A recursive list is represented by a chain of pairs. The first element of each pair is an element in the list, while the second is a pair that represents the rest of the list. The second element of the final pair is None, which indicates that the list has ended. We can construct this structure using a nested tuple literal. Example:

(1, (2, (3, (4, None))))

So far, I've created a method that converts a tuple of values or the value None into a corresponding rlist. The method is called to_rlist(items). Example:

```
>>> to_rlist((1, (0, 2), (), 3))
(1, ((0, (2, None)), (None, (3, None))))
```

How do I write the inverse of to_rlist, a function that takes an rlist as input and returns the corresponding tuple? The method should be called to_tuple(parameter). Example of what should happen:

```
>>> x = to_rlist((1, (0, 2), (), 3))
>>> to_tuple(x)
(1, (0, 2), (), 3)
```

Note: The method to_rlist works as intended.

This is what I have so far:

```
def to_tuple(L):
if not could_be_rlist(L):
return (L,)
x, y = L
if not x is None and not type(x) is tuple and y is None:
return (x,)
elif x is None and not y is None:
return ((),) + to_tuple(y)
elif not x is None and not y is None:
return to_tuple(x) + to_tuple(y)
```

Which gives me the following result (which is incorrect):

```
>>> x = to_rlist((1, (0, 2), (), 3))
>>> to_tuple(x)
(1, 0, 2, (), 3)
```

How can I fix my method to return a nested tuple properly?

specificproblems you're having. – millimoose Feb 13 '12 at 1:27