1eaf62fffSJeremy L Thompson // Copyright (c) 2017, Lawrence Livermore National Security, LLC. Produced at 2eaf62fffSJeremy L Thompson // the Lawrence Livermore National Laboratory. LLNL-CODE-734707. All Rights 3eaf62fffSJeremy L Thompson // reserved. See files LICENSE and NOTICE for details. 4eaf62fffSJeremy L Thompson // 5eaf62fffSJeremy L Thompson // This file is part of CEED, a collection of benchmarks, miniapps, software 6eaf62fffSJeremy L Thompson // libraries and APIs for efficient high-order finite element and spectral 7eaf62fffSJeremy L Thompson // element discretizations for exascale applications. For more information and 8eaf62fffSJeremy L Thompson // source code availability see http://github.com/ceed. 9eaf62fffSJeremy L Thompson // 10eaf62fffSJeremy L Thompson // The CEED research is supported by the Exascale Computing Project 17-SC-20-SC, 11eaf62fffSJeremy L Thompson // a collaborative effort of two U.S. Department of Energy organizations (Office 12eaf62fffSJeremy L Thompson // of Science and the National Nuclear Security Administration) responsible for 13eaf62fffSJeremy L Thompson // the planning and preparation of a capable exascale ecosystem, including 14eaf62fffSJeremy L Thompson // software, applications, hardware, advanced system engineering and early 15eaf62fffSJeremy L Thompson // testbed platforms, in support of the nation's exascale computing imperative. 16eaf62fffSJeremy L Thompson 17eaf62fffSJeremy L Thompson #include <ceed/ceed.h> 18eaf62fffSJeremy L Thompson #include <ceed/backend.h> 19eaf62fffSJeremy L Thompson #include <ceed-impl.h> 20eaf62fffSJeremy L Thompson #include <math.h> 21eaf62fffSJeremy L Thompson #include <stdbool.h> 22eaf62fffSJeremy L Thompson #include <stdio.h> 23eaf62fffSJeremy L Thompson #include <string.h> 24eaf62fffSJeremy L Thompson 25eaf62fffSJeremy L Thompson /// @file 26eaf62fffSJeremy L Thompson /// Implementation of CeedOperator preconditioning interfaces 27eaf62fffSJeremy L Thompson 28eaf62fffSJeremy L Thompson /// ---------------------------------------------------------------------------- 29eaf62fffSJeremy L Thompson /// CeedOperator Library Internal Preconditioning Functions 30eaf62fffSJeremy L Thompson /// ---------------------------------------------------------------------------- 31eaf62fffSJeremy L Thompson /// @addtogroup CeedOperatorDeveloper 32eaf62fffSJeremy L Thompson /// @{ 33eaf62fffSJeremy L Thompson 34eaf62fffSJeremy L Thompson /** 35eaf62fffSJeremy L Thompson @brief Duplicate a CeedOperator with a reference Ceed to fallback for advanced 36eaf62fffSJeremy L Thompson CeedOperator functionality 37eaf62fffSJeremy L Thompson 38eaf62fffSJeremy L Thompson @param op CeedOperator to create fallback for 39eaf62fffSJeremy L Thompson 40eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 41eaf62fffSJeremy L Thompson 42eaf62fffSJeremy L Thompson @ref Developer 43eaf62fffSJeremy L Thompson **/ 44eaf62fffSJeremy L Thompson int CeedOperatorCreateFallback(CeedOperator op) { 45eaf62fffSJeremy L Thompson int ierr; 46eaf62fffSJeremy L Thompson 47eaf62fffSJeremy L Thompson // Fallback Ceed 48eaf62fffSJeremy L Thompson const char *resource, *fallback_resource; 49eaf62fffSJeremy L Thompson ierr = CeedGetResource(op->ceed, &resource); CeedChk(ierr); 50eaf62fffSJeremy L Thompson ierr = CeedGetOperatorFallbackResource(op->ceed, &fallback_resource); 51eaf62fffSJeremy L Thompson CeedChk(ierr); 52eaf62fffSJeremy L Thompson if (!strcmp(resource, fallback_resource)) 53eaf62fffSJeremy L Thompson // LCOV_EXCL_START 54eaf62fffSJeremy L Thompson return CeedError(op->ceed, CEED_ERROR_UNSUPPORTED, 55eaf62fffSJeremy L Thompson "Backend %s cannot create an operator" 56eaf62fffSJeremy L Thompson "fallback to resource %s", resource, fallback_resource); 57eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 58eaf62fffSJeremy L Thompson 59eaf62fffSJeremy L Thompson // Fallback Ceed 60eaf62fffSJeremy L Thompson Ceed ceed_ref; 61eaf62fffSJeremy L Thompson if (!op->ceed->op_fallback_ceed) { 62eaf62fffSJeremy L Thompson ierr = CeedInit(fallback_resource, &ceed_ref); CeedChk(ierr); 63eaf62fffSJeremy L Thompson ceed_ref->op_fallback_parent = op->ceed; 64eaf62fffSJeremy L Thompson ceed_ref->Error = op->ceed->Error; 65eaf62fffSJeremy L Thompson op->ceed->op_fallback_ceed = ceed_ref; 66eaf62fffSJeremy L Thompson } 67eaf62fffSJeremy L Thompson ceed_ref = op->ceed->op_fallback_ceed; 68eaf62fffSJeremy L Thompson 69eaf62fffSJeremy L Thompson // Clone Op 70eaf62fffSJeremy L Thompson CeedOperator op_ref; 71eaf62fffSJeremy L Thompson ierr = CeedCalloc(1, &op_ref); CeedChk(ierr); 72eaf62fffSJeremy L Thompson memcpy(op_ref, op, sizeof(*op_ref)); 73eaf62fffSJeremy L Thompson op_ref->data = NULL; 74f04ea552SJeremy L Thompson op_ref->is_interface_setup = false; 75f04ea552SJeremy L Thompson op_ref->is_backend_setup = false; 76eaf62fffSJeremy L Thompson op_ref->ceed = ceed_ref; 77eaf62fffSJeremy L Thompson ierr = ceed_ref->OperatorCreate(op_ref); CeedChk(ierr); 78*480fae85SJeremy L Thompson ierr = CeedQFunctionAssemblyDataReferenceCopy(op->qf_assembled, 79*480fae85SJeremy L Thompson &op_ref->qf_assembled); CeedChk(ierr); 80eaf62fffSJeremy L Thompson op->op_fallback = op_ref; 81eaf62fffSJeremy L Thompson 82eaf62fffSJeremy L Thompson // Clone QF 83eaf62fffSJeremy L Thompson CeedQFunction qf_ref; 84eaf62fffSJeremy L Thompson ierr = CeedCalloc(1, &qf_ref); CeedChk(ierr); 85eaf62fffSJeremy L Thompson memcpy(qf_ref, (op->qf), sizeof(*qf_ref)); 86eaf62fffSJeremy L Thompson qf_ref->data = NULL; 87eaf62fffSJeremy L Thompson qf_ref->ceed = ceed_ref; 88eaf62fffSJeremy L Thompson ierr = ceed_ref->QFunctionCreate(qf_ref); CeedChk(ierr); 89eaf62fffSJeremy L Thompson op_ref->qf = qf_ref; 90eaf62fffSJeremy L Thompson op->qf_fallback = qf_ref; 91eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 92eaf62fffSJeremy L Thompson } 93eaf62fffSJeremy L Thompson 94eaf62fffSJeremy L Thompson /** 95eaf62fffSJeremy L Thompson @brief Select correct basis matrix pointer based on CeedEvalMode 96eaf62fffSJeremy L Thompson 97eaf62fffSJeremy L Thompson @param[in] eval_mode Current basis evaluation mode 98eaf62fffSJeremy L Thompson @param[in] identity Pointer to identity matrix 99eaf62fffSJeremy L Thompson @param[in] interp Pointer to interpolation matrix 100eaf62fffSJeremy L Thompson @param[in] grad Pointer to gradient matrix 101eaf62fffSJeremy L Thompson @param[out] basis_ptr Basis pointer to set 102eaf62fffSJeremy L Thompson 103eaf62fffSJeremy L Thompson @ref Developer 104eaf62fffSJeremy L Thompson **/ 105eaf62fffSJeremy L Thompson static inline void CeedOperatorGetBasisPointer(CeedEvalMode eval_mode, 106eaf62fffSJeremy L Thompson const CeedScalar *identity, const CeedScalar *interp, 107eaf62fffSJeremy L Thompson const CeedScalar *grad, const CeedScalar **basis_ptr) { 108eaf62fffSJeremy L Thompson switch (eval_mode) { 109eaf62fffSJeremy L Thompson case CEED_EVAL_NONE: 110eaf62fffSJeremy L Thompson *basis_ptr = identity; 111eaf62fffSJeremy L Thompson break; 112eaf62fffSJeremy L Thompson case CEED_EVAL_INTERP: 113eaf62fffSJeremy L Thompson *basis_ptr = interp; 114eaf62fffSJeremy L Thompson break; 115eaf62fffSJeremy L Thompson case CEED_EVAL_GRAD: 116eaf62fffSJeremy L Thompson *basis_ptr = grad; 117eaf62fffSJeremy L Thompson break; 118eaf62fffSJeremy L Thompson case CEED_EVAL_WEIGHT: 119eaf62fffSJeremy L Thompson case CEED_EVAL_DIV: 120eaf62fffSJeremy L Thompson case CEED_EVAL_CURL: 121eaf62fffSJeremy L Thompson break; // Caught by QF Assembly 122eaf62fffSJeremy L Thompson } 123eaf62fffSJeremy L Thompson } 124eaf62fffSJeremy L Thompson 125eaf62fffSJeremy L Thompson /** 126eaf62fffSJeremy L Thompson @brief Create point block restriction for active operator field 127eaf62fffSJeremy L Thompson 128eaf62fffSJeremy L Thompson @param[in] rstr Original CeedElemRestriction for active field 129eaf62fffSJeremy L Thompson @param[out] pointblock_rstr Address of the variable where the newly created 130eaf62fffSJeremy L Thompson CeedElemRestriction will be stored 131eaf62fffSJeremy L Thompson 132eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 133eaf62fffSJeremy L Thompson 134eaf62fffSJeremy L Thompson @ref Developer 135eaf62fffSJeremy L Thompson **/ 136eaf62fffSJeremy L Thompson static int CeedOperatorCreateActivePointBlockRestriction( 137eaf62fffSJeremy L Thompson CeedElemRestriction rstr, 138eaf62fffSJeremy L Thompson CeedElemRestriction *pointblock_rstr) { 139eaf62fffSJeremy L Thompson int ierr; 140eaf62fffSJeremy L Thompson Ceed ceed; 141eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetCeed(rstr, &ceed); CeedChk(ierr); 142eaf62fffSJeremy L Thompson const CeedInt *offsets; 143eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetOffsets(rstr, CEED_MEM_HOST, &offsets); 144eaf62fffSJeremy L Thompson CeedChk(ierr); 145eaf62fffSJeremy L Thompson 146eaf62fffSJeremy L Thompson // Expand offsets 147eaf62fffSJeremy L Thompson CeedInt num_elem, num_comp, elem_size, comp_stride, max = 1, 148eaf62fffSJeremy L Thompson *pointblock_offsets; 149eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetNumElements(rstr, &num_elem); CeedChk(ierr); 150eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetNumComponents(rstr, &num_comp); CeedChk(ierr); 151eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetElementSize(rstr, &elem_size); CeedChk(ierr); 152eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetCompStride(rstr, &comp_stride); CeedChk(ierr); 153eaf62fffSJeremy L Thompson CeedInt shift = num_comp; 154eaf62fffSJeremy L Thompson if (comp_stride != 1) 155eaf62fffSJeremy L Thompson shift *= num_comp; 156eaf62fffSJeremy L Thompson ierr = CeedCalloc(num_elem*elem_size, &pointblock_offsets); 157eaf62fffSJeremy L Thompson CeedChk(ierr); 158eaf62fffSJeremy L Thompson for (CeedInt i = 0; i < num_elem*elem_size; i++) { 159eaf62fffSJeremy L Thompson pointblock_offsets[i] = offsets[i]*shift; 160eaf62fffSJeremy L Thompson if (pointblock_offsets[i] > max) 161eaf62fffSJeremy L Thompson max = pointblock_offsets[i]; 162eaf62fffSJeremy L Thompson } 163eaf62fffSJeremy L Thompson 164eaf62fffSJeremy L Thompson // Create new restriction 165eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionCreate(ceed, num_elem, elem_size, num_comp*num_comp, 166eaf62fffSJeremy L Thompson 1, max + num_comp*num_comp, CEED_MEM_HOST, 167eaf62fffSJeremy L Thompson CEED_OWN_POINTER, pointblock_offsets, pointblock_rstr); 168eaf62fffSJeremy L Thompson CeedChk(ierr); 169eaf62fffSJeremy L Thompson 170eaf62fffSJeremy L Thompson // Cleanup 171eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionRestoreOffsets(rstr, &offsets); CeedChk(ierr); 172eaf62fffSJeremy L Thompson 173eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 174eaf62fffSJeremy L Thompson } 175eaf62fffSJeremy L Thompson 176eaf62fffSJeremy L Thompson /** 177eaf62fffSJeremy L Thompson @brief Core logic for assembling operator diagonal or point block diagonal 178eaf62fffSJeremy L Thompson 179eaf62fffSJeremy L Thompson @param[in] op CeedOperator to assemble point block diagonal 180eaf62fffSJeremy L Thompson @param[in] request Address of CeedRequest for non-blocking completion, else 181eaf62fffSJeremy L Thompson CEED_REQUEST_IMMEDIATE 182eaf62fffSJeremy L Thompson @param[in] is_pointblock Boolean flag to assemble diagonal or point block diagonal 183eaf62fffSJeremy L Thompson @param[out] assembled CeedVector to store assembled diagonal 184eaf62fffSJeremy L Thompson 185eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 186eaf62fffSJeremy L Thompson 187eaf62fffSJeremy L Thompson @ref Developer 188eaf62fffSJeremy L Thompson **/ 189eaf62fffSJeremy L Thompson static inline int CeedSingleOperatorAssembleAddDiagonal(CeedOperator op, 190eaf62fffSJeremy L Thompson CeedRequest *request, const bool is_pointblock, CeedVector assembled) { 191eaf62fffSJeremy L Thompson int ierr; 192eaf62fffSJeremy L Thompson Ceed ceed; 193eaf62fffSJeremy L Thompson ierr = CeedOperatorGetCeed(op, &ceed); CeedChk(ierr); 194eaf62fffSJeremy L Thompson 195eaf62fffSJeremy L Thompson // Assemble QFunction 196eaf62fffSJeremy L Thompson CeedQFunction qf; 197eaf62fffSJeremy L Thompson ierr = CeedOperatorGetQFunction(op, &qf); CeedChk(ierr); 198eaf62fffSJeremy L Thompson CeedInt num_input_fields, num_output_fields; 199eaf62fffSJeremy L Thompson ierr= CeedQFunctionGetNumArgs(qf, &num_input_fields, &num_output_fields); 200eaf62fffSJeremy L Thompson CeedChk(ierr); 201eaf62fffSJeremy L Thompson CeedVector assembled_qf; 202eaf62fffSJeremy L Thompson CeedElemRestriction rstr; 20370a7ffb3SJeremy L Thompson ierr = CeedOperatorLinearAssembleQFunctionBuildOrUpdate(op, &assembled_qf, 20470a7ffb3SJeremy L Thompson &rstr, request); CeedChk(ierr); 205eaf62fffSJeremy L Thompson CeedInt layout[3]; 206eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetELayout(rstr, &layout); CeedChk(ierr); 207eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionDestroy(&rstr); CeedChk(ierr); 208eaf62fffSJeremy L Thompson CeedScalar max_norm = 0; 209eaf62fffSJeremy L Thompson ierr = CeedVectorNorm(assembled_qf, CEED_NORM_MAX, &max_norm); CeedChk(ierr); 210eaf62fffSJeremy L Thompson 211eaf62fffSJeremy L Thompson // Determine active input basis 212eaf62fffSJeremy L Thompson CeedOperatorField *op_fields; 213eaf62fffSJeremy L Thompson CeedQFunctionField *qf_fields; 2147e7773b5SJeremy L Thompson ierr = CeedOperatorGetFields(op, NULL, &op_fields, NULL, NULL); CeedChk(ierr); 2157e7773b5SJeremy L Thompson ierr = CeedQFunctionGetFields(qf, NULL, &qf_fields, NULL, NULL); CeedChk(ierr); 216eaf62fffSJeremy L Thompson CeedInt num_eval_mode_in = 0, num_comp, dim = 1; 217eaf62fffSJeremy L Thompson CeedEvalMode *eval_mode_in = NULL; 218eaf62fffSJeremy L Thompson CeedBasis basis_in = NULL; 219eaf62fffSJeremy L Thompson CeedElemRestriction rstr_in = NULL; 220eaf62fffSJeremy L Thompson for (CeedInt i=0; i<num_input_fields; i++) { 221eaf62fffSJeremy L Thompson CeedVector vec; 222eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetVector(op_fields[i], &vec); CeedChk(ierr); 223eaf62fffSJeremy L Thompson if (vec == CEED_VECTOR_ACTIVE) { 224eaf62fffSJeremy L Thompson CeedElemRestriction rstr; 225eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetBasis(op_fields[i], &basis_in); CeedChk(ierr); 226eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumComponents(basis_in, &num_comp); CeedChk(ierr); 227eaf62fffSJeremy L Thompson ierr = CeedBasisGetDimension(basis_in, &dim); CeedChk(ierr); 228eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetElemRestriction(op_fields[i], &rstr); CeedChk(ierr); 229eaf62fffSJeremy L Thompson if (rstr_in && rstr_in != rstr) 230eaf62fffSJeremy L Thompson // LCOV_EXCL_START 231eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_BACKEND, 232eaf62fffSJeremy L Thompson "Multi-field non-composite operator diagonal assembly not supported"); 233eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 234eaf62fffSJeremy L Thompson rstr_in = rstr; 235eaf62fffSJeremy L Thompson CeedEvalMode eval_mode; 236eaf62fffSJeremy L Thompson ierr = CeedQFunctionFieldGetEvalMode(qf_fields[i], &eval_mode); CeedChk(ierr); 237eaf62fffSJeremy L Thompson switch (eval_mode) { 238eaf62fffSJeremy L Thompson case CEED_EVAL_NONE: 239eaf62fffSJeremy L Thompson case CEED_EVAL_INTERP: 240eaf62fffSJeremy L Thompson ierr = CeedRealloc(num_eval_mode_in + 1, &eval_mode_in); CeedChk(ierr); 241eaf62fffSJeremy L Thompson eval_mode_in[num_eval_mode_in] = eval_mode; 242eaf62fffSJeremy L Thompson num_eval_mode_in += 1; 243eaf62fffSJeremy L Thompson break; 244eaf62fffSJeremy L Thompson case CEED_EVAL_GRAD: 245eaf62fffSJeremy L Thompson ierr = CeedRealloc(num_eval_mode_in + dim, &eval_mode_in); CeedChk(ierr); 246eaf62fffSJeremy L Thompson for (CeedInt d=0; d<dim; d++) 247eaf62fffSJeremy L Thompson eval_mode_in[num_eval_mode_in+d] = eval_mode; 248eaf62fffSJeremy L Thompson num_eval_mode_in += dim; 249eaf62fffSJeremy L Thompson break; 250eaf62fffSJeremy L Thompson case CEED_EVAL_WEIGHT: 251eaf62fffSJeremy L Thompson case CEED_EVAL_DIV: 252eaf62fffSJeremy L Thompson case CEED_EVAL_CURL: 253eaf62fffSJeremy L Thompson break; // Caught by QF Assembly 254eaf62fffSJeremy L Thompson } 255eaf62fffSJeremy L Thompson } 256eaf62fffSJeremy L Thompson } 257eaf62fffSJeremy L Thompson 258eaf62fffSJeremy L Thompson // Determine active output basis 2597e7773b5SJeremy L Thompson ierr = CeedOperatorGetFields(op, NULL, NULL, NULL, &op_fields); CeedChk(ierr); 2607e7773b5SJeremy L Thompson ierr = CeedQFunctionGetFields(qf, NULL, NULL, NULL, &qf_fields); CeedChk(ierr); 261eaf62fffSJeremy L Thompson CeedInt num_eval_mode_out = 0; 262eaf62fffSJeremy L Thompson CeedEvalMode *eval_mode_out = NULL; 263eaf62fffSJeremy L Thompson CeedBasis basis_out = NULL; 264eaf62fffSJeremy L Thompson CeedElemRestriction rstr_out = NULL; 265eaf62fffSJeremy L Thompson for (CeedInt i=0; i<num_output_fields; i++) { 266eaf62fffSJeremy L Thompson CeedVector vec; 267eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetVector(op_fields[i], &vec); CeedChk(ierr); 268eaf62fffSJeremy L Thompson if (vec == CEED_VECTOR_ACTIVE) { 269eaf62fffSJeremy L Thompson CeedElemRestriction rstr; 270eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetBasis(op_fields[i], &basis_out); CeedChk(ierr); 271eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetElemRestriction(op_fields[i], &rstr); CeedChk(ierr); 272eaf62fffSJeremy L Thompson if (rstr_out && rstr_out != rstr) 273eaf62fffSJeremy L Thompson // LCOV_EXCL_START 274eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_BACKEND, 275eaf62fffSJeremy L Thompson "Multi-field non-composite operator diagonal assembly not supported"); 276eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 277eaf62fffSJeremy L Thompson rstr_out = rstr; 278eaf62fffSJeremy L Thompson CeedEvalMode eval_mode; 279eaf62fffSJeremy L Thompson ierr = CeedQFunctionFieldGetEvalMode(qf_fields[i], &eval_mode); CeedChk(ierr); 280eaf62fffSJeremy L Thompson switch (eval_mode) { 281eaf62fffSJeremy L Thompson case CEED_EVAL_NONE: 282eaf62fffSJeremy L Thompson case CEED_EVAL_INTERP: 283eaf62fffSJeremy L Thompson ierr = CeedRealloc(num_eval_mode_out + 1, &eval_mode_out); CeedChk(ierr); 284eaf62fffSJeremy L Thompson eval_mode_out[num_eval_mode_out] = eval_mode; 285eaf62fffSJeremy L Thompson