# Removing duplicates in lists

Pretty much I need to write a program to check if a list has any duplicates and if it does it removes them and returns a new list with the items that werent duplicated/removed. This is what I have but to be honest I do not know what to do.

``````def remove_duplicates():
t = ['a', 'b', 'c', 'd']
t2 = ['a', 'c', 'd']
for t in t2:
t.append(t.remove())
return t
``````
• Your description says you check "a list" for duplicates, but your code checks two lists. – Brendan Long Nov 1 '11 at 0:48
• Can anyone post an answer using loops. I get that it would be "unpythonic" but as a new student of python it would be really helpful. – A.R.K Oct 25 '18 at 5:30

The common approach to get a unique collection of items is to use a `set`. Sets are unordered collections of distinct objects. To create a set from any iterable, you can simply pass it to the built-in `set()` function. If you later need a real list again, you can similarly pass the set to the `list()` function.

The following example should cover whatever you are trying to do:

``````>>> t = [1, 2, 3, 1, 2, 5, 6, 7, 8]
>>> t
[1, 2, 3, 1, 2, 5, 6, 7, 8]
>>> list(set(t))
[1, 2, 3, 5, 6, 7, 8]
>>> s = [1, 2, 3]
>>> list(set(t) - set(s))
[8, 5, 6, 7]
``````

As you can see from the example result, the original order is not maintained. As mentioned above, sets themselves are unordered collections, so the order is lost. When converting a set back to a list, an arbitrary order is created.

If order is important to you, then you will have to use a different mechanism. A very common solution for this is to rely on `OrderedDict` to keep the order of keys during insertion:

``````>>> from collections import OrderedDict
>>> list(OrderedDict.fromkeys(t))
[1, 2, 3, 5, 6, 7, 8]
``````

Note that this has the overhead of creating a dictionary first, and then creating a list from it. So if you don’t actually need to preserve the order, you’re better off using a set. Check out this question for more details and alternative ways to preserve the order when removing duplicates.

Finally note that both the `set` as well as the `OrderedDict` solution require your items to be hashable. This usually means that they have to be immutable. If you have to deal with items that are not hashable (e.g. list objects), then you will have to use a slow approach in which you will basically have to compare every item with every other item in a nested loop.

• It should be noted that this kills the original order. – Kos Jan 10 '13 at 9:00
• It should be noted also that it doesn't work if you have dicts on the list. – fiatjaf Feb 23 '13 at 6:15
• This isn't helpful if list order is important to you. – Jay Taylor May 21 '13 at 15:31
• And most importantly, the content of the original list must be hashable. – Davide Feb 15 '17 at 20:26
• Actually the fourth comment is inclusive and more general than the second comment. It does not simply re-state the second comment as dicts are only one example of unhashable objects. Lists and sets are other examples of unhashable objects. – Reza Dodge May 11 '17 at 16:56

In Python 2.7, the new way of removing duplicates from an iterable while keeping it in the original order is:

``````>>> from collections import OrderedDict
['a', 'b', 'r', 'c', 'd']
``````

In Python 3.5, the OrderedDict has a C implementation. My timings show that this is now both the fastest and shortest of the various approaches for Python 3.5.

In Python 3.6, the regular dict became both ordered and compact. (This feature is holds for CPython and PyPy but may not present in other implementations). That gives us a new fastest way of deduping while retaining order:

``````>>> list(dict.fromkeys('abracadabra'))
['a', 'b', 'r', 'c', 'd']
``````

In Python 3.7, the regular dict is guaranteed to both ordered across all implementations. So, the shortest and fastest solution is:

``````>>> list(dict.fromkeys('abracadabra'))
['a', 'b', 'r', 'c', 'd']
``````
• I think this is the only way to keep the items in order. – Herberth Amaral Oct 22 '12 at 20:23
• @HerberthAmaral: That is very far from true, see How do you remove duplicates from a list in Python whilst preserving order? – Martijn Pieters Aug 15 '13 at 14:24
• @MartijnPieters Correcting: I think this is the only simple way to keep items in order. – Herberth Amaral Aug 15 '13 at 21:34
• For this too, the content of the original list must be hashable – Davide Feb 15 '17 at 20:28
• As @Davide mentioned, the original list must hashable. This means, that this does not work for a list of dictionaries. `TypeError: unhashable type: 'dictlist'` – CraZ May 16 '18 at 17:27

It's a one-liner: `list(set(source_list))` will do the trick.

