xref: /libCEED/examples/ceed/ex2-surface.h (revision 3d8e882215d238700cdceb37404f76ca7fa24eaa) 
1*3d8e8822SJeremy L Thompson // Copyright (c) 2017-2022, Lawrence Livermore National Security, LLC and other CEED contributors.
2*3d8e8822SJeremy L Thompson // All Rights Reserved. See the top-level LICENSE and NOTICE files for details.
366087c08SValeria Barra //
4*3d8e8822SJeremy L Thompson // SPDX-License-Identifier: BSD-2-Clause
566087c08SValeria Barra //
6*3d8e8822SJeremy L Thompson // This file is part of CEED:  http://github.com/ceed
766087c08SValeria Barra 
8e3bad73bSvaleriabarra #ifndef ex2_surface_h
9e3bad73bSvaleriabarra #define ex2_surface_h
10e3bad73bSvaleriabarra 
1166087c08SValeria Barra /// A structure used to pass additional data to f_build_diff
1266087c08SValeria Barra struct BuildContext { CeedInt dim, space_dim; };
1366087c08SValeria Barra 
1466087c08SValeria Barra /// libCEED Q-function for building quadrature data for a diffusion operator
1566087c08SValeria Barra CEED_QFUNCTION(f_build_diff)(void *ctx, const CeedInt Q,
1666087c08SValeria Barra                              const CeedScalar *const *in, CeedScalar *const *out) {
1766087c08SValeria Barra   struct BuildContext *bc = (struct BuildContext *)ctx;
1866087c08SValeria Barra   // in[0] is Jacobians with shape [dim, nc=dim, Q]
1966087c08SValeria Barra   // in[1] is quadrature weights, size (Q)
2066087c08SValeria Barra   //
2166087c08SValeria Barra   // At every quadrature point, compute w/det(J).adj(J).adj(J)^T and store
2266087c08SValeria Barra   // the symmetric part of the result.
2366087c08SValeria Barra   const CeedScalar *J = in[0], *w = in[1];
24d1d35e2fSjeremylt   CeedScalar *q_data = out[0];
2566087c08SValeria Barra 
2666087c08SValeria Barra   switch (bc->dim + 10*bc->space_dim) {
2766087c08SValeria Barra   case 11:
2866087c08SValeria Barra     CeedPragmaSIMD
2966087c08SValeria Barra     for (CeedInt i=0; i<Q; i++) {
30d1d35e2fSjeremylt       q_data[i] = w[i] / J[i];
3166087c08SValeria Barra     } // End of Quadrature Point Loop
3266087c08SValeria Barra     break;
3366087c08SValeria Barra   case 22:
3466087c08SValeria Barra     CeedPragmaSIMD
3566087c08SValeria Barra     for (CeedInt i=0; i<Q; i++) {
36d1d35e2fSjeremylt       // J: 0 2   q_data: 0 2   adj(J):  J22 -J12
3766087c08SValeria Barra       //    1 3          2 1           -J21  J11
3866087c08SValeria Barra       const CeedScalar J11 = J[i+Q*0];
3966087c08SValeria Barra       const CeedScalar J21 = J[i+Q*1];
4066087c08SValeria Barra       const CeedScalar J12 = J[i+Q*2];
4166087c08SValeria Barra       const CeedScalar J22 = J[i+Q*3];
4266087c08SValeria Barra       const CeedScalar qw = w[i] / (J11*J22 - J21*J12);
43d1d35e2fSjeremylt       q_data[i+Q*0] =   qw * (J12*J12 + J22*J22);
44d1d35e2fSjeremylt       q_data[i+Q*1] =   qw * (J11*J11 + J21*J21);
45d1d35e2fSjeremylt       q_data[i+Q*2] = - qw * (J11*J12 + J21*J22);
4666087c08SValeria Barra     } // End of Quadrature Point Loop
4766087c08SValeria Barra     break;
4866087c08SValeria Barra   case 33:
4966087c08SValeria Barra     CeedPragmaSIMD
5066087c08SValeria Barra     for (CeedInt i=0; i<Q; i++) {
5166087c08SValeria Barra       // Compute the adjoint
5266087c08SValeria Barra       CeedScalar A[3][3];