num_eval_mode_out += 1; 286eaf62fffSJeremy L Thompson break; 287eaf62fffSJeremy L Thompson case CEED_EVAL_GRAD: 288eaf62fffSJeremy L Thompson ierr = CeedRealloc(num_eval_mode_out + dim, &eval_mode_out); CeedChk(ierr); 289eaf62fffSJeremy L Thompson for (CeedInt d=0; d<dim; d++) 290eaf62fffSJeremy L Thompson eval_mode_out[num_eval_mode_out+d] = eval_mode; 291eaf62fffSJeremy L Thompson num_eval_mode_out += dim; 292eaf62fffSJeremy L Thompson break; 293eaf62fffSJeremy L Thompson case CEED_EVAL_WEIGHT: 294eaf62fffSJeremy L Thompson case CEED_EVAL_DIV: 295eaf62fffSJeremy L Thompson case CEED_EVAL_CURL: 296eaf62fffSJeremy L Thompson break; // Caught by QF Assembly 297eaf62fffSJeremy L Thompson } 298eaf62fffSJeremy L Thompson } 299eaf62fffSJeremy L Thompson } 300eaf62fffSJeremy L Thompson 301eaf62fffSJeremy L Thompson // Assemble point block diagonal restriction, if needed 302eaf62fffSJeremy L Thompson CeedElemRestriction diag_rstr = rstr_out; 303eaf62fffSJeremy L Thompson if (is_pointblock) { 304eaf62fffSJeremy L Thompson ierr = CeedOperatorCreateActivePointBlockRestriction(rstr_out, &diag_rstr); 305eaf62fffSJeremy L Thompson CeedChk(ierr); 306eaf62fffSJeremy L Thompson } 307eaf62fffSJeremy L Thompson 308eaf62fffSJeremy L Thompson // Create diagonal vector 309eaf62fffSJeremy L Thompson CeedVector elem_diag; 310eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionCreateVector(diag_rstr, NULL, &elem_diag); 311eaf62fffSJeremy L Thompson CeedChk(ierr); 312eaf62fffSJeremy L Thompson 313eaf62fffSJeremy L Thompson // Assemble element operator diagonals 3149c774eddSJeremy L Thompson CeedScalar *elem_diag_array; 3159c774eddSJeremy L Thompson const CeedScalar *assembled_qf_array; 316eaf62fffSJeremy L Thompson ierr = CeedVectorSetValue(elem_diag, 0.0); CeedChk(ierr); 317eaf62fffSJeremy L Thompson ierr = CeedVectorGetArray(elem_diag, CEED_MEM_HOST, &elem_diag_array); 318eaf62fffSJeremy L Thompson CeedChk(ierr); 3199c774eddSJeremy L Thompson ierr = CeedVectorGetArrayRead(assembled_qf, CEED_MEM_HOST, &assembled_qf_array); 320eaf62fffSJeremy L Thompson CeedChk(ierr); 321eaf62fffSJeremy L Thompson CeedInt num_elem, num_nodes, num_qpts; 322eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetNumElements(diag_rstr, &num_elem); CeedChk(ierr); 323eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumNodes(basis_in, &num_nodes); CeedChk(ierr); 324eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumQuadraturePoints(basis_in, &num_qpts); CeedChk(ierr); 325eaf62fffSJeremy L Thompson // Basis matrices 326eaf62fffSJeremy L Thompson const CeedScalar *interp_in, *interp_out, *grad_in, *grad_out; 327eaf62fffSJeremy L Thompson CeedScalar *identity = NULL; 328eaf62fffSJeremy L Thompson bool evalNone = false; 329eaf62fffSJeremy L Thompson for (CeedInt i=0; i<num_eval_mode_in; i++) 330eaf62fffSJeremy L Thompson evalNone = evalNone || (eval_mode_in[i] == CEED_EVAL_NONE); 331eaf62fffSJeremy L Thompson for (CeedInt i=0; i<num_eval_mode_out; i++) 332eaf62fffSJeremy L Thompson evalNone = evalNone || (eval_mode_out[i] == CEED_EVAL_NONE); 333eaf62fffSJeremy L Thompson if (evalNone) { 334eaf62fffSJeremy L Thompson ierr = CeedCalloc(num_qpts*num_nodes, &identity); CeedChk(ierr); 335eaf62fffSJeremy L Thompson for (CeedInt i=0; i<(num_nodes<num_qpts?num_nodes:num_qpts); i++) 336eaf62fffSJeremy L Thompson identity[i*num_nodes+i] = 1.0; 337eaf62fffSJeremy L Thompson } 338eaf62fffSJeremy L Thompson ierr = CeedBasisGetInterp(basis_in, &interp_in); CeedChk(ierr); 339eaf62fffSJeremy L Thompson ierr = CeedBasisGetInterp(basis_out, &interp_out); CeedChk(ierr); 340eaf62fffSJeremy L Thompson ierr = CeedBasisGetGrad(basis_in, &grad_in); CeedChk(ierr); 341eaf62fffSJeremy L Thompson ierr = CeedBasisGetGrad(basis_out, &grad_out); CeedChk(ierr); 342eaf62fffSJeremy L Thompson // Compute the diagonal of B^T D B 343eaf62fffSJeremy L Thompson // Each element 344eaf62fffSJeremy L Thompson const CeedScalar qf_value_bound = max_norm*100*CEED_EPSILON; 345eaf62fffSJeremy L Thompson for (CeedInt e=0; e<num_elem; e++) { 346eaf62fffSJeremy L Thompson CeedInt d_out = -1; 347eaf62fffSJeremy L Thompson // Each basis eval mode pair 348eaf62fffSJeremy L Thompson for (CeedInt e_out=0; e_out<num_eval_mode_out; e_out++) { 349eaf62fffSJeremy L Thompson const CeedScalar *bt = NULL; 350eaf62fffSJeremy L Thompson if (eval_mode_out[e_out] == CEED_EVAL_GRAD) 351eaf62fffSJeremy L Thompson d_out += 1; 352eaf62fffSJeremy L Thompson CeedOperatorGetBasisPointer(eval_mode_out[e_out], identity, interp_out, 353eaf62fffSJeremy L Thompson &grad_out[d_out*num_qpts*num_nodes], &bt); 354eaf62fffSJeremy L Thompson CeedInt d_in = -1; 355eaf62fffSJeremy L Thompson for (CeedInt e_in=0; e_in<num_eval_mode_in; e_in++) { 356eaf62fffSJeremy L Thompson const CeedScalar *b = NULL; 357eaf62fffSJeremy L Thompson if (eval_mode_in[e_in] == CEED_EVAL_GRAD) 358eaf62fffSJeremy L Thompson d_in += 1; 359eaf62fffSJeremy L Thompson CeedOperatorGetBasisPointer(eval_mode_in[e_in], identity, interp_in, 360eaf62fffSJeremy L Thompson &grad_in[d_in*num_qpts*num_nodes], &b); 361eaf62fffSJeremy L Thompson // Each component 362eaf62fffSJeremy L Thompson for (CeedInt c_out=0; c_out<num_comp; c_out++) 363eaf62fffSJeremy L Thompson // Each qpoint/node pair 364eaf62fffSJeremy L Thompson for (CeedInt q=0; q<num_qpts; q++) 365eaf62fffSJeremy L Thompson if (is_pointblock) { 366eaf62fffSJeremy L Thompson // Point Block Diagonal 367eaf62fffSJeremy L Thompson for (CeedInt c_in=0; c_in<num_comp; c_in++) { 368eaf62fffSJeremy L Thompson const CeedScalar qf_value = 369eaf62fffSJeremy L Thompson assembled_qf_array[q*layout[0] + (((e_in*num_comp+c_in)* 370eaf62fffSJeremy L Thompson num_eval_mode_out+e_out)*num_comp+c_out)*layout[1] + e*layout[2]]; 371eaf62fffSJeremy L Thompson if (fabs(qf_value) > qf_value_bound) 372eaf62fffSJeremy L Thompson for (CeedInt n=0; n<num_nodes; n++) 373eaf62fffSJeremy L Thompson elem_diag_array[((e*num_comp+c_out)*num_comp+c_in)*num_nodes+n] += 374eaf62fffSJeremy L Thompson bt[q*num_nodes+n] * qf_value * b[q*num_nodes+n]; 375eaf62fffSJeremy L Thompson } 376eaf62fffSJeremy L Thompson } else { 377eaf62fffSJeremy L Thompson // Diagonal Only 378eaf62fffSJeremy L Thompson const CeedScalar qf_value = 379eaf62fffSJeremy L Thompson assembled_qf_array[q*layout[0] + (((e_in*num_comp+c_out)* 380eaf62fffSJeremy L Thompson num_eval_mode_out+e_out)*num_comp+c_out)*layout[1] + e*layout[2]]; 381eaf62fffSJeremy L Thompson if (fabs(qf_value) > qf_value_bound) 382eaf62fffSJeremy L Thompson for (CeedInt n=0; n<num_nodes; n++) 383eaf62fffSJeremy L Thompson elem_diag_array[(e*num_comp+c_out)*num_nodes+n] += 384eaf62fffSJeremy L Thompson bt[q*num_nodes+n] * qf_value * b[q*num_nodes+n]; 385eaf62fffSJeremy L Thompson } 386eaf62fffSJeremy L Thompson } 387eaf62fffSJeremy L Thompson } 388eaf62fffSJeremy L Thompson } 389eaf62fffSJeremy L Thompson ierr = CeedVectorRestoreArray(elem_diag, &elem_diag_array); CeedChk(ierr); 3909c774eddSJeremy L Thompson ierr = CeedVectorRestoreArrayRead(assembled_qf, &assembled_qf_array); 3919c774eddSJeremy L Thompson CeedChk(ierr); 392eaf62fffSJeremy L Thompson 393eaf62fffSJeremy L Thompson // Assemble local operator diagonal 394eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionApply(diag_rstr, CEED_TRANSPOSE, elem_diag, 395eaf62fffSJeremy L Thompson assembled, request); CeedChk(ierr); 396eaf62fffSJeremy L Thompson 397eaf62fffSJeremy L Thompson // Cleanup 398eaf62fffSJeremy L Thompson if (is_pointblock) { 399eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionDestroy(&diag_rstr); CeedChk(ierr); 400eaf62fffSJeremy L Thompson } 401eaf62fffSJeremy L Thompson ierr = CeedVectorDestroy(&assembled_qf); CeedChk(ierr); 402eaf62fffSJeremy L Thompson ierr = CeedVectorDestroy(&elem_diag); CeedChk(ierr); 403eaf62fffSJeremy L Thompson ierr = CeedFree(&eval_mode_in); CeedChk(ierr); 404eaf62fffSJeremy L Thompson ierr = CeedFree(&eval_mode_out); CeedChk(ierr); 405eaf62fffSJeremy L Thompson ierr = CeedFree(&identity); CeedChk(ierr); 406eaf62fffSJeremy L Thompson 407eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 408eaf62fffSJeremy L Thompson } 409eaf62fffSJeremy L Thompson 410eaf62fffSJeremy L Thompson /** 411eaf62fffSJeremy L Thompson @brief Core logic for assembling composite operator diagonal 412eaf62fffSJeremy L Thompson 413eaf62fffSJeremy L Thompson @param[in] op CeedOperator to assemble point block diagonal 414eaf62fffSJeremy L Thompson @param[in] request Address of CeedRequest for non-blocking completion, else 415eaf62fffSJeremy L Thompson CEED_REQUEST_IMMEDIATE 416eaf62fffSJeremy L Thompson @param[in] is_pointblock Boolean flag to assemble diagonal or point block diagonal 417eaf62fffSJeremy L Thompson @param[out] assembled CeedVector to store assembled diagonal 418eaf62fffSJeremy L Thompson 419eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 420eaf62fffSJeremy L Thompson 421eaf62fffSJeremy L Thompson @ref Developer 422eaf62fffSJeremy L Thompson **/ 423eaf62fffSJeremy L Thompson static inline int CeedCompositeOperatorLinearAssembleAddDiagonal( 424eaf62fffSJeremy L Thompson CeedOperator op, CeedRequest *request, const bool is_pointblock, 425eaf62fffSJeremy L Thompson CeedVector assembled) { 426eaf62fffSJeremy L Thompson int ierr; 427eaf62fffSJeremy L Thompson CeedInt num_sub; 428eaf62fffSJeremy L Thompson CeedOperator *suboperators; 429eaf62fffSJeremy L Thompson ierr = CeedOperatorGetNumSub(op, &num_sub); CeedChk(ierr); 430eaf62fffSJeremy L Thompson ierr = CeedOperatorGetSubList(op, &suboperators); CeedChk(ierr); 431eaf62fffSJeremy L Thompson for (CeedInt i = 0; i < num_sub; i++) { 432eaf62fffSJeremy L Thompson ierr = CeedSingleOperatorAssembleAddDiagonal(suboperators[i], request, 433eaf62fffSJeremy L Thompson is_pointblock, assembled); CeedChk(ierr); 434eaf62fffSJeremy L Thompson } 435eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 436eaf62fffSJeremy L Thompson } 437eaf62fffSJeremy L Thompson 438eaf62fffSJeremy L Thompson /** 439eaf62fffSJeremy L Thompson @brief Build nonzero pattern for non-composite operator 440eaf62fffSJeremy L Thompson 441eaf62fffSJeremy L Thompson Users should generally use CeedOperatorLinearAssembleSymbolic() 442eaf62fffSJeremy L Thompson 443eaf62fffSJeremy L Thompson @param[in] op CeedOperator to assemble nonzero pattern 444eaf62fffSJeremy L Thompson @param[in] offset Offset for number of entries 445eaf62fffSJeremy L Thompson @param[out] rows Row number for each entry 446eaf62fffSJeremy L Thompson @param[out] cols Column number for each entry 447eaf62fffSJeremy L Thompson 448eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 449eaf62fffSJeremy L Thompson 450eaf62fffSJeremy L Thompson @ref Developer 451eaf62fffSJeremy L Thompson **/ 452eaf62fffSJeremy L Thompson static int CeedSingleOperatorAssembleSymbolic(CeedOperator op, CeedInt offset, 453eaf62fffSJeremy L Thompson CeedInt *rows, CeedInt *cols) { 454eaf62fffSJeremy L Thompson int ierr; 455eaf62fffSJeremy L Thompson Ceed ceed = op->ceed; 456f04ea552SJeremy L Thompson if (op->is_composite) 457eaf62fffSJeremy L Thompson // LCOV_EXCL_START 458eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_UNSUPPORTED, 459eaf62fffSJeremy L Thompson "Composite operator not supported"); 460eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 461eaf62fffSJeremy L Thompson 462eaf62fffSJeremy L Thompson CeedElemRestriction rstr_in; 463eaf62fffSJeremy L Thompson ierr = CeedOperatorGetActiveElemRestriction(op, &rstr_in); CeedChk(ierr); 464e79b91d9SJeremy L Thompson CeedSize num_nodes; 465e79b91d9SJeremy L Thompson CeedInt num_elem, elem_size, num_comp; 466eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetNumElements(rstr_in, &num_elem); CeedChk(ierr); 467eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetElementSize(rstr_in, &elem_size); CeedChk(ierr); 468eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetLVectorSize(rstr_in, &num_nodes); CeedChk(ierr); 469eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetNumComponents(rstr_in, &num_comp); CeedChk(ierr); 470eaf62fffSJeremy L Thompson CeedInt layout_er[3]; 471eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetELayout(rstr_in, &layout_er); CeedChk(ierr); 472eaf62fffSJeremy L Thompson 473eaf62fffSJeremy L Thompson CeedInt local_num_entries = elem_size*num_comp * elem_size*num_comp * num_elem; 474eaf62fffSJeremy L Thompson 475eaf62fffSJeremy L Thompson // Determine elem_dof relation 476eaf62fffSJeremy L Thompson CeedVector index_vec; 477eaf62fffSJeremy L Thompson ierr = CeedVectorCreate(ceed, num_nodes, &index_vec); CeedChk(ierr); 478eaf62fffSJeremy L Thompson CeedScalar *array; 4799c774eddSJeremy L Thompson ierr = CeedVectorGetArrayWrite(index_vec, CEED_MEM_HOST, &array); CeedChk(ierr); 480eaf62fffSJeremy L Thompson for (CeedInt i = 0; i < num_nodes; ++i) { 481eaf62fffSJeremy L Thompson array[i] = i; 482eaf62fffSJeremy L Thompson } 483eaf62fffSJeremy L Thompson ierr = CeedVectorRestoreArray(index_vec, &array); CeedChk(ierr); 484eaf62fffSJeremy L Thompson CeedVector elem_dof; 485eaf62fffSJeremy L Thompson ierr = CeedVectorCreate(ceed, num_elem * elem_size * num_comp, &elem_dof); 486eaf62fffSJeremy L Thompson CeedChk(ierr); 487eaf62fffSJeremy L Thompson ierr = CeedVectorSetValue(elem_dof, 0.0); CeedChk(ierr); 488eaf62fffSJeremy L Thompson CeedElemRestrictionApply(rstr_in, CEED_NOTRANSPOSE, index_vec, 489eaf62fffSJeremy L Thompson elem_dof, CEED_REQUEST_IMMEDIATE); CeedChk(ierr); 490eaf62fffSJeremy L Thompson const CeedScalar *elem_dof_a; 491eaf62fffSJeremy L Thompson ierr = CeedVectorGetArrayRead(elem_dof, CEED_MEM_HOST, &elem_dof_a); 492eaf62fffSJeremy L Thompson CeedChk(ierr); 493eaf62fffSJeremy L Thompson ierr = CeedVectorDestroy(&index_vec); CeedChk(ierr); 494eaf62fffSJeremy L Thompson 495eaf62fffSJeremy L Thompson // Determine i, j locations for element matrices 496eaf62fffSJeremy L Thompson CeedInt count = 0; 497eaf62fffSJeremy L Thompson for (int e = 0; e < num_elem; ++e) { 498eaf62fffSJeremy L Thompson for (int comp_in = 0; comp_in < num_comp; ++comp_in) { 499eaf62fffSJeremy L Thompson for (int comp_out = 0; comp_out < num_comp; ++comp_out) { 500eaf62fffSJeremy L Thompson for (int i = 0; i < elem_size; ++i) { 501eaf62fffSJeremy L Thompson for (int j = 0; j < elem_size; ++j) { 502eaf62fffSJeremy L Thompson const CeedInt elem_dof_index_row = (i)*layout_er[0] + 503eaf62fffSJeremy L Thompson (comp_out)*layout_er[1] + e*layout_er[2]; 504eaf62fffSJeremy L Thompson const CeedInt elem_dof_index_col = (j)*layout_er[0] + 505eaf62fffSJeremy L Thompson (comp_in)*layout_er[1] + e*layout_er[2]; 506eaf62fffSJeremy L Thompson 507eaf62fffSJeremy L Thompson const CeedInt row = elem_dof_a[elem_dof_index_row]; 508eaf62fffSJeremy L Thompson const CeedInt col = elem_dof_a[elem_dof_index_col]; 509eaf62fffSJeremy L Thompson 510eaf62fffSJeremy L Thompson rows[offset + count] = row; 511eaf62fffSJeremy L Thompson cols[offset + count] = col; 512eaf62fffSJeremy L Thompson count++; 513eaf62fffSJeremy L Thompson } 514eaf62fffSJeremy L Thompson } 515eaf62fffSJeremy L Thompson } 516eaf62fffSJeremy L Thompson } 517eaf62fffSJeremy L Thompson } 518eaf62fffSJeremy L Thompson if (count != local_num_entries) 519eaf62fffSJeremy L Thompson // LCOV_EXCL_START 520eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_MAJOR, "Error computing assembled entries"); 521eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 522eaf62fffSJeremy L Thompson ierr = CeedVectorRestoreArrayRead(elem_dof, &elem_dof_a); CeedChk(ierr); 523eaf62fffSJeremy L Thompson ierr = CeedVectorDestroy(&elem_dof); CeedChk(ierr); 524eaf62fffSJeremy L Thompson 525eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 526eaf62fffSJeremy L Thompson } 527eaf62fffSJeremy L Thompson 528eaf62fffSJeremy L Thompson /** 529eaf62fffSJeremy L Thompson @brief Assemble nonzero entries for non-composite operator 530eaf62fffSJeremy L Thompson 531eaf62fffSJeremy L Thompson Users should generally use CeedOperatorLinearAssemble() 532eaf62fffSJeremy L Thompson 533eaf62fffSJeremy L Thompson @param[in] op CeedOperator to assemble 534eaf62fffSJeremy L Thompson @param[out] offset Offest for number of entries 535eaf62fffSJeremy L Thompson @param[out] values Values to assemble into matrix 536eaf62fffSJeremy L Thompson 537eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 538eaf62fffSJeremy L Thompson 539eaf62fffSJeremy L Thompson @ref Developer 540eaf62fffSJeremy L Thompson **/ 541eaf62fffSJeremy L Thompson static int CeedSingleOperatorAssemble(CeedOperator op, CeedInt offset, 542eaf62fffSJeremy L Thompson CeedVector values) { 543eaf62fffSJeremy L Thompson int ierr; 544eaf62fffSJeremy L Thompson Ceed ceed = op->ceed; 545f04ea552SJeremy L Thompson if (op->is_composite) 546eaf62fffSJeremy L Thompson // LCOV_EXCL_START 547eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_UNSUPPORTED, 548eaf62fffSJeremy L Thompson "Composite operator not supported"); 549eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 550eaf62fffSJeremy L Thompson 551eaf62fffSJeremy L Thompson // Assemble QFunction 552eaf62fffSJeremy L Thompson CeedQFunction qf; 553eaf62fffSJeremy L Thompson ierr = CeedOperatorGetQFunction(op, &qf); CeedChk(ierr); 554eaf62fffSJeremy L Thompson CeedVector assembled_qf; 555eaf62fffSJeremy L Thompson CeedElemRestriction rstr_q; 55670a7ffb3SJeremy L Thompson ierr = CeedOperatorLinearAssembleQFunctionBuildOrUpdate( 557eaf62fffSJeremy L Thompson op, &assembled_qf, &rstr_q, CEED_REQUEST_IMMEDIATE); CeedChk(ierr); 558eaf62fffSJeremy L Thompson 5591f9221feSJeremy L Thompson CeedSize qf_length; 560eaf62fffSJeremy L Thompson ierr = CeedVectorGetLength(assembled_qf, &qf_length); CeedChk(ierr); 561eaf62fffSJeremy L Thompson 5627e7773b5SJeremy L Thompson CeedInt num_input_fields, num_output_fields; 563eaf62fffSJeremy L Thompson CeedOperatorField *input_fields; 564eaf62fffSJeremy L Thompson CeedOperatorField *output_fields; 5657e7773b5SJeremy L Thompson ierr = CeedOperatorGetFields(op, &num_input_fields, &input_fields, 5667e7773b5SJeremy L Thompson &num_output_fields, &output_fields); CeedChk(ierr); 567eaf62fffSJeremy L Thompson 568eaf62fffSJeremy L Thompson // Determine active input basis 569eaf62fffSJeremy L Thompson CeedQFunctionField *qf_fields; 5707e7773b5SJeremy L Thompson ierr = CeedQFunctionGetFields(qf, NULL, &qf_fields, NULL, NULL); CeedChk(ierr); 571eaf62fffSJeremy L Thompson CeedInt num_eval_mode_in = 0, dim = 1; 572eaf62fffSJeremy L Thompson CeedEvalMode *eval_mode_in = NULL; 573eaf62fffSJeremy L Thompson CeedBasis basis_in = NULL; 574eaf62fffSJeremy L Thompson CeedElemRestriction rstr_in = NULL; 575eaf62fffSJeremy L Thompson for (CeedInt i=0; i<num_input_fields; i++) { 576eaf62fffSJeremy L Thompson CeedVector vec; 577eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetVector(input_fields[i], &vec); CeedChk(ierr); 578eaf62fffSJeremy L Thompson if (vec == CEED_VECTOR_ACTIVE) { 579eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetBasis(input_fields[i], &basis_in); 580eaf62fffSJeremy L Thompson CeedChk(ierr); 581eaf62fffSJeremy L Thompson ierr = CeedBasisGetDimension(basis_in, &dim); CeedChk(ierr); 582eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetElemRestriction(input_fields[i], &rstr_in); 583eaf62fffSJeremy L Thompson CeedChk(ierr); 584eaf62fffSJeremy L Thompson CeedEvalMode eval_mode; 585eaf62fffSJeremy L Thompson ierr = CeedQFunctionFieldGetEvalMode(qf_fields[i], &eval_mode); 586eaf62fffSJeremy L Thompson CeedChk(ierr); 587eaf62fffSJeremy L Thompson switch (eval_mode) { 588eaf62fffSJeremy L Thompson case CEED_EVAL_NONE: 589eaf62fffSJeremy L Thompson case CEED_EVAL_INTERP: 590eaf62fffSJeremy L Thompson ierr = CeedRealloc(num_eval_mode_in + 1, &eval_mode_in); CeedChk(ierr); 591eaf62fffSJeremy L Thompson eval_mode_in[num_eval_mode_in] = eval_mode; 592eaf62fffSJeremy L Thompson num_eval_mode_in += 1; 593eaf62fffSJeremy L Thompson break; 594eaf62fffSJeremy L Thompson case CEED_EVAL_GRAD: 595eaf62fffSJeremy L Thompson ierr = CeedRealloc(num_eval_mode_in + dim, &eval_mode_in); CeedChk(ierr); 596eaf62fffSJeremy L Thompson for (CeedInt d=0; d<dim; d++) { 597eaf62fffSJeremy L Thompson eval_mode_in[num_eval_mode_in+d] = eval_mode; 598eaf62fffSJeremy L Thompson } 599eaf62fffSJeremy L Thompson num_eval_mode_in += dim; 600eaf62fffSJeremy L Thompson break; 601eaf62fffSJeremy L Thompson case CEED_EVAL_WEIGHT: 602eaf62fffSJeremy L Thompson case CEED_EVAL_DIV: 603eaf62fffSJeremy L Thompson case CEED_EVAL_CURL: 604eaf62fffSJeremy L Thompson break; // Caught by QF Assembly 605eaf62fffSJeremy L Thompson } 606eaf62fffSJeremy L Thompson } 607eaf62fffSJeremy L Thompson } 608eaf62fffSJeremy L Thompson 609eaf62fffSJeremy L Thompson // Determine active output basis 6107e7773b5SJeremy L Thompson ierr = CeedQFunctionGetFields(qf, NULL, NULL, NULL, &qf_fields); CeedChk(ierr); 611eaf62fffSJeremy L Thompson CeedInt num_eval_mode_out = 0; 612eaf62fffSJeremy L Thompson CeedEvalMode *eval_mode_out = NULL; 613eaf62fffSJeremy L Thompson CeedBasis basis_out = NULL; 614eaf62fffSJeremy L Thompson CeedElemRestriction rstr_out = NULL; 615eaf62fffSJeremy L Thompson for (CeedInt i=0; i<num_output_fields; i++) { 616eaf62fffSJeremy L Thompson CeedVector vec; 617eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetVector(output_fields[i], &vec); CeedChk(ierr); 618eaf62fffSJeremy L Thompson if (vec == CEED_VECTOR_ACTIVE) { 619eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetBasis(output_fields[i], &basis_out); 620eaf62fffSJeremy L Thompson CeedChk(ierr); 621eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetElemRestriction(output_fields[i], &rstr_out); 622eaf62fffSJeremy L Thompson CeedChk(ierr); 623eaf62fffSJeremy L Thompson CeedEvalMode eval_mode; 624eaf62fffSJeremy L Thompson ierr = CeedQFunctionFieldGetEvalMode(qf_fields[i], &eval_mode); 625eaf62fffSJeremy L Thompson CeedChk(ierr); 626eaf62fffSJeremy L Thompson switch (eval_mode) { 627eaf62fffSJeremy L Thompson case CEED_EVAL_NONE: 628eaf62fffSJeremy L Thompson case CEED_EVAL_INTERP: 629eaf62fffSJeremy L Thompson ierr = CeedRealloc(num_eval_mode_out + 1, &eval_mode_out); CeedChk(ierr); 630eaf62fffSJeremy L Thompson eval_mode_out[num_eval_mode_out] = eval_mode; 631eaf62fffSJeremy L Thompson num_eval_mode_out += 1; 632eaf62fffSJeremy L Thompson break; 633eaf62fffSJeremy L Thompson case CEED_EVAL_GRAD: 634eaf62fffSJeremy L Thompson ierr = CeedRealloc(num_eval_mode_out + dim, &eval_mode_out); CeedChk(ierr); 635eaf62fffSJeremy L Thompson for (CeedInt d=0; d<dim; d++) { 636eaf62fffSJeremy L Thompson eval_mode_out[num_eval_mode_out+d] = eval_mode; 637eaf62fffSJeremy L Thompson } 638eaf62fffSJeremy L Thompson num_eval_mode_out += dim; 639eaf62fffSJeremy L Thompson break; 640eaf62fffSJeremy L Thompson case CEED_EVAL_WEIGHT: 641eaf62fffSJeremy L Thompson case CEED_EVAL_DIV: 642eaf62fffSJeremy L Thompson case CEED_EVAL_CURL: 643eaf62fffSJeremy L Thompson break; // Caught by QF Assembly 644eaf62fffSJeremy L Thompson } 645eaf62fffSJeremy L Thompson } 646eaf62fffSJeremy L Thompson } 647eaf62fffSJeremy L Thompson 648eaf62fffSJeremy L Thompson if (num_eval_mode_in == 0 || num_eval_mode_out == 0) 649eaf62fffSJeremy L Thompson // LCOV_EXCL_START 650eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_UNSUPPORTED, 651eaf62fffSJeremy L Thompson "Cannot assemble operator with out inputs/outputs"); 652eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 653eaf62fffSJeremy L Thompson 654eaf62fffSJeremy L Thompson CeedInt num_elem, elem_size, num_qpts, num_comp; 655eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetNumElements(rstr_in, &num_elem); CeedChk(ierr); 656eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetElementSize(rstr_in, &elem_size); CeedChk(ierr); 657eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetNumComponents(rstr_in, &num_comp); CeedChk(ierr); 658eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumQuadraturePoints(basis_in, &num_qpts); CeedChk(ierr); 659eaf62fffSJeremy L Thompson 660eaf62fffSJeremy L Thompson CeedInt local_num_entries = elem_size*num_comp * elem_size*num_comp * num_elem; 661eaf62fffSJeremy L Thompson 662eaf62fffSJeremy L Thompson // loop over elements and put in data structure 663eaf62fffSJeremy L Thompson const CeedScalar *interp_in, *grad_in; 664eaf62fffSJeremy L Thompson ierr = CeedBasisGetInterp(basis_in, &interp_in); CeedChk(ierr); 665eaf62fffSJeremy L Thompson ierr = CeedBasisGetGrad(basis_in, &grad_in); CeedChk(ierr); 666eaf62fffSJeremy L Thompson 667eaf62fffSJeremy L Thompson const CeedScalar *assembled_qf_array; 668eaf62fffSJeremy L Thompson ierr = CeedVectorGetArrayRead(assembled_qf, CEED_MEM_HOST, &assembled_qf_array); 669eaf62fffSJeremy L Thompson CeedChk(ierr); 670eaf62fffSJeremy L Thompson 671eaf62fffSJeremy L Thompson CeedInt layout_qf[3]; 672eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetELayout(rstr_q, &layout_qf); CeedChk(ierr); 673eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionDestroy(&rstr_q); CeedChk(ierr); 674eaf62fffSJeremy L Thompson 675eaf62fffSJeremy L Thompson // we store B_mat_in, B_mat_out, BTD, elem_mat in row-major order 676eaf62fffSJeremy L Thompson CeedScalar B_mat_in[(num_qpts * num_eval_mode_in) * elem_size]; 677eaf62fffSJeremy L Thompson CeedScalar B_mat_out[(num_qpts * num_eval_mode_out) * elem_size]; 678eaf62fffSJeremy L Thompson CeedScalar D_mat[num_eval_mode_out * num_eval_mode_in * 679eaf62fffSJeremy L Thompson num_qpts]; // logically 3-tensor 680eaf62fffSJeremy L Thompson CeedScalar BTD[elem_size * num_qpts*num_eval_mode_in]; 681eaf62fffSJeremy L Thompson CeedScalar elem_mat[elem_size * elem_size]; 682eaf62fffSJeremy L Thompson int count = 0; 683eaf62fffSJeremy L Thompson CeedScalar *vals; 6849c774eddSJeremy L Thompson ierr = CeedVectorGetArrayWrite(values, CEED_MEM_HOST, &vals); CeedChk(ierr); 685eaf62fffSJeremy L Thompson for (int e = 0; e < num_elem; ++e) { 686eaf62fffSJeremy L Thompson for (int comp_in = 0; comp_in < num_comp; ++comp_in) { 687eaf62fffSJeremy L Thompson for (int comp_out = 0; comp_out < num_comp; ++comp_out) { 688eaf62fffSJeremy L Thompson for (int ell = 0; ell < (num_qpts * num_eval_mode_in) * elem_size; ++ell) { 689eaf62fffSJeremy L Thompson B_mat_in[ell] = 0.0; 690eaf62fffSJeremy L Thompson } 691eaf62fffSJeremy L Thompson for (int ell = 0; ell < (num_qpts * num_eval_mode_out) * elem_size; ++ell) { 692eaf62fffSJeremy L Thompson B_mat_out[ell] = 0.0; 693eaf62fffSJeremy L Thompson } 694eaf62fffSJeremy L Thompson // Store block-diagonal D matrix as collection of small dense blocks 695eaf62fffSJeremy L Thompson for (int ell = 0; ell < num_eval_mode_in*num_eval_mode_out*num_qpts; ++ell) { 696eaf62fffSJeremy L Thompson D_mat[ell] = 0.0; 697eaf62fffSJeremy L Thompson } 698eaf62fffSJeremy L Thompson // form element matrix itself (for each block component) 699eaf62fffSJeremy L Thompson for (int ell = 0; ell < elem_size*elem_size; ++ell) { 700eaf62fffSJeremy L Thompson elem_mat[ell] = 0.0; 701eaf62fffSJeremy L Thompson } 702eaf62fffSJeremy L Thompson for (int q = 0; q < num_qpts; ++q) { 703eaf62fffSJeremy L Thompson for (int n = 0; n < elem_size; ++n) { 704eaf62fffSJeremy L Thompson CeedInt d_in = -1; 705eaf62fffSJeremy L Thompson for (int e_in = 0; e_in < num_eval_mode_in; ++e_in) { 706eaf62fffSJeremy L Thompson const int qq = num_eval_mode_in*q; 707eaf62fffSJeremy L Thompson if (eval_mode_in[e_in] == CEED_EVAL_INTERP) { 708eaf62fffSJeremy L Thompson B_mat_in[(qq+e_in)*elem_size + n] += interp_in[q * elem_size + n]; 709eaf62fffSJeremy L Thompson } else if (eval_mode_in[e_in] == CEED_EVAL_GRAD) { 710eaf62fffSJeremy L Thompson d_in += 1; 711eaf62fffSJeremy L Thompson B_mat_in[(qq+e_in)*elem_size + n] += 712eaf62fffSJeremy L Thompson grad_in[(d_in*num_qpts+q) * elem_size + n]; 713eaf62fffSJeremy L Thompson } else { 714eaf62fffSJeremy L Thompson // LCOV_EXCL_START 715eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_UNSUPPORTED, "Not implemented!"); 716eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 717eaf62fffSJeremy L Thompson } 718eaf62fffSJeremy L Thompson } 719eaf62fffSJeremy L Thompson CeedInt d_out = -1; 720eaf62fffSJeremy L Thompson for (int e_out = 0; e_out < num_eval_mode_out; ++e_out) { 721eaf62fffSJeremy L Thompson const int qq = num_eval_mode_out*q; 722eaf62fffSJeremy L Thompson if (eval_mode_out[e_out] == CEED_EVAL_INTERP) { 723eaf62fffSJeremy L Thompson B_mat_out[(qq+e_out)*elem_size + n] += interp_in[q * elem_size + n]; 724eaf62fffSJeremy L Thompson } else if (eval_mode_out[e_out] == CEED_EVAL_GRAD) { 725eaf62fffSJeremy L Thompson d_out += 1; 726eaf62fffSJeremy L Thompson B_mat_out[(qq+e_out)*elem_size + n] += 727eaf62fffSJeremy L Thompson grad_in[(d_out*num_qpts+q) * elem_size + n]; 728eaf62fffSJeremy L Thompson } else { 729eaf62fffSJeremy L Thompson // LCOV_EXCL_START 730eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_UNSUPPORTED, "Not implemented!"); 731eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 732eaf62fffSJeremy L Thompson } 733eaf62fffSJeremy L Thompson } 734eaf62fffSJeremy L Thompson } 735eaf62fffSJeremy L Thompson for (int ei = 0; ei < num_eval_mode_out; ++ei) { 736eaf62fffSJeremy L Thompson for (int ej = 0; ej < num_eval_mode_in; ++ej) { 737eaf62fffSJeremy L Thompson const int eval_mode_index = ((ei*num_comp+comp_in)*num_eval_mode_in+ej)*num_comp 738eaf62fffSJeremy L Thompson +comp_out; 739eaf62fffSJeremy L Thompson const int index = q*layout_qf[0] + eval_mode_index*layout_qf[1] + 740eaf62fffSJeremy L Thompson e*layout_qf[2]; 741eaf62fffSJeremy L Thompson D_mat[(ei*num_eval_mode_in+ej)*num_qpts + q] += assembled_qf_array[index]; 742eaf62fffSJeremy L Thompson } 743eaf62fffSJeremy L Thompson } 744eaf62fffSJeremy L Thompson } 745eaf62fffSJeremy L Thompson // Compute B^T*D 746eaf62fffSJeremy L Thompson for (int ell = 0; ell < elem_size*num_qpts*num_eval_mode_in; ++ell) { 747eaf62fffSJeremy L Thompson BTD[ell] = 0.0; 748eaf62fffSJeremy L Thompson } 749eaf62fffSJeremy L Thompson for (int j = 0; j<elem_size; ++j) { 750eaf62fffSJeremy L Thompson for (int q = 0; q<num_qpts; ++q) { 751eaf62fffSJeremy L Thompson int qq = num_eval_mode_out*q; 752eaf62fffSJeremy L Thompson for (int ei = 0; ei < num_eval_mode_in; ++ei) { 753eaf62fffSJeremy L Thompson for (int ej = 0; ej < num_eval_mode_out; ++ej) { 754eaf62fffSJeremy L Thompson BTD[j*(num_qpts*num_eval_mode_in) + (qq+ei)] += 755eaf62fffSJeremy L Thompson B_mat_out[(qq+ej)*elem_size + j] * D_mat[(ei*num_eval_mode_in+ej)*num_qpts + q]; 756eaf62fffSJeremy L Thompson } 757eaf62fffSJeremy L Thompson } 758eaf62fffSJeremy L Thompson } 759eaf62fffSJeremy L Thompson } 760eaf62fffSJeremy L Thompson 761eaf62fffSJeremy L Thompson ierr = CeedMatrixMultiply(ceed, BTD, B_mat_in, elem_mat, elem_size, 762eaf62fffSJeremy L Thompson elem_size, num_qpts*num_eval_mode_in); CeedChk(ierr); 763eaf62fffSJeremy L Thompson 764eaf62fffSJeremy L Thompson // put element matrix in coordinate data structure 765eaf62fffSJeremy L Thompson for (int i = 0; i < elem_size; ++i) { 766eaf62fffSJeremy L Thompson for (int j = 0; j < elem_size; ++j) { 767eaf62fffSJeremy L Thompson vals[offset + count] = elem_mat[i*elem_size + j]; 768eaf62fffSJeremy L Thompson count++; 769eaf62fffSJeremy L Thompson } 770eaf62fffSJeremy L Thompson } 771eaf62fffSJeremy L Thompson } 772eaf62fffSJeremy L Thompson } 773eaf62fffSJeremy L Thompson } 774eaf62fffSJeremy L Thompson if (count != local_num_entries) 775eaf62fffSJeremy L Thompson // LCOV_EXCL_START 776eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_MAJOR, "Error computing entries"); 777eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 778eaf62fffSJeremy L Thompson ierr = CeedVectorRestoreArray(values, &vals); CeedChk(ierr); 779eaf62fffSJeremy L Thompson 780eaf62fffSJeremy L Thompson ierr = CeedVectorRestoreArrayRead(assembled_qf, &assembled_qf_array); 781eaf62fffSJeremy L Thompson CeedChk(ierr); 782eaf62fffSJeremy L Thompson ierr = CeedVectorDestroy(&assembled_qf); CeedChk(ierr); 783eaf62fffSJeremy L Thompson ierr = CeedFree(&eval_mode_in); CeedChk(ierr); 784eaf62fffSJeremy L Thompson ierr = CeedFree(&eval_mode_out); CeedChk(ierr); 785eaf62fffSJeremy L Thompson 786eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 787eaf62fffSJeremy L Thompson } 788eaf62fffSJeremy L Thompson 789eaf62fffSJeremy L Thompson /** 790eaf62fffSJeremy L Thompson @brief Count number of entries for assembled CeedOperator 791eaf62fffSJeremy L Thompson 792eaf62fffSJeremy L Thompson @param[in] op CeedOperator to assemble 793eaf62fffSJeremy L Thompson @param[out] num_entries Number of entries in assembled representation 794eaf62fffSJeremy L Thompson 795eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 796eaf62fffSJeremy L Thompson 797eaf62fffSJeremy L Thompson @ref Utility 798eaf62fffSJeremy L Thompson **/ 799eaf62fffSJeremy L Thompson static int CeedSingleOperatorAssemblyCountEntries(CeedOperator op, 800eaf62fffSJeremy L Thompson CeedInt *num_entries) { 801eaf62fffSJeremy L Thompson int ierr; 802eaf62fffSJeremy L Thompson CeedElemRestriction rstr; 803eaf62fffSJeremy L Thompson CeedInt num_elem, elem_size, num_comp; 804eaf62fffSJeremy L Thompson 805f04ea552SJeremy L Thompson if (op->is_composite) 806eaf62fffSJeremy L Thompson // LCOV_EXCL_START 807eaf62fffSJeremy L Thompson return CeedError(op->ceed, CEED_ERROR_UNSUPPORTED, 808eaf62fffSJeremy L Thompson "Composite operator not supported"); 809eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 810eaf62fffSJeremy L Thompson ierr = CeedOperatorGetActiveElemRestriction(op, &rstr); CeedChk(ierr); 811eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetNumElements(rstr, &num_elem); CeedChk(ierr); 812eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetElementSize(rstr, &elem_size); CeedChk(ierr); 813eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetNumComponents(rstr, &num_comp); CeedChk(ierr); 814eaf62fffSJeremy L Thompson *num_entries = elem_size*num_comp * elem_size*num_comp * num_elem; 815eaf62fffSJeremy L Thompson 816eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 817eaf62fffSJeremy L Thompson } 818eaf62fffSJeremy L Thompson 819eaf62fffSJeremy L Thompson /** 820eaf62fffSJeremy L Thompson @brief Common code for creating a multigrid coarse operator and level 821eaf62fffSJeremy L Thompson transfer operators for a CeedOperator 822eaf62fffSJeremy L Thompson 823eaf62fffSJeremy L Thompson @param[in] op_fine Fine grid operator 824eaf62fffSJeremy L Thompson @param[in] p_mult_fine L-vector multiplicity in parallel gather/scatter 825eaf62fffSJeremy L Thompson @param[in] rstr_coarse Coarse grid restriction 826eaf62fffSJeremy L Thompson @param[in] basis_coarse Coarse grid active vector basis 827eaf62fffSJeremy L Thompson @param[in] basis_c_to_f Basis for coarse to fine interpolation 828eaf62fffSJeremy L Thompson @param[out] op_coarse Coarse grid operator 829eaf62fffSJeremy L Thompson @param[out] op_prolong Coarse to fine operator 830eaf62fffSJeremy L Thompson @param[out] op_restrict Fine to coarse operator 831eaf62fffSJeremy L Thompson 832eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 833eaf62fffSJeremy L Thompson 834eaf62fffSJeremy L Thompson @ref Developer 835eaf62fffSJeremy L Thompson **/ 836eaf62fffSJeremy L Thompson static int CeedSingleOperatorMultigridLevel(CeedOperator op_fine, 837eaf62fffSJeremy L Thompson CeedVector p_mult_fine, CeedElemRestriction rstr_coarse, CeedBasis basis_coarse, 838eaf62fffSJeremy L Thompson CeedBasis basis_c_to_f, CeedOperator *op_coarse, CeedOperator *op_prolong, 839eaf62fffSJeremy L Thompson CeedOperator *op_restrict) { 840eaf62fffSJeremy L Thompson int ierr; 841eaf62fffSJeremy L Thompson Ceed ceed; 842eaf62fffSJeremy L Thompson ierr = CeedOperatorGetCeed(op_fine, &ceed); CeedChk(ierr); 843eaf62fffSJeremy L Thompson 844eaf62fffSJeremy L Thompson // Check for composite operator 845eaf62fffSJeremy L Thompson bool is_composite; 846eaf62fffSJeremy L Thompson ierr = CeedOperatorIsComposite(op_fine, &is_composite); CeedChk(ierr); 847eaf62fffSJeremy L Thompson if (is_composite) 848eaf62fffSJeremy L Thompson // LCOV_EXCL_START 849eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_UNSUPPORTED, 850eaf62fffSJeremy L Thompson "Automatic multigrid setup for composite operators not supported"); 851eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 852eaf62fffSJeremy L Thompson 853eaf62fffSJeremy L Thompson // Coarse Grid 854eaf62fffSJeremy L Thompson ierr = CeedOperatorCreate(ceed, op_fine->qf, op_fine->dqf, op_fine->dqfT, 855eaf62fffSJeremy L Thompson op_coarse); CeedChk(ierr); 856eaf62fffSJeremy L Thompson