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I have a .cpp file which has some static free functions. I know how that would help in a header file, but since the cpp is not included anywhere, what's the point? Are there any advantages to it?

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Could you ask this question more clearly? –  Griwes Sep 30 '11 at 12:56
    
Which part do you not get? Also, why the downvote? –  Luchian Grigore Sep 30 '11 at 13:00
    
Downvote is not from me. And as for your first question: read your original post and try to understand it. And it seems you lost some characters... –  Griwes Sep 30 '11 at 13:02
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Is there a different b? Yes, there is. B. –  PlasmaHH Sep 30 '11 at 13:03
    
Right... must have erased the rest of the question by mistake. And now I can't remember what else I wanted to ask :D –  Luchian Grigore Sep 30 '11 at 13:21

3 Answers 3

up vote 12 down vote accepted

Declaring free functions as static gives them internal linkage, which allows the compiler more aggressive optimizations, as it is now guaranteed that nobody outside the TU can see that function. For example, the function might disappear entirely from the assembly and get inlined everywhere, as there is no need to provide a linkable version.

Note of course that this also changes the semantics slightly, since you are allowed to have different static functions of the same name in different TUs, while having multiple definitions of non-static functions is an error.

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Thx, a type of answer I was hoping for. –  Luchian Grigore Sep 30 '11 at 13:48
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"you are allowed to have different static functions of the same name in different TUs" - nameless namespaces can provide that effect too, if you enjoy curly braces and extra indentation ;-) –  Steve Jessop Sep 30 '11 at 14:40
    
@SteveJessop: That's true (and we don't indent for namespaces :-) ), but was that added in C++11? The internal linkage, I mean. –  Kerrek SB Nov 1 '13 at 22:01
    
Yes, the fact that nameless namespaces have internal linkage is new to C++11. –  Steve Jessop Nov 2 '13 at 0:02
    
Surely the compiler can do all this anyway? The inline keyword is basically ignored in modern compilers - "Clang treats it as a mild suggestion from the programmer.", so it wouldn't change inlining, and the linker can remove functions that aren't used. –  Timmmm May 16 at 13:39

Since comment boxes are too small to explain why you have a serious error in your reasoning, I'm putting this as a community wiki answer. For header-only functions, static is pretty much useless because anyone who includes their header will get a different function. That means you will duplicate code the compiler creates for each of the functions (unless the linker can merge the code, but by all I know, that's very unlikely), and worse, if the function would have local statics, each of those locals would be different, resulting in potentially multiple initializations for each call to a definition from a different inclusion. Not good.

What you need for header-only functions is inline (non-static inline), which means each header inclusion will define the same function and modern linkers are capable of not duplicating the code of each definition like done for static (for many cases, the C++ Standard even requires them to do so), but emitting only one copy of the code out of all definitions created by all inclusions.

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I think you're exaggerating the extent to which making a function inline prevents code duplication. Marking it inline doesn't prevent the compiler from actually inlining it, thus duplicating a significant part of the code if not the prolog etc. But it does avoid the likely situation where a large static function might be duplicated even in situations where, given free reign, the compiler would choose not to inline it. –  Steve Jessop Sep 30 '11 at 14:01
    
@Steve I'm not saying something about about inlining calls to functions. No keyword in Standard C++ can prevent inlining calls to functions, be it to inline functions or to static functions. It's the compiler's business, and it will inline calls to static and inline functions as it wishes. –  Johannes Schaub - litb Sep 30 '11 at 14:04
    
You said, "modern linkers will not duplicate the code of each definition". Given the existence of inlining, I think that statement was misleading. More accurate perhaps would be, "modern linkers are capable of not duplicating the code". –  Steve Jessop Sep 30 '11 at 14:05
    
@Steve you are right about the misleading factor. However the Standard even requires linkers to not duplicate their code if you take the address of their function and print it / compare it across TUs. And for that reason, afaik, code generated for inline functions are put into specially named sections, so that the linker can easily throw away all but a single copy of the code. For static functions, no such thing is done. Why would a compiler choose to say "ah, I want code bloat, so I put this inline function into .text, so it cannot be merged!"? –  Johannes Schaub - litb Sep 30 '11 at 14:12
    
Note that my whole answer is done in the assumption that no call inlining happens. That is because if call inlining does happen, then inline and static both have the same code bloat factor - both will end up with the code of the called function in their TU. But if inlining does not happen, inline functions have that significant benefit. –  Johannes Schaub - litb Sep 30 '11 at 14:17

A bit out of order response because the first item addressed raises some huge questions in my head.

but since the cpp is not included anywhere

I strongly hope that you never #include a source file anywhere. The preprocessor doesn't care about the distinction between source versus header. This is distinction exists largely to benefit humans, not the compilers. There are many reasons you should never #include a source file anywhere.

I have a .cpp file which has some static free functions. I know how that would help in a header file ...

How would that help?

You declare non-static free functions in a header if those free functions have external linkage. Declaring (but not defining) static free functions in a header doesn't help. It is a hindrance. You want to put stuff in a header that helps you and other programmers understand the exported content of something. Those static free functions are not exported content. You can define free functions in a header and thus make them exported content, but the standard practice is to use the inline keyword rather than static.

As far as your static free functions in your source file, you might want to consider putting the declarations of those functions near the top of the source file (but not in a header). This can help improve understandability. Without those declarations, the organization of the source file will look Pascalish, with the low-level functions defined first. Most people like a top-down presentation. By declaring the functions first you can employ a top-down strategy. Or an inside out strategy, or whatever strategy makes the functionality easiest to understand.

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