7

I'm a bit perplexed by the behavior of this code compiled with clang 3.9:

struct A {
    constexpr A() = default;
    A(const A&) = delete;
    constexpr A(A&&) {}
    A& operator =(const A&) = delete;
    constexpr A& operator =(A&&) { return *this; }
    constexpr operator bool() const { return &self == this; }
private:
    A& self{*this};
};

constexpr A fooA() { return {}; }    

int main(int argc, const char * argv[]) {
    static_assert(fooA(), "");
    return fooA();
}

Godbolt link: https://godbolt.org/g/CDFXAc

Static/compile-time evaluation is happening correctly for fooA; however at runtime the constructor seems to be omitted completely. The static_assert is not fired (as expected) but main still returns 0. Is that because A is a literal type or is it because of a compiler bug?

In case of the former any references to the standard would be appreciated.

  • 1
    GCC 6.3 on Godbolt fails this assertion. – AnT Mar 2 '17 at 22:38
  • @AnT yes, as does 7.0 but what does it prove? – Oleg Bogdanov Mar 2 '17 at 22:40
  • @ildjarn do you want to elaborate which part is UB exactly? – Oleg Bogdanov Mar 3 '17 at 0:43
  • 1
    Just a clang bug. – Oliv Mar 3 '17 at 8:10
-2

The problem is that the output depends on whether copy elision is performed or not (if not, self is initialized to a temporary so fooA() becomes non const and its declaration ill-formed, then you get the unexpected behavior. In the standard there's no strong requirement of copy elision in this context (for c++14) so you get different behaviors from different compilers. You can get more details of this problem in this report

  • even if copy elision would happen copy ctor would still need to be available/visible, in my case its deleted – Oleg Bogdanov Mar 3 '17 at 21:34
  • If copy elision happen the copy ctor is not needed, and then you have a well defined behavior, the problem happen when copy elision doesn't happen, you can check that in the assembler after compiling without optimizations (with a compiler with the problem). The solutions is to guarantee copy elision in constexpr context for construction, I know it was proposed for c++17 but I don't know if it went through – dlavila Mar 3 '17 at 21:48
  • I was refering to : When copy-elision takes place (until C++17)In those cases where copy-elision is not guaranteed, if it takes place (since C++17) and the copy-/move-constructor is not called, it must be present and accessible (as if no optimization happened at all), otherwise the program is ill-formed. – Oleg Bogdanov Mar 3 '17 at 21:51
  • exactly, that's since c++17, if copy-elision is not guaranteed and I takes place the copy ctor doesn't need to be visible in c++14. Just take a look at this godbolt you can see that in both cases the constructor is called but in the first case (fooA) self is initialized to a temporary and when bool() is called A is pointing to a different address – dlavila Mar 3 '17 at 22:44
  • that is in my godblot link too, it was remove from question by someone 'for clarity'... – Oleg Bogdanov Mar 3 '17 at 23:08
2

Here's an even more reduced example:

struct A {
    constexpr A() : self(this) { }
    A* self;
};

int main() {
    constexpr A a{};
}

Neither gcc nor clang accept this code as they do not like the usage of this in the initializer. However, this is allowed in a constant expression as long as it's in a constexpr constructor, since N3652. MSVC gets this right.

  • In your case compilers dont like the code, in my question compiler DOES like it, its me who does not like what it produces :) – Oleg Bogdanov Mar 2 '17 at 22:35
  • If your code fails to compile but OP's code does compile, then this is not a reduced example of OP's problem – M.M Mar 2 '17 at 23:22
  • 1
    @M.M It's the same problem - both compilers do the wrong thing with this, they happen to do different wrong things, and inconsistent wrong things, but it's the same root problem. – Barry Mar 2 '17 at 23:40
  • Also, gcc doesn't compile OP's code. Clang compiles it, but does contradictory things. – Barry Mar 3 '17 at 0:20
  • not the same problem, if you return A{} directly in the original code link you get the expected behavior, the problem is fooA – dlavila Mar 5 '17 at 12:04

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