CeedElemRestriction rstr_fine = NULL; 857eaf62fffSJeremy L Thompson // -- Clone input fields 858eaf62fffSJeremy L Thompson for (int i = 0; i < op_fine->qf->num_input_fields; i++) { 859eaf62fffSJeremy L Thompson if (op_fine->input_fields[i]->vec == CEED_VECTOR_ACTIVE) { 860eaf62fffSJeremy L Thompson rstr_fine = op_fine->input_fields[i]->elem_restr; 861eaf62fffSJeremy L Thompson ierr = CeedOperatorSetField(*op_coarse, op_fine->input_fields[i]->field_name, 862eaf62fffSJeremy L Thompson rstr_coarse, basis_coarse, CEED_VECTOR_ACTIVE); 863eaf62fffSJeremy L Thompson CeedChk(ierr); 864eaf62fffSJeremy L Thompson } else { 865eaf62fffSJeremy L Thompson ierr = CeedOperatorSetField(*op_coarse, op_fine->input_fields[i]->field_name, 866eaf62fffSJeremy L Thompson op_fine->input_fields[i]->elem_restr, 867eaf62fffSJeremy L Thompson op_fine->input_fields[i]->basis, 868eaf62fffSJeremy L Thompson op_fine->input_fields[i]->vec); CeedChk(ierr); 869eaf62fffSJeremy L Thompson } 870eaf62fffSJeremy L Thompson } 871eaf62fffSJeremy L Thompson // -- Clone output fields 872eaf62fffSJeremy L Thompson for (int i = 0; i < op_fine->qf->num_output_fields; i++) { 873eaf62fffSJeremy L Thompson if (op_fine->output_fields[i]->vec == CEED_VECTOR_ACTIVE) { 874eaf62fffSJeremy L Thompson ierr = CeedOperatorSetField(*op_coarse, op_fine->output_fields[i]->field_name, 875eaf62fffSJeremy L Thompson rstr_coarse, basis_coarse, CEED_VECTOR_ACTIVE); 876eaf62fffSJeremy L Thompson CeedChk(ierr); 877eaf62fffSJeremy L Thompson } else { 878eaf62fffSJeremy L Thompson ierr = CeedOperatorSetField(*op_coarse, op_fine->output_fields[i]->field_name, 879eaf62fffSJeremy L Thompson op_fine->output_fields[i]->elem_restr, 880eaf62fffSJeremy L Thompson op_fine->output_fields[i]->basis, 881eaf62fffSJeremy L Thompson op_fine->output_fields[i]->vec); CeedChk(ierr); 882eaf62fffSJeremy L Thompson } 883eaf62fffSJeremy L Thompson } 884eaf62fffSJeremy L Thompson 885eaf62fffSJeremy L Thompson // Multiplicity vector 886eaf62fffSJeremy L Thompson CeedVector mult_vec, mult_e_vec; 887eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionCreateVector(rstr_fine, &mult_vec, &mult_e_vec); 888eaf62fffSJeremy L Thompson CeedChk(ierr); 889eaf62fffSJeremy L Thompson ierr = CeedVectorSetValue(mult_e_vec, 0.0); CeedChk(ierr); 890eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionApply(rstr_fine, CEED_NOTRANSPOSE, p_mult_fine, 891eaf62fffSJeremy L Thompson mult_e_vec, CEED_REQUEST_IMMEDIATE); CeedChk(ierr); 892eaf62fffSJeremy L Thompson ierr = CeedVectorSetValue(mult_vec, 0.0); CeedChk(ierr); 893eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionApply(rstr_fine, CEED_TRANSPOSE, mult_e_vec, mult_vec, 894eaf62fffSJeremy L Thompson CEED_REQUEST_IMMEDIATE); CeedChk(ierr); 895eaf62fffSJeremy L Thompson ierr = CeedVectorDestroy(&mult_e_vec); CeedChk(ierr); 896eaf62fffSJeremy L Thompson ierr = CeedVectorReciprocal(mult_vec); CeedChk(ierr); 897eaf62fffSJeremy L Thompson 898eaf62fffSJeremy L Thompson // Restriction 899eaf62fffSJeremy L Thompson CeedInt num_comp; 900eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumComponents(basis_coarse, &num_comp); CeedChk(ierr); 901eaf62fffSJeremy L Thompson CeedQFunction qf_restrict; 902eaf62fffSJeremy L Thompson ierr = CeedQFunctionCreateInteriorByName(ceed, "Scale", &qf_restrict); 903eaf62fffSJeremy L Thompson CeedChk(ierr); 904eaf62fffSJeremy L Thompson CeedInt *num_comp_r_data; 905eaf62fffSJeremy L Thompson ierr = CeedCalloc(1, &num_comp_r_data); CeedChk(ierr); 906eaf62fffSJeremy L Thompson num_comp_r_data[0] = num_comp; 907eaf62fffSJeremy L Thompson CeedQFunctionContext ctx_r; 908eaf62fffSJeremy L Thompson ierr = CeedQFunctionContextCreate(ceed, &ctx_r); CeedChk(ierr); 909eaf62fffSJeremy L Thompson ierr = CeedQFunctionContextSetData(ctx_r, CEED_MEM_HOST, CEED_OWN_POINTER, 910eaf62fffSJeremy L Thompson sizeof(*num_comp_r_data), num_comp_r_data); 911eaf62fffSJeremy L Thompson CeedChk(ierr); 912eaf62fffSJeremy L Thompson ierr = CeedQFunctionSetContext(qf_restrict, ctx_r); CeedChk(ierr); 913eaf62fffSJeremy L Thompson ierr = CeedQFunctionContextDestroy(&ctx_r); CeedChk(ierr); 914eaf62fffSJeremy L Thompson ierr = CeedQFunctionAddInput(qf_restrict, "input", num_comp, CEED_EVAL_NONE); 915eaf62fffSJeremy L Thompson CeedChk(ierr); 916eaf62fffSJeremy L Thompson ierr = CeedQFunctionAddInput(qf_restrict, "scale", num_comp, CEED_EVAL_NONE); 917eaf62fffSJeremy L Thompson CeedChk(ierr); 918eaf62fffSJeremy L Thompson ierr = CeedQFunctionAddOutput(qf_restrict, "output", num_comp, 919eaf62fffSJeremy L Thompson CEED_EVAL_INTERP); CeedChk(ierr); 920eaf62fffSJeremy L Thompson 921eaf62fffSJeremy L Thompson ierr = CeedOperatorCreate(ceed, qf_restrict, CEED_QFUNCTION_NONE, 922eaf62fffSJeremy L Thompson CEED_QFUNCTION_NONE, op_restrict); 923eaf62fffSJeremy L Thompson CeedChk(ierr); 924eaf62fffSJeremy L Thompson ierr = CeedOperatorSetField(*op_restrict, "input", rstr_fine, 925eaf62fffSJeremy L Thompson CEED_BASIS_COLLOCATED, CEED_VECTOR_ACTIVE); 926eaf62fffSJeremy L Thompson CeedChk(ierr); 927eaf62fffSJeremy L Thompson ierr = CeedOperatorSetField(*op_restrict, "scale", rstr_fine, 928eaf62fffSJeremy L Thompson CEED_BASIS_COLLOCATED, mult_vec); 929eaf62fffSJeremy L Thompson CeedChk(ierr); 930eaf62fffSJeremy L Thompson ierr = CeedOperatorSetField(*op_restrict, "output", rstr_coarse, basis_c_to_f, 931eaf62fffSJeremy L Thompson CEED_VECTOR_ACTIVE); CeedChk(ierr); 932eaf62fffSJeremy L Thompson 933eaf62fffSJeremy L Thompson // Prolongation 934eaf62fffSJeremy L Thompson CeedQFunction qf_prolong; 935eaf62fffSJeremy L Thompson ierr = CeedQFunctionCreateInteriorByName(ceed, "Scale", &qf_prolong); 936eaf62fffSJeremy L Thompson CeedChk(ierr); 937eaf62fffSJeremy L Thompson CeedInt *num_comp_p_data; 938eaf62fffSJeremy L Thompson ierr = CeedCalloc(1, &num_comp_p_data); CeedChk(ierr); 939eaf62fffSJeremy L Thompson num_comp_p_data[0] = num_comp; 940eaf62fffSJeremy L Thompson CeedQFunctionContext ctx_p; 941eaf62fffSJeremy L Thompson ierr = CeedQFunctionContextCreate(ceed, &ctx_p); CeedChk(ierr); 942eaf62fffSJeremy L Thompson ierr = CeedQFunctionContextSetData(ctx_p, CEED_MEM_HOST, CEED_OWN_POINTER, 943eaf62fffSJeremy L Thompson sizeof(*num_comp_p_data), num_comp_p_data); 944eaf62fffSJeremy L Thompson CeedChk(ierr); 945eaf62fffSJeremy L Thompson ierr = CeedQFunctionSetContext(qf_prolong, ctx_p); CeedChk(ierr); 946eaf62fffSJeremy L Thompson ierr = CeedQFunctionContextDestroy(&ctx_p); CeedChk(ierr); 947eaf62fffSJeremy L Thompson ierr = CeedQFunctionAddInput(qf_prolong, "input", num_comp, CEED_EVAL_INTERP); 948eaf62fffSJeremy L Thompson CeedChk(ierr); 949eaf62fffSJeremy L Thompson ierr = CeedQFunctionAddInput(qf_prolong, "scale", num_comp, CEED_EVAL_NONE); 950eaf62fffSJeremy L Thompson CeedChk(ierr); 951eaf62fffSJeremy L Thompson ierr = CeedQFunctionAddOutput(qf_prolong, "output", num_comp, CEED_EVAL_NONE); 952eaf62fffSJeremy L Thompson CeedChk(ierr); 953eaf62fffSJeremy L Thompson 954eaf62fffSJeremy L Thompson ierr = CeedOperatorCreate(ceed, qf_prolong, CEED_QFUNCTION_NONE, 955eaf62fffSJeremy L Thompson CEED_QFUNCTION_NONE, op_prolong); 956eaf62fffSJeremy L Thompson CeedChk(ierr); 957eaf62fffSJeremy L Thompson ierr = CeedOperatorSetField(*op_prolong, "input", rstr_coarse, basis_c_to_f, 958eaf62fffSJeremy L Thompson CEED_VECTOR_ACTIVE); CeedChk(ierr); 959eaf62fffSJeremy L Thompson ierr = CeedOperatorSetField(*op_prolong, "scale", rstr_fine, 960eaf62fffSJeremy L Thompson CEED_BASIS_COLLOCATED, mult_vec); 961eaf62fffSJeremy L Thompson CeedChk(ierr); 962eaf62fffSJeremy L Thompson ierr = CeedOperatorSetField(*op_prolong, "output", rstr_fine, 963eaf62fffSJeremy L Thompson CEED_BASIS_COLLOCATED, CEED_VECTOR_ACTIVE); 964eaf62fffSJeremy L Thompson CeedChk(ierr); 965eaf62fffSJeremy L Thompson 966eaf62fffSJeremy L Thompson // Cleanup 967eaf62fffSJeremy L Thompson ierr = CeedVectorDestroy(&mult_vec); CeedChk(ierr); 968eaf62fffSJeremy L Thompson ierr = CeedBasisDestroy(&basis_c_to_f); CeedChk(ierr); 969eaf62fffSJeremy L Thompson ierr = CeedQFunctionDestroy(&qf_restrict); CeedChk(ierr); 970eaf62fffSJeremy L Thompson ierr = CeedQFunctionDestroy(&qf_prolong); CeedChk(ierr); 971eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 972eaf62fffSJeremy L Thompson } 973eaf62fffSJeremy L Thompson 974eaf62fffSJeremy L Thompson /** 975eaf62fffSJeremy L Thompson @brief Build 1D mass matrix and Laplacian with perturbation 976eaf62fffSJeremy L Thompson 977eaf62fffSJeremy L Thompson @param[in] interp_1d Interpolation matrix in one dimension 978eaf62fffSJeremy L Thompson @param[in] grad_1d Gradient matrix in one dimension 979eaf62fffSJeremy L Thompson @param[in] q_weight_1d Quadrature weights in one dimension 980eaf62fffSJeremy L Thompson @param[in] P_1d Number of basis nodes in one dimension 981eaf62fffSJeremy L Thompson @param[in] Q_1d Number of quadrature points in one dimension 982eaf62fffSJeremy L Thompson @param[in] dim Dimension of basis 983eaf62fffSJeremy L Thompson @param[out] mass Assembled mass matrix in one dimension 984eaf62fffSJeremy L Thompson @param[out] laplace Assembled perturbed Laplacian in one dimension 985eaf62fffSJeremy L Thompson 986eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 987eaf62fffSJeremy L Thompson 988eaf62fffSJeremy L Thompson @ref Developer 989eaf62fffSJeremy L Thompson **/ 990eaf62fffSJeremy L Thompson CeedPragmaOptimizeOff 991eaf62fffSJeremy L Thompson static int CeedBuildMassLaplace(const CeedScalar *interp_1d, 992eaf62fffSJeremy L Thompson const CeedScalar *grad_1d, 993eaf62fffSJeremy L Thompson const CeedScalar *q_weight_1d, CeedInt P_1d, 994eaf62fffSJeremy L Thompson CeedInt Q_1d, CeedInt dim, 995eaf62fffSJeremy L Thompson CeedScalar *mass, CeedScalar *laplace) { 996eaf62fffSJeremy L Thompson 997eaf62fffSJeremy L Thompson for (CeedInt i=0; i<P_1d; i++) 998eaf62fffSJeremy L Thompson for (CeedInt j=0; j<P_1d; j++) { 999eaf62fffSJeremy L Thompson CeedScalar sum = 0.0; 1000eaf62fffSJeremy L Thompson for (CeedInt k=0; k<Q_1d; k++) 1001eaf62fffSJeremy L Thompson sum += interp_1d[k*P_1d+i]*q_weight_1d[k]*interp_1d[k*P_1d+j]; 1002eaf62fffSJeremy L Thompson mass[i+j*P_1d] = sum; 1003eaf62fffSJeremy L Thompson } 1004eaf62fffSJeremy L Thompson // -- Laplacian 1005eaf62fffSJeremy L Thompson for (CeedInt i=0; i<P_1d; i++) 1006eaf62fffSJeremy L Thompson for (CeedInt j=0; j<P_1d; j++) { 1007eaf62fffSJeremy L Thompson CeedScalar sum = 0.0; 1008eaf62fffSJeremy L Thompson for (CeedInt k=0; k<Q_1d; k++) 1009eaf62fffSJeremy L Thompson sum += grad_1d[k*P_1d+i]*q_weight_1d[k]*grad_1d[k*P_1d+j]; 1010eaf62fffSJeremy L Thompson laplace[i+j*P_1d] = sum; 1011eaf62fffSJeremy L Thompson } 1012eaf62fffSJeremy L Thompson CeedScalar perturbation = dim>2 ? 1e-6 : 1e-4; 1013eaf62fffSJeremy L Thompson for (CeedInt i=0; i<P_1d; i++) 1014eaf62fffSJeremy L Thompson laplace[i+P_1d*i] += perturbation; 1015eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1016eaf62fffSJeremy L Thompson } 1017eaf62fffSJeremy L Thompson CeedPragmaOptimizeOn 1018eaf62fffSJeremy L Thompson 1019eaf62fffSJeremy L Thompson /// @} 1020eaf62fffSJeremy L Thompson 1021eaf62fffSJeremy L Thompson /// ---------------------------------------------------------------------------- 1022*480fae85SJeremy L Thompson /// CeedOperator Backend API 1023*480fae85SJeremy L Thompson /// ---------------------------------------------------------------------------- 1024*480fae85SJeremy L Thompson /// @addtogroup CeedOperatorBackend 1025*480fae85SJeremy L Thompson /// @{ 1026*480fae85SJeremy L Thompson 1027*480fae85SJeremy L Thompson /** 1028*480fae85SJeremy L Thompson @brief Create object holding CeedQFunction assembly data for CeedOperator 1029*480fae85SJeremy L Thompson 1030*480fae85SJeremy L Thompson @param[in] ceed A Ceed object where the CeedQFunctionAssemblyData will be created 1031*480fae85SJeremy L Thompson @param[out] data Address of the variable where the newly created 1032*480fae85SJeremy L Thompson CeedQFunctionAssemblyData will be stored 1033*480fae85SJeremy L Thompson 1034*480fae85SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1035*480fae85SJeremy L Thompson 1036*480fae85SJeremy L Thompson @ref Backend 1037*480fae85SJeremy L Thompson **/ 1038*480fae85SJeremy L Thompson int CeedQFunctionAssemblyDataCreate(Ceed ceed, 1039*480fae85SJeremy L Thompson CeedQFunctionAssemblyData *data) { 1040*480fae85SJeremy L Thompson int ierr; 1041*480fae85SJeremy L Thompson 1042*480fae85SJeremy L Thompson ierr = CeedCalloc(1, data); CeedChk(ierr); 1043*480fae85SJeremy L Thompson (*data)->ref_count = 1; 1044*480fae85SJeremy L Thompson (*data)->ceed = ceed; 1045*480fae85SJeremy L Thompson ierr = CeedReference(ceed); CeedChk(ierr); 1046*480fae85SJeremy L Thompson 1047*480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1048*480fae85SJeremy L Thompson } 1049*480fae85SJeremy L Thompson 1050*480fae85SJeremy L Thompson /** 1051*480fae85SJeremy L Thompson @brief Increment the reference counter for a CeedQFunctionAssemblyData 1052*480fae85SJeremy L Thompson 1053*480fae85SJeremy L Thompson @param data CeedQFunctionAssemblyData to increment the reference counter 1054*480fae85SJeremy L Thompson 1055*480fae85SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1056*480fae85SJeremy L Thompson 1057*480fae85SJeremy L Thompson @ref Backend 1058*480fae85SJeremy L Thompson **/ 1059*480fae85SJeremy L Thompson int CeedQFunctionAssemblyDataReference(CeedQFunctionAssemblyData data) { 1060*480fae85SJeremy L Thompson data->ref_count++; 1061*480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1062*480fae85SJeremy L Thompson } 1063*480fae85SJeremy L Thompson 1064*480fae85SJeremy L Thompson /** 1065*480fae85SJeremy L Thompson @brief Copy the pointer to a CeedQFunctionAssemblyData. Both pointers should 1066*480fae85SJeremy L Thompson be destroyed with `CeedCeedQFunctionAssemblyDataDestroy()`; 1067*480fae85SJeremy L Thompson Note: If `*data_copy` is non-NULL, then it is assumed that 1068*480fae85SJeremy L Thompson `*data_copy` is a pointer to a CeedQFunctionAssemblyData. This 1069*480fae85SJeremy L Thompson CeedQFunctionAssemblyData will be destroyed if `*data_copy` is 1070*480fae85SJeremy L Thompson the only reference to this CeedQFunctionAssemblyData. 1071*480fae85SJeremy L Thompson 1072*480fae85SJeremy L Thompson @param data CeedQFunctionAssemblyData to copy reference to 1073*480fae85SJeremy L Thompson @param[out] data_copy Variable to store copied reference 1074*480fae85SJeremy L Thompson 1075*480fae85SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1076*480fae85SJeremy L Thompson 1077*480fae85SJeremy L Thompson @ref Backend 1078*480fae85SJeremy L Thompson **/ 1079*480fae85SJeremy L Thompson int CeedQFunctionAssemblyDataReferenceCopy(CeedQFunctionAssemblyData data, 1080*480fae85SJeremy L Thompson CeedQFunctionAssemblyData *data_copy) { 1081*480fae85SJeremy L Thompson int ierr; 1082*480fae85SJeremy L Thompson 1083*480fae85SJeremy L Thompson ierr = CeedQFunctionAssemblyDataReference(data); CeedChk(ierr); 1084*480fae85SJeremy L Thompson ierr = CeedQFunctionAssemblyDataDestroy(data_copy); CeedChk(ierr); 1085*480fae85SJeremy L Thompson *data_copy = data; 1086*480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1087*480fae85SJeremy L Thompson } 1088*480fae85SJeremy L Thompson 1089*480fae85SJeremy L Thompson /** 1090*480fae85SJeremy L Thompson @brief Get setup status for internal objects for CeedQFunctionAssemblyData 1091*480fae85SJeremy L Thompson 1092*480fae85SJeremy L Thompson @param[in] data CeedQFunctionAssemblyData to retreive status 1093*480fae85SJeremy L Thompson @param[out] is_setup Boolean flag for setup status 1094*480fae85SJeremy L Thompson 1095*480fae85SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1096*480fae85SJeremy L Thompson 1097*480fae85SJeremy L Thompson @ref Backend 1098*480fae85SJeremy L Thompson **/ 1099*480fae85SJeremy L Thompson int CeedQFunctionAssemblyDataIsSetup(CeedQFunctionAssemblyData data, 1100*480fae85SJeremy L Thompson bool *is_setup) { 1101*480fae85SJeremy L Thompson *is_setup = data->is_setup; 1102*480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1103*480fae85SJeremy L Thompson } 1104*480fae85SJeremy L Thompson 1105*480fae85SJeremy L Thompson /** 1106*480fae85SJeremy L Thompson @brief Set internal objects for CeedQFunctionAssemblyData 1107*480fae85SJeremy L Thompson 1108*480fae85SJeremy L Thompson @param[in] data CeedQFunctionAssemblyData to set objects 1109*480fae85SJeremy L Thompson @param[in] vec CeedVector to store assembled CeedQFunction at quadrature points 1110*480fae85SJeremy L Thompson @param[in] rstr CeedElemRestriction for CeedVector containing assembled CeedQFunction 1111*480fae85SJeremy L Thompson 1112*480fae85SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1113*480fae85SJeremy L Thompson 1114*480fae85SJeremy L Thompson @ref Backend 1115*480fae85SJeremy L Thompson **/ 1116*480fae85SJeremy L Thompson int CeedQFunctionAssemblyDataSetObjects(CeedQFunctionAssemblyData data, 1117*480fae85SJeremy L Thompson CeedVector vec, CeedElemRestriction rstr) { 1118*480fae85SJeremy L Thompson int ierr; 1119*480fae85SJeremy L Thompson 1120*480fae85SJeremy L Thompson ierr = CeedVectorDestroy(&data->vec); CeedChk(ierr); 1121*480fae85SJeremy L Thompson data->vec = vec; 1122*480fae85SJeremy L Thompson 1123*480fae85SJeremy L Thompson ierr = CeedElemRestrictionDestroy(&data->rstr); CeedChk(ierr); 1124*480fae85SJeremy L Thompson data->rstr = rstr; 1125*480fae85SJeremy L Thompson 1126*480fae85SJeremy L Thompson data->is_setup = true; 1127*480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1128*480fae85SJeremy L Thompson } 1129*480fae85SJeremy L Thompson 1130*480fae85SJeremy L Thompson int CeedQFunctionAssemblyDataGetObjects(CeedQFunctionAssemblyData data, 1131*480fae85SJeremy L Thompson CeedVector *vec, CeedElemRestriction *rstr) { 1132*480fae85SJeremy L Thompson if (!data->is_setup) 1133*480fae85SJeremy L Thompson // LCOV_EXCL_START 1134*480fae85SJeremy L Thompson return CeedError(data->ceed, CEED_ERROR_INCOMPLETE, 1135*480fae85SJeremy L Thompson "Internal objects not set; must call CeedQFunctionAssemblyDataSetObjects first."); 1136*480fae85SJeremy L Thompson // LCOV_EXCL_STOP 1137*480fae85SJeremy L Thompson 1138*480fae85SJeremy L Thompson *vec = data->vec; 1139*480fae85SJeremy L Thompson *rstr = data->rstr; 1140*480fae85SJeremy L Thompson 1141*480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1142*480fae85SJeremy L Thompson } 1143*480fae85SJeremy L Thompson 1144*480fae85SJeremy L Thompson /** 1145*480fae85SJeremy L Thompson @brief Destroy CeedQFunctionAssemblyData 1146*480fae85SJeremy L Thompson 1147*480fae85SJeremy L Thompson @param[out] data CeedQFunctionAssemblyData to destroy 1148*480fae85SJeremy L Thompson 1149*480fae85SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1150*480fae85SJeremy L Thompson 1151*480fae85SJeremy L Thompson @ref Backend 1152*480fae85SJeremy L Thompson **/ 1153*480fae85SJeremy L Thompson int CeedQFunctionAssemblyDataDestroy(CeedQFunctionAssemblyData *data) { 1154*480fae85SJeremy L Thompson int ierr; 1155*480fae85SJeremy L Thompson 1156*480fae85SJeremy L Thompson if (!