975

Given a dictionary like so:

my_map = {'a': 1, 'b': 2}

How can one invert this map to get:

inv_map = {1: 'a', 2: 'b'}
0

32 Answers 32

Reset to default
1
2
1389

Python 3+:

inv_map = {v: k for k, v in my_map.items()}

Python 2:

inv_map = {v: k for k, v in my_map.iteritems()}
8
  • 7
    In recent Python 2.7.x versions my_map.items() works as well
    – valentin
    Feb 28, 2017 at 12:55
  • 71
    This'll work except that it won't work if there is not unicity in the values. In that case you'll loose some entries
    – gabuzo
    Oct 23, 2017 at 16:28
  • 24
    Fun Fact: Dictionaries will be ordered (by time of insertion) in Python 3.7 onwards.
    – byxor
    Jun 12, 2018 at 20:18
  • 4
    Yes, as a implementation detail. The order-preserving aspect of this new implementation is considered an implementation detail and should not be relied upon. There is no guarantee it will stay that way so don't write code relying on Dict having the same behavior as OrderedDict.
    – Mattias
    Aug 26, 2018 at 17:44
  • 18
    @Mattias, this is true for Python 3.6. For version 3.7 the order-preserving is official: mail.python.org/pipermail/python-dev/2017-December/151283.html. BDFL said so.
    – interDist
    Oct 30, 2018 at 10:27
214

Assuming that the values in the dict are unique:

Python 3:

dict((v, k) for k, v in my_map.items())

Python 2:

dict((v, k) for k, v in my_map.iteritems())
5
  • 26
    The values have to be hashable too
    – John La Rooy
    May 24, 2012 at 1:52
  • 34
    @Buttons840: If the values aren’t unique, there is no unique inversion of the dictionary anyway or, with other words, inverting does not make sense.
    – Wrzlprmft
    Oct 25, 2014 at 14:13
  • 2
    @Buttons840 Only the last key will appear for the value. There are probably no guarantees on the order that iteritems() will output, so it may be assumed that an arbitrary key will be assigned for a non-unique value, in a way that will be apparently reproducible under some conditions, but no so in general.
    – Evgeni Sergeev
    Apr 21, 2015 at 8:13
  • 2
    Note, of course, that in Python 3 there is no longer an iteritems() method and this approach will not work; use items() there instead as shown in the accepted answer. Also, a dictionary comprehension would make this prettier than calling dict.
    – Mark Amery
    Jul 16, 2016 at 17:17
  • 7
    @Wrzlprmft There is a natural definition for inverse in the case of non unique values. Every value is mapped to the set of keys leading to it.
    – Leo
    Oct 25, 2016 at 19:08
189

If the values in my_map aren't unique:

Python 3:

inv_map = {}
for k, v in my_map.items():
    inv_map[v] = inv_map.get(v, []) + [k]

Python 2:

inv_map = {}
for k, v in my_map.iteritems():
    inv_map[v] = inv_map.get(v, []) + [k]
9
  • 67
    ... or just inv_map.setdefault(v, []).append(k). I used to be a defaultdict fanboy, but then I got screwed one too many times and concluded that actually explicit is better than implicit.
    – alsuren
    Nov 10, 2010 at 14:55
  • This answer is incorrect for multi-map, append here is useless because the value is reset to empty list each time, should use set_default
    – Yaroslav Bulatov
    Apr 22, 2016 at 20:37
  • 2
    @YaroslavBulatov no, the code as shown here isn't broken - inv_map.get(v, []) returns the already-added list if there is one, so the assignment doesn't reset to an empty list. setdefault would still be prettier, though.
    – Mark Amery
    Jul 16, 2016 at 17:23
  • 15
    A set would make more sense here. The keys are (probably) hashable, and there is no order. inv_map.setdefault(v, set()).add(k).
    – Artyer
    Aug 11, 2017 at 17:17
  • 5
    In python3, use my_map.items() instead of my_map.iteritems().
    – apitsch
    Apr 15, 2019 at 15:02
52

