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I know what it means when declared in source file. I reading some code, find that static function in header files could be invoke in other files.

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up vote 50 down vote accepted

Is the function defined in the header file? So that the actual code is given directly in the function, like this:

static int addTwo(int x)
{
  return x + 2;
}

Then that's just a way of providing a useful function to many different C files. Each C file that includes the header will get its own definition that it can call. This of course wastes memory, and is (in my opinion) a quite ugly thing to be doing, since having executable code in a header is generally not a good idea.

Remember that #include:ing a header basically just pastes the contents of the header (and any other headers included by it) into the C file as seen by the compiler. The compiler never knows that the one particular function definition came from a header file.

UPDATE: In many cases, it's actually a good idea to do something like the above, and I realize my answer sounds very black-and-white about this which is kind of oversimplifying things a bit. For instance, code that models (or just uses) intrinsic functions can be expressed like the above, and with an explicit inline keyword even:

static inline int addTwo(int *x)
{
  __add_two_superquickly(x);
}

Here, the __add_two_superquickly() function is a fictional intrinsic, and since we want the entire function to basically compile down to a single instruction, we really want it to be inlined. Still, the above is cleaner than using a macro.

The advantage over just using the intrinsic directly is of course that wrapping it in another layer of abstraction makes it possible to build the code on compilers lacking that particular intrinsic, by providing an alternate implementation and picking the right one depending on which compiler is being used.

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11  
Well, the compiler will probably inline short functions. So it could actually use less memory, if the function is short enough. But I would prepend an "inline", so you don't get compile warnings about unused static functions. – quinmars Apr 23 '09 at 9:26
    
@quinmars Good point, I've edited. Better late, I hope. :) Thanks. – unwind Feb 2 '14 at 17:58
    
I wonder if the linker will optimize that out. It sees addTwo on b.obj not being referenced then it removes the definition from the obj? If so, the overhead is just the (size of the function)*(number of different obj files that reference it). Still bigger than (size of the function), but not as bad? – doorfly Jun 30 '14 at 22:10

It will effectively create a separate static function with the same name inside every cpp file it is included into. The same applies to global variables.

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As others are saying, it has exactly the same meaning as a static function in the .c file itself. This is because there is no semantic difference between .c and .h files; there is only the compilation unit made up of the file actually passed to the compiler (usually named .c) with the contents of any and all files named in #include lines (usually named .h) inserted into the stream as they are seen by the preprocessor.

The convention that the C source is in a file named .c and public declarations are in files named .h is only a convention. But it is generally a good one. Under that convention, the only things that should appear in .h files are declarations so that you generally avoid having the same symbol defined more than once in a single program.

In this particular case, the static keyword makes the symbol be private to the module, so there isn't a multiple-definition conflict waiting to cause trouble. So in that one sense, it is safe to do. But in the absence of a guarantee that the function would be inlined, you take the risk that the function would be instantiated in every module that happened to #include that header file which at best is a waste of memory in the code segment.

I am not certain of what use cases would justify doing this at all in a generally available public header.

If the .h file is generated code and only included in a single .c file, then I would personally name the file something other than .h to emphasize that it isn't actually a public header at all. For example, a utility that converts a binary file into an initialized variable definition might write a file that is intended to be used via #include and could very well contain a static declaration of the variable, and possibly even static definitions of accessor or other related utility functions.

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1  
Perhaps the function contains static variables that preserve their value between calls (internal state), and thus each module gets "its own private copy" of the vars by having its own clone of the function? – NicolasMiari Jul 12 '12 at 22:21
1  
@ranReloaded, That is a possibility. I'd personally avoid it because it would provide too many chances for a clever optimizer (or code maintainer) to break it by "cleverly" eliminating the apparently redundant function bodies. Also, it provides exactly one set of internal state per translation unit. It would be less confusing and less fragile to put all of the state in an explicit state variable, passed in to each call. – RBerteig Jul 13 '12 at 23:50
    
Yeah, I don't agree with that 'design' either. I would rather encapsulate private data in file-global static vars (C) or class members (C++) – NicolasMiari Jul 14 '12 at 6:21
    
Although the pro is that the private data is encapsulated, visible right where needed and nowhere else. – NicolasMiari Jul 14 '12 at 8:32

There is not semantic difference in defining in source file or header file, basically both means the same in plain C when using static keyword that, you are limiting the scope.

However, there is a problem in writing this in header file, this is because every time you include the header in a source file you'll have a copy of the function with same implementation which is much similar to have a normal function defined in header file. By adding the definition in header you are not achieving the what the static function is meant for.

Therefore, I suggest you should have your implementation only in your source file and not in header.

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It is usefull in some "header-only" libraries with small inline functions. In a such case you always want to make a copy of the function so this is not a bad pattern. However, this gives you an easy way to insert separate interface and implementation parts in the single header file:

// header.h

// interface part (for user?!)
static inline float av(float a, float b);

// implementation part (for developer)
static inline float av(float a, float b)
{
    return (a+b)/2.f;
}

Apple vector math library in GLK framework uses such constuction (e.g. GLKMatrix4.h).

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