1d7b241e6Sjeremylt // Copyright (c) 2017, Lawrence Livermore National Security, LLC. Produced at 2d7b241e6Sjeremylt // the Lawrence Livermore National Laboratory. LLNL-CODE-734707. All Rights 3d7b241e6Sjeremylt // reserved. See files LICENSE and NOTICE for details. 4d7b241e6Sjeremylt // 5d7b241e6Sjeremylt // This file is part of CEED, a collection of benchmarks, miniapps, software 6d7b241e6Sjeremylt // libraries and APIs for efficient high-order finite element and spectral 7d7b241e6Sjeremylt // element discretizations for exascale applications. For more information and 8d7b241e6Sjeremylt // source code availability see http://github.com/ceed. 9d7b241e6Sjeremylt // 10d7b241e6Sjeremylt // The CEED research is supported by the Exascale Computing Project 17-SC-20-SC, 11d7b241e6Sjeremylt // a collaborative effort of two U.S. Department of Energy organizations (Office 12d7b241e6Sjeremylt // of Science and the National Nuclear Security Administration) responsible for 13d7b241e6Sjeremylt // the planning and preparation of a capable exascale ecosystem, including 14d7b241e6Sjeremylt // software, applications, hardware, advanced system engineering and early 15d7b241e6Sjeremylt // testbed platforms, in support of the nation's exascale computing imperative. 16d7b241e6Sjeremylt 17d7b241e6Sjeremylt #include <ceed-impl.h> 18d863ab9bSjeremylt #include <ceed-backend.h> 19d7b241e6Sjeremylt #include <math.h> 20d7b241e6Sjeremylt #include <stdio.h> 21d7b241e6Sjeremylt #include <stdlib.h> 22d7b241e6Sjeremylt #include <string.h> 23d7b241e6Sjeremylt 24d7b241e6Sjeremylt /// @cond DOXYGEN_SKIP 25783c99b3SValeria Barra static struct CeedBasis_private ceed_basis_collocated; 26d7b241e6Sjeremylt /// @endcond 27d7b241e6Sjeremylt 28d7b241e6Sjeremylt /// @file 29d7b241e6Sjeremylt /// Implementation of public CeedBasis interfaces 30d7b241e6Sjeremylt /// 31dfdf5a53Sjeremylt /// @addtogroup CeedBasis 32d7b241e6Sjeremylt /// @{ 33d7b241e6Sjeremylt 34b11c1e72Sjeremylt /** 35*95bb1877Svaleriabarra @brief Create a tensor-product basis for H^1 discretizations 36b11c1e72Sjeremylt 37b11c1e72Sjeremylt @param ceed A Ceed object where the CeedBasis will be created 38b11c1e72Sjeremylt @param dim Topological dimension 39b11c1e72Sjeremylt @param ncomp Number of field components (1 for scalar fields) 40b11c1e72Sjeremylt @param P1d Number of nodes in one dimension 41b11c1e72Sjeremylt @param Q1d Number of quadrature points in one dimension 42*95bb1877Svaleriabarra @param interp1d Row-major (Q1d * P1d) matrix expressing the values of nodal 43b11c1e72Sjeremylt basis functions at quadrature points 44*95bb1877Svaleriabarra @param grad1d Row-major (Q1d * P1d) matrix expressing derivatives of nodal 45b11c1e72Sjeremylt basis functions at quadrature points 46b11c1e72Sjeremylt @param qref1d Array of length Q1d holding the locations of quadrature points 47b11c1e72Sjeremylt on the 1D reference element [-1, 1] 48b11c1e72Sjeremylt @param qweight1d Array of length Q1d holding the quadrature weights on the 49b11c1e72Sjeremylt reference element 50b11c1e72Sjeremylt @param[out] basis Address of the variable where the newly created 51b11c1e72Sjeremylt CeedBasis will be stored. 52b11c1e72Sjeremylt 53b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 54dfdf5a53Sjeremylt 55dfdf5a53Sjeremylt @ref Basic 56b11c1e72Sjeremylt **/ 57d7b241e6Sjeremylt int CeedBasisCreateTensorH1(Ceed ceed, CeedInt dim, CeedInt ncomp, CeedInt P1d, 58d7b241e6Sjeremylt CeedInt Q1d, const CeedScalar *interp1d, 59d7b241e6Sjeremylt const CeedScalar *grad1d, const CeedScalar *qref1d, 60d7b241e6Sjeremylt const CeedScalar *qweight1d, CeedBasis *basis) { 61d7b241e6Sjeremylt int ierr; 62d7b241e6Sjeremylt 634d537eeaSYohann if (dim<1) 64c042f62fSJeremy L Thompson // LCOV_EXCL_START 654d537eeaSYohann return CeedError(ceed, 1, "Basis dimension must be a positive value"); 66c042f62fSJeremy L Thompson // LCOV_EXCL_STOP 674d537eeaSYohann 685fe0d4faSjeremylt if (!ceed->BasisCreateTensorH1) { 695fe0d4faSjeremylt Ceed delegate; 70aefd8378Sjeremylt ierr = CeedGetObjectDelegate(ceed, &delegate, "Basis"); CeedChk(ierr); 715fe0d4faSjeremylt 725fe0d4faSjeremylt if (!delegate) 73c042f62fSJeremy L Thompson // LCOV_EXCL_START 74d7b241e6Sjeremylt return CeedError(ceed, 1, "Backend does not support BasisCreateTensorH1"); 75c042f62fSJeremy L Thompson // LCOV_EXCL_STOP 765fe0d4faSjeremylt 775fe0d4faSjeremylt ierr = CeedBasisCreateTensorH1(delegate, dim, ncomp, P1d, 785fe0d4faSjeremylt Q1d, interp1d, grad1d, qref1d, 795fe0d4faSjeremylt qweight1d, basis); CeedChk(ierr); 805fe0d4faSjeremylt return 0; 815fe0d4faSjeremylt } 82d7b241e6Sjeremylt ierr = CeedCalloc(1,basis); CeedChk(ierr); 83d7b241e6Sjeremylt (*basis)->ceed = ceed; 84d7b241e6Sjeremylt ceed->refcount++; 85d7b241e6Sjeremylt (*basis)->refcount = 1; 86a8de75f0Sjeremylt (*basis)->tensorbasis = 1; 87d7b241e6Sjeremylt (*basis)->dim = dim; 88d7b241e6Sjeremylt (*basis)->ncomp = ncomp; 89d7b241e6Sjeremylt (*basis)->P1d = P1d; 90d7b241e6Sjeremylt (*basis)->Q1d = Q1d; 91a8de75f0Sjeremylt (*basis)->P = CeedIntPow(P1d, dim); 92a8de75f0Sjeremylt (*basis)->Q = CeedIntPow(Q1d, dim); 93d7b241e6Sjeremylt ierr = CeedMalloc(Q1d,&(*basis)->qref1d); CeedChk(ierr); 94d7b241e6Sjeremylt ierr = CeedMalloc(Q1d,&(*basis)->qweight1d); CeedChk(ierr); 95d7b241e6Sjeremylt memcpy((*basis)->qref1d, qref1d, Q1d*sizeof(qref1d[0])); 96d7b241e6Sjeremylt memcpy((*basis)->qweight1d, qweight1d, Q1d*sizeof(qweight1d[0])); 97d7b241e6Sjeremylt ierr = CeedMalloc(Q1d*P1d,&(*basis)->interp1d); CeedChk(ierr); 98d7b241e6Sjeremylt ierr = CeedMalloc(Q1d*P1d,&(*basis)->grad1d); CeedChk(ierr); 99d7b241e6Sjeremylt memcpy((*basis)->interp1d, interp1d, Q1d*P1d*sizeof(interp1d[0])); 10009486605Sjeremylt memcpy((*basis)->grad1d, grad1d, Q1d*P1d*sizeof(grad1d[0])); 101667bc5fcSjeremylt ierr = ceed->BasisCreateTensorH1(dim, P1d, Q1d, interp1d, grad1d, qref1d, 102d7b241e6Sjeremylt qweight1d, *basis); CeedChk(ierr); 103d7b241e6Sjeremylt return 0; 104d7b241e6Sjeremylt } 105d7b241e6Sjeremylt 106b11c1e72Sjeremylt /** 107*95bb1877Svaleriabarra @brief Create a tensor-product Lagrange basis 108b11c1e72Sjeremylt 109b11c1e72Sjeremylt @param ceed A Ceed object where the CeedBasis will be created 110b11c1e72Sjeremylt @param dim Topological dimension of element 111*95bb1877Svaleriabarra @param ncomp Number of field components (1 for scalar fields) 112b11c1e72Sjeremylt @param P Number of Gauss-Lobatto nodes in one dimension. The 113b11c1e72Sjeremylt polynomial degree of the resulting Q_k element is k=P-1. 114b11c1e72Sjeremylt @param Q Number of quadrature points in one dimension. 115b11c1e72Sjeremylt @param qmode Distribution of the Q quadrature points (affects order of 116b11c1e72Sjeremylt accuracy for the quadrature) 117b11c1e72Sjeremylt @param[out] basis Address of the variable where the newly created 118b11c1e72Sjeremylt CeedBasis will be stored. 119b11c1e72Sjeremylt 120b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 121dfdf5a53Sjeremylt 122dfdf5a53Sjeremylt @ref Basic 123b11c1e72Sjeremylt **/ 124d7b241e6Sjeremylt int CeedBasisCreateTensorH1Lagrange(Ceed ceed, CeedInt dim, CeedInt ncomp, 125692c2638Sjeremylt CeedInt P, CeedInt Q, CeedQuadMode qmode, 126692c2638Sjeremylt CeedBasis *basis) { 127d7b241e6Sjeremylt // Allocate 128d7b241e6Sjeremylt int ierr, i, j, k; 129d7b241e6Sjeremylt CeedScalar c1, c2, c3, c4, dx, *nodes, *interp1d, *grad1d, *qref1d, *qweight1d; 1304d537eeaSYohann 1314d537eeaSYohann if (dim<1) 132c042f62fSJeremy L Thompson // LCOV_EXCL_START 1334d537eeaSYohann return CeedError(ceed, 1, "Basis dimension must be a positive value"); 134c042f62fSJeremy L Thompson // LCOV_EXCL_STOP 1354d537eeaSYohann 136d7b241e6Sjeremylt ierr = CeedCalloc(P*Q, &interp1d); CeedChk(ierr); 137d7b241e6Sjeremylt ierr = CeedCalloc(P*Q, &grad1d); CeedChk(ierr); 138d7b241e6Sjeremylt ierr = CeedCalloc(P, &nodes); CeedChk(ierr); 139d7b241e6Sjeremylt ierr = CeedCalloc(Q, &qref1d); CeedChk(ierr); 140d7b241e6Sjeremylt ierr = CeedCalloc(Q, &qweight1d); CeedChk(ierr); 141d7b241e6Sjeremylt // Get Nodes and Weights 142d7b241e6Sjeremylt ierr = CeedLobattoQuadrature(P, nodes, NULL); CeedChk(ierr); 143d7b241e6Sjeremylt switch (qmode) { 144d7b241e6Sjeremylt case CEED_GAUSS: 145d7b241e6Sjeremylt ierr = CeedGaussQuadrature(Q, qref1d, qweight1d); CeedChk(ierr); 146d7b241e6Sjeremylt break; 147d7b241e6Sjeremylt case CEED_GAUSS_LOBATTO: 148d7b241e6Sjeremylt ierr = CeedLobattoQuadrature(Q, qref1d, qweight1d); CeedChk(ierr); 149d7b241e6Sjeremylt break; 150d7b241e6Sjeremylt } 151d7b241e6Sjeremylt // Build B, D matrix 152d7b241e6Sjeremylt // Fornberg, 1998 153d7b241e6Sjeremylt for (i = 0; i < Q; i++) { 154d7b241e6Sjeremylt c1 = 1.0; 155d7b241e6Sjeremylt c3 = nodes[0] - qref1d[i]; 156d7b241e6Sjeremylt interp1d[i*P+0] = 1.0; 157d7b241e6Sjeremylt for (j = 1; j < P; j++) { 158d7b241e6Sjeremylt c2 = 1.0; 159d7b241e6Sjeremylt c4 = c3; 160d7b241e6Sjeremylt c3 = nodes[j] - qref1d[i]; 161d7b241e6Sjeremylt for (k = 0; k < j; k++) { 162d7b241e6Sjeremylt dx = nodes[j] - nodes[k]; 163d7b241e6Sjeremylt c2 *= dx; 164d7b241e6Sjeremylt if (k == j - 1) { 165d7b241e6Sjeremylt grad1d[i*P + j] = c1*(interp1d[i*P + k] - c4*grad1d[i*P + k]) / c2; 166d7b241e6Sjeremylt interp1d[i*P + j] = - c1*c4*interp1d[i*P + k] / c2; 167d7b241e6Sjeremylt } 168d7b241e6Sjeremylt grad1d[i*P + k] = (c3*grad1d[i*P + k] - interp1d[i*P + k]) / dx; 169d7b241e6Sjeremylt interp1d[i*P + k] = c3*interp1d[i*P + k] / dx; 170d7b241e6Sjeremylt } 171d7b241e6Sjeremylt c1 = c2; 172d7b241e6Sjeremylt } 173d7b241e6Sjeremylt } 174d7b241e6Sjeremylt // // Pass to CeedBasisCreateTensorH1 175d7b241e6Sjeremylt ierr = CeedBasisCreateTensorH1(ceed, dim, ncomp, P, Q, interp1d, grad1d, qref1d, 176d7b241e6Sjeremylt qweight1d, basis); CeedChk(ierr); 177d7b241e6Sjeremylt ierr = CeedFree(&interp1d); CeedChk(ierr); 178d7b241e6Sjeremylt ierr = CeedFree(&grad1d); CeedChk(ierr); 179d7b241e6Sjeremylt ierr = CeedFree(&nodes); CeedChk(ierr); 180d7b241e6Sjeremylt ierr = CeedFree(&qref1d); CeedChk(ierr); 181d7b241e6Sjeremylt ierr = CeedFree(&qweight1d); CeedChk(ierr); 182d7b241e6Sjeremylt return 0; 183d7b241e6Sjeremylt } 184d7b241e6Sjeremylt 185b11c1e72Sjeremylt /** 186*95bb1877Svaleriabarra @brief Create a non tensor-product basis for H^1 discretizations 187a8de75f0Sjeremylt 188a8de75f0Sjeremylt @param ceed A Ceed object where the CeedBasis will be created 189a8de75f0Sjeremylt @param topo Topology of element, e.g. hypercube, simplex, ect 190a8de75f0Sjeremylt @param ncomp Number of field components (1 for scalar fields) 1918795c945Sjeremylt @param nnodes Total number of nodes 192a8de75f0Sjeremylt @param nqpts Total number of quadrature points 193*95bb1877Svaleriabarra @param interp Row-major (nqpts * nnodes) matrix expressing the values of 1948795c945Sjeremylt nodal basis functions at quadrature points 195*95bb1877Svaleriabarra @param grad Row-major (nqpts * dim * nnodes) matrix expressing 1968795c945Sjeremylt derivatives of nodal basis functions at quadrature points 1978795c945Sjeremylt @param qref Array of length nqpts holding the locations of quadrature 1988795c945Sjeremylt points on the reference element [-1, 1] 199a8de75f0Sjeremylt @param qweight Array of length nqpts holding the quadrature weights on the 200a8de75f0Sjeremylt reference element 201a8de75f0Sjeremylt @param[out] basis Address of the variable where the newly created 202a8de75f0Sjeremylt CeedBasis will be stored. 203a8de75f0Sjeremylt 204a8de75f0Sjeremylt @return An error code: 0 - success, otherwise - failure 205a8de75f0Sjeremylt 206a8de75f0Sjeremylt @ref Basic 207a8de75f0Sjeremylt **/ 208a8de75f0Sjeremylt int CeedBasisCreateH1(Ceed ceed, CeedElemTopology topo, CeedInt ncomp, 209692c2638Sjeremylt CeedInt nnodes, CeedInt nqpts, const CeedScalar *interp, 210a8de75f0Sjeremylt const CeedScalar *grad, const CeedScalar *qref, 211a8de75f0Sjeremylt const CeedScalar *qweight, CeedBasis *basis) { 212a8de75f0Sjeremylt int ierr; 2138795c945Sjeremylt CeedInt P = nnodes, Q = nqpts, dim = 0; 214a8de75f0Sjeremylt 2155fe0d4faSjeremylt if (!ceed->BasisCreateH1) { 2165fe0d4faSjeremylt Ceed delegate; 217aefd8378Sjeremylt ierr = CeedGetObjectDelegate(ceed, &delegate, "Basis"); CeedChk(ierr); 2185fe0d4faSjeremylt 2195fe0d4faSjeremylt if (!delegate) 220c042f62fSJeremy L Thompson // LCOV_EXCL_START 221a8de75f0Sjeremylt return CeedError(ceed, 1, "Backend does not support BasisCreateH1"); 222c042f62fSJeremy L Thompson // LCOV_EXCL_STOP 2235fe0d4faSjeremylt 2248795c945Sjeremylt ierr = CeedBasisCreateH1(delegate, topo, ncomp, nnodes, 2255fe0d4faSjeremylt nqpts, interp, grad, qref, 2265fe0d4faSjeremylt qweight, basis); CeedChk(ierr); 2275fe0d4faSjeremylt return 0; 2285fe0d4faSjeremylt } 2295fe0d4faSjeremylt 230a8de75f0Sjeremylt ierr = CeedCalloc(1,basis); CeedChk(ierr); 231a8de75f0Sjeremylt 232a8de75f0Sjeremylt ierr = CeedBasisGetTopologyDimension(topo, &dim); CeedChk(ierr); 233a8de75f0Sjeremylt 234a8de75f0Sjeremylt (*basis)->ceed = ceed; 235a8de75f0Sjeremylt ceed->refcount++; 236a8de75f0Sjeremylt (*basis)->refcount = 1; 237a8de75f0Sjeremylt (*basis)->tensorbasis = 0; 238a8de75f0Sjeremylt (*basis)->dim = dim; 239a8de75f0Sjeremylt (*basis)->ncomp = ncomp; 240a8de75f0Sjeremylt (*basis)->P = P; 241a8de75f0Sjeremylt (*basis)->Q = Q; 242a8de75f0Sjeremylt ierr = CeedMalloc(Q*dim,&(*basis)->qref1d); CeedChk(ierr); 243a8de75f0Sjeremylt ierr = CeedMalloc(Q,&(*basis)->qweight1d); CeedChk(ierr); 244a8de75f0Sjeremylt memcpy((*basis)->qref1d, qref, Q*dim*sizeof(qref[0])); 245a8de75f0Sjeremylt memcpy((*basis)->qweight1d, qweight, Q*sizeof(qweight[0])); 246a8de75f0Sjeremylt ierr = CeedMalloc(Q*P,&(*basis)->interp1d); CeedChk(ierr); 247a8de75f0Sjeremylt ierr = CeedMalloc(dim*Q*P,&(*basis)->grad1d); CeedChk(ierr); 248a8de75f0Sjeremylt memcpy((*basis)->interp1d, interp, Q*P*sizeof(interp[0])); 249a8de75f0Sjeremylt memcpy((*basis)->grad1d, grad, dim*Q*P*sizeof(grad[0])); 250667bc5fcSjeremylt ierr = ceed->BasisCreateH1(topo, dim, P, Q, interp, grad, qref, 251a8de75f0Sjeremylt qweight, *basis); CeedChk(ierr); 252a8de75f0Sjeremylt return 0; 253a8de75f0Sjeremylt } 254a8de75f0Sjeremylt 255a8de75f0Sjeremylt /** 256b11c1e72Sjeremylt @brief Construct a Gauss-Legendre quadrature 257b11c1e72Sjeremylt 258b11c1e72Sjeremylt @param Q Number of quadrature points (integrates polynomials of 259b11c1e72Sjeremylt degree 2*Q-1 exactly) 260b11c1e72Sjeremylt @param[out] qref1d Array of length Q to hold the abscissa on [-1, 1] 261b11c1e72Sjeremylt @param[out] qweight1d Array of length Q to hold the weights 262b11c1e72Sjeremylt 263b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 264dfdf5a53Sjeremylt 265dfdf5a53Sjeremylt @ref Utility 266b11c1e72Sjeremylt **/ 267d7b241e6Sjeremylt int CeedGaussQuadrature(CeedInt Q, CeedScalar *qref1d, CeedScalar *qweight1d) { 268d7b241e6Sjeremylt // Allocate 269d7b241e6Sjeremylt CeedScalar P0, P1, P2, dP2, xi, wi, PI = 4.0*atan(1.0); 270d7b241e6Sjeremylt // Build qref1d, qweight1d 271d7b241e6Sjeremylt for (int i = 0; i <= Q/2; i++) { 272d7b241e6Sjeremylt // Guess 273d7b241e6Sjeremylt xi = cos(PI*(CeedScalar)(2*i+1)/((CeedScalar)(2*Q))); 274d7b241e6Sjeremylt // Pn(xi) 275d7b241e6Sjeremylt P0 = 1.0; 276d7b241e6Sjeremylt P1 = xi; 277d7b241e6Sjeremylt P2 = 0.0; 278d7b241e6Sjeremylt for (int j = 2; j <= Q; j++) { 279d7b241e6Sjeremylt P2 = (((CeedScalar)(2*j-1))*xi*P1-((CeedScalar)(j-1))*P0)/((CeedScalar)(j)); 280d7b241e6Sjeremylt P0 = P1; 281d7b241e6Sjeremylt P1 = P2; 282d7b241e6Sjeremylt } 283d7b241e6Sjeremylt // First Newton Step 284d7b241e6Sjeremylt dP2 = (xi*P2 - P0)*(CeedScalar)Q/(xi*xi-1.0); 285d7b241e6Sjeremylt xi = xi-P2/dP2; 286d7b241e6Sjeremylt // Newton to convergence 2870e4d4210Sjeremylt for (int k=0; k<100 && fabs(P2)>10*CEED_EPSILON; k++) { 288d7b241e6Sjeremylt P0 = 1.0; 289d7b241e6Sjeremylt P1 = xi; 290d7b241e6Sjeremylt for (int j = 2; j <= Q; j++) { 291d7b241e6Sjeremylt P2 = (((CeedScalar)(2*j-1))*xi*P1-((CeedScalar)(j-1))*P0)/((CeedScalar)(j)); 292d7b241e6Sjeremylt P0 = P1; 293d7b241e6Sjeremylt P1 = P2; 294d7b241e6Sjeremylt } 295d7b241e6Sjeremylt dP2 = (xi*P2 - P0)*(CeedScalar)Q/(xi*xi-1.0); 296d7b241e6Sjeremylt xi = xi-P2/dP2; 297d7b241e6Sjeremylt } 298d7b241e6Sjeremylt // Save xi, wi 299d7b241e6Sjeremylt wi = 2.0/((1.0-xi*xi)*dP2*dP2); 300d7b241e6Sjeremylt qweight1d[i] = wi; 301d7b241e6Sjeremylt qweight1d[Q-1-i] = wi; 302d7b241e6Sjeremylt qref1d[i] = -xi; 303d7b241e6Sjeremylt qref1d[Q-1-i]= xi; 304d7b241e6Sjeremylt } 305d7b241e6Sjeremylt return 0; 306d7b241e6Sjeremylt } 307d7b241e6Sjeremylt 308b11c1e72Sjeremylt /** 309b11c1e72Sjeremylt @brief Construct a Gauss-Legendre-Lobatto quadrature 310b11c1e72Sjeremylt 311b11c1e72Sjeremylt @param Q Number of quadrature points (integrates polynomials of 312b11c1e72Sjeremylt degree 2*Q-3 exactly) 313b11c1e72Sjeremylt @param[out] qref1d Array of length Q to hold the abscissa on [-1, 1] 314b11c1e72Sjeremylt @param[out] qweight1d Array of length Q to hold the weights 315b11c1e72Sjeremylt 316b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 317dfdf5a53Sjeremylt 318dfdf5a53Sjeremylt @ref Utility 319b11c1e72Sjeremylt **/ 320d7b241e6Sjeremylt int CeedLobattoQuadrature(CeedInt Q, CeedScalar *qref1d, 321d7b241e6Sjeremylt CeedScalar *qweight1d) { 322d7b241e6Sjeremylt // Allocate 323d7b241e6Sjeremylt CeedScalar P0, P1, P2, dP2, d2P2, xi, wi, PI = 4.0*atan(1.0); 324d7b241e6Sjeremylt // Build qref1d, qweight1d 325d7b241e6Sjeremylt // Set endpoints 326d7b241e6Sjeremylt wi = 2.0/((CeedScalar)(Q*(Q-1))); 327d7b241e6Sjeremylt if (qweight1d) { 328d7b241e6Sjeremylt qweight1d[0] = wi; 329d7b241e6Sjeremylt qweight1d[Q-1] = wi; 330d7b241e6Sjeremylt } 331d7b241e6Sjeremylt qref1d[0] = -1.0; 332d7b241e6Sjeremylt qref1d[Q-1] = 1.0; 333d7b241e6Sjeremylt // Interior 334d7b241e6Sjeremylt for (int i = 1; i <= (Q-1)/2; i++) { 335d7b241e6Sjeremylt // Guess 336d7b241e6Sjeremylt xi = cos(PI*(CeedScalar)(i)/(CeedScalar)(Q-1)); 337d7b241e6Sjeremylt // Pn(xi) 338d7b241e6Sjeremylt P0 = 1.0; 339d7b241e6Sjeremylt P1 = xi; 340d7b241e6Sjeremylt P2 = 0.0; 341d7b241e6Sjeremylt for (int j = 2; j < Q; j++) { 342d7b241e6Sjeremylt P2 = (((CeedScalar)(2*j-1))*xi*P1-((CeedScalar)(j-1))*P0)/((CeedScalar)(j)); 343d7b241e6Sjeremylt P0 = P1; 344d7b241e6Sjeremylt P1 = P2; 345d7b241e6Sjeremylt } 346d7b241e6Sjeremylt // First Newton step 347d7b241e6Sjeremylt dP2 = (xi*P2 - P0)*(CeedScalar)Q/(xi*xi-1.0); 348d7b241e6Sjeremylt d2P2 = (2*xi*dP2 - (CeedScalar)(Q*(Q-1))*P2)/(1.0-xi*xi); 349d7b241e6Sjeremylt xi = xi-dP2/d2P2; 350d7b241e6Sjeremylt // Newton to convergence 3510e4d4210Sjeremylt for (int k=0; k<100 && fabs(dP2)>10*CEED_EPSILON; k++) { 352d7b241e6Sjeremylt P0 = 1.0; 353d7b241e6Sjeremylt P1 = xi; 354d7b241e6Sjeremylt for (int j = 2; j < Q; j++) { 355d7b241e6Sjeremylt P2 = (((CeedScalar)(2*j-1))*xi*P1-((CeedScalar)(j-1))*P0)/((CeedScalar)(j)); 356d7b241e6Sjeremylt P0 = P1; 357d7b241e6Sjeremylt P1 = P2; 358d7b241e6Sjeremylt } 359d7b241e6Sjeremylt dP2 = (xi*P2 - P0)*(CeedScalar)Q/(xi*xi-1.0); 360d7b241e6Sjeremylt d2P2 = (2*xi*dP2 - (CeedScalar)(Q*(Q-1))*P2)/(1.0-xi*xi); 361d7b241e6Sjeremylt xi = xi-dP2/d2P2; 362d7b241e6Sjeremylt } 363d7b241e6Sjeremylt // Save xi, wi 364d7b241e6Sjeremylt wi = 2.0/(((CeedScalar)(Q*(Q-1)))*P2*P2); 365d7b241e6Sjeremylt if (qweight1d) { 366d7b241e6Sjeremylt qweight1d[i] = wi; 367d7b241e6Sjeremylt qweight1d[Q-1-i] = wi; 368d7b241e6Sjeremylt } 369d7b241e6Sjeremylt qref1d[i] = -xi; 370d7b241e6Sjeremylt qref1d[Q-1-i]= xi; 371d7b241e6Sjeremylt } 372d7b241e6Sjeremylt return 0; 373d7b241e6Sjeremylt } 374d7b241e6Sjeremylt 375dfdf5a53Sjeremylt /** 376dfdf5a53Sjeremylt @brief View an array stored in a CeedBasis 377dfdf5a53Sjeremylt 378dfdf5a53Sjeremylt @param name Name of array 379dfdf5a53Sjeremylt @param fpformat Printing format 380dfdf5a53Sjeremylt @param m Number of rows in array 381dfdf5a53Sjeremylt @param n Number of columns in array 382dfdf5a53Sjeremylt @param a Array to be viewed 383dfdf5a53Sjeremylt @param stream Stream to view to, e.g., stdout 384dfdf5a53Sjeremylt 385dfdf5a53Sjeremylt @return An error code: 0 - success, otherwise - failure 386dfdf5a53Sjeremylt 387dfdf5a53Sjeremylt @ref Utility 388dfdf5a53Sjeremylt **/ 389d7b241e6Sjeremylt static int CeedScalarView(const char *name, const char *fpformat, CeedInt m, 390d7b241e6Sjeremylt CeedInt n, const CeedScalar *a, FILE *stream) { 391d7b241e6Sjeremylt for (int i=0; i<m; i++) { 3921d102b48SJeremy L Thompson if (m > 1) 3931d102b48SJeremy L Thompson fprintf(stream, "%12s[%d]:", name, i); 3941d102b48SJeremy L Thompson else 3951d102b48SJeremy L Thompson fprintf(stream, "%12s:", name); 3961d102b48SJeremy L Thompson for (int j=0; j<n; j++) 397d7b241e6Sjeremylt fprintf(stream, fpformat, fabs(a[i*n+j]) > 1E-14 ? a[i*n+j] : 0); 398d7b241e6Sjeremylt fputs("\n", stream); 399d7b241e6Sjeremylt } 400d7b241e6Sjeremylt return 0; 401d7b241e6Sjeremylt } 402d7b241e6Sjeremylt 403b11c1e72Sjeremylt /** 404b11c1e72Sjeremylt @brief View a CeedBasis 405b11c1e72Sjeremylt 406b11c1e72Sjeremylt @param basis CeedBasis to view 407b11c1e72Sjeremylt @param stream Stream to view to, e.g., stdout 408b11c1e72Sjeremylt 409b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 410dfdf5a53Sjeremylt 411dfdf5a53Sjeremylt @ref Utility 412b11c1e72Sjeremylt **/ 413d7b241e6Sjeremylt int CeedBasisView(CeedBasis basis, FILE *stream) { 414d7b241e6Sjeremylt int ierr; 415d7b241e6Sjeremylt 416a8de75f0Sjeremylt if (basis->tensorbasis) { 417d7b241e6Sjeremylt fprintf(stream, "CeedBasis: dim=%d P=%d Q=%d\n", basis->dim, basis->P1d, 418d7b241e6Sjeremylt basis->Q1d); 419d7b241e6Sjeremylt ierr = CeedScalarView("qref1d", "\t% 12.8f", 1, basis->Q1d, basis->qref1d, 420d7b241e6Sjeremylt stream); CeedChk(ierr); 4218795c945Sjeremylt ierr = CeedScalarView("qweight1d", "\t% 12.8f", 1, basis->Q1d, 4228795c945Sjeremylt basis->qweight1d, stream); CeedChk(ierr); 423d7b241e6Sjeremylt ierr = CeedScalarView("interp1d", "\t% 12.8f", basis->Q1d, basis->P1d, 424d7b241e6Sjeremylt basis->interp1d, stream); CeedChk(ierr); 425d7b241e6Sjeremylt ierr = CeedScalarView("grad1d", "\t% 12.8f", basis->Q1d, basis->P1d, 426d7b241e6Sjeremylt basis->grad1d, stream); CeedChk(ierr); 427a8de75f0Sjeremylt } else { 428a8de75f0Sjeremylt fprintf(stream, "CeedBasis: dim=%d P=%d Q=%d\n", basis->dim, basis->P, 429a8de75f0Sjeremylt basis->Q); 430a8de75f0Sjeremylt ierr = CeedScalarView("qref", "\t% 12.8f", 1, basis->Q*basis->dim, 431a8de75f0Sjeremylt basis->qref1d, 432a8de75f0Sjeremylt stream); CeedChk(ierr); 433a8de75f0Sjeremylt ierr = CeedScalarView("qweight", "\t% 12.8f", 1, basis->Q, basis->qweight1d, 434a8de75f0Sjeremylt stream); CeedChk(ierr); 435a8de75f0Sjeremylt ierr = CeedScalarView("interp", "\t% 12.8f", basis->Q, basis->P, 436a8de75f0Sjeremylt basis->interp1d, stream); CeedChk(ierr); 437a8de75f0Sjeremylt ierr = CeedScalarView("grad", "\t% 12.8f", basis->dim*basis->Q, basis->P, 438a8de75f0Sjeremylt basis->grad1d, stream); CeedChk(ierr); 439a8de75f0Sjeremylt } 440d7b241e6Sjeremylt return 0; 441d7b241e6Sjeremylt } 442d7b241e6Sjeremylt 443dfdf5a53Sjeremylt /** 44452bfb9bbSJeremy L Thompson @brief Compute Householder reflection 445dfdf5a53Sjeremylt 446dfdf5a53Sjeremylt Computes A = (I - b v v^T) A 447dfdf5a53Sjeremylt where A is an mxn matrix indexed as A[i*row + j*col] 448dfdf5a53Sjeremylt 44952bfb9bbSJeremy L Thompson @param[in,out] A Matrix to apply Householder reflection to, in place 450dfdf5a53Sjeremylt @param v Householder vector 451dfdf5a53Sjeremylt @param b Scaling factor 452dfdf5a53Sjeremylt @param m Number of rows in A 453dfdf5a53Sjeremylt @param n Number of columns in A 45452bfb9bbSJeremy L Thompson @param row Row stride 45552bfb9bbSJeremy L Thompson @param col Col stride 456dfdf5a53Sjeremylt 457dfdf5a53Sjeremylt @return An error code: 0 - success, otherwise - failure 458dfdf5a53Sjeremylt 459dfdf5a53Sjeremylt @ref Developer 460dfdf5a53Sjeremylt **/ 461d7b241e6Sjeremylt static int CeedHouseholderReflect(CeedScalar *A, const CeedScalar *v, 462d7b241e6Sjeremylt CeedScalar b, CeedInt m, CeedInt n, 463d7b241e6Sjeremylt CeedInt row, CeedInt col) { 464d7b241e6Sjeremylt for (CeedInt j=0; j<n; j++) { 465d7b241e6Sjeremylt CeedScalar w = A[0*row + j*col]; 4661d102b48SJeremy L Thompson for (CeedInt i=1; i<m; i++) 4671d102b48SJeremy L Thompson w += v[i] * A[i*row + j*col]; 468d7b241e6Sjeremylt A[0*row + j*col] -= b * w; 4691d102b48SJeremy L Thompson for (CeedInt i=1; i<m; i++) 4701d102b48SJeremy L Thompson A[i*row + j*col] -= b * w * v[i]; 471d7b241e6Sjeremylt } 472d7b241e6Sjeremylt return 0; 473d7b241e6Sjeremylt } 474d7b241e6Sjeremylt 475dfdf5a53Sjeremylt /** 476dfdf5a53Sjeremylt @brief Apply Householder Q matrix 477dfdf5a53Sjeremylt 47852bfb9bbSJeremy L Thompson Compute A = Q A where Q is mxm and A is mxn. 479dfdf5a53Sjeremylt 48052bfb9bbSJeremy L Thompson @param[in,out] A Matrix to apply Householder Q to, in place 481dfdf5a53Sjeremylt @param Q Householder Q matrix 482dfdf5a53Sjeremylt @param tau Householder scaling factors 483dfdf5a53Sjeremylt @param tmode Transpose mode for application 484dfdf5a53Sjeremylt @param m Number of rows in A 485dfdf5a53Sjeremylt @param n Number of columns in A 48652bfb9bbSJeremy L Thompson @param k Number of elementary reflectors in Q, k<m 48752bfb9bbSJeremy L Thompson @param row Row stride in A 48852bfb9bbSJeremy L Thompson @param col Col stride in A 489dfdf5a53Sjeremylt 490dfdf5a53Sjeremylt @return An error code: 0 - success, otherwise - failure 491dfdf5a53Sjeremylt 492dfdf5a53Sjeremylt @ref Developer 493dfdf5a53Sjeremylt **/ 494d7b241e6Sjeremylt static int CeedHouseholderApplyQ(CeedScalar *A, const CeedScalar *Q, 495d7b241e6Sjeremylt const CeedScalar *tau, CeedTransposeMode tmode, 496d7b241e6Sjeremylt CeedInt m, CeedInt n, CeedInt k, 497d7b241e6Sjeremylt CeedInt row, CeedInt col) { 498d7b241e6Sjeremylt CeedScalar v[m]; 499d7b241e6Sjeremylt for (CeedInt ii=0; ii<k; ii++) { 500d7b241e6Sjeremylt CeedInt i = tmode == CEED_TRANSPOSE ? ii : k-1-ii; 50152bfb9bbSJeremy L Thompson for (CeedInt j=i+1; j<m; j++) 502d7b241e6Sjeremylt v[j] = Q[j*k+i]; 503dc7d240cSValeria Barra // Apply Householder reflector (I - tau v v^T) collograd1d^T 504d7b241e6Sjeremylt CeedHouseholderReflect(&A[i*row], &v[i], tau[i], m-i, n, row, col); 505d7b241e6Sjeremylt } 506d7b241e6Sjeremylt return 0; 507d7b241e6Sjeremylt } 508d7b241e6Sjeremylt 509b11c1e72Sjeremylt /** 51052bfb9bbSJeremy L Thompson @brief Compute Givens rotation 51152bfb9bbSJeremy L Thompson 51252bfb9bbSJeremy L Thompson Computes A = G A (or G^T A in transpose mode) 51352bfb9bbSJeremy L Thompson where A is an mxn matrix indexed as A[i*n + j*m] 51452bfb9bbSJeremy L Thompson 51552bfb9bbSJeremy L Thompson @param[in,out] A Row major matrix to apply Givens rotation to, in place 51652bfb9bbSJeremy L Thompson @param c Cosine factor 51752bfb9bbSJeremy L Thompson @param s Sine factor 51852bfb9bbSJeremy L Thompson @param i First row/column to apply rotation 51952bfb9bbSJeremy L Thompson @param k Second row/column to apply rotation 52052bfb9bbSJeremy L Thompson @param m Number of rows in A 52152bfb9bbSJeremy L Thompson @param n Number of columns in A 52252bfb9bbSJeremy L Thompson 52352bfb9bbSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 52452bfb9bbSJeremy L Thompson 52552bfb9bbSJeremy L Thompson @ref Developer 52652bfb9bbSJeremy L Thompson **/ 52752bfb9bbSJeremy L Thompson static int CeedGivensRotation(CeedScalar *A, CeedScalar c, CeedScalar s, 52852bfb9bbSJeremy L Thompson CeedTransposeMode tmode, CeedInt i, CeedInt k, 52952bfb9bbSJeremy L Thompson CeedInt m, CeedInt n) { 53052bfb9bbSJeremy L Thompson CeedInt stridej = 1, strideik = m, numits = n; 53152bfb9bbSJeremy L Thompson if (tmode == CEED_NOTRANSPOSE) { 53252bfb9bbSJeremy L Thompson stridej = n; strideik = 1; numits = m; 53352bfb9bbSJeremy L Thompson } 53452bfb9bbSJeremy L Thompson 53552bfb9bbSJeremy L Thompson // Apply rotation 53652bfb9bbSJeremy L Thompson for (CeedInt j=0; j<numits; j++) { 53752bfb9bbSJeremy L Thompson CeedScalar tau1 = A[i*strideik+j*stridej], tau2 = A[k*strideik+j*stridej]; 53852bfb9bbSJeremy L Thompson A[i*strideik+j*stridej] = c*tau1 - s*tau2; 53952bfb9bbSJeremy L Thompson A[k*strideik+j*stridej] = s*tau1 + c*tau2; 54052bfb9bbSJeremy L Thompson } 54152bfb9bbSJeremy L Thompson 54252bfb9bbSJeremy L Thompson return 0; 54352bfb9bbSJeremy L Thompson } 54452bfb9bbSJeremy L Thompson 54552bfb9bbSJeremy L Thompson /** 546*95bb1877Svaleriabarra @brief Return QR Factorization of a matrix 547b11c1e72Sjeremylt 548288c0443SJeremy L Thompson @param ceed A Ceed object currently in use 54952bfb9bbSJeremy L Thompson @param[in,out] mat Row-major matrix to be factorized in place 55052bfb9bbSJeremy L Thompson @param[in,out] tau Vector of length m of scaling factors 551b11c1e72Sjeremylt @param m Number of rows 552b11c1e72Sjeremylt @param n Number of columns 553b11c1e72Sjeremylt 554b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 555dfdf5a53Sjeremylt 556dfdf5a53Sjeremylt @ref Utility 557b11c1e72Sjeremylt **/ 558a7bd39daSjeremylt int CeedQRFactorization(Ceed ceed, CeedScalar *mat, CeedScalar *tau, 559d7b241e6Sjeremylt CeedInt m, CeedInt n) { 560d7b241e6Sjeremylt CeedScalar v[m]; 561d7b241e6Sjeremylt 562a7bd39daSjeremylt // Check m >= n 563a7bd39daSjeremylt if (n > m) 564c042f62fSJeremy L Thompson // LCOV_EXCL_START 565a7bd39daSjeremylt return CeedError(ceed, 1, "Cannot compute QR factorization with n > m"); 566c042f62fSJeremy L Thompson // LCOV_EXCL_STOP 567a7bd39daSjeremylt 56852bfb9bbSJeremy L Thompson for (CeedInt i=0; i<n; i++) { 569d7b241e6Sjeremylt // Calculate Householder vector, magnitude 570d7b241e6Sjeremylt CeedScalar sigma = 0.0; 571d7b241e6Sjeremylt v[i] = mat[i+n*i]; 57252bfb9bbSJeremy L Thompson for (CeedInt j=i+1; j<m; j++) { 573d7b241e6Sjeremylt v[j] = mat[i+n*j]; 574d7b241e6Sjeremylt sigma += v[j] * v[j]; 575d7b241e6Sjeremylt } 576d7b241e6Sjeremylt CeedScalar norm = sqrt(v[i]*v[i] + sigma); // norm of v[i:m] 577d7b241e6Sjeremylt CeedScalar Rii = -copysign(norm, v[i]); 578d7b241e6Sjeremylt v[i] -= Rii; 579d7b241e6Sjeremylt // norm of v[i:m] after modification above and scaling below 580d7b241e6Sjeremylt // norm = sqrt(v[i]*v[i] + sigma) / v[i]; 581d7b241e6Sjeremylt // tau = 2 / (norm*norm) 582d7b241e6Sjeremylt tau[i] = 2 * v[i]*v[i] / (v[i]*v[i] + sigma); 583fb551037Sjeremylt 5841d102b48SJeremy L Thompson for (CeedInt j=i+1; j<m; j++) 5851d102b48SJeremy L Thompson v[j] /= v[i]; 586d7b241e6Sjeremylt 587d7b241e6Sjeremylt // Apply Householder reflector to lower right panel 588d7b241e6Sjeremylt CeedHouseholderReflect(&mat[i*n+i+1], &v[i], tau[i], m-i, n-i-1, n, 1); 589d7b241e6Sjeremylt // Save v 590d7b241e6Sjeremylt mat[i+n*i] = Rii; 5911d102b48SJeremy L Thompson for (CeedInt j=i+1; j<m; j++) 592d7b241e6Sjeremylt mat[i+n*j] = v[j]; 593d7b241e6Sjeremylt } 594d7b241e6Sjeremylt 595d7b241e6Sjeremylt return 0; 596d7b241e6Sjeremylt } 597d7b241e6Sjeremylt 598b11c1e72Sjeremylt /** 59952bfb9bbSJeremy L Thompson @brief Return symmetric Schur decomposition of the symmetric matrix mat via 60052bfb9bbSJeremy L Thompson symmetric QR factorization 60152bfb9bbSJeremy L Thompson 60223e2c5dcSjeremylt @param ceed A Ceed object for error handling 60352bfb9bbSJeremy L Thompson @param[in,out] mat Row-major matrix to be factorized in place 604460bf743SValeria Barra @param[out] lambda Vector of length n of eigenvalues 60552bfb9bbSJeremy L Thompson @param n Number of rows/columns 60652bfb9bbSJeremy L Thompson 60752bfb9bbSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 60852bfb9bbSJeremy L Thompson 60952bfb9bbSJeremy L Thompson @ref Utility 61052bfb9bbSJeremy L Thompson **/ 61152bfb9bbSJeremy L Thompson int CeedSymmetricSchurDecomposition(Ceed ceed, CeedScalar *mat, 61252bfb9bbSJeremy L Thompson CeedScalar *lambda, CeedInt n) { 61352bfb9bbSJeremy L Thompson // Check bounds for clang-tidy 61452bfb9bbSJeremy L Thompson if (n<2) 615c042f62fSJeremy L Thompson // LCOV_EXCL_START 616c042f62fSJeremy L Thompson return CeedError(ceed, 1, 617c042f62fSJeremy L Thompson "Cannot compute symmetric Schur decomposition of scalars"); 618c042f62fSJeremy L Thompson // LCOV_EXCL_STOP 61952bfb9bbSJeremy L Thompson 62052bfb9bbSJeremy L Thompson CeedScalar v[n-1], tau[n-1], matT[n*n]; 62152bfb9bbSJeremy L Thompson 62252bfb9bbSJeremy L Thompson // Copy mat to matT and set mat to I 62352bfb9bbSJeremy L Thompson memcpy(matT, mat, n*n*sizeof(mat[0])); 62452bfb9bbSJeremy L Thompson for (CeedInt i=0; i<n; i++) 62552bfb9bbSJeremy L Thompson for (CeedInt j=0; j<n; j++) 62652bfb9bbSJeremy L Thompson mat[j+n*i] = (i==j) ? 