# How do I perform secondary sorting in python?

If i have a list of numbers `[4,2,5,1,3]` I want to sort it first by some function `f` and then for numbers with the same value of `f` i want it to be sorted by the magnitude of the number.

This code does not seem to be working.

``````list5 = sorted(list5)
list5 = sorted(list5, key = lambda vertex: degree(vertex))
``````

Secondary sorting first: list5 is sorted based on magnitude. Primary sorting next: list5 is sorted based on some function of the numbers.

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btw you can just do `key=degree`, here the `lambda` is redundant –  GP89 Apr 24 '13 at 13:44
When you say it "does not seem to be working", what do you observe? –  ecatmur Aug 26 at 9:42

Sort it by a (firstkey, secondkey) tuple:

``````sorted(list5, key=lambda vertex: (degree(vertex), vertex))
``````
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On a phone, but youcan sort by tuple.

sorted(list5, lambda x: (degree(x),x))

Don't forget the reverse flag if you need it.

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You're doing it wrong, you need to do both comparisons at the same time.

If you first sort according to one comparison, and then another, only the latter will "survive", the first is completely ignored. Compare sorting an un-sorted list with any comparison function; of course you'd expect none of the randomness to remain.

The way to do it is pretty much as you describe, if the "primary" sort generates a collision, use the secondary sort to resolve it.

Something like:

``````def compare2(x, y):
w = cmp(f(x), f(y))
if w == 0:
return cmp(x, y)
return w

list5 = sorted(list5, cmp = compare2)
``````
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The key method is faster than the cmp method (which isn't available in Python 3). Also, as ecatmur points out, Python has a stable sort so you can do it in two steps. –  Dennis Williamson Jan 14 at 15:51