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A strict equality operator will tell you if two object types are equal. However, is there a way to tell if two objects are equal, much like the hash code value in Java?

Stack Overflow question Is there any kind of hashCode function in JavaScript? is similar to this question, but requires a more academic answer. The scenario above demonstrates why it would be necessary to have one, and I'm wondering if there is any equivalent solution.

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1  
Also look into this question stackoverflow.com/q/1068834/1671639 –  Praveen May 6 at 9:48
2  
Note that, even in Java, a.hashCode() == b.hashCode() does not imply that a is equal to b. It's a necessary condition, not a sufficient one. –  Heinzi Sep 24 at 13:34

26 Answers 26

up vote 53 down vote accepted

The short answer

The simple answer is: No, there is no generic means to determine that an object is equal to another in the sense you mean. The exception is when you are strictly thinking of an object being typeless.

The long answer

The concept is that of an Equals method that compares two different instances of an object to indicate whether they are equal at a value level. However, it is up to the specific type to define how an Equals method should be implemented. An iterative comparison of attributes that have primitive values may not be enough, there may well be attributes which are not to be considered part of the object value. For example,

 function MyClass(a, b)
 {
     var c;
     this.getCLazy = function() {
         if (c === undefined) c = a * b // imagine * is really expensive
         return c;
     }
  }

In this above case, c is not really important to determine whether any two instances of MyClass are equal, only a and b are important. In some cases c might vary between instances and yet not be significant during comparison.

Note this issue applies when members may themselves also be instances of a type and these each would all be required to have a means of determining equality.

Further complicating things is that in JavaScript the distinction between data and method is blurred.

An object may reference a method that is to be called as an event handler, and this would likely not be considered part of its 'value state'. Whereas another object may well be assigned a function that performs an important calculation and thereby makes this instance different from others simply because it references a different function.

What about an object that has one of its existing prototype methods overridden by another function? Could it still be considered equal to another instance that it otherwise identical? That question can only be answered in each specific case for each type.

As stated earlier, the exception would be a strictly typeless object. In which case the only sensible choice is an iterative and recursive comparison of each member. Even then one has to ask what is the 'value' of a function?

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31  
If you're using underscore, you can just do _.isEqual(obj1, obj2); –  chovy Aug 21 '13 at 21:38
7  
good as this explanation is, it fails to give any concrete solution to the problem. –  Kumar Harsh Aug 22 '13 at 7:13
2  
@Harsh, the answer failed to give any solution because there is none. Even in Java, there is no silver bullet to object equality comparison and to correctly implement the .equals method is not trivial, which is why there is such a topic dedicated in Effective Java. –  lcn Sep 25 '13 at 17:44
1  
@lcn: I agree with you, but then there is the matter of the existence of that top-voted answer :) –  Kumar Harsh Sep 25 '13 at 20:07
1  
@Kumar Harsh, What makes two objects equal is very application specific; not every property of an object should necessarily be taken into consideration, so brute-forcing every property of an object is not a concrete solution either. –  sethro Jan 17 at 22:05

Why reinvent the wheel? Give Lodash a try. It has a number of must-have functions such as isEqual().

_.isEqual(object, other);

It will brute force check each key value - just like the other examples on this page - using ECMAScript 5 and native optimizations if they're available in the browser.

Note: Previously this answer recommended Underscore.js, but lodash has done a better job of getting bugs fixed and addressing issues with consistency.

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6  
Underscore's isEqual function is very nice (but you do have to pull in their library to use it - about 3K gzipped). –  mckoss Aug 28 '10 at 1:16
5  
That's perfect! As a Haskeller, I was missing all sorts of functions in Node.js. –  mcandre Mar 14 '11 at 0:32
6  
if you look at what else underscore gives you, you won't regret pulling it in –  PandaWood Jun 12 '12 at 6:01
2  
Even if you can't afford to have underscore as a dependency, pull the isEqual function out, satisfy the license requirements and move on. It's by far the most comprehensive equality test mentioned on stackoverflow. –  Dale Anderson Sep 7 '12 at 10:15
2  
There's a fork of Underscore called LoDash and that author is very concerned with consistency issues such as that. Test with LoDash and see what you get. –  CoolAJ86 Feb 12 '13 at 18:32

The default equality operator in JavaScript for Objects yields true when they refer to the same location in memory.

var x = {};
var y = {};
var z = x;

x === y; // => false
x === z; // => true

If you require a different equality operator you'll need to add an equals(other) method, or something like it to your classes and the specifics of your problem domain will determine what exactly that means.

