# Recursive? looping to n levels in Python

Working in python I want to extract a dataset with the following structure:

Each item has a unique ID and the unique ID of its parent. Each parent can have one or more children, each of which can have one or more children of its own, to n levels i.e. the data has an upturned tree-like structure. While it has the potential to go on for infinity, in reality a depth of 10 levels is unusual, as is having more than 10 siblings at each level.

For each item in the dataset I want to show show all items for which this item is their parent... and so on until it reaches the bottom of the dataset.

Doing the first two levels is easy, but I'm unsure how to make it efficiently recurs down through the levels.

Any pointers very much appreciated.

-

you should probably use a defaultdictionary for this:

``````from collections import defaultdict

itemdict = defaultdict(list)
for id, parent_id in itemlist:
itemdict[parent_id].append(id)
``````

then you can recursively print it (with indentation) like

``````def printitem(id, depth=0):
print '  '*depth, id
for child in itemdict[id]:
printitem(child, depth+1)
``````
-

Are you saying that each item only maintains a reference to its parents? If so, then how about

``````def getChildren(item) :
children = []
for possibleChild in allItems :
if (possibleChild.parent == item) :
children.extend(getChildren(possibleChild))
return children
``````

This returns a list that contains all items who are in some way descended from item.

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Am I correct in thinking that this would return a big list of items that were descendants of a given item, from all levels, but that you would lose the structure of the dataset? –  notreadbyhumans Aug 7 '09 at 21:57
So that's the same as this one-line list comprehension: "def getChildren(item) : return [ getChildren(child) for child in allItems if child.parent == item]" I've never seen a list comprehension with recursion before. –  hughdbrown Aug 7 '09 at 22:53

If you want to keep the structure of your dataset, this will produce a list of the format [id, [children of id], id2, [children of id2]]

``````def children(id):
return [id]+[children(x.id) for x in filter(lambda x:x.parent == id, items)]
``````
-

``````
#!/usr/bin/python

tree = { 0:(None, [1,2,3]),
1:(0, [4]),
2:(0, []),
3:(0, [5,6]),
4:(1, [7]),
5:(3, []),
6:(3, []),
7:(4, []),
}

def find_children( tree, id ):
print "node:", id, tree[id]
for child in tree[id][1]:
find_children( tree, child )

if __name__=="__main__":
import sys
find_children( tree, int(sys.argv[1]) )

\$ ./tree.py 3
node: 3 (0, [5, 6])
node: 5 (3, [])
node: 6 (3, [])
``````

It's also worth noting that python has a pretty low default recursion limit, 1000 I think.

In the event that your tree actually gets pretty deep you'll hit this very quickly. You can crank this up with,

``````
sys.setrecursionlimit(100000)
``````

and check it with,

``````
sys.getrecursionlimit()
``````
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