To do this while preserving the type of your mapping (assuming that it is a dict or a dict subclass):

def inverse_mapping(f):
    return f.__class__(map(reversed, f.items()))
5
  • 4
    Clever it may be, but it doesn't work when more than one key has the same value in the original dictionary.
    – Rafael_Espericueta
    Jun 5, 2018 at 1:02
  • 9
    @Rafael_Espericueta That's true of any possible answer to this question, since a map with values repeated is not invertible.
    – Mark Amery
    Jul 15, 2019 at 1:56
  • 2
    @Mark_Amery It can be invertible more generally, in a sense. For example: D = {1: [1, 2], 2:[2, 3], 3: [1]}, Dinv = {1: [1, 3], 2: [1, 2], 3: [2]}. D is a dictionary of for example {parent: children}, while Dinv is the dictionary {child: parents}.
    – Rafael_Espericueta
    Jul 21, 2019 at 23:48
  • 3
    I don't think it is necessary to do the f.__class__ because you already made the assumption that it is a dictionary. I would do it like this: dict(map(reversed, f.items()))
    – bkbilly
    Jul 5, 2020 at 15:34
  • @bkbilly no assumption was made we have a dict - only we have an items method
    – Mr_and_Mrs_D
    Apr 27, 2021 at 9:00
45

Try this:

inv_map = dict(zip(my_map.values(), my_map.keys()))

(Note that the Python docs on dictionary views explicitly guarantee that .keys() and .values() have their elements in the same order, which allows the approach above to work.)

Alternatively:

inv_map = dict((my_map[k], k) for k in my_map)

or using python 3.0's dict comprehensions

inv_map = {my_map[k] : k for k in my_map}
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  • 1
    Notice that this only works if the keys are unique (which is almost never the case if you want to invert them).
    – gented
    Jun 22, 2018 at 8:26
  • According to python.org/dev/peps/pep-0274 dict comprehensions are available in 2.7+, too.
    – Kawu
    Oct 27, 2018 at 1:03
42

Another, more functional, way:

my_map = { 'a': 1, 'b':2 }
dict(map(reversed, my_map.items()))
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  • 4
    Thanks for posting. I am not sure this is preferable - to quote Guido Van Rossum in PEP 279: "filter and map should die and be subsumed into list comprehensions, not grow more variants".
    – Brian M. Hunt
    Feb 26, 2014 at 16:38
  • 2
    Yeah, that's a fair point Brian. I was just adding it as a point of conversation. The dict comprehension way is more readable for most I'd imagine. (And likely faster too I'd guess)
    – Brendan Maguire
    Feb 26, 2014 at 17:10
  • 3
    Might be less readable than others, but this way does have the benefit of being able to swap out dict with other mapping types such as collections.OrderedDict or collections.defaultdict
    – Will S
    Aug 17, 2017 at 9:51
18

We can also reverse a dictionary with duplicate keys using defaultdict:

from collections import Counter, defaultdict

def invert_dict(d):
    d_inv = defaultdict(list)
    for k, v in d.items():
        d_inv[v].append(k)
    return d_inv

text = 'aaa bbb ccc ddd aaa bbb ccc aaa' 
c = Counter(text.split()) # Counter({'aaa': 3, 'bbb': 2, 'ccc': 2, 'ddd': 1})
dict(invert_dict(c)) # {1: ['ddd'], 2: ['bbb', 'ccc'], 3: ['aaa']}

See here:

This technique is simpler and faster than an equivalent technique using dict.setdefault().

1
  • It can be good to return dict(d_inv), since a dictionary has broader support than a less standard defaultdict. For example, some serializers (such as yaml.safe_dump) won't serialize a defaultdict while they will serialize a dict.
    – Konstantin
    Dec 22, 2020 at 16:09
16

This expands upon the answer by Robert, applying to when the values in the dict aren't unique.

class ReversibleDict(dict):
    # Ref: https://stackoverflow.com/a/13057382/
    def reversed(self):
        """
        Return a reversed dict, with common values in the original dict
        grouped into a list in the returned dict.

        Example:
        >>> d = ReversibleDict({'a': 3, 'c': 2, 'b': 2, 'e': 3, 'd': 1, 'f': 2})
        >>> d.reversed()
        {1: ['d'], 2: ['c', 'b', 'f'], 3: ['a', 'e']}
        """
        
        revdict = {}
        for k, v in self.items():
            revdict.setdefault(v, []).append(k)
        return revdict

The implementation is limited in that you cannot use reversed twice and get the original back. It is not symmetric as such. It is tested with Python 2.6. Here is a use case of how I am using to print the resultant dict.

If you'd rather use a set than a list, and there could exist unordered applications for which this makes sense, instead of setdefault(v, []).append(k), use setdefault(v, set()).add(k).

