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Is there a JavaScript equivalent of Java's class.getName()?

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14 Answers 14

up vote 841 down vote accepted

Here is a hack that will do what you need - be aware that it modifies the Object's prototype, something people frown upon (usually for good reason)

Object.prototype.getName = function() { 
   var funcNameRegex = /function (.{1,})\(/;
   var results = (funcNameRegex).exec((this).constructor.toString());
   return (results && results.length > 1) ? results[1] : "";
};

Now, all of your objects will have the function, getName(), that will return the name of the constructor as a string. I have tested this in FF3 and IE7, I can't speak for other implementations.

If you don't want to do that, here is a discussion on the various ways of determining types in JavaScript...


I recently updated this to be a bit more exhaustive, though it is hardly that. Corrections welcome...

Using the constructor property...

Every object has a value for its constructor property, but depending on how that object was constructed as well as what you want to do with that value, it may or may not be useful.

Generally speaking, you can use the constructor property to test the type of the object like so:

var myArray = [1,2,3];
(myArray.constructor == Array); // true

So, that works well enough for most needs. That said...

Caveats

An example where it isn't as obvious is using multiple inheritance:

function a() { this.foo = 1;}
function b() { this.bar = 2; }
b.prototype = new a(); // b inherits from a

Things now don't work as you might expect them to:

var f = new b(); // instantiate a new object with the b constructor
(f.constructor == b); // false
(f.constructor == a); // true

So, you might get unexpected results if the object your testing has a different object set as its prototype. There are ways around this outside the scope of this discussion.

There are other uses for the constructor property, some of them interesting, others not so much; for now we will not delve into those uses since it isn't relevant to this discussion.

Will not work cross-frame and cross-window

Using .constructor for type checking will break when you want to check the type of objects coming from different window objects, say that of an iframe or a popup window. This is because there's a different version of each core type constructor in each `window', i.e.

iframe.contentWindow.Array === Array // false

Using the instanceof operator...

The instanceof operator is a clean way of testing object type as well, but has its own potential issues, just like the constructor property.

var myArray = [1,2,3];
(myArray instanceof Array); // true
(myArray instanceof Object); // true

But instanceof fails to work for primitive values

3 instanceof Number // false
'abc' instanceof String // false
true instanceof Boolean // false

A wrapper is needed around primitives in order for instanceof to work, for example

new Number(3) instanceof Number // true

This is ironic because the .constructor check works fine for primitives

3..constructor === Number // true
'abc'.constructor === String // true
true.constructor === Boolean // true

Why two dots for the 3? Because Javascript interprets the first dot as a decimal point ;)

Will not work cross-frame and cross-window

instanceof also will not work across different windows, for the same reason as the constructor property check.


Using the name property of the constructor property...

Does NOT work in <IE9

Using myObjectInstance.constructor.name will give you a string containing the name of the constructor function used, but is subject to the caveats about the constructor property that were mentioned earlier.

For IE9 and above, you can monkey-patch in support:

if (Function.prototype.name === undefined && Object.defineProperty !== undefined) {
    Object.defineProperty(Function.prototype, 'name', {
        get: function() {
            var funcNameRegex = /function\s+([^\s(]+)\s*\(/;
            var results = (funcNameRegex).exec((this).toString());
            return (results && results.length > 1) ? results[1] : "";
        },
        set: function(value) {}
    });
}

Using Object.prototype.toString

It turns out, as this post details, you can use Object.prototype.toString - the low level and generic implementation of toString - to get the type for all built-in types

Object.prototype.toString.call('abc') // [object String]
Object.prototype.toString.call(/abc/) // [object RegExp]
Object.prototype.toString.call([1,2,3]) // [object Array]

One could write a short helper function such as

function type(obj){
    return Object.prototype.toString.call(obj).slice(8, -1);
}

to remove the cruft and get at just the type name

type('abc') // String

However, it will return 'Object' for all user-defined types.


Caveats for all...

