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The question is the inverse of this question. I'm looking for a generic method to from the original big array from small arrays:

array([[[ 0,  1,  2],
        [ 6,  7,  8]],    
       [[ 3,  4,  5],
        [ 9, 10, 11]], 
       [[12, 13, 14],
        [18, 19, 20]],    
       [[15, 16, 17],
        [21, 22, 23]]])

->

array([[ 0,  1,  2,  3,  4,  5],
       [ 6,  7,  8,  9, 10, 11],
       [12, 13, 14, 15, 16, 17],
       [18, 19, 20, 21, 22, 23]])

I am currently developing a solution, will post it when it's done, would however like to see other (better) ways.

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3 Answers 3

up vote 3 down vote accepted
import numpy as np
def blockshaped(arr, nrows, ncols):
    """
    Return an array of shape (n, nrows, ncols) where
    n * nrows * ncols = arr.size

    If arr is a 2D array, the returned array looks like n subblocks with
    each subblock preserving the "physical" layout of arr.
    """
    h, w = arr.shape
    return (arr.reshape(h//nrows, nrows, -1, ncols)
               .swapaxes(1,2)
               .reshape(-1, nrows, ncols))


def unblockshaped(arr, h, w):
    """
    Return an array of shape (h, w) where
    h * w = arr.size

    If arr is of shape (n, nrows, ncols), n sublocks of shape (nrows, ncols),
    then the returned array preserves the "physical" layout of the sublocks.
    """
    n, nrows, ncols = arr.shape
    return (arr.reshape(h//nrows, -1, nrows, ncols)
               .swapaxes(1,2)
               .reshape(h, w))

For example,

c = np.arange(24).reshape((4,6))
print(c)
# [[ 0  1  2  3  4  5]
#  [ 6  7  8  9 10 11]
#  [12 13 14 15 16 17]
#  [18 19 20 21 22 23]]

print(blockshaped(c, 2, 3))
# [[[ 0  1  2]
#   [ 6  7  8]]

#  [[ 3  4  5]
#   [ 9 10 11]]

#  [[12 13 14]
#   [18 19 20]]

#  [[15 16 17]
#   [21 22 23]]]

print(unblockshaped(blockshaped(c, 2, 3), 4, 6))
# [[ 0  1  2  3  4  5]
#  [ 6  7  8  9 10 11]
#  [12 13 14 15 16 17]
#  [18 19 20 21 22 23]]
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It doesn't work for c = np.arange(24).reshape((6,4)) print(unblockshaped(blockshaped(a, 3, 2), 6, 4)) –  Alan Jun 2 '13 at 9:18
    
blockshaped returns as expected. The problem is in unblockshaped –  Alan Jun 2 '13 at 9:22
1  
Yes, I had the order of arguments to reshape wrong. Try it now. –  unutbu Jun 2 '13 at 10:35

I hope I get you right, let's say we have a,b :

>>> a = np.array([[1,2] ,[3,4]])
>>> b = np.array([[5,6] ,[7,8]])
    >>> a
    array([[1, 2],
           [3, 4]])
    >>> b
    array([[5, 6],
           [7, 8]])

in order to make it one big 2d array use numpy.concatenate:

>>> c = np.concatenate((a,b), axis=1 )
>>> c
array([[1, 2, 5, 6],
       [3, 4, 7, 8]])
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What I'm searching for i a method which can rebuild a big array (image) from smaller arrays. I need it to be generic so it can be applied to images of different sizes. Like slicing in jpeg. Slice an image to 8×8 blocks, do operations on each block, rebuild the original image from blocks. –  Alan Jun 2 '13 at 9:27

It works for the images I tested for now. Will if further tests are made. It is however a solution which takes no account about speed and memory usage.

def unblockshaped(blocks, h, w):
    n, nrows, ncols = blocks.shape
    bpc = w/ncols
    bpr = h/nrows

    reconstructed = zeros((h,w))
    t = 0
    for i in arange(bpr):
        for j in arange(bpc):
            reconstructed[i*nrows:i*nrows+nrows,j*ncols:j*ncols+ncols] = blocks[t]
            t = t+1
    return reconstructed
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