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#include <algorithm>

struct S
    static constexpr int X = 10;

int main()
    return std::min(S::X, 0);

If std::min expects a const int&, the compiler very likely would like to have the S::X also defined somewhere, i.e. the storage of S::X must exists.

See here or here.

Is there a way to force the compiler to evaluate my constexpr at compile time?

The reason is:

Initially, we had a problem in early initialization of static variables in the init priority. There was some struct Type<int> { static int max; };, and some global static int x = Type<int>::max;, and some other early code other_init used that x. When we updated GCC, suddenly we had x == 0 in other_init.

We thought that we could avoid the problem by using constexpr, so that it would always evaluate it at compile time.

The only other way would be to use struct Type<int> { static constexpr int max(); }; instead, i.e. letting it be a function.

share|improve this question
constexpr doesn't fix the Static Initialization Order Fiasco. –  chris Jun 20 at 7:48
Can you post the code which is giving you problems? I mean the one with struct Type<int>. I'd be interested in seeing it. –  Marco A. Jun 20 at 8:54
@MarcoA.: What code do you mean? It's already there. Let other_init be __attribute__((constructor)) and just printf("%i", x);. –  Albert Jun 20 at 9:31

1 Answer 1

The constexpr is evaluated at compile time. Your problem is due to the fact that std::min is not a constexpr, so regardless of its input, the results are not a const expression (and in particular, if you initialize a variable with static lifetime using std::min, it is dynamic initialization).

The simplest solution is probably to define your own min, something along the lines of:

template <typename T>
constexpr T staticMin( T a, T b )
    return a > b ? b : a;

This should result in full evaluation at compile time, and static initialization.

share|improve this answer
My question is not really about std::min. That is just an example. I don't want to duplicate all of STL. Also, it doesn't matter that the result of std::min is not a const expression. I don't want/need/asked for the evaluation of std::min at compile time. –  Albert Jun 20 at 8:44
So what is your question? In your example code, S::X is a compile time constant, and it is evaluated at compile time. What isn't evaluated at compile time is std::min, because std::min isn't constexpr. –  James Kanze Jun 20 at 10:33
I don't care that std::min is not evaluated at compile time. S::X is not evaluated at compile time, otherwise the linker would not complain about the missing symbol. See also my linked questions, maybe they make it more clear. –  Albert Jun 20 at 12:24
Except that S::x is evaluated at compile time. The reason the linker complains about the missing symbol is because the interface to std::min requires its address (indirectly, via a reference argument). (If the compiler doesn't "look into" std::min, it must assume that it might contain something like &arg == &S::X. Which must evaluate to true, so the compiler cannot pass a reference to a local temporary.) –  James Kanze Jun 20 at 12:40
I think we understand "evaluated at compile time" differently. See the linked questions, esp this answer. I basically mean that the expression of S::X gets inlined. As if you would have written std::min(10, 0). That is the same meaning as in the linked answer. If that requires a const T&, it will use the address on the stack. –  Albert Jun 20 at 13:02

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