A `set` is something that can't possibly have duplicates.

Update: an order-preserving approach is two lines:

``````from collections import OrderedDict
OrderedDict((x, True) for x in source_list).keys()
``````

Here we use the fact that `OrderedDict` remembers the insertion order of keys, and does not change it when a value at a particular key is updated. We insert `True` as values, but we could insert anything, values are just not used. (`set` works a lot like a `dict` with ignored values, too.)

``````>>> t = [1, 2, 3, 1, 2, 5, 6, 7, 8]
>>> t
[1, 2, 3, 1, 2, 5, 6, 7, 8]
>>> s = []
>>> for i in t:
if i not in s:
s.append(i)
>>> s
[1, 2, 3, 5, 6, 7, 8]
``````
• Note that this method works in O(n^2) time and is thus very slow on large lists. – dotancohen Sep 3 '13 at 14:02
• However this works fine for non-hashable content – Davide Feb 15 '17 at 20:39
• @Davide Use a `frozenset` for non-hashable content – Chris_Rands Mar 28 '17 at 16:00
• for me was the best solution – AllExJ Aug 21 '18 at 11:02
• how to convert this code to list comprehension? – Muhammad Ashfaq Feb 23 at 8:50

If you don't care about the order, just do this:

``````def remove_duplicates(l):
return list(set(l))
``````

A `set` is guaranteed to not have duplicates.

To make a new list retaining the order of first elements of duplicates in `L`

`newlist=[ii for n,ii in enumerate(L) if ii not in L[:n]]`

for example `if L=[1, 2, 2, 3, 4, 2, 4, 3, 5]` then `newlist` will be `[1,2,3,4,5]`

This checks each new element has not appeared previously in the list before adding it. Also it does not need imports.

• This has a time complexity of O(n ^ 2). The answers with `set` and `OrderedDict` may have lower amortized time complexity. – blubberdiblub Apr 13 '17 at 4:09
• I used in my code this solution and worked great but I think it is time consuming – Gerasimos Ragavanis Apr 26 '18 at 13:59
• @blubberdiblub can you explain what more code efficient mechanism exists in set and OrderedDict that could make them less time consuming? (excluding the overhead of loading them) – ilias iliadis Jan 14 at 11:45
• @iliasiliadis The usual implementations of set and dict use hashes or (some form of balanced) trees. You have to consider building the set or dict and searching in it (multiple times), but their amortized complexity usually is still lower than O(n ^ 2). "Amortized" in simple terms means on average (they can have worst cases with higher complexity than the average case). This is only relevant when you have a big number of items. – blubberdiblub Jan 14 at 13:16

A colleague have sent the accepted answer as part of his code to me for a codereview today. While I certainly admire the elegance of the answer in question, I am not happy with the performance. I have tried this solution (I use set to reduce lookup time)

``````def ordered_set(in_list):
out_list = []
for val in in_list:
out_list.append(val)
return out_list
``````

To compare efficiency, I used a random sample of 100 integers - 62 were unique

``````from random import randint
x = [randint(0,100) for _ in xrange(100)]

In [131]: len(set(x))
Out[131]: 62
``````

Here are the results of the measurements

``````In [129]: %timeit list(OrderedDict.fromkeys(x))
10000 loops, best of 3: 86.4 us per loop

In [130]: %timeit ordered_set(x)
100000 loops, best of 3: 15.1 us per loop
``````

Well, what happens if set is removed from the solution?

``````def ordered_set(inlist):
out_list = []
for val in inlist:
if not val in out_list:
out_list.append(val)
return out_list
``````

