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template<typename T> constexpr inline 
T getClamped(const T& mValue, const T& mMin, const T& mMax) 
     assert(mMin < mMax); // remove this line to successfully compile
     return mValue < mMin ? mMin : (mValue > mMax ? mMax : mValue); 

error: body of constexpr function 'constexpr T getClamped(const T&, const T&, const T&) [with T = long unsigned int]' not a return-statement

Using g++ 4.8.1. clang++ 3.4 doesn't complain.

Who is right here? Any way I can make g++ compile the code without using macros?

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You can probably use static_assert... –  Mats Petersson Sep 6 '13 at 0:35
For future reference: please provide a simple main function that triggers the error in question. –  lpapp Sep 6 '13 at 0:36
@MatsPetersson: what if the constexpr fails and the function is executed at runtime? –  Vittorio Romeo Sep 6 '13 at 0:37
Surely that is not "allowed" (that is, the compiler should not allow you to form a call to getClamped where the inputs aren't constants - so at least the static_assert should fire if the inputs are "wrong way around", even if it can't sort out the clamping at compile-time [although I don't see why it shouldn't be able to do that too]. –  Mats Petersson Sep 6 '13 at 0:42
@Vittorio, no but next time please. In your case the compile options where actually more important as others pointed out. After thinking about your idea I am tempted to undefine constexpr depending on NDEBUG set or not. –  Patrick Fromberg Sep 6 '13 at 9:36

2 Answers 2

up vote 7 down vote accepted

GCC is right. However, there is a relatively simple workaround:

#include "assert.h"

inline void assert_helper( bool test ) {
inline constexpr bool constexpr_assert( bool test ) {
  return test?true:(assert_helper(test),false);

template<typename T> constexpr
inline T getClamped(const T& mValue, const T& mMin, const T& mMax)
  return constexpr_assert(mMin < mMax), (mValue < mMin ? mMin : (mValue > mMax ? mMax : mValue));

where we abuse the comma operator, twice.

The first time because we want to have an assert that, when true, can be called from a constexpr function. The second, so we can chain two functions into a single constexpr function.

As a side benefit, if the constexpr_assert expression cannot be verified to be true at compile time, then the getClamped function is not constexpr.

The assert_helper exists because the contents of assert are implementation defined when NDEBUG is true, so we cannot embed it into an expression (it could be a statement, not an expression). It also guarantees that a failed constexpr_assert fails to be constexpr even if assert is constexpr (say, when NDEBUG is false).

A downside to all of this is that your assert fires not at the line where the problem occurs, but 2 calls deeper.

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Equivalent to test && assert( test ), which I would find more idiomatic. –  Potatoswatter Sep 6 '13 at 1:21
@Potatoswatter No, it isn't. When NDEBUG is undefined, assert(test) is void(0), and your expression is illegal. When NDEBUG is defined, assert(test) is completely implementation defined. So test && assert(test) may or may not be valid code that may or may not work. –  Yakk Sep 6 '13 at 1:30
Ah, sorry. Good deal :) –  Potatoswatter Sep 6 '13 at 2:51
The separate function assert_helper is not needed: C++11 19.3/2 describes the header <cassert>: "The contents are the same as the Standard C library header <assert.h>. See also: ISO C 7.2." N1570 (almost C11) states: "The assert macro puts diagnostic tests into programs; it expands to a void expression." so the body of getClamped can be simply return assert(mMin < mMax), (mValue < mMin ? mMin : (mValue > mMax ? mMax : mValue));. –  Casey Sep 6 '13 at 16:27
@Casey not quite: we have no guarantee from any of that that assert(true) is a valid part of a constexpr. So we have to evaluate mMin < mMax, and only if false can we call assert. Ie, we don't need assert_helper, but we still technically need constexpr_assert for full portability. –  Yakk Sep 11 '13 at 14:41

g++ is right. Per the standard, a non-static assert is not permitted in a constexpr statement.

... its function-body shall be a compound-statement that contains only:
  null statements,
  typedef declarations and alias-declarations that do not define classes or enumerations,
  and exactly one return statement.
      -- 7.1.5/3

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Ah yes, abort is also a return in a way. And clang may also be correct depending on the compiler options because assert may be just defined as noop. –  Patrick Fromberg Sep 6 '13 at 2:58

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