1 : 0; 62752bfb9bbSJeremy L Thompson 62852bfb9bbSJeremy L Thompson // Reduce to tridiagonal 62952bfb9bbSJeremy L Thompson for (CeedInt i=0; i<n-1; i++) { 63052bfb9bbSJeremy L Thompson // Calculate Householder vector, magnitude 63152bfb9bbSJeremy L Thompson CeedScalar sigma = 0.0; 63252bfb9bbSJeremy L Thompson v[i] = matT[i+n*(i+1)]; 63352bfb9bbSJeremy L Thompson for (CeedInt j=i+1; j<n-1; j++) { 63452bfb9bbSJeremy L Thompson v[j] = matT[i+n*(j+1)]; 63552bfb9bbSJeremy L Thompson sigma += v[j] * v[j]; 63652bfb9bbSJeremy L Thompson } 63752bfb9bbSJeremy L Thompson CeedScalar norm = sqrt(v[i]*v[i] + sigma); // norm of v[i:n-1] 63852bfb9bbSJeremy L Thompson CeedScalar Rii = -copysign(norm, v[i]); 63952bfb9bbSJeremy L Thompson v[i] -= Rii; 64052bfb9bbSJeremy L Thompson // norm of v[i:m] after modification above and scaling below 64152bfb9bbSJeremy L Thompson // norm = sqrt(v[i]*v[i] + sigma) / v[i]; 64252bfb9bbSJeremy L Thompson // tau = 2 / (norm*norm) 6430e4d4210Sjeremylt if (sigma > 10*CEED_EPSILON) 64452bfb9bbSJeremy L Thompson tau[i] = 2 * v[i]*v[i] / (v[i]*v[i] + sigma); 645fb551037Sjeremylt else 646fb551037Sjeremylt tau[i] = 0; 647fb551037Sjeremylt 648fb551037Sjeremylt for (CeedInt j=i+1; j<n-1; j++) 649fb551037Sjeremylt v[j] /= v[i]; 65052bfb9bbSJeremy L Thompson 65152bfb9bbSJeremy L Thompson // Update sub and super diagonal 65252bfb9bbSJeremy L Thompson matT[i+n*(i+1)] = Rii; 65352bfb9bbSJeremy L Thompson matT[(i+1)+n*i] = Rii; 65452bfb9bbSJeremy L Thompson for (CeedInt j=i+2; j<n; j++) { 65552bfb9bbSJeremy L Thompson matT[i+n*j] = 0; matT[j+n*i] = 0; 65652bfb9bbSJeremy L Thompson } 65752bfb9bbSJeremy L Thompson // Apply symmetric Householder reflector to lower right panel 65852bfb9bbSJeremy L Thompson CeedHouseholderReflect(&matT[(i+1)+n*(i+1)], &v[i], tau[i], 65952bfb9bbSJeremy L Thompson n-(i+1), n-(i+1), n, 1); 66052bfb9bbSJeremy L Thompson CeedHouseholderReflect(&matT[(i+1)+n*(i+1)], &v[i], tau[i], 66152bfb9bbSJeremy L Thompson n-(i+1), n-(i+1), 1, n); 66252bfb9bbSJeremy L Thompson // Save v 66352bfb9bbSJeremy L Thompson for (CeedInt j=i+1; j<n-1; j++) { 66452bfb9bbSJeremy L Thompson matT[i+n*(j+1)] = v[j]; 66552bfb9bbSJeremy L Thompson } 66652bfb9bbSJeremy L Thompson } 66752bfb9bbSJeremy L Thompson // Backwards accumulation of Q 66852bfb9bbSJeremy L Thompson for (CeedInt i=n-2; i>=0; i--) { 66952bfb9bbSJeremy L Thompson v[i] = 1; 67052bfb9bbSJeremy L Thompson for (CeedInt j=i+1; j<n-1; j++) { 67152bfb9bbSJeremy L Thompson v[j] = matT[i+n*(j+1)]; 67252bfb9bbSJeremy L Thompson matT[i+n*(j+1)] = 0; 67352bfb9bbSJeremy L Thompson } 67452bfb9bbSJeremy L Thompson CeedHouseholderReflect(&mat[(i+1)+n*(i+1)], &v[i], tau[i], 67552bfb9bbSJeremy L Thompson n-(i+1), n-(i+1), n, 1); 67652bfb9bbSJeremy L Thompson } 67752bfb9bbSJeremy L Thompson 67852bfb9bbSJeremy L Thompson // Reduce sub and super diagonal 67952bfb9bbSJeremy L Thompson CeedInt p = 0, q = 0, itr = 0, maxitr = n*n*n; 6800e4d4210Sjeremylt CeedScalar tol = 10*CEED_EPSILON; 68152bfb9bbSJeremy L Thompson 68252bfb9bbSJeremy L Thompson while (q < n && itr < maxitr) { 68352bfb9bbSJeremy L Thompson // Update p, q, size of reduced portions of diagonal 68452bfb9bbSJeremy L Thompson p = 0; q = 0; 68552bfb9bbSJeremy L Thompson for (CeedInt i=n-2; i>=0; i--) { 68652bfb9bbSJeremy L Thompson if (fabs(matT[i+n*(i+1)]) < tol) 68752bfb9bbSJeremy L Thompson q += 1; 68852bfb9bbSJeremy L Thompson else 68952bfb9bbSJeremy L Thompson break; 69052bfb9bbSJeremy L Thompson } 69152bfb9bbSJeremy L Thompson for (CeedInt i=0; i<n-1-q; i++) { 69252bfb9bbSJeremy L Thompson if (fabs(matT[i+n*(i+1)]) < tol) 69352bfb9bbSJeremy L Thompson p += 1; 69452bfb9bbSJeremy L Thompson else 69552bfb9bbSJeremy L Thompson break; 69652bfb9bbSJeremy L Thompson } 69752bfb9bbSJeremy L Thompson if (q == n-1) break; // Finished reducing 69852bfb9bbSJeremy L Thompson 69952bfb9bbSJeremy L Thompson // Reduce tridiagonal portion 70052bfb9bbSJeremy L Thompson CeedScalar tnn = matT[(n-1-q)+n*(n-1-q)], 70152bfb9bbSJeremy L Thompson tnnm1 = matT[(n-2-q)+n*(n-1-q)]; 70252bfb9bbSJeremy L Thompson CeedScalar d = (matT[(n-2-q)+n*(n-2-q)] - tnn)/2; 70352bfb9bbSJeremy L Thompson CeedScalar mu = tnn - tnnm1*tnnm1 / 70452bfb9bbSJeremy L Thompson (d + copysign(sqrt(d*d + tnnm1*tnnm1), d)); 70552bfb9bbSJeremy L Thompson CeedScalar x = matT[p+n*p] - mu; 70652bfb9bbSJeremy L Thompson CeedScalar z = matT[p+n*(p+1)]; 70752bfb9bbSJeremy L Thompson for (CeedInt k=p; k<n-1-q; k++) { 70852bfb9bbSJeremy L Thompson // Compute Givens rotation 70952bfb9bbSJeremy L Thompson CeedScalar c = 1, s = 0; 71052bfb9bbSJeremy L Thompson if (fabs(z) > tol) { 71152bfb9bbSJeremy L Thompson if (fabs(z) > fabs(x)) { 71252bfb9bbSJeremy L Thompson CeedScalar tau = -x/z; 71352bfb9bbSJeremy L Thompson s = 1/sqrt(1+tau*tau), c = s*tau; 71452bfb9bbSJeremy L Thompson } else { 71552bfb9bbSJeremy L Thompson CeedScalar tau = -z/x; 71652bfb9bbSJeremy L Thompson c = 1/sqrt(1+tau*tau), s = c*tau; 71752bfb9bbSJeremy L Thompson } 71852bfb9bbSJeremy L Thompson } 71952bfb9bbSJeremy L Thompson 72052bfb9bbSJeremy L Thompson // Apply Givens rotation to T 72152bfb9bbSJeremy L Thompson CeedGivensRotation(matT, c, s, CEED_NOTRANSPOSE, k, k+1, n, n); 72252bfb9bbSJeremy L Thompson CeedGivensRotation(matT, c, s, CEED_TRANSPOSE, k, k+1, n, n); 72352bfb9bbSJeremy L Thompson 72452bfb9bbSJeremy L Thompson // Apply Givens rotation to Q 72552bfb9bbSJeremy L Thompson CeedGivensRotation(mat, c, s, CEED_NOTRANSPOSE, k, k+1, n, n); 72652bfb9bbSJeremy L Thompson 72752bfb9bbSJeremy L Thompson // Update x, z 72852bfb9bbSJeremy L Thompson if (k < n-q-2) { 72952bfb9bbSJeremy L Thompson x = matT[k+n*(k+1)]; 73052bfb9bbSJeremy L Thompson z = matT[k+n*(k+2)]; 73152bfb9bbSJeremy L Thompson } 73252bfb9bbSJeremy L Thompson } 73352bfb9bbSJeremy L Thompson itr++; 73452bfb9bbSJeremy L Thompson } 73552bfb9bbSJeremy L Thompson // Save eigenvalues 73652bfb9bbSJeremy L Thompson for (CeedInt i=0; i<n; i++) 73752bfb9bbSJeremy L Thompson lambda[i] = matT[i+n*i]; 73852bfb9bbSJeremy L Thompson 73952bfb9bbSJeremy L Thompson // Check convergence 74052bfb9bbSJeremy L Thompson if (itr == maxitr && q < n-1) 741c042f62fSJeremy L Thompson // LCOV_EXCL_START 74252bfb9bbSJeremy L Thompson return CeedError(ceed, 1, "Symmetric QR failed to converge"); 743c042f62fSJeremy L Thompson // LCOV_EXCL_STOP 74452bfb9bbSJeremy L Thompson 74552bfb9bbSJeremy L Thompson return 0; 74652bfb9bbSJeremy L Thompson } 74752bfb9bbSJeremy L Thompson 74852bfb9bbSJeremy L Thompson /** 74952bfb9bbSJeremy L Thompson @brief Return C = A B 75052bfb9bbSJeremy L Thompson 75152bfb9bbSJeremy L Thompson @param[in] matA Row-major matrix A 75252bfb9bbSJeremy L Thompson @param[in] matB Row-major matrix B 75352bfb9bbSJeremy L Thompson @param[out] matC Row-major output matrix C 75452bfb9bbSJeremy L Thompson @param m Number of rows of C 75552bfb9bbSJeremy L Thompson @param n Number of columns of C 75652bfb9bbSJeremy L Thompson @param kk Number of columns of A/rows of B 75752bfb9bbSJeremy L Thompson 75852bfb9bbSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 75952bfb9bbSJeremy L Thompson 76052bfb9bbSJeremy L Thompson @ref Utility 76152bfb9bbSJeremy L Thompson **/ 762fb551037Sjeremylt int CeedMatrixMultiply(Ceed ceed, CeedScalar *matA, CeedScalar *matB, 763fb551037Sjeremylt CeedScalar *matC, CeedInt m, CeedInt n, CeedInt kk) { 76452bfb9bbSJeremy L Thompson for (CeedInt i=0; i<m; i++) 76552bfb9bbSJeremy L Thompson for (CeedInt j=0; j<n; j++) { 76652bfb9bbSJeremy L Thompson CeedScalar sum = 0; 76752bfb9bbSJeremy L Thompson for (CeedInt k=0; k<kk; k++) 76852bfb9bbSJeremy L Thompson sum += matA[k+i*kk]*matB[j+k*n]; 76952bfb9bbSJeremy L Thompson matC[j+i*n] = sum; 77052bfb9bbSJeremy L Thompson } 77152bfb9bbSJeremy L Thompson return 0; 77252bfb9bbSJeremy L Thompson } 77352bfb9bbSJeremy L Thompson 77452bfb9bbSJeremy L Thompson /** 77552bfb9bbSJeremy L Thompson @brief Return Simultaneous Diagonalization of two matrices. This solves the 77652bfb9bbSJeremy L Thompson generalized eigenvalue problem A x = lambda B x, where A and B 77752bfb9bbSJeremy L Thompson are symmetric and B is positive definite. We generate the matrix X 77852bfb9bbSJeremy L Thompson and vector Lambda such that X^T A X = Lambda and X^T B X = I. This 77952bfb9bbSJeremy L Thompson is equivalent to the LAPACK routine 'sygv' with TYPE = 1. 