I have read that there is some overhead to using C++ exceptions for exception handling as opposed to, say, checking return values. I'm only talking about overhead that is incurred when no exception is thrown. I'm also assuming that you would need to implement the code that actually checks the return value and does the appropriate thing, whatever would be the equivalent to what the catch block would have done. And, it's also not fair to compare code that throws exception objects with 45 state variables inside to code that returns a negative integer for every error.

I'm not trying to build a case for or against C++ exceptions solely based on which one might execute faster. I heard someone make the case recently that code using exceptions ought to run just as fast as code based on return codes, once you take into account all the extra bookkeeping code that would be needed to check the return values and handle the errors. What am I missing?

  • Dupe of stackoverflow.com/questions/691168/… among others
    – anon
    Dec 13, 2009 at 22:09
  • 1
    @Neil: I think that that other question is more about footprint (i.e. memory/executable size overhead) where as this is about execution speed.
    – CB Bailey
    Dec 13, 2009 at 22:13
  • My answer to it at least is very much about performance, as are some of the others. Possibly they shouldn't have been, but its a bit late now to change them :-)
    – anon
    Dec 13, 2009 at 22:20
  • @Neil: Oh yes, I only read the question, but some answers to that question are almost more relevant to this question than the question they are attached to.
    – CB Bailey
    Dec 13, 2009 at 22:23
  • Possible duplicate of Are Exceptions in C++ really slow Oct 23, 2017 at 11:19

6 Answers 6


There is a cost associated with exception handling on some platforms and with some compilers.

Namely, Visual Studio, when building a 32-bit target, will register a handler in every function that has local variables with non-trivial destructor. Basically, it sets up a try/finally handler.

The other technique, employed by gcc and Visual Studio targeting 64-bits, only incurs overhead when an exception is thrown (the technique involves traversing the call stack and table lookup). In cases where exceptions are rarely thrown, this can actually lead to a more efficient code, as error codes don't have to be processed.

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    The statement about Visual Studio causing overhead while other compilers don't - is this still true today, 4 years later?
    – rich.e
    Jan 31, 2014 at 2:58
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    @rich.e, yes, and it will not change. C++ exceptions are build over Windows structured exceptions (which is not going to change as all __try/__except constructs would stop catching C++ exceptions), and structured exceptions are part of the Windows x86 ABI.
    – avakar
    Jan 31, 2014 at 14:02
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    @avakar Doesn't it depend on whether you use Yes (/EHsc) or Yes with SEH exceptions (/EHa) for the compiler options?
    – Aidiakapi
    Jun 22, 2015 at 16:55
  • I thinks this answer explained better nowadays.
    – Louis Go
    Sep 22, 2021 at 8:14

Only try/catch and try/except block take a few instructions to set up. The overhead should generally be negligible in every case except the tighest loops. But you wouldn't normally use try/catch/except in an inner loop anyway.

I would advise not to worry about this, and use a profiler instead to optimize your code where needed.

  • 1
    Is this really true? Why is try/catch any different from a local variable or temporary that has a destructor? Dec 13, 2009 at 22:43
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    The GNU C++ compiler uses the zero–cost model by default i.e. there is no time overhead when exceptions don't occur. Dec 13, 2009 at 23:22

It's completely implementation dependent but many recent implementations have very little or no performance overhead when exceptions aren't thrown. In fact you are right. Correctly checking return codes from all functions in code that doesn't use exceptions can be slower then doing nothing for code using exceptions.

Of course, you would need to measure the performance for your particular requirements to be sure.

  • Presumably the main cost for checking return codes is the if branch. In exception-based code, don't you have to have the if statement some place else, in order to throw the correct exception anyway? Point is, if things can go wrong, you're down to if statements at some point. But, if a library below you throws exceptions (such std::vector::at()) and you are bounds checking as well, you're doubling the error checking cost.
    – bobobobo
    Dec 10, 2013 at 23:43
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    @bobobobo: but if you have a function A that calls 100 other functions, the version with error codes have to have an if branch between each function call, whereas the version with exceptions has no additional if branches at all. Dec 18, 2013 at 22:28
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    It's true that try { A() ; B() ; C() ; } catch { ( ExceptionType ) } has no if in between the calls to A(), B(), C(), whereas in the exception free code you'd have if( !A() ){handle;} if(!B()){ handle}.. so I do see you have a bit of double-if going on with not using exceptions. But, is the cost of the double-if worse than the notorious catch resolution cost mentioned above (compiler dependent).
    – bobobobo
    Dec 19, 2013 at 0:50

There is some overhead with exceptions (as the other answers pointed out).

But you do not have much of a choice nowadays. Try do disable exceptions in your project, and make sure that ALL dependent code and libraries can compile and run without.

Do they work with exceptions disabled?

Lets assume they do! Then benchmark some cases, but note that you have to set a "disable exceptions" compile switch. Without that switch you still have the overhead - even if the code never throws exceptions.


Only overhead is ~6 instructions which add 2 SEH at the start of the function and leave them at the end. No matter how many try/catches you have in a thread it is always the same.

Also what is this about local variables? I hear people always complaining about them when using try/catch. I don't get it, because the deconstructors would eventually be called anyways. Also you shouldn't be letting an exception go up more then 1-3 calls.

  • I think the point about local variables is that it takes some more tinkering/work to figure out what to destroy when an exception is in flight as opposed to the normal case. At least, that's what I've heard. (I suppose they might be trying to keep code size down, but I'm not sure)
    – Macke
    Dec 13, 2009 at 23:17

I took Chip Uni's test code and expanded it a bit. I split the code into two source files (one with exceptions; one without). I made each benchmark run 1000 times, and I used clock_gettime() with CLOCK_REALTIME to record the start and end times of each iteration. Then I computed the mean and variance of the data. I ran this test with 64-bit versions of g++ 5.2.0 and clang++ 3.7.0 on an Intel Core i7 box with 16GB RAM that runs ArchLinux with kernel 4.2.5-1-ARCH. You can find the expanded code and the full results here.


No Exceptions
  • Average: 30,022,994 nanoseconds
  • Standard Deviation: 1.25327e+06 nanoseconds
  • Average: 30,025,642 nanoseconds
  • Standard Deviation: 1.83422e+06 nanoseconds


No Exceptions
  • Average: 20,954,657 nanoseconds
  • Standard Deviation: 426,662 nanoseconds
  • Average: 23,916,638 nanoseconds
  • Standard Deviation: 1.72583e+06 nanoseconds

C++ Exceptions only incur a non-trivial performance penalty with clang++, and even that penalty is only ~14%.

  • Down voted because the testsuite on github that you link to doesn't really test what the OP wants to know. It basically only measures if a function that contains a throw (that is never reached) is slower than code that doesn't. What you SHOULD measure if whether or not a try { } catch { } block is slower than none.
    – Carlo Wood
    Sep 25, 2018 at 18:48

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