15aed82e4SJeremy L Thompson // Copyright (c) 2017-2024, Lawrence Livermore National Security, LLC and other CEED contributors. 23d8e8822SJeremy L Thompson // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. 3eaf62fffSJeremy L Thompson // 43d8e8822SJeremy L Thompson // SPDX-License-Identifier: BSD-2-Clause 5eaf62fffSJeremy L Thompson // 63d8e8822SJeremy L Thompson // This file is part of CEED: http://github.com/ceed 7eaf62fffSJeremy L Thompson 82b730f8bSJeremy L Thompson #include <ceed-impl.h> 949aac155SJeremy L Thompson #include <ceed.h> 102b730f8bSJeremy L Thompson #include <ceed/backend.h> 11c85e8640SSebastian Grimberg #include <assert.h> 122b730f8bSJeremy L Thompson #include <math.h> 13eaf62fffSJeremy L Thompson #include <stdbool.h> 14eaf62fffSJeremy L Thompson #include <stdio.h> 15eaf62fffSJeremy L Thompson #include <string.h> 16eaf62fffSJeremy L Thompson 17eaf62fffSJeremy L Thompson /// @file 18eaf62fffSJeremy L Thompson /// Implementation of CeedOperator preconditioning interfaces 19eaf62fffSJeremy L Thompson 20eaf62fffSJeremy L Thompson /// ---------------------------------------------------------------------------- 21eaf62fffSJeremy L Thompson /// CeedOperator Library Internal Preconditioning Functions 22eaf62fffSJeremy L Thompson /// ---------------------------------------------------------------------------- 23eaf62fffSJeremy L Thompson /// @addtogroup CeedOperatorDeveloper 24eaf62fffSJeremy L Thompson /// @{ 25eaf62fffSJeremy L Thompson 26eaf62fffSJeremy L Thompson /** 27ca94c3ddSJeremy L Thompson @brief Duplicate a `CeedQFunction` with a reference `Ceed` to fallback for advanced `CeedOperator` functionality 289e77b9c8SJeremy L Thompson 29ca94c3ddSJeremy L Thompson @param[in] fallback_ceed `Ceed` on which to create fallback `CeedQFunction` 30ca94c3ddSJeremy L Thompson @param[in] qf `CeedQFunction` to create fallback for 31ca94c3ddSJeremy L Thompson @param[out] qf_fallback Fallback `CeedQFunction` 329e77b9c8SJeremy L Thompson 339e77b9c8SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 349e77b9c8SJeremy L Thompson 359e77b9c8SJeremy L Thompson @ref Developer 369e77b9c8SJeremy L Thompson **/ 372b730f8bSJeremy L Thompson static int CeedQFunctionCreateFallback(Ceed fallback_ceed, CeedQFunction qf, CeedQFunction *qf_fallback) { 381c66c397SJeremy L Thompson char *source_path_with_name = NULL; 391203703bSJeremy L Thompson CeedInt num_input_fields, num_output_fields; 401203703bSJeremy L Thompson Ceed ceed; 411203703bSJeremy L Thompson CeedQFunctionField *input_fields, *output_fields; 421c66c397SJeremy L Thompson 439e77b9c8SJeremy L Thompson // Check if NULL qf passed in 449e77b9c8SJeremy L Thompson if (!qf) return CEED_ERROR_SUCCESS; 459e77b9c8SJeremy L Thompson 461203703bSJeremy L Thompson CeedCall(CeedQFunctionGetCeed(qf, &ceed)); 471203703bSJeremy L Thompson CeedDebug256(ceed, 1, "---------- CeedOperator Fallback ----------\n"); 481203703bSJeremy L Thompson CeedDebug(ceed, "Creating fallback CeedQFunction\n"); 49d04bbc78SJeremy L Thompson 509e77b9c8SJeremy L Thompson if (qf->source_path) { 512b730f8bSJeremy L Thompson size_t path_len = strlen(qf->source_path), name_len = strlen(qf->kernel_name); 522b730f8bSJeremy L Thompson CeedCall(CeedCalloc(path_len + name_len + 2, &source_path_with_name)); 539e77b9c8SJeremy L Thompson memcpy(source_path_with_name, qf->source_path, path_len); 549e77b9c8SJeremy L Thompson memcpy(&source_path_with_name[path_len], ":", 1); 559e77b9c8SJeremy L Thompson memcpy(&source_path_with_name[path_len + 1], qf->kernel_name, name_len); 569e77b9c8SJeremy L Thompson } else { 572b730f8bSJeremy L Thompson CeedCall(CeedCalloc(1, &source_path_with_name)); 589e77b9c8SJeremy L Thompson } 599e77b9c8SJeremy L Thompson 601203703bSJeremy L Thompson { 611203703bSJeremy L Thompson CeedInt vec_length; 621203703bSJeremy L Thompson CeedQFunctionUser f; 631203703bSJeremy L Thompson 641203703bSJeremy L Thompson CeedCall(CeedQFunctionGetVectorLength(qf, &vec_length)); 651203703bSJeremy L Thompson CeedCall(CeedQFunctionGetUserFunction(qf, &f)); 661203703bSJeremy L Thompson CeedCall(CeedQFunctionCreateInterior(fallback_ceed, vec_length, f, source_path_with_name, qf_fallback)); 671203703bSJeremy L Thompson } 689e77b9c8SJeremy L Thompson { 699e77b9c8SJeremy L Thompson CeedQFunctionContext ctx; 709e77b9c8SJeremy L Thompson 712b730f8bSJeremy L Thompson CeedCall(CeedQFunctionGetContext(qf, &ctx)); 722b730f8bSJeremy L Thompson CeedCall(CeedQFunctionSetContext(*qf_fallback, ctx)); 739e77b9c8SJeremy L Thompson } 741203703bSJeremy L Thompson CeedCall(CeedQFunctionGetFields(qf, &num_input_fields, &input_fields, &num_output_fields, &output_fields)); 751203703bSJeremy L Thompson for (CeedInt i = 0; i < num_input_fields; i++) { 766f8994e9SJeremy L Thompson const char *field_name; 771203703bSJeremy L Thompson CeedInt size; 781203703bSJeremy L Thompson CeedEvalMode eval_mode; 791203703bSJeremy L Thompson 80ab747706SJeremy L Thompson CeedCall(CeedQFunctionFieldGetData(input_fields[i], &field_name, &size, &eval_mode)); 811203703bSJeremy L Thompson CeedCall(CeedQFunctionAddInput(*qf_fallback, field_name, size, eval_mode)); 829e77b9c8SJeremy L Thompson } 831203703bSJeremy L Thompson for (CeedInt i = 0; i < num_output_fields; i++) { 846f8994e9SJeremy L Thompson const char *field_name; 851203703bSJeremy L Thompson CeedInt size; 861203703bSJeremy L Thompson CeedEvalMode eval_mode; 871203703bSJeremy L Thompson 88ab747706SJeremy L Thompson CeedCall(CeedQFunctionFieldGetData(output_fields[i], &field_name, &size, &eval_mode)); 891203703bSJeremy L Thompson CeedCall(CeedQFunctionAddOutput(*qf_fallback, field_name, size, eval_mode)); 909e77b9c8SJeremy L Thompson } 912b730f8bSJeremy L Thompson CeedCall(CeedFree(&source_path_with_name)); 929e77b9c8SJeremy L Thompson return CEED_ERROR_SUCCESS; 939e77b9c8SJeremy L Thompson } 949e77b9c8SJeremy L Thompson 959e77b9c8SJeremy L Thompson /** 96ca94c3ddSJeremy L Thompson @brief Duplicate a `CeedOperator` with a reference `Ceed` to fallback for advanced `CeedOperator` functionality 97eaf62fffSJeremy L Thompson 98ca94c3ddSJeremy L Thompson @param[in,out] op `CeedOperator` to create fallback for 99eaf62fffSJeremy L Thompson 100eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 101eaf62fffSJeremy L Thompson 102eaf62fffSJeremy L Thompson @ref Developer 103eaf62fffSJeremy L Thompson **/ 104d04bbc78SJeremy L Thompson static int CeedOperatorCreateFallback(CeedOperator op) { 1051c66c397SJeremy L Thompson bool is_composite; 1061203703bSJeremy L Thompson Ceed ceed, ceed_fallback; 1071c66c397SJeremy L Thompson CeedOperator op_fallback; 108eaf62fffSJeremy L Thompson 109805fe78eSJeremy L Thompson // Check not already created 110805fe78eSJeremy L Thompson if (op->op_fallback) return CEED_ERROR_SUCCESS; 111805fe78eSJeremy L Thompson 112eaf62fffSJeremy L Thompson // Fallback Ceed 1131203703bSJeremy L Thompson CeedCall(CeedOperatorGetCeed(op, &ceed)); 1141203703bSJeremy L Thompson CeedCall(CeedGetOperatorFallbackCeed(ceed, &ceed_fallback)); 115d04bbc78SJeremy L Thompson if (!ceed_fallback) return CEED_ERROR_SUCCESS; 116d04bbc78SJeremy L Thompson 1171203703bSJeremy L Thompson CeedDebug256(ceed, 1, "---------- CeedOperator Fallback ----------\n"); 1181203703bSJeremy L Thompson CeedDebug(ceed, "Creating fallback CeedOperator\n"); 119eaf62fffSJeremy L Thompson 120eaf62fffSJeremy L Thompson // Clone Op 121b275c451SJeremy L Thompson CeedCall(CeedOperatorIsComposite(op, &is_composite)); 122b275c451SJeremy L Thompson if (is_composite) { 123b275c451SJeremy L Thompson CeedInt num_suboperators; 124b275c451SJeremy L Thompson CeedOperator *sub_operators; 125b275c451SJeremy L Thompson 1262b730f8bSJeremy L Thompson CeedCall(CeedCompositeOperatorCreate(ceed_fallback, &op_fallback)); 127b275c451SJeremy L Thompson CeedCall(CeedCompositeOperatorGetNumSub(op, &num_suboperators)); 128b275c451SJeremy L Thompson CeedCall(CeedCompositeOperatorGetSubList(op, &sub_operators)); 129b275c451SJeremy L Thompson for (CeedInt i = 0; i < num_suboperators; i++) { 130d04bbc78SJeremy L Thompson CeedOperator op_sub_fallback; 131d04bbc78SJeremy L Thompson 132b275c451SJeremy L Thompson CeedCall(CeedOperatorGetFallback(sub_operators[i], &op_sub_fallback)); 1332b730f8bSJeremy L Thompson CeedCall(CeedCompositeOperatorAddSub(op_fallback, op_sub_fallback)); 134805fe78eSJeremy L Thompson } 135805fe78eSJeremy L Thompson } else { 1361203703bSJeremy L Thompson CeedInt num_input_fields, num_output_fields; 1379e77b9c8SJeremy L Thompson CeedQFunction qf_fallback = NULL, dqf_fallback = NULL, dqfT_fallback = NULL; 1381203703bSJeremy L Thompson CeedOperatorField *input_fields, *output_fields; 1391c66c397SJeremy L Thompson 1402b730f8bSJeremy L Thompson CeedCall(CeedQFunctionCreateFallback(ceed_fallback, op->qf, &qf_fallback)); 1412b730f8bSJeremy L Thompson CeedCall(CeedQFunctionCreateFallback(ceed_fallback, op->dqf, &dqf_fallback)); 1422b730f8bSJeremy L Thompson CeedCall(CeedQFunctionCreateFallback(ceed_fallback, op->dqfT, &dqfT_fallback)); 1432b730f8bSJeremy L Thompson CeedCall(CeedOperatorCreate(ceed_fallback, qf_fallback, dqf_fallback, dqfT_fallback, &op_fallback)); 1441203703bSJeremy L Thompson CeedCall(CeedOperatorGetFields(op, &num_input_fields, &input_fields, &num_output_fields, &output_fields)); 1451203703bSJeremy L Thompson for (CeedInt i = 0; i < num_input_fields; i++) { 1466f8994e9SJeremy L Thompson const char *field_name; 1471203703bSJeremy L Thompson CeedVector vec; 1481203703bSJeremy L Thompson CeedElemRestriction rstr; 1491203703bSJeremy L Thompson CeedBasis basis; 1501203703bSJeremy L Thompson 151ab747706SJeremy L Thompson CeedCall(CeedOperatorFieldGetData(input_fields[i], &field_name, &rstr, &basis, &vec)); 1521203703bSJeremy L Thompson CeedCall(CeedOperatorSetField(op_fallback, field_name, rstr, basis, vec)); 153805fe78eSJeremy L Thompson } 1541203703bSJeremy L Thompson for (CeedInt i = 0; i < num_output_fields; i++) { 1556f8994e9SJeremy L Thompson const char *field_name; 1561203703bSJeremy L Thompson CeedVector vec; 1571203703bSJeremy L Thompson CeedElemRestriction rstr; 1581203703bSJeremy L Thompson CeedBasis basis; 1591203703bSJeremy L Thompson 160ab747706SJeremy L Thompson CeedCall(CeedOperatorFieldGetData(output_fields[i], &field_name, &rstr, &basis, &vec)); 1611203703bSJeremy L Thompson CeedCall(CeedOperatorSetField(op_fallback, field_name, rstr, basis, vec)); 162805fe78eSJeremy L Thompson } 1637d5185d7SSebastian Grimberg { 1647d5185d7SSebastian Grimberg CeedQFunctionAssemblyData data; 1657d5185d7SSebastian Grimberg 1667d5185d7SSebastian Grimberg CeedCall(CeedOperatorGetQFunctionAssemblyData(op, &data)); 1677d5185d7SSebastian Grimberg CeedCall(CeedQFunctionAssemblyDataReferenceCopy(data, &op_fallback->qf_assembled)); 1687d5185d7SSebastian Grimberg } 1699e77b9c8SJeremy L Thompson // Cleanup 1702b730f8bSJeremy L Thompson CeedCall(CeedQFunctionDestroy(&qf_fallback)); 1712b730f8bSJeremy L Thompson CeedCall(CeedQFunctionDestroy(&dqf_fallback)); 1722b730f8bSJeremy L Thompson CeedCall(CeedQFunctionDestroy(&dqfT_fallback)); 173805fe78eSJeremy L Thompson } 1742b730f8bSJeremy L Thompson CeedCall(CeedOperatorSetName(op_fallback, op->name)); 1752b730f8bSJeremy L Thompson CeedCall(CeedOperatorCheckReady(op_fallback)); 176b05f7e9fSJeremy L Thompson // Note: No ref-counting here so we don't get caught in a reference loop. 177b05f7e9fSJeremy L Thompson // The op holds the only reference to op_fallback and is responsible for deleting itself and op_fallback. 178805fe78eSJeremy L Thompson op->op_fallback = op_fallback; 179b05f7e9fSJeremy L Thompson op_fallback->op_fallback_parent = op; 180eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 181eaf62fffSJeremy L Thompson } 182eaf62fffSJeremy L Thompson 183eaf62fffSJeremy L Thompson /** 184eaf62fffSJeremy L Thompson @brief Core logic for assembling operator diagonal or point block diagonal 185eaf62fffSJeremy L Thompson 1860cd9fdf4SJeremy L Thompson @param[in] op `CeedOperator` to assemble diagonal or point block diagonal 187ca94c3ddSJeremy L Thompson @param[in] request Address of @ref CeedRequest for non-blocking completion, else @ref CEED_REQUEST_IMMEDIATE 188bd83916cSSebastian Grimberg @param[in] is_point_block Boolean flag to assemble diagonal or point block diagonal 189ca94c3ddSJeremy L Thompson @param[out] assembled `CeedVector` to store assembled diagonal 190eaf62fffSJeremy L Thompson 191eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 192eaf62fffSJeremy L Thompson 193eaf62fffSJeremy L Thompson @ref Developer 194eaf62fffSJeremy L Thompson **/ 1950cd9fdf4SJeremy L Thompson static inline int CeedSingleOperatorLinearAssembleAddDiagonal_Mesh(CeedOperator op, CeedRequest *request, const bool is_point_block, 196f3bd9308SJeremy L Thompson CeedVector assembled) { 197eaf62fffSJeremy L Thompson Ceed ceed; 198506b1a0cSSebastian Grimberg bool is_composite; 199506b1a0cSSebastian Grimberg 200506b1a0cSSebastian Grimberg CeedCall(CeedOperatorGetCeed(op, &ceed)); 201506b1a0cSSebastian Grimberg CeedCall(CeedOperatorIsComposite(op, &is_composite)); 202506b1a0cSSebastian Grimberg CeedCheck(!is_composite, ceed, CEED_ERROR_UNSUPPORTED, "Composite operator not supported"); 203506b1a0cSSebastian Grimberg 204506b1a0cSSebastian Grimberg // Assemble QFunction 205506b1a0cSSebastian Grimberg CeedInt layout_qf[3]; 206437c7c90SJeremy L Thompson const CeedScalar *assembled_qf_array; 207c5f45aeaSJeremy L Thompson CeedVector assembled_qf = NULL; 208c5f45aeaSJeremy L Thompson CeedElemRestriction assembled_elem_rstr = NULL; 209437c7c90SJeremy L Thompson 210437c7c90SJeremy L Thompson CeedCall(CeedOperatorLinearAssembleQFunctionBuildOrUpdate(op, &assembled_qf, &assembled_elem_rstr, request)); 21156c48462SJeremy L Thompson CeedCall(CeedElemRestrictionGetELayout(assembled_elem_rstr, layout_qf)); 212437c7c90SJeremy L Thompson CeedCall(CeedElemRestrictionDestroy(&assembled_elem_rstr)); 213437c7c90SJeremy L Thompson CeedCall(CeedVectorGetArrayRead(assembled_qf, CEED_MEM_HOST, &assembled_qf_array)); 214eaf62fffSJeremy L Thompson 215ed9e99e6SJeremy L Thompson // Get assembly data 216437c7c90SJeremy L Thompson const CeedEvalMode **eval_modes_in, **eval_modes_out; 217506b1a0cSSebastian Grimberg CeedInt num_active_bases_in, *num_eval_modes_in, num_active_bases_out, *num_eval_modes_out; 218437c7c90SJeremy L Thompson CeedSize **eval_mode_offsets_in, **eval_mode_offsets_out, num_output_components; 219506b1a0cSSebastian Grimberg CeedBasis *active_bases_in, *active_bases_out; 220506b1a0cSSebastian Grimberg CeedElemRestriction *active_elem_rstrs_in, *active_elem_rstrs_out; 2211c66c397SJeremy L Thompson CeedOperatorAssemblyData data; 2221c66c397SJeremy L Thompson 223437c7c90SJeremy L Thompson CeedCall(CeedOperatorGetOperatorAssemblyData(op, &data)); 224506b1a0cSSebastian Grimberg CeedCall(CeedOperatorAssemblyDataGetEvalModes(data, &num_active_bases_in, &num_eval_modes_in, &eval_modes_in, &eval_mode_offsets_in, 225506b1a0cSSebastian Grimberg &num_active_bases_out, &num_eval_modes_out, &eval_modes_out, &eval_mode_offsets_out, 226506b1a0cSSebastian Grimberg &num_output_components)); 227506b1a0cSSebastian Grimberg CeedCall(CeedOperatorAssemblyDataGetBases(data, NULL, &active_bases_in, NULL, NULL, &active_bases_out, NULL)); 228506b1a0cSSebastian Grimberg CeedCall(CeedOperatorAssemblyDataGetElemRestrictions(data, NULL, &active_elem_rstrs_in, NULL, &active_elem_rstrs_out)); 229506b1a0cSSebastian Grimberg 230934a29f5SSebastian Grimberg // Loop over all active bases (find matching input/output pairs) 231934a29f5SSebastian Grimberg for (CeedInt b = 0; b < CeedIntMin(num_active_bases_in, num_active_bases_out); b++) { 232934a29f5SSebastian Grimberg CeedInt b_in, b_out, num_elem, num_nodes, num_qpts, num_comp; 2331c66c397SJeremy L Thompson bool has_eval_none = false; 2341c66c397SJeremy L Thompson CeedScalar *elem_diag_array, *identity = NULL; 2351c66c397SJeremy L Thompson CeedVector elem_diag; 2367c1dbaffSSebastian Grimberg CeedElemRestriction diag_elem_rstr; 2371c66c397SJeremy L Thompson 238934a29f5SSebastian Grimberg if (num_active_bases_in <= num_active_bases_out) { 239934a29f5SSebastian Grimberg b_in = b; 240934a29f5SSebastian Grimberg for (b_out = 0; b_out < num_active_bases_out; b_out++) { 241934a29f5SSebastian Grimberg if (active_bases_in[b_in] == active_bases_out[b_out]) { 242934a29f5SSebastian Grimberg break; 243934a29f5SSebastian Grimberg } 244934a29f5SSebastian Grimberg } 245934a29f5SSebastian Grimberg if (b_out == num_active_bases_out) { 246934a29f5SSebastian Grimberg continue; 247934a29f5SSebastian Grimberg } // No matching output basis found 248934a29f5SSebastian Grimberg } else { 249934a29f5SSebastian Grimberg b_out = b; 250934a29f5SSebastian Grimberg for (b_in = 0; b_in < num_active_bases_in; b_in++) { 251934a29f5SSebastian Grimberg if (active_bases_in[b_in] == active_bases_out[b_out]) { 252934a29f5SSebastian Grimberg break; 253934a29f5SSebastian Grimberg } 254934a29f5SSebastian Grimberg } 255934a29f5SSebastian Grimberg if (b_in == num_active_bases_in) { 256934a29f5SSebastian Grimberg continue; 257934a29f5SSebastian Grimberg } // No matching output basis found 258934a29f5SSebastian Grimberg } 259934a29f5SSebastian Grimberg CeedCheck(active_elem_rstrs_in[b_in] == active_elem_rstrs_out[b_out], ceed, CEED_ERROR_UNSUPPORTED, 260506b1a0cSSebastian Grimberg "Cannot assemble operator diagonal with different input and output active element restrictions"); 261506b1a0cSSebastian Grimberg 2621c66c397SJeremy L Thompson // Assemble point block diagonal restriction, if needed 263bd83916cSSebastian Grimberg if (is_point_block) { 264934a29f5SSebastian Grimberg CeedCall(CeedOperatorCreateActivePointBlockRestriction(active_elem_rstrs_in[b_in], &diag_elem_rstr)); 2657c1dbaffSSebastian Grimberg } else { 266934a29f5SSebastian Grimberg CeedCall(CeedElemRestrictionCreateUnsignedCopy(active_elem_rstrs_in[b_in], &diag_elem_rstr)); 267eaf62fffSJeremy L Thompson } 268eaf62fffSJeremy L Thompson 269eaf62fffSJeremy L Thompson // Create diagonal vector 270437c7c90SJeremy L Thompson CeedCall(CeedElemRestrictionCreateVector(diag_elem_rstr, NULL, &elem_diag)); 271eaf62fffSJeremy L Thompson 272eaf62fffSJeremy L Thompson // Assemble element operator diagonals 2732b730f8bSJeremy L Thompson CeedCall(CeedVectorSetValue(elem_diag, 0.0)); 2742b730f8bSJeremy L Thompson CeedCall(CeedVectorGetArray(elem_diag, CEED_MEM_HOST, &elem_diag_array)); 275437c7c90SJeremy L Thompson CeedCall(CeedElemRestrictionGetNumElements(diag_elem_rstr, &num_elem)); 276934a29f5SSebastian Grimberg CeedCall(CeedBasisGetNumNodes(active_bases_in[b_in], &num_nodes)); 277934a29f5SSebastian Grimberg CeedCall(CeedBasisGetNumComponents(active_bases_in[b_in], &num_comp)); 278934a29f5SSebastian Grimberg if (active_bases_in[b_in] == CEED_BASIS_NONE) num_qpts = num_nodes; 279934a29f5SSebastian Grimberg else CeedCall(CeedBasisGetNumQuadraturePoints(active_bases_in[b_in], &num_qpts)); 280ed9e99e6SJeremy L Thompson 281352a5e7cSSebastian Grimberg // Construct identity matrix for basis if required 282934a29f5SSebastian Grimberg for (CeedInt i = 0; i < num_eval_modes_in[b_in]; i++) { 283934a29f5SSebastian Grimberg has_eval_none = has_eval_none || (eval_modes_in[b_in][i] == CEED_EVAL_NONE); 284ed9e99e6SJeremy L Thompson } 285934a29f5SSebastian Grimberg for (CeedInt i = 0; i < num_eval_modes_out[b_out]; i++) { 286934a29f5SSebastian Grimberg has_eval_none = has_eval_none || (eval_modes_out[b_out][i] == CEED_EVAL_NONE); 287ed9e99e6SJeremy L Thompson } 288ed9e99e6SJeremy L Thompson if (has_eval_none) { 2892b730f8bSJeremy L Thompson CeedCall(CeedCalloc(num_qpts * num_nodes, &identity)); 2902b730f8bSJeremy L Thompson for (CeedInt i = 0; i < (num_nodes < num_qpts ? num_nodes : num_qpts); i++) identity[i * num_nodes + i] = 1.0; 291eaf62fffSJeremy L Thompson } 292352a5e7cSSebastian Grimberg 293eaf62fffSJeremy L Thompson // Compute the diagonal of B^T D B 294eaf62fffSJeremy L Thompson // Each element 295b94338b9SJed Brown for (CeedSize e = 0; e < num_elem; e++) { 296eaf62fffSJeremy L Thompson // Each basis eval mode pair 297352a5e7cSSebastian Grimberg CeedInt d_out = 0, q_comp_out; 298352a5e7cSSebastian Grimberg CeedEvalMode eval_mode_out_prev = CEED_EVAL_NONE; 2991c66c397SJeremy L Thompson 300934a29f5SSebastian Grimberg for (CeedInt e_out = 0; e_out < num_eval_modes_out[b_out]; e_out++) { 3011c66c397SJeremy L Thompson CeedInt d_in = 0, q_comp_in; 302437c7c90SJeremy L Thompson const CeedScalar *B_t = NULL; 3031c66c397SJeremy L Thompson CeedEvalMode eval_mode_in_prev = CEED_EVAL_NONE; 3041c66c397SJeremy L Thompson 305934a29f5SSebastian Grimberg CeedCall(CeedOperatorGetBasisPointer(active_bases_out[b_out], eval_modes_out[b_out][e_out], identity, &B_t)); 306934a29f5SSebastian Grimberg CeedCall(CeedBasisGetNumQuadratureComponents(active_bases_out[b_out], eval_modes_out[b_out][e_out], &q_comp_out)); 307352a5e7cSSebastian Grimberg if (q_comp_out > 1) { 308934a29f5SSebastian Grimberg if (e_out == 0 || eval_modes_out[b_out][e_out] != eval_mode_out_prev) d_out = 0; 309352a5e7cSSebastian Grimberg else B_t = &B_t[(++d_out) * num_qpts * num_nodes]; 310352a5e7cSSebastian Grimberg } 311934a29f5SSebastian Grimberg eval_mode_out_prev = eval_modes_out[b_out][e_out]; 312352a5e7cSSebastian Grimberg 313934a29f5SSebastian Grimberg for (CeedInt e_in = 0; e_in < num_eval_modes_in[b_in]; e_in++) { 314437c7c90SJeremy L Thompson const CeedScalar *B = NULL; 3151c66c397SJeremy L Thompson 316934a29f5SSebastian Grimberg CeedCall(CeedOperatorGetBasisPointer(active_bases_in[b_in], eval_modes_in[b_in][e_in], identity, &B)); 317934a29f5SSebastian Grimberg CeedCall(CeedBasisGetNumQuadratureComponents(active_bases_in[b_in], eval_modes_in[b_in][e_in], &q_comp_in)); 318352a5e7cSSebastian Grimberg if (q_comp_in > 1) { 319934a29f5SSebastian Grimberg if (e_in == 0 || eval_modes_in[b_in][e_in] != eval_mode_in_prev) d_in = 0; 320352a5e7cSSebastian Grimberg else B = &B[(++d_in) * num_qpts * num_nodes]; 321352a5e7cSSebastian Grimberg } 322934a29f5SSebastian Grimberg eval_mode_in_prev = eval_modes_in[b_in][e_in]; 323352a5e7cSSebastian Grimberg 324eaf62fffSJeremy L Thompson // Each component 325506b1a0cSSebastian Grimberg for (CeedInt c_out = 0; c_out < num_comp; c_out++) { 326437c7c90SJeremy L Thompson // Each qpt/node pair 3272b730f8bSJeremy L Thompson for (CeedInt q = 0; q < num_qpts; q++) { 328bd83916cSSebastian Grimberg if (is_point_block) { 329eaf62fffSJeremy L Thompson // Point Block Diagonal 330506b1a0cSSebastian Grimberg for (CeedInt c_in = 0; c_in < num_comp; c_in++) { 331934a29f5SSebastian Grimberg const CeedSize c_offset = 332934a29f5SSebastian Grimberg (eval_mode_offsets_in[b_in][e_in] + c_in) * num_output_components + eval_mode_offsets_out[b_out][e_out] + c_out; 333506b1a0cSSebastian Grimberg const CeedScalar qf_value = assembled_qf_array[q * layout_qf[0] + c_offset * layout_qf[1] + e * layout_qf[2]]; 3341c66c397SJeremy L Thompson 3352b730f8bSJeremy L Thompson for (CeedInt n = 0; n < num_nodes; n++) { 336506b1a0cSSebastian Grimberg elem_diag_array[((e * num_comp + c_out) * num_comp + c_in) * num_nodes + n] += 337437c7c90SJeremy L Thompson B_t[q * num_nodes + n] * qf_value * B[q * num_nodes + n]; 338eaf62fffSJeremy L Thompson } 3392b730f8bSJeremy L Thompson } 340eaf62fffSJeremy L Thompson } else { 341eaf62fffSJeremy L Thompson // Diagonal Only 342934a29f5SSebastian Grimberg const CeedInt c_offset = 343934a29f5SSebastian Grimberg (eval_mode_offsets_in[b_in][e_in] + c_out) * num_output_components + eval_mode_offsets_out[b_out][e_out] + c_out; 344506b1a0cSSebastian Grimberg const CeedScalar qf_value = assembled_qf_array[q * layout_qf[0] + c_offset * layout_qf[1] + e * layout_qf[2]]; 3451c66c397SJeremy L Thompson 3462b730f8bSJeremy L Thompson for (CeedInt n = 0; n < num_nodes; n++) { 347506b1a0cSSebastian Grimberg elem_diag_array[(e * num_comp + c_out) * num_nodes + n] += B_t[q * num_nodes + n] * qf_value * B[q * num_nodes + n]; 348eaf62fffSJeremy L Thompson } 349eaf62fffSJeremy L Thompson } 350eaf62fffSJeremy L Thompson } 351eaf62fffSJeremy L Thompson } 3522b730f8bSJeremy L Thompson } 3532b730f8bSJeremy L Thompson } 3542b730f8bSJeremy L Thompson } 3552b730f8bSJeremy L Thompson CeedCall(CeedVectorRestoreArray(elem_diag, &elem_diag_array)); 356eaf62fffSJeremy L Thompson 357eaf62fffSJeremy L Thompson // Assemble local operator diagonal 3587c1dbaffSSebastian Grimberg CeedCall(CeedElemRestrictionApply(diag_elem_rstr, CEED_TRANSPOSE, elem_diag, assembled, request)); 359eaf62fffSJeremy L Thompson 360eaf62fffSJeremy L Thompson // Cleanup 3617c1dbaffSSebastian Grimberg CeedCall(CeedElemRestrictionDestroy(&diag_elem_rstr)); 3622b730f8bSJeremy L Thompson CeedCall(CeedVectorDestroy(&elem_diag)); 3632b730f8bSJeremy L Thompson CeedCall(CeedFree(&identity)); 364437c7c90SJeremy L Thompson } 365437c7c90SJeremy L Thompson CeedCall(CeedVectorRestoreArrayRead(assembled_qf, &assembled_qf_array)); 366437c7c90SJeremy L Thompson CeedCall(CeedVectorDestroy(&assembled_qf)); 367eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 368eaf62fffSJeremy L Thompson } 369eaf62fffSJeremy L Thompson 370eaf62fffSJeremy L Thompson /** 3710cd9fdf4SJeremy L Thompson @brief Core logic for assembling operator diagonal or point block diagonal 3720cd9fdf4SJeremy L Thompson 3730cd9fdf4SJeremy L Thompson @param[in] op `CeedOperator` to assemble diagonal or point block diagonal 3740cd9fdf4SJeremy L Thompson @param[in] request Address of @ref CeedRequest for non-blocking completion, else @ref CEED_REQUEST_IMMEDIATE 3750cd9fdf4SJeremy L Thompson @param[in] is_point_block Boolean flag to assemble diagonal or point block diagonal 3760cd9fdf4SJeremy L Thompson @param[out] assembled `CeedVector` to store assembled diagonal 3770cd9fdf4SJeremy L Thompson 3780cd9fdf4SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 3790cd9fdf4SJeremy L Thompson 3800cd9fdf4SJeremy L Thompson @ref Developer 3810cd9fdf4SJeremy L Thompson **/ 3820cd9fdf4SJeremy L Thompson static inline int CeedSingleOperatorLinearAssembleAddDiagonal(CeedOperator op, CeedRequest *request, const bool is_point_block, 3830cd9fdf4SJeremy L Thompson CeedVector assembled) { 3840cd9fdf4SJeremy L Thompson Ceed ceed; 3850cd9fdf4SJeremy L Thompson bool is_at_points; 3860cd9fdf4SJeremy L Thompson 3870cd9fdf4SJeremy L Thompson CeedCall(CeedOperatorGetCeed(op, &ceed)); 3880cd9fdf4SJeremy L Thompson CeedCall(CeedOperatorIsAtPoints(op, &is_at_points)); 38942461424SJeremy L Thompson CeedCheck(!is_at_points, ceed, CEED_ERROR_UNSUPPORTED, "AtPoints operator not supported"); 3900cd9fdf4SJeremy L Thompson CeedCall(CeedSingleOperatorLinearAssembleAddDiagonal_Mesh(op, request, is_point_block, assembled)); 3910cd9fdf4SJeremy L Thompson return CEED_ERROR_SUCCESS; 3920cd9fdf4SJeremy L Thompson } 3930cd9fdf4SJeremy L Thompson 3940cd9fdf4SJeremy L Thompson /** 395eaf62fffSJeremy L Thompson @brief Core logic for assembling composite operator diagonal 396eaf62fffSJeremy L Thompson 397ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble point block diagonal 398ca94c3ddSJeremy L Thompson @param[in] request Address of @ref CeedRequest for non-blocking completion, else @ref CEED_REQUEST_IMMEDIATE 399bd83916cSSebastian Grimberg @param[in] is_point_block Boolean flag to assemble diagonal or point block diagonal 400ca94c3ddSJeremy L Thompson @param[out] assembled `CeedVector` to store assembled diagonal 401eaf62fffSJeremy L Thompson 402eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 403eaf62fffSJeremy L Thompson 404eaf62fffSJeremy L Thompson @ref Developer 405eaf62fffSJeremy L Thompson **/ 406bd83916cSSebastian Grimberg static inline int CeedCompositeOperatorLinearAssembleAddDiagonal(CeedOperator op, CeedRequest *request, const bool is_point_block, 407eaf62fffSJeremy L Thompson CeedVector assembled) { 408eaf62fffSJeremy L Thompson CeedInt num_sub; 409eaf62fffSJeremy L Thompson CeedOperator *suboperators; 4101c66c397SJeremy L Thompson 411c6ebc35dSJeremy L Thompson CeedCall(CeedCompositeOperatorGetNumSub(op, &num_sub)); 412c6ebc35dSJeremy L Thompson CeedCall(CeedCompositeOperatorGetSubList(op, &suboperators)); 413eaf62fffSJeremy L Thompson for (CeedInt i = 0; i < num_sub; i++) { 414bd83916cSSebastian Grimberg if (is_point_block) { 4152b730f8bSJeremy L Thompson CeedCall(CeedOperatorLinearAssembleAddPointBlockDiagonal(suboperators[i], assembled, request)); 4166aa95790SJeremy L Thompson } else { 4172b730f8bSJeremy L Thompson CeedCall(CeedOperatorLinearAssembleAddDiagonal(suboperators[i], assembled, request)); 4186aa95790SJeremy L Thompson } 419eaf62fffSJeremy L Thompson } 420eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 421eaf62fffSJeremy L Thompson } 422eaf62fffSJeremy L Thompson 423eaf62fffSJeremy L Thompson /** 424ca94c3ddSJeremy L Thompson @brief Build nonzero pattern for non-composite CeedOperator`. 