# Substracting inner rings from a list of polygons

I have a large list of polygons (>10^6) most of which are non-intersecting but some of these polygons are hole of another polygon (~10^3 cases). Here a image to explain the problem, the smaller polygon is a hole in the larger polygon but both are independent polygon in the list of polygons.

Now I would like to efficiently determine which polygons are holes and substract the holes i.e. subtract the smaller polygons which lie completely inside in another polygon and return a list of "cleaned" polygons. A pair of hole and parent polygon should be transformed like this (so basically hole subtracted from the parent):

There are plenty of similar questions on Stackoverflow and gis.stackexchange.com but I haven't found one that actually solves this problems. Here are some related questions: 1. https://gis.stackexchange.com/questions/5405/using-shapely-translating-between-polygons-and-multipolygons 2. https://gis.stackexchange.com/questions/319546/converting-list-of-polygons-to-multipolygon-using-shapely

Here is a sample code.

``````from shapely.geometry import Point
from shapely.geometry import MultiPolygon
from shapely.ops import unary_union
import numpy as np

#Generate a list of polygons, where some are holes in others;
def generateRandomPolygons(polygonCount = 100, areaDimension = 1000, holeProbability = 0.5):
pl = []
radiusLarge = 2 #In the real dataset the size of polygons can vary
radiusSmall = 1 #Size of holes can also vary

for i in range(polygonCount):
rn1 = np.random.random(1)
if rn1 < holeProbability: #With a holeProbability add a hole in the large polygon that was just added to the list
return pl

polygons = generateRandomPolygons()
print(len(pl))
``````

Output looks like this:

Now how can I create a new list of polygons with the holes removed. Shapely provides functions to subtract one polygon from another (difference) but is there a similar function for lists of polygons (maybe something like unary_union but where overlaps are removed)? Alternative how to efficiently determine which are holes and then subtract them from the larger polygons?

• Are these really inner rings or holes? An inner ring does not make sense without a hole. Think of a hole as a lake within your land surface, and inner ring as island on this lake. You cannot subtract island from land, but can subtract lake. It is still a single polygon unless you then add an island, which would make it multipolygon. Nov 29, 2019 at 23:55
• as @MichaelEntin says you seem to be conflating multipolygons (a group of polygons like a district with off shore islands) and polygons with holes (a park with a lake in it). How to handle them depends on which you mean Nov 30, 2019 at 7:16
• They are holes. I have corrected my question. Nov 30, 2019 at 9:22

Your problem is you don't know which ones are "holes", right? To "efficiently determine which polygons are holes", you can use an rtree to speed up the intersection check:

``````from rtree.index import Index

# create an rtree for efficient spatial queries
rtree = Index((i, p.bounds, None) for i, p in enumerate(polygons))
donuts = []

for i, this_poly in enumerate(polygons):
# loop over indices of approximately intersecting polygons
for j in rtree.intersection(this_poly.bounds):
# ignore the intersection of this polygon with itself
if i == j:
continue
other_poly = polygons[j]
# ensure the polygon fully contains our match
if this_poly.contains(other_poly):
donut = this_poly.difference(other_poly)
donuts.append(donut)
break  # quit searching

print(len(donuts))
``````