is by grabbing the name property of the object prototype's constructor:

Native Type Ex1:

var string1 = "Test";




var array1 = [];



Custom Classes:

function CustomClass(){
  console.log("Custom Class Object Created!");
var custom1 = new CustomClass();



  • This fails if the object is either null or undefined. – Julian Knight Jun 7 '20 at 13:54

Old question I know. You don't need to convert it. See this function:

function getType( oObj )
    if( typeof oObj === "object" )
          return ( oObj === null )?'Null':
          // Check if it is an alien object, for example created as {world:'hello'}
          ( typeof oObj.constructor !== "function" )?'Object':
          // else return object name (string)

    // Test simple types (not constructed types)
    return ( typeof oObj === "boolean")?'Boolean':
           ( typeof oObj === "number")?'Number':
           ( typeof oObj === "string")?'String':
           ( typeof oObj === "function")?'Function':false;



function MyObject() {}; // Just for example

console.log( getType( new String( "hello ") )); // String
console.log( getType( new Function() );         // Function
console.log( getType( {} ));                    // Object
console.log( getType( [] ));                    // Array
console.log( getType( new MyObject() ));        // MyObject

var bTest = false,
    uAny,  // Is undefined
    fTest  function() {};

 // Non constructed standard types
console.log( getType( bTest ));                 // Boolean
console.log( getType( 1.00 ));                  // Number
console.log( getType( 2000 ));                  // Number
console.log( getType( 'hello' ));               // String
console.log( getType( "hello" ));               // String
console.log( getType( fTest ));                 // Function
console.log( getType( uAny ));                  // false, cannot produce
                                                // a string

Low cost and simple.

  • Returns false if the test object is null or undefined – Julian Knight Jun 7 '20 at 13:56
  • or true or false – Julian Knight Jun 7 '20 at 14:03
  • @JulianKnight false is okay at null or undefined, it is nothing useful. So what is the point? – Codebeat Jun 8 '20 at 14:15
  • your example returns inconsistent data. Some results are the data type and others are the value false. How does this help answer the Question? – Julian Knight Jun 13 '20 at 13:30
  • 1
    @JulianKnight See changes, is that what you want? If you prefer undefined or "undefined" as result, you can replace the last false if you like to. – Codebeat Jun 16 '20 at 20:32

The best solution is toString (as stated above):

function getRealObjectType(obj: {}): string {
    return Object.prototype.toString.call(obj).match(/\[\w+ (\w+)\]/)[1].toLowerCase();

enter image description here

FAIR WARNING: toString considers NaN a number so you must manually safeguard later with Number.isNaN(value).

The other solution suggested, using Object.getPrototypeOf fails with null and undefined

Using constructor

  • For NaN guarding, use Number.isNan(+value) to handle the case where value was defined via new Number(NaN). – Ed_Johnsen Jul 2 at 22:27
  • @Ed_Johnsen thank you for pointing this out! Indeed Number.isNaN(new Number(NaN)) // false but Number.isNaN(+(new Number(NaN))) // true – Șerban Ghiță Jul 6 at 7:12

I put together a little type check utility inspired by the above correct answers:

thetypeof = function(name) {
        let obj = {};
        obj.object = 'object Object'
        obj.array = 'object Array'
        obj.string = 'object String'
        obj.boolean = 'object Boolean'
        obj.number = 'object Number'
        obj.type = Object.prototype.toString.call(name).slice(1, -1)
        obj.name = Object.prototype.toString.call(name).slice(8, -1)
        obj.is = (ofType) => {
            ofType = ofType.toLowerCase();
            return (obj.type === obj[ofType])? true: false
        obj.isnt = (ofType) => {
            ofType = ofType.toLowerCase();
            return (obj.type !== obj[ofType])? true: false
        obj.error = (ofType) => {
            throw new TypeError(`The type of ${name} is ${obj.name}: `
            +`it should be of type ${ofType}`)
        return obj;


if (thetypeof(prop).isnt('String')) thetypeof(prop).error('String')
if (thetypeof(prop).is('Number')) // do something
  • 1
    Doesn't seem to work for objects that are null or undefined or true or false – Julian Knight Jun 7 '20 at 14:00

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