2
  • this would also be a good place to use sets instead of lists, i.e. revdict.setdefault(v, set()).add(k)
    – mueslo
    Dec 22, 2016 at 20:42
  • Of course, but that's exacty why it's a good reason to use set. It's the intrinsic type that applies here. What if I want to find all keys where the values are not 1 or 2? Then I can just do d.keys() - inv_d[1] - inv_d[2] (in Python 3)
    – mueslo
    Dec 22, 2016 at 20:57
11

Combination of list and dictionary comprehension. Can handle duplicate keys

{v:[i for i in d.keys() if d[i] == v ] for k,v in d.items()}
1
10

A case where the dictionary values is a set. Like:

some_dict = {"1":{"a","b","c"},
        "2":{"d","e","f"},
        "3":{"g","h","i"}}

The inverse would like:

some_dict = {vi: k  for k, v in some_dict.items() for vi in v}

The output is like this:

{'c': '1',
 'b': '1',
 'a': '1',
 'f': '2',
 'd': '2',
 'e': '2',
 'g': '3',
 'h': '3',
 'i': '3'}
1
  • It also works if the dictionary values are a list. Thanks.
    – catris25
    Jan 12, 2021 at 9:46
10

For instance, you have the following dictionary:

my_dict = {'a': 'fire', 'b': 'ice', 'c': 'fire', 'd': 'water'}

And you wanna get it in such an inverted form:

inverted_dict = {'fire': ['a', 'c'], 'ice': ['b'], 'water': ['d']}

First Solution. For inverting key-value pairs in your dictionary use a for-loop approach:

# Use this code to invert dictionaries that have non-unique values

inverted_dict = dict()
for key, value in my_dict.items():
    inverted_dict.setdefault(value, list()).append(key)

Second Solution. Use a dictionary comprehension approach for inversion:

# Use this code to invert dictionaries that have unique values

inverted_dict = {value: key for key, value in my_dict.items()}

Third Solution. Use reverting the inversion approach (relies on the second solution):

# Use this code to invert dictionaries that have lists of values

my_dict = {value: key for key in inverted_dict for value in my_map[key]}
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  • 8
    dict is reserved and shouldn't be used for variable names
    – crypdick
    Aug 18, 2019 at 23:11
  • 5
    forgot to tell us what my_map is
    – crypdick
    Aug 18, 2019 at 23:14
  • dictio()? Did you mean dict()?
    – Georgy
    Oct 1, 2019 at 16:11
8

Lot of answers but didn't find anything clean in case we are talking about a dictionary with non-unique values.

A solution would be:

from collections import defaultdict

inv_map = defaultdict(list) 
for k, v in my_map.items(): 
    inv_map[v].append(k)

Example:

If initial dict my_map = {'c': 1, 'd': 5, 'a': 5, 'b': 10}

then, running the code above will give:

{5: ['a', 'd'], 1: ['c'], 10: ['b']}
3

I found that this version is more than 10% faster than the accepted version of a dictionary with 10000 keys.

d = {i: str(i) for i in range(10000)}

new_d = dict(zip(d.values(), d.keys()))
2

In addition to the other functions suggested above, if you like lambdas:

invert = lambda mydict: {v:k for k, v in mydict.items()}

Or, you could do it this way too:

invert = lambda mydict: dict( zip(mydict.values(), mydict.keys()) )
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  • 2
    -1; all you've done is taken other answers from the page and put them into a lambda. Also, assigning a lambda to a variable is a PEP 8 violation.
    – Mark Amery
    Jul 16, 2016 at 18:03
2

I think the best way to do this is to define a class. Here is an implementation of a "symmetric dictionary":

class SymDict:
    def __init__(self):
        self.aToB = {}
        self.bToA = {}

    def assocAB(self, a, b):
        # Stores and returns a tuple (a,b) of overwritten bindings
        currB = None
        if a in self.aToB: currB = self.bToA[a]
        currA = None
        if b in self.bToA: currA = self.aToB[b]

        self.aToB[a] = b
        self.bToA[b] = a
        return (currA, currB)

    def lookupA(self, a):
        if a in self.aToB:
            return self.aToB[a]
        return None

    def lookupB(self, b):
        if b in self.bToA:
            return self.bToA[b]
        return None

Deletion and iteration methods are easy enough to implement if they're needed.

This implementation is way more efficient than inverting an entire dictionary (which seems to be the most popular solution on this page). Not to mention, you can add or remove values from your SymDict as much as you want, and your inverse-dictionary will always stay valid -- this isn't true if you simply reverse the entire dictionary once.

