Uses of Class
org.locationtech.jts.geom.Geometry
Packages that use Geometry
Package
Description
Contains classes and interfaces implementing fundamental computational geometry algorithms.
Provides classes that implement various kinds of geometric constructions.
Classes to compute distance metrics between geometries.
Contains classes implementing algorithms to compute hulls
of geometry objects.
Classes to determine the topological location of points in geometries.
Classes to compute matching metrics between geometries.
Classes to perform conversions from Java2D shape objects.
Classes that operate on polygonal coverages.
Classes to perform densification on geometries.
Contains the
Geometry interface hierarchy and supporting classes.Classes to perform optimized geometric operations on suitably prepared geometries.
Provides classes that parse and modify Geometry objects.
Contains classes that implement topology graphs.
Contains the interfaces for converting JTS objects to and from other formats.
Classes to read and write the GML2 geometry format.
Contains classes and interfaces implementing linear referencing on linear geometries
Classes to compute nodings for arrangements of line segments and line segment sequences.
Provides classes for implementing operations on geometries
Provides classes for computing buffers of geometries
Classes to perform validation of the results of buffer operations.
Provides classes for computing the distance between geometries
Classes to perform line merging.
Contains classes that perform a topological overlay to compute boolean spatial functions.
Classes to perform snapping on geometries to prepare them for overlay operations.
Classes to validate the results of overlay operations.
Contains classes that perform vector overlay
to compute boolean set-theoretic spatial functions.
An API for polygonizing sets of lines.
Classes which implement topological predicates optimized for particular kinds of geometries.
Contains classes to implement the computation of the spatial relationships of
Geometrys.Provides classes to implement the RelateNG algorithm
computes topological relationships of
s.
invalid reference
GeometryClasses to perform efficient unioning of collections of geometries.
Classes for testing the validity and simplicity of geometries,
as defined in the OGC Simple Features specification.
Provides classes for analyzing and
manipulating the precision of Geometries.
Classes which implement algorithms for simplifying or generalizing geometries.
Classes to compute Delaunay triangulations.
Classes for triangulating polygons.
Classes to implement a topological subdivision of quadeges, to support creating triangulations
and Voronoi diagrams.
Classes for representing a planar triangulation as a set of linked triangles.
Contains support classes for the Java Topology Suite.
-
Uses of Geometry in org.locationtech.jts.algorithm
Methods in org.locationtech.jts.algorithm that return GeometryModifier and TypeMethodDescriptionMinimumBoundingCircle.getCircle()Gets a geometry which represents the Minimum Bounding Circle.ConvexHull.getConvexHull()Returns aGeometrythat represents the convex hull of the input geometry.MinimumBoundingCircle.getDiameter()Gets a geometry representing the diameter of the computed Minimum Bounding Circle.MinimumBoundingCircle.getFarthestPoints()Deprecated.use #getMaximumDiameter()MinimumBoundingCircle.getMaximumDiameter()Gets a geometry representing the maximum diameter of the input.static GeometryMinimumDiameter.getMinimumDiameter(Geometry geom) Gets the length of the minimum diameter enclosing a geometrystatic GeometryMinimumAreaRectangle.getMinimumRectangle(Geometry geom) Gets the minimum-area rectangularPolygonwhich encloses the input geometry.MinimumDiameter.getMinimumRectangle()Gets the rectangularPolygonwhich encloses the input geometry and is based on the minimum diameter supporting segment.static GeometryMinimumDiameter.getMinimumRectangle(Geometry geom) Gets the minimum-width rectangularPolygonwhich encloses the input geometry and is based along the supporting segment.Methods in org.locationtech.jts.algorithm with parameters of type GeometryModifier and TypeMethodDescriptionstatic CoordinateCentroid.getCentroid(Geometry geom) Computes the centroid point of a geometry.static CoordinateInteriorPoint.getInteriorPoint(Geometry geom) Computes a location of an interior point in aGeometry.static CoordinateInteriorPointArea.getInteriorPoint(Geometry geom) Computes an interior point for the polygonal components of a Geometry.static CoordinateInteriorPointLine.getInteriorPoint(Geometry geom) Computes an interior point for the linear components of a Geometry.static CoordinateInteriorPointPoint.getInteriorPoint(Geometry geom) Computes an interior point for the puntal components of a Geometry.static GeometryMinimumDiameter.getMinimumDiameter(Geometry geom) Gets the length of the minimum diameter enclosing a geometrystatic GeometryMinimumAreaRectangle.getMinimumRectangle(Geometry geom) Gets the minimum-area rectangularPolygonwhich encloses the input geometry.static GeometryMinimumDiameter.getMinimumRectangle(Geometry geom) Gets the minimum-width rectangularPolygonwhich encloses the input geometry and is based along the supporting segment.booleanPointLocator.intersects(Coordinate p, Geometry geom) Convenience method to test a point for intersection with a GeometryintPointLocator.locate(Coordinate p, Geometry geom) Computes the topological relationship (Location) of a single point to a Geometry.Constructors in org.locationtech.jts.algorithm with parameters of type GeometryModifierConstructorDescriptionCreates a new instance for computing the centroid of a geometryConvexHull(Geometry geometry) Create a new convex hull construction for the inputGeometry.Creates a new interior point finder for an areal geometry.MinimumAreaRectangle(Geometry inputGeom) Compute a minimum-area rectangle for a givenGeometry.MinimumAreaRectangle(Geometry inputGeom, boolean isConvex) Compute a minimum rectangle for aGeometry, with a hint if the geometry is convex (e.g. a convex Polygon or LinearRing, or a two-point LineString, or a Point).Creates a new object for computing the minimum bounding circle for the point set defined by the vertices of the given geometry.MinimumDiameter(Geometry inputGeom) Compute a minimum diameter for a givenGeometry.MinimumDiameter(Geometry inputGeom, boolean isConvex) Compute a minimum diameter for a giverGeometry, with a hint if the Geometry is convex (e.g. a convex Polygon or LinearRing, or a two-point LineString, or a Point). -
Uses of Geometry in org.locationtech.jts.algorithm.axis
Methods in org.locationtech.jts.algorithm.axis that return GeometryModifier and TypeMethodDescriptionstatic GeometryApproximateMedialAxis.medialAxis(Geometry geom) Methods in org.locationtech.jts.algorithm.axis with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryApproximateMedialAxis.medialAxis(Geometry geom) -
Uses of Geometry in org.locationtech.jts.algorithm.construct
Methods in org.locationtech.jts.algorithm.construct with parameters of type GeometryModifier and TypeMethodDescriptionstatic PointComputes the center point of the Largest Empty Circle interior-disjoint to a set of obstacles, with accuracy to a given tolerance distance.static PointComputes the center point of the Largest Empty Circle interior-disjoint to a set of obstacles and within a polygonal boundary, with accuracy to a given tolerance distance.static PointComputes the center point of the Maximum Inscribed Circle of a polygonal geometry, up to a given tolerance distance.static LineStringLargestEmptyCircle.getRadiusLine(Geometry obstacles, double tolerance) Computes a radius line of the Largest Empty Circle interior-disjoint to a set of obstacles, with accuracy to a given tolerance distance.static LineStringLargestEmptyCircle.getRadiusLine(Geometry obstacles, Geometry boundary, double tolerance) Computes a radius line of the Largest Empty Circle interior-disjoint to a set of obstacles and within a polygonal boundary, with accuracy to a given tolerance distance.static LineStringMaximumInscribedCircle.getRadiusLine(Geometry polygonal, double tolerance) Computes a radius line of the Maximum Inscribed Circle of a polygonal geometry, up to a given tolerance distance.Constructors in org.locationtech.jts.algorithm.construct with parameters of type GeometryModifierConstructorDescriptionLargestEmptyCircle(Geometry obstacles, Geometry boundary, double tolerance) Creates a new instance of a Largest Empty Circle construction, interior-disjoint to a set of obstacle geometries and having its center within a polygonal boundary.MaximumInscribedCircle(Geometry polygonal, double tolerance) Creates a new instance of a Maximum Inscribed Circle computation. -
Uses of Geometry in org.locationtech.jts.algorithm.distance
Methods in org.locationtech.jts.algorithm.distance with parameters of type GeometryModifier and TypeMethodDescriptionstatic voidDistanceToPoint.computeDistance(Geometry geom, Coordinate pt, PointPairDistance ptDist) static doubleComputes the Discrete Fréchet Distance between twoGeometrys using aCartesiandistance computation function.static doublestatic doubleConstructors in org.locationtech.jts.algorithm.distance with parameters of type GeometryModifierConstructorDescriptionDiscreteFrechetDistance(Geometry g0, Geometry g1) Creates an instance of this class using the provided geometries.MaxDensifiedByFractionDistanceFilter(Geometry geom, double fraction) -
Uses of Geometry in org.locationtech.jts.algorithm.hull
Methods in org.locationtech.jts.algorithm.hull that return GeometryModifier and TypeMethodDescriptionstatic GeometryConcaveHull.alphaShape(Geometry geom, double alpha, boolean isHolesAllowed) Computes the alpha shape of a geometry as a polygon.static GeometryConcaveHullOfPolygons.concaveFillByLength(Geometry polygons, double maxLength) Computes a concave fill area between a set of polygons, using the target criterion of maximum edge length.static GeometryConcaveHullOfPolygons.concaveFillByLengthRatio(Geometry polygons, double lengthRatio) Computes a concave fill area between a set of polygons, using the target criterion of maximum edge length ratio.static GeometryConcaveHull.concaveHullByLength(Geometry geom, double maxLength) Computes a concave hull of the vertices in a geometry using the target criterion of maximum edge length.static GeometryConcaveHull.concaveHullByLength(Geometry geom, double maxLength, boolean isHolesAllowed) Computes a concave hull of the vertices in a geometry using the target criterion of maximum edge length, and optionally allowing holes.static GeometryConcaveHullOfPolygons.concaveHullByLength(Geometry polygons, double maxLength) Computes a concave hull of set of polygons using the target criterion of maximum edge length.static GeometryConcaveHullOfPolygons.concaveHullByLength(Geometry polygons, double maxLength, boolean isTight, boolean isHolesAllowed) Computes a concave hull of set of polygons using the target criterion of maximum edge length, and allowing control over whether the hull boundary is tight and can contain holes.static GeometryConcaveHull.concaveHullByLengthRatio(Geometry geom, double lengthRatio) Computes a concave hull of the vertices in a geometry using the target criterion of maximum edge length ratio.static GeometryConcaveHull.concaveHullByLengthRatio(Geometry geom, double lengthRatio, boolean isHolesAllowed) Computes a concave hull of the vertices in a geometry using the target criterion of maximum edge length factor, and optionally allowing holes.static GeometryConcaveHullOfPolygons.concaveHullByLengthRatio(Geometry polygons, double lengthRatio) Computes a concave hull of set of polygons using the target criterion of maximum edge length ratio.static GeometryConcaveHullOfPolygons.concaveHullByLengthRatio(Geometry polygons, double lengthRatio, boolean isTight, boolean isHolesAllowed) Computes a concave hull of set of polygons using the target criterion of maximum edge length ratio, and allowing control over whether the hull boundary is tight and can contain holes.ConcaveHullOfPolygons.getFill()Gets the concave fill, which is the area between the input polygons, subject to the concaveness control parameter.ConcaveHull.getHull()Gets the computed concave hull.ConcaveHullOfPolygons.getHull()Gets the computed concave hull.Methods in org.locationtech.jts.algorithm.hull with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryConcaveHull.alphaShape(Geometry geom, double alpha, boolean isHolesAllowed) Computes the alpha shape of a geometry as a polygon.static GeometryConcaveHullOfPolygons.concaveFillByLength(Geometry polygons, double maxLength) Computes a concave fill area between a set of polygons, using the target criterion of maximum edge length.static GeometryConcaveHullOfPolygons.concaveFillByLengthRatio(Geometry polygons, double lengthRatio) Computes a concave fill area between a set of polygons, using the target criterion of maximum edge length ratio.static GeometryConcaveHull.concaveHullByLength(Geometry geom, double maxLength) Computes a concave hull of the vertices in a geometry using the target criterion of maximum edge length.static GeometryConcaveHull.concaveHullByLength(Geometry geom, double maxLength, boolean isHolesAllowed) Computes a concave hull of the vertices in a geometry using the target criterion of maximum edge length, and optionally allowing holes.static GeometryConcaveHullOfPolygons.concaveHullByLength(Geometry polygons, double maxLength) Computes a concave hull of set of polygons using the target criterion of maximum edge length.static GeometryConcaveHullOfPolygons.concaveHullByLength(Geometry polygons, double maxLength, boolean isTight, boolean isHolesAllowed) Computes a concave hull of set of polygons using the target criterion of maximum edge length, and allowing control over whether the hull boundary is tight and can contain holes.static GeometryConcaveHull.concaveHullByLengthRatio(Geometry geom, double lengthRatio) Computes a concave hull of the vertices in a geometry using the target criterion of maximum edge length ratio.static GeometryConcaveHull.concaveHullByLengthRatio(Geometry geom, double lengthRatio, boolean isHolesAllowed) Computes a concave hull of the vertices in a geometry using the target criterion of maximum edge length factor, and optionally allowing holes.static GeometryConcaveHullOfPolygons.concaveHullByLengthRatio(Geometry polygons, double lengthRatio) Computes a concave hull of set of polygons using the target criterion of maximum edge length ratio.static GeometryConcaveHullOfPolygons.concaveHullByLengthRatio(Geometry polygons, double lengthRatio, boolean isTight, boolean isHolesAllowed) Computes a concave hull of set of polygons using the target criterion of maximum edge length ratio, and allowing control over whether the hull boundary is tight and can contain holes.static doubleConcaveHull.uniformGridEdgeLength(Geometry geom) Computes the approximate edge length of a uniform square grid having the same number of points as a geometry and the same area as its convex hull.Constructors in org.locationtech.jts.algorithm.hull with parameters of type GeometryModifierConstructorDescriptionConcaveHull(Geometry geom) Creates a new instance for a given geometry.ConcaveHullOfPolygons(Geometry polygons) Creates a new instance for a given geometry. -
Uses of Geometry in org.locationtech.jts.algorithm.locate
Methods in org.locationtech.jts.algorithm.locate with parameters of type GeometryModifier and TypeMethodDescriptionstatic booleanSimplePointInAreaLocator.isContained(Coordinate p, Geometry geom) Determines whether a point is contained in aGeometry, or lies on its boundary.static intSimplePointInAreaLocator.locate(Coordinate p, Geometry geom) Constructors in org.locationtech.jts.algorithm.locate with parameters of type GeometryModifierConstructorDescriptionCreates a new locator for a givenGeometry.Create an instance of a point-in-area locator, using the provided areal geometry. -
Uses of Geometry in org.locationtech.jts.algorithm.match
Methods in org.locationtech.jts.algorithm.match with parameters of type GeometryModifier and TypeMethodDescriptiondoubledoubledoubledoubleComputes the similarity measure between two geometries -
Uses of Geometry in org.locationtech.jts.awt
Methods in org.locationtech.jts.awt that return GeometryModifier and TypeMethodDescriptionstatic GeometryFontGlyphReader.read(String text, Font font, double flatness, GeometryFactory geomFact) static GeometryFontGlyphReader.read(String text, Font font, GeometryFactory geomFact) static GeometryFontGlyphReader.read(String text, String fontName, int pointSize, GeometryFactory geomFact) Converts text rendered in the given font and pointsize to aGeometryusing a standard flatness factor.ShapeReader.read(PathIterator pathIt) Converts a flat path to aGeometry.static GeometryShapeReader.read(PathIterator pathIt, GeometryFactory geomFact) Converts a flat path to aGeometry.static GeometryShapeReader.read(Shape shp, double flatness, GeometryFactory geomFact) Converts a Shape to a Geometry, flattening it first.Methods in org.locationtech.jts.awt with parameters of type Geometry -
Uses of Geometry in org.locationtech.jts.coverage
Methods in org.locationtech.jts.coverage that return GeometryModifier and TypeMethodDescriptionCoverageGapFinder.findGaps(double gapWidth) Finds gaps in the coverage.static GeometryFinds gaps in a polygonal coverage.Geometry[]CoverageSimplifier.simplify(double tolerance) Computes the simplified coverage using a single distance tolerance, preserving the coverage topology.Geometry[]CoverageSimplifier.simplify(double[] tolerances) Computes the simplified coverage using separate distance tolerances for each coverage element, preserving the coverage topology.Geometry[]CoverageSimplifier.simplify(double toleranceInner, double toleranceOuter) Computes the simplified coverage using separate distance tolerances for inner and outer edges, preserving the coverage topology.static Geometry[]Simplifies the boundaries of a set of polygonal geometries forming a coverage, preserving the coverage topology.static Geometry[]Simplifies the boundaries of a set of polygonal geometries forming a coverage, preserving the coverage topology, using a separate tolerance for each element of the coverage.static Geometry[]CoverageSimplifier.simplifyInner(Geometry[] coverage, double tolerance) Simplifies the inner boundaries of a set of polygonal geometries forming a coverage, preserving the coverage topology.static Geometry[]CoverageSimplifier.simplifyOuter(Geometry[] coverage, double tolerance) Simplifies the outer boundaries of a set of polygonal geometries forming a coverage, preserving the coverage topology.static GeometryUnions a polygonal coverage.CoveragePolygonValidator.validate()Validates the coverage polygon against the set of adjacent polygons in the coverage.static GeometryValidates that a polygon is coverage-valid against the surrounding polygons in a polygonal coverage.static GeometryValidates that a polygon is coverage-valid against the surrounding polygons in a polygonal coverage, and forms no gaps narrower than a specified width.Geometry[]CoverageValidator.validate()Validates the polygonal coverage.static Geometry[]Validates that a set of polygons forms a valid polygonal coverage, and returns linear geometries indicating the locations of invalidities, if any.static Geometry[]Validates that a set of polygons forms a valid polygonal coverage and contains no gaps narrower than a specified width.Methods in org.locationtech.jts.coverage with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryFinds gaps in a polygonal coverage.static booleanCoverageValidator.hasInvalidResult(Geometry[] validateResult) Tests if some element of an array of geometries is a coverage invalidity indicator.static booleanTests whether a polygonal coverage is valid.static Geometry[]Simplifies the boundaries of a set of polygonal geometries forming a coverage, preserving the coverage topology.static Geometry[]Simplifies the boundaries of a set of polygonal geometries forming a coverage, preserving the coverage topology, using a separate tolerance for each element of the coverage.static Geometry[]CoverageSimplifier.simplifyInner(Geometry[] coverage, double tolerance) Simplifies the inner boundaries of a set of polygonal geometries forming a coverage, preserving the coverage topology.static Geometry[]CoverageSimplifier.simplifyOuter(Geometry[] coverage, double tolerance) Simplifies the outer boundaries of a set of polygonal geometries forming a coverage, preserving the coverage topology.static GeometryUnions a polygonal coverage.static GeometryValidates that a polygon is coverage-valid against the surrounding polygons in a polygonal coverage.static GeometryValidates that a polygon is coverage-valid against the surrounding polygons in a polygonal coverage, and forms no gaps narrower than a specified width.static Geometry[]Validates that a set of polygons forms a valid polygonal coverage, and returns linear geometries indicating the locations of invalidities, if any.static Geometry[]Validates that a set of polygons forms a valid polygonal coverage and contains no gaps narrower than a specified width.Constructors in org.locationtech.jts.coverage with parameters of type GeometryModifierConstructorDescriptionCoverageGapFinder(Geometry[] coverage) Creates a new polygonal coverage gap finder.CoveragePolygonValidator(Geometry geom, Geometry[] adjGeoms) Create a new validator.CoverageSimplifier(Geometry[] coverage) Create a new coverage simplifier instance.CoverageValidator(Geometry[] coverage) Creates a new coverage validator -
Uses of Geometry in org.locationtech.jts.densify
Methods in org.locationtech.jts.densify that return GeometryModifier and TypeMethodDescriptionstatic GeometryDensifies a geometry using a given distance tolerance, and respecting the input geometry'sPrecisionModel.Densifier.getResultGeometry()Gets the densified geometry.Methods in org.locationtech.jts.densify with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryDensifies a geometry using a given distance tolerance, and respecting the input geometry'sPrecisionModel.Constructors in org.locationtech.jts.densify with parameters of type Geometry -
Uses of Geometry in org.locationtech.jts.dissolve
Methods in org.locationtech.jts.dissolve that return GeometryModifier and TypeMethodDescriptionstatic GeometryDissolves the linear components in a geometry.LineDissolver.getResult()Gets the dissolved result as a MultiLineString.Methods in org.locationtech.jts.dissolve with parameters of type Geometry -
Uses of Geometry in org.locationtech.jts.edgegraph
Methods in org.locationtech.jts.edgegraph with parameters of type Geometry -
Uses of Geometry in org.locationtech.jts.geom