Here's a playing card example:

function Card(rank, suit) {
  this.rank = rank;
  this.suit = suit;
  this.equals = function(other) {
     return other.rank == this.rank && other.suit == this.suit;
  };
}

var queenOfClubs = new Card(12, "C");
var kingOfSpades = new Card(13, "S");

queenOfClubs.equals(kingOfSpades); // => false
kingOfSpades.equals(new Card(13, "S")); // => true
share|improve this answer
2  
Or simply return other.rank == this.rank && other.suit == this.suit; –  graham.reeds Mar 27 '10 at 11:33
    
If the object(s) can be converted to a JSON string, then it makes an equals() function simple. –  scotts Nov 14 '12 at 18:28
2  
@scotts Not always. Converting objects to JSON and comparing strings can become computationally intensive for complex objects in tight loops. For simple objects it probably doesn't matter much, but in reality it truly depends on your specific situation. A correct solution may be as simple as comparing object IDs or checking each property, but its correctness is dictated entirely by the problem domain. –  Daniel X Moore Nov 14 '12 at 19:32
1  
@devsathish probably not. In JavaScript types are pretty fast and loose, but if in your domain types are important then you may want to check types as well. –  Daniel X Moore Oct 28 '13 at 23:27
1  
That first sentence.. Poetry! –  Birowsky Dec 14 '13 at 1:00

If you are using a JSON library, you can encode each object as JSON, then compare the resulting strings for equality.

var obj1={test:"value"};
var obj2={test:"value2"};

alert(JSON.encode(obj1)===JSON.encode(obj2));

NOTE: While this answer will work in many cases, as several people have pointed out in the comments it's problematic for a variety of reasons. In pretty much all cases you'll want to find a more robust solution.

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56  
Interesting, but a little tricky in my opinion. For example, can you 100% guarantee that the object properties will be generated always in the same order ? –  Guido García Oct 14 '08 at 15:00
10  
That's a good question, and raises another, as to whether two objects with the same properties in different orders are really equal or not. Depends upon what you mean by equal, I guess. –  Joel Anair Oct 14 '08 at 18:47
8  
Note that most encoders and stringifiers ignore functions and convert nonfinite numbers, like NaN, to null. –  Stephen Belanger Apr 8 '11 at 23:20
3  
I agree with Guido, order of properties are important and it cannot be guaranteed. @JoelAnair, I think two objects with the same properties in different orders should be considered equal if the value of the properties are equal. –  Juzer Ali Mar 26 '12 at 7:34
5  
Seems interesting at first, but as everyone has pointed out, it can't be really trusted. –  gotofritz Apr 21 '12 at 23:13

If you are working in AngularJS, the angular.equals function will determine if two objects are equal. In Ember.js use isEqual.

  • angular.equals - See the docs or source for more on this method. It does a deep compare on arrays too.
  • Ember.js isEqual - See the docs or source for more on this method. It does not do a deep compare on arrays.

var purple = [{"purple": "drank"}];
var drank = [{"purple": "drank"}];

if(angular.equals(purple, drank)) {
    alert('got dat');
}
<script src="https://ajax.googleapis.com/ajax/libs/angularjs/1.2.23/angular.min.js"></script>

share|improve this answer

If you have a deep copy function handy, you can use the following trick to still use JSON.stringify while matching the order of properties:

function equals(obj1, obj2) {
    function _equals(obj1, obj2) {
        return JSON.stringify(obj1)
            === JSON.stringify($.extend(true, {}, obj1, obj2));
    }
    return _equals(obj1, obj2) && _equals(obj2, obj1);
}

Demo: http://jsfiddle.net/CU3vb/3/

Rationale:

Since the properties of obj1 are copied to the clone one by one, their order in the clone will be preserved. And when the properties of obj2 are copied to the clone, since properties already existing in obj1 will simply be overwritten, their orders in the clone will be preserved.

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5  
I don't think order preservation is guaranteed across browsers/engines. –  Jo Liss Mar 7 '13 at 17:46
    
@JoLiss Citations needed ;) I recall testing this in multiple browsers, getting consistent results. But of course, no one can guarantee the behaviour remaining the same in future browsers/engines. This is a trick (as already called out in the answer) at best, and I didn't mean it to be a surefire way to compare objects. –  Ates Goral Mar 7 '13 at 19:58
    
Sure, here's some pointers: ECMAScript spec says object is "unordered"; and this answer for actual diverging behavior on current browsers. –  Jo Liss Mar 7 '13 at 23:43
2  
@JoLiss Thanks for that! But please note I was never claiming the preservation of order between code and compiled object. I was claiming preservation of order of properties whose values get replaced in-place. That was the key with my solution: to use a mixin to just overwrite property values. Assuming implementations generally opt to use some sort of hashmap, replacing just values should preserve the order of keys. It is in fact exactly this that I had tested in different browsers. –  Ates Goral Mar 8 '13 at 0:13
    
Oh of course, now I see what you mean. Hm. This is still obscure enough (and under-specified enough) to make me queasy, but I can see that it might actually be consistent. It's definitely an interesting hack. –  Jo Liss Mar 8 '13 at 4:48

Are you trying to test if two objects are the equal? ie: their properties are equal?

