C++ standard says ([except.handle]/9):

If no matching handler is found, the function std::terminate() is called; whether or not the stack is unwound before this call to std::terminate() is implementation-defined

For example, behavior of code below (will it print S::~S() or not) is implementation defined:

struct S {
    S() { std::cout << "S::S()" << std::endl; }
    ~S() { std::cout << "S::~S()" << std::endl; }

int main() {
    S s;
    throw std::runtime_error("exception");

I would like to know in-depth: why is it implementation defined? Why a context cannot be unwinded up to its entry before std::terminate() is called if an exception is uncaught (which is similar to try{ ... } catch(...) { throw; } in the top-level function)? At a glance, such behavior is much clearer and safer in consistence with RAII.


If an exception isn't caught, std::terminate is called. We failed so bad the host environment needs to step in and (maybe) clean up after us. Unwinding the stack in this case is like giving a helmet to a kamikaze pilot.

So for a hosted environment, it may make more sense to just do nothing and let the host clean up.

Now, if you are in a stand alone implementation, and are throwing exceptions, then there is no one to clean up after you. An implementation should preform stack unwinding in this case, because that's what is supposed to clean up the mess.

The standard leaves it to the implementation to facilitate these two very different execution environments.

Like @Matteo pointed out, std::terminate is called before any potential unwinding because you can setup a handler for it. And that handler can do something useful with the stack state, so long as the stack isn't unwound yet.

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    "giving a helmet to a kamikaze pilot". That's a new one for me. – AndyG Jul 3 '17 at 13:58
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    @AndyG - I can't take credit. Heard it in a talk Alexandrescu gave. It was about noexcept but the principle remains :) – StoryTeller - Unslander Monica Jul 3 '17 at 14:00
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    Also, std::terminate being called before unwinding is extremely convenient if you set up a custom terminate handler that can log the current exception and its stack trace. – Matteo Italia Jul 3 '17 at 14:09
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    @MatteoItalia please note, whether or not the stack is unwinded before std::terminate() is called is implementation defined and not guaranteed. – Nevermore Jul 3 '17 at 14:17
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    @StoryTeller The question is about uncaught exceptions and stack unwinding. And in this context override std::terminate() for such purposes is error-prone, isn't it? – Nevermore Jul 3 '17 at 14:32

Not the strongest reason per se, but leaving this up to the implementation allows for more optimizations. E.g.:

class Foo { /*...*/ };

void f();

int main()
    for ( int i = 0; i < 1000000; ++i )
        Foo myFoo;

Here, an implementation may choose not to destroy myFoo if f() throws, which may reduce code size and/or increase performance. The rationale would be if you don't write an exception handler, you don't expect f() to throw anyway, and shortcuts may be taken. This may sound a bit weak, but this is similar to noexcept (C++11) vs. throw() clause (C++98) – removing the requirement to unwind the stack allows for more aggressive optimization.

  • Sounds very weak, particularly as this example (the code is directly in main and all visible in this TU) is so contrived. I can't imagine a compiler writer would go out of their way to optimise for it. – Lightness Races with Monica Jul 3 '17 at 16:45
  • It doesn't have to be in main, if whole program optimization is used, the code could even be in a different TU, but certainly a different function. And it might be impossible to prove that f() doesn't throw for the given inputs. You are not by chance saying that small programs need less optimization? ;-) – Arne Vogel Jul 4 '17 at 12:15
  • That's a big "if"! – Lightness Races with Monica Jul 4 '17 at 13:34
  • Sure, link time optimization is rarely used (though it is now supported by most major compilers). But I've heard compiler developers say that they would absolutely implement optimizations that break ill-formed code for even a minor performance gain in well-formed code. And I've participated in a discussion where Chandler Carruth talked about how much the mere possibility of stack unwinding can hurt optimization. It sounded almost like he abhorred them. I can see how a compiler dev would not want to make this guarantee on principal grounds as well – code that throws should also catch. – Arne Vogel Jul 4 '17 at 17:06
  • Of course they'd "want" to but that's not the same as it actually being feasible or worthwhile to spend time doing it – Lightness Races with Monica Jul 4 '17 at 19:05

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