*data || --(*data)->ref_count > 0) return CEED_ERROR_SUCCESS; 1157*480fae85SJeremy L Thompson 1158*480fae85SJeremy L Thompson ierr = CeedDestroy(&(*data)->ceed); CeedChk(ierr); 1159*480fae85SJeremy L Thompson ierr = CeedVectorDestroy(&(*data)->vec); CeedChk(ierr); 1160*480fae85SJeremy L Thompson ierr = CeedElemRestrictionDestroy(&(*data)->rstr); CeedChk(ierr); 1161*480fae85SJeremy L Thompson 1162*480fae85SJeremy L Thompson ierr = CeedFree(data); CeedChk(ierr); 1163*480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1164*480fae85SJeremy L Thompson } 1165*480fae85SJeremy L Thompson 1166*480fae85SJeremy L Thompson /// @} 1167*480fae85SJeremy L Thompson 1168*480fae85SJeremy L Thompson /// ---------------------------------------------------------------------------- 1169eaf62fffSJeremy L Thompson /// CeedOperator Public API 1170eaf62fffSJeremy L Thompson /// ---------------------------------------------------------------------------- 1171eaf62fffSJeremy L Thompson /// @addtogroup CeedOperatorUser 1172eaf62fffSJeremy L Thompson /// @{ 1173eaf62fffSJeremy L Thompson 1174eaf62fffSJeremy L Thompson /** 1175eaf62fffSJeremy L Thompson @brief Assemble a linear CeedQFunction associated with a CeedOperator 1176eaf62fffSJeremy L Thompson 1177eaf62fffSJeremy L Thompson This returns a CeedVector containing a matrix at each quadrature point 1178eaf62fffSJeremy L Thompson providing the action of the CeedQFunction associated with the CeedOperator. 1179eaf62fffSJeremy L Thompson The vector 'assembled' is of shape 1180eaf62fffSJeremy L Thompson [num_elements, num_input_fields, num_output_fields, num_quad_points] 1181eaf62fffSJeremy L Thompson and contains column-major matrices representing the action of the 1182eaf62fffSJeremy L Thompson CeedQFunction for a corresponding quadrature point on an element. Inputs and 1183eaf62fffSJeremy L Thompson outputs are in the order provided by the user when adding CeedOperator fields. 1184eaf62fffSJeremy L Thompson For example, a CeedQFunction with inputs 'u' and 'gradu' and outputs 'gradv' and 1185eaf62fffSJeremy L Thompson 'v', provided in that order, would result in an assembled QFunction that 1186eaf62fffSJeremy L Thompson consists of (1 + dim) x (dim + 1) matrices at each quadrature point acting 1187eaf62fffSJeremy L Thompson on the input [u, du_0, du_1] and producing the output [dv_0, dv_1, v]. 1188eaf62fffSJeremy L Thompson 1189f04ea552SJeremy L Thompson Note: Calling this function asserts that setup is complete 1190f04ea552SJeremy L Thompson and sets the CeedOperator as immutable. 1191f04ea552SJeremy L Thompson 1192eaf62fffSJeremy L Thompson @param op CeedOperator to assemble CeedQFunction 1193eaf62fffSJeremy L Thompson @param[out] assembled CeedVector to store assembled CeedQFunction at 1194eaf62fffSJeremy L Thompson quadrature points 1195eaf62fffSJeremy L Thompson @param[out] rstr CeedElemRestriction for CeedVector containing assembled 1196eaf62fffSJeremy L Thompson CeedQFunction 1197eaf62fffSJeremy L Thompson @param request Address of CeedRequest for non-blocking completion, else 1198eaf62fffSJeremy L Thompson @ref CEED_REQUEST_IMMEDIATE 1199eaf62fffSJeremy L Thompson 1200eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1201eaf62fffSJeremy L Thompson 1202eaf62fffSJeremy L Thompson @ref User 1203eaf62fffSJeremy L Thompson **/ 1204eaf62fffSJeremy L Thompson int CeedOperatorLinearAssembleQFunction(CeedOperator op, CeedVector *assembled, 1205eaf62fffSJeremy L Thompson CeedElemRestriction *rstr, 1206eaf62fffSJeremy L Thompson CeedRequest *request) { 1207eaf62fffSJeremy L Thompson int ierr; 1208eaf62fffSJeremy L Thompson ierr = CeedOperatorCheckReady(op); CeedChk(ierr); 1209eaf62fffSJeremy L Thompson 1210eaf62fffSJeremy L Thompson // Backend version 1211eaf62fffSJeremy L Thompson if (op->LinearAssembleQFunction) { 121270a7ffb3SJeremy L Thompson ierr = op->LinearAssembleQFunction(op, assembled, rstr, request); 121370a7ffb3SJeremy L Thompson CeedChk(ierr); 1214eaf62fffSJeremy L Thompson } else { 1215eaf62fffSJeremy L Thompson // Fallback to reference Ceed 1216eaf62fffSJeremy L Thompson if (!op->op_fallback) { 1217eaf62fffSJeremy L Thompson ierr = CeedOperatorCreateFallback(op); CeedChk(ierr); 1218eaf62fffSJeremy L Thompson } 1219eaf62fffSJeremy L Thompson // Assemble 1220eaf62fffSJeremy L Thompson ierr = CeedOperatorLinearAssembleQFunction(op->op_fallback, assembled, 1221eaf62fffSJeremy L Thompson rstr, request); CeedChk(ierr); 122270a7ffb3SJeremy L Thompson } 1223eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1224eaf62fffSJeremy L Thompson } 122570a7ffb3SJeremy L Thompson 122670a7ffb3SJeremy L Thompson /** 122770a7ffb3SJeremy L Thompson @brief Assemble CeedQFunction and store result internall. Return copied 122870a7ffb3SJeremy L Thompson references of stored data to the caller. Caller is responsible for 122970a7ffb3SJeremy L Thompson ownership and destruction of the copied references. See also 123070a7ffb3SJeremy L Thompson @ref CeedOperatorLinearAssembleQFunction 123170a7ffb3SJeremy L Thompson 123270a7ffb3SJeremy L Thompson @param op CeedOperator to assemble CeedQFunction 123370a7ffb3SJeremy L Thompson @param assembled CeedVector to store assembled CeedQFunction at 123470a7ffb3SJeremy L Thompson quadrature points 123570a7ffb3SJeremy L Thompson @param rstr CeedElemRestriction for CeedVector containing assembled 123670a7ffb3SJeremy L Thompson CeedQFunction 123770a7ffb3SJeremy L Thompson @param request Address of CeedRequest for non-blocking completion, else 123870a7ffb3SJeremy L Thompson @ref CEED_REQUEST_IMMEDIATE 123970a7ffb3SJeremy L Thompson 124070a7ffb3SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 124170a7ffb3SJeremy L Thompson 124270a7ffb3SJeremy L Thompson @ref User 124370a7ffb3SJeremy L Thompson **/ 124470a7ffb3SJeremy L Thompson int CeedOperatorLinearAssembleQFunctionBuildOrUpdate(CeedOperator op, 124570a7ffb3SJeremy L Thompson CeedVector *assembled, CeedElemRestriction *rstr, CeedRequest *request) { 124670a7ffb3SJeremy L Thompson int ierr; 124770a7ffb3SJeremy L Thompson ierr = CeedOperatorCheckReady(op); CeedChk(ierr); 124870a7ffb3SJeremy L Thompson 124970a7ffb3SJeremy L Thompson // Backend version 125070a7ffb3SJeremy L Thompson if (op->LinearAssembleQFunctionUpdate) { 1251*480fae85SJeremy L Thompson bool qf_assembled_is_setup; 1252*480fae85SJeremy L Thompson CeedVector assembled_vec; 1253*480fae85SJeremy L Thompson CeedElemRestriction assembled_rstr; 1254*480fae85SJeremy L Thompson 1255*480fae85SJeremy L Thompson ierr = CeedQFunctionAssemblyDataIsSetup(op->qf_assembled, 1256*480fae85SJeremy L Thompson &qf_assembled_is_setup); CeedChk(ierr); 1257*480fae85SJeremy L Thompson if (qf_assembled_is_setup) { 1258*480fae85SJeremy L Thompson ierr = CeedQFunctionAssemblyDataGetObjects(op->qf_assembled, &assembled_vec, 1259*480fae85SJeremy L Thompson &assembled_rstr); CeedChk(ierr); 1260*480fae85SJeremy L Thompson ierr = op->LinearAssembleQFunctionUpdate(op, assembled_vec, assembled_rstr, 1261*480fae85SJeremy L Thompson request); CeedChk(ierr); 126270a7ffb3SJeremy L Thompson } else { 1263*480fae85SJeremy L Thompson ierr = op->LinearAssembleQFunction(op, &assembled_vec, &assembled_rstr, 1264*480fae85SJeremy L Thompson request); CeedChk(ierr); 1265*480fae85SJeremy L Thompson ierr = CeedQFunctionAssemblyDataSetObjects(op->qf_assembled, assembled_vec, 1266*480fae85SJeremy L Thompson assembled_rstr); CeedChk(ierr); 126770a7ffb3SJeremy L Thompson } 126870a7ffb3SJeremy L Thompson // Copy reference to internally held copy 126970a7ffb3SJeremy L Thompson *assembled = NULL; 127070a7ffb3SJeremy L Thompson *rstr = NULL; 1271*480fae85SJeremy L Thompson ierr = CeedVectorReferenceCopy(assembled_vec, assembled); CeedChk(ierr); 1272*480fae85SJeremy L Thompson ierr = CeedElemRestrictionReferenceCopy(assembled_rstr, rstr); CeedChk(ierr); 127370a7ffb3SJeremy L Thompson } else { 127470a7ffb3SJeremy L Thompson // Fallback to reference Ceed 127570a7ffb3SJeremy L Thompson if (!op->op_fallback) { 127670a7ffb3SJeremy L Thompson ierr = CeedOperatorCreateFallback(op); CeedChk(ierr); 127770a7ffb3SJeremy L Thompson } 127870a7ffb3SJeremy L Thompson // Assemble 127970a7ffb3SJeremy L Thompson ierr = CeedOperatorLinearAssembleQFunctionBuildOrUpdate(op->op_fallback, 128070a7ffb3SJeremy L Thompson assembled, rstr, request); CeedChk(ierr); 128170a7ffb3SJeremy L Thompson } 128270a7ffb3SJeremy L Thompson 128370a7ffb3SJeremy L Thompson return CEED_ERROR_SUCCESS; 1284eaf62fffSJeremy L Thompson } 1285eaf62fffSJeremy L Thompson 1286eaf62fffSJeremy L Thompson /** 1287eaf62fffSJeremy L Thompson @brief Assemble the diagonal of a square linear CeedOperator 1288eaf62fffSJeremy L Thompson 1289eaf62fffSJeremy L Thompson This overwrites a CeedVector with the diagonal of a linear CeedOperator. 1290eaf62fffSJeremy L Thompson 1291eaf62fffSJeremy L Thompson Note: Currently only non-composite CeedOperators with a single field and 1292eaf62fffSJeremy L Thompson composite CeedOperators with single field sub-operators are supported. 1293eaf62fffSJeremy L Thompson 1294f04ea552SJeremy L Thompson Note: Calling this function asserts that setup is complete 1295f04ea552SJeremy L Thompson and sets the CeedOperator as immutable. 1296f04ea552SJeremy L Thompson 1297eaf62fffSJeremy L Thompson @param op CeedOperator to assemble CeedQFunction 1298eaf62fffSJeremy L Thompson @param[out] assembled CeedVector to store assembled CeedOperator diagonal 1299eaf62fffSJeremy L Thompson @param request Address of CeedRequest for non-blocking completion, else 1300eaf62fffSJeremy L Thompson @ref CEED_REQUEST_IMMEDIATE 1301eaf62fffSJeremy L Thompson 1302eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1303eaf62fffSJeremy L Thompson 1304eaf62fffSJeremy L Thompson @ref User 1305eaf62fffSJeremy L Thompson **/ 1306eaf62fffSJeremy L Thompson int CeedOperatorLinearAssembleDiagonal(CeedOperator op, CeedVector assembled, 1307eaf62fffSJeremy L Thompson CeedRequest *request) { 1308eaf62fffSJeremy L Thompson int ierr; 1309eaf62fffSJeremy L Thompson ierr = CeedOperatorCheckReady(op); CeedChk(ierr); 1310eaf62fffSJeremy L Thompson 1311eaf62fffSJeremy L Thompson // Use backend version, if available 1312eaf62fffSJeremy L Thompson if (op->LinearAssembleDiagonal) { 1313eaf62fffSJeremy L Thompson ierr = op->LinearAssembleDiagonal(op, assembled, request); CeedChk(ierr); 1314eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1315eaf62fffSJeremy L Thompson } else if (op->LinearAssembleAddDiagonal) { 1316eaf62fffSJeremy L Thompson ierr = CeedVectorSetValue(assembled, 0.0); CeedChk(ierr); 1317eaf62fffSJeremy L Thompson ierr = op->LinearAssembleAddDiagonal(op, assembled, request); CeedChk(ierr); 1318eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1319eaf62fffSJeremy L Thompson } else { 1320eaf62fffSJeremy L Thompson // Check for valid fallback resource 1321eaf62fffSJeremy L Thompson const char *resource, *fallback_resource; 1322eaf62fffSJeremy L Thompson ierr = CeedGetResource(op->ceed, &resource); CeedChk(ierr); 1323eaf62fffSJeremy L Thompson ierr = CeedGetOperatorFallbackResource(op->ceed, &fallback_resource); 1324eaf62fffSJeremy L Thompson CeedChk(ierr); 1325eaf62fffSJeremy L Thompson if (strcmp(fallback_resource, "") && strcmp(resource, fallback_resource)) { 1326eaf62fffSJeremy L Thompson // Fallback to reference Ceed 1327eaf62fffSJeremy L Thompson if (!op->op_fallback) { 1328eaf62fffSJeremy L Thompson ierr = CeedOperatorCreateFallback(op); CeedChk(ierr); 1329eaf62fffSJeremy L Thompson } 1330eaf62fffSJeremy L Thompson // Assemble 1331eaf62fffSJeremy L Thompson ierr = CeedOperatorLinearAssembleDiagonal(op->op_fallback, assembled, request); 1332eaf62fffSJeremy L Thompson CeedChk(ierr); 1333eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1334eaf62fffSJeremy L Thompson } 1335eaf62fffSJeremy L Thompson } 1336eaf62fffSJeremy L Thompson 1337eaf62fffSJeremy L Thompson // Default interface implementation 1338eaf62fffSJeremy L Thompson ierr = CeedVectorSetValue(assembled, 0.0); CeedChk(ierr); 1339eaf62fffSJeremy L Thompson ierr = CeedOperatorLinearAssembleAddDiagonal(op, assembled, request); 1340eaf62fffSJeremy L Thompson CeedChk(ierr); 1341eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1342eaf62fffSJeremy L Thompson } 1343eaf62fffSJeremy L Thompson 1344eaf62fffSJeremy L Thompson /** 1345eaf62fffSJeremy L Thompson @brief Assemble the diagonal of a square linear CeedOperator 1346eaf62fffSJeremy L Thompson 1347eaf62fffSJeremy L Thompson This sums into a CeedVector the diagonal of a linear CeedOperator. 1348eaf62fffSJeremy L Thompson 1349eaf62fffSJeremy L Thompson Note: Currently only non-composite CeedOperators with a single field and 1350eaf62fffSJeremy L Thompson composite CeedOperators with single field sub-operators are supported. 1351eaf62fffSJeremy L Thompson 1352f04ea552SJeremy L Thompson Note: Calling this function asserts that setup is complete 1353f04ea552SJeremy L Thompson and sets the CeedOperator as immutable. 1354f04ea552SJeremy L Thompson 1355eaf62fffSJeremy L Thompson @param op CeedOperator to assemble CeedQFunction 1356eaf62fffSJeremy L Thompson @param[out] assembled CeedVector to store assembled CeedOperator diagonal 1357eaf62fffSJeremy L Thompson @param request Address of CeedRequest for non-blocking completion, else 1358eaf62fffSJeremy L Thompson @ref CEED_REQUEST_IMMEDIATE 1359eaf62fffSJeremy L Thompson 1360eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1361eaf62fffSJeremy L Thompson 1362eaf62fffSJeremy L Thompson @ref User 1363eaf62fffSJeremy L Thompson **/ 1364eaf62fffSJeremy L Thompson int CeedOperatorLinearAssembleAddDiagonal(CeedOperator op, CeedVector assembled, 1365eaf62fffSJeremy L Thompson CeedRequest *request) { 1366eaf62fffSJeremy L Thompson int ierr; 1367eaf62fffSJeremy L Thompson ierr = CeedOperatorCheckReady(op); CeedChk(ierr); 1368eaf62fffSJeremy L Thompson 1369eaf62fffSJeremy L Thompson // Use backend version, if available 1370eaf62fffSJeremy L Thompson if (op->LinearAssembleAddDiagonal) { 1371eaf62fffSJeremy L Thompson ierr = op->LinearAssembleAddDiagonal(op, assembled, request); CeedChk(ierr); 1372eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1373eaf62fffSJeremy L Thompson } else { 1374eaf62fffSJeremy L Thompson // Check for valid fallback resource 1375eaf62fffSJeremy L Thompson const char *resource, *fallback_resource; 1376eaf62fffSJeremy L Thompson ierr = CeedGetResource(op->ceed, &resource); CeedChk(ierr); 1377eaf62fffSJeremy L Thompson ierr = CeedGetOperatorFallbackResource(op->ceed, &fallback_resource); 1378eaf62fffSJeremy L Thompson CeedChk(ierr); 1379eaf62fffSJeremy L Thompson if (strcmp(fallback_resource, "") && strcmp(resource, fallback_resource)) { 1380eaf62fffSJeremy L Thompson // Fallback to reference Ceed 1381eaf62fffSJeremy L Thompson if (!op->op_fallback) { 1382eaf62fffSJeremy L Thompson ierr = CeedOperatorCreateFallback(op); CeedChk(ierr); 1383eaf62fffSJeremy L Thompson } 1384eaf62fffSJeremy L Thompson // Assemble 1385eaf62fffSJeremy L Thompson ierr = CeedOperatorLinearAssembleAddDiagonal(op->op_fallback, assembled, 1386eaf62fffSJeremy L Thompson request); CeedChk(ierr); 1387eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1388eaf62fffSJeremy L Thompson } 1389eaf62fffSJeremy L Thompson } 1390eaf62fffSJeremy L Thompson 1391eaf62fffSJeremy L Thompson // Default interface implementation 1392eaf62fffSJeremy L Thompson bool is_composite; 1393eaf62fffSJeremy L Thompson ierr = CeedOperatorIsComposite(op, &is_composite); CeedChk(ierr); 1394eaf62fffSJeremy L Thompson if (is_composite) { 1395eaf62fffSJeremy L Thompson ierr = CeedCompositeOperatorLinearAssembleAddDiagonal(op, request, 1396eaf62fffSJeremy L Thompson false, assembled); CeedChk(ierr); 1397eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1398eaf62fffSJeremy L Thompson } else { 1399eaf62fffSJeremy L Thompson ierr = CeedSingleOperatorAssembleAddDiagonal(op, request, false, assembled); 1400eaf62fffSJeremy L Thompson CeedChk(ierr); 1401eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1402eaf62fffSJeremy L Thompson } 1403eaf62fffSJeremy L Thompson } 1404eaf62fffSJeremy L Thompson 1405eaf62fffSJeremy L Thompson /** 1406eaf62fffSJeremy L Thompson @brief Assemble the point block diagonal of a square linear CeedOperator 1407eaf62fffSJeremy L Thompson 1408eaf62fffSJeremy L Thompson This overwrites a CeedVector with the point block diagonal of a linear 1409eaf62fffSJeremy L Thompson CeedOperator. 1410eaf62fffSJeremy L Thompson 1411eaf62fffSJeremy L Thompson Note: Currently only non-composite CeedOperators with a single field and 1412eaf62fffSJeremy L Thompson composite CeedOperators with single field sub-operators are supported. 1413eaf62fffSJeremy L Thompson 1414f04ea552SJeremy L Thompson Note: Calling this function asserts that setup is complete 1415f04ea552SJeremy L Thompson and sets the CeedOperator as immutable. 1416f04ea552SJeremy L Thompson 1417eaf62fffSJeremy L Thompson @param op CeedOperator to assemble CeedQFunction 1418eaf62fffSJeremy L Thompson @param[out] assembled CeedVector to store assembled CeedOperator point block 1419eaf62fffSJeremy L Thompson diagonal, provided in row-major form with an 1420eaf62fffSJeremy L Thompson @a num_comp * @a num_comp block at each node. The dimensions 1421eaf62fffSJeremy L Thompson of this vector are derived from the active vector 1422eaf62fffSJeremy L Thompson for the CeedOperator. The array has shape 1423eaf62fffSJeremy L Thompson [nodes, component out, component in]. 