Say I have this list:

li = ["a", "b", "a", "c", "x", "d", "a", "6"]

As far as help showed me, there is not a builtin function that returns the last occurrence of a string (like the reverse of index). So basically, how can I find the last occurrence of "a" in the given list?


15 Answers 15


If you are actually using just single letters like shown in your example, then str.rindex would work handily. This raises a ValueError if there is no such item, the same error class as list.index would raise. Demo:

>>> li = ["a", "b", "a", "c", "x", "d", "a", "6"]
>>> ''.join(li).rindex('a')

For the more general case you could use list.index on the reversed list:

>>> len(li) - 1 - li[::-1].index('a')

The slicing here creates a copy of the entire list. That's fine for short lists, but for the case where li is very large, efficiency can be better with a lazy approach:

def list_rindex(li, x):
    for i in reversed(range(len(li))):
        if li[i] == x:
            return i
    raise ValueError("{} is not in list".format(x))

One-liner version:

next(i for i in reversed(range(len(li))) if li[i] == 'a')
  • 2
    @Chris_Rands: Better than range(len(li)-1, -1, -1) is either reversed(range(len(li))) or range(len(li))[::-1] (they're roughly equivalent too, unlike most comparisons between reversed and the reversing slice; modern Py3 range can be sliced in reverse to make another lazy range that runs backwards, so it's equally performant). Looks like wim went with the former. Sep 26, 2019 at 16:58
  • Pythonic version next(len(a)-i-1 for i, x in enumerate(reversed(a)) if x == 3) Nov 2, 2020 at 11:35

A one-liner that's like Ignacio's except a little simpler/clearer would be

max(loc for loc, val in enumerate(li) if val == 'a')

It seems very clear and Pythonic to me: you're looking for the highest index that contains a matching value. No nexts, lambdas, reverseds or itertools required.

  • 7
    As @Isaac points out this always iterates over all N elements of li.
    – smci
    Dec 14, 2014 at 12:44
  • 1
    a significant downside is the fact you will always iterate through the whole list. you should emphasis that in your answer.
    – Guy
    Oct 10, 2018 at 8:47
  • 2
    Use default=None to avoid error "ValueError: max() arg is an empty sequence" max((loc for loc, val in enumerate(li) if val == 'a'), default=None) Feb 1, 2022 at 11:08

Many of the other solutions require iterating over the entire list. This does not.

def find_last(lst, elm):
  gen = (len(lst) - 1 - i for i, v in enumerate(reversed(lst)) if v == elm)
  return next(gen, None)

Edit: In hindsight this seems like unnecessary wizardry. I'd do something like this instead:

def find_last(lst, sought_elt):
    for r_idx, elt in enumerate(reversed(lst)):
        if elt == sought_elt:
            return len(lst) - 1 - r_idx
>>> (x for x in reversed(list(enumerate(li))) if x[1] == 'a').next()[0]

>>> len(li) - (x for x in enumerate(li[::-1]) if x[1] == 'a').next()[0] - 1

I like both wim's and Ignacio's answers. However, I think itertools provides a slightly more readable alternative, lambda notwithstanding. (For Python 3; for Python 2, use xrange instead of range).

>>> from itertools import dropwhile
>>> l = list('apples')
>>> l.index('p')
>>> next(dropwhile(lambda x: l[x] != 'p', reversed(range(len(l)))))

This will raise a StopIteration exception if the item isn't found; you could catch that and raise a ValueError instead, to make this behave just like index.

Defined as a function, avoiding the lambda shortcut:

def rindex(lst, item):
    def index_ne(x):
        return lst[x] != item
        return next(dropwhile(index_ne, reversed(range(len(lst)))))
    except StopIteration:
        raise ValueError("rindex(lst, item): item not in list")

It works for non-chars too. Tested:

>>> rindex(['apples', 'oranges', 'bananas', 'apples'], 'apples')

With dict

You can use the fact that dictionary keys are unique and when building one with tuples only the last assignment of a value for a particular key will be used. As stated in other answers, this is fine for small lists but it creates a dictionary for all unique values and might not be efficient for large lists.

dict(map(reversed, enumerate(li)))["a"]


just easy as that.no need to import or create a function.


I came here hoping to find someone had already done the work of writing the most efficient version of list.rindex, which provided the full interface of list.index (including optional start and stop parameters). I didn't find that in the answers to this question, or here, or here, or here. So I put this together myself... making use of suggestions from other answers to this and the other questions.

def rindex(seq, value, start=None, stop=None):
  """L.rindex(value, [start, [stop]]) -> integer -- return last index of value.
  Raises ValueError if the value is not present."""
  start, stop, _ = slice(start, stop).indices(len(seq))
  if stop == 0:
    # start = 0
    raise ValueError('{!r} is not in list'.format(value))
    stop -= 1
    start = None if start == 0 else start - 1
  return stop - seq[stop:start:-1].index(value)

The technique using len(seq) - 1 - next(i for i,v in enumerate(reversed(seq)) if v == value), suggested in several other answers, can be more space-efficient: it needn't create a reversed copy of the full list. But in my (offhand, casual) testing, it's about 50% slower.


Love @alcalde's solution, but faced ValueError: max() arg is an empty sequence if none of the elements match the condition.

To avoid the error set default=None:

max((loc for loc, val in enumerate(li) if val == 'a'), default=None)

Use a simple loop:

def reversed_index(items, value):
    for pos, curr in enumerate(reversed(items)):
        if curr == value:
            return len(items) - pos - 1
    raise ValueError("{0!r} is not in list".format(value))
lastIndexOf = lambda array, item: len(array) - (array[::-1].index(item)) - 1
def rindex(lst, val):
    return next(
      len(lst) - n
      for n, v in enumerate(reversed(lst), start=1)
      if v == val
  except StopIteration:
    raise ValueError(f'{val} is not in list')

val = [1,2,2,2,2,2,4,5].

If you need to find last occurence of 2

last_occurence = (len(val) -1) - list(reversed(val)).index(2)


Here's a little one-liner for obtaining the last index, using enumerate and a list comprehension:

li = ["a", "b", "a", "c", "x", "d", "a", "6"]
[l[0] for l in enumerate(li) if l[1] == "a"][-1]

If the list is small, you can compute all indices and return the largest:

index = max(i for i, x in enumerate(elements) if x == 'foo')

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