Let's first introduce an easy way to iterate over all the tree nodes (DFS):

```
def walk(t):
yield t
for child in t[1]:
for p in walk(child):
yield p
```

Let's see how it works...

```
>>> import pprint
>>> pprint(list(walk(tree)))
[('a', (('b', ()), ('c', (('e', ()', ()), ('g', ()))), ('d', ()))),
('b', ()),
('c', (('e', ()), ('f', ()), ('g', ()))),
('e', ()),
('f', ()),
('g', ()),
('d', ())]
```

Then we need to find your given parent and count its children. Let's start with a generic find routine:

```
def find(pred, seq):
'''returns the first element from seq that satisfied pred'''
for elem in seq:
if pred(elem):
return elem
# not found?
raise Exception('Not found')
```

Then let's adapt it to search for nodes with a given name in a given tree:

```
def findNode(t, label):
return find(lambda node: node[0] == label, walk(t))
```

In order to count children of a node, we simply need to count the second value of the tuple:

```
def childrenCount(node):
return len(node[1])
```

Let's mix the two together:

```
for label in "abcdefg":
print label, childrenCount(findNode(tree, label))
```

Result:

```
a 3
b 0
c 3
d 0
e 0
f 0
g 0
```

@thg435 has suggested to use a dictionary instead. Let's do this:

```
def childrenNames(parent):
return tuple(child[0] for child in parent[1])
treedict = {t[0] : childrenNames(t) for t in walk(tree)}
```

This gives you a nice dictionary, into which you can look up directly (as @thg435 has suggested).

```
>>> pprint(treedict)
{'a': ('b', 'c', 'd'),
'b': (),
'c': ('e', 'f', 'g'),
'd': (),
'e': (),
'f': (),
'g': ()}
>>> pprint(sorted(treedict.keys()))
['a', 'b', 'c', 'd', 'e', 'f', 'g']
>>> pprint(len(treedict['a']))
3
```

`('c', ( ..., ..., ...) )`

-`'c'`

is the string and`(..., ..., ...)`

is tuple with length of 3? – slallum Aug 21 '12 at 7:16`namedtuple`

(if it does)? – Tim Pietzcker Aug 21 '12 at 7:18named tuplesin the`collections`

modules be better for you? – cdarke Aug 21 '12 at 7:20