11
struct X
    {
    enum class E
    {
        A,B
    };

    static constexpr X A()
    {
        return X{E::A};
    }

    static constexpr X B()
    {
        return X{E::B};
    }

    constexpr operator E() const
    {
        return a;
    }
    E a;
};

template <typename T>
struct Y
{
    void f()
    {
        // without this line clang errs
        // const auto & x = this->x;
        switch(x)
        {
            case X::A():
            case X::B():
            default: return;
        }
    }

    X x = X::A();
};

int main()
{
    Y<int>{}.f();
}

Without the marked line in the snippet clang gives the following error:

error: case value is not a constant expression case

X::B():

However I tried gcc and it compiled fine. Anybody knows if gcc is being lenient or clang has some bug?

See on godbolt (clang 8.0.0): https://godbolt.org/z/ETe5WQ However (gcc 8.3) compiles fine (also on godbolt) and tried other versions of gcc and were also fine

Update:

opened a bug

  • @mkmostafa if you suspect compiler error it would not hurt to specify compiler versions you were using both gcc and clang. – Slava Mar 26 '19 at 14:41
  • 3
    It compiles if you change switch(x) to switch(this->x) – Tharwen Mar 26 '19 at 14:44
  • 1
    Also compiles with clang 5 and clang 6: godbolt.org/z/KHMnoX I suggest filing a bug at bugs.llvm.org – chtz Mar 26 '19 at 14:55
12

Clang (8.0.0) has a bug here.

If you write constexpr auto A = X::A(); and use case A: in your switch statement, you get the same compile error (saying that A is not a constant expression).

If you remove the cases, however, it compiles fine (which implies that A is a valid constexpr => a contradiction to the previous error).

Moreover, switch(x) fails while switch(this->x) succeeds. Since x == this->x in your case, this is definitely a bug.

As chtz mentioned, clang (5/6) seem to work just fine. That's not an argument, but an apparent regression.

Update: As mentioned by the OP, they filed a bug report.

2

It appears clang doesn't work out that switch(x) is a switch on the enum X::E.

If you add an explicit cast to X::E (static_cast or C-style or whatever) your code compiles without your change.

This only happens when your class is a template.

Using switch(this->x) also works.

As whenever x is a member of the class, x is just another name for this->x even in a template, this has to be a clang bug.

The rules for how you can do a switch on a non-enum/integral type are interesting, in that they rely on the existence of an unspecified casting operator to any enum or integral type in the switch expression, and then invoke the same cast in the case expression.

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