You're getting an exception because 30,000 stack frames is a rather large number :-)

You *solve* it by using recursion in a more circumspect manner. The ideal problems to be solved recursively are those which reduce the "search space" quickly ^{(a)}.

For example, binary tree traversal where your search space is halved each time you recur:

```
def find (searchkey, node):
if node = NULL:
return NULL
if searchkey = node.key:
return node
if searchkey < node.key:
return find (searchkey, node.left)
return find (searchkey, node.right)
```

Adding two unsigned integers (and your own algorithm above) are *not* a good fit for recursion because you'll blow out your stack allocation long before the results are calculated.:

```
def add (a, b):
if a = 0:
return b
return add (a-1, b+1)
```

^{(a)} Search space can be defined as your entire set of *possible* answers. You want to reduce it as quickly as possible.

And , as an aside, the ideal problems for recursion have nothing to do with stack space in a theoretical/mathematical sense, they're just any problem that can be expressed as:

- the same or similar problem with a "simpler" argument.
- a terminating condition with the "simplest" argument.

("simple" , in this sense, means approaching the terminating condition).

Theoretical/mathemeatical approaches wouldn't need to take stack space into account but we, as computer scientists, must. Reality sets limits :-)

See also When would I not use recursion? and Situations where you would convert recursion to iteration.