## BACKGROUND

When playing around, I often write simple recursive functions looking something like:

```
def f(a,b):
if a>=0 and b>=0:
return min( f(a-1,b) , f(b,a-1) ) # + some cost that depends on a,b
else:
return 0
```

(For example, when computing weighted edit distances, or evaluating recursively defined mathematical formulas.)

I then use a memoizing decorator to cache the results automatically.

## PROBLEM

When I try something like f(200,10) I get:

```
RuntimeError: maximum recursion depth exceeded
```

This is as expected because the recursive implementation exhausts Python's stack space/ recursion limits.

## WORKAROUNDS

I usually work around this problem by one of:

- Increasing recursion limit with sys.setrecursionlimit (only works up to about 1000 depth)
- Using a for loop to fill up the cache for smaller values
- Changing the function to use a list as a manual stack (via append and pop calls) (in other words, moving from a recursive implementation to an iterative one)
- Using an alternative programming language

but I find all of these quite error prone.

## QUESTION

Is there a way to write an @Bigstack decorator that would simulate the effect of having a really big stack?

Note that my functions normally make several recursive function calls so this is not the same as tail recursion - I really do want to save all the internal state of each function on the stack.

## WHAT I'VE TRIED

I've been thinking about using a list of generator expressions as my stack. By probing the stackframe I could work out when the function has been called recursively and then trigger an exception to return to the decorator code. However, I can't work out a way of gluing these ideas together to make anything that actually works.

Alternatively, I could try accessing the abstract syntax tree for the function and try transforming calls to recursive functions to yield statements, but this seems like it's heading in the wrong direction.

Any suggestions?

EDIT

It certainly looks like I am misusing Python, but another approach I have been considering is to use a different thread for each block of, say, 500 stack frames and then insert queues between each consecutive pair of threads - one queue for arguments, and another queue for return values. (Each queue will have at most one entry in it.) I think this probably doesn't work for some reason - but I'll probably only work out why after I've tried to implement it.