56 #define CORNER_COORDINATES_TRIANGLE(e,n,x)                                \  argument
62 #define CORNER_COORDINATES_QUADRILATERAL(e,n,x)                           \  argument
69 #define CORNER_COORDINATES(e,n,x)                               \  argument
77 #define LOCAL_TO_GLOBAL_TRIANGLE(x,local,global)          \  argument
83 #define LOCAL_TO_GLOBAL_QUADRILATERAL(x,local,global)         \  argument
93 #define LOCAL_TO_GLOBAL_2D(n,x,local,global)                              \  argument
97 #define AREA_OF_TRIANGLE(x,area)     {DOUBLE detJ; DOUBLE_VECTOR a,b;      \  argument
103 #define AREA_OF_QUADRILATERAL(x,area)   {DOUBLE detJ,ar; DOUBLE_VECTOR a,b;  \  argument
112 #define AREA_OF_ELEMENT_2D(n,x,area)                       \  argument
116 #define TRANSFORMATION_OF_TRIANGLE(x,M)     \  argument
120 #define TRANSFORMATION_OF_QUADRILATERAL(x,local,M)                        \  argument
129 #define TRANSFORMATION_2D(n,x,local,M)                                      \  argument
135 #define CORNER_COORDINATES_TETRAHEDRON(e,n,x)                              \  argument
142 #define CORNER_COORDINATES_PYRAMID(e,n,x)                                  \  argument
150 #define CORNER_COORDINATES_PRISM(e,n,x)                                    \  argument
159 #define CORNER_COORDINATES_HEXAHEDRON(e,n,x)                               \  argument
170 #define CORNER_COORDINATES(e,n,x)                                            \  argument
179 #define LOCAL_TO_GLOBAL_TETRAHEDRON(x,local,global)                       \  argument
187 #define LOCAL_TO_GLOBAL_PYRAMID(x,local,global)                             \  argument
214 #define LOCAL_TO_GLOBAL_PRISM(x,local,global)                               \  argument
234 #define LOCAL_TO_GLOBAL_HEXAHEDRON(x,local,global)                          \  argument
257 #define LOCAL_TO_GLOBAL_3D(n,x,local,global)                              \  argument
263 #define AREA_OF_TETRAHEDRON(x,area)  {DOUBLE detJ; DOUBLE_VECTOR a,b,c;    \  argument
271 #define AREA_OF_PYRAMID(x,area)      {DOUBLE detJ,ar; DOUBLE_VECTOR a,b,c,d;\  argument
283 #define AREA_OF_PRISM(x,area)   {DOUBLE detJ,ar; DOUBLE_VECTOR a,b,c;      \  argument
303 #define AREA_OF_HEXAHEDRON(x,area)   {DOUBLE detJ,ar; DOUBLE_VECTOR a,b,c; \  argument
341 #define AREA_OF_ELEMENT_3D(n,x,area)                        \  argument
347 #define TRANSFORMATION_OF_TETRAHEDRON(x,M)   \  argument
352 #define TRANSFORMATION_OF_PYRAMID(x,local,M)                              \  argument
378 #define TRANSFORMATION_OF_PRISM(x,local,M)                                \  argument
396 #define TRANSFORMATION_OF_HEXAHEDRON(x,local,M)                           \  argument
432 #define TRANSFORMATION_3D(n,x,local,M)                                     \  argument
440 #define LOCAL_TO_GLOBAL(n,x,local,global)                       LOCAL_TO_GLOBAL_2D(n,x,local,global)  argument
441 #define AREA_OF_ELEMENT(n,x,area)                                       AREA_OF_ELEMENT_2D(n,x,area)  argument
442 #define TRANSFORMATION(n,x,local,M)                                     TRANSFORMATION_2D(n,x,local…  argument
446 #define TRANSFORMATION_BND(n,x,local,M)                         TRANSFORMATION_2D(n,x,local,M)  argument
447 #define LOCAL_TO_GLOBAL_BND(n,x,local,global)           LOCAL_TO_GLOBAL_2D(n,x,local,global)  argument
448 #define AREA_OF_ELEMENT_BND(n,x,area)                           AREA_OF_ELEMENT_2D(n,x,area)  argument
451 #define LOCAL_TO_GLOBAL(n,x,local,global)                       LOCAL_TO_GLOBAL_3D(n,x,local,global)  argument
452 #define AREA_OF_ELEMENT(n,x,area)                                       AREA_OF_ELEMENT_3D(n,x,area)  argument
453 #define TRANSFORMATION(n,x,local,M)                                     TRANSFORMATION_3D(n,x,local…  argument
456 #define INVERSE_TRANSFORMATION(n,x,local,Jinv,Jdet)   \  argument