ExtrudedPolylineTriangulatorComputeCartographic Method |
Overload List| Name | Description | |
|---|---|---|
  | ComputeCartographic(CentralBody, IEnumerableCartographic, IEnumerableCartographic) |
For convenience. Computes an extrusion between bottomPositions and topPositions
on the specified centralBody using Cartographic
positions. Longitude and latitude are in radians, and altitude is in meters.
This is equivalent to converting each position in bottomPositions and topPositions to
Cartesian and calling
Compute(CentralBody, IEnumerableCartesian, IEnumerableCartesian) |
| ComputeCartographic(CentralBody, IEnumerableCartographic, IEnumerableCartographic, WindingOrder) |
For convenience. Computes an extrusion between bottomPositions and topPositions
on the specified centralBody using Cartographic
positions. Longitude and latitude are in radians, and altitude is in meters.
This is equivalent to
converting each position in bottomPositions and topPositions to
Cartesian and calling
Compute(CentralBody, IEnumerableCartesian, IEnumerableCartesian, WindingOrder) |
| ComputeCartographic(CentralBody, IEnumerableCartographic, Double, Double) |
For convenience. Computes an extrusion of positions on the specified
centralBody with a constant bottomAltitude
and topAltitude using Cartographic
positions. Longitude and latitude are in radians, and altitude is in meters.
This is equivalent to
converting each position in positions to
Cartesian and calling
Compute(CentralBody, IEnumerableCartesian, Double, Double) |
| ComputeCartographic(CentralBody, IEnumerableCartographic, Double, Double, WindingOrder) |
For convenience. Computes an extrusion of positions on the specified
centralBody with a constant bottomAltitude
and topAltitude using Cartographic
positions. Longitude and latitude are in radians, and altitude is in meters.
This is equivalent to
converting each position in positions to
Cartesian and calling
Compute(CentralBody, IEnumerableCartesian, Double, Double, WindingOrder) |
See Also