Just because another alternative can never hurt, here's a solution that doesn't require sorting the full list:

```
>>> import heapq
>>> mylist = [-10, -11, 4, 3, 7, 2, 8, 3]
>>> heapq.nlargest(1, (x for x in mylist if x%2))
[7]
```

This solution will return an empty list if there are no odd numbers.

Comparing the timings of the heap based solution versus a sort based solution (such as the `highest_odd`

function in another answer):

```
>>> import timeit, random
>>> mylist = [random.randint(-10000, 10000) for x in xrange(10000)]
>>> s = 'heapq.nlargest(1, (x for x in mylist if x % 2))'
>>> timeit.timeit(s, 'import heapq\nfrom __main__ import mylist', number = 1000)
5.355861186981201
>>>
>>> s = 'highest_odd(mylist)'
>>> timeit.timeit(s, 'from __main__ import mylist, highest_odd', number = 1000)
11.078870058059692
```

One can see that avoiding sorting the list saves considerable time.

Of course, in a real world situation one would use the `max(...)`

function:

```
>>> timeit.timeit(s, 'from __main__ import mylist', number = 1000)
4.979420900344849
```

For completeness, here's the actual algorithm the `nlargest(...)`

function is using, cut down to its bare essentials:

```
>>> def heap_largest(iterable):
... it = iter(iterable)
... result = [it.next()]
... for e in it:
... heapq.heappushpop(result, e)
... return result
```