166087c08SValeria Barra // Copyright (c) 2017-2018, Lawrence Livermore National Security, LLC. 266087c08SValeria Barra // Produced at the Lawrence Livermore National Laboratory. LLNL-CODE-734707. 366087c08SValeria Barra // All Rights reserved. See files LICENSE and NOTICE for details. 466087c08SValeria Barra // 566087c08SValeria Barra // This file is part of CEED, a collection of benchmarks, miniapps, software 666087c08SValeria Barra // libraries and APIs for efficient high-order finite element and spectral 766087c08SValeria Barra // element discretizations for exascale applications. For more information and 866087c08SValeria Barra // source code availability see http://github.com/ceed. 966087c08SValeria Barra // 1066087c08SValeria Barra // The CEED research is supported by the Exascale Computing Project 17-SC-20-SC, 1166087c08SValeria Barra // a collaborative effort of two U.S. Department of Energy organizations (Office 1266087c08SValeria Barra // of Science and the National Nuclear Security Administration) responsible for 1366087c08SValeria Barra // the planning and preparation of a capable exascale ecosystem, including 1466087c08SValeria Barra // software, applications, hardware, advanced system engineering and early 1566087c08SValeria Barra // testbed platforms, in support of the nation's exascale computing imperative. 1666087c08SValeria Barra 1766087c08SValeria Barra // libCEED Example 1 1866087c08SValeria Barra // 1966087c08SValeria Barra // This example illustrates a simple usage of libCEED to compute the volume of a 2066087c08SValeria Barra // 3D body using matrix-free application of a mass operator. Arbitrary mesh and 21ded9b81dSJeremy L Thompson // solution degrees in 1D, 2D and 3D are supported from the same code. 2266087c08SValeria Barra // 2366087c08SValeria Barra // The example has no dependencies, and is designed to be self-contained. For 2466087c08SValeria Barra // additional examples that use external discretization libraries (MFEM, PETSc, 2566087c08SValeria Barra // etc.) see the subdirectories in libceed/examples. 2666087c08SValeria Barra // 2766087c08SValeria Barra // All libCEED objects use a Ceed device object constructed based on a command 2866087c08SValeria Barra // line argument (-ceed). 2966087c08SValeria Barra // 3066087c08SValeria Barra // Build with: 3166087c08SValeria Barra // 3266087c08SValeria Barra // make ex1-volume [CEED_DIR=</path/to/libceed>] 3366087c08SValeria Barra // 3466087c08SValeria Barra // Sample runs: 3566087c08SValeria Barra // 3666087c08SValeria Barra // ./ex1-volume 3766087c08SValeria Barra // ./ex1-volume -ceed /cpu/self 3828688798Sjeremylt // ./ex1-volume -ceed /gpu/cuda 3966087c08SValeria Barra // 4066087c08SValeria Barra // Next line is grep'd from tap.sh to set its arguments 4166087c08SValeria Barra // Test in 1D-3D 42*dc8efd83SLeila Ghaffari //TESTARGS(name="1D_User_QFunction") -ceed {ceed_resource} -d 1 -t 43*dc8efd83SLeila Ghaffari //TESTARGS(name="2D_User_QFunction") -ceed {ceed_resource} -d 2 -t 44*dc8efd83SLeila Ghaffari //TESTARGS(name="3D_User_QFunction") -ceed {ceed_resource} -d 3 -t 45*dc8efd83SLeila Ghaffari //TESTARGS(name="1D_Gallery_QFunction") -ceed {ceed_resource} -d 1 -t -g 46*dc8efd83SLeila Ghaffari //TESTARGS(name="2D_Gallery_QFunction") -ceed {ceed_resource} -d 2 -t -g 47*dc8efd83SLeila Ghaffari //TESTARGS(name="3D_Gallery_QFunction") -ceed {ceed_resource} -d 3 -t -g 4866087c08SValeria Barra 4966087c08SValeria Barra /// @file 5066087c08SValeria Barra /// libCEED example using mass operator to compute volume 5166087c08SValeria Barra 5266087c08SValeria Barra #include <ceed.h> 5366087c08SValeria Barra #include <math.h> 543d576824SJeremy L Thompson #include <stdlib.h> 5566087c08SValeria Barra #include <string.h> 5666087c08SValeria Barra #include "ex1-volume.h" 5766087c08SValeria Barra 5866087c08SValeria Barra // Auxiliary functions. 59ded9b81dSJeremy L Thompson int GetCartesianMeshSize(int dim, int degree, int prob_size, int nxyz[3]); 60ded9b81dSJeremy L Thompson int BuildCartesianRestriction(Ceed ceed, int dim, int nxyz[3], int degree, 6166087c08SValeria Barra int ncomp, CeedInt *size, CeedInt num_qpts, 6266087c08SValeria Barra CeedElemRestriction *restr, 6366087c08SValeria Barra CeedElemRestriction *restr_i); 64ded9b81dSJeremy L Thompson int SetCartesianMeshCoords(int dim, int nxyz[3], int mesh_degree, 6566087c08SValeria Barra CeedVector mesh_coords); 6666087c08SValeria Barra CeedScalar TransformMeshCoords(int dim, int mesh_size, CeedVector mesh_coords); 6766087c08SValeria Barra 6866087c08SValeria Barra 6966087c08SValeria Barra int main(int argc, const char *argv[]) { 7066087c08SValeria Barra const char *ceed_spec = "/cpu/self"; 7166087c08SValeria Barra int dim = 3; // dimension of the mesh 7266087c08SValeria Barra int ncompx = 3; // number of x components 73ded9b81dSJeremy L Thompson int mesh_degree = 4; // polynomial degree for the mesh 74ded9b81dSJeremy L Thompson int sol_degree = 4; // polynomial degree for the solution 75ded9b81dSJeremy L Thompson int num_qpts = sol_degree + 2; // number of 1D quadrature points 7666087c08SValeria Barra int prob_size = -1; // approximate problem size 7766087c08SValeria Barra int help = 0, test = 0, gallery = 0; 7866087c08SValeria Barra 7966087c08SValeria Barra // Process command line arguments. 8066087c08SValeria Barra for (int ia = 1; ia < argc; ia++) { 81ded9b81dSJeremy L Thompson // LCOV_EXCL_START 8266087c08SValeria Barra int next_arg = ((ia+1) < argc), parse_error = 0; 8366087c08SValeria Barra if (!strcmp(argv[ia],"-h")) { 8466087c08SValeria Barra help = 1; 8566087c08SValeria Barra } else if (!strcmp(argv[ia],"-c") || !strcmp(argv[ia],"-ceed")) { 8666087c08SValeria Barra parse_error = next_arg ? ceed_spec = argv[++ia], 0 : 1; 8766087c08SValeria Barra } else if (!strcmp(argv[ia],"-d")) { 8866087c08SValeria Barra parse_error = next_arg ? dim = atoi(argv[++ia]), 0 : 1; 8966087c08SValeria Barra ncompx = dim; 9066087c08SValeria Barra } else if (!strcmp(argv[ia],"-m")) { 91ded9b81dSJeremy L Thompson parse_error = next_arg ? mesh_degree = atoi(argv[++ia]), 0 : 1; 92ded9b81dSJeremy L Thompson } else if (!strcmp(argv[ia],"-p")) { 93ded9b81dSJeremy L Thompson parse_error = next_arg ? sol_degree= atoi(argv[++ia]), 0 : 1; 9466087c08SValeria Barra } else if (!strcmp(argv[ia],"-q")) { 9566087c08SValeria Barra parse_error = next_arg ? num_qpts = atoi(argv[++ia]), 0 : 1; 9666087c08SValeria Barra } else if (!strcmp(argv[ia],"-s")) { 9766087c08SValeria Barra parse_error = next_arg ? prob_size = atoi(argv[++ia]), 0 : 1; 9866087c08SValeria Barra } else if (!strcmp(argv[ia],"-t")) { 9966087c08SValeria Barra test = 1; 10066087c08SValeria Barra } else if (!strcmp(argv[ia],"-g")) { 10166087c08SValeria Barra gallery = 1; 10266087c08SValeria Barra } 10366087c08SValeria Barra if (parse_error) { 10466087c08SValeria Barra printf("Error parsing command line options.