I have written two solutions to that problem. The first one is good but I don't want to use any external libraries + its O(n)*log(n) complexity. The second solution "In which I need your help to optimize it" gives an error when the input is chaotic sequences length=10005 (with minus).

Solution 1:

```
from itertools import count, filterfalse
def minpositive(a):
return(next(filterfalse(set(a).__contains__, count(1))))
```

Solution 2:

```
def minpositive(a):
count = 0
b = list(set([i for i in a if i>0]))
if min(b, default = 0) > 1 or min(b, default = 0) == 0 :
min_val = 1
else:
min_val = min([b[i-1]+1 for i, x in enumerate(b) if x - b[i - 1] >1], default=b[-1]+1)
return min_val
```

Note: This was a demo test in codility, solution 1 got 100% and solution 2 got 77 %.

Error in "solution2" was due to:

Performance tests -> medium chaotic sequences length=10005 (with minus) got 3 expected 10000

Performance tests -> large chaotic + many -1, 1, 2, 3 (with minus) got 5 expected 10000

`list(set(a))`

is sorted but it isn't. It's not clear what you're asking -- are you asking for working code? – Paul Hankin Mar 11 '18 at 19:27