All of these are subject to one potential problem, and that is the question of how the object in question was constructed. Here are various ways of building objects and the values that the different methods of type checking will return:

// using a named function:
function Foo() { this.a = 1; }
var obj = new Foo();
(obj instanceof Object);          // true
(obj instanceof Foo);             // true
(obj.constructor == Foo);         // true
(obj.constructor.name == "Foo");  // true

// let's add some prototypical inheritance
function Bar() { this.b = 2; }
Foo.prototype = new Bar();
obj = new Foo();
(obj instanceof Object);          // true
(obj instanceof Foo);             // true
(obj.constructor == Foo);         // false
(obj.constructor.name == "Foo");  // false


// using an anonymous function:
obj = new (function() { this.a = 1; })();
(obj instanceof Object);              // true
(obj.constructor == obj.constructor); // true
(obj.constructor.name == "");         // true


// using an anonymous function assigned to a variable
var Foo = function() { this.a = 1; };
obj = new Foo();
(obj instanceof Object);      // true
(obj instanceof Foo);         // true
(obj.constructor == Foo);     // true
(obj.constructor.name == ""); // true


// using object literal syntax
obj = { foo : 1 };
(obj instanceof Object);            // true
(obj.constructor == Object);        // true
(obj.constructor.name == "Object"); // true

While not all permutations are present in this set of examples, hopefully there are enough to provide you with an idea about how messy things might get depending on your needs. Don't assume anything, if you don't understand exactly what you are after, you may end up with code breaking where you don't expect it to because of a lack of grokking the subtleties.

NOTE:

Discussion of the typeof operator may appear to be a glaring omission, but it really isn't useful in helping to identify whether an object is a given type, since it is very simplistic. Understanding where typeof is useful is important, but I don't currently feel that it is terribly relevant to this discussion. My mind is open to change though. :)

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28  
Well, I figured I might as well - the point of Stack Overflow is to be a bit like a wiki, and this is much more in line with that intent, I think. Regardless, I just wanted to be somewhat thorough. –  Jason Bunting Dec 5 '08 at 20:47
    
Re-iterating an answer below --- your extension to the Object prototype does not work in IE8 - does anyone know what would work in IE8? –  Adam Aug 17 '10 at 14:49
2  
It will work if you do it like this function a() { this.a = 1;} function b() { this.b = 2; } b.prototype = new a(); // b inherits from a b.prototype.constructor = b; // Correct way of prototypical inheritance var f = new b(); // create new object with the b constructor (f.constructor == b); // TRUE (f.constructor == a); // FALSE –  avok00 Jan 10 '11 at 15:36
2  
Now, this is how most of the answers should be on StackOverflow. (don't take length of the answer as a defining parameter, but the comprehensiveness) –  Kumar Harsh Aug 12 '12 at 19:51
13  
It's important to note that any techniques that inspect the object's constructor method (either with .toString() or .name) will fail to work if your Javascript has been minified with a tool like uglify, or the Rails asset pipeline. The minification renames the constructor, so you will end up with incorrect class names like n. If you're in this scenario, you may want to just manually define a className property on your objects and use that instead. –  Gabe Martin-Dempesy Dec 28 '12 at 16:12

DO NOT USE THE CONSTRUCTOR PROPERTY.

Read THIS first.

The correct code is:

function get_type(thing){
    if(thing===null)return "[object Null]"; // special case
    return Object.prototype.toString.call(thing);
}

// example results:
get_type(null)                    - [object Null]
get_type(window)                  - [object Window]
get_type([])                      - [object Array]
get_type(['1'])                   - [object Array]
get_type({})                      - [object Object]
get_type(document)                - [object HTMLDocument]
get_type(document.getElementById) - [object Function]

NB: According to specs, this function is the most reliable between different browsers.

