I am currently working on a flexible C/C++ build framework that I'll (hopefully) open source fairly soon. (see this question for some background).
I am using the below command to generate the #include file dependencies for source/header files.
gcc -M -MM -MF
Is there a way of cleverly inferring linker (.o file) dependencies for executables (unit tests + main executable for target platform in my case) using gcc/GNU utilties in a similar way to above? Currently the framework makes a whole lot of assumptions and is pretty dumb in determining these dependencies.
I have heard of one approach where the nm command can be used to come up with a list of undefined symbols in an object file. For example, running nm on an object file (compiled using gcc -c) comes up with something like this -
nm -o module.o module.o: U _undefinedSymbol1 module.o: U _undefinedSymbol2 module.o:0000386f T _definedSymbol
One would then look for other object files where these undefined symbols are defined to come up with a list of object file dependencies required to successfully link the file.
Is this considered best practice in determining linker dependencies for executables? Are there any other ways of inferring these dependencies? Assume that all object files already exist (i.e. have already been compiled using gcc -c) when proposing your solution.