Subclasses of Geometry in org.locationtech.jts.geomModifier and TypeClassDescriptionclassModels a collection ofGeometrys of arbitrary type and dimension.classModels an OGC SFSLinearRing.classModels an OGC-styleLineString.classModels a collection ofLineStrings.classModels a collection ofPoints.classModels a collection ofPolygons.classRepresents a single point.classRepresents a polygon with linear edges, which may include holes.Fields in org.locationtech.jts.geom declared as GeometryModifier and TypeFieldDescriptionprotected Geometry[]GeometryCollection.geometriesInternal representation of thisGeometryCollection.Methods in org.locationtech.jts.geom that return GeometryModifier and TypeMethodDescriptionGeometry.buffer(double distance) Computes a buffer area around this geometry having the given width.Geometry.buffer(double distance, int quadrantSegments) Computes a buffer area around this geometry having the given width and with a specified accuracy of approximation for circular arcs.Geometry.buffer(double distance, int quadrantSegments, int endCapStyle) Computes a buffer area around this geometry having the given width and with a specified accuracy of approximation for circular arcs, and using a specified end cap style.GeometryFactory.buildGeometry(Collection geomList) Build an appropriateGeometry,MultiGeometry, orGeometryCollectionto contain theGeometrys in it.Geometry.convexHull()Computes the smallest convexPolygonthat contains all the points in theGeometry.Polygon.convexHull()Geometry.copy()Creates a deep copy of thisGeometryobject.protected abstract GeometryGeometry.copyInternal()An internal method to copy subclass-specific geometry data.GeometryFactory.createEmpty(int dimension) Creates an empty atomic geometry of the given dimension.GeometryFactory.createGeometry(Geometry g) Creates a deep copy of the inputGeometry.Geometry.difference(Geometry other) Computes aGeometryrepresenting the closure of the point-set of the points contained in thisGeometrythat are not contained in theotherGeometry.abstract GeometryGeometry.getBoundary()Returns the boundary, or an empty geometry of appropriate dimension if thisGeometryis empty.GeometryCollection.getBoundary()LineString.getBoundary()Gets the boundary of this geometry.MultiLineString.getBoundary()Gets the boundary of this geometry.MultiPoint.getBoundary()Gets the boundary of this geometry.MultiPolygon.getBoundary()Computes the boundary of this geometryPoint.getBoundary()Gets the boundary of this geometry.Polygon.getBoundary()Computes the boundary of this geometryGeometry.getEnvelope()Gets a Geometry representing the envelope (bounding box) of thisGeometry.Geometry.getGeometryN(int n) Returns an elementGeometryfrom aGeometryCollection(orthis, if the geometry is not a collection).GeometryCollection.getGeometryN(int n) Geometry.intersection(Geometry other) Computes aGeometryrepresenting the point-set which is common to both thisGeometryand theotherGeometry.Geometry.norm()Creates a new Geometry which is a normalized copy of this Geometry.static GeometryOctagonalEnvelope.octagonalEnvelope(Geometry geom) Gets the octagonal envelope of a geometryGeometry.reverse()Computes a new geometry which has all component coordinate sequences in reverse order (opposite orientation) to this one.protected abstract GeometryGeometry.reverseInternal()Geometry.symDifference(Geometry other) Computes aGeometryrepresenting the closure of the point-set which is the union of the points in thisGeometrywhich are not contained in theotherGeometry, with the points in theotherGeometry not contained in thisGeometry.GeometryFactory.toGeometry(Envelope envelope) Creates aGeometrywith the same extent as the given envelope.OctagonalEnvelope.toGeometry(GeometryFactory geomFactory) static Geometry[]GeometryFactory.toGeometryArray(Collection geometries) Converts theListto an array.Geometry.union()Computes the union of all the elements of this geometry.Computes aGeometryrepresenting the point-set which is contained in both thisGeometryand theotherGeometry.Methods in org.locationtech.jts.geom with parameters of type GeometryModifier and TypeMethodDescriptionbooleanTests whether this geometry contains the argument geometry.booleanTests whether this geometry is covered by the argument geometry.booleanTests whether this geometry covers the argument geometry.GeometryFactory.createGeometry(Geometry g) Creates a deep copy of the inputGeometry.GeometryFactory.createGeometryCollection(Geometry[] geometries) Creates a GeometryCollection using the given Geometries; a null or empty array will create an empty GeometryCollection.static PointGeometryFactory.createPointFromInternalCoord(Coordinate coord, Geometry exemplar) booleanTests whether this geometry crosses the argument geometry.Geometry.difference(Geometry other) Computes aGeometryrepresenting the closure of the point-set of the points contained in thisGeometrythat are not contained in theotherGeometry.booleanTests whether this geometry is disjoint from the argument geometry.doubleReturns the minimum distance between thisGeometryand anotherGeometry.booleanTests whether this geometry is topologically equal to the argument geometry.booleanGeometry.equalsExact(Geometry other) Returns true if the twoGeometrys are exactly equal.abstract booleanGeometry.equalsExact(Geometry other, double tolerance) Returns true if the twoGeometrys are exactly equal, up to a specified distance tolerance.booleanGeometryCollection.equalsExact(Geometry other, double tolerance) booleanLineString.equalsExact(Geometry other, double tolerance) booleanMultiLineString.equalsExact(Geometry other, double tolerance) booleanMultiPoint.equalsExact(Geometry other, double tolerance) booleanMultiPolygon.equalsExact(Geometry other, double tolerance) booleanPoint.equalsExact(Geometry other, double tolerance) booleanPolygon.equalsExact(Geometry other, double tolerance) booleanGeometry.equalsNorm(Geometry g) Tests whether two geometries are exactly equal in their normalized forms.booleanGeometry.equalsTopo(Geometry g) Tests whether this geometry is topologically equal to the argument geometry as defined by the SFSequalspredicate.voidOctagonalEnvelope.expandToInclude(Geometry g) voidPerforms an operation with or on a geometry component.voidPerforms an operation with or ongeom.protected static booleanGeometry.hasNonEmptyElements(Geometry[] geometries) Returns true if the array contains any non-emptyGeometrys.Geometry.intersection(Geometry other) Computes aGeometryrepresenting the point-set which is common to both thisGeometryand theotherGeometry.booleanGeometry.intersects(Geometry g) Tests whether this geometry intersects the argument geometry.protected booleanGeometry.isEquivalentClass(Geometry other) Returns whether the twoGeometrys are equal, from the point of view of theequalsExactmethod.protected booleanLineString.isEquivalentClass(Geometry other) booleanGeometry.isWithinDistance(Geometry geom, double distance) Tests whether the distance from thisGeometryto another is less than or equal to a specified value.static GeometryOctagonalEnvelope.octagonalEnvelope(Geometry geom) Gets the octagonal envelope of a geometrybooleanTests whether this geometry overlaps the specified geometry.Returns the DE-9IMIntersectionMatrixfor the twoGeometrys.booleanTests whether the elements in the DE-9IMIntersectionMatrixfor the twoGeometrys match the elements inintersectionPattern.Geometry.symDifference(Geometry other) Computes aGeometryrepresenting the closure of the point-set which is the union of the points in thisGeometrywhich are not contained in theotherGeometry, with the points in theotherGeometry not contained in thisGeometry.booleanTests whether this geometry touches the argument geometry.Computes aGeometryrepresenting the point-set which is contained in both thisGeometryand theotherGeometry.booleanTests whether this geometry is within the specified geometry.Constructors in org.locationtech.jts.geom with parameters of type GeometryModifierConstructorDescriptionGeometryCollection(Geometry[] geometries, GeometryFactory factory) GeometryCollection(Geometry[] geometries, PrecisionModel precisionModel, int SRID) Deprecated.Use GeometryFactory insteadGeometryCollectionIterator(Geometry parent) Constructs an iterator over the givenGeometry.OctagonalEnvelope(Geometry geom) Creates a new null bounding octagon bounding aGeometry -
Uses of Geometry in org.locationtech.jts.geom.prep
Methods in org.locationtech.jts.geom.prep that return GeometryModifier and TypeMethodDescriptionPreparedGeometry.getGeometry()Gets the originalGeometrywhich has been prepared.Methods in org.locationtech.jts.geom.prep with parameters of type GeometryModifier and TypeMethodDescriptionbooleanTests whether the baseGeometrycontains a given geometry.booleanbooleanPreparedGeometry.containsProperly(Geometry geom) Tests whether the baseGeometryproperly contains a given geometry.booleanPreparedPolygon.containsProperly(Geometry g) booleanTests whether the baseGeometryis covered by a given geometry.booleanTests whether the baseGeometrycovers a given geometry.booleanCreates a newPreparedGeometryappropriate for the argumentGeometry.booleanTests whether the baseGeometrycrosses a given geometry.booleanTests whether the baseGeometryis disjoint from a given geometry.booleanPreparedGeometry.intersects(Geometry geom) Tests whether the baseGeometryintersects a given geometry.booleanPreparedLineString.intersects(Geometry g) booleanPreparedPoint.intersects(Geometry g) Tests whether this point intersects aGeometry.booleanPreparedPolygon.intersects(Geometry g) booleanTests whether the baseGeometryoverlaps a given geometry.static PreparedGeometryCreates a newPreparedGeometryappropriate for the argumentGeometry.booleanTests whether the baseGeometrytouches a given geometry.booleanTests whether the baseGeometryis within a given geometry. -
Uses of Geometry in org.locationtech.jts.geom.util
Methods in org.locationtech.jts.geom.util that return GeometryModifier and TypeMethodDescriptionGeometryCombiner.combine()Computes the combination of the input geometries to produce the most appropriateGeometryorGeometryCollectionstatic GeometryGeometryCombiner.combine(Collection geoms) Combines a collection of geometries.static GeometryCombines two geometries.static GeometryCombines three geometries.static GeometrySineStarFactory.create(Coordinate origin, double size, int nPts, int nArms, double armLengthRatio) Creates a sine star with the given parameters.SineStarFactory.createSineStar()Generates the geometry for the sine starfinal GeometryGeometryEditor.CoordinateOperation.edit(Geometry geometry, GeometryFactory factory) final GeometryGeometryEditor.CoordinateSequenceOperation.edit(Geometry geometry, GeometryFactory factory) GeometryEditor.edit(Geometry geometry, GeometryEditor.GeometryEditorOperation operation) Edit the inputGeometrywith the given edit operation.GeometryEditor.GeometryEditorOperation.edit(Geometry geometry, GeometryFactory factory) Edits a Geometry by returning a new Geometry with a modification.GeometryEditor.NoOpGeometryOperation.edit(Geometry geometry, GeometryFactory factory) static GeometryFixes a geometry to be valid.static GeometryFixes a geometry to be valid, allowing to set a flag controlling how single item results from fixedMULTIgeometries should be returned.static GeometryGeometryMapper.flatMap(Geometry geom, int emptyDim, GeometryMapper.MapOp op) Maps the atomic elements of aGeometry(which may be atomic or composite) using aGeometryMapper.MapOpmapping operation into an atomic Geometry or a flat collection of the most specific type.static GeometryLinearComponentExtracter.getGeometry(Geometry geom) Extracts the linear components from a singleGeometryand returns them as either aLineStringorMultiLineString.static GeometryLinearComponentExtracter.getGeometry(Geometry geom, boolean forceToLineString) Extracts the linear components from a singleGeometryand returns them as either aLineStringorMultiLineString.static GeometryLineStringExtracter.getGeometry(Geometry geom) Extracts theLineStringelements from a singleGeometryand returns them as either aLineStringorMultiLineString.GeometryTransformer.getInputGeometry()Utility function to make input geometry availableGeometryFixer.getResult()Gets the fixed geometry.static GeometryGeometryMapper.map(Geometry geom, GeometryMapper.MapOp op) Maps the members of aGeometry(which may be atomic or composite) into another Geometry of most specific type.Maps a geometry value into another value.Creates a newGeometrywhich is the result of this transformation applied to the input Geometry.final Geometryprotected GeometryGeometryTransformer.transformGeometryCollection(GeometryCollection geom, Geometry parent) protected GeometryGeometryTransformer.transformLinearRing(LinearRing geom, Geometry parent) Transforms a LinearRing.protected GeometryGeometryTransformer.transformLineString(LineString geom, Geometry parent) Transforms aLineStringgeometry.protected GeometryGeometryTransformer.transformMultiLineString(MultiLineString geom, Geometry parent) protected GeometryGeometryTransformer.transformMultiPoint(MultiPoint geom, Geometry parent) protected GeometryGeometryTransformer.transformMultiPolygon(MultiPolygon geom, Geometry parent) protected GeometryGeometryTransformer.transformPoint(Point geom, Geometry parent) protected GeometryGeometryTransformer.transformPolygon(Polygon geom, Geometry parent) Methods in org.locationtech.jts.geom.util that return types with arguments of type GeometryModifier and TypeMethodDescriptionPolygonalExtracter.getPolygonals(Geometry geom) PolygonalExtracter.getPolygonals(Geometry geom, List<Geometry> list) Methods in org.locationtech.jts.geom.util with parameters of type GeometryModifier and TypeMethodDescriptionvoidstatic GeometryCombines two geometries.static GeometryCombines three geometries.abstract Coordinate[]GeometryEditor.CoordinateOperation.edit(Coordinate[] coordinates, Geometry geometry) Edits the array ofCoordinates from aGeometry.final GeometryGeometryEditor.CoordinateOperation.edit(Geometry geometry, GeometryFactory factory) abstract CoordinateSequenceGeometryEditor.CoordinateSequenceOperation.edit(CoordinateSequence coordSeq, Geometry geometry) Edits aCoordinateSequencefrom aGeometry.final GeometryGeometryEditor.CoordinateSequenceOperation.edit(Geometry geometry, GeometryFactory factory) GeometryEditor.edit(Geometry geometry, GeometryEditor.GeometryEditorOperation operation) Edit the inputGeometrywith the given edit operation.GeometryEditor.GeometryEditorOperation.edit(Geometry geometry, GeometryFactory factory) Edits a Geometry by returning a new Geometry with a modification.GeometryEditor.NoOpGeometryOperation.edit(Geometry geometry, GeometryFactory factory) static ListDeprecated.static ListDeprecated.static Liststatic Listvoidvoidvoidvoidvoidvoidstatic GeometryFixes a geometry to be valid.static GeometryFixes a geometry to be valid, allowing to set a flag controlling how single item results from fixedMULTIgeometries should be returned.static GeometryGeometryMapper.flatMap(Geometry geom, int emptyDim, GeometryMapper.MapOp op) Maps the atomic elements of aGeometry(which may be atomic or composite) using aGeometryMapper.MapOpmapping operation into an atomic Geometry or a flat collection of the most specific type.static ListComponentCoordinateExtracter.getCoordinates(Geometry geom) Extracts a representativeCoordinatefrom each connected component in a geometry.static GeometryLinearComponentExtracter.getGeometry(Geometry geom) Extracts the linear components from a singleGeometryand returns them as either aLineStringorMultiLineString.static GeometryLinearComponentExtracter.getGeometry(Geometry geom, boolean forceToLineString) Extracts the linear components from a singleGeometryand returns them as either aLineStringorMultiLineString.static GeometryLineStringExtracter.getGeometry(Geometry geom) Extracts theLineStringelements from a singleGeometryand returns them as either aLineStringorMultiLineString.static ListExtracts the linear components from a single geometry.static ListExtracts the linear components from a single geometry.static CollectionLinearComponentExtracter.getLines(Geometry geom, Collection lines) Extracts the linear components from a singleGeometryand adds them to the providedCollection.static CollectionLinearComponentExtracter.getLines(Geometry geom, Collection lines, boolean forceToLineString) Extracts the linear components from a singleGeometryand adds them to the providedCollection.static Liststatic Liststatic Liststatic ListPolygonalExtracter.getPolygonals(Geometry geom) PolygonalExtracter.getPolygonals(Geometry geom, List<Geometry> list) static ListPolygonExtracter.getPolygons(Geometry geom) static ListPolygonExtracter.getPolygons(Geometry geom, List list) protected static booleanstatic GeometryGeometryMapper.map(Geometry geom, GeometryMapper.MapOp op) Maps the members of aGeometry(which may be atomic or composite) into another Geometry of most specific type.Maps a geometry value into another value.Creates a newGeometrywhich is the result of this transformation applied to the input Geometry.final Geometryprotected CoordinateSequenceGeometryTransformer.transformCoordinates(CoordinateSequence coords, Geometry parent) Transforms aCoordinateSequence.protected GeometryGeometryTransformer.transformGeometryCollection(GeometryCollection geom, Geometry parent) protected GeometryGeometryTransformer.transformLinearRing(LinearRing geom, Geometry parent) Transforms a LinearRing.protected GeometryGeometryTransformer.transformLineString(LineString geom, Geometry parent) Transforms aLineStringgeometry.protected GeometryGeometryTransformer.transformMultiLineString(MultiLineString geom, Geometry parent) protected GeometryGeometryTransformer.transformMultiPoint(MultiPoint geom, Geometry parent) protected GeometryGeometryTransformer.transformMultiPolygon(MultiPolygon geom, Geometry parent) protected GeometryGeometryTransformer.transformPoint(Point geom, Geometry parent) protected GeometryGeometryTransformer.transformPolygon(Polygon geom, Geometry parent) protected abstract voidMethod parameters in org.locationtech.jts.geom.util with type arguments of type GeometryModifier and TypeMethodDescriptionPolygonalExtracter.getPolygonals(Geometry geom, List<Geometry> list) Constructors in org.locationtech.jts.geom.util with parameters of type GeometryModifierConstructorDescriptionGeometryFixer(Geometry geom) Creates a new instance to fix a given geometry. -
Uses of Geometry in org.locationtech.jts.geomgraph
Methods in org.locationtech.jts.geomgraph that return GeometryConstructors in org.locationtech.jts.geomgraph with parameters of type GeometryModifierConstructorDescriptionGeometryGraph(int argIndex, Geometry parentGeom) GeometryGraph(int argIndex, Geometry parentGeom, BoundaryNodeRule boundaryNodeRule) -
Uses of Geometry in org.locationtech.jts.io
Methods in org.locationtech.jts.io that return GeometryModifier and TypeMethodDescriptionWKBReader.read(byte[] bytes) Reads a singleGeometryin WKB format from a byte array.Methods in org.locationtech.jts.io with parameters of type GeometryModifier and TypeMethodDescriptionbyte[]Writes aGeometryinto a byte array.voidConverts aGeometryto its Well-known Text representation.voidConverts aGeometryto its Well-known Text representation.WKTWriter.writeFormatted(Geometry geometry) Same aswrite, but with newlines and spaces to make the well-known text more readable.voidWKTWriter.writeFormatted(Geometry geometry, Writer writer) Same aswrite, but with newlines and spaces to make the well-known text more readable. -
Uses of Geometry in org.locationtech.jts.io.geojson
Methods in org.locationtech.jts.io.geojson that return GeometryModifier and TypeMethodDescriptionReads a GeoJson Geometry from a String into a singleGeometry.static GeometryOrientationTransformer.transformCCW(Geometry geometry) Transforms a geometry using the Right Hand Rule specifications defined in the latest GeoJSON specification.Methods in org.locationtech.jts.io.geojson with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryOrientationTransformer.transformCCW(Geometry geometry) Transforms a geometry using the Right Hand Rule specifications defined in the latest GeoJSON specification.Writes aGeometryin GeoJson format to a String.void -
Uses of Geometry in org.locationtech.jts.io.gml2
Methods in org.locationtech.jts.io.gml2 that return GeometryModifier and TypeMethodDescriptionGMLHandler.getGeometry()Gets the geometry parsed by this handler.GMLReader.read(Reader reader, GeometryFactory geometryFactory) Reads a GML2 Geometry from aReaderinto a singleGeometryIf a collection of Geometries is found, aGeometryCollectionis returned.GMLReader.read(String gml, GeometryFactory geometryFactory) Reads a GML2 Geometry from a String into a singleGeometryIf a collection of geometries is found, aGeometryCollectionis returned.Methods in org.locationtech.jts.io.gml2 with parameters of type Geometry -
Uses of Geometry in org.locationtech.jts.io.kml
Methods in org.locationtech.jts.io.kml that return GeometryModifier and TypeMethodDescriptionMethods in org.locationtech.jts.io.kml with parameters of type GeometryModifier and TypeMethodDescriptionWrites aGeometryin KML format as a string.voidvoidKMLWriter.write(Geometry geometry, StringBuffer buf) Appends the KML representation of aGeometryto aStringBuffer.static StringKMLWriter.writeGeometry(Geometry geometry, double z) Writes a Geometry as KML to a string, using a specified Z value.static StringKMLWriter.writeGeometry(Geometry geometry, double z, int precision, boolean extrude, String altitudeMode) Writes a Geometry as KML to a string, using a specified Z value, precision, extrude flag, and altitude mode code. -
Uses of Geometry in org.locationtech.jts.io.twkb
Methods in org.locationtech.jts.io.twkb that return GeometryMethods in org.locationtech.jts.io.twkb with parameters of type GeometryModifier and TypeMethodDescriptionbyte[]voidTWKBWriter.write(Geometry geom, DataOutput out) voidTWKBWriter.write(Geometry geom, OutputStream out) -
Uses of Geometry in org.locationtech.jts.linearref
