I'm trying to learn python. Here is the relevant part of the exercise:

For each word, check to see if the word is already in a list. If the word is not in the list, add it to the list.

Here is what I've got.

fhand = open('romeo.txt')
output = []

for line in fhand:
    words = line.split()
    for word in words:
        if word is not output:

print sorted(output)

Here is what I get.

['Arise', 'But', 'It', 'Juliet', 'Who', 'already', 'and', 'and', 'and', 'breaks', 'east', 'envious', 'fair', 'grief', 'is', 'is', 'is', 'kill', 'light', 'moon', 'pale', 'sick', 'soft', 'sun', 'sun', 'the', 'the', 'the', 'through', 'what', 'window', 'with', 'yonder']

Note duplication (and, is, sun, etc).

How do I get only unique values?

  • 4
    The idiomatic way is to maintain a set of words to check against. All those linear scans over a growing list makes an otherwise linear algorithm degrade to quadratic. – John Coleman Feb 19 '17 at 23:31

To eliminate duplicates from a list, you can maintain an auxiliary list and check against.

myList = ['Arise', 'But', 'It', 'Juliet', 'Who', 'already', 'and', 'and', 'and', 
     'breaks', 'east', 'envious', 'fair', 'grief', 'is', 'is', 'is', 'kill', 'light', 
     'moon', 'pale', 'sick', 'soft', 'sun', 'sun', 'the', 'the', 'the', 
     'through', 'what', 'window', 'with', 'yonder']

auxiliaryList = []
for word in myList:
    if word not in auxiliaryList:


['Arise', 'But', 'It', 'Juliet', 'Who', 'already', 'and', 'breaks', 'east', 
  'envious', 'fair', 'grief', 'is', 'kill', 'light', 'moon', 'pale', 'sick',
  'soft', 'sun', 'the', 'through', 'what', 'window', 'with', 'yonder']

This is very simple to comprehend and code is self explanatory. However, code simplicity comes on the expense of code efficiency as linear scans over a growing list makes a linear algorithm degrade to quadratic.

Use set()!, a set is an unordered collection with no duplicate elements.
Basic uses include membership testing and eliminating duplicate entries.

auxiliaryList = list(set(myList))


['and', 'envious', 'already', 'fair', 'is', 'through', 'pale', 'yonder', 
 'what', 'sun', 'Who', 'But', 'moon', 'window', 'sick', 'east', 'breaks', 
 'grief', 'with', 'light', 'It', 'Arise', 'kill', 'the', 'soft', 'Juliet']

Instead of is not operator, you should use not in operator to check whether the item is in the list:

if word not in output:

BTW, using set is a lot efficient (See Time complexity):

with open('romeo.txt') as fhand:
    output = set()
    for line in fhand:
        words = line.split()

UPDATE The set does not preserve the original order. To preserve the order, use the set as an auxiliary data structure:

output = []
seen = set()
with open('romeo.txt') as fhand:
    for line in fhand:
        words = line.split()
        for word in words:
            if word not in seen:  # faster than `word not in output`
  • thanks guys. I appreciate the help – Tim Elhajj Feb 19 '17 at 23:34
  • 1
    The exercise calls for a list where the words will be ordered according to the order of their first appearance, so I don't see how set() could replace the list, though it would clearly be a helpful auxiliary data structure. – John Coleman Feb 19 '17 at 23:36
  • @JohnColeman, Thanks for the comment. I thought it doesn't matter, because OP used sorted at the end of the code. I will update the answer to include the version that preserve the order. – falsetru Feb 19 '17 at 23:38
  • I see what you mean. I took that to be their way of checking for duplicates. The problem description itself didn't specify sorting the result. – John Coleman Feb 19 '17 at 23:41

One method is to see if it's in the list prior to adding, which is what Tony's answer does. If you want to delete duplicate values after the list has been created, you can use set() to convert the existing list into a set of unique values, and then use list() to convert it into a list again. All in just one line:


If you want to sort alphabetically, just add a sorted() to the above. Here's the result:

['Arise', 'But', 'It', 'Juliet', 'Who', 'already', 'and', 'breaks', 'east', 'envious', 'fair', 'grief', 'is', 'kill', 'light', 'moon', 'pale', 'sick', 'soft', 'sun', 'the', 'through', 'what', 'window', 'with', 'yonder']

  • 1
    If order doesn't matter then IMO this is the best answer so far as it will perform linearly and is also more concise. It does produces extra objects but that i okay for a lab/one-off program. This list -> set -> list pattern is used quite commonly – rsjethani Jun 27 '18 at 8:03

Here's a "one-liner" which uses this implementation of removing duplicates while preserving order:

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

output = unique([word for line in fhand for word in line.split()])

The last line flattens fhand into a list of words, and then calls unique() on the resulting list.

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