425eaf62fffSJeremy L Thompson 426ca94c3ddSJeremy L Thompson Users should generally use @ref CeedOperatorLinearAssembleSymbolic(). 427eaf62fffSJeremy L Thompson 428ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble nonzero pattern 429eaf62fffSJeremy L Thompson @param[in] offset Offset for number of entries 430eaf62fffSJeremy L Thompson @param[out] rows Row number for each entry 431eaf62fffSJeremy L Thompson @param[out] cols Column number for each entry 432eaf62fffSJeremy L Thompson 433eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 434eaf62fffSJeremy L Thompson 435eaf62fffSJeremy L Thompson @ref Developer 436eaf62fffSJeremy L Thompson **/ 4372b730f8bSJeremy L Thompson static int CeedSingleOperatorAssembleSymbolic(CeedOperator op, CeedInt offset, CeedInt *rows, CeedInt *cols) { 438f3d47e36SJeremy L Thompson Ceed ceed; 439f3d47e36SJeremy L Thompson bool is_composite; 44081670346SSebastian Grimberg CeedSize num_nodes_in, num_nodes_out, local_num_entries, count = 0; 441506b1a0cSSebastian Grimberg CeedInt num_elem_in, elem_size_in, num_comp_in, layout_er_in[3]; 44281670346SSebastian Grimberg CeedInt num_elem_out, elem_size_out, num_comp_out, layout_er_out[3]; 4431c66c397SJeremy L Thompson CeedScalar *array; 444506b1a0cSSebastian Grimberg const CeedScalar *elem_dof_a_in, *elem_dof_a_out; 445506b1a0cSSebastian Grimberg CeedVector index_vec_in, index_vec_out, elem_dof_in, elem_dof_out; 446506b1a0cSSebastian Grimberg CeedElemRestriction elem_rstr_in, elem_rstr_out, index_elem_rstr_in, index_elem_rstr_out; 4471c66c397SJeremy L Thompson 448f3d47e36SJeremy L Thompson CeedCall(CeedOperatorGetCeed(op, &ceed)); 449f3d47e36SJeremy L Thompson CeedCall(CeedOperatorIsComposite(op, &is_composite)); 4506574a04fSJeremy L Thompson CeedCheck(!is_composite, ceed, CEED_ERROR_UNSUPPORTED, "Composite operator not supported"); 451eaf62fffSJeremy L Thompson 452506b1a0cSSebastian Grimberg CeedCall(CeedOperatorGetActiveVectorLengths(op, &num_nodes_in, &num_nodes_out)); 453506b1a0cSSebastian Grimberg CeedCall(CeedOperatorGetActiveElemRestrictions(op, &elem_rstr_in, &elem_rstr_out)); 454506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumElements(elem_rstr_in, &num_elem_in)); 455506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetElementSize(elem_rstr_in, &elem_size_in)); 456506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumComponents(elem_rstr_in, &num_comp_in)); 45756c48462SJeremy L Thompson CeedCall(CeedElemRestrictionGetELayout(elem_rstr_in, layout_er_in)); 458eaf62fffSJeremy L Thompson 459506b1a0cSSebastian Grimberg // Determine elem_dof relation for input 460506b1a0cSSebastian Grimberg CeedCall(CeedVectorCreate(ceed, num_nodes_in, &index_vec_in)); 461506b1a0cSSebastian Grimberg CeedCall(CeedVectorGetArrayWrite(index_vec_in, CEED_MEM_HOST, &array)); 462506b1a0cSSebastian Grimberg for (CeedInt i = 0; i < num_nodes_in; i++) array[i] = i; 463506b1a0cSSebastian Grimberg CeedCall(CeedVectorRestoreArray(index_vec_in, &array)); 464506b1a0cSSebastian Grimberg CeedCall(CeedVectorCreate(ceed, num_elem_in * elem_size_in * num_comp_in, &elem_dof_in)); 465506b1a0cSSebastian Grimberg CeedCall(CeedVectorSetValue(elem_dof_in, 0.0)); 466506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionCreateUnorientedCopy(elem_rstr_in, &index_elem_rstr_in)); 467506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionApply(index_elem_rstr_in, CEED_NOTRANSPOSE, index_vec_in, elem_dof_in, CEED_REQUEST_IMMEDIATE)); 468506b1a0cSSebastian Grimberg CeedCall(CeedVectorGetArrayRead(elem_dof_in, CEED_MEM_HOST, &elem_dof_a_in)); 469506b1a0cSSebastian Grimberg CeedCall(CeedVectorDestroy(&index_vec_in)); 470506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionDestroy(&index_elem_rstr_in)); 471506b1a0cSSebastian Grimberg 472506b1a0cSSebastian Grimberg if (elem_rstr_in != elem_rstr_out) { 473506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumElements(elem_rstr_out, &num_elem_out)); 474506b1a0cSSebastian Grimberg CeedCheck(num_elem_in == num_elem_out, ceed, CEED_ERROR_UNSUPPORTED, 4753f08121cSJeremy L Thompson "Active input and output operator restrictions must have the same number of elements." 4763f08121cSJeremy L Thompson " Input has %" CeedInt_FMT " elements; output has %" CeedInt_FMT "elements.", 4773f08121cSJeremy L Thompson num_elem_in, num_elem_out); 478506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetElementSize(elem_rstr_out, &elem_size_out)); 479506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumComponents(elem_rstr_out, &num_comp_out)); 48056c48462SJeremy L Thompson CeedCall(CeedElemRestrictionGetELayout(elem_rstr_out, layout_er_out)); 481506b1a0cSSebastian Grimberg 482506b1a0cSSebastian Grimberg // Determine elem_dof relation for output 483506b1a0cSSebastian Grimberg CeedCall(CeedVectorCreate(ceed, num_nodes_out, &index_vec_out)); 484506b1a0cSSebastian Grimberg CeedCall(CeedVectorGetArrayWrite(index_vec_out, CEED_MEM_HOST, &array)); 485506b1a0cSSebastian Grimberg for (CeedInt i = 0; i < num_nodes_out; i++) array[i] = i; 486506b1a0cSSebastian Grimberg CeedCall(CeedVectorRestoreArray(index_vec_out, &array)); 487506b1a0cSSebastian Grimberg CeedCall(CeedVectorCreate(ceed, num_elem_out * elem_size_out * num_comp_out, &elem_dof_out)); 488506b1a0cSSebastian Grimberg CeedCall(CeedVectorSetValue(elem_dof_out, 0.0)); 489506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionCreateUnorientedCopy(elem_rstr_out, &index_elem_rstr_out)); 490506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionApply(index_elem_rstr_out, CEED_NOTRANSPOSE, index_vec_out, elem_dof_out, CEED_REQUEST_IMMEDIATE)); 491506b1a0cSSebastian Grimberg CeedCall(CeedVectorGetArrayRead(elem_dof_out, CEED_MEM_HOST, &elem_dof_a_out)); 492506b1a0cSSebastian Grimberg CeedCall(CeedVectorDestroy(&index_vec_out)); 493506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionDestroy(&index_elem_rstr_out)); 494506b1a0cSSebastian Grimberg } else { 495506b1a0cSSebastian Grimberg num_elem_out = num_elem_in; 496506b1a0cSSebastian Grimberg elem_size_out = elem_size_in; 497506b1a0cSSebastian Grimberg num_comp_out = num_comp_in; 498506b1a0cSSebastian Grimberg layout_er_out[0] = layout_er_in[0]; 499506b1a0cSSebastian Grimberg layout_er_out[1] = layout_er_in[1]; 500506b1a0cSSebastian Grimberg layout_er_out[2] = layout_er_in[2]; 501506b1a0cSSebastian Grimberg elem_dof_a_out = elem_dof_a_in; 502506b1a0cSSebastian Grimberg } 503506b1a0cSSebastian Grimberg local_num_entries = elem_size_out * num_comp_out * elem_size_in * num_comp_in * num_elem_in; 504eaf62fffSJeremy L Thompson 505eaf62fffSJeremy L Thompson // Determine i, j locations for element matrices 506506b1a0cSSebastian Grimberg for (CeedInt e = 0; e < num_elem_in; e++) { 507506b1a0cSSebastian Grimberg for (CeedInt comp_in = 0; comp_in < num_comp_in; comp_in++) { 508506b1a0cSSebastian Grimberg for (CeedInt comp_out = 0; comp_out < num_comp_out; comp_out++) { 509506b1a0cSSebastian Grimberg for (CeedInt i = 0; i < elem_size_out; i++) { 510506b1a0cSSebastian Grimberg for (CeedInt j = 0; j < elem_size_in; j++) { 511506b1a0cSSebastian Grimberg const CeedInt elem_dof_index_row = i * layout_er_out[0] + comp_out * layout_er_out[1] + e * layout_er_out[2]; 512506b1a0cSSebastian Grimberg const CeedInt elem_dof_index_col = j * layout_er_in[0] + comp_in * layout_er_in[1] + e * layout_er_in[2]; 513506b1a0cSSebastian Grimberg const CeedInt row = elem_dof_a_out[elem_dof_index_row]; 514506b1a0cSSebastian Grimberg const CeedInt col = elem_dof_a_in[elem_dof_index_col]; 515eaf62fffSJeremy L Thompson 516eaf62fffSJeremy L Thompson rows[offset + count] = row; 517eaf62fffSJeremy L Thompson cols[offset + count] = col; 518eaf62fffSJeremy L Thompson count++; 519eaf62fffSJeremy L Thompson } 520eaf62fffSJeremy L Thompson } 521eaf62fffSJeremy L Thompson } 522eaf62fffSJeremy L Thompson } 523eaf62fffSJeremy L Thompson } 5246574a04fSJeremy L Thompson CeedCheck(count == local_num_entries, ceed, CEED_ERROR_MAJOR, "Error computing assembled entries"); 525506b1a0cSSebastian Grimberg CeedCall(CeedVectorRestoreArrayRead(elem_dof_in, &elem_dof_a_in)); 526506b1a0cSSebastian Grimberg CeedCall(CeedVectorDestroy(&elem_dof_in)); 527506b1a0cSSebastian Grimberg if (elem_rstr_in != elem_rstr_out) { 528506b1a0cSSebastian Grimberg CeedCall(CeedVectorRestoreArrayRead(elem_dof_out, &elem_dof_a_out)); 529506b1a0cSSebastian Grimberg CeedCall(CeedVectorDestroy(&elem_dof_out)); 530506b1a0cSSebastian Grimberg } 531eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 532eaf62fffSJeremy L Thompson } 533eaf62fffSJeremy L Thompson 534eaf62fffSJeremy L Thompson /** 535ca94c3ddSJeremy L Thompson @brief Assemble nonzero entries for non-composite `CeedOperator`. 536eaf62fffSJeremy L Thompson 537ca94c3ddSJeremy L Thompson Users should generally use @ref CeedOperatorLinearAssemble(). 538eaf62fffSJeremy L Thompson 539ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble 540ea61e9acSJeremy L Thompson @param[in] offset Offset for number of entries 541eaf62fffSJeremy L Thompson @param[out] values Values to assemble into matrix 542eaf62fffSJeremy L Thompson 543eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 544eaf62fffSJeremy L Thompson 545eaf62fffSJeremy L Thompson @ref Developer 546eaf62fffSJeremy L Thompson **/ 5472b730f8bSJeremy L Thompson static int CeedSingleOperatorAssemble(CeedOperator op, CeedInt offset, CeedVector values) { 548f3d47e36SJeremy L Thompson Ceed ceed; 549f3d47e36SJeremy L Thompson bool is_composite; 5501c66c397SJeremy L Thompson 551f3d47e36SJeremy L Thompson CeedCall(CeedOperatorGetCeed(op, &ceed)); 552f3d47e36SJeremy L Thompson CeedCall(CeedOperatorIsComposite(op, &is_composite)); 5536574a04fSJeremy L Thompson CeedCheck(!is_composite, ceed, CEED_ERROR_UNSUPPORTED, "Composite operator not supported"); 554f3d47e36SJeremy L Thompson 555f3d47e36SJeremy L Thompson // Early exit for empty operator 556f3d47e36SJeremy L Thompson { 557f3d47e36SJeremy L Thompson CeedInt num_elem = 0; 558f3d47e36SJeremy L Thompson 559f3d47e36SJeremy L Thompson CeedCall(CeedOperatorGetNumElements(op, &num_elem)); 560f3d47e36SJeremy L Thompson if (num_elem == 0) return CEED_ERROR_SUCCESS; 561f3d47e36SJeremy L Thompson } 562eaf62fffSJeremy L Thompson 563cefa2673SJeremy L Thompson if (op->LinearAssembleSingle) { 564cefa2673SJeremy L Thompson // Backend version 5652b730f8bSJeremy L Thompson CeedCall(op->LinearAssembleSingle(op, offset, values)); 566cefa2673SJeremy L Thompson return CEED_ERROR_SUCCESS; 567cefa2673SJeremy L Thompson } else { 568cefa2673SJeremy L Thompson // Operator fallback 569cefa2673SJeremy L Thompson CeedOperator op_fallback; 570cefa2673SJeremy L Thompson 5712b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetFallback(op, &op_fallback)); 572cefa2673SJeremy L Thompson if (op_fallback) { 5732b730f8bSJeremy L Thompson CeedCall(CeedSingleOperatorAssemble(op_fallback, offset, values)); 574cefa2673SJeremy L Thompson return CEED_ERROR_SUCCESS; 575cefa2673SJeremy L Thompson } 576cefa2673SJeremy L Thompson } 577cefa2673SJeremy L Thompson 578eaf62fffSJeremy L Thompson // Assemble QFunction 579506b1a0cSSebastian Grimberg CeedInt layout_qf[3]; 5801c66c397SJeremy L Thompson const CeedScalar *assembled_qf_array; 581c5f45aeaSJeremy L Thompson CeedVector assembled_qf = NULL; 582506b1a0cSSebastian Grimberg CeedElemRestriction assembled_elem_rstr = NULL; 583eaf62fffSJeremy L Thompson 584506b1a0cSSebastian Grimberg CeedCall(CeedOperatorLinearAssembleQFunctionBuildOrUpdate(op, &assembled_qf, &assembled_elem_rstr, CEED_REQUEST_IMMEDIATE)); 58556c48462SJeremy L Thompson CeedCall(CeedElemRestrictionGetELayout(assembled_elem_rstr, layout_qf)); 586506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionDestroy(&assembled_elem_rstr)); 587506b1a0cSSebastian Grimberg CeedCall(CeedVectorGetArrayRead(assembled_qf, CEED_MEM_HOST, &assembled_qf_array)); 588eaf62fffSJeremy L Thompson 589ed9e99e6SJeremy L Thompson // Get assembly data 590506b1a0cSSebastian Grimberg CeedInt num_elem_in, elem_size_in, num_comp_in, num_qpts_in; 59181670346SSebastian Grimberg CeedInt num_elem_out, elem_size_out, num_comp_out, num_qpts_out; 59281670346SSebastian Grimberg CeedSize local_num_entries, count = 0; 593506b1a0cSSebastian Grimberg const CeedEvalMode **eval_modes_in, **eval_modes_out; 594506b1a0cSSebastian Grimberg CeedInt num_active_bases_in, *num_eval_modes_in, num_active_bases_out, *num_eval_modes_out; 595506b1a0cSSebastian Grimberg CeedBasis *active_bases_in, *active_bases_out, basis_in, basis_out; 596506b1a0cSSebastian Grimberg const CeedScalar **B_mats_in, **B_mats_out, *B_mat_in, *B_mat_out; 597506b1a0cSSebastian Grimberg CeedElemRestriction elem_rstr_in, elem_rstr_out; 598506b1a0cSSebastian Grimberg CeedRestrictionType elem_rstr_type_in, elem_rstr_type_out; 599506b1a0cSSebastian Grimberg const bool *elem_rstr_orients_in = NULL, *elem_rstr_orients_out = NULL; 600506b1a0cSSebastian Grimberg const CeedInt8 *elem_rstr_curl_orients_in = NULL, *elem_rstr_curl_orients_out = NULL; 601506b1a0cSSebastian Grimberg CeedOperatorAssemblyData data; 602eaf62fffSJeremy L Thompson 603506b1a0cSSebastian Grimberg CeedCall(CeedOperatorGetOperatorAssemblyData(op, &data)); 604506b1a0cSSebastian Grimberg CeedCall(CeedOperatorAssemblyDataGetEvalModes(data, &num_active_bases_in, &num_eval_modes_in, &eval_modes_in, NULL, &num_active_bases_out, 605506b1a0cSSebastian Grimberg &num_eval_modes_out, &eval_modes_out, NULL, NULL)); 606506b1a0cSSebastian Grimberg 6073f08121cSJeremy L Thompson CeedCheck(num_active_bases_in == 1 && num_active_bases_out == 1, ceed, CEED_ERROR_UNSUPPORTED, 608506b1a0cSSebastian Grimberg "Cannot assemble operator with multiple active bases"); 6096574a04fSJeremy L Thompson CeedCheck(num_eval_modes_in[0] > 0 && num_eval_modes_out[0] > 0, ceed, CEED_ERROR_UNSUPPORTED, "Cannot assemble operator without inputs/outputs"); 610eaf62fffSJeremy L Thompson 611506b1a0cSSebastian Grimberg CeedCall(CeedOperatorAssemblyDataGetBases(data, NULL, &active_bases_in, &B_mats_in, NULL, &active_bases_out, &B_mats_out)); 612506b1a0cSSebastian Grimberg CeedCall(CeedOperatorGetActiveElemRestrictions(op, &elem_rstr_in, &elem_rstr_out)); 613506b1a0cSSebastian Grimberg basis_in = active_bases_in[0]; 614506b1a0cSSebastian Grimberg basis_out = active_bases_out[0]; 615506b1a0cSSebastian Grimberg B_mat_in = B_mats_in[0]; 616506b1a0cSSebastian Grimberg B_mat_out = B_mats_out[0]; 617eaf62fffSJeremy L Thompson 618506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumElements(elem_rstr_in, &num_elem_in)); 619506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetElementSize(elem_rstr_in, &elem_size_in)); 620506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumComponents(elem_rstr_in, &num_comp_in)); 621506b1a0cSSebastian Grimberg if (basis_in == CEED_BASIS_NONE) num_qpts_in = elem_size_in; 622506b1a0cSSebastian Grimberg else CeedCall(CeedBasisGetNumQuadraturePoints(basis_in, &num_qpts_in)); 623506b1a0cSSebastian Grimberg 624506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetType(elem_rstr_in, &elem_rstr_type_in)); 625506b1a0cSSebastian Grimberg if (elem_rstr_type_in == CEED_RESTRICTION_ORIENTED) { 626506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetOrientations(elem_rstr_in, CEED_MEM_HOST, &elem_rstr_orients_in)); 627506b1a0cSSebastian Grimberg } else if (elem_rstr_type_in == CEED_RESTRICTION_CURL_ORIENTED) { 628506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetCurlOrientations(elem_rstr_in, CEED_MEM_HOST, &elem_rstr_curl_orients_in)); 6297c1dbaffSSebastian Grimberg } 6307c1dbaffSSebastian Grimberg 631506b1a0cSSebastian Grimberg if (elem_rstr_in != elem_rstr_out) { 632506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumElements(elem_rstr_out, &num_elem_out)); 633506b1a0cSSebastian Grimberg CeedCheck(num_elem_in == num_elem_out, ceed, CEED_ERROR_UNSUPPORTED, 6343f08121cSJeremy L Thompson "Active input and output operator restrictions must have the same number of elements." 6353f08121cSJeremy L Thompson " Input has %" CeedInt_FMT " elements; output has %" CeedInt_FMT "elements.", 6363f08121cSJeremy L Thompson num_elem_in, num_elem_out); 637506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetElementSize(elem_rstr_out, &elem_size_out)); 638506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumComponents(elem_rstr_out, &num_comp_out)); 639506b1a0cSSebastian Grimberg if (basis_out == CEED_BASIS_NONE) num_qpts_out = elem_size_out; 640506b1a0cSSebastian Grimberg else CeedCall(CeedBasisGetNumQuadraturePoints(basis_out, &num_qpts_out)); 641506b1a0cSSebastian Grimberg CeedCheck(num_qpts_in == num_qpts_out, ceed, CEED_ERROR_UNSUPPORTED, 6423f08121cSJeremy L Thompson "Active input and output bases must have the same number of quadrature points." 6433f08121cSJeremy L Thompson " Input has %" CeedInt_FMT " points; output has %" CeedInt_FMT "points.", 6443f08121cSJeremy L Thompson num_qpts_in, num_qpts_out); 645eaf62fffSJeremy L Thompson 646506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetType(elem_rstr_out, &elem_rstr_type_out)); 647506b1a0cSSebastian Grimberg if (elem_rstr_type_out == CEED_RESTRICTION_ORIENTED) { 648506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetOrientations(elem_rstr_out, CEED_MEM_HOST, &elem_rstr_orients_out)); 649506b1a0cSSebastian Grimberg } else if (elem_rstr_type_out == CEED_RESTRICTION_CURL_ORIENTED) { 650506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetCurlOrientations(elem_rstr_out, CEED_MEM_HOST, &elem_rstr_curl_orients_out)); 651506b1a0cSSebastian Grimberg } 652506b1a0cSSebastian Grimberg } else { 653506b1a0cSSebastian Grimberg num_elem_out = num_elem_in; 654506b1a0cSSebastian Grimberg elem_size_out = elem_size_in; 655506b1a0cSSebastian Grimberg num_comp_out = num_comp_in; 656506b1a0cSSebastian Grimberg num_qpts_out = num_qpts_in; 657506b1a0cSSebastian Grimberg 658506b1a0cSSebastian Grimberg elem_rstr_orients_out = elem_rstr_orients_in; 659506b1a0cSSebastian Grimberg elem_rstr_curl_orients_out = elem_rstr_curl_orients_in; 660506b1a0cSSebastian Grimberg } 661506b1a0cSSebastian Grimberg local_num_entries = elem_size_out * num_comp_out * elem_size_in * num_comp_in * num_elem_in; 662506b1a0cSSebastian Grimberg 663506b1a0cSSebastian Grimberg // Loop over elements and put in data structure 6647c1dbaffSSebastian Grimberg // We store B_mat_in, B_mat_out, BTD, elem_mat in row-major order 6650459ebd3SSebastian Grimberg CeedTensorContract contract; 666123d890dSSebastian Grimberg CeedScalar *vals, *BTD_mat = NULL, *elem_mat = NULL, *elem_mat_b = NULL; 667506b1a0cSSebastian Grimberg 668c22497adSSebastian Grimberg CeedCall(CeedBasisGetTensorContract(basis_in, &contract)); 669123d890dSSebastian Grimberg CeedCall(CeedCalloc(elem_size_out * num_qpts_in * num_eval_modes_in[0], &BTD_mat)); 670123d890dSSebastian Grimberg CeedCall(CeedCalloc(elem_size_out * elem_size_in, &elem_mat)); 671506b1a0cSSebastian Grimberg if (elem_rstr_curl_orients_in || elem_rstr_curl_orients_out) CeedCall(CeedCalloc(elem_size_out * elem_size_in, &elem_mat_b)); 6721c66c397SJeremy L Thompson 67328ec399dSJeremy L Thompson CeedCall(CeedVectorGetArray(values, CEED_MEM_HOST, &vals)); 674506b1a0cSSebastian Grimberg for (CeedSize e = 0; e < num_elem_in; e++) { 675506b1a0cSSebastian Grimberg for (CeedInt comp_in = 0; comp_in < num_comp_in; comp_in++) { 676506b1a0cSSebastian Grimberg for (CeedInt comp_out = 0; comp_out < num_comp_out; comp_out++) { 677ed9e99e6SJeremy L Thompson // Compute B^T*D 678506b1a0cSSebastian Grimberg for (CeedSize n = 0; n < elem_size_out; n++) { 679506b1a0cSSebastian Grimberg for (CeedSize q = 0; q < num_qpts_in; q++) { 680437c7c90SJeremy L Thompson for (CeedInt e_in = 0; e_in < num_eval_modes_in[0]; e_in++) { 681506b1a0cSSebastian Grimberg const CeedSize btd_index = n * (num_qpts_in * num_eval_modes_in[0]) + q * num_eval_modes_in[0] + e_in; 682067fd99fSJeremy L Thompson CeedScalar sum = 0.0; 6831c66c397SJeremy L Thompson 684437c7c90SJeremy L Thompson for (CeedInt e_out = 0; e_out < num_eval_modes_out[0]; e_out++) { 685506b1a0cSSebastian Grimberg const CeedSize b_out_index = (q * num_eval_modes_out[0] + e_out) * elem_size_out + n; 686506b1a0cSSebastian Grimberg const CeedSize eval_mode_index = ((e_in * num_comp_in + comp_in) * num_eval_modes_out[0] + e_out) * num_comp_out + comp_out; 687b94338b9SJed Brown const CeedSize qf_index = q * layout_qf[0] + eval_mode_index * layout_qf[1] + e * layout_qf[2]; 6881c66c397SJeremy L Thompson 689067fd99fSJeremy L Thompson sum += B_mat_out[b_out_index] * assembled_qf_array[qf_index]; 690eaf62fffSJeremy L Thompson } 691067fd99fSJeremy L Thompson BTD_mat[btd_index] = sum; 692ed9e99e6SJeremy L Thompson } 693ed9e99e6SJeremy L Thompson } 694eaf62fffSJeremy L Thompson } 6957c1dbaffSSebastian Grimberg 6967c1dbaffSSebastian Grimberg // Form element matrix itself (for each block component) 697e4065a52SSebastian Grimberg if (contract) { 6980459ebd3SSebastian Grimberg CeedCall(CeedTensorContractApply(contract, 1, num_qpts_in * num_eval_modes_in[0], elem_size_in, elem_size_out, BTD_mat, CEED_NOTRANSPOSE, 6990459ebd3SSebastian Grimberg false, B_mat_in, elem_mat)); 700e4065a52SSebastian Grimberg } else { 701e4065a52SSebastian Grimberg CeedCall(CeedMatrixMatrixMultiply(ceed, BTD_mat, B_mat_in, elem_mat, elem_size_out, elem_size_in, num_qpts_in * num_eval_modes_in[0])); 702e4065a52SSebastian Grimberg } 703eaf62fffSJeremy L Thompson 7047c1dbaffSSebastian Grimberg // Transform the element matrix if required 705506b1a0cSSebastian Grimberg if (elem_rstr_orients_out) { 706506b1a0cSSebastian Grimberg const bool *elem_orients = &elem_rstr_orients_out[e * elem_size_out]; 7071c66c397SJeremy L Thompson 708506b1a0cSSebastian Grimberg for (CeedInt i = 0; i < elem_size_out; i++) { 709506b1a0cSSebastian Grimberg const double orient = elem_orients[i] ? -1.0 : 1.0; 710506b1a0cSSebastian Grimberg 711506b1a0cSSebastian Grimberg for (CeedInt j = 0; j < elem_size_in; j++) { 712506b1a0cSSebastian Grimberg elem_mat[i * elem_size_in + j] *= orient; 7137c1dbaffSSebastian Grimberg } 7147c1dbaffSSebastian Grimberg } 715506b1a0cSSebastian Grimberg } else if (elem_rstr_curl_orients_out) { 716506b1a0cSSebastian Grimberg const CeedInt8 *elem_curl_orients = &elem_rstr_curl_orients_out[e * 3 * elem_size_out]; 7171c66c397SJeremy L Thompson 7187c1dbaffSSebastian Grimberg // T^T*(B^T*D*B) 719506b1a0cSSebastian Grimberg memcpy(elem_mat_b, elem_mat, elem_size_out * elem_size_in * sizeof(CeedScalar)); 720506b1a0cSSebastian Grimberg for (CeedInt i = 0; i < elem_size_out; i++) { 721506b1a0cSSebastian Grimberg for (CeedInt j = 0; j < elem_size_in; j++) { 722506b1a0cSSebastian Grimberg elem_mat[i * elem_size_in + j] = elem_mat_b[i * elem_size_in + j] * elem_curl_orients[3 * i + 1] + 723506b1a0cSSebastian Grimberg (i > 0 ? elem_mat_b[(i - 1) * elem_size_in + j] * elem_curl_orients[3 * i - 1] : 0.0) + 724506b1a0cSSebastian Grimberg (i < elem_size_out - 1 ? elem_mat_b[(i + 1) * elem_size_in + j] * elem_curl_orients[3 * i + 3] : 0.0); 7257c1dbaffSSebastian Grimberg } 7267c1dbaffSSebastian Grimberg } 727506b1a0cSSebastian Grimberg } 728506b1a0cSSebastian Grimberg if (elem_rstr_orients_in) { 729506b1a0cSSebastian Grimberg const bool *elem_orients = &elem_rstr_orients_in[e * elem_size_in]; 730506b1a0cSSebastian Grimberg 731506b1a0cSSebastian Grimberg for (CeedInt i = 0; i < elem_size_out; i++) { 732506b1a0cSSebastian Grimberg for (CeedInt j = 0; j < elem_size_in; j++) { 733506b1a0cSSebastian Grimberg elem_mat[i * elem_size_in + j] *= elem_orients[j] ? -1.0 : 1.0; 734506b1a0cSSebastian Grimberg } 735506b1a0cSSebastian Grimberg } 736506b1a0cSSebastian Grimberg } else if (elem_rstr_curl_orients_in) { 737506b1a0cSSebastian Grimberg const CeedInt8 *elem_curl_orients = &elem_rstr_curl_orients_in[e * 3 * elem_size_in]; 738506b1a0cSSebastian Grimberg 739506b1a0cSSebastian Grimberg // (B^T*D*B)*T 740506b1a0cSSebastian Grimberg memcpy(elem_mat_b, elem_mat, elem_size_out * elem_size_in * sizeof(CeedScalar)); 741506b1a0cSSebastian Grimberg for (CeedInt i = 0; i < elem_size_out; i++) { 742506b1a0cSSebastian Grimberg for (CeedInt j = 0; j < elem_size_in; j++) { 743506b1a0cSSebastian Grimberg elem_mat[i * elem_size_in + j] = elem_mat_b[i * elem_size_in + j] * elem_curl_orients[3 * j + 1] + 744506b1a0cSSebastian Grimberg (j > 0 ? elem_mat_b[i * elem_size_in + j - 1] * elem_curl_orients[3 * j - 1] : 0.0) + 745506b1a0cSSebastian Grimberg (j < elem_size_in - 1 ? elem_mat_b[i * elem_size_in + j + 1] * elem_curl_orients[3 * j + 3] : 0.0); 7467c1dbaffSSebastian Grimberg } 7477c1dbaffSSebastian Grimberg } 7487c1dbaffSSebastian Grimberg } 7497c1dbaffSSebastian Grimberg 7507c1dbaffSSebastian Grimberg // Put element matrix in coordinate data structure 751506b1a0cSSebastian Grimberg for (CeedInt i = 0; i < elem_size_out; i++) { 752506b1a0cSSebastian Grimberg for (CeedInt j = 0; j < elem_size_in; j++) { 753506b1a0cSSebastian Grimberg vals[offset + count] = elem_mat[i * elem_size_in + j]; 754eaf62fffSJeremy L Thompson count++; 755eaf62fffSJeremy L Thompson } 756eaf62fffSJeremy L Thompson } 757eaf62fffSJeremy L Thompson } 758eaf62fffSJeremy L Thompson } 759eaf62fffSJeremy L Thompson } 7606574a04fSJeremy L Thompson CeedCheck(count == local_num_entries, ceed, CEED_ERROR_MAJOR, "Error computing entries"); 7612b730f8bSJeremy L Thompson CeedCall(CeedVectorRestoreArray(values, &vals)); 762eaf62fffSJeremy L Thompson 763506b1a0cSSebastian Grimberg // Cleanup 764123d890dSSebastian Grimberg CeedCall(CeedFree(&BTD_mat)); 765123d890dSSebastian Grimberg CeedCall(CeedFree(&elem_mat)); 766506b1a0cSSebastian Grimberg CeedCall(CeedFree(&elem_mat_b)); 767506b1a0cSSebastian Grimberg if (elem_rstr_type_in == CEED_RESTRICTION_ORIENTED) { 768506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionRestoreOrientations(elem_rstr_in, &elem_rstr_orients_in)); 769506b1a0cSSebastian Grimberg } else if (elem_rstr_type_in == CEED_RESTRICTION_CURL_ORIENTED) { 770506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionRestoreCurlOrientations(elem_rstr_in, &elem_rstr_curl_orients_in)); 771506b1a0cSSebastian Grimberg } 772506b1a0cSSebastian Grimberg if (elem_rstr_in != elem_rstr_out) { 773506b1a0cSSebastian Grimberg if (elem_rstr_type_out == CEED_RESTRICTION_ORIENTED) { 774506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionRestoreOrientations(elem_rstr_out, &elem_rstr_orients_out)); 775506b1a0cSSebastian Grimberg } else if (elem_rstr_type_out == CEED_RESTRICTION_CURL_ORIENTED) { 776506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionRestoreCurlOrientations(elem_rstr_out, &elem_rstr_curl_orients_out)); 777506b1a0cSSebastian Grimberg } 778506b1a0cSSebastian Grimberg } 7792b730f8bSJeremy L Thompson CeedCall(CeedVectorRestoreArrayRead(assembled_qf, &assembled_qf_array)); 7802b730f8bSJeremy L Thompson CeedCall(CeedVectorDestroy(&assembled_qf)); 781eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 782eaf62fffSJeremy L Thompson } 783eaf62fffSJeremy L Thompson 784eaf62fffSJeremy L Thompson /** 785ca94c3ddSJeremy L Thompson @brief Count number of entries for assembled `CeedOperator` 786eaf62fffSJeremy L Thompson 787ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble 788eaf62fffSJeremy L Thompson @param[out] num_entries Number of entries in assembled representation 789eaf62fffSJeremy L Thompson 790eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 791eaf62fffSJeremy L Thompson 792eaf62fffSJeremy L Thompson @ref Utility 793eaf62fffSJeremy L Thompson **/ 794b94338b9SJed Brown static int CeedSingleOperatorAssemblyCountEntries(CeedOperator op, CeedSize *num_entries) { 795b275c451SJeremy L Thompson bool is_composite; 796506b1a0cSSebastian Grimberg CeedInt num_elem_in, elem_size_in, num_comp_in, num_elem_out, elem_size_out, num_comp_out; 7971203703bSJeremy L Thompson Ceed ceed; 798506b1a0cSSebastian Grimberg CeedElemRestriction rstr_in, rstr_out; 799eaf62fffSJeremy L Thompson 8001203703bSJeremy L Thompson CeedCall(CeedOperatorGetCeed(op, &ceed)); 801b275c451SJeremy L Thompson CeedCall(CeedOperatorIsComposite(op, &is_composite)); 8021203703bSJeremy L Thompson CeedCheck(!is_composite, ceed, CEED_ERROR_UNSUPPORTED, "Composite operator not supported"); 803506b1a0cSSebastian Grimberg 804506b1a0cSSebastian Grimberg CeedCall(CeedOperatorGetActiveElemRestrictions(op, &rstr_in, &rstr_out)); 805506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumElements(rstr_in, &num_elem_in)); 806506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetElementSize(rstr_in, &elem_size_in)); 807506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumComponents(rstr_in, &num_comp_in)); 808506b1a0cSSebastian Grimberg if (rstr_in != rstr_out) { 809506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumElements(rstr_out, &num_elem_out)); 8101203703bSJeremy L Thompson CeedCheck(num_elem_in == num_elem_out, ceed, CEED_ERROR_UNSUPPORTED, 8113f08121cSJeremy L Thompson "Active input and output operator restrictions must have the same number of elements." 8123f08121cSJeremy L Thompson " Input has %" CeedInt_FMT " elements; output has %" CeedInt_FMT "elements.", 8133f08121cSJeremy L Thompson num_elem_in, num_elem_out); 814506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetElementSize(rstr_out, &elem_size_out)); 815506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumComponents(rstr_out, &num_comp_out)); 816506b1a0cSSebastian Grimberg } else { 817506b1a0cSSebastian Grimberg num_elem_out = num_elem_in; 818506b1a0cSSebastian Grimberg elem_size_out = elem_size_in; 819506b1a0cSSebastian Grimberg num_comp_out = num_comp_in; 820506b1a0cSSebastian Grimberg } 821506b1a0cSSebastian Grimberg *num_entries = (CeedSize)elem_size_in * num_comp_in * elem_size_out * num_comp_out * num_elem_in; 822eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 823eaf62fffSJeremy L Thompson } 824eaf62fffSJeremy L Thompson 825eaf62fffSJeremy L Thompson /** 826ca94c3ddSJeremy L Thompson @brief Common code for creating a multigrid coarse `CeedOperator` and level transfer `CeedOperator` for a `CeedOperator` 827eaf62fffSJeremy L Thompson 828ca94c3ddSJeremy L Thompson @param[in] op_fine Fine grid `CeedOperator` 829ca94c3ddSJeremy L Thompson @param[in] p_mult_fine L-vector multiplicity in parallel gather/scatter, or `NULL` if not creating prolongation/restriction `CeedOperator` 830ca94c3ddSJeremy L Thompson @param[in] rstr_coarse Coarse grid `CeedElemRestriction` 831ca94c3ddSJeremy L Thompson @param[in] basis_coarse Coarse grid active vector `CeedBasis` 832ca94c3ddSJeremy L Thompson @param[in] basis_c_to_f `CeedBasis` for coarse to fine interpolation, or `NULL` if not creating prolongation/restriction operators 833ca94c3ddSJeremy L Thompson @param[out] op_coarse Coarse grid `CeedOperator` 834ca94c3ddSJeremy L Thompson @param[out] op_prolong Coarse to fine `CeedOperator`, or `NULL` 835ca94c3ddSJeremy L Thompson @param[out] op_restrict Fine to coarse `CeedOperator`, or `NULL` 836eaf62fffSJeremy L Thompson 837eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 838eaf62fffSJeremy L Thompson 839eaf62fffSJeremy L Thompson @ref Developer 840eaf62fffSJeremy L Thompson **/ 8412b730f8bSJeremy L Thompson static int CeedSingleOperatorMultigridLevel(CeedOperator op_fine, CeedVector p_mult_fine, CeedElemRestriction rstr_coarse, CeedBasis basis_coarse, 8427758292fSSebastian Grimberg CeedBasis basis_c_to_f, CeedOperator *op_coarse, CeedOperator *op_prolong, CeedOperator *op_restrict) { 8431c66c397SJeremy L Thompson bool is_composite; 844eaf62fffSJeremy L Thompson Ceed ceed; 8451203703bSJeremy L Thompson CeedInt num_comp, num_input_fields, num_output_fields; 84685bb9dcfSJeremy L Thompson CeedVector mult_vec = NULL; 8471c66c397SJeremy L Thompson CeedElemRestriction rstr_p_mult_fine = NULL, rstr_fine = NULL; 8481203703bSJeremy L Thompson CeedOperatorField *input_fields, *output_fields; 8491c66c397SJeremy L Thompson 8502b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetCeed(op_fine, &ceed)); 851eaf62fffSJeremy L Thompson 852eaf62fffSJeremy L Thompson // Check for composite operator 8532b730f8bSJeremy L Thompson CeedCall(CeedOperatorIsComposite(op_fine, &is_composite)); 8546574a04fSJeremy L Thompson CeedCheck(!is_composite, ceed, CEED_ERROR_UNSUPPORTED, "Automatic multigrid setup for composite operators not supported"); 855eaf62fffSJeremy L Thompson 856eaf62fffSJeremy L Thompson // Coarse Grid 8572b730f8bSJeremy L Thompson CeedCall(CeedOperatorCreate(ceed, op_fine->qf, op_fine->dqf, op_fine->dqfT, op_coarse)); 8581203703bSJeremy L Thompson CeedCall(CeedOperatorGetFields(op_fine, &num_input_fields, &input_fields, &num_output_fields, &output_fields)); 859eaf62fffSJeremy L Thompson // -- Clone input fields 8601203703bSJeremy L Thompson for (CeedInt i = 0; i < num_input_fields; i++) { 8616f8994e9SJeremy L Thompson const char *field_name; 8621203703bSJeremy L Thompson CeedVector vec; 8631203703bSJeremy L Thompson CeedElemRestriction rstr; 8641203703bSJeremy L Thompson CeedBasis basis; 8651203703bSJeremy L Thompson 8661203703bSJeremy L Thompson CeedCall(CeedOperatorFieldGetName(input_fields[i], &field_name)); 8671203703bSJeremy L Thompson CeedCall(CeedOperatorFieldGetVector(input_fields[i], &vec)); 8681203703bSJeremy L Thompson if (vec == CEED_VECTOR_ACTIVE) { 8691203703bSJeremy L Thompson rstr = rstr_coarse; 8701203703bSJeremy L Thompson basis = basis_coarse; 8711203703bSJeremy L Thompson CeedCall(CeedOperatorFieldGetElemRestriction(input_fields[i], &rstr_fine)); 872eaf62fffSJeremy L Thompson } else { 8731203703bSJeremy L Thompson CeedCall(CeedOperatorFieldGetElemRestriction(input_fields[i], &rstr)); 8741203703bSJeremy L Thompson CeedCall(CeedOperatorFieldGetBasis(input_fields[i], &basis)); 875eaf62fffSJeremy L Thompson } 8761203703bSJeremy L Thompson CeedCall(CeedOperatorSetField(*op_coarse, field_name, rstr, basis, vec)); 877eaf62fffSJeremy L Thompson } 878eaf62fffSJeremy L Thompson // -- Clone output fields 8791203703bSJeremy L Thompson for (CeedInt i = 0; i < num_output_fields; i++) { 8806f8994e9SJeremy L Thompson const char *field_name; 8811203703bSJeremy L Thompson CeedVector vec; 8821203703bSJeremy L Thompson CeedElemRestriction rstr; 8831203703bSJeremy L Thompson CeedBasis basis; 8841203703bSJeremy L Thompson 8851203703bSJeremy L Thompson CeedCall(CeedOperatorFieldGetName(output_fields[i], &field_name)); 8861203703bSJeremy L Thompson CeedCall(CeedOperatorFieldGetVector(output_fields[i], &vec)); 8871203703bSJeremy L Thompson if (vec == CEED_VECTOR_ACTIVE) { 8881203703bSJeremy L Thompson rstr = rstr_coarse; 8891203703bSJeremy L Thompson basis = basis_coarse; 8901203703bSJeremy L Thompson CeedCall(CeedOperatorFieldGetElemRestriction(output_fields[i], &rstr_fine)); 891eaf62fffSJeremy L Thompson } else { 8921203703bSJeremy L Thompson CeedCall(CeedOperatorFieldGetElemRestriction(output_fields[i], &rstr)); 8931203703bSJeremy L Thompson CeedCall(CeedOperatorFieldGetBasis(output_fields[i], &basis)); 894eaf62fffSJeremy L Thompson } 8951203703bSJeremy L Thompson CeedCall(CeedOperatorSetField(*op_coarse, field_name, rstr, basis, vec)); 896eaf62fffSJeremy L Thompson } 897af99e877SJeremy L Thompson // -- Clone QFunctionAssemblyData 8987d5185d7SSebastian Grimberg { 8997d5185d7SSebastian Grimberg CeedQFunctionAssemblyData fine_data; 9007d5185d7SSebastian Grimberg 9017d5185d7SSebastian Grimberg CeedCall(CeedOperatorGetQFunctionAssemblyData(op_fine, &fine_data)); 9027d5185d7SSebastian Grimberg CeedCall(CeedQFunctionAssemblyDataReferenceCopy(fine_data, &(*op_coarse)->qf_assembled)); 9037d5185d7SSebastian Grimberg } 904eaf62fffSJeremy L Thompson 905eaf62fffSJeremy L Thompson // Multiplicity vector 9067758292fSSebastian Grimberg if (op_restrict || op_prolong) { 90785bb9dcfSJeremy L Thompson CeedVector mult_e_vec; 9081c66c397SJeremy L Thompson CeedRestrictionType rstr_type; 90985bb9dcfSJeremy L Thompson 9107c1dbaffSSebastian Grimberg CeedCall(CeedElemRestrictionGetType(rstr_fine, &rstr_type)); 9117c1dbaffSSebastian Grimberg CeedCheck(rstr_type != CEED_RESTRICTION_CURL_ORIENTED, ceed, CEED_ERROR_UNSUPPORTED, 9127c1dbaffSSebastian Grimberg "Element restrictions created with CeedElemRestrictionCreateCurlOriented are not supported"); 9136574a04fSJeremy L Thompson CeedCheck(p_mult_fine, ceed, CEED_ERROR_INCOMPATIBLE, "Prolongation or restriction operator creation requires fine grid multiplicity vector"); 9147c1dbaffSSebastian Grimberg CeedCall(CeedElemRestrictionCreateUnsignedCopy(rstr_fine, &rstr_p_mult_fine)); 9152b730f8bSJeremy L Thompson CeedCall(CeedElemRestrictionCreateVector(rstr_fine, &mult_vec, &mult_e_vec)); 9162b730f8bSJeremy L Thompson CeedCall(CeedVectorSetValue(mult_e_vec, 0.0)); 917c17ec2beSJeremy L Thompson CeedCall(CeedElemRestrictionApply(rstr_p_mult_fine, CEED_NOTRANSPOSE, p_mult_fine, mult_e_vec, CEED_REQUEST_IMMEDIATE)); 9182b730f8bSJeremy L Thompson CeedCall(CeedVectorSetValue(mult_vec, 0.0)); 919c17ec2beSJeremy L Thompson CeedCall(CeedElemRestrictionApply(rstr_p_mult_fine, CEED_TRANSPOSE, mult_e_vec, mult_vec, CEED_REQUEST_IMMEDIATE)); 9202b730f8bSJeremy L Thompson CeedCall(CeedVectorDestroy(&mult_e_vec)); 9212b730f8bSJeremy L Thompson CeedCall(CeedVectorReciprocal(mult_vec)); 92285bb9dcfSJeremy L Thompson } 923eaf62fffSJeremy L Thompson 924addd79feSZach Atkins // Clone name 925addd79feSZach Atkins bool has_name = op_fine->name; 926addd79feSZach Atkins size_t name_len = op_fine->name ? strlen(op_fine->name) : 0; 927addd79feSZach Atkins CeedCall(CeedOperatorSetName(*op_coarse, op_fine->name)); 928addd79feSZach Atkins 9297758292fSSebastian Grimberg // Check that coarse to fine basis is provided if prolong/restrict operators are requested 9307758292fSSebastian Grimberg CeedCheck(basis_c_to_f || (!op_restrict && !op_prolong), ceed, CEED_ERROR_INCOMPATIBLE, 9316574a04fSJeremy L Thompson "Prolongation or restriction operator creation requires coarse-to-fine basis"); 93283d6adf3SZach Atkins 93385bb9dcfSJeremy L Thompson // Restriction/Prolongation Operators 9342b730f8bSJeremy L Thompson CeedCall(CeedBasisGetNumComponents(basis_coarse, &num_comp)); 935addd79feSZach Atkins 936addd79feSZach Atkins // Restriction 9377758292fSSebastian Grimberg if (op_restrict) { 938eaf62fffSJeremy L Thompson CeedInt *num_comp_r_data; 93985bb9dcfSJeremy L Thompson CeedQFunctionContext ctx_r; 9407758292fSSebastian Grimberg CeedQFunction qf_restrict; 94185bb9dcfSJeremy L Thompson 9427758292fSSebastian Grimberg CeedCall(CeedQFunctionCreateInteriorByName(ceed, "Scale", &qf_restrict)); 9432b730f8bSJeremy L Thompson CeedCall(CeedCalloc(1, &num_comp_r_data)); 944eaf62fffSJeremy L Thompson num_comp_r_data[0] = num_comp; 9452b730f8bSJeremy L Thompson CeedCall(CeedQFunctionContextCreate(ceed, &ctx_r)); 9462b730f8bSJeremy L Thompson CeedCall(CeedQFunctionContextSetData(ctx_r, CEED_MEM_HOST, CEED_OWN_POINTER, sizeof(*num_comp_r_data), num_comp_r_data)); 9477758292fSSebastian Grimberg CeedCall(CeedQFunctionSetContext(qf_restrict, ctx_r)); 9482b730f8bSJeremy L Thompson CeedCall(CeedQFunctionContextDestroy(&ctx_r)); 9497758292fSSebastian Grimberg CeedCall(CeedQFunctionAddInput(qf_restrict, "input", num_comp, CEED_EVAL_NONE)); 9507758292fSSebastian Grimberg CeedCall(CeedQFunctionAddInput(qf_restrict, "scale", num_comp, CEED_EVAL_NONE)); 9517758292fSSebastian Grimberg CeedCall(CeedQFunctionAddOutput(qf_restrict, "output", num_comp, CEED_EVAL_INTERP)); 9527758292fSSebastian Grimberg CeedCall(CeedQFunctionSetUserFlopsEstimate(qf_restrict, num_comp)); 953eaf62fffSJeremy L Thompson 9547758292fSSebastian Grimberg CeedCall(CeedOperatorCreate(ceed, qf_restrict, CEED_QFUNCTION_NONE, CEED_QFUNCTION_NONE, op_restrict)); 9557758292fSSebastian Grimberg CeedCall(CeedOperatorSetField(*op_restrict, "input", rstr_fine, CEED_BASIS_NONE, CEED_VECTOR_ACTIVE)); 9567758292fSSebastian Grimberg CeedCall(CeedOperatorSetField(*op_restrict, "scale", rstr_p_mult_fine, CEED_BASIS_NONE, mult_vec)); 9577758292fSSebastian Grimberg CeedCall(CeedOperatorSetField(*op_restrict, "output", rstr_coarse, basis_c_to_f, CEED_VECTOR_ACTIVE)); 958eaf62fffSJeremy L Thompson 959addd79feSZach Atkins // Set name 960addd79feSZach Atkins char *restriction_name; 9611c66c397SJeremy L Thompson 962addd79feSZach Atkins CeedCall(CeedCalloc(17 + name_len, &restriction_name)); 963addd79feSZach Atkins sprintf(restriction_name, "restriction%s%s", has_name ? " for " : "", has_name ? op_fine->name : ""); 9647758292fSSebastian Grimberg CeedCall(CeedOperatorSetName(*op_restrict, restriction_name)); 965addd79feSZach Atkins CeedCall(CeedFree(&restriction_name)); 966addd79feSZach Atkins 967addd79feSZach Atkins // Check 9687758292fSSebastian Grimberg CeedCall(CeedOperatorCheckReady(*op_restrict)); 969addd79feSZach Atkins 970addd79feSZach Atkins // Cleanup 9717758292fSSebastian Grimberg CeedCall(CeedQFunctionDestroy(&qf_restrict)); 972addd79feSZach Atkins } 973addd79feSZach Atkins 974eaf62fffSJeremy L Thompson // Prolongation 975addd79feSZach Atkins if (op_prolong) { 976eaf62fffSJeremy L Thompson CeedInt *num_comp_p_data; 97785bb9dcfSJeremy L Thompson CeedQFunctionContext ctx_p; 9781c66c397SJeremy L Thompson CeedQFunction qf_prolong; 97985bb9dcfSJeremy L Thompson 98085bb9dcfSJeremy L Thompson CeedCall(CeedQFunctionCreateInteriorByName(ceed, "Scale", &qf_prolong)); 9812b730f8bSJeremy L Thompson CeedCall(CeedCalloc(1, &num_comp_p_data)); 982eaf62fffSJeremy L Thompson num_comp_p_data[0] = num_comp; 9832b730f8bSJeremy L Thompson CeedCall(CeedQFunctionContextCreate(ceed, &ctx_p)); 9842b730f8bSJeremy L Thompson CeedCall(CeedQFunctionContextSetData(ctx_p, CEED_MEM_HOST, CEED_OWN_POINTER, sizeof(*num_comp_p_data), num_comp_p_data)); 9852b730f8bSJeremy L Thompson CeedCall(CeedQFunctionSetContext(qf_prolong, ctx_p)); 9862b730f8bSJeremy L Thompson CeedCall(CeedQFunctionContextDestroy(&ctx_p)); 9872b730f8bSJeremy L Thompson CeedCall(CeedQFunctionAddInput(qf_prolong, "input", num_comp, CEED_EVAL_INTERP)); 9882b730f8bSJeremy L Thompson CeedCall(CeedQFunctionAddInput(qf_prolong, "scale", num_comp, CEED_EVAL_NONE)); 9892b730f8bSJeremy L Thompson CeedCall(CeedQFunctionAddOutput(qf_prolong, "output", num_comp, CEED_EVAL_NONE)); 9902b730f8bSJeremy L Thompson CeedCall(CeedQFunctionSetUserFlopsEstimate(qf_prolong, num_comp)); 991eaf62fffSJeremy L Thompson 9922b730f8bSJeremy L Thompson CeedCall(CeedOperatorCreate(ceed, qf_prolong, CEED_QFUNCTION_NONE, CEED_QFUNCTION_NONE, op_prolong)); 9932b730f8bSJeremy L Thompson CeedCall(CeedOperatorSetField(*op_prolong, "input", rstr_coarse, basis_c_to_f, CEED_VECTOR_ACTIVE)); 994356036faSJeremy L Thompson CeedCall(CeedOperatorSetField(*op_prolong, "scale", rstr_p_mult_fine, CEED_BASIS_NONE, mult_vec)); 995356036faSJeremy L Thompson CeedCall(CeedOperatorSetField(*op_prolong, "output", rstr_fine, CEED_BASIS_NONE, CEED_VECTOR_ACTIVE)); 996eaf62fffSJeremy L Thompson 997addd79feSZach Atkins // Set name 998ea6b5821SJeremy L Thompson char *prolongation_name; 9991c66c397SJeremy L Thompson 10002b730f8bSJeremy L Thompson CeedCall(CeedCalloc(18 + name_len, &prolongation_name)); 10012b730f8bSJeremy L Thompson sprintf(prolongation_name, "prolongation%s%s", has_name ? " for " : "", has_name ? op_fine->name : ""); 10022b730f8bSJeremy L Thompson CeedCall(CeedOperatorSetName(*op_prolong, prolongation_name)); 10032b730f8bSJeremy L Thompson CeedCall(CeedFree(&prolongation_name)); 1004addd79feSZach Atkins 1005addd79feSZach Atkins // Check 1006addd79feSZach Atkins CeedCall(CeedOperatorCheckReady(*op_prolong)); 1007addd79feSZach Atkins 1008addd79feSZach Atkins // Cleanup 1009addd79feSZach Atkins CeedCall(CeedQFunctionDestroy(&qf_prolong)); 1010ea6b5821SJeremy L Thompson } 1011ea6b5821SJeremy L Thompson 101258e4b056SJeremy L Thompson // Check 101358e4b056SJeremy L Thompson CeedCall(CeedOperatorCheckReady(*op_coarse)); 101458e4b056SJeremy L Thompson 1015eaf62fffSJeremy L Thompson // Cleanup 10162b730f8bSJeremy L Thompson CeedCall(CeedVectorDestroy(&mult_vec)); 1017c17ec2beSJeremy L Thompson CeedCall(CeedElemRestrictionDestroy(&rstr_p_mult_fine)); 10182b730f8bSJeremy L Thompson CeedCall(CeedBasisDestroy(&basis_c_to_f)); 1019eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1020eaf62fffSJeremy L Thompson } 1021eaf62fffSJeremy L Thompson 1022eaf62fffSJeremy L Thompson /** 1023eaf62fffSJeremy L Thompson @brief Build 1D mass matrix and Laplacian with perturbation 1024eaf62fffSJeremy L Thompson 1025eaf62fffSJeremy L Thompson @param[in] interp_1d Interpolation matrix in one dimension 1026eaf62fffSJeremy L Thompson @param[in] grad_1d Gradient matrix in one dimension 1027eaf62fffSJeremy L Thompson @param[in] q_weight_1d Quadrature weights in one dimension 1028eaf62fffSJeremy L Thompson @param[in] P_1d Number of basis nodes in one dimension 1029eaf62fffSJeremy L Thompson @param[in] Q_1d Number of quadrature points in one dimension 1030eaf62fffSJeremy L Thompson @param[in] dim Dimension of basis 1031eaf62fffSJeremy L Thompson @param[out] mass Assembled mass matrix in one dimension 1032eaf62fffSJeremy L Thompson @param[out] laplace Assembled perturbed Laplacian in one dimension 1033eaf62fffSJeremy L Thompson 1034eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1035eaf62fffSJeremy L Thompson 1036eaf62fffSJeremy L Thompson @ref Developer 1037eaf62fffSJeremy L Thompson **/ 10382c2ea1dbSJeremy L Thompson CeedPragmaOptimizeOff 10392c2ea1dbSJeremy L Thompson static int CeedBuildMassLaplace(const CeedScalar *interp_1d, const CeedScalar *grad_1d, const CeedScalar *q_weight_1d, CeedInt P_1d, CeedInt Q_1d, 10402c2ea1dbSJeremy L Thompson CeedInt dim, CeedScalar *mass, CeedScalar *laplace) { 10412b730f8bSJeremy L Thompson for (CeedInt i = 0; i < P_1d; i++) { 1042eaf62fffSJeremy L Thompson for (CeedInt j = 0; j < P_1d; j++) { 1043eaf62fffSJeremy L Thompson CeedScalar sum = 0.0; 10442b730f8bSJeremy L Thompson for (CeedInt k = 0; k < Q_1d; k++) sum += interp_1d[k * P_1d + i] * q_weight_1d[k] * interp_1d[k * P_1d + j]; 1045eaf62fffSJeremy L Thompson mass[i + j * P_1d] = sum; 1046eaf62fffSJeremy L Thompson } 10472b730f8bSJeremy L Thompson } 1048eaf62fffSJeremy L Thompson // -- Laplacian 10492b730f8bSJeremy L Thompson for (CeedInt i = 0; i < P_1d; i++) { 1050eaf62fffSJeremy L Thompson for (CeedInt j = 0; j < P_1d; j++) { 1051eaf62fffSJeremy L Thompson CeedScalar sum = 0.0; 10521c66c397SJeremy L Thompson 10532b730f8bSJeremy L Thompson for (CeedInt k = 0; k < Q_1d; k++) sum += grad_1d[k * P_1d + i] * q_weight_1d[k] * grad_1d[k * P_1d + j]; 1054eaf62fffSJeremy L Thompson laplace[i + j * P_1d] = sum; 1055eaf62fffSJeremy L Thompson } 10562b730f8bSJeremy L Thompson } 1057eaf62fffSJeremy L Thompson CeedScalar perturbation = dim > 2 ? 