If this is the case, you'll probably have noticed this situation:

var a = { foo : "bar" };
var b = { foo : "bar" };
alert (a == b ? "Equal" : "Not equal");
// "Not equal"

you might have to do something like this:

function objectEquals(obj1, obj2) {
    for (var i in obj1) {
        if (obj1.hasOwnProperty(i)) {
            if (!obj2.hasOwnProperty(i)) return false;
            if (obj1[i] != obj2[i]) return false;
        }
    }
    for (var i in obj2) {
        if (obj2.hasOwnProperty(i)) {
            if (!obj1.hasOwnProperty(i)) return false;
            if (obj1[i] != obj2[i]) return false;
        }
    }
    return true;
}

Obviously that function could do with quite a bit of optimisation, and the ability to do deep checking (to handle nested objects: var a = { foo : { fu : "bar" } }) but you get the idea.

As FOR pointed out, you might have to adapt this for your own purposes, eg: different classes may have different definitions of "equal". If you're just working with plain objects, the above may suffice, otherwise a custom MyClass.equals() function may be the way to go.

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This is my version. It is using new Object.keys feature that is introduced in ES5 and ideas/tests from +, + and +:

function objectEquals(x, y) {
    if (x === null || x === undefined || y === null || y === undefined) { return x === y; }
    // after this just checking type of one would be enough
    if (x.constructor !== y.constructor) { return false; }
    // if they are function they should exactly referring to same one
    if (x instanceof Function) { return x === y; }
    if (x === y || x.valueOf() === y.valueOf()) { return true; }
    if (Array.isArray(x) && x.length !== y.length) { return false; }

    // if they are date, they must had equal valueOf
    if (x instanceof Date) { return false; }

    // if they are not function or strictly equal, they both need to be object
    if (!(x instanceof Object)) { return false; }
    if (!(y instanceof Object)) { return false; }

    var p = Object.keys(x);
    return Object.keys(y).every(function (i) { return p.indexOf(i) !== -1; }) ?
            p.every(function (i) { return objectEquals(x[i], y[i]); }) : false;
}


///////////////
/// TESTS
///////////////
var printResult = function (x) {
    if (x) { document.write('<div style="color: green;">Passed</div>'); }
    else { document.write('<div style="color: red;">Failed</div>'); }
};
var assert = { isTrue: function (x) { printResult(x); }, isFalse: function (x) { printResult(!x); } }
assert.isTrue(objectEquals(null,null));
assert.isFalse(objectEquals(null,undefined));

assert.isTrue(objectEquals("hi","hi"));
assert.isTrue(objectEquals(5,5));
assert.isFalse(objectEquals(5,10));

assert.isTrue(objectEquals([],[]));
assert.isTrue(objectEquals([1,2],[1,2]));
assert.isFalse(objectEquals([1,2],[2,1]));
assert.isFalse(objectEquals([1,2],[1,2,3]));

assert.isTrue(objectEquals({},{}));
assert.isTrue(objectEquals({a:1,b:2},{a:1,b:2}));
assert.isTrue(objectEquals({a:1,b:2},{b:2,a:1}));
assert.isFalse(objectEquals({a:1,b:2},{a:1,b:3}));

assert.isTrue(objectEquals({1:{name:"mhc",age:28}, 2:{name:"arb",age:26}},{1:{name:"mhc",age:28}, 2:{name:"arb",age:26}}));
assert.isFalse(objectEquals({1:{name:"mhc",age:28}, 2:{name:"arb",age:26}},{1:{name:"mhc",age:28}, 2:{name:"arb",age:27}}));