1424eaf62fffSJeremy L Thompson @param request Address of CeedRequest for non-blocking completion, else 1425eaf62fffSJeremy L Thompson CEED_REQUEST_IMMEDIATE 1426eaf62fffSJeremy L Thompson 1427eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1428eaf62fffSJeremy L Thompson 1429eaf62fffSJeremy L Thompson @ref User 1430eaf62fffSJeremy L Thompson **/ 1431eaf62fffSJeremy L Thompson int CeedOperatorLinearAssemblePointBlockDiagonal(CeedOperator op, 1432eaf62fffSJeremy L Thompson CeedVector assembled, CeedRequest *request) { 1433eaf62fffSJeremy L Thompson int ierr; 1434eaf62fffSJeremy L Thompson ierr = CeedOperatorCheckReady(op); CeedChk(ierr); 1435eaf62fffSJeremy L Thompson 1436eaf62fffSJeremy L Thompson // Use backend version, if available 1437eaf62fffSJeremy L Thompson if (op->LinearAssemblePointBlockDiagonal) { 1438eaf62fffSJeremy L Thompson ierr = op->LinearAssemblePointBlockDiagonal(op, assembled, request); 1439eaf62fffSJeremy L Thompson CeedChk(ierr); 1440eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1441eaf62fffSJeremy L Thompson } else if (op->LinearAssembleAddPointBlockDiagonal) { 1442eaf62fffSJeremy L Thompson ierr = CeedVectorSetValue(assembled, 0.0); CeedChk(ierr); 1443eaf62fffSJeremy L Thompson ierr = CeedOperatorLinearAssembleAddPointBlockDiagonal(op, assembled, 1444eaf62fffSJeremy L Thompson request); CeedChk(ierr); 1445eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1446eaf62fffSJeremy L Thompson } else { 1447eaf62fffSJeremy L Thompson // Check for valid fallback resource 1448eaf62fffSJeremy L Thompson const char *resource, *fallback_resource; 1449eaf62fffSJeremy L Thompson ierr = CeedGetResource(op->ceed, &resource); CeedChk(ierr); 1450eaf62fffSJeremy L Thompson ierr = CeedGetOperatorFallbackResource(op->ceed, &fallback_resource); 1451eaf62fffSJeremy L Thompson CeedChk(ierr); 1452eaf62fffSJeremy L Thompson if (strcmp(fallback_resource, "") && strcmp(resource, fallback_resource)) { 1453eaf62fffSJeremy L Thompson // Fallback to reference Ceed 1454eaf62fffSJeremy L Thompson if (!op->op_fallback) { 1455eaf62fffSJeremy L Thompson ierr = CeedOperatorCreateFallback(op); CeedChk(ierr); 1456eaf62fffSJeremy L Thompson } 1457eaf62fffSJeremy L Thompson // Assemble 1458eaf62fffSJeremy L Thompson ierr = CeedOperatorLinearAssemblePointBlockDiagonal(op->op_fallback, 1459eaf62fffSJeremy L Thompson assembled, request); CeedChk(ierr); 1460eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1461eaf62fffSJeremy L Thompson } 1462eaf62fffSJeremy L Thompson } 1463eaf62fffSJeremy L Thompson 1464eaf62fffSJeremy L Thompson // Default interface implementation 1465eaf62fffSJeremy L Thompson ierr = CeedVectorSetValue(assembled, 0.0); CeedChk(ierr); 1466eaf62fffSJeremy L Thompson ierr = CeedOperatorLinearAssembleAddPointBlockDiagonal(op, assembled, request); 1467eaf62fffSJeremy L Thompson CeedChk(ierr); 1468eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1469eaf62fffSJeremy L Thompson } 1470eaf62fffSJeremy L Thompson 1471eaf62fffSJeremy L Thompson /** 1472eaf62fffSJeremy L Thompson @brief Assemble the point block diagonal of a square linear CeedOperator 1473eaf62fffSJeremy L Thompson 1474eaf62fffSJeremy L Thompson This sums into a CeedVector with the point block diagonal of a linear 1475eaf62fffSJeremy L Thompson CeedOperator. 1476eaf62fffSJeremy L Thompson 1477eaf62fffSJeremy L Thompson Note: Currently only non-composite CeedOperators with a single field and 1478eaf62fffSJeremy L Thompson composite CeedOperators with single field sub-operators are supported. 1479eaf62fffSJeremy L Thompson 1480f04ea552SJeremy L Thompson Note: Calling this function asserts that setup is complete 1481f04ea552SJeremy L Thompson and sets the CeedOperator as immutable. 1482f04ea552SJeremy L Thompson 1483eaf62fffSJeremy L Thompson @param op CeedOperator to assemble CeedQFunction 1484eaf62fffSJeremy L Thompson @param[out] assembled CeedVector to store assembled CeedOperator point block 1485eaf62fffSJeremy L Thompson diagonal, provided in row-major form with an 1486eaf62fffSJeremy L Thompson @a num_comp * @a num_comp block at each node. The dimensions 1487eaf62fffSJeremy L Thompson of this vector are derived from the active vector 1488eaf62fffSJeremy L Thompson for the CeedOperator. The array has shape 1489eaf62fffSJeremy L Thompson [nodes, component out, component in]. 1490eaf62fffSJeremy L Thompson @param request Address of CeedRequest for non-blocking completion, else 1491eaf62fffSJeremy L Thompson CEED_REQUEST_IMMEDIATE 1492eaf62fffSJeremy L Thompson 1493eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1494eaf62fffSJeremy L Thompson 1495eaf62fffSJeremy L Thompson @ref User 1496eaf62fffSJeremy L Thompson **/ 1497eaf62fffSJeremy L Thompson int CeedOperatorLinearAssembleAddPointBlockDiagonal(CeedOperator op, 1498eaf62fffSJeremy L Thompson CeedVector assembled, CeedRequest *request) { 1499eaf62fffSJeremy L Thompson int ierr; 1500eaf62fffSJeremy L Thompson ierr = CeedOperatorCheckReady(op); CeedChk(ierr); 1501eaf62fffSJeremy L Thompson 1502eaf62fffSJeremy L Thompson // Use backend version, if available 1503eaf62fffSJeremy L Thompson if (op->LinearAssembleAddPointBlockDiagonal) { 1504eaf62fffSJeremy L Thompson ierr = op->LinearAssembleAddPointBlockDiagonal(op, assembled, request); 1505eaf62fffSJeremy L Thompson CeedChk(ierr); 1506eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1507eaf62fffSJeremy L Thompson } else { 1508eaf62fffSJeremy L Thompson // Check for valid fallback resource 1509eaf62fffSJeremy L Thompson const char *resource, *fallback_resource; 1510eaf62fffSJeremy L Thompson ierr = CeedGetResource(op->ceed, &resource); CeedChk(ierr); 1511eaf62fffSJeremy L Thompson ierr = CeedGetOperatorFallbackResource(op->ceed, &fallback_resource); 1512eaf62fffSJeremy L Thompson CeedChk(ierr); 1513eaf62fffSJeremy L Thompson if (strcmp(fallback_resource, "") && strcmp(resource, fallback_resource)) { 1514eaf62fffSJeremy L Thompson // Fallback to reference Ceed 1515eaf62fffSJeremy L Thompson if (!op->op_fallback) { 1516eaf62fffSJeremy L Thompson ierr = CeedOperatorCreateFallback(op); CeedChk(ierr); 1517eaf62fffSJeremy L Thompson } 1518eaf62fffSJeremy L Thompson // Assemble 1519eaf62fffSJeremy L Thompson ierr = CeedOperatorLinearAssembleAddPointBlockDiagonal(op->op_fallback, 1520eaf62fffSJeremy L Thompson assembled, request); CeedChk(ierr); 1521eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1522eaf62fffSJeremy L Thompson } 1523eaf62fffSJeremy L Thompson } 1524eaf62fffSJeremy L Thompson 1525eaf62fffSJeremy L Thompson // Default interface implemenation 1526eaf62fffSJeremy L Thompson bool is_composite; 1527eaf62fffSJeremy L Thompson ierr = CeedOperatorIsComposite(op, &is_composite); CeedChk(ierr); 1528eaf62fffSJeremy L Thompson if (is_composite) { 1529eaf62fffSJeremy L Thompson ierr = CeedCompositeOperatorLinearAssembleAddDiagonal(op, request, 1530eaf62fffSJeremy L Thompson true, assembled); CeedChk(ierr); 1531eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1532eaf62fffSJeremy L Thompson } else { 1533eaf62fffSJeremy L Thompson ierr = CeedSingleOperatorAssembleAddDiagonal(op, request, true, assembled); 1534eaf62fffSJeremy L Thompson CeedChk(ierr); 1535eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1536eaf62fffSJeremy L Thompson } 1537eaf62fffSJeremy L Thompson } 1538eaf62fffSJeremy L Thompson 1539eaf62fffSJeremy L Thompson /** 1540eaf62fffSJeremy L Thompson @brief Fully assemble the nonzero pattern of a linear operator. 1541eaf62fffSJeremy L Thompson 1542eaf62fffSJeremy L Thompson Expected to be used in conjunction with CeedOperatorLinearAssemble() 1543eaf62fffSJeremy L Thompson 1544eaf62fffSJeremy L Thompson The assembly routines use coordinate format, with num_entries tuples of the 1545eaf62fffSJeremy L Thompson form (i, j, value) which indicate that value should be added to the matrix 1546eaf62fffSJeremy L Thompson in entry (i, j). Note that the (i, j) pairs are not unique and may repeat. 1547eaf62fffSJeremy L Thompson This function returns the number of entries and their (i, j) locations, 1548eaf62fffSJeremy L Thompson while CeedOperatorLinearAssemble() provides the values in the same 1549eaf62fffSJeremy L Thompson ordering. 1550eaf62fffSJeremy L Thompson 1551eaf62fffSJeremy L Thompson This will generally be slow unless your operator is low-order. 1552eaf62fffSJeremy L Thompson 1553f04ea552SJeremy L Thompson Note: Calling this function asserts that setup is complete 1554f04ea552SJeremy L Thompson and sets the CeedOperator as immutable. 1555f04ea552SJeremy L Thompson 1556eaf62fffSJeremy L Thompson @param[in] op CeedOperator to assemble 1557eaf62fffSJeremy L Thompson @param[out] num_entries Number of entries in coordinate nonzero pattern 1558eaf62fffSJeremy L Thompson @param[out] rows Row number for each entry 1559eaf62fffSJeremy L Thompson @param[out] cols Column number for each entry 1560eaf62fffSJeremy L Thompson 1561eaf62fffSJeremy L Thompson @ref User 1562eaf62fffSJeremy L Thompson **/ 1563c30b7fbdSJeremy L Thompson int CeedOperatorLinearAssembleSymbolic(CeedOperator op, CeedSize *num_entries, 1564eaf62fffSJeremy L Thompson CeedInt **rows, CeedInt **cols) { 1565eaf62fffSJeremy L Thompson int ierr; 1566eaf62fffSJeremy L Thompson CeedInt num_suboperators, single_entries; 1567eaf62fffSJeremy L Thompson CeedOperator *sub_operators; 1568eaf62fffSJeremy L Thompson bool is_composite; 1569eaf62fffSJeremy L Thompson ierr = CeedOperatorCheckReady(op); CeedChk(ierr); 1570eaf62fffSJeremy L Thompson 1571eaf62fffSJeremy L Thompson // Use backend version, if available 1572eaf62fffSJeremy L Thompson if (op->LinearAssembleSymbolic) { 1573eaf62fffSJeremy L Thompson ierr = op->LinearAssembleSymbolic(op, num_entries, rows, cols); CeedChk(ierr); 1574eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1575eaf62fffSJeremy L Thompson } else { 1576eaf62fffSJeremy L Thompson // Check for valid fallback resource 1577eaf62fffSJeremy L Thompson const char *resource, *fallback_resource; 1578eaf62fffSJeremy L Thompson ierr = CeedGetResource(op->ceed, &resource); CeedChk(ierr); 1579eaf62fffSJeremy L Thompson ierr = CeedGetOperatorFallbackResource(op->ceed, &fallback_resource); 1580eaf62fffSJeremy L Thompson CeedChk(ierr); 1581eaf62fffSJeremy L Thompson if (strcmp(fallback_resource, "") && strcmp(resource, fallback_resource)) { 1582eaf62fffSJeremy L Thompson // Fallback to reference Ceed 1583eaf62fffSJeremy L Thompson if (!op->op_fallback) { 1584eaf62fffSJeremy L Thompson ierr = CeedOperatorCreateFallback(op); CeedChk(ierr); 1585eaf62fffSJeremy L Thompson } 1586eaf62fffSJeremy L Thompson // Assemble 1587eaf62fffSJeremy L Thompson ierr = CeedOperatorLinearAssembleSymbolic(op->op_fallback, num_entries, rows, 1588eaf62fffSJeremy L Thompson cols); CeedChk(ierr); 1589eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1590eaf62fffSJeremy L Thompson } 1591eaf62fffSJeremy L Thompson } 1592eaf62fffSJeremy L Thompson 1593eaf62fffSJeremy L Thompson // Default interface implementation 1594eaf62fffSJeremy L Thompson 1595eaf62fffSJeremy L Thompson // count entries and allocate rows, cols arrays 1596eaf62fffSJeremy L Thompson ierr = CeedOperatorIsComposite(op, &is_composite); CeedChk(ierr); 1597eaf62fffSJeremy L Thompson *num_entries = 0; 1598eaf62fffSJeremy L Thompson if (is_composite) { 1599eaf62fffSJeremy L Thompson ierr = CeedOperatorGetNumSub(op, &num_suboperators); CeedChk(ierr); 1600eaf62fffSJeremy L Thompson ierr = CeedOperatorGetSubList(op, &sub_operators); CeedChk(ierr); 1601eaf62fffSJeremy L Thompson for (int k = 0; k < num_suboperators; ++k) { 1602eaf62fffSJeremy L Thompson ierr = CeedSingleOperatorAssemblyCountEntries(sub_operators[k], 1603eaf62fffSJeremy L Thompson &single_entries); CeedChk(ierr); 1604eaf62fffSJeremy L Thompson *num_entries += single_entries; 1605eaf62fffSJeremy L Thompson } 1606eaf62fffSJeremy L Thompson } else { 1607eaf62fffSJeremy L Thompson ierr = CeedSingleOperatorAssemblyCountEntries(op, 1608eaf62fffSJeremy L Thompson &single_entries); CeedChk(ierr); 1609eaf62fffSJeremy L Thompson *num_entries += single_entries; 1610eaf62fffSJeremy L Thompson } 1611eaf62fffSJeremy L Thompson ierr = CeedCalloc(*num_entries, rows); CeedChk(ierr); 1612eaf62fffSJeremy L Thompson ierr = CeedCalloc(*num_entries, cols); CeedChk(ierr); 1613eaf62fffSJeremy L Thompson 1614eaf62fffSJeremy L Thompson // assemble nonzero locations 1615eaf62fffSJeremy L Thompson CeedInt offset = 0; 1616eaf62fffSJeremy L Thompson if (is_composite) { 1617eaf62fffSJeremy L Thompson ierr = CeedOperatorGetNumSub(op, &num_suboperators); CeedChk(ierr); 1618eaf62fffSJeremy L Thompson ierr = CeedOperatorGetSubList(op, &sub_operators); CeedChk(ierr); 1619eaf62fffSJeremy L Thompson for (int k = 0; k < num_suboperators; ++k) { 1620eaf62fffSJeremy L Thompson ierr = CeedSingleOperatorAssembleSymbolic(sub_operators[k], offset, *rows, 1621eaf62fffSJeremy L Thompson *cols); CeedChk(ierr); 1622eaf62fffSJeremy L Thompson ierr = CeedSingleOperatorAssemblyCountEntries(sub_operators[k], 1623eaf62fffSJeremy L Thompson &single_entries); 1624eaf62fffSJeremy L Thompson CeedChk(ierr); 1625eaf62fffSJeremy L Thompson offset += single_entries; 1626eaf62fffSJeremy L Thompson } 1627eaf62fffSJeremy L Thompson } else { 1628eaf62fffSJeremy L Thompson ierr = CeedSingleOperatorAssembleSymbolic(op, offset, *rows, *cols); 1629eaf62fffSJeremy L Thompson CeedChk(ierr); 1630eaf62fffSJeremy L Thompson } 1631eaf62fffSJeremy L Thompson 1632eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1633eaf62fffSJeremy L Thompson } 1634eaf62fffSJeremy L Thompson 1635eaf62fffSJeremy L Thompson /** 1636eaf62fffSJeremy L Thompson @brief Fully assemble the nonzero entries of a linear operator. 1637eaf62fffSJeremy L Thompson 1638eaf62fffSJeremy L Thompson Expected to be used in conjunction with CeedOperatorLinearAssembleSymbolic() 1639eaf62fffSJeremy L Thompson 1640eaf62fffSJeremy L Thompson The assembly routines use coordinate format, with num_entries tuples of the 1641eaf62fffSJeremy L Thompson form (i, j, value) which indicate that value should be added to the matrix 1642eaf62fffSJeremy L Thompson in entry (i, j). Note that the (i, j) pairs are not unique and may repeat. 1643eaf62fffSJeremy L Thompson This function returns the values of the nonzero entries to be added, their 1644eaf62fffSJeremy L Thompson (i, j) locations are provided by CeedOperatorLinearAssembleSymbolic() 1645eaf62fffSJeremy L Thompson 1646eaf62fffSJeremy L Thompson This will generally be slow unless your operator is low-order. 1647eaf62fffSJeremy L Thompson 1648f04ea552SJeremy L Thompson Note: Calling this function asserts that setup is complete 1649f04ea552SJeremy L Thompson and sets the CeedOperator as immutable. 1650f04ea552SJeremy L Thompson 1651eaf62fffSJeremy L Thompson @param[in] op CeedOperator to assemble 1652eaf62fffSJeremy L Thompson @param[out] values Values to assemble into matrix 1653eaf62fffSJeremy L Thompson 1654eaf62fffSJeremy L Thompson @ref User 1655eaf62fffSJeremy L Thompson **/ 1656eaf62fffSJeremy L Thompson int CeedOperatorLinearAssemble(CeedOperator op, CeedVector values) { 1657eaf62fffSJeremy L Thompson int ierr; 1658eaf62fffSJeremy L Thompson CeedInt num_suboperators, single_entries = 0; 1659eaf62fffSJeremy L Thompson CeedOperator *sub_operators; 1660eaf62fffSJeremy L Thompson ierr = CeedOperatorCheckReady(op); CeedChk(ierr); 1661eaf62fffSJeremy L Thompson 1662eaf62fffSJeremy L Thompson // Use backend version, if available 1663eaf62fffSJeremy L Thompson if (op->LinearAssemble) { 1664eaf62fffSJeremy L Thompson ierr = op->LinearAssemble(op, values); CeedChk(ierr); 1665eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1666eaf62fffSJeremy L Thompson } else { 1667eaf62fffSJeremy L Thompson // Check for valid fallback resource 1668eaf62fffSJeremy L Thompson const char *resource, *fallback_resource; 1669eaf62fffSJeremy L Thompson ierr = CeedGetResource(op->ceed, &resource); CeedChk(ierr); 1670eaf62fffSJeremy L Thompson ierr = CeedGetOperatorFallbackResource(op->ceed, &fallback_resource); 1671eaf62fffSJeremy L Thompson CeedChk(ierr); 1672eaf62fffSJeremy L Thompson if (strcmp(fallback_resource, "") && strcmp(resource, fallback_resource)) { 1673eaf62fffSJeremy L Thompson // Fallback to reference Ceed 1674eaf62fffSJeremy L Thompson if (!op->op_fallback) { 1675eaf62fffSJeremy L Thompson ierr = CeedOperatorCreateFallback(op); CeedChk(ierr); 1676eaf62fffSJeremy L Thompson } 1677eaf62fffSJeremy L Thompson // Assemble 1678eaf62fffSJeremy L Thompson ierr = CeedOperatorLinearAssemble(op->op_fallback, values); CeedChk(ierr); 1679eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1680eaf62fffSJeremy L Thompson } 1681eaf62fffSJeremy L Thompson } 1682eaf62fffSJeremy L Thompson 1683eaf62fffSJeremy L Thompson // Default interface implementation 1684eaf62fffSJeremy L Thompson bool is_composite; 1685eaf62fffSJeremy L Thompson ierr = CeedOperatorIsComposite(op, &is_composite); CeedChk(ierr); 1686eaf62fffSJeremy L Thompson 1687eaf62fffSJeremy L Thompson CeedInt offset = 0; 1688eaf62fffSJeremy L Thompson if (is_composite) { 1689eaf62fffSJeremy L Thompson ierr = CeedOperatorGetNumSub(op, &num_suboperators); CeedChk(ierr); 1690eaf62fffSJeremy L Thompson ierr = CeedOperatorGetSubList(op, &sub_operators); CeedChk(ierr); 1691eaf62fffSJeremy L Thompson for (int k = 0; k < num_suboperators; ++k) { 1692eaf62fffSJeremy L Thompson ierr = CeedSingleOperatorAssemble(sub_operators[k], offset, values); 1693eaf62fffSJeremy L Thompson CeedChk(ierr); 1694eaf62fffSJeremy L Thompson ierr = CeedSingleOperatorAssemblyCountEntries(sub_operators[k], 1695eaf62fffSJeremy L Thompson &single_entries); 1696eaf62fffSJeremy L Thompson CeedChk(ierr); 1697eaf62fffSJeremy L Thompson offset += single_entries; 1698eaf62fffSJeremy L Thompson } 1699eaf62fffSJeremy L Thompson } else { 1700eaf62fffSJeremy L Thompson ierr = CeedSingleOperatorAssemble(op, offset, values); CeedChk(ierr); 1701eaf62fffSJeremy L Thompson } 1702eaf62fffSJeremy L Thompson 1703eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1704eaf62fffSJeremy L Thompson } 1705eaf62fffSJeremy L Thompson 1706eaf62fffSJeremy L Thompson /** 1707eaf62fffSJeremy L Thompson @brief Create a multigrid coarse operator and level transfer operators 1708eaf62fffSJeremy L Thompson for a CeedOperator, creating the prolongation basis from the 1709eaf62fffSJeremy L Thompson fine and coarse grid interpolation 1710eaf62fffSJeremy L Thompson 1711f04ea552SJeremy L Thompson Note: Calling this function asserts that setup is complete 1712f04ea552SJeremy L Thompson and sets the CeedOperator as immutable. 