It turns out that a pure Python loop can be much much faster than NumPy indexing (or calls to np.where) in this case.

Consider the following alternatives:

```
import numpy as np
import collections
import itertools as IT
shape = (2600,5200)
# shape = (26,52)
emiss_data = np.random.random(shape)
obj_data = np.random.random_integers(1, 800, size=shape)
UNIQ_IDS = np.unique(obj_data)
def using_where():
max = np.max
where = np.where
MAX_EMISS = [max(emiss_data[where(obj_data == i)]) for i in UNIQ_IDS]
return MAX_EMISS
def using_index():
max = np.max
MAX_EMISS = [max(emiss_data[obj_data == i]) for i in UNIQ_IDS]
return MAX_EMISS
def using_max():
MAX_EMISS = [(emiss_data[obj_data == i]).max() for i in UNIQ_IDS]
return MAX_EMISS
def using_loop():
result = collections.defaultdict(list)
for val, idx in IT.izip(emiss_data.ravel(), obj_data.ravel()):
result[idx].append(val)
return [max(result[idx]) for idx in UNIQ_IDS]
def using_sort():
uind = np.digitize(obj_data.ravel(), UNIQ_IDS) - 1
vals = uind.argsort()
count = np.bincount(uind)
start = 0
end = 0
out = np.empty(count.shape[0])
for ind, x in np.ndenumerate(count):
end += x
out[ind] = np.max(np.take(emiss_data, vals[start:end]))
start += x
return out
def using_split():
uind = np.digitize(obj_data.ravel(), UNIQ_IDS) - 1
vals = uind.argsort()
count = np.bincount(uind)
return [np.take(emiss_data, item).max()
for item in np.split(vals, count.cumsum())[:-1]]
for func in (using_index, using_max, using_loop, using_sort, using_split):
assert using_where() == func()
```

Here are the benchmarks, with `shape = (2600,5200)`

:

```
In [57]: %timeit using_loop()
1 loops, best of 3: 9.15 s per loop
In [90]: %timeit using_sort()
1 loops, best of 3: 9.33 s per loop
In [91]: %timeit using_split()
1 loops, best of 3: 9.33 s per loop
In [61]: %timeit using_index()
1 loops, best of 3: 63.2 s per loop
In [62]: %timeit using_max()
1 loops, best of 3: 64.4 s per loop
In [58]: %timeit using_where()
1 loops, best of 3: 112 s per loop
```

Thus `using_loop`

(pure Python) turns out to be more than 11x faster than `using_where`

.

I'm not entirely sure why pure Python is faster than NumPy here. My guess is that the pure Python version zips (yes, pun intended) through both arrays once. It leverages the fact that despite all the fancy indexing, *we really just want to visit each value once*. Thus it side-steps the issue with having to determine exactly which group each value in `emiss_data`

falls in. But this is just vague speculation. I didn't know it would be faster until I benchmarked.

`UNIQ_IDS`

in this script or is this predetermined? – Ophion Aug 26 '13 at 21:09