Methods in org.locationtech.jts.linearref that return GeometryModifier and TypeMethodDescriptionLengthIndexedLine.extractLine(double startIndex, double endIndex) Computes theLineStringfor the interval on the line between the given indices.LocationIndexedLine.extractLine(LinearLocation startIndex, LinearLocation endIndex) Computes theLineStringfor the interval on the line between the given indices.LinearGeometryBuilder.getGeometry()Methods in org.locationtech.jts.linearref with parameters of type GeometryModifier and TypeMethodDescriptionvoidEnsures the indexes are valid for a given linearGeometry.LinearLocation.getCoordinate(Geometry linearGeom) Gets theCoordinatealong the given linearGeometrywhich is referenced by this location.static LinearLocationLinearLocation.getEndLocation(Geometry linear) Gets a location which refers to the end of a linearGeometry.static doubleLengthLocationMap.getLength(Geometry linearGeom, LinearLocation loc) Computes the length for a givenLinearLocationon a linearGeometry.static LinearLocationLengthLocationMap.getLocation(Geometry linearGeom, double length) Computes theLinearLocationfor a given length along a linearGeometry.static LinearLocationLengthLocationMap.getLocation(Geometry linearGeom, double length, boolean resolveLower) Computes theLinearLocationfor a given length along a linearGeometry, with control over how the location is resolved at component endpoints.LinearLocation.getSegment(Geometry linearGeom) Gets aLineSegmentrepresenting the segment of the given linearGeometrywhich contains this location.doubleLinearLocation.getSegmentLength(Geometry linearGeom) Gets the length of the segment in the given Geometry containing this location.double[]Computes the indices for a subline of the line.Computes the indices for a subline of the line.booleanLinearLocation.isEndpoint(Geometry linearGeom) Tests whether this location is an endpoint of the linear component it refers to.booleanTests whether this location refers to a valid location on the given linearGeometry.voidSets the value of this location to refer to the end of a linear geometry.voidLinearLocation.snapToVertex(Geometry linearGeom, double minDistance) Snaps the value of this location to the nearest vertex on the given linearGeometry, if the vertex is closer than minDistance.Converts a linear location to the lowest equivalent location index.Constructors in org.locationtech.jts.linearref with parameters of type GeometryModifierConstructorDescriptionLengthIndexedLine(Geometry linearGeom) Constructs an object which allows a linearGeometryto be linearly referenced using length as an index.LengthLocationMap(Geometry linearGeom) LinearIterator(Geometry linear) Creates an iterator initialized to the start of a linearGeometryLinearIterator(Geometry linearGeom, int componentIndex, int vertexIndex) Creates an iterator starting at a specified component and vertex in a linearGeometryLinearIterator(Geometry linear, LinearLocation start) Creates an iterator starting at aLinearLocationon a linearGeometryLocationIndexedLine(Geometry linearGeom) Constructs an object which allows linear referencing along a given linearGeometry. -
Uses of Geometry in org.locationtech.jts.noding
Methods in org.locationtech.jts.noding that return GeometryModifier and TypeMethodDescriptionstatic GeometrySegmentStringUtil.toGeometry(Collection segStrings, GeometryFactory geomFact) Converts a collection ofSegmentStrings into aGeometry.Methods in org.locationtech.jts.noding with parameters of type GeometryModifier and TypeMethodDescriptionstatic ListSegmentStringUtil.extractBasicSegmentStrings(Geometry geom) Extracts all linear components from a givenGeometrytoBasicSegmentStrings.static ListSegmentStringUtil.extractNodedSegmentStrings(Geometry geom) Extracts all linear components from a givenGeometrytoNodedSegmentStrings.static ListSegmentStringUtil.extractSegmentStrings(Geometry geom) Extracts all linear components from a givenGeometrytoSegmentStrings. -
Uses of Geometry in org.locationtech.jts.operation
Methods in org.locationtech.jts.operation that return GeometryModifier and TypeMethodDescriptionGeometryGraphOperation.getArgGeometry(int i) BoundaryOp.getBoundary()Gets the computed boundary.static GeometryBoundaryOp.getBoundary(Geometry g) Computes a geometry representing the boundary of a geometry.static GeometryBoundaryOp.getBoundary(Geometry g, BoundaryNodeRule bnRule) Computes a geometry representing the boundary of a geometry, using an explicitBoundaryNodeRule.Methods in org.locationtech.jts.operation with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryBoundaryOp.getBoundary(Geometry g) Computes a geometry representing the boundary of a geometry.static GeometryBoundaryOp.getBoundary(Geometry g, BoundaryNodeRule bnRule) Computes a geometry representing the boundary of a geometry, using an explicitBoundaryNodeRule.static booleanBoundaryOp.hasBoundary(Geometry geom, BoundaryNodeRule boundaryNodeRule) Tests if a geometry has a boundary (it is non-empty).Constructors in org.locationtech.jts.operation with parameters of type GeometryModifierConstructorDescriptionBoundaryOp(Geometry geom) Creates a new instance for the given geometry.BoundaryOp(Geometry geom, BoundaryNodeRule bnRule) Creates a new instance for the given geometry.GeometryGraphOperation(Geometry g0, Geometry g1) GeometryGraphOperation(Geometry g0, Geometry g1, BoundaryNodeRule boundaryNodeRule) IsSimpleOp(Geometry geom) Deprecated.Creates a simplicity checker using the default SFS Mod-2 Boundary Node RuleIsSimpleOp(Geometry geom, BoundaryNodeRule boundaryNodeRule) Deprecated.Creates a simplicity checker using a givenBoundaryNodeRule -
Uses of Geometry in org.locationtech.jts.operation.buffer
Methods in org.locationtech.jts.operation.buffer that return GeometryModifier and TypeMethodDescriptionstatic GeometryCreates a buffer polygon along a line with the distance specified at each vertex.static GeometryCreates a buffer polygon along a line with the buffer distance interpolated between a start distance and an end distance.static GeometryCreates a buffer polygon along a line with the buffer distance interpolated between a start distance, a middle distance and an end distance.static GeometryBufferOp.bufferByZero(Geometry geom, boolean isBothOrientations) Buffers a geometry with distance zero.static GeometryComputes the buffer of a geometry for a given buffer distance.static GeometryComputes the buffer for a geometry for a given buffer distance and accuracy of approximation.static GeometryComputes the buffer for a geometry for a given buffer distance and accuracy of approximation.static GeometryBufferOp.bufferOp(Geometry g, double distance, BufferParameters params) Computes the buffer for a geometry for a given buffer distance and accuracy of approximation.OffsetCurve.getCurve()Gets the computed offset curve lines.static GeometryComputes the offset curve of a geometry at a given distance.static GeometryOffsetCurve.getCurve(Geometry geom, double distance, int quadSegs, int joinStyle, double mitreLimit) Computes the offset curve of a geometry at a given distance, with specified quadrant segments, join style and mitre limit.static GeometryOffsetCurve.getCurveJoined(Geometry geom, double distance) Computes the offset curve of a geometry at a given distance, joining curve sections into a single line for each input line.VariableBuffer.getResult()Computes the variable buffer polygon.BufferOp.getResultGeometry(double distance) Returns the buffer computed for a geometry for a given buffer distance.Methods in org.locationtech.jts.operation.buffer with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryCreates a buffer polygon along a line with the distance specified at each vertex.static GeometryCreates a buffer polygon along a line with the buffer distance interpolated between a start distance and an end distance.static GeometryCreates a buffer polygon along a line with the buffer distance interpolated between a start distance, a middle distance and an end distance.static GeometryBufferOp.bufferByZero(Geometry geom, boolean isBothOrientations) Buffers a geometry with distance zero.static GeometryComputes the buffer of a geometry for a given buffer distance.static GeometryComputes the buffer for a geometry for a given buffer distance and accuracy of approximation.static GeometryComputes the buffer for a geometry for a given buffer distance and accuracy of approximation.static GeometryBufferOp.bufferOp(Geometry g, double distance, BufferParameters params) Computes the buffer for a geometry for a given buffer distance and accuracy of approximation.static GeometryComputes the offset curve of a geometry at a given distance.static GeometryOffsetCurve.getCurve(Geometry geom, double distance, int quadSegs, int joinStyle, double mitreLimit) Computes the offset curve of a geometry at a given distance, with specified quadrant segments, join style and mitre limit.static GeometryOffsetCurve.getCurveJoined(Geometry geom, double distance) Computes the offset curve of a geometry at a given distance, joining curve sections into a single line for each input line.Constructors in org.locationtech.jts.operation.buffer with parameters of type GeometryModifierConstructorDescriptionBufferCurveSetBuilder(Geometry inputGeom, double distance, PrecisionModel precisionModel, BufferParameters bufParams) Initializes a buffer computation for the given geometryBufferOp(Geometry g, BufferParameters bufParams) Initializes a buffer computation for the given geometry with the given set of parametersOffsetCurve(Geometry geom, double distance) Creates a new instance for computing an offset curve for a geometry at a given distance. with default quadrant segments (BufferParameters.DEFAULT_QUADRANT_SEGMENTS) and join style ().invalid reference
BufferParameters#JOIN_STYLEOffsetCurve(Geometry geom, double distance, BufferParameters bufParams) Creates a new instance for computing an offset curve for a geometry at a given distance. setting the quadrant segments and join style and mitre limit viaBufferParameters.VariableBuffer(Geometry line, double[] distance) Creates a generator for a variable-distance line buffer. -
Uses of Geometry in org.locationtech.jts.operation.buffer.validate
Methods in org.locationtech.jts.operation.buffer.validate that return GeometryModifier and TypeMethodDescriptionBufferDistanceValidator.getErrorIndicator()Gets a geometry which indicates the location and nature of a validation failure.BufferResultValidator.getErrorIndicator()Gets a geometry which indicates the location and nature of a validation failure.Methods in org.locationtech.jts.operation.buffer.validate with parameters of type GeometryModifier and TypeMethodDescriptionstatic voidDistanceToPointFinder.computeDistance(Geometry geom, Coordinate pt, PointPairDistance ptDist) doubleBufferCurveMaximumDistanceFinder.findDistance(Geometry bufferCurve) static booleanstatic StringBufferResultValidator.isValidMsg(Geometry g, double distance, Geometry result) Checks whether the geometry buffer is valid, and returns an error message if not.Constructors in org.locationtech.jts.operation.buffer.validate with parameters of type GeometryModifierConstructorDescriptionBufferCurveMaximumDistanceFinder(Geometry inputGeom) BufferDistanceValidator(Geometry input, double bufDistance, Geometry result) BufferResultValidator(Geometry input, double distance, Geometry result) -
Uses of Geometry in org.locationtech.jts.operation.distance
Methods in org.locationtech.jts.operation.distance that return GeometryModifier and TypeMethodDescriptionGeometryLocation.getGeometryComponent()Returns the geometry component on (or in) which this location occurs.Methods in org.locationtech.jts.operation.distance with parameters of type GeometryModifier and TypeMethodDescriptionstatic STRtreestatic Coordinate[]DistanceOp.closestPoints(Geometry g0, Geometry g1) Deprecated.renamed to nearestPointsstatic doubleCompute the distance between the nearest points of two geometries.doubleComputes the distance from the base geometry to the given geometry.static doubleComputes the distance between facets of two geometries.voidvoidstatic ListConnectedElementPointFilter.getCoordinates(Geometry geom) Returns a list containing a Coordinate from each Polygon, LineString, and Point found inside the specified geometry.static ListConnectedElementLocationFilter.getLocations(Geometry geom) Returns a list containing a point from each Polygon, LineString, and Point found inside the specified geometry.static booleanDistanceOp.isWithinDistance(Geometry g0, Geometry g1, double distance) Test whether two geometries lie within a given distance of each other.booleanIndexedFacetDistance.isWithinDistance(Geometry g, double maxDistance) Tests whether the base geometry lies within a specified distance of the given geometry.static booleanIndexedFacetDistance.isWithinDistance(Geometry g1, Geometry g2, double distance) Tests whether the facets of two geometries lie within a given distance.IndexedFacetDistance.nearestLocations(Geometry g) Computes the nearest locations on the base geometry and the given geometry.static Coordinate[]DistanceOp.nearestPoints(Geometry g0, Geometry g1) Compute the the nearest points of two geometries.IndexedFacetDistance.nearestPoints(Geometry g) Compute the nearest locations on the target geometry and the given geometry.static Coordinate[]IndexedFacetDistance.nearestPoints(Geometry g1, Geometry g2) Computes the nearest points of the facets of two geometries.Constructors in org.locationtech.jts.operation.distance with parameters of type GeometryModifierConstructorDescriptionDistanceOp(Geometry g0, Geometry g1) Constructs a DistanceOp that computes the distance and nearest points between the two specified geometries.DistanceOp(Geometry g0, Geometry g1, double terminateDistance) Constructs a DistanceOp that computes the distance and nearest points between the two specified geometries.FacetSequence(Geometry geom, CoordinateSequence pts, int start, int end) Creates a new sequence of facets based on aCoordinateSequencecontained in the givenGeometry.GeometryLocation(Geometry component, int segIndex, Coordinate pt) Constructs a GeometryLocation specifying a point on a geometry, as well as the segment that the point is on (orGeometryLocation.INSIDE_AREAif the point is not on a segment).GeometryLocation(Geometry component, Coordinate pt) Constructs a GeometryLocation specifying a point inside an area geometry.IndexedFacetDistance(Geometry geom) Creates a new distance-finding instance for a given targetGeometry. -
Uses of Geometry in org.locationtech.jts.operation.distance3d
Methods in org.locationtech.jts.operation.distance3d with parameters of type GeometryModifier and TypeMethodDescriptionstatic doubleCompute the distance between the nearest points of two geometries.static booleanDistance3DOp.isWithinDistance(Geometry g0, Geometry g1, double distance) Test whether two geometries lie within a given distance of each other.static Coordinate[]Distance3DOp.nearestPoints(Geometry g0, Geometry g1) Compute the the nearest points of two geometries.Constructors in org.locationtech.jts.operation.distance3d with parameters of type GeometryModifierConstructorDescriptionDistance3DOp(Geometry g0, Geometry g1) Constructs a DistanceOp that computes the distance and nearest points between the two specified geometries.Distance3DOp(Geometry g0, Geometry g1, double terminateDistance) Constructs a DistanceOp that computes the distance and nearest points between the two specified geometries. -
Uses of Geometry in org.locationtech.jts.operation.linemerge
Methods in org.locationtech.jts.operation.linemerge that return GeometryModifier and TypeMethodDescriptionLineSequencer.getSequencedLineStrings()Returns theLineStringorMultiLineStringbuilt by the sequencing process, if one exists.static GeometryMethods in org.locationtech.jts.operation.linemerge with parameters of type GeometryModifier and TypeMethodDescriptionvoidAdds a Geometry to be processed.voidAdds aGeometryto be sequenced.static booleanLineSequencer.isSequenced(Geometry geom) Tests whether aGeometryis sequenced correctly.static Geometry -
Uses of Geometry in org.locationtech.jts.operation.overlay
Methods in org.locationtech.jts.operation.overlay that return GeometryModifier and TypeMethodDescriptionstatic GeometryOverlayOp.createEmptyResult(int overlayOpCode, Geometry a, Geometry b, GeometryFactory geomFact) Creates an empty result geometry of the appropriate dimension, based on the given overlay operation and the dimensions of the inputs.OverlayOp.getResultGeometry(int overlayOpCode) Gets the result of the overlay for a given overlay operation.static GeometryComputes an overlay operation for the given geometry arguments.Methods in org.locationtech.jts.operation.overlay with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryOverlayOp.createEmptyResult(int overlayOpCode, Geometry a, Geometry b, GeometryFactory geomFact) Creates an empty result geometry of the appropriate dimension, based on the given overlay operation and the dimensions of the inputs.static GeometryComputes an overlay operation for the given geometry arguments.Constructors in org.locationtech.jts.operation.overlay with parameters of type Geometry -
Uses of Geometry in org.locationtech.jts.operation.overlay.snap
Methods in org.locationtech.jts.operation.overlay.snap that return GeometryModifier and TypeMethodDescriptionstatic GeometrySnapIfNeededOverlayOp.difference(Geometry g0, Geometry g1) static GeometrySnapOverlayOp.difference(Geometry g0, Geometry g1) SnapIfNeededOverlayOp.getResultGeometry(int opCode) SnapOverlayOp.getResultGeometry(int opCode) static GeometrySnapIfNeededOverlayOp.intersection(Geometry g0, Geometry g1) static GeometrySnapOverlayOp.intersection(Geometry g0, Geometry g1) static Geometrystatic Geometrystatic Geometry[]Snaps two geometries together with a given tolerance.Snaps the vertices in the componentLineStrings of the source geometry to the vertices of the given snap geometry.GeometrySnapper.snapToSelf(double snapTolerance, boolean cleanResult) Snaps the vertices in the componentLineStrings of the source geometry to the vertices of the same geometry.static GeometryGeometrySnapper.snapToSelf(Geometry geom, double snapTolerance, boolean cleanResult) Snaps a geometry to itself.static GeometrySnapIfNeededOverlayOp.symDifference(Geometry g0, Geometry g1) static GeometrySnapOverlayOp.symDifference(Geometry g0, Geometry g1) static Geometrystatic GeometryMethods in org.locationtech.jts.operation.overlay.snap with parameters of type GeometryModifier and TypeMethodDescriptionstatic doubleGeometrySnapper.computeOverlaySnapTolerance(Geometry g) Estimates the snap tolerance for a Geometry, taking into account its precision model.static doubleGeometrySnapper.computeOverlaySnapTolerance(Geometry g0, Geometry g1) static doubleGeometrySnapper.computeSizeBasedSnapTolerance(Geometry g) static GeometrySnapIfNeededOverlayOp.difference(Geometry g0, Geometry g1) static GeometrySnapOverlayOp.difference(Geometry g0, Geometry g1) static GeometrySnapIfNeededOverlayOp.intersection(Geometry g0, Geometry g1) static GeometrySnapOverlayOp.intersection(Geometry g0, Geometry g1) static Geometrystatic Geometrystatic Geometry[]Snaps two geometries together with a given tolerance.Snaps the vertices in the componentLineStrings of the source geometry to the vertices of the given snap geometry.static GeometryGeometrySnapper.snapToSelf(Geometry geom, double snapTolerance, boolean cleanResult) Snaps a geometry to itself.static GeometrySnapIfNeededOverlayOp.symDifference(Geometry g0, Geometry g1) static GeometrySnapOverlayOp.symDifference(Geometry g0, Geometry g1) static Geometrystatic GeometryConstructors in org.locationtech.jts.operation.overlay.snap with parameters of type GeometryModifierConstructorDescriptionGeometrySnapper(Geometry srcGeom) Creates a new snapper acting on the given geometrySnapIfNeededOverlayOp(Geometry g1, Geometry g2) SnapOverlayOp(Geometry g1, Geometry g2) -
Uses of Geometry in org.locationtech.jts.operation.overlay.validate
Methods in org.locationtech.jts.operation.overlay.validate with parameters of type GeometryModifier and TypeMethodDescriptionstatic booleanConstructors in org.locationtech.jts.operation.overlay.validate with parameters of type GeometryModifierConstructorDescriptionFuzzyPointLocator(Geometry g, double boundaryDistanceTolerance) OverlayResultValidator(Geometry a, Geometry b, Geometry result) -
Uses of Geometry in org.locationtech.jts.operation.overlayarea
Methods in org.locationtech.jts.operation.overlayarea with parameters of type GeometryModifier and TypeMethodDescriptionstatic doubledoubleOverlayArea.intersectionArea(Geometry geom) static doubleOverlayArea.intersectionArea(Geometry geom0, Geometry geom1) Constructors in org.locationtech.jts.operation.overlayarea with parameters of type Geometry -
Uses of Geometry in org.locationtech.jts.operation.overlayng
Methods in org.locationtech.jts.operation.overlayng that return GeometryModifier and TypeMethodDescriptionOverlayNG.getResult()Gets the result of the overlay operation.Computes the overlay operation on the input geometries, if it can be determined that the result is either empty or equal to one of the input values.static GeometryComputes an overlay operation on the given geometry operands, using the precision model of the geometry. and an appropriate noder.static GeometryOverlayNG.overlay(Geometry geom0, Geometry geom1, int opCode, PrecisionModel pm) Computes an overlay operation for the given geometry operands, with the noding strategy determined by the precision model.static GeometryOverlayNG.overlay(Geometry geom0, Geometry geom1, int opCode, PrecisionModel pm, Noder noder) Computes an overlay operation on the given geometry operands, using a suppliedNoder.static GeometryComputes an overlay operation on the given geometry operands, using a suppliedNoder.static GeometryOverlay two geometries, using heuristics to ensure computation completes correctly.static GeometryPrecisionReducer.reducePrecision(Geometry geom, PrecisionModel pm) Reduces the precision of a geometry by rounding and snapping it to the suppliedPrecisionModel.static GeometryUnions a valid polygonal coverage or linear network.static GeometryOverlayNGRobust.union(Collection<Geometry> geoms) Computes the unary union of a collection of geometries using robust computation.static GeometryOverlayNGRobust.union(Collection<Geometry> geoms, GeometryFactory geomFact) Computes the unary union of a collection of geometries using robust computation.static GeometryComputes the unary union of a geometry using robust computation.static GeometryUnaryUnionNG.union(Collection<Geometry> geoms, GeometryFactory geomFact, PrecisionModel pm) Unions a collection of geometries using a given precision model.static GeometryUnaryUnionNG.union(Collection<Geometry> geoms, PrecisionModel pm) Unions a collection of geometries using a given precision model.static GeometryUnaryUnionNG.union(Geometry geom, PrecisionModel pm) Unions a geometry (which is often a collection) using a given precision model.Methods in org.locationtech.jts.operation.overlayng with parameters of type GeometryModifier and TypeMethodDescriptionstatic doublePrecisionUtil.inherentScale(Geometry geom) Computes the inherent scale of a geometry.static doublePrecisionUtil.inherentScale(Geometry a, Geometry b) Computes the inherent scale of two geometries.Computes the overlay operation on the input geometries, if it can be determined that the result is either empty or equal to one of the input values.static GeometryComputes an overlay operation on the given geometry operands, using the precision model of the geometry. and an appropriate noder.static GeometryOverlayNG.overlay(Geometry geom0, Geometry geom1, int opCode, PrecisionModel pm) Computes an overlay operation for the given geometry operands, with the noding strategy determined by the precision model.static GeometryOverlayNG.overlay(Geometry geom0, Geometry geom1, int opCode, PrecisionModel pm, Noder noder) Computes an overlay operation on the given geometry operands, using a suppliedNoder.static GeometryComputes an overlay operation on the given geometry operands, using a suppliedNoder.static GeometryOverlay two geometries, using heuristics to ensure computation completes correctly.static GeometryPrecisionReducer.reducePrecision(Geometry geom, PrecisionModel pm) Reduces the precision of a geometry by rounding and snapping it to the suppliedPrecisionModel.static PrecisionModelDetermines a precision model to use for robust overlay operations for one geometry.static PrecisionModelDetermines a precision model to use for robust overlay operations.static doublePrecisionUtil.robustScale(Geometry a) Determines a scale factor which maximizes the digits of precision and is safe to use for overlay operations.static doublePrecisionUtil.robustScale(Geometry a, Geometry b) Determines a scale factor which maximizes the digits of precision and is safe to use for overlay operations.static doubleComputes a safe scale factor for a geometry.static doubleComputes a safe scale factor for two geometries.static GeometryUnions a valid polygonal coverage or linear network.static GeometryComputes the unary union of a geometry using robust computation.static GeometryUnaryUnionNG.union(Geometry geom, PrecisionModel pm) Unions a geometry (which is often a collection) using a given precision model.Method parameters in org.locationtech.jts.operation.overlayng with type arguments of type GeometryModifier and TypeMethodDescriptionstatic GeometryOverlayNGRobust.union(Collection<Geometry> geoms) Computes the unary union of a collection of geometries using robust computation.static GeometryOverlayNGRobust.union(Collection<Geometry> geoms, GeometryFactory geomFact) Computes the unary union of a collection of geometries using robust computation.static GeometryUnaryUnionNG.union(Collection<Geometry> geoms, GeometryFactory geomFact, PrecisionModel pm) Unions a collection of geometries using a given precision model.static GeometryUnaryUnionNG.union(Collection<Geometry> geoms, PrecisionModel pm) Unions a collection of geometries using a given precision model.Constructors in org.locationtech.jts.operation.overlayng with parameters of type GeometryModifierConstructorDescriptionFastOverlayFilter(Geometry geom) Creates an overlay operation on the given geometries using the precision model of the geometries.OverlayNG(Geometry geom0, Geometry geom1, PrecisionModel pm, int opCode) Creates an overlay operation on the given geometries, with a defined precision model. -
