# How to find the smallest value in a multi-layered python dictionary, along with “path” to it (i.e. list of keys to the leaf value)

I have a python dictionary of the following format:

``````d =
{
'category' :
{
'genre': <int_value>
}
}
``````

I would like to find the smallest `<int_value>`, along with the "path" to it in the original dictionary.

E.g. If

``````d =
{
'free':
{
},
'paid':
{
}
}
``````

...the result should be `("free", "adventure", 23)`.

Can anyone think of a one-liner for this?

-
`dict` is a builtin name, I changed it to `d` –  jamylak Apr 21 '13 at 3:38
does this only need to work for the example? –  jamylak Apr 21 '13 at 3:50
I was looking for a solution that applied to an arbitrary number of levels of depth in the dictionary, just in case I need to modify its structure. –  Cat Apr 21 '13 at 4:46
just note that the answer you accepted only works for one layer –  jamylak Apr 21 '13 at 6:56

``````print min((d[c][x], c, x) for c in d for x in d[c])
``````

and to re-arrange:

``````print min( (d[c][x], x, c) for c in d for x in d[c] )[::-1]
``````
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I dig it, even though it returns (23, 'free', 'adventure') :P –  MichaelJCox Apr 21 '13 at 3:51
I'd get rid of the brackets to turn that list comprehension into a generator. Also, you can add `[::-1]` at the end to flip that resulting tuple around. –  Blender Apr 21 '13 at 3:52
@Blender, thanks just did that –  perreal Apr 21 '13 at 3:57
sweet, very succinct solution! –  Cat Apr 21 '13 at 4:34

This works for the given dictionary (only works for dictionaries with the same nesting level though):

``````>>> min(((k, k2, v) for k, dct in d.items() for k2, v in dct.items()), key=lambda i: i[-1])
``````

Or an alternative solution:

``````>>> min((v, k2, k) for k, dct in d.items() for k2, v in dct.items())[::-1]
``````
-

You could write a generator that recursively yields all of the possible paths:

``````from operator import itemgetter

d = {
'free': {
},
'paid': {
}
}

def get_paths(d):
for key, value in d.items():
if isinstance(value, dict):
for path in get_paths(value):
yield (key,) + path
else:
yield (key, value)

print min(get_paths(d), key=itemgetter(-1))
``````

Although this may be a little overkill, as your dictionary isn't nested arbitrarily deep.

-
Wow, exactly the same solution as me (Also works for any number of layers) +1 –  jamylak Apr 21 '13 at 3:45

The most straightforward way is usually the best one:

``````def find_smallest(d):
result = None, None, float('inf')
for category in d:
for genre, value in d[category].items():
if value < result[2]:
result = category, genre, value
return result
``````
-
Wait a second this wont work for arbitrary number of layers –  jamylak Apr 21 '13 at 3:46
You're right, it's a solution to the problem you actually asked. –  Cairnarvon Apr 21 '13 at 3:47
I didn't ask it but I'm not sure if OP wants that feature or not –  jamylak Apr 21 '13 at 3:48
it would be nice to get a solution that works for an arbitrary number of layers, but this solution does satisfy the stated requirements :) –  Cat Apr 21 '13 at 4:33

It's pretty easy to solve this with a recursive function. It's not a one-liner, but still pretty simple:

``````def min_int_value(nested_dict):
min_path = None
min_value = float("inf")

for k, v in nested_dict.items(): # use iteritems() in Python 2
path = [k]
if isinstance(v, dict):
p, v = min_int_value(v)
path += p

if v < min_value:
min_path = path
min_value = v

return min_path, min_value
``````
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