1e-6 : 1e-4; 10582b730f8bSJeremy L Thompson for (CeedInt i = 0; i < P_1d; i++) laplace[i + P_1d * i] += perturbation; 1059eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1060eaf62fffSJeremy L Thompson } 10612c2ea1dbSJeremy L Thompson CeedPragmaOptimizeOn 1062eaf62fffSJeremy L Thompson 1063eaf62fffSJeremy L Thompson /// @} 1064eaf62fffSJeremy L Thompson 1065eaf62fffSJeremy L Thompson /// ---------------------------------------------------------------------------- 1066480fae85SJeremy L Thompson /// CeedOperator Backend API 1067480fae85SJeremy L Thompson /// ---------------------------------------------------------------------------- 1068480fae85SJeremy L Thompson /// @addtogroup CeedOperatorBackend 1069480fae85SJeremy L Thompson /// @{ 1070480fae85SJeremy L Thompson 1071480fae85SJeremy L Thompson /** 1072004e4986SSebastian Grimberg @brief Select correct basis matrix pointer based on @ref CeedEvalMode 1073004e4986SSebastian Grimberg 1074004e4986SSebastian Grimberg @param[in] basis `CeedBasis` from which to get the basis matrix 1075004e4986SSebastian Grimberg @param[in] eval_mode Current basis evaluation mode 1076004e4986SSebastian Grimberg @param[in] identity Pointer to identity matrix 1077004e4986SSebastian Grimberg @param[out] basis_ptr `CeedBasis` pointer to set 1078004e4986SSebastian Grimberg 1079004e4986SSebastian Grimberg @ref Backend 1080004e4986SSebastian Grimberg **/ 1081004e4986SSebastian Grimberg int CeedOperatorGetBasisPointer(CeedBasis basis, CeedEvalMode eval_mode, const CeedScalar *identity, const CeedScalar **basis_ptr) { 1082004e4986SSebastian Grimberg switch (eval_mode) { 1083004e4986SSebastian Grimberg case CEED_EVAL_NONE: 1084004e4986SSebastian Grimberg *basis_ptr = identity; 1085004e4986SSebastian Grimberg break; 1086004e4986SSebastian Grimberg case CEED_EVAL_INTERP: 1087004e4986SSebastian Grimberg CeedCall(CeedBasisGetInterp(basis, basis_ptr)); 1088004e4986SSebastian Grimberg break; 1089004e4986SSebastian Grimberg case CEED_EVAL_GRAD: 1090004e4986SSebastian Grimberg CeedCall(CeedBasisGetGrad(basis, basis_ptr)); 1091004e4986SSebastian Grimberg break; 1092004e4986SSebastian Grimberg case CEED_EVAL_DIV: 1093004e4986SSebastian Grimberg CeedCall(CeedBasisGetDiv(basis, basis_ptr)); 1094004e4986SSebastian Grimberg break; 1095004e4986SSebastian Grimberg case CEED_EVAL_CURL: 1096004e4986SSebastian Grimberg CeedCall(CeedBasisGetCurl(basis, basis_ptr)); 1097004e4986SSebastian Grimberg break; 1098004e4986SSebastian Grimberg case CEED_EVAL_WEIGHT: 1099004e4986SSebastian Grimberg break; // Caught by QF Assembly 1100004e4986SSebastian Grimberg } 1101004e4986SSebastian Grimberg assert(*basis_ptr != NULL); 1102004e4986SSebastian Grimberg return CEED_ERROR_SUCCESS; 1103004e4986SSebastian Grimberg } 1104004e4986SSebastian Grimberg 1105004e4986SSebastian Grimberg /** 1106ca94c3ddSJeremy L Thompson @brief Create point block restriction for active `CeedOperatorField` 1107506b1a0cSSebastian Grimberg 1108ca94c3ddSJeremy L Thompson @param[in] rstr Original `CeedElemRestriction` for active field 1109ca94c3ddSJeremy L Thompson @param[out] point_block_rstr Address of the variable where the newly created `CeedElemRestriction` will be stored 1110506b1a0cSSebastian Grimberg 1111506b1a0cSSebastian Grimberg @return An error code: 0 - success, otherwise - failure 1112506b1a0cSSebastian Grimberg 1113506b1a0cSSebastian Grimberg @ref Backend 1114506b1a0cSSebastian Grimberg **/ 1115506b1a0cSSebastian Grimberg int CeedOperatorCreateActivePointBlockRestriction(CeedElemRestriction rstr, CeedElemRestriction *point_block_rstr) { 1116506b1a0cSSebastian Grimberg Ceed ceed; 1117506b1a0cSSebastian Grimberg CeedInt num_elem, num_comp, shift, elem_size, comp_stride, *point_block_offsets; 1118506b1a0cSSebastian Grimberg CeedSize l_size; 1119506b1a0cSSebastian Grimberg const CeedInt *offsets; 1120506b1a0cSSebastian Grimberg 1121506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetCeed(rstr, &ceed)); 1122506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetOffsets(rstr, CEED_MEM_HOST, &offsets)); 1123506b1a0cSSebastian Grimberg 1124506b1a0cSSebastian Grimberg // Expand offsets 1125506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumElements(rstr, &num_elem)); 1126506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetNumComponents(rstr, &num_comp)); 1127506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetElementSize(rstr, &elem_size)); 1128506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetCompStride(rstr, &comp_stride)); 1129506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetLVectorSize(rstr, &l_size)); 1130506b1a0cSSebastian Grimberg shift = num_comp; 1131506b1a0cSSebastian Grimberg if (comp_stride != 1) shift *= num_comp; 1132506b1a0cSSebastian Grimberg CeedCall(CeedCalloc(num_elem * elem_size, &point_block_offsets)); 1133506b1a0cSSebastian Grimberg for (CeedInt i = 0; i < num_elem * elem_size; i++) { 1134506b1a0cSSebastian Grimberg point_block_offsets[i] = offsets[i] * shift; 1135506b1a0cSSebastian Grimberg } 1136506b1a0cSSebastian Grimberg 1137506b1a0cSSebastian Grimberg // Create new restriction 1138506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionCreate(ceed, num_elem, elem_size, num_comp * num_comp, 1, l_size * num_comp, CEED_MEM_HOST, CEED_OWN_POINTER, 1139506b1a0cSSebastian Grimberg point_block_offsets, point_block_rstr)); 1140506b1a0cSSebastian Grimberg 1141506b1a0cSSebastian Grimberg // Cleanup 1142506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionRestoreOffsets(rstr, &offsets)); 1143506b1a0cSSebastian Grimberg return CEED_ERROR_SUCCESS; 1144506b1a0cSSebastian Grimberg } 1145506b1a0cSSebastian Grimberg 1146506b1a0cSSebastian Grimberg /** 11477d5185d7SSebastian Grimberg @brief Get `CeedQFunctionAssemblyData` 11487d5185d7SSebastian Grimberg 11497d5185d7SSebastian Grimberg @param[in] op `CeedOperator` to assemble 11507d5185d7SSebastian Grimberg @param[out] data `CeedQFunctionAssemblyData` 11517d5185d7SSebastian Grimberg 11527d5185d7SSebastian Grimberg @return An error code: 0 - success, otherwise - failure 11537d5185d7SSebastian Grimberg 11547d5185d7SSebastian Grimberg @ref Backend 11557d5185d7SSebastian Grimberg **/ 11567d5185d7SSebastian Grimberg int CeedOperatorGetQFunctionAssemblyData(CeedOperator op, CeedQFunctionAssemblyData *data) { 11577d5185d7SSebastian Grimberg if (!op->qf_assembled) { 11587d5185d7SSebastian Grimberg CeedQFunctionAssemblyData data; 11597d5185d7SSebastian Grimberg 11607d5185d7SSebastian Grimberg CeedCall(CeedQFunctionAssemblyDataCreate(op->ceed, &data)); 11617d5185d7SSebastian Grimberg op->qf_assembled = data; 11627d5185d7SSebastian Grimberg } 11637d5185d7SSebastian Grimberg *data = op->qf_assembled; 11647d5185d7SSebastian Grimberg return CEED_ERROR_SUCCESS; 11657d5185d7SSebastian Grimberg } 11667d5185d7SSebastian Grimberg 11677d5185d7SSebastian Grimberg /** 1168ca94c3ddSJeremy L Thompson @brief Create object holding `CeedQFunction` assembly data for `CeedOperator` 1169480fae85SJeremy L Thompson 1170ca94c3ddSJeremy L Thompson @param[in] ceed `Ceed` object used to create the `CeedQFunctionAssemblyData` 1171ca94c3ddSJeremy L Thompson @param[out] data Address of the variable where the newly created `CeedQFunctionAssemblyData` will be stored 1172480fae85SJeremy L Thompson 1173480fae85SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1174480fae85SJeremy L Thompson 1175480fae85SJeremy L Thompson @ref Backend 1176480fae85SJeremy L Thompson **/ 1177ea61e9acSJeremy L Thompson int CeedQFunctionAssemblyDataCreate(Ceed ceed, CeedQFunctionAssemblyData *data) { 11782b730f8bSJeremy L Thompson CeedCall(CeedCalloc(1, data)); 1179480fae85SJeremy L Thompson (*data)->ref_count = 1; 1180480fae85SJeremy L Thompson (*data)->ceed = ceed; 11812b730f8bSJeremy L Thompson CeedCall(CeedReference(ceed)); 1182480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1183480fae85SJeremy L Thompson } 1184480fae85SJeremy L Thompson 1185480fae85SJeremy L Thompson /** 1186ca94c3ddSJeremy L Thompson @brief Increment the reference counter for a `CeedQFunctionAssemblyData` 1187480fae85SJeremy L Thompson 1188ca94c3ddSJeremy L Thompson @param[in,out] data `CeedQFunctionAssemblyData` to increment the reference counter 1189480fae85SJeremy L Thompson 1190480fae85SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1191480fae85SJeremy L Thompson 1192480fae85SJeremy L Thompson @ref Backend 1193480fae85SJeremy L Thompson **/ 1194480fae85SJeremy L Thompson int CeedQFunctionAssemblyDataReference(CeedQFunctionAssemblyData data) { 1195480fae85SJeremy L Thompson data->ref_count++; 1196480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1197480fae85SJeremy L Thompson } 1198480fae85SJeremy L Thompson 1199480fae85SJeremy L Thompson /** 1200ca94c3ddSJeremy L Thompson @brief Set re-use of `CeedQFunctionAssemblyData` 12018b919e6bSJeremy L Thompson 1202ca94c3ddSJeremy L Thompson @param[in,out] data `CeedQFunctionAssemblyData` to mark for reuse 1203ea61e9acSJeremy L Thompson @param[in] reuse_data Boolean flag indicating data re-use 12048b919e6bSJeremy L Thompson 12058b919e6bSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 12068b919e6bSJeremy L Thompson 12078b919e6bSJeremy L Thompson @ref Backend 12088b919e6bSJeremy L Thompson **/ 12092b730f8bSJeremy L Thompson int CeedQFunctionAssemblyDataSetReuse(CeedQFunctionAssemblyData data, bool reuse_data) { 1210beecbf24SJeremy L Thompson data->reuse_data = reuse_data; 1211beecbf24SJeremy L Thompson data->needs_data_update = true; 1212beecbf24SJeremy L Thompson return CEED_ERROR_SUCCESS; 1213beecbf24SJeremy L Thompson } 1214beecbf24SJeremy L Thompson 1215beecbf24SJeremy L Thompson /** 1216ca94c3ddSJeremy L Thompson @brief Mark `CeedQFunctionAssemblyData` as stale 1217beecbf24SJeremy L Thompson 1218ca94c3ddSJeremy L Thompson @param[in,out] data `CeedQFunctionAssemblyData` to mark as stale 1219ea61e9acSJeremy L Thompson @param[in] needs_data_update Boolean flag indicating if update is needed or completed 1220beecbf24SJeremy L Thompson 1221beecbf24SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1222beecbf24SJeremy L Thompson 1223beecbf24SJeremy L Thompson @ref Backend 1224beecbf24SJeremy L Thompson **/ 12252b730f8bSJeremy L Thompson int CeedQFunctionAssemblyDataSetUpdateNeeded(CeedQFunctionAssemblyData data, bool needs_data_update) { 1226beecbf24SJeremy L Thompson data->needs_data_update = needs_data_update; 12278b919e6bSJeremy L Thompson return CEED_ERROR_SUCCESS; 12288b919e6bSJeremy L Thompson } 12298b919e6bSJeremy L Thompson 12308b919e6bSJeremy L Thompson /** 1231ca94c3ddSJeremy L Thompson @brief Determine if `CeedQFunctionAssemblyData` needs update 12328b919e6bSJeremy L Thompson 1233ca94c3ddSJeremy L Thompson @param[in] data `CeedQFunctionAssemblyData` to mark as stale 12348b919e6bSJeremy L Thompson @param[out] is_update_needed Boolean flag indicating if re-assembly is required 12358b919e6bSJeremy L Thompson 12368b919e6bSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 12378b919e6bSJeremy L Thompson 12388b919e6bSJeremy L Thompson @ref Backend 12398b919e6bSJeremy L Thompson **/ 12402b730f8bSJeremy L Thompson int CeedQFunctionAssemblyDataIsUpdateNeeded(CeedQFunctionAssemblyData data, bool *is_update_needed) { 1241beecbf24SJeremy L Thompson *is_update_needed = !data->reuse_data || data->needs_data_update; 12428b919e6bSJeremy L Thompson return CEED_ERROR_SUCCESS; 12438b919e6bSJeremy L Thompson } 12448b919e6bSJeremy L Thompson 12458b919e6bSJeremy L Thompson /** 1246ca94c3ddSJeremy L Thompson @brief Copy the pointer to a `CeedQFunctionAssemblyData`. 12474385fb7fSSebastian Grimberg 1248ca94c3ddSJeremy L Thompson Both pointers should be destroyed with @ref CeedQFunctionAssemblyDataDestroy(). 1249512bb800SJeremy L Thompson 1250ca94c3ddSJeremy L Thompson Note: If the value of ` *data_copy` passed to this function is non-`NULL` , then it is assumed that ` *data_copy` is a pointer to a `CeedQFunctionAssemblyData`. 1251ca94c3ddSJeremy L Thompson This `CeedQFunctionAssemblyData` will be destroyed if ` *data_copy` is the only reference to this `CeedQFunctionAssemblyData`. 1252480fae85SJeremy L Thompson 1253ca94c3ddSJeremy L Thompson @param[in] data `CeedQFunctionAssemblyData` to copy reference to 1254ea61e9acSJeremy L Thompson @param[in,out] data_copy Variable to store copied reference 1255480fae85SJeremy L Thompson 1256480fae85SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1257480fae85SJeremy L Thompson 1258480fae85SJeremy L Thompson @ref Backend 1259480fae85SJeremy L Thompson **/ 12602b730f8bSJeremy L Thompson int CeedQFunctionAssemblyDataReferenceCopy(CeedQFunctionAssemblyData data, CeedQFunctionAssemblyData *data_copy) { 12612b730f8bSJeremy L Thompson CeedCall(CeedQFunctionAssemblyDataReference(data)); 12622b730f8bSJeremy L Thompson CeedCall(CeedQFunctionAssemblyDataDestroy(data_copy)); 1263480fae85SJeremy L Thompson *data_copy = data; 1264480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1265480fae85SJeremy L Thompson } 1266480fae85SJeremy L Thompson 1267480fae85SJeremy L Thompson /** 1268ca94c3ddSJeremy L Thompson @brief Get setup status for internal objects for `CeedQFunctionAssemblyData` 1269480fae85SJeremy L Thompson 1270ca94c3ddSJeremy L Thompson @param[in] data `CeedQFunctionAssemblyData` to retrieve status 1271480fae85SJeremy L Thompson @param[out] is_setup Boolean flag for setup status 1272480fae85SJeremy L Thompson 1273480fae85SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1274480fae85SJeremy L Thompson 1275480fae85SJeremy L Thompson @ref Backend 1276480fae85SJeremy L Thompson **/ 12772b730f8bSJeremy L Thompson int CeedQFunctionAssemblyDataIsSetup(CeedQFunctionAssemblyData data, bool *is_setup) { 1278480fae85SJeremy L Thompson *is_setup = data->is_setup; 1279480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1280480fae85SJeremy L Thompson } 1281480fae85SJeremy L Thompson 1282480fae85SJeremy L Thompson /** 1283ca94c3ddSJeremy L Thompson @brief Set internal objects for `CeedQFunctionAssemblyData` 1284480fae85SJeremy L Thompson 1285ca94c3ddSJeremy L Thompson @param[in,out] data `CeedQFunctionAssemblyData` to set objects 1286ca94c3ddSJeremy L Thompson @param[in] vec `CeedVector` to store assembled `CeedQFunction` at quadrature points 1287ca94c3ddSJeremy L Thompson @param[in] rstr `CeedElemRestriction` for `CeedVector` containing assembled `CeedQFunction` 1288480fae85SJeremy L Thompson 1289480fae85SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1290480fae85SJeremy L Thompson 1291480fae85SJeremy L Thompson @ref Backend 1292480fae85SJeremy L Thompson **/ 12932b730f8bSJeremy L Thompson int CeedQFunctionAssemblyDataSetObjects(CeedQFunctionAssemblyData data, CeedVector vec, CeedElemRestriction rstr) { 12942b730f8bSJeremy L Thompson CeedCall(CeedVectorReferenceCopy(vec, &data->vec)); 12952b730f8bSJeremy L Thompson CeedCall(CeedElemRestrictionReferenceCopy(rstr, &data->rstr)); 1296480fae85SJeremy L Thompson 1297480fae85SJeremy L Thompson data->is_setup = true; 1298480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1299480fae85SJeremy L Thompson } 1300480fae85SJeremy L Thompson 13014dd1a9d2SSebastian Grimberg /** 1302ca94c3ddSJeremy L Thompson @brief Get internal objects for `CeedQFunctionAssemblyData` 13034dd1a9d2SSebastian Grimberg 1304ca94c3ddSJeremy L Thompson @param[in,out] data `CeedQFunctionAssemblyData` to set objects 1305ca94c3ddSJeremy L Thompson @param[out] vec `CeedVector` to store assembled `CeedQFunction` at quadrature points 1306ca94c3ddSJeremy L Thompson @param[out] rstr `CeedElemRestriction` for `CeedVector` containing assembled `CeedQFunction` 13074dd1a9d2SSebastian Grimberg 13084dd1a9d2SSebastian Grimberg @return An error code: 0 - success, otherwise - failure 13094dd1a9d2SSebastian Grimberg 13104dd1a9d2SSebastian Grimberg @ref Backend 13114dd1a9d2SSebastian Grimberg **/ 13122b730f8bSJeremy L Thompson int CeedQFunctionAssemblyDataGetObjects(CeedQFunctionAssemblyData data, CeedVector *vec, CeedElemRestriction *rstr) { 13136574a04fSJeremy L Thompson CeedCheck(data->is_setup, data->ceed, CEED_ERROR_INCOMPLETE, "Internal objects not set; must call CeedQFunctionAssemblyDataSetObjects first."); 1314480fae85SJeremy L Thompson 13152b730f8bSJeremy L Thompson CeedCall(CeedVectorReferenceCopy(data->vec, vec)); 13162b730f8bSJeremy L Thompson CeedCall(CeedElemRestrictionReferenceCopy(data->rstr, rstr)); 1317480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1318480fae85SJeremy L Thompson } 1319480fae85SJeremy L Thompson 1320480fae85SJeremy L Thompson /** 1321ca94c3ddSJeremy L Thompson @brief Destroy `CeedQFunctionAssemblyData` 1322480fae85SJeremy L Thompson 1323ca94c3ddSJeremy L Thompson @param[in,out] data `CeedQFunctionAssemblyData` to destroy 1324480fae85SJeremy L Thompson 1325480fae85SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1326480fae85SJeremy L Thompson 1327480fae85SJeremy L Thompson @ref Backend 1328480fae85SJeremy L Thompson **/ 1329480fae85SJeremy L Thompson int CeedQFunctionAssemblyDataDestroy(CeedQFunctionAssemblyData *data) { 1330ad6481ceSJeremy L Thompson if (!*data || --(*data)->ref_count > 0) { 1331ad6481ceSJeremy L Thompson *data = NULL; 1332ad6481ceSJeremy L Thompson return CEED_ERROR_SUCCESS; 1333ad6481ceSJeremy L Thompson } 13342b730f8bSJeremy L Thompson CeedCall(CeedDestroy(&(*data)->ceed)); 13352b730f8bSJeremy L Thompson CeedCall(CeedVectorDestroy(&(*data)->vec)); 13362b730f8bSJeremy L Thompson CeedCall(CeedElemRestrictionDestroy(&(*data)->rstr)); 1337480fae85SJeremy L Thompson 13382b730f8bSJeremy L Thompson CeedCall(CeedFree(data)); 1339480fae85SJeremy L Thompson return CEED_ERROR_SUCCESS; 1340480fae85SJeremy L Thompson } 1341480fae85SJeremy L Thompson 1342ed9e99e6SJeremy L Thompson /** 1343ca94c3ddSJeremy L Thompson @brief Get `CeedOperatorAssemblyData` 1344ed9e99e6SJeremy L Thompson 1345ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble 13467d5185d7SSebastian Grimberg @param[out] data `CeedOperatorAssemblyData` 1347ed9e99e6SJeremy L Thompson 1348ed9e99e6SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1349ed9e99e6SJeremy L Thompson 1350ed9e99e6SJeremy L Thompson @ref Backend 1351ed9e99e6SJeremy L Thompson **/ 13522b730f8bSJeremy L Thompson int CeedOperatorGetOperatorAssemblyData(CeedOperator op, CeedOperatorAssemblyData *data) { 1353ed9e99e6SJeremy L Thompson if (!op->op_assembled) { 1354ed9e99e6SJeremy L Thompson CeedOperatorAssemblyData data; 1355ed9e99e6SJeremy L Thompson 13562b730f8bSJeremy L Thompson CeedCall(CeedOperatorAssemblyDataCreate(op->ceed, op, &data)); 1357ed9e99e6SJeremy L Thompson op->op_assembled = data; 1358ed9e99e6SJeremy L Thompson } 1359ed9e99e6SJeremy L Thompson *data = op->op_assembled; 1360ed9e99e6SJeremy L Thompson return CEED_ERROR_SUCCESS; 1361ed9e99e6SJeremy L Thompson } 1362ed9e99e6SJeremy L Thompson 1363ed9e99e6SJeremy L Thompson /** 1364ca94c3ddSJeremy L Thompson @brief Create object holding `CeedOperator` assembly data. 1365ba746a46SJeremy L Thompson 1366ca94c3ddSJeremy L Thompson The `CeedOperatorAssemblyData` holds an array with references to every active `CeedBasis` used in the `CeedOperator`. 1367ca94c3ddSJeremy L Thompson An array with references to the corresponding active `CeedElemRestriction` is also stored. 1368ca94c3ddSJeremy L Thompson For each active `CeedBasis, the `CeedOperatorAssemblyData` holds an array of all input and output @ref CeedEvalMode for this `CeedBasis`. 1369ca94c3ddSJeremy L Thompson The `CeedOperatorAssemblyData` holds an array of offsets for indexing into the assembled `CeedQFunction` arrays to the row representing each @ref CeedEvalMode. 1370ca94c3ddSJeremy L Thompson The number of input columns across all active bases for the assembled `CeedQFunction` is also stored. 1371ca94c3ddSJeremy L Thompson Lastly, the `CeedOperatorAssembly` data holds assembled matrices representing the full action of the `CeedBasis` for all @ref CeedEvalMode. 1372ed9e99e6SJeremy L Thompson 1373ca94c3ddSJeremy L Thompson @param[in] ceed `Ceed` object used to create the `CeedOperatorAssemblyData` 1374ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to be assembled 1375ca94c3ddSJeremy L Thompson @param[out] data Address of the variable where the newly created `CeedOperatorAssemblyData` will be stored 1376ed9e99e6SJeremy L Thompson 1377ed9e99e6SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1378ed9e99e6SJeremy L Thompson 1379ed9e99e6SJeremy L Thompson @ref Backend 1380ed9e99e6SJeremy L Thompson **/ 13812b730f8bSJeremy L Thompson int CeedOperatorAssemblyDataCreate(Ceed ceed, CeedOperator op, CeedOperatorAssemblyData *data) { 1382506b1a0cSSebastian Grimberg CeedInt num_active_bases_in = 0, num_active_bases_out = 0, offset = 0; 1383506b1a0cSSebastian Grimberg CeedInt num_input_fields, *num_eval_modes_in = NULL, num_output_fields, *num_eval_modes_out = NULL; 13841c66c397SJeremy L Thompson CeedSize **eval_mode_offsets_in = NULL, **eval_mode_offsets_out = NULL; 13851c66c397SJeremy L Thompson CeedEvalMode **eval_modes_in = NULL, **eval_modes_out = NULL; 13861c66c397SJeremy L Thompson CeedQFunctionField *qf_fields; 13871c66c397SJeremy L Thompson CeedQFunction qf; 13881c66c397SJeremy L Thompson CeedOperatorField *op_fields; 138901f0e615SJames Wright bool is_composite; 139001f0e615SJames Wright 139101f0e615SJames Wright CeedCall(CeedOperatorIsComposite(op, &is_composite)); 139201f0e615SJames Wright CeedCheck(!is_composite, ceed, CEED_ERROR_INCOMPATIBLE, "Can only create CeedOperator assembly data for non-composite operators."); 1393437c7c90SJeremy L Thompson 1394437c7c90SJeremy L Thompson // Allocate 13952b730f8bSJeremy L Thompson CeedCall(CeedCalloc(1, data)); 1396ed9e99e6SJeremy L Thompson (*data)->ceed = ceed; 13972b730f8bSJeremy L Thompson CeedCall(CeedReference(ceed)); 1398ed9e99e6SJeremy L Thompson 1399ed9e99e6SJeremy L Thompson // Build OperatorAssembly data 14002b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetQFunction(op, &qf)); 1401ed9e99e6SJeremy L Thompson 1402ed9e99e6SJeremy L Thompson // Determine active input basis 1403004e4986SSebastian Grimberg CeedCall(CeedQFunctionGetFields(qf, &num_input_fields, &qf_fields, NULL, NULL)); 1404004e4986SSebastian Grimberg CeedCall(CeedOperatorGetFields(op, NULL, &op_fields, NULL, NULL)); 1405ed9e99e6SJeremy L Thompson for (CeedInt i = 0; i < num_input_fields; i++) { 1406ed9e99e6SJeremy L Thompson CeedVector vec; 14071c66c397SJeremy L Thompson 14082b730f8bSJeremy L Thompson CeedCall(CeedOperatorFieldGetVector(op_fields[i], &vec)); 1409ed9e99e6SJeremy L Thompson if (vec == CEED_VECTOR_ACTIVE) { 14107c1dbaffSSebastian Grimberg CeedInt index = -1, num_comp, q_comp; 14111c66c397SJeremy L Thompson CeedEvalMode eval_mode; 14121c66c397SJeremy L Thompson CeedBasis basis_in = NULL; 14131c66c397SJeremy L Thompson 14142b730f8bSJeremy L Thompson CeedCall(CeedOperatorFieldGetBasis(op_fields[i], &basis_in)); 14152b730f8bSJeremy L Thompson CeedCall(CeedQFunctionFieldGetEvalMode(qf_fields[i], &eval_mode)); 1416352a5e7cSSebastian Grimberg CeedCall(CeedBasisGetNumComponents(basis_in, &num_comp)); 1417352a5e7cSSebastian Grimberg CeedCall(CeedBasisGetNumQuadratureComponents(basis_in, eval_mode, &q_comp)); 1418506b1a0cSSebastian Grimberg for (CeedInt i = 0; i < num_active_bases_in; i++) { 1419506b1a0cSSebastian Grimberg if ((*data)->active_bases_in[i] == basis_in) index = i; 1420437c7c90SJeremy L Thompson } 1421437c7c90SJeremy L Thompson if (index == -1) { 1422437c7c90SJeremy L Thompson CeedElemRestriction elem_rstr_in; 14231c66c397SJeremy L Thompson 1424506b1a0cSSebastian Grimberg index = num_active_bases_in; 1425506b1a0cSSebastian Grimberg CeedCall(CeedRealloc(num_active_bases_in + 1, &(*data)->active_bases_in)); 1426506b1a0cSSebastian Grimberg (*data)->active_bases_in[num_active_bases_in] = NULL; 1427506b1a0cSSebastian Grimberg CeedCall(CeedBasisReferenceCopy(basis_in, &(*data)->active_bases_in[num_active_bases_in])); 1428506b1a0cSSebastian Grimberg CeedCall(CeedRealloc(num_active_bases_in + 1, &(*data)->active_elem_rstrs_in)); 1429506b1a0cSSebastian Grimberg (*data)->active_elem_rstrs_in[num_active_bases_in] = NULL; 1430437c7c90SJeremy L Thompson CeedCall(CeedOperatorFieldGetElemRestriction(op_fields[i], &elem_rstr_in)); 1431506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionReferenceCopy(elem_rstr_in, &(*data)->active_elem_rstrs_in[num_active_bases_in])); 1432506b1a0cSSebastian Grimberg CeedCall(CeedRealloc(num_active_bases_in + 1, &num_eval_modes_in)); 1433437c7c90SJeremy L Thompson num_eval_modes_in[index] = 0; 1434506b1a0cSSebastian Grimberg CeedCall(CeedRealloc(num_active_bases_in + 1, &eval_modes_in)); 1435437c7c90SJeremy L Thompson eval_modes_in[index] = NULL; 1436506b1a0cSSebastian Grimberg CeedCall(CeedRealloc(num_active_bases_in + 1, &eval_mode_offsets_in)); 1437437c7c90SJeremy L Thompson eval_mode_offsets_in[index] = NULL; 1438506b1a0cSSebastian Grimberg CeedCall(CeedRealloc(num_active_bases_in + 1, &(*data)->assembled_bases_in)); 1439437c7c90SJeremy L Thompson (*data)->assembled_bases_in[index] = NULL; 1440506b1a0cSSebastian Grimberg num_active_bases_in++; 1441437c7c90SJeremy L Thompson } 1442352a5e7cSSebastian Grimberg if (eval_mode != CEED_EVAL_WEIGHT) { 1443352a5e7cSSebastian Grimberg // q_comp = 1 if CEED_EVAL_NONE, CEED_EVAL_WEIGHT caught by QF Assembly 1444352a5e7cSSebastian Grimberg CeedCall(CeedRealloc(num_eval_modes_in[index] + q_comp, &eval_modes_in[index])); 1445352a5e7cSSebastian Grimberg CeedCall(CeedRealloc(num_eval_modes_in[index] + q_comp, &eval_mode_offsets_in[index])); 1446352a5e7cSSebastian Grimberg for (CeedInt d = 0; d < q_comp; d++) { 1447437c7c90SJeremy L Thompson eval_modes_in[index][num_eval_modes_in[index] + d] = eval_mode; 1448437c7c90SJeremy L Thompson eval_mode_offsets_in[index][num_eval_modes_in[index] + d] = offset; 1449352a5e7cSSebastian Grimberg offset += num_comp; 1450ed9e99e6SJeremy L Thompson } 1451352a5e7cSSebastian Grimberg num_eval_modes_in[index] += q_comp; 1452ed9e99e6SJeremy L Thompson } 1453ed9e99e6SJeremy L Thompson } 1454ed9e99e6SJeremy L Thompson } 1455ed9e99e6SJeremy L Thompson 1456ed9e99e6SJeremy L Thompson // Determine active output basis 14572b730f8bSJeremy L Thompson CeedCall(CeedQFunctionGetFields(qf, NULL, NULL, &num_output_fields, &qf_fields)); 14582b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetFields(op, NULL, NULL, NULL, &op_fields)); 1459437c7c90SJeremy L Thompson offset = 0; 1460ed9e99e6SJeremy L Thompson for (CeedInt i = 0; i < num_output_fields; i++) { 1461ed9e99e6SJeremy L Thompson CeedVector vec; 14621c66c397SJeremy L Thompson 14632b730f8bSJeremy L Thompson CeedCall(CeedOperatorFieldGetVector(op_fields[i], &vec)); 1464ed9e99e6SJeremy L Thompson if (vec == CEED_VECTOR_ACTIVE) { 14657c1dbaffSSebastian Grimberg CeedInt index = -1, num_comp, q_comp; 14661c66c397SJeremy L Thompson CeedEvalMode eval_mode; 14671c66c397SJeremy L Thompson CeedBasis basis_out = NULL; 14681c66c397SJeremy L Thompson 1469437c7c90SJeremy L Thompson CeedCall(CeedOperatorFieldGetBasis(op_fields[i], &basis_out)); 14702b730f8bSJeremy L Thompson CeedCall(CeedQFunctionFieldGetEvalMode(qf_fields[i], &eval_mode)); 1471352a5e7cSSebastian Grimberg CeedCall(CeedBasisGetNumComponents(basis_out, &num_comp)); 1472352a5e7cSSebastian Grimberg CeedCall(CeedBasisGetNumQuadratureComponents(basis_out, eval_mode, &q_comp)); 1473506b1a0cSSebastian Grimberg for (CeedInt i = 0; i < num_active_bases_out; i++) { 1474506b1a0cSSebastian Grimberg if ((*data)->active_bases_out[i] == basis_out) index = i; 1475437c7c90SJeremy L Thompson } 1476437c7c90SJeremy L Thompson if (index == -1) { 1477437c7c90SJeremy L Thompson CeedElemRestriction elem_rstr_out; 14781c66c397SJeremy L Thompson 1479506b1a0cSSebastian Grimberg index = num_active_bases_out; 1480506b1a0cSSebastian Grimberg CeedCall(CeedRealloc(num_active_bases_out + 1, &(*data)->active_bases_out)); 1481506b1a0cSSebastian Grimberg (*data)->active_bases_out[num_active_bases_out] = NULL; 1482506b1a0cSSebastian Grimberg CeedCall(CeedBasisReferenceCopy(basis_out, &(*data)->active_bases_out[num_active_bases_out])); 1483506b1a0cSSebastian Grimberg CeedCall(CeedRealloc(num_active_bases_out + 1, &(*data)->active_elem_rstrs_out)); 1484506b1a0cSSebastian Grimberg (*data)->active_elem_rstrs_out[num_active_bases_out] = NULL; 1485437c7c90SJeremy L Thompson CeedCall(CeedOperatorFieldGetElemRestriction(op_fields[i], &elem_rstr_out)); 1486506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionReferenceCopy(elem_rstr_out, &(*data)->active_elem_rstrs_out[num_active_bases_out])); 1487506b1a0cSSebastian Grimberg CeedCall(CeedRealloc(num_active_bases_out + 1, &num_eval_modes_out)); 1488437c7c90SJeremy L Thompson num_eval_modes_out[index] = 0; 1489506b1a0cSSebastian Grimberg CeedCall(CeedRealloc(num_active_bases_out + 1, &eval_modes_out)); 1490437c7c90SJeremy L Thompson eval_modes_out[index] = NULL; 1491506b1a0cSSebastian Grimberg CeedCall(CeedRealloc(num_active_bases_out + 1, &eval_mode_offsets_out)); 1492437c7c90SJeremy L Thompson eval_mode_offsets_out[index] = NULL; 1493506b1a0cSSebastian Grimberg CeedCall(CeedRealloc(num_active_bases_out + 1, &(*data)->assembled_bases_out)); 1494437c7c90SJeremy L Thompson (*data)->assembled_bases_out[index] = NULL; 1495506b1a0cSSebastian Grimberg num_active_bases_out++; 1496437c7c90SJeremy L Thompson } 1497352a5e7cSSebastian Grimberg if (eval_mode != CEED_EVAL_WEIGHT) { 1498352a5e7cSSebastian Grimberg // q_comp = 1 if CEED_EVAL_NONE, CEED_EVAL_WEIGHT caught by QF Assembly 1499352a5e7cSSebastian Grimberg CeedCall(CeedRealloc(num_eval_modes_out[index] + q_comp, &eval_modes_out[index])); 1500352a5e7cSSebastian Grimberg CeedCall(CeedRealloc(num_eval_modes_out[index] + q_comp, &eval_mode_offsets_out[index])); 1501352a5e7cSSebastian Grimberg for (CeedInt d = 0; d < q_comp; d++) { 1502437c7c90SJeremy L Thompson eval_modes_out[index][num_eval_modes_out[index] + d] = eval_mode; 1503437c7c90SJeremy L Thompson eval_mode_offsets_out[index][num_eval_modes_out[index] + d] = offset; 1504352a5e7cSSebastian Grimberg offset += num_comp; 1505ed9e99e6SJeremy L Thompson } 1506352a5e7cSSebastian Grimberg num_eval_modes_out[index] += q_comp; 1507ed9e99e6SJeremy L Thompson } 1508ed9e99e6SJeremy L Thompson } 1509ed9e99e6SJeremy L Thompson } 1510506b1a0cSSebastian Grimberg (*data)->num_active_bases_in = num_active_bases_in; 151127789c4aSJed Brown (*data)->num_eval_modes_in = num_eval_modes_in; 151227789c4aSJed Brown (*data)->eval_modes_in = eval_modes_in; 151327789c4aSJed Brown (*data)->eval_mode_offsets_in = eval_mode_offsets_in; 1514506b1a0cSSebastian Grimberg (*data)->num_active_bases_out = num_active_bases_out; 1515437c7c90SJeremy L Thompson (*data)->num_eval_modes_out = num_eval_modes_out; 1516437c7c90SJeremy L Thompson (*data)->eval_modes_out = eval_modes_out; 1517437c7c90SJeremy L Thompson (*data)->eval_mode_offsets_out = eval_mode_offsets_out; 1518506b1a0cSSebastian Grimberg (*data)->num_output_components = offset; 1519ed9e99e6SJeremy L Thompson return CEED_ERROR_SUCCESS; 1520ed9e99e6SJeremy L Thompson } 1521ed9e99e6SJeremy L Thompson 1522ed9e99e6SJeremy L Thompson /** 1523ca94c3ddSJeremy L Thompson @brief Get `CeedOperator` @ref CeedEvalMode for assembly. 