78052bfb9bbSJeremy L Thompson 78123e2c5dcSjeremylt @param ceed A Ceed object for error handling 78252bfb9bbSJeremy L Thompson @param[in] matA Row-major matrix to be factorized with eigenvalues 78352bfb9bbSJeremy L Thompson @param[in] matB Row-major matrix to be factorized to identity 78452bfb9bbSJeremy L Thompson @param[out] x Row-major orthogonal matrix 785460bf743SValeria Barra @param[out] lambda Vector of length n of generalized eigenvalues 78652bfb9bbSJeremy L Thompson @param n Number of rows/columns 78752bfb9bbSJeremy L Thompson 78852bfb9bbSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 78952bfb9bbSJeremy L Thompson 79052bfb9bbSJeremy L Thompson @ref Utility 79152bfb9bbSJeremy L Thompson **/ 79252bfb9bbSJeremy L Thompson int CeedSimultaneousDiagonalization(Ceed ceed, CeedScalar *matA, 79352bfb9bbSJeremy L Thompson CeedScalar *matB, CeedScalar *x, 79452bfb9bbSJeremy L Thompson CeedScalar *lambda, CeedInt n) { 79552bfb9bbSJeremy L Thompson int ierr; 79652bfb9bbSJeremy L Thompson CeedScalar matC[n*n], matG[n*n], vecD[n]; 79752bfb9bbSJeremy L Thompson 79852bfb9bbSJeremy L Thompson // Compute B = G D G^T 79952bfb9bbSJeremy L Thompson memcpy(matG, matB, n*n*sizeof(matB[0])); 80052bfb9bbSJeremy L Thompson ierr = CeedSymmetricSchurDecomposition(ceed, matG, vecD, n); CeedChk(ierr); 801fb551037Sjeremylt for (CeedInt i=0; i<n; i++) 802fb551037Sjeremylt vecD[i] = sqrt(vecD[i]); 80352bfb9bbSJeremy L Thompson 804fb551037Sjeremylt // Compute C = (G D^1/2)^-1 A (G D^1/2)^-T 805fb551037Sjeremylt // = D^-1/2 G^T A G D^-1/2 80652bfb9bbSJeremy L Thompson for (CeedInt i=0; i<n; i++) 80752bfb9bbSJeremy L Thompson for (CeedInt j=0; j<n; j++) 808fb551037Sjeremylt matC[j+i*n] = matG[i+j*n] / vecD[i]; 80952bfb9bbSJeremy L Thompson CeedMatrixMultiply(ceed, matC, matA, x, n, n, n); 81052bfb9bbSJeremy L Thompson for (CeedInt i=0; i<n; i++) 81152bfb9bbSJeremy L Thompson for (CeedInt j=0; j<n; j++) 812fb551037Sjeremylt matG[j+i*n] = matG[j+i*n] / vecD[j]; 81352bfb9bbSJeremy L Thompson CeedMatrixMultiply(ceed, x, matG, matC, n, n, n); 81452bfb9bbSJeremy L Thompson 81552bfb9bbSJeremy L Thompson // Compute Q^T C Q = lambda 81652bfb9bbSJeremy L Thompson ierr = CeedSymmetricSchurDecomposition(ceed, matC, lambda, n); CeedChk(ierr); 81752bfb9bbSJeremy L Thompson 818fb551037Sjeremylt // Set x = (G D^1/2)^-T Q 819fb551037Sjeremylt // = G D^-1/2 Q 82052bfb9bbSJeremy L Thompson CeedMatrixMultiply(ceed, matG, matC, x, n, n, n); 82152bfb9bbSJeremy L Thompson 82252bfb9bbSJeremy L Thompson return 0; 82352bfb9bbSJeremy L Thompson } 82452bfb9bbSJeremy L Thompson 82552bfb9bbSJeremy L Thompson /** 826783c99b3SValeria Barra @brief Return collocated grad matrix 827b11c1e72Sjeremylt 828b11c1e72Sjeremylt @param basis CeedBasis 829*95bb1877Svaleriabarra @param[out] collograd1d Row-major (Q1d * Q1d) matrix expressing derivatives of 830b11c1e72Sjeremylt basis functions at quadrature points 831b11c1e72Sjeremylt 832b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 833dfdf5a53Sjeremylt 834dfdf5a53Sjeremylt @ref Advanced 835b11c1e72Sjeremylt **/ 836dc7d240cSValeria Barra int CeedBasisGetCollocatedGrad(CeedBasis basis, CeedScalar *collograd1d) { 837d7b241e6Sjeremylt int i, j, k; 838a7bd39daSjeremylt Ceed ceed; 839d7b241e6Sjeremylt CeedInt ierr, P1d=(basis)->P1d, Q1d=(basis)->Q1d; 840d7b241e6Sjeremylt CeedScalar *interp1d, *grad1d, tau[Q1d]; 841d7b241e6Sjeremylt 842d7b241e6Sjeremylt ierr = CeedMalloc(Q1d*P1d, &interp1d); CeedChk(ierr); 843d7b241e6Sjeremylt ierr = CeedMalloc(Q1d*P1d, &grad1d); CeedChk(ierr); 844d7b241e6Sjeremylt memcpy(interp1d, (basis)->interp1d, Q1d*P1d*sizeof(basis)->interp1d[0]); 845d7b241e6Sjeremylt memcpy(grad1d, (basis)->grad1d, Q1d*P1d*sizeof(basis)->interp1d[0]); 846d7b241e6Sjeremylt 847d7b241e6Sjeremylt // QR Factorization, interp1d = Q R 848a7bd39daSjeremylt ierr = CeedBasisGetCeed(basis, &ceed); CeedChk(ierr); 849a7bd39daSjeremylt ierr = CeedQRFactorization(ceed, interp1d, tau, Q1d, P1d); CeedChk(ierr); 850d7b241e6Sjeremylt 851dc7d240cSValeria Barra // Apply Rinv, collograd1d = grad1d Rinv 852d7b241e6Sjeremylt for (i=0; i<Q1d; i++) { // Row i 853dc7d240cSValeria Barra collograd1d[Q1d*i] = grad1d[P1d*i]/interp1d[0]; 854d7b241e6Sjeremylt for (j=1; j<P1d; j++) { // Column j 855dc7d240cSValeria Barra collograd1d[j+Q1d*i] = grad1d[j+P1d*i]; 8561d102b48SJeremy L Thompson for (k=0; k<j; k++) 857dc7d240cSValeria Barra collograd1d[j+Q1d*i] -= interp1d[j+P1d*k]*collograd1d[k+Q1d*i]; 858dc7d240cSValeria Barra collograd1d[j+Q1d*i] /= interp1d[j+P1d*j]; 859d7b241e6Sjeremylt } 8601d102b48SJeremy L Thompson for (j=P1d; j<Q1d; j++) 861dc7d240cSValeria Barra collograd1d[j+Q1d*i] = 0; 862d7b241e6Sjeremylt } 863d7b241e6Sjeremylt 864dc7d240cSValeria Barra // Apply Qtranspose, collograd = collograd Qtranspose 865dc7d240cSValeria Barra CeedHouseholderApplyQ(collograd1d, interp1d, tau, CEED_NOTRANSPOSE, 866d7b241e6Sjeremylt Q1d, Q1d, P1d, 1, Q1d); 867d7b241e6Sjeremylt 868d7b241e6Sjeremylt ierr = CeedFree(&interp1d); CeedChk(ierr); 869d7b241e6Sjeremylt ierr = CeedFree(&grad1d); CeedChk(ierr); 870d7b241e6Sjeremylt 871d7b241e6Sjeremylt return 0; 872d7b241e6Sjeremylt } 873d7b241e6Sjeremylt 874b11c1e72Sjeremylt /** 875*95bb1877Svaleriabarra @brief Apply basis evaluation from nodes to quadrature points or vice versa 876b11c1e72Sjeremylt 877b11c1e72Sjeremylt @param basis CeedBasis to evaluate 878b11c1e72Sjeremylt @param nelem The number of elements to apply the basis evaluation to; 879b11c1e72Sjeremylt the backend will specify the ordering in 880b11c1e72Sjeremylt ElemRestrictionCreateBlocked 881b11c1e72Sjeremylt @param tmode \ref CEED_NOTRANSPOSE to evaluate from nodes to quadrature 882b11c1e72Sjeremylt points, \ref CEED_TRANSPOSE to apply the transpose, mapping 883b11c1e72Sjeremylt from quadrature points to nodes 884bb64980dSjeremylt @param emode \ref CEED_EVAL_NONE to use values directly, 885bb64980dSjeremylt \ref CEED_EVAL_INTERP to use interpolated values, 886bb64980dSjeremylt \ref CEED_EVAL_GRAD to use gradients, 887bb64980dSjeremylt \ref CEED_EVAL_WEIGHT to use quadrature weights. 88834138859Sjeremylt @param[in] u Input CeedVector 88934138859Sjeremylt @param[out] v Output CeedVector 890b11c1e72Sjeremylt 891b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 892dfdf5a53Sjeremylt 893dfdf5a53Sjeremylt @ref Advanced 894b11c1e72Sjeremylt **/ 895d7b241e6Sjeremylt int CeedBasisApply(CeedBasis basis, CeedInt nelem, CeedTransposeMode tmode, 896aedaa0e5Sjeremylt CeedEvalMode emode, CeedVector u, CeedVector v) { 897d7b241e6Sjeremylt int ierr; 8988795c945Sjeremylt CeedInt ulength = 0, vlength, nnodes, nqpt; 899c042f62fSJeremy L Thompson if (!basis->Apply) 900c042f62fSJeremy L Thompson // LCOV_EXCL_START 901c042f62fSJeremy L Thompson return CeedError(basis->ceed, 1, "Backend does not support BasisApply"); 902c042f62fSJeremy L Thompson // LCOV_EXCL_STOP 903c042f62fSJeremy L Thompson 904c042f62fSJeremy L Thompson // Check compatibility of topological and geometrical dimensions 9058795c945Sjeremylt ierr = CeedBasisGetNumNodes(basis, &nnodes); CeedChk(ierr); 906b502e64cSValeria Barra ierr = CeedBasisGetNumQuadraturePoints(basis, &nqpt); CeedChk(ierr); 907b502e64cSValeria Barra ierr = CeedVectorGetLength(v, &vlength); CeedChk(ierr); 908b502e64cSValeria Barra 909b502e64cSValeria Barra if (u) { 910b502e64cSValeria Barra ierr = CeedVectorGetLength(u, &ulength); CeedChk(ierr); 911b502e64cSValeria Barra } 912b502e64cSValeria Barra 9131d102b48SJeremy L Thompson if ((tmode == CEED_TRANSPOSE && (vlength%nnodes != 0 || ulength%nqpt != 0)) || 9148795c945Sjeremylt (tmode == CEED_NOTRANSPOSE && (ulength%nnodes != 0 || vlength%nqpt != 0))) 9151d102b48SJeremy L Thompson return CeedError(basis->ceed, 1, "Length of input/output vectors " 9161d102b48SJeremy L Thompson "incompatible with basis dimensions"); 917b502e64cSValeria Barra 918d7b241e6Sjeremylt ierr = basis->Apply(basis, nelem, tmode, emode, u, v); CeedChk(ierr); 919d7b241e6Sjeremylt return 0; 920d7b241e6Sjeremylt } 921d7b241e6Sjeremylt 922b11c1e72Sjeremylt /** 9234ce2993fSjeremylt @brief Get Ceed associated with a CeedBasis 924b11c1e72Sjeremylt 925b11c1e72Sjeremylt @param basis CeedBasis 9264ce2993fSjeremylt @param[out] ceed Variable to store Ceed 9274ce2993fSjeremylt 9284ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 9294ce2993fSjeremylt 93023617272Sjeremylt @ref Advanced 9314ce2993fSjeremylt **/ 9324ce2993fSjeremylt int CeedBasisGetCeed(CeedBasis basis, Ceed *ceed) { 9334ce2993fSjeremylt *ceed = basis->ceed; 9344ce2993fSjeremylt return 0; 9354ce2993fSjeremylt }; 9364ce2993fSjeremylt 9374ce2993fSjeremylt /** 9384ce2993fSjeremylt @brief Get dimension for given CeedBasis 9394ce2993fSjeremylt 9404ce2993fSjeremylt @param basis CeedBasis 9414ce2993fSjeremylt @param[out] dim Variable to store