# Why is my shapely polygon generated from a mask invalid?

I am trying to make a shapely Polygon from a binary mask, but I always end up with an invalid Polygon. How can I make a valid polygon from an arbitrary binary mask? Below is an example using a circular mask. I suspect that it is because the points I get from the mask contour are out of order, which is apparent when I plot the points (see images below).

``````import matplotlib.pyplot as plt
import numpy as np
from shapely.geometry import Point, Polygon
from scipy.ndimage.morphology import binary_erosion
from skimage import draw

N = (radius * 2) + 1
se = np.zeros(shape=[N,N])
for i in range(N):
for j in range(N):
se[i,j] = (i - N / 2)**2 + (j - N / 2)**2 <= radius**2
se = np.array(se, dtype="uint8")
return se

return new_regions, np.asarray(new_vertices)

side_len = 512

#makes a polygon from the mask perimeter
print polygon.is_valid

>>False

#plots the results
fig, ax = plt.subplots()
plt.tight_layout()
plt.show()
``````

In fact I already found a solution that worked for me, but maybe someone has a better one. The problem was indeed that my points were out of order. Input coordinate order is crucial for making valid polygons. So, one just has to put the points in the right order first. Below is an example solution using a nearest neighbor approach with a KDTree, which I've already posted elsewhere for related problems.

``````from sklearn.neighbors import KDTree

def polygonize_by_nearest_neighbor(pp):
"""Takes a set of xy coordinates pp Numpy array(n,2) and reorders the array to make
a polygon using a nearest neighbor approach.

"""

pp_new = np.zeros_like(pp)
pp_new[0] = pp[0]
p_current_idx = 0

tree = KDTree(pp)

for i in range(len(pp) - 1):

nearest_dist, nearest_idx = tree.query([pp[p_current_idx]], k=4)  # k1 = identity
nearest_idx = nearest_idx[0]

# finds next nearest point along the contour and adds it
for min_idx in nearest_idx[1:]:  # skip the first point (will be zero for same pixel)
if not pp[min_idx].tolist() in pp_new.tolist():  # make sure it's not already in the list
pp_new[i + 1] = pp[min_idx]
p_current_idx = min_idx
break

pp_new[-1] = pp[0]
return pp_new