2

Given an array

d = np.random.randn(100)

and an index array

i = np.random.random_integers(low=3, high=d.size - 5, size=20)

how can I efficiently create a 2d array r with

r.shape = (20, 8)

such that for all j=0..19,

r[j] = d[i[j]-3:i[j]+5]

In my case, the arrays are quite large (~200000 instead of 100 and 20), so something quick would be useful.

3
  • Does low and high make any difference? Like low=0, high=d.size - 8 and d[i[j]:i[j]+8]?
    – Kabie
    Mar 20, 2013 at 16:04
  • yes, it does make a difference. if an element of i is <3, then i[j]-3 is negative. similar for the upper bound.
    – andreas-h
    Mar 20, 2013 at 16:13
  • But if all(0<=elem<=92 for elem in i) is True then d[i[j]:i[j]+8] would be the same, right?
    – Kabie
    Mar 20, 2013 at 16:21

1 Answer 1

1

You can create a windowed view of your data, i.e. a (93, 8) array, where item [i, j] is item [i+j] of your original array, as:

>>> from numpy.lib.stride_tricks import as_strided
>>> wd = as_strided(d, shape=(len(d)-8+1, 8), strides=d.strides*2)

You can now extract your desired slices as:

>>> r = wd[i-3]

Note that wd is simply a view of your original data, so it takes no extra memory. The moment you extract r with arbitrary indices, the data is copied. So depending on how you want to use your r array, you may want to delay that as much as possible, or maybe even avoid it altogether: you can always access what would be row r[j] as wd[j-3] without triggering a copy.

3
  • 1
    Don't use take here, unless you first rewrite the function. Its great to know that take is faster often, but it is at least generally a very bad idea (and certainly not faster) here.
    – seberg
    Mar 20, 2013 at 16:19
  • @seberg I am guessing it is the copying, that has to happen no matter what, that makes it a bad idea, right? Will edit my answer: thanks!
    – Jaime
    Mar 20, 2013 at 16:28
  • Well, the normal slicing won't do the temporary copy I believe... So if you take only a few items, you could be bloating memory up big time...
    – seberg
    Mar 20, 2013 at 16:37

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