The result is not as bad as with the OrderedDict, but still more than 3 times of the original solution

``````In [136]: %timeit ordered_set(x)
10000 loops, best of 3: 52.6 us per loop
``````
• Nice using set quick lookup to speed up the looped comparison. If order does not matter list(set(x)) is still 6x faster than this – Joop Sep 17 '14 at 10:24
• @Joop, that was my first question for my colleague - the order does matter; otherwise, it would have been trivial issue – volcano Sep 17 '14 at 11:00

Another way of doing:

``````>>> seq = [1,2,3,'a', 'a', 1,2]
>> dict.fromkeys(seq).keys()
['a', 1, 2, 3]
``````
• Note that in modern Python versions (2.7+ I think, but I don't recall for sure), `keys()` returns a dictionary view object, not a list. – Dustin Wyatt Dec 22 '17 at 15:24

There are also solutions using Pandas and Numpy. They both return numpy array so you have to use the function `.tolist()` if you want a list.

``````t=['a','a','b','b','b','c','c','c']
t2= ['c','c','b','b','b','a','a','a']
``````

## Pandas solution

Using Pandas function `unique()`:

``````import pandas as pd
pd.unique(t).tolist()
>>>['a','b','c']
pd.unique(t2).tolist()
>>>['c','b','a']
``````

## Numpy solution

Using numpy function `unique()`.

``````import numpy as np
np.unique(t).tolist()
>>>['a','b','c']
np.unique(t2).tolist()
>>>['a','b','c']
``````

Note that numpy.unique() also sort the values. So the list `t2` is returned sorted. If you want to have the order preserved use as in this answer:

``````_, idx = np.unique(t2, return_index=True)
t2[np.sort(idx)].tolist()
>>>['c','b','a']
``````

The solution is not so elegant compared to the others, however, compared to pandas.unique(), numpy.unique() allows you also to check if nested arrays are unique along one selected axis.

• This will convert the list to numpy array which is a mess and won't work for strings. – user227666 Jul 3 '14 at 12:48
• @user227666 thanks for your review but that's not true it works even with string and you can add .tolist if you want to get a list... – G M Jul 3 '14 at 16:45
• I think this is kinda like trying to kill a bee with a sledgehammer. Works, sure! But, importing a library for just this purpose might be a little overkill, no? – Debosmit Ray Oct 9 '16 at 9:11
• @DebosmitRay it could be useful if you work in Data Science where usually you work with numpy and many times you need to work with numpy array. – G M Oct 10 '16 at 7:17

Simple and easy:

``````myList = [1, 2, 3, 1, 2, 5, 6, 7, 8]
cleanlist = []
[cleanlist.append(x) for x in myList if x not in cleanlist]
``````

Output:

``````>>> cleanlist
[1, 2, 3, 5, 6, 7, 8]
``````
• quadratic complexity nonetheless - `in` is O(n) operation and your `cleanlist` will have at most `n` numbers => worst-case ~O(n^2) – jermenkoo Mar 23 '16 at 23:02
• list comprehensions shouldn't be used for side effects. – Jean-François Fabre Dec 7 '18 at 22:09

I had a dict in my list, so I could not use the above approach. I got the error:

``````TypeError: unhashable type:
``````

So if you care about order and/or some items are unhashable. Then you might find this useful:

``````def make_unique(original_list):
unique_list = []
[unique_list.append(obj) for obj in original_list if obj not in unique_list]
return unique_list
``````

Some may consider list comprehension with a side effect to not be a good solution. Here's an alternative:

``````def make_unique(original_list):
unique_list = []
map(lambda x: unique_list.append(x) if (x not in unique_list) else False, original_list)
return unique_list
``````
• `map` with a side effect is even more misleading than a listcomp with a side effect. Also, `lambda x: unique_list.append(x)` is just a clunkier and slower way to pass `unique_list.append`. – abarnert Nov 8 '14 at 1:48
• Very useful way to append elements in just one line, thanks! – ZLNK May 24 '17 at 21:50
• @ZLNK please, don't ever use that. Apart from being conceptually ugly, it's also extremely inefficient, because you actually create a potentially large list and throw it away just to perform basic iteration. – Eli Korvigo Mar 13 at 20:14

