Many people are no doubt familiar with Mr. Alexandrescus ScopeGuard template (now part of Loki) and the new version ScopeGuard11 presented here: http://channel9.msdn.com/Shows/Going+Deep/C-and-Beyond-2012-Andrei-Alexandrescu-Systematic-Error-Handling-in-C

with source here: https://gist.github.com/KindDragon/4650442

In his talk at c++ and beyond 2012 he mentioned that he couldn't find a way to correctly detect if scope was being exited because of an exception. Therefore he couldn't implement a SCOPE_FAIL macro which would execute the supplied lambda (usually used for roll back code) if and only if the scope exited because of an exception. This would render the dismiss() member function unneeded and make code more readable.

Since I am by no means as genius or experienced as Mr. Alexandrescu I expect implementing SCOPE_FAIL is not as easy as this:

~ScopeGuard11(){                      //destructor
    if(std::uncaught_exception()){    //if we are exiting because of an exception
        f_();                         //execute the functor
    //otherwise do nothing

My question is why not?

  • It's strange, something tells me it should work, but if I try it, uncaught_exception() always returns false. – Andy Prowl Feb 17 '13 at 23:35
  • I vaguely remember Herb Sutter having something like this on GotW way back when but I can't find it any more. Maybe Alzheimer ;) or I'm not googleing the right thing. – odinthenerd Feb 17 '13 at 23:37
  • I think in the scope guard case, you could actually use std::uncaught_exception, since the scope guard will never be a member of another class (and surely not a local variable in some class' destructor). – Xeo Feb 17 '13 at 23:40
  • @Xeo: Still std::uncaught_exception() seems to return false all the time. Is it perhaps a bug, or am I overlooking something? – Andy Prowl Feb 17 '13 at 23:46
  • 2
    @PorkyBrain: gotw.ca/gotw/047.htm ? – Lightness Races in Orbit Feb 18 '13 at 0:12

With a ScopeGuard11 class that has your destructor, the member f_ may be called, even if it is not the current scope (that is supposed to be protected by the guard) that is being exited due to an exception. Use of this guard is unsafe in code that might be used during exception cleanup.

Try this example:

#include <exception>
#include <iostream>
#include <string>

// simplified ScopeGuard11
template <class Fun>
struct ScopeGuard11 {
     Fun f_;
     ScopeGuard11(Fun f) : f_(f) {}
     ~ScopeGuard11(){                      //destructor
        if(std::uncaught_exception()){    //if we are exiting because of an exception
            f_();                         //execute the functor
         //otherwise do nothing

void rollback() {
  std::cout << "Rolling back everything\n";
void could_throw(bool doit) {
  if (doit) throw std::string("Too bad");

void foo() {
   ScopeGuard11<void (*)()> rollback_on_exception(rollback);
   // should never see a rollback here
   // as could throw won't throw with this argument
   // in reality there might sometimes be exceptions
   // but here we care about the case where there is none 

struct Bar {
   ~Bar() {
      // to cleanup is to foo
      // and never throw from d'tor
      try { foo(); } catch (...) {}

void baz() {
   Bar bar;
   ScopeGuard11<void (*)()> more_rollback_on_exception(rollback);

int main() try {
} catch (std::string & e) {
   std::cout << "caught: " << e << std::endl;

You'd want to see one rollback when leaving baz, but you'll see two - including a spurious one from leaving foo.

  • 1
    Interesting. I'm wondering though if it is not a matter of good design to avoid this pattern. Here, foo() won't ever throw (otherwise it would be bad to call it from a destructor). But if it won't ever throw, why using a rollback on exception? – Andy Prowl Feb 18 '13 at 0:46
  • That foo() was set up to never throw, was for the sake of demonstration. In a real problem case, the conditions when could_throw could throw (sic!) would be less obvious. In that case the Bar destructor could do try { foo(); } catch (...) {}. Or there could be more layers in between, taking care that any exception in foo() would not leave the Bar destructor. Nevertheless you'd get a spurious rollback in foo() even if it is left by regular return. – JoergB Feb 18 '13 at 0:51
  • @AndyProwl: I have adjusted the example to make this clearer. – JoergB Feb 18 '13 at 0:54
  • Makes sense. However, in that case the constructor of ScopeGuard11 could check whether uncaught_exception() returns true and, in that case, save the result of std::current_exception(). In the destructor, it would then invoke std::current_exception() again and compare the result with the previously stored exception pointer. If equal, it won't do anything. If different, it will invoke the rollback function. Does it make sense? – Andy Prowl Feb 18 '13 at 1:03
  • 1
    @ecatmur: Probably yes, but it would require a change to current_exception() as well. Currently, current_exception() returns nullptr before control is transferred to an exception handler. I'm still thinking, though, that the OP's solution is acceptable if one takes proper care of not invoking functions with an exception guard while an exception has been thrown and not yet handled. I would say the constructor of ScopeGuard11 may even assert (or throw an exception itself) if uncaught_exception() returns true. But I'm just thinking aloud, not sure if it's a good idea. – Andy Prowl Feb 18 '13 at 12:11

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