12 static double NF_N_T_RT1_2D_Xi[] = { 1./3.,2./3.,2./3.,1./3.,0 , 0};
13 static double NF_N_T_RT1_2D_Eta[] = { 0 ,0 ,1./3.,2./3.,2./3.,1./3.};
19 static double NF_N_T_RT1_2D_T[] = {-0.707106781186547,0.707106781186547};
40 Functionals[0] = PointValues[0];
41 Functionals[1] = PointValues[1];
42 Functionals[2] = PointValues[2];
43 Functionals[3] = PointValues[3];
44 Functionals[4] = PointValues[4];
45 Functionals[5] = PointValues[5];
46 Functionals[6] = PointValues[6];
47 Functionals[7] = PointValues[7];
72 l = sqrt((x0-x1)*(x0-x1) + (y0-y1)*(y0-y1));
74 Functionals[0] = PointValues[0]*l;
75 Functionals[1] = PointValues[1]*l;
79 (NF_N_T_RT1_2D, 8, 2, 6, 2, NF_N_T_RT1_2D_Xi, NF_N_T_RT1_2D_Eta,
80 NF_N_T_RT1_2D_T, NF_N_T_RT1_2D_EvalAll, NF_N_T_RT1_2D_EvalEdge);
store cells in an array, used by cell iterators
Definition: Collection.h:18
Definition: NodalFunctional2D.h:20
virtual TVertex * GetVertex(int Vert_i)=0
return the pointer to vertex with number i
void GetCoords(double &x, double &y, double &z) const
Definition: Vertex.h:106
information for finite element data structure
Definition: BaseCell.h:25