This document is archived and information here might be outdated.  Recommended version.


ITopologicalOperator2 Interface (ArcObjects .NET 10.7 SDK)
ArcObjects Help for .NET developers > ArcObjects Help for .NET developers > ArcObjects namespaces > Geometry > ESRI.ArcGIS.Geometry > Interfaces > IT > ITopologicalOperator2 Interface
ArcGIS Developer Help

ITopologicalOperator2 Interface

Provides access to members that extend the ITopologicalOperator interface. Note: the ITopologicalOperator2 interface has been superseded by ITopologicalOperator5. Please consider using the more recent version.

Product Availability

Available with ArcGIS Engine, ArcGIS Desktop, and ArcGIS Server.

Members

Name Description
Read-only property Boundary The boundary of this geometry. A polygon's boundary is a polyline. A polyline's boundary is a multipoint. A point or multipoint's boundary is an empty point or multipoint.
Method Buffer Constructs a polygon that is the locus of points at a distance less than or equal to a specified distance from this geometry.
Method Clip Constructs the intersection of this geometry and the specified envelope.
Method ClipDense Constructs the intersection of this geometry and the specified envelope; densifies lines in output contributed by the clipping envelope.
Method ClipToDomain Clips the geometry to the domain of the spatial reference. Useful for ensuring that buffers can be fit within the spatial domain of the feature class to which they are being added.
Method ConstructBuffers Constructs a set of buffers at various distances. More efficient than calling Buffer repeatedly on the same geometry. This method is intended for internal use only.
Method ConstructUnion Defines this geometry to be the union of the inputs. More efficient for unioning multiple geometries than calling Union repeatedly.
Method ConvexHull Constructs the convex hull of this geometry.
Method Cut Splits this geometry into a part left of the cutting polyline, and a part right of it.
Method Difference Constructs the geometry containing points from this geometry but not the other geometry.
Method Intersect Constructs the geometry that is the set-theoretic intersection of the input geometries. Use different resultDimension values to generate results of different dimensions.
Method IntersectMultidimension Constructs the set-theoretic intersection of the inputs. The results are returned in a geometry bag with one element per result dimension.
Read-only property IsKnownSimple Indicates whether this geometry is known (or assumed) to be topologically correct.
Write-only property IsKnownSimple Indicates whether this geometry is known (or assumed) to be topologically correct.
Read-only property IsSimple Indicates whether this geometry is known (or assumed) to be topologically correct, after explicitly determining this if the geometry is not already known (or assumed) to be simple.
Method QueryClipped Redefines clippedGeometry to be the intersection of this geometry and the clipping envelope.
Method QueryClippedDense Redefines clippedGeometry to be the intersection of this geometry and the clipping envelope; densifies lines in the output contributed by the clipping envelope.
Method Simplify Makes this geometry topologically correct.
Method SymmetricDifference Constructs the geometry that contains points from either but not both input geometries.
Read-only property TopologyCache Provides a handle to the TopologyCache.
Method Union Constructs the geometry that is the set-theoretic union of the input geometries.

Inherited Interfaces

Interfaces Description
ITopologicalOperator Provides access to members for constructing new geometries based upon topological relationships between existing geometries.

Classes that implement ITopologicalOperator2

Classes Description
MultiPatch A collection of surface patches.
Multipoint An ordered collection of points; optionally has measure, height and ID attributes.
Polygon A collection of rings ordered by their containment relationship; optionally has measure, height and ID attributes.
Polyline An ordered collection of paths; optionally has measure, height and ID attributes.

Remarks

ITopologicalOperator2 methods must be applied on high-level geometries only. High-Level geometries are point, multipoint, polyline and polygon. To use this interface with low-level geometries such as segments (Line, Circular Arc, Elliptic Arc, Bezier Curve), paths or rings, they must be wrapped into high-level geometry types.

For multipatch geometries, generally the footprint or envelope is used.

.NET Samples

Cut polygons without selection edit task