I think you should be able to do this by:

```
paired_sorted = sorted(zip(List2,List3,List1),key = lambda x: (x[0],-x[1]))
l2,l3,l1 = zip(*paired_sorted)
```

In action:

```
>>> List1 = ['a', 'b', 'c', 'd', 'e']
>>> List2 = [4, 2, 3, 2, 4]
>>> List3 = [0.1, 0.8, 0.3, 0.6, 0.4]
>>> paired_sorted = sorted(zip(List2,List3,List1),key = lambda x: (x[0],-x[1]))
>>> l2,l3,l1 = zip(*paired_sorted)
>>> print l1
('b', 'd', 'c', 'e', 'a')
```

Here's how it works. First we match corresponding elements from your lists using `zip`

. We then sort those elements based on the items from List2 first and (negated) List3 second. Then we just need to pull off the List1 elements again using `zip`

and argument unpacking -- Although you could do it easily with a list-comprehension if you wanted to make sure you had a list at the end of the day instead of a tuple.

This gets a little tougher if you can't easily negate the values in List3 -- e.g. if they're strings. You need to do the sorting in 2 passes:

```
paired = zip(List2,List3,List1)
rev_sorted = sorted(paired,reverse=True,key=lambda x: x[1]) #"minor" sort first
paired_sorted = sorted(rev_sorted,key=lambda x:x[0]) #"major" sort last
l2,l3,l1 = zip(*paired_sorted)
```

(you could use `operator.itemgetter(1)`

in place of `lambda x:x[1]`

in the above if you prefer). This works because python sorting is "stable". It doesn't re-order "equal" elements.