Uses of Geometry in org.locationtech.jts.operation.polygonize
Methods in org.locationtech.jts.operation.polygonize that return GeometryModifier and TypeMethodDescriptionPolygonizer.getGeometry()Gets a geometry representing the polygons formed by the polygonization.Methods in org.locationtech.jts.operation.polygonize with parameters of type Geometry -
Uses of Geometry in org.locationtech.jts.operation.predicate
Methods in org.locationtech.jts.operation.predicate with parameters of type GeometryModifier and TypeMethodDescriptionbooleanstatic booleanTests whether a rectangle contains a given geometry.booleanRectangleIntersects.intersects(Geometry geom) Tests whether the given Geometry intersects the query rectangle.static booleanRectangleIntersects.intersects(Polygon rectangle, Geometry b) Tests whether a rectangle intersects a given geometry. -
Uses of Geometry in org.locationtech.jts.operation.relate
Methods in org.locationtech.jts.operation.relate with parameters of type GeometryModifier and TypeMethodDescriptionstatic IntersectionMatrixComputes theIntersectionMatrixfor the spatial relationship between twoGeometrys, using the default (OGC SFS) Boundary Node Rulestatic IntersectionMatrixRelateOp.relate(Geometry a, Geometry b, BoundaryNodeRule boundaryNodeRule) Computes theIntersectionMatrixfor the spatial relationship between twoGeometrys using a specified Boundary Node Rule.Constructors in org.locationtech.jts.operation.relate with parameters of type Geometry -
Uses of Geometry in org.locationtech.jts.operation.relateng
Methods in org.locationtech.jts.operation.relateng with parameters of type GeometryModifier and TypeMethodDescriptionComputes the DE-9IM matrix for the topological relationship to a geometry.booleanTests whether the topological relationship to a geometry matches a DE-9IM matrix pattern.booleanRelateNG.evaluate(Geometry b, TopologyPredicate predicate) Tests whether the topological relationship to a geometry satisfies a topology predicate.static RelateNGCreates a prepared RelateNG instance to optimize the evaluation of relationships against a single geometry.static RelateNGRelateNG.prepare(Geometry a, BoundaryNodeRule bnRule) Creates a prepared RelateNG instance to optimize the computation of predicates against a single geometry, using a givenBoundaryNodeRule.static IntersectionMatrixComputes the DE-9IM matrix for the topological relationship between two geometries.static booleanTests whether the topological relationship to a geometry matches a DE-9IM matrix pattern.static IntersectionMatrixRelateNG.relate(Geometry a, Geometry b, BoundaryNodeRule bnRule) Computes the DE-9IM matrix for the topological relationship between two geometries.static booleanRelateNG.relate(Geometry a, Geometry b, TopologyPredicate pred) Tests whether the topological relationship between two geometries satisfies a topological predicate.static booleanRelateNG.relate(Geometry a, Geometry b, TopologyPredicate pred, BoundaryNodeRule bnRule) Tests whether the topological relationship between two geometries satisfies a topological predicate, using a givenBoundaryNodeRule. -
Uses of Geometry in org.locationtech.jts.operation.union
Methods in org.locationtech.jts.operation.union that return GeometryModifier and TypeMethodDescriptionSpatialPartition.getGeometry(int s, int i) Gets a geometry in a given partitionCascadedPolygonUnion.union()Computes the union of the input geometries.static GeometryCascadedPolygonUnion.union(Collection polys) static GeometryCascadedPolygonUnion.union(Collection polys, UnionStrategy unionFun) OverlapUnion.union()Deprecated.Unions the input geometries, using the more performant overlap union algorithm if possible.static GeometryOverlapUnion.union(Geometry g0, Geometry g1, UnionStrategy unionFun) Deprecated.Union a pair of geometries, using the more performant overlap union algorithm if possible.PartitionedUnion.union()static GeometryPointGeometryUnion.union()static GeometrySparsePolygonUnion.union()static GeometrySparsePolygonUnion.union(Collection geoms) static GeometryUnaryUnionOp.union()Gets the union of the input geometries.static GeometryUnaryUnionOp.union(Collection geoms) Computes the geometric union of aCollectionofGeometrys.static GeometryUnaryUnionOp.union(Collection geoms, GeometryFactory geomFact) Computes the geometric union of aCollectionofGeometrys.static GeometryConstructs a unary union operation for aGeometry(which may be aGeometryCollection).UnionInteracting.union()static GeometryComputes the union of two geometries.Methods in org.locationtech.jts.operation.union with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryOverlapUnion.union(Geometry g0, Geometry g1, UnionStrategy unionFun) Deprecated.Union a pair of geometries, using the more performant overlap union algorithm if possible.static Geometrystatic Geometrystatic Geometrystatic GeometryConstructs a unary union operation for aGeometry(which may be aGeometryCollection).static GeometryComputes the union of two geometries.Constructors in org.locationtech.jts.operation.union with parameters of type GeometryModifierConstructorDescriptionOverlapUnion(Geometry g0, Geometry g1) Deprecated.Creates a new instance for unioning the given geometries.OverlapUnion(Geometry g0, Geometry g1, UnionStrategy unionFun) Deprecated.PointGeometryUnion(Puntal pointGeom, Geometry otherGeom) SpatialPartition(Geometry[] geoms, SpatialPartition.EquivalenceRelation rel) UnaryUnionOp(Geometry geom) Constructs a unary union operation for aGeometry(which may be aGeometryCollection).UnionInteracting(Geometry g0, Geometry g1) Constructor parameters in org.locationtech.jts.operation.union with type arguments of type GeometryModifierConstructorDescriptionPartitionedUnion(Collection<Geometry> polys) SparsePolygonUnion(Collection<Geometry> polys) -
Uses of Geometry in org.locationtech.jts.operation.valid
Methods in org.locationtech.jts.operation.valid with parameters of type GeometryModifier and TypeMethodDescriptionstatic CoordinateIsSimpleOp.getNonSimpleLocation(Geometry geom) Gets a non-simple location in a geometry, if any.booleanRepeatedPointTester.hasRepeatedPoint(Geometry g) static booleanTests whether a geometry is simple.static booleanTests whether aGeometryis valid.Constructors in org.locationtech.jts.operation.valid with parameters of type GeometryModifierConstructorDescriptionIsSimpleOp(Geometry geom) Creates a simplicity checker using the default SFS Mod-2 Boundary Node RuleIsSimpleOp(Geometry geom, BoundaryNodeRule boundaryNodeRule) Creates a simplicity checker using a givenBoundaryNodeRuleCreates a new validator for a geometry. -
Uses of Geometry in org.locationtech.jts.precision
Methods in org.locationtech.jts.precision that return GeometryModifier and TypeMethodDescriptionComputes the buffer a geometry, using enhanced precision.static GeometryComputes the buffer of aGeometry, using enhanced precision.CommonBitsOp.difference(Geometry geom0, Geometry geom1) Computes the set-theoretic difference of twoGeometrys, using enhanced precision.static GeometryEnhancedPrecisionOp.difference(Geometry geom0, Geometry geom1) Computes the set-theoretic difference of twoGeometrys, using enhanced precision.static GeometryGets a LineString containing two points which are at the Minimum Clearance distance for the given Geometry.static GeometryCommonBitsOp.intersection(Geometry geom0, Geometry geom1) Computes the set-theoretic intersection of twoGeometrys, using enhanced precision.static GeometryEnhancedPrecisionOp.intersection(Geometry geom0, Geometry geom1) Computes the set-theoretic intersection of twoGeometrys, using enhanced precision.Reduces the precision of a geometry, according to the specified strategy of this reducer.static GeometryGeometryPrecisionReducer.reduce(Geometry g, PrecisionModel precModel) Reduces precision of a geometry, ensuring output geometry is valid.Deprecated.static GeometrySimpleGeometryPrecisionReducer.reduce(Geometry g, PrecisionModel precModel) Deprecated.Convenience method for doing precision reduction on a single geometry, with collapses removed and keeping the geometry precision model the same.static GeometryGeometryPrecisionReducer.reduceKeepCollapsed(Geometry geom, PrecisionModel pm) Reduces precision of a geometry, ensuring output polygonal geometry is valid, and preserving collapsed linear elements.static GeometryGeometryPrecisionReducer.reducePointwise(Geometry g, PrecisionModel precModel) Reduce precision of a geometry in a pointwise way.CommonBitsRemover.removeCommonBits(Geometry geom) Removes the common coordinate bits from a Geometry.CommonBitsOp.symDifference(Geometry geom0, Geometry geom1) Computes the set-theoretic symmetric difference of two geometries, using enhanced precision.static GeometryEnhancedPrecisionOp.symDifference(Geometry geom0, Geometry geom1) Computes the set-theoretic symmetric difference of twoGeometrys, using enhanced precision.Computes the set-theoretic union of twoGeometrys, using enhanced precision.static GeometryComputes the set-theoretic union of twoGeometrys, using enhanced precision.Methods in org.locationtech.jts.precision with parameters of type GeometryModifier and TypeMethodDescriptionvoidAdd a geometry to the set of geometries whose common bits are being computed.voidCommonBitsRemover.addCommonBits(Geometry geom) Adds the common coordinate bits back into a Geometry.Computes the buffer a geometry, using enhanced precision.static GeometryComputes the buffer of aGeometry, using enhanced precision.CommonBitsOp.difference(Geometry geom0, Geometry geom1) Computes the set-theoretic difference of twoGeometrys, using enhanced precision.static GeometryEnhancedPrecisionOp.difference(Geometry geom0, Geometry geom1) Computes the set-theoretic difference of twoGeometrys, using enhanced precision.PrecisionReducerCoordinateOperation.edit(Coordinate[] coordinates, Geometry geom) static doubleMinimumClearance.getDistance(Geometry g) Computes the Minimum Clearance distance for the given Geometry.static doubleSimpleMinimumClearance.getDistance(Geometry g) static GeometryGets a LineString containing two points which are at the Minimum Clearance distance for the given Geometry.static GeometryCommonBitsOp.intersection(Geometry geom0, Geometry geom1) Computes the set-theoretic intersection of twoGeometrys, using enhanced precision.static GeometryEnhancedPrecisionOp.intersection(Geometry geom0, Geometry geom1) Computes the set-theoretic intersection of twoGeometrys, using enhanced precision.Reduces the precision of a geometry, according to the specified strategy of this reducer.static GeometryGeometryPrecisionReducer.reduce(Geometry g, PrecisionModel precModel) Reduces precision of a geometry, ensuring output geometry is valid.Deprecated.static GeometrySimpleGeometryPrecisionReducer.reduce(Geometry g, PrecisionModel precModel) Deprecated.Convenience method for doing precision reduction on a single geometry, with collapses removed and keeping the geometry precision model the same.static GeometryGeometryPrecisionReducer.reduceKeepCollapsed(Geometry geom, PrecisionModel pm) Reduces precision of a geometry, ensuring output polygonal geometry is valid, and preserving collapsed linear elements.static GeometryGeometryPrecisionReducer.reducePointwise(Geometry g, PrecisionModel precModel) Reduce precision of a geometry in a pointwise way.CommonBitsRemover.removeCommonBits(Geometry geom) Removes the common coordinate bits from a Geometry.CommonBitsOp.symDifference(Geometry geom0, Geometry geom1) Computes the set-theoretic symmetric difference of two geometries, using enhanced precision.static GeometryEnhancedPrecisionOp.symDifference(Geometry geom0, Geometry geom1) Computes the set-theoretic symmetric difference of twoGeometrys, using enhanced precision.Computes the set-theoretic union of twoGeometrys, using enhanced precision.static GeometryComputes the set-theoretic union of twoGeometrys, using enhanced precision.Constructors in org.locationtech.jts.precision with parameters of type GeometryModifierConstructorDescriptionMinimumClearance(Geometry geom) Creates an object to compute the Minimum Clearance for the given Geometry -
Uses of Geometry in org.locationtech.jts.shape
Methods in org.locationtech.jts.shape that return GeometryModifier and TypeMethodDescriptionstatic GeometryCubicBezierCurve.bezierCurve(Geometry geom, double alpha) Creates a geometry of linearized Cubic Bezier Curves defined by the segments of the input and a parameter controlling how curved the result should be.static GeometryCubicBezierCurve.bezierCurve(Geometry geom, double alpha, double skew) Creates a geometry of linearized Cubic Bezier Curves defined by the segments of the input and a parameter controlling how curved the result should be, with a skew factor affecting the curve shape at each vertex.static GeometryCubicBezierCurve.bezierCurve(Geometry geom, Geometry controlPoints) Creates a geometry of linearized Cubic Bezier Curves defined by the segments of the input and a list (or lists) of control points.abstract GeometryGeometricShapeBuilder.getGeometry()CubicBezierCurve.getResult()Gets the computed linearized Bezier curve geometry.Methods in org.locationtech.jts.shape with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryCubicBezierCurve.bezierCurve(Geometry geom, double alpha) Creates a geometry of linearized Cubic Bezier Curves defined by the segments of the input and a parameter controlling how curved the result should be.static GeometryCubicBezierCurve.bezierCurve(Geometry geom, double alpha, double skew) Creates a geometry of linearized Cubic Bezier Curves defined by the segments of the input and a parameter controlling how curved the result should be, with a skew factor affecting the curve shape at each vertex.static GeometryCubicBezierCurve.bezierCurve(Geometry geom, Geometry controlPoints) Creates a geometry of linearized Cubic Bezier Curves defined by the segments of the input and a list (or lists) of control points. -
Uses of Geometry in org.locationtech.jts.shape.fractal
Methods in org.locationtech.jts.shape.fractal that return GeometryModifier and TypeMethodDescriptionHilbertCurveBuilder.getGeometry()KochSnowflakeBuilder.getGeometry()MortonCurveBuilder.getGeometry()SierpinskiCarpetBuilder.getGeometry() -
Uses of Geometry in org.locationtech.jts.shape.random
Fields in org.locationtech.jts.shape.random declared as GeometryMethods in org.locationtech.jts.shape.random that return GeometryModifier and TypeMethodDescriptionRandomPointsBuilder.getGeometry()RandomPointsInGridBuilder.getGeometry()Gets theMultiPointcontaining the generated pointMethods in org.locationtech.jts.shape.random with parameters of type Geometry -
Uses of Geometry in org.locationtech.jts.simplify
Methods in org.locationtech.jts.simplify that return GeometryModifier and TypeMethodDescriptionPolygonHullSimplifier.getResult()Gets the result polygonal hull geometry.DouglasPeuckerSimplifier.getResultGeometry()Gets the simplified geometry.TopologyPreservingSimplifier.getResultGeometry()VWSimplifier.getResultGeometry()Gets the simplified geometry.static GeometryComputes a topology-preserving simplified hull of a polygonal geometry, with hull shape determined by a target parameter specifying the fraction of the input vertices retained in the result.static GeometryPolygonHullSimplifier.hullByAreaDelta(Geometry geom, boolean isOuter, double areaDeltaRatio) Computes a topology-preserving simplified hull of a polygonal geometry, with hull shape determined by a target parameter specifying the ratio of maximum difference in area to original area.static GeometrySimplifies a geometry using a given tolerance.static Geometrystatic GeometrySimplifies a geometry using a given tolerance.Methods in org.locationtech.jts.simplify with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryComputes a topology-preserving simplified hull of a polygonal geometry, with hull shape determined by a target parameter specifying the fraction of the input vertices retained in the result.static GeometryPolygonHullSimplifier.hullByAreaDelta(Geometry geom, boolean isOuter, double areaDeltaRatio) Computes a topology-preserving simplified hull of a polygonal geometry, with hull shape determined by a target parameter specifying the ratio of maximum difference in area to original area.static GeometrySimplifies a geometry using a given tolerance.static Geometrystatic GeometrySimplifies a geometry using a given tolerance.Constructors in org.locationtech.jts.simplify with parameters of type GeometryModifierConstructorDescriptionDouglasPeuckerSimplifier(Geometry inputGeom) Creates a simplifier for a given geometry.PolygonHullSimplifier(Geometry inputGeom, boolean isOuter) Creates a new instance to compute a simplified hull of a polygonal geometry.TopologyPreservingSimplifier(Geometry inputGeom) VWSimplifier(Geometry inputGeom) Creates a simplifier for a given geometry. -
Uses of Geometry in org.locationtech.jts.triangulate
Methods in org.locationtech.jts.triangulate that return GeometryModifier and TypeMethodDescriptionConformingDelaunayTriangulator.getConvexHull()Gets the convex hull of all the sites in the triangulation, including constraint vertices.VoronoiDiagramBuilder.getDiagram(GeometryFactory geomFact) Gets the faces of the computed diagram as aGeometryCollectionofPolygons, clipped as specified.ConformingDelaunayTriangulationBuilder.getEdges(GeometryFactory geomFact) Gets the edges of the computed triangulation as aMultiLineString.DelaunayTriangulationBuilder.getEdges(GeometryFactory geomFact) Gets the edges of the computed triangulation as aMultiLineString.ConformingDelaunayTriangulationBuilder.getTriangles(GeometryFactory geomFact) Gets the faces of the computed triangulation as aGeometryCollectionofPolygon.DelaunayTriangulationBuilder.getTriangles(GeometryFactory geomFact) Gets the faces of the computed triangulation as aGeometryCollectionofPolygon.Methods in org.locationtech.jts.triangulate with parameters of type GeometryModifier and TypeMethodDescriptionstatic CoordinateListDelaunayTriangulationBuilder.extractUniqueCoordinates(Geometry geom) Extracts the uniqueCoordinates from the givenGeometry.voidVertexTaggedGeometryDataMapper.loadSourceGeometries(Geometry geomColl) voidConformingDelaunayTriangulationBuilder.setConstraints(Geometry constraintLines) Sets the linear constraints to be conformed to.voidSets the sites (point or vertices) which will be triangulated.voidSets the sites (vertices) which will be triangulated.voidSets the sites (point or vertices) which will be diagrammed.voidVertexTaggedGeometryDataMapper.transferData(Geometry targetGeom) Input is assumed to be a multiGeometry in which every component has its userData set to be a Coordinate which is the key to the output data. -
Uses of Geometry in org.locationtech.jts.triangulate.polygon
Methods in org.locationtech.jts.triangulate.polygon that return GeometryModifier and TypeMethodDescriptionConstrainedDelaunayTriangulator.getResult()Gets the triangulation as aof triangularinvalid reference
GeometryCollectionPolygons.PolygonTriangulator.getResult()Gets the triangulation as aof triangularinvalid reference
GeometryCollectionPolygons.static GeometryConstrainedDelaunayTriangulator.triangulate(Geometry geom) Computes the Constrained Delaunay Triangulation of each polygon element in a geometry.static GeometryPolygonTriangulator.triangulate(Geometry geom) Computes a triangulation of each polygon in a geometry.Methods in org.locationtech.jts.triangulate.polygon with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryConstrainedDelaunayTriangulator.triangulate(Geometry geom) Computes the Constrained Delaunay Triangulation of each polygon element in a geometry.static GeometryPolygonTriangulator.triangulate(Geometry geom) Computes a triangulation of each polygon in a geometry.Constructors in org.locationtech.jts.triangulate.polygon with parameters of type GeometryModifierConstructorDescriptionConstrainedDelaunayTriangulator(Geometry inputGeom) Constructs a new Constrained Delaunay triangulator.PolygonTriangulator(Geometry inputGeom) Constructs a new triangulator. -
Uses of Geometry in org.locationtech.jts.triangulate.quadedge
Methods in org.locationtech.jts.triangulate.quadedge that return GeometryModifier and TypeMethodDescriptionQuadEdgeSubdivision.getEdges(GeometryFactory geomFact) Gets the geometry for the edges in the subdivision as aMultiLineStringcontaining 2-point lines.QuadEdgeSubdivision.getTriangles(boolean includeFrame, GeometryFactory geomFact) Gets the geometry for the triangles in a triangulated subdivision as aGeometryCollectionof triangularPolygons, optionally including the frame triangles.QuadEdgeSubdivision.getTriangles(GeometryFactory geomFact) Gets the geometry for the triangles in a triangulated subdivision as aGeometryCollectionof triangularPolygons.QuadEdgeSubdivision.getVoronoiDiagram(GeometryFactory geomFact) Gets the cells in the Voronoi diagram for this triangulation.static Geometrystatic Geometry -
