# How to find user-defined minimum and maximum value in a list of tuples

I have a list of tuples with 2 integers each:

``````a_list=[(20, 1), (16, 0), (21, 0), (20, 0), (24, 0), (25, 1)]
``````

What I am looking for is a way to find and return the tuple that has the smallest second item with the biggest first item. In the above list, it will be the tuple `(24, 0)`.

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How does (25, 1) not have "the smallest second item with the biggest first item" in exactly the same way as (24, 0)? –  Wooble Oct 3 '13 at 15:25
Wait, I think I understand. Do you mean that of those items with the lowest second item, you want the one with the biggest first item? –  Ian McLaird Oct 3 '13 at 15:34
@Wooble: I meant first find the ones with the smallest second element, than among them, pick up the ones with largest first element. –  Andy S. C. Oct 4 '13 at 7:19

This works:

``````>>> a_list = [(20, 1), (16, 0), (21, 0), (20, 0), (24, 0), (25, 1)]
>>> a = min(x[1] for x in a_list)
>>> max(b for b in a_list if b[1] == a)
(24, 0)
>>>
``````
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Is a "one-liner" an overkill? `max(b for b in a_list if b[1] == min(x[1] for x in a_list))` –  Andy S. C. Oct 4 '13 at 7:12
@AndyS.C. - You don't want a one-liner here. Aside from being a tad unreadable, doing so will mean that it will recalculate `min(x[1] for x in a_list)` with each iteration. I made my answer two lines to avoid this. –  iCodez Oct 4 '13 at 13:30

Assuming that my understanding is correct, then here's what you need to do.

Find the minimum second value:

``````lowest = min(a_list, key=lambda t: t[1])[1]
``````

Then find all the items that have that as the second item

``````having_lowest = filter(lambda t: t[1] == lowest, a_list)
``````

Then find the one with the highest first number

``````having_max = max(having_lowest, key=lambda t: t[0])
``````
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Your example is trivial enough for the following approach to work

``````>>> a_list=[(20, 1), (16, 0), (21, 0), (20, 0), (24, 0), (25, 1)]
>>> max(a_list, key=lambda e:(-e[-1],e[0]))
(24, 0)
``````

It assumes the fact that

1. Tuples are compared lexicographic-ally based on indexes

See doc:

Sequence types also support comparisons. In particular, tuples and lists are compared lexicographically by comparing corresponding elements. This means that to compare equal, every element must compare equal and the two sequences must be of the same type and have the same length

2. Ordering of numbers revereses on change of sign

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