28

I have a data in form a dictionary.. NOw I take the input from the user and it can be anything.. And I am trying to do the following. If the key exists then cool.. fetch the value from the dictionary. if not, then fetch the nearest (in numeric sense). For example..if the input key is 200 and the keys are like :....

197,202,208...

Then probably 202 is the closest key to 200.. Now, from algorithm point of view. its straight forward.. but is there a pythonic way to do this? Thanks

2
  • 5
    Does it need to be a dict, or would a "dictionary-like" object suffice? If instead you use a binary tree or sorted list, then you can use binary search to find the closest key in O(log n) time. Oct 28, 2011 at 20:35
  • 2
    "from algorithm point of view. its straight forward"... I assume this means you're okay with O(n) solutions, as O(log n) solutions are less straightforward. Oct 28, 2011 at 20:45

6 Answers 6

40

This issue is made a lot harder by dict keys being in no particular order. If you can play with how you make the dict so they are in order (like your example) and use python >= 2.7 you can use OrderedDict and bisect to make this lightning fast.

import collections
a = collections.OrderedDict()
for i in range(100):
    a[i] = i

import bisect
ind = bisect.bisect_left(a.keys(), 45.3)

Then you only have to check element ind and ind-1 to see which is closer, thus making a lot fewer calculations.


As pointed out below by Steven G, in Python3 the .keys() is not just a list and must be changed into one.

bisect.bisect_left(list(a.keys()), 45.3)
3
  • 1
    I get TypeError: 'odict_keys' object does not support indexing when trying your solution on python 3.6
    – Steven G
    Jan 4, 2018 at 16:13
  • 1
    this can be corrected by using bisect.bisect_left(list(a.keys()), 45.3)
    – Steven G
    Jan 4, 2018 at 16:28
  • 1
    as of Python 3.7, dict preserves the insertion order (mail.python.org/pipermail/python-dev/2017-December/151283.html), so you don't even need to use OrderedDict for this anymore.
    – nurettin
    May 18, 2022 at 12:06
33

here's your function on one line:

data.get(num, data[min(data.keys(), key=lambda k: abs(k-num))])

edit: to not evaluate the min when the key is in the dict use:

data[num] if num in data else data[min(data.keys(), key=lambda k: abs(k-num))]

or if all values in data evaluate to True you can use:

data.get(num) or data[min(data.keys(), key=lambda k: abs(k-num))]
2
  • 3
    Unfortunately, this evaluates min(data.keys()...) for every lookup, even if the key exists in data. Maybe break up get's logic into a ternary: data[num] if num in data else data[min(data.keys(), key=lambda k: abs(k-num))]
    – PaulMcG
    Oct 28, 2011 at 21:56
  • 1
    Glad to help, but if d.has_key(k) has been deprecated in favor of if k in d.
    – PaulMcG
    Oct 28, 2011 at 23:44
19

Rather than using OrderedDict and bisect, consider the SortedDict type in the sortedcontainers module. It's a pure-Python and fast-as-C implementation of sorted list, sorted dict, and sorted set types with 100% testing coverage and hours of stress.

With a SortedDict you can bisect for the desired key. For example:

from itertools import islice
from sortedcontainers import SortedDict

def closest(sorted_dict, key):
    "Return closest key in `sorted_dict` to given `key`."
    assert len(sorted_dict) > 0
    keys = list(islice(sorted_dict.irange(minimum=key), 1))
    keys.extend(islice(sorted_dict.irange(maximum=key, reverse=True), 1))
    return min(keys, key=lambda k: abs(key - k))

The closest function uses SortedDict.irange to create an iterator of keys nearest the given key. The keys are bisected with log(N) runtime complexity.

>>> sd = SortedDict({-3: 'a', 0: 'b', 2: 'c'})
>>> for num in range(-5, 5):
...     key = closest(sd, num)
...     print('Given', num, ', closest:', key)
Given -5 , closest: -3
Given -4 , closest: -3
Given -3 , closest: -3
Given -2 , closest: -3
Given -1 , closest: 0
Given 0 , closest: 0
Given 1 , closest: 2
Given 2 , closest: 2
Given 3 , closest: 2
Given 4 , closest: 2

It's Pythonic to use PyPI!

7
  • How does SortedDict() handle negative key values? Feb 29, 2016 at 19:46
  • I've been using SortedDict(), but it incorrectly sorts the keys for negative values. Feb 29, 2016 at 19:47
  • @christylynn002 please open an issue at github.com/grantjenks/sorted_containers/issues
    – GrantJ
    Feb 29, 2016 at 23:41
  • 1
    @Paebbels No issue was opened. I could never reproduce myself.
    – GrantJ
    Apr 17, 2016 at 23:23
  • 1
    @ogurets Good observation! I see now how the previous code could include the largest key when index equalled 0. I updated the code for version 2 of sortedcontainers. Better here to use irange than the deprecated iloc.
    – GrantJ
    Aug 30, 2018 at 19:37
1

If all you have is a Python dictionary, you can't do better than checking all the entries in the dictionary (as in Will's answer). However, if you want to find the closest key more efficiently than that (i.e., in O(log N) instead of O(N)), you want a balanced tree of some sort.

Unfortunately, I don't believe Python has such a datastructure in its standard library -- as the Pythonic way is to use a dict instead. So, if you expect to make a many such queries on a large map, your best choice may be to find an extension library, or even roll your own...

1
  • 1
    Check out bisect for what you describe. Create a class with a bisect for keys and a dict for key-value mapping. Use the bisect to find the proper insertion point of a new key in the list of keys, and then check the neighboring values to see which one is closer.
    – PaulMcG
    Oct 28, 2011 at 21:57
0

This should do what you want (minus getting it from a key, but you can figure that out :).

f = lambda a,l:min(l,key=lambda x:abs(x-a))
numbers = (100, 200, 300, 400)
num = int(raw_input())
print 'closest match:', f(num, numbers)

Note: f is from this question.

0

Using sortedcontainers.SortedDict, you can do this like this:

def closest_item(sdict, key):
    if len(sdict) == 0:
        raise KeyError('No items in {sdict.__class__.__name__}')

    if len(sdict) == 1:
        return next(iter(sdict.items()))

    idx_before = next(sdict.irange(minimum=key), None)
    idx_after = next(sdict.irange(maximum=key, reverse=True), None)

    if idx_before is None:
        idx = idx_after

    elif idx_after is None:
        idx = idx_before
    else:
        idx = min(idx_before, idx_after, key=lambda x: abs(x - key))

    return idx, sdict[idx]

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