Uses of Geometry in org.locationtech.jts.triangulate.tri
Methods in org.locationtech.jts.triangulate.tri that return GeometryModifier and TypeMethodDescriptionstatic GeometryTri.toGeometry(Collection<Tri> tris, GeometryFactory geomFact) Creates aofinvalid reference
GeometryCollectionPolygons representing the triangles in a list. -
Uses of Geometry in org.locationtech.jts.util
Methods in org.locationtech.jts.util that return GeometryMethods in org.locationtech.jts.util with parameters of type GeometryModifier and TypeMethodDescriptionstatic booleanDebug.hasSegment(Geometry geom, Coordinate p0, Coordinate p1) protected Geometrystatic voidTestBuilderProxy.showIndicator(Geometry geom) Shows a geometry as an indicator in the TestBuilder Edit panel.static voidTestBuilderProxy.showIndicator(Geometry geom, Color lineClr) Shows a geometry as an indicator in the TestBuilder Edit panel. -
Uses of Geometry in org.locationtech.jtsexample.technique
Methods in org.locationtech.jtsexample.technique that return GeometryModifier and TypeMethodDescriptionstatic GeometryLineStringSelfIntersections.getEndPoints(Geometry g) static GeometryLineStringSelfIntersections.lineStringSelfIntersections(LineString line) Methods in org.locationtech.jtsexample.technique with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryLineStringSelfIntersections.getEndPoints(Geometry g) static voidPolygonUnionUsingBuffer.unionUsingBuffer(Geometry[] geom) Deprecated. -
Uses of Geometry in org.locationtech.jtslab
Methods in org.locationtech.jtslab that return GeometryModifier and TypeMethodDescriptionstatic GeometryClipFunctions.clipByIntersection(Geometry geom, Geometry rectangle) static GeometryClipFunctions.clipByIntersectionOpt(Geometry geom, Geometry rectangle) static Geometrystatic GeometryClipFunctions.clipPolyPrecise(Geometry geom, Geometry rectangle, double scaleFactor) static GeometryOverlayAreaFunctions.intAreaOrigData(Geometry geom0, Geometry geom1) static GeometryOverlayAreaFunctions.intAreaOrigPrepData(Geometry geom0, Geometry geom1) static GeometryOverlayAreaFunctions.intersectionAreaData(Geometry geom0, Geometry geom1) static GeometryOverlayAreaFunctions.intersectionAreaPrepData(Geometry geom0, Geometry geom1) static GeometryOverlayOptFunctions.intersectionOpt(Geometry a, Geometry b) Use spatial predicates as a filter in front of intersection.static GeometryOverlayOptFunctions.intersectionOptPrep(Geometry a, Geometry b) Use prepared geometry spatial predicates as a filter in front of intersection, with the first operand prepared.static GeometryIteratedOverlayFunctions.overlayIndexedNG(Geometry coll) static Geometrystatic GeometryIteratedOverlayFunctions.overlayOld(Geometry coll) static Geometrystatic GeometryRemoverFunctions.removeSmallHoles(Geometry geom, double areaTolerance) Methods in org.locationtech.jtslab with parameters of type GeometryModifier and TypeMethodDescriptionstatic doublestatic doubleOverlayAreaFunctions.areaSingle(Geometry g) static doubleOverlayAreaFunctions.checkIntArea(Geometry geom0, Geometry geom1) static doubleEdgeRayFunctions.checkIntersectionArea(Geometry geom0, Geometry geom1) static GeometryClipFunctions.clipByIntersection(Geometry geom, Geometry rectangle) static GeometryClipFunctions.clipByIntersectionOpt(Geometry geom, Geometry rectangle) static Geometrystatic GeometryClipFunctions.clipPolyPrecise(Geometry geom, Geometry rectangle, double scaleFactor) static doubleOverlayAreaFunctions.intAreaOrig(Geometry geom0, Geometry geom1) static GeometryOverlayAreaFunctions.intAreaOrigData(Geometry geom0, Geometry geom1) static doubleOverlayAreaFunctions.intAreaOrigPrep(Geometry geom0, Geometry geom1) static GeometryOverlayAreaFunctions.intAreaOrigPrepData(Geometry geom0, Geometry geom1) static doubleEdgeRayFunctions.intersectionArea(Geometry geom0, Geometry geom1) static doubleOverlayAreaFunctions.intersectionArea(Geometry geom0, Geometry geom1) static GeometryOverlayAreaFunctions.intersectionAreaData(Geometry geom0, Geometry geom1) static doubleOverlayAreaFunctions.intersectionAreaPrep(Geometry geom0, Geometry geom1) static GeometryOverlayAreaFunctions.intersectionAreaPrepData(Geometry geom0, Geometry geom1) static GeometryOverlayOptFunctions.intersectionOpt(Geometry a, Geometry b) Use spatial predicates as a filter in front of intersection.static GeometryOverlayOptFunctions.intersectionOptPrep(Geometry a, Geometry b) Use prepared geometry spatial predicates as a filter in front of intersection, with the first operand prepared.static GeometryIteratedOverlayFunctions.overlayIndexedNG(Geometry coll) static Geometrystatic GeometryIteratedOverlayFunctions.overlayOld(Geometry coll) static Geometrystatic GeometryRemoverFunctions.removeSmallHoles(Geometry geom, double areaTolerance) -
Uses of Geometry in org.locationtech.jtslab.clean
Methods in org.locationtech.jtslab.clean that return GeometryModifier and TypeMethodDescriptionstatic GeometryRemoves invalid holes from the polygons in a geometry.static GeometryRemoves small holes from the polygons in a geometry.HoleRemover.getResult()Gets the cleaned geometry.InvalidHoleRemover.getResult()Gets the cleaned geometry.Methods in org.locationtech.jtslab.clean with parameters of type GeometryModifier and TypeMethodDescriptionstatic GeometryRemoves invalid holes from the polygons in a geometry.static GeometryRemoves small holes from the polygons in a geometry.booleanConstructors in org.locationtech.jtslab.clean with parameters of type GeometryModifierConstructorDescriptionHoleRemover(Geometry geom, HoleRemover.Predicate isRemoved) Creates a new hole remover instance.InvalidHoleRemover(Geometry geom) Creates a new invalid hole remover instance. -
Uses of Geometry in org.locationtech.jtslab.clip
Methods in org.locationtech.jtslab.clip that return GeometryModifier and TypeMethodDescriptionstatic Geometrystatic GeometryRectangleClipPolygon.clip(Geometry geom, Geometry rectangle, PrecisionModel pm) RectangleClipPolygon.clipCollection(Geometry geom) Methods in org.locationtech.jtslab.clip with parameters of type GeometryModifier and TypeMethodDescriptionstatic Geometrystatic GeometryRectangleClipPolygon.clip(Geometry geom, Geometry rectangle, PrecisionModel pm) RectangleClipPolygon.clipCollection(Geometry geom) Constructors in org.locationtech.jtslab.clip with parameters of type GeometryModifierConstructorDescriptionRectangleClipPolygon(Geometry clipRectangle) RectangleClipPolygon(Geometry clipRectangle, PrecisionModel pm) -
Uses of Geometry in org.locationtech.jtslab.edgeray
Methods in org.locationtech.jtslab.edgeray with parameters of type GeometryModifier and TypeMethodDescriptionstatic doublestatic doubleConstructors in org.locationtech.jtslab.edgeray with parameters of type GeometryModifierConstructorDescriptionEdgeRayArea(Geometry geom) EdgeRayIntersectionArea(Geometry geom0, Geometry geom1) -
Uses of Geometry in org.locationtech.jtslab.geom.util
Methods in org.locationtech.jtslab.geom.util that return GeometryModifier and TypeMethodDescriptionfinal GeometryGeometryEditorEx.CoordinateOperation.edit(Geometry geometry, GeometryFactory targetFactory) final GeometryGeometryEditorEx.CoordinateSequenceOperation.edit(Geometry geometry, GeometryFactory targetFactory) Edit aGeometry.GeometryEditorEx.GeometryEditorOperation.edit(Geometry geometry, GeometryFactory targetFactory) Edits a Geometry by returning a new Geometry with a modification.GeometryEditorEx.NoOpGeometryOperation.edit(Geometry geometry, GeometryFactory targetFactory) Methods in org.locationtech.jtslab.geom.util with parameters of type GeometryModifier and TypeMethodDescriptionabstract Coordinate[]GeometryEditorEx.CoordinateOperation.edit(Coordinate[] coordinates, Geometry geometry) Edits the array ofCoordinates from aGeometry.final GeometryGeometryEditorEx.CoordinateOperation.edit(Geometry geometry, GeometryFactory targetFactory) abstract CoordinateSequenceGeometryEditorEx.CoordinateSequenceOperation.edit(CoordinateSequence coordSeq, Geometry geometry, GeometryFactory targetFactory) Edits aCoordinateSequencefrom aGeometry.final GeometryGeometryEditorEx.CoordinateSequenceOperation.edit(Geometry geometry, GeometryFactory targetFactory) Edit aGeometry.GeometryEditorEx.GeometryEditorOperation.edit(Geometry geometry, GeometryFactory targetFactory) Edits a Geometry by returning a new Geometry with a modification.GeometryEditorEx.NoOpGeometryOperation.edit(Geometry geometry, GeometryFactory targetFactory) -
Uses of Geometry in org.locationtech.jtstest.clean
Methods in org.locationtech.jtstest.clean that return GeometryMethods in org.locationtech.jtstest.clean with parameters of type Geometry -
Uses of Geometry in org.locationtech.jtstest.cmd
Methods in org.locationtech.jtstest.cmd that return types with arguments of type GeometryMethods in org.locationtech.jtstest.cmd with parameters of type GeometryModifier and TypeMethodDescriptionvoidGeometryOutput.printGeometry(Geometry geom, int srid, String outputFormat) static StringGeometryOutput.writeGeometrySummary(String label, Geometry g) Method parameters in org.locationtech.jtstest.cmd with type arguments of type GeometryModifier and TypeMethodDescriptionstatic StringGeometryOutput.writeGeometrySummary(String label, List<Geometry> geoms) -
Uses of Geometry in org.locationtech.jtstest.function
Methods in org.locationtech.jtstest.function that return GeometryModifier and TypeMethodDescriptionstatic Geometrystatic Geometrystatic Geometrystatic GeometrySelectionNGFunctions.adjacentPrep(Geometry a, Geometry mask) static GeometryHullFunctions.alphaShape(Geometry geom, double alpha) static GeometryHullFunctions.alphaShapeWithHoles(Geometry geom, double alpha) static GeometryTriangleFunctions.angleBisectors(Geometry g) static Geometrystatic GeometrySelectionFunctions.areaGreaterThan(Geometry a, double minArea) static GeometrySelectionFunctions.areaLessThan(Geometry a, double maxArea) static Geometrystatic GeometryCreateShapeFunctions.bezierCurve(Geometry geom, double alpha) static GeometryCreateShapeFunctions.bezierCurveControl(Geometry geom, Geometry controlPoints) static GeometryCreateShapeFunctions.bezierCurveSkew(Geometry geom, double alpha, double skew) static Geometrystatic Geometrystatic GeometryBoundaryFunctions.boundaryEndpoint(Geometry g) static GeometryBoundaryFunctions.boundaryMod2(Geometry g) static GeometryBoundaryFunctions.boundaryMonoValentEnd(Geometry g) static GeometryBoundaryFunctions.boundaryMultiValentEnd(Geometry g) static Geometrystatic GeometryBufferFunctions.bufferAndInverse(Geometry g, double distance) static GeometryBufferByUnionFunctions.bufferByComponents(Geometry g, double distance) static GeometryBufferByUnionFunctions.bufferBySections(Geometry g, double distance, int maxChainSize) static GeometryBufferByUnionFunctions.bufferBySegments(Geometry g, double distance) Buffer polygons by buffering the individual boundary segments and either unioning or differencing them.static GeometryBufferFunctions.bufferCurve(Geometry g, double distance) static GeometryBufferFunctions.bufferCurveWithParams(Geometry g, Double distance, Integer quadrantSegments, Integer capStyle, Integer joinStyle, Double mitreLimit) static GeometryBufferFunctions.bufferEach(Geometry g, double distance) static GeometryBufferFunctions.bufferLineSimplifier(Geometry g, double distance) static GeometryTestCaseGeometryFunctions.bufferMitredJoin(Geometry g, double distance) static GeometryBufferFunctions.bufferRadius(Geometry radiusLine) static GeometryBufferFunctions.bufferValidated(Geometry g, double distance) static GeometryBufferFunctions.bufferValidatedGeom(Geometry g, double distance) static GeometryBufferFunctions.bufferWithParams(Geometry g, Double distance, Integer quadrantSegments, Integer capStyle, Integer joinStyle, Double mitreLimit) static GeometryBufferFunctions.bufferWithSimplify(Geometry g, Double distance, Double simplifyFactor) static GeometryFunctionsUtil.buildGeometry(List geoms, Geometry parentGeom) static GeometryFunctionsUtil.buildGeometry(Geometry[] geoms) static GeometryFunctionsUtil.buildGeometry(Geometry a, Geometry b) static GeometryFunctionsUtil.buildGeometryCollection(Geometry[] geoms, Geometry nullGeom) static Geometrystatic Geometrystatic GeometryConstructionFunctions.circleByRadiusLine(Geometry radiusLine, int nPts) static GeometryTriangleFunctions.circumcentre(Geometry g) static GeometryTriangleFunctions.circumcentreDD(Geometry g) static GeometryTriangleFunctions.circumcircle(Geometry g, int quadSegs) static Geometrystatic Geometrystatic Geometrystatic GeometryBufferByUnionFunctions.componentBuffers(Geometry g, double distance) static GeometryHullFunctions.concaveFill(Geometry geom, double maxEdgeLen) static GeometryHullFunctions.concaveFillByLenRatio(Geometry geom, double maxEdgeLenRatio) static GeometryConstructionFunctions.concaveHullByLen(Geometry geom, double maxLen) static GeometryConstructionFunctions.concaveHullByLenRatio(Geometry geom, double maxLen) static GeometryHullFunctions.concaveHullPoints(Geometry geom, double maxLen) static GeometryHullFunctions.concaveHullPointsByLenRatio(Geometry geom, double maxLenRatio) static GeometryHullFunctions.concaveHullPointsWithHoles(Geometry geom, double maxLen) static GeometryHullFunctions.concaveHullPointsWithHolesByLenRatio(Geometry geom, double maxLenRatio) static GeometryHullFunctions.concaveHullPolygons(Geometry geom, double maxEdgeLen) static GeometryHullFunctions.concaveHullPolygonsByLenRatio(Geometry geom, double maxEdgeLenRatio) static GeometryHullFunctions.concaveHullPolygonsTight(Geometry geom, double maxEdgeLen) static GeometryHullFunctions.concaveHullPolygonsTightByLenRatio(Geometry geom, double maxEdgeLenRatio) static GeometryHullFunctions.concaveHullPolygonsWithHoles(Geometry geom, double maxEdgeLen) static GeometryConstructionFunctions.concaveHullWithHolesByLen(Geometry geom, double maxLen) static GeometryConstructionFunctions.concaveHullWithHolesByLenRatio(Geometry geom, double maxLen) static GeometryTriangulationFunctions.conformingDelaunayEdges(Geometry sites, Geometry constraints) static GeometryTriangulationFunctions.conformingDelaunayEdgesWithTolerance(Geometry sites, Geometry constraints, double tol) static GeometryTriangulationFunctions.conformingDelaunayTriangles(Geometry sites, Geometry constraints) static GeometryTriangulationFunctions.conformingDelaunayTrianglesWithTolerance(Geometry sites, Geometry constraints, double tol) static GeometryTriangulatePolyFunctions.constrainedDelaunay(Geometry geom) static Geometrystatic GeometryConstructionFunctions.convexHull(Geometry g) static GeometryHullFunctions.convexHull(Geometry g) static Geometrystatic Geometrystatic Geometrystatic Geometrystatic GeometrySelectionFunctions.coversPrep(Geometry a, Geometry mask) static GeometrySelectionNGFunctions.coversPrep(Geometry a, Geometry mask) static GeometryTriangulationFunctions.delaunayEdges(Geometry geom) static GeometryTriangulationFunctions.delaunayEdgesWithTolerance(Geometry geom, double tolerance) static GeometryTriangulationFunctions.delaunayTriangles(Geometry geom) static GeometryTriangulationFunctions.delaunayTrianglesWithTolerance(Geometry geom, double tolerance) static GeometryTriangulationFunctions.delaunayTrianglesWithToleranceNoError(Geometry geom, double tolerance) static GeometryDistanceFunctions.densifiedDiscreteHausdorffDistanceLine(Geometry a, Geometry b, double frac) static Geometrystatic Geometrystatic GeometryOverlayCommonBitsRemovedFunctions.difference(Geometry a, Geometry b) static GeometryOverlayEnhancedPrecisionFunctions.difference(Geometry a, Geometry b) static GeometryOverlayFunctions.difference(Geometry a, Geometry b) static GeometryOverlayNGFunctions.difference(Geometry a, Geometry b) static GeometryOverlayNGOptFunctions.difference(Geometry a, Geometry b) static GeometryOverlayNGRobustFunctions.difference(Geometry a, Geometry b) static GeometryOverlayNGSnappingFunctions.difference(Geometry a, Geometry b, double tolerance) static GeometryOverlayNGSRFunctions.difference(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGStrictFunctions.difference(Geometry a, Geometry b) static GeometryOverlayNoSnapFunctions.difference(Geometry a, Geometry b) static GeometryOverlayCommonBitsRemovedFunctions.differenceBA(Geometry a, Geometry b) static GeometryOverlayEnhancedPrecisionFunctions.differenceBA(Geometry a, Geometry b) static GeometryOverlayFunctions.differenceBA(Geometry a, Geometry b) static GeometryOverlayNGFunctions.differenceBA(Geometry a, Geometry b) static GeometryOverlayNGRobustFunctions.differenceBA(Geometry a, Geometry b) static GeometryOverlayNGSRFunctions.differenceBA(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGStrictFunctions.differenceBA(Geometry a, Geometry b) static GeometryOverlayNoSnapFunctions.differenceBA(Geometry a, Geometry b) static GeometryDistanceFunctions.discreteFrechetfDistanceLine(Geometry a, Geometry b) static GeometryDistanceFunctions.discreteHausdorffDistanceLine(Geometry a, Geometry b) static GeometryDistanceFunctions.discreteOrientedHausdorffDistanceLine(Geometry a, Geometry b) static Geometrystatic Geometrystatic Geometrystatic GeometryOverlayNGTestFunctions.edgesIntersectionAll(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.edgesIntersectionResult(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.edgesNoded(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.edgesNodedIntersection(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.edgesNodedIntNoOpt(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.edgesOverlayResult(Geometry a) static GeometryOverlayNGTestFunctions.edgesUnionAll(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.edgesUnionResult(Geometry a, Geometry b, double scaleFactor) static Geometrystatic GeometryCreateShapeFunctions.ellipseRotate(Geometry g, int nPts, double ang) static Geometrystatic GeometryLineHandlingFunctions.extractChains(Geometry g, int maxChainSize) static GeometryLinearReferencingFunctions.extractLine(Geometry g, double start, double end) static GeometryLineHandlingFunctions.extractLines(Geometry g) static GeometryLinearReferencingFunctions.extractPoint(Geometry g, double index) static GeometryLineHandlingFunctions.extractSegments(Geometry g) static Geometrystatic GeometryNodingFunctions.findInteriorNodes(Geometry geom) static Geometrystatic GeometryNodingFunctions.findOneNode(Geometry geom) static GeometrySelectionFunctions.firstNComponents(Geometry g, int n) static GeometryValidationFunctions.fixIfInvalid(Geometry geom) static GeometryValidationFunctions.fixInvalid(Geometry geom) static GeometryValidationFunctions.fixInvalidKeepCollapse(Geometry geom) static Geometrystatic GeometryCreateShapeFunctions.fontGlyphMonospaced(Geometry g, String text) static GeometryCreateShapeFunctions.fontGlyphSansSerif(Geometry g, String text) static GeometryCreateShapeFunctions.fontGlyphSerif(Geometry g, String text) static GeometryCreateShapeFunctions.fontGlyphSerifPointSize(Geometry g, String text, int pointSize) static GeometryGeometryFunctions.getCoordinates(Geometry g) static GeometryGeometryFunctions.getGeometryN(Geometry g, int i) static GeometryGeometryFunctions.getPolygonHoleN(Geometry g, int i) static GeometryGeometryFunctions.getPolygonHoles(Geometry geom) static GeometryGeometryFunctions.getPolygonShell(Geometry g) static Geometrystatic GeometryCreateShapeFunctions.gridPoints(Geometry g, int nCells) static GeometryCreateRandomShapeFunctions.haltonPoints(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.haltonPoints57(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.haltonPointsWithBases(Geometry g, int nPts, int basei, int basej) static GeometryCreateFractalShapeFunctions.hilbertCurve(Geometry g, int n) static GeometryCreateFractalShapeFunctions.hilbertCurveAtLevel(Geometry g, int level) static GeometrySpatialIndexFunctions.hprTreeBounds(Geometry geoms) static GeometrySpatialIndexFunctions.hprTreeQuery(Geometry geoms, Geometry queryEnv) static GeometrySpatialIndexFunctions.hprTreeQueryCached(Geometry geoms, Geometry queryEnv) static Geometrystatic Geometrystatic GeometrySimplificationFunctions.innerPolygonHullByAreaDelta(Geometry geom, double areaFrac) static GeometrySimplificationFunctions.innerPolygonHullByVertexFrac(Geometry geom, double vertexFrac) static GeometryConstructionFunctions.interiorPoint(Geometry g) static GeometrySelectionFunctions.interiorPointWithin(Geometry a, Geometry mask) static GeometryLineSegmentFunctions.intersection(Geometry g1, Geometry g2) static GeometryOverlayCommonBitsRemovedFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayEnhancedPrecisionFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayNGFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayNGOptFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayNGRobustFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayNGSnappingFunctions.intersection(Geometry a, Geometry b, double tolerance) static GeometryOverlayNGSRFunctions.intersection(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGStrictFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayNoSnapFunctions.intersection(Geometry a, Geometry b) static GeometryLineSegmentFunctions.intersectionDD(Geometry g1, Geometry g2) static GeometryOverlayNGTestFunctions.intersectionIsValid(Geometry a, Geometry b) static GeometryOverlayNGTestFunctions.intersectionNoOpt(Geometry a, Geometry b) static GeometryOverlayNGTestFunctions.intersectionNoValid(Geometry a, Geometry b) static GeometryOverlayNGOptFunctions.intersectionOrigClassic(Geometry a, Geometry b) Use spatial predicates as a filter in front of intersection.static GeometryOverlayNGOptFunctions.intersectionOrigPrep(Geometry a, Geometry b) Use prepared geometry spatial predicates as a filter in front of intersection, with the first operand prepared.static GeometryOverlayNGOptFunctions.intersectionOrigPrepNoCache(Geometry a, Geometry b) static GeometryOverlayNGOptFunctions.intersectionPrep(Geometry a, Geometry b) Using auto slows things down quite a bit (due to need to scan to find scale factor), so not recommended.static GeometryOverlayNGOptFunctions.intersectionPrepNoCache(Geometry a, Geometry b) static GeometryOverlayNGOptFunctions.intersectionPrepSR(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGOptFunctions.intersectionSR(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.intersectionSRNoOpt(Geometry a, Geometry b, double scaleFactor) static GeometrySelectionFunctions.intersects(Geometry a, Geometry mask) static GeometrySelectionNGFunctions.intersects(Geometry a, Geometry mask) static GeometrySelectionFunctions.intersectsPrep(Geometry a, Geometry mask) static GeometrySelectionNGFunctions.intersectsPrep(Geometry a, Geometry mask) static Geometrystatic GeometryValidationFunctions.invalidGeoms(Geometry g) static GeometryValidationFunctions.invalidLocations(Geometry g) Validates all geometries in a collection independently.static Geometrystatic GeometrySpatialIndexFunctions.kdTreeGraph(Geometry geom) static GeometrySpatialIndexFunctions.kdTreeGraphSeed(Geometry geom) static GeometrySpatialIndexFunctions.kdTreeQuery(Geometry pts, Geometry queryEnv, double