A very quick 'n dirty way of implementing a binary tree using lists.
Not the most efficient, nor does it handle nil values all too well.
But it's very transparent (at least to me):

```
def _add(node, v):
new = [v, [], []]
if node:
left, right = node[1:]
if not left:
left.extend(new)
elif not right:
right.extend(new)
else:
add(left, v)
else:
node.extend(new)
def binary_tree(s):
root = []
for e in s:
_add(root, e)
return root
def traverse(n, order):
if n:
v = n[0]
if order == 'pre':
yield v
for left in traverse(n[1], order):
yield left
if order == 'in':
yield v
for right in traverse(n[2], order):
yield right
if order == 'post':
yield v
```

Constructing a tree from an iterable:

```
>>> t = binary_tree('A B C D E'.split())
>>> print t
['A', ['B', ['D', [], []], ['E', [], []]], ['C', [], []]]
```

Traversing a tree:

```
>>> list(traverse(t, 'pre')), list(traverse(t, 'in')), list(traverse(t, 'post'))
(['A', 'B', 'D', 'E', 'C'],
['D', 'B', 'E', 'A', 'C'],
['D', 'E', 'B', 'C', 'A'])
```