I have a strange question concerning subroutines: As I'm creating a minimal language and I don't want to add high-level loops like
for I was planning on just adding gotos to keep it Turing-Complete.
Now I thought, eww - gotos - I wouldn't want to program in that language if I had to use gotos so often. So I thought about adding subroutines instead.
I see the difference as the following:
- Go to (captain obvious) a previously defined point and continue executing the program from there. Leads to hardly understandable and buggy code, I think that's a fact.
- Similiar: You define their starting point somewhere, as you call them the program jumps there - but the subroutine can go back to the point it was called from with return.
Okay. Why didn't I just add the more function-like, nice looking subroutines? Because:
In order to make return work if I call subroutines from within subroutines from within other subroutines, I'd have to use a stack containing the point where the currently running subroutine came from at top.
That would then mean that I would, if I create loops using the subroutines, end up with an extremely memory-eating, overflowing stack with return locations. Not good.
Don't think of my subroutines as functions. They are just gotos that return to the point they were called from, they don't actually give back values like the
return x; statement in nearly all today's languages.
Now to my actual questions:
How can I solve the above problem with the stack overflow on loops with subroutines? Do I have to add a separate
gotolanguage construct without the
Assembler doesn't have loops but as I have seen myJumpPoint:,
retn. That means to me that there must also be a stack containing all the return locations.
- Am I right with that?
- What about long running loops then? Don't they overflow the stack/eat memory then?
- Am I getting the
retnsymbol in assembler totally wrong? If yes, please explain it to me.