I am intrigued by how the C++ exception handling mechanism works. Specifically, where is the exception object stored and how does it propagate through several scopes until it is caught? Is it stored in some global area?

Since this could be compiler specific could somebody explain this in the context of the g++ compiler suite?


Implementations may differ, but there are some basic ideas that follow from requirements.

The exception object itself is an object created in one function, destroyed in a caller thereof. Hence, it's typically not feasible to create the object on the stack. On the other hand, many exception objects are not very big. Ergo, one can create e.g a 32 byte buffer and overflow to heap if a bigger exception object is actually needed.

As for the actual transfer of control, two strategies exist. One is to record enough information in the stack itself to unwind the stack. This is basically a list of destructors to run and exception handlers that might catch the exception. When an exception happens, run back the stack executing those destructors until you find a matching catch.

The second strategy moves this information into tables outside the stack. Now, when an exception occurs, the call stack is used to find out which scopes are entered but not exited. Those are then looked up in the static tables to determine where the thrown exception will be handled, and which destructors run in between. This means there is less exception overhead on the stack; return addresses are needed anyway. The tables are extra data, but the compiler can put them in a demand-loaded segment of the program.

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    AFAIR g++ uses the second, address-table approach, presumably for reasons of compatibility with C. Microsoft C++ compiler uses a combined approach, since its C++ exceptions are built on top of SEH (structured exception handling). In each C++ function, MSC++ creates and registers a SEH exception-handling record, which points to a table with address ranges for try-catch blocks and destructors in this particular function. throw packages a C++ exception as a SEH exception and calls RaiseException(), then SEH returns control to the C++-specific handler routine. – Anton Tykhyy Jun 14 '09 at 17:46
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    @Anton: yes, it uses the address-table approach. See my answer to another question at stackoverflow.com/questions/307610/… for the details. – CesarB Jun 17 '09 at 19:11
  • Thanks for the answer. You can see how C purists could be terrified of C++ and its exceptions. The idea that a simple try/catch can unwittingly create a number of stack objects at runtime or bloat your program with extra tables is the reason why embedded systems often avoid them. – speedplane Jan 5 '16 at 5:07
  • @speedplane: No, that's more due to a lack of understanding. Error handling never is free. C just forces you to write it yourself. And we all know how many C programs are missing a free() or an fclose() in some rarely used code path. – MSalters Jan 5 '16 at 7:57
  • @MSalters I'm not disagreeing, it's almost entirely a lack of understanding. Engineers often don't understand how exceptions work and how exceptions will affect their code, which then, justifiably, leads to hesitation when using exceptions. If exception handling implementation was more clearly communicated (and didn't seem like magic), many would be less hesitant to use them. – speedplane Jan 5 '16 at 17:14

This is defined in 15.1 Throwing an exception of the standard.

The throw creates a temporary object.
How the memory for this temporary object is allocated is unspecified.

After creation of the temporary object control is passed to the closest handler in the call stack. unwinding the stack between throw and catch point. As the stack is unwind any stack variables are destroyed in reverse order of creation.

Unless the exception is re-thrown the temporary is destroyed at the end of the handler where it was caught.

Note: If you catch by reference the reference will refer to the temporary, If you catch by value the temporary object is copied into the value (and thus requires a copy constructor).

Advice from S.Meyers (Catch by const reference).

    // do stuff
catch(MyException const& x)
catch(std::exception const& x)
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    Something else that's unspecified is how the program unwinds the stack and how the program knows where the "closest handler" is. I'm pretty sure Borland holds a patent on one method of implementing that. – Rob Kennedy Jan 29 '09 at 16:00
  • As long as the objects are destroyed in reverse order of creation the implementation details are not important unless you are a compiler engineer. – Martin York Jan 30 '09 at 5:36
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    Voted down: a) "Scott Meyers", not "S. Myers"; b) untrue citation: "Effective C++": "Item 13: Catch exceptions by reference.". This will allow for tweaking/appending info to the exception object. – Sebastian Mach Jun 8 '11 at 11:25
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    @phresnel: Don't forget Item 21: "Use const whenever possible". There is no good case for tweaking an exception. You should be a) "fixing and discarding", b)re-throwing or c)generating a new exception. – Martin York Jun 8 '11 at 15:58
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    @phresnel: Yes you have your reasons (don't agree with your logic), I have mine and though I will not claim to have talked to them about this specific subject or actually know their minds (Meyers, Alexandrescu and Sutter) I believe my interpretation stands valid. But if you are in the Seattle area then you can speak with all three as they are regular attendees at the North West C++ User Group (Meyers less often than the others). – Martin York Jun 10 '11 at 20:18

You could take a look here for a detailed explanation.

It may also help to take a look at a trick used in plain C to implement some basic sort of exception handling. This entails using setjmp() and longjmp() in the following manner: the former saves the stack in order to mark the exception handler (like "catch"), while the latter is used to "throw" a value. The "thrown" value is seen as if it has been returned from a called function. The "try block" ends when setjmp() is called again or when the function returns.


I know this is an old question, but there's a very good exposition, explaining both the methods used in each of gcc and VC here: http://www.hexblog.com/wp-content/uploads/2012/06/Recon-2012-Skochinsky-Compiler-Internals.pdf

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