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!
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.