tolerance) static GeometrySpatialIndexFunctions.kdTreeQueryCached(Geometry pts, Geometry queryEnv, double tolerance) static GeometrySpatialIndexFunctions.kdTreeQueryRepeated(Geometry pts, Geometry queryEnv, double tolerance) static GeometrySpatialIndexFunctions.kdTreeSplits(Geometry geom) static GeometrySpatialIndexFunctions.kdTreeSplitsSeed(Geometry geom) static GeometryCreateFractalShapeFunctions.kochSnowflake(Geometry g, int n) static GeometryLabellingFunctions.labelPoint(Geometry g) static GeometryLabellingFunctions.labelPointConstrained(Geometry g, Geometry con) static GeometryConstructionFunctions.largestEmptyCircle(Geometry obstacles, Geometry boundary, double tolerance) static GeometryConstructionFunctions.largestEmptyCircleCenter(Geometry obstacles, Geometry boundary, double tolerance) static GeometryConstructionFunctions.largestEmptyCircleRadius(Geometry obstacles, Geometry boundary, double tolerance) static Geometrystatic GeometrySelectionFunctions.lengthGreaterThan(Geometry a, double minLen) static GeometrySelectionFunctions.lengthLessThan(Geometry a, double maxLen) static GeometrySelectionFunctions.lengthZero(Geometry a) static Geometrystatic GeometryLineSegmentFunctions.lineIntersection(Geometry g1, Geometry g2) static GeometryLineSegmentFunctions.lineIntersectionDD(Geometry g1, Geometry g2) static GeometryLineSegmentFunctions.lineSegmentIntersection(Geometry g1, Geometry g2) static GeometryConversionFunctions.lineToPolygon(Geometry g) static GeometryJTSFunctions.logoBuffer(Geometry g, double distance) static Geometrystatic GeometryConstructionFunctions.maximumDiameter(Geometry g) static GeometryConstructionFunctions.maximumInscribedCircle(Geometry g, double tolerance) static GeometryConstructionFunctions.maximumInscribedCircleCenter(Geometry g, double tolerance) static GeometryConstructionFunctions.maximumInscribedCircleRadius(Geometry g, double tolerance) static GeometryNodingFunctions.MCIndexNoding(Geometry geom, Geometry geom2) static GeometryNodingFunctions.MCIndexNodingWithPrecision(Geometry geom, Geometry geom2, double scaleFactor) static GeometryLineHandlingFunctions.mergeLines(Geometry g) static GeometryPrecisionFunctions.minClearanceLine(Geometry g) static GeometryTestCaseGeometryFunctions.minClearanceLine(Geometry g) static GeometryPrecisionFunctions.minClearanceSimpleLine(Geometry g) static GeometryConstructionFunctions.minimumAreaRectangle(Geometry g) static GeometryConstructionFunctions.minimumBoundingCircle(Geometry g) static GeometryConstructionFunctions.minimumDiameter(Geometry g) static GeometryConstructionFunctions.minimumDiameterRectangle(Geometry g) static GeometrySpatialIndexFunctions.monotoneChains(Geometry geom) static GeometryCreateFractalShapeFunctions.mortonCurve(Geometry g, int n) static GeometryCreateFractalShapeFunctions.mortonCurveAtLevel(Geometry g, int level) static GeometryDistanceFunctions.nearestPoints(Geometry a, Geometry b) static GeometryDistanceFunctions.nearestPointsIndexed(Geometry a, Geometry b) static GeometryDistanceFunctions.nearestPointsIndexedEachB(Geometry a, Geometry b) static Geometrystatic GeometryValidationFunctions.nonSimpleAllPoints(Geometry geom) static GeometryValidationFunctions.nonSimpleEndpoints(Geometry geom) static GeometryValidationFunctions.nonSimplePoint(Geometry geom) static Geometrystatic Geometrystatic GeometryConstructionFunctions.octagonalEnvelope(Geometry g) static GeometryOffsetCurveFunctions.offsetCurve(Geometry geom, double distance) static GeometryOffsetCurveFunctions.offsetCurveBoth(Geometry geom, double distance) static GeometryOffsetCurveFunctions.offsetCurveBothWithParams(Geometry geom, Double distance, Integer quadrantSegments, Integer capStyle, Integer joinStyle, Double mitreLimit) static GeometryOffsetCurveFunctions.offsetCurveJoined(Geometry geom, double distance) static GeometryOffsetCurveFunctions.offsetCurveWithParams(Geometry geom, Double distance, Integer quadrantSegments, Integer capStyle, Integer joinStyle, Double mitreLimit) static GeometrySimplificationFunctions.outerPolygonHullByAreaDelta(Geometry geom, double areaFrac) static GeometrySimplificationFunctions.outerPolygonHullByVertexFrac(Geometry geom, double vertexFrac) static Geometrystatic GeometryPolygonOverlayFunctions.overlayIterSnap(Geometry g1, Geometry g2, double snapTol) static Geometrystatic GeometryTriangleFunctions.perpendicularBisectors(Geometry g) static GeometryCreateShapeFunctions.pointFieldCentroidStar(Geometry ptsGeom) static GeometryCreateShapeFunctions.pointFieldStar(Geometry ptsGeom, Geometry centrePt) static GeometryConversionFunctions.pointsToLine(Geometry g) static GeometryPolygonizeFunctions.polygonize(Geometry g) static GeometryPolygonizeFunctions.polygonizeAllErrors(Geometry g) static GeometryPolygonizeFunctions.polygonizeCutEdges(Geometry g) static GeometryPolygonizeFunctions.polygonizeDangles(Geometry g) static GeometryPolygonizeFunctions.polygonizeInvalidRingLines(Geometry g) static GeometryPolygonizeFunctions.polygonizeValidPolygonal(Geometry g) static Geometrystatic GeometrySpatialIndexFunctions.quadTreeQuery(Geometry geoms, Geometry queryEnv) static GeometryCreateRandomShapeFunctions.randomLineString(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomPoints(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomPointsInGrid(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomPointsInGridCircles(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomPointsInGridWithGutter(Geometry g, int nPts, double gutterFraction) static GeometryCreateRandomShapeFunctions.randomPointsInPolygon(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomPointsInTriangle(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomRadialPoints(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomRectilinearWalk(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomSegments(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomSegmentsInGrid(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomSegmentsRectilinear(Geometry g, int nPts) static Geometrystatic GeometryOffsetCurveFunctions.rawCurveWithParams(Geometry geom, Double distance, Integer quadrantSegments, Integer capStyle, Integer joinStyle, Double mitreLimit) static GeometryOverlayNGSRFunctions.reducePrecision(Geometry a, double scaleFactor) static GeometryPrecisionFunctions.reducePrecision(Geometry geom, double scaleFactor) static GeometryPrecisionFunctions.reducePrecisionKeepCollapsed(Geometry geom, double scaleFactor) static GeometryPrecisionFunctions.reducePrecisionPointwise(Geometry geom, double scaleFactor) static GeometryAffineTransformationFunctions.reflectInX(Geometry g) static GeometryAffineTransformationFunctions.reflectInY(Geometry g) static GeometryLineSegmentFunctions.reflectPoint(Geometry g1, Geometry g2) static GeometrySelectionFunctions.relatePattern(Geometry a, Geometry mask, String pattern) static GeometrySelectionNGFunctions.relatePattern(Geometry a, Geometry mask, String pattern) static GeometrySelectionNGFunctions.relatePatternPrep(Geometry a, Geometry mask, String pattern) static Geometrystatic GeometryCreateRandomShapeFunctions.robertsPoints(Geometry geom, int nPts) Creates a set of quasi-random 2D points using the Roberts recurrences.static Geometrystatic GeometryAffineTransformationFunctions.rotateAroundPoint(Geometry g, Geometry pt, double angle) static GeometryAffineTransformationFunctions.rotateByPiMultiple(Geometry g, double multipleOfPi) static GeometryAffineTransformationFunctions.rotateByPiMultipleAroundPoint(Geometry g, Geometry pt, double multipleOfPi) static Geometrystatic GeometryBufferByUnionFunctions.sectionBuffers(Geometry g, double distance, int maxChainSize) static Geometrystatic GeometryLineHandlingFunctions.sequenceLines(Geometry g) static GeometryCreateFractalShapeFunctions.sierpinskiCarpet(Geometry g, int n) static Geometrystatic GeometrySimplificationFunctions.simplifyDP(Geometry g, double distance) static GeometryCoverageFunctions.simplifyInner(Geometry coverage, double tolerance) static GeometryCoverageFunctions.simplifyInOut(Geometry coverage, double toleranceInner, double toleranceOuter) static GeometryCoverageFunctions.simplifyOuter(Geometry coverage, double tolerance) static GeometryCoverageFunctions.simplifyRemoveRings(Geometry coverage, double tolerance, double factor) static GeometryCoverageFunctions.simplifySharp(Geometry coverage, double tolerance, double weight) static GeometryCoverageFunctions.simplifyTolerances(Geometry coverage, String tolerancesCSV) static GeometrySimplificationFunctions.simplifyTP(Geometry g, double distance) static GeometrySimplificationFunctions.simplifyVW(Geometry g, double tolerance) static Geometrystatic GeometryBufferFunctions.singleSidedBuffer(Geometry geom, double distance) static GeometryBufferFunctions.singleSidedBufferCurve(Geometry geom, double distance) static Geometrystatic GeometryNodingFunctions.snappingNoder(Geometry geom, Geometry geom2, double snapDistance) static GeometryNodingFunctions.snapRoundingNoder(Geometry geom, Geometry geom2, double scaleFactor) static GeometrySnappingFunctions.snapToSelfAndClean(Geometry g, double distance) static GeometrySortingFunctions.sortByArea(Geometry g) static GeometrySortingFunctions.sortByHilbertCode(Geometry g) static GeometrySortingFunctions.sortByLength(Geometry g) static GeometrySortingFunctions.sortByMinX(Geometry g) static GeometrySortingFunctions.sortByMinY(Geometry g) static GeometrySortingFunctions.sortByMortonCode(Geometry g) static Geometrystatic Geometrystatic GeometryAffineTransformationFunctions.stretchToViewport(Geometry g, Geometry gViewport) static GeometrySpatialIndexFunctions.strTreeBounds(Geometry geoms) static Geometrystatic GeometrySpatialIndexFunctions.strTreeNNInSet(Geometry geoms) static GeometrySpatialIndexFunctions.strTreeNNk(Geometry geoms, Geometry geom, int k) static GeometrySpatialIndexFunctions.strTreeQuery(Geometry geoms, Geometry queryEnv) static GeometrySpatialIndexFunctions.strTreeQueryCached(Geometry geoms, Geometry queryEnv) static GeometryCreateShapeFunctions.supercircle(Geometry g, int nPts, double pow) static GeometryCreateShapeFunctions.supercircle3(Geometry g, int nPts) static GeometryCreateShapeFunctions.supercircle5(Geometry g, int nPts) static GeometryCreateShapeFunctions.supercirclePoint5(Geometry g, int nPts) static GeometryOverlayCommonBitsRemovedFunctions.symDifference(Geometry a, Geometry b) static GeometryOverlayEnhancedPrecisionFunctions.symDifference(Geometry a, Geometry b) static GeometryOverlayFunctions.symDifference(Geometry a, Geometry b) static GeometryOverlayNGFunctions.symDifference(Geometry a, Geometry b) static GeometryOverlayNGRobustFunctions.symDifference(Geometry a, Geometry b) static GeometryOverlayNGSRFunctions.symDifference(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGStrictFunctions.symDifference(Geometry a, Geometry b) static GeometryOverlayNoSnapFunctions.symDifference(Geometry a, Geometry b) static Geometry[]FunctionsUtil.toGeometryArray(Geometry a, Geometry b) static GeometryConversionFunctions.toGeometryCollection(Geometry g1, Geometry g2) static Geometrystatic GeometryConversionFunctions.toMultiPolygon(Geometry g1, Geometry g2) static Geometrystatic Geometrystatic Geometrystatic GeometrySelectionNGFunctions.touchesPrep(Geometry a, Geometry mask) static GeometryAffineTransformationFunctions.transformByBaseline(Geometry g, Geometry destBaseline) static GeometryAffineTransformationFunctions.transformByVectors(Geometry g, Geometry control) static GeometryAffineTransformationFunctions.transformToViewport(Geometry g, Geometry gViewport) static Geometrystatic GeometryAffineTransformationFunctions.translateCentreToOrigin(Geometry g) static GeometryAffineTransformationFunctions.translateToOrigin(Geometry g) static GeometryTriangulatePolyFunctions.triangulate(Geometry geom) static GeometryOverlayFunctions.unaryUnion(Geometry a) static GeometryOverlayNGFunctions.unaryUnion(Geometry a) static GeometryOverlayNGRobustFunctions.unaryUnion(Geometry a) static GeometryOverlayNGSnappingFunctions.unaryUnion(Geometry a, double tolerance) static GeometryOverlayNGSRFunctions.unaryUnion(Geometry a, double scaleFactor) static GeometryOverlayNoSnapFunctions.unaryUnion(Geometry a) static GeometryOverlayNGSnappingFunctions.unaryUnionNoValid(Geometry a, double tolerance) static Geometrystatic Geometrystatic Geometrystatic Geometrystatic Geometrystatic Geometrystatic Geometrystatic Geometrystatic Geometrystatic Geometrystatic GeometryOverlayNGTestFunctions.unionClassicNoderNoValid(Geometry a, Geometry b) static GeometryOverlayNGFunctions.unionCoverage(Geometry geom) static GeometryOverlayNGTestFunctions.unionIntSymDiff(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.unionIntSymDiffOriginal(Geometry a, Geometry b) static GeometryOverlayFunctions.unionUsingGeometryCollection(Geometry a, Geometry b) static Geometrystatic Geometrystatic GeometryCoverageFunctions.validatePolygon(Geometry geom, Geometry adjacentPolys) static GeometryCoverageFunctions.validatePolygonWithGaps(Geometry geom, Geometry adjacentPolys, double gapWidth) static GeometryCoverageFunctions.validateWithGaps(Geometry geom, double gapWidth) static GeometryBufferFunctions.variableBuffer(Geometry line, double startDist, double endDist) static GeometryBufferFunctions.variableBufferMid(Geometry line, double startDist, double midDist) static GeometryTriangulationFunctions.voronoiDiagram(Geometry sitesGeom, Geometry clipGeom) static GeometryTriangulationFunctions.voronoiDiagramWithData(Geometry sitesGeom, Geometry clipGeom) static GeometryTriangulationFunctions.voronoiRelaxation(Geometry sitesGeom, Geometry clipGeom, int nIter) static Geometrystatic GeometrySelectionFunctions.withinDistance(Geometry a, Geometry mask, double maximumDistance) static GeometrySelectionFunctions.withinDistanceIndexed(Geometry a, Geometry mask, double maximumDistance) Methods in org.locationtech.jtstest.function that return types with arguments of type GeometryMethods in org.locationtech.jtstest.function with parameters of type GeometryModifier and TypeMethodDescriptionstatic Geometrystatic Geometrystatic Geometrystatic booleanstatic booleanstatic GeometrySelectionNGFunctions.adjacentPrep(Geometry a, Geometry mask) static GeometryHullFunctions.alphaShape(Geometry geom, double alpha) static GeometryHullFunctions.alphaShapeWithHoles(Geometry geom, double alpha) static GeometryTriangleFunctions.angleBisectors(Geometry g) static doublestatic Geometrystatic doubleComputes the maximum area delta value resulting from identity equations over the overlay operations.static GeometrySelectionFunctions.areaGreaterThan(Geometry a, double minArea) static GeometrySelectionFunctions.areaLessThan(Geometry a, double maxArea) static Geometrystatic GeometryCreateShapeFunctions.bezierCurve(Geometry geom, double alpha) static GeometryCreateShapeFunctions.bezierCurveControl(Geometry geom, Geometry controlPoints) static GeometryCreateShapeFunctions.bezierCurveSkew(Geometry geom, double alpha, double skew) static Geometrystatic Geometrystatic GeometryBoundaryFunctions.boundaryEndpoint(Geometry g) static GeometryBoundaryFunctions.boundaryMod2(Geometry g) static GeometryBoundaryFunctions.boundaryMonoValentEnd(Geometry g) static GeometryBoundaryFunctions.boundaryMultiValentEnd(Geometry g) static Geometrystatic GeometryBufferFunctions.bufferAndInverse(Geometry g, double distance) static GeometryBufferByUnionFunctions.bufferByComponents(Geometry g, double distance) static GeometryBufferByUnionFunctions.bufferBySections(Geometry g, double distance, int maxChainSize) static GeometryBufferByUnionFunctions.bufferBySegments(Geometry g, double distance) Buffer polygons by buffering the individual boundary segments and either unioning or differencing them.static GeometryBufferFunctions.bufferCurve(Geometry g, double distance) static GeometryBufferFunctions.bufferCurveWithParams(Geometry g, Double distance, Integer quadrantSegments, Integer capStyle, Integer joinStyle, Double mitreLimit) static GeometryBufferFunctions.bufferEach(Geometry g, double distance) static GeometryBufferFunctions.bufferLineSimplifier(Geometry g, double distance) static GeometryTestCaseGeometryFunctions.bufferMitredJoin(Geometry g, double distance) static GeometryBufferFunctions.bufferRadius(Geometry radiusLine) static GeometryBufferFunctions.bufferValidated(Geometry g, double distance) static GeometryBufferFunctions.bufferValidatedGeom(Geometry g, double distance) static GeometryBufferFunctions.bufferWithParams(Geometry g, Double distance, Integer quadrantSegments, Integer capStyle, Integer joinStyle, Double mitreLimit) static GeometryBufferFunctions.bufferWithSimplify(Geometry g, Double distance, Double simplifyFactor) static GeometryFunctionsUtil.buildGeometry(List geoms, Geometry parentGeom) static GeometryFunctionsUtil.buildGeometry(Geometry[] geoms) static GeometryFunctionsUtil.buildGeometry(Geometry a, Geometry b) static GeometryFunctionsUtil.buildGeometryCollection(Geometry[] geoms, Geometry nullGeom) static Geometrystatic Geometrystatic GeometryConstructionFunctions.circleByRadiusLine(Geometry radiusLine, int nPts) static GeometryTriangleFunctions.circumcentre(Geometry g) static GeometryTriangleFunctions.circumcentreDD(Geometry g) static GeometryTriangleFunctions.circumcircle(Geometry g, int quadSegs) static doubleTriangleFunctions.circumradius(Geometry g) static Geometrystatic Geometrystatic Geometrystatic GeometryBufferByUnionFunctions.componentBuffers(Geometry g, double distance) static GeometryHullFunctions.concaveFill(Geometry geom, double maxEdgeLen) static GeometryHullFunctions.concaveFillByLenRatio(Geometry geom, double maxEdgeLenRatio) static GeometryConstructionFunctions.concaveHullByLen(Geometry geom, double maxLen) static GeometryConstructionFunctions.concaveHullByLenRatio(Geometry geom, double maxLen) static doubleConstructionFunctions.concaveHullLenGuess(Geometry geom) static doubleHullFunctions.concaveHullLenGuess(Geometry geom) static GeometryHullFunctions.concaveHullPoints(Geometry geom, double maxLen) static GeometryHullFunctions.concaveHullPointsByLenRatio(Geometry geom, double maxLenRatio) static GeometryHullFunctions.concaveHullPointsWithHoles(Geometry geom, double maxLen) static GeometryHullFunctions.concaveHullPointsWithHolesByLenRatio(Geometry geom, double maxLenRatio) static GeometryHullFunctions.concaveHullPolygons(Geometry geom, double maxEdgeLen) static GeometryHullFunctions.concaveHullPolygonsByLenRatio(Geometry geom, double maxEdgeLenRatio) static GeometryHullFunctions.concaveHullPolygonsTight(Geometry geom, double maxEdgeLen) static GeometryHullFunctions.concaveHullPolygonsTightByLenRatio(Geometry geom, double maxEdgeLenRatio) static GeometryHullFunctions.concaveHullPolygonsWithHoles(Geometry geom, double maxEdgeLen) static GeometryConstructionFunctions.concaveHullWithHolesByLen(Geometry geom, double maxLen) static GeometryConstructionFunctions.concaveHullWithHolesByLenRatio(Geometry geom, double maxLen) static doubleConstructionFunctions.concaveness(Geometry geom) A concaveness measure defined in terms of the perimeter length relative to the convex hull perimeter.static doubleHullFunctions.concaveness(Geometry geom) A concaveness measure defined in terms of the perimeter length relative to the convex hull perimeter.static GeometryTriangulationFunctions.conformingDelaunayEdges(Geometry sites, Geometry constraints) static GeometryTriangulationFunctions.conformingDelaunayEdgesWithTolerance(Geometry sites, Geometry constraints, double tol) static GeometryTriangulationFunctions.conformingDelaunayTriangles(Geometry sites, Geometry constraints) static GeometryTriangulationFunctions.conformingDelaunayTrianglesWithTolerance(Geometry sites, Geometry constraints, double tol) static GeometryTriangulatePolyFunctions.constrainedDelaunay(Geometry geom) static Geometrystatic booleanstatic booleanstatic booleanSpatialPredicateFunctions.containsProperly(Geometry a, Geometry b) static booleanSpatialPredicateNGFunctions.containsProperly(Geometry a, Geometry b) static GeometryConstructionFunctions.convexHull(Geometry g) static GeometryHullFunctions.convexHull(Geometry g) static Geometrystatic Geometrystatic booleanstatic booleanstatic Geometrystatic Geometrystatic booleanstatic booleanstatic GeometrySelectionFunctions.coversPrep(Geometry a, Geometry mask) static GeometrySelectionNGFunctions.coversPrep(Geometry a, Geometry mask) static booleanstatic booleanstatic GeometryTriangulationFunctions.delaunayEdges(Geometry geom) static GeometryTriangulationFunctions.delaunayEdgesWithTolerance(Geometry geom, double tolerance) static GeometryTriangulationFunctions.delaunayTriangles(Geometry geom) static GeometryTriangulationFunctions.delaunayTrianglesWithTolerance(Geometry geom, double tolerance) static GeometryTriangulationFunctions.delaunayTrianglesWithToleranceNoError(Geometry geom, double tolerance) static GeometryDistanceFunctions.densifiedDiscreteHausdorffDistanceLine(Geometry a, Geometry b, double frac) static Geometrystatic Geometrystatic GeometryOverlayCommonBitsRemovedFunctions.difference(Geometry a, Geometry b) static GeometryOverlayEnhancedPrecisionFunctions.difference(Geometry a, Geometry b) static GeometryOverlayFunctions.difference(Geometry a, Geometry b) static GeometryOverlayNGFunctions.difference(Geometry a, Geometry b) static GeometryOverlayNGOptFunctions.difference(Geometry a, Geometry b) static GeometryOverlayNGRobustFunctions.difference(Geometry a, Geometry b) static GeometryOverlayNGSnappingFunctions.difference(Geometry a, Geometry b, double tolerance) static GeometryOverlayNGSRFunctions.difference(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGStrictFunctions.difference(Geometry a, Geometry b) static GeometryOverlayNoSnapFunctions.difference(Geometry a, Geometry b) static GeometryOverlayCommonBitsRemovedFunctions.differenceBA(Geometry a, Geometry b) static GeometryOverlayEnhancedPrecisionFunctions.differenceBA(Geometry a, Geometry b) static GeometryOverlayFunctions.differenceBA(Geometry a, Geometry b) static GeometryOverlayNGFunctions.differenceBA(Geometry a, Geometry b) static GeometryOverlayNGRobustFunctions.differenceBA(Geometry a, Geometry b) static GeometryOverlayNGSRFunctions.differenceBA(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGStrictFunctions.differenceBA(Geometry a, Geometry b) static GeometryOverlayNoSnapFunctions.differenceBA(Geometry a, Geometry b) static GeometryCollectionDiffFunctions.diffSegments(Geometry a, Geometry b) static GeometryCollectionDiffFunctions.diffSegmentsBoth(Geometry a, Geometry b) static MultiPointDiffFunctions.diffVertices(Geometry a, Geometry b) Diff the vertices in A against B to find vertices in A which are not in B.static GeometryCollectionDiffFunctions.diffVerticesBoth(Geometry a, Geometry b) static doubleDistanceFunctions.discreteFrechetfDistance(Geometry a, Geometry b) static GeometryDistanceFunctions.discreteFrechetfDistanceLine(Geometry a, Geometry b) static doubleDistanceFunctions.discreteHausdorffDistance(Geometry a, Geometry b) static GeometryDistanceFunctions.discreteHausdorffDistanceLine(Geometry a, Geometry b) static