I apologize in advance if this question is deemed too trivial, but I did spend a large amount of time trying to find a straightforward answer online and could not.
I recently read in an intro programming class about segmentation of programs and how typically programs are divided into "segments" that are individually loaded into memory (or partially loaded into memory, via paging...I think) when needed. Our book mentioned that programs are often divided up into segments based on logical divisions, e.g. a segment for the stack, for the heap, for the global constants, etc.
I am wondering what exactly determines how this segmentation works. Is it done by the compiler at compile time? Or does the OS somehow handle it? Does every subroutine typically get its own segment, no matter how small?
I know that information related to segmentation like segment descriptors, etc. is handled at the architecture level with registers and such specifically allocated for dealing with segmentation. But I'm just having a lot of trouble envisioning where/how the actual segmentation of the program happens in the first place, and how this information makes its way down into those registers. How are addresses translated into segment ids and offsets? Can anyone enlighten me? Thank you very much for any help you can give and sorry if I butchered any concepts here.