Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I was reading this book - Professional Javascript for Web Developers where the author mentions string concatenation is an expensive operation compared to using an array to store strings and then using the join method to create the final string. Curious, I did a couple test here to see how much time it would save and this is what I got -

Somehow, the Firefox usually produces somewhat similar times to both ways, but in IE, string concatenation is much much faster. So, can this idea now be considered outdated (browsers probably have improved since?

share|improve this question
I just tried your example in IE 7 ( and it seems to be the opposite of what you say. I get: Concatenation with plus: 92829 milliseconds Concatenation with StringBuffer: 125 milliseconds. In Firefox 3.5 on the same machine I get Concatenation with plus: 110 milliseconds Concatenation with StringBuffer: 113 milliseconds – Matthew Lock Sep 3 '09 at 0:58
This is peculiar. I thought I was getting skewed results since I was running the script locally, so I put on jsbin. Still the same. I am using IE8 though and Firefox 3.5. I am going to try this on my IE7 on virtual pc. – Dhana Sep 3 '09 at 1:01
92829 millisecs? Thats 1 minute 32 seconds. Are you sure? – bucabay Sep 3 '09 at 11:12
@bucabay Yes that's right. Ages isn't it! – Matthew Lock Sep 8 '09 at 6:19
up vote 25 down vote accepted

**EDIT: I assume people are still viewing this post--but it has been 3+ years, so it is in your best interest to just view:

View the changes of this post to see what it used to say.

share|improve this answer
Very good answer, but if the strings being concatenated were longer (at least 500 chars) the difference will be evident no matter what kind of computer runs it – Rodrigo Sep 3 '09 at 1:17
TraceMonkey, not Trackmonkey : ) – kangax Sep 3 '09 at 4:41
Misspellings :) – Justin Van Horne Sep 4 '09 at 6:10
Look at this performance test: Clearly the way shown above is not optimal in any browser. – zachzurn Aug 9 '12 at 19:27
@zachzurn This post is 3+ years old. Things have changed for sure. – Justin Van Horne Aug 20 '12 at 14:11

Even if it were true and the join() was faster than concatenation it wouldn't matter. We are talking about tiny amounts of miliseconds here which are completely negligible.

I would always prefer well structured and easy to read code over microscopic performance boost and I think that using concatenation looks better and is easier to read.

Just my two cents.

share|improve this answer
A millisecond inside a loop that occurs many times is not always negligible. It can add up to seconds, days, or years - depends on the application, and I can't believe you don't know that. Your two cents is worth nothing. – DaveWalley Apr 23 '14 at 21:26
In complete agreement w/ @DaveWalley ... if you don't put thought in considering the complexity, i.e. the running time/space of your algorithm, it could mean the difference between a smooth and a laggy response. I would argue your two cents are actually worth two cents... of debt. – Daniel Macias Jun 25 '15 at 0:26
I think Richard Knop has a total valid point. Readability counts for a lot in the early phases of a project. As long as you are not in a i>1000 loop there is nothing wrong with concatenation. Please don't fall for this 'Premature Optimization' trap... it is a well known antipattern and causes the most grief in my experience. – Oliver Watkins Mar 3 at 11:54

On my system (IE 8 in Windows 7) the times of StringBuilder in that test very from about 70-100% in range -- that is, it is not stable -- although the mean is about 95% of that of the normal appending.

While it's easy now just to say "premature optimization" (and I suspect that in almost every case it is) there are things worth considering:

The problem with repeated string concatenation comes repeated memory allocations and repeated data copies (advanced string data-types can reduce/eliminate much of this, but let's keep assuming a simplistic model for now). From this lets raise some questions:

  • What memory allocation is used? In the naive case each str+=x requires str.length+x.length new memory to be allocated. The standard C malloc, for instance, is a rather poor memory allocator. JS implementations have undergone changes over the years including, among other things, better memory subsystems. Of course these changes don't stop there and touch really all aspects of modern JS code. Because now ancient implementations may have been incredibly slow in certain tasks does not necessarily imply that the same issues still exist, or to the same extents.

  • As with above the implementation of Array.join is very important. If it does NOT pre-allocate memory for the final string before building it then it only saves on data-copy costs -- how many GB/s is main memory these days? 10,000 x 50 is hardly pushing a limit. A smart Array.join operation with a POOR MEMORY ALLOCATOR would be expected to perform a good bit better simple because the amount of re-allocations is reduced. This difference would be expected to be minimized as allocation cost decreases.

