Tuple as index of multidimensional array

I found a very similar question to mine, but not exactly the same. This one: here However in ntimes's case the size of the array matches the number of the dimensions the tuple is point at. In my case I have a 4-dimensional array and a 2-dimensional tuple, just like this:

``````from numpy.random import rand
big_array=rand(3,3,4,5)
tup=(2,2)
``````

I want to use the tuple as an index to the first two dimensions, and manually index the last two. Something like:

``````big_array[tup,3,2]
``````

However, I obtain a repetition of the first dimension with index=2, along the fourth dimension( since it technically hasn't been indexed). That is because this indexing is interpreting a double indexing to the first dimension instead of one value for each dimension,

``````eg.
| dim 0:(index 2 AND index 2) , dim 1:(index 3), dim 2:(index 2), dim 3:(no index)|
|dim 0(index 2), dim 1(index 2), dim 2:(index 3), dim 3:(index 2)|.
``````

How can I 'unpack' this tuple then? Any ideas? thanks!

-

You can also pass in your first tuple alone to get the slice of interest, then index it seprately:

``````from numpy.random import rand
big_array=rand(3,3,4,5)
chosen_slice = (2,2)

>>> big_array[ chosen_slice ]
array([[ 0.96281602,  0.38296561,  0.59362615,  0.74032818,  0.88169483],
[ 0.54893771,  0.33640089,  0.53352849,  0.75534718,  0.38815883],
[ 0.85247424,  0.9441886 ,  0.74682007,  0.87371017,  0.68644639],
[ 0.52858188,  0.74717948,  0.76120181,  0.08314177,  0.99557654]])

>>> chosen_part = (1,1)

>>> big_array[ chosen_slice ][ chosen_part ]
0.33640088565877657
``````

That may be slightly more readable for some users, but otherwise I'd lean towards mgilson's solution.

-
damn! I like it too! I would say this option is a bit more flexible since you can place it in 'middle' dimensions more straightforwardly. Something like: `big_array[1][tup][2]` works like a charm. Great insight, thank you! –  vint-i-vuit Sep 4 '12 at 14:52
Since you're using `numpy`:
``````big_array[tup+(3,2)]
should work. When you call `__getitem__` (via the square brackets), the stuff is passed to `__getitem__` as a tuple. You just need to construct the `tuple` explicitly here (adding tuples together concatenates into a new tuple) and `numpy` will do what you want.