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Today, I read this thread about speed of string concatenation.

Surprisingly, string concatenation was the winner:

http://jsperf.com/array-join-vs-string-connect

http://jsperf.com/join-concat/2

The result was opposite from what I thought. Besides, there are many articles about this which explains oppositely like this or this.

I can guess that browsers are optimized to string concat on latest version, but how do they do that? Can we say that it is better to use + when concatenating strings?

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7 Answers 7

up vote 73 down vote accepted

Browser string optimizations have changed the string concatenation picture.

Firefox was the first browser to optimize string concatenation. Beginning with version 1.0, the array technique is actually slower than using the plus operator in all cases. Other browsers have also optimized string concatenation, so Safari, Opera, Chrome, and Internet Explorer 8 also show better performance using the plus operator. Internet Explorer prior to version 8 didn’t have such an optimization, and so the array technique is always faster than the plus operator.

Writing Efficient JavaScript: Chapter 7 – Even Faster Websites

The V8 javascript engine (used in Google Chrome) uses this code to do string concatenation:

// ECMA-262, section 15.5.4.6
function StringConcat() {
  if (IS_NULL_OR_UNDEFINED(this) && !IS_UNDETECTABLE(this)) {
    throw MakeTypeError("called_on_null_or_undefined", ["String.prototype.concat"]);
  }
  var len = %_ArgumentsLength();
  var this_as_string = TO_STRING_INLINE(this);
  if (len === 1) {
    return this_as_string + %_Arguments(0);
  }
  var parts = new InternalArray(len + 1);
  parts[0] = this_as_string;
  for (var i = 0; i < len; i++) {
    var part = %_Arguments(i);
    parts[i + 1] = TO_STRING_INLINE(part);
  }
  return %StringBuilderConcat(parts, len + 1, "");
}

So, internally they optimize it by creating an InternalArray (the parts variable), which is then filled. The StringBuilderConcat function is called with these parts. It's fast because the StringBuilderConcat function is some heavily optimized C++ code. It's too long to quote here, but search in the runtime.cc file for RUNTIME_FUNCTION(MaybeObject*, Runtime_StringBuilderConcat) to see the code.

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2  
You left the really interesting thing out, the array is only used to call Runtime_StringBuilderConcat with different argument counts. But the real work is done there. –  evilpie Sep 4 '11 at 13:24
    
Added it to the answer, thanks for the heads up! –  Daan Sep 4 '11 at 15:19
1  
It's fast because [it's] heavily optimized But in which ways? That is the question. –  artistoex Sep 15 '13 at 9:40
13  
Optimization 101: You should aim for the least slow! for example, arr.join vs str+, on chrome you get (in operations per second) 25k/s vs 52k/s. on firefox new you get 76k/s vs 212k/s. so str+ is FASTER. but lets look other browsers. Opera gives 43k/s vs 26k/s. IE gives 1300/s vs 1002/s. see what happens? the only browser that NEED optimization would be better off using what is slower on all the others, where it doesn't matter at all. So, None of those articles understand anything about performance. –  gcb Sep 21 '13 at 2:19
4  
@gcb, the only browsers for which join is faster shouldn't be used. 95% of my users have FF and Chrome. I'm going to optimize for the 95% use case. –  Paul Draper Jul 4 at 18:24

Firefox is fast because it uses something called Ropes (Ropes: an Alternative to Strings). A rope is basically just a DAG, where every Node is a string.

So for example, if you would do a = 'abc'.concat('def'), the newly created object would look like this. Of course this is not exactly how this looks like in memory, because you still need to have a field for the string type, length and maybe other.

a = {
 nodeA: 'abc',
 nodeB: 'def'
}

And b = a.concat('123')

b = {
  nodeA: a, /* {
             nodeA: 'abc',
             nodeB: 'def'
          } */
  nodeB: '123'
}           

So in the simplest case the VM has to do nearly no work. The only problem is that this slows down other operations on the resulting string a little bit. Also this of course reduces memory overhead.

On the other hand ['abc', 'def'].join('') would usually just allocate memory to lay out the new string flat in memory. (Maybe this should be optimized)

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I would say that with strings it's easier to preallocate a bigger buffer. Each element is only 2 bytes (if UNICODE), so even if you are conservative, you can preallocate a pretty big buffer for the string. With arrays each element is more "complex", because each element is an Object, so a conservative implementation will preallocate space for less elements.

If you try to add a for(j=0;j<1000;j++) before each for you'll see that (under chrome) the difference in speed becomes smaller. In the end it was still 1.5x for the string concatenation, but smaller than the 2.6 that was before.

AND having to copy the elements, an Unicode character is probably smaller than a reference to a JS Object.

Be aware that there is the possibility that many implementations of JS engines have an optimization for single-type arrays that would make all I have written useless :-)

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My guess is that, while every version is wearing the cost of many concatenations, the join versions are building arrays in addition to that.

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This clearly depends on the javascript engine implementation. Even for different versions of one engine you can get significally different results. You should do your own benchmark to verify this.

I would say that String.concat has better performance in the recent versions of V8. But for Firefox and Opera, Array.join is a winner.

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This test shows the penalty of actually using a string made with assignment concatenation vs made with array.join method. While the overall speed of assignment is still twice as fast in Chrome v31 but it is no longer as huge as when not using the resultant string.

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Using console.time , you will note that using + is more optimized than array

function withPlus(){return 'ddfgdfg'+'dfdfgdf'}

function withArray(){return ['ddfgdfg','dfdfgdf'].join('')}

THen :

console.time('plus'); for(var i=0;i<10000;i++){withPlus()};console.timeEnd('plus')

plus: 11.062ms

console.time('array'); for(var i=0;i<10000;i++){withArray()};console.timeEnd('array')

array: 12.673ms

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1  
That's really not a significant perf test. –  dystroy May 27 at 8:40

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