1524ba746a46SJeremy L Thompson 1525ca94c3ddSJeremy L Thompson Note: See @ref CeedOperatorAssemblyDataCreate() for a full description of the data stored in this object. 1526ed9e99e6SJeremy L Thompson 1527ca94c3ddSJeremy L Thompson @param[in] data `CeedOperatorAssemblyData` 1528506b1a0cSSebastian Grimberg @param[out] num_active_bases_in Total number of active bases for input 1529ca94c3ddSJeremy L Thompson @param[out] num_eval_modes_in Pointer to hold array of numbers of input @ref CeedEvalMode, or `NULL`. 1530ca94c3ddSJeremy L Thompson `eval_modes_in[0]` holds an array of eval modes for the first active `CeedBasis`. 1531ca94c3ddSJeremy L Thompson @param[out] eval_modes_in Pointer to hold arrays of input @ref CeedEvalMode, or `NULL` 1532ca94c3ddSJeremy L Thompson @param[out] eval_mode_offsets_in Pointer to hold arrays of input offsets at each quadrature point 1533506b1a0cSSebastian Grimberg @param[out] num_active_bases_out Total number of active bases for output 1534ca94c3ddSJeremy L Thompson @param[out] num_eval_modes_out Pointer to hold array of numbers of output @ref CeedEvalMode, or `NULL` 1535ca94c3ddSJeremy L Thompson @param[out] eval_modes_out Pointer to hold arrays of output @ref CeedEvalMode, or `NULL` 1536437c7c90SJeremy L Thompson @param[out] eval_mode_offsets_out Pointer to hold arrays of output offsets at each quadrature point 1537ca94c3ddSJeremy L Thompson @param[out] num_output_components The number of columns in the assembled `CeedQFunction` matrix for each quadrature point, including contributions of all active bases 1538ed9e99e6SJeremy L Thompson 1539ed9e99e6SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1540ed9e99e6SJeremy L Thompson 1541ed9e99e6SJeremy L Thompson @ref Backend 1542ed9e99e6SJeremy L Thompson **/ 1543506b1a0cSSebastian Grimberg int CeedOperatorAssemblyDataGetEvalModes(CeedOperatorAssemblyData data, CeedInt *num_active_bases_in, CeedInt **num_eval_modes_in, 1544506b1a0cSSebastian Grimberg const CeedEvalMode ***eval_modes_in, CeedSize ***eval_mode_offsets_in, CeedInt *num_active_bases_out, 1545506b1a0cSSebastian Grimberg CeedInt **num_eval_modes_out, const CeedEvalMode ***eval_modes_out, CeedSize ***eval_mode_offsets_out, 1546506b1a0cSSebastian Grimberg CeedSize *num_output_components) { 1547506b1a0cSSebastian Grimberg if (num_active_bases_in) *num_active_bases_in = data->num_active_bases_in; 1548437c7c90SJeremy L Thompson if (num_eval_modes_in) *num_eval_modes_in = data->num_eval_modes_in; 1549437c7c90SJeremy L Thompson if (eval_modes_in) *eval_modes_in = (const CeedEvalMode **)data->eval_modes_in; 1550437c7c90SJeremy L Thompson if (eval_mode_offsets_in) *eval_mode_offsets_in = data->eval_mode_offsets_in; 1551506b1a0cSSebastian Grimberg if (num_active_bases_out) *num_active_bases_out = data->num_active_bases_out; 1552437c7c90SJeremy L Thompson if (num_eval_modes_out) *num_eval_modes_out = data->num_eval_modes_out; 1553437c7c90SJeremy L Thompson if (eval_modes_out) *eval_modes_out = (const CeedEvalMode **)data->eval_modes_out; 1554437c7c90SJeremy L Thompson if (eval_mode_offsets_out) *eval_mode_offsets_out = data->eval_mode_offsets_out; 1555437c7c90SJeremy L Thompson if (num_output_components) *num_output_components = data->num_output_components; 1556ed9e99e6SJeremy L Thompson return CEED_ERROR_SUCCESS; 1557ed9e99e6SJeremy L Thompson } 1558ed9e99e6SJeremy L Thompson 1559ed9e99e6SJeremy L Thompson /** 1560ca94c3ddSJeremy L Thompson @brief Get `CeedOperator` `CeedBasis` data for assembly. 1561ba746a46SJeremy L Thompson 1562ca94c3ddSJeremy L Thompson Note: See @ref CeedOperatorAssemblyDataCreate() for a full description of the data stored in this object. 1563ed9e99e6SJeremy L Thompson 1564ca94c3ddSJeremy L Thompson @param[in] data `CeedOperatorAssemblyData` 1565ca94c3ddSJeremy L Thompson @param[out] num_active_bases_in Number of active input bases, or `NULL` 1566ca94c3ddSJeremy L Thompson @param[out] active_bases_in Pointer to hold active input `CeedBasis`, or `NULL` 1567ca94c3ddSJeremy L Thompson @param[out] assembled_bases_in Pointer to hold assembled active input `B` , or `NULL` 1568ca94c3ddSJeremy L Thompson @param[out] num_active_bases_out Number of active output bases, or `NULL` 1569ca94c3ddSJeremy L Thompson @param[out] active_bases_out Pointer to hold active output `CeedBasis`, or `NULL` 1570ca94c3ddSJeremy L Thompson @param[out] assembled_bases_out Pointer to hold assembled active output `B` , or `NULL` 1571ed9e99e6SJeremy L Thompson 1572ed9e99e6SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1573ed9e99e6SJeremy L Thompson 1574ed9e99e6SJeremy L Thompson @ref Backend 1575ed9e99e6SJeremy L Thompson **/ 1576506b1a0cSSebastian Grimberg int CeedOperatorAssemblyDataGetBases(CeedOperatorAssemblyData data, CeedInt *num_active_bases_in, CeedBasis **active_bases_in, 1577506b1a0cSSebastian Grimberg const CeedScalar ***assembled_bases_in, CeedInt *num_active_bases_out, CeedBasis **active_bases_out, 1578506b1a0cSSebastian Grimberg const CeedScalar ***assembled_bases_out) { 1579ed9e99e6SJeremy L Thompson // Assemble B_in, B_out if needed 1580437c7c90SJeremy L Thompson if (assembled_bases_in && !data->assembled_bases_in[0]) { 1581437c7c90SJeremy L Thompson CeedInt num_qpts; 1582437c7c90SJeremy L Thompson 1583506b1a0cSSebastian Grimberg if (data->active_bases_in[0] == CEED_BASIS_NONE) CeedCall(CeedElemRestrictionGetElementSize(data->active_elem_rstrs_in[0], &num_qpts)); 1584506b1a0cSSebastian Grimberg else CeedCall(CeedBasisGetNumQuadraturePoints(data->active_bases_in[0], &num_qpts)); 1585506b1a0cSSebastian Grimberg for (CeedInt b = 0; b < data->num_active_bases_in; b++) { 15861c66c397SJeremy L Thompson bool has_eval_none = false; 1587352a5e7cSSebastian Grimberg CeedInt num_nodes; 1588437c7c90SJeremy L Thompson CeedScalar *B_in = NULL, *identity = NULL; 1589ed9e99e6SJeremy L Thompson 1590506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetElementSize(data->active_elem_rstrs_in[b], &num_nodes)); 1591352a5e7cSSebastian Grimberg CeedCall(CeedCalloc(num_qpts * num_nodes * data->num_eval_modes_in[b], &B_in)); 1592ed9e99e6SJeremy L Thompson 1593437c7c90SJeremy L Thompson for (CeedInt i = 0; i < data->num_eval_modes_in[b]; i++) { 1594437c7c90SJeremy L Thompson has_eval_none = has_eval_none || (data->eval_modes_in[b][i] == CEED_EVAL_NONE); 1595ed9e99e6SJeremy L Thompson } 1596ed9e99e6SJeremy L Thompson if (has_eval_none) { 1597352a5e7cSSebastian Grimberg CeedCall(CeedCalloc(num_qpts * num_nodes, &identity)); 1598352a5e7cSSebastian Grimberg for (CeedInt i = 0; i < (num_nodes < num_qpts ? num_nodes : num_qpts); i++) { 1599352a5e7cSSebastian Grimberg identity[i * num_nodes + i] = 1.0; 1600ed9e99e6SJeremy L Thompson } 1601ed9e99e6SJeremy L Thompson } 1602ed9e99e6SJeremy L Thompson 1603ed9e99e6SJeremy L Thompson for (CeedInt q = 0; q < num_qpts; q++) { 1604352a5e7cSSebastian Grimberg for (CeedInt n = 0; n < num_nodes; n++) { 1605352a5e7cSSebastian Grimberg CeedInt d_in = 0, q_comp_in; 1606352a5e7cSSebastian Grimberg CeedEvalMode eval_mode_in_prev = CEED_EVAL_NONE; 16071c66c397SJeremy L Thompson 1608437c7c90SJeremy L Thompson for (CeedInt e_in = 0; e_in < data->num_eval_modes_in[b]; e_in++) { 1609437c7c90SJeremy L Thompson const CeedInt qq = data->num_eval_modes_in[b] * q; 1610437c7c90SJeremy L Thompson const CeedScalar *B = NULL; 16111c66c397SJeremy L Thompson 1612506b1a0cSSebastian Grimberg CeedCall(CeedOperatorGetBasisPointer(data->active_bases_in[b], data->eval_modes_in[b][e_in], identity, &B)); 1613506b1a0cSSebastian Grimberg CeedCall(CeedBasisGetNumQuadratureComponents(data->active_bases_in[b], data->eval_modes_in[b][e_in], &q_comp_in)); 1614352a5e7cSSebastian Grimberg if (q_comp_in > 1) { 1615352a5e7cSSebastian Grimberg if (e_in == 0 || data->eval_modes_in[b][e_in] != eval_mode_in_prev) d_in = 0; 1616352a5e7cSSebastian Grimberg else B = &B[(++d_in) * num_qpts * num_nodes]; 1617352a5e7cSSebastian Grimberg } 1618352a5e7cSSebastian Grimberg eval_mode_in_prev = data->eval_modes_in[b][e_in]; 1619352a5e7cSSebastian Grimberg B_in[(qq + e_in) * num_nodes + n] = B[q * num_nodes + n]; 1620ed9e99e6SJeremy L Thompson } 1621ed9e99e6SJeremy L Thompson } 1622ed9e99e6SJeremy L Thompson } 16237c1dbaffSSebastian Grimberg if (identity) CeedCall(CeedFree(&identity)); 1624437c7c90SJeremy L Thompson data->assembled_bases_in[b] = B_in; 1625437c7c90SJeremy L Thompson } 1626ed9e99e6SJeremy L Thompson } 1627ed9e99e6SJeremy L Thompson 1628437c7c90SJeremy L Thompson if (assembled_bases_out && !data->assembled_bases_out[0]) { 1629437c7c90SJeremy L Thompson CeedInt num_qpts; 1630437c7c90SJeremy L Thompson 1631506b1a0cSSebastian Grimberg if (data->active_bases_out[0] == CEED_BASIS_NONE) CeedCall(CeedElemRestrictionGetElementSize(data->active_elem_rstrs_out[0], &num_qpts)); 1632506b1a0cSSebastian Grimberg else CeedCall(CeedBasisGetNumQuadraturePoints(data->active_bases_out[0], &num_qpts)); 1633506b1a0cSSebastian Grimberg for (CeedInt b = 0; b < data->num_active_bases_out; b++) { 1634ed9e99e6SJeremy L Thompson bool has_eval_none = false; 16351c66c397SJeremy L Thompson CeedInt num_nodes; 1636437c7c90SJeremy L Thompson CeedScalar *B_out = NULL, *identity = NULL; 1637ed9e99e6SJeremy L Thompson 1638506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetElementSize(data->active_elem_rstrs_out[b], &num_nodes)); 1639352a5e7cSSebastian Grimberg CeedCall(CeedCalloc(num_qpts * num_nodes * data->num_eval_modes_out[b], &B_out)); 1640ed9e99e6SJeremy L Thompson 1641437c7c90SJeremy L Thompson for (CeedInt i = 0; i < data->num_eval_modes_out[b]; i++) { 1642437c7c90SJeremy L Thompson has_eval_none = has_eval_none || (data->eval_modes_out[b][i] == CEED_EVAL_NONE); 1643ed9e99e6SJeremy L Thompson } 1644ed9e99e6SJeremy L Thompson if (has_eval_none) { 1645352a5e7cSSebastian Grimberg CeedCall(CeedCalloc(num_qpts * num_nodes, &identity)); 1646352a5e7cSSebastian Grimberg for (CeedInt i = 0; i < (num_nodes < num_qpts ? num_nodes : num_qpts); i++) { 1647352a5e7cSSebastian Grimberg identity[i * num_nodes + i] = 1.0; 1648ed9e99e6SJeremy L Thompson } 1649ed9e99e6SJeremy L Thompson } 1650ed9e99e6SJeremy L Thompson 1651ed9e99e6SJeremy L Thompson for (CeedInt q = 0; q < num_qpts; q++) { 1652352a5e7cSSebastian Grimberg for (CeedInt n = 0; n < num_nodes; n++) { 1653352a5e7cSSebastian Grimberg CeedInt d_out = 0, q_comp_out; 1654352a5e7cSSebastian Grimberg CeedEvalMode eval_mode_out_prev = CEED_EVAL_NONE; 16551c66c397SJeremy L Thompson 1656437c7c90SJeremy L Thompson for (CeedInt e_out = 0; e_out < data->num_eval_modes_out[b]; e_out++) { 1657437c7c90SJeremy L Thompson const CeedInt qq = data->num_eval_modes_out[b] * q; 1658437c7c90SJeremy L Thompson const CeedScalar *B = NULL; 16591c66c397SJeremy L Thompson 1660506b1a0cSSebastian Grimberg CeedCall(CeedOperatorGetBasisPointer(data->active_bases_out[b], data->eval_modes_out[b][e_out], identity, &B)); 1661506b1a0cSSebastian Grimberg CeedCall(CeedBasisGetNumQuadratureComponents(data->active_bases_out[b], data->eval_modes_out[b][e_out], &q_comp_out)); 1662352a5e7cSSebastian Grimberg if (q_comp_out > 1) { 1663352a5e7cSSebastian Grimberg if (e_out == 0 || data->eval_modes_out[b][e_out] != eval_mode_out_prev) d_out = 0; 1664352a5e7cSSebastian Grimberg else B = &B[(++d_out) * num_qpts * num_nodes]; 1665352a5e7cSSebastian Grimberg } 1666352a5e7cSSebastian Grimberg eval_mode_out_prev = data->eval_modes_out[b][e_out]; 1667352a5e7cSSebastian Grimberg B_out[(qq + e_out) * num_nodes + n] = B[q * num_nodes + n]; 1668ed9e99e6SJeremy L Thompson } 1669ed9e99e6SJeremy L Thompson } 1670ed9e99e6SJeremy L Thompson } 16717c1dbaffSSebastian Grimberg if (identity) CeedCall(CeedFree(&identity)); 1672437c7c90SJeremy L Thompson data->assembled_bases_out[b] = B_out; 1673437c7c90SJeremy L Thompson } 1674ed9e99e6SJeremy L Thompson } 1675ed9e99e6SJeremy L Thompson 1676437c7c90SJeremy L Thompson // Pass out assembled data 1677506b1a0cSSebastian Grimberg if (num_active_bases_in) *num_active_bases_in = data->num_active_bases_in; 1678506b1a0cSSebastian Grimberg if (active_bases_in) *active_bases_in = data->active_bases_in; 1679437c7c90SJeremy L Thompson if (assembled_bases_in) *assembled_bases_in = (const CeedScalar **)data->assembled_bases_in; 1680506b1a0cSSebastian Grimberg if (num_active_bases_out) *num_active_bases_out = data->num_active_bases_out; 1681506b1a0cSSebastian Grimberg if (active_bases_out) *active_bases_out = data->active_bases_out; 1682437c7c90SJeremy L Thompson if (assembled_bases_out) *assembled_bases_out = (const CeedScalar **)data->assembled_bases_out; 1683437c7c90SJeremy L Thompson return CEED_ERROR_SUCCESS; 1684437c7c90SJeremy L Thompson } 1685437c7c90SJeremy L Thompson 1686437c7c90SJeremy L Thompson /** 1687ca94c3ddSJeremy L Thompson @brief Get `CeedOperator` `CeedBasis` data for assembly. 1688ba746a46SJeremy L Thompson 1689ca94c3ddSJeremy L Thompson Note: See @ref CeedOperatorAssemblyDataCreate() for a full description of the data stored in this object. 1690437c7c90SJeremy L Thompson 1691ca94c3ddSJeremy L Thompson @param[in] data `CeedOperatorAssemblyData` 1692ca94c3ddSJeremy L Thompson @param[out] num_active_elem_rstrs_in Number of active input element restrictions, or `NULL` 1693ca94c3ddSJeremy L Thompson @param[out] active_elem_rstrs_in Pointer to hold active input `CeedElemRestriction`, or `NULL` 1694ca94c3ddSJeremy L Thompson @param[out] num_active_elem_rstrs_out Number of active output element restrictions, or `NULL` 1695ca94c3ddSJeremy L Thompson @param[out] active_elem_rstrs_out Pointer to hold active output `CeedElemRestriction`, or `NULL` 1696437c7c90SJeremy L Thompson 1697437c7c90SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1698437c7c90SJeremy L Thompson 1699437c7c90SJeremy L Thompson @ref Backend 1700437c7c90SJeremy L Thompson **/ 1701506b1a0cSSebastian Grimberg int CeedOperatorAssemblyDataGetElemRestrictions(CeedOperatorAssemblyData data, CeedInt *num_active_elem_rstrs_in, 1702506b1a0cSSebastian Grimberg CeedElemRestriction **active_elem_rstrs_in, CeedInt *num_active_elem_rstrs_out, 1703506b1a0cSSebastian Grimberg CeedElemRestriction **active_elem_rstrs_out) { 1704506b1a0cSSebastian Grimberg if (num_active_elem_rstrs_in) *num_active_elem_rstrs_in = data->num_active_bases_in; 1705506b1a0cSSebastian Grimberg if (active_elem_rstrs_in) *active_elem_rstrs_in = data->active_elem_rstrs_in; 1706506b1a0cSSebastian Grimberg if (num_active_elem_rstrs_out) *num_active_elem_rstrs_out = data->num_active_bases_out; 1707506b1a0cSSebastian Grimberg if (active_elem_rstrs_out) *active_elem_rstrs_out = data->active_elem_rstrs_out; 1708ed9e99e6SJeremy L Thompson return CEED_ERROR_SUCCESS; 1709ed9e99e6SJeremy L Thompson } 1710ed9e99e6SJeremy L Thompson 1711ed9e99e6SJeremy L Thompson /** 1712ca94c3ddSJeremy L Thompson @brief Destroy `CeedOperatorAssemblyData` 1713ed9e99e6SJeremy L Thompson 1714ca94c3ddSJeremy L Thompson @param[in,out] data `CeedOperatorAssemblyData` to destroy 1715ed9e99e6SJeremy L Thompson 1716ed9e99e6SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1717ed9e99e6SJeremy L Thompson 1718ed9e99e6SJeremy L Thompson @ref Backend 1719ed9e99e6SJeremy L Thompson **/ 1720ed9e99e6SJeremy L Thompson int CeedOperatorAssemblyDataDestroy(CeedOperatorAssemblyData *data) { 1721ad6481ceSJeremy L Thompson if (!*data) { 1722ad6481ceSJeremy L Thompson *data = NULL; 1723ad6481ceSJeremy L Thompson return CEED_ERROR_SUCCESS; 1724ad6481ceSJeremy L Thompson } 17252b730f8bSJeremy L Thompson CeedCall(CeedDestroy(&(*data)->ceed)); 1726506b1a0cSSebastian Grimberg for (CeedInt b = 0; b < (*data)->num_active_bases_in; b++) { 1727506b1a0cSSebastian Grimberg CeedCall(CeedBasisDestroy(&(*data)->active_bases_in[b])); 1728506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionDestroy(&(*data)->active_elem_rstrs_in[b])); 1729437c7c90SJeremy L Thompson CeedCall(CeedFree(&(*data)->eval_modes_in[b])); 1730437c7c90SJeremy L Thompson CeedCall(CeedFree(&(*data)->eval_mode_offsets_in[b])); 1731437c7c90SJeremy L Thompson CeedCall(CeedFree(&(*data)->assembled_bases_in[b])); 1732506b1a0cSSebastian Grimberg } 1733506b1a0cSSebastian Grimberg for (CeedInt b = 0; b < (*data)->num_active_bases_out; b++) { 1734506b1a0cSSebastian Grimberg CeedCall(CeedBasisDestroy(&(*data)->active_bases_out[b])); 1735506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionDestroy(&(*data)->active_elem_rstrs_out[b])); 1736506b1a0cSSebastian Grimberg CeedCall(CeedFree(&(*data)->eval_modes_out[b])); 1737506b1a0cSSebastian Grimberg CeedCall(CeedFree(&(*data)->eval_mode_offsets_out[b])); 1738437c7c90SJeremy L Thompson CeedCall(CeedFree(&(*data)->assembled_bases_out[b])); 1739437c7c90SJeremy L Thompson } 1740506b1a0cSSebastian Grimberg CeedCall(CeedFree(&(*data)->active_bases_in)); 1741506b1a0cSSebastian Grimberg CeedCall(CeedFree(&(*data)->active_bases_out)); 1742506b1a0cSSebastian Grimberg CeedCall(CeedFree(&(*data)->active_elem_rstrs_in)); 1743506b1a0cSSebastian Grimberg CeedCall(CeedFree(&(*data)->active_elem_rstrs_out)); 1744437c7c90SJeremy L Thompson CeedCall(CeedFree(&(*data)->num_eval_modes_in)); 1745437c7c90SJeremy L Thompson CeedCall(CeedFree(&(*data)->num_eval_modes_out)); 1746437c7c90SJeremy L Thompson CeedCall(CeedFree(&(*data)->eval_modes_in)); 1747437c7c90SJeremy L Thompson CeedCall(CeedFree(&(*data)->eval_modes_out)); 1748437c7c90SJeremy L Thompson CeedCall(CeedFree(&(*data)->eval_mode_offsets_in)); 1749437c7c90SJeremy L Thompson CeedCall(CeedFree(&(*data)->eval_mode_offsets_out)); 1750437c7c90SJeremy L Thompson CeedCall(CeedFree(&(*data)->assembled_bases_in)); 1751437c7c90SJeremy L Thompson CeedCall(CeedFree(&(*data)->assembled_bases_out)); 1752ed9e99e6SJeremy L Thompson 17532b730f8bSJeremy L Thompson CeedCall(CeedFree(data)); 1754ed9e99e6SJeremy L Thompson return CEED_ERROR_SUCCESS; 1755ed9e99e6SJeremy L Thompson } 1756ed9e99e6SJeremy L Thompson 17574dd1a9d2SSebastian Grimberg /** 1758ca94c3ddSJeremy L Thompson @brief Retrieve fallback `CeedOperator` with a reference `Ceed` for advanced `CeedOperator` functionality 17594dd1a9d2SSebastian Grimberg 1760ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to retrieve fallback for 1761ca94c3ddSJeremy L Thompson @param[out] op_fallback Fallback `CeedOperator` 17624dd1a9d2SSebastian Grimberg 17634dd1a9d2SSebastian Grimberg @return An error code: 0 - success, otherwise - failure 17644dd1a9d2SSebastian Grimberg 17654dd1a9d2SSebastian Grimberg @ref Backend 17664dd1a9d2SSebastian Grimberg **/ 17674dd1a9d2SSebastian Grimberg int CeedOperatorGetFallback(CeedOperator op, CeedOperator *op_fallback) { 17684dd1a9d2SSebastian Grimberg // Create if needed 17694dd1a9d2SSebastian Grimberg if (!op->op_fallback) CeedCall(CeedOperatorCreateFallback(op)); 17704dd1a9d2SSebastian Grimberg if (op->op_fallback) { 17714dd1a9d2SSebastian Grimberg bool is_debug; 17721203703bSJeremy L Thompson Ceed ceed; 17734dd1a9d2SSebastian Grimberg 17744dd1a9d2SSebastian Grimberg CeedCall(CeedOperatorGetCeed(op, &ceed)); 17751203703bSJeremy L Thompson CeedCall(CeedIsDebug(ceed, &is_debug)); 17761203703bSJeremy L Thompson if (is_debug) { 17771203703bSJeremy L Thompson Ceed ceed_fallback; 17781203703bSJeremy L Thompson const char *resource, *resource_fallback; 17791203703bSJeremy L Thompson 17804dd1a9d2SSebastian Grimberg CeedCall(CeedGetOperatorFallbackCeed(ceed, &ceed_fallback)); 17814dd1a9d2SSebastian Grimberg CeedCall(CeedGetResource(ceed, &resource)); 17824dd1a9d2SSebastian Grimberg CeedCall(CeedGetResource(ceed_fallback, &resource_fallback)); 17834dd1a9d2SSebastian Grimberg 17844dd1a9d2SSebastian Grimberg CeedDebug256(ceed, CEED_DEBUG_COLOR_SUCCESS, "---------- CeedOperator Fallback ----------\n"); 1785249f8407SJeremy L Thompson CeedDebug(ceed, "Falling back from %s operator at address %p to %s operator at address %p\n", resource, op, resource_fallback, op->op_fallback); 17864dd1a9d2SSebastian Grimberg } 17874dd1a9d2SSebastian Grimberg } 17884dd1a9d2SSebastian Grimberg *op_fallback = op->op_fallback; 17894dd1a9d2SSebastian Grimberg return CEED_ERROR_SUCCESS; 17904dd1a9d2SSebastian Grimberg } 17914dd1a9d2SSebastian Grimberg 17924dd1a9d2SSebastian Grimberg /** 1793ca94c3ddSJeremy L Thompson @brief Get the parent `CeedOperator` for a fallback `CeedOperator` 17944dd1a9d2SSebastian Grimberg 1795ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` context 1796ca94c3ddSJeremy L Thompson @param[out] parent Variable to store parent `CeedOperator` context 17974dd1a9d2SSebastian Grimberg 17984dd1a9d2SSebastian Grimberg @return An error code: 0 - success, otherwise - failure 17994dd1a9d2SSebastian Grimberg 18004dd1a9d2SSebastian Grimberg @ref Backend 18014dd1a9d2SSebastian Grimberg **/ 18024dd1a9d2SSebastian Grimberg int CeedOperatorGetFallbackParent(CeedOperator op, CeedOperator *parent) { 18034dd1a9d2SSebastian Grimberg *parent = op->op_fallback_parent ? op->op_fallback_parent : NULL; 18044dd1a9d2SSebastian Grimberg return CEED_ERROR_SUCCESS; 18054dd1a9d2SSebastian Grimberg } 18064dd1a9d2SSebastian Grimberg 18074dd1a9d2SSebastian Grimberg /** 1808ca94c3ddSJeremy L Thompson @brief Get the `Ceed` context of the parent `CeedOperator` for a fallback `CeedOperator` 18094dd1a9d2SSebastian Grimberg 1810ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` context 1811ca94c3ddSJeremy L Thompson @param[out] parent Variable to store parent `Ceed` context 18124dd1a9d2SSebastian Grimberg 18134dd1a9d2SSebastian Grimberg @return An error code: 0 - success, otherwise - failure 18144dd1a9d2SSebastian Grimberg 18154dd1a9d2SSebastian Grimberg @ref Backend 18164dd1a9d2SSebastian Grimberg **/ 18174dd1a9d2SSebastian Grimberg int CeedOperatorGetFallbackParentCeed(CeedOperator op, Ceed *parent) { 18184dd1a9d2SSebastian Grimberg *parent = op->op_fallback_parent ? op->op_fallback_parent->ceed : op->ceed; 18194dd1a9d2SSebastian Grimberg return CEED_ERROR_SUCCESS; 18204dd1a9d2SSebastian Grimberg } 18214dd1a9d2SSebastian Grimberg 1822480fae85SJeremy L Thompson /// @} 1823480fae85SJeremy L Thompson 1824480fae85SJeremy L Thompson /// ---------------------------------------------------------------------------- 1825eaf62fffSJeremy L Thompson /// CeedOperator Public API 1826eaf62fffSJeremy L Thompson /// ---------------------------------------------------------------------------- 1827eaf62fffSJeremy L Thompson /// @addtogroup CeedOperatorUser 1828eaf62fffSJeremy L Thompson /// @{ 1829eaf62fffSJeremy L Thompson 1830eaf62fffSJeremy L Thompson /** 1831ca94c3ddSJeremy L Thompson @brief Assemble a linear `CeedQFunction` associated with a `CeedOperator`. 