# Fix invalid polygon in Shapely

Shapely defines a Polygon as invalid if any of its segments intersect, including segments that are colinear. Many software packages will create a region or area with a "cutout" as shown here which has colinear segments:

``````>>> pp = Polygon([(0,0), (0,3), (3,3), (3,0), (2,0),
(2,2), (1,2), (1,1), (2,1), (2,0), (0,0)])
>>> pp.is_valid
WARNING:shapely.geos:Self-intersection at or near point 2 0
False
``````

Naturally, the cutout can be implemented natively in Shapely, or this same geometry can be implemented as two valid polygons, but if I only have the list of points shown above, is there an easy to "fix" this (create valid geometry from this list of points)?

I found a solution that works for the specific case given:

``````>>> pp2 = pp.buffer(0)
>>> pp2.is_valid
True
>>> pp2.exterior.coords[:]
[(0.0, 0.0), (0.0, 3.0), (3.0, 3.0), (3.0, 0.0), (2.0, 0.0), (0.0, 0.0)]
>>> pp2.interiors[0].coords[:]
[(2.0, 1.0), (2.0, 2.0), (1.0, 2.0), (1.0, 1.0), (2.0, 1.0)]
``````
• I find that this buffer( 0 ) method works in general for fixing polygons with coincident lines among sub-polygons. This is very useful. Do you know of a place where this trick is officially recommended/sanctioned? Mar 23, 2014 at 22:20
• This method did not fix my issue: I had some self-intersecting multipolygons. Sep 15, 2017 at 16:35
• You need to be a little careful with the `buffer(0)` technique. We've had bowtie cases where it destroyed the big part of the polygon and left just a small bowtied corner. YMMV. Dec 6, 2017 at 11:31
• For me it made a valid polygon but it no longer had any .exterior.coords so it still did not work for a .within(polygon) analysis. Feb 12, 2021 at 20:29
• Does anyone knows if a solution exists for this now? As much as i undertand @AidanKane didn't recommended the `buffer(0)`. Jul 3, 2021 at 7:08

Shapely implemented a solution for this. Through pip you can use any shapely version >= 1.8a3 and import this way:

``````from shapely.validation import make_valid
``````

The current version of shapely available via pip and conda includes the `make_valid` function. If you need to install an older version of shapely, you can use the shapely implementation as shown below:

``````def make_valid(ob):

from shapely.geometry.base import geom_factory
from shapely.geos import lgeos

if ob.is_valid:
return ob

return geom_factory(lgeos.GEOSMakeValid(ob._geom))
``````
• This doesn't work, the following exception is raised: AttributeError: 'LGEOS360' object has no attribute 'GEOSMakeValid' Any objections, how to solve this? I would like to use the make_valid function but on a stable release (and no alpha release) ... Oct 1, 2021 at 15:18
• make_valid is better than a buffer(0) which can change the geometry completely. The the doc's second example in particular is a good example to test both methods. Mar 7, 2023 at 13:27

Untested, but it appears that Shapely have added a function to support this now.

simplest solution

``````new_polygon = pp.buffer(0)
new_polygon.is_valid
``````

maybe it would be work.

This is my first attempt at a fix geometry function. I had to handle the special case where a polygons are converted to multipolygons, where `make_valid` doesn't work b/c `len(make_valid(feature)) !=1`.

``````from shapely.validation import make_valid

def fix_geom(in_feature):

# avoid changing original geodf
in_feature = in_feature.copy(deep=True)

# drop any missing geometries
in_feature = in_feature[~(in_feature.is_empty)]

# Repair broken geometries
for index, row in in_feature.iterrows(): # Looping over all polygons
if row['geometry'].is_valid:
next
else:
fix = make_valid(row['geometry'])

try:
in_feature.loc[[index],'geometry'] =  fix # issue with Poly > Multipolygon
except ValueError:
in_feature.loc[[index],'geometry'] =  in_feature.loc[[index], 'geometry'].buffer(0)
return in_feature
``````

I have used the .buffer(0) method a lot, but it gave different results on Windows and on Linux. Therefore if you encounter such a problem, remember that:

Warning: The .buffer(0) function of shapely may behave different on different operating systems, i.e. Windows and Linux. I had examples, where on Linux an empty Polygon is returned while on Windows the correct non-empty Polygon is returned!

This problem took me days to solve, that's why I want to add that as an answer (my suggested edit to the accepted answer was sadly rejected).