This is just a variation of the method as given by @Michał Górny (I run out of comment space there)...
You could create an include file of the following form:
/* Automatically created file - do not edit or ugly dinosaur will eat you */
# define RENAME(f)
# define RENAME(f) PREFIX ## f
/* list all the function and variables you want to rename here in one place */
#define func_foo RENAME(func_foo)
#define func_bar RENAME(func_bar)
/* ... many more ... */
gcc allows you to specify the inclusion of a header file from command line with option
-include rename.h (assuming this file is called
rename.h). Because you use
gcc lookalike options (
Os), I am assuming you use
gcc in the rest of this answer. Otherwise, if your C compiler is reasonable, you should be able to do it in some similar way.
You can create easily two or even three versions of your library that can be linked in at the same time if you want, by providing different options for your C compiler (here through
CFLAGS += -include rename.h -DPREFIX=fast_ -D_BUILD_FAST -O3 -DBENCHMARKING
CFLAGS += -include rename.h -DPREFIX=small_ -D_BUILD_SMALL -Os -DBENCHMARKING
CFLAGS += -D_BUILD_FAST -O2
If your library header files look very regular and if you declare the library private functions
static, then it is easy to extract the functions from those header files by some dummy script using very simple regular expressions to automatically generate the
rename.h file for you. This is a natural build target if you are using
make or something similar. All the global variables also need to be renamed using the same method to allow simultaneous use.
There are three main points with this solution:
- The ugly renaming business can be hidden in one file, you do not need to edit the actual source files - especially you do not need to clutter the source files but can keep them clean and easy to read.
- The renaming can be easily automated, if you follow some simple principles (coding conventions followed for the header files and the header files will declare all the global variables and functions).
- There is no reason to make benchmarking more cumbersome by needing to run your test program multiple times (this is relevant if you are as lazy as I am and dislike repetive tasks as violently as I do - I know many people do not care, it is somewhat a matter of preference).