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During a code review with a Microsoft employee we came across a large section of code inside a try{} block. She and an IT representative suggested this can have effects on performance of the code. In fact, they suggested most of the code should be outside of try/catch blocks, and that only important sections should be checked. The Microsoft employee added and said an upcoming white paper warns against incorrect try/catch blocks.

I've looked around and found it can affect optimizations, but it seems to only apply when a variable is shared between scopes.

I'm not asking about maintainability of the code, or even handling the right exceptions (the code in question needs re-factoring, no doubt). I'm also not referring to using exceptions for flow control, this is clearly wrong in most cases. Those are important issues (some are more important), but not the focus here.

How do try/catch blocks affect performance when exceptions are not thrown?

EDIT: I'm adding a bounty. There are interesting responses, but I would like to get some more input.

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97  
"He who would sacrifice correctness for performance deserves neither." –  Joel Coehoorn Aug 20 '09 at 19:52
1  
so you are eating the exceptions, and not thowing them? Are you handling the failure case then or doing something? –  Mike Ohlsen Aug 20 '09 at 19:58
10  
that said, correctness need not always be sacrificed for performance. –  Dan Davies Brackett Aug 20 '09 at 19:59
4  
How about simple curiousity? –  Stuart Branham Aug 20 '09 at 20:13
33  
@Joel: Perhaps Kobi just wants to know the answer out of curiosity. Knowing whether performance will be better or worse doesn't necessarily mean he's going to do anything crazy with his code. Isn't the pursuit of knowledge for its own sake a good thing? –  LukeH Aug 20 '09 at 20:15

9 Answers 9

up vote 85 down vote accepted
+100

Check it.

static public void Main(string[] args)
{
    Stopwatch w = new Stopwatch();
    double d = 0;

    w.Start();

    for (int i = 0; i < 10000000; i++)
    {
        try
        {
            d = Math.Sin(1);
        }
        catch (Exception ex)
        {
            Console.WriteLine(ex.ToString());
        }
    }

    w.Stop();
    Console.WriteLine(w.Elapsed);
    w.Reset();
    w.Start();

    for (int i = 0; i < 10000000; i++)
    {
        d = Math.Sin(1);
    }

    w.Stop();
    Console.WriteLine(w.Elapsed);
}

Output:

00:00:00.4269033  // with try/catch
00:00:00.4260383  // without.

In milliseconds:

449
416

New code:

for (int j = 0; j < 10; j++)
{
    Stopwatch w = new Stopwatch();
    double d = 0;
    w.Start();

    for (int i = 0; i < 10000000; i++)
    {
        try
        {
            d = Math.Sin(d);
        }

        catch (Exception ex)
        {
            Console.WriteLine(ex.ToString());
        }

        finally
        {
            d = Math.Sin(d);
        }
    }

    w.Stop();
    Console.Write("   try/catch/finally: ");
    Console.WriteLine(w.ElapsedMilliseconds);
    w.Reset();
    d = 0;
    w.Start();

    for (int i = 0; i < 10000000; i++)
    {
        d = Math.Sin(d);
        d = Math.Sin(d);
    }

    w.Stop();
    Console.Write("No try/catch/finally: ");
    Console.WriteLine(w.ElapsedMilliseconds);
    Console.WriteLine();
}

New results:

   try/catch/finally: 382
No try/catch/finally: 332

   try/catch/finally: 375
No try/catch/finally: 332

   try/catch/finally: 376
No try/catch/finally: 333

   try/catch/finally: 375
No try/catch/finally: 330

   try/catch/finally: 373
No try/catch/finally: 329

   try/catch/finally: 373
No try/catch/finally: 330

   try/catch/finally: 373
No try/catch/finally: 352

   try/catch/finally: 374
No try/catch/finally: 331

   try/catch/finally: 380
No try/catch/finally: 329

   try/catch/finally: 374
No try/catch/finally: 334
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10  
Can you try them in reverse order as well to be sure that JIT compilation hasn't had an effect on the former? –  JoshJordan Aug 20 '09 at 20:04
15  
Programs like this hardly seem like good candidates for testing the impact of exception handling, too much of what would be going on in normal try{} catch{} blocks is going to be optimized out. I may be out to lunch on that... –  LorenVS Aug 20 '09 at 20:04
12  
This is a debug build. The JIT doesn't optimize those. –  Ben M Aug 20 '09 at 20:11
4  
Note that this doesn't seem to be the same as what the question is about. The question states that some of the code should be moved outside and only some pieces checked with exceptions. In other words, it's not about getting rid of the try/catch altogether, it's whether code inside try/catch runs slower by itself than outside. –  Lasse V. Karlsen Aug 21 '09 at 17:14
4  
This is not true at all, Think of it. How many times that you use try catch in a loop? Most of the time you will use loop in a try.c –  Athiwat Chunlakhan Aug 29 '09 at 20:10

No. If the trivial optimizations a try/finally block precludes actually have a measurable impact on your program, you probably should not be using .NET in the first place.

