Issue
I have a numpy array like this:
x = np.array([[1,2,3],[4,5,6],[7,8,9]])
I need to create a function let's call it "neighbors" with the following input parameter:
- x: a numpy 2d array
- (i,j): the index of an element in a 2d array
- d: neighborhood radius
As output I want to get the neighbors of the cell i,j
with a given distance d
.
So if I run
neighbors(im, i, j, d=1) with i = 1 and j = 1 (element value = 5)
I should get the indices of the following values: [1,2,3,4,6,7,8,9]
. I hope I make it clear.
Is there any library like scipy which deal with this?
I've done something working but it's a rough solution.
def pixel_neighbours(self, p):
rows, cols = self.im.shape
i, j = p[0], p[1]
rmin = i - 1 if i - 1 >= 0 else 0
rmax = i + 1 if i + 1 < rows else i
cmin = j - 1 if j - 1 >= 0 else 0
cmax = j + 1 if j + 1 < cols else j
neighbours = []
for x in xrange(rmin, rmax + 1):
for y in xrange(cmin, cmax + 1):
neighbours.append([x, y])
neighbours.remove([p[0], p[1]])
return neighbours
How can I improve this?
Solution
EDIT: ah crap, my answer is just writing im[i-d:i+d+1, j-d:j+d+1].flatten()
but written in a incomprehensible way :)
The good old sliding window trick may help here:
import numpy as np
from numpy.lib.stride_tricks import as_strided
def sliding_window(arr, window_size):
""" Construct a sliding window view of the array"""
arr = np.asarray(arr)
window_size = int(window_size)
if arr.ndim != 2:
raise ValueError("need 2-D input")
if not (window_size > 0):
raise ValueError("need a positive window size")
shape = (arr.shape[0] - window_size + 1,
arr.shape[1] - window_size + 1,
window_size, window_size)
if shape[0] <= 0:
shape = (1, shape[1], arr.shape[0], shape[3])
if shape[1] <= 0:
shape = (shape[0], 1, shape[2], arr.shape[1])
strides = (arr.shape[1]*arr.itemsize, arr.itemsize,
arr.shape[1]*arr.itemsize, arr.itemsize)
return as_strided(arr, shape=shape, strides=strides)
def cell_neighbors(arr, i, j, d):
"""Return d-th neighbors of cell (i, j)"""
w = sliding_window(arr, 2*d+1)
ix = np.clip(i - d, 0, w.shape[0]-1)
jx = np.clip(j - d, 0, w.shape[1]-1)
i0 = max(0, i - d - ix)
j0 = max(0, j - d - jx)
i1 = w.shape[2] - max(0, d - i + ix)
j1 = w.shape[3] - max(0, d - j + jx)
return w[ix, jx][i0:i1,j0:j1].ravel()
x = np.arange(8*8).reshape(8, 8)
print x
for d in [1, 2]:
for p in [(0,0), (0,1), (6,6), (8,8)]:
print "-- d=%d, %r" % (d, p)
print cell_neighbors(x, p[0], p[1], d=d)
Didn't do any timings here, but it's possible this version has reasonable performance.
For more info, search the net with phrases "rolling window numpy" or "sliding window numpy".
Answered By - pv.
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