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What does the C++11 iso standard say about such an expression :

class MyClass
        constexpr int test()
            return _x;

        int _x;

_x is a non-const used in a constexpr : will it produce an error, or will the constexpr be simply ignored (as when we pass a non-const parameter) ?

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Did you test it? – Kerrek SB Sep 26 '12 at 15:49
It could not be used as a constexr. – juanchopanza Sep 26 '12 at 15:50
@KerrekSB Yeah I tested it. It compiles, but I don't know if it's normal. @juanchopanza Of course, but the question arrises when I have something like this : return (condition) ? (const) : (non-const) – Vincent Sep 26 '12 at 15:52
In that case, it does not resolve to a constant expression. – juanchopanza Sep 26 '12 at 15:56
up vote 5 down vote accepted

It's perfectly fine, though somewhat useless:

constexpr int n = MyClass().test();

Since MyClass is an aggregate, value-initializing it like that will value-initialize all members, so this is just zero. But with some polish this can be made truly useful:

class MyClass
    constexpr MyClass() : _x(5) { }
    constexpr int test() { return _x; }
// ...

constexpr int n = MyClass().test();  // 5
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"The problem is of course that this is undefined behaviour, because the variable is uninitialized." No it isn't – you're value-initializing an instance of MyClass, so MyClass::_x is guaranteed to be 0. MyClass m; constexpr int n = m.test(); would be UB. – ildjarn Sep 26 '12 at 18:53
@ildjarn: you're right, I forgot that there's no user-defined constructor. – Kerrek SB Sep 26 '12 at 20:47

If the expression does not resolve to a constant expression, then it cannot be used as such. But it can still be used:

#include <array>
constexpr int add(int a, int b)
  return a+b;
int main()
  std::array<int, add(5,6)> a1; // OK
  int i=1, 
  int j=10;
  int k = add(i,j); // OK
  std::array<int, add(i,j)> a2; // Error!
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