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Given two unordered arrays of same lengths a and b:

a = [7,3,5,7,5,7]
b = [0.2,0.1,0.3,0.1,0.1,0.2]

I'd like to group by the elements in a:

aResult = [7,3,5]

summing over the elements in b (Example used to summarize a probability density function):

bResult = [0.2 + 0.1 + 0.2, 0.1, 0.3 + 0.1] = [0.5, 0.1, 0.4]

Alternatively, random a and b in python:

import numpy as np
a = np.random.randint(1,10,10000)
b = np.array([1./len(a)]*len(a))

I have two approaches, which for sure are far from the lower performance boundary. Approach 1 (at least nice and short): Time: 0.769315958023

def approach_2(a,b):
    bResult = [sum(b[i == a]) for i in np.unique(a)]
    aResult = np.unique(a)

Approach 2 (numpy.groupby, horribly slow) Time: 4.65299129486

def approach_2(a,b): 
    tmp = [(a[i],b[i]) for i in range(len(a))]
    tmp2 = np.array(tmp, dtype = [('a', float),('b', float)])
    tmp2 = np.sort(tmp2, order='a') 

    bResult = []
    aResult = []
    for key, group in groupby(tmp2, lambda x: x[0]):
        bResult.append(sum([i[1] for i in group]))

Update: Approach3, by Pablo. Time: 1.0265750885

def approach_Pablo(a,b):    

    pdf = defaultdict(int); 
    for x,y in zip(a,b):
        pdf[x] += y  

Update: Approach 4, by Unutbu. Time: 0.184849023819 [WINNER SO FAR, but a as integer only]

def unique_Unutbu(a,b):

    aResult = np.unique(a)
    bResult = x[aResult]

Maybe someone finds a smarter solution to this problem than me :)

share|improve this question
What's an unordered array? –  Marcelo Cantos Sep 24 '11 at 10:33
I meant that you cannot assume that list a is sorted. –  Helga Sep 24 '11 at 12:21

3 Answers 3

up vote 5 down vote accepted

If a is composed of ints < 2**31-1 (that is, if a has values that can fit in dtype int32), then you could use np.bincount with weights:

import numpy as np
a = [7,3,5,7,5,7]
b = [0.2,0.1,0.3,0.1,0.1,0.2]

# [ 0.   0.   0.   0.1  0.   0.4  0.   0.5]

# [ 0.5  0.1  0.4]

np.unique(a) returns [3 5 7], so the result appears in a different order:

# [ 0.1  0.4  0.5]

One potential problem with using np.bincount is that it returns an array whose length is equal to the maximum value in a. If a contains even one element with value near 2**31-1, then bincount would have to allocate an array of size 8*(2**31-1) bytes (or 16GiB).

So np.bincount might be the fastest solution for arrays a which have big length, but not big values. For arrays a which have small length (and big or small values), using a collections.defaultdict would probably be faster.

Edit: See J.F. Sebastian's solution for a way around the integer-values-only restriction and big-values problem.

share|improve this answer
Measurements show np.bincount() performs well even against Cython-based solutions. –  J.F. Sebastian Sep 25 '11 at 8:37

Here's approach similar to @unutbu's one:

import numpy as np

def f(a, b):
    result_a, inv_ndx = np.unique(a, return_inverse=True)
    result_b = np.bincount(inv_ndx, weights=b)
    return result_a, result_b

It allows non-integer type for a array. It allows large values in a array. It returns a elements in a sorted order. If it is desirable it easy to restore original order usingreturn_index argument of np.unique() function.

It performance worsens as the number of unique elements in a rises. It 4 times slower than @unutbu's version on the data from your question.

I've made performance comparison with additional three methods. The leaders are: for integer arrays -- hash-based implementation in Cython; for double arrays (for input size 10000) -- sort-based impl. also in Cython.

share|improve this answer

How about this approach:

from collections import defaultdict
pdf = defaultdict(int)
a = [7,3,5,7,5,7]
b = [0.2,0.1,0.3,0.1,0.1,0.2]
for x,y in zip(a,b):
  pdf[x] += y

You only iterate over each element once and use a dictionary for fast lookup. If you really want two separate arrays as results in the end you can ask for them:

aResult = pdf.keys()
bResult = pdf.values()
share|improve this answer
You can use defaultdict(int), it's cleaner. –  Latty Sep 24 '11 at 10:39
Thanks! I didn't know that. Updated answer :) –  Pablo Sep 24 '11 at 10:40
I like the approach, it is pretty. Unfortunately, it seems to be slower than 'approach 1' especially for long arrays... –  Helga Sep 24 '11 at 12:30
@Helga: I've rewritten Pablo's implementation in Cython using unordered_map. It ~10-30 times faster. –  J.F. Sebastian Sep 25 '11 at 8:28

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