# Python sort list and associated list

I have a rather simple question and I have found several answers to this question but I simply can't get my head around it.

I have a list of x-values (for a plot) and a equally long list of y-values. I want to sort the list of y-values and update my x-list accordingly. Suppose I have these lists

``````xVars = [1,2,3,4,5]
yVars = [9,7,1,3,5]
``````

After sorting this is the result I want:

``````xVars = [3,4,5,2,1]
yVars = [1,3,5,7,9] #this is now sorted
``````

My point in doing this is that I want to plot the max y-values with the associated x-values.

I have encountered the itemgetter() function and the sorted(key=) but I understand neither (that is, they don't work but thatś rather due to me not understanding them than it is because they wouldn't work).

EDIT: Many Thanks to all of you, I wish I could chose all of you as the correct answer but unfortunately I can. Your explanations have been very helpful and I have learned quite a bit more about python now. Thanks! :)

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Do you have a good reason to use 2 lists instead of a list of tuples? –  Wooble Feb 11 '12 at 18:29
@Wooble If I recall correctly tuples can't change their content right? currently i do not have to modify the values of the lists but I might need to do so in the future. –  Matthias Calis Feb 11 '12 at 19:43
You could replace the whole tuple with a different one if you need to change the point to a different point. or use a list of 2-element lists. –  Wooble Feb 11 '12 at 19:49

``````>>> tmp = sorted(zip(xVars, yVars),key=lambda x: x[1])
>>> xVars = [x[0] for x in tmp]
>>> yVars = [x[1] for x in tmp]
>>> xVars
[3, 4, 5, 2, 1]
>>> yVars
[1, 3, 5, 7, 9]
``````
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I think it would be better NOT to use x as the variable in the labda because the OP might easily confuse this with the xVars... –  tom stratton Feb 11 '12 at 18:44
This answer isn't optimal - you can get rid of the key argument easily, and the use of list comprehensions is unnecessary. See my answer. –  Latty Feb 11 '12 at 20:06

Here you can use the `zip()` function to do this nicely. First we zip the values into pairs.

You can use `sorted()` to sort the values. Sorted will use the first value of the tuple to sort by, so we place the item we wish to sort by first.

Now we use zip with the splat operator to reverse the zipping procedure, resulting in this nice one-liner:

``````yVars, xVars = zip(*sorted(zip(yVars, xVars)))
``````

Which produces the wanted output:

``````>>> xVars = [1,2,3,4,5]
>>> yVars = [9,7,1,3,5]
>>> yVars, xVars = zip(*sorted(zip(yVars, xVars)))
>>> xVars
(3, 4, 5, 2, 1)
>>> yVars
(1, 3, 5, 7, 9)
``````

Note that these are tuples, so if you need lists again, just do a simple `yVars, xVars = list(yVars), list(xVars)` afterwards.

If you wish to expand this to more than two lists, just add more arguments to zip, and it will return more.

Note that this will sort by the first value, and then the second value on collisions. This means if you have repeated values, the order could be different to what you were expecting. In that case, you can specify your key absolutely:

``````yVars, xVars = zip(*sorted(zip(yVars, xVars), key=lambda item: item[0]))
``````
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Cool - I didn't know about the slpat to reverse a zip! –  tom stratton Feb 11 '12 at 19:48
@tomstratton It's a cool little feature that is very useful in cases like this. –  Latty Feb 11 '12 at 20:08

The sorted(key=) function works as follows

``````xVars = [1,2,3,4,5]
yVars = [9,7,1,3,5]

xyZipped = zip(xVars, yVars)
sorted(xyZipped, key=lambda xyZipped: xyZipped[1])
print(xyZipped)
``````

The key is a function (in this case a lambda function) that returns a single argument for the sorting to act on. The lambda function is returning the second item in the tuple, which is the yVar that has been zipped up with its corresponding xVar

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Check out the zip and sorted functions...

`zip(y,x)` will return a LIST of tuples [(y1,x1) , (y2,x2), ... ]

`sorted(zip(y,x))` will sort this list - by default on the first value in the tuples (the y's)

you can then turn this back into separate lists by using list comprehensions..

``````>>> xVars = [1,2,3,4,5]
>>> yVars = [9,7,1,3,5]
>>> sorted_list= sorted(zip(yVars,xVars))
>>> sorted_x = [ b for a,b in sorted_list ]
>>> sorted_y = [ a for a,b in sorted_list ]
>>> print(sorted_x)
[3, 4, 5, 2, 1]
>>> print(sorted_y)
[1, 3, 5, 7, 9]
``````

There are a couple of points here - in order to make the sort() easier I have changed the order of x and y so that it automatically sorts on the y values.

If you are not yet familiar with list comprehensions here is the equivalent syntax...

``````squares = [x**2 for x in range(10)]
``````

is the same as...

``````>>> squares = []
>>> for x in range(10):
...     squares.append(x**2)
...
>>> squares
[0, 1, 4, 9, 16, 25, 36, 49, 64, 81]
``````

Good luck!

-

You don't actually need to use `zip` for this. Just sort `xVars` using `yVars` as the sort key, then you can use the new `xVars` to rebuild `yVars` in the correct order:

``````>>> xVars = [1,2,3,4,5]
>>> yVars = [9,7,1,3,5]
>>> xVars = sorted(xVars, key=lambda i: yVars[i-1])
>>> yVars = [ yVars[i-1] for i in xVars ]
>>> xVars
[3, 4, 5, 2, 1]
>>> yVars
[1, 3, 5, 7, 9]
``````

Also, if as you say you just want to get the largest y values with their associated x values then you can use `heapq.nlargest` instead of sorting the whole list. If you have long lists and only want a few large values this may be more efficient:

``````>>> xVars = [1,2,3,4,5]
>>> yVars = [9,7,1,3,5]
>>> from heapq import nlargest
>>> x_largest = nlargest(3, xVars, key=lambda i: yVars[i-1])
>>> y_largest = [ yVars[i-1] for i in x_largest ]
>>> x_largest, y_largest
([1, 2, 5], [9, 7, 5])
``````
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@DSM, I don't see why it should. Can you explain how you think it would fail? e.g. Trying `[9,7,1,3,7,5]` for `y` and `x = range(1,7)` gives output `x` of `[3, 4, 6, 2, 5, 1]` and output `y` is sorted. –  Duncan Feb 11 '12 at 19:05
Ah, sorry-- brain crash, what I said was entirely silly. [My test case crashed, but I was wrong about the reason why.] What I should have said is that your solution assumes that the xVars are range(1, len(yVars)+1), whereas the "standard" solution doesn't. For example, [1,2,3,4,5,7], [9,7,1,3,5,8] crashes. Given the likely use cases a sol'n not dependent upon special features of x is probably better. –  DSM Feb 11 '12 at 19:12