  • The micro-benchmark code may be flawed depending on if the JS engine creates a new object per each UNIQUE string literal or not. (This would bias it towards the Array.join method but needs to be considered in general).

  • The benchmark is indeed a micro benchmark :) Increase the growing size should have an impact of performance based on any or all (and then some) above conditions. It is generally easy to show extreme cases favoring some method or another -- the expected use case is generally of more importance.

Although, quite honestly, for any form of sane string building, I would just use normal string concatenation until such a time it was determined to be a bottleneck, if ever.

I would re-read the above statement from the book and see if there perhaps other implicit considerations the author was indeed meaning to invoke such as "for very large strings" or "insane amounts of string operations" or "in JScript/IE6", etc... If not, then such a statement is about as useful as "Insert sort is O(n*n)" [the realized costs depend upon the state of the data and the size of n of course].

And the disclaimer: the speed of the code depends upon the browser, operating system, the underlying hardware, moon gravitational forces and, of course, how your computer feels about you.

share|improve this answer

In principle the book is right. Joining an array should be much faster than repeatedly concatenating to the same string. As a simple algorithm on immutable strings it is demonstrably faster.

The trick is: JavaScript authors, being largely non-expert dabblers, have written a load of code out there in the wild that uses concatenating, and relatively little ‘good’ code that using methods like array-join. The upshot is that browser authors can get a better improvement in speed on the average web page by catering for and optimising the ‘bad’, more common option of concatenation.

So that's what happened. The newer browser versions have some fairly hairy optimisation stuff that detects when you're doing a load of concatenations, and hacks it about so that internally it is working more like an array-join, at more or less the same speed.

share|improve this answer

I actually have some experience in this area, since my primary product is a big, IE-only webapp that does a LOT of string concatenation in order to build up XML docs to send to the server. For example, in the worst case a page might have 5-10 iframes, each with a few hundred text boxes that each have 5-10 expando properties.

For something like our save function, we iterate through every tab (iframe) and every entity on that tab, pull out all the expando properties on each entity and stuff them all into a giant XML document.

When profiling and improving our save method, we found that using string concatention in IE7 was a lot slower than using the array of strings method. Some other points of interest were that accessing DOM object expando properties is really slow, so we put them all into javascript arrays instead. Finally, generating the javascript arrays themselves is actually best done on the server, then you write then onto the page as a literal control to be exectued when the page loads.

share|improve this answer
I had a similar problem in one of my apps and I decided to try this approach today- whaddya say - improvements in IE7 was definitely visible. – Dhana Sep 3 '09 at 3:08

As we know, not all browsers are created equal. Because of this, performance in different areas is guaranteed to differ from browser to browser.

That aside, I noticed the same results as you did; however, after removing the unnecessary buffer class, and just using an array directly and a 10000 character string, the results were even tighter/consistent (in FF 3.0.12):

Unless you're doing a great deal of string concatenation, I would say that this type of optimization is a micro-optimization. Your time might be better spent limiting DOM reflows and queries (generally the use of document.getElementbyById/getElementByTagName), implementing caching of AJAX results (where applicable), and exploiting event bubbling (there's a link somewhere, I just can't find it now).

share|improve this answer
I tried your script, unfortunately it keeps timing out on me in Firefox 3.5. – Dhana Sep 4 '09 at 15:58
Even more of a highlight for differences in performance between browsers and their versions. – Justin Johnson Sep 4 '09 at 19:35

Okay, regarding this here is a related module:

This is an effective means of creating String buffers, by using

var buffer = new String.Buffer();
buffer.append("foo", "bar");

This is the fastest sort of implementation of String buffers I know of. First of all if you are implementing String Buffers, don't use push because that is a built-in method and it is slow, for one push iterates over the entire arguments array, rather then just adding one element.

It all really depends upon the implementation of the join method, some implementations of the join method are really slow and some are relatively large.

share|improve this answer
Do you have a link to anything that would suggest that the push method is slow? – Prestaul Sep 3 '09 at 1:59 You have to deal with proto as well as the length of the arguments Array, two things which should not be necessary.… – jhuni Sep 5 '09 at 6:58

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.