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How would I use numpy to calculate the intersection between two line segments?

In the code I have segment1 = ((x1,y1),(x2,y2)) and segment2 = ((x1,y1),(x2,y2)). Note segment 1 does not equal segment2. So in my code I've also been calculating the slope and y-intercept, it would be nice if that could be avoided but I don't know of a way how.

I've been using Cramer's rule with a function I wrote up in Python but I'd like to find a faster way of doing this.

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3 Answers 3

up vote 9 down vote accepted

Stolen directly from http://www.cs.mun.ca/~rod/2500/notes/numpy-arrays/numpy-arrays.html

#
# line segment intersection using vectors
# see Computer Graphics by F.S. Hill
#
from numpy import *
def perp( a ) :
    b = empty_like(a)
    b[0] = -a[1]
    b[1] = a[0]
    return b

# line segment a given by endpoints a1, a2
# line segment b given by endpoints b1, b2
# return 
def seg_intersect(a1,a2, b1,b2) :
    da = a2-a1
    db = b2-b1
    dp = a1-b1
    dap = perp(da)
    denom = dot( dap, db)
    num = dot( dap, dp )
    return (num / denom)*db + b1

p1 = array( [0.0, 0.0] )
p2 = array( [1.0, 0.0] )

p3 = array( [4.0, -5.0] )
p4 = array( [4.0, 2.0] )

print seg_intersect( p1,p2, p3,p4)

p1 = array( [2.0, 2.0] )
p2 = array( [4.0, 3.0] )

p3 = array( [6.0, 0.0] )
p4 = array( [6.0, 3.0] )

print seg_intersect( p1,p2, p3,p4)
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3  
Thanks for the hint. After seeing this algorithm I started reading on it. Here is an IMO good explanation softsurfer.com/Archive/algorithm_0104/algorithm_0104B.htm . Hope it serves someones else's curiosity as well. –  Maik Beckmann May 17 '11 at 10:24
1  
Note to those using the above code: Ensure that you are passing an array of floats to seg_intersect, otherwise unexpected things can happen due to rounding. –  schickm Oct 13 '12 at 22:07
1  
Also, remember to check to see if denom is zero, otherwise you'll get a division by zero error. (This happens if the lines are parallel.) –  Gareth Rees Dec 20 '12 at 22:41

This is is a late response, perhaps, but it was the first hit when I Googled 'numpy line intersections'. In my case, I have two lines in a plane, and I wanted to quickly get any intersections between them, and Hamish's solution would be slow -- requiring a nested for loop over all line segments.

Here's how to do it without a for loop (it's quite fast):

from numpy import where, dstack, diff, meshgrid

def find_intersections(A, B):

    # min, max and all for arrays
    amin = lambda x1, x2: where(x1<x2, x1, x2)
    amax = lambda x1, x2: where(x1>x2, x1, x2)
    aall = lambda abools: dstack(abools).all(axis=2)
    slope = lambda line: (lambda d: d[:,1]/d[:,0])(diff(line, axis=0))

    x11, x21 = meshgrid(A[:-1, 0], B[:-1, 0])
    x12, x22 = meshgrid(A[1:, 0], B[1:, 0])
    y11, y21 = meshgrid(A[:-1, 1], B[:-1, 1])
    y12, y22 = meshgrid(A[1:, 1], B[1:, 1])

    m1, m2 = meshgrid(slope(A), slope(B))
    m1inv, m2inv = 1/m1, 1/m2

    yi = (m1*(x21-x11-m2inv*y21) + y11)/(1 - m1*m2inv)
    xi = (yi - y21)*m2inv + x21

    xconds = (amin(x11, x12) < xi, xi <= amax(x11, x12), 
              amin(x21, x22) < xi, xi <= amax(x21, x22) )
    yconds = (amin(y11, y12) < yi, yi <= amax(y11, y12),
              amin(y21, y22) < yi, yi <= amax(y21, y22) )

    return xi[aall(xconds)], yi[aall(yconds)]

Then to use it, provide two lines as arguments, where is arg is a 2 column matrix, each row corresponding to an (x, y) point:

# example from matplotlib contour plots
Acs = contour(...)
Bsc = contour(...)

# A and B are the two lines, each is a 
# two column matrix
A = Acs.collections[0].get_paths()[0].vertices
B = Bcs.collections[0].get_paths()[0].vertices

# do it
x, y = find_intersections(A, B)

have fun

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Thank for sharing your solution!! –  Anne Feb 2 '12 at 10:56
    
the variable m1inv is unused, is this normal? –  adrienlucca.wordpress.com Dec 29 '14 at 0:35

This is what I use to find line intersection, it works having either 2 points of each line, or just a point and its slope. I basically solve the system of linear equations.

def line_intersect(p0, p1, m0=None, m1=None, q0=None, q1=None):
    ''' intersect 2 lines given 2 points and (either associated slopes or one extra point)
    Inputs:
        p0 - first point of first line [x,y]
        p1 - fist point of second line [x,y]
        m0 - slope of first line
        m1 - slope of second line
        q0 - second point of first line [x,y]
        q1 - second point of second line [x,y]
    '''
    if m0 is  None:
        if q0 is None:
            raise ValueError('either m0 or q0 is needed')
        dy = q0[1] - p0[1]
        dx = q0[0] - p0[0]
        lhs0 = [-dy, dx]
        rhs0 = p0[1] * dx - dy * p0[0]
    else:
        lhs0 = [-m0, 1]
        rhs0 = p0[1] - m0 * p0[0]

    if m1 is  None:
        if q1 is None:
            raise ValueError('either m1 or q1 is needed')
        dy = q1[1] - p1[1]
        dx = q1[0] - p1[0]
        lhs1 = [-dy, dx]
        rhs1 = p1[1] * dx - dy * p1[0]
    else:
        lhs1 = [-m1, 1]
        rhs1 = p1[1] - m1 * p1[0]

    a = np.array([lhs0, 
                  lhs1])

    b = np.array([rhs0, 
                  rhs1])
    try:
        px = np.linalg.solve(a, b)
    except:
        px = np.array([np.nan, np.nan])

    return px
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