# How does one compare a string to the next string in a list?

I'm writing a small NLP algorithm and I need to do the following:

For every string x in the list `["this", "this", "and", "that"]`, if the string `x` and the next string are identical, I want to print the string.

-

``````s = ["this", "this", "and", "that"]
for i in xrange(1,len(s)):
if s[i] == s[i-1]:
print s[i]
``````

EDIT:

Just as a side note, if you are using python 3.X use `range` instead of `xrange`

-
``````strings = ['this', 'this', 'and', 'that']
for a, b in zip(strings, strings[1:]):
if a == b:
print a
``````
-
This copies the list (well, except its first item) needlessly though. –  delnan Jul 14 '11 at 17:04
Optimize if needed. –  FogleBird Jul 14 '11 at 17:05
I'm not even sure if its more readable/elegant than a simple loop through all elements ... –  MartinStettner Jul 14 '11 at 17:07
@FogleBird: Completely agreed - for microoptimizations. For things like these, (read: non-constant overhead), I'm more willing to think about it up-front. If OP is doing this with thirty-item lists, it's irrelevant. But if this is done on very long lists, it may become significant enough to warrant using a nearly equally simple and readable approach that avoids that overhead. –  delnan Jul 14 '11 at 17:10
Should you need to iterate over a huge list (bigger than RAM), you can use `izip()` instead of `zip()` and `islice(strings, 1, None)` instead of `strings[1:]`, all from `itertools`. –  9000 Jul 14 '11 at 17:14

Sometimes, I like to stick with old-fashioned loops:

``````strings = ['this', 'this', 'and', 'that']
for i in range(0, len(strings)-1):
if strings[i] == strings[i+1]:
print strings[i]
``````

Everyone knows what's going on without much thinking, and it's fairly efficient...

-

Most Pythonic is a list comprehension, which is exactly built for looping and testing at the same time:

``````>>> strings = ['this', 'this', 'and', 'that']

>>> [a for (a,b) in zip(strings, strings[1:]) if a==b]

['this']
``````

Or, to avoid temporary objects (h/t @9000):

``````>>> import itertools as it
>>> [a for (a,b) in it.izip(strings, it.islice(strings,1)) if a==b]

['this']
``````
-

why not simply ? :

``````strings = ['this', 'this', 'and', 'that', 'or', 'or', 12,15,15,15, 'end']

a = strings[0]
for x in strings:
if x==a:
print x
else:
a = x
``````
-
This will always print the firth element in `strings` since a and x both start as strings[0]. –  istruble Jan 21 '12 at 22:49
``````TEST = ["this", "this", "and", "that"]
for i, s in enumerate(TEST):
if i > 0 and TEST[i-1] == s:
print s

# Prints "this"
``````
-

Is that homework?

``````l = ["this", "this", "and", "that", "foo", "bar", "bar", "baz"]

for i in xrange(len(l)-1):
try:
if l.index(l[i], i+1) == i+1:
print l[i]
except ValueError:
pass
``````
-
I really don't see why you use the try/except statement ?? I will simply use a print str(l[i]) and it's gonna be ok :) –  ykatchou Jul 14 '11 at 22:24
list.index() throws a ValueError exception if the item is not found. That's why. –  BjoernD Jul 14 '11 at 23:10
the only way it could happen is if you delete an item between the range and the print ? :/ –  ykatchou Jul 15 '11 at 7:56
As the documentation for list.index() says: "Return the index in the list of the first item whose value is x. It is an error if there is no such item." –  BjoernD Jul 15 '11 at 20:19
Oh yeah, i didn't see the index().... Ok... i'm out.... sorry for annoying :/ –  ykatchou Jul 16 '11 at 10:30

Generally speaking, if you're processing over items in a list and you need to look at the current item's neighbors, you're going to want to use `enumerate`, since `enumerate` gives you both the current item and its position in the list.

Unlike the approaches that use `zip`, this list comprehension requires no duplication of the list:

``````print [s for i, s in enumerate(test[:-1]) if s == test[i + 1]]
``````

Note that it fails if there aren't at least two elements in `test`, and that `test` must be a list. (The `zip` approaches will work on any iterable.)

-

Here's a little different approach that uses a special class to detect repeats in a sequence. Then you can actually find the repeats using a simple list comprehension.

``````class repeat_detector(object):
def __init__(self, initial=None):
self.last = initial
def __call__(self, current):
if self.last == current:
return True
self.last = current
return False

strings = ["this", "this", "and", "that"]

is_repeat = repeat_detector()

repeats = [item for item in strings if is_repeat(item)]
``````
-

Use the recipe for `pairwise()` from the stdlib itertools documentation (I'll quote it here):

``````def pairwise(iterable):
"s -> (s0,s1), (s1,s2), (s2, s3), ..."
a, b = tee(iterable)
next(b, None)
return izip(a, b)
``````

And you can do:

``````for a, b in pairwise(L):
if a == b:
print a
``````

Or with a generator expression thrown in:

``````for i in (a for a, b in pairwise(L) if a==b):
print i
``````
-