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4  
That's an excellent point - compare to the other items on our list, this one should be minuscule. We should trust basic language features to behave correctly, and optimize what we can control (sql, indexes, algorithms). –  Kobi Aug 22 '09 at 16:13

After seeing all the stats for with try/catch and without try/catch, curiosity forced me to look behind to see what is generated for both the cases. Here is the code:

C#:

private static void TestWithoutTryCatch(){
    Console.WriteLine("SIN(1) = {0} - No Try/Catch", Math.Sin(1)); 
}

MSIL:

.method private hidebysig static void  TestWithoutTryCatch() cil managed
{
  // Code size       32 (0x20)
  .maxstack  8
  IL_0000:  nop
  IL_0001:  ldstr      "SIN(1) = {0} - No Try/Catch"
  IL_0006:  ldc.r8     1.
  IL_000f:  call       float64 [mscorlib]System.Math::Sin(float64)
  IL_0014:  box        [mscorlib]System.Double
  IL_0019:  call       void [mscorlib]System.Console::WriteLine(string,
                                                                object)
  IL_001e:  nop
  IL_001f:  ret
} // end of method Program::TestWithoutTryCatch

C#:

private static void TestWithTryCatch(){
    try{
        Console.WriteLine("SIN(1) = {0}", Math.Sin(1)); 
    }
    catch (Exception ex){
        Console.WriteLine(ex);
    }
}

MSIL:

.method private hidebysig static void  TestWithTryCatch() cil managed
{
  // Code size       49 (0x31)
  .maxstack  2
  .locals init ([0] class [mscorlib]System.Exception ex)
  IL_0000:  nop
  .try
  {
    IL_0001:  nop
    IL_0002:  ldstr      "SIN(1) = {0}"
    IL_0007:  ldc.r8     1.
    IL_0010:  call       float64 [mscorlib]System.Math::Sin(float64)
    IL_0015:  box        [mscorlib]System.Double
    IL_001a:  call       void [mscorlib]System.Console::WriteLine(string,
                                                                  object)
    IL_001f:  nop
    IL_0020:  nop
    IL_0021:  leave.s    IL_002f //JUMP IF NO EXCEPTION
  }  // end .try
  catch [mscorlib]System.Exception 
  {
    IL_0023:  stloc.0
    IL_0024:  nop
    IL_0025:  ldloc.0
    IL_0026:  call       void [mscorlib]System.Console::WriteLine(object)
    IL_002b:  nop
    IL_002c:  nop
    IL_002d:  leave.s    IL_002f
  }  // end handler
  IL_002f:  nop
  IL_0030:  ret
} // end of method Program::TestWithTryCatch

I'm not an expert in IL but we can see that an local exception object is created on fourth line .locals init ([0] class [mscorlib]System.Exception ex) after that things are pretty same as for method without try/catch till the line seventeen IL_0021: leave.s IL_002f. If an exception occurs the control jumps to line IL_0025: ldloc.0 otherwise we jump to label IL_002d: leave.s IL_002f and function returns.

I can safely assume that if no exceptions occur then it is the overhead of creating local variables to hold exception objects only and a jump instruction.

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1  
+1 this is the best answer. The differences between the two are very clear (and mild). –  HuBeZa Aug 31 '09 at 15:38
7  
Well, the IL includes a try/catch block in the same notation as in C#, so this does not really show how much overhead a try/catch means behind the scenes! Just that the IL does not add much more, does not mean the same as it is not added something in the compiled assembly code. The IL is just a common representation of all .NET languages. It is NOT machine code! –  awe Sep 1 '09 at 8:06

Quite comprehensive explanation of the .NET exception model.

Rico Mariani's Performance Tidbits: Exception Cost: When to throw and when not to

The first kind of cost is the static cost of having exception handling in your code at all. Managed exceptions actually do comparatively well here, by which I mean the static cost can be much lower than say in C++. Why is this? Well, static cost is really incurred in two kinds of places: First, the actual sites of try/finally/catch/throw where there's code for those constructs. Second, in unmanged code, there's the stealth cost associated with keeping track of all the objects that must be destructed in the event that an exception is thrown. There's a considerable amount of cleanup logic that must be present and the sneaky part is that even code that doesn't itself throw or catch or otherwise have any overt use of exceptions still bears the burden of knowing how to clean up after itself.

Dmitriy Zaslavskiy:

As per Chris Brumme's note: There is also a cost related to the fact the some optimization are not being performed by JIT in the presence of catch

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1  
Thing about C++ is that a very large chunk of the standard library will throw exceptions. There is nothing optional about them. You have to design your objects with some sort of exception policy, and once you've done that there is no more stealth cost. –  David Thornley Aug 20 '09 at 20:22
    
Thnx for the link! Nice one. –  Henri Aug 20 '09 at 21:07

The structure is different in the example from Ben M. It will be extended overhead inside the inner for loop that will cause it to not be good comparison between the two cases.

