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I know that I can iterate over an object's properties like this:

for (property in object)
{
    // do stuff
}

I also know that the fastest way to iterate over an array in Javascript is to use a decreasing while loop:

var i = myArray.length;
while (i--)
{
    // do stuff fast
}

I'm wondering if there is something similar to a decreasing while loop for iterating over an object's properties.

Edit: just a word about the answers concerned with enumerability - I'm not.

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3  
This smells like misplaced/premature optimization... Are you sure this is the part of your code that needs optimization? –  Pat Oct 15 '09 at 16:47
2  
None of it "needs" optimization. I'm working with sets of 10k to 20k objects, so faster is better. –  Matt Ball Oct 15 '09 at 16:54
1  
Remember to check hasOwnProperty(property) so you don't operate on members of your prototypes (unless you want to, of course). –  Dan Davies Brackett Oct 15 '09 at 17:00
    
@DDaviesBrackett The for/in loop does not enumerate inherited properties/methods –  Josh Stodola Oct 15 '09 at 17:01
1  
@DDaviesBrackett, @Josh Stodola: for-in does not iterate over built-in properties and methods (specifically, those declared as "DontEnum" in the ECMAScript spec) but it does include inherited members that have been added to prototypes, as there is no way for a member added by a script to be declared "DontEnum". Note that Crockford's example is of a method that has been added to String.prototype, not of a built-in property of String.prototype –  NickFitz Oct 15 '09 at 17:29

6 Answers 6

up vote 8 down vote accepted

1) There's no other way to enumerate properties than using for..in (that is until ES5 Object.keys is implemented). Perhaps if you stated your original problem, someone could suggest a way to optimize.

2) I find it hard to believe that the actual enumeration is taking more than whatever you do with the properties in the loop body.

3) You didn't specify what platform you're developing for. The answer would probably depend on it, and the available language features depend on it too. E.g. in SpiderMonkey (Firefox JS interpreter) you could use for each(var x in arr) (docs) if you actually need the values, not the keys. It's faster than for (var i in arr) { var x = arr[i]; ... }.

4) You probably just didn't include it in your snippet, but a faster way to do a for..in iteration is to make sure the variables you use in the loop are declared in the function with the loop, i.e.:

//slower
for (property in object) { /* do stuff */ }

//faster
for (var property in object) { /* do stuff */ }

5) Related to (4): while trying to optimize a Firefox extension I once noticed that extracting a tight loop into a separate function improved its performance (link). (Obviously, it doesn't mean you should always do that!)

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You should declare the var outside the for loop so it doesn't try to make a new function-local variable every time. –  Eli Grey Oct 16 '09 at 1:43
1  
What makes you say that? That goes against my intuitive understanding of "var" (which is not "executed" at run-time, but rather scanned-for before a function starts executing) and I don't see anything in the spec about this. So I believe if it is in fact so in some engine, it would be something that can (and should) be fixed in the engine. –  Nickolay Oct 16 '09 at 5:11
    
I concur. "There's no other way to enumerate properties than using for..in" - That was not even true in 2009. Pre-compilation to the rescue (of performance)! –  Domi Sep 11 '14 at 2:15

Let me start by saying, for ... in loops are just fine, and you only want to think of this in performance-critical code with a lot of CPU and RAM usage. Usually, there is more important stuff you should spend your time on. However, if you are a performance-freak, you might be interested in this near-perfect alternative:

Javascript Objects

Generally, there are two use-cases for JS objects:

  1. "Dictionaries", a.k.a "associative arrays" are general containers with a varying set of properties, indexed by string keys.
  2. "Objects of constant type" (for which the so-called hidden class is always the same) have a fixed set of properties.

Using "objects of constant type" instead of "dictionary types" is generally a whole lot faster because the optimizer understands the structure of these objects. If you are curious as to how to achieve that, you might want to check out Vyacheslav Egorov's blog which sheds a whole lot of light on how V8 but also other Javascript run-times, work with objects.

Loop over an object's properties

The default for ... in is certainly an Ok choice to iterate over all properties of objects. However, for ... in might treat your object as a dictionary with string keys, even if it has a hidden type. In that case, in every iteration you have the overhead of a dictionary lookup, which is often implemented as a hashtable lookup. In many cases, the optimizer is smart enough to avoid that, and performance is on par with constant naming of your properties, but it is simply not guaranteed. Often enough, the optimizer can't help you, and your loop will run a whole lot slower than it could. The worst thing is though that sometimes that is unavoidable, especially if your loop gets more complex. Optimizers are just not that smart (yet!). The following pseudocode describes how for ... in works in slow mode:

for each key in myObject:                                // key is a string!
    var value = myObject._hiddenDictionary.lookup(key);  // this is the overhead
    doSomethingWith(key, value);

An unrolled, un-optimized for ... in loop, looping over an object with three properties ['a', 'b', 'c'] of given order, looks like this:

var value = object._hiddenDictionary.lookup('a');
doSomethingWith('a', value);
var value = object._hiddenDictionary.lookup('b');
doSomethingWith('b', value);
var value = object._hiddenDictionary.lookup('c');
doSomethingWith('c', value);

Amdahl's law tells us that you can gain a lot of performance if and only if:

  1. doSomethingWith does not take a lot of time and
  2. you can get rid of that dictionary lookup.

