# Find the index of the n'th item in a list

I want to find the index of the n'th occurrence of an item in a list. e.g.,

``````x=[False,True,True,False,True,False,True,False,False,False,True,False,True]
``````

What is the index of the n'th true? If I wanted the fifth occurrence (4th if zero-indexed), the answer is 10.

I've come up with:

``````indargs = [ i for i,a in enumerate(x) if a ]
indargs[n]
``````

Note that `x.index` returns the first occurrence or the first occurrence after some point, and therefore as far as I can tell is not a solution.

There is also a solution in numpy for cases similar to the above, e.g. using `cumsum` and `where`, but I'd like to know if there's a numpy-free way to solve the problem.

I'm concerned about performance since I first encountered this while implemented a Sieve of Eratosthenes for a Project Euler problem, but this is a more general question that I have encountered in other situations.

EDIT: I've gotten a lot of great answers, so I decided to do some performance tests. Below are `timeit` execution times in seconds for lists with `len` nelements searching for the 4000'th/1000'th True. The lists are random True/False. Source code linked below; it's a touch messy. I used short / modified versions of the posters' names to describe the functions except `listcomp`, which is the simple list comprehension above.

``````True Test (100'th True in a list containing True/False)
nelements      eyquem_occur eyquem_occurrence            graddy            taymon          listcomp       hettinger26         hettinger
3000:          0.007824          0.031117          0.002144          0.007694          0.026908          0.003563          0.003563
10000:          0.018424          0.103049          0.002233          0.018063          0.088245          0.003610          0.003769
50000:          0.078383          0.515265          0.002140          0.078074          0.442630          0.003719          0.003608
100000:          0.152804          1.054196          0.002129          0.152691          0.903827          0.003741          0.003769
200000:          0.303084          2.123534          0.002212          0.301918          1.837870          0.003522          0.003601
True Test (1000'th True in a list containing True/False)
nelements      eyquem_occur eyquem_occurrence            graddy            taymon          listcomp       hettinger26         hettinger
3000:          0.038461          0.031358          0.024167          0.039277          0.026640          0.035283          0.034482
10000:          0.049063          0.103241          0.024120          0.049383          0.088688          0.035515          0.034700
50000:          0.108860          0.516037          0.023956          0.109546          0.442078          0.035269          0.035373
100000:          0.183568          1.049817          0.024228          0.184406          0.906709          0.035135          0.036027
200000:          0.333501          2.141629          0.024239          0.333908          1.826397          0.034879          0.036551
True Test (20000'th True in a list containing True/False)
nelements      eyquem_occur eyquem_occurrence            graddy            taymon          listcomp       hettinger26         hettinger
3000:          0.004520          0.004439          0.036853          0.004458          0.026900          0.053460          0.053734
10000:          0.014925          0.014715          0.126084          0.014864          0.088470          0.177792          0.177716
50000:          0.766154          0.515107          0.499068          0.781289          0.443654          0.707134          0.711072
100000:          0.837363          1.051426          0.501842          0.862350          0.903189          0.707552          0.706808
200000:          0.991740          2.124445          0.498408          1.008187          1.839797          0.715844          0.709063
Number Test (750'th 0 in a list containing 0-9)
nelements      eyquem_occur eyquem_occurrence            graddy            taymon          listcomp       hettinger26         hettinger
3000:          0.026996          0.026887          0.015494          0.030343          0.022417          0.026557          0.026236
10000:          0.037887          0.089267          0.015839          0.040519          0.074941          0.026525          0.027057
50000:          0.097777          0.445236          0.015396          0.101242          0.371496          0.025945          0.026156
100000:          0.173794          0.905993          0.015409          0.176317          0.762155          0.026215          0.026871
200000:          0.324930          1.847375          0.015506          0.327957          1.536012          0.027390          0.026657
``````

Hettinger's itertools solution is almost always the best. taymon's and graddy's solutions are next best for most situations, though the list comprehension approach can be better for short arrays when you want the n'th instance such that n is high or lists in which there are fewer than n occurrences. If there's a chance that there are fewer than n occurrences, the initial `count` check saves time. Also, graddy's is more efficient when searching for numbers instead of True/False... not clear why that is. eyquem's solutions are essentially equivalent to others with slightly more or less overhead; eyquem_occur is approximately the same as taymon's solution, while eyquem_occurrence is similar to listcomp.

-
EDIT: My previous comment assumed you were asking a different question, not about syntax. Sorry. I'm no Python guy but it seems like should be able to count up to however many occurrences you want with a for loop, incrementing your counter each time. Encase this in a while loop. So while(amountOfTrues<n){....} – varatis Dec 1 '11 at 5:49
+1 for the outstanding writeup on answer comparisons. Great job! – Mike Pennington Dec 2 '11 at 4:08

The answer from @Taymon using list.index was great.