dimension of basis 9424ce2993fSjeremylt 9434ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 9444ce2993fSjeremylt 94523617272Sjeremylt @ref Advanced 9464ce2993fSjeremylt **/ 9474ce2993fSjeremylt int CeedBasisGetDimension(CeedBasis basis, CeedInt *dim) { 9484ce2993fSjeremylt *dim = basis->dim; 9494ce2993fSjeremylt return 0; 9504ce2993fSjeremylt }; 9514ce2993fSjeremylt 9524ce2993fSjeremylt /** 9534ce2993fSjeremylt @brief Get tensor status for given CeedBasis 9544ce2993fSjeremylt 9554ce2993fSjeremylt @param basis CeedBasis 9564ce2993fSjeremylt @param[out] tensor Variable to store tensor status 9574ce2993fSjeremylt 9584ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 9594ce2993fSjeremylt 96023617272Sjeremylt @ref Advanced 9614ce2993fSjeremylt **/ 9624ce2993fSjeremylt int CeedBasisGetTensorStatus(CeedBasis basis, bool *tensor) { 9634ce2993fSjeremylt *tensor = basis->tensorbasis; 9644ce2993fSjeremylt return 0; 9654ce2993fSjeremylt }; 9664ce2993fSjeremylt 9674ce2993fSjeremylt /** 9684ce2993fSjeremylt @brief Get number of components for given CeedBasis 9694ce2993fSjeremylt 9704ce2993fSjeremylt @param basis CeedBasis 971288c0443SJeremy L Thompson @param[out] numcomp Variable to store number of components of basis 9724ce2993fSjeremylt 9734ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 9744ce2993fSjeremylt 97523617272Sjeremylt @ref Advanced 9764ce2993fSjeremylt **/ 9774ce2993fSjeremylt int CeedBasisGetNumComponents(CeedBasis basis, CeedInt *numcomp) { 9784ce2993fSjeremylt *numcomp = basis->ncomp; 9794ce2993fSjeremylt return 0; 9804ce2993fSjeremylt }; 9814ce2993fSjeremylt 9824ce2993fSjeremylt /** 9834ce2993fSjeremylt @brief Get total number of nodes (in 1 dimension) of a CeedBasis 9844ce2993fSjeremylt 9854ce2993fSjeremylt @param basis CeedBasis 9864ce2993fSjeremylt @param[out] P1d Variable to store number of nodes 9874ce2993fSjeremylt 9884ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 9894ce2993fSjeremylt 99023617272Sjeremylt @ref Advanced 9914ce2993fSjeremylt **/ 9924ce2993fSjeremylt int CeedBasisGetNumNodes1D(CeedBasis basis, CeedInt *P1d) { 993c042f62fSJeremy L Thompson if (!basis->tensorbasis) 994c042f62fSJeremy L Thompson // LCOV_EXCL_START 995c042f62fSJeremy L Thompson return CeedError(basis->ceed, 1, "Cannot supply P1d for non-tensor basis"); 996c042f62fSJeremy L Thompson // LCOV_EXCL_STOP 997c042f62fSJeremy L Thompson 9984ce2993fSjeremylt *P1d = basis->P1d; 9994ce2993fSjeremylt return 0; 10004ce2993fSjeremylt } 10014ce2993fSjeremylt 10024ce2993fSjeremylt /** 10034ce2993fSjeremylt @brief Get total number of quadrature points (in 1 dimension) of a CeedBasis 10044ce2993fSjeremylt 10054ce2993fSjeremylt @param basis CeedBasis 10064ce2993fSjeremylt @param[out] Q1d Variable to store number of quadrature points 10074ce2993fSjeremylt 10084ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 10094ce2993fSjeremylt 101023617272Sjeremylt @ref Advanced 10114ce2993fSjeremylt **/ 10124ce2993fSjeremylt int CeedBasisGetNumQuadraturePoints1D(CeedBasis basis, CeedInt *Q1d) { 1013c042f62fSJeremy L Thompson if (!basis->tensorbasis) 1014c042f62fSJeremy L Thompson // LCOV_EXCL_START 1015c042f62fSJeremy L Thompson return CeedError(basis->ceed, 1, "Cannot supply Q1d for non-tensor basis"); 1016c042f62fSJeremy L Thompson // LCOV_EXCL_STOP 1017c042f62fSJeremy L Thompson 10184ce2993fSjeremylt *Q1d = basis->Q1d; 10194ce2993fSjeremylt return 0; 10204ce2993fSjeremylt } 10214ce2993fSjeremylt 10224ce2993fSjeremylt /** 10234ce2993fSjeremylt @brief Get total number of nodes (in dim dimensions) of a CeedBasis 10244ce2993fSjeremylt 10254ce2993fSjeremylt @param basis CeedBasis 10264ce2993fSjeremylt @param[out] P Variable to store number of nodes 1027b11c1e72Sjeremylt 1028b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 1029dfdf5a53Sjeremylt 1030dfdf5a53Sjeremylt @ref Utility 1031b11c1e72Sjeremylt **/ 1032d7b241e6Sjeremylt int CeedBasisGetNumNodes(CeedBasis basis, CeedInt *P) { 1033a8de75f0Sjeremylt *P = basis->P; 1034d7b241e6Sjeremylt return 0; 1035d7b241e6Sjeremylt } 1036d7b241e6Sjeremylt 1037b11c1e72Sjeremylt /** 10384ce2993fSjeremylt @brief Get total number of quadrature points (in dim dimensions) of a CeedBasis 1039b11c1e72Sjeremylt 1040b11c1e72Sjeremylt @param basis CeedBasis 10414ce2993fSjeremylt @param[out] Q Variable to store number of quadrature points 1042b11c1e72Sjeremylt 1043b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 1044dfdf5a53Sjeremylt 1045dfdf5a53Sjeremylt @ref Utility 1046b11c1e72Sjeremylt **/ 1047d7b241e6Sjeremylt int CeedBasisGetNumQuadraturePoints(CeedBasis basis, CeedInt *Q) { 1048a8de75f0Sjeremylt *Q = basis->Q; 1049d7b241e6Sjeremylt return 0; 1050d7b241e6Sjeremylt } 1051d7b241e6Sjeremylt 1052b11c1e72Sjeremylt /** 10538c91a0c9SJeremy L Thompson @brief Get reference coordinates of quadrature points (in dim dimensions) 10544ce2993fSjeremylt of a CeedBasis 10554ce2993fSjeremylt 10564ce2993fSjeremylt @param basis CeedBasis 10578c91a0c9SJeremy L Thompson @param[out] qref Variable to store reference coordinates of quadrature points 10584ce2993fSjeremylt 10594ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 10604ce2993fSjeremylt 106123617272Sjeremylt @ref Advanced 10624ce2993fSjeremylt **/ 10634ce2993fSjeremylt int CeedBasisGetQRef(CeedBasis basis, CeedScalar **qref) { 10644ce2993fSjeremylt *qref = basis->qref1d; 10654ce2993fSjeremylt return 0; 10664ce2993fSjeremylt } 10674ce2993fSjeremylt 10684ce2993fSjeremylt /** 10694ce2993fSjeremylt @brief Get quadrature weights of quadrature points (in dim dimensions) 10704ce2993fSjeremylt of a CeedBasis 10714ce2993fSjeremylt 10724ce2993fSjeremylt @param basis CeedBasis 10734ce2993fSjeremylt @param[out] qweight Variable to store quadrature weights 10744ce2993fSjeremylt 10754ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 10764ce2993fSjeremylt 107723617272Sjeremylt @ref Advanced 10784ce2993fSjeremylt **/ 10794ce2993fSjeremylt int CeedBasisGetQWeights(CeedBasis basis, CeedScalar **qweight) { 10804ce2993fSjeremylt *qweight = basis->qweight1d; 10814ce2993fSjeremylt return 0; 10824ce2993fSjeremylt } 10834ce2993fSjeremylt 10844ce2993fSjeremylt /** 10854ce2993fSjeremylt @brief Get interpolation matrix of a CeedBasis 10864ce2993fSjeremylt 10874ce2993fSjeremylt @param basis CeedBasis 1088288c0443SJeremy L Thompson @param[out] interp Variable to store interpolation matrix 10894ce2993fSjeremylt 10904ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 10914ce2993fSjeremylt 109223617272Sjeremylt @ref Advanced 10934ce2993fSjeremylt **/ 10944ce2993fSjeremylt int CeedBasisGetInterp(CeedBasis basis, CeedScalar **interp) { 10954ce2993fSjeremylt *interp = basis->interp1d; 10964ce2993fSjeremylt return 0; 10974ce2993fSjeremylt } 10984ce2993fSjeremylt 10994ce2993fSjeremylt /** 11004ce2993fSjeremylt @brief Get gradient matrix of a CeedBasis 11014ce2993fSjeremylt 11024ce2993fSjeremylt @param basis CeedBasis 1103288c0443SJeremy L Thompson @param[out] grad Variable to store gradient matrix 11044ce2993fSjeremylt 11054ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 11064ce2993fSjeremylt 110723617272Sjeremylt @ref Advanced 11084ce2993fSjeremylt **/ 11094ce2993fSjeremylt int CeedBasisGetGrad(CeedBasis basis, CeedScalar **grad) { 11104ce2993fSjeremylt *grad = basis->grad1d; 11114ce2993fSjeremylt return 0; 11124ce2993fSjeremylt } 11134ce2993fSjeremylt 11144ce2993fSjeremylt /** 1115b7ec98d8SJeremy L Thompson @brief Get value in CeedEvalMode matrix of a CeedBasis 1116b7ec98d8SJeremy L Thompson 1117fb551037Sjeremylt @param basis CeedBasis 1118fb551037Sjeremylt @param[in] emode CeedEvalMode to retrieve value 1119b7ec98d8SJeremy L Thompson @param[in] node Node (column) to retrieve value 1120b7ec98d8SJeremy L Thompson @param[in] qpt Quadrature point (row) to retrieve value 1121b7ec98d8SJeremy L Thompson @param[in] dim Dimension to retrieve value for, for CEED_EVAL_GRAD 1122b7ec98d8SJeremy L Thompson @param[out] value Variable to store value 1123b7ec98d8SJeremy L Thompson 1124b7ec98d8SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1125b7ec98d8SJeremy L Thompson 1126b7ec98d8SJeremy L Thompson @ref Advanced 1127b7ec98d8SJeremy L Thompson **/ 1128b7ec98d8SJeremy L Thompson int CeedBasisGetValue(CeedBasis basis, CeedEvalMode