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Having seen a question here on SO, about joining strings I have done some testing and came to knowledge that joining a string in a foreach is slower than with a for loop and using the indexes in the array. Shouldn't a for loop be slower because of bound checking on the array? (bound checking on strings[i] which is not present on foreach).

Another thing I don't understand is string.Join() slowness on lists...

EDIT: Updated the error and updated source to final source (removing the last ",")

Here is the result of the test:

DEBUG:
   AMD PHENOM II X4 3GHZ
    StringBuilder foreach System.Action Time: 4077ms (12025926)
    StringBuilder for System.Action Time: 4032ms (11895082)
    String.Join System.Action Time: 5338ms (15744918)
   INTEL XEON W3503 @ 2.4GHZ / 12GB DDR3
    StringBuilder foreach System.Action Time: 4661ms (10926950)
    StringBuilder for System.Action Time: 4202ms (9849590)
    String.Join System.Action Time: 6466ms (15156149)

RELEASE:
   AMD PHENOM II X4 3GHZ
    StringBuilder foreach System.Action Time: 3897ms (11496978)
    StringBuilder for System.Action Time: 3719ms (10970899)
    String.Join System.Action Time: 5307ms (15655162)
   INTEL XEON W3503 @ 2.4GHZ / 12GB DDR3
    StringBuilder foreach System.Action Time: 4533ms (10625128)
    StringBuilder for System.Action Time: 4168ms (9770765)
    String.Join System.Action Time: 7173ms (16813036)
    (why in the world xeon slower than in debug with string.join?)

FOR A GOOD LAUGH LOOK AT THE END.

And here is the source:

public static void Main(string[] Args)
{
    List<string> strings = new List<string>() {};
    for (double d = 0; d < 12000; d++) {
        strings.Add(d.ToString());
    }

    GC.Collect();
    GC.WaitForPendingFinalizers();

    Performance(() =>
    {
            StringBuilder sb = new StringBuilder();
            foreach (string s in strings)
            {
                sb.Append(s);
                sb.Append(",");
            }
            sb.Remove(sb.Length - 1, 1);
    }, "StringBuilder foreach");

    GC.Collect();
    GC.WaitForPendingFinalizers();

    Performance(() =>
    {
        StringBuilder sb = new StringBuilder();
        int max = strings.Count-1;
        int i;
        for (i = 0; i < max; i++)
        {
            sb.Append(strings[i]);
            sb.Append(",");
        }
        sb.Append(strings[i]);
    }, "StringBuilder for");

    GC.Collect();
    GC.WaitForPendingFinalizers();

    Performance(() =>
    {
        string s = string.Join(",", strings);
    }, "String.Join");


}
public static void Performance(Action fn, string prefix)
{
    var timer = new Stopwatch();
    timer.Start();

    for (var i = 0; i < 10000; ++i)
    {
        fn();
    }

    timer.Stop();

    Console.WriteLine("{0} {1} Time: {2}ms ({3})", prefix, fn.ToString(), timer.ElapsedMilliseconds, timer.ElapsedTicks);
}

Are strings getting copied like value types in the foreach? Since the speed is practically the same...

EDIT:

To clarify why int max = strings.Count-1; could be an optimization contrary to what people say (and test proves that is):

We are not working on arrays and the collection comes from an outer scope to the method that iterates over it. If it were strings.Length in the for loop, that could change (like another thread changing the collection).. but that is not the reason, the reason is that we are reading a variable and not calling a method (property get) and it gives merely 5% performance. That is not a compile time optimization for bound checking since nobody can know in advance the "max" value. It depends on what would be the content of strings in each call to the method.

EDIT2:

Did a test in release with a bigger string but the same amount, please have a laugh at String.Join():

List<string> strings = new List<string>() {};
for (double d = 0; d < 12000; d++) {
    strings.Add("ikugluglizuglkuhiugpiugiugholiugholiughpiuhziuhzuiugloiu" + d.ToString());
}

// AMD PHENOM:
//     StringBuilder foreach System.Action Time: 10080ms (29732687)
//     StringBuilder for System.Action Time: 9659ms (28490593)
//     String.Join System.Action Time: 24509ms (72292291)
// INTEL XEON:
//     StringBuilder foreach System.Action Time: 9790ms (22947294)
//     StringBuilder for System.Action Time: 9140ms (21425490)
//     String.Join System.Action Time: 21114ms (49490839)

It may be good for arrays but at collections String.Join sucks brutally, more so for big strings!

Just for reference if you wish to compare:

Windows 7 64bit
CPU Type    QuadCore AMD Phenom II X4 945
CPU Clock   3000 MHz
L3 Cache    6 MB  (On-Die, ECC, NB-Speed)
North Bridge Clock  2010.8 MHz
Memory 8190 MB
Memory Bus  804.3 MHz DDR3-1600
Motherboard Chipset AMD 790X, AMD K10
Memory Timings  8-9-9-24  (CL-RCD-RP-RAS)
Command Rate (CR)   1T
share|improve this question
2  
marjino, strings are not value types. –  Henk Holterman May 1 '11 at 22:23
    
or you can comment on how slow the String.Join is on lists - on arrays it is pretty fast. –  Marino Šimić May 1 '11 at 22:24
1  
foreach involves the creation of an instance of the Enumerator for the collection, which for loops do not involve. Bounds testing is involved in both operations, in some manner or another. Also, for(int i = 0;i <= array.Length;i++) –  Will May 1 '11 at 22:24
    
Strings are reference types. Also, your for loops ends one step too early. –  Etienne de Martel May 1 '11 at 22:25
1  
The for loop test is missing the last string. Try int max = strings.Count; –  Richard Schneider May 1 '11 at 22:25
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2 Answers 2

up vote 1 down vote accepted

Look at the IL code in ILSpy.

The foreach loop has an implicit try .. finally that the for loop does not.

Also inside the foreach there are implicit calls to MoveNext. MoveNext has a lot of overhead, including a version change check before it finally does an index operation on the list to get the entry.

In theory foreach can be faster, but it clearly does more work than a bare for loop.

This is under vs2010. Not sure how other versions handle this.

share|improve this answer
add comment

Shouldn't a for loop be slower because of bound checking on the array?

No, the CLR can optimize that to 1 check if it can verify the bounds. Which makes

 int max = strings.Count - 1;

A bad optimization. In FX 1.1 it would have cost you. (It is incorrect too).

The foreach has to do a little more work (going through an Eumerator). Note the difference is small.

share|improve this answer
    
Hank int max = string.Count; is the right, -1 was a mistake, BUT int max DOES optimize. Take this new code I posted and try. –  Marino Šimić May 1 '11 at 22:37
    
the foreach has to create an enumerator on each for, but the for has to do millions of bound checks on strings[i] unless the compiler did some magic there ... –  Marino Šimić May 1 '11 at 22:38
    
but you have a point wiht the compiler optimization for the bound checking. I tried with moving the int i; out of the action, and it slowed down the for by 5%. So there must be some optimization on the i variable. –  Marino Šimić May 1 '11 at 22:46
    
ok i now think that the compiler cannot optimize this loop like you thought becaus ethe collection is out of scope of the method that iterates over it (so another thread could change it), this is why int max does optimize (it skip reading the property on each iteration). –  Marino Šimić May 1 '11 at 23:10
    
@Marino : just leave the property-inlining to the JIT. This is an old topic. –  Henk Holterman May 1 '11 at 23:19
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