FWIW, here's a functional approach using the itertools module. It works with any iterable input, not just lists:

``````>>> from itertools import compress, count, imap, islice
>>> from functools import partial
>>> from operator import eq

>>> def nth_item(n, item, iterable):
indicies = compress(count(), imap(partial(eq, item), iterable))
return next(islice(indicies, n, None), -1)
``````

The example is nice because it shows off how to effectively combine Python's functional toolset. Note, that once the pipeline is set-up, there are no trips around Python's eval loop -- everything gets done at C speed, with a tiny memory footprint, with lazy evaluation, with no variable assignments, and with separately testable components. IOW, it is everything functional programmers dream about :-)

Sample run:

``````>>> x = [False,True,True,False,True,False,True,False,False,False,True,False,True]
>>> nth_item(50, True, x)
-1
>>> nth_item(0, True, x)
1
>>> nth_item(1, True, x)
2
>>> nth_item(2, True, x)
4
>>> nth_item(3, True, x)
6
``````
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I like it, although I'd be inclined to split the first subcalculation out as "def item_indices(iterable, item):" so I could give it a docstring. – ncoghlan Dec 1 '11 at 8:07
Awesome. Now why isn't that a built-in `list` method? – keflavich Dec 1 '11 at 18:04
Sidenote: is it possible to install itertools 2.7 in python 2.6? Or are there fundamental incompatibilities? Maybe I should ask this as a different question... – keflavich Dec 1 '11 at 18:15
@keflavich I don't know of a simple way to backport 2.7 itertools without rebuilding your Python, but you can implement the pure python equivalent as shown in the 2.7 itertools docs. Try this: `compress = lambda data, selectors: (d for d, s in izip(data, selectors) if s)`. – Raymond Hettinger Dec 2 '11 at 2:16

I can't say for certain that this is the fastest way, but I imagine it'd be pretty good:

``````i = -1
for j in xrange(n):
i = x.index(True, i + 1)
``````

The answer is `i`.

-
Good point... that's probably more efficient for most cases than the full list comprehension. – keflavich Dec 1 '11 at 6:07
+1 Nice work. This is a clean solution that takes maximum advantage of the start argument to list.index :-) – Raymond Hettinger Dec 1 '11 at 6:14
``````[y for y in enumerate(x) if y[1]==True][z][0]
``````

Note: Here Z is the n'th occurance,

-

If you're concerned with performance, you are best off seeing if there are algorithmic optimizations you can make. For example, if you are calling this function many times on the same values, you may wish to cache previous computations (e.g. once you find the 50th occurrence of an element, you can find any previous occurrence in `O(1)` time).

Otherwise, you want to make sure your technique works on (lazy) iterators.

The most *in*elegant and performance-happy way I can think of implementing it is as:

``````def indexOfNthOccurrence(N, element, stream):
"""for N>0, returns index or None"""
seen = 0
for i,x in enumerate(stream):
if x==element:
seen += 1
if seen==N:
return i
``````

(if you really care about the performance difference between enumerate and other techniques, you will need to resort to profiling, especially with the numpy functions, which may resort to C)

To preprocess the entire stream and support `O(1)` queries:

``````from collections import *
cache = defaultdict(list)
for i,elem in enumerate(YOUR_LIST):
cache[elem] += [i]

# e.g. [3,2,3,2,5,5,1]
#       0 1 2 3 4 5 6
# cache: {3:[0,2], 1:[6], 2:[1,3], 5:[4,5]}
``````
-

A solution that first creates a list object and returns the nth-1 element of this list : function occurence()

And a solution that fulfill functional programmers'dreams too, I think, using generators, because I love them : function occur()

``````S = 'stackoverflow.com is a fantastic amazing site'
print 'object S is string %r' % S
print "indexes of 'a' in S :",[indx for indx,elem in enumerate(S) if elem=='a']

def occurence(itrbl,x,nth):
return [indx for indx,elem in enumerate(itrbl)
if elem==x ][nth-1] if x in itrbl \
else None

def occur(itrbl,x,nth):
return (i for pos,i in enumerate(indx for indx,elem in enumerate(itrbl)
if elem==x)
if pos==nth-1).next() if x in itrbl\
else   None

print "\noccurence(S,'a',4th) ==",occurence(S,'a',4)
print "\noccur(S,'a',4th) ==",occur(S,'a',4)
``````

result

``````object S is string 'stackoverflow.com is a fantastic amazing site'
indexes of 'a' in S : [2, 21, 24, 27, 33, 35]

occur(S,'a',4th) == 27

occurence(S,'a',4th) == 27
``````

The second solution seems complex but it isn't really. It doesn't need to run completely through the iterable: the process stops as soon as the wanted occurence is found.

-

Here is another way to find the `nth` occurrence of `x` in a list `itrbl`:

``````def nthoccur(nth,x,itrbl):
count,index = 0,0
while count < nth:
if index > len(itrbl) - 1:
return None
elif itrbl[index] == x:
count += 1
index += 1
else:
index += 1
return index - 1
``````
-

if efficiency is a concern i think its better to iterate the normally ( O(N) ) instead of list comprehension which takes O(L) where L is length of list

Example : Consider a very huge list and you want to find the first occurence N=1 it is obviously better to stop as soon as you find the first occurence

``````count = 0
for index,i in enumerate(L):
if i:
count = count + 1
if count==N:
return index
``````
-

here is a way :
for the example above :

``````x=[False,True,True,False,True,False,True,False,False,False,True,False,True]
``````

we can define a function find_index

``````def find_index(lst, value, n):
c=[]
i=0
for element in lst :
if element == value :
c .append (i)
i+=1
return c[n]
``````

and if we apply the function :

``````nth_index = find_index(x, True, 4)
print nth_index
``````

the result is:

``````10
``````
-