xref: /libCEED/examples/solids/qfunctions/traction-boundary.h (revision 5aed82e4fa97acf4ba24a7f10a35f5303a6798e0) 
1 // Copyright (c) 2017-2024, Lawrence Livermore National Security, LLC and other CEED contributors.
2 // All Rights Reserved. See the top-level LICENSE and NOTICE files for details.
3 //
4 // SPDX-License-Identifier: BSD-2-Clause
5 //
6 // This file is part of CEED:  http://github.com/ceed
7 
8 /// @file
9 /// Geometric factors for solid mechanics example using PETSc
10 
11 #ifndef TRACTION_BOUNDARY_H
12 #define TRACTION_BOUNDARY_H
13 
14 #include <ceed.h>
15 
16 // -----------------------------------------------------------------------------
17 // This QFunction computes the surface integral of the user traction vector on the constrained faces.
18 //
19 // Reference (parent) 2D coordinates: X
20 // Physical (current) 3D coordinates: x
21 // Change of coordinate matrix:
22 //   dxdX_{i,j} = dx_i/dX_j (indicial notation) [3 * 2]
23 //
24 // (J1,J2,J3) is given by the cross product of the columns of dxdX_{i,j}
25 //
26 // detJb is the magnitude of (J1,J2,J3)
27 //
28 // Computed:
29 //   t * (w detJb)
30 // -----------------------------------------------------------------------------
31 CEED_QFUNCTION(SetupTractionBCs)(void *ctx, CeedInt Q, const CeedScalar *const *in, CeedScalar *const *out) {
32   // Inputs
33   const CeedScalar(*J)[3][CEED_Q_VLA] = (const CeedScalar(*)[3][CEED_Q_VLA])in[0], (*w) = in[1];
34   // Outputs
35   CeedScalar(*v)[CEED_Q_VLA] = (CeedScalar(*)[CEED_Q_VLA])out[0];
36 
37   // User stress tensor
38   const CeedScalar(*traction) = (const CeedScalar(*))ctx;
39 
40   CeedPragmaSIMD
41       // Quadrature Point Loop
42       for (CeedInt i = 0; i < Q; i++) {
43     // Setup
44     const CeedScalar dxdX[3][2] = {
45         {J[0][0][i], J[1][0][i]},
46         {J[0][1][i], J[1][1][i]},
47         {J[0][2][i], J[1][2][i]}
48     };
49     // J1, J2, and J3 are given by the cross product of the columns of dxdX
50     const CeedScalar J1 = dxdX[1][0] * dxdX[2][1] - dxdX[2][0] * dxdX[1][1];
51     const CeedScalar J2 = dxdX[2][0] * dxdX[0][1] - dxdX[0][0] * dxdX[2][1];
52     const CeedScalar J3 = dxdX[0][0] * dxdX[1][1] - dxdX[1][0] * dxdX[0][1];
53 
54     // Qdata
55     // -- Interp-to-Interp q_data
56     CeedScalar wdetJb = w[i] * sqrt(J1 * J1 + J2 * J2 + J3 * J3);
57 
58     // Traction surface integral
59     for (CeedInt j = 0; j < 3; j++) v[j][i] = traction[j] * wdetJb;
60 
61   }  // End of Quadrature Point Loop
62 
63   // Return
64   return 0;
65 }
66 // -----------------------------------------------------------------------------
67 
68 #endif  // End of TRACTION_BOUNDARY_H
69