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Thanks to some great folks on SO, I discovered the possibilities offered by collections.defaultdict, notably in readability and speed. I have put them to use with success.

Now I would like to implement three levels of dictionaries, the two top ones being defaultdict and the lowest one being int. I don't find the appropriate way to do this. Here is my attempt:

from collections import defaultdict
d = defaultdict(defaultdict)
a = [("key1", {"a1":22, "a2":33}),
     ("key2", {"a1":32, "a2":55}),
     ("key3", {"a1":43, "a2":44})]
for i in a:
    d[i[0]] = i[1]

Now this works, but the following, which is the desired behavior, doesn't:

d["key4"]["a1"] + 1

I suspect that I should have declared somewhere that the second level defaultdict is of type int, but I didn't find where or how to do so.

The reason I am using defaultdict in the first place is to avoid having to initialize the dictionary for each new key.

Any more elegant suggestion?

Thanks pythoneers!

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3 Answers 3

up vote 106 down vote accepted

Use:

d = defaultdict(lambda: defaultdict(int))

This will create a new defaultdict(int) whenever a new key is accessed in d.

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Only problem is it won't pickle, meaning multiprocessing is unhappy about sending these back and forth. –  Noah Mar 27 '12 at 16:49
9  
@Noah: It will pickle if you use a named module-level function instead of a lambda. –  interjay Mar 27 '12 at 17:28
    
of course, silly me. –  Noah Mar 27 '12 at 19:16
    
@interjay can you elaborate on this please? –  ScienceFriction Oct 10 '13 at 21:44
2  
@ScienceFriction Anything specific that you need help with? When d[new_key] is accessed, it will call the lambda which will create a new defaultdict(int). And when d[existing_key][new_key2] is accessed, a new int will be created. –  interjay Oct 11 '13 at 12:53

Look at nosklo's answer here for a more general solution.

class AutoVivification(dict):
    """Implementation of perl's autovivification feature."""
    def __getitem__(self, item):
        try:
            return dict.__getitem__(self, item)
        except KeyError:
            value = self[item] = type(self)()
            return value

Testing:

a = AutoVivification()

a[1][2][3] = 4
a[1][3][3] = 5
a[1][2]['test'] = 6

print a

Output:

{1: {2: {'test': 6, 3: 4}, 3: {3: 5}}}
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Thanks for the link @miles82 (and the edit, @voyager). How pythonesque and safe is this approach? –  Morlock Apr 8 '10 at 14:57
    
Unfortunately this solution doesn't preserve the handiest part of defaultdict, which is the power to write something like D['key']+=1 without worrying about the existence of the key. That's the main feature I use defaultdict for... but I can imagine dynamically deepening dictionaries are pretty handy too. –  rschwieb Mar 25 at 0:21
    
@rschwieb you can add the power to write += 1 by adding add method. –  spazm Aug 21 at 21:54

As per @rschwieb's request for D['key'] += 1, we can expand on previous by overriding addition by defining __add__ method, to make this behave more like a collections.Counter()

First __missing__ will be called to create a new empty value, which will be passed into __add__. We test the value, counting on empty values to be False.

See emulating numeric types for more information on overriding.

from numbers import Number


class autovivify(dict):
    def __missing__(self, key):
        value = self[key] = type(self)()
        return value

    def __add__(self, x):
        """ override addition for numeric types when self is empty """
        if not self and isinstance(x, Number):
            return x
        raise ValueError

    def __sub__(self, x):
        if not self and isinstance(x, Number):
            return -1 * x
        raise ValueError

Examples:

>>> import autovivify
>>> a = autovivify.autovivify()
>>> a
{}
>>> a[2]
{}
>>> a
{2: {}}
>>> a[4] += 1
>>> a[5][3][2] -= 1
>>> a
{2: {}, 4: 1, 5: {3: {2: -1}}}

Rather than checking argument is a Number (very non-python, amirite!) we could just provide a default 0 value and then attempt the operation:

class av2(dict):
    def __missing__(self, key):
        value = self[key] = type(self)()
        return value

    def __add__(self, x):
        """ override addition when self is empty """
        if not self:
            return 0 + x
        raise ValueError

    def __sub__(self, x):
        """ override subtraction when self is empty """
        if not self:
            return 0 - x
        raise ValueError
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should these raise NotImplemented rather than ValueError? –  spazm Aug 25 at 22:41

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