5366087c08SValeria Barra       for (CeedInt j=0; j<3; j++)
5466087c08SValeria Barra         for (CeedInt k=0; k<3; k++)
5566087c08SValeria Barra           // Equivalent code with J as a VLA and no mod operations:
5666087c08SValeria Barra           // A[k][j] = J[j+1][k+1]*J[j+2][k+2] - J[j+1][k+2]*J[j+2][k+1]
5766087c08SValeria Barra           A[k][j] = J[i+Q*((j+1)%3+3*((k+1)%3))]*J[i+Q*((j+2)%3+3*((k+2)%3))] -
5866087c08SValeria Barra                     J[i+Q*((j+1)%3+3*((k+2)%3))]*J[i+Q*((j+2)%3+3*((k+1)%3))];
5966087c08SValeria Barra 
6066087c08SValeria Barra       // Compute quadrature weight / det(J)
6166087c08SValeria Barra       const CeedScalar qw = w[i] / (J[i+Q*0]*A[0][0] + J[i+Q*1]*A[1][1] +
6266087c08SValeria Barra                                     J[i+Q*2]*A[2][2]);
6366087c08SValeria Barra 
6466087c08SValeria Barra       // Compute geometric factors
6566087c08SValeria Barra       // Stored in Voigt convention
6666087c08SValeria Barra       // 0 5 4
6766087c08SValeria Barra       // 5 1 3
6866087c08SValeria Barra       // 4 3 2
69d1d35e2fSjeremylt       q_data[i+Q*0] = qw * (A[0][0]*A[0][0] + A[0][1]*A[0][1] + A[0][2]*A[0][2]);
70d1d35e2fSjeremylt       q_data[i+Q*1] = qw * (A[1][0]*A[1][0] + A[1][1]*A[1][1] + A[1][2]*A[1][2]);
71d1d35e2fSjeremylt       q_data[i+Q*2] = qw * (A[2][0]*A[2][0] + A[2][1]*A[2][1] + A[2][2]*A[2][2]);
72d1d35e2fSjeremylt       q_data[i+Q*3] = qw * (A[1][0]*A[2][0] + A[1][1]*A[2][1] + A[1][2]*A[2][2]);
73d1d35e2fSjeremylt       q_data[i+Q*4] = qw * (A[0][0]*A[2][0] + A[0][1]*A[2][1] + A[0][2]*A[2][2]);
74d1d35e2fSjeremylt       q_data[i+Q*5] = qw * (A[0][0]*A[1][0] + A[0][1]*A[1][1] + A[0][2]*A[1][2]);
7566087c08SValeria Barra     } // End of Quadrature Point Loop
7666087c08SValeria Barra     break;
7766087c08SValeria Barra   }
7866087c08SValeria Barra   return 0;
7966087c08SValeria Barra }
8066087c08SValeria Barra 
8166087c08SValeria Barra /// libCEED Q-function for applying a diff operator
8266087c08SValeria Barra CEED_QFUNCTION(f_apply_diff)(void *ctx, const CeedInt Q,
8366087c08SValeria Barra                              const CeedScalar *const *in, CeedScalar *const *out) {
8466087c08SValeria Barra   struct BuildContext *bc = (struct BuildContext *)ctx;
8566087c08SValeria Barra   // in[0], out[0] have shape [dim, nc=1, Q]
86d1d35e2fSjeremylt   const CeedScalar *ug = in[0], *q_data = in[1];
8766087c08SValeria Barra   CeedScalar *vg = out[0];
8866087c08SValeria Barra 
8966087c08SValeria Barra   switch (bc->dim) {
9066087c08SValeria Barra   case 1:
9166087c08SValeria Barra     CeedPragmaSIMD
9266087c08SValeria Barra     for (CeedInt i=0; i<Q; i++) {
93d1d35e2fSjeremylt       vg[i] = ug[i] * q_data[i];
9466087c08SValeria Barra     } // End of Quadrature Point Loop
9566087c08SValeria Barra     break;
9666087c08SValeria Barra   case 2:
9766087c08SValeria Barra     CeedPragmaSIMD
9866087c08SValeria Barra     for (CeedInt i=0; i<Q; i++) {
9966087c08SValeria Barra       // Read spatial derivatives of u
10066087c08SValeria Barra       const CeedScalar du[2]        =  {ug[i+Q*0],
10166087c08SValeria Barra                                         ug[i+Q*1]
10266087c08SValeria Barra                                        };
10366087c08SValeria Barra 
