Please consider the simple example as follows, where the function bar returns an object of class A with private destructor, and mandatory return value optimization (RVO) must take place:

class A { ~A() = default; };
A bar() { return {}; }

The code is accepted by Clang, but rejected by GCC with the error:

error: 'constexpr A::~A()' is private within this context
    2 | A bar() { return {}; }
      |                   ^


Which one of the compilers is right here?

  • VC++ also accepts it. Aug 4 at 20:17
  • 5
    According to cppreference as of C++17 the destructor must be accessible at the point of the return statement, which would make Clang wrong and GCC correct. Aug 4 at 20:17
  • 4
    @NathanPierson sounds like an answer
    – alter igel
    Aug 4 at 21:16
  • @alterigel Far more interesting to show why the de-jure answer was codified. Aug 5 at 15:08

This is CWG 2426. The destructor is potentially invoked within this context, because even after the initialization of the return A object, it's still possible that the function fails to complete successfully: any temporaries created during the return statement, and automatic local variables that are in scope, must be destroyed, and if the destruction throws, then as part of stack unwinding, the A object is destroyed. Compilers should require the destructor to be accessible at this point.

Note 1: exceptions thrown by the destructors of local variables in the outermost scope of the function can be caught by a function try block.

Note 2: after the return object is destroyed, the handler is allowed to execute another return statement. There is an example of this in the standard.

  • 3
    Within this specific context (the OPs example), it is trivially proven that the destructor isn't ever called. Other examples are not so nice. Aug 5 at 15:06
  • Regarding "Note 1": won't an exception thrown by a destructor, cause a call to `std::terminate"? Aug 5 at 15:36
  • 6
    @LorahAttkins Only if done during stack-unwinding due to another exception. Does not apply here. Aug 5 at 15:43

There are many simple cases like in the question where it can be easily proven that the destructor will never be used, however the code is used.

It can get arbitrarily complex to decide that question though, which is the bane of standardization. And leaving it in the hands of the implementers will thus splinter the language, creating incompatible sub-dialects as they go to varying amounts of effort to decide (different) corner-cases.

But even that isn't the end of this, as solving the problem means solving the halting-problem, and thus isn't even intractable, but undecidable.

Thus, side-stepping it as CWG 2426 does is not only for sanity (specifying all the details gets unwieldy extremely fast), but the only choice without capriciously drawing a line after dictating any number of arbitrarily chosen simple cases.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.