# python find the 2nd highest element

1.In a given array how to find the 2nd or 3rd,4th ,5th values.

2.Also if we use max() function in python what is the order of complexity i.e, associated with this function max()

`````` def nth_largest(li,n):
li.remove(max(li))
print max(ele)  //will give me the second largest
#how to make a general algorithm to find the 2nd,3rd,4th highest value
#n is the element to be found  below the highest value
``````
-
If you have the list `[1,2,2]`, what do you want as the second largest element? `1` or `2`? –  DSM Aug 31 '13 at 15:37
i want it to be 1 in your case –  Hulk Aug 31 '13 at 15:38

I'd go for:

``````import heapq
res = heapq.nlargest(2, some_sequence)
print res[1] # to get 2nd largest
``````

This is more efficient than sorting the entire list, then taking the first `n` many elements. See the heapq documentation for further info.

-
what is the order of complexity of max() –  Hulk Aug 31 '13 at 15:35
@Hulk you'd have to scan the list twice for `max`... This scans it once, and retains the two largest using a heap queue –  Jon Clements Aug 31 '13 at 15:36
It's linear. O(n) –  Jo Are By Aug 31 '13 at 15:37
Since he specified that he only wants to count unique elements (i.e. [1,2,2] should return 1 not 2, you first have to make the list a set for this to give the expected result. –  Voo Aug 31 '13 at 15:43
@JuanCatalan Jon meant that you have to scan the list twice to get the second greatest element with `max()`. –  kqr Aug 31 '13 at 16:31

You could use `sorted(set(element))`:

``````>>> a = (0, 11, 100, 11, 33, 33, 55)
>>>
>>> sorted(set(a))[-1] # highest
100
>>> sorted(set(a))[-2] # second highest
55
>>>
``````

as a function:

``````def nth_largest(li, n):
return sorted(set(li))[-n]
``````

test:

``````>>> a = (0, 11, 100, 11, 33, 33, 55)
>>> def nth_largest(li, n):
...     return sorted(set(li))[-n]
...
>>>
>>> nth_largest(a, 1)
100
>>> nth_largest(a, 2)
55
>>>
``````

Note, here you only need to sort and remove the duplications once, if you worry about the performance you could cache the result of `sorted(set(li))`.

-
Nice...................:) –  Hulk Aug 31 '13 at 15:57

If performance is a concern (e.g.: you intend to call this a lot), then you should absolutely keep the list sorted and de-duplicated at all times, and simply the first, second, or nth element (which is `o(1)`).

Use the `bisect` module for this - it's faster than a "standard" `sort`.

`insort` lets you insert an element, and `bisect` will let you find whether you should be inserting at all (to avoid duplicates).

If it's not, I'd suggest the simpler:

``````def nth_largest(li, n):.
return sorted(set(li))[-(n+1)]
``````

If the reverse indexing looks ugly to you, you can do:

``````def nth_largest(li, n):
return sorted(set(li), reverse=True)[n]
``````
-

As for which method would have the lowest time complexity, this depends a lot on which types of queries you plan on making.

If you're planning on making queries into high indexes (e.g. 36th largest element in a list with 38 elements), your function `nth_largest(li,n)` will have close to O(n^2) time complexity since it will have to do max, which is O(n), several times. It will be similar to the Selection Sort algorithm except using `max()` instead of `min()`.

On the other hand, if you are only making low index queries, then your function can be efficient as it will only apply the O(n) `max` function a few times and the time complexity will be close to O(n). However, building a max heap is possible in linear time O(n) and you would be better off just using that. After you go through the trouble of constructing a heap, all of your `max()` operations on the heap will be O(1) which could be a better long-term solution for you.

I believe the most scalable way (in terms of being able to query nth largest element for any n) is to sort the list with time complexity O(n log n) using the built-in `sort` function and then make O(1) queries from the sorted list. Of course, that's not the most memory-efficient method but in terms of time complexity it is very efficient.

-

``````sorted(li)[::-1][n]
`.reverse` acts in-place and returns None. –  DSM Aug 31 '13 at 15:36
Let me try again: your code right now won't work, because `li_s.reverse()` gives `None`, and `None[n]` doesn't make sense. –  DSM Aug 31 '13 at 15:42
Just do `sorted(li, reverse=True)[n]` save mucking about reversing the list after the sort... –  Jon Clements Aug 31 '13 at 15:47