1832eaf62fffSJeremy L Thompson 1833ca94c3ddSJeremy L Thompson This returns a `CeedVector` containing a matrix at each quadrature point providing the action of the `CeedQFunction` associated with the `CeedOperator`. 1834ca94c3ddSJeremy L Thompson The vector `assembled` is of shape `[num_elements, num_input_fields, num_output_fields, num_quad_points]` and contains column-major matrices representing the action of the `CeedQFunction` for a corresponding quadrature point on an element. 1835859c15bbSJames Wright 1836ca94c3ddSJeremy L Thompson Inputs and outputs are in the order provided by the user when adding `CeedOperator` fields. 1837ca94c3ddSJeremy L Thompson For example, a `CeedQFunction` with inputs `u` and `gradu` and outputs `gradv` and `v` , provided in that order, would result in an assembled `CeedQFunction` that consists of `(1 + dim) x (dim + 1)` matrices at each quadrature point acting on the input ` [u, du_0, du_1]` and producing the output `[dv_0, dv_1, v]`. 1838eaf62fffSJeremy L Thompson 1839ca94c3ddSJeremy L Thompson Note: Calling this function asserts that setup is complete and sets the `CeedOperator` as immutable. 1840f04ea552SJeremy L Thompson 1841ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble `CeedQFunction` 1842ca94c3ddSJeremy L Thompson @param[out] assembled `CeedVector` to store assembled `CeedQFunction` at quadrature points 1843ca94c3ddSJeremy L Thompson @param[out] rstr `CeedElemRestriction` for `CeedVector` containing assembled `CeedQFunction` 1844ca94c3ddSJeremy L Thompson @param[in] request Address of @ref CeedRequest for non-blocking completion, else @ref CEED_REQUEST_IMMEDIATE 1845eaf62fffSJeremy L Thompson 1846eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1847eaf62fffSJeremy L Thompson 1848eaf62fffSJeremy L Thompson @ref User 1849eaf62fffSJeremy L Thompson **/ 18502b730f8bSJeremy L Thompson int CeedOperatorLinearAssembleQFunction(CeedOperator op, CeedVector *assembled, CeedElemRestriction *rstr, CeedRequest *request) { 18512b730f8bSJeremy L Thompson CeedCall(CeedOperatorCheckReady(op)); 1852eaf62fffSJeremy L Thompson 1853eaf62fffSJeremy L Thompson if (op->LinearAssembleQFunction) { 1854d04bbc78SJeremy L Thompson // Backend version 18552b730f8bSJeremy L Thompson CeedCall(op->LinearAssembleQFunction(op, assembled, rstr, request)); 1856eaf62fffSJeremy L Thompson } else { 1857d04bbc78SJeremy L Thompson // Operator fallback 18581203703bSJeremy L Thompson Ceed ceed; 1859d04bbc78SJeremy L Thompson CeedOperator op_fallback; 1860d04bbc78SJeremy L Thompson 18611203703bSJeremy L Thompson CeedCall(CeedOperatorGetCeed(op, &ceed)); 18622b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetFallback(op, &op_fallback)); 18636574a04fSJeremy L Thompson if (op_fallback) CeedCall(CeedOperatorLinearAssembleQFunction(op_fallback, assembled, rstr, request)); 18641203703bSJeremy L Thompson else return CeedError(ceed, CEED_ERROR_UNSUPPORTED, "Backend does not support CeedOperatorLinearAssembleQFunction"); 186570a7ffb3SJeremy L Thompson } 1866eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1867eaf62fffSJeremy L Thompson } 186870a7ffb3SJeremy L Thompson 186970a7ffb3SJeremy L Thompson /** 1870ca94c3ddSJeremy L Thompson @brief Assemble `CeedQFunction` and store result internally. 18714385fb7fSSebastian Grimberg 1872ea61e9acSJeremy L Thompson Return copied references of stored data to the caller. 1873ea61e9acSJeremy L Thompson Caller is responsible for ownership and destruction of the copied references. 1874ca94c3ddSJeremy L Thompson See also @ref CeedOperatorLinearAssembleQFunction(). 187570a7ffb3SJeremy L Thompson 1876ca94c3ddSJeremy L Thompson Note: If the value of `assembled` or `rstr` passed to this function are non-`NULL` , then it is assumed that they hold valid pointers. 1877c5f45aeaSJeremy L Thompson These objects will be destroyed if `*assembled` or `*rstr` is the only reference to the object. 1878c5f45aeaSJeremy L Thompson 1879ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble `CeedQFunction` 1880ca94c3ddSJeremy L Thompson @param[out] assembled `CeedVector` to store assembled `CeedQFunction` at quadrature points 1881ca94c3ddSJeremy L Thompson @param[out] rstr `CeedElemRestriction` for `CeedVector` containing assembled `CeedQFunction` 1882ca94c3ddSJeremy L Thompson @param[in] request Address of @ref CeedRequest for non-blocking completion, else @ref CEED_REQUEST_IMMEDIATE 188370a7ffb3SJeremy L Thompson 188470a7ffb3SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 188570a7ffb3SJeremy L Thompson 188670a7ffb3SJeremy L Thompson @ref User 188770a7ffb3SJeremy L Thompson **/ 18882b730f8bSJeremy L Thompson int CeedOperatorLinearAssembleQFunctionBuildOrUpdate(CeedOperator op, CeedVector *assembled, CeedElemRestriction *rstr, CeedRequest *request) { 1889b05f7e9fSJeremy L Thompson int (*LinearAssembleQFunctionUpdate)(CeedOperator, CeedVector, CeedElemRestriction, CeedRequest *) = NULL; 1890b05f7e9fSJeremy L Thompson CeedOperator op_assemble = NULL; 1891bb229da9SJeremy L Thompson CeedOperator op_fallback_parent = NULL; 1892b05f7e9fSJeremy L Thompson 18932b730f8bSJeremy L Thompson CeedCall(CeedOperatorCheckReady(op)); 189470a7ffb3SJeremy L Thompson 1895b05f7e9fSJeremy L Thompson // Determine if fallback parent or operator has implementation 1896bb229da9SJeremy L Thompson CeedCall(CeedOperatorGetFallbackParent(op, &op_fallback_parent)); 1897bb229da9SJeremy L Thompson if (op_fallback_parent && op_fallback_parent->LinearAssembleQFunctionUpdate) { 1898b05f7e9fSJeremy L Thompson // -- Backend version for op fallback parent is faster, if it exists 1899bb229da9SJeremy L Thompson LinearAssembleQFunctionUpdate = op_fallback_parent->LinearAssembleQFunctionUpdate; 1900bb229da9SJeremy L Thompson op_assemble = op_fallback_parent; 1901b05f7e9fSJeremy L Thompson } else if (op->LinearAssembleQFunctionUpdate) { 1902b05f7e9fSJeremy L Thompson // -- Backend version for op 1903b05f7e9fSJeremy L Thompson LinearAssembleQFunctionUpdate = op->LinearAssembleQFunctionUpdate; 1904b05f7e9fSJeremy L Thompson op_assemble = op; 1905b05f7e9fSJeremy L Thompson } 1906b05f7e9fSJeremy L Thompson 1907b05f7e9fSJeremy L Thompson // Assemble QFunction 1908b05f7e9fSJeremy L Thompson if (LinearAssembleQFunctionUpdate) { 1909b05f7e9fSJeremy L Thompson // Backend or fallback parent version 19107d5185d7SSebastian Grimberg CeedQFunctionAssemblyData data; 19117d5185d7SSebastian Grimberg bool data_is_setup; 19122efa2d85SJeremy L Thompson CeedVector assembled_vec = NULL; 19132efa2d85SJeremy L Thompson CeedElemRestriction assembled_rstr = NULL; 1914480fae85SJeremy L Thompson 19157d5185d7SSebastian Grimberg CeedCall(CeedOperatorGetQFunctionAssemblyData(op, &data)); 19167d5185d7SSebastian Grimberg CeedCall(CeedQFunctionAssemblyDataIsSetup(data, &data_is_setup)); 19177d5185d7SSebastian Grimberg if (data_is_setup) { 1918d04bbc78SJeremy L Thompson bool update_needed; 1919d04bbc78SJeremy L Thompson 19207d5185d7SSebastian Grimberg CeedCall(CeedQFunctionAssemblyDataGetObjects(data, &assembled_vec, &assembled_rstr)); 19217d5185d7SSebastian Grimberg CeedCall(CeedQFunctionAssemblyDataIsUpdateNeeded(data, &update_needed)); 1922b05f7e9fSJeremy L Thompson if (update_needed) CeedCall(LinearAssembleQFunctionUpdate(op_assemble, assembled_vec, assembled_rstr, request)); 192370a7ffb3SJeremy L Thompson } else { 1924b05f7e9fSJeremy L Thompson CeedCall(CeedOperatorLinearAssembleQFunction(op_assemble, &assembled_vec, &assembled_rstr, request)); 19257d5185d7SSebastian Grimberg CeedCall(CeedQFunctionAssemblyDataSetObjects(data, assembled_vec, assembled_rstr)); 192670a7ffb3SJeremy L Thompson } 19277d5185d7SSebastian Grimberg CeedCall(CeedQFunctionAssemblyDataSetUpdateNeeded(data, false)); 19282efa2d85SJeremy L Thompson 1929d04bbc78SJeremy L Thompson // Copy reference from internally held copy 19302b730f8bSJeremy L Thompson CeedCall(CeedVectorReferenceCopy(assembled_vec, assembled)); 19312b730f8bSJeremy L Thompson CeedCall(CeedElemRestrictionReferenceCopy(assembled_rstr, rstr)); 1932c5f45aeaSJeremy L Thompson CeedCall(CeedVectorDestroy(&assembled_vec)); 19332b730f8bSJeremy L Thompson CeedCall(CeedElemRestrictionDestroy(&assembled_rstr)); 193470a7ffb3SJeremy L Thompson } else { 1935d04bbc78SJeremy L Thompson // Operator fallback 19361203703bSJeremy L Thompson Ceed ceed; 1937d04bbc78SJeremy L Thompson CeedOperator op_fallback; 1938d04bbc78SJeremy L Thompson 19391203703bSJeremy L Thompson CeedCall(CeedOperatorGetCeed(op, &ceed)); 19402b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetFallback(op, &op_fallback)); 19416574a04fSJeremy L Thompson if (op_fallback) CeedCall(CeedOperatorLinearAssembleQFunctionBuildOrUpdate(op_fallback, assembled, rstr, request)); 19421203703bSJeremy L Thompson else return CeedError(ceed, CEED_ERROR_UNSUPPORTED, "Backend does not support CeedOperatorLinearAssembleQFunctionUpdate"); 194370a7ffb3SJeremy L Thompson } 194470a7ffb3SJeremy L Thompson return CEED_ERROR_SUCCESS; 1945eaf62fffSJeremy L Thompson } 1946eaf62fffSJeremy L Thompson 1947eaf62fffSJeremy L Thompson /** 1948ca94c3ddSJeremy L Thompson @brief Assemble the diagonal of a square linear `CeedOperator` 1949eaf62fffSJeremy L Thompson 1950ca94c3ddSJeremy L Thompson This overwrites a `CeedVector` with the diagonal of a linear `CeedOperator`. 1951eaf62fffSJeremy L Thompson 1952ca94c3ddSJeremy L Thompson Note: Currently only non-composite `CeedOperator` with a single field and composite `CeedOperator` with single field sub-operators are supported. 1953eaf62fffSJeremy L Thompson 1954ca94c3ddSJeremy L Thompson Note: Calling this function asserts that setup is complete and sets the `CeedOperator` as immutable. 1955f04ea552SJeremy L Thompson 1956ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble `CeedQFunction` 1957ca94c3ddSJeremy L Thompson @param[out] assembled `CeedVector` to store assembled `CeedOperator` diagonal 1958ca94c3ddSJeremy L Thompson @param[in] request Address of @ref CeedRequest for non-blocking completion, else @ref CEED_REQUEST_IMMEDIATE 1959eaf62fffSJeremy L Thompson 1960eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 1961eaf62fffSJeremy L Thompson 1962eaf62fffSJeremy L Thompson @ref User 1963eaf62fffSJeremy L Thompson **/ 19642b730f8bSJeremy L Thompson int CeedOperatorLinearAssembleDiagonal(CeedOperator op, CeedVector assembled, CeedRequest *request) { 1965f3d47e36SJeremy L Thompson bool is_composite; 19661c66c397SJeremy L Thompson CeedSize input_size = 0, output_size = 0; 19671203703bSJeremy L Thompson Ceed ceed; 19681c66c397SJeremy L Thompson 19691203703bSJeremy L Thompson CeedCall(CeedOperatorGetCeed(op, &ceed)); 19702b730f8bSJeremy L Thompson CeedCall(CeedOperatorCheckReady(op)); 1971f3d47e36SJeremy L Thompson CeedCall(CeedOperatorIsComposite(op, &is_composite)); 1972eaf62fffSJeremy L Thompson 19732b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetActiveVectorLengths(op, &input_size, &output_size)); 19741203703bSJeremy L Thompson CeedCheck(input_size == output_size, ceed, CEED_ERROR_DIMENSION, "Operator must be square"); 1975c9366a6bSJeremy L Thompson 1976f3d47e36SJeremy L Thompson // Early exit for empty operator 1977f3d47e36SJeremy L Thompson if (!is_composite) { 1978f3d47e36SJeremy L Thompson CeedInt num_elem = 0; 1979f3d47e36SJeremy L Thompson 1980f3d47e36SJeremy L Thompson CeedCall(CeedOperatorGetNumElements(op, &num_elem)); 1981f3d47e36SJeremy L Thompson if (num_elem == 0) return CEED_ERROR_SUCCESS; 1982f3d47e36SJeremy L Thompson } 1983f3d47e36SJeremy L Thompson 1984eaf62fffSJeremy L Thompson if (op->LinearAssembleDiagonal) { 1985d04bbc78SJeremy L Thompson // Backend version 19862b730f8bSJeremy L Thompson CeedCall(op->LinearAssembleDiagonal(op, assembled, request)); 1987eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1988eaf62fffSJeremy L Thompson } else if (op->LinearAssembleAddDiagonal) { 1989d04bbc78SJeremy L Thompson // Backend version with zeroing first 19902b730f8bSJeremy L Thompson CeedCall(CeedVectorSetValue(assembled, 0.0)); 19912b730f8bSJeremy L Thompson CeedCall(op->LinearAssembleAddDiagonal(op, assembled, request)); 1992eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 1993eaf62fffSJeremy L Thompson } else { 1994d04bbc78SJeremy L Thompson // Operator fallback 1995d04bbc78SJeremy L Thompson CeedOperator op_fallback; 1996d04bbc78SJeremy L Thompson 19972b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetFallback(op, &op_fallback)); 1998d04bbc78SJeremy L Thompson if (op_fallback) { 19992b730f8bSJeremy L Thompson CeedCall(CeedOperatorLinearAssembleDiagonal(op_fallback, assembled, request)); 2000eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2001eaf62fffSJeremy L Thompson } 2002eaf62fffSJeremy L Thompson } 2003eaf62fffSJeremy L Thompson // Default interface implementation 20042b730f8bSJeremy L Thompson CeedCall(CeedVectorSetValue(assembled, 0.0)); 20052b730f8bSJeremy L Thompson CeedCall(CeedOperatorLinearAssembleAddDiagonal(op, assembled, request)); 2006eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2007eaf62fffSJeremy L Thompson } 2008eaf62fffSJeremy L Thompson 2009eaf62fffSJeremy L Thompson /** 2010ca94c3ddSJeremy L Thompson @brief Assemble the diagonal of a square linear `CeedOperator`. 2011eaf62fffSJeremy L Thompson 2012ca94c3ddSJeremy L Thompson This sums into a `CeedVector` the diagonal of a linear `CeedOperator`. 2013eaf62fffSJeremy L Thompson 2014ca94c3ddSJeremy L Thompson Note: Currently only non-composite `CeedOperator` with a single field and composite `CeedOperator` with single field sub-operators are supported. 2015eaf62fffSJeremy L Thompson 2016ea61e9acSJeremy L Thompson Note: Calling this function asserts that setup is complete and sets the CeedOperator as immutable. 2017f04ea552SJeremy L Thompson 2018ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble `CeedQFunction` 2019ca94c3ddSJeremy L Thompson @param[out] assembled `CeedVector` to store assembled `CeedOperator` diagonal 2020ca94c3ddSJeremy L Thompson @param[in] request Address of @ref CeedRequest for non-blocking completion, else @ref CEED_REQUEST_IMMEDIATE 2021eaf62fffSJeremy L Thompson 2022eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 2023eaf62fffSJeremy L Thompson 2024eaf62fffSJeremy L Thompson @ref User 2025eaf62fffSJeremy L Thompson **/ 20262b730f8bSJeremy L Thompson int CeedOperatorLinearAssembleAddDiagonal(CeedOperator op, CeedVector assembled, CeedRequest *request) { 2027f3d47e36SJeremy L Thompson bool is_composite; 20281c66c397SJeremy L Thompson CeedSize input_size = 0, output_size = 0; 20291203703bSJeremy L Thompson Ceed ceed; 20301c66c397SJeremy L Thompson 20311203703bSJeremy L Thompson CeedCall(CeedOperatorGetCeed(op, &ceed)); 20322b730f8bSJeremy L Thompson CeedCall(CeedOperatorCheckReady(op)); 2033f3d47e36SJeremy L Thompson CeedCall(CeedOperatorIsComposite(op, &is_composite)); 2034eaf62fffSJeremy L Thompson 20352b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetActiveVectorLengths(op, &input_size, &output_size)); 20361203703bSJeremy L Thompson CeedCheck(input_size == output_size, ceed, CEED_ERROR_DIMENSION, "Operator must be square"); 2037c9366a6bSJeremy L Thompson 2038f3d47e36SJeremy L Thompson // Early exit for empty operator 2039f3d47e36SJeremy L Thompson if (!is_composite) { 2040f3d47e36SJeremy L Thompson CeedInt num_elem = 0; 2041f3d47e36SJeremy L Thompson 2042f3d47e36SJeremy L Thompson CeedCall(CeedOperatorGetNumElements(op, &num_elem)); 2043f3d47e36SJeremy L Thompson if (num_elem == 0) return CEED_ERROR_SUCCESS; 2044f3d47e36SJeremy L Thompson } 2045f3d47e36SJeremy L Thompson 2046eaf62fffSJeremy L Thompson if (op->LinearAssembleAddDiagonal) { 2047d04bbc78SJeremy L Thompson // Backend version 20482b730f8bSJeremy L Thompson CeedCall(op->LinearAssembleAddDiagonal(op, assembled, request)); 2049eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2050eaf62fffSJeremy L Thompson } else { 2051d04bbc78SJeremy L Thompson // Operator fallback 2052d04bbc78SJeremy L Thompson CeedOperator op_fallback; 2053d04bbc78SJeremy L Thompson 20542b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetFallback(op, &op_fallback)); 2055d04bbc78SJeremy L Thompson if (op_fallback) { 20562b730f8bSJeremy L Thompson CeedCall(CeedOperatorLinearAssembleAddDiagonal(op_fallback, assembled, request)); 2057eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2058eaf62fffSJeremy L Thompson } 2059eaf62fffSJeremy L Thompson } 2060eaf62fffSJeremy L Thompson // Default interface implementation 2061eaf62fffSJeremy L Thompson if (is_composite) { 20622b730f8bSJeremy L Thompson CeedCall(CeedCompositeOperatorLinearAssembleAddDiagonal(op, request, false, assembled)); 2063eaf62fffSJeremy L Thompson } else { 2064f3bd9308SJeremy L Thompson CeedCall(CeedSingleOperatorLinearAssembleAddDiagonal(op, request, false, assembled)); 2065eaf62fffSJeremy L Thompson } 2066d04bbc78SJeremy L Thompson return CEED_ERROR_SUCCESS; 2067eaf62fffSJeremy L Thompson } 2068eaf62fffSJeremy L Thompson 2069eaf62fffSJeremy L Thompson /** 2070ca94c3ddSJeremy L Thompson @brief Fully assemble the point-block diagonal pattern of a linear `CeedOperator`. 207101f0e615SJames Wright 2072ca94c3ddSJeremy L Thompson Expected to be used in conjunction with @ref CeedOperatorLinearAssemblePointBlockDiagonal(). 207301f0e615SJames Wright 2074ca94c3ddSJeremy L Thompson The assembly routines use coordinate format, with `num_entries` tuples of the form `(i, j, value)` which indicate that value should be added to the matrix in entry `(i, j)`. 2075ca94c3ddSJeremy L Thompson Note that the `(i, j)` pairs are unique. 2076ca94c3ddSJeremy L Thompson This function returns the number of entries and their `(i, j)` locations, while @ref CeedOperatorLinearAssemblePointBlockDiagonal() provides the values in the same ordering. 207701f0e615SJames Wright 207801f0e615SJames Wright This will generally be slow unless your operator is low-order. 207901f0e615SJames Wright 2080ca94c3ddSJeremy L Thompson Note: Calling this function asserts that setup is complete and sets the `CeedOperator` as immutable. 208101f0e615SJames Wright 2082ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble 208301f0e615SJames Wright @param[out] num_entries Number of entries in coordinate nonzero pattern 208401f0e615SJames Wright @param[out] rows Row number for each entry 208501f0e615SJames Wright @param[out] cols Column number for each entry 208601f0e615SJames Wright 208701f0e615SJames Wright @ref User 208801f0e615SJames Wright **/ 208901f0e615SJames Wright int CeedOperatorLinearAssemblePointBlockDiagonalSymbolic(CeedOperator op, CeedSize *num_entries, CeedInt **rows, CeedInt **cols) { 209001f0e615SJames Wright Ceed ceed; 209101f0e615SJames Wright bool is_composite; 209201f0e615SJames Wright CeedInt num_active_components, num_sub_operators; 209301f0e615SJames Wright CeedOperator *sub_operators; 209401f0e615SJames Wright 209501f0e615SJames Wright CeedCall(CeedOperatorGetCeed(op, &ceed)); 209601f0e615SJames Wright CeedCall(CeedOperatorIsComposite(op, &is_composite)); 209701f0e615SJames Wright 209801f0e615SJames Wright CeedSize input_size = 0, output_size = 0; 209901f0e615SJames Wright CeedCall(CeedOperatorGetActiveVectorLengths(op, &input_size, &output_size)); 210001f0e615SJames Wright CeedCheck(input_size == output_size, ceed, CEED_ERROR_DIMENSION, "Operator must be square"); 210101f0e615SJames Wright 210201f0e615SJames Wright if (is_composite) { 210301f0e615SJames Wright CeedCall(CeedCompositeOperatorGetNumSub(op, &num_sub_operators)); 210401f0e615SJames Wright CeedCall(CeedCompositeOperatorGetSubList(op, &sub_operators)); 210501f0e615SJames Wright } else { 210601f0e615SJames Wright sub_operators = &op; 210701f0e615SJames Wright num_sub_operators = 1; 210801f0e615SJames Wright } 210901f0e615SJames Wright 2110506b1a0cSSebastian Grimberg // Verify operator can be assembled correctly 2111506b1a0cSSebastian Grimberg { 211201f0e615SJames Wright CeedOperatorAssemblyData data; 2113506b1a0cSSebastian Grimberg CeedInt num_active_elem_rstrs, comp_stride; 211401f0e615SJames Wright CeedElemRestriction *active_elem_rstrs; 211501f0e615SJames Wright 211601f0e615SJames Wright // Get initial values to check against 211701f0e615SJames Wright CeedCall(CeedOperatorGetOperatorAssemblyData(sub_operators[0], &data)); 2118506b1a0cSSebastian Grimberg CeedCall(CeedOperatorAssemblyDataGetElemRestrictions(data, &num_active_elem_rstrs, &active_elem_rstrs, NULL, NULL)); 211901f0e615SJames Wright CeedCall(CeedElemRestrictionGetCompStride(active_elem_rstrs[0], &comp_stride)); 212001f0e615SJames Wright CeedCall(CeedElemRestrictionGetNumComponents(active_elem_rstrs[0], &num_active_components)); 212101f0e615SJames Wright 2122506b1a0cSSebastian Grimberg // Verify that all active element restrictions have same component stride and number of components 212301f0e615SJames Wright for (CeedInt k = 0; k < num_sub_operators; k++) { 212401f0e615SJames Wright CeedCall(CeedOperatorGetOperatorAssemblyData(sub_operators[k], &data)); 2125506b1a0cSSebastian Grimberg CeedCall(CeedOperatorAssemblyDataGetElemRestrictions(data, &num_active_elem_rstrs, &active_elem_rstrs, NULL, NULL)); 212601f0e615SJames Wright for (CeedInt i = 0; i < num_active_elem_rstrs; i++) { 2127506b1a0cSSebastian Grimberg CeedInt comp_stride_sub, num_active_components_sub; 2128506b1a0cSSebastian Grimberg 212901f0e615SJames Wright CeedCall(CeedElemRestrictionGetCompStride(active_elem_rstrs[i], &comp_stride_sub)); 213001f0e615SJames Wright CeedCheck(comp_stride == comp_stride_sub, ceed, CEED_ERROR_DIMENSION, 213101f0e615SJames Wright "Active element restrictions must have the same component stride: %d vs %d", comp_stride, comp_stride_sub); 213201f0e615SJames Wright CeedCall(CeedElemRestrictionGetNumComponents(active_elem_rstrs[i], &num_active_components_sub)); 213301f0e615SJames Wright CeedCheck(num_active_components == num_active_components_sub, ceed, CEED_ERROR_INCOMPATIBLE, 21343f08121cSJeremy L Thompson "All suboperators must have the same number of output components." 21353f08121cSJeremy L Thompson " Previous: %" CeedInt_FMT " Current: %" CeedInt_FMT, 21363f08121cSJeremy L Thompson num_active_components, num_active_components_sub); 213701f0e615SJames Wright } 213801f0e615SJames Wright } 213901f0e615SJames Wright } 214001f0e615SJames Wright *num_entries = input_size * num_active_components; 214101f0e615SJames Wright CeedCall(CeedCalloc(*num_entries, rows)); 214201f0e615SJames Wright CeedCall(CeedCalloc(*num_entries, cols)); 214301f0e615SJames Wright 214401f0e615SJames Wright for (CeedInt o = 0; o < num_sub_operators; o++) { 2145506b1a0cSSebastian Grimberg CeedElemRestriction active_elem_rstr, point_block_active_elem_rstr; 214601f0e615SJames Wright CeedInt comp_stride, num_elem, elem_size; 2147506b1a0cSSebastian Grimberg const CeedInt *offsets, *point_block_offsets; 214801f0e615SJames Wright 214901f0e615SJames Wright CeedCall(CeedOperatorGetActiveElemRestriction(sub_operators[o], &active_elem_rstr)); 215001f0e615SJames Wright CeedCall(CeedElemRestrictionGetCompStride(active_elem_rstr, &comp_stride)); 215101f0e615SJames Wright CeedCall(CeedElemRestrictionGetNumElements(active_elem_rstr, &num_elem)); 215201f0e615SJames Wright CeedCall(CeedElemRestrictionGetElementSize(active_elem_rstr, &elem_size)); 215301f0e615SJames Wright CeedCall(CeedElemRestrictionGetOffsets(active_elem_rstr, CEED_MEM_HOST, &offsets)); 215401f0e615SJames Wright 2155506b1a0cSSebastian Grimberg CeedCall(CeedOperatorCreateActivePointBlockRestriction(active_elem_rstr, &point_block_active_elem_rstr)); 2156506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionGetOffsets(point_block_active_elem_rstr, CEED_MEM_HOST, &point_block_offsets)); 215701f0e615SJames Wright 215801f0e615SJames Wright for (CeedSize i = 0; i < num_elem * elem_size; i++) { 215901f0e615SJames Wright for (CeedInt c_out = 0; c_out < num_active_components; c_out++) { 216001f0e615SJames Wright for (CeedInt c_in = 0; c_in < num_active_components; c_in++) { 2161506b1a0cSSebastian Grimberg (*rows)[point_block_offsets[i] + c_out * num_active_components + c_in] = offsets[i] + c_out * comp_stride; 2162506b1a0cSSebastian Grimberg (*cols)[point_block_offsets[i] + c_out * num_active_components + c_in] = offsets[i] + c_in * comp_stride; 216301f0e615SJames Wright } 216401f0e615SJames Wright } 216501f0e615SJames Wright } 216601f0e615SJames Wright 216701f0e615SJames Wright CeedCall(CeedElemRestrictionRestoreOffsets(active_elem_rstr, &offsets)); 2168506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionRestoreOffsets(point_block_active_elem_rstr, &point_block_offsets)); 2169506b1a0cSSebastian Grimberg CeedCall(CeedElemRestrictionDestroy(&point_block_active_elem_rstr)); 217001f0e615SJames Wright } 217101f0e615SJames Wright return CEED_ERROR_SUCCESS; 217201f0e615SJames Wright } 217301f0e615SJames Wright 217401f0e615SJames Wright /** 2175ca94c3ddSJeremy L Thompson @brief Assemble the point block diagonal of a square linear `CeedOperator`. 2176eaf62fffSJeremy L Thompson 2177ca94c3ddSJeremy L Thompson This overwrites a `CeedVector` with the point block diagonal of a linear `CeedOperator`. 2178eaf62fffSJeremy L Thompson 2179ca94c3ddSJeremy L Thompson Note: Currently only non-composite `CeedOperator` with a single field and composite `CeedOperator` with single field sub-operators are supported. 2180eaf62fffSJeremy L Thompson 2181ca94c3ddSJeremy L Thompson Note: Calling this function asserts that setup is complete and sets the `CeedOperator` as immutable. 