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So imagine that you have an associative array in JavaScript as such:

var hashTable = {};

hashTable["red"] = "ff0000";
hashTable["green"] = "00ff00";
hashTable["blue"] = "0000ff";

What happens when you retrieve a value like this:

var blue = hashTable["blue"];

Is the performance similar to that of a hashtable from another language? I mean, is there an actual hash function that is used to determine the location of the property or is there a looped search such as:

for (var color in hashTable) {
    if (hashTable.hasOwnProperty(color)) {
        //look for matching key

Does the implementation vary from browser to browser? I couldn't find anything related to this specific topic. Thanks.

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As property lookup is certainly a key performance area, you can safely bet that any modern JavaScript engine is going to do it extremely efficiently. – Pointy May 29 '13 at 23:25
It's implementation-dependent, but linear search would be the stupidest way to do it. There are many efficient strategies for doing lookup tables, hash tables are just one. B-trees is another possibility. – Barmar May 29 '13 at 23:27
This is a key performance area as commented by Pointy. Just note that you don't have an "associative array", but rather a plain object which you're setting and getting property values from through array notation. – Fabrício Matté May 29 '13 at 23:28
When I want to know about performance, I construct simple tests and take some measurements. What is stopping you from doing this? – paddy May 29 '13 at 23:32
You can think of JavaScript Object as hash table... – Givi May 29 '13 at 23:37

3 Answers 3

up vote 3 down vote accepted

It's implemented differently in different javascript engines, and nowadays, it seems, objects aren't backed by "dictionary-like" data structures.


JavaScript is a dynamic programming language: properties can be added to, and deleted from, objects on the fly. This means an object's properties are likely to change. Most JavaScript engines use a dictionary-like data structure as storage for object properties - each property access requires a dynamic lookup to resolve the property's location in memory. This approach makes accessing properties in JavaScript typically much slower than accessing instance variables in programming languages like Java and Smalltalk. In these languages, instance variables are located at fixed offsets determined by the compiler due to the fixed object layout defined by the object's class. Access is simply a matter of a memory load or store, often requiring only a single instruction.

To reduce the time required to access JavaScript properties, V8 does not use dynamic lookup to access properties. Instead, V8 dynamically creates hidden classes behind the scenes. This basic idea is not new - the prototype-based programming language Self used maps to do something similar. In V8, an object changes its hidden class when a new property is added.

Firefox's IonMonkey does something similar. From an interview with a developer at Mozilla (

Dynamic languages probably don't have any inherent optimization advantages, but they do have interesting optimizations that static languages don't. For example, when you're writing JavaScript, objects appear to the user as hash tables, mapping property names to values. If they were actually implemented like that, they would be slow and use a lot of memory.

A good engine is able to internally group objects that look the same, sort of extracting an internal Java-like class out of them. The JIT can then treat the object as having an actual type, generating super fast code that avoids an expensive property lookup.

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Nit: The last paragraph should read as: "V8 does not [always] use dynamic lookup .." There are cases when it can't perform this optimization - trivially, when there are expando properties. – user2246674 May 29 '13 at 23:38
Nice links and excerpts. I wonder when these optimizations can't be applied, and what is done in those cases .. – user2246674 May 29 '13 at 23:46

Javascript doesn't really have "associative arrays". {} returns a JavaScript object, which can have named properties and also a prototype which allows objects to inherit properties from other objects.

So performance will not be quite like that of a Hash table, since properties may be inherited from their prototype objects and searching for a given property by name may require traversing up the prototype tree before it is found.

This blog post may also provide some insight:

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Nit: Associative Array is another name for a Map (not to be confused with whatever PHP has). A JavaScript Object is a Map with string keys - of which implementations generally employ some form of Hashing for expected O(1) access. – user2246674 May 29 '13 at 23:31
Right, but my point is that there may be (essentially) multiple maps/associative arrays/objects that must be traversed if you consider the prototype chain, so the performance may be different than if there were just a single map/object/whatever. – Stuart M May 29 '13 at 23:32
Assuming that the implementation is O(1) lookup (pick any bound, it doesn't matter), then looking up C (a finite bound in any practical case) levels is still O(1) complexity. Although, it would be interesting to see what implementation optimization(s) modern engines apply .. (i.e. links in Trevor's answer). More interesting I think though, are cases that can't or won't be optimized. – user2246674 May 29 '13 at 23:40

The term associative array describes its usage: it's a key-value container used to associate one thing to another. But the term hash table describes its implementation: it uses the hash function to locate elements in the underlying array. There could be associative array in some implementation that uses red black tree or other data structure but not hash table.

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