I have managed to find six points of interest on a 2d image. Now, i need to draw a path which is of the shortest distance to connect these points.

the path starts at point 0 and will not loop back to it.

I'm going to be drawing a line from point 0 to the next closest point, then from that point, i will draw a line to the next closest point, etc until i have reached the last point that was not connected.

the six points of interest are saved as an array of type Point2f. the index 0 of this array is the starting point. the rest of the indices have the remaining points stored in no particular order.

Any help would be appreciated

  • 2
    Calculating distance between two points in Cartesian space is a trivial problem. With 6 points the number of possible combinations is quite small too, so there's no need to be clever. Just calculate the total distance for each combination and pick the minimum. – Dan Mašek May 21 at 3:00
  • How would i go about doing that.. what would my loop look like? im using the cv::norm function to find the distance between points.. how do i ignore points that have already been visited? i feel a bit overwhelmed by the number of variables that i need to handle.. – cobalt May 21 at 7:09

cv::norm can be used to find distance between two points. I have taken 6 random points on a board of 200 x 200.


Now i have just looped over the rest of the points to find the smallest distance using cv::norm and then exchanged its index with the next point. My result is:


Sorry but the code is in python:

import cv2
import numpy as np

def find_nn(point, neighborhood):
Finds the nearest neighborhood of a vector.

    point (float array): The initial point.
    neighborhood (numpy float matrix): The points that are around the initial point.

    float array: The point that is the nearest neighbor of the initial point.
    integer: Index of the nearest neighbor inside the neighborhood list
min_dist = float('inf')
nn = neighborhood[0]
nn_idx = 0
for i in range(len(neighborhood)):
    neighbor = neighborhood[i]
    dist = cv2.norm(point, neighbor, cv2.NORM_L2)
    if dist < min_dist:
        min_dist = dist
        nn = neighbor
        nn_idx = i
nn_idx = nn_idx + j + 1
return nn, nn_idx 

#taking 6 random points on a board of 200 x 200
points = [(10, 10), (115, 42), (36, 98), (78, 154), (167, 141), (189, 4)]
board = np.ones((200, 200, 3), dtype = np.uint8) * 255
for i in range(6):
    cv2.circle(board, points[i], 5, (0, 255, 255), -1)

for j in range(5):
    nn, nn_idx = find_nn(points[j], points[j+1:])
    points[j+1], points[nn_idx] = points[nn_idx], points[j+1]

for i in range(5):
    cv2.arrowedLine(board, points[i], points[i+1], (255, 0, 0), 1, tipLength = 0.07)
cv2.imshow('image', board)
  • Thank you! I'll try it out in c++.. shouldn't be much of a hassle translating it there.. – cobalt May 21 at 21:36

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