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7  
This isn't entirely correct: get_type(undefined);, get_type(true);, get_type(NaN);, get_type(''); and get_type(eval); imply the argument is an object while typeof undefined;, typeof true;, typeof NaN;, typeof ''; and typeof eval; all return something else. In JavaScript, type is a property of value, hence objects don't have a type but a class. The PerfectionKills blog post actually contains a very good implementation by extending the Object prototype with getClass. –  Saul Aug 28 '11 at 15:51
    
@Saul I've read that blog, and it doesn't contradict what I said. If the OP wants cross-browser results, get_type is the way to go. –  Christian Aug 28 '11 at 22:41
    
What makes you think extending Object.prototype isn't a cross-browser solution? It is supported by virtually every modern browser and even by IE6. –  Saul Aug 29 '11 at 6:25
    
@Saul I never said it is not. I just said the constructor is not a cross-browser solution. The (well-deserved) accepted answer above uses a variation of my code as well as the PerfectionKills one. –  Christian Aug 29 '11 at 8:10
    
Er.. my initial comment was about extending Object.prototype not constructor. What I meant was that get_type gives misleading results by implying that all values in JavaScript are of object type. –  Saul Aug 29 '11 at 9:27

Jason Bunting's answer gave me enough of a clue to find what I needed:

<<Object instance>>.constructor.name

So, for example, in the following piece of code:

function MyObject() {}
var myInstance = new MyObject();

myInstance.constructor.name would return "MyObject".

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10  
For completeness, it might be worth mentioning that using constructor.name only works if you used a named function as the constructor as opposed to an anonymous function assigned to a variable. –  Matthew Crumley Dec 1 '08 at 22:24
15  
For completeness, it might worth mentioning that it doesn't work in IE browsers --- they do not support the "name" attribute on functions. –  Eugene Lazutkin Dec 2 '08 at 3:30
    
@Eugene - I forgot about that... I guess I've spent too much time doing javascript outside browsers. –  Matthew Crumley Dec 5 '08 at 23:14
1  
Doesn't seem to work in FF as well (v26) –  ricosrealm Jan 6 at 1:00

A little trick I use:

function Square(){
    this.className = "Square";
    this.corners = 4;
}

var MySquare = new Square();
console.log(MySquare.className); // "Square"
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5  
I do not particularly like this. It's more a kind of dirty trick. On the other hand, if you don't have too many constructors, it might work just fine. –  pimvdb Jun 17 '11 at 7:56
3  
@pimvdb: I think it's cleaner than modifying the object's prototype, a la the accepted answer. –  ajax81 May 13 '13 at 0:10

Update

To be precise, I think OP asked for a function that retrieves the constructor name for a particular object. In terms of Javascript, object does not have a type but is a type of and in itself. However, different objects can have different constructors.

Object.prototype.getConstructorName = function () {
   var str = (this.prototype ? this.prototype.constructor : this.constructor).toString();
   var cname = str.match(/function\s(\w*)/)[1];
   var aliases = ["", "anonymous", "Anonymous"];
   return aliases.indexOf(cname) > -1 ? "Function" : cname;
}

new Array().getConstructorName();  // returns "Array"
(function () {})().getConstructorName(); // returns "Function"

 


Note: the below example is deprecated.

A blog post linked by Christian Sciberras contains a good example on how to do it. Namely, by extending the Object prototype:

if (!Object.prototype.getClassName) {
    Object.prototype.getClassName = function () {
        return Object.prototype.toString.call(this).match(/^\[object\s(.*)\]$/)[1];
    }
}

var test = [1,2,3,4,5];

alert(test.getClassName()); // returns Array
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Nice, but we're into naming again: JS doesn't haven't classes. –  mikemaccana Jun 4 '12 at 13:34
    
@nailer - I recommend to use the updated function, the older one is kept for merely historic reasons. –  Saul Jun 4 '12 at 13:51
    
This works but it should be noted that it could be done without modifying Object.prototype, by creating a function that takes the object as a first argument and uses that instead of 'this' inside the function. –  Matt Browne Nov 11 '12 at 23:23
1  
@Matt - Sure. It is just that having an object method is more terse: test.getClassName() vs getClassName.apply(test). –  Saul Nov 12 '12 at 7:54