\n"); 10566087c08SValeria Barra return 1; 10666087c08SValeria Barra } 107ded9b81dSJeremy L Thompson // LCOV_EXCL_STOP 10866087c08SValeria Barra } 10966087c08SValeria Barra if (prob_size < 0) prob_size = test ? 8*16 : 256*1024; 11066087c08SValeria Barra 11166087c08SValeria Barra // Print the values of all options: 11266087c08SValeria Barra if (!test || help) { 113ded9b81dSJeremy L Thompson // LCOV_EXCL_START 11466087c08SValeria Barra printf("Selected options: [command line option] : <current value>\n"); 11566087c08SValeria Barra printf(" Ceed specification [-c] : %s\n", ceed_spec); 11666087c08SValeria Barra printf(" Mesh dimension [-d] : %d\n", dim); 117ded9b81dSJeremy L Thompson printf(" Mesh degree [-m] : %d\n", mesh_degree); 118ded9b81dSJeremy L Thompson printf(" Solution degree [-p] : %d\n", sol_degree); 11966087c08SValeria Barra printf(" Num. 1D quadr. pts [-q] : %d\n", num_qpts); 12066087c08SValeria Barra printf(" Approx. # unknowns [-s] : %d\n", prob_size); 12166087c08SValeria Barra printf(" QFunction source [-g] : %s\n", gallery?"gallery":"header"); 12266087c08SValeria Barra if (help) { 12366087c08SValeria Barra printf("Test/quiet mode is %s\n", (test?"ON":"OFF (use -t to enable)")); 12466087c08SValeria Barra return 0; 12566087c08SValeria Barra } 12666087c08SValeria Barra printf("\n"); 127ded9b81dSJeremy L Thompson // LCOV_EXCL_STOP 12866087c08SValeria Barra } 12966087c08SValeria Barra 13066087c08SValeria Barra // Select appropriate backend and logical device based on the <ceed-spec> 13166087c08SValeria Barra // command line argument. 13266087c08SValeria Barra Ceed ceed; 13366087c08SValeria Barra CeedInit(ceed_spec, &ceed); 13466087c08SValeria Barra 13566087c08SValeria Barra // Construct the mesh and solution bases. 13666087c08SValeria Barra CeedBasis mesh_basis, sol_basis; 137ded9b81dSJeremy L Thompson CeedBasisCreateTensorH1Lagrange(ceed, dim, ncompx, mesh_degree + 1, num_qpts, 13866087c08SValeria Barra CEED_GAUSS, &mesh_basis); 139ded9b81dSJeremy L Thompson CeedBasisCreateTensorH1Lagrange(ceed, dim, 1, sol_degree + 1, num_qpts, 14066087c08SValeria Barra CEED_GAUSS, &sol_basis); 14166087c08SValeria Barra 14266087c08SValeria Barra // Determine the mesh size based on the given approximate problem size. 14366087c08SValeria Barra int nxyz[dim]; 144ded9b81dSJeremy L Thompson GetCartesianMeshSize(dim, sol_degree, prob_size, nxyz); 14566087c08SValeria Barra if (!test) { 146ded9b81dSJeremy L Thompson // LCOV_EXCL_START 14766087c08SValeria Barra printf("Mesh size: nx = %d", nxyz[0]); 14866087c08SValeria Barra if (dim > 1) { printf(", ny = %d", nxyz[1]); } 14966087c08SValeria Barra if (dim > 2) { printf(", nz = %d", nxyz[2]); } 15066087c08SValeria Barra printf("\n"); 151ded9b81dSJeremy L Thompson // LCOV_EXCL_STOP 15266087c08SValeria Barra } 15366087c08SValeria Barra 15466087c08SValeria Barra // Build CeedElemRestriction objects describing the mesh and solution discrete 15566087c08SValeria Barra // representations. 