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I'm writing performance-sensitive code that really requires me to force certain function calls to be inlined.

For inline functions that are shared between translation units via a header, one would normally have to put the function definition in the header file. I don't want to do that. Some of these functions operate on complex data structures that should not be exposed in the header.

I've gotten around this by simply #including all the .h and .c files once each into a single .c file, so that there is only one translation unit. (That slows down re-compiles, but not by enough to matter.)

This would be "problem solved," but it eliminates getting an error when a function in one C file calls a function in another C file that is supposed to be private, and I want to get an error in that case. So, I have a separate Makefile entry that does a "normal" build, just to check for this case.

In order to force functions declared inline to play nicely in the "normal" build, I actually define a macro, may_inline, which is used where the inline attribute normally would be. It is defined as empty for a normal build and is defined as "inline" for an optimized build.

This seems like an acceptable solution. The only downside I can see is that I can't have private functions in different .c files that have the same prototype, but so far, that hasn't been much of an issue for me.

Another potential solution is to use GCC's Link-Time Optimization, which is supposed to allow inlining across translation units. It's a new feature, though, and I don't trust it to always inline things the way I would want. Furthermore, I can only get it working on trivial problems, not my actual code.

Is this an acceptable hack, or am I doing something incredibly stupid? The fact that I've never seen this done before makes me a bit nervous.

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GCC -flto is mature enough (notably in GCC 4.8) to be used for pruduction. You should trust it (in GCC 4.8) –  Basile Starynkevitch Jun 28 '13 at 5:51
    
@BasileStarynkevitch Thanks. Well, then, that's my preferred solution. To everyone else: I am still very interested in any answers to my question, because as I mentioned, I can get -flto to work on toy problems, but not my actual codebase. I'm not sure if I'm going to be able to figure out what the problem is. I may end up opening a separate question for that. –  javert Jun 28 '13 at 6:03
    
One thing to keep in mind is that if your various .c files use static variables at file scope, you'll end up with undesired and undiagnosed sharing of those variables if they have the same name and type. –  Michael Burr Jun 28 '13 at 6:14
    
I'm still looking into it, but it appears that I can't use -flto with -std=c99. Removing -std=c99 (which required updating all my for loops) allowed the program to work with -flto; however, some of my code got much slower (that, or my profiling tools broke), which, if I understand correctly, can be "correct" behavior for -flto. Hopefully there will be a positive resolution to this, but it may very well turn out that -flto is not a good option in my situation. –  javert Jun 28 '13 at 8:25
    
What do you mean by should not be exposed in the header? ... exposed to whom? When there is only one translation unit, they are as exposed in a .C file as they are in a .H file. –  Armali Jul 2 '13 at 8:08

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