Here is a solution that I have come up with that solves the shortcomings of instanceof. It can check an object's types from cross-windows and cross-frames and doesn't have problems with primitive types.

function getType(o) {
    return Object.prototype.toString.call(o).match(/^\[object\s(.*)\]$/)[1];
}
function isInstance(obj, type) {
    var ret = false,
    isTypeAString = getType(type) == "String",
    functionConstructor, i, l, typeArray, context;
    if (!isTypeAString && getType(type) != "Function") {
        throw new TypeError("type argument must be a string or function");
    }
    if (obj !== undefined && obj !== null && obj.constructor) {
        //get the Function constructor
        functionConstructor = obj.constructor;
        while (functionConstructor != functionConstructor.constructor) {
            functionConstructor = functionConstructor.constructor;
        }
        //get the object's window
        context = functionConstructor == Function ? self : functionConstructor("return window")();
        //get the constructor for the type
        if (isTypeAString) {
            //type is a string so we'll build the context (window.Array or window.some.Type)
            for (typeArray = type.split("."), i = 0, l = typeArray.length; i < l && context; i++) {
                context = context[typeArray[i]];
            }
        } else {
            //type is a function so execute the function passing in the object's window
            //the return should be a constructor
            context = type(context);
        }
        //check if the object is an instance of the constructor
        if (context) {
            ret = obj instanceof context;
            if (!ret && (type == "Number" || type == "String" || type == "Boolean")) {
                ret = obj.constructor == context
            }
        }
    }
    return ret;
}

isInstance requires two parameters: an object and a type. The real trick to how it works is that it checks if the object is from the same window and if not gets the object's window.

Examples:

isInstance([], "Array"); //true
isInstance("some string", "String"); //true
isInstance(new Object(), "Object"); //true

function Animal() {}
function Dog() {}
Dog.prototype = new Animal();

isInstance(new Dog(), "Dog"); //true
isInstance(new Dog(), "Animal"); //true
isInstance(new Dog(), "Object"); //true
isInstance(new Animal(), "Dog"); //false

The type argument can also be a callback function which returns a constructor. The callback function will receive one parameter which is the window of the provided object.

Examples:

//"Arguments" type check
var args = (function() {
    return arguments;
}());

isInstance(args, function(w) {
    return w.Function("return arguments.constructor")();
}); //true

//"NodeList" type check
var nl = document.getElementsByTagName("*");

isInstance(nl, function(w) {
    return w.document.getElementsByTagName("bs").constructor;
}); //true

One thing to keep in mind is that IE < 9 does not provide the constructor on all objects so the above test for NodeList would return false and also a isInstance(alert, "Function") would return false.

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You can use the instanceof operator to see if an object is an instance of another, but since there are no classes, you can't get a class name.

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While it's true that JavaScript doesn't have classes as language construct, the generic convention is still that a type of an object is called a class.. –  Saul Aug 29 '11 at 6:31

You can use the "instanceof" operator to determine if an object is an instance of a certain class or not. If you do not know the name of an object's type, you can use its constructor property. The constructor property of objects, is a reference to the function that is used to initialize them. Example:

function Circle (x,y,radius) {
    this._x = x;
    this._y = y;
    this._radius = raduius;
}
var c1 = new Circle(10,20,5);

Now c1.constructor is a reference to the Circle() function. You can alsow use the typeof operator, but the typeof operator shows limited information. One solution is to use the toString() method of the Object global object. For example if you have an object, say myObject, you can use the toString() method of the global Object to determine the type of the class of myObject. Use this:

Object.prototype.toString.apply(myObject);
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Using Object.prototype.toString

It turns out, as this post details, you can use Object.prototype.toString - the low level and generic implementation of toString - to get the type for all built-in types

Object.prototype.toString.call('abc') // [object String]
Object.prototype.toString.call(/abc/) // [object RegExp]
Object.prototype.toString.call([1,2,3]) // [object Array]

One could write a short helper function such as

function type(obj){
    return Object.prototype.toString.call(obj]).match(/\s\w+/)[0].trim()
}

return [object String] as String
return [object Number] as Number
return [object Object] as Object
return [object Undefined] as Undefined
return [object Function] as Function
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The closest you can get is typeof, but it only returns "object" for any sort of custom type. For those, see Jason Bunting.

