# Get the key corresponding to the minimum value within a dictionary

If I have a Python dictionary, how do I get the key to the entry which contains the minimum value?

I was thinking about something to do with the `min()` function...

Given the input:

``````{320:1, 321:0, 322:3}
``````

It would return `321`.

• Data structure awareness day: if you only ever query (or remove) the minimum element, consider using a priority queue or heap. Commented Oct 22, 2013 at 13:43
• What if you had to traverse a list to form the dictionary? Would you still consider using a priority queue as you still have to deal with `O(n)` time to read the list? Commented Aug 30, 2021 at 0:17

Best: `min(d, key=d.get)` -- no reason to interpose a useless `lambda` indirection layer or extract items or keys!

``````>>> d = {320: 1, 321: 0, 322: 3}
>>> min(d, key=d.get)
321
``````
• @KarelBílek it means you passed in as "d" a list e.g. `[11, 22, 33]`, instead of a dictionary e.g. `{1: 11, 2:22, 3:33}`. 'd.get' is valid for a dictionary, but not for a list. Commented Dec 8, 2013 at 2:31
• what if two different keys have the same value? and they happen to both be the smallest value? how can you make it return both? Commented Dec 18, 2016 at 4:29
• Can this technique be used if the dict values are lists, ex: `d={"a":[10, None], "b":[20, None]}`, where the min is calculated from d[key][0] ? Commented Dec 31, 2016 at 17:36
• How does this work? What kind of min function is that, I thought min() only took either individual values or lists as arguments. How does it loop over all the entries in the dictionary? Commented Mar 14, 2017 at 15:10
• `min()` return the value in the first value in sorted. key designate the way to sort the values. `key=d.get` means the list will be sorted by values of the dictionary. Commented Jun 6, 2018 at 6:54

This returns the key, value pair tuple after comparing values:

``````>>> d = {320:1, 321:0, 322:3}
>>> d.items()
dict_items([(320, 1), (321, 0), (322, 3)])  # Python 2.7 [(320, 1), (321, 0), (322, 3)]
>>> # find the minimum by comparing the second element of each tuple
>>> min(d.items(), key=lambda x: x[1])
(321, 0)
``````

For Python 2.7, use `d.iteritems()` for larger dictionaries as it avoid copying. Python 3's `dict.items()` is already an `itemview` so no changes need.

• Instead of the lambda you can use `operator.itemgetter(1)`. Commented Jul 19, 2010 at 16:28
• instead lamda use d.get Commented Sep 12, 2015 at 9:29
• This does not return the key as asked, but the (key, value) pair. Commented Apr 6, 2017 at 10:12
• Note that dict.iteritems() is no longer supported as at python 3.0. docs.python.org/3/library/stdtypes.html#dict.iteritems Commented Apr 28, 2021 at 1:05
• @kristianp More like `dict.iteritems` became `dict.items`. Commented Nov 26, 2021 at 16:07

For multiple keys which have equal lowest value, you can use a list comprehension:

``````d = {320:1, 321:0, 322:3, 323:0}

minval = min(d.values())
res = [k for k, v in d.items() if v==minval]

[321, 323]
``````

An equivalent functional version:

``````res = list(filter(lambda x: d[x]==minval, d))
``````
• Your answer is very useful and others probably agree: see the multiple comments for that matter in the accepted answer. However, I needed to come back twice to find it: would you consider proposing an edit to the accepted answer? Yours is actually complementary. Commented Apr 20, 2020 at 15:03

`min(d.items(), key=lambda x: x[1])[0]`

``````>>> d = {320:1, 321:0, 322:3}
>>> min(d, key=lambda k: d[k])
321
``````
• @SilentGhost, @blob8108: D'oh! Copy-and-paste snafu. Fixed now. Commented Jul 19, 2010 at 17:08
• Fine solution I think, but the anonymous function only adds a layer of indirection: `key=d.get` is better. Commented Apr 6, 2017 at 10:14

For the case where you have multiple minimal keys and want to keep it simple

``````def minimums(some_dict):
positions = [] # output variable
min_value = float("inf")
for k, v in some_dict.items():
if v == min_value:
positions.append(k)
if v < min_value:
min_value = v
positions = [] # output variable
positions.append(k)

return positions

minimums({'a':1, 'b':2, 'c':-1, 'd':0, 'e':-1})

['e', 'c']
``````
``````min(zip(d.values(), d.keys()))[1]
``````

Use the zip function to create an iterator of tuples containing values and keys. Then wrap it with a min function which takes the minimum based on the first key. This returns a tuple containing (value, key) pair. The index of [1] is used to get the corresponding key.