Object.prototype.equals = function (obj) { return objectEquals(this, obj); };
var assertFalse = assert.isFalse,
    assertTrue = assert.isTrue;

assertFalse({}.equals(null));
assertFalse({}.equals(undefined));

assertTrue("hi".equals("hi"));
assertTrue(new Number(5).equals(5));
assertFalse(new Number(5).equals(10));
assertFalse(new Number(1).equals("1"));

assertTrue([].equals([]));
assertTrue([1,2].equals([1,2]));
assertFalse([1,2].equals([2,1]));
assertFalse([1,2].equals([1,2,3]));
assertTrue(new Date("2011-03-31").equals(new Date("2011-03-31")));
assertFalse(new Date("2011-03-31").equals(new Date("1970-01-01")));

assertTrue({}.equals({}));
assertTrue({a:1,b:2}.equals({a:1,b:2}));
assertTrue({a:1,b:2}.equals({b:2,a:1}));
assertFalse({a:1,b:2}.equals({a:1,b:3}));

assertTrue({1:{name:"mhc",age:28}, 2:{name:"arb",age:26}}.equals({1:{name:"mhc",age:28}, 2:{name:"arb",age:26}}));
assertFalse({1:{name:"mhc",age:28}, 2:{name:"arb",age:26}}.equals({1:{name:"mhc",age:28}, 2:{name:"arb",age:27}}));

var a = {a: 'text', b:[0,1]};
var b = {a: 'text', b:[0,1]};
var c = {a: 'text', b: 0};
var d = {a: 'text', b: false};
var e = {a: 'text', b:[1,0]};
var i = {
    a: 'text',
    c: {
        b: [1, 0]
    }
};
var j = {
    a: 'text',
    c: {
        b: [1, 0]
    }
};
var k = {a: 'text', b: null};
var l = {a: 'text', b: undefined};

assertTrue(a.equals(b));
assertFalse(a.equals(c));
assertFalse(c.equals(d));
assertFalse(a.equals(e));
assertTrue(i.equals(j));
assertFalse(d.equals(k));
assertFalse(k.equals(l));

// from comments on stackoverflow post
assert.isFalse(objectEquals([1, 2, undefined], [1, 2]));
assert.isFalse(objectEquals([1, 2, 3], { 0: 1, 1: 2, 2: 3 }));
assert.isFalse(objectEquals(new Date(1234), 1234));

// no two different function is equal really, they capture their context variables
// so even if they have same toString(), they won't have same functionality
var func = function (x) { return true; };
var func2 = function (x) { return true; };
assert.isTrue(objectEquals(func, func));
assert.isFalse(objectEquals(func, func2));
assert.isTrue(objectEquals({ a: { b: func } }, { a: { b: func } }));
assert.isFalse(objectEquals({ a: { b: func } }, { a: { b: func2 } }));

share|improve this answer
    
objectEquals([1,2,undefined],[1,2]) returns true –  Roy Tinker Oct 29 at 0:00
    
objectEquals([1,2,3],{0:1,1:2,2:3}) also returns true -- e.g. there is no type checking, only key/value checking. –  Roy Tinker Oct 29 at 0:07
    
objectEquals(new Date(1234),1234) returns true –  Roy Tinker Oct 29 at 0:32
    
Thank you. I've addressed your comments and added them to tests. –  Ebrahim Byagowi Nov 21 at 16:39

Needing a more generic object comparison function than had been posted, I cooked up the following. Critique appreciated...

Object.prototype.equals = function(iObj) {
  if (this.constructor !== iObj.constructor)
    return false;
  var aMemberCount = 0;
  for (var a in this) {
    if (!this.hasOwnProperty(a))
      continue;
    if (typeof this[a] === 'object' && typeof iObj[a] === 'object' ? !this[a].equals(iObj[a]) : this[a] !== iObj[a])
      return false;
    ++aMemberCount;
  }
  for (var a in iObj)
    if (iObj.hasOwnProperty(a))
      --aMemberCount;
  return aMemberCount ? false : true;
}
share|improve this answer
2  
I ended up using a variation of this. Thanks for the idea of counting members! –  NateS Aug 26 '10 at 21:42
    
Be very careful about modifying Object.prototype -- in the vast majority of cases it is not advised (additions appear in all for..in loops, for example). Perhaps consider Object.equals = function(aObj, bObj) {...}? –  Roy Tinker Oct 29 at 0:37

I'd advise against hashing or serialization (as the JSON solution suggest). If you need to test if two objects are equal, then you need to define what equals means. It could be that all data members in both objects match, or it could be that must the memory locations match (meaning both variables reference the same object in memory), or may be that only one data member in each object must match.

Recently I developed an object whose constructor creates a new id (starting from 1 and incrementing by 1) each time an instance is created. This object has an isEqual function that compares that id value with the id value of another object and returns true if they match.

In that case I defined "equal" as meaning the the id values match. Given that each instance has a unique id this could be used to enforce the idea that matching objects also occupy the same memory location. Although that is not necessary.

