13d8e8822SJeremy L Thompson // Copyright (c) 2017-2022, Lawrence Livermore National Security, LLC and other CEED contributors. 23d8e8822SJeremy L Thompson // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. 3cb32e2e7SValeria Barra // 43d8e8822SJeremy L Thompson // SPDX-License-Identifier: BSD-2-Clause 5cb32e2e7SValeria Barra // 63d8e8822SJeremy L Thompson // This file is part of CEED: http://github.com/ceed 7cb32e2e7SValeria Barra 8cb32e2e7SValeria Barra /// @file 9cb32e2e7SValeria Barra /// libCEED QFunctions for mass operator example using PETSc 10cb32e2e7SValeria Barra 11f6b55d2cSvaleriabarra #ifndef bp1_h 12f6b55d2cSvaleriabarra #define bp1_h 13f6b55d2cSvaleriabarra 14c9c2c079SJeremy L Thompson #include <ceed.h> 15cb32e2e7SValeria Barra #include <math.h> 16cb32e2e7SValeria Barra 17e83e87a5Sjeremylt // ----------------------------------------------------------------------------- 18ed264d09SValeria Barra // This QFunction sets up the geometric factors required to apply the 19ed264d09SValeria Barra // mass operator 20ed264d09SValeria Barra // 219b072555Sjeremylt // The quadrature data is stored in the array q_data. 22ed264d09SValeria Barra // 23ed264d09SValeria Barra // We require the determinant of the Jacobian to properly compute integrals of 24ed264d09SValeria Barra // the form: int( u v ) 25ed264d09SValeria Barra // 269b072555Sjeremylt // Qdata: det_J * w 27ed264d09SValeria Barra // 28cb32e2e7SValeria Barra // ----------------------------------------------------------------------------- 29cb32e2e7SValeria Barra CEED_QFUNCTION(SetupMassGeo)(void *ctx, const CeedInt Q, 30cb32e2e7SValeria Barra const CeedScalar *const *in, 31cb32e2e7SValeria Barra CeedScalar *const *out) { 32*d4d45553Srezgarshakeri // Inputs 33*d4d45553Srezgarshakeri const CeedScalar(*J)[3][CEED_Q_VLA] = (const CeedScalar(*)[3][CEED_Q_VLA])in[1]; 34*d4d45553Srezgarshakeri const CeedScalar(*w) = in[2]; // Note: *X = in[0] 35*d4d45553Srezgarshakeri // Outputs 369b072555Sjeremylt CeedScalar *q_data = out[0]; 37cb32e2e7SValeria Barra 38*d4d45553Srezgarshakeri const CeedInt dim = 3; 39cb32e2e7SValeria Barra // Quadrature Point Loop 40cb32e2e7SValeria Barra CeedPragmaSIMD 41cb32e2e7SValeria Barra for (CeedInt i=0; i<Q; i++) { 42*d4d45553Srezgarshakeri // Setup 43*d4d45553Srezgarshakeri CeedScalar A[3][3]; 44*d4d45553Srezgarshakeri for (CeedInt j = 0; j < dim; j++) { 45*d4d45553Srezgarshakeri for (CeedInt k = 0; k < dim; k++) { 46*d4d45553Srezgarshakeri // Equivalent code with no mod operations: 47*d4d45553Srezgarshakeri // A[k][j] = J[k+1][j+1]*J[k+2][j+2] - J[k+1][j+2]*J[k+2][j+1] 48*d4d45553Srezgarshakeri A[k][j] = J[(k + 1) % dim][(j + 1) % dim][i] * J[(k + 2) % dim][(j + 2) % dim][i] - 49*d4d45553Srezgarshakeri J[(k + 1) % dim][(j + 2) % dim][i] * J[(k + 2) % dim][(j + 1) % dim][i]; 50*d4d45553Srezgarshakeri } 51*d4d45553Srezgarshakeri } 52*d4d45553Srezgarshakeri const CeedScalar detJ = J[0][0][i] * A[0][0] + J[0][1][i] * A[0][1] + J[0][2][i] * A[0][2]; 53*d4d45553Srezgarshakeri q_data[i] = detJ * w[i]; 54cb32e2e7SValeria Barra } // End of Quadrature Point Loop 55cb32e2e7SValeria Barra return 0; 56cb32e2e7SValeria Barra } 57cb32e2e7SValeria Barra 58e83e87a5Sjeremylt // ----------------------------------------------------------------------------- 59ed264d09SValeria Barra // This QFunction sets up the rhs and true solution for the problem 60cb32e2e7SValeria Barra // ----------------------------------------------------------------------------- 61cb32e2e7SValeria Barra CEED_QFUNCTION(SetupMassRhs)(void *ctx, const CeedInt Q, 62cb32e2e7SValeria Barra const CeedScalar *const *in, 63cb32e2e7SValeria Barra CeedScalar *const *out) { 64e83e87a5Sjeremylt const CeedScalar *x = in[0], *w = in[1]; 65cb32e2e7SValeria Barra CeedScalar *true_soln = out[0], *rhs = out[1]; 66cb32e2e7SValeria Barra 67cb32e2e7SValeria Barra // Quadrature Point Loop 68cb32e2e7SValeria Barra CeedPragmaSIMD 69cb32e2e7SValeria Barra for (CeedInt i=0; i<Q; i++) { 70cb32e2e7SValeria Barra true_soln[i] = sqrt(x[i]*x[i] + x[i+Q]*x[i+Q] + x[i+2*Q]*x[i+2*Q]); 71e83e87a5Sjeremylt rhs[i] = w[i] * true_soln[i]; 72cb32e2e7SValeria Barra } // End of Quadrature Point Loop 73cb32e2e7SValeria Barra return 0; 74cb32e2e7SValeria Barra } 75cb32e2e7SValeria Barra 76e83e87a5Sjeremylt // ----------------------------------------------------------------------------- 77ed264d09SValeria Barra // This QFunction applies the mass operator for a scalar field. 78ed264d09SValeria Barra // 79ed264d09SValeria Barra // Inputs: 80ed264d09SValeria Barra // u - Input vector at quadrature points 819b072555Sjeremylt // q_data - Geometric factors 82ed264d09SValeria Barra // 83ed264d09SValeria Barra // Output: 84ed264d09SValeria Barra // v - Output vector (test functions) at quadrature points 85ed264d09SValeria Barra // 86cb32e2e7SValeria Barra // ----------------------------------------------------------------------------- 87cb32e2e7SValeria Barra CEED_QFUNCTION(Mass)(void *ctx, const CeedInt Q, 88cb32e2e7SValeria Barra const CeedScalar *const *in, CeedScalar *const *out) { 899b072555Sjeremylt const CeedScalar *u = in[0], *q_data = in[1]; 90cb32e2e7SValeria Barra CeedScalar *v = out[0]; 91cb32e2e7SValeria Barra 92cb32e2e7SValeria Barra // Quadrature Point Loop 93cb32e2e7SValeria Barra CeedPragmaSIMD 94cb32e2e7SValeria Barra for (CeedInt i=0; i<Q; i++) 959b072555Sjeremylt v[i] = q_data[i] * u[i]; 96cb32e2e7SValeria Barra 97cb32e2e7SValeria Barra return 0; 98cb32e2e7SValeria Barra } 99cb32e2e7SValeria Barra // ----------------------------------------------------------------------------- 100f6b55d2cSvaleriabarra 101f6b55d2cSvaleriabarra #endif // bp1_h 102