Every (non-static) function defined in every
foo.c file should have a prototype in the corresponding
foo.h file, and
foo.c should have
#include "foo.h". (
main is the only exception.)
foo.h should not contain prototypes for any functions not defined in
Every function should prototyped exactly once.
You can have
.h files with no corresponding
.c files if they don't contain any prototypes. The only
.c file without a corresponding
.h file should be the one containing
You already know this, and your problem is that you have a huge code base where this rule has not been followed.
So how do you get from here to there? Here's how I'd probably do it.
Step 1 (requires a single pass over your code base):
- For each file
foo.c, create a file
foo.h if it doesn't already exist. Add
"#include "foo.h" near the top of
foo.c. If you have a convention for where
.c files should live (either in the same directory or in parallel
src directories, follow it; if not, try to introduce such a convention).
- For each function in
foo.c, copy its prototype to
foo.h if it's not already there. Use copy-and-paste to ensure that everything stays consistent. (Parameter names are optional in prototypes and mandatory in definitions; I suggest keeping the names in both places.)
- Do a full build and fix any problems that show up.
This won't catch all your problems. You could still have multiple prototypes for some functions. But you'll have caught any cases where two headers have inconsistent prototypes for the same function and both headers are included in the same translation unit.
Once everything builds cleanly, you should have a system that's at least as correct as what you started with.
- For each file
foo.h, delete any prototypes for functions that aren't defined in
- Do a full build and fix any problems that show up. If
bar.c calls a function that's defined in
bar.c needs a
For both of these steps, the "fix any problems that show up" phase is likely to be long and tedious.
If you can't afford to do all this at once, you can probably do a lot of it incrementally. Start with one or a few
.c files, clean up their
.h files, and remove any extra prototypes declared elsewhere.
Any time you find a case where a call uses an incorrect prototype, try to figure out the circumstances in which that call is executed, and how it causes your application to misbehave. Create a bug report and add a test to your regression test suite (you have one, right?). You can demonstrate to management that the test now passes because of all the work you've done; you really weren't just messing around.
Automated tools that can parse C are likely to be useful. Ira Baxter has some suggestions.
ctags may also be useful. Depending on how your code is formatted, you can probably throw together some tools that don't require a full C parser. For example, you might use
perl to extract a list of function definitions from a
foo.c file, then manually edit the list to remove false positives.