Try using sets:

``````import sets
t = sets.Set(['a', 'b', 'c', 'd'])
t1 = sets.Set(['a', 'b', 'c'])

print t | t1
print t - t1
``````

You could also do this:

``````>>> t = [1, 2, 3, 3, 2, 4, 5, 6]
>>> s = [x for i, x in enumerate(t) if i == t.index(x)]
>>> s
[1, 2, 3, 4, 5, 6]
``````

The reason that above works is that `index` method returns only the first index of an element. Duplicate elements have higher indices. Refer to here:

list.index(x[, start[, end]])
Return zero-based index in the list of the first item whose value is x. Raises a ValueError if there is no such item.

• This is horribly inefficient. `list.index` is a linear-time operation, making your solution quadratic. – Eli Korvigo Apr 13 '18 at 20:42
• You're right. But also I believe it's fairly obvious the solution is intended to be a one liner that preserves the order. Everything else is already in here. – Atonal Oct 13 '18 at 0:08

All the order-preserving approaches I've seen here so far either use naive comparison (with O(n^2) time-complexity at best) or heavy-weight `OrderedDicts`/`set`+`list` combinations that are limited to hashable inputs. Here is a hash-independent O(nlogn) solution:

Update added the `key` argument, documentation and Python 3 compatibility.

``````# from functools import reduce <-- add this import on Python 3

def uniq(iterable, key=lambda x: x):
"""
Remove duplicates from an iterable. Preserves order.
:type iterable: Iterable[Ord => A]
:param iterable: an iterable of objects of any orderable type
:type key: Callable[A] -> (Ord => B)
:param key: optional argument; by default an item (A) is discarded
if another item (B), such that A == B, has already been encountered and taken.
If you provide a key, this condition changes to key(A) == key(B); the callable
must return orderable objects.
"""
# Enumerate the list to restore order lately; reduce the sorted list; restore order
def append_unique(acc, item):
return acc if key(acc[-1][1]) == key(item[1]) else acc.append(item) or acc
srt_enum = sorted(enumerate(iterable), key=lambda item: key(item[1]))
return [item[1] for item in sorted(reduce(append_unique, srt_enum, [srt_enum[0]]))]
``````
• Yet, this solution requires orderable elements. I will use it uniquify my list of lists: it is a pain to `tuple()` lists and to hash them. | | | | - Generally speaking, the hash process takes a time proportional to the size of the whole data, while this solution takes a time O(nlog(n)), depending only on the length of the list. – loxaxs May 18 '16 at 20:40
• I think that the set-based approach is equally cheap (O(n log n)), or cheaper, than sorting + detection of uniques. (This approach would parallelize much better, though.) It also does not exactly preserve the initial order, but it gives a predictable order. – 9000 Jun 5 '17 at 16:29
• @9000 That is true. I've never mentioned time-complexity of a hash-table-based approach, which is obviously O(n). Here you can find many answers incorporating hash-tables. They are not universal, though, because they require objects to be hashable. Moreover, they are a lot more memory-intensive. – Eli Korvigo Jun 6 '17 at 17:34
• This should be the accepted answer since the question is how to remove duplicates from a list. – Cochise Ruhulessin Jul 18 '18 at 8:56
• Why the down-vote? – Eli Korvigo Mar 11 at 6:40

Reduce variant with ordering preserve:

Assume that we have list:

``````l = [5, 6, 6, 1, 1, 2, 2, 3, 4]
``````

Reduce variant (unefficient):

``````>>> reduce(lambda r, v: v in r and r or r + [v], l, [])
[5, 6, 1, 2, 3, 4]
``````

5 x faster but more sophisticated

``````>>> reduce(lambda r, v: v in r[1] and r or (r[0].append(v) or r[1].add(v)) or r, l, ([], set()))[0]
[5, 6, 1, 2, 3, 4]
``````

Explanation:

``````default = (list(), set())
# user list to keep order
# use set to make lookup faster

def reducer(result, item):
if item not in result[1]:
result[0].append(item)
return result

reduce(reducer, l, default)[0]
``````