doubleDistanceFunctions.discreteOrientedHausdorffDistance(Geometry a, Geometry b) static GeometryDistanceFunctions.discreteOrientedHausdorffDistanceLine(Geometry a, Geometry b) static Geometrystatic booleanstatic booleanstatic Geometrystatic Geometrystatic doublestatic doubleDistanceFunctions.distanceIndexed(Geometry a, Geometry b) static Stringstatic GeometryCollectionDiffFunctions.duplicateSegments(Geometry a) static GeometryOverlayNGTestFunctions.edgesIntersectionAll(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.edgesIntersectionResult(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.edgesNoded(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.edgesNodedIntersection(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.edgesNodedIntNoOpt(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.edgesOverlayResult(Geometry a) static GeometryOverlayNGTestFunctions.edgesUnionAll(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.edgesUnionResult(Geometry a, Geometry b, double scaleFactor) static Geometrystatic GeometryCreateShapeFunctions.ellipseRotate(Geometry g, int nPts, double ang) static Geometrystatic booleanstatic booleanstatic booleanSpatialPredicateNGFunctions.equalsTopo(Geometry a, Geometry b) static GeometryLineHandlingFunctions.extractChains(Geometry g, int maxChainSize) static GeometryLinearReferencingFunctions.extractLine(Geometry g, double start, double end) static GeometryLineHandlingFunctions.extractLines(Geometry g) static GeometryLinearReferencingFunctions.extractPoint(Geometry g, double index) static GeometryLineHandlingFunctions.extractSegments(Geometry g) static Geometrystatic GeometryNodingFunctions.findInteriorNodes(Geometry geom) static Geometrystatic GeometryNodingFunctions.findOneNode(Geometry geom) static GeometrySelectionFunctions.firstNComponents(Geometry g, int n) static GeometryValidationFunctions.fixIfInvalid(Geometry geom) static GeometryValidationFunctions.fixInvalid(Geometry geom) static GeometryValidationFunctions.fixInvalidKeepCollapse(Geometry geom) static Geometrystatic GeometryCreateShapeFunctions.fontGlyphMonospaced(Geometry g, String text) static GeometryCreateShapeFunctions.fontGlyphSansSerif(Geometry g, String text) static GeometryCreateShapeFunctions.fontGlyphSerif(Geometry g, String text) static GeometryCreateShapeFunctions.fontGlyphSerifPointSize(Geometry g, String text, int pointSize) static GeometryGeometryFunctions.getCoordinates(Geometry g) static EnvelopeFunctionsUtil.getEnvelopeOrDefault(Geometry g) static GeometryFactoryFunctionsUtil.getFactoryOrDefault(Geometry g) static GeometryFactoryFunctionsUtil.getFactoryOrDefault(Geometry g1, Geometry g2) static GeometryGeometryFunctions.getGeometryN(Geometry g, int i) static GeometryGeometryFunctions.getPolygonHoleN(Geometry g, int i) static GeometryGeometryFunctions.getPolygonHoles(Geometry geom) static GeometryGeometryFunctions.getPolygonShell(Geometry g) static Geometrystatic GeometryCreateShapeFunctions.gridPoints(Geometry g, int nCells) static GeometryCreateRandomShapeFunctions.haltonPoints(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.haltonPoints57(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.haltonPointsWithBases(Geometry g, int nPts, int basei, int basej) static GeometryCreateFractalShapeFunctions.hilbertCurve(Geometry g, int n) static GeometryCreateFractalShapeFunctions.hilbertCurveAtLevel(Geometry g, int level) static GeometrySpatialIndexFunctions.hprTreeBounds(Geometry geoms) static GeometrySpatialIndexFunctions.hprTreeQuery(Geometry geoms, Geometry queryEnv) static GeometrySpatialIndexFunctions.hprTreeQueryCached(Geometry geoms, Geometry queryEnv) static Geometrystatic Geometrystatic GeometrySimplificationFunctions.innerPolygonHullByAreaDelta(Geometry geom, double areaFrac) static GeometrySimplificationFunctions.innerPolygonHullByVertexFrac(Geometry geom, double vertexFrac) static intNodingFunctions.interiorIntersectionCount(Geometry geom) static booleanSpatialPredicateFunctions.interiorIntersects(Geometry a, Geometry b) static booleanSpatialPredicateNGFunctions.interiorIntersects(Geometry a, Geometry b) static GeometryConstructionFunctions.interiorPoint(Geometry g) static GeometrySelectionFunctions.interiorPointWithin(Geometry a, Geometry mask) static GeometryLineSegmentFunctions.intersection(Geometry g1, Geometry g2) static GeometryOverlayCommonBitsRemovedFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayEnhancedPrecisionFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayNGFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayNGOptFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayNGRobustFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayNGSnappingFunctions.intersection(Geometry a, Geometry b, double tolerance) static GeometryOverlayNGSRFunctions.intersection(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGStrictFunctions.intersection(Geometry a, Geometry b) static GeometryOverlayNoSnapFunctions.intersection(Geometry a, Geometry b) static intNodingFunctions.intersectionCount(Geometry geom) static GeometryLineSegmentFunctions.intersectionDD(Geometry g1, Geometry g2) static GeometryOverlayNGTestFunctions.intersectionIsValid(Geometry a, Geometry b) static GeometryOverlayNGTestFunctions.intersectionNoOpt(Geometry a, Geometry b) static GeometryOverlayNGTestFunctions.intersectionNoValid(Geometry a, Geometry b) static GeometryOverlayNGOptFunctions.intersectionOrigClassic(Geometry a, Geometry b) Use spatial predicates as a filter in front of intersection.static GeometryOverlayNGOptFunctions.intersectionOrigPrep(Geometry a, Geometry b) Use prepared geometry spatial predicates as a filter in front of intersection, with the first operand prepared.static GeometryOverlayNGOptFunctions.intersectionOrigPrepNoCache(Geometry a, Geometry b) static GeometryOverlayNGOptFunctions.intersectionPrep(Geometry a, Geometry b) Using auto slows things down quite a bit (due to need to scan to find scale factor), so not recommended.static GeometryOverlayNGOptFunctions.intersectionPrepNoCache(Geometry a, Geometry b) static GeometryOverlayNGOptFunctions.intersectionPrepSR(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGOptFunctions.intersectionSR(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.intersectionSRNoOpt(Geometry a, Geometry b, double scaleFactor) static booleanLineSegmentFunctions.intersects(Geometry g1, Geometry g2) static GeometrySelectionFunctions.intersects(Geometry a, Geometry mask) static GeometrySelectionNGFunctions.intersects(Geometry a, Geometry mask) static booleanSpatialPredicateFunctions.intersects(Geometry a, Geometry b) static booleanSpatialPredicateNGFunctions.intersects(Geometry a, Geometry b) static GeometrySelectionFunctions.intersectsPrep(Geometry a, Geometry mask) static GeometrySelectionNGFunctions.intersectsPrep(Geometry a, Geometry mask) static Geometrystatic GeometryValidationFunctions.invalidGeoms(Geometry g) static GeometryValidationFunctions.invalidLocations(Geometry g) Validates all geometries in a collection independently.static booleanstatic booleanstatic booleanstatic booleanNodingFunctions.isNodingValid(Geometry geom) static booleanPointLocationFunctions.isPointInRing(Geometry g1, Geometry g2) static booleanGeometryFunctions.isRectangle(Geometry g) static booleanNodingFunctions.isSegmentNodingValid(Geometry geom) static booleanstatic booleanstatic booleanstatic booleanValidationFunctions.isValidAllowInvertedRing(Geometry g) static booleanDistanceFunctions.isWithinDistance(Geometry a, Geometry b, double dist) static booleanDistanceFunctions.isWithinDistanceIndexed(Geometry a, Geometry b, double distance) static Geometrystatic StringJTSFunctions.jtsVersion(Geometry g) static GeometrySpatialIndexFunctions.kdTreeGraph(Geometry geom) static GeometrySpatialIndexFunctions.kdTreeGraphSeed(Geometry geom) static GeometrySpatialIndexFunctions.kdTreeQuery(Geometry pts, Geometry queryEnv, double tolerance) static GeometrySpatialIndexFunctions.kdTreeQueryCached(Geometry pts, Geometry queryEnv, double tolerance) static GeometrySpatialIndexFunctions.kdTreeQueryRepeated(Geometry pts, Geometry queryEnv, double tolerance) static GeometrySpatialIndexFunctions.kdTreeSplits(Geometry geom) static GeometrySpatialIndexFunctions.kdTreeSplitsSeed(Geometry geom) static GeometryCreateFractalShapeFunctions.kochSnowflake(Geometry g, int n) static GeometryLabellingFunctions.labelPoint(Geometry g) static GeometryLabellingFunctions.labelPointConstrained(Geometry g, Geometry con) static GeometryConstructionFunctions.largestEmptyCircle(Geometry obstacles, Geometry boundary, double tolerance) static GeometryConstructionFunctions.largestEmptyCircleCenter(Geometry obstacles, Geometry boundary, double tolerance) static GeometryConstructionFunctions.largestEmptyCircleRadius(Geometry obstacles, Geometry boundary, double tolerance) static doublestatic Geometrystatic GeometrySelectionFunctions.lengthGreaterThan(Geometry a, double minLen) static GeometrySelectionFunctions.lengthLessThan(Geometry a, double maxLen) static GeometrySelectionFunctions.lengthZero(Geometry a) static Geometrystatic GeometryLineSegmentFunctions.lineIntersection(Geometry g1, Geometry g2) static GeometryLineSegmentFunctions.lineIntersectionDD(Geometry g1, Geometry g2) static GeometryLineSegmentFunctions.lineSegmentIntersection(Geometry g1, Geometry g2) static GeometryConversionFunctions.lineToPolygon(Geometry g) static GeometryJTSFunctions.logoBuffer(Geometry g, double distance) static Geometrystatic GeometryConstructionFunctions.maximumDiameter(Geometry g) static doubleConstructionFunctions.maximumDiameterLength(Geometry g) static GeometryConstructionFunctions.maximumInscribedCircle(Geometry g, double tolerance) static GeometryConstructionFunctions.maximumInscribedCircleCenter(Geometry g, double tolerance) static GeometryConstructionFunctions.maximumInscribedCircleRadius(Geometry g, double tolerance) static doubleConstructionFunctions.maximumInscribedCircleRadiusLen(Geometry g, double tolerance) static GeometryNodingFunctions.MCIndexNoding(Geometry geom, Geometry geom2) static GeometryNodingFunctions.MCIndexNodingWithPrecision(Geometry geom, Geometry geom2, double scaleFactor) static GeometryLineHandlingFunctions.mergeLines(Geometry g) static doublePrecisionFunctions.minClearance(Geometry g) static doubleTestCaseGeometryFunctions.minClearance(Geometry g) static GeometryPrecisionFunctions.minClearanceLine(Geometry g) static GeometryTestCaseGeometryFunctions.minClearanceLine(Geometry g) static doublePrecisionFunctions.minClearanceSimple(Geometry g) static GeometryPrecisionFunctions.minClearanceSimpleLine(Geometry g) static GeometryConstructionFunctions.minimumAreaRectangle(Geometry g) static GeometryConstructionFunctions.minimumBoundingCircle(Geometry g) static doubleConstructionFunctions.minimumBoundingCircleDiameterLen(Geometry g) static GeometryConstructionFunctions.minimumDiameter(Geometry g) static doubleConstructionFunctions.minimumDiameterLength(Geometry g) static GeometryConstructionFunctions.minimumDiameterRectangle(Geometry g) static GeometrySpatialIndexFunctions.monotoneChains(Geometry geom) static GeometryCreateFractalShapeFunctions.mortonCurve(Geometry g, int n) static GeometryCreateFractalShapeFunctions.mortonCurveAtLevel(Geometry g, int level) static GeometryDistanceFunctions.nearestPoints(Geometry a, Geometry b) static GeometryDistanceFunctions.nearestPointsIndexed(Geometry a, Geometry b) static GeometryDistanceFunctions.nearestPointsIndexedEachB(Geometry a, Geometry b) static Geometrystatic GeometryValidationFunctions.nonSimpleAllPoints(Geometry geom) static GeometryValidationFunctions.nonSimpleEndpoints(Geometry geom) static GeometryValidationFunctions.nonSimplePoint(Geometry geom) static Geometrystatic Geometrystatic GeometryConstructionFunctions.octagonalEnvelope(Geometry g) static GeometryOffsetCurveFunctions.offsetCurve(Geometry geom, double distance) static GeometryOffsetCurveFunctions.offsetCurveBoth(Geometry geom, double distance) static GeometryOffsetCurveFunctions.offsetCurveBothWithParams(Geometry geom, Double distance, Integer quadrantSegments, Integer capStyle, Integer joinStyle, Double mitreLimit) static GeometryOffsetCurveFunctions.offsetCurveJoined(Geometry geom, double distance) static GeometryOffsetCurveFunctions.offsetCurveWithParams(Geometry geom, Double distance, Integer quadrantSegments, Integer capStyle, Integer joinStyle, Double mitreLimit) static intOrientationFPFunctions.orientationIndex(Geometry segment, Geometry ptGeom) static intOrientationFunctions.orientationIndex(Geometry segment, Geometry ptGeom) static GeometrySimplificationFunctions.outerPolygonHullByAreaDelta(Geometry geom, double areaFrac) static GeometrySimplificationFunctions.outerPolygonHullByVertexFrac(Geometry geom, double vertexFrac) static booleanstatic booleanstatic Geometrystatic booleanOverlayNGRobustFunctions.overlayAreaTest(Geometry a, Geometry b) static GeometryPolygonOverlayFunctions.overlayIterSnap(Geometry g1, Geometry g2, double snapTol) static Geometrystatic GeometryTriangleFunctions.perpendicularBisectors(Geometry g) static GeometryCreateShapeFunctions.pointFieldCentroidStar(Geometry ptsGeom) static GeometryCreateShapeFunctions.pointFieldStar(Geometry ptsGeom, Geometry centrePt) static GeometryConversionFunctions.pointsToLine(Geometry g) static GeometryPolygonizeFunctions.polygonize(Geometry g) static GeometryPolygonizeFunctions.polygonizeAllErrors(Geometry g) static GeometryPolygonizeFunctions.polygonizeCutEdges(Geometry g) static GeometryPolygonizeFunctions.polygonizeDangles(Geometry g) static GeometryPolygonizeFunctions.polygonizeInvalidRingLines(Geometry g) static GeometryPolygonizeFunctions.polygonizeValidPolygonal(Geometry g) static booleanPreparedGeometryFunctions.preparedContains(Geometry g1, Geometry g2) static booleanPreparedGeometryFunctions.preparedContainsProperly(Geometry g1, Geometry g2) static booleanPreparedGeometryFunctions.preparedCovers(Geometry g1, Geometry g2) static booleanPreparedGeometryFunctions.preparedIntersects(Geometry g1, Geometry g2) static Geometrystatic doubleLinearReferencingFunctions.projectIndex(Geometry g, Geometry g2) static GeometrySpatialIndexFunctions.quadTreeQuery(Geometry geoms, Geometry queryEnv) static GeometryCreateRandomShapeFunctions.randomLineString(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomPoints(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomPointsInGrid(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomPointsInGridCircles(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomPointsInGridWithGutter(Geometry g, int nPts, double gutterFraction) static GeometryCreateRandomShapeFunctions.randomPointsInPolygon(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomPointsInTriangle(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomRadialPoints(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomRectilinearWalk(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomSegments(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomSegmentsInGrid(Geometry g, int nPts) static GeometryCreateRandomShapeFunctions.randomSegmentsRectilinear(Geometry g, int nPts) static Geometrystatic GeometryOffsetCurveFunctions.rawCurveWithParams(Geometry geom, Double distance, Integer quadrantSegments, Integer capStyle, Integer joinStyle, Double mitreLimit) static GeometryOverlayNGSRFunctions.reducePrecision(Geometry a, double scaleFactor) static GeometryPrecisionFunctions.reducePrecision(Geometry geom, double scaleFactor) static GeometryPrecisionFunctions.reducePrecisionKeepCollapsed(Geometry geom, double scaleFactor) static GeometryPrecisionFunctions.reducePrecisionPointwise(Geometry geom, double scaleFactor) static GeometryAffineTransformationFunctions.reflectInX(Geometry g) static GeometryAffineTransformationFunctions.reflectInY(Geometry g) static GeometryLineSegmentFunctions.reflectPoint(Geometry g1, Geometry g2) static booleanstatic booleanstatic StringSpatialPredicateFunctions.relateEndpoint(Geometry a, Geometry b) static StringSpatialPredicateNGFunctions.relateEndpoint(Geometry a, Geometry b) static StringSpatialPredicateFunctions.relateMatrix(Geometry a, Geometry b) static StringSpatialPredicateNGFunctions.relateMatrix(Geometry a, Geometry b) static StringSpatialPredicateFunctions.relateMonoValent(Geometry a, Geometry b) static StringSpatialPredicateNGFunctions.relateMonoValent(Geometry a, Geometry b) static StringSpatialPredicateFunctions.relateMultiValent(Geometry a, Geometry b) static StringSpatialPredicateNGFunctions.relateMultiValent(Geometry a, Geometry b) static GeometrySelectionFunctions.relatePattern(Geometry a, Geometry mask, String pattern) static GeometrySelectionNGFunctions.relatePattern(Geometry a, Geometry mask, String pattern) static GeometrySelectionNGFunctions.relatePatternPrep(Geometry a, Geometry mask, String pattern) static Geometrystatic GeometryCreateRandomShapeFunctions.robertsPoints(Geometry geom, int nPts) Creates a set of quasi-random 2D points using the Roberts recurrences.static Geometrystatic GeometryAffineTransformationFunctions.rotateAroundPoint(Geometry g, Geometry pt, double angle) static GeometryAffineTransformationFunctions.rotateByPiMultiple(Geometry g, double multipleOfPi) static GeometryAffineTransformationFunctions.rotateByPiMultipleAroundPoint(Geometry g, Geometry pt, double multipleOfPi) static Geometrystatic GeometryBufferByUnionFunctions.sectionBuffers(Geometry g, double distance, int maxChainSize) static Geometrystatic GeometryLineHandlingFunctions.sequenceLines(Geometry g) static voidFunctionsUtil.showIndicator(Geometry geom) static voidFunctionsUtil.showIndicator(Geometry geom, Color lineClr) static GeometryCreateFractalShapeFunctions.sierpinskiCarpet(Geometry g, int n) static Geometrystatic GeometrySimplificationFunctions.simplifyDP(Geometry g, double distance) static GeometryCoverageFunctions.simplifyInner(Geometry coverage, double tolerance) static GeometryCoverageFunctions.simplifyInOut(Geometry coverage, double toleranceInner, double toleranceOuter) static GeometryCoverageFunctions.simplifyOuter(Geometry coverage, double tolerance) static GeometryCoverageFunctions.simplifyRemoveRings(Geometry coverage, double tolerance, double factor) static GeometryCoverageFunctions.simplifySharp(Geometry coverage, double tolerance, double weight) static GeometryCoverageFunctions.simplifyTolerances(Geometry coverage, String tolerancesCSV) static GeometrySimplificationFunctions.simplifyTP(Geometry g, double distance) static GeometrySimplificationFunctions.simplifyVW(Geometry g, double tolerance) static Geometrystatic GeometryCollectionDiffFunctions.singleSegments(Geometry a) static GeometryBufferFunctions.singleSidedBuffer(Geometry geom, double distance) static GeometryBufferFunctions.singleSidedBufferCurve(Geometry geom, double distance) static Geometrystatic GeometryNodingFunctions.snappingNoder(Geometry geom, Geometry geom2, double snapDistance) static GeometryNodingFunctions.snapRoundingNoder(Geometry geom, Geometry geom2, double scaleFactor) static GeometrySnappingFunctions.snapToSelfAndClean(Geometry g, double distance) static GeometrySortingFunctions.sortByArea(Geometry g) static GeometrySortingFunctions.sortByHilbertCode(Geometry g) static GeometrySortingFunctions.sortByLength(Geometry g) static GeometrySortingFunctions.sortByMinX(Geometry g) static GeometrySortingFunctions.sortByMinY(Geometry g) static GeometrySortingFunctions.sortByMortonCode(Geometry g) static Geometrystatic Geometrystatic doublestatic GeometryAffineTransformationFunctions.stretchToViewport(Geometry g, Geometry gViewport) static GeometrySpatialIndexFunctions.strTreeBounds(Geometry geoms) static Geometrystatic GeometrySpatialIndexFunctions.strTreeNNInSet(Geometry geoms) static GeometrySpatialIndexFunctions.strTreeNNk(Geometry geoms, Geometry geom, int k) static GeometrySpatialIndexFunctions.strTreeQuery(Geometry geoms, Geometry queryEnv) static GeometrySpatialIndexFunctions.strTreeQueryCached(Geometry geoms, Geometry queryEnv) static GeometryCreateShapeFunctions.supercircle(Geometry g, int nPts, double pow) static GeometryCreateShapeFunctions.supercircle3(Geometry g, int nPts) static GeometryCreateShapeFunctions.supercircle5(Geometry g, int nPts) static GeometryCreateShapeFunctions.supercirclePoint5(Geometry g, int nPts) static GeometryOverlayCommonBitsRemovedFunctions.symDifference(Geometry a, Geometry b) static GeometryOverlayEnhancedPrecisionFunctions.symDifference(Geometry a, Geometry b) static GeometryOverlayFunctions.symDifference(Geometry a, Geometry b) static GeometryOverlayNGFunctions.symDifference(Geometry a, Geometry b) static GeometryOverlayNGRobustFunctions.symDifference(Geometry a, Geometry b) static GeometryOverlayNGSRFunctions.symDifference(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGStrictFunctions.symDifference(Geometry a, Geometry b) static GeometryOverlayNoSnapFunctions.symDifference(Geometry a, Geometry b) static Geometry[]FunctionsUtil.toGeometryArray(Geometry a, Geometry b) static GeometryConversionFunctions.toGeometryCollection(Geometry g1, Geometry g2) static Geometrystatic GeometryConversionFunctions.toMultiPolygon(Geometry g1, Geometry g2) static Geometrystatic Geometrystatic Geometrystatic booleanstatic booleanstatic GeometrySelectionNGFunctions.touchesPrep(Geometry a, Geometry mask) static GeometryAffineTransformationFunctions.transformByBaseline(Geometry g, Geometry destBaseline) static GeometryAffineTransformationFunctions.transformByVectors(Geometry g, Geometry control) static GeometryAffineTransformationFunctions.transformToViewport(Geometry g, Geometry gViewport) static Geometrystatic GeometryAffineTransformationFunctions.translateCentreToOrigin(Geometry g) static GeometryAffineTransformationFunctions.translateToOrigin(Geometry g) static GeometryTriangulatePolyFunctions.triangulate(Geometry geom) static GeometryOverlayFunctions.unaryUnion(Geometry a) static GeometryOverlayNGFunctions.unaryUnion(Geometry a) static GeometryOverlayNGRobustFunctions.unaryUnion(Geometry a) static GeometryOverlayNGSnappingFunctions.unaryUnion(Geometry a, double tolerance) static GeometryOverlayNGSRFunctions.unaryUnion(Geometry a, double scaleFactor) static GeometryOverlayNoSnapFunctions.unaryUnion(Geometry a) static GeometryOverlayNGSnappingFunctions.unaryUnionNoValid(Geometry a, double tolerance) static Geometrystatic Geometrystatic Geometrystatic Geometrystatic Geometrystatic Geometrystatic Geometrystatic Geometrystatic Geometrystatic Geometrystatic doublestatic GeometryOverlayNGTestFunctions.unionClassicNoderNoValid(Geometry a, Geometry b) static GeometryOverlayNGFunctions.unionCoverage(Geometry geom) static GeometryOverlayNGTestFunctions.unionIntSymDiff(Geometry a, Geometry b, double scaleFactor) static GeometryOverlayNGTestFunctions.unionIntSymDiffOriginal(Geometry a, Geometry b) static doubleOverlayNGRobustFunctions.unionLength(Geometry a) static GeometryOverlayFunctions.unionUsingGeometryCollection(Geometry a, Geometry b) static Geometrystatic Geometrystatic GeometryCoverageFunctions.validatePolygon(Geometry geom, Geometry adjacentPolys) static GeometryCoverageFunctions.validatePolygonWithGaps(Geometry geom, Geometry adjacentPolys, double gapWidth) static GeometryCoverageFunctions.validateWithGaps(Geometry geom, double gapWidth) static GeometryBufferFunctions.variableBuffer(Geometry line, double startDist, double endDist) static GeometryBufferFunctions.variableBufferMid(Geometry line, double startDist, double midDist) static GeometryTriangulationFunctions.voronoiDiagram(Geometry sitesGeom, Geometry clipGeom) static GeometryTriangulationFunctions.voronoiDiagramWithData(Geometry sitesGeom, Geometry clipGeom) static GeometryTriangulationFunctions.voronoiRelaxation(Geometry sitesGeom, Geometry clipGeom, int nIter) static Geometrystatic booleanstatic booleanstatic GeometrySelectionFunctions.withinDistance(Geometry a, Geometry mask, double maximumDistance) static GeometrySelectionFunctions.withinDistanceIndexed(Geometry a, Geometry mask, double maximumDistance) static StringWriterFunctions.writeGeoJSON(Geometry g) static StringWriterFunctions.writeGeoJSONFixDecimal(Geometry g, int numDecimals) static Stringstatic Stringstatic Stringstatic Stringstatic String -