15666087c08SValeria Barra CeedInt mesh_size, sol_size; 15715910d16Sjeremylt CeedElemRestriction mesh_restr, sol_restr, sol_restr_i; 158ded9b81dSJeremy L Thompson BuildCartesianRestriction(ceed, dim, nxyz, mesh_degree, ncompx, &mesh_size, 15915910d16Sjeremylt num_qpts, &mesh_restr, NULL); 160ded9b81dSJeremy L Thompson BuildCartesianRestriction(ceed, dim, nxyz, sol_degree, 1, &sol_size, 16166087c08SValeria Barra num_qpts, &sol_restr, &sol_restr_i); 16266087c08SValeria Barra if (!test) { 163e15f9bd0SJeremy L Thompson // LCOV_EXCL_START 16466087c08SValeria Barra printf("Number of mesh nodes : %d\n", mesh_size/dim); 16566087c08SValeria Barra printf("Number of solution nodes : %d\n", sol_size); 166e15f9bd0SJeremy L Thompson // LCOV_EXCL_STOP 16766087c08SValeria Barra } 16866087c08SValeria Barra 16966087c08SValeria Barra // Create a CeedVector with the mesh coordinates. 17066087c08SValeria Barra CeedVector mesh_coords; 17166087c08SValeria Barra CeedVectorCreate(ceed, mesh_size, &mesh_coords); 172ded9b81dSJeremy L Thompson SetCartesianMeshCoords(dim, nxyz, mesh_degree, mesh_coords); 17366087c08SValeria Barra 17466087c08SValeria Barra // Apply a transformation to the mesh. 17566087c08SValeria Barra CeedScalar exact_vol = TransformMeshCoords(dim, mesh_size, mesh_coords); 17666087c08SValeria Barra 177ded9b81dSJeremy L Thompson // Context data to be passed to the 'f_build_mass' QFunction. 178777ff853SJeremy L Thompson CeedQFunctionContext build_ctx; 179777ff853SJeremy L Thompson struct BuildContext build_ctx_data; 180777ff853SJeremy L Thompson build_ctx_data.dim = build_ctx_data.space_dim = dim; 181777ff853SJeremy L Thompson CeedQFunctionContextCreate(ceed, &build_ctx); 182777ff853SJeremy L Thompson CeedQFunctionContextSetData(build_ctx, CEED_MEM_HOST, CEED_USE_POINTER, 183777ff853SJeremy L Thompson sizeof(build_ctx_data), &build_ctx_data); 18466087c08SValeria Barra 185ded9b81dSJeremy L Thompson // Create the QFunction that builds the mass operator (i.e. computes its 18666087c08SValeria Barra // quadrature data) and set its context data. 18766087c08SValeria Barra CeedQFunction build_qfunc; 18866087c08SValeria Barra switch (gallery) { 18966087c08SValeria Barra case 0: 19066087c08SValeria Barra // This creates the QFunction directly. 19166087c08SValeria Barra CeedQFunctionCreateInterior(ceed, 1, f_build_mass, 19266087c08SValeria Barra f_build_mass_loc, &build_qfunc); 19366087c08SValeria Barra CeedQFunctionAddInput(build_qfunc, "dx", ncompx*dim, CEED_EVAL_GRAD); 19466087c08SValeria Barra CeedQFunctionAddInput(build_qfunc, "weights", 1, CEED_EVAL_WEIGHT); 19566087c08SValeria Barra CeedQFunctionAddOutput(build_qfunc, "qdata", 1, CEED_EVAL_NONE); 196777ff853SJeremy L Thompson CeedQFunctionSetContext(build_qfunc, build_ctx); 19766087c08SValeria Barra break; 19866087c08SValeria Barra case 1: { 19966087c08SValeria Barra // This creates the QFunction via the gallery. 