4
  • I like this idea, though it would be good to note that it trades off additional memory to achieve improved computation. A happier medium may be caching or lazily computing the mirror. It is also worth noting that it could be made more syntactically appealing with e.g. dictionary views and custom operators.
    – Brian M. Hunt
    Sep 28, 2014 at 10:59
  • @BrianM.Hunt It trades off memory, but not a lot. You only store two sets of pointers to each object. If your objects are much bigger than single integers, this won't make much of a difference. If you have huge table of tiny objects on the other hand, you might need to consider those suggestions...
    – NcAdams
    Sep 28, 2014 at 20:46
  • And I agree, there's more to be done here -- I might flesh this out into a fully functioning datatype later
    – NcAdams
    Sep 28, 2014 at 20:47
  • 2
    "This implementation is way more efficient than inverting an entire dictionary" - um, why? I don't see any plausible way this approach can have a significant performance benefit; you've still got two dictionaries this way. If anything, I'd expect this to be slower than, say, inverting the dict with a comprehension, because if you invert the dict Python can plausibly know in advance how many buckets to allocate in the underlying C data structure and create the inverse map without ever calling dictresize, but this approach denies Python that possibility.
    – Mark Amery
    Jul 16, 2016 at 18:11
2

If the values aren't unique, and you're a little hardcore:

inv_map = dict(
    (v, [k for (k, xx) in filter(lambda (key, value): value == v, my_map.items())]) 
    for v in set(my_map.values())
)

Especially for a large dict, note that this solution is far less efficient than the answer Python reverse / invert a mapping because it loops over items() multiple times.

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  • 9
    This is just plain unreadable and a good example of how to not write maintainable code. I won't -1 because it still answers the question, just my opinion.
    – Russ Bradberry
    Oct 3, 2012 at 19:19
2

This handles non-unique values and retains much of the look of the unique case. 

inv_map = {v:[k for k in my_map if my_map[k] == v] for v in my_map.itervalues()}

For Python 3.x, replace itervalues with values.

2
  • 4
    This solution is quite elegant as a one liner and it manages the non unique values case. However it has a complexity in O(n2) which means it should be ok for several dozens of elements but it would be too slow for practical use if you have several hundreds of thousands of elements in your initial dictionary. The solutions based on a default dict are way faster than this one.
    – gabuzo
    Oct 24, 2017 at 8:21
  • Gabuzo is quite right. This version is (arguably) clearer than some, but it is not suitable for large data.
    – Ersatz Kwisatz
    Oct 25, 2017 at 17:01
2

I am aware that this question already has many good answers, but I wanted to share this very neat solution that also takes care of duplicate values:

def dict_reverser(d):
    seen = set()
    return {v: k for k, v in d.items() if v not in seen or seen.add(v)}

This relies on the fact that set.add always returns None in Python.

1

Here is another way to do it.

my_map = {'a': 1, 'b': 2}

inv_map= {}
for key in my_map.keys() :
    val = my_map[key]
    inv_map[val] = key
1 
dict([(value, key) for key, value in d.items()])
0

Function is symmetric for values of type list; Tuples are coverted to lists when performing reverse_dict(reverse_dict(dictionary))

def reverse_dict(dictionary):
    reverse_dict = {}
    for key, value in dictionary.iteritems():
        if not isinstance(value, (list, tuple)):
            value = [value]
        for val in value:
            reverse_dict[val] = reverse_dict.get(val, [])
            reverse_dict[val].append(key)
    for key, value in reverse_dict.iteritems():
        if len(value) == 1:
            reverse_dict[key] = value[0]
    return reverse_dict
0

Since dictionaries require one unique key within the dictionary unlike values, we have to append the reversed values into a list of sort to be included within the new specific keys. 

def r_maping(dictionary):
    List_z=[]
    Map= {}
    for z, x in dictionary.iteritems(): #iterate through the keys and values
        Map.setdefault(x,List_z).append(z) #Setdefault is the same as dict[key]=default."The method returns the key value available in the dictionary and if given key is not available then it will return provided default value. Afterward, we will append into the default list our new values for the specific key.
    return Map
0

Fast functional solution for non-bijective maps (values not unique):

from itertools import imap, groupby

def fst(s):
    return s[0]

def snd(s):
    return s[1]

def inverseDict(d):
    """
    input d: a -> b
    output : b -> set(a)
    """
    return {
        v : set(imap(fst, kv_iter))
        for (v, kv_iter) in groupby(
            sorted(d.iteritems(),
                   key=snd),
            key=snd
        )
    }

In theory this should be faster than adding to the set (or appending to the list) one by one like in the imperative solution.

Unfortunately the values have to be sortable, the sorting is required by groupby.

