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. 332d2ee49SValeria Barra // 4*3d8e8822SJeremy L Thompson // SPDX-License-Identifier: BSD-2-Clause 532d2ee49SValeria Barra // 6*3d8e8822SJeremy L Thompson // This file is part of CEED: http://github.com/ceed 732d2ee49SValeria Barra 832d2ee49SValeria Barra /// @file 932d2ee49SValeria Barra /// libCEED QFunctions for mass operator example for a scalar field on the sphere using PETSc 1032d2ee49SValeria Barra 11f6b55d2cSvaleriabarra #ifndef areasphere_h 12f6b55d2cSvaleriabarra #define areasphere_h 13f6b55d2cSvaleriabarra 1432d2ee49SValeria Barra #include <math.h> 1532d2ee49SValeria Barra 16e83e87a5Sjeremylt // ----------------------------------------------------------------------------- 1732d2ee49SValeria Barra // This QFunction sets up the geometric factor required for integration when 1832d2ee49SValeria Barra // reference coordinates have a different dimension than the one of 19ed264d09SValeria Barra // physical coordinates 2032d2ee49SValeria Barra // 2132d2ee49SValeria Barra // Reference (parent) 2D coordinates: X \in [-1, 1]^2 2232d2ee49SValeria Barra // 2332d2ee49SValeria Barra // Global 3D physical coordinates given by the mesh: xx \in [-R, R]^3 2432d2ee49SValeria Barra // with R radius of the sphere 2532d2ee49SValeria Barra // 2632d2ee49SValeria Barra // Local 3D physical coordinates on the 2D manifold: x \in [-l, l]^3 2732d2ee49SValeria Barra // with l half edge of the cube inscribed in the sphere 2832d2ee49SValeria Barra // 2932d2ee49SValeria Barra // Change of coordinates matrix computed by the library: 30ed264d09SValeria Barra // (physical 3D coords relative to reference 2D coords) 3132d2ee49SValeria Barra // dxx_j/dX_i (indicial notation) [3 * 2] 3232d2ee49SValeria Barra // 3332d2ee49SValeria Barra // Change of coordinates x (on the 2D manifold) relative to xx (phyisical 3D): 3432d2ee49SValeria Barra // dx_i/dxx_j (indicial notation) [3 * 3] 3532d2ee49SValeria Barra // 3632d2ee49SValeria Barra // Change of coordinates x (on the 2D manifold) relative to X (reference 2D): 3732d2ee49SValeria Barra // (by chain rule) 3832d2ee49SValeria Barra // dx_i/dX_j = dx_i/dxx_k * dxx_k/dX_j [3 * 2] 3932d2ee49SValeria Barra // 409b072555Sjeremylt // mod_J is given by the magnitude of the cross product of the columns of dx_i/dX_j 4132d2ee49SValeria Barra // 429b072555Sjeremylt // The quadrature data is stored in the array q_data. 4332d2ee49SValeria Barra // 4432d2ee49SValeria Barra // We require the determinant of the Jacobian to properly compute integrals of 4532d2ee49SValeria Barra // the form: int( u v ) 4632d2ee49SValeria Barra // 479b072555Sjeremylt // Qdata: mod_J * w 4832d2ee49SValeria Barra // 4932d2ee49SValeria Barra // ----------------------------------------------------------------------------- 5032d2ee49SValeria Barra CEED_QFUNCTION(SetupMassGeoSphere)(void *ctx, const CeedInt Q, 5132d2ee49SValeria Barra const CeedScalar *const *in, 5232d2ee49SValeria Barra CeedScalar *const *out) { 5332d2ee49SValeria Barra // Inputs 5432d2ee49SValeria Barra const CeedScalar *X = in[0], *J = in[1], *w = in[2]; 5532d2ee49SValeria Barra // Outputs 569b072555Sjeremylt