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I would like to have function A() call B() as an inline macro, but I don't want B() to be visible to the world. I only want A() visible and if the user uses B() accidentally, I want a compiler error.

I know how to do it without inlining:

// a.h
void A(void);

// a.c
#include "b.h"
void A(void) { B(); }

If I #include "a.h", then I have access to A() but not B(). That's fine; that's what I want.

Now I want to do the same, but reduce one level of call complexity by inlining B into A, but I want to hide B.

// a.h
#include "b.h"
#define A() B()
#uninclude "b.h"   <----This is bogus, but I want the equivalent.


// main.c
#include "a.h"
A();  <-- ok
B();  <-- undefined function

This is for low-level firmware, where the call overhead does make a difference but I don't want to abandon high-level code management just for efficiency. In C++, this is trivial, but I am looking for cpp hacks to do it in pure C.

(In my case, a represents a HAL and b represents a BSP. The HAL is processor specific, while the BSP is board (PCB) specific)

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You know about #undef, right? –  Charlie Burns Oct 8 '13 at 0:26
    
It seems to me that "high-level code management" and "cpp hacks" are mutually exclusive. In general, you can't get the C compiler to stop a developer who is determined to ignore internal documentation; that's what code reviews are for. –  msw Oct 8 '13 at 0:26
    
@CharlieBurns -- I know about #undef, but how do you use it in this case? I can't #undef A. –  Mark Lakata Oct 8 '13 at 0:26
    
@MarkLakata, Sorry I think I misunderstood your question. –  Charlie Burns Oct 8 '13 at 0:28
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3 Answers

up vote 1 down vote accepted

If the only declaration b.h makes is a declaration of B and not a definition, then you can do this in a.h:

// a.h
static inline void A(void)
{
    #undef _B__H_  //need this if you have more than one of these inline declarations
    #include "b.h"
    B();
}

assuming b.h looks like this:

// b.h
#ifndef _B_H_
#define _B_H_
void B(void);
#endif

Then the declaration of B is in scope only within A.

In a.c, be sure to include b.h before a.h (or do #undef _B_H_ to force reloading b.h). Otherwise, you will get warnings or errors about incompatible scopes. (a.h includes b.h at local scope, while a.c includes b.h at file scope then ignores all of the remaining local scope includes.)

This will also work if b.h makes additional declarations, as long as they are acceptable in the scope of a function body.

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There is a caveat for this, I think, that if b.h includes (directly or indirectly) any system headers, then it is undefined behaviour to #include those files at function scope; they can only be included at file scope. You're OK if those system headers were first included at file scope, but ensuring that might be tricky. –  Jonathan Leffler Oct 8 '13 at 0:34
    
This didn't work out of box, because I have other non-inline functions in b.h that can't be included from a.c (file level) without giving me scope warnings. –  Mark Lakata Oct 8 '13 at 0:40
    
That’s a shame, because this is the cleanest if b.h is suitable, since it does not play preprocessor games and leaves the name spaces clean. Perhaps it would be worth making a separate bClean.h that just declares B. But I expect B requires types for parameters or return value that are not shown in the question. –  Eric Postpischil Oct 8 '13 at 0:44
    
I found a workaround to make this the best solution and updated the answer. –  Mark Lakata Oct 8 '13 at 16:52
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If you do this:

#define B A
#include "b.h"
#undef B

This changes the definition of B in "b.h" to be a definition of A instead. This requires that b.h define B, not just declare it, so that might not be what you want.

Then after that, in the file where those lines appear, code can use A (with calls such as A()), but no declaration of B is in scope. So attempts to use B would result in compiler errors. (Other declarations made in b.h would be in scope.)

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This sort of works for the limited case, but I have other functions in Bspace that I don't want to automatically rename to Aspace. I want a.h to decide what gets inlined. I'll still give +1 because it might be useful in other situations. –  Mark Lakata Oct 8 '13 at 0:34
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#define A() (B)()
#define B() syntax error

People who write B() will get a syntax error reported (in some shape or form). People who write A() will generate a call to (B)(), which is OK.

This does not stop someone writing (B)() in the code, of course, but it is 80% of the way there.

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Neat trick. It is 99% of the way there for me... Someone could also use #include "b.h" to get around this as well, so if they are doing (B)() to get around it, they are just being spiteful. –  Mark Lakata Oct 8 '13 at 0:33
    
There's one problem/feature that this generates. In my case, it is a feature. It might be a problem for others. You can't include a.h in b.c now. This enforces the reference tree that a depends on b, but b does not depend on a. –  Mark Lakata Oct 8 '13 at 16:33
    
There are ways around that; it depends on whether you want to use them. One way is to have the code in b.c define something which means that a.h does not do the redefinition. –  Jonathan Leffler Oct 8 '13 at 16:58
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