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Suppose that I have a structured array of students (strings) and test scores (ints), where each entry is the score that a specific student received on a specific test. Each student has multiple entries in this array, naturally.

For example:

grades = numpy.zeros(5, dtype=[('student', 'a50'), ('score', 'i')])

.... fill in array ...

print grades

[('Mary', 96) ('John', 94) ('Mary', 88) ('Edgar', 89) ('John', 84)]

How do I easily compute the average score of each student? In other words, how do I take the mean of the array in the 'score' dimension? I'd like to do

grades.mean('score')

and have Numpy return

[('Mary', 92), ('John', 89), ('Edgar', 89)]

but Numpy complains

TypeError: an integer is required

Is there a Numpy-esque way to do this easily? I think it might involve taking a view of the structured array with a different dtype. Any help would be appreciated. Thanks.

Edit:

>>> grades = numpy.zeros(5, dtype=[('student', 'a50'), ('score', 'i'), ('testid', 'i'])
>>> grades[0] = ('Mary', 96, 1)
>>> grades[1] = ('John', 94, 1)
>>> grades[2] = ('Mary', 88, 2)
>>> grades[3] = ('Edgar', 89, 1)
>>> grades[4] = ('John', 84, 2)
>>> np.mean(grades, 'testid')
>>> TypeError: an integer is required
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4 Answers 4

up vote 3 down vote accepted

NumPy isn't designed to be able to group rows together and apply aggregate functions to those groups. You could:

  • use itertools.groupby and reconstruct the array;
  • use Pandas, which is based on NumPy and is great at grouping; or
  • add another dimension to the array for the test id (so this case would be a 2x3 array, because it looks like there were two tests).

Here's the itertools solution, but as you can see it's quite complicated and inefficient. I'd recommend one of the other two methods.

np.array([(k, np.array(list(g), dtype=grades.dtype).view(np.recarray)['score'].mean())
          for k, g in groupby(np.sort(grades, order='student').view(np.recarray),
                              itemgetter('student'))], dtype=grades.dtype)
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I don't understand how adding another dimension would help. –  Jeremy Aug 17 '12 at 17:48
    
@Jeremy the extra dimension is for the test id. So for 3 students and 2 tests you have a 2x3 array. –  ecatmur Aug 17 '12 at 19:31
    
Right. As it happens, in my program I do have a testid dimension already. How does that help me? –  Jeremy Aug 17 '12 at 20:00
    
@Jeremy then you can call np.mean(axis=1) over the test-id axis. –  ecatmur Aug 17 '12 at 20:01
    
See my edit. I get a TypeError when I try that. –  Jeremy Aug 17 '12 at 20:16

A little bit faster and simpler solution based on itertools, without using view(), is

[(k,e['score'][list(g)].mean()) for k, g in groupby(argsort(e),e['student'].__getitem__ )]

This is the same idea of ecatmur, but works in terms of indices employing argsort() instead of sort.

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matplotlib.mlab.rec_groupby was exactly what I was looking for.

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collapseByField(grades,'student') gives what you want, after:

def collapseByField(e,collapsefield,keepFields=None,agg=None):
   import numpy as np
   assert isinstance(e,np.ndarray) # Structured array
   if agg is None:
       agg=np.mean
   if keepFields is None:
       newf=[(n,agg,n) for n in e.dtype.names if n not in (collapsefield)]
   import matplotlib as mpl
   return(mpl.mlab.rec_groupby(e,[collapsefield],newf))
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