# Is there a way to convert a self intersecting polygon to a multipolygon in JTS?

Take the invalid polygon `POLYGON((0 100, 100 100, 0 0, 100 0, 0 100))` - an egg timer shape with an undeclared point of intersection

Many instructions say that JTS can create a valid version of this using the `buffer` method:

``````Geometry input = new WKTReader().read("POLYGON((0 100, 100 100, 0 0, 100 0, 0 100))");
Geometry output = geom.buffer(0);
return output;
``````

However, this produces the output `POLYGON ((0 100, 100 100, 50 50, 0 100))` where part of the polygon is lost:

Is there a way to get JTS to validate polygons such that it will produce the output `MULTIPOLYGON(((0 100, 100 100, 50 50, 0 100)), ((0 0, 100 0, 50 50, 0 0)))` for the input given?

This seems like something that should be built in to the API (maybe this behaviour is a bug) - have I missed something?

Thank you.

• Actually, this solution is not correct. Which parts of the original self-intersecting shape are the ones you want? The code cannot know this. If you apply this to GIS, the problem gets even bigger. Self-intersecting polygons are not allowed under OGC rules for a very, very good reason. Mar 7, 2017 at 19:11

JTS seems to offer the behaviour I require, though I had to do a little legwork in my own code. The `validate` function I wrote breaks down a polygon/multipolygon into a collection of non self intersecting linestrings, and then uses the `Polygonizer` class to build polygons from the result. I have tested it on the following (limited) set of inputs, and it seems to behave the way I require:

``````    POLYGON((0 100, 100 100, 0 0, 100 0, 0 100))
POLYGON((0 0, 0 100, 100 100, 100 0, 0 0))
MULTIPOLYGON(((0 0, 0 100, 100 100, 100 0, 0 0)),((50 50, 50 150, 150 150, 150 50, 50 50)))
POLYGON((0 0, 50 50, 100 0, 150 0, 200 50, 250 0, 0 0))
``````

Code:

``````/**
* Get / create a valid version of the geometry given. If the geometry is a polygon or multi polygon, self intersections /
* inconsistencies are fixed. Otherwise the geometry is returned.
*
* @param geom
* @return a geometry
*/
public static Geometry validate(Geometry geom){
if(geom instanceof Polygon){
if(geom.isValid()){
geom.normalize(); // validate does not pick up rings in the wrong order - this will fix that
return geom; // If the polygon is valid just return it
}
Polygonizer polygonizer = new Polygonizer();
}else if(geom instanceof MultiPolygon){
if(geom.isValid()){
geom.normalize(); // validate does not pick up rings in the wrong order - this will fix that
return geom; // If the multipolygon is valid just return it
}
Polygonizer polygonizer = new Polygonizer();
for(int n = geom.getNumGeometries(); n-- > 0;){
}
}else{
return geom; // In my case, I only care about polygon / multipolygon geometries
}
}

/**
* Add all line strings from the polygon given to the polygonizer given
*
* @param polygon polygon from which to extract line strings
* @param polygonizer polygonizer
*/
static void addPolygon(Polygon polygon, Polygonizer polygonizer){
for(int n = polygon.getNumInteriorRing(); n-- > 0;){
}
}

/**
* Add the linestring given to the polygonizer
*
* @param linestring line string
* @param polygonizer polygonizer
*/
static void addLineString(LineString lineString, Polygonizer polygonizer){

if(lineString instanceof LinearRing){ // LinearRings are treated differently to line strings : we need a LineString NOT a LinearRing
lineString = lineString.getFactory().createLineString(lineString.getCoordinateSequence());
}

// unioning the linestring with the point makes any self intersections explicit.
Point point = lineString.getFactory().createPoint(lineString.getCoordinateN(0));

}

/**
* Get a geometry from a collection of polygons.
*
* @param polygons collection
* @param factory factory to generate MultiPolygon if required
* @return null if there were no polygons, the polygon if there was only one, or a MultiPolygon containing all polygons otherwise
*/
static Geometry toPolygonGeometry(Collection<Polygon> polygons, GeometryFactory factory){
switch(polygons.size()){
case 0:
return null; // No valid polygons!
case 1:
return polygons.iterator().next(); // single polygon - no need to wrap
default:
//polygons may still overlap! Need to sym difference them
Iterator<Polygon> iter = polygons.iterator();
Geometry ret = iter.next();
while(iter.hasNext()){
ret = ret.symDifference(iter.next());
}
return ret;
}
}
``````
• Ok, I know this should not be in a comment but ... How do I buy you a beer? (I'm 100% serious) Feb 8, 2016 at 14:25
• How can I make it work for something like: POLYGON((0 100, 100 100, 0 0, 100 0, 0 100), (55 20, 45 10, 55 10, 45 20, 55 20)) Jan 18, 2018 at 20:51
• Any way to to this for self-intersecting LINESTRINGs? Jun 26, 2022 at 13:17