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If you are comparing JSON objects you can use https://github.com/mirek/node-rus-diff

npm install rus-diff

Usage:

a = {foo:{bar:1}}
b = {foo:{bar:1}}
c = {foo:{bar:2}}

var rusDiff = require('rus-diff').rusDiff

console.log(rusDiff(a, b)) // -> false, meaning a and b are equal
console.log(rusDiff(a, c)) // -> { '$set': { 'foo.bar': 2 } }

If two objects are different, a MongoDB compatible {$rename:{...}, $unset:{...}, $set:{...}} like object is returned.

share|improve this answer

In Node.js, you can use its native require("assert").deepEqual. More info: http://nodejs.org/api/assert.html

For example:

var assert = require("assert");
assert.deepEqual({a:1, b:2}, {a:1, b:3}); // will throw AssertionError

Another example that returns true / false instead of returning errors:

var assert = require("assert");

function deepEqual(a, b) {
    try {
      assert.deepEqual(a, b);
    } catch (error) {
      if (error.name === "AssertionError") {
        return false;
      }
      throw error;
    }
    return true;
};
share|improve this answer

Depends on what you mean by equality. And therefore it is up to you, as the developer of the classes, to define their equality.

There's one case used sometimes, where two instances are considered 'equal' if they point to the same location in memory, but that is not always what you want. For instance, if I have a Person class, I might want to consider two Person objects 'equal' if they have the same Last Name, First Name, and Social Security Number (even if they point to different locations in memory).

On the other hand, we can't simply say that two objects are equal if the value of each of their members is the same, since, sometimes, you don't want that. In other words, for each class, it's up to the class developer to define what members make up the objects 'identity' and develop a proper equality operator (be it via overloading the == operator or an Equals method).

Saying that two objects are equal if they have the same hash is one way out. However you then have to wonder how the hash is calculated for each instance. Going back to the Person example above, we could use this system if the hash was calculated by looking at the values of the First Name, Last Name, and Social Security Number fields. On top of that, we are then relying on the quality of the hashing method (that's a huge topic on its own, but suffice it to say that not all hashes are created equal, and bad hashing methods can lead to more collisions, which in this case would return false matches).

share|improve this answer
2  
"bad hashing methods can lead to collisions" => ALL hashing methods can lead to collisions –  Joe Oct 14 '08 at 13:59
    
Yes, thanks for the correction; I edited to try and clarify. –  FOR Oct 14 '08 at 14:06

I need to mock jQuery POST requests, so the equality that matters to me is that both objects have the same set of properties (none missing in either object), and that each property value is "equal" (according to this definition). I don't care about the objects having mismatching methods.

Here's what I'll be using, it should be good enough for my specific requirements:

function PostRequest() {
    for (var i = 0; i < arguments.length; i += 2) {
        this[arguments[i]] = arguments[i+1];
    }

    var compare = function(u, v) {
        if (typeof(u) != typeof(v)) {
            return false;
        }

        var allkeys = {};
        for (var i in u) {
            allkeys[i] = 1;
        }
        for (var i in v) {
            allkeys[i] = 1;
        }
        for (var i in allkeys) {
            if (u.hasOwnProperty(i) != v.hasOwnProperty(i)) {
                if ((u.hasOwnProperty(i) && typeof(u[i]) == 'function') ||
                    (v.hasOwnProperty(i) && typeof(v[i]) == 'function')) {
                    continue;
                } else {
                    return false;
                }
            }
            if (typeof(u[i]) != typeof(v[i])) {
                return false;
            }
            if (typeof(u[i]) == 'object') {
                if (!compare(u[i], v[i])) {
                    return false;
                }
            } else {
                if (u[i] !== v[i]) {
                    return false;
                }
            }
        }

        return true;
    };

    this.equals = function(o) {
        return compare(this, o);
    };

    return this;
}

Use like so:

foo = new PostRequest('text', 'hello', 'html', '<p>hello</p>');
foo.equals({ html: '<p>hello</p>', text: 'hello' });
share|improve this answer

It's useful to consider two objects equal if they have all the same values for all properties and recursively for all nested objects and arrays. I also consider the following two objects equal:

var a = {p1: 1};
var b = {p1: 1, p2: undefined};

Similarly, arrays can have "missing" elements and undefined elements. I would treat those the same as well:

var c = [1, 2];
var d = [1, 2, undefined];