20066087c08SValeria Barra char name[13] = ""; 20166087c08SValeria Barra snprintf(name, sizeof name, "Mass%dDBuild", dim); 20266087c08SValeria Barra CeedQFunctionCreateInteriorByName(ceed, name, &build_qfunc); 20366087c08SValeria Barra break; 20466087c08SValeria Barra } 20566087c08SValeria Barra } 20666087c08SValeria Barra 20766087c08SValeria Barra // Create the operator that builds the quadrature data for the mass operator. 20866087c08SValeria Barra CeedOperator build_oper; 20966087c08SValeria Barra CeedOperatorCreate(ceed, build_qfunc, CEED_QFUNCTION_NONE, 21066087c08SValeria Barra CEED_QFUNCTION_NONE, &build_oper); 211a8d32208Sjeremylt CeedOperatorSetField(build_oper, "dx", mesh_restr, mesh_basis, 212a8d32208Sjeremylt CEED_VECTOR_ACTIVE); 21315910d16Sjeremylt CeedOperatorSetField(build_oper, "weights", CEED_ELEMRESTRICTION_NONE, 21415910d16Sjeremylt mesh_basis, CEED_VECTOR_NONE); 215a8d32208Sjeremylt CeedOperatorSetField(build_oper, "qdata", sol_restr_i, CEED_BASIS_COLLOCATED, 216a8d32208Sjeremylt CEED_VECTOR_ACTIVE); 21766087c08SValeria Barra 21866087c08SValeria Barra // Compute the quadrature data for the mass operator. 21966087c08SValeria Barra CeedVector qdata; 22066087c08SValeria Barra CeedInt elem_qpts = CeedIntPow(num_qpts, dim); 22166087c08SValeria Barra CeedInt num_elem = 1; 22266087c08SValeria Barra for (int d = 0; d < dim; d++) 22366087c08SValeria Barra num_elem *= nxyz[d]; 22466087c08SValeria Barra CeedVectorCreate(ceed, num_elem*elem_qpts, &qdata); 22566087c08SValeria Barra CeedOperatorApply(build_oper, mesh_coords, qdata, 22666087c08SValeria Barra CEED_REQUEST_IMMEDIATE); 22766087c08SValeria Barra 228ded9b81dSJeremy L Thompson // Create the QFunction that defines the action of the mass operator. 22966087c08SValeria Barra CeedQFunction apply_qfunc; 23066087c08SValeria Barra switch (gallery) { 23166087c08SValeria Barra case 0: 23266087c08SValeria Barra // This creates the QFunction directly. 23366087c08SValeria Barra CeedQFunctionCreateInterior(ceed, 1, f_apply_mass, 23466087c08SValeria Barra f_apply_mass_loc, &apply_qfunc); 23566087c08SValeria Barra CeedQFunctionAddInput(apply_qfunc, "u", 1, CEED_EVAL_INTERP); 23666087c08SValeria Barra CeedQFunctionAddInput(apply_qfunc, "qdata", 1, CEED_EVAL_NONE); 23766087c08SValeria Barra CeedQFunctionAddOutput(apply_qfunc, "v", 1, CEED_EVAL_INTERP); 23866087c08SValeria Barra break; 23966087c08SValeria Barra case 1: 24066087c08SValeria Barra // This creates the QFunction via the gallery. 24166087c08SValeria Barra CeedQFunctionCreateInteriorByName(ceed, "MassApply", &apply_qfunc); 24266087c08SValeria Barra break; 24366087c08SValeria Barra } 24466087c08SValeria Barra 24566087c08SValeria Barra // Create the mass operator. 24666087c08SValeria Barra CeedOperator oper; 24766087c08SValeria Barra CeedOperatorCreate(ceed, apply_qfunc, CEED_QFUNCTION_NONE, 24866087c08SValeria Barra CEED_QFUNCTION_NONE, &oper); 249a8d32208Sjeremylt CeedOperatorSetField(oper, "u", sol_restr, sol_basis, CEED_VECTOR_ACTIVE); 250a8d32208Sjeremylt CeedOperatorSetField(oper, "qdata", sol_restr_i, CEED_BASIS_COLLOCATED, 251a8d32208Sjeremylt qdata); 252a8d32208Sjeremylt CeedOperatorSetField(oper, "v", sol_restr, sol_basis, CEED_VECTOR_ACTIVE); 25366087c08SValeria Barra 25466087c08SValeria Barra // Create auxiliary solution-size vectors. 