2182f04ea552SJeremy L Thompson 2183ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble `CeedQFunction` 2184ca94c3ddSJeremy L Thompson @param[out] assembled `CeedVector` to store assembled `CeedOperator` point block diagonal, provided in row-major form with an `num_comp * num_comp` block at each node. 2185ca94c3ddSJeremy L Thompson The dimensions of this vector are derived from the active vector for the `CeedOperator`. 2186ca94c3ddSJeremy L Thompson The array has shape `[nodes, component out, component in]`. 2187ca94c3ddSJeremy L Thompson @param[in] request Address of @ref CeedRequest for non-blocking completion, else @ref CEED_REQUEST_IMMEDIATE 2188eaf62fffSJeremy L Thompson 2189eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 2190eaf62fffSJeremy L Thompson 2191eaf62fffSJeremy L Thompson @ref User 2192eaf62fffSJeremy L Thompson **/ 21932b730f8bSJeremy L Thompson int CeedOperatorLinearAssemblePointBlockDiagonal(CeedOperator op, CeedVector assembled, CeedRequest *request) { 2194f3d47e36SJeremy L Thompson bool is_composite; 21951c66c397SJeremy L Thompson CeedSize input_size = 0, output_size = 0; 21961203703bSJeremy L Thompson Ceed ceed; 21971c66c397SJeremy L Thompson 21981203703bSJeremy L Thompson CeedCall(CeedOperatorGetCeed(op, &ceed)); 21992b730f8bSJeremy L Thompson CeedCall(CeedOperatorCheckReady(op)); 2200f3d47e36SJeremy L Thompson CeedCall(CeedOperatorIsComposite(op, &is_composite)); 2201eaf62fffSJeremy L Thompson 22022b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetActiveVectorLengths(op, &input_size, &output_size)); 22031203703bSJeremy L Thompson CeedCheck(input_size == output_size, ceed, CEED_ERROR_DIMENSION, "Operator must be square"); 2204c9366a6bSJeremy L Thompson 2205f3d47e36SJeremy L Thompson // Early exit for empty operator 2206f3d47e36SJeremy L Thompson if (!is_composite) { 2207f3d47e36SJeremy L Thompson CeedInt num_elem = 0; 2208f3d47e36SJeremy L Thompson 2209f3d47e36SJeremy L Thompson CeedCall(CeedOperatorGetNumElements(op, &num_elem)); 2210f3d47e36SJeremy L Thompson if (num_elem == 0) return CEED_ERROR_SUCCESS; 2211f3d47e36SJeremy L Thompson } 2212f3d47e36SJeremy L Thompson 2213eaf62fffSJeremy L Thompson if (op->LinearAssemblePointBlockDiagonal) { 2214d04bbc78SJeremy L Thompson // Backend version 22152b730f8bSJeremy L Thompson CeedCall(op->LinearAssemblePointBlockDiagonal(op, assembled, request)); 2216eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2217eaf62fffSJeremy L Thompson } else if (op->LinearAssembleAddPointBlockDiagonal) { 2218d04bbc78SJeremy L Thompson // Backend version with zeroing first 22192b730f8bSJeremy L Thompson CeedCall(CeedVectorSetValue(assembled, 0.0)); 22202b730f8bSJeremy L Thompson CeedCall(CeedOperatorLinearAssembleAddPointBlockDiagonal(op, assembled, request)); 2221eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2222eaf62fffSJeremy L Thompson } else { 2223d04bbc78SJeremy L Thompson // Operator fallback 2224d04bbc78SJeremy L Thompson CeedOperator op_fallback; 2225d04bbc78SJeremy L Thompson 22262b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetFallback(op, &op_fallback)); 2227d04bbc78SJeremy L Thompson if (op_fallback) { 22282b730f8bSJeremy L Thompson CeedCall(CeedOperatorLinearAssemblePointBlockDiagonal(op_fallback, assembled, request)); 2229eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2230eaf62fffSJeremy L Thompson } 2231eaf62fffSJeremy L Thompson } 2232eaf62fffSJeremy L Thompson // Default interface implementation 22332b730f8bSJeremy L Thompson CeedCall(CeedVectorSetValue(assembled, 0.0)); 22342b730f8bSJeremy L Thompson CeedCall(CeedOperatorLinearAssembleAddPointBlockDiagonal(op, assembled, request)); 2235eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2236eaf62fffSJeremy L Thompson } 2237eaf62fffSJeremy L Thompson 2238eaf62fffSJeremy L Thompson /** 2239ca94c3ddSJeremy L Thompson @brief Assemble the point block diagonal of a square linear `CeedOperator`. 2240eaf62fffSJeremy L Thompson 2241ca94c3ddSJeremy L Thompson This sums into a `CeedVector` with the point block diagonal of a linear `CeedOperator`. 2242eaf62fffSJeremy L Thompson 2243ca94c3ddSJeremy L Thompson Note: Currently only non-composite `CeedOperator` with a single field and composite `CeedOperator` with single field sub-operators are supported. 2244eaf62fffSJeremy L Thompson 2245ca94c3ddSJeremy L Thompson Note: Calling this function asserts that setup is complete and sets the `CeedOperator` as immutable. 2246f04ea552SJeremy L Thompson 2247ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble `CeedQFunction` 2248ca94c3ddSJeremy L Thompson @param[out] assembled `CeedVector` to store assembled CeedOperator point block diagonal, provided in row-major form with an `num_comp * num_comp` block at each node. 2249ca94c3ddSJeremy L Thompson The dimensions of this vector are derived from the active vector for the `CeedOperator`. 2250ca94c3ddSJeremy L Thompson The array has shape `[nodes, component out, component in]`. 2251ca94c3ddSJeremy L Thompson @param[in] request Address of @ref CeedRequest for non-blocking completion, else @ref CEED_REQUEST_IMMEDIATE 2252eaf62fffSJeremy L Thompson 2253eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 2254eaf62fffSJeremy L Thompson 2255eaf62fffSJeremy L Thompson @ref User 2256eaf62fffSJeremy L Thompson **/ 22572b730f8bSJeremy L Thompson int CeedOperatorLinearAssembleAddPointBlockDiagonal(CeedOperator op, CeedVector assembled, CeedRequest *request) { 2258f3d47e36SJeremy L Thompson bool is_composite; 22591c66c397SJeremy L Thompson CeedSize input_size = 0, output_size = 0; 22601203703bSJeremy L Thompson Ceed ceed; 22611c66c397SJeremy L Thompson 22621203703bSJeremy L Thompson CeedCall(CeedOperatorGetCeed(op, &ceed)); 22632b730f8bSJeremy L Thompson CeedCall(CeedOperatorCheckReady(op)); 2264f3d47e36SJeremy L Thompson CeedCall(CeedOperatorIsComposite(op, &is_composite)); 2265eaf62fffSJeremy L Thompson 22662b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetActiveVectorLengths(op, &input_size, &output_size)); 22671203703bSJeremy L Thompson CeedCheck(input_size == output_size, ceed, CEED_ERROR_DIMENSION, "Operator must be square"); 2268c9366a6bSJeremy L Thompson 2269f3d47e36SJeremy L Thompson // Early exit for empty operator 2270f3d47e36SJeremy L Thompson if (!is_composite) { 2271f3d47e36SJeremy L Thompson CeedInt num_elem = 0; 2272f3d47e36SJeremy L Thompson 2273f3d47e36SJeremy L Thompson CeedCall(CeedOperatorGetNumElements(op, &num_elem)); 2274f3d47e36SJeremy L Thompson if (num_elem == 0) return CEED_ERROR_SUCCESS; 2275f3d47e36SJeremy L Thompson } 2276f3d47e36SJeremy L Thompson 2277eaf62fffSJeremy L Thompson if (op->LinearAssembleAddPointBlockDiagonal) { 2278d04bbc78SJeremy L Thompson // Backend version 22792b730f8bSJeremy L Thompson CeedCall(op->LinearAssembleAddPointBlockDiagonal(op, assembled, request)); 2280eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2281eaf62fffSJeremy L Thompson } else { 2282d04bbc78SJeremy L Thompson // Operator fallback 2283d04bbc78SJeremy L Thompson CeedOperator op_fallback; 2284d04bbc78SJeremy L Thompson 22852b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetFallback(op, &op_fallback)); 2286d04bbc78SJeremy L Thompson if (op_fallback) { 22872b730f8bSJeremy L Thompson CeedCall(CeedOperatorLinearAssembleAddPointBlockDiagonal(op_fallback, assembled, request)); 2288eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2289eaf62fffSJeremy L Thompson } 2290eaf62fffSJeremy L Thompson } 2291ea61e9acSJeremy L Thompson // Default interface implementation 2292eaf62fffSJeremy L Thompson if (is_composite) { 22932b730f8bSJeremy L Thompson CeedCall(CeedCompositeOperatorLinearAssembleAddDiagonal(op, request, true, assembled)); 2294eaf62fffSJeremy L Thompson } else { 2295f3bd9308SJeremy L Thompson CeedCall(CeedSingleOperatorLinearAssembleAddDiagonal(op, request, true, assembled)); 2296eaf62fffSJeremy L Thompson } 2297d04bbc78SJeremy L Thompson return CEED_ERROR_SUCCESS; 2298eaf62fffSJeremy L Thompson } 2299eaf62fffSJeremy L Thompson 2300eaf62fffSJeremy L Thompson /** 2301ca94c3ddSJeremy L Thompson @brief Fully assemble the nonzero pattern of a linear `CeedOperator`. 2302eaf62fffSJeremy L Thompson 2303ca94c3ddSJeremy L Thompson Expected to be used in conjunction with @ref CeedOperatorLinearAssemble(). 2304eaf62fffSJeremy L Thompson 2305ca94c3ddSJeremy L Thompson The assembly routines use coordinate format, with `num_entries` tuples of the form `(i, j, value)` which indicate that value should be added to the matrix in entry `(i, j)`. 2306ca94c3ddSJeremy L Thompson Note that the `(i, j)` pairs are not unique and may repeat. 2307ca94c3ddSJeremy L Thompson This function returns the number of entries and their `(i, j)` locations, while @ref CeedOperatorLinearAssemble() provides the values in the same ordering. 2308eaf62fffSJeremy L Thompson 2309eaf62fffSJeremy L Thompson This will generally be slow unless your operator is low-order. 2310eaf62fffSJeremy L Thompson 2311ca94c3ddSJeremy L Thompson Note: Calling this function asserts that setup is complete and sets the `CeedOperator` as immutable. 2312f04ea552SJeremy L Thompson 2313ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble 2314eaf62fffSJeremy L Thompson @param[out] num_entries Number of entries in coordinate nonzero pattern 2315eaf62fffSJeremy L Thompson @param[out] rows Row number for each entry 2316eaf62fffSJeremy L Thompson @param[out] cols Column number for each entry 2317eaf62fffSJeremy L Thompson 2318eaf62fffSJeremy L Thompson @ref User 2319eaf62fffSJeremy L Thompson **/ 23202b730f8bSJeremy L Thompson int CeedOperatorLinearAssembleSymbolic(CeedOperator op, CeedSize *num_entries, CeedInt **rows, CeedInt **cols) { 23211c66c397SJeremy L Thompson bool is_composite; 23221c66c397SJeremy L Thompson CeedInt num_suboperators, offset = 0; 2323b94338b9SJed Brown CeedSize single_entries; 2324eaf62fffSJeremy L Thompson CeedOperator *sub_operators; 23251c66c397SJeremy L Thompson 23262b730f8bSJeremy L Thompson CeedCall(CeedOperatorCheckReady(op)); 2327f3d47e36SJeremy L Thompson CeedCall(CeedOperatorIsComposite(op, &is_composite)); 2328eaf62fffSJeremy L Thompson 2329eaf62fffSJeremy L Thompson if (op->LinearAssembleSymbolic) { 2330d04bbc78SJeremy L Thompson // Backend version 23312b730f8bSJeremy L Thompson CeedCall(op->LinearAssembleSymbolic(op, num_entries, rows, cols)); 2332eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2333eaf62fffSJeremy L Thompson } else { 2334d04bbc78SJeremy L Thompson // Operator fallback 2335d04bbc78SJeremy L Thompson CeedOperator op_fallback; 2336d04bbc78SJeremy L Thompson 23372b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetFallback(op, &op_fallback)); 2338d04bbc78SJeremy L Thompson if (op_fallback) { 23392b730f8bSJeremy L Thompson CeedCall(CeedOperatorLinearAssembleSymbolic(op_fallback, num_entries, rows, cols)); 2340eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2341eaf62fffSJeremy L Thompson } 2342eaf62fffSJeremy L Thompson } 2343eaf62fffSJeremy L Thompson 2344eaf62fffSJeremy L Thompson // Default interface implementation 2345eaf62fffSJeremy L Thompson 2346506b1a0cSSebastian Grimberg // Count entries and allocate rows, cols arrays 2347eaf62fffSJeremy L Thompson *num_entries = 0; 2348eaf62fffSJeremy L Thompson if (is_composite) { 2349c6ebc35dSJeremy L Thompson CeedCall(CeedCompositeOperatorGetNumSub(op, &num_suboperators)); 2350c6ebc35dSJeremy L Thompson CeedCall(CeedCompositeOperatorGetSubList(op, &sub_operators)); 235192ae7e47SJeremy L Thompson for (CeedInt k = 0; k < num_suboperators; ++k) { 23522b730f8bSJeremy L Thompson CeedCall(CeedSingleOperatorAssemblyCountEntries(sub_operators[k], &single_entries)); 2353eaf62fffSJeremy L Thompson *num_entries += single_entries; 2354eaf62fffSJeremy L Thompson } 2355eaf62fffSJeremy L Thompson } else { 23562b730f8bSJeremy L Thompson CeedCall(CeedSingleOperatorAssemblyCountEntries(op, &single_entries)); 2357eaf62fffSJeremy L Thompson *num_entries += single_entries; 2358eaf62fffSJeremy L Thompson } 23592b730f8bSJeremy L Thompson CeedCall(CeedCalloc(*num_entries, rows)); 23602b730f8bSJeremy L Thompson CeedCall(CeedCalloc(*num_entries, cols)); 2361eaf62fffSJeremy L Thompson 2362506b1a0cSSebastian Grimberg // Assemble nonzero locations 2363eaf62fffSJeremy L Thompson if (is_composite) { 2364c6ebc35dSJeremy L Thompson CeedCall(CeedCompositeOperatorGetNumSub(op, &num_suboperators)); 2365c6ebc35dSJeremy L Thompson CeedCall(CeedCompositeOperatorGetSubList(op, &sub_operators)); 236692ae7e47SJeremy L Thompson for (CeedInt k = 0; k < num_suboperators; ++k) { 23672b730f8bSJeremy L Thompson CeedCall(CeedSingleOperatorAssembleSymbolic(sub_operators[k], offset, *rows, *cols)); 23682b730f8bSJeremy L Thompson CeedCall(CeedSingleOperatorAssemblyCountEntries(sub_operators[k], &single_entries)); 2369eaf62fffSJeremy L Thompson offset += single_entries; 2370eaf62fffSJeremy L Thompson } 2371eaf62fffSJeremy L Thompson } else { 23722b730f8bSJeremy L Thompson CeedCall(CeedSingleOperatorAssembleSymbolic(op, offset, *rows, *cols)); 2373eaf62fffSJeremy L Thompson } 2374eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2375eaf62fffSJeremy L Thompson } 2376eaf62fffSJeremy L Thompson 2377eaf62fffSJeremy L Thompson /** 2378eaf62fffSJeremy L Thompson @brief Fully assemble the nonzero entries of a linear operator. 2379eaf62fffSJeremy L Thompson 2380ca94c3ddSJeremy L Thompson Expected to be used in conjunction with @ref CeedOperatorLinearAssembleSymbolic(). 2381eaf62fffSJeremy L Thompson 2382ca94c3ddSJeremy L Thompson The assembly routines use coordinate format, with `num_entries` tuples of the form `(i, j, value)` which indicate that value should be added to the matrix in entry `(i, j)`. 2383ca94c3ddSJeremy L Thompson Note that the `(i, j)` pairs are not unique and may repeat. 2384ca94c3ddSJeremy L Thompson This function returns the values of the nonzero entries to be added, their `(i, j)` locations are provided by @ref CeedOperatorLinearAssembleSymbolic(). 2385eaf62fffSJeremy L Thompson 2386eaf62fffSJeremy L Thompson This will generally be slow unless your operator is low-order. 2387eaf62fffSJeremy L Thompson 2388ca94c3ddSJeremy L Thompson Note: Calling this function asserts that setup is complete and sets the `CeedOperator` as immutable. 2389f04ea552SJeremy L Thompson 2390ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to assemble 2391eaf62fffSJeremy L Thompson @param[out] values Values to assemble into matrix 2392eaf62fffSJeremy L Thompson 2393eaf62fffSJeremy L Thompson @ref User 2394eaf62fffSJeremy L Thompson **/ 2395eaf62fffSJeremy L Thompson int CeedOperatorLinearAssemble(CeedOperator op, CeedVector values) { 23961c66c397SJeremy L Thompson bool is_composite; 23971c66c397SJeremy L Thompson CeedInt num_suboperators, offset = 0; 2398b94338b9SJed Brown CeedSize single_entries = 0; 2399eaf62fffSJeremy L Thompson CeedOperator *sub_operators; 24001c66c397SJeremy L Thompson 24012b730f8bSJeremy L Thompson CeedCall(CeedOperatorCheckReady(op)); 2402f3d47e36SJeremy L Thompson CeedCall(CeedOperatorIsComposite(op, &is_composite)); 2403f3d47e36SJeremy L Thompson 2404f3d47e36SJeremy L Thompson // Early exit for empty operator 2405f3d47e36SJeremy L Thompson if (!is_composite) { 2406f3d47e36SJeremy L Thompson CeedInt num_elem = 0; 2407f3d47e36SJeremy L Thompson 2408f3d47e36SJeremy L Thompson CeedCall(CeedOperatorGetNumElements(op, &num_elem)); 2409f3d47e36SJeremy L Thompson if (num_elem == 0) return CEED_ERROR_SUCCESS; 2410f3d47e36SJeremy L Thompson } 2411eaf62fffSJeremy L Thompson 2412eaf62fffSJeremy L Thompson if (op->LinearAssemble) { 2413d04bbc78SJeremy L Thompson // Backend version 24142b730f8bSJeremy L Thompson CeedCall(op->LinearAssemble(op, values)); 2415eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2416eaf62fffSJeremy L Thompson } else { 2417d04bbc78SJeremy L Thompson // Operator fallback 2418d04bbc78SJeremy L Thompson CeedOperator op_fallback; 2419d04bbc78SJeremy L Thompson 24202b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetFallback(op, &op_fallback)); 2421d04bbc78SJeremy L Thompson if (op_fallback) { 24222b730f8bSJeremy L Thompson CeedCall(CeedOperatorLinearAssemble(op_fallback, values)); 2423eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2424eaf62fffSJeremy L Thompson } 2425eaf62fffSJeremy L Thompson } 2426eaf62fffSJeremy L Thompson 2427eaf62fffSJeremy L Thompson // Default interface implementation 242828ec399dSJeremy L Thompson CeedCall(CeedVectorSetValue(values, 0.0)); 2429eaf62fffSJeremy L Thompson if (is_composite) { 2430c6ebc35dSJeremy L Thompson CeedCall(CeedCompositeOperatorGetNumSub(op, &num_suboperators)); 2431c6ebc35dSJeremy L Thompson CeedCall(CeedCompositeOperatorGetSubList(op, &sub_operators)); 2432cefa2673SJeremy L Thompson for (CeedInt k = 0; k < num_suboperators; k++) { 24332b730f8bSJeremy L Thompson CeedCall(CeedSingleOperatorAssemble(sub_operators[k], offset, values)); 24342b730f8bSJeremy L Thompson CeedCall(CeedSingleOperatorAssemblyCountEntries(sub_operators[k], &single_entries)); 2435eaf62fffSJeremy L Thompson offset += single_entries; 2436eaf62fffSJeremy L Thompson } 2437eaf62fffSJeremy L Thompson } else { 24382b730f8bSJeremy L Thompson CeedCall(CeedSingleOperatorAssemble(op, offset, values)); 2439eaf62fffSJeremy L Thompson } 2440eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2441eaf62fffSJeremy L Thompson } 2442eaf62fffSJeremy L Thompson 2443eaf62fffSJeremy L Thompson /** 2444ca94c3ddSJeremy L Thompson @brief Get the multiplicity of nodes across sub-operators in a composite `CeedOperator`. 244575f0d5a4SJeremy L Thompson 2446ca94c3ddSJeremy L Thompson Note: Calling this function asserts that setup is complete and sets the `CeedOperator` as immutable. 244775f0d5a4SJeremy L Thompson 2448ca94c3ddSJeremy L Thompson @param[in] op Composite `CeedOperator` 2449ca94c3ddSJeremy L Thompson @param[in] num_skip_indices Number of sub-operators to skip 2450ca94c3ddSJeremy L Thompson @param[in] skip_indices Array of indices of sub-operators to skip 2451ca94c3ddSJeremy L Thompson @param[out] mult Vector to store multiplicity (of size `l_size` ) 245275f0d5a4SJeremy L Thompson 245375f0d5a4SJeremy L Thompson @return An error code: 0 - success, otherwise - failure 245475f0d5a4SJeremy L Thompson 245575f0d5a4SJeremy L Thompson @ref User 245675f0d5a4SJeremy L Thompson **/ 245775f0d5a4SJeremy L Thompson int CeedCompositeOperatorGetMultiplicity(CeedOperator op, CeedInt num_skip_indices, CeedInt *skip_indices, CeedVector mult) { 245875f0d5a4SJeremy L Thompson Ceed ceed; 2459b275c451SJeremy L Thompson CeedInt num_suboperators; 246075f0d5a4SJeremy L Thompson CeedSize l_vec_len; 246175f0d5a4SJeremy L Thompson CeedScalar *mult_array; 246275f0d5a4SJeremy L Thompson CeedVector ones_l_vec; 24637c1dbaffSSebastian Grimberg CeedElemRestriction elem_rstr, mult_elem_rstr; 2464b275c451SJeremy L Thompson CeedOperator *sub_operators; 246575f0d5a4SJeremy L Thompson 24661c66c397SJeremy L Thompson CeedCall(CeedOperatorCheckReady(op)); 24671c66c397SJeremy L Thompson 246875f0d5a4SJeremy L Thompson CeedCall(CeedOperatorGetCeed(op, &ceed)); 246975f0d5a4SJeremy L Thompson 247075f0d5a4SJeremy L Thompson // Zero mult vector 247175f0d5a4SJeremy L Thompson CeedCall(CeedVectorSetValue(mult, 0.0)); 247275f0d5a4SJeremy L Thompson 247375f0d5a4SJeremy L Thompson // Get suboperators 2474b275c451SJeremy L Thompson CeedCall(CeedCompositeOperatorGetNumSub(op, &num_suboperators)); 2475b275c451SJeremy L Thompson CeedCall(CeedCompositeOperatorGetSubList(op, &sub_operators)); 2476b275c451SJeremy L Thompson if (num_suboperators == 0) return CEED_ERROR_SUCCESS; 247775f0d5a4SJeremy L Thompson 247875f0d5a4SJeremy L Thompson // Work vector 247975f0d5a4SJeremy L Thompson CeedCall(CeedVectorGetLength(mult, &l_vec_len)); 248075f0d5a4SJeremy L Thompson CeedCall(CeedVectorCreate(ceed, l_vec_len, &ones_l_vec)); 248175f0d5a4SJeremy L Thompson CeedCall(CeedVectorSetValue(ones_l_vec, 1.0)); 248275f0d5a4SJeremy L Thompson CeedCall(CeedVectorGetArray(mult, CEED_MEM_HOST, &mult_array)); 248375f0d5a4SJeremy L Thompson 248475f0d5a4SJeremy L Thompson // Compute multiplicity across suboperators 2485b275c451SJeremy L Thompson for (CeedInt i = 0; i < num_suboperators; i++) { 248675f0d5a4SJeremy L Thompson const CeedScalar *sub_mult_array; 248775f0d5a4SJeremy L Thompson CeedVector sub_mult_l_vec, ones_e_vec; 248875f0d5a4SJeremy L Thompson 248975f0d5a4SJeremy L Thompson // -- Check for suboperator to skip 249075f0d5a4SJeremy L Thompson for (CeedInt j = 0; j < num_skip_indices; j++) { 249175f0d5a4SJeremy L Thompson if (skip_indices[j] == i) continue; 249275f0d5a4SJeremy L Thompson } 249375f0d5a4SJeremy L Thompson 249475f0d5a4SJeremy L Thompson // -- Sub operator multiplicity 2495437c7c90SJeremy L Thompson CeedCall(CeedOperatorGetActiveElemRestriction(sub_operators[i], &elem_rstr)); 24967c1dbaffSSebastian Grimberg CeedCall(CeedElemRestrictionCreateUnorientedCopy(elem_rstr, &mult_elem_rstr)); 24977c1dbaffSSebastian Grimberg CeedCall(CeedElemRestrictionCreateVector(mult_elem_rstr, &sub_mult_l_vec, &ones_e_vec)); 249875f0d5a4SJeremy L Thompson CeedCall(CeedVectorSetValue(sub_mult_l_vec, 0.0)); 24997c1dbaffSSebastian Grimberg CeedCall(CeedElemRestrictionApply(mult_elem_rstr, CEED_NOTRANSPOSE, ones_l_vec, ones_e_vec, CEED_REQUEST_IMMEDIATE)); 25007c1dbaffSSebastian Grimberg CeedCall(CeedElemRestrictionApply(mult_elem_rstr, CEED_TRANSPOSE, ones_e_vec, sub_mult_l_vec, CEED_REQUEST_IMMEDIATE)); 250175f0d5a4SJeremy L Thompson CeedCall(CeedVectorGetArrayRead(sub_mult_l_vec, CEED_MEM_HOST, &sub_mult_array)); 250275f0d5a4SJeremy L Thompson // ---- Flag every node present in the current suboperator 250375f0d5a4SJeremy L Thompson for (CeedInt j = 0; j < l_vec_len; j++) { 250475f0d5a4SJeremy L Thompson if (sub_mult_array[j] > 0.0) mult_array[j] += 1.0; 250575f0d5a4SJeremy L Thompson } 250675f0d5a4SJeremy L Thompson CeedCall(CeedVectorRestoreArrayRead(sub_mult_l_vec, &sub_mult_array)); 250775f0d5a4SJeremy L Thompson CeedCall(CeedVectorDestroy(&sub_mult_l_vec)); 250875f0d5a4SJeremy L Thompson CeedCall(CeedVectorDestroy(&ones_e_vec)); 25097c1dbaffSSebastian Grimberg CeedCall(CeedElemRestrictionDestroy(&mult_elem_rstr)); 251075f0d5a4SJeremy L Thompson } 251175f0d5a4SJeremy L Thompson CeedCall(CeedVectorRestoreArray(mult, &mult_array)); 2512811d0ccfSJeremy L Thompson CeedCall(CeedVectorDestroy(&ones_l_vec)); 251375f0d5a4SJeremy L Thompson return CEED_ERROR_SUCCESS; 251475f0d5a4SJeremy L Thompson } 251575f0d5a4SJeremy L Thompson 251675f0d5a4SJeremy L Thompson /** 2517ca94c3ddSJeremy L Thompson @brief Create a multigrid coarse `CeedOperator` and level transfer `CeedOperator` for a `CeedOperator`, creating the prolongation basis from the fine and coarse grid interpolation. 2518eaf62fffSJeremy L Thompson 2519ca94c3ddSJeremy L Thompson Note: Calling this function asserts that setup is complete and sets all four `CeedOperator` as immutable. 2520f04ea552SJeremy L Thompson 2521ca94c3ddSJeremy L Thompson @param[in] op_fine Fine grid `CeedOperator` 2522ca94c3ddSJeremy L Thompson @param[in] p_mult_fine L-vector multiplicity in parallel gather/scatter, or `NULL` if not creating prolongation/restriction `CeedOperator` 2523ca94c3ddSJeremy L Thompson @param[in] rstr_coarse Coarse grid `CeedElemRestriction` 2524ca94c3ddSJeremy L Thompson @param[in] basis_coarse Coarse grid active vector `CeedBasis` 2525ca94c3ddSJeremy L Thompson @param[out] op_coarse Coarse grid `CeedOperator` 2526ca94c3ddSJeremy L Thompson @param[out] op_prolong Coarse to fine `CeedOperator`, or `NULL` 2527ca94c3ddSJeremy L Thompson @param[out] op_restrict Fine to coarse `CeedOperator`, or `NULL` 2528eaf62fffSJeremy L Thompson 2529eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 2530eaf62fffSJeremy L Thompson 2531eaf62fffSJeremy L Thompson @ref User 2532eaf62fffSJeremy L Thompson **/ 25332b730f8bSJeremy L Thompson int CeedOperatorMultigridLevelCreate(CeedOperator op_fine, CeedVector p_mult_fine, CeedElemRestriction rstr_coarse, CeedBasis basis_coarse, 25347758292fSSebastian Grimberg CeedOperator *op_coarse, CeedOperator *op_prolong, CeedOperator *op_restrict) { 25351c66c397SJeremy L Thompson CeedBasis basis_c_to_f = NULL; 25361c66c397SJeremy L Thompson 25372b730f8bSJeremy L Thompson CeedCall(CeedOperatorCheckReady(op_fine)); 2538eaf62fffSJeremy L Thompson 253983d6adf3SZach Atkins // Build prolongation matrix, if required 25407758292fSSebastian Grimberg if (op_prolong || op_restrict) { 254183d6adf3SZach Atkins CeedBasis basis_fine; 25421c66c397SJeremy L Thompson 25432b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetActiveBasis(op_fine, &basis_fine)); 25442b730f8bSJeremy L Thompson CeedCall(CeedBasisCreateProjection(basis_coarse, basis_fine, &basis_c_to_f)); 254583d6adf3SZach Atkins } 2546eaf62fffSJeremy L Thompson 2547f113e5dcSJeremy L Thompson // Core code 25487758292fSSebastian Grimberg CeedCall(CeedSingleOperatorMultigridLevel(op_fine, p_mult_fine, rstr_coarse, basis_coarse, basis_c_to_f, op_coarse, op_prolong, op_restrict)); 2549eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2550eaf62fffSJeremy L Thompson } 2551eaf62fffSJeremy L Thompson 2552eaf62fffSJeremy L Thompson /** 2553ca94c3ddSJeremy L Thompson @brief Create a multigrid coarse `CeedOperator` and level transfer `CeedOperator` for a `CeedOperator` with a tensor basis for the active basis. 2554eaf62fffSJeremy L Thompson 2555ca94c3ddSJeremy L Thompson Note: Calling this function asserts that setup is complete and sets all four `CeedOperator` as immutable. 