# max/min function on list with strings and integers

I've got a list with strings and integers and want to find the minimum value of the integers, without list-slicing. Is there a work-around?

``````arr = [5,3,6,"-",3,"-",4,"-"]
for i in range(len(set(arr))):
cut = min(arr)
``````

Many Thanks!

You could filter the non numeric using a generator expression:

``````arr = [5,3,6,"-",3,"-",4,"-"]
result = min(e for e in arr if isinstance(e, int))
print(result)
``````

Output

``````3
``````

Here's a way using directly the `max` and `min` built-in funtions with a custom `key`:

``````arr = [5,3,6,"-",3,"-",4,"-"]
max(arr, key=lambda x: (isinstance(x,int), x))
# 6
``````

And similarly for the `min`:

``````min(arr, key=lambda x: (not isinstance(x,int), x))
# 3
``````

Details

For the min, consider the following list comprehension as an "equivalent" of the transformation applied with the `key`:

``````sorted([(not isinstance(x,int), x) for x in arr])

[(False, 3),
(False, 3),
(False, 4),
(False, 5),
(False, 6),
(True, '-'),
(True, '-'),
(True, '-')]
``````

So the `min` will be the lowest tuple, i.e. `(0,3)`.

And for the `max`, the highest will be `(1,6)`:

``````sorted([(isinstance(x,int), x) for x in arr])

[(False, '-'),
(False, '-'),
(False, '-'),
(True, 3),
(True, 3),
(True, 4),
(True, 5),
(True, 6)]
``````

You can convert `list` into `set` to speed up calculations:

``````min(i for i in set(arr) if isinstance(i, int))
``````

### Benchmark:

``````setup = "arr = [5, 3, 6,'-', 3,'-', 4, '-'] * 1000"

solution1 = "min(i for i in set(arr) if isinstance(i, int))"
solution3 = "min(e for e in arr if isinstance(e, int))"
solution2 = "min(arr, key=lambda x: (not isinstance(x,int), x))"

print(timeit.timeit(setup=setup, stmt=solution1, number=10000))
print(timeit.timeit(setup=setup, stmt=solution2, number=10000))
print(timeit.timeit(setup=setup, stmt=solution3, number=10000))
``````

Output:

``````1.0895615029
13.389633473
22.653398585
``````

If you have only one type of string:

``````min(set(arr) - {'-'})
``````