/// @file /// Test assembly of mass matrix operator QFunction at points /// \test Test assembly of mass matrix operator QFunction at points #include #include #include #include #include "t591-operator.h" int main(int argc, char **argv) { Ceed ceed; CeedInt num_elem_1d = 3, num_elem = num_elem_1d * num_elem_1d, dim = 2, p = 3, q = 5; CeedInt num_nodes = (num_elem_1d * (p - 1) + 1) * (num_elem_1d * (p - 1) + 1), num_points_per_elem = 4, num_points = num_elem * num_points_per_elem; CeedVector x_points, x_elem, q_data, u, v, qf_assembled; CeedElemRestriction elem_restriction_x_points, elem_restriction_q_data, elem_restriction_x, elem_restriction_u, elem_restriction_assembled; CeedBasis basis_x, basis_u; CeedQFunction qf_setup, qf_mass; CeedOperator op_setup, op_mass; bool is_at_points; CeedInit(argv[1], &ceed); // Point reference coordinates CeedVectorCreate(ceed, dim * num_points, &x_points); { CeedScalar x_array[dim * num_points]; for (CeedInt e = 0; e < num_elem; e++) { for (CeedInt d = 0; d < dim; d++) { x_array[num_points_per_elem * (e * dim + d) + 0] = 0.25; x_array[num_points_per_elem * (e * dim + d) + 1] = d == 0 ? -0.25 : 0.25; x_array[num_points_per_elem * (e * dim + d) + 2] = d == 0 ? 0.25 : -0.25; x_array[num_points_per_elem * (e * dim + d) + 3