17 #ifndef KOKKOS_HEXELEMENT_HPP
18 #define KOKKOS_HEXELEMENT_HPP
23 template<
unsigned NodeCount >
26 template<
unsigned NodeCount ,
class Device >
35 static const unsigned element_node_count = 8 ;
36 static const unsigned spatial_dimension = 3 ;
37 static const unsigned integration_count_1d = 2 ;
38 static const unsigned function_count_1d = 2 ;
40 double values_1d [ function_count_1d ][ integration_count_1d ];
41 double derivs_1d [ function_count_1d ][ integration_count_1d ];
42 double weights_1d[ integration_count_1d ];
44 unsigned char eval_map[ element_node_count ][4] ;
48 return 0 == jf ? 0.5 * ( 1.0 - x ) : (
49 1 == jf ? 0.5 * ( 1.0 + x ) : 0 );
54 return 0 == jf ? -0.5 : (
60 const unsigned char tmp_map[ element_node_count ][ spatial_dimension ] =
73 const double points_1d[ integration_count_1d ] =
74 { -0.577350269189623 , 0.577350269189623 };
76 for (
unsigned i = 0 ; i < element_node_count ; ++i ) {
77 eval_map[i][0] = tmp_map[i][0];
78 eval_map[i][1] = tmp_map[i][1];
79 eval_map[i][2] = tmp_map[i][2];
82 for (
unsigned xp = 0 ; xp < integration_count_1d ; ++xp ) {
83 for (
unsigned xf = 0 ; xf < function_count_1d ; ++xf ) {
84 values_1d[xp][xf] = eval_value_1d( xf , points_1d[xp] );
85 derivs_1d[xp][xf] = eval_deriv_1d( xf , points_1d[xp] );
96 static const unsigned element_node_count = 27 ;
97 static const unsigned spatial_dimension = 3 ;
98 static const unsigned integration_count_1d = 3 ;
99 static const unsigned function_count_1d = 3 ;
101 double values_1d [ function_count_1d ][ integration_count_1d ];
102 double derivs_1d [ function_count_1d ][ integration_count_1d ];
103 double weights_1d[ integration_count_1d ];
105 unsigned char eval_map[ element_node_count ][4] ;
115 return 0 == jf ? 0.5 * p * ( p - 1 ) : (
116 1 == jf ? 1.0 - p * p : (
117 2 == jf ? 0.5 * p * ( p + 1 ) : 0 ));
122 return 0 == jf ? p - 0.5 : (
123 1 == jf ? -2.0 * p : (
124 2 == jf ? p + 0.5 : 0 ));
129 const unsigned char tmp_map[ element_node_count ][ spatial_dimension ] =
160 weights_1d[0] = 0.55555555555556 ;
161 weights_1d[1] = 0.88888888888889 ;
162 weights_1d[2] = 0.55555555555556 ;
164 const double points_1d[3] = { -0.774596669241483 ,
168 for (
unsigned i = 0 ; i < element_node_count ; ++i ) {
169 eval_map[i][0] = tmp_map[i][0];
170 eval_map[i][1] = tmp_map[i][1];
171 eval_map[i][2] = tmp_map[i][2];
174 for (
unsigned xp = 0 ; xp < integration_count_1d ; ++xp ) {
175 for (
unsigned xf = 0 ; xf < function_count_1d ; ++xf ) {
176 values_1d[xp][xf] = eval_value_1d( xf , points_1d[xp] );
177 derivs_1d[xp][xf] = eval_deriv_1d( xf , points_1d[xp] );
184 template<
unsigned NodeCount >
202 const unsigned ipx = tensor_data.eval_map[ip][0] ;
203 const unsigned ipy = tensor_data.eval_map[ip][1] ;
204 const unsigned ipz = tensor_data.eval_map[ip][2] ;
206 weights[ip] = tensor_data.weights_1d[ ipx ] *
207 tensor_data.weights_1d[ ipy ] *
208 tensor_data.weights_1d[ ipz ] ;
212 const unsigned jfx = tensor_data.eval_map[jf][0] ;
213 const unsigned jfy = tensor_data.eval_map[jf][1] ;
214 const unsigned jfz = tensor_data.eval_map[jf][2] ;
216 values[ip][jf] = tensor_data.values_1d[ ipx ][ jfx ] *
217 tensor_data.values_1d[ ipy ][ jfy ] *
218 tensor_data.values_1d[ ipz ][ jfz ] ;
220 gradients[ip][0][jf] = tensor_data.derivs_1d[ ipx ][ jfx ] *
221 tensor_data.values_1d[ ipy ][ jfy ] *
222 tensor_data.values_1d[ ipz ][ jfz ] ;
224 gradients[ip][1][jf] = tensor_data.values_1d[ ipx ][ jfx ] *
225 tensor_data.derivs_1d[ ipy ][ jfy ] *
226 tensor_data.values_1d[ ipz ][ jfz ] ;
228 gradients[ip][2][jf] = tensor_data.values_1d[ ipx ][ jfx ] *
229 tensor_data.values_1d[ ipy ][ jfy ] *
230 tensor_data.derivs_1d[ ipz ][ jfz ] ;
double weights[integration_count]
static double eval_value_1d(const unsigned jf, const double p)
static const unsigned element_node_count
static const unsigned function_count
double gradients[integration_count][spatial_dimension][function_count]
static double eval_deriv_1d(const unsigned jf, const double p)
static double eval_value_1d(const unsigned jf, const double x)
static double eval_deriv_1d(const unsigned jf, const double)
double values[integration_count][function_count]
static const unsigned integration_count
static const unsigned spatial_dimension