I am trying to write a list comprehension statement that will only add an item if it's not currently contained in the list. Is there a way to check the current items in the list that is currently being constructed? Here is a brief example:


    "Stefan" : ["running", "engineering", "dancing"],
    "Bob" : ["dancing", "art", "theatre"],
    "Julia" : ["running", "music", "art"]


["running", "engineering", "dancing", "art", "theatre", "music"]

Code without using a list comprehension

output = []
for name, hobbies in input.items():
    for hobby in hobbies:
        if hobby not in output:

My Attempt

[hobby for name, hobbies in input.items() for hobby in hobbies if hobby not in ???]
  • 8
    Consider using a set instead, as it eliminates duplicates for you automatically.
    – Kevin
    May 19, 2015 at 17:08
  • I could put the output of the list comprehension in the set() constructor but I am wondering if there is a way to do this only using list comprehension May 19, 2015 at 17:11
  • You could abuse yield from in python3.3+ to avoid the double loop: set([(yield from x) for x in d.values()]). Note that doing s=set((yield from x) for x in d.values()) yields almost the desired output... it contains an extra None that you have to remove so s.discard(None). (I believe there's already a question about this difference in behaviour between gen exps and list-comprehensions).
    – Bakuriu
    May 20, 2015 at 7:00

8 Answers 8


You can use set and set comprehension:

{hobby for name, hobbies in input.items() for hobby in hobbies}

As m.wasowski mentioned, we don't use the name here, so we can use item.values() instead:

{hobby for hobbies in input.values() for hobby in hobbies}

If you really need a list as the result, you can do this (but notice that usually you can work with sets without any problem):

list({hobby for hobbies in input.values() for hobby in hobbies})
  • 2
    I suppose there isn't even any reason to convert it back to a list. Most probably the list would be a set in concept anyway. May 19, 2015 at 17:19
  • 2
    @ThijsvanDien I only added that because the OP had his output in a list and he might have some special reason why he needs a list. In most cases you're right of course.
    – geckon
    May 19, 2015 at 17:21
  • 3
    you can use input.values() if you don't care about name
    – m.wasowski
    May 19, 2015 at 18:16
  • @m.wasowski Thanks, you're right. I'll add it to the answer.
    – geckon
    May 19, 2015 at 18:20
  • Can someone walk through that middle comprehension so I can see how 'hobby' and 'hobbies' get defined? I'm not entirely clear on the order of execution here. Thanks. Feb 4, 2016 at 6:32

As this answer suggests: you can use a uniqueness filter:

def f7(seq):
    seen = set()
    seen_add = seen.add
    return [x for x in seq if not (x in seen or seen_add(x))]

and call with:

>>> f7(hobby for name, hobbies in input.items() for hobby in hobbies)
['running', 'engineering', 'dancing', 'art', 'theatre', 'music']

I would implement the uniqueness filter separately since a design rule says "different things should be handled by different classes/methods/components/whatever". Furthermore you can simply reuse this method if necessary.

Another advantage is - as is written at the linked answer - that the order of the items is preserved. For some applications, this might be necessary.

  • even better if you drop the square brackets
    – shx2
    May 19, 2015 at 17:15
  • @shx2: modified, better? May 19, 2015 at 17:16
  • 2
    Points for maintaining order. May 19, 2015 at 17:16
  • 1
    IMO this is more readable if the predicate is written as if x not in seen and seen.add(x) is None
    – Shashank
    May 19, 2015 at 18:47
  • 2
    Fair enough sir, I upvoted your answer anyways because I think it's better than the accepted one due to maintaining order. @ThijsvanDien What's wrong with a list comprehension having side effects? It's pretty much the same as a for-loop having side effects.
    – Shashank
    May 19, 2015 at 18:54

If you really really want a listcomp and only a list-comp, you can do

>>> s = []
>>> [s.append(j)  for i in d.values() for j in i if j not in s]
[None, None, None, None, None, None]
>>> s
['dancing', 'art', 'theatre', 'running', 'engineering', 'music']

Here, s is a result of a side effect and d is your original dictionary. The unique advantage here is that you can preserve the order unlike most other answers here.

