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example 1:

['one', 'two', 'one'] should return True.

example 2:

['one', 'two', 'three'] should return False.

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5 Answers 5

up vote 119 down vote accepted

Use set() to remove duplicates if all values are hashable:

>>> your_list = ['one', 'two', 'one']
>>> len(your_list)!=len(set(your_list))
True
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1  
Before reading this I had tried your_list != list(set(your_list)) which will not work as the order of the elements will change. Using len is a good way to solve this problem –  igniteflow May 31 '12 at 14:37

Recommended for short lists only:

any(thelist.count(x) > 1 for x in thelist)

Do not use on a long list -- it can take time proportional to the square of the number of items in the list!

For longer lists with hashable items (strings, numbers, &c):

def anydup(thelist):
  seen = set()
  for x in thelist:
    if x in seen: return True
    seen.add(x)
  return False

If your items are not hashable (sublists, dicts, etc) it gets hairier, though it may still be possible to get O(N logN) if they're at least comparable. But you need to know or test the characteristics of the items (hashable or not, comparable or not) to get the best performance you can -- O(N) for hashables, O(N log N) for non-hashable comparables, otherwise it's down to O(N squared) and there's nothing one can do about it:-(.

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12  
Denis Otkidach offered a solution where you just build a new set from the list, then check its length. Its advantage is that it's letting the C code inside Python do the heavy lifting. Your solution loops in Python code, but has the advantage of short-circuiting when a single match has been found. If the odds are that the list probably has no duplicates, I like Denis Otkidach's version, but if the odds are that there might well be a duplicate early on in the list, this solution is better. –  steveha Oct 9 '09 at 5:26
    
Worth an up for the detail, even though I think Denis had the neater solution. –  Steve314 Oct 9 '09 at 5:30
    
@steveha - premature optimisation? –  Steve314 Oct 9 '09 at 5:32
    
@Steve314, what premature optimization? I would have written it the way Denis Otkidach wrote it, so I was trying to understand why Alex Martelli (of Python Cookbook fame) wrote it differently. After I thought about it a bit I realized that Alex's version short-circuits, and I posted a few thoughts on the differences. How do you go from a discussion of differences to premature optimization, the root of all evil? –  steveha Oct 9 '09 at 16:47
    
Premature optimization rears its head by a) making you waste time writing complicated code or b) making it hard for others to read or c) causing a large-scale design to be unduly complex. This has none of those risks, it's just a drop-in piece of code hidden in a clearly-named method. –  Scott Stafford Jun 25 '14 at 12:44

If you are fond of functional programming style, here is a useful function, self-documented and tested code using doctest.

def decompose(a_list):
    """Turns a list into a set of all elements and a set of duplicated elements.

    Returns a pair of sets. The first one contains elements
    that are found at least once in the list. The second one
    contains elements that appear more than once.

    >>> decompose([1,2,3,5,3,2,6])
    (set([1, 2, 3, 5, 6]), set([2, 3]))
    """
    return reduce(
        lambda (u, d), o : (u.union([o]), d.union(u.intersection([o]))),
        a_list,
        (set(), set()))

if __name__ == "__main__":
    import doctest
    doctest.testmod()

From there you can test unicity by checking whether the second element of the returned pair is empty:

def is_set(l):
    """Test if there is no duplicate element in l.

    >>> is_set([1,2,3])
    True
    >>> is_set([1,2,1])
    False
    >>> is_set([])
    True
    """
    return not decompose(l)[1]

Note that this is not efficient since you are explicitly constructing the decomposition. But along the line of using reduce, you can come up to something equivalent (but slightly less efficient) to answer 5:

def is_set(l):
    try:
        def func(s, o):
            if o in s:
                raise Exception
            return s.union([o])
        reduce(func, l, set())
        return True
    except:
        return False
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Should have read related questions first. This is described in stackoverflow.com/questions/1723072/… –  Xavier Decoret Jun 6 '11 at 10:46

This is old, but the answers here led me to a slightly different solution. If you are up for abusing comprehensions, you can get short-circuiting this way.

xs = [1, 2, 1]
s = set()
any(x in s or s.add(x) for x in xs)
# You can use a similar approach to actually retrieve the duplicates.
s = set()
duplicates = set(x for x in xs if x in s or s.add(x))
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I recently answered a related question to establish all the duplicates in a list, using a generator. It has the advantage that if used just to establish 'if there is a duplicate' then you just need to get the first item and the rest can be ignored, which is the ultimate shortcut.

