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Is there any performance difference between using something like

for(int i = 0; i < 10; i++) { ... }


for(int i = 0; i < 10; ++i) { ... }

or is the compiler able to optimize in such a way that they are equally fast in the case where they are functionally equivalent?

Edit: This was asked because I had a discussion with a co-worker about it, not because I think its a useful optimization in any practical sense. It is largely academic.

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This should not have been closed. But anyway, if you compile it and use ildasm.exe to look at the MSIL, you will see that the two examples result in identical MSIL. – Rasmus Faber Jan 21 '09 at 22:50
Voted to reopen. To John Sheehan, tvanfosson, ctacke, Marc Gravell.. if you are voting to close.. edit and provide the duplicate in the question! I see no link to a dupe – mmcdole Jan 21 '09 at 22:54
There was an answer with the duplicate, I don't know where it went. – John Sheehan - Runscope Jan 21 '09 at 23:28
That answer pointed to an a question about C. It was deleted after that was pointed out. – Rasmus Faber Jan 21 '09 at 23:31
"It is largely academic." That says a lot. I'm losing count of the number of questions in this vein, which tells me that "academics" ara bringing it up in the first place, rather than telling people how NOT to make things complicated and therefore, slow. – Mike Dunlavey May 8 '09 at 16:43
up vote 28 down vote accepted

There is no difference in the generated intermediate code for ++i and i++ in this case. Given this program:

class Program
    const int counter = 1024 * 1024;
    static void Main(string[] args)
        for (int i = 0; i < counter; ++i)

        for (int i = 0; i < counter; i++)

The generated IL code is the same for both loops:

  IL_0000:  ldc.i4.0
  IL_0001:  stloc.0
  // Start of first loop
  IL_0002:  ldc.i4.0
  IL_0003:  stloc.0
  IL_0004:  br.s       IL_0010
  IL_0006:  ldloc.0
  IL_0007:  call       void [mscorlib]System.Console::WriteLine(int32)
  IL_000c:  ldloc.0
  IL_000d:  ldc.i4.1
  IL_000e:  add
  IL_000f:  stloc.0
  IL_0010:  ldloc.0
  IL_0011:  ldc.i4     0x100000
  IL_0016:  blt.s      IL_0006
  // Start of second loop
  IL_0018:  ldc.i4.0
  IL_0019:  stloc.0
  IL_001a:  br.s       IL_0026
  IL_001c:  ldloc.0
  IL_001d:  call       void [mscorlib]System.Console::WriteLine(int32)
  IL_0022:  ldloc.0
  IL_0023:  ldc.i4.1
  IL_0024:  add
  IL_0025:  stloc.0
  IL_0026:  ldloc.0
  IL_0027:  ldc.i4     0x100000
  IL_002c:  blt.s      IL_001c
  IL_002e:  ret

That said, it's possible (although highly unlikely) that the JIT compiler can do some optimizations in certain contexts that will favor one version over the other. If there is such an optimization, though, it would likely only affect the final (or perhaps the first) iteration of a loop.

In short, there will be no difference in the runtime of simple pre-increment or post-increment of the control variable in the looping construct that you've described.

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++ Yes, there is no difference, and even if there were, the loop would have to be almost empty of code to notice the difference. In this particular code, the loop overhead is to the loop contents as "a lightning bug is to lightning". (Mark Twain quote) – Mike Dunlavey May 8 '09 at 18:32

Ah... Open again. OK. Here's the deal.

ILDASM is a start, but not an end. The key is: What will the JIT generate for assembly code?

Here's what you want to do.

Take a couple samples of what you are trying to look at. Obviously you can wall-clock time them if you want - but I assume you want to know more than that.

Here's what's not obvious. The C# compiler generates some MSIL sequences that are non-optimal in a lot of situations. The JIT it tuned to deal with these and quirks from other languages. The problem: Only 'quirks' someone has noticed have been tuned.

You really want to make a sample that has your implementations to try, returns back up to main (or wherever), Sleep()s, or something where you can attach a debugger, then run the routines again.

You DO NOT want to start the code under the debugger or the JIT will generate non-optimized code - and it sounds like you want to know how it will behave in a real environment. The JIT does this to maximize debug info and minimize the current source location from 'jumping around'. Never start a perf evaluation under the debugger.