Edit, Jason's deleted his post for some reason, so just use Object's constructor property.

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Yeah, sorry - I deleted it because I figured instanceof() was a better way to do things, but I just undeleted it so that it can serve as a reference. –  Jason Bunting Dec 1 '08 at 22:30
    
Less than perfect answers are still useful, if only to others to come to the question later because they have a similar problem. So you really shouldn't delete them. Save deletes for wrong answers. –  sblundy Dec 1 '08 at 22:44
    
Yeah, I know - you are preaching to the choir, I have said the exact same thing to others. Living those things we know to be true is often harder than it looks. :) –  Jason Bunting Dec 1 '08 at 22:54

Use constructor.name when you can, and regex function when I can't.

Function.prototype.getName = function(){
  if (typeof this.name != 'undefined')
    return this.name;
  else
    return /function (.+)\(/.exec(this.toString())[1];
};
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The kind() function from Agave.JS will return:

  • the closest prototype in the inheritance tree
  • for always-primitive types like 'null' and 'undefined', the primitive name.

It works on all JS objects and primitives, regardless of how they were created, and doesn't have any surprises. Examples:

Numbers

kind(37) === 'Number'
kind(3.14) === 'Number'
kind(Math.LN2) === 'Number'
kind(Infinity) === 'Number'
kind(Number(1)) === 'Number'
kind(new Number(1)) === 'Number'

NaN

kind(NaN) === 'NaN'

Strings

kind('') === 'String'
kind('bla') === 'String'
kind(String("abc")) === 'String'
kind(new String("abc")) === 'String'

Booleans

kind(true) === 'Boolean'
kind(false) === 'Boolean'
kind(new Boolean(true)) === 'Boolean'

Arrays

kind([1, 2, 4]) === 'Array'
kind(new Array(1, 2, 3)) === 'Array'

Objects

kind({a:1}) === 'Object'
kind(new Object()) === 'Object'

Dates

kind(new Date()) === 'Date'

Functions

kind(function(){}) === 'Function'
kind(new Function("console.log(arguments)")) === 'Function'
kind(Math.sin) === 'Function'

undefined

kind(undefined) === 'undefined'

null

kind(null) === 'null'
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I was actually looking for a similar thing and came across this question. Here is how I get types: jsfiddle

var TypeOf = function ( thing ) {
    var typeOfThing = typeof thing;
    if ( typeOfThing === 'object' ) {
        typeOfThing = Object.prototype.toString.call(thing);
        if ( typeOfThing === '[object Object]') {
            if ( thing.constructor.name ) {
                return thing.constructor.name;
            } else if ( thing.constructor.toString().charAt(0) === '[' ) {
                typeOfThing = typeOfThing.substring(8,typeOfThing.length - 1);
            } else {
                typeOfThing = thing.constructor.toString().match(/function\s*(\w+)/);
                if ( typeOfThing ) { 
                    return typeOfThing[1];
                } else {
                    return 'Function';
                }
            }
        } else {
            typeOfThing = typeOfThing.substring(8,typeOfThing.length - 1);
        }
    }
    return typeOfThing.charAt(0).toUpperCase() + typeOfThing.slice(1);
}
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If anyone was looking for a solution which is working with jQuery, here is the adjusted wiki code (the original breaks jQuery).

Object.defineProperty(Object.prototype, "getClassName", {
    value: function() {
        var funcNameRegex = /function (.{1,})\(/;
        var results = (funcNameRegex).exec((this).constructor.toString());
        return (results && results.length > 1) ? results[1] : "";
    }
});
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protected by Engineer Nov 12 '13 at 13:42

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