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I am considering using boost exception handling in my application. The main benefit from adopting boost exception handling is I can add metadata to the exceptions. This can ease debugging and allow more information to be propagated upwards as the exception stack is unwound. However I am not clear with the performance implications of this. How is boost exception handling implemented - Are the error_info objects stored in a map internally (with log(n) insertion at every insertion)! Any known cons of boost exception handling!

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I would guess that any map insertion or other processing for the metadata that is possibly done will pale in comparison to the overhead of actually (re)throwing the C++ exception. –  Martin Ba Dec 29 '10 at 11:23
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Exceptions should be exceptional (sorry for the tautology). Exception handling overhead should be considered only for the case when no exception occurs. Overhead of handling of a thrown exception should be irrelevant. If it's not the case, it's a sign of a design error. –  atzz Dec 29 '10 at 11:28
    
@atzz: it is relevant, if I throw an exception I what it to be caught today, not tomorrow. –  ybungalobill Dec 29 '10 at 11:47
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@ybungalobill - let's not argue for the sake of arguing. If you don't agree with my comment, please re-phrase yours in a form that allows constructive discussion. –  atzz Dec 29 '10 at 11:54
    
@atzz: I claim that exceptions should be as efficient as possible as long they don't affect the non-exceptional code. –  ybungalobill Dec 29 '10 at 17:13

2 Answers 2

Yes, the error infos are stored in a map. The cost of inserting error_info is negligible both in terms of speed (throwing and stack unwinding is probably lot slower) and space (all memory is reclaimed at the end of the catch, typically soon after all the other memory freed as the stack unwinds.)

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As you mentioned, as far as I saw, the following load accompanies for operator<<.

  • new error_info for initializing of shared_ptr< error_info >

  • new exception_detail::error_info_container_impl for initializing of intrusive_ptr< exception_detail::error_info_container>

  • operator[] for inserting these in std::map< typeinfo, shared_ptr<error_info_base const> >

I cannot say whether these load matter in your situation. If you are concerned, it'd be better to measure the load in the actual environment.

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