OK. So once the code has run once (ie: The JIT has generated code for it), then attach the debugger during the sleep (or whatever). Then look at the x86/x64 that was generated for the two routines.

My gut tells me that if you are using ++i/i++ as you described - ie: in a stand alone expression where the rvalue result is not re-used - there won't be a difference. But won't it be fun to go find out and see all the neat stuff! :)

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That's very informative. Thank you! – Hosam Aly Jan 22 '09 at 6:21

If you're asking this question, you're trying to solve the wrong problem.

The first question to ask is "how to I improve customer satisfaction with my software by making it run faster?" and the answer is almost never "use ++i instead of i++" or vice versa.

From Coding Horror's post "Hardware is Cheap, Programmers are Expensive":

Rules of Optimization:
Rule 1: Don't do it.
Rule 2 (for experts only): Don't do it yet.
-- M.A. Jackson

I read rule 2 to mean "first write clean, clear code that meets your customer's needs, then speed it up where it's too slow". It's highly unlikely that ++i vs. i++ is going to be the solution.

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Amazing, isn't it? Best response here--and the only one necessary. – rp. Jan 22 '09 at 6:38
The question "which one is faster" never occurred to me. I always use ++i. Why? Because I read from left to right and ++i is read as "increment the value of i" and not "take i and increment its value". Since ++ is on the left side, I can see immediately what's going on, I don't need to move my eyeballs to the right :) If you have a long variable name, ++something is much more readable. – Jabba Dec 18 '09 at 21:05
-1: Answering a question the OP never asked while ignoring the real question. Also called OP a troll. – JMD Aug 15 '14 at 20:44
This does not provide an answer to the question. To critique or request clarification from an author, leave a comment below their post. – gknicker Jan 23 '15 at 0:07

Guys, guys, the "answers" are for C and C++.

C# is a different animal.

Use ILDASM to look at the compiled output to verify if there is an MSIL difference.

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Have a concrete piece of code and CLR release in mind? If so, benchmark it. If not, forget about it. Micro-optimization, and all that... Besides, you can't even be sure different CLR release will produce the same result.

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As Jim Mischel has shown, the compiler will generate identical MSIL for the two ways of writing the for-loop.

But that is it then: there is no reason to speculate about the JIT or perform speed-measurements. If the two lines of code generate identical MSIL, not only will they perform identically, they are effectively identical.

No possible JIT would be able to distinguish between the loops, so the generated machine code must necessarily be identical, too.

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In addition to other answers, there can be a difference if your i is not an int. In C++, if it is an object of a class that has operators ++() and ++(int) overloaded, then it can make a difference, and possibly a side effect. Performance of ++i should be better in this case (dependant on the implementation).

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good C++ answer, very bad C# answer. IIRC, C# doesn't have separate overloads for preincrement and postincrement. – Ben Voigt Feb 5 '11 at 4:33
@Ben Voigt: Yes, you can have only one overload for the increment operator in C# ( I didn't know that. Thanks for the tip. – Hosam Aly Feb 7 '11 at 11:34

According to this answer, i++ uses one CPU instruction more than ++i. But whether this results in a performance difference, I don't know.

Since either loop can easily be rewritten to use either a post-increment or a pre-increment, I guess that the compiler will always use the more efficient version.

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  static void Main(string[] args) {
     var sw = new Stopwatch(); sw.Start();
     for (int i = 0; i < 2000000000; ++i) { }
     //int i = 0;
     //while (i < 2000000000){++i;}

Average from 3 runs:
for with i++: 1307 for with ++i: 1314

while with i++ : 1261 while with ++i : 1276

That's a Celeron D at 2,53 Ghz. Each iteration took about 1.6 CPU cycles. That either means that the CPU was executing more than 1 instruction each cycle or that the JIT compiler unrolled the loops. The difference between i++ and ++i was only 0.01 CPU cycles per iteration, probably caused by the OS services in the background.

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Check out how Davy Landman times his code here (in the second code block):… By setting process priority, affinity, and thread priority, you can get more accurate measurements. – Hosam Aly Jan 22 '09 at 6:26

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