This is an interesting set based approach I adapted straight from moooeeeep:

def getDupes(l):
    seen = set()
    seen_add = seen.add
    for x in l:
        if x in seen or seen_add(x):
            yield x

Accordingly, a full list of dupes would be list(getDupes(etc)). To simply test "if" there is a dupe, it should be wrapped as follows:

def hasDupes(l):
    try:
        if getDupes(c).next(): return True    # Found a dupe
    except StopIteration:
        pass
    return False

This scales well and provides consistent operating times wherever the dupe is in the list -- I tested with lists of up to 1m entries. If you know something about the data, specifically, that dupes are likely to show up in the first half, or other things that let you skew your requirements, like needing to get the actual dupes, then there are a couple of really alternative dupe locators that might outperform. The two I recommend are...

Simple dict based approach, very readable:

def getDupes(c):
    d = {}
    for i in c:
        if i in d:
            if d[i]:
                yield i
                d[i] = False
        else:
            d[i] = True

Leverage itertools (essentially an ifilter/izip/tee) on the sorted list, very efficient if you are getting all the dupes though not as quick to get just the first:

def getDupes(c):
    a, b = itertools.tee(sorted(c))
    next(b, None)
    r = None
    for k, g in itertools.ifilter(lambda x: x[0]==x[1], itertools.izip(a, b)):
        if k != r:
            yield k
            r = k

These were the top performers from the approaches I tried for the full dupe list, with the first dupe occurring anywhere in a 1m element list from the start to the middle. It was surprising how little overhead the sort step added. Your mileage may vary, but here are my specific timed results:

Finding FIRST duplicate, single dupe places "n" elements in to 1m element array

Test set len change :        50 -  . . . . .  -- 0.002
Test in dict        :        50 -  . . . . .  -- 0.002
Test in set         :        50 -  . . . . .  -- 0.002
Test sort/adjacent  :        50 -  . . . . .  -- 0.023
Test sort/groupby   :        50 -  . . . . .  -- 0.026
Test sort/zip       :        50 -  . . . . .  -- 1.102
Test sort/izip      :        50 -  . . . . .  -- 0.035
Test sort/tee/izip  :        50 -  . . . . .  -- 0.024
Test moooeeeep      :        50 -  . . . . .  -- 0.001 *
Test iter*/sorted   :        50 -  . . . . .  -- 0.027

Test set len change :      5000 -  . . . . .  -- 0.017
Test in dict        :      5000 -  . . . . .  -- 0.003 *
Test in set         :      5000 -  . . . . .  -- 0.004
Test sort/adjacent  :      5000 -  . . . . .  -- 0.031
Test sort/groupby   :      5000 -  . . . . .  -- 0.035
Test sort/zip       :      5000 -  . . . . .  -- 1.080
Test sort/izip      :      5000 -  . . . . .  -- 0.043
Test sort/tee/izip  :      5000 -  . . . . .  -- 0.031
Test moooeeeep      :      5000 -  . . . . .  -- 0.003 *
Test iter*/sorted   :      5000 -  . . . . .  -- 0.031

Test set len change :     50000 -  . . . . .  -- 0.035
Test in dict        :     50000 -  . . . . .  -- 0.023
Test in set         :     50000 -  . . . . .  -- 0.023
Test sort/adjacent  :     50000 -  . . . . .  -- 0.036
Test sort/groupby   :     50000 -  . . . . .  -- 0.134
Test sort/zip       :     50000 -  . . . . .  -- 1.121
Test sort/izip      :     50000 -  . . . . .  -- 0.054
Test sort/tee/izip  :     50000 -  . . . . .  -- 0.045
Test moooeeeep      :     50000 -  . . . . .  -- 0.019 *
Test iter*/sorted   :     50000 -  . . . . .  -- 0.055

Test set len change :    500000 -  . . . . .  -- 0.249
Test in dict        :    500000 -  . . . . .  -- 0.145
Test in set         :    500000 -  . . . . .  -- 0.165
Test sort/adjacent  :    500000 -  . . . . .  -- 0.139
Test sort/groupby   :    500000 -  . . . . .  -- 1.138
Test sort/zip       :    500000 -  . . . . .  -- 1.159
Test sort/izip      :    500000 -  . . . . .  -- 0.126
Test sort/tee/izip  :    500000 -  . . . . .  -- 0.120 *
Test moooeeeep      :    500000 -  . . . . .  -- 0.131
Test iter*/sorted   :    500000 -  . . . . .  -- 0.157
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