Some blogs and sites were talking about pointers are beneficial one of the causes was because the "execution speed" will be better in a program with pointers than without pointers. The thing I can work out is that:
Dereferencing a single location requires two (or more) memory accesses (depending on number of indirection). Which will increase the execution time, compared to if it was used directly.
Passing a pointer to a large datatype to a function, like a structure can be beneficial, as only the address of the structure/union is getting copied and it's not getting passed by value. Therefore it should be faster in this case.
For example just by force introducing pointers without any need as:
int a, b, *p, *q, c, *d; p = &a; q = &b; d = &c // get values in a, b *d = *p + *q; // why the heck this would be faster c = a + b; // than this code?
I checked the assembler output using
gcc -S -masm=intel file.c The pointer version has a lot of loading memory and storing for the dereferences than the direct method.
Am I missing something?
Note: The question is not related to just the code. The code is just an example. Not considering compiler optimizations.