C++17 §10.1.5/1 states:

The constexpr specifier shall be applied only to the definition of a variable or variable template or the declaration of a function or function template. A function or static data member declared with the constexpr specifier is implicitly an inline function or variable (10.1.6). If any declaration of a function or function template has a constexpr specifier, then all its declarations shall contain the constexpr specifier.

A similar paragraph has existed in the standard since C++11 (§7.1.5/1), which is cited in a comment by Richard Smith, in which he contends that the C++ Standard does not require the constexpr specifier to match between the declaration and definition of a variable. The last statement of the above paragraph explicitly requires the constexpr specifier to match across function and function template declarations, but does not mention variable declarations.

§10.1.5/9 states:

A constexpr specifier used in an object declaration declares the object as const. Such an object shall have literal type and shall be initialized. In any constexpr variable declaration, the full-expression of the initialization shall be a constant expression (8.20).

Of course if we have a separate declaration and definition, they will both need to match in constness, regardless of whether the constexpr specifiers are required to match.

§ says:

2 The declaration of a non-inline static data member in its class definition is not a definition and may be of an incomplete type other than cv void. The definition for a static data member that is not defined inline in the class definition shall appear in a namespace scope enclosing the member’s class definition. In the definition at namespace scope, the name of the static data member shall be qualified by its class name using the :: operator. The initializer expression in the definition of a static data member is in the scope of its class (6.3.7).

3 If a non-volatile non-inline const static data member is of integral or enumeration type... If the member is declared with the constexpr specifier, it may be redeclared in namespace scope with no initializer (this usage is deprecated; see D.1). Declarations of other static data members shall not specify a brace-or-equal-initializer.

§D.1/1 reads:

For compatibility with prior C++ International Standards, a constexpr static data member may be redundantly redeclared outside the class with no initializer. This usage is deprecated.

From which we can gather that if the member is declared with the constexpr specifier, then a namespace scope definition is redundant and the initializer expression must be paired with the declaration and must be omitted from the definition/redeclaration.

To serve as a complete example, I offer up the case of a static member of its own literal type class (which cannot be initialized in-class):

struct S
    static S const ZERO; // not marked `constexpr`, but still `const`

    constexpr S(int value = {}) : _value{ value } {}

    int const _value;

constexpr S S::ZERO{ 0 }; // implicitly `inline` (if C++17) and `const`

This interpretation of constexpr use with static data members is supported by GCC, Clang, and MSVC, though I have been told that this is wrong.

Is it a violation to have non-matching use of the constexpr specifier across variable declarations and definitions?

If this is in fact a violation, then it is impossible to correctly define a constexpr static data member of its own class, as in-class definitions are prohibited because the type is incomplete and out-of-class definitions are prohibited from including an initializer if the in-class declaration is marked with the constexpr specifier.

  • Tagged as both "c++11" and "c++17" because the behavior applies to both (except for the implicit inlining of C++17). Standards quotes are cited from C++17 paper N4659. – monkey0506 May 21 '18 at 0:44
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    Note that in C++17, when a static data member declaration within the class definition uses either constexpr or inline, the declaration within the class definition is a definition, and any redeclaration outside the class definition is not a definition: [basic.def]/(2.3) and (2.4). – aschepler May 21 '18 at 1:02
  • @aschepler yes, that citation is also relevant, though neither constexpr nor inline are applied to the code in question. Thanks. – monkey0506 May 21 '18 at 1:07
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    Related, but about C++11 specifically: stackoverflow.com/questions/11928089 – aschepler May 21 '18 at 1:10
  • @aschepler I have come across several questions (that perhaps should be marked as duplicates) of a similar nature. Most of them have accepted answers that it isn't possible, though as I noted above, GCC, Clang, and MSVC all support this approach. – monkey0506 May 21 '18 at 1:17

If I were to read this:

static S const ZERO; // not marked `constexpr`, but still `const`

S::ZERO will never change its value during run-time due to const.


constexpr S S::ZERO{ 0 }; // implicitly `inline` (if C++17) and `const`

Constant Evaluation is done for S::ZERO which will have constant integral value 0 for _value.
This invokes your constexpr constructor:

constexpr S(int value = {}) : _value{ value } {}

As per basic.start.static - Constant Initialization:

A constant initializer for a variable or temporary object o is an initializer whose full-expression is a constant expression, except that if o is an object, such an initializer may also invoke constexpr constructors for o and its subobjects even if those objects are of non-literal class types.

AND expr.const/8.7 - Constant Evaluation:

a variable whose name appears as a potentially constant evaluated expression that is either a constexpr variable or is of non-volatile const-qualified integral type or of reference type.


Is it a violation to have non-matching use of the constexpr specifier across variable declarations and definitions?

I believe your code is fine.

  • "I believe your code is fine." Thanks, I believe so too. This question was mainly to open up the dialogue of whether the standards have a glaring defect by not requiring these declarations and definitions to match in constexpr usage. I don't believe the standards are defective (in this respect), but others do seem to believe they are. – monkey0506 May 21 '18 at 11:40

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