A function that implements this definition of equality:

function isEqual(a, b) {
    if (a === b) {
        return true;
    }

    if (generalType(a) != generalType(b)) {
        return false;
    }

    if (a == b) {
        return true;
    }

    if (typeof a != 'object') {
        return false;
    }

    // null != {}
    if (a instanceof Object != b instanceof Object) {
        return false;
    }

    if (a instanceof Date || b instanceof Date) {
        if (a instanceof Date != b instanceof Date ||
            a.getTime() != b.getTime()) {
            return false;
        }
    }

    var allKeys = [].concat(keys(a), keys(b));
    uniqueArray(allKeys);

    for (var i = 0; i < allKeys.length; i++) {
        var prop = allKeys[i];
        if (!isEqual(a[prop], b[prop])) {
            return false;
        }
    }
    return true;
}

Source code (including the helper functions, generalType and uniqueArray): Unit Test and Test Runner here.

share|improve this answer

I've written a small library that runs on Node.js and the browser called compare.js. It offers the usual comparison operators, such as ==, !=, >, >=, <, <= and identity on all data types of JavaScript.

E.g., you can use

cmp.eq(obj1, obj2);

and this will check for equality (using a deep-equal approach). Otherwise, if you do

cmp.id(obj1, obj2);

it will compare by reference, hence check for identity. You can also use < and > on objects, which mean subset and superset.

compare.js is covered by nearly 700 unit tests, hence it should hopefully not have too many bugs ;-).

You can find it on https://github.com/goloroden/compare.js for free, it is open-sourced under the MIT license.

share|improve this answer

A quick "hack" to tell if two objects are similar, is to use their toString() methods. If you're checking objects A and B, make sure A and B have meaningful toString() methods and check that the strings they return are the same.

This isn't a panacea, but it can be useful sometimes in the right situations.

share|improve this answer
function isEqual(obj1, obj2){
    type1 = typeof(obj1);
    type2 = typeof(obj2);
    if(type1===type2){
        switch (type1){
            case "object": return JSON.stringify(obj1)===JSON.stringify(obj2);
            case "function": return eval(obj1).toString()===eval(obj2).toString();
            default: return obj1==obj2;
        }
    }
    return false;
}//have not tried but should work.
share|improve this answer
2  
Where is it written that JSON.stringify will always list keys in the same order (particularly if they weren't added in the same order to obj1 and obj2). –  Ted Hopp Jan 9 at 15:50

Some of the following solutions have problems with performance, functionality and style... They are not thought through enough, and some of them fail for different cases. I tried to address this problem in my own solution, and I would really much appreciate your feedback:

http://stamat.wordpress.com/javascript-object-comparison/

//Returns the object's class, Array, Date, RegExp, Object are of interest to us
var getClass = function(val) {
    return Object.prototype.toString.call(val)
        .match(/^\[object\s(.*)\]$/)[1];
};

//Defines the type of the value, extended typeof
var whatis = function(val) {

    if (val === undefined)
        return 'undefined';
    if (val === null)
        return 'null';

    var type = typeof val;

    if (type === 'object')
        type = getClass(val).toLowerCase();

    if (type === 'number') {
        if (val.toString().indexOf('.') > 0)
            return 'float';
        else
        return 'integer';
    }

    return type;
   };

var compareObjects = function(a, b) {
    if (a === b)
        return true;
    for (var i in a) {
        if (b.hasOwnProperty(i)) {
            if (!equal(a[i],b[i])) return false;
        } else {
            return false;
        }
    }

    for (var i in b) {
        if (!a.hasOwnProperty(i)) {
            return false;
        }
    }
    return true;
};

var compareArrays = function(a, b) {
    if (a === b)
        return true;
    if (a.length !== b.length)
        return false;
    for (var i = 0; i < a.length; i++){
        if(!equal(a[i], b[i])) return false;
    };
    return true;
};

var _equal = {};
_equal.array = compareArrays;
_equal.object = compareObjects;
_equal.date = function(a, b) {
    return a.getTime() === b.getTime();
};
_equal.regexp = function(a, b) {
    return a.toString() === b.toString();
};
//  uncoment to support function as string compare
//  _equal.fucntion =  _equal.regexp;



/*
 * Are two values equal, deep compare for objects and arrays.
 * @param a {any}
 * @param b {any}
 * @return {boolean} Are equal?
 */
var equal = function(a, b) {
    if (a !== b) {
        var atype = whatis(a), btype = whatis(b);

        if (atype === btype)
            return _equal.hasOwnProperty(atype) ? _equal[atype](a, b) : a==b;

        return false;
    }

    return true;
};
share|improve this answer

I'm making the following assumptions with this function:

  1. You control the objects you are comparing and you only have primitive values (ie. not nested objects, functions, etc.).
  2. Your browser has support for Object.keys.

This should be treated as a demonstration of a simple strategy.