Note: This a bad way as it exploits the list-comp and the result is a side effect. Don't do it as a practice, This answer is just to show you that you can achieve it using a list comp alone

  • @BhargavRao: I've made it syntactically more emphasized such that most persons will catch the warning. May 19, 2015 at 17:27
  • 2
    @m.wasowski True that your's is the better solution. This is an alternative only. Any future user will certainly see your answer before mine. So they'll learn an alternate methodology too. I agree that this is not a good way and I have been saying it from the second I posted it as an answer. As for the single letter variable names. I know that they are not in accordance with PEP. But it does no harm here as it is the 6th answer down the list. However if you still feel that this answer should not exist here, do mention it. I will delete it with a note to future viewers above 10k. Thanks again! May 19, 2015 at 17:44
  • 3
    @m.wasowski: I think the model of SO is to provide one-to-many relations from questions to answer each with (dis)advantages. As long as there are enough warnings even a worst case exponentially time solution is acceptable. The voting system is used to (a) filter out incorrect answers and (b) rank answers for practical usage. May 19, 2015 at 17:44
  • 3
    Oh, my... sorry for expressing my opinion ;-) I was not going to drop banhammer on you guys anyway, really! @Bhargav Rao - of course keep your answer - and keep doing a good job answering people here. Sorry if my comments were too harsh, I didn't mean to.
    – m.wasowski
    May 19, 2015 at 17:55
  • 2
    @m.wasowski You really need not be sorry here! The only point is that if this answer was the first or second or an FGITW then it certainly does not belong here. The timing of the answer is important too. A bad answer indicating as to why it is bad also helps the future users not to utilize such tactics in their problem solving. I hope with this note all stands cleared! Have a nice day. :) May 19, 2015 at 17:59

sets and dictionaries are your friends here:

from collections import OrderedDict
from itertools import chain # 'flattens' collection of iterables

data = {
    "Stefan" : ["running", "engineering", "dancing"],
    "Bob" : ["dancing", "art", "theatre"],
    "Julia" : ["running", "music", "art"]

# using set is the easiest way, but sets are unordered:
print {hobby for hobby in chain.from_iterable(data.values())}
# output:
# set(['art', 'theatre', 'dancing', 'engineering', 'running', 'music'])

# or use OrderedDict if you care about ordering:
print OrderedDict(
        (hobby, None) for hobby in chain.from_iterable(data.values())
# output:
# ['dancing', 'art', 'theatre', 'running', 'engineering', 'music']
  • The OrderedDict method is the one I would choose here. May 19, 2015 at 20:51
  • 1
    I think your answer should clarify what you mean with "ordering": As data is a normal dictionary the resulting order of the call to data.values() is arbitrary. Because of this the order of the keys() in the OrderedDict has to be considered partially arbitrary as well. The lists are randomly ordered (in your case the order of lists were the ones of: Bob, Stefan, Julia) but their elements' orders are preserved. Because of overlaps this can lead to quite some different orders.
    – Jörn Hees
    May 29, 2015 at 16:42

There's another way of writing this that is a bit more descriptive of what you're actually doing, and doesn't require a nested (double for) comprehension:

output = set.union(*[set(hobbies) for hobbies in input_.values()])

This becomes even nicer when you'd represent the input to be more conceptually sound, i.e. use a set for the hobbies of each person (since there shouldn't be repetitions there either):

input_ = {
    "Stefan" : {"running", "engineering", "dancing"},
    "Bob" : {"dancing", "art", "theatre"}, 
    "Julia" : {"running", "music", "art"}

output = set.union(*input_.values())
  • for me - the best solution by far
    – m.wasowski
    May 20, 2015 at 12:57

A list comprehension is not well-suited for this problem. I think a set comprehension would be better, but since that was already shown in another answer, I'll show a way of solving this problem with a compact one-liner:

list(set(sum(hobbies_dict.values(), [])))

Another interesting solution using bitwise or operator which serves as a union operator for sets:

from operator import or_
from functools import reduce # Allowed, but unnecessary in Python 2.x
list(reduce(or_, map(set, hobbies_dict.values())))

Or (unintentional pun, I swear), instead of using bitwise or operator, just use set.union and pass it the unpacked set-mapping of your values. No need to import or_ and reduce! This idea is inspired by Thijs van Dien's answer.

list(set.union(*map(set, hobbies_dict.values())))

Use a set:

dict = {
    "Stefan" : ["running", "engineering", "dancing"],
    "Bob" : ["dancing", "art", "theatre"],
    "Julia" : ["running", "music", "art"]

myset = set()
for _, value in dict.items():
    for item in value:


How about this:

>>> set(['art', 'theatre', 'dancing', 'engineering', 'running', 'music'])

Or more nicely:

dict = {
    "Stefan" : ["running", "engineering", "dancing"],
    "Bob" : ["dancing", "art", "theatre"],
    "Julia" : ["running", "music", "art"]

list_ = []
for y in dict.keys():
    list_ = list_ + dict[y]
list_ = set(list_)
>>> list_
set(['art', 'theatre', 'dancing', 'engineering', 'running', 'music'])

you can apply the list function to list_ like list(list_) to return a list rather than a set.

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