We can indeed get rid of that dictionary lookup using, what I call, a "pre-compiled iterator", a dedicated function that iterates over all objects of a specific type (fixed set of properties of fixed order). That function explicitly calls a callback on each of your properties by their proper name. As a result, the run-time can always make use of the type's hidden class, without having to rely on promises by the optimizer. The following pseudocode describes how the pre-compiled iterator works for all objects that have three properties ['a', 'b', 'c'] in given order:

doSomethingWith('a', object.a)
doSomethingWith('b', object.b)
doSomethingWith('c', object.c)

There is no overhead. We don't need to look anything up. The compiler already can trivially compute the exact memory address of each of the properties, using the hidden type information. This is also (very very close to) the fastest code you can get with for...in and a perfect optimizer.

Performance Test

preliminary performance results

This jsperf shows that the the pre-compiled iterator approach is quite a bit faster than the standard for ... in loop. Note though that the speed-up largely depends on how the object is created and on the complexity of the loop. Since this test only has very simple loops, you sometimes might not observe much of a speed-up. However, in some of my own tests, I was able to see a 25x speed-up of the pre-compiled iterator; or rather a significant slow-down of the for ... in loop, because the optimizer was not able to get rid of the string-lookups.

With more tests coming in, we can draw some first conclusions on different optimizer implementations:

  1. The pre-compiled iterator is generally performing a whole lot better, even in very simple loops.
  2. In IE, the two approaches show the least variance. Bravo Microsoft for writing a decent iteration optimizer (at least for this particular problem)!
  3. In Firefox, for ... in is the slowest by a huge margin. The iteration optimizer does not do a good job over there.

However, the tests have a very simple loop body. I am still looking for a test case where the optimizer can never achieve constant indexing, across all (or almost all) browsers. Any suggestions are very welcome!

Code

The following compileIterator function pre-compiles an iterator for any type of object (disregarding nested properties, for now). The iterator needs a bit of extra information, representing the exact type of all objects it should iterate over. Such type information can generally be represented as an array of string property names, of the exact order. If you want to see a more complete example, refer to the jsperf entry:

/**
 * Compile iterator function for a specific type.
 */
var compileIterator = function(typeProperties) {
    // pre-compile constant iteration over object properties
    var iteratorFunStr = '(function(obj, cb) {\n';
    for (var i = 0; i < typeProperties.length; ++i) {
        // call callback on i'th property
        iteratorFunStr += 'cb(\'' + typeProperties[i] + '\', obj.' + typeProperties[i] + ');\n';
    };
    iteratorFunStr += '})';

    // actually compile and return the function
    return eval(iteratorFunStr);
};

// compile iterator function from type information
var iteratorFun = compileIterator(typeInfo);

// Some "type description", describing all properties of a performance critical type.
// This can just be an array of all property names, in the correct order.
// Note: We usually define this during start-up of our application.
var typeInfo = ['a', 'b', 'c'];

// ...

// 1. Create object `o` with matching hidden type:
var o = createFromTypeInfo(typeInfo, initialValues);

// 2. Sum over all properties of `o`:
var x = 0;
iteratorFun(o, 
    function(key, value) { 
        x += value; 
    }
);
console.log(x);

Future Work

In order to ensure type-safety (i.e. ensuring that a particular iterator will only ever be called on objects of the type its built for) you, of course, need to properly embed this code into your existing "type system". Since there is a great variety of "type systems" in Javascript, I omit that part here for now.

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1  
I'm curious to see how this line of reasoning pans out in non-Chrome browsers. –  Matt Ball Sep 6 '14 at 15:23
    
@MattBall I updated my answer with a first analysis of the test results. Looks pretty good! –  Domi Sep 6 '14 at 15:45

The for/in loop is the best way to enumerate properties of a Javascript object. It should be understood that this will only loop through "enumerable" properties, and in no particular order. Not all properties are enumerable. All properties/methods added programmatically via your own Javascript code will be enumerable, but predefined properties/methods that are inherited (such as toString) are not usually enumerable.

You can check enumerability like so...

var o = new Object();
alert(o.propertyIsEnumerable("toString"));
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Explicit use of Iterator in JavaScript 1.7+ might be faster or slower. Of course this will only iterate an object's own properties. The catch statement also might be faster with ex instanceof StopIteration replaced with ex === StopIteration.

var obj = {a:1,b:2,c:3,d:4,e:5,f:6},
   iter = new Iterator(obj, true);

while (true) {
    try {
    	doSomethingWithProperty(iter.next());
    } catch (ex if (ex instanceof StopIteration)) {
    	break;
    }
}
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The exception thrown will slow things down a whole lot on the loop tail. This might be worth performance testing for very large objects/dictionaries though... –  Domi Nov 27 '14 at 9:26

An object's properties are unordered by definition. The lack of order means that there is no "forwards", and therefore there is no "backwards" either.

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I couldn't care less about order. By "similar to decreasing while loop" I meant something analogous in terms of a speed improvement. –  Matt Ball Oct 15 '09 at 16:53
1  
In that case: no. –  NickFitz Oct 15 '09 at 17:22
    
Actually the object property order is defined -- it's order of addition. Order of properties on the prototype chain becomes more gnarly. –  olliej Oct 15 '09 at 17:43
    
@olliej - No, the enumeration order of properties is explicitly not defined in the ECMAScript spec. It is implementation dependent and may vary between different objects. An observed order for certain objects in certain browsers should not be relied on universally –  Tim Down Oct 15 '09 at 22:48
1  
I was about to say it was defined in ES5, but it in fact stays undefined in the final April draft (section 12.6.4 The for-in Statement) –  Nickolay Oct 16 '09 at 4:57

If you don't know the names of the properties, for..in is a good way to enumerate them. If you do, you're better off with explicit dereference.

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