/**
 * Checks the equality of two objects that contain primitive values. (ie. no nested objects, functions, etc.)
 * @param {Object} object1
 * @param {Object} object2
 * @param {Boolean} [order_matters] Affects the return value of unordered objects. (ex. {a:1, b:2} and {b:2, a:1}).
 * @returns {Boolean}
 */
function isEqual( object1, object2, order_matters ) {
    var keys1 = Object.keys(object1),
        keys2 = Object.keys(object2),
        i, key;

    // Test 1: Same number of elements
    if( keys1.length != keys2.length ) {
        return false;
    }

    // If order doesn't matter isEqual({a:2, b:1}, {b:1, a:2}) should return true.
    // keys1 = Object.keys({a:2, b:1}) = ["a","b"];
    // keys2 = Object.keys({b:1, a:2}) = ["b","a"];
    // This is why we are sorting keys1 and keys2.
    if( !order_matters ) {
        keys1.sort();
        keys2.sort();
    }

    // Test 2: Same keys
    for( i = 0; i < keys1.length; i++ ) {
        if( keys1[i] != keys2[i] ) {
            return false;
        }
    }

    // Test 3: Values
    for( i = 0; i < keys1.length; i++ ) {
        key = keys1[i];
        if( object1[key] != object2[key] ) {
            return false;
        }
    }

    return true;
}
share|improve this answer

This is an addition for all the above, not a replacement. If you need to fast shallow-compare objects without need to check extra recursive cases. Here is a shot.

This compares for: 1) Equality of number of own properties, 2) Equality of key names, 3) if bCompareValues == true, Equality of corresponding property values and their types (triple equality)

var shallowCompareObjects = function(o1, o2, bCompareValues) {
    var s, 
        n1 = 0,
        n2 = 0,
        b  = true;

    for (s in o1) { n1 ++; }
    for (s in o2) { 
        if (!o1.hasOwnProperty(s)) {
            b = false;
            break;
        }
        if (bCompareValues && o1[s] !== o2[s]) {
            b = false;
            break;
        }
        n2 ++;
    }
    return b && n1 == n2;
}
share|improve this answer

Object equality check:JSON.stringify(array1.sort()) === JSON.stringify(array2.sort())

The above test also works with arrays of objects in which case use a sort function as documented in http://www.w3schools.com/jsref/jsref_sort.asp

Might suffice for small arrays with flat JSON schemas.

share|improve this answer
    
Not guaranteed to work - object properties are unordered [specific order never guaranteed] according to the EcmaScript 3 spec. –  Roy Tinker Oct 29 at 0:43

Here is a very basic approach to checking an object's "value equality".

var john = {
    occupation: "Web Developer",
    age: 25
};

var bobby = {
    occupation: "Web Developer",
    age: 25
};

function isEquivalent(a, b) {
    // Create arrays of property names

    var aProps = Object.getOwnPropertyNames(a);
    var bProps = Object.getOwnPropertyNames(b);

    // If number of properties is different, objects are not equivalent

    if (aProps.length != bProps.length) {
        return false;
    }

    for (var i = 0; i < aProps.length; i++) {
        var propName = aProps[i];

        // If values of same property are not equal, objects are not equivalent
        if (a[propName] !== b[propName]) {
           return false;
        }
    }

    // If we made it this far, objects are considered equivalent
    return true;
}

// Outputs: true
console.log(isEquivalent(john, bobby));

Demo - JSFiddle

As you can see, to check the objects' "value equality" we essentially have to iterate over every property in the objects to see whether they are equal. And while this simple implementation works for our example, there are a lot of cases that it doesn't handle. For instance:

  • What if one of the property values is itself an object?
  • What if one of the property values is NaN (the only value in JavaScript that is not equal to itself?)
  • What if a has a property with value undefined, while b doesn't have this property (which thus evaluates to undefined?)

For a robust method of checking objects' "value equality" it is better to rely on a well-tested library that covers the various edge cases like Underscore.

var john = {
    occupation: "Web Developer",
    age: 25
};

var bobby = {
    occupation: "Web Developer",
    age: 25
};

// Outputs: true
console.log(_.isEqual(john, bobby));

Demo - JSFiddle

share|improve this answer

Here's a pretty clean CoffeeScript version of how you could do this:

Object::equals = (other) ->
  typeOf = Object::toString

  return false if typeOf.call(this) isnt typeOf.call(other)
  return `this == other` unless typeOf.call(other) is '[object Object]' or
                                typeOf.call(other) is '[object Array]'