The following is more accurate for comparison where the entire code to check (including variable declaration) is inside the Try/Catch block:

        for (int j = 0; j < 10; j++)
        {
            Stopwatch w = new Stopwatch();
            w.Start();
            try { 
                double d1 = 0; 
                for (int i = 0; i < 10000000; i++) { 
                    d1 = Math.Sin(d1);
                    d1 = Math.Sin(d1); 
                } 
            }
            catch (Exception ex) {
                Console.WriteLine(ex.ToString()); 
            }
            finally { 
                //d1 = Math.Sin(d1); 
            }
            w.Stop(); 
            Console.Write("   try/catch/finally: "); 
            Console.WriteLine(w.ElapsedMilliseconds); 
            w.Reset(); 
            w.Start(); 
            double d2 = 0; 
            for (int i = 0; i < 10000000; i++) { 
                d2 = Math.Sin(d2);
                d2 = Math.Sin(d2); 
            } 
            w.Stop(); 
            Console.Write("No try/catch/finally: "); 
            Console.WriteLine(w.ElapsedMilliseconds); 
            Console.WriteLine();
        }

When I ran the original test code from Ben M, I noticed a difference both in Debug and Releas configuration.

This version, I noticed a difference in the debug version (actually more than the other version), but it was no difference in the Release version.

Conclution:
Based on these test, I think we can say that Try/Catch does have a small impact on performance.

EDIT:
I tried to increase the loop value from 10000000 to 1000000000, and ran again in Release to get some differences in the release, and the result was this:

   try/catch/finally: 509
No try/catch/finally: 486

   try/catch/finally: 479
No try/catch/finally: 511

   try/catch/finally: 475
No try/catch/finally: 477

   try/catch/finally: 477
No try/catch/finally: 475

   try/catch/finally: 475
No try/catch/finally: 476

   try/catch/finally: 477
No try/catch/finally: 474

   try/catch/finally: 475
No try/catch/finally: 475

   try/catch/finally: 476
No try/catch/finally: 476

   try/catch/finally: 475
No try/catch/finally: 476

   try/catch/finally: 475
No try/catch/finally: 474

You see that the result is inconsequent. In some cases the version using Try/Catch is actually faster!

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1  
I've noticed this too, sometimes it's faster with try/catch. I've commented it on Ben's answer. However, unlike 24 voters, I don't like this sort of benchmarking, I don't think it's a good indication. The code is faster in this case, but will it always be? –  Kobi Aug 25 '09 at 9:44
    
Doesn't this prove that your machine was doing a variety of other tasks at the same time? Elapsed time is never a good measure, you need to use a profiler that records processor time, not elapsed time. –  Colin Desmond Aug 25 '09 at 9:56
1  
@Kobi: I aggree that this is not the best way to benchmark if you are going to publish it as a proof that your program runs faster than other or something, but can give you as a developer an indication of one method performing better than another. In this case, I think we can say that the differences (at least for Release configuration) is ignorable. –  awe Aug 27 '09 at 6:05

I tested the actual impact of a try..catch in a tight loop, and it's too small by itself to be a performance concern in any normal situation.

If the loop does very little work (in my test I did an x++), you can measure the impact of the exception handling. The loop with exception handling took about ten times longer to run.

If the loop does some actual work (in my test I called the Int32.Parse method), the exception handling has too little impact to be measurable. I got a much bigger difference by swapping the order of the loops...

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try catch blocks have a negligible impact on performance but exception Throwing can be pretty sizable, this is probably where your coworker was confused.

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See discussion on try/catch implementation for a discussion of how try/catch blocks work, and how some implementations have high overhead, and some have zero overhead, when no exceptions occur. In particular, I think the Windows 32 bit implementation has high overhead, and the 64 bit implementation does not.

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What I described are two different approaches to implementing exceptions. The approaches apply equally to C++ and C#, as well as managed/unmanaged code. Which ones MS chose for their C# I don't exactly know, but the exception-handling architecture of machine-level applications provided by MS uses the faster scheme. I'd be a bit surprised if the C# implementation for 64 bits didn't use it. –  Ira Baxter Aug 21 '13 at 19:12
    
Hmm, I'll read about that more. –  Csaba Toth Aug 21 '13 at 19:53

The try/catch HAS impact on the performance.

But its not a huge impact. try/catch complexity is generally O(1), just like a simple assignment, except when they are placed in a loop. So you have to use them wisely.

Here is a reference about try/catch performance (doesn't explain the complexity of it though, but it is implied). Take a look at Throw Fewer Exceptions section

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I'd appreciate some reading material. –  Kobi Aug 29 '09 at 19:56
    
I've add a reference. –  Isaac Oct 19 '11 at 17:15
    
Complexity is O(1) it doesn't mean too much. For example if you equip a code section which is called very frequently with try-catch (or you mention a loop), the O(1)s could add up to a measurable number in the end. –  Csaba Toth Aug 21 '13 at 17:37

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