• While this code may answer the question, providing additional context regarding why and/or how this code answers the question improves its long-term value. Commented Jun 12, 2020 at 19:23
• @β.εηοιτ.βε that better? Commented Jun 13, 2020 at 0:22

If you are not sure that you have not multiple minimum values, I would suggest:

``````d = {320:1, 321:0, 322:3, 323:0}
print ', '.join(str(key) for min_value in (min(d.values()),) for key in d if d[key]==min_value)

"""Output:
321, 323
"""
``````

Another approach to addressing the issue of multiple keys with the same min value:

``````>>> dd = {320:1, 321:0, 322:3, 323:0}
>>>
>>> from itertools import groupby
>>> from operator import itemgetter
>>>
>>> print [v for k,v in groupby(sorted((v,k) for k,v in dd.iteritems()), key=itemgetter(0)).next()[1]]
[321, 323]
``````

You can get the keys of the dict using the `keys` function, and you're right about using `min` to find the minimum of that list.

This is an answer to the OP's original question about the minimal key, not the minimal answer.

• Not really deserving a downvote, as the poster's original question wasn't as clear as it might have been. Commented Jul 19, 2010 at 16:30
• @Space_C0wb0y: perhaps you can be so kind to notice that the OP edited his question to mean something different, after I answered Commented Jul 19, 2010 at 16:40

Or `__getitem__`:

``````>>> d = {320: 1, 321: 0, 322: 3}
>>> min(d, key=d.__getitem__)
321
``````

Use `min` with an iterator (for python 3 use `items` instead of `iteritems`); instead of lambda use the `itemgetter` from operator, which is faster than lambda.

``````from operator import itemgetter
min_key, _ = min(d.iteritems(), key=itemgetter(1))
``````
``````d={}
d[320]=1
d[321]=0
d[322]=3
value = min(d.values())
for k in d.keys():
if d[k] == value:
print k,d[k]
``````
• Any idea how to work out the smallest value ABOVE zero? Commented Jun 25, 2017 at 14:51

I compared how the following three options perform:

``````    import random, datetime

myDict = {}
for i in range( 10000000 ):
myDict[ i ] = random.randint( 0, 10000000 )

# OPTION 1

start = datetime.datetime.now()

sorted = []
for i in myDict:
sorted.append( ( i, myDict[ i ] ) )
sorted.sort( key = lambda x: x[1] )
print( sorted[0][0] )

end = datetime.datetime.now()
print( end - start )

# OPTION 2

start = datetime.datetime.now()

myDict_values = list( myDict.values() )
myDict_keys = list( myDict.keys() )
min_value = min( myDict_values )
print( myDict_keys[ myDict_values.index( min_value ) ] )

end = datetime.datetime.now()
print( end - start )

# OPTION 3

start = datetime.datetime.now()

print( min( myDict, key=myDict.get ) )

end = datetime.datetime.now()
print( end - start )
``````

Sample output:

``````#option 1
236230
0:00:14.136808

#option 2
236230
0:00:00.458026

#option 3
236230
0:00:00.824048
``````

To create an orderable class you have to override six special functions, so that it would be called by the min() function.

These methods are`__lt__ , __le__, __gt__, __ge__, __eq__ , __ne__` in order they are less than, less than or equal, greater than, greater than or equal, equal, not equal.

For example, you should implement `__lt__` as follows:

``````def __lt__(self, other):
return self.comparable_value < other.comparable_value
``````

Then you can use the min function as follows:

``````minValue = min(yourList, key=(lambda k: yourList[k]))
``````

This worked for me.

``````my_dic = {320:1, 321:0, 322:3}
min_value = sorted(my_dic, key=lambda k: my_dic[k])[0]
print(min_value)
``````

A solution with only the sorted method.

1. I sorted values from smallest to largest with sorted method
2. When we get the first index, it gives the smallest key.
``````# python
d={320:1, 321:0, 322:3}
reduce(lambda x,y: x if d[x]<=d[y] else y, d.iterkeys())
321
``````
• 1)Reduce is generally slower than itertools. 2)Most implementations of reduce can be done simpler with any or all. 3)I am a giant mouthpiece for GvR. 4)The operator module makes most simple lambdas unnecessary, and complex lambdas should be defined as real functions anyway. Maybe I'm just scared of functional programming. ;) Commented Jul 20, 2010 at 14:30
• @miked: tell me more. what's gvr and what's the operator module? could you post links? i may know others, but i'm still just an intermediate in python. willing to learn! :-) Commented Jul 20, 2010 at 15:35
• GvR is Guido van Rossum, Python's benevolent dictator for life. Here's a five year old post from him explaining why lisp-isms (map,filter,reduce,lambda) don't have much of a place in python going forward, and those reasons are still true today. The operator module has replacements for extracting members: "lambda x: x[1]" compared to "itemgetter(1)" is a character longer and arguably takes longer to understand. I'm out of space, but ask questions! Commented Jul 20, 2010 at 16:17
• @miked: want first bite at the apple? stackoverflow.com/questions/3292481/… Commented Jul 20, 2010 at 17:08
• Their is really no need to reimplement something built in (`min()`). Commented Apr 6, 2017 at 10:16