First you need to define the comparing function:
def cmp_tasks(a,b):
a = a.split('.')
b = b.split('.')
if len(a) == len(b):
ret = cmp(int(a[0]),int(b[0]))
if not ret:
return cmp(int(a[1]),int(b[1]))
return ret
else:
return cmp(int(a[0]),int(b[0]))
then:
One Liner:
You can do this in one liner:
>>> {int(float(i)):i for i in sorted(l,cmp=cmp_tasks)}.values()
['1.30', '2.2', '3.2']
Detailed approach:
or, more detailed: you first need to group the values according to their floored value:
l = ['1', '1.30', '1.1', '1.2', '1.3','1.4', '2', '2.1', '2.2', '3', '3.1', '3.2']
groups = {}
for i in l:
groups.setdefault(int(float(i)),[]).append(i)
now
>>> groups
{1: ['1','1.30', '1.1', '1.2', '1.3', '1.4'], 2: ['2', '2.1', '2.2'], 3: ['3', '3.1', '3.2']}
then you can take the maximum from each group:
>>> [sorted(g,cmp=cmp_tasks)[-1] for g in groups.values()]
['1.30', '2.2', '3.2']
p.s.
note that overriding list
keyword is not a good idea, because you will not be able to use list
afterwards