// -*- C++ -*- // // ====================================================================== // // Brad T. Aagaard // U.S. Geological Survey // // {LicenseText} // // ====================================================================== // /** * @file pylith/feassemble/GeometryTri3D.hh * * @brief C++ implementation of cell geometry calculations for 2-D * triangular cell. * * Reference cell: * * Vertex x y * 0 -1.0 -1.0 * 1 +1.0 -1.0 * 2 -1.0 +1.0 */ #if !defined(pylith_feassemble_geometrytri3d_hh) #define pylith_feassemble_geometrytri3d_hh #include "CellGeometry.hh" // ISA CellGeometry namespace pylith { namespace feassemble { class GeometryTri3D; } // feassemble } // pylith class pylith::feassemble::GeometryTri3D : public CellGeometry { // GeometryTri3D // PUBLIC METHODS /////////////////////////////////////////////////////// public : /// Default constructor. GeometryTri3D(void); /// Default destructor. ~GeometryTri3D(void); /** Create a copy of geometry. * * @returns Copy of geometry. */ CellGeometry* clone(void) const; /** Get cell geometry for lower dimension cell. * * @returns Pointer to cell geometry object corresponding to next * lower dimension, NULL if there is no lower dimension object. */ CellGeometry* geometryLowerDim(void) const; /** Compute Jacobian at location in cell. * * @param jacobian Jacobian at location. * @param det Determinant of Jacobian at location. * @param vertices Coordinates of vertices of cell. * @param location Location in reference cell at which to compute Jacobian. */ void jacobian(double_array* jacobian, double* det, const double_array& vertices, const double_array& location) const; // PROTECTED //////////////////////////////////////////////////////////// protected : /** Copy constructor. * * @param g Geometry to copy. */ GeometryTri3D(const GeometryTri3D& g); }; // GeometryTri3D #endif // pylith_feassemble_geometrytri3d_hh // End of file