Can virtual functions like X::f() in the following code

struct X 
    constexpr virtual int f() const 
        return 0;

be constexpr?

  • 2
    Think about it a minute. It would completely defeat the constexpr purpose. – πάντα ῥεῖ Jan 16 '16 at 14:37
  • Such a hypothetical function could be used as a constant expression only if the complete type of the calling instance is known to be X. This would essentially require the language to specify "devirtualization rules". – Kerrek SB Jan 16 '16 at 14:40
  • 1
    @πάνταῥεῖ In D you can do compile time function evaluation with virtual functions. So it's not unthinkable. – Ralph Tandetzky Jan 16 '16 at 14:47
  • 1
    Well, I think it would make sense at least for final functions to be able to be constexpr. – JohnB Oct 22 '16 at 13:35
  • Not just for final methods. It could be useful for a compile time unit test. You instantiate a derived class on the stack and use a static_assert on the result of a virtual method. At that point the whole function body could be visible to the compiler. – QBziZ Jan 31 at 9:35

This answer is no longer correct as of C++20.

No. From [dcl.constexpr]/3 (7.1.5, "The constexpr specifier"):

The definition of a constexpr function shall satisfy the following requirements:

— it shall not be virtual

  • 1
    It is weird, for gcc version 4.9.2 20141101 (Red Hat 4.9.2-1) (GCC) it works – zaratustra Jan 16 '16 at 14:50
  • 2
    Clang++ doesn't accept the code in the link. – Mats Petersson Jan 16 '16 at 14:57
  • 3
    @zaratustra: And GCC 6 doesn't :-( – Kerrek SB Jan 16 '16 at 14:57
  • 2
    @CiroSantilli华涌低端人口六四事件法轮功: "virtual" means "at runtime". "constexpr" means "at compile time". – Kerrek SB Dec 26 '17 at 4:01
  • 3
    Note that virtual constexpr will be legal in c++20. see en.cppreference.com/w/cpp/language/constexpr – Yanis.F Feb 15 at 16:06

Up through C++17, virtual functions could not be declared constexpr. The general reason being that, in constexpr code, everything happen can at compile time. So there really isn't much point to having a function which takes a reference to a base class and calls virtual functions on it; you may as well make it a template function and pass the real type, since you know the real type.

Of course, this thinking doesn't really work as constexpr code becomes more complex, or if you want to share interfaces between compile-time and runtime code. In both cases, losing track of the original type is easy to do. It would also allow std::error_code to be more constexpr-friendly.

Also, the fact that C++20 will allow us to do (limited) dynamic allocation of objects means that it is very easy to lose track of the original type. You can now create a vector<Base*> and operate on that.

So C++20 allows virtual functions to be declared constexpr.

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