11

I am looking for Chaikin's corner cutting algorithm (link1, link2) implemented in Python 2.7.X but can't find it.

Maybe someone have it and able share the code?

1
  • But algorithm looks pretty simple. Have you tried to implement it?
    – MBo
    Commented Nov 2, 2017 at 6:17

2 Answers 2

19

The implementation below will work, but here is a much shorter version that is more efficient and elegant.

import numpy as np

def chaikins_corner_cutting(coords, refinements=5):
    coords = np.array(coords)

    for _ in range(refinements):
        L = coords.repeat(2, axis=0)
        R = np.empty_like(L)
        R[0] = L[0]
        R[2::2] = L[1:-1:2]
        R[1:-1:2] = L[2::2]
        R[-1] = L[-1]
        coords = L * 0.75 + R * 0.25

    return coords

How does it work?

For every two points, we need to take the lower part and the upper part in the line between them using the ratio 1:3:

LOWER-POINT = P1 * 0.25 + P2 * 0.75
UPPER-POINT = P1 * 0.75 + P2 * 0.25

and add them both to the new points list. We also need to add the edge points, so the line will not shrink.

We build two arrays L and R in a certain way that if we will multiply them as follows it will yield the new points list.

NEW-POINTS = L * 0.75 + R * 0.25

For example, if we have array of 4 points:

P = 0 1 2 3

the L and R arrays will be as follows:

L = 0 0 1 1 2 2 3 3
R = 0 1 0 2 1 3 2 3

where each number corresponds to a point.

1
  • 3
    This should be standard method in Shapely! Thanks Commented Jan 17, 2018 at 8:11
11

Ok, it wasn't so hard, here is the code: enter image description here

import math

# visualisation
import matplotlib.pyplot as plt
import matplotlib.lines as lines
# visualisation

def Sum_points(P1, P2):
    x1, y1 = P1
    x2, y2 = P2
    return x1+x2, y1+y2

def Multiply_point(multiplier, P):
    x, y = P
    return float(x)*float(multiplier), float(y)*float(multiplier)

def Check_if_object_is_polygon(Cartesian_coords_list):
    if Cartesian_coords_list[0] == Cartesian_coords_list[len(Cartesian_coords_list)-1]:
        return True
    else:
        return False

class Object():

    def __init__(self, Cartesian_coords_list):
        self.Cartesian_coords_list = Cartesian_coords_list

    def Find_Q_point_position(self, P1, P2):
        Summand1 = Multiply_point(float(3)/float(4), P1)
        Summand2 = Multiply_point(float(1)/float(4), P2)
        Q = Sum_points(Summand1, Summand2) 
        return Q

    def Find_R_point_position(self, P1, P2):
        Summand1 = Multiply_point(float(1)/float(4), P1)
        Summand2 = Multiply_point(float(3)/float(4), P2)        
        R = Sum_points(Summand1, Summand2)
        return R

    def Smooth_by_Chaikin(self, number_of_refinements):
        refinement = 1
        copy_first_coord = Check_if_object_is_polygon(self.Cartesian_coords_list)
        while refinement <= number_of_refinements:
            self.New_cartesian_coords_list = []

            for num, tuple in enumerate(self.Cartesian_coords_list):
                if num+1 == len(self.Cartesian_coords_list):
                    pass
                else:
                    P1, P2 = (tuple, self.Cartesian_coords_list[num+1])
                    Q = obj.Find_Q_point_position(P1, P2)
                    R = obj.Find_R_point_position(P1, P2)
                    self.New_cartesian_coords_list.append(Q)
                    self.New_cartesian_coords_list.append(R)

            if copy_first_coord:
                self.New_cartesian_coords_list.append(self.New_cartesian_coords_list[0])

            self.Cartesian_coords_list = self.New_cartesian_coords_list
            refinement += 1
        return self.Cartesian_coords_list

if __name__ == "__main__":
    Cartesian_coords_list = [(1,1),
                             (1,3),
                             (4,5),
                             (5,1),
                             (2,0.5),
                             (1,1),
                             ]

    obj = Object(Cartesian_coords_list)    
    Smoothed_obj = obj.Smooth_by_Chaikin(number_of_refinements = 5)

    # visualisation
    x1 = [i for i,j in Smoothed_obj]
    y1 = [j for i,j in Smoothed_obj]
    x2 = [i for i,j in Cartesian_coords_list]
    y2 = [j for i,j in Cartesian_coords_list]    
    plt.plot(range(7),range(7),'w', alpha=0.7)
    myline = lines.Line2D(x1,y1,color='r')
    mynewline = lines.Line2D(x2,y2,color='b')
    plt.gca().add_artist(myline)
    plt.gca().add_artist(mynewline)
    plt.show()  
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