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I am building a tile based app in Python using pyglet/openGL wherein I'll need to find the all of the adjacent cells for a given cell. I am working in one quadrant of a Cartesian grid. Each cell has an x and y value indicating it's position in the grid( x_coord and y_coord ). These are not pixel values, rather grid positions. I am looking for an efficient way to get the adjacent cells. At max there are eight possible adjacent cells, but because of the bounds of the grid there could be as few as 3. Pseudo-code for a simple yet probably inefficient approach looks something like this:

def get_adjacent_cells( self, cell ):
     result = []
     x_coord = cell.x_coord
     y_coord = cell.y_coord
     for c in grid.cells:
          if c.x_coord == x_coord and c.y_coord == y_coord: # right
               result.append( c )
          if c.x_coord == x_coord - 1 and c.y_coord == y_coord + 1: # lower right
               result.append( c )
          if c.x_coord == x_coord - 1 and c.y_coord == y_coord: # below
               result.append( c )
          if c.x_coord == x_coord - 1 and c.y_coord == y_coord - 1: lower left
               result.append( c )
          if c.x_coord == x_coord and c.y_coord == y_coord - 1: right
               result.append( c )
          // -- similar conditional for remaining cells

This would probably work just fine, though it is likely that this code will need to run every frame and in a larger grid it may affect performance. Any ideas for a more streamlined and less cpu intensive approach? Or, should I just roll with this approach?

Thanks in advance.

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isn't the adjective 'Pythonesque'? :-) –  Simon Mar 3 '10 at 17:26
If you want to keep with your way of doing this, then I would at least make a counter to count how many results have been put into result. When it reaches 8, break out of the loop. Also, only check if it is equal to 8 when you append a cell. –  Justin Peel Mar 3 '10 at 18:01

4 Answers 4

up vote 4 down vote accepted

It wasn't clear to me if there was other information in the cells than just the x and y coordinates. In any case, I think that a change of data structures is needed to make this faster.

I assumed that there is extra information in the cells and made grid.cells as a dictionary with the keys being tuples of the coordinates. A similar thing could be done withgrid.cells as a set if there is only the coordinate information in the cells.

def get_adjacent_cells( self, x_coord, y_coord ):
    result = {}
    for x,y in [(x_coord+i,y_coord+j) for i in (-1,0,1) for j in (-1,0,1) if i != 0 or j != 0]:
        if (x,y) in grid.cells:
            result[(x,y)] = grid.cells[(x,y)]

Depending on what you want to do with the data, you might not want to make result a dict, but hopefully you get the idea. This should be much faster than your code because your code is making 8 checks on every cell in grid.cells.

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This approach seems like the speediest because it doesn't involve iterating over every cell. Using tuples as keys is a great alternative. Thanks –  jeremynealbrown Mar 3 '10 at 18:30
this is exactly the same as my answer... just half an hour later xD –  fortran Mar 3 '10 at 18:33
Looking at the two answers now I see they are quite similar, I found Justin's explanation of how his approach worked to be more clear and gave him the kudos. Every answer to this question was valuable and I appreciate the effort all around. –  jeremynealbrown Mar 3 '10 at 19:49
no offence, it's just unusual that between two almost identical answers the second gets accepted :-) btw, you're right about the adjacency list, I was trying to simplify the condition with nested comparisons and I got messed... it's fixed now :-) –  fortran Mar 4 '10 at 9:51

Your code is going to be as slow as large is your grid, because you're iterating over the cells just to get 8 of them (of which you already know their coordinates).

If you can do random access by their indices, I suggest something like the following:

adjacency = [(i,j) for i in (-1,0,1) for j in (-1,0,1) if not (i == j == 0)] #the adjacency matrix

def get_adjacent_cells( self, cell ):
     x_coord = cell.x_coord
     y_coord = cell.y_coord
     for dx, dy in adjacency:
          if 0 <= (x_coord + dx) < max_x and 0 <= y_coord + dy < max_y: #boundaries check
#yielding is usually faster than constructing a list and returning it if you're just using it once
              yield grid[x_coord + dx, y_coord + dy]

max_x and max_y are supposed to be the size of the grid, and the grid.__getitem__ is supposed to accept a tuple with the coordinates and return the cell in that position.

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Well, this won't help performance any, but you can avoid code duplication by saying

if abs(c.x_coord - x_coord) == 1 or abs(c.y_coord - y_coord) == 1:

To affect performance, your grid cells should know who their neighbors are, either through an attribute like c.neighbors, or through an implicit structure, like a list of lists, so you can access by coordinate.

grid = [[a,b,c],

Then you can check for neighborliness using the list indices.

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Your first suggestion would include a given cell in the list of its own neighbours. How about: if abs(c.x_coord - x_coord) == 1 or abs(c.y_coord - y_coord) == 1: –  Tommy Herbert Mar 3 '10 at 17:27
Great suggestion. I've incorporated it into my answer. –  jcdyer Mar 3 '10 at 18:20

This is probably the most efficient way to look for neighbours if grid.cells is implemented as a set (though there's a mistake in the first if-statement - you need to test for equality to x_coord + 1 rather than to x_coord).

However, implementing grid.cells as a list of lists would allow you to refer to individual cells by row and column number. It would also allow you to measure the total number of rows and columns. get_adjacent_cells could then work by first checking which edges border the current cell, and then looking up the neighbours in all other directions and appending them to the result list.

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