Mentally, I've always wondered how try/throw/catch looks behind the scenes, when the C++ compiles translates it to assembler. But since I never use it, I never got around to checking it out (some people would say lazy).

Is the normal stack used for keeping track of trys, or is a separate per-thread stack kept for this purpose alone? Is the implementation between MSVC and g++ big or small? Please show me some pseudo asm (IA-32 is ok too) so I never have to check it out myself! :)

Edit: Now I get the basics of MSVC's implementation on IA-32 handling. Anybody know for g++ on IA-32, or any other CPU for that matter?


Microsoft Journal's "Under the Hood" series did an in-depth look at that very subject back in 1997:

A Crash Course on the Depths of Win32™ Structured Exception Handling

  • That covers Windows Structured Exception Handling, which is related to, but not the same as, C++ exception handling. Pietrek mentions in the introduction that C++ exceptions, as implemented by Microsoft and Borland, use SEH, but that his article doesn't cover how they implement it. – Rob Kennedy Aug 25 '09 at 22:05
  • Great MSVC/IA-32 article, though lengthy. – Jonas Byström Aug 26 '09 at 20:24
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    C++ exceptions are just a class of SEH exceptions, with a wrapper to include the C++ information (the exception class instance). C++ exceptions have to use SEH so that they propagate kernel boundaries, etc. – Paul Betts Sep 9 '09 at 3:41
  • If you really want to find this out though, it's easy - just trace through it in WinDbg; you can see how the exception mechanisms work (hint: it comes down to kernel32::RaiseException at the end of the day to throw them) – Paul Betts Sep 9 '09 at 3:43
  • the link not working anymore, probably move – pery mimon Aug 3 '18 at 7:25

Poor implementations of exception handlers push some kind of exception handler block for each try clause on the runtime stack as the try clause is entered, and pop it off as the try clause is exited. A location holding the address of the most recently pushed exception handler block is also maintained. Typically these exception handlers are chained together so they can be found by following links from the most recent to older versions. When an exception occurs, a pointer to the last-pushed EH handler block is found, and processing of that "try" clause's EH cases is checked. A hit on an EH case causes stack cleanup to occur back to the point of pushed EH, and control transfers to the EH case. No hits on the EH causes the next EH to be found, and the process repeats. The Windows 32-bit SEH scheme is a version of this.

This is a poor implementation because the program pays a runtime price for each try clause (push then pop) even when no exception occurs.

Good implementations simply record a table of ranges where try clauses occur. This means there's zero overhead to enter/exit a try clause. (My PARLANSE parallell programming langauge uses this technique). An exception looks up the PC of the exception point in the table, and passes control to the EH selected by the table. The EH code resets the stack as appropriate. Fast and pretty. I think the Windows 64 bit EH is of this type, but I haven't looked carefully.


This is a very valuable article about the subject: How a C++ compiler implements exception handling

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    This article have been published in 2002... is it really up to date? – Klaim Aug 25 '09 at 22:08
  • I took an overview long ago. I am not really sure if it is up to date. – AraK Aug 25 '09 at 22:16
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    2002 is fairly recent by C++ standards – Javier Aug 25 '09 at 22:48
  • Short and to the point. Great complement! – Jonas Byström Aug 26 '09 at 20:25
  • This may be indeed a very valuable article, but, unless you quote or summarize some of it, this isn't an answer and should have been posted as a comment. – user207421 Jun 24 '14 at 1:58

The C++ standard committee published a technical report on "C++ performance" to debunk many myths about how C++ features supposedly slow you down. This also includes details about how exception handling could be implemented. The draft of this technical report is available for free. Check section 5.4.1. "Exception Handling Implementation Issues and Techniques".


Have a look at this document which describes the internals of exception handling pretty well.


Asm from the Godbolt compiler explorer, for the x86-64 System V calling convention with g++8.2's C++ABI, for a function that catches, and one that throws.

x86-64 System V uses the .eh_frame section for stack-unwind metadata, so the exception-helper library functions know how to walk the stack and restore registers. That's what .cfi directives do.

  • I couldn't decide whether to post this barely-an-answer as a comment or not. I went with answer, even though I didn't take the time to get into details or show and comment the code. – Peter Cordes Aug 3 '18 at 9:00

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