# Infinitely Nested Dictionary in Python

Does anyone know if there's a standard class for an infinitely nestable dictionary in Python?

I'm finding myself repeating this pattern:

``````d = defaultdict(lambda: defaultdict(lambda: defaultdict(int)))
d['abc']['def']['xyz'] += 1
``````

If I want to add "another layer" (e.g. `d['abc']['def']['xyz']['wrt']`), I have to define another nesting of defaultdicts.

To generalize this pattern, I've written a simple class that overrides `__getitem__` to automatically create the next nested dictionary.

e.g.

``````d = InfiniteDict(('count',0),('total',0))
d['abc']['def']['xyz'].count += 0.24
d['abc']['def']['xyz'].total += 1
d['abc']['def']['xyz']['wrt'].count += 0.143
d['abc']['def']['xyz']['wrt'].total += 1
``````

However, does anyone know of a pre-existing implementation of this idea? I've tried Googling, but I'm not sure what this would be called.

-

You can derive from `defaultdict` to get the behavior you want:

``````class InfiniteDict(defaultdict):
def __init__(self):
defaultdict.__init__(self, self.__class__)

class Counters(InfiniteDict):
def __init__(self):
InfiniteDict.__init__(self)
self.count = 0
self.total = 0

def show(self):
print "%i out of %i" % (self.count, self.total)
``````

Usage of this class would look like this:

``````>>> d = Counters()
>>> d[1][2][3].total = 5
>>> d[1][2][3].show()
0 out of 5
>>> d[5].show()
0 out of 0
``````
-
Thanks. This comes the closest to what I was looking for, and helped me find the exact solution. –  Cerin Nov 14 '10 at 16:32

This lends itself naturally to a recursive definition.

``````>>> import collections
>>> def nested_dd():
...     return collections.defaultdict(nested_dd)
...
>>> foo = nested_dd()
>>> foo
defaultdict(<function nested_dd at 0x023F0E30>, {})
>>> foo[1][2]=3
>>> foo[1]
defaultdict(<function nested_dd at 0x023F0E30>, {2: 3})
>>> foo[1][2]
3
``````
-
Very tidy, but has the same flaw as my posted answer, no support for 'count' and 'total' zero values at the leaf nodes. –  Paul McGuire Nov 14 '10 at 16:15
@Paul -- indeed; you can't have your cake and eat it too! Having special support for `count` and `total` breaks symmetry, so it would have to be hardwired into the class somewhere. –  katrielalex Nov 14 '10 at 16:17
@aaronasterling: There is not problem with any recursion limits since the function doesn't call itself recursively. –  sth Nov 14 '10 at 16:17
right, I missed that part and kept looking :) Sorry katriealex. –  aaronasterling Nov 14 '10 at 16:19
pardon me, but i don't think this working because if you see the question of the OP he is doing a lot calculation using the default value of the defaultdict and not just assignment !!! –  mouad Nov 14 '10 at 16:33

The ideal solution, inspired by sth's answer:

``````from collections import defaultdict

class InfiniteDict(defaultdict):
def __init__(self, **kargs):
defaultdict.__init__(self, lambda: self.__class__(**kargs))
self.__dict__.update(kargs)

d = InfiniteDict(count=0, total=0)
d['abc']['def'].count += 0.25
d['abc']['def'].total += 1
print d['abc']['def'].count
print d['abc']['def'].total
d['abc']['def']['xyz'].count += 0.789
d['abc']['def']['xyz'].total += 1
print d['abc']['def']['xyz'].count
print d['abc']['def']['xyz'].total
``````
-

It's simply called "a tree". There is a module that seems to do what you want.

-
I'm guessing that 'someone' would be the listed author, Roc Zhou. –  Paul McGuire Nov 14 '10 at 16:13

This is close:

``````class recursivedefaultdict(defaultdict):
def __init__(self, attrFactory=int):
self.default_factory = lambda : type(self)(attrFactory)
self._attrFactory = attrFactory
def __getattr__(self, attr):
newval = self._attrFactory()
setattr(self, attr, newval)
return newval

d = recursivedefaultdict(float)
d['abc']['def']['xyz'].count += 0.24
d['abc']['def']['xyz'].total += 1

data = [
('A','B','Z',1),
('A','C','Y',2),
('A','C','X',3),
('B','A','W',4),
('B','B','V',5),
('B','B','U',6),
('B','D','T',7),
]

table = recursivedefaultdict(int)
for k1,k2,k3,v in data:
table[k1][k2][k3] = v
``````

It's not quite what you want, since the most deeply nested level does not have your default 0 values for 'count' or 'total'.

Edited: Ah, this works now - just needed to add a `__getattr__` method, and this does what you want.

Edit 2: Now you can define other factory methods for the attributes, besides ints. But they all have to be the same type, can't have count be float and total be int.

-
Minor suggestion: you could use `functools.partial(type(self), attrFactory)`. –  katrielalex Nov 14 '10 at 16:32

I think is a nearly perfect solution:

``````>>> from collections import defaultdict
>>> infinite_defaultdict = lambda: defaultdict(infinite_defaultdict)
>>> d = infinite_defaultdict()
>>> d['x']['y']['z'] = 10
``````