/// <summary>
/// Creates the Delaunay triangulation of the input data.
/// </summary>
/// <typeparam name="TVertex">The type of the t vertex.</typeparam>
/// <typeparam name="TFace">The type of the t face.</typeparam>
/// <param name="data">The data.</param>
/// <param name="PlaneDistanceTolerance">The plane distance tolerance (default is 1e-10). If too high, points
/// will be missed. If too low, the algorithm may break. Only adjust if you notice problems.</param>
/// <returns>ITriangulation<TVertex, TFace>.</returns>
public static ITriangulation <TVertex, TFace> CreateDelaunay <TVertex, TFace>(IList <TVertex> data,
double PlaneDistanceTolerance = Constants.DefaultPlaneDistanceTolerance)
where TVertex : IVertex
where TFace : TriangulationCell <TVertex, TFace>, new()
{
return(DelaunayTriangulation <TVertex, TFace> .Create(data, PlaneDistanceTolerance));
}
/// <summary>
/// Creates the Delaunay triangulation of the input data.
/// </summary>
/// <param name="data">The data.</param>
/// <param name="PlaneDistanceTolerance">The plane distance tolerance (default is 1e-10). If too high, points
/// will be missed. If too low, the algorithm may break. Only adjust if you notice problems.</param>
/// <returns>ITriangulation<DefaultVertex, DefaultTriangulationCell<DefaultVertex>>.</returns>
public static ITriangulation <DefaultVertex, DefaultTriangulationCell <DefaultVertex> > CreateDelaunay(
IList <double[]> data,
double PlaneDistanceTolerance = Constants.DefaultPlaneDistanceTolerance)
{
var points = data.Select(p => new DefaultVertex {
Position = p
}).ToList();
return(DelaunayTriangulation <DefaultVertex, DefaultTriangulationCell <DefaultVertex> > .Create(points, PlaneDistanceTolerance));
}