104d1d35e2fSjeremylt       // Read q_data (dXdxdXdx_T symmetric matrix)
10566087c08SValeria Barra       // Stored in Voigt convention
10666087c08SValeria Barra       // 0 2
10766087c08SValeria Barra       // 2 1
10866087c08SValeria Barra       // *INDENT-OFF*
109d1d35e2fSjeremylt       const CeedScalar dXdxdXdx_T[2][2] = {{q_data[i+0*Q],
110d1d35e2fSjeremylt                                             q_data[i+2*Q]},
111d1d35e2fSjeremylt                                            {q_data[i+2*Q],
112d1d35e2fSjeremylt                                             q_data[i+1*Q]}};
11366087c08SValeria Barra       // *INDENT-ON*
11466087c08SValeria Barra       // j = direction of vg
11566087c08SValeria Barra       for (int j=0; j<2; j++)
116d1d35e2fSjeremylt         vg[i+j*Q] = (du[0] * dXdxdXdx_T[0][j] +
117d1d35e2fSjeremylt                      du[1] * dXdxdXdx_T[1][j]);
11866087c08SValeria Barra     } // End of Quadrature Point Loop
11966087c08SValeria Barra     break;
12066087c08SValeria Barra   case 3:
12166087c08SValeria Barra     CeedPragmaSIMD
12266087c08SValeria Barra     for (CeedInt i=0; i<Q; i++) {
12366087c08SValeria Barra       // Read spatial derivatives of u
12466087c08SValeria Barra       const CeedScalar du[3]        =  {ug[i+Q*0],
12566087c08SValeria Barra                                         ug[i+Q*1],
12666087c08SValeria Barra                                         ug[i+Q*2]
12766087c08SValeria Barra                                        };
12866087c08SValeria Barra 
129d1d35e2fSjeremylt       // Read q_data (dXdxdXdx_T symmetric matrix)
13066087c08SValeria Barra       // Stored in Voigt convention
13166087c08SValeria Barra       // 0 5 4
13266087c08SValeria Barra       // 5 1 3
13366087c08SValeria Barra       // 4 3 2
13466087c08SValeria Barra       // *INDENT-OFF*
135d1d35e2fSjeremylt       const CeedScalar dXdxdXdx_T[3][3] = {{q_data[i+0*Q],
136d1d35e2fSjeremylt                                             q_data[i+5*Q],
137d1d35e2fSjeremylt                                             q_data[i+4*Q]},
138d1d35e2fSjeremylt                                            {q_data[i+5*Q],
139d1d35e2fSjeremylt                                             q_data[i+1*Q],
140d1d35e2fSjeremylt                                             q_data[i+3*Q]},
141d1d35e2fSjeremylt                                            {q_data[i+4*Q],
142d1d35e2fSjeremylt                                             q_data[i+3*Q],
143d1d35e2fSjeremylt                                             q_data[i+2*Q]}
14466087c08SValeria Barra                                           };
14566087c08SValeria Barra       // *INDENT-ON*
14666087c08SValeria Barra       // j = direction of vg
14766087c08SValeria Barra       for (int j=0; j<3; j++)
148d1d35e2fSjeremylt         vg[i+j*Q] = (du[0] * dXdxdXdx_T[0][j] +
149d1d35e2fSjeremylt                      du[1] * dXdxdXdx_T[1][j] +
150d1d35e2fSjeremylt                      du[2] * dXdxdXdx_T[2][j]);
15166087c08SValeria Barra     } // End of Quadrature Point Loop
15266087c08SValeria Barra     break;
15366087c08SValeria Barra   }
15466087c08SValeria Barra   return 0;
15566087c08SValeria Barra }
156e3bad73bSvaleriabarra 
157e3bad73bSvaleriabarra #endif // ex2_surface_h
158