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I am binning a 2d array (x by y) in Python into the bins of its x value (given in "bins"), using np.digitize:

elements_to_bins = digitize(vals, bins)

where "vals" is a 2d array, i.e.:

 vals = array([[1, v1], [2, v2], ...]). 

elements_to_bins just says what bin each element falls into. What I then want to do is get a list whose length is the number of bins in "bins", and each element returns the y-dimension of "vals" that falls into that bin. I do it this way right now:

points_by_bins = []
for curr_bin in range(min(elements_to_bins), max(elements_to_bins) + 1):
    curr_indx = where(elements_to_bins == curr_bin)[0]
    curr_bin_vals = vals[:, curr_indx]
    points_by_bins.append(curr_bin_vals)

is there a more elegant/simpler way to do this? All I need is a list of of lists of the y-values that fall into each bin.

thanks.

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If one of the answers solved your problem, please mark it as accepted (green check mark)! :) –  EOL May 5 '10 at 9:18

2 Answers 2

up vote 3 down vote accepted

If I understand your question correctly:

vals = array([[1, 10], [1, 11], [2, 20], [2, 21], [2, 22]])  # Example

(x, y) = vals.T  # Shortcut
bin_limits = range(min(x)+1, max(x)+2)  # Other limits could be chosen
points_by_bin = [ [] for _ in bin_limits ]  # Final result
for (bin_num, y_value) in zip(searchsorted(bin_limits, x, "right"), y):  # digitize() finds the correct bin number
    points_by_bin[bin_num].append(y_value)

print points_by_bin  # [[10, 11], [20, 21, 22]]

Numpy's fast array operation searchsorted() is used for maximum efficiency. Values are then added one by one (since the final result is not a rectangular array, Numpy cannot help much, for this). This solution should be faster than multiple where() calls in a loop, which force Numpy to re-read the same array many times.

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1  
numpy.searchsorted should be preferred to digitize by performance reasons: github.com/numpy/numpy/issues/2656 –  Alleo Apr 3 at 16:13
    
@Alleo: Very good point (for the current implementation of digitize()). I updated the answer. –  EOL Apr 4 at 16:37

Are the bin keys just integers, no binning, as in your example ? Then you could just do this, without numpy:

from collections import defaultdict
bins = defaultdict(list)  # or [ [] ...] as in EOL

vals = [[1, 10], [1, 11], [2, 20], [2, 21], [2, 22]]  # nparray.tolist()
for nbin, val in vals:
    bins[nbin].append(val)

print "bins:", bins
# defaultdict(<type 'list'>, {1: [10, 11], 2: [20, 21, 22]})
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+1: this looks good to me, except maybe for the fact that empty bins do not contain empty lists (which could be fixed with a defaultdict). However, maybe does the original poster have more general bins in mind? –  EOL May 5 '10 at 9:16

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