How would one properly do a static_assert within a constexpr function? For example:

constexpr int do_something(int x)
  static_assert(x > 0, "x must be > 0");
  return x + 5;

This is not valid C++11 code, because a constexpr function must only contain a return statement. I don't think that the standard has an exception to this, although, the GCC 4.7 does not let me compile this code.

2 Answers 2


This is not valid C++11 code, because a constexpr function must only contain a return statement.

This is incorrect. static_assert in a constexpr function are fine. What is not fine is using function parameters in constant expressions, like you do it.

You could throw if x <= 0. Calling the function in a context that requires a constant expression will then fail to compile

constexpr int do_something(int x) {
  return x > 0 ? (x + 5) : (throw std::logic_error("x must be > 0"));
  • 12
    Cool, I didn't know throws in a constexpr function that is called in a constexpr context will cause the compilation to fail!
    – Xeo
    Dec 24, 2011 at 19:36
  • 18
    @Xeo doing anything non-constexpressy on the other side of ?: will do the job. :) Dec 24, 2011 at 19:44
  • 6
    I'm confused why "using function parameters in constant expressions" is "not fine". If 'x' is a constant expression then (x+5) is also a constant expression and can be evaluated at compile-time. If 'x' isn't a constant expression then the function itself loses its constexpr-ness (for that particular invocation) and will simply be evaluated at run-time. Could someone clarify?
    – monkey0506
    Jan 18, 2013 at 7:53
  • 6
    @monkey_05_06: Because 'x' is a function argument and therefore not a constexpr. Remember, a constexpr function must also be suitable as a runtime function (with non-constexpr args), and thus its args are ineligible for use in a static_assert(...) declaration. This is regardless of whether you ever actually call the function from a non-constexpr context, which is why the requirement that a constexpr function must also be runtime-callable is as much of a restriction as it is a "feature".
    – etherice
    Apr 26, 2013 at 2:15
  • 2
    @gnzlbg: See his comment above about using anything that isn't a constexpr. What I did (as a generic solution) was declare a **non-**constexpr function template like so... template<typename RT> RT non_constexpr() { return RT{}; } ...to use like this... return (x > 0) ? (x + 5) : non_constexpr<int>(); ... tested in g++ and clang++.
    – etherice
    Apr 26, 2013 at 2:43

This works and is valid C++11 code, because template arguments are compile time only:

template <int x>
constexpr int do_something() {
    static_assert(x > 0, "x must be > 0");
    return x + 5;

I faced with the same problems as you did with constant expressions in C++. There's few clear documentation about constexprs at the moment. And note that there's some known bugs with it in gcc's issue tracker, but your problem seems not to be a bug.

Note that if you declare constexpr functions inside classes, you are not able to use them inside the class. This also seems to be not a bug.

Edit: This is allowed according to the standard: 7.1.3 states

... or a compound-statement that contains only

  • null statements,
  • static_assert-declarations
  • typedef declarations and alias-declarations that do not
    define classes or enumerations,
  • using-declarations,
  • using-directives,
  • and exactly one return statement
  • 1
    No. constexpr must be only a single return statement. Dec 14, 2012 at 22:08
  • 1
    I read the standard. You are correct, this is fine. I edited your answer to add that. Dec 25, 2012 at 17:27
  • Thank you. This way works for me very well. I can not use exceptions, because they are disabled in my build (small embedded system).
    – Alexander
    Dec 3, 2014 at 17:19
  • How do you call this function?
    – marsh
    Sep 3, 2021 at 2:29
  • 1
    @marsh: do_something<x>(); -which means x must be a compile-time value.
    – Robert
    Jan 1 at 0:40

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