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Let us guess two objects with same property:

var x = {a : 'some'},
      y = {a: 'some'};


x == y; and x === y; both give false

Similarly for two array,

var p = [1, 2, 3],
      q = [1,2,3];

p == q and p === q both give false.

But for if I do following:

var x = y = {a: 'some'};
var p = q = [1, 2, 3];

All above comparison give true.

Why Javascript do such thing? Explain Please.

share|improve this question
up vote 5 down vote accepted

All above comparison give true.

Right. You've specifically set p and q so they refer to the same object.

With object references, both == (if both sides are object references) and === will check to see if the references are pointing to the same object. If you have two identical, but separate, objects, both will always be false.

So for example:

var a = {}; // a points to an object
var b = {}; // b points to a _different_ object
console.log(a === b); // "false"
console.log(a == b);  // "false"

var c = {}; // c points to an object
var d = c;  // d points to _the same_ object
console.log(c === d); // "true"
console.log(c == d);  // "true"

The content of the objects is irrelevant, it's the identity of them that's being checked.

Note that this is not true if you use == and only one side is an object reference (e.g., the other side is a number, a primitive string, undefined, etc.). In that case, the object reference will be asked to convert itself (to either a string or a number, depending on what the other thing is), and then the converted result will be used for the comparison. This can lead to surprising behavior (for instance, "2" == [[[[[2]]]]] is true because the array is asked to turn itself into a string, which it does via join [which will ask its element to convert itself to a string, and so on], and you end up with "2" on the right-hand side). So I typically prefer === ("strict equality" over == ("loose equality").

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Yea, var x = {a : 'some'}, y = {a: 'some'}; are pointing to TWO different - in memory but similar - objects. – benqus May 12 '12 at 9:00

This happens because

var p = [1, 2, 3],
q = [1,2,3];

creates two instances of arrays. Equality operators in JS, when comparing non-primitive data, only check if they are the same instance, don't do deep check of values or properties.

With code

var p = q = [1, 2, 3];

you are creating ONE instance of the array and assign this instance to variables p and q. So, both variables store reference to the same instance, so equality operator will return true.

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+1. More details here. – Amadan May 12 '12 at 8:59

In this cases, the variables point to two separate objects, thus not equal.

var x = {a:'some'}, // one object with "a" = "some"
    y = {a:'some'}; // another object with "a" = "some"

var p = [1,2,3],    // one array with 1,2 and 3
    q = [1,2,3];    // another array with 1,2 and 3

But in this case, they point to the same object, thus equal

var x = y = {a: 'some'};
//is like:
var x = {a:'some'}, // x points to an object
    y = x;          // y is given reference to whatever x is pointing at

var p = q = [1,2,3];
//is like:
var p = [1,2,3],    // p points to an array
    q = p;          // q is given reference to whatever p is pointing at
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