25566087c08SValeria Barra CeedVector u, v; 25666087c08SValeria Barra CeedVectorCreate(ceed, sol_size, &u); 25766087c08SValeria Barra CeedVectorCreate(ceed, sol_size, &v); 25866087c08SValeria Barra 25966087c08SValeria Barra // Initialize 'u' and 'v' with ones. 26066087c08SValeria Barra CeedVectorSetValue(u, 1.0); 26166087c08SValeria Barra 262ded9b81dSJeremy L Thompson // Compute the mesh volume using the mass operator: vol = 1^T \cdot M \cdot 1 26366087c08SValeria Barra CeedOperatorApply(oper, u, v, CEED_REQUEST_IMMEDIATE); 26466087c08SValeria Barra 26566087c08SValeria Barra // Compute and print the sum of the entries of 'v' giving the mesh volume. 26666087c08SValeria Barra const CeedScalar *v_host; 26766087c08SValeria Barra CeedVectorGetArrayRead(v, CEED_MEM_HOST, &v_host); 26866087c08SValeria Barra CeedScalar vol = 0.; 26966087c08SValeria Barra for (CeedInt i = 0; i < sol_size; i++) { 27066087c08SValeria Barra vol += v_host[i]; 27166087c08SValeria Barra } 27266087c08SValeria Barra CeedVectorRestoreArrayRead(v, &v_host); 27366087c08SValeria Barra if (!test) { 274ded9b81dSJeremy L Thompson // LCOV_EXCL_START 27566087c08SValeria Barra printf(" done.\n"); 27666087c08SValeria Barra printf("Exact mesh volume : % .14g\n", exact_vol); 27766087c08SValeria Barra printf("Computed mesh volume : % .14g\n", vol); 27866087c08SValeria Barra printf("Volume error : % .14g\n", vol-exact_vol); 279ded9b81dSJeremy L Thompson // LCOV_EXCL_STOP 28066087c08SValeria Barra } else { 28166087c08SValeria Barra CeedScalar tol = (dim==1? 1E-14 : dim==2? 1E-7 : 1E-5); 28266087c08SValeria Barra if (fabs(vol-exact_vol)>tol) 283e15f9bd0SJeremy L Thompson // LCOV_EXCL_START 28466087c08SValeria Barra printf("Volume error : % .1e\n", vol-exact_vol); 285e15f9bd0SJeremy L Thompson // LCOV_EXCL_STOP 28666087c08SValeria Barra } 28766087c08SValeria Barra 28866087c08SValeria Barra // Free dynamically allocated memory. 28966087c08SValeria Barra CeedVectorDestroy(&u); 29066087c08SValeria Barra CeedVectorDestroy(&v); 29166087c08SValeria Barra CeedVectorDestroy(&qdata); 29266087c08SValeria Barra CeedVectorDestroy(&mesh_coords); 29366087c08SValeria Barra CeedOperatorDestroy(&oper); 29466087c08SValeria Barra CeedQFunctionDestroy(&apply_qfunc); 295777ff853SJeremy L Thompson CeedQFunctionContextDestroy(&build_ctx); 29666087c08SValeria Barra CeedOperatorDestroy(&build_oper); 29766087c08SValeria Barra CeedQFunctionDestroy(&build_qfunc); 29866087c08SValeria Barra CeedElemRestrictionDestroy(&sol_restr); 29966087c08SValeria Barra CeedElemRestrictionDestroy(&mesh_restr); 30066087c08SValeria Barra CeedElemRestrictionDestroy(&sol_restr_i); 30166087c08SValeria Barra CeedBasisDestroy(&sol_basis); 30266087c08SValeria Barra CeedBasisDestroy(&mesh_basis); 30366087c08SValeria Barra CeedDestroy(&ceed); 30466087c08SValeria Barra return 0; 30566087c08SValeria Barra } 30666087c08SValeria Barra 30766087c08SValeria Barra 308ded9b81dSJeremy L Thompson int GetCartesianMeshSize(int dim, int degree, int prob_size, int nxyz[dim]) { 30966087c08SValeria Barra // Use the approximate formula: 310ded9b81dSJeremy L Thompson // prob_size ~ num_elem * degree^dim 311ded9b81dSJeremy L Thompson CeedInt num_elem = prob_size / CeedIntPow(degree, dim); 31266087c08SValeria Barra CeedInt s = 0; // find s: num_elem/2 < 2^s <= num_elem 31366087c08SValeria Barra while (num_elem > 1) { 