1
  • 1
    "In theory this should be faster than adding to the set (or appending to the list) one by one" - no. Given n elements in the original dict, your approach has O(n log n) time complexity due to the need to sort the dict's items, whereas the naive imperative approach has O(n) time complexity. For all I know your approach may be faster up until absurdly large dicts in practice, but it certainly isn't faster in theory.
    – Mark Amery
    Jul 16, 2016 at 18:17
0

Try this for python 2.7/3.x

inv_map={};
for i in my_map:
    inv_map[my_map[i]]=i    
print inv_map
0 
def invertDictionary(d):
    myDict = {}
  for i in d:
     value = d.get(i)
     myDict.setdefault(value,[]).append(i)   
 return myDict
 print invertDictionary({'a':1, 'b':2, 'c':3 , 'd' : 1})

This will provide output as : {1: ['a', 'd'], 2: ['b'], 3: ['c']}

1
  • Iterating key-value pairs simultaneously via dict.items (or iteritems in Python 2) is more efficient than extracting each value separately while iterating keys. Also, you have added no explanation to an answer which duplicates others.
    – jpp
    Aug 25, 2019 at 8:37
0

A lambda solution for current python 3.x versions:

d1 = dict(alice='apples', bob='bananas')
d2 = dict(map(lambda key: (d1[key], key), d1.keys()))
print(d2)

Result:

{'apples': 'alice', 'bananas': 'bob'}

This solution does not check for duplicates.

Some remarks:

  • The lambda construct can access d1 from the outer scope, so we only pass in the current key. It returns a tuple.
  • The dict() constructor accepts a list of tuples. It also accepts the result of a map, so we can skip the conversion to a list.
  • This solution has no explicit for loop. It also avoids using a list comprehension for those who are bad at math ;-)
1
  • I could not find this solution using google search or in the other answers or in the dupliate questions, so I created it.
    – mit
    Jun 16, 2020 at 15:15
0

Taking up the highly voted answer starting If the values in my_map aren't unique:, I had a problem where not only the values were not unique, but in addition, they were a list, with each item in the list consisting again of a list of three elements: a string value, a number, and another number.

Example:

mymap['key1'] gives you:

[('xyz', 1, 2),
 ('abc', 5, 4)]

I wanted to switch only the string value with the key, keeping the two number elements at the same place. You simply need another nested for loop then:

inv_map = {}
for k, v in my_map.items():
    for x in v:
        # with x[1:3] same as x[1], x[2]:
        inv_map[x[0]] = inv_map.get(x[0], []) + [k, x[1:3]]

Example:

inv_map['abc'] now gives you:

[('key1', 1, 2),
 ('key1', 5, 4)]
0

This works even if you have non-unique values in the original dictionary.

def dict_invert(d):
    '''
    d: dict
    Returns an inverted dictionary 
    '''
    # Your code here
    inv_d = {}
    for k, v in d.items():
        if v not in inv_d.keys():
            inv_d[v] = [k]
        else:
            inv_d[v].append(k)
        inv_d[v].sort()
        print(f"{inv_d[v]} are the values")
        
    return inv_d
-1

I would do it that way in python 2.

inv_map = {my_map[x] : x for x in my_map}
1
  • Iterating key-value pairs simultaneously via dict.items (or iteritems in Python 2) is more efficient than extracting each value separately while iterating keys.
    – jpp
    Aug 23, 2019 at 14:38
-2

Not something completely different, just a bit rewritten recipe from Cookbook. It's futhermore optimized by retaining setdefault method, instead of each time getting it through the instance:

def inverse(mapping):
    '''
    A function to inverse mapping, collecting keys with simillar values
    in list. Careful to retain original type and to be fast.
    >> d = dict(a=1, b=2, c=1, d=3, e=2, f=1, g=5, h=2)
    >> inverse(d)
    {1: ['f', 'c', 'a'], 2: ['h', 'b', 'e'], 3: ['d'], 5: ['g']}
    '''
    res = {}
    setdef = res.setdefault
    for key, value in mapping.items():
        setdef(value, []).append(key)
    return res if mapping.__class__==dict else mapping.__class__(res)

Designed to be run under CPython 3.x, for 2.x replace mapping.items() with mapping.iteritems()

On my machine runs a bit faster, than other examples here

1
  • 1
    Building the result as a dict and then converting to the desired class at the end (rather than starting with a class of the right type) looks to me like it incurs an entirely avoidable performance hit, here.
    – Mark Amery
    Jul 15, 2019 at 2:09
1
2

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