  (return false unless this[key].equals other[key]) for key, value of this
  (return false if typeof this[key] is 'undefined') for key of other

  true

Here are the tests:

  describe "equals", ->

    it "should consider two numbers to be equal", ->
      assert 5.equals(5)

    it "should consider two empty objects to be equal", ->
      assert {}.equals({})

    it "should consider two objects with one key to be equal", ->
      assert {a: "banana"}.equals {a: "banana"}

    it "should consider two objects with keys in different orders to be equal", ->
      assert {a: "banana", kendall: "garrus"}.equals {kendall: "garrus", a: "banana"}

    it "should consider two objects with nested objects to be equal", ->
      assert {a: {fruit: "banana"}}.equals {a: {fruit: "banana"}}

    it "should consider two objects with nested objects that are jumbled to be equal", ->
      assert {a: {a: "banana", kendall: "garrus"}}.equals {a: {kendall: "garrus", a: "banana"}}

    it "should consider two objects with arrays as values to be equal", ->
      assert {a: ["apple", "banana"]}.equals {a: ["apple", "banana"]}



    it "should not consider an object to be equal to null", ->
      assert !({a: "banana"}.equals null)

    it "should not consider two objects with different keys to be equal", ->
      assert !({a: "banana"}.equals {})

    it "should not consider two objects with different values to be equal", ->
      assert !({a: "banana"}.equals {a: "grapefruit"})
share|improve this answer

For comparing keys for simple key/value pairs object instances, I use:

function compareKeys(r1, r2) {
    var nloops = 0, score = 0;
    for(k1 in r1) {
        for(k2 in r2) {
            nloops++;
            if(k1 == k2)
                score++; 
        }
    }
    return nloops == (score * score);
};

Once keys are compared, a simple additional for..in loop is enough.

Complexity is O(N*N) with N is the number of keys.

I hope/guess objects I define won't hold more than 1000 properties...

share|improve this answer

Sure, while we're at it I'll throw in my own reinvention of the wheel (I'm proud of the number of spokes and materials used):

////////////////////////////////////////////////////////////////////////////////

var equals = function ( objectA, objectB ) {
    var result = false,
        keysA,
        keysB;

    // Check if they are pointing at the same variable. If they are, no need to test further.
    if ( objectA === objectB ) {
        return true;
    }

    // Check if they are the same type. If they are not, no need to test further.
    if ( typeof objectA !== typeof objectB ) {
        return false;
    }

    // Check what kind of variables they are to see what sort of comparison we should make.
    if ( typeof objectA === "object" ) {
        // Check if they have the same constructor, so that we are comparing apples with apples.
        if ( objectA.constructor === objectA.constructor ) {
            // If we are working with Arrays...
            if ( objectA instanceof Array ) {
                // Check the arrays are the same length. If not, they cannot be the same.
                if ( objectA.length === objectB.length ) {
                    // Compare each element. They must be identical. If not, the comparison stops immediately and returns false.
                    return objectA.every(
                        function ( element, i ) {
                            return equals( element, objectB[ i ] );
                        }
                    );
                }
                // They are not the same length, and so are not identical.
                else {
                    return false;
                }
            }
            // If we are working with RegExps...
            else if ( objectA instanceof RegExp ) {
                // Return the results of a string comparison of the expression.
                return ( objectA.toString() === objectB.toString() );
            }
            // Else we are working with other types of objects...
            else {
                // Get the keys as arrays from both objects. This uses Object.keys, so no old browsers here.
                keysA = Object.keys( objectA );

                keysB = Object.keys( objectB );

                // Check the key arrays are the same length. If not, they cannot be the same.
                if ( keysA.length === keysB.length ) {
                    // Compare each property. They must be identical. If not, the comparison stops immediately and returns false.
                    return keysA.every(
                        function ( element ) {
                            return equals( objectA[ element ], objectB[ element ] );
                        }
                    );
                }
                // They do not have the same number of keys, and so are not identical.
                else {
                    return false;
                }
            }
        }
        // They don't have the same constructor.
        else {
            return false;
        }
    }
    // If they are both functions, let us do a string comparison.
    else if ( typeof objectA === "function" ) {
        return ( objectA.toString() === objectB.toString() );
    }
    // If a simple variable type, compare directly without coercion.
    else {
        return ( objectA === objectB );
    }

    // Return a default if nothing has already been returned.
    return result;
};

////////////////////////////////////////////////////////////////////////////////

It returns false as quickly as possible, but of course for a large object where the difference is deeply nested it could be less effective. In my own scenario, good handling of nested arrays is important.

Hope it helps someone needing this kind of 'wheel'.

share|improve this answer

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