While I've not used every single PIC compiler in existence, there are two styles. The style I've used allocates all local variables statically by analyzing the program's call graph. If every possible call were in fact performed, the amount of stack memory consumed by locals would match what would be required by static allocation, with a couple of caveats (describing the behavior of HiTech's PICC-18 "standard" compiler--others may vary)
- Variadic functions are handled by defining local-variable storage in the scope of the caller, and passing a two-byte pointer to that storage to the function being called.
- For every different signature of indirect function pointer, the compiler generates a "pseudo-function" in the call graph; everything that calls a function of that signature calls the pseudo-function, and that pseudo-function calls every function with that signature that has its address taken.
In this style of compiler, consecutive accesses to local variables will be just as fast as consecutive accesses to globals. Other than global and static variables explicitly-declared as "near", however, which must total no more than 64-128 bytes (varies with different models of PIC), the global and static variables for each module are located separately from local variables, and bank-switching instructions are needed to access things in different banks.
Some compilers which I have not used employ the "enhanced instruction set" option. This option gobbles up 96 bytes of the "near" bank (or all of it, on PICs with less than 96 bytes) and uses it to access 96 bytes relative to the FSR2 register. This would be a wonderful concept if it used the first 16, or maybe 32, bytes as a stack frame. Using 96 bytes means giving up all of the "near" storage, which is a pretty severe limitation. Nonetheless, compilers which use this instruction set can access local variables on a stack just as fast, if not faster, than global variables (no bank-switch required). I really wish Microchip had an option to only set aside 16 bytes or so for the stack frame, leaving a useful amount of 'common bank' RAM, but nonetheless some people have good luck with that mode.