messing around with alternatives #41
Description
Hey.
I was just playing around with this and was trying to see if there's a way to implement this efficiently with standard libs.
My usual way to do things like this is using the scipy.sparse.coo_matrix construct.
import scipy.sparse as sp
def bincount2d(x, y, bins):
return sp.coo_matrix((np.ones(x.shape[0]), (x, y)), shape=(bins, bins), dtype=np.int)If the data was scaled so that making it ints would put it in the right bins, this would work.
import numpy as np
x = np.random.random(10_000_000)
y = np.random.random(10_000_000)
from fast_histogram import histogram2d
%timeit _ = histogram2d(x, y, range=[[0, 1], [0, 1]], bins=30)36.8 ms ± 4.14 ms per loop
xx = (x * 30)
yy = (y * 30)
%timeit bincount2d(xx, yy, bins=30)153 ms ± 4.04 ms per loop
So your code would "only" be 5x faster, so it's about a 4x speedup over numpy.
Unfortunately I cheated and didn't include shifting ``xx` so that the data aligns with the bins. I don't think it's possible to make this work without copying the data at least once, which is why I'm giving up on this route.
Thought it might be of interest, though ...