1713f04ea552SJeremy L Thompson 1714eaf62fffSJeremy L Thompson @param[in] op_fine Fine grid operator 1715eaf62fffSJeremy L Thompson @param[in] p_mult_fine L-vector multiplicity in parallel gather/scatter 1716eaf62fffSJeremy L Thompson @param[in] rstr_coarse Coarse grid restriction 1717eaf62fffSJeremy L Thompson @param[in] basis_coarse Coarse grid active vector basis 1718eaf62fffSJeremy L Thompson @param[out] op_coarse Coarse grid operator 1719eaf62fffSJeremy L Thompson @param[out] op_prolong Coarse to fine operator 1720eaf62fffSJeremy L Thompson @param[out] op_restrict Fine to coarse operator 1721eaf62fffSJeremy L Thompson 1722eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1723eaf62fffSJeremy L Thompson 1724eaf62fffSJeremy L Thompson @ref User 1725eaf62fffSJeremy L Thompson **/ 1726eaf62fffSJeremy L Thompson int CeedOperatorMultigridLevelCreate(CeedOperator op_fine, 1727eaf62fffSJeremy L Thompson CeedVector p_mult_fine, 1728eaf62fffSJeremy L Thompson CeedElemRestriction rstr_coarse, CeedBasis basis_coarse, 1729eaf62fffSJeremy L Thompson CeedOperator *op_coarse, CeedOperator *op_prolong, 1730eaf62fffSJeremy L Thompson CeedOperator *op_restrict) { 1731eaf62fffSJeremy L Thompson int ierr; 1732f04ea552SJeremy L Thompson ierr = CeedOperatorCheckReady(op_fine); CeedChk(ierr); 1733eaf62fffSJeremy L Thompson Ceed ceed; 1734eaf62fffSJeremy L Thompson ierr = CeedOperatorGetCeed(op_fine, &ceed); CeedChk(ierr); 1735eaf62fffSJeremy L Thompson 1736eaf62fffSJeremy L Thompson // Check for compatible quadrature spaces 1737eaf62fffSJeremy L Thompson CeedBasis basis_fine; 1738eaf62fffSJeremy L Thompson ierr = CeedOperatorGetActiveBasis(op_fine, &basis_fine); CeedChk(ierr); 1739eaf62fffSJeremy L Thompson CeedInt Q_f, Q_c; 1740eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumQuadraturePoints(basis_fine, &Q_f); CeedChk(ierr); 1741eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumQuadraturePoints(basis_coarse, &Q_c); CeedChk(ierr); 1742eaf62fffSJeremy L Thompson if (Q_f != Q_c) 1743eaf62fffSJeremy L Thompson // LCOV_EXCL_START 1744eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_DIMENSION, 1745eaf62fffSJeremy L Thompson "Bases must have compatible quadrature spaces"); 1746eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 1747eaf62fffSJeremy L Thompson 1748eaf62fffSJeremy L Thompson // Coarse to fine basis 1749eaf62fffSJeremy L Thompson CeedInt P_f, P_c, Q = Q_f; 1750eaf62fffSJeremy L Thompson bool is_tensor_f, is_tensor_c; 1751eaf62fffSJeremy L Thompson ierr = CeedBasisIsTensor(basis_fine, &is_tensor_f); CeedChk(ierr); 1752eaf62fffSJeremy L Thompson ierr = CeedBasisIsTensor(basis_coarse, &is_tensor_c); CeedChk(ierr); 1753eaf62fffSJeremy L Thompson CeedScalar *interp_c, *interp_f, *interp_c_to_f, *tau; 1754eaf62fffSJeremy L Thompson if (is_tensor_f && is_tensor_c) { 1755eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumNodes1D(basis_fine, &P_f); CeedChk(ierr); 1756eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumNodes1D(basis_coarse, &P_c); CeedChk(ierr); 1757eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumQuadraturePoints1D(basis_coarse, &Q); CeedChk(ierr); 1758eaf62fffSJeremy L Thompson } else if (!is_tensor_f && !is_tensor_c) { 1759eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumNodes(basis_fine, &P_f); CeedChk(ierr); 1760eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumNodes(basis_coarse, &P_c); CeedChk(ierr); 1761eaf62fffSJeremy L Thompson } else { 1762eaf62fffSJeremy L Thompson // LCOV_EXCL_START 1763eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_MINOR, 1764eaf62fffSJeremy L Thompson "Bases must both be tensor or non-tensor"); 1765eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 1766eaf62fffSJeremy L Thompson } 1767eaf62fffSJeremy L Thompson 1768eaf62fffSJeremy L Thompson ierr = CeedMalloc(Q*P_f, &interp_f); CeedChk(ierr); 1769eaf62fffSJeremy L Thompson ierr = CeedMalloc(Q*P_c, &interp_c); CeedChk(ierr); 1770eaf62fffSJeremy L Thompson ierr = CeedCalloc(P_c*P_f, &interp_c_to_f); CeedChk(ierr); 1771eaf62fffSJeremy L Thompson ierr = CeedMalloc(Q, &tau); CeedChk(ierr); 1772eaf62fffSJeremy L Thompson if (is_tensor_f) { 1773eaf62fffSJeremy L Thompson memcpy(interp_f, basis_fine->interp_1d, Q*P_f*sizeof basis_fine->interp_1d[0]); 1774eaf62fffSJeremy L Thompson memcpy(interp_c, basis_coarse->interp_1d, 1775eaf62fffSJeremy L Thompson Q*P_c*sizeof basis_coarse->interp_1d[0]); 1776eaf62fffSJeremy L Thompson } else { 1777eaf62fffSJeremy L Thompson memcpy(interp_f, basis_fine->interp, Q*P_f*sizeof basis_fine->interp[0]); 1778eaf62fffSJeremy L Thompson memcpy(interp_c, basis_coarse->interp, Q*P_c*sizeof basis_coarse->interp[0]); 1779eaf62fffSJeremy L Thompson } 1780eaf62fffSJeremy L Thompson 1781eaf62fffSJeremy L Thompson // -- QR Factorization, interp_f = Q R 1782eaf62fffSJeremy L Thompson ierr = CeedQRFactorization(ceed, interp_f, tau, Q, P_f); CeedChk(ierr); 1783eaf62fffSJeremy L Thompson 1784eaf62fffSJeremy L Thompson // -- Apply Qtranspose, interp_c = Qtranspose interp_c 1785eaf62fffSJeremy L Thompson ierr = CeedHouseholderApplyQ(interp_c, interp_f, tau, CEED_TRANSPOSE, 1786eaf62fffSJeremy L Thompson Q, P_c, P_f, P_c, 1); CeedChk(ierr); 1787eaf62fffSJeremy L Thompson 1788eaf62fffSJeremy L Thompson // -- Apply Rinv, interp_c_to_f = Rinv interp_c 1789eaf62fffSJeremy L Thompson for (CeedInt j=0; j<P_c; j++) { // Column j 1790eaf62fffSJeremy L Thompson interp_c_to_f[j+P_c*(P_f-1)] = interp_c[j+P_c*(P_f-1)]/interp_f[P_f*P_f-1]; 1791eaf62fffSJeremy L Thompson for (CeedInt i=P_f-2; i>=0; i--) { // Row i 1792eaf62fffSJeremy L Thompson interp_c_to_f[j+P_c*i] = interp_c[j+P_c*i]; 1793eaf62fffSJeremy L Thompson for (CeedInt k=i+1; k<P_f; k++) 1794eaf62fffSJeremy L Thompson interp_c_to_f[j+P_c*i] -= interp_f[k+P_f*i]*interp_c_to_f[j+P_c*k]; 1795eaf62fffSJeremy L Thompson interp_c_to_f[j+P_c*i] /= interp_f[i+P_f*i]; 1796eaf62fffSJeremy L Thompson } 1797eaf62fffSJeremy L Thompson } 1798eaf62fffSJeremy L Thompson ierr = CeedFree(&tau); CeedChk(ierr); 1799eaf62fffSJeremy L Thompson ierr = CeedFree(&interp_c); CeedChk(ierr); 1800eaf62fffSJeremy L Thompson ierr = CeedFree(&interp_f); CeedChk(ierr); 1801eaf62fffSJeremy L Thompson 1802eaf62fffSJeremy L Thompson // Complete with interp_c_to_f versions of code 1803eaf62fffSJeremy L Thompson if (is_tensor_f) { 1804eaf62fffSJeremy L Thompson ierr = CeedOperatorMultigridLevelCreateTensorH1(op_fine, p_mult_fine, 1805eaf62fffSJeremy L Thompson rstr_coarse, basis_coarse, interp_c_to_f, op_coarse, op_prolong, op_restrict); 1806eaf62fffSJeremy L Thompson CeedChk(ierr); 1807eaf62fffSJeremy L Thompson } else { 1808eaf62fffSJeremy L Thompson ierr = CeedOperatorMultigridLevelCreateH1(op_fine, p_mult_fine, 1809eaf62fffSJeremy L Thompson rstr_coarse, basis_coarse, interp_c_to_f, op_coarse, op_prolong, op_restrict); 1810eaf62fffSJeremy L Thompson CeedChk(ierr); 1811eaf62fffSJeremy L Thompson } 1812eaf62fffSJeremy L Thompson 1813eaf62fffSJeremy L Thompson // Cleanup 1814eaf62fffSJeremy L Thompson ierr = CeedFree(&interp_c_to_f); CeedChk(ierr); 1815eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1816eaf62fffSJeremy L Thompson } 1817eaf62fffSJeremy L Thompson 1818eaf62fffSJeremy L Thompson /** 1819eaf62fffSJeremy L Thompson @brief Create a multigrid coarse operator and level transfer operators 1820eaf62fffSJeremy L Thompson for a CeedOperator with a tensor basis for the active basis 1821eaf62fffSJeremy L Thompson 1822f04ea552SJeremy L Thompson Note: Calling this function asserts that setup is complete 1823f04ea552SJeremy L Thompson and sets the CeedOperator as immutable. 1824f04ea552SJeremy L Thompson 1825eaf62fffSJeremy L Thompson @param[in] op_fine Fine grid operator 1826eaf62fffSJeremy L Thompson @param[in] p_mult_fine L-vector multiplicity in parallel gather/scatter 1827eaf62fffSJeremy L Thompson @param[in] rstr_coarse Coarse grid restriction 1828eaf62fffSJeremy L Thompson @param[in] basis_coarse Coarse grid active vector basis 1829eaf62fffSJeremy L Thompson @param[in] interp_c_to_f Matrix for coarse to fine interpolation 1830eaf62fffSJeremy L Thompson @param[out] op_coarse Coarse grid operator 1831eaf62fffSJeremy L Thompson @param[out] op_prolong Coarse to fine operator 1832eaf62fffSJeremy L Thompson @param[out] op_restrict Fine to coarse operator 1833eaf62fffSJeremy L Thompson 1834eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1835eaf62fffSJeremy L Thompson 1836eaf62fffSJeremy L Thompson @ref User 1837eaf62fffSJeremy L Thompson **/ 1838eaf62fffSJeremy L Thompson int CeedOperatorMultigridLevelCreateTensorH1(CeedOperator op_fine, 1839eaf62fffSJeremy L Thompson CeedVector p_mult_fine, CeedElemRestriction rstr_coarse, CeedBasis basis_coarse, 1840eaf62fffSJeremy L Thompson const CeedScalar *interp_c_to_f, CeedOperator *op_coarse, 1841eaf62fffSJeremy L Thompson CeedOperator *op_prolong, CeedOperator *op_restrict) { 1842eaf62fffSJeremy L Thompson int ierr; 1843f04ea552SJeremy L Thompson ierr = CeedOperatorCheckReady(op_fine); CeedChk(ierr); 1844eaf62fffSJeremy L Thompson Ceed ceed; 1845eaf62fffSJeremy L Thompson ierr = CeedOperatorGetCeed(op_fine, &ceed); CeedChk(ierr); 1846eaf62fffSJeremy L Thompson 1847eaf62fffSJeremy L Thompson // Check for compatible quadrature spaces 1848eaf62fffSJeremy L Thompson CeedBasis basis_fine; 1849eaf62fffSJeremy L Thompson ierr = CeedOperatorGetActiveBasis(op_fine, &basis_fine); CeedChk(ierr); 1850eaf62fffSJeremy L Thompson CeedInt Q_f, Q_c; 1851eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumQuadraturePoints(basis_fine, &Q_f); CeedChk(ierr); 1852eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumQuadraturePoints(basis_coarse, &Q_c); CeedChk(ierr); 1853eaf62fffSJeremy L Thompson if (Q_f != Q_c) 1854eaf62fffSJeremy L Thompson // LCOV_EXCL_START 1855eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_DIMENSION, 1856eaf62fffSJeremy L Thompson "Bases must have compatible quadrature spaces"); 1857eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 1858eaf62fffSJeremy L Thompson 1859eaf62fffSJeremy L Thompson // Coarse to fine basis 1860eaf62fffSJeremy L Thompson CeedInt dim, num_comp, num_nodes_c, P_1d_f, P_1d_c; 1861eaf62fffSJeremy L Thompson ierr = CeedBasisGetDimension(basis_fine, &dim); CeedChk(ierr); 1862eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumComponents(basis_fine, &num_comp); CeedChk(ierr); 1863eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumNodes1D(basis_fine, &P_1d_f); CeedChk(ierr); 1864eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetElementSize(rstr_coarse, &num_nodes_c); 1865eaf62fffSJeremy L Thompson CeedChk(ierr); 1866eaf62fffSJeremy L Thompson P_1d_c = dim == 1 ? num_nodes_c : 1867eaf62fffSJeremy L Thompson dim == 2 ? sqrt(num_nodes_c) : 1868eaf62fffSJeremy L Thompson cbrt(num_nodes_c); 1869eaf62fffSJeremy L Thompson CeedScalar *q_ref, *q_weight, *grad; 1870eaf62fffSJeremy L Thompson ierr = CeedCalloc(P_1d_f, &q_ref); CeedChk(ierr); 1871eaf62fffSJeremy L Thompson ierr = CeedCalloc(P_1d_f, &q_weight); CeedChk(ierr); 1872eaf62fffSJeremy L Thompson ierr = CeedCalloc(P_1d_f*P_1d_c*dim, &grad); CeedChk(ierr); 1873eaf62fffSJeremy L Thompson CeedBasis basis_c_to_f; 1874eaf62fffSJeremy L Thompson ierr = CeedBasisCreateTensorH1(ceed, dim, num_comp, P_1d_c, P_1d_f, 1875eaf62fffSJeremy L Thompson interp_c_to_f, grad, q_ref, q_weight, &basis_c_to_f); 1876eaf62fffSJeremy L Thompson CeedChk(ierr); 1877eaf62fffSJeremy L Thompson ierr = CeedFree(&q_ref); CeedChk(ierr); 1878eaf62fffSJeremy L Thompson ierr = CeedFree(&q_weight); CeedChk(ierr); 1879eaf62fffSJeremy L Thompson ierr = CeedFree(&grad); CeedChk(ierr); 1880eaf62fffSJeremy L Thompson 1881eaf62fffSJeremy L Thompson // Core code 1882eaf62fffSJeremy L Thompson ierr = CeedSingleOperatorMultigridLevel(op_fine, p_mult_fine, rstr_coarse, 1883eaf62fffSJeremy L Thompson basis_coarse, basis_c_to_f, op_coarse, 1884eaf62fffSJeremy L Thompson op_prolong, op_restrict); 1885eaf62fffSJeremy L Thompson CeedChk(ierr); 1886eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1887eaf62fffSJeremy L Thompson } 1888eaf62fffSJeremy L Thompson 1889eaf62fffSJeremy L Thompson /** 1890eaf62fffSJeremy L Thompson @brief Create a multigrid coarse operator and level transfer operators 1891eaf62fffSJeremy L Thompson for a CeedOperator with a non-tensor basis for the active vector 1892eaf62fffSJeremy L Thompson 1893f04ea552SJeremy L Thompson Note: Calling this function asserts that setup is complete 1894f04ea552SJeremy L Thompson and sets the CeedOperator as immutable. 1895f04ea552SJeremy L Thompson 1896eaf62fffSJeremy L Thompson @param[in] op_fine Fine grid operator 1897eaf62fffSJeremy L Thompson @param[in] p_mult_fine L-vector multiplicity in parallel gather/scatter 1898eaf62fffSJeremy L Thompson @param[in] rstr_coarse Coarse grid restriction 1899eaf62fffSJeremy L Thompson @param[in] basis_coarse Coarse grid active vector basis 1900eaf62fffSJeremy L Thompson @param[in] interp_c_to_f Matrix for coarse to fine interpolation 1901eaf62fffSJeremy L Thompson @param[out] op_coarse Coarse grid operator 1902eaf62fffSJeremy L Thompson @param[out] op_prolong Coarse to fine operator 1903eaf62fffSJeremy L Thompson @param[out] op_restrict Fine to coarse operator 1904eaf62fffSJeremy L Thompson 1905eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1906eaf62fffSJeremy L Thompson 1907eaf62fffSJeremy L Thompson @ref User 1908eaf62fffSJeremy L Thompson **/ 1909eaf62fffSJeremy L Thompson int CeedOperatorMultigridLevelCreateH1(CeedOperator op_fine, 1910eaf62fffSJeremy L Thompson CeedVector p_mult_fine, 1911eaf62fffSJeremy L Thompson CeedElemRestriction rstr_coarse, 1912eaf62fffSJeremy L Thompson CeedBasis basis_coarse, 1913eaf62fffSJeremy L Thompson const CeedScalar *interp_c_to_f, 1914eaf62fffSJeremy L Thompson CeedOperator *op_coarse, 1915eaf62fffSJeremy L Thompson CeedOperator *op_prolong, 1916eaf62fffSJeremy L Thompson CeedOperator *op_restrict) { 1917eaf62fffSJeremy L Thompson int ierr; 1918f04ea552SJeremy L Thompson ierr = CeedOperatorCheckReady(op_fine); CeedChk(ierr); 1919eaf62fffSJeremy L Thompson Ceed ceed; 1920eaf62fffSJeremy L Thompson ierr = CeedOperatorGetCeed(op_fine, &ceed); CeedChk(ierr); 1921eaf62fffSJeremy L Thompson 1922eaf62fffSJeremy L Thompson // Check for compatible quadrature spaces 1923eaf62fffSJeremy L Thompson CeedBasis basis_fine; 1924eaf62fffSJeremy L Thompson ierr = CeedOperatorGetActiveBasis(op_fine, &basis_fine); CeedChk(ierr); 1925eaf62fffSJeremy L Thompson CeedInt Q_f, Q_c; 1926eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumQuadraturePoints(basis_fine, &Q_f); CeedChk(ierr); 1927eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumQuadraturePoints(basis_coarse, &Q_c); CeedChk(ierr); 1928eaf62fffSJeremy L Thompson if (Q_f != Q_c) 1929eaf62fffSJeremy L Thompson // LCOV_EXCL_START 1930eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_DIMENSION, 1931eaf62fffSJeremy L Thompson "Bases must have compatible quadrature spaces"); 1932eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 1933eaf62fffSJeremy L Thompson 1934eaf62fffSJeremy L Thompson // Coarse to fine basis 1935eaf62fffSJeremy L Thompson CeedElemTopology topo; 1936eaf62fffSJeremy L Thompson ierr = CeedBasisGetTopology(basis_fine, &topo); CeedChk(ierr); 1937eaf62fffSJeremy L Thompson CeedInt dim, num_comp, num_nodes_c, num_nodes_f; 1938eaf62fffSJeremy L Thompson ierr = CeedBasisGetDimension(basis_fine, &dim); CeedChk(ierr); 1939eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumComponents(basis_fine, &num_comp); CeedChk(ierr); 1940eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumNodes(basis_fine, &num_nodes_f); CeedChk(ierr); 1941eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetElementSize(rstr_coarse, &num_nodes_c); 1942eaf62fffSJeremy L Thompson CeedChk(ierr); 1943eaf62fffSJeremy L Thompson CeedScalar *q_ref, *q_weight, *grad; 1944f9e0419eSJeremy L Thompson ierr = CeedCalloc(num_nodes_f*dim, &q_ref); CeedChk(ierr); 1945eaf62fffSJeremy L Thompson ierr = CeedCalloc(num_nodes_f, &q_weight); CeedChk(ierr); 1946eaf62fffSJeremy L Thompson ierr = CeedCalloc(num_nodes_f*num_nodes_c*dim, &grad); CeedChk(ierr); 1947eaf62fffSJeremy L Thompson CeedBasis basis_c_to_f; 1948eaf62fffSJeremy L Thompson ierr = CeedBasisCreateH1(ceed, topo, num_comp, num_nodes_c, num_nodes_f, 1949eaf62fffSJeremy L Thompson interp_c_to_f, grad, q_ref, q_weight, &basis_c_to_f); 1950eaf62fffSJeremy L Thompson CeedChk(ierr); 1951eaf62fffSJeremy L Thompson ierr = CeedFree(&q_ref); CeedChk(ierr); 1952eaf62fffSJeremy L Thompson ierr = CeedFree(&q_weight); CeedChk(ierr); 1953eaf62fffSJeremy L Thompson ierr = CeedFree(&grad); CeedChk(ierr); 1954eaf62fffSJeremy L Thompson 1955eaf62fffSJeremy L Thompson // Core code 1956eaf62fffSJeremy L Thompson ierr = CeedSingleOperatorMultigridLevel(op_fine, p_mult_fine, rstr_coarse, 1957eaf62fffSJeremy L Thompson basis_coarse, basis_c_to_f, op_coarse, 1958eaf62fffSJeremy L Thompson op_prolong, op_restrict); 1959eaf62fffSJeremy L Thompson CeedChk(ierr); 1960eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1961eaf62fffSJeremy L Thompson } 1962eaf62fffSJeremy L Thompson 1963eaf62fffSJeremy L Thompson /** 1964eaf62fffSJeremy L Thompson @brief Build a FDM based approximate inverse for each element for a 1965eaf62fffSJeremy L Thompson CeedOperator 1966eaf62fffSJeremy L Thompson 1967eaf62fffSJeremy L Thompson This returns a CeedOperator and CeedVector to apply a Fast Diagonalization 1968eaf62fffSJeremy L Thompson Method based approximate inverse. This function obtains the simultaneous 1969eaf62fffSJeremy L Thompson diagonalization for the 1D mass and Laplacian operators, 1970eaf62fffSJeremy L Thompson M = V^T V, K = V^T S V. 1971eaf62fffSJeremy L Thompson The assembled QFunction is used to modify the eigenvalues from simultaneous 1972eaf62fffSJeremy L Thompson diagonalization and obtain an approximate inverse of the form 1973eaf62fffSJeremy L Thompson V^T S^hat V. The CeedOperator must be linear and non-composite. The 1974eaf62fffSJeremy L Thompson associated CeedQFunction must therefore also be linear. 