Given a dictionary { k1: v1, k2: v2 ... } I want to get { k1: f(v1), k2: f(v2) ... } provided I pass a function f.

Is there any such built in function? Or do I have to do

dict([(k, f(v)) for (k, v) in my_dictionary.iteritems()])

Ideally I would just write




That is, it doesn't matter to me if the original dictionary is mutated or a copy is created.

  • 2
    A better way of writing your example would be dict((k, f(v)) for k, v in mydict.iteritems()), i.e. without the square brackets, that would prevent the creation of an intermediate list via a generator. – bereal Sep 1 '12 at 15:46

There is no such function; the easiest way to do this is to use a dict comprehension:

my_dictionary = {k: f(v) for k, v in my_dictionary.items()}

In python 2.7, use the .iteritems() method instead of .items() to save memory. The dict comprehension syntax wasn't introduced until python 2.7.

Note that there is no such method on lists either; you'd have to use a list comprehension or the map() function.

As such, you could use the map() function for processing your dict as well:

my_dictionary = dict(map(lambda kv: (kv[0], f(kv[1])), my_dictionary.iteritems()))

but that's not that readable, really.

  • 4
    +1: this is what I would do too. dict(zip(a, map(f, a.values()))) is marginally shorter, but I have to think about what it's doing, and remind myself that yes, keys and values are iterated over in the same order if the dict doesn't change. I don't have to think at all about what the dictcomp is doing, and so it's the right answer. – DSM Sep 1 '12 at 15:39
  • @DSM: Yeah, the zip(adict, map(f, adict.values()))) trick requires way too much understanding from the casual code reader, not to mention a steady hand in adding all the closing params! :-P – Martijn Pieters Sep 1 '12 at 15:40
  • 1
    @chiborg: that's because rather than look up all key-value pairs in one go, you are now using number-of-keys times my_dictionary.__getitem__ calls. – Martijn Pieters Oct 15 '14 at 15:21
  • 1
    Why did parameter unpacking get nixed? How is that an improvement ? – javadba Feb 17 '18 at 21:38
  • 2
    coming from an FP language, Python would seem incredibly awkward. – juanchito May 9 '18 at 20:07

These toolz are great for this kind of simple yet repetitive logic.


Gets you right where you want to be.

import toolz
def f(x):
  return x+1

toolz.valmap(f, my_list)

You can do this in-place, rather than create a new dict, which may be preferable for large dictionaries (if you do not need a copy).

def mutate_dict(f,d):
    for k, v in d.iteritems():
        d[k] = f(v)

my_dictionary = {'a':1, 'b':2}
mutate_dict(lambda x: x+1, my_dictionary)

results in my_dictionary containing:

{'a': 2, 'b': 3}
  • 1
    Cool, you should maybe rename mapdict to mutate_values_with or something to make it crystal clear that you rewrite the dict! :) – Tarrasch Aug 24 '14 at 17:10
  • 2
    zip(d.keys(), d.values()) works for more versions instead of iteritems() – ytpillai Aug 7 '15 at 9:29
  • 1
    @ytpillai 'zip' or comprehensions make a copy, rather than changing the values in-place, which is the purpose of my answer. The accepted answer is the best one for when a copy is ok. – gens Aug 10 '15 at 15:42
  • 1
    My apologies, I didn't realize you wanted to use the items method. However, another improvement to that is possible as well (for non Python 2.7 users) {k:f(v) for k,v in iter(d.items())} – ytpillai Aug 10 '15 at 17:57
  • 1
    Saves space by making an iterator – ytpillai Aug 10 '15 at 17:57

Due to PEP-0469 which renamed iteritems() to items() and PEP-3113 which removed Tuple parameter unpacking, in Python 3.x you should write Martijn Pieters♦ answer like this:

my_dictionary = dict(map(lambda item: (item[0], f(item[1])), my_dictionary.items()))

While my original answer missed the point (by trying to solve this problem with the solution to Accessing key in factory of defaultdict), I have reworked it to propose an actual solution to the present question.

Here it is:

class walkableDict(dict):
  def walk(self, callback):
      for key in self:
        self[key] = callback(self[key])
    except TypeError:
      return False
    return True


>>> d = walkableDict({ k1: v1, k2: v2 ... })
>>> d.walk(f)

The idea is to subclass the original dict to give it the desired functionality: "mapping" a function over all the values.

The plus point is that this dictionary can be used to store the original data as if it was a dict, while transforming any data on request with a callback.

Of course, feel free to name the class and the function the way you want (the name chosen in this answer is inspired by PHP's array_walk() function).

Note: Neither the try-except block nor the return statements are mandatory for the functionality, they are there to further mimic the behavior of the PHP's array_walk.

  • 1
    This fails to solve the OP question since the __missing__ method won't be called for existing keys, which we want to transform, unless the factory method passed use the origin dict as a fallback somehow, but as that is not part of the example usage, I consider this an unsatisfactory answer to the problem at hand. – Kaos Feb 10 '16 at 14:11
  • Which existing keys? – 7heo.tk May 19 '16 at 12:40
  • From the OP: Given a dictionary { k1: v1, k2: v2 ... } .... That is, you already have a dict to begin with.. – Kaos May 19 '16 at 21:23
  • I would like to say that we're both right; but I believe that we're both wrong. You're right in that my answer doesn't answer the question; but not for the reason you invoked. I simply missed the point, giving a way to obtain {v1: f(v1), v2: f(v2), ...} given [v1, v2, ...], and not given a dict. I will edit my answer to correct that. – 7heo.tk May 20 '16 at 6:34

To avoid doing indexing from inside lambda, like:

rval = dict(map(lambda kv : (kv[0], ' '.join(kv[1])), rval.iteritems()))

You can also do:

rval = dict(map(lambda(k,v) : (k, ' '.join(v)), rval.iteritems()))
  • That’s a clever manipulation within the 2-tuple itself in the second example. However, it utilizes auto tuple unpacking within the lambda, which is no longer supported in Python 3. Therefore lambda(k,v) will not work. See stackoverflow.com/questions/21892989/… – Jonathan Komar Dec 4 at 9:32

Just came accross this use case. I implemented gens's answer, adding a recursive approach for handling values that are also dicts:

def mutate_dict_in_place(f, d):
    for k, v in d.iteritems():
        if isinstance(v, dict):
            mutate_dict_in_place(f, v)
            d[k] = f(v)

# Exemple handy usage
def utf8_everywhere(d):
        lambda value:
            if isinstance(value, bytes)
            else value

my_dict = {'a': b'byte1', 'b': {'c': b'byte2', 'd': b'byte3'}}

This can be useful when dealing with json or yaml files that encode strings as bytes in Python 2

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