2556f04ea552SJeremy L Thompson 2557ca94c3ddSJeremy L Thompson @param[in] op_fine Fine grid `CeedOperator` 2558ca94c3ddSJeremy L Thompson @param[in] p_mult_fine L-vector multiplicity in parallel gather/scatter, or `NULL` if not creating prolongation/restriction `CeedOperator` 2559ca94c3ddSJeremy L Thompson @param[in] rstr_coarse Coarse grid `CeedElemRestriction` 2560ca94c3ddSJeremy L Thompson @param[in] basis_coarse Coarse grid active vector `CeedBasis` 2561ca94c3ddSJeremy L Thompson @param[in] interp_c_to_f Matrix for coarse to fine interpolation, or `NULL` if not creating prolongation/restriction `CeedOperator` 2562ca94c3ddSJeremy L Thompson @param[out] op_coarse Coarse grid `CeedOperator` 2563ca94c3ddSJeremy L Thompson @param[out] op_prolong Coarse to fine `CeedOperator`, or `NULL` 2564ca94c3ddSJeremy L Thompson @param[out] op_restrict Fine to coarse `CeedOperator`, or `NULL` 2565eaf62fffSJeremy L Thompson 2566eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 2567eaf62fffSJeremy L Thompson 2568eaf62fffSJeremy L Thompson @ref User 2569eaf62fffSJeremy L Thompson **/ 25702b730f8bSJeremy L Thompson int CeedOperatorMultigridLevelCreateTensorH1(CeedOperator op_fine, CeedVector p_mult_fine, CeedElemRestriction rstr_coarse, CeedBasis basis_coarse, 25712b730f8bSJeremy L Thompson const CeedScalar *interp_c_to_f, CeedOperator *op_coarse, CeedOperator *op_prolong, 25727758292fSSebastian Grimberg CeedOperator *op_restrict) { 2573eaf62fffSJeremy L Thompson Ceed ceed; 25741c66c397SJeremy L Thompson CeedInt Q_f, Q_c; 25751c66c397SJeremy L Thompson CeedBasis basis_fine, basis_c_to_f = NULL; 25761c66c397SJeremy L Thompson 25771c66c397SJeremy L Thompson CeedCall(CeedOperatorCheckReady(op_fine)); 25782b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetCeed(op_fine, &ceed)); 2579eaf62fffSJeremy L Thompson 2580eaf62fffSJeremy L Thompson // Check for compatible quadrature spaces 25812b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetActiveBasis(op_fine, &basis_fine)); 25822b730f8bSJeremy L Thompson CeedCall(CeedBasisGetNumQuadraturePoints(basis_fine, &Q_f)); 25832b730f8bSJeremy L Thompson CeedCall(CeedBasisGetNumQuadraturePoints(basis_coarse, &Q_c)); 25843f08121cSJeremy L Thompson CeedCheck(Q_f == Q_c, ceed, CEED_ERROR_DIMENSION, 25853f08121cSJeremy L Thompson "Bases must have compatible quadrature spaces." 25863f08121cSJeremy L Thompson " Fine grid: %" CeedInt_FMT " points, Coarse grid: %" CeedInt_FMT " points", 25873f08121cSJeremy L Thompson Q_f, Q_c); 2588eaf62fffSJeremy L Thompson 258983d6adf3SZach Atkins // Create coarse to fine basis, if required 25907758292fSSebastian Grimberg if (op_prolong || op_restrict) { 25911c66c397SJeremy L Thompson CeedInt dim, num_comp, num_nodes_c, P_1d_f, P_1d_c; 25921c66c397SJeremy L Thompson CeedScalar *q_ref, *q_weight, *grad; 25931c66c397SJeremy L Thompson 259483d6adf3SZach Atkins // Check if interpolation matrix is provided 25956574a04fSJeremy L Thompson CeedCheck(interp_c_to_f, ceed, CEED_ERROR_INCOMPATIBLE, 25966574a04fSJeremy L Thompson "Prolongation or restriction operator creation requires coarse-to-fine interpolation matrix"); 25972b730f8bSJeremy L Thompson CeedCall(CeedBasisGetDimension(basis_fine, &dim)); 25982b730f8bSJeremy L Thompson CeedCall(CeedBasisGetNumComponents(basis_fine, &num_comp)); 25992b730f8bSJeremy L Thompson CeedCall(CeedBasisGetNumNodes1D(basis_fine, &P_1d_f)); 26002b730f8bSJeremy L Thompson CeedCall(CeedElemRestrictionGetElementSize(rstr_coarse, &num_nodes_c)); 26012b730f8bSJeremy L Thompson P_1d_c = dim == 1 ? num_nodes_c : dim == 2 ? sqrt(num_nodes_c) : cbrt(num_nodes_c); 26022b730f8bSJeremy L Thompson CeedCall(CeedCalloc(P_1d_f, &q_ref)); 26032b730f8bSJeremy L Thompson CeedCall(CeedCalloc(P_1d_f, &q_weight)); 26042b730f8bSJeremy L Thompson CeedCall(CeedCalloc(P_1d_f * P_1d_c * dim, &grad)); 26052b730f8bSJeremy L Thompson CeedCall(CeedBasisCreateTensorH1(ceed, dim, num_comp, P_1d_c, P_1d_f, interp_c_to_f, grad, q_ref, q_weight, &basis_c_to_f)); 26062b730f8bSJeremy L Thompson CeedCall(CeedFree(&q_ref)); 26072b730f8bSJeremy L Thompson CeedCall(CeedFree(&q_weight)); 26082b730f8bSJeremy L Thompson CeedCall(CeedFree(&grad)); 260983d6adf3SZach Atkins } 2610eaf62fffSJeremy L Thompson 2611eaf62fffSJeremy L Thompson // Core code 26127758292fSSebastian Grimberg CeedCall(CeedSingleOperatorMultigridLevel(op_fine, p_mult_fine, rstr_coarse, basis_coarse, basis_c_to_f, op_coarse, op_prolong, op_restrict)); 2613eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2614eaf62fffSJeremy L Thompson } 2615eaf62fffSJeremy L Thompson 2616eaf62fffSJeremy L Thompson /** 2617ca94c3ddSJeremy L Thompson @brief Create a multigrid coarse `CeedOperator` and level transfer `CeedOperator` for a `CeedOperator` with a non-tensor basis for the active vector 2618eaf62fffSJeremy L Thompson 2619ca94c3ddSJeremy L Thompson Note: Calling this function asserts that setup is complete and sets all four `CeedOperator` as immutable. 2620f04ea552SJeremy L Thompson 2621ca94c3ddSJeremy L Thompson @param[in] op_fine Fine grid `CeedOperator` 2622ca94c3ddSJeremy L Thompson @param[in] p_mult_fine L-vector multiplicity in parallel gather/scatter, or `NULL` if not creating prolongation/restriction `CeedOperator` 2623ca94c3ddSJeremy L Thompson @param[in] rstr_coarse Coarse grid `CeedElemRestriction` 2624ca94c3ddSJeremy L Thompson @param[in] basis_coarse Coarse grid active vector `CeedBasis` 2625ca94c3ddSJeremy L Thompson @param[in] interp_c_to_f Matrix for coarse to fine interpolation, or `NULL` if not creating prolongation/restriction `CeedOperator` 2626ca94c3ddSJeremy L Thompson @param[out] op_coarse Coarse grid `CeedOperator` 2627ca94c3ddSJeremy L Thompson @param[out] op_prolong Coarse to fine `CeedOperator`, or `NULL` 2628ca94c3ddSJeremy L Thompson @param[out] op_restrict Fine to coarse `CeedOperator`, or `NULL` 2629eaf62fffSJeremy L Thompson 2630eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 2631eaf62fffSJeremy L Thompson 2632eaf62fffSJeremy L Thompson @ref User 2633eaf62fffSJeremy L Thompson **/ 26342b730f8bSJeremy L Thompson int CeedOperatorMultigridLevelCreateH1(CeedOperator op_fine, CeedVector p_mult_fine, CeedElemRestriction rstr_coarse, CeedBasis basis_coarse, 26357758292fSSebastian Grimberg const CeedScalar *interp_c_to_f, CeedOperator *op_coarse, CeedOperator *op_prolong, 26367758292fSSebastian Grimberg CeedOperator *op_restrict) { 2637eaf62fffSJeremy L Thompson Ceed ceed; 26381c66c397SJeremy L Thompson CeedInt Q_f, Q_c; 26391c66c397SJeremy L Thompson CeedBasis basis_fine, basis_c_to_f = NULL; 26401c66c397SJeremy L Thompson 26411c66c397SJeremy L Thompson CeedCall(CeedOperatorCheckReady(op_fine)); 26422b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetCeed(op_fine, &ceed)); 2643eaf62fffSJeremy L Thompson 2644eaf62fffSJeremy L Thompson // Check for compatible quadrature spaces 26452b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetActiveBasis(op_fine, &basis_fine)); 26462b730f8bSJeremy L Thompson CeedCall(CeedBasisGetNumQuadraturePoints(basis_fine, &Q_f)); 26472b730f8bSJeremy L Thompson CeedCall(CeedBasisGetNumQuadraturePoints(basis_coarse, &Q_c)); 26486574a04fSJeremy L Thompson CeedCheck(Q_f == Q_c, ceed, CEED_ERROR_DIMENSION, "Bases must have compatible quadrature spaces"); 2649eaf62fffSJeremy L Thompson 2650eaf62fffSJeremy L Thompson // Coarse to fine basis 26517758292fSSebastian Grimberg if (op_prolong || op_restrict) { 26521c66c397SJeremy L Thompson CeedInt dim, num_comp, num_nodes_c, num_nodes_f; 26531c66c397SJeremy L Thompson CeedScalar *q_ref, *q_weight, *grad; 26541c66c397SJeremy L Thompson CeedElemTopology topo; 26551c66c397SJeremy L Thompson 265683d6adf3SZach Atkins // Check if interpolation matrix is provided 26576574a04fSJeremy L Thompson CeedCheck(interp_c_to_f, ceed, CEED_ERROR_INCOMPATIBLE, 26586574a04fSJeremy L Thompson "Prolongation or restriction operator creation requires coarse-to-fine interpolation matrix"); 26592b730f8bSJeremy L Thompson CeedCall(CeedBasisGetTopology(basis_fine, &topo)); 26602b730f8bSJeremy L Thompson CeedCall(CeedBasisGetDimension(basis_fine, &dim)); 26612b730f8bSJeremy L Thompson CeedCall(CeedBasisGetNumComponents(basis_fine, &num_comp)); 26622b730f8bSJeremy L Thompson CeedCall(CeedBasisGetNumNodes(basis_fine, &num_nodes_f)); 26632b730f8bSJeremy L Thompson CeedCall(CeedElemRestrictionGetElementSize(rstr_coarse, &num_nodes_c)); 26642b730f8bSJeremy L Thompson CeedCall(CeedCalloc(num_nodes_f * dim, &q_ref)); 26652b730f8bSJeremy L Thompson CeedCall(CeedCalloc(num_nodes_f, &q_weight)); 26662b730f8bSJeremy L Thompson CeedCall(CeedCalloc(num_nodes_f * num_nodes_c * dim, &grad)); 26672b730f8bSJeremy L Thompson CeedCall(CeedBasisCreateH1(ceed, topo, num_comp, num_nodes_c, num_nodes_f, interp_c_to_f, grad, q_ref, q_weight, &basis_c_to_f)); 26682b730f8bSJeremy L Thompson CeedCall(CeedFree(&q_ref)); 26692b730f8bSJeremy L Thompson CeedCall(CeedFree(&q_weight)); 26702b730f8bSJeremy L Thompson CeedCall(CeedFree(&grad)); 267183d6adf3SZach Atkins } 2672eaf62fffSJeremy L Thompson 2673eaf62fffSJeremy L Thompson // Core code 26747758292fSSebastian Grimberg CeedCall(CeedSingleOperatorMultigridLevel(op_fine, p_mult_fine, rstr_coarse, basis_coarse, basis_c_to_f, op_coarse, op_prolong, op_restrict)); 2675eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2676eaf62fffSJeremy L Thompson } 2677eaf62fffSJeremy L Thompson 2678eaf62fffSJeremy L Thompson /** 2679ca94c3ddSJeremy L Thompson @brief Build a FDM based approximate inverse for each element for a `CeedOperator`. 2680eaf62fffSJeremy L Thompson 2681ca94c3ddSJeremy L Thompson This returns a `CeedOperator` and `CeedVector` to apply a Fast Diagonalization Method based approximate inverse. 2682859c15bbSJames Wright This function obtains the simultaneous diagonalization for the 1D mass and Laplacian operators, \f$M = V^T V, K = V^T S V\f$. 2683ca94c3ddSJeremy L Thompson The assembled `CeedQFunction` is used to modify the eigenvalues from simultaneous diagonalization and obtain an approximate inverse of the form \f$V^T \hat S V\f$. 2684ca94c3ddSJeremy L Thompson The `CeedOperator` must be linear and non-composite. 2685ca94c3ddSJeremy L Thompson The associated `CeedQFunction` must therefore also be linear. 2686eaf62fffSJeremy L Thompson 2687ca94c3ddSJeremy L Thompson Note: Calling this function asserts that setup is complete and sets the `CeedOperator` as immutable. 2688f04ea552SJeremy L Thompson 2689ca94c3ddSJeremy L Thompson @param[in] op `CeedOperator` to create element inverses 2690ca94c3ddSJeremy L Thompson @param[out] fdm_inv `CeedOperator` to apply the action of a FDM based inverse for each element 2691ca94c3ddSJeremy L Thompson @param[in] request Address of @ref CeedRequest for non-blocking completion, else @ref CEED_REQUEST_IMMEDIATE 2692eaf62fffSJeremy L Thompson 2693eaf62fffSJeremy L Thompson @return An error code: 0 - success, otherwise - failure 2694eaf62fffSJeremy L Thompson 2695480fae85SJeremy L Thompson @ref User 2696eaf62fffSJeremy L Thompson **/ 26972b730f8bSJeremy L Thompson int CeedOperatorCreateFDMElementInverse(CeedOperator op, CeedOperator *fdm_inv, CeedRequest *request) { 26981c66c397SJeremy L Thompson Ceed ceed, ceed_parent; 26991c66c397SJeremy L Thompson bool interp = false, grad = false, is_tensor_basis = true; 27001c66c397SJeremy L Thompson CeedInt num_input_fields, P_1d, Q_1d, num_nodes, num_qpts, dim, num_comp = 1, num_elem = 1; 27011c66c397SJeremy L Thompson CeedSize l_size = 1; 27021c66c397SJeremy L Thompson CeedScalar *mass, *laplace, *x, *fdm_interp, *lambda, *elem_avg; 27031c66c397SJeremy L Thompson const CeedScalar *interp_1d, *grad_1d, *q_weight_1d; 27041c66c397SJeremy L Thompson CeedVector q_data; 27051c66c397SJeremy L Thompson CeedElemRestriction rstr = NULL, rstr_qd_i; 27061c66c397SJeremy L Thompson CeedBasis basis = NULL, fdm_basis; 27071c66c397SJeremy L Thompson CeedQFunctionContext ctx_fdm; 27081c66c397SJeremy L Thompson CeedQFunctionField *qf_fields; 27091c66c397SJeremy L Thompson CeedQFunction qf, qf_fdm; 27101c66c397SJeremy L Thompson CeedOperatorField *op_fields; 27111c66c397SJeremy L Thompson 27122b730f8bSJeremy L Thompson CeedCall(CeedOperatorCheckReady(op)); 2713eaf62fffSJeremy L Thompson 2714eaf62fffSJeremy L Thompson if (op->CreateFDMElementInverse) { 2715d04bbc78SJeremy L Thompson // Backend version 27162b730f8bSJeremy L Thompson CeedCall(op->CreateFDMElementInverse(op, fdm_inv, request)); 2717eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2718eaf62fffSJeremy L Thompson } else { 2719d04bbc78SJeremy L Thompson // Operator fallback 2720d04bbc78SJeremy L Thompson CeedOperator op_fallback; 2721d04bbc78SJeremy L Thompson 27222b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetFallback(op, &op_fallback)); 2723d04bbc78SJeremy L Thompson if (op_fallback) { 27242b730f8bSJeremy L Thompson CeedCall(CeedOperatorCreateFDMElementInverse(op_fallback, fdm_inv, request)); 2725eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2726eaf62fffSJeremy L Thompson } 2727eaf62fffSJeremy L Thompson } 2728eaf62fffSJeremy L Thompson 2729d04bbc78SJeremy L Thompson // Default interface implementation 27302b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetCeed(op, &ceed)); 2731bb229da9SJeremy L Thompson CeedCall(CeedOperatorGetFallbackParentCeed(op, &ceed_parent)); 27322b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetQFunction(op, &qf)); 2733eaf62fffSJeremy L Thompson 2734eaf62fffSJeremy L Thompson // Determine active input basis 27352b730f8bSJeremy L Thompson CeedCall(CeedOperatorGetFields(op, &num_input_fields, &op_fields, NULL, NULL)); 27362b730f8bSJeremy L Thompson CeedCall(CeedQFunctionGetFields(qf, NULL, &qf_fields, NULL, NULL)); 2737eaf62fffSJeremy L Thompson for (CeedInt i = 0; i < num_input_fields; i++) { 2738eaf62fffSJeremy L Thompson CeedVector vec; 27391c66c397SJeremy L Thompson 27402b730f8bSJeremy L Thompson CeedCall(CeedOperatorFieldGetVector(op_fields[i], &vec)); 2741eaf62fffSJeremy L Thompson if (vec == CEED_VECTOR_ACTIVE) { 2742eaf62fffSJeremy L Thompson CeedEvalMode eval_mode; 27431c66c397SJeremy L Thompson 27442b730f8bSJeremy L Thompson CeedCall(CeedQFunctionFieldGetEvalMode(qf_fields[i], &eval_mode)); 2745eaf62fffSJeremy L Thompson interp = interp || eval_mode == CEED_EVAL_INTERP; 2746eaf62fffSJeremy L Thompson grad = grad || eval_mode == CEED_EVAL_GRAD; 27472b730f8bSJeremy L Thompson CeedCall(CeedOperatorFieldGetBasis(op_fields[i], &basis)); 27482b730f8bSJeremy L Thompson CeedCall(CeedOperatorFieldGetElemRestriction(op_fields[i], &rstr)); 2749eaf62fffSJeremy L Thompson } 2750eaf62fffSJeremy L Thompson } 27516574a04fSJeremy L Thompson CeedCheck(basis, ceed, CEED_ERROR_BACKEND, "No active field set"); 27522b730f8bSJeremy L Thompson CeedCall(CeedBasisGetNumNodes1D(basis, &P_1d)); 2753352a5e7cSSebastian Grimberg CeedCall(CeedBasisGetNumNodes(basis, &num_nodes)); 27542b730f8bSJeremy L Thompson CeedCall(CeedBasisGetNumQuadraturePoints1D(basis, &Q_1d)); 27552b730f8bSJeremy L Thompson CeedCall(CeedBasisGetNumQuadraturePoints(basis, &num_qpts)); 27562b730f8bSJeremy L Thompson CeedCall(CeedBasisGetDimension(basis, &dim)); 27572b730f8bSJeremy L Thompson CeedCall(CeedBasisGetNumComponents(basis, &num_comp)); 27582b730f8bSJeremy L Thompson CeedCall(CeedElemRestrictionGetNumElements(rstr, &num_elem)); 27592b730f8bSJeremy L Thompson CeedCall(CeedElemRestrictionGetLVectorSize(rstr, &l_size)); 2760eaf62fffSJeremy L Thompson 2761eaf62fffSJeremy L Thompson // Build and diagonalize 1D Mass and Laplacian 27626574a04fSJeremy L Thompson CeedCall(CeedBasisIsTensor(basis, &is_tensor_basis)); 27636574a04fSJeremy L Thompson CeedCheck(is_tensor_basis, ceed, CEED_ERROR_BACKEND, "FDMElementInverse only supported for tensor bases"); 27642b730f8bSJeremy L Thompson CeedCall(CeedCalloc(P_1d * P_1d, &mass)); 27652b730f8bSJeremy L Thompson CeedCall(CeedCalloc(P_1d * P_1d, &laplace)); 27662b730f8bSJeremy L Thompson CeedCall(CeedCalloc(P_1d * P_1d, &x)); 27672b730f8bSJeremy L Thompson CeedCall(CeedCalloc(P_1d * P_1d, &fdm_interp)); 27682b730f8bSJeremy L Thompson CeedCall(CeedCalloc(P_1d, &lambda)); 2769eaf62fffSJeremy L Thompson // -- Build matrices 27702b730f8bSJeremy L Thompson CeedCall(CeedBasisGetInterp1D(basis, &interp_1d)); 27712b730f8bSJeremy L Thompson CeedCall(CeedBasisGetGrad1D(basis, &grad_1d)); 27722b730f8bSJeremy L Thompson CeedCall(CeedBasisGetQWeights(basis, &q_weight_1d)); 27732b730f8bSJeremy L Thompson CeedCall(CeedBuildMassLaplace(interp_1d, grad_1d, q_weight_1d, P_1d, Q_1d, dim, mass, laplace)); 2774eaf62fffSJeremy L Thompson 2775eaf62fffSJeremy L Thompson // -- Diagonalize 27762b730f8bSJeremy L Thompson CeedCall(CeedSimultaneousDiagonalization(ceed, laplace, mass, x, lambda, P_1d)); 27772b730f8bSJeremy L Thompson CeedCall(CeedFree(&mass)); 27782b730f8bSJeremy L Thompson CeedCall(CeedFree(&laplace)); 27792b730f8bSJeremy L Thompson for (CeedInt i = 0; i < P_1d; i++) { 27802b730f8bSJeremy L Thompson for (CeedInt j = 0; j < P_1d; j++) fdm_interp[i + j * P_1d] = x[j + i * P_1d]; 27812b730f8bSJeremy L Thompson } 27822b730f8bSJeremy L Thompson CeedCall(CeedFree(&x)); 2783eaf62fffSJeremy L Thompson 27841c66c397SJeremy L Thompson { 27851c66c397SJeremy L Thompson CeedInt layout[3], num_modes = (interp ? 1 : 0) + (grad ? dim : 0); 27861c66c397SJeremy L Thompson CeedScalar max_norm = 0; 27871c66c397SJeremy L Thompson const CeedScalar *assembled_array, *q_weight_array; 27881c66c397SJeremy L Thompson CeedVector assembled = NULL, q_weight; 2789c5f45aeaSJeremy L Thompson CeedElemRestriction rstr_qf = NULL; 27901c66c397SJeremy L Thompson 27911c66c397SJeremy L Thompson // Assemble QFunction 27922b730f8bSJeremy L Thompson CeedCall(CeedOperatorLinearAssembleQFunctionBuildOrUpdate(op, &assembled, &rstr_qf, request)); 279356c48462SJeremy L Thompson CeedCall(CeedElemRestrictionGetELayout(rstr_qf, layout)); 27942b730f8bSJeremy L Thompson CeedCall(CeedElemRestrictionDestroy(&rstr_qf)); 27952b730f8bSJeremy L Thompson CeedCall(CeedVectorNorm(assembled, CEED_NORM_MAX, &max_norm)); 2796eaf62fffSJeremy L Thompson 2797eaf62fffSJeremy L Thompson // Calculate element averages 27982b730f8bSJeremy L Thompson CeedCall(CeedVectorCreate(ceed_parent, num_qpts, &q_weight)); 27992b730f8bSJeremy L Thompson CeedCall(CeedBasisApply(basis, 1, CEED_NOTRANSPOSE, CEED_EVAL_WEIGHT, CEED_VECTOR_NONE, q_weight)); 28002b730f8bSJeremy L Thompson CeedCall(CeedVectorGetArrayRead(assembled, CEED_MEM_HOST, &assembled_array)); 28012b730f8bSJeremy L Thompson CeedCall(CeedVectorGetArrayRead(q_weight, CEED_MEM_HOST, &q_weight_array)); 28022b730f8bSJeremy L Thompson CeedCall(CeedCalloc(num_elem, &elem_avg)); 2803eaf62fffSJeremy L Thompson const CeedScalar qf_value_bound = max_norm * 100 * CEED_EPSILON; 28041c66c397SJeremy L Thompson 2805eaf62fffSJeremy L Thompson for (CeedInt e = 0; e < num_elem; e++) { 2806eaf62fffSJeremy L Thompson CeedInt count = 0; 28071c66c397SJeremy L Thompson 28082b730f8bSJeremy L Thompson for (CeedInt q = 0; q < num_qpts; q++) { 28092b730f8bSJeremy L Thompson for (CeedInt i = 0; i < num_comp * num_comp * num_modes * num_modes; i++) { 28102b730f8bSJeremy L Thompson if (fabs(assembled_array[q * layout[0] + i * layout[1] + e * layout[2]]) > qf_value_bound) { 28112b730f8bSJeremy L Thompson elem_avg[e] += assembled_array[q * layout[0] + i * layout[1] + e * layout[2]] / q_weight_array[q]; 2812eaf62fffSJeremy L Thompson count++; 2813eaf62fffSJeremy L Thompson } 28142b730f8bSJeremy L Thompson } 28152b730f8bSJeremy L Thompson } 2816eaf62fffSJeremy L Thompson if (count) { 2817eaf62fffSJeremy L Thompson elem_avg[e] /= count; 2818eaf62fffSJeremy L Thompson } else { 2819eaf62fffSJeremy L Thompson elem_avg[e] = 1.0; 2820eaf62fffSJeremy L Thompson } 2821eaf62fffSJeremy L Thompson } 28222b730f8bSJeremy L Thompson CeedCall(CeedVectorRestoreArrayRead(assembled, &assembled_array)); 28232b730f8bSJeremy L Thompson CeedCall(CeedVectorDestroy(&assembled)); 28242b730f8bSJeremy L Thompson CeedCall(CeedVectorRestoreArrayRead(q_weight, &q_weight_array)); 28252b730f8bSJeremy L Thompson CeedCall(CeedVectorDestroy(&q_weight)); 28261c66c397SJeremy L Thompson } 2827eaf62fffSJeremy L Thompson 2828eaf62fffSJeremy L Thompson // Build FDM diagonal 28291c66c397SJeremy L Thompson { 2830eaf62fffSJeremy L Thompson CeedScalar *q_data_array, *fdm_diagonal; 28311c66c397SJeremy L Thompson 2832352a5e7cSSebastian Grimberg CeedCall(CeedCalloc(num_comp * num_nodes, &fdm_diagonal)); 2833352a5e7cSSebastian Grimberg const CeedScalar fdm_diagonal_bound = num_nodes * CEED_EPSILON; 28342b730f8bSJeremy L Thompson for (CeedInt c = 0; c < num_comp; c++) { 2835352a5e7cSSebastian Grimberg for (CeedInt n = 0; n < num_nodes; n++) { 2836352a5e7cSSebastian Grimberg if (interp) fdm_diagonal[c * num_nodes + n] = 1.0; 28372b730f8bSJeremy L Thompson if (grad) { 2838eaf62fffSJeremy L Thompson for (CeedInt d = 0; d < dim; d++) { 2839eaf62fffSJeremy L Thompson CeedInt i = (n / CeedIntPow(P_1d, d)) % P_1d; 2840352a5e7cSSebastian Grimberg fdm_diagonal[c * num_nodes + n] += lambda[i]; 2841eaf62fffSJeremy L Thompson } 2842eaf62fffSJeremy L Thompson } 2843352a5e7cSSebastian Grimberg if (fabs(fdm_diagonal[c * num_nodes + n]) < fdm_diagonal_bound) fdm_diagonal[c * num_nodes + n] = fdm_diagonal_bound; 28442b730f8bSJeremy L Thompson } 28452b730f8bSJeremy L Thompson } 2846352a5e7cSSebastian Grimberg CeedCall(CeedVectorCreate(ceed_parent, num_elem * num_comp * num_nodes, &q_data)); 28472b730f8bSJeremy L Thompson CeedCall(CeedVectorSetValue(q_data, 0.0)); 28482b730f8bSJeremy L Thompson CeedCall(CeedVectorGetArrayWrite(q_data, CEED_MEM_HOST, &q_data_array)); 28492b730f8bSJeremy L Thompson for (CeedInt e = 0; e < num_elem; e++) { 28502b730f8bSJeremy L Thompson for (CeedInt c = 0; c < num_comp; c++) { 2851*6c10af5dSJeremy L Thompson for (CeedInt n = 0; n < num_nodes; n++) { 28521c66c397SJeremy L Thompson q_data_array[(e * num_comp + c) * num_nodes + n] = 1. / (elem_avg[e] * fdm_diagonal[c * num_nodes + n]); 28532b730f8bSJeremy L Thompson } 28542b730f8bSJeremy L Thompson } 2855*6c10af5dSJeremy L Thompson } 28562b730f8bSJeremy L Thompson CeedCall(CeedFree(&elem_avg)); 28572b730f8bSJeremy L Thompson CeedCall(CeedFree(&fdm_diagonal)); 28582b730f8bSJeremy L Thompson CeedCall(CeedVectorRestoreArray(q_data, &q_data_array)); 28591c66c397SJeremy L Thompson } 2860eaf62fffSJeremy L Thompson 2861eaf62fffSJeremy L Thompson // Setup FDM operator 2862eaf62fffSJeremy L Thompson // -- Basis 28631c66c397SJeremy L Thompson { 2864eaf62fffSJeremy L Thompson CeedScalar *grad_dummy, *q_ref_dummy, *q_weight_dummy; 28651c66c397SJeremy L Thompson 28662b730f8bSJeremy L Thompson CeedCall(CeedCalloc(P_1d * P_1d, &grad_dummy)); 28672b730f8bSJeremy L Thompson CeedCall(CeedCalloc(P_1d, &q_ref_dummy)); 28682b730f8bSJeremy L Thompson CeedCall(CeedCalloc(P_1d, &q_weight_dummy)); 28692b730f8bSJeremy L Thompson CeedCall(CeedBasisCreateTensorH1(ceed_parent, dim, num_comp, P_1d, P_1d, fdm_interp, grad_dummy, q_ref_dummy, q_weight_dummy, &fdm_basis)); 28702b730f8bSJeremy L Thompson CeedCall(CeedFree(&fdm_interp)); 28712b730f8bSJeremy L Thompson CeedCall(CeedFree(&grad_dummy)); 28722b730f8bSJeremy L Thompson CeedCall(CeedFree(&q_ref_dummy)); 28732b730f8bSJeremy L Thompson CeedCall(CeedFree(&q_weight_dummy)); 28742b730f8bSJeremy L Thompson CeedCall(CeedFree(&lambda)); 28751c66c397SJeremy L Thompson } 2876eaf62fffSJeremy L Thompson 2877eaf62fffSJeremy L Thompson // -- Restriction 28781c66c397SJeremy L Thompson { 2879352a5e7cSSebastian Grimberg CeedInt strides[3] = {1, num_nodes, num_nodes * num_comp}; 28800a5597ceSJeremy L Thompson CeedCall(CeedElemRestrictionCreateStrided(ceed_parent, num_elem, num_nodes, num_comp, 28810a5597ceSJeremy L Thompson (CeedSize)num_elem * (CeedSize)num_comp * (CeedSize)num_nodes, strides, &rstr_qd_i)); 28821c66c397SJeremy L Thompson } 28831c66c397SJeremy L Thompson 2884eaf62fffSJeremy L Thompson // -- QFunction 28852b730f8bSJeremy L Thompson CeedCall(CeedQFunctionCreateInteriorByName(ceed_parent, "Scale", &qf_fdm)); 28862b730f8bSJeremy L Thompson CeedCall(CeedQFunctionAddInput(qf_fdm, "input", num_comp, CEED_EVAL_INTERP)); 28872b730f8bSJeremy L Thompson CeedCall(CeedQFunctionAddInput(qf_fdm, "scale", num_comp, CEED_EVAL_NONE)); 28882b730f8bSJeremy L Thompson CeedCall(CeedQFunctionAddOutput(qf_fdm, "output", num_comp, CEED_EVAL_INTERP)); 28892b730f8bSJeremy L Thompson CeedCall(CeedQFunctionSetUserFlopsEstimate(qf_fdm, num_comp)); 28901c66c397SJeremy L Thompson 2891eaf62fffSJeremy L Thompson // -- QFunction context 28921c66c397SJeremy L Thompson { 2893eaf62fffSJeremy L Thompson CeedInt *num_comp_data; 28941c66c397SJeremy L Thompson 28952b730f8bSJeremy L Thompson CeedCall(CeedCalloc(1, &num_comp_data)); 2896eaf62fffSJeremy L Thompson num_comp_data[0] = num_comp; 28972b730f8bSJeremy L Thompson CeedCall(CeedQFunctionContextCreate(ceed, &ctx_fdm)); 28982b730f8bSJeremy L Thompson CeedCall(CeedQFunctionContextSetData(ctx_fdm, CEED_MEM_HOST, CEED_OWN_POINTER, sizeof(*num_comp_data), num_comp_data)); 28991c66c397SJeremy L Thompson } 29002b730f8bSJeremy L Thompson CeedCall(CeedQFunctionSetContext(qf_fdm, ctx_fdm)); 29012b730f8bSJeremy L Thompson CeedCall(CeedQFunctionContextDestroy(&ctx_fdm)); 29021c66c397SJeremy L Thompson 2903eaf62fffSJeremy L Thompson // -- Operator 29042b730f8bSJeremy L Thompson CeedCall(CeedOperatorCreate(ceed_parent, qf_fdm, NULL, NULL, fdm_inv)); 29052b730f8bSJeremy L Thompson CeedCall(CeedOperatorSetField(*fdm_inv, "input", rstr, fdm_basis, CEED_VECTOR_ACTIVE)); 2906356036faSJeremy L Thompson CeedCall(CeedOperatorSetField(*fdm_inv, "scale", rstr_qd_i, CEED_BASIS_NONE, q_data)); 29072b730f8bSJeremy L Thompson CeedCall(CeedOperatorSetField(*fdm_inv, "output", rstr, fdm_basis, CEED_VECTOR_ACTIVE)); 2908eaf62fffSJeremy L Thompson 2909eaf62fffSJeremy L Thompson // Cleanup 29102b730f8bSJeremy L Thompson CeedCall(CeedVectorDestroy(&q_data)); 29112b730f8bSJeremy L Thompson CeedCall(CeedBasisDestroy(&fdm_basis)); 29122b730f8bSJeremy L Thompson CeedCall(CeedElemRestrictionDestroy(&rstr_qd_i)); 29132b730f8bSJeremy L Thompson CeedCall(CeedQFunctionDestroy(&qf_fdm)); 2914eaf62fffSJeremy L Thompson return CEED_ERROR_SUCCESS; 2915eaf62fffSJeremy L Thompson } 2916eaf62fffSJeremy L Thompson 2917eaf62fffSJeremy L Thompson /// @} 2918