Article was originally posted on therenegadecoder.com where it's actively maintained.
In this series, I’m putting together several articles for small Python problems that can be solved in a few lines of code. This series is inspired by the everyday Google searches I make to solve my own problems at work. Today, I'm writing an article on how to invert a dictionary.
Problem Introduction
Recently, I was working on a Python project where I needed to invert a dictionary. For all you Boku no Hero Academia (BNHA) fans out there, I basically wanted to be able to do the following:
my_dict = {
'Izuku Midoriya': 'One for All',
'Katsuki Bakugo': 'Explosion',
'All Might': 'One for All',
'Ochaco Uraraka': 'Zero Gravity'
}
my_inverted_dict = {
'One for All': ['Izuku Midoriya', 'All Might'],
'Explosion': ['Katsuki Bakugo'],
'Ochaco Uraraka': ['Zero Gravity']
}
In this scenario, we have a dictionary of characters from BNHA mapped to their quirks, and we want to convert that to a dictionary of quirks mapped to the characters that have them.
Unfortunately, the original dictionary has non-unique values, so flipping the dictionary would result in a loss of keys. Instead, we want to accumulate a list of keys for each non-unique value while performing the inversion. As it turns out, this is pretty easy to do.
Solutions
If we want to invert a dictionary, we have several options. From comprehensions to loops, we’ll take a look at all the practical solutions.
Invert a Dictionary with Map and Reversed
Let’s kick off our series of options with one of the more succinct options:
my_inverted_dict = dict(map(reversed, my_dict.items()))
Here, we use the map function which applies the reversed function to all the items in the dictionary. Then, we take the map object and convert it into a dictionary. The result looks something like the following:
my_inverted_dict = {
'One for All': 'All Might',
'Explosion': 'Katsuki Bakugo',
'Zero Gravity': 'Ochaco Uraraka'
}
Of course, if we want to make sure we don’t lose Midoriya, we shouldn’t use this method. Otherwise, this would be a perfect solution.
Invert a Dictionary with a Comprehension
In Python 2.7 and above, we can use a dictionary comprehension to invert a dictionary. Unfortunately, it falls prey to the same issue mentioned before, but it gets the job done for unique values:
my_inverted_dict = {value: key for key, value in my_dict.items()}
Once again, here’s the result of inverting our example dictionary:
my_inverted_dict = {
'One for All': 'All Might',
'Explosion': 'Katsuki Bakugo',
'Zero Gravity': 'Ochaco Uraraka'
}
As we can see, we lose one of our keys. So, there has to be a better way to invert a dictionary.
Invert a Dictionary with Defaultdict
Luckily, there is a better way! Thanks to our friend, Niels van Galen Last, we can accomplish exactly what we need in three lines of code:
from collections import defaultdict
my_inverted_dict = defaultdict(list)
{my_inverted_dict[v].append(k) for k, v in my_dict.items()}
Here, we've chosen to leverage the defaultdict
object from collections
. It allows us to set default values for keys. In this case, we've chosen a default value of list, so we can append data without the risk of a runtime error. Check out the results:
my_inverted_dict = {
'One for All': ['Izuku Midoriya', 'All Might'],
'Explosion': ['Katsuki Bakugo'],
'Zero Gravity': ['Ochaco Uraraka']
}
Since defaultdict
works like a regular dict
, we can interact with it all the same. This is great solution if you don't have any strict dict
requirements, and your values are not unique.
Invert a Dictionary with a For Loop
Another way to invert a dictionary is to use a for loop. This allows us to iterate over the set of mappings and properly build the new mappings by hand. Take a look:
my_inverted_dict = dict()
for key, value in my_dict.items():
my_inverted_dict.setdefault(value, list()).append(key)
With this method, we can invert a dictionary while preserving all of our original keys. Let’s take a look at what would happen if we ran this code snippet:
my_inverted_dict = {
'One for All': ['Izuku Midoriya', 'All Might'],
'Explosion': ['Katsuki Bakugo'],
'Zero Gravity': ['Ochaco Uraraka']
}
Great! We have exactly what we need, but what happens if we want to return this dictionary to its original form?
Revert the Inversion
In the basic case where all keys and values are unique, we can revert a dictionary back to its original mapping using the same dictionary comprehension we’ve already covered:
my_dict = {value: key for key, value in my_inverted_dict.items()}
Unfortunately, this doesn’t work out with a dictionary that maps keys to lists. That’s because lists in Python are unhashable types. In other words, Python doesn’t allow lists to be keys in dictionaries because lists are not immutable.
Fortunately, it’s easier to revert our dictionary than it was to invert it in the first place. We can use the following dictionary comprehension:
my_dict = {value: key for key in my_inverted_dict for value in my_map[key]}
As we can see, we make a new key-value pair for every single value in each list using this double loop structure.
A Little Recap
Using the methods above, we can invert just about any dictionary.
# Use to invert dictionaries that have unique values
my_inverted_dict = dict(map(reversed, my_dict.items()))
# Use to invert dictionaries that have unique values
my_inverted_dict = {value: key for key, value in my_dict.items()}
# Use to invert dictionaries that have non-unique values
from collections import defaultdict
my_inverted_dict = defaultdict(list)
{my_inverted_dict[v].append(k) for k, v in my_dict.items()}
# Use to invert dictionaries that have non-unique values
my_inverted_dict = dict()
for key, value in my_dict.items():
my_inverted_dict.setdefault(value, list()).append(key)
# Use to invert dictionaries that have lists of values
my_dict = {value: key for key in my_inverted_dict for value in my_map[key]}
Just about every other type of dictionary transformation is out of the scope of this tutorial. However, if you have any specific questions, consider dropping them down below in the comments. I'm always happy to write an article for someone!
Top comments (7)
You can also use zip if you don't mind non-unique values being merged:
Good point! I always hesitate with this solution because it’s not immediately clear that the two collections would maintain their order. I know they do, but it still bothers me.
Yeah, the dict comprehension is the clearest way of doing this.
zip
is mildly faster but I agree calling keys and values separately is slightly offputting:Inverting the original dict with non-unique values can be done cleaner (without the explicit two line
for
loop and IMO easier to read) using adefaultdict
:Or to make it more intuitive denote the comprehension using a
dict
since that is what we are applying the operation to:Great addition! I would prefer to maintain the dict type and leave out any extraneous imports, but this gets the job done and is probably less error prone.
Mind if I add it to the list?
Go ahead :)
It's part of the standard library and it's still a dict so you can use any it like a normal dict, e.g.
my_dict_inverted['One for All']
as well as all methods from a normal dict likekeys()
,values()
anditems()
.Hi again! I'm in the process of updating this article, and I just realized that this answer has a minor problem. We're using a dictionary comprehension in a bad way. We're updating some external dictionary while the comprehension will also generate a dictionary (in this case,
{None}
). I believe that's considered bad practice, so I've added a note in the original article.