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Can anybody tell me what is the difference between an inline function and static inline function.

In which cases i have to prefer static inline when compared with inline?

I am asking this question because i have a inline function for which i am facing compilation issues during linking(relocation error:... symbol has been discarded with discarded section ...).I made it a normal function and it worked. Now some of my seniors told me try with static inline. Below is my function:

inline void wizSendNotifier (const char* nn_name, bpDU* arg=0, int aspect = -1)
{
   wizuiNotifier* notifier = ::wizNtrKit.getNotifier (nn_name);
   notifier->notify (arg, aspect);
}

and this not inside a class.this is inside a header file!

I guess the call to a static function should be done only in the particular TU where it is defined.

since my function is in a hearder file and if i make it static, will it be the case that where ever i include that header file the static function can used used in that translation unit?

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Is this function inside a class? Please also post its declaration. –  anatolyg Oct 11 '12 at 9:21
1  
is ::wizNtrKit a static object? what's its linkage? –  Walter Oct 11 '12 at 9:41
    
Also, where does the function appear? Header file, source file? How many source files include it? –  Steve Jessop Oct 11 '12 at 9:49
    
the function appears in a header file steve.there are around 50 source file whete the header is included –  Vijay Oct 11 '12 at 10:06

1 Answer 1

up vote 14 down vote accepted

The non-static inline function declaration refers to the same function in every translation unit (source file) that uses it.

The One Definition Rule requires that the body of the function definition is identical in every TU that contains it, with a longish definition of "identical". This is usually satisfied provided that the source files all use the same header, and provided that the function doesn't use any global names with internal linkage (including static functions) or any macros that are defined differently in different TUs.

I don't remember encountering that particular linker error before, but it's at least possible that one of these restrictions is responsible. It's your responsibility to satisfy the requirements: undefined behavior with no diagnostic required if you don't.

The static inline function declaration refers to a different function in each translation unit, that just so happens to have the same name. It can use static global names or macros that are different in different TUs, in which case the function might behave differently in the different TUs, even though its definition in the header file "looks the same".

Because of this difference, if the function contains any static local variables then it behaves differently according to whether it is static or not. If it is static then each TU has its own version of the function and hence its own copy of the static local variables. If it's inline only, then there is only one copy of the static local variables used by all TUs.

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Note: in the case of static functions, the inline bit loses its semantic meaning (it's okay if that function definition appears in multiple TUs); the only thing which remains attached to inline is a mere hint to the compiler, that most nearly ignore. –  Matthieu M. Oct 11 '12 at 9:44
    
Yes, what I say about the inline function would also be true of function declarations that are neither static nor inline, except for the One Definition Rule requirement. Instead of requiring identical definitions in each TU, it would require that only one TU contains a definition at all. Given that the questioner's code works when inline is removed I suspect there's something funny going on here -- you'd expect a linker error if it's defined in multiple TUs. I don't think a diagnostic is required but it's not a difficult one for the linker. –  Steve Jessop Oct 11 '12 at 9:46

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