Seems like the following code should return a true, but it returns false.

var a = {};
var b = {};

console.log(a==b); //returns false
console.log(a===b); //returns false

How does this make sense?


The only difference between regular (==) and strict (===) equality is that the strict equality operator disables type conversion. Since you're already comparing two variables of the same type, the kind of equality operator you use doesn't matter.

Regardless of whether you use regular or strict equality, object comparisons only evaluate to true if you compare the same exact object.

That is, given var a = {}, b = a, c = {};, a == a, a == b, but a != c.

Two different objects (even if they both have zero or the same exact properties) will never compare equally. If you need to compare the equality of two object's properties, this question has very helpful answers.


How does this make sense?

Because "equality" of object references, in terms of the == and === operators, is purely based on whether the references refer to the same object. This is clearly laid out in the abstract equality comparison algorithm (used by ==) and the strict equality comparison algorithm (used by ===).

In your code, when you say a==b or a===b, you're not comparing the objects, you're comparing the references in a and b to see if they refer to the same object. This is just how JavaScript is defined, and in line with how equality operators in many (but not all) other languages are defined (Java, C# [unless the operator is overridden, as it is for string], and C++ for instance).

JavaScript has no inbuilt concept of equivalence, a comparison between objects that indicates whether they're equivalent (e.g., have the same properties with the same values, like Java's Object#equals). You can define one within your own codebase, but there's nothing intrinsic that defines it.


===, the strictly equal operator for objects checks for identity.

Two objects are strictly equal if they refer to the same Object.

Those are two different objects, so they differ.

Think of two empty pages of paper. Their attributes are the same, yet they are not the same thing. If you write something on one of them, the other wouldn't change.

  • And should you still want to check for equality, use the .equals() method on objects – Wouter Jul 28 '12 at 22:05
  • The regular equality operator works the same way. The only difference is whether type conversion is allowed, which doesn't matter in this case. – josh3736 Jul 28 '12 at 22:13
  • @josh3736: yes. and you should almost never use ==. – Karoly Horvath Jul 28 '12 at 22:17

As from The Definitive Guide to Javascript.

Objects are not compared by value: two objects are not equal even if they have the same properties and values. This is true of arrays too: even if they have the same values in the same order.

var o = {x:1}, p = {x:1};  // Two objects with the same properties
o === p                    // => false: distinct objects are never equal 
var a = [], b = [];        // Two distinct, empty arrays 
a === b                    // => false: distinct arrays are never equal 

Objects are sometimes called reference types to distinguish them from JavaScript’s primitive types. Using this terminology, object values are references, and we say that objects are compared by reference: two object values are the same if and only if they refer to the same underlying object.

var a = {};   // The variable a refers to an empty object. 
var b = a;    // Now b refers to the same object. 
b.property = 1;     // Mutate the object referred to by variable b. 
a.property          // => 1: the change is also visible through variable a. 
a === b       // => true: a and b refer to the same object, so they are equal. 

If we want to compare two distinct objects we must compare their properties.

use JSON.stringify(objname);

var a = {name : "name1"};
var b = {name : "name1"};

var c = JSON.stringify(a);
var d = JSON.stringify(b);


How does this make sense?

Imagine these two objects:

var a = { someVar: 5 }
var b = { another: 'hi' }

Now if you did a === b, you would intuitively think it should be false (which is correct). But do you think it is false because the objects contain different keys, or because they are different objects? Next imagine removing the keys from each object:

delete a.someVar
delete b.another

Both are now empty objects, but the equality check will still be exactly the same, because you are still comparing whether or not a and b are the same object (not whether they contain the same keys and values).


This is a workaround: Object.toJSON(obj1) == Object.toJSON(obj2)

By converting to string, comprasion will basically be in strings

  • The question was about the reason of the effect, an explanation of the observed, and not a “solution” to comparing two objects. – Kissaki Jul 28 '12 at 22:19
  • 1
    Given that the order of properties in a object is not guaranteed, this doesn't (always) work. You could end up with {a:1,b:2} != {b:2,a:1} even though they're the same. Additionally, objects with cyclic references don't translate to JSON. – josh3736 Jul 28 '12 at 22:19
  • First, this doesn't answer the question. Second, there is no Object.toJSON defined in JavaScript. Third, assuming you meant JSON.stringify from ES5, you can't rely on it returning exactly the same string for two objects that have the same properties with the same values, because nowhere in the spec does it require that the properties (which are unordered) be listed in the same order. The engine is free to do what it wants, which may vary depending on how the objects were constructed, even if they end up with the same properties with the same values. – T.J. Crowder Jul 28 '12 at 22:20
  • True, I have never thought of that because I always formulated objects with the same order of parameters. And yes, Kissaki, quite right, I just wanted to give an example how to solve it. – Anze Jarni Jul 28 '12 at 22:22
  • @AnzeJarni: "...I always formulated objects with the same order of parameters..." Assuming you meant properties, again, object properties have no order. Although granted, if you create an object and add a, b, and c properties to it; then create another object and add a, b, and c properties to it, it would be a very strange engine indeed that serialized those to JSON differently. But if you made the second object by adding c, b, and then a to it, that wouldn't necessarily be strange at all. – T.J. Crowder Jul 28 '12 at 22:22

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