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Is there a more pythonic way of doing this? I am trying to find the eight neighbours of an integer coordinate lying within an extent. I am interested in reducing its verbosity without sacrificing execution speed.

def fringe8((px, py), (x1, y1, x2, y2)):
    f = [(px - 1, py - 1),
         (px - 1, py),
         (px - 1, py + 1),
         (px, py - 1),
         (px, py + 1),
         (px + 1, py - 1),
         (px + 1, py),
         (px + 1, py + 1)]
    f_inrange = []
    for fx, fy in f:
        if fx < x1:  continue
        if fx >= x2: continue
        if fy < y1:  continue
        if fy >= y2: continue
        f_inrange.append((fx, fy))
    return f_inrange
share|improve this question
Did you mean y2 instead of xy? – Xavier Ho May 15 '10 at 4:20
I did, thank you. Question fixed. – fmark May 15 '10 at 4:21
you can use interval notation, for example: x1 < fx < x2 – Anycorn May 15 '10 at 4:28

11 Answers 11

up vote 11 down vote accepted

Here's my take on the code cleanup:

Edit: I've taken David's code into my answer to make it even more compact (and faster execution time).

>>> from itertools import product
>>> def fringe8((px, py), (x1, y1, x2, y2)):
...     f = [(px+dx, py+dy) for (dx, dy) in product((-1,0,1),(-1,0,1)) if (dx, dy) != (0, 0)]
...     f_inrange = [(fx, fy) for (fx, fy) in f if x1 <= fx < x2 and y1 <= fy < y2]
...     return f_inrange
>>> fringe8((2, 2), (1, 1, 3, 3))
[(1, 1), (1, 2), (2, 1)]

Edit: If you're not too comfortable with list comprehensions, feel free to break it down to a for loop. The conditions proposed here, and others' answers, are all much more concise for you to use.

After all, one the goals of list comprehesion is to make it easier to read, and not verbose.

Edit again: Please also look at Ryan Ginstrom's answer.

share|improve this answer
itertools.product() could also be used instead of the double for..in: itertools.product((-1,0,1),(-1,0,1)) – Amber May 15 '10 at 4:33
Great idea, Amber! – Xavier Ho May 15 '10 at 4:35
@Amber: good point, I was actually just editing that into my answer while you posted your comment ;-) – David Z May 15 '10 at 4:38
oh, and +1 for synthesizing the best of all our answers – David Z May 15 '10 at 4:40
Thanks! (I've upvoted for both of you as well.) Although I didn't take any from Justin :]. – Xavier Ho May 15 '10 at 4:41

This is a reworking of Xavier Ho's answer. I think that it's made a little more clear by using intermediate steps.

from itertools import product

def fringe8((px, py), (x1, y1, x2, y2)):

    nonzero = (pair for pair in product((-1,0,1),(-1,0,1)) if pair != (0, 0))
    f = ((px+dx, py+dy) for (dx,dy) in nonzero)

    def in_range((fx, fy)):
        return x1 <= fx < x2 and y1 <= fy < y2
    return [pair for pair in f if in_range(pair)]

print fringe8((2, 2), (1, 1, 3, 3))
share|improve this answer
Awesome! Good job of refactoring. – Xavier Ho May 15 '10 at 5:30
I like this one too. I'm using a combination of yours and Xavier's answers. – fmark May 15 '10 at 5:37
This is where StackOverflow really shines. A place of collaborated power and knowledge. Thanks everyone! – Xavier Ho May 15 '10 at 5:43
@Xavier: True indeed, I was even compelled to write a blog entry about it (and when some random person blogs about something, you know it's important... ;-P) – David Z May 15 '10 at 23:33
@David: Haha, I was going to, too! Except I need to restructure my blog first so it's more code friendly. – Xavier Ho May 16 '10 at 1:56