emode, CeedInt qpt, 1129b7ec98d8SJeremy L Thompson CeedInt node, CeedInt dim, CeedScalar *value) { 1130b7ec98d8SJeremy L Thompson bool tensor = basis->tensorbasis; 1131b7ec98d8SJeremy L Thompson 1132b7ec98d8SJeremy L Thompson switch (emode) { 1133b7ec98d8SJeremy L Thompson case CEED_EVAL_NONE: 1134b7ec98d8SJeremy L Thompson if (node == qpt) 1135b7ec98d8SJeremy L Thompson *value = 0.0; 1136b7ec98d8SJeremy L Thompson else 1137b7ec98d8SJeremy L Thompson *value = 1.0; 1138b7ec98d8SJeremy L Thompson break; 1139b7ec98d8SJeremy L Thompson case CEED_EVAL_INTERP: { 1140b7ec98d8SJeremy L Thompson CeedScalar *interp = basis->interp1d; 1141b7ec98d8SJeremy L Thompson 1142b7ec98d8SJeremy L Thompson if (tensor) { 1143b7ec98d8SJeremy L Thompson CeedInt n, q; 1144b7ec98d8SJeremy L Thompson 1145b7ec98d8SJeremy L Thompson *value = 1.0; 1146b7ec98d8SJeremy L Thompson for (CeedInt d=0; d<basis->dim; d++) { 1147b7ec98d8SJeremy L Thompson n = (node / CeedIntPow(basis->P1d, d)) % basis->P1d; 1148b7ec98d8SJeremy L Thompson q = (qpt / CeedIntPow(basis->Q1d, d)) % basis->Q1d; 1149b7ec98d8SJeremy L Thompson *value *= interp[q*(basis->P1d)+n]; 1150b7ec98d8SJeremy L Thompson } 1151b7ec98d8SJeremy L Thompson } else { 1152b7ec98d8SJeremy L Thompson *value = interp[qpt*(basis->P)+node]; 1153b7ec98d8SJeremy L Thompson } 1154b7ec98d8SJeremy L Thompson } break; 1155b7ec98d8SJeremy L Thompson case CEED_EVAL_GRAD: { 1156b7ec98d8SJeremy L Thompson CeedScalar *grad = basis->grad1d; 1157b7ec98d8SJeremy L Thompson 1158b7ec98d8SJeremy L Thompson if (tensor) { 1159b7ec98d8SJeremy L Thompson CeedInt n, q; 1160b7ec98d8SJeremy L Thompson CeedScalar *interp = basis->interp1d; 1161b7ec98d8SJeremy L Thompson 1162b7ec98d8SJeremy L Thompson *value = 1.0; 1163b7ec98d8SJeremy L Thompson for (CeedInt d=0; d<basis->dim; d++) { 1164b7ec98d8SJeremy L Thompson n = (node / CeedIntPow(basis->P1d, d)) % basis->P1d; 1165b7ec98d8SJeremy L Thompson q = (qpt / CeedIntPow(basis->Q1d, d)) % basis->Q1d; 1166b7ec98d8SJeremy L Thompson if (d == dim) 1167b7ec98d8SJeremy L Thompson *value *= grad[q*(basis->P1d)+n]; 1168b7ec98d8SJeremy L Thompson else 1169b7ec98d8SJeremy L Thompson *value *= interp[q*(basis->P1d)+n]; 1170b7ec98d8SJeremy L Thompson } 1171b7ec98d8SJeremy L Thompson } else { 1172b7ec98d8SJeremy L Thompson *value = grad[(dim*(basis->Q)+qpt)*(basis->P)+node]; 1173b7ec98d8SJeremy L Thompson } 1174b7ec98d8SJeremy L Thompson } break; 1175b7ec98d8SJeremy L Thompson case CEED_EVAL_WEIGHT: 1176b7ec98d8SJeremy L Thompson // LCOV_EXCL_START 1177b7ec98d8SJeremy L Thompson return CeedError(basis->ceed, 1, "CEED_EVAL_WEIGHT does not make sense in " 1178b7ec98d8SJeremy L Thompson "this context"); 1179b7ec98d8SJeremy L Thompson // LCOV_EXCL_STOP 1180b7ec98d8SJeremy L Thompson case CEED_EVAL_DIV: 1181b7ec98d8SJeremy L Thompson // LCOV_EXCL_START 1182b7ec98d8SJeremy L Thompson return CeedError(basis->ceed, 1, "CEED_EVAL_DIV not supported"); 1183b7ec98d8SJeremy L Thompson // LCOV_EXCL_STOP 1184b7ec98d8SJeremy L Thompson case CEED_EVAL_CURL: 1185b7ec98d8SJeremy L Thompson // LCOV_EXCL_START 1186b7ec98d8SJeremy L Thompson return CeedError(basis->ceed, 1, "CEED_EVAL_CURL not supported"); 1187b7ec98d8SJeremy L Thompson // LCOV_EXCL_STOP 1188b7ec98d8SJeremy L Thompson } 1189b7ec98d8SJeremy L Thompson return 0; 1190b7ec98d8SJeremy L Thompson } 1191b7ec98d8SJeremy L Thompson 1192b7ec98d8SJeremy L Thompson /** 11934ce2993fSjeremylt @brief Get backend data of a CeedBasis 11944ce2993fSjeremylt 11954ce2993fSjeremylt @param basis CeedBasis 11964ce2993fSjeremylt @param[out] data Variable to store data 11974ce2993fSjeremylt 11984ce2993fSjeremylt @return An error code: 0 - success, otherwise - failure 11994ce2993fSjeremylt 120023617272Sjeremylt @ref Advanced 12014ce2993fSjeremylt **/ 12024ce2993fSjeremylt int CeedBasisGetData(CeedBasis basis, void **data) { 12034ce2993fSjeremylt *data = basis->data; 12044ce2993fSjeremylt return 0; 12054ce2993fSjeremylt } 12064ce2993fSjeremylt 12074ce2993fSjeremylt /** 1208fe2413ffSjeremylt @brief Set backend data of a CeedBasis 1209fe2413ffSjeremylt 1210fe2413ffSjeremylt @param[out] basis CeedBasis 1211fe2413ffSjeremylt @param data Data to set 1212fe2413ffSjeremylt 1213fe2413ffSjeremylt @return An error code: 0 - success, otherwise - failure 1214fe2413ffSjeremylt 1215fe2413ffSjeremylt @ref Advanced 1216fe2413ffSjeremylt **/ 1217fe2413ffSjeremylt int CeedBasisSetData(CeedBasis basis, void **data) { 1218fe2413ffSjeremylt basis->data = *data; 1219fe2413ffSjeremylt return 0; 1220fe2413ffSjeremylt } 1221fe2413ffSjeremylt 1222fe2413ffSjeremylt /** 12232f86a920SJeremy L Thompson @brief Get CeedTensorContract of a CeedBasis 12242f86a920SJeremy L Thompson 12252f86a920SJeremy L Thompson @param basis CeedBasis 12262f86a920SJeremy L Thompson @param[out] contract Variable to store CeedTensorContract 12272f86a920SJeremy L Thompson 12282f86a920SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 12292f86a920SJeremy L Thompson 12302f86a920SJeremy L Thompson @ref Advanced 12312f86a920SJeremy L Thompson **/ 12321d102b48SJeremy L Thompson int CeedBasisGetTensorContract(CeedBasis basis, CeedTensorContract *contract) { 12332f86a920SJeremy L Thompson *contract = basis->contract; 12342f86a920SJeremy L Thompson return 0; 12352f86a920SJeremy L Thompson } 12362f86a920SJeremy L Thompson 12372f86a920SJeremy L Thompson /** 12382f86a920SJeremy L Thompson @brief Set CeedTensorContract of a CeedBasis 12392f86a920SJeremy L Thompson 12402f86a920SJeremy L Thompson @param[out] basis CeedBasis 12412f86a920SJeremy L Thompson @param contract CeedTensorContract to set 12422f86a920SJeremy L Thompson 12432f86a920SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 12442f86a920SJeremy L Thompson 12452f86a920SJeremy L Thompson @ref Advanced 12462f86a920SJeremy L Thompson **/ 12471d102b48SJeremy L Thompson int CeedBasisSetTensorContract(CeedBasis basis, CeedTensorContract *contract) { 12482f86a920SJeremy L Thompson basis->contract = *contract; 12492f86a920SJeremy L Thompson return 0; 12502f86a920SJeremy L Thompson } 12512f86a920SJeremy L Thompson 12522f86a920SJeremy L Thompson /** 1253a8de75f0Sjeremylt @brief Get dimension for given CeedElemTopology 1254a8de75f0Sjeremylt 1255a8de75f0Sjeremylt @param topo CeedElemTopology 12564ce2993fSjeremylt @param[out] dim Variable to store dimension of topology 1257a8de75f0Sjeremylt 1258a8de75f0Sjeremylt @return An error code: 0 - success, otherwise - failure 1259a8de75f0Sjeremylt 126023617272Sjeremylt @ref Advanced 1261a8de75f0Sjeremylt **/ 1262a8de75f0Sjeremylt int CeedBasisGetTopologyDimension(CeedElemTopology topo, CeedInt *dim) { 1263a8de75f0Sjeremylt *dim = (CeedInt) topo >> 16; 1264a8de75f0Sjeremylt return 0; 1265a8de75f0Sjeremylt }; 1266a8de75f0Sjeremylt 1267a8de75f0Sjeremylt /** 1268b11c1e72Sjeremylt @brief Destroy a CeedBasis 1269b11c1e72Sjeremylt 1270b11c1e72Sjeremylt @param basis CeedBasis to destroy 1271b11c1e72Sjeremylt 1272b11c1e72Sjeremylt @return An error code: 0 - success, otherwise - failure 1273dfdf5a53Sjeremylt 1274dfdf5a53Sjeremylt @ref Basic 1275b11c1e72Sjeremylt **/ 1276d7b241e6Sjeremylt int CeedBasisDestroy(CeedBasis *basis) { 1277d7b241e6Sjeremylt int ierr; 1278d7b241e6Sjeremylt 12791d102b48SJeremy L Thompson if (!*basis || --(*basis)->refcount > 0) 12801d102b48SJeremy L Thompson return 0; 1281d7b241e6Sjeremylt if ((*basis)->Destroy) { 1282d7b241e6Sjeremylt ierr = (*basis)->Destroy(*basis); CeedChk(ierr); 1283d7b241e6Sjeremylt } 1284d7b241e6Sjeremylt ierr = CeedFree(&(*basis)->interp1d); CeedChk(ierr); 1285d7b241e6Sjeremylt ierr = CeedFree(&(*basis)->grad1d); CeedChk(ierr); 1286d7b241e6Sjeremylt ierr = CeedFree(&(*basis)->qref1d); CeedChk(ierr); 1287d7b241e6Sjeremylt ierr = CeedFree(&(*basis)->qweight1d); CeedChk(ierr); 1288d7b241e6Sjeremylt ierr = CeedDestroy(&(*basis)->ceed); CeedChk(ierr); 1289d7b241e6Sjeremylt ierr = CeedFree(basis); CeedChk(ierr); 1290d7b241e6Sjeremylt return 0; 1291d7b241e6Sjeremylt } 1292d7b241e6Sjeremylt 129333e6becaSjeremylt /// @cond DOXYGEN_SKIP 12948795c945Sjeremylt // Indicate that the quadrature points are collocated with the nodes 1295783c99b3SValeria Barra CeedBasis CEED_BASIS_COLLOCATED = &ceed_basis_collocated; 129633e6becaSjeremylt /// @endcond 1297d7b241e6Sjeremylt /// @} 1298