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Is there a straight-forward way to use the output of calling NumPy's argmax or argmin functions on a single dimension of an N-D array to define an index into that array?

This is probably best explained with an example. Consider the following example of a 2D grid of readings of temperature across time:

>>> import numpy as np
>>> times = np.array([0, 20])
>>> temperature_map_t0 = np.array([[10, 12, 14], [23, 40, 50]])
>>> temperature_map_t1 = np.array([[20, 12, 15], [23, 10, 12]])
>>> temperature_map = np.dstack([temperature_map_t0, temperature_map_t1])

and identically shaped N-D array containing a corresponding pressure readings:

>>> pressure_map = np.random.rand(*temperature_map.shape)

We can find the top temperatures at each location:

>>> top_temperatures = temperature_map.max(axis=2)
>>> top_temperatures
array([[20, 12, 15],
       [23, 40, 50]])

and the times at which they occurred:

>>> times = times[temperature_map.argmax(axis=2)]
>>> times
array([[20,  0, 20],
       [ 0,  0,  0]])

But how can we use temperature_map.argmax(axis=2) to find the corresponding pressures?

>>> pressures_at_top_temperatures = pressures[ ???? ]

In other words - what is the indexing syntax to collapse a single dimension of an N-D array using the argmin or argmax indices for that dimension?

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Almost identical (if I'm reading your question correctly): stackoverflow.com/questions/15469302/… – mgilson Apr 19 '13 at 15:44
up vote 2 down vote accepted

Credit to Jaime who answered when I had a similar problem

import numpy as np
times = np.array([0, 20])
temperature_map_t0 = np.array([[10, 12, 14], [23, 40, 50]])
temperature_map_t1 = np.array([[20, 12, 15], [23, 10, 12]])
temperature_map = np.dstack([temperature_map_t0, temperature_map_t1])
top_temperatures = temperature_map.max(axis=2)

# shape is a tuple - no need to convert
# http://docs.scipy.org/doc/numpy/reference/generated/numpy.ndarray.shape.html
pressure_map = np.random.rand(*temperature_map.shape)

idx = temperature_map.argmax(axis=2)

s = temperature_map.shape
result pressure_map[np.arange(s[0])[:, None], np.arange(s[1]), idx]
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1  
@Mr.E -- There's an answer to my very similar question which I think is slighly nicer: stackoverflow.com/questions/15469302/… – mgilson Apr 19 '13 at 15:47
    
@mgilson, yeah that is nice. I hadn't come across ndenumerate before. Thanks - you should post an answer (or vote to close?) – YXD Apr 19 '13 at 15:51
    
I was actually referring to the answer which uses ogrid – mgilson Apr 19 '13 at 16:25

The most straight-forward solution I could think of was to use logical indexing to zero out the entries that are not selected by the desired index, and then to sum over the dimension of interest, e.g. as follows:

def collapse_dimension(ndarr, index, axis):
    r = np.rollaxis(ndarr, axis, 0)
    return np.sum((r[i] * (index == i) for i in range(r.shape[0])), axis=0)

So given the above example, we can use argmax or argmin to collapse the array on any given dimension, e.g.

>>> pressures_at_top_temperatures = collapse_dimension(
...     pressure_map, temperature_map.argmax(axis=2), 2)

and, trivially, get the max across any given dimension using the corresponding argmax:

>>> temperature_map.max(axis=2) == collapse_dimension(
...     temperature_map, temperature_map.argmax(axis=2), 2)
array([[ True,  True,  True],
       [ True,  True,  True]], dtype=bool)

However, I have a strong suspicion there's a nicer way to do this that doesn't involve writing this extra function -- any ideas??

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