CeedScalar *q_data = out[0]; 5732d2ee49SValeria Barra 5832d2ee49SValeria Barra // Quadrature Point Loop 5932d2ee49SValeria Barra CeedPragmaSIMD 6032d2ee49SValeria Barra for (CeedInt i=0; i<Q; i++) { 6132d2ee49SValeria Barra // Read global Cartesian coordinates 6232d2ee49SValeria Barra const CeedScalar xx[3][1] = {{X[i+0*Q]}, 6332d2ee49SValeria Barra {X[i+1*Q]}, 6432d2ee49SValeria Barra {X[i+2*Q]} 6532d2ee49SValeria Barra }; 6632d2ee49SValeria Barra 6732d2ee49SValeria Barra // Read dxxdX Jacobian entries, stored as 6832d2ee49SValeria Barra // 0 3 6932d2ee49SValeria Barra // 1 4 7032d2ee49SValeria Barra // 2 5 7132d2ee49SValeria Barra const CeedScalar dxxdX[3][2] = {{J[i+Q*0], 7232d2ee49SValeria Barra J[i+Q*3]}, 7332d2ee49SValeria Barra {J[i+Q*1], 7432d2ee49SValeria Barra J[i+Q*4]}, 7532d2ee49SValeria Barra {J[i+Q*2], 7632d2ee49SValeria Barra J[i+Q*5]} 7732d2ee49SValeria Barra }; 7832d2ee49SValeria Barra 7932d2ee49SValeria Barra // Setup 809b072555Sjeremylt const CeedScalar mod_xx_sq = xx[0][0]*xx[0][0]+xx[1][0]*xx[1][0]+xx[2][0]*xx[2][0]; 819b072555Sjeremylt CeedScalar xx_sq[3][3]; 8232d2ee49SValeria Barra for (int j=0; j<3; j++) 8332d2ee49SValeria Barra for (int k=0; k<3; k++) { 849b072555Sjeremylt xx_sq[j][k] = 0; 8532d2ee49SValeria Barra for (int l=0; l<1; l++) 869b072555Sjeremylt xx_sq[j][k] += xx[j][l]*xx[k][l] / (sqrt(mod_xx_sq) * mod_xx_sq); 8732d2ee49SValeria Barra } 8832d2ee49SValeria Barra 899b072555Sjeremylt const CeedScalar dxdxx[3][3] = {{1./sqrt(mod_xx_sq) - xx_sq[0][0], 909b072555Sjeremylt -xx_sq[0][1], 919b072555Sjeremylt -xx_sq[0][2]}, 929b072555Sjeremylt {-xx_sq[1][0], 939b072555Sjeremylt 1./sqrt(mod_xx_sq) - xx_sq[1][1], 949b072555Sjeremylt -xx_sq[1][2]}, 959b072555Sjeremylt {-xx_sq[2][0], 969b072555Sjeremylt -xx_sq[2][1], 979b072555Sjeremylt 1./sqrt(mod_xx_sq) - xx_sq[2][2]} 9832d2ee49SValeria Barra }; 9932d2ee49SValeria Barra 10032d2ee49SValeria Barra CeedScalar dxdX[3][2]; 10132d2ee49SValeria Barra for (int j=0; j<3; j++) 10232d2ee49SValeria Barra for (int k=0; k<2; k++) { 10332d2ee49SValeria Barra dxdX[j][k] = 0; 10432d2ee49SValeria Barra for (int l=0; l<3; l++) 10532d2ee49SValeria Barra dxdX[j][k] += dxdxx[j][l]*dxxdX[l][k]; 10632d2ee49SValeria Barra } 10732d2ee49SValeria Barra 10832d2ee49SValeria Barra // J is given by the cross product of the columns of dxdX 10932d2ee49SValeria Barra const CeedScalar J[3][1] = {{dxdX[1][0]*dxdX[2][1] - dxdX[2][0]*dxdX[1][1]}, 11032d2ee49SValeria Barra {dxdX[2][0]*dxdX[0][1] - dxdX[0][0]*dxdX[2][1]}, 11132d2ee49SValeria Barra {dxdX[0][0]*dxdX[1][1] - dxdX[1][0]*dxdX[0][1]} 11232d2ee49SValeria Barra }; 11332d2ee49SValeria Barra // Use the magnitude of J as our detJ (volume scaling factor) 1149b072555Sjeremylt const CeedScalar mod_J = sqrt(J[0][0]*J[0][0]+J[1][0]*J[1][0]+J[2][0]*J[2][0]); 1159b072555Sjeremylt q_data[i+Q*0] = mod_J * w[i]; 11632d2ee49SValeria Barra } // End of Quadrature Point Loop 11732d2ee49SValeria Barra return 0; 11832d2ee49SValeria Barra } 11932d2ee49SValeria Barra // ----------------------------------------------------------------------------- 120f6b55d2cSvaleriabarra 121f6b55d2cSvaleriabarra #endif // areasphere_h 122