IGeometryCollection Interface

Come from ArcGIS Online IGeometryCollection Interface

Provides access to members that can be used for accessing, adding and removing individual geometries of a multi-part geometry (Multipoint, Polyline, Polygon, MultiPatch, and GeometryBag).

Product Availability

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

Description

A Collection of Geometry parts.  For Multipoints, Triangles, TriangleFans, and TriangleStrips, the Geometry parts are Points. For Polylines, the Geometry parts are Paths.  For Polygons, the Geometry parts are Rings.  For MultiPatches, the Geometry parts are Triangles, TriangleFans, TriangleStrips, or Rings.  For GeometryBags, the Geometry parts are any IGeometry object.

The GeometryCollection can be used to access, manipulate, add, insert, remove, and set specific parts of a composite geometry.

When To Use

If you are using a development language that does not support C style arrays, use IGeometryBridge instead. The IGeometryBridge interface solves that problem allowing you to pass safe arrays instead.

Members

Description
		AddGeometries		Adds references to the specified geometries. This method is intended for internal use only.
		AddGeometry		Adds a reference to the input geometry either at the end, or before, or after the specified index.
		AddGeometryCollection		Adds references to geometries in the input collection.
		GeometriesChanged		Tells this geometry collection that some of its geometries have been altered. Use this method on polylines, polygons and multipatches after directly editing one of its parts.
		Geometry		A reference to the ith geometry.
		GeometryCount		The number of geometries in this collection.
		InsertGeometries		Inserts at the specified index references to some number of geometries in the input array. This method is intended for internal use only.
		InsertGeometryCollection		Inserts at the specified index references to all if the geometries in the input collection.
		QueryGeometries		Populates the array with references to a sub-sequence of geometries. This method is intended for internal use only.
		RemoveGeometries		Removes references to some geometries from this collection.
		SetGeometries		Replaces all geometries in the collection with the specified number of references to those in the input array. This method is intended for internal use only.
		SetGeometryCollection		Replaces all geometries in the collection with references to geometries from the input collection.

 

CoClasses that implement IGeometryCollection

CoClasses and Classes	Description
GeoEllipse (esriDefenseSolutions)	Its a spheroidal ellipse.
GeometryBag	An ordered collection of objects that support the IGeometry interface.
GeoPolygon (esriDefenseSolutions)	Its a spheroidal polygon.
GeoPolyline (esriDefenseSolutions)	This is a spheroidal polyline.
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.
TriangleFan	A continuous 3D fan of triangles, where each triangle after the first shares an edge with the preceding triangle, and all triangles share a common pivot point.
Triangles	A collection of 3D triangles, where each consecutive triplet of vertices defines a new triangle
TriangleStrip	A continuous 3D strip of triangles, where each triangle after the first shares an edge with the preceding triangle.

Remarks

Every Geometry created within ArcGIS should be assigned a spatial reference. Always attach well-defined spatial references to new geometries. This improves processing efficiency, in particular, when using ITopologicalOperator on geometries that contain curved segments (circular arcs, bezier curves, elliptical arcs). New geometries include any geometry that is created in memory. It does not matter whether it will be stored in a feature class or not. Well-defined as applied to a spatial reference means that it not only has its coordinate system (projection) defined, but also its coordinate grid. The coordinate grid consists of the xy domain, xy resolution, and xy cluster tolerance properties of a spatial reference. If the Geometry includes z or m values, the z or m domains, z or m resolutions, and z or m cluster tolerance properties must also be defined. The cluster tolerance and resolutions can be quickly and easily set using SetDefault methods on ISpatialReferenceResolution and ISpatialReferenceTolerance interfaces.

//The example shows a GeometryCollection for MultiPoint.
public void ShowGeometries()
{

    IGeometryCollection geometryCollection = new MultipointClass();
    //add 10 points in a loop
    object missing = Type.Missing;

    for (int i = 0; i < 10; i++)
    {
        IPoint point = new PointClass();
        point.PutCoords(i * 10, i * 2);
        geometryCollection.AddGeometry(point as IGeometry, ref missing, ref missing);
    }

    int geometryCount = geometryCollection.GeometryCount;
    System.Windows.Forms.MessageBox.Show("GeometryCount = " + geometryCount);

    for (int i = 0; i < geometryCount; i++)
    {
        IGeometry currentGeometry = geometryCollection.get_Geometry(i);
        IPoint point = currentGeometry as IPoint;

        //we know that there are IPoints only in the Geometrycollection.
        //But this is the safe and recommended way
        if (point != null)
        {
            System.Windows.Forms.MessageBox.Show("X = " + point.X + ", Y = " + point.Y);
        }

    }

}