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I am trying to find a way to find all neighbours of a given node in a list of lists. The array looks like this:

0,2,4,1,6,0,0
2,0,0,0,5,0,0
4,0,0,0,5,5,0
1,0,0,0,1,1,0
6,5,0,1,0,5,5
0,0,5,1,5,0,0
0,0,0,0,5,0,0

So far my code is:

#!/usr/bin/python

#holds all source nodes
source = []

#read in and store the matrix
def create_matrix(file):
    with open('network.txt') as f:
        Alist = []
        for line in f:
            part = []
            for x in line.split(','):
                part.append(int(x))
            Alist.append(part)
    return Alist

def check_neighbours(Alist):
    i = iter(Alist)
    item = i.next()
    source.append(item)
    print source

file = ("F:/media/KINGSTON/Networking/network.txt")
Alist = create_matrix(file)
check_neighbours(Alist)

Obviously this only outputs the first row of the matrix but I am wanting something a little different. For example, I would start at the node [0,0] which is 0 and then find both [0,1] and [1,0]. But I also need to look in a 3x3 radius if I am not on the edge of the matrix. I know how to find the next neighbour to the right of the current node but I am really not sure how to find anything next to the node which includes diagonal nodes as well.

share|improve this question
    
You mean a diameter of 3, don't you? So from a node (assuming it isn't on the edge), you want left, right, up, down, and the 4 diagonal values? Or do you want 2 to the left, 2 to the right, and so on? –  DaveTheScientist Apr 9 '13 at 22:17
    
yes a diameter of 3. I would like the former please –  user2263800 Apr 9 '13 at 22:18

1 Answer 1

up vote 2 down vote accepted

You want a 8-neighbor algorithm, which is really just a selection of indices from a list of lists.

# i and j are the indices for the node whose neighbors you want to find
def find_neighbors(m, i, j, dist=1):
    return [row[max(0, j-dist):j+dist+1] for row in m[max(0, i-1):i+dist+1]]

Which can then be called by:

m = create_matrix(file)
i = some_y_location
j = some_x_location
neighbors = find_neighbors(m, i, j)

The implementation without list compression:

def find_neighbors(m, i, j, dist=1):
    neighbors = []
    i_min = max(0, i-dist)
    i_max = i+dist+1
    j_low = max(0, j-dist)
    j_max = j+dist+1
    for row in m[i_min:i_max]:
        neighbors.append(row[j_min:j_max])
    return neighbors

You need the max call for the i/j_min to avoid negative indices, but the upper values being too large are handled by list slices automatically.

If you want those row lists as a single element list you need to add:

neighbors = [elem for nlist in neighbors for elem in nlist]

This flattens the list of lists.

If you want the indicies of neighbors instead (there are probably cleaner solutions):

def find_neighbor_indices(m, i, j, dist=1):
    irange = range(max(0, i-dist), min(len(m), i+dist+1))
    if len(m) > 0:
        jrange = range(max(0, j-dist), min(len(m[0]), j+dist+1))
    else:
        jrange = []
    for icheck in irange:
        for jcheck in jrange:
            # Skip when i==icheck and j==jcheck
            if icheck != i or jcheck != j:
                neighbors.append((icheck, jcheck))
    return neighbors
share|improve this answer
    
This is probably something very basic and I feel embarassed to ask this. My code now looks like this: Alist = create_matrix(file) neighbors = [row[max(0, j-dist):j+dist+1] for row in Alist[max(0, i-1):i+dist+1]] I keep getting errors saying i, j, dist etc are undefined? –  user2263800 Apr 9 '13 at 22:49
    
No worries. i and j are the coordinates of the node whose neighbors you want to know. Say I want to know the neighbors of the top left corner. I would then set i=0 and j=0 before creating neighbors. I'll update the answer to reflect this better. –  Pyrce Apr 9 '13 at 23:00
    
is there a way that you could return the coordinates of each number? –  user2263800 Apr 9 '13 at 23:18
    
added to answer, though i didn't test it –  Pyrce Apr 9 '13 at 23:28
    
works great, thank you very much –  user2263800 Apr 9 '13 at 23:33

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