31466087c08SValeria Barra num_elem /= 2; 31566087c08SValeria Barra s++; 31666087c08SValeria Barra } 31766087c08SValeria Barra CeedInt r = s%dim; 31866087c08SValeria Barra for (int d = 0; d < dim; d++) { 31966087c08SValeria Barra int sd = s/dim; 32066087c08SValeria Barra if (r > 0) { sd++; r--; } 32166087c08SValeria Barra nxyz[d] = 1 << sd; 32266087c08SValeria Barra } 32366087c08SValeria Barra return 0; 32466087c08SValeria Barra } 32566087c08SValeria Barra 326ded9b81dSJeremy L Thompson int BuildCartesianRestriction(Ceed ceed, int dim, int nxyz[dim], int degree, 32766087c08SValeria Barra int ncomp, CeedInt *size, CeedInt num_qpts, 32866087c08SValeria Barra CeedElemRestriction *restr, 32966087c08SValeria Barra CeedElemRestriction *restr_i) { 330ded9b81dSJeremy L Thompson CeedInt p = degree + 1; 331ded9b81dSJeremy L Thompson CeedInt nnodes = CeedIntPow(p, dim); // number of scal. nodes per element 33266087c08SValeria Barra CeedInt elem_qpts = CeedIntPow(num_qpts, dim); // number of qpts per element 33366087c08SValeria Barra CeedInt nd[3], num_elem = 1, scalar_size = 1; 33466087c08SValeria Barra for (int d = 0; d < dim; d++) { 33566087c08SValeria Barra num_elem *= nxyz[d]; 336ded9b81dSJeremy L Thompson nd[d] = nxyz[d] * (p - 1) + 1; 33766087c08SValeria Barra scalar_size *= nd[d]; 33866087c08SValeria Barra } 33966087c08SValeria Barra *size = scalar_size*ncomp; 34066087c08SValeria Barra // elem: 0 1 n-1 34166087c08SValeria Barra // |---*-...-*---|---*-...-*---|- ... -|--...--| 34266087c08SValeria Barra // nnodes: 0 1 p-1 p p+1 2*p n*p 34366087c08SValeria Barra CeedInt *el_nodes = malloc(sizeof(CeedInt)*num_elem*nnodes); 34466087c08SValeria Barra for (CeedInt e = 0; e < num_elem; e++) { 3452d4f38ccSjeremylt CeedInt exyz[3] = {1, 1, 1}, re = e; 34666087c08SValeria Barra for (int d = 0; d < dim; d++) { exyz[d] = re % nxyz[d]; re /= nxyz[d]; } 34766087c08SValeria Barra CeedInt *loc_el_nodes = el_nodes + e*nnodes; 34866087c08SValeria Barra for (int lnodes = 0; lnodes < nnodes; lnodes++) { 34966087c08SValeria Barra CeedInt gnodes = 0, gnodes_stride = 1, rnodes = lnodes; 35066087c08SValeria Barra for (int d = 0; d < dim; d++) { 351ded9b81dSJeremy L Thompson gnodes += (exyz[d] * (p - 1) + rnodes % p) * gnodes_stride; 35266087c08SValeria Barra gnodes_stride *= nd[d]; 353ded9b81dSJeremy L Thompson rnodes /= p; 35466087c08SValeria Barra } 35566087c08SValeria Barra loc_el_nodes[lnodes] = gnodes; 35666087c08SValeria Barra } 35766087c08SValeria Barra } 358d979a051Sjeremylt CeedElemRestrictionCreate(ceed, num_elem, nnodes, ncomp, scalar_size, 359d979a051Sjeremylt ncomp * scalar_size, CEED_MEM_HOST, CEED_COPY_VALUES, 360d979a051Sjeremylt el_nodes, restr); 36115910d16Sjeremylt if (restr_i) 3627509a596Sjeremylt CeedElemRestrictionCreateStrided(ceed, num_elem, elem_qpts, 363d979a051Sjeremylt ncomp, ncomp * elem_qpts * num_elem, 364523b8ea0Sjeremylt CEED_STRIDES_BACKEND, restr_i); 36566087c08SValeria Barra free(el_nodes); 36666087c08SValeria Barra return 0; 36766087c08SValeria Barra } 36866087c08SValeria Barra 369ded9b81dSJeremy L Thompson int SetCartesianMeshCoords(int dim, int nxyz[dim], int mesh_degree, 37066087c08SValeria Barra CeedVector mesh_coords) { 371ded9b81dSJeremy L Thompson CeedInt p = mesh_degree + 