# Sorting: Return an array with new positions of each element

I need to sort an array whilst also returning an array which contains the sorted positions of the original elements. (N.B. not an argsort, the indexes to sort the array)

At present this requires two steps:

1. An argsort
2. A scatter operation on a new array i.e. pos[argsort[i]] = i

I feel like I am missing a trick here. Is this a well known algorithm that I have overlooked that can be achieved in one step?

Step 2 can also be implemented with a search, but I think the scatter is more efficient.

I have included some example python code to illustrate the problem.

``````import numpy as np

l = [0,-8,1,10,13,2]

a = np.argsort(l)
# returns [1 0 2 5 3 4], the order required to sort l

# init new list to zero
pos = [0 for x in range(0,len(l))]

for i in range(0,len(l)):
pos[a[i]] = i

print pos
# prints [1, 0, 2, 4, 5, 3], i.e. each original indexes new position in the sorted array
``````

Searching for references to this problem has left me frustrated and maybe that I am missing the correct terminology for this type of operation.

Any help or guidance would be much appreciated.

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I have done this several times before without even knowing that that trivial transformation someone decided to call it Gather-scatter. Still, I can't see why you are so fixated with this –  Alexander Oct 16 '12 at 17:40
Sorted positions of original elements are given by argsort. Your code prints original positions of sorted elements. –  n.m. Oct 16 '12 at 17:46
Also notice that you can achieve the same by applying twice the `argsort` function, but obviously this is suboptimal –  Alexander Oct 16 '12 at 18:49
@Alexander The reason why I am thinking about this is that I feel like the result (new position of sorted elements) could be calculated in place during the sort. It seems fairly fundamental so I thought that it might have a well known solution. I'm attempting to optimise the performance of an algorithm which contains the steps above which is running on a GPU. –  amckinley Oct 16 '12 at 23:15

Here's a simple implementation, although it's not "in-place" in any meaningful sense. I'm not sure what you mean by "in-place", since the output is an np.array of type int and the input could contain doubles.

``````import numpy as np

l = np.array([0,-8,1,10,13,2])

def myargsort(numbers):
tuples = enumerate(numbers) # returns iterable of index,value
return np.array([idx for idx,val in sorted(tuples,key = lambda pair: pair[1])])

print(l)
print(myargsort(l))
print(np.argsort(l))
``````
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