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I need to take a list I have created and find the closest two points and print them out. How can I go about comparing each point in the list?

There isn't any need to plot or anything, just compare the points and find the closest two in the list.

import math # 'math' needed for 'sqrt'

# Distance function
def distance(xi,xii,yi,yii):
    sq1 = (xi-xii)*(xi-xii)
    sq2 = (yi-yii)*(yi-yii)
    return math.sqrt(sq1 + sq2)

# Run through input and reorder in [(x, y), (x,y) ...] format
oInput = ["9.5 7.5", "10.2 19.1", "9.7 10.2"] # Original input list (entered by spacing the two points).
mInput = [] # Manipulated list
fList = [] # Final list
for o in oInput:
    mInput = o.split()
    x,y = float(mInput[0]), float(mInput[1])
    fList += [(x, y)] # outputs [(9.5, 7.5), (10.2, 19.1), (9.7, 10.2)]
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6 Answers

up vote 6 down vote accepted

It is more convenient to rewrite your distance() function to take two (x, y) tuples as parameters:

def distance(p0, p1):
    return math.sqrt((p0[0] - p1[0])**2 + (p0[1] - p1[1])**2)

Now you want to iterate over all pairs of points from your list fList. The function iterools.combinations() is handy for this purpose:

min_distance = distance(fList[0], fList[1])
for p0, p1 in itertools.combinations(fList, 2):
    min_distance = min(min_distance, distance(p0, p1))

An alternative is to define distance() to accept the pair of points in a single parameter

def distance(points):
    p0, p1 = points
    return math.sqrt((p0[0] - p1[0])**2 + (p0[1] - p1[1])**2)

and use the key parameter to the built-in min() function:

min_pair = min(itertools.combinations(fList, 2), key=distance)
min_distance = distance(min_pair)
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As a premature optimization, when only comparing like this there's no need to actually compute the square root. –  unwind Mar 23 '11 at 16:01
that seems to work. sadly, I'll have to find a different way of doing it since it is for homework and our use of different libraries and functions is very limited. Thank you for your help! –  morcutt Mar 23 '11 at 16:03
@unwind: The overhead of calculating the square root is MUCH less then comparing bigger integers, especially with more points. –  nightcracker Mar 23 '11 at 16:07
@morcutt: All of Sven's code uses methods from the python standard library. Even if you can't use them, they are good to know about. –  JoshAdel Mar 23 '11 at 16:10
I'd recommend a refactor in the last snippet using a pretty common pattern that avoids repeating the key function: min((distance(*pair), pair) for pair in itertools.combinations(fList, 2))[1]. Moreover using a generator you can define distance()'s signature how you want. –  tokland Mar 23 '11 at 17:05
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I realize that there are library constraints on this question, but for completeness if you have N points in an Nx2 numpy ndarray (2D system):

from scipy.spatial.distance import pdist
x = numpy.array([[9.5,7.5],[10.2,19.1],[9.7,10.2]])
mindist = numpy.min(pdist(x))

I always try to encourage people to use numpy/scipy if they are dealing with data that is best stored in a numerical array and it's good to know that the tools are out there for future reference.

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Your fixed code. No efficient algorithm, just the brute force one.

import math # math needed for sqrt

# distance function
def dist(p1, p2):
    return math.sqrt((p2[0] - p1[0]) ** 2 + (p2[1] - p1[1]) ** 2)

# run through input and reorder in [(x, y), (x,y) ...] format
input = ["9.5 7.5", "10.2 19.1", "9.7 10.2"] # original input list (entered by spacing the two points)
points = [map(float, point.split()) for point in input] # final list

# http://en.wikipedia.org/wiki/Closest_pair_of_points
mindist = float("inf")
for p1, p2 in itertools.combinations(points, 2):
    if dist(p1, p2) < mindist:
        mindist = dist(p1, p2)
        closestpair = (p1, p2)

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Why the p1 != p2 comparison? I think if a point appears twice in the list, the minimum distance is supposed to be 0. –  Sven Marnach Mar 23 '11 at 16:16
I think the p1 != p2 is in there because of not understanding what itertools.combinations returns. If you were brute force looping through the points twice (i.e for p1 in points: for p2 in points:) then you would need that to avoid considering the distance from a point to itself. –  JoshAdel Mar 23 '11 at 16:22
Nope. It was in there before I put in the itertools.combinations. I just realize this stupid mistake :D It was in there because I was looping with two for loops. –  nightcracker Mar 23 '11 at 16:32
For completeness, if someone has the same limitation of OP, that they have to not use itertools (perhaps to demonstrate their understanding of how to find all the combinations), the alternative code with nested loops could be: for i in range(len(points) - 1): p1 = points[i] for j in range(i+1, len(points)): p2 = points[j] .. and then continue from there. –  ToolmakerSteve Dec 15 '13 at 4:58
... And, as for other solutions, it would be higher performance to avoid the sqrt, just compare distance-squareds. Though maybe that doesn't matter in an interpreted language, since it is a single call to a C function. (I'm used to programming in C# or C++, where it makes a big difference.) –  ToolmakerSteve Dec 15 '13 at 5:04
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First, some notes:

a**2 # squares a
(xi - xii)**2 # squares the expression in parentheses.

mInput doesn't need to be declared in advance.
fList.append((x, y)) is more pythonic than using +=.

Now you have fList. Your distance function can be rewritten to take 2 2-tuple (point) arguments, which I won't bother with here.

Then you can just write:

shortest = float('inf')
for pair in itertools.combinations(fList, 2):
    shortest = min(shortest, distance(*pair))
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"fList.append((x, y)) is more pythonic than using +=" gee, I liked the +=. Didn't know it applied to list elements. What's unpythonic about using that operator? –  ToolmakerSteve Dec 15 '13 at 4:36
BTW, this finds the distance itself, but doesn't remember WHICH points yielded that distance. Re original question: "find the closest two points and print them out" –  ToolmakerSteve Dec 15 '13 at 4:44
@ToolmakerSteve: With a_list += something, something must be a list. It's awkward to put square brackets around stuff just so you can append it to a list. On your second comment, that's true. It should be pretty simple to extend this to actually answer the question, but as written it doesn't quite do it. –  nmichaels Dec 16 '13 at 21:56
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Note that the math.sqrt function is both slow and, in this case, unnecessary. Try comparing the distance squared to speed it up (sorting distances vs. distance squared will always produce the same ordering):

def distSquared(p0, p1):
    return (p0[0] - p1[0])**2 + (p0[1] - p1[1])**2
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This might work:

oInput = ["9.5 7.5", "10.2 19.1", "9.7 10.2"]

# parse inputs
inp = [(float(j[0]), float(j[1])) for j in [i.split() for i in oInput]]

# initialize results with a really large value
min_distance = float('infinity')
min_pair = None

# loop over inputs
length = len(inp)
for i in xrange(length):
    for j in xrange(i+1, length):
        point1 = inp[i]
        point2 = inp[j]

        if math.hypot(point1[0] - point2[0], point1[1] - point2[0]) < min_distance:
            min_pair = [point1, point2]

once the loops are done, min_pair should be the pair with the smallest distance.

Using float() to parse the text leaves room for improvement.

math.hypot is about a third faster than calculating the distance in a handwritten python-function

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