Best approach of removing duplicates from a list is using set() function, available in python, again converting that set into list

``````In [2]: some_list = ['a','a','v','v','v','c','c','d']
In [3]: list(set(some_list))
Out[3]: ['a', 'c', 'd', 'v']
``````

Without using set

``````data=[1, 2, 3, 1, 2, 5, 6, 7, 8]
uni_data=[]
for dat in data:
if dat not in uni_data:
uni_data.append(dat)

print(uni_data)
``````

You can use the following function:

``````def rem_dupes(dup_list):
yooneeks = []
for elem in dup_list:
if elem not in yooneeks:
yooneeks.append(elem)
return yooneeks
``````

Example:

``````my_list = ['this','is','a','list','with','dupicates','in', 'the', 'list']
``````

Usage:

``````rem_dupes(my_list)
``````

['this', 'is', 'a', 'list', 'with', 'dupicates', 'in', 'the']

This one cares about the order without too much hassle (OrderdDict & others). Probably not the most Pythonic way, nor shortest way, but does the trick:

``````def remove_duplicates(list):
''' Removes duplicate items from a list '''
singles_list = []
for element in list:
if element not in singles_list:
singles_list.append(element)
return singles_list
``````
• 1. You should never shadow builtin names (at least, as important as `list`); 2. Your method scales extremely bad: it is quadratic in the number of elements in `list`. – Eli Korvigo Jan 7 '18 at 19:05
• 1. Correct, but this was an example; 2. Correct, and that's exactly the reason why I offered it. All solutions posted here have pros and cons. Some sacrifice simplicity or order, mine sacrifices scalability. – cgf Mar 20 '18 at 11:45

below code is simple for removing duplicate in list

``````def remove_duplicates(x):
a = []
for i in x:
if i not in a:
a.append(i)
return a

print remove_duplicates([1,2,2,3,3,4])
``````

it returns [1,2,3,4]

• If you don't care about order, then this takes significantly longer. `list(set(..))` (over 1 million passes) will beat this solution by about 10 whole seconds - whereas this approach takes about 12 seconds, `list(set(..))` only takes about 2 seconds! – dylnmc Sep 23 '16 at 18:35
• @dylnmc this is also a duplicate of a significantly older answer – Eli Korvigo Jan 7 '18 at 19:07

There are many other answers suggesting different ways to do this, but they're all batch operations, and some of them throw away the original order. That might be okay depending on what you need, but if you want to iterate over the values in the order of the first instance of each value, and you want to remove the duplicates on-the-fly versus all at once, you could use this generator:

``````def uniqify(iterable):
seen = set()
for item in iterable:
if item not in seen:
yield item
``````

This returns a generator/iterator, so you can use it anywhere that you can use an iterator.

``````for unique_item in uniqify([1, 2, 3, 4, 3, 2, 4, 5, 6, 7, 6, 8, 8]):
print(unique_item, end=' ')

print()
``````

Output:

``````1 2 3 4 5 6 7 8
``````

If you do want a `list`, you can do this:

``````unique_list = list(uniqify([1, 2, 3, 4, 3, 2, 4, 5, 6, 7, 6, 8, 8]))

print(unique_list)
``````

Output:

``````[1, 2, 3, 4, 5, 6, 7, 8]
``````
• `seen = set(iterable); for item in seen: yield item` is almost certainly faster. (I haven't tried this specific case, but that would be my guess.) – dylnmc Sep 23 '16 at 18:40
• @dylnmc, that's a batch operation, and it also loses the ordering. My answer was specifically intended to be on-the-fly and in order of first occurrence. :) – Cyphase Oct 26 '16 at 4:42

One more better approach could be,

``````import pandas as pd

myList = [1, 2, 3, 1, 2, 5, 6, 7, 8]
cleanList = pd.Series(myList).drop_duplicates().tolist()
print(cleanList)

#> [1, 2, 3, 5, 6, 7, 8]
``````

and the order remains preserved.

