Based on my understanding, the chief benefits of creating a program with multiple compilation units are reusability of components and shorter compile times when incorporating small changes.
I also think (possibly wrongly) that there is a penalty associated with this, in that functions which are defined in their own compilation units cannot be declared as "inline".
[I recognize that this keyword does not actually force the compiler to inline-expand functions, but my understanding is that it gives the compiler more flexibility to optimize, and is therefore worth including wherever possible.]
So far so good?
My real question is whether the cost/benefit analysis still favours multiple compilation units when the program is solving a complicated modelling problem, and is required to iterate through its main loop for months on a cluster in order to generate useful output.
Say a multi-compilation unit program takes a few minutes to compile while the same program re-configured as a single compilation unit takes a few hours to compile... if the single compilation unit declares all functions as inline and thus presents more optimization opportunities, it seems reasonable to me to expect that execution time could decrease by a few percent, more than making up for the extra compile time.
Are there good rules of thumb for situations like this, or is it heavily situation-dependent?