geo.jts

Wrapper for the locationtech JTS spatial library. Constructors for points,
coordinate sequences, rings, polygons, multipolygons, and so on.

centroid

(centroid g)
Get the centroid of a JTS object.

coord

(coord point)

coord-array

(coord-array coordinates)

coordinate

(coordinate x y)(coordinate x y z)
Creates a Coordinate.

coordinate-sequence

(coordinate-sequence coordinates)
Given a list of Coordinates, generates a CoordinateSequence.

coordinates

(coordinates geom)
Get a sequence of Coordinates from a Geometry

coords

(coords linestring)

default-srid

envelope

(envelope c1 c2)
Create a JTS envelope from two coordinates.

geom-array

(geom-array geoms)

geometries

(geometries c)
Given a GeometryCollection, generate a sequence of Geometries

geometry-collection

(geometry-collection geometries)
Given a list of Geometries, generates a GeometryCollection.

get-envelope-internal

(get-envelope-internal g)
Get a JTS envelope from a geometry.

get-factory

(get-factory geom)
Gets a GeometryFactory for a given geometry.

get-srid

(get-srid geom)
Gets an integer SRID for a given geometry.

gf

(gf srid)
Creates a GeometryFactory for a given SRID.

gf-wgs84

intersection

(intersection g1 g2)
Get the intersection of two geometries.

linear-ring

(linear-ring coordinates)(linear-ring coordinates srid)
Given a list of Coordinates, creates a LinearRing. Allows an optional SRID argument at end.

linear-ring-array

(linear-ring-array rings)

linear-ring-wkt

(linear-ring-wkt coordinates)(linear-ring-wkt coordinates srid)
Makes a LinearRing from a WKT-style data structure: a flat sequence of
coordinate pairs, e.g. [0 0, 1 0, 0 2, 0 0]. Allows an optional SRID argument at end.

linestring

(linestring coordinates)(linestring coordinates srid)
Given a list of Coordinates, creates a LineString. Allows an optional SRID argument at end.

linestring-wkt

(linestring-wkt coordinates)(linestring-wkt coordinates srid)
Makes a LineString from a WKT-style data structure: a flat sequence of
coordinate pairs, e.g. [0 0, 1 0, 0 2, 0 0]. Allows an optional SRID argument at end.

multi-polygon

(multi-polygon polygons)
Given a list of polygons, generates a MultiPolygon.

multi-polygon-wkt

(multi-polygon-wkt wkt)(multi-polygon-wkt wkt srid)
Creates a MultiPolygon from a WKT-style data structure, e.g. [[[0 0 1 0 2 2
0 0]] [5 5 10 10 6 2]]. Allows an optional SRID argument at end.

pm

point

(point coordinate)(point lat long)(point x y srid)
Creates a Point from a Coordinate, a lat/long, or an x,y pair with an SRID.

point-n

(point-n linestring idx)
Get the point for a linestring at the specified index.

polygon

(polygon shell)(polygon shell holes)
Given a LinearRing shell, and a list of LinearRing holes, generates a
polygon.

polygon-array

(polygon-array polygons)

polygon-wkt

(polygon-wkt rings)(polygon-wkt rings srid)
Generates a polygon from a WKT-style data structure: a sequence of
[outer-ring hole1 hole2 ...], where outer-ring and each hole is a flat list
of coordinate pairs, e.g.

[[0 0 10 0 10 10 0 0]
 [1 1  9 1  9  9 1 1]].

 Allows an optional SRID argument at end.

polygons

(polygons m)
Given a MultiPolygon, generate a sequence of Polygons

same-coords?

(same-coords? c1 c2)
Check if two Coordinates have the same number of dimensions and equal ordinates.

same-geom?

(same-geom? g1 g2)
Check if two geometries are topologically equal, with the same SRID.
Two SRIDs of 0 are considered equal to each other.

same-srid?

(same-srid? g1 g2)
Check if two Geometries have the same SRID. If both geometries have SRIDs of 0, will also return true.

segment-at-idx

(segment-at-idx linestring idx)
LineSegment from a LineString's point at index to index + 1.

set-srid

(set-srid geom srid)
Sets a geometry's SRID to a new value, and returns that geometry.

subdivide

(subdivide g)
Subdivide a Geometry into quadrants around its centroid.

transform-geom

(transform-geom g crs)(transform-geom g crs1 crs2)
Transform a Geometry using a proj4j transform, if needed. Returns a new Geometry if a transform occurs.
When only one CRS is given, get the CRS of the existing geometry.
When two are given, force the transformation to occur between those two systems.

wkt->coords-array

(wkt->coords-array flat-coord-list)