In line of principle, plain
int should be the "fast, normal use integer", while
long, when different, can mean "extended range but may be slower".
What actually happens depends strongly from the platform you are working on.
On several microcontrollers I used
int is 16 bit and
long is 32 bit, and operations on
long take more than one processor instructions. On "classic" 32 bit x86,
int are usually the same, so there's no difference at all. On x86_64, depending on the portability concerns,
long may be 32 or 64 bit; as far as "instruction count to perform an operation" they are the same, but the increased size can matter if you have to read/store big arrays of integers in memory (32 bit integers may perform better because more fit in cache) (and probably there are much many considerations you could do, optimization is often counterintuitive, especially on x86).
So, long story short: don't overthink this issue, if you need a "normal" integer that is guaranteed to work fast and its range is ok for your application just use
int. If you need a minimum guaranteed size, look at the
<stdint.h> (which, besides giving you exactly-sized integers, provides also "fastest integer with this minimum size").
But as always, the usual rule applies: if you have performance problems first profile, then optimize.