Here's a thought:

def fringe8((px, py), (x1, y1, x2, y2)):
    f = [(px + dx, py + dy) for (dx, dy) in itertools.product((-1,0,1),repeat=2) if not (dx == dy == 0)]
    f_inrange = [(fx, fy) for (fx, fy) in f if x1 <= fx < x2 and y1 <= fy < y2]
    return f_inrange
share|improve this answer
Actually, good idea, David. I'm stealing your second last line into my answer. ;] – Xavier Ho May 15 '10 at 4:34
Wow, tricky. if not (dx == dy == 0). My eyes have been opened. Nice! – Xavier Ho May 15 '10 at 4:39
Don't you just love Python sometimes? Although, I think your (dx,dy) != (0,0) makes as much if not more sense. – David Z May 15 '10 at 4:41

This list comprehension should work

f_inrange = [(px+i,py+j) for i in (-1,0,1) for j in (-1,0,1) \
             if (i != j or i != 0) and x1 <= px+i < x2 and \
             y2 > py+j >= y1]

though it is kind of lengthy.

share|improve this answer
+1 cool ;-) you could shorten it by writing the condition as x1 <= px + i < x2 and similarly for y. – David Z May 15 '10 at 4:29
I'm not sure, this comprehension looks pretty hard to read.. – Xavier Ho May 15 '10 at 4:31
True, although it looks better once you've done enough (some would say too much) Python. – David Z May 15 '10 at 4:34
@David Yes, I realized that not long after I wrote it and put that in. I sometimes forget about that great feature of Python. – Justin Peel May 15 '10 at 4:37

Here's my effort. It constructs the interesting ranges directly, so doesn't test redundant points (except for the pesky center point). I added an extra argument r than can return a larger square around the point too.

def fringe((px, py), (x1, y1, x2, y2), r=1):
    return [(x, y)
            for x in xrange(max(px - r, x1), min(px + r + 1, x2))
            for y in xrange(max(py - r, y1), min(py + r + 1, y2))
            if x != px or y != py]
share|improve this answer
def fringe8((px, py), (x1, y1, x2, y2)):
    return [(x, y) for x,y 
            in itertools.product(   [xi+px for xi in [-1,0,1]],
                                    [yi+py for yi in [-1,0,1]] )
            if (x1<=x<x2) and (y1<=y<y2) and not ((x==px) and (y==py))]

I don't know if that's more pythonic, but it's certainly another way to do it.

share|improve this answer
maybe skip for loop completely, [px-1,px,px+1]? – Anycorn May 15 '10 at 4:47
def fringe8((px, py), (x1, y1, x2, y2)):
  return [(fx, fy) for fx in [px - x for x in [-1, 0, 1]] if (fx >= x1 and fx < x2) 
  for fy in [py - y for y in [-1, 0, 1]]  if fy >= y1 and fy < y2 
  and not(fx == px and fy == py)]
share|improve this answer

I don't know from pythonicness, but I see that this function is doing two things: a) finding adjacent points; and b) restricting a list of points to those that are in range. So I would split it up, because a) it's clearer; b) sometimes I might want one of those behaviors without the other; c) it's easier to test; and d) it's easier to name. I won't attempt to convert this advice into python - I'm sure my attempt wouldn't be pretty - but that would be my starting point.

share|improve this answer

I like Carl's suggestion. Also you can avoid repeated construction of the neighbor offsets.

from itertools import product

NEIGHBOR_OFFSETS = [pair for pair in product((-1,0,1), (-1,0,1))
    if pair != (0, 0)]

def clip(points, (x1, y1, x2, y2)):
    return [(px, py) for px, py in points if 
        x1 <= px < x2 and y1 <= py < y2]

def neighbors(px, py):
    return [(px+dx, py+dy) for dx, dy in NEIGHBOR_OFFSETS]

def fringe8(point, rect):
    return clip(neighbors(*point), rect)
share|improve this answer
Very nice decomposition of separate functions – fmark May 23 '10 at 7:34

here is my recycle :

def fringe8((px, py), (x1, y1, x2, y2)):
    return [(x, y) for x,y in itertools.product((px-1, px , px+1),
                                                (py-1, py , py+1))
            if (x1<=x<x2) and (y1<=y<y2) and (x,y) != (px,py)]
share|improve this answer

The name of the function could be more informative. I know what the code does, but I have no idea what it is intended for.

share|improve this answer

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