Uses of Geometry in org.locationtech.jtstest.geomfunction
Methods in org.locationtech.jtstest.geomfunction with parameters of type GeometryConstructors in org.locationtech.jtstest.geomfunction with parameters of type GeometryModifierConstructorDescriptionGeometryFunctionInvocation(GeometryFunction function, Geometry target, Object[] args) -
Uses of Geometry in org.locationtech.jtstest.geomop
Methods in org.locationtech.jtstest.geomop that return GeometryModifier and TypeMethodDescriptionstatic GeometryTestCaseGeometryFunctions.bufferMitredJoin(Geometry g, double distance) static Geometrystatic GeometryTestCaseGeometryFunctions.differenceNG(Geometry geom0, Geometry geom1) static GeometryTestCaseGeometryFunctions.differenceSR(Geometry geom0, Geometry geom1, double scale) static GeometryTestCaseGeometryFunctions.intersectionNG(Geometry geom0, Geometry geom1) static GeometryTestCaseGeometryFunctions.intersectionSR(Geometry geom0, Geometry geom1, double scale) static GeometryOverlayValidatedGeometryOperation.invokeGeometryOverlayMethod(int opCode, Geometry g0, Geometry g1) static GeometryTestCaseGeometryFunctions.minClearanceLine(Geometry g) static GeometryTestCaseGeometryFunctions.polygonize(Geometry g) static GeometryTestCaseGeometryFunctions.polygonizeValidPolygonal(Geometry g) static GeometryTestCaseGeometryFunctions.reducePrecision(Geometry g, double scaleFactor) static GeometryTestCaseGeometryFunctions.simplifyDP(Geometry g, double distance) static GeometryTestCaseGeometryFunctions.simplifyTP(Geometry g, double distance) static GeometryTestCaseGeometryFunctions.symDifferenceNG(Geometry geom0, Geometry geom1) static GeometryTestCaseGeometryFunctions.symDifferenceSR(Geometry geom0, Geometry geom1, double scale) static Geometrystatic GeometryMethods in org.locationtech.jtstest.geomop with parameters of type GeometryModifier and TypeMethodDescriptionstatic doublestatic GeometryTestCaseGeometryFunctions.bufferMitredJoin(Geometry g, double distance) static Geometrystatic GeometryTestCaseGeometryFunctions.differenceNG(Geometry geom0, Geometry geom1) static GeometryTestCaseGeometryFunctions.differenceSR(Geometry geom0, Geometry geom1, double scale) static GeometryTestCaseGeometryFunctions.intersectionNG(Geometry geom0, Geometry geom1) static GeometryTestCaseGeometryFunctions.intersectionSR(Geometry geom0, Geometry geom1, double scale) abstract ObjectInvokes the named operationInvokes this function.Invokes an operation on aGeometry.Invokes the named operationInvokes the named operationInvokes the named operationstatic GeometryOverlayValidatedGeometryOperation.invokeGeometryOverlayMethod(int opCode, Geometry g0, Geometry g1) OverlayValidatedGeometryOperation.invokeValidatedOverlayOp(int opCode, Geometry g0, Object[] args) Invokes an overlay op, optionally using snapping, and optionally validating the result.booleanbooleanstatic doubleTestCaseGeometryFunctions.minClearance(Geometry g) static GeometryTestCaseGeometryFunctions.minClearanceLine(Geometry g) static booleanTestCaseGeometryFunctions.overlayAreaTest(Geometry a, Geometry b) static GeometryTestCaseGeometryFunctions.polygonize(Geometry g) static GeometryTestCaseGeometryFunctions.polygonizeValidPolygonal(Geometry g) static GeometryTestCaseGeometryFunctions.reducePrecision(Geometry g, double scaleFactor) protected voidprotected abstract voidstatic GeometryTestCaseGeometryFunctions.simplifyDP(Geometry g, double distance) static GeometryTestCaseGeometryFunctions.simplifyTP(Geometry g, double distance) static GeometryTestCaseGeometryFunctions.symDifferenceNG(Geometry geom0, Geometry geom1) static GeometryTestCaseGeometryFunctions.symDifferenceSR(Geometry geom0, Geometry geom1, double scale) static doublestatic doubleTestCaseGeometryFunctions.unionLength(Geometry geom) static Geometrystatic Geometry -
Uses of Geometry in org.locationtech.jtstest.test
Methods in org.locationtech.jtstest.test that return GeometryModifier and TypeMethodDescriptionTestCase.getExpectedBoundary()TestCase.getExpectedConvexHull()TestCase.getExpectedDifference()TestCase.getExpectedIntersection()TestCase.getExpectedSymDifference()TestCase.getExpectedUnion()Geometry[]TestCase.getGeometries()Testable.getGeometry(int index) TestCase.getGeometry(int index) Methods in org.locationtech.jtstest.test with parameters of type GeometryModifier and TypeMethodDescriptionvoidTestCase.setExpectedBoundary(Geometry expectedBoundary) voidTestCase.setExpectedConvexHull(Geometry expectedConvexHull) voidTestCase.setExpectedDifference(Geometry expectedDifference) voidTestCase.setExpectedIntersection(Geometry expectedIntersection) voidTestCase.setExpectedSymDifference(Geometry expectedSymDifference) voidTestCase.setExpectedUnion(Geometry expectedUnion) voidTestable.setGeometry(int index, Geometry g) voidTestCase.setGeometry(int index, Geometry g) -
Uses of Geometry in org.locationtech.jtstest.testbuilder
Methods in org.locationtech.jtstest.testbuilder that return GeometryModifier and TypeMethodDescriptionGeometryTreePanel.getSelectedGeometry()Gets currently selected geometry, if any.Methods in org.locationtech.jtstest.testbuilder with parameters of type GeometryModifier and TypeMethodDescriptionvoidvoidvoidJTSTestBuilderFrame.inspectGeometry(String tag, Geometry geometry) static voidTestBuilderDialogs.inspectGeometry(JTSTestBuilderFrame tbFrame, int geomIndex, Geometry geometry) voidvoidGeometryTreePanel.populate(Geometry geom, int source, Comparator comp) voidGeometryInspectorDialog.setGeometry(int geomIndex, Geometry geometry) voidInspectorPanel.setGeometry(String tag, Geometry geom, int source, boolean isEditable) voidvoidConstructors in org.locationtech.jtstest.testbuilder with parameters of type Geometry -
Uses of Geometry in org.locationtech.jtstest.testbuilder.controller
Methods in org.locationtech.jtstest.testbuilder.controller that return GeometryModifier and TypeMethodDescriptionJTSTestBuilderController.getGeometryA()JTSTestBuilderController.getGeometryB()Methods in org.locationtech.jtstest.testbuilder.controller with parameters of type GeometryModifier and TypeMethodDescriptionvoidJTSTestBuilderController.addTestCase(Geometry[] geom, String name) voidJTSTestBuilderController.extractComponentsToTestCase(Geometry aoi, boolean isSegments) voidvoidJTSTestBuilderController.indicatorShow(Geometry geom, Color lineClr) voidJTSTestBuilderController.inspectGeometry(String tag, Geometry geometry) -
Uses of Geometry in org.locationtech.jtstest.testbuilder.geom
Methods in org.locationtech.jtstest.testbuilder.geom that return GeometryModifier and TypeMethodDescriptionGeometryCombiner.addLineString(Geometry orig, Coordinate[] pts) GeometryCombiner.addPoint(Geometry orig, Coordinate pt) GeometryCombiner.addPolygonRing(Geometry orig, Coordinate[] pts) GeometryLocation.delete()static GeometryGeometryVertexDeleter.delete(Geometry geom, LineString line, int vertexIndex) static GeometryGeometryComponentDeleter.deleteComponent(Geometry geom, Geometry component) static GeometryGeometryBoxDeleter.deleteComponents(Geometry geom, Envelope env, boolean deleteIntersecting) static GeometryGeometryBoxDeleter.deleteComponentsAndVertices(Geometry geom, Envelope env) static GeometryGeometryBoxDeleter.deleteComponentsAndVertices(Geometry geom, Envelope env, boolean deleteIntersectingComponents) static GeometryGeometryBoxDeleter.deleteVertices(Geometry geom, Envelope env) static GeometryGeometryLocation.getComponent()SegmentExtracter.SegmentExtracterFilter.getGeometry(GeometryFactory factory) GeometryLocation.insert()static GeometryGeometryVertexInserter.insert(Geometry geom, LineString line, int segIndex, Coordinate newVertex) static GeometryGeometryVertexMover.move(Geometry geom, Coordinate fromLoc, Coordinate toLoc) static Geometrystatic GeometryGeometryComponentTransformer.transform(Geometry geom, Geometry component, AffineTransformation trans) static GeometryGeometryComponentTransformer.transform(Geometry geom, AffineTransformation trans) Methods in org.locationtech.jtstest.testbuilder.geom with parameters of type GeometryModifier and TypeMethodDescriptionGeometryCombiner.addLineString(Geometry orig, Coordinate[] pts) GeometryCombiner.addPoint(Geometry orig, Coordinate pt) GeometryCombiner.addPolygonRing(Geometry orig, Coordinate[] pts) static doublestatic GeometryGeometryVertexDeleter.delete(Geometry geom, LineString line, int vertexIndex) static GeometryGeometryComponentDeleter.deleteComponent(Geometry geom, Geometry component) static GeometryGeometryBoxDeleter.deleteComponents(Geometry geom, Envelope env, boolean deleteIntersecting) static GeometryGeometryBoxDeleter.deleteComponentsAndVertices(Geometry geom, Envelope env) static GeometryGeometryBoxDeleter.deleteComponentsAndVertices(Geometry geom, Envelope env, boolean deleteIntersectingComponents) static GeometryGeometryBoxDeleter.deleteVertices(Geometry geom, Envelope env) static Geometrystatic ListGeometryCombiner.extractElements(Geometry geom, boolean skipEmpty) static CoordinateNearestPointFinder.findNearestPoint(Geometry geom, Coordinate pt, double tolerance) static Coordinate[]AdjacentVertexFinder.findVertices(Geometry geom, Coordinate testPt) ComponentLocater.getComponents(Geometry aoi) static List<GeometryLocation> ComponentLocater.getComponents(Geometry parentGeom, Coordinate queryPt, double tolerance) static CoordinateConstrainedInteriorPoint.getCoordinate(Polygon poly, Geometry constraint) static booleanstatic booleanstatic GeometryGeometryVertexInserter.insert(Geometry geom, LineString line, int segIndex, Coordinate newVertex) static GeometryLocationGeometryPointLocater.locate(Geometry geom, Coordinate testPt, double tolerance) static GeometryLocationGeometryPointLocater.locateNonVertexPoint(Geometry geom, Coordinate testPt, double tolerance) static GeometryLocationGeometryPointLocater.locateVertex(Geometry geom, Coordinate testPt, double tolerance) static CoordinateVertexLocater.locateVertex(Geometry geom, Coordinate testPt, double tolerance) static StringGeometryUtil.metricsSummary(Geometry g) static GeometryGeometryVertexMover.move(Geometry geom, Coordinate fromLoc, Coordinate toLoc) static Geometrystatic StringGeometryUtil.structureSummary(Geometry g) static EnvelopeGeometryUtil.totalEnvelope(Geometry geom) Gets the envelope including all holes which might lie outside a polygon.static GeometryGeometryComponentTransformer.transform(Geometry geom, Geometry component, AffineTransformation trans) static GeometryGeometryComponentTransformer.transform(Geometry geom, AffineTransformation trans) Constructors in org.locationtech.jtstest.testbuilder.geom with parameters of type GeometryModifierConstructorDescriptionAdjacentVertexFinder(Geometry geom) ComponentLocater(Geometry parentGeom) FacetLocater(Geometry parentGeom) GeometryLocation(Geometry parent, Geometry component, int[] componentPath) GeometryLocation(Geometry parent, Geometry component, int[] componentPath, int segmentIndex, boolean isVertex, Coordinate pt) GeometryLocation(Geometry parent, Geometry component, int segmentIndex, boolean isVertex, Coordinate pt) GeometryLocation(Geometry parent, Geometry component, int index, Coordinate pt) GeometryPointLocater(Geometry geom) NearestPointFinder(Geometry geom) VertexLocater(Geometry geom) -
Uses of Geometry in org.locationtech.jtstest.testbuilder.io
Methods in org.locationtech.jtstest.testbuilder.io with parameters of type Geometry -
Uses of Geometry in org.locationtech.jtstest.testbuilder.io.shapefile
Methods in org.locationtech.jtstest.testbuilder.io.shapefile that return GeometryModifier and TypeMethodDescriptionShapefile.next()Returns the next geometry in the shapefile streamMultiLineHandler.read(EndianDataInputStream file, GeometryFactory geometryFactory, int contentLength) MultiPointHandler.read(EndianDataInputStream file, GeometryFactory geometryFactory, int contentLength) PointHandler.read(EndianDataInputStream file, GeometryFactory geometryFactory, int contentLength) PolygonHandler.read(EndianDataInputStream file, GeometryFactory geometryFactory, int contentLength) ShapeHandler.read(EndianDataInputStream file, GeometryFactory geometryFactory, int contentLength) Methods in org.locationtech.jtstest.testbuilder.io.shapefile with parameters of type GeometryModifier and TypeMethodDescriptionintintCalcuates the record length of this object.intCalcuates the record length of this object.intintstatic ShapeHandlerShapefile.getShapeHandler(Geometry geom, int ShapeFileDimentions) static intShapefile.getShapeType(Geometry geom, int coordDimension) -
Uses of Geometry in org.locationtech.jtstest.testbuilder.model
Methods in org.locationtech.jtstest.testbuilder.model that return GeometryModifier and TypeMethodDescriptionLayerList.getComponent(Coordinate pt, double tolerance) Geometry[]LayerList.getComponents(Geometry aoi, boolean isSegments) TestRunnerTestCaseAdapter.getExpectedBoundary()TestRunnerTestCaseAdapter.getExpectedConvexHull()TestRunnerTestCaseAdapter.getExpectedDifference()TestRunnerTestCaseAdapter.getExpectedIntersection()TestRunnerTestCaseAdapter.getExpectedSymDifference()TestRunnerTestCaseAdapter.getExpectedUnion()Geometry[]TestCaseEdit.getGeometries()GeometryContainer.getGeometry()GeometryEditModel.getGeometry()GeometryEditModel.getGeometry(int i) IndexedGeometryContainer.getGeometry()Layer.getGeometry()ListGeometryContainer.getGeometry()ResultGeometryContainer.getGeometry()StaticGeometryContainer.getGeometry()TestCaseEdit.getGeometry(int i) TestRunnerTestCaseAdapter.getGeometry(int index) GeometryEditModel.getResult()TestCaseEdit.getResult()GeometryStretcherView.getStretchedGeometry(int index) UndoBuffer.peek()UndoBuffer.pop()TestBuilderModel.readGeometryFromClipboard()TestRunnerTestCaseAdapter.toGeometry(Test test) Methods in org.locationtech.jtstest.testbuilder.model with parameters of type GeometryModifier and TypeMethodDescriptionvoidvoidvoidvoidTestBuilderModel.addIndicator(Geometry geom) Geometry[]LayerList.getComponents(Geometry aoi, boolean isSegments) TestBuilderModel.getResultDisplayString(Geometry g) static StringvoidPops the buffer if the top geometry is teh same as the given geometry.voidvoidTestRunnerTestCaseAdapter.setExpectedBoundary(Geometry expectedBoundary) voidTestRunnerTestCaseAdapter.setExpectedCentroid(Geometry expected) voidTestRunnerTestCaseAdapter.setExpectedConvexHull(Geometry expectedConvexHull) voidTestRunnerTestCaseAdapter.setExpectedDifference(Geometry expectedDifference) voidTestRunnerTestCaseAdapter.setExpectedIntersection(Geometry expectedIntersection) voidTestRunnerTestCaseAdapter.setExpectedSymDifference(Geometry expectedSymDifference) voidTestRunnerTestCaseAdapter.setExpectedUnion(Geometry expectedUnion) voidGeometryEditModel.setGeometry(int i, Geometry g) voidGeometryEditModel.setGeometry(Geometry g) voidLayer.setGeometry(Geometry geom) voidStaticGeometryContainer.setGeometry(Geometry geom) voidTestCaseEdit.setGeometry(int i, Geometry geom) voidTestRunnerTestCaseAdapter.setGeometry(int index, Geometry g) voidstatic StringGeometryEditModel.toStringVeryLarge(Geometry g) Constructors in org.locationtech.jtstest.testbuilder.model with parameters of type GeometryModifierConstructorDescriptionStaticGeometryContainer(Geometry geometry) TestCaseEdit(Geometry[] geom) TestCaseEdit(Geometry[] geom, String name) -
Uses of Geometry in org.locationtech.jtstest.testbuilder.topostretch
Methods in org.locationtech.jtstest.testbuilder.topostretch that return GeometryModifier and TypeMethodDescriptionGeometryVerticesMover.move()static GeometryGeometry[]TopologyStretcher.stretch(double nearnessTol, double stretchDistance) Geometry[]Methods in org.locationtech.jtstest.testbuilder.topostretch with parameters of type GeometryConstructors in org.locationtech.jtstest.testbuilder.topostretch with parameters of type GeometryModifierConstructorDescriptionGeometryVerticesMover(Geometry geom, Map moves) TopologyStretcher(Geometry g1, Geometry g2) -
Uses of Geometry in org.locationtech.jtstest.testbuilder.ui
Methods in org.locationtech.jtstest.testbuilder.ui with parameters of type GeometryModifier and TypeMethodDescriptionGeometryLocationsWriter.OLDwriteLocation(Geometry geom, Coordinate p, double tolerance) GeometryLocationsWriter.writeComponentLocation(Geometry geom, Coordinate p, double tolerance) GeometryLocationsWriter.writeFacetLocation(Geometry geom, Coordinate p, double tolerance) Constructors in org.locationtech.jtstest.testbuilder.ui with parameters of type GeometryModifierConstructorDescriptionGeometryTransferable(Geometry geom) GeometryTransferable(Geometry geom, boolean isFormatted) -
Uses of Geometry in org.locationtech.jtstest.testbuilder.ui.render
Fields in org.locationtech.jtstest.testbuilder.ui.render declared as GeometryMethods in org.locationtech.jtstest.testbuilder.ui.render with parameters of type GeometryModifier and TypeMethodDescriptionstatic voidGeometryPainter.paint(Graphics2D g, Viewport viewport, Geometry geometry, Style style) static voidGeometryPainter.paint(Geometry geometry, Viewport viewport, Graphics2D g, Color lineColor, Color fillColor) Paints a geometry onto a graphics context, using a given Viewport.static voidGeometryPainter.paint(Geometry geometry, Viewport viewport, Graphics2D g, Color lineColor, Color fillColor, Stroke stroke) -
Uses of Geometry in org.locationtech.jtstest.testbuilder.ui.style
Methods in org.locationtech.jtstest.testbuilder.ui.style with parameters of type GeometryModifier and TypeMethodDescriptionvoidBasicStyle.paint(Geometry geom, Viewport viewport, Graphics2D g) voidComponentStyle.paint(Geometry geom, Viewport viewport, Graphics2D g) voidDataLabelStyle.paint(Geometry geom, Viewport viewport, Graphics2D g2d) voidLayerStyle.paint(Geometry geom, Viewport viewport, Graphics2D g) voidLineStringStyle.paint(Geometry geom, Viewport viewport, Graphics2D g) voidStyle.paint(Geometry geom, Viewport viewport, Graphics2D g) voidStyleGroup.paint(Geometry geom, Viewport viewport, Graphics2D g) voidStyleList.paint(Geometry geom, Viewport viewport, Graphics2D g) voidTintBandStyle.paint(Geometry geom, Viewport viewport, Graphics2D g2d) voidVertexLabelStyle.paint(Geometry geom, Viewport viewport, Graphics2D g) voidVertexStyle.paint(Geometry geom, Viewport viewport, Graphics2D g) protected abstract voidComponentStyle.paintComponent(Geometry geom, Viewport viewport, Graphics2D graphics) -
Uses of Geometry in org.locationtech.jtstest.testbuilder.ui.tools
Methods in org.locationtech.jtstest.testbuilder.ui.tools that return Geometry -
Uses of Geometry in org.locationtech.jtstest.testrunner
Methods in org.locationtech.jtstest.testrunner that return GeometryModifier and TypeMethodDescriptionGeometryResult.getGeometry()TestCase.getGeometryA()TestCase.getGeometryB()Methods in org.locationtech.jtstest.testrunner with parameters of type GeometryModifier and TypeMethodDescriptionbooleanBufferResultMatcher.isBoundaryHausdorffDistanceInTolerance(Geometry actualBuffer, Geometry expectedBuffer, double distance) booleanBufferResultMatcher.isBufferResultMatch(Geometry actualBuffer, Geometry expectedBuffer, double distance) booleanBufferResultMatcher.isMatch(Geometry geom, String opName, Object[] args, Result actualResult, Result expectedResult, double tolerance) Tests whether the two results are equal within the given tolerance.booleanEqualityResultMatcher.isMatch(Geometry geom, String opName, Object[] args, Result actualResult, Result expectedResult, double tolerance) Tests whether the two results are equal within the given tolerance.booleanNullResultMatcher.isMatch(Geometry geom, String opName, Object[] args, Result actualResult, Result expectedResult, double tolerance) Always reports a match.booleanResultMatcher.isMatch(Geometry geom, String opName, Object[] args, Result actualResult, Result expectedResult, double tolerance) Tests whether the actual and expected results match well enough for the test to be considered as passed.booleanBufferResultMatcher.isSymDiffAreaInTolerance(Geometry actualBuffer, Geometry expectedBuffer) voidTestCase.setGeometryA(Geometry a) voidTestCase.setGeometryB(Geometry b) Constructors in org.locationtech.jtstest.testrunner with parameters of type Geometry -
Uses of Geometry in org.locationtech.jtstest.util
Methods in org.locationtech.jtstest.util with parameters of type GeometryModifier and TypeMethodDescriptionstatic voidGeometryDataUtil.setComponentDataToIndex(Geometry geom) -
Uses of Geometry in org.locationtech.jtstest.util.io
Methods in org.locationtech.jtstest.util.io that return GeometryModifier and TypeMethodDescriptionstatic GeometryIOUtil.readFile(String filename, GeometryFactory geomFact) static GeometryIOUtil.readGeoJSONString(String s, GeometryFactory geomFact) static GeometryMultiFormatFileReader.readGeometry(String filename, int limit, int offset, GeometryFactory geomFactory) static GeometryIOUtil.readGMLString(String gml, GeometryFactory geomFact) static GeometryIOUtil.readWKBHexString(String wkb, GeometryFactory geomFact) static GeometryIOUtil.readWKTString(String wkt, GeometryFactory geomFact) Reads one or more WKT geometries from a string.static GeometryIOUtil.readWKTString(String wkt, GeometryFactory geomFact, boolean isStrict) Methods in org.locationtech.jtstest.util.io that return types with arguments of type GeometryModifier and TypeMethodDescriptionMultiFormatBufferedReader.read(Reader reader, int limit, int offset, GeometryFactory geomFactory) MultiFormatFileReader.read(String filename, int limit, int offset, GeometryFactory geomFactory) MultiFormatBufferedReader.readWKT(Reader rdr, GeometryFactory geomFact) Methods in org.locationtech.jtstest.util.io with parameters of type GeometryModifier and TypeMethodDescriptionConverts aGeometryto its Well-known Text representation.voidConverts aGeometryto its Well-known Text representation.SVGWriter.writeFormatted(Geometry geometry) Same aswrite, but with newlines and spaces to make the well-known text more readable.voidSVGWriter.writeFormatted(Geometry geometry, Writer writer) Same aswrite, but with newlines and spaces to make the well-known text more readable.