• Though this might work well, using a heavy library like pandas for this purpose seems like an overkill. – Glutexo Mar 20 at 12:29

If you want to preserve the order, and not use any external modules here is an easy way to do this:

``````>>> t = [1, 9, 2, 3, 4, 5, 3, 6, 7, 5, 8, 9]
>>> list(dict.fromkeys(t))
[1, 9, 2, 3, 4, 5, 6, 7, 8]
``````

Note: This method preserves the order of appearance, so, as seen above, nine will come after one because it was the first time it appeared. This however, is the same result as you would get with doing

``````from collections import OrderedDict
ulist=list(OrderedDict.fromkeys(l))
``````

but it is much shorter, and runs faster.

This works because each time the `fromkeys` function tries to create a new key, if the value already exists it will simply overwrite it. This wont affect the dictionary at all however, as `fromkeys` creates a dictionary where all keys have the value `None`, so effectively it eliminates all duplicates this way.

Here's the fastest pythonic solution comaring to others listed in replies.

Using implementation details of short-circuit evaluation allows to use list comprehension, which is fast enough. `visited.add(item)` always returns `None` as a result, which is evaluated as `False`, so the right-side of `or` would always be the result of such an expression.

Time it yourself

``````def deduplicate(sequence):
visited = set()
out = [adder(item) or item for item in sequence if item not in visited]
return out
``````

Using set :

``````a = [0,1,2,3,4,3,3,4]
a = list(set(a))
print a
``````

Using unique :

``````import numpy as np
a = [0,1,2,3,4,3,3,4]
a = np.unique(a).tolist()
print a
``````

Very simple way in Python 3:

``````>>> n = [1, 2, 3, 4, 1, 1]
>>> n
[1, 2, 3, 4, 1, 1]
>>> m = sorted(list(set(n)))
>>> m
[1, 2, 3, 4]
``````
• `sorted(list(...))` is redundant (`sorted` already implicitly converts its argument to a new `list`, sorts it, then returns the new `list`, so using both means making an unnecessary temporary `list`). Use only `list` if the result need not be sorted, use only `sorted` if the result needs to be sorted. – ShadowRanger Jun 20 '18 at 12:57
• Yeah, you are right! – Wariored Jun 20 '18 at 13:02

Here is an example, returning list without repetiotions preserving order. Does not need any external imports.

``````def GetListWithoutRepetitions(loInput):
# return list, consisting of elements of list/tuple loInput, without repetitions.
# Example: GetListWithoutRepetitions([None,None,1,1,2,2,3,3,3])
# Returns: [None, 1, 2, 3]

if loInput==[]:
return []

loOutput = []

if loInput[0] is None:
oGroupElement=1
else: # loInput[0]<>None
oGroupElement=None

for oElement in loInput:
if oElement<>oGroupElement:
loOutput.append(oElement)
oGroupElement = oElement
return loOutput
``````

Check this if you want to remove duplicates (in-place edit rather than returning new list) without using inbuilt set, dict.keys, uniqify, counter

``````>>> t = [1, 2, 3, 1, 2, 5, 6, 7, 8]
>>> for i in t:
...     if i in t[t.index(i)+1:]:
...         t.remove(i)
...
>>> t
[3, 1, 2, 5, 6, 7, 8]
``````
• Use `enumerate()` to get the index faster: `for i, value in enumerate(t): if value in t[i + 1:]: t.remove(value)` – Martijn Pieters Mar 9 '16 at 13:36
• won't work if 3 values are same - e.g. `[1,1,1]` – ramailo sathi May 26 '17 at 23:56

I think converting to set is the easiest way to remove duplicate:

``````list1 = [1,2,1]
list1 = list(set(list1))
print list1
``````

Unfortunately. Most answers here either do not preserve the order or are too long. Here is a simple, order preserving answer.

``````s = [1,2,3,4,5,2,5,6,7,1,3,9,3,5]
x=[]

[x.append(i) for i in s if i not in x]
print(x)
``````

This will give you x with duplicates removed but preserving the order.

## protected by Brad Larson♦Jul 31 '14 at 16:07

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