1; 37266087c08SValeria Barra CeedInt nd[3], num_elem = 1, scalar_size = 1; 37366087c08SValeria Barra for (int d = 0; d < dim; d++) { 37466087c08SValeria Barra num_elem *= nxyz[d]; 375ded9b81dSJeremy L Thompson nd[d] = nxyz[d] * (p - 1) + 1; 37666087c08SValeria Barra scalar_size *= nd[d]; 37766087c08SValeria Barra } 37866087c08SValeria Barra CeedScalar *coords; 37966087c08SValeria Barra CeedVectorGetArray(mesh_coords, CEED_MEM_HOST, &coords); 380ded9b81dSJeremy L Thompson CeedScalar *nodes = malloc(sizeof(CeedScalar) * p); 38166087c08SValeria Barra // The H1 basis uses Lobatto quadrature points as nodes. 382ded9b81dSJeremy L Thompson CeedLobattoQuadrature(p, nodes, NULL); // nodes are in [-1,1] 383ded9b81dSJeremy L Thompson for (CeedInt i = 0; i < p; i++) { nodes[i] = 0.5 + 0.5 * nodes[i]; } 38466087c08SValeria Barra for (CeedInt gsnodes = 0; gsnodes < scalar_size; gsnodes++) { 38566087c08SValeria Barra CeedInt rnodes = gsnodes; 38666087c08SValeria Barra for (int d = 0; d < dim; d++) { 38766087c08SValeria Barra CeedInt d1d = rnodes % nd[d]; 388ded9b81dSJeremy L Thompson coords[gsnodes + scalar_size * d] = ((d1d / (p - 1)) + nodes[d1d % 389ded9b81dSJeremy L Thompson (p - 1)]) / nxyz[d]; 39066087c08SValeria Barra rnodes /= nd[d]; 39166087c08SValeria Barra } 39266087c08SValeria Barra } 39366087c08SValeria Barra free(nodes); 39466087c08SValeria Barra CeedVectorRestoreArray(mesh_coords, &coords); 39566087c08SValeria Barra return 0; 39666087c08SValeria Barra } 39766087c08SValeria Barra 39866087c08SValeria Barra #ifndef M_PI 39966087c08SValeria Barra #define M_PI 3.14159265358979323846 40066087c08SValeria Barra #define M_PI_2 1.57079632679489661923 40166087c08SValeria Barra #endif 40266087c08SValeria Barra 40366087c08SValeria Barra CeedScalar TransformMeshCoords(int dim, int mesh_size, CeedVector mesh_coords) { 40466087c08SValeria Barra CeedScalar exact_volume; 40566087c08SValeria Barra CeedScalar *coords; 40666087c08SValeria Barra CeedVectorGetArray(mesh_coords, CEED_MEM_HOST, &coords); 40766087c08SValeria Barra if (dim == 1) { 40866087c08SValeria Barra for (CeedInt i = 0; i < mesh_size; i++) { 40966087c08SValeria Barra // map [0,1] to [0,1] varying the mesh density 41066087c08SValeria Barra coords[i] = 0.5 + 1./sqrt(3.) * sin((2./3.) * M_PI*(coords[i] - 0.5)); 41166087c08SValeria Barra } 41266087c08SValeria Barra exact_volume = 1.; 41366087c08SValeria Barra } else { 41466087c08SValeria Barra CeedInt num_nodes = mesh_size/dim; 41566087c08SValeria Barra for (CeedInt i = 0; i < num_nodes; i++) { 41666087c08SValeria Barra // map (x,y) from [0,1]x[0,1] to the quarter annulus with polar 41766087c08SValeria Barra // coordinates, (r,phi) in [1,2]x[0,pi/2] with area = 3/4*pi 41866087c08SValeria Barra CeedScalar u = coords[i], v = coords[i+num_nodes]; 41966087c08SValeria Barra u = 1. + u; 42066087c08SValeria Barra v = M_PI_2 * v; 42166087c08SValeria Barra coords[i] = u * cos(v); 42266087c08SValeria Barra coords[i+num_nodes] = u * sin(v); 42366087c08SValeria Barra } 42466087c08SValeria Barra exact_volume = 3./4. * M_PI; 42566087c08SValeria Barra } 42666087c08SValeria Barra CeedVectorRestoreArray(mesh_coords, &coords); 42766087c08SValeria Barra return exact_volume; 42866087c08SValeria Barra } 429