1975eaf62fffSJeremy L Thompson 1976f04ea552SJeremy L Thompson Note: Calling this function asserts that setup is complete 1977f04ea552SJeremy L Thompson and sets the CeedOperator as immutable. 1978f04ea552SJeremy L Thompson 1979eaf62fffSJeremy L Thompson @param op CeedOperator to create element inverses 1980eaf62fffSJeremy L Thompson @param[out] fdm_inv CeedOperator to apply the action of a FDM based inverse 1981eaf62fffSJeremy L Thompson for each element 1982eaf62fffSJeremy L Thompson @param request Address of CeedRequest for non-blocking completion, else 1983eaf62fffSJeremy L Thompson @ref CEED_REQUEST_IMMEDIATE 1984eaf62fffSJeremy L Thompson 1985eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1986eaf62fffSJeremy L Thompson 1987*480fae85SJeremy L Thompson @ref User 1988eaf62fffSJeremy L Thompson **/ 1989eaf62fffSJeremy L Thompson int CeedOperatorCreateFDMElementInverse(CeedOperator op, CeedOperator *fdm_inv, 1990eaf62fffSJeremy L Thompson CeedRequest *request) { 1991eaf62fffSJeremy L Thompson int ierr; 1992eaf62fffSJeremy L Thompson ierr = CeedOperatorCheckReady(op); CeedChk(ierr); 1993eaf62fffSJeremy L Thompson 1994eaf62fffSJeremy L Thompson // Use backend version, if available 1995eaf62fffSJeremy L Thompson if (op->CreateFDMElementInverse) { 1996eaf62fffSJeremy L Thompson ierr = op->CreateFDMElementInverse(op, fdm_inv, request); CeedChk(ierr); 1997eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1998eaf62fffSJeremy L Thompson } else { 1999eaf62fffSJeremy L Thompson // Check for valid fallback resource 2000eaf62fffSJeremy L Thompson const char *resource, *fallback_resource; 2001eaf62fffSJeremy L Thompson ierr = CeedGetResource(op->ceed, &resource); CeedChk(ierr); 2002eaf62fffSJeremy L Thompson ierr = CeedGetOperatorFallbackResource(op->ceed, &fallback_resource); 2003eaf62fffSJeremy L Thompson CeedChk(ierr); 2004eaf62fffSJeremy L Thompson if (strcmp(fallback_resource, "") && strcmp(resource, fallback_resource)) { 2005eaf62fffSJeremy L Thompson // Fallback to reference Ceed 2006eaf62fffSJeremy L Thompson if (!op->op_fallback) { 2007eaf62fffSJeremy L Thompson ierr = CeedOperatorCreateFallback(op); CeedChk(ierr); 2008eaf62fffSJeremy L Thompson } 2009eaf62fffSJeremy L Thompson // Assemble 2010eaf62fffSJeremy L Thompson ierr = CeedOperatorCreateFDMElementInverse(op->op_fallback, fdm_inv, request); 2011eaf62fffSJeremy L Thompson CeedChk(ierr); 2012eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2013eaf62fffSJeremy L Thompson } 2014eaf62fffSJeremy L Thompson } 2015eaf62fffSJeremy L Thompson 2016eaf62fffSJeremy L Thompson // Interface implementation 2017eaf62fffSJeremy L Thompson Ceed ceed, ceed_parent; 2018eaf62fffSJeremy L Thompson ierr = CeedOperatorGetCeed(op, &ceed); CeedChk(ierr); 2019eaf62fffSJeremy L Thompson ierr = CeedGetOperatorFallbackParentCeed(ceed, &ceed_parent); CeedChk(ierr); 2020eaf62fffSJeremy L Thompson ceed_parent = ceed_parent ? ceed_parent : ceed; 2021eaf62fffSJeremy L Thompson CeedQFunction qf; 2022eaf62fffSJeremy L Thompson ierr = CeedOperatorGetQFunction(op, &qf); CeedChk(ierr); 2023eaf62fffSJeremy L Thompson 2024eaf62fffSJeremy L Thompson // Determine active input basis 2025eaf62fffSJeremy L Thompson bool interp = false, grad = false; 2026eaf62fffSJeremy L Thompson CeedBasis basis = NULL; 2027eaf62fffSJeremy L Thompson CeedElemRestriction rstr = NULL; 2028eaf62fffSJeremy L Thompson CeedOperatorField *op_fields; 2029eaf62fffSJeremy L Thompson CeedQFunctionField *qf_fields; 2030eaf62fffSJeremy L Thompson CeedInt num_input_fields; 20317e7773b5SJeremy L Thompson ierr = CeedOperatorGetFields(op, &num_input_fields, &op_fields, NULL, NULL); 20327e7773b5SJeremy L Thompson CeedChk(ierr); 20337e7773b5SJeremy L Thompson ierr = CeedQFunctionGetFields(qf, NULL, &qf_fields, NULL, NULL); CeedChk(ierr); 2034eaf62fffSJeremy L Thompson for (CeedInt i=0; i<num_input_fields; i++) { 2035eaf62fffSJeremy L Thompson CeedVector vec; 2036eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetVector(op_fields[i], &vec); CeedChk(ierr); 2037eaf62fffSJeremy L Thompson if (vec == CEED_VECTOR_ACTIVE) { 2038eaf62fffSJeremy L Thompson CeedEvalMode eval_mode; 2039eaf62fffSJeremy L Thompson ierr = CeedQFunctionFieldGetEvalMode(qf_fields[i], &eval_mode); CeedChk(ierr); 2040eaf62fffSJeremy L Thompson interp = interp || eval_mode == CEED_EVAL_INTERP; 2041eaf62fffSJeremy L Thompson grad = grad || eval_mode == CEED_EVAL_GRAD; 2042eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetBasis(op_fields[i], &basis); CeedChk(ierr); 2043eaf62fffSJeremy L Thompson ierr = CeedOperatorFieldGetElemRestriction(op_fields[i], &rstr); CeedChk(ierr); 2044eaf62fffSJeremy L Thompson } 2045eaf62fffSJeremy L Thompson } 2046eaf62fffSJeremy L Thompson if (!basis) 2047eaf62fffSJeremy L Thompson // LCOV_EXCL_START 2048eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_BACKEND, "No active field set"); 2049eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 2050e79b91d9SJeremy L Thompson CeedSize l_size = 1; 2051e79b91d9SJeremy L Thompson CeedInt P_1d, Q_1d, elem_size, num_qpts, dim, num_comp = 1, num_elem = 1; 2052eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumNodes1D(basis, &P_1d); CeedChk(ierr); 2053eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumNodes(basis, &elem_size); CeedChk(ierr); 2054eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumQuadraturePoints1D(basis, &Q_1d); CeedChk(ierr); 2055eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumQuadraturePoints(basis, &num_qpts); CeedChk(ierr); 2056eaf62fffSJeremy L Thompson ierr = CeedBasisGetDimension(basis, &dim); CeedChk(ierr); 2057eaf62fffSJeremy L Thompson ierr = CeedBasisGetNumComponents(basis, &num_comp); CeedChk(ierr); 2058eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetNumElements(rstr, &num_elem); CeedChk(ierr); 2059eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetLVectorSize(rstr, &l_size); CeedChk(ierr); 2060eaf62fffSJeremy L Thompson 2061eaf62fffSJeremy L Thompson // Build and diagonalize 1D Mass and Laplacian 2062eaf62fffSJeremy L Thompson bool tensor_basis; 2063eaf62fffSJeremy L Thompson ierr = CeedBasisIsTensor(basis, &tensor_basis); CeedChk(ierr); 2064eaf62fffSJeremy L Thompson if (!tensor_basis) 2065eaf62fffSJeremy L Thompson // LCOV_EXCL_START 2066eaf62fffSJeremy L Thompson return CeedError(ceed, CEED_ERROR_BACKEND, 2067eaf62fffSJeremy L Thompson "FDMElementInverse only supported for tensor " 2068eaf62fffSJeremy L Thompson "bases"); 2069eaf62fffSJeremy L Thompson // LCOV_EXCL_STOP 2070eaf62fffSJeremy L Thompson CeedScalar *mass, *laplace, *x, *fdm_interp, *lambda; 2071eaf62fffSJeremy L Thompson ierr = CeedCalloc(P_1d*P_1d, &mass); CeedChk(ierr); 2072eaf62fffSJeremy L Thompson ierr = CeedCalloc(P_1d*P_1d, &laplace); CeedChk(ierr); 2073eaf62fffSJeremy L Thompson ierr = CeedCalloc(P_1d*P_1d, &x); CeedChk(ierr); 2074eaf62fffSJeremy L Thompson ierr = CeedCalloc(P_1d*P_1d, &fdm_interp); CeedChk(ierr); 2075eaf62fffSJeremy L Thompson ierr = CeedCalloc(P_1d, &lambda); CeedChk(ierr); 2076eaf62fffSJeremy L Thompson // -- Build matrices 2077eaf62fffSJeremy L Thompson const CeedScalar *interp_1d, *grad_1d, *q_weight_1d; 2078eaf62fffSJeremy L Thompson ierr = CeedBasisGetInterp1D(basis, &interp_1d); CeedChk(ierr); 2079eaf62fffSJeremy L Thompson ierr = CeedBasisGetGrad1D(basis, &grad_1d); CeedChk(ierr); 2080eaf62fffSJeremy L Thompson ierr = CeedBasisGetQWeights(basis, &q_weight_1d); CeedChk(ierr); 2081eaf62fffSJeremy L Thompson ierr = CeedBuildMassLaplace(interp_1d, grad_1d, q_weight_1d, P_1d, Q_1d, dim, 2082eaf62fffSJeremy L Thompson mass, laplace); CeedChk(ierr); 2083eaf62fffSJeremy L Thompson 2084eaf62fffSJeremy L Thompson // -- Diagonalize 2085eaf62fffSJeremy L Thompson ierr = CeedSimultaneousDiagonalization(ceed, laplace, mass, x, lambda, P_1d); 2086eaf62fffSJeremy L Thompson CeedChk(ierr); 2087eaf62fffSJeremy L Thompson ierr = CeedFree(&mass); CeedChk(ierr); 2088eaf62fffSJeremy L Thompson ierr = CeedFree(&laplace); CeedChk(ierr); 2089eaf62fffSJeremy L Thompson for (CeedInt i=0; i<P_1d; i++) 2090eaf62fffSJeremy L Thompson for (CeedInt j=0; j<P_1d; j++) 2091eaf62fffSJeremy L Thompson fdm_interp[i+j*P_1d] = x[j+i*P_1d]; 2092eaf62fffSJeremy L Thompson ierr = CeedFree(&x); CeedChk(ierr); 2093eaf62fffSJeremy L Thompson 2094eaf62fffSJeremy L Thompson // Assemble QFunction 2095eaf62fffSJeremy L Thompson CeedVector assembled; 2096eaf62fffSJeremy L Thompson CeedElemRestriction rstr_qf; 209770a7ffb3SJeremy L Thompson ierr = CeedOperatorLinearAssembleQFunctionBuildOrUpdate(op, &assembled, 209870a7ffb3SJeremy L Thompson &rstr_qf, request); CeedChk(ierr); 2099eaf62fffSJeremy L Thompson CeedInt layout[3]; 2100eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionGetELayout(rstr_qf, &layout); CeedChk(ierr); 2101eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionDestroy(&rstr_qf); CeedChk(ierr); 2102eaf62fffSJeremy L Thompson CeedScalar max_norm = 0; 2103eaf62fffSJeremy L Thompson ierr = CeedVectorNorm(assembled, CEED_NORM_MAX, &max_norm); CeedChk(ierr); 2104eaf62fffSJeremy L Thompson 2105eaf62fffSJeremy L Thompson // Calculate element averages 2106eaf62fffSJeremy L Thompson CeedInt num_modes = (interp?1:0) + (grad?dim:0); 2107eaf62fffSJeremy L Thompson CeedScalar *elem_avg; 2108eaf62fffSJeremy L Thompson const CeedScalar *assembled_array, *q_weight_array; 2109eaf62fffSJeremy L Thompson CeedVector q_weight; 2110eaf62fffSJeremy L Thompson ierr = CeedVectorCreate(ceed_parent, num_qpts, &q_weight); CeedChk(ierr); 2111eaf62fffSJeremy L Thompson ierr = CeedBasisApply(basis, 1, CEED_NOTRANSPOSE, CEED_EVAL_WEIGHT, 2112eaf62fffSJeremy L Thompson CEED_VECTOR_NONE, q_weight); CeedChk(ierr); 2113eaf62fffSJeremy L Thompson ierr = CeedVectorGetArrayRead(assembled, CEED_MEM_HOST, &assembled_array); 2114eaf62fffSJeremy L Thompson CeedChk(ierr); 2115eaf62fffSJeremy L Thompson ierr = CeedVectorGetArrayRead(q_weight, CEED_MEM_HOST, &q_weight_array); 2116eaf62fffSJeremy L Thompson CeedChk(ierr); 2117eaf62fffSJeremy L Thompson ierr = CeedCalloc(num_elem, &elem_avg); CeedChk(ierr); 2118eaf62fffSJeremy L Thompson const CeedScalar qf_value_bound = max_norm*100*CEED_EPSILON; 2119eaf62fffSJeremy L Thompson for (CeedInt e=0; e<num_elem; e++) { 2120eaf62fffSJeremy L Thompson CeedInt count = 0; 2121eaf62fffSJeremy L Thompson for (CeedInt q=0; q<num_qpts; q++) 2122eaf62fffSJeremy L Thompson for (CeedInt i=0; i<num_comp*num_comp*num_modes*num_modes; i++) 2123eaf62fffSJeremy L Thompson if (fabs(assembled_array[q*layout[0] + i*layout[1] + e*layout[2]]) > 2124eaf62fffSJeremy L Thompson qf_value_bound) { 2125eaf62fffSJeremy L Thompson elem_avg[e] += assembled_array[q*layout[0] + i*layout[1] + e*layout[2]] / 2126eaf62fffSJeremy L Thompson q_weight_array[q]; 2127eaf62fffSJeremy L Thompson count++; 2128eaf62fffSJeremy L Thompson } 2129eaf62fffSJeremy L Thompson if (count) { 2130eaf62fffSJeremy L Thompson elem_avg[e] /= count; 2131eaf62fffSJeremy L Thompson } else { 2132eaf62fffSJeremy L Thompson elem_avg[e] = 1.0; 2133eaf62fffSJeremy L Thompson } 2134eaf62fffSJeremy L Thompson } 2135eaf62fffSJeremy L Thompson ierr = CeedVectorRestoreArrayRead(assembled, &assembled_array); CeedChk(ierr); 2136eaf62fffSJeremy L Thompson ierr = CeedVectorDestroy(&assembled); CeedChk(ierr); 2137eaf62fffSJeremy L Thompson ierr = CeedVectorRestoreArrayRead(q_weight, &q_weight_array); CeedChk(ierr); 2138eaf62fffSJeremy L Thompson ierr = CeedVectorDestroy(&q_weight); CeedChk(ierr); 2139eaf62fffSJeremy L Thompson 2140eaf62fffSJeremy L Thompson // Build FDM diagonal 2141eaf62fffSJeremy L Thompson CeedVector q_data; 2142eaf62fffSJeremy L Thompson CeedScalar *q_data_array, *fdm_diagonal; 2143eaf62fffSJeremy L Thompson ierr = CeedCalloc(num_comp*elem_size, &fdm_diagonal); CeedChk(ierr); 2144eaf62fffSJeremy L Thompson const CeedScalar fdm_diagonal_bound = elem_size*CEED_EPSILON; 2145eaf62fffSJeremy L Thompson for (CeedInt c=0; c<num_comp; c++) 2146eaf62fffSJeremy L Thompson for (CeedInt n=0; n<elem_size; n++) { 2147eaf62fffSJeremy L Thompson if (interp) 2148eaf62fffSJeremy L Thompson fdm_diagonal[c*elem_size + n] = 1.0; 2149eaf62fffSJeremy L Thompson if (grad) 2150eaf62fffSJeremy L Thompson for (CeedInt d=0; d<dim; d++) { 2151eaf62fffSJeremy L Thompson CeedInt i = (n / CeedIntPow(P_1d, d)) % P_1d; 2152eaf62fffSJeremy L Thompson fdm_diagonal[c*elem_size + n] += lambda[i]; 2153eaf62fffSJeremy L Thompson } 2154eaf62fffSJeremy L Thompson if (fabs(fdm_diagonal[c*elem_size + n]) < fdm_diagonal_bound) 2155eaf62fffSJeremy L Thompson fdm_diagonal[c*elem_size + n] = fdm_diagonal_bound; 2156eaf62fffSJeremy L Thompson } 2157eaf62fffSJeremy L Thompson ierr = CeedVectorCreate(ceed_parent, num_elem*num_comp*elem_size, &q_data); 2158eaf62fffSJeremy L Thompson CeedChk(ierr); 2159eaf62fffSJeremy L Thompson ierr = CeedVectorSetValue(q_data, 0.0); CeedChk(ierr); 21609c774eddSJeremy L Thompson ierr = CeedVectorGetArrayWrite(q_data, CEED_MEM_HOST, &q_data_array); 21619c774eddSJeremy L Thompson CeedChk(ierr); 2162eaf62fffSJeremy L Thompson for (CeedInt e=0; e<num_elem; e++) 2163eaf62fffSJeremy L Thompson for (CeedInt c=0; c<num_comp; c++) 2164eaf62fffSJeremy L Thompson for (CeedInt n=0; n<elem_size; n++) 2165eaf62fffSJeremy L Thompson q_data_array[(e*num_comp+c)*elem_size+n] = 1. / (elem_avg[e] * 2166eaf62fffSJeremy L Thompson fdm_diagonal[c*elem_size + n]); 2167eaf62fffSJeremy L Thompson ierr = CeedFree(&elem_avg); CeedChk(ierr); 2168eaf62fffSJeremy L Thompson ierr = CeedFree(&fdm_diagonal); CeedChk(ierr); 2169eaf62fffSJeremy L Thompson ierr = CeedVectorRestoreArray(q_data, &q_data_array); CeedChk(ierr); 2170eaf62fffSJeremy L Thompson 2171eaf62fffSJeremy L Thompson // Setup FDM operator 2172eaf62fffSJeremy L Thompson // -- Basis 2173eaf62fffSJeremy L Thompson CeedBasis fdm_basis; 2174eaf62fffSJeremy L Thompson CeedScalar *grad_dummy, *q_ref_dummy, *q_weight_dummy; 2175eaf62fffSJeremy L Thompson ierr = CeedCalloc(P_1d*P_1d, &grad_dummy); CeedChk(ierr); 2176eaf62fffSJeremy L Thompson ierr = CeedCalloc(P_1d, &q_ref_dummy); CeedChk(ierr); 2177eaf62fffSJeremy L Thompson ierr = CeedCalloc(P_1d, &q_weight_dummy); CeedChk(ierr); 2178eaf62fffSJeremy L Thompson ierr = CeedBasisCreateTensorH1(ceed_parent, dim, num_comp, P_1d, P_1d, 2179eaf62fffSJeremy L Thompson fdm_interp, grad_dummy, q_ref_dummy, 2180eaf62fffSJeremy L Thompson q_weight_dummy, &fdm_basis); CeedChk(ierr); 2181eaf62fffSJeremy L Thompson ierr = CeedFree(&fdm_interp); CeedChk(ierr); 2182eaf62fffSJeremy L Thompson ierr = CeedFree(&grad_dummy); CeedChk(ierr); 2183eaf62fffSJeremy L Thompson ierr = CeedFree(&q_ref_dummy); CeedChk(ierr); 2184eaf62fffSJeremy L Thompson ierr = CeedFree(&q_weight_dummy); CeedChk(ierr); 2185eaf62fffSJeremy L Thompson ierr = CeedFree(&lambda); CeedChk(ierr); 2186eaf62fffSJeremy L Thompson 2187eaf62fffSJeremy L Thompson // -- Restriction 2188eaf62fffSJeremy L Thompson CeedElemRestriction rstr_qd_i; 2189eaf62fffSJeremy L Thompson CeedInt strides[3] = {1, elem_size, elem_size*num_comp}; 2190eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionCreateStrided(ceed_parent, num_elem, elem_size, 2191eaf62fffSJeremy L Thompson num_comp, num_elem*num_comp*elem_size, 2192eaf62fffSJeremy L Thompson strides, &rstr_qd_i); CeedChk(ierr); 2193eaf62fffSJeremy L Thompson // -- QFunction 2194eaf62fffSJeremy L Thompson CeedQFunction qf_fdm; 2195eaf62fffSJeremy L Thompson ierr = CeedQFunctionCreateInteriorByName(ceed_parent, "Scale", &qf_fdm); 2196eaf62fffSJeremy L Thompson CeedChk(ierr); 2197eaf62fffSJeremy L Thompson ierr = CeedQFunctionAddInput(qf_fdm, "input", num_comp, CEED_EVAL_INTERP); 2198eaf62fffSJeremy L Thompson CeedChk(ierr); 2199eaf62fffSJeremy L Thompson ierr = CeedQFunctionAddInput(qf_fdm, "scale", num_comp, CEED_EVAL_NONE); 2200eaf62fffSJeremy L Thompson CeedChk(ierr); 2201eaf62fffSJeremy L Thompson ierr = CeedQFunctionAddOutput(qf_fdm, "output", num_comp, CEED_EVAL_INTERP); 2202eaf62fffSJeremy L Thompson CeedChk(ierr); 2203eaf62fffSJeremy L Thompson // -- QFunction context 2204eaf62fffSJeremy L Thompson CeedInt *num_comp_data; 2205eaf62fffSJeremy L Thompson ierr = CeedCalloc(1, &num_comp_data); CeedChk(ierr); 2206eaf62fffSJeremy L Thompson num_comp_data[0] = num_comp; 2207eaf62fffSJeremy L Thompson CeedQFunctionContext ctx_fdm; 2208eaf62fffSJeremy L Thompson ierr = CeedQFunctionContextCreate(ceed, &ctx_fdm); CeedChk(ierr); 2209eaf62fffSJeremy L Thompson ierr = CeedQFunctionContextSetData(ctx_fdm, CEED_MEM_HOST, CEED_OWN_POINTER, 2210eaf62fffSJeremy L Thompson sizeof(*num_comp_data), num_comp_data); 2211eaf62fffSJeremy L Thompson CeedChk(ierr); 2212eaf62fffSJeremy L Thompson ierr = CeedQFunctionSetContext(qf_fdm, ctx_fdm); CeedChk(ierr); 2213eaf62fffSJeremy L Thompson ierr = CeedQFunctionContextDestroy(&ctx_fdm); CeedChk(ierr); 2214eaf62fffSJeremy L Thompson // -- Operator 2215eaf62fffSJeremy L Thompson ierr = CeedOperatorCreate(ceed_parent, qf_fdm, NULL, NULL, fdm_inv); 2216eaf62fffSJeremy L Thompson CeedChk(ierr); 2217eaf62fffSJeremy L Thompson CeedOperatorSetField(*fdm_inv, "input", rstr, fdm_basis, CEED_VECTOR_ACTIVE); 2218eaf62fffSJeremy L Thompson CeedChk(ierr); 2219eaf62fffSJeremy L Thompson CeedOperatorSetField(*fdm_inv, "scale", rstr_qd_i, CEED_BASIS_COLLOCATED, 2220eaf62fffSJeremy L Thompson q_data); CeedChk(ierr); 2221eaf62fffSJeremy L Thompson CeedOperatorSetField(*fdm_inv, "output", rstr, fdm_basis, CEED_VECTOR_ACTIVE); 2222eaf62fffSJeremy L Thompson CeedChk(ierr); 2223eaf62fffSJeremy L Thompson 2224eaf62fffSJeremy L Thompson // Cleanup 2225eaf62fffSJeremy L Thompson ierr = CeedVectorDestroy(&q_data); CeedChk(ierr); 2226eaf62fffSJeremy L Thompson ierr = CeedBasisDestroy(&fdm_basis); CeedChk(ierr); 2227eaf62fffSJeremy L Thompson ierr = CeedElemRestrictionDestroy(&rstr_qd_i); CeedChk(ierr); 2228eaf62fffSJeremy L Thompson ierr = CeedQFunctionDestroy(&qf_fdm); CeedChk(ierr); 2229eaf62fffSJeremy L Thompson 2230eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2231eaf62fffSJeremy L Thompson } 2232eaf62fffSJeremy L Thompson 2233eaf62fffSJeremy L Thompson /// @} 2234