I am trying to use recursion to find the depth of an "expression", i.e., how many layers of nested tuples there are: For example,

```
depth(('+', ('expt', 'x', 2), ('expt', 'y', 2))) => 2
depth(('/', ('expt', 'x', 5), ('expt', ('-', ('expt', 'x', 2), 1), ('/', 5, 2)))) => 4
```

Basically, I figured that I need to check (working from out to in) for each element being an instance of a tuple, and then if so, recursively call the depth function. But I need to find a way of figuring out which set of recursive calls has the **greatest** depth, and that's where I'm stuck. Here's what I have so far:

```
def depth3(expr):
if not isinstance(expr, tuple):
return 0
else:
for x in range(0, len(expr)):
# But this doesn't take into account a search for max depth
count += 1 + depth(expr[x])
return count
```

Thoughts on a good way to approach this?

`depth(expr, layers)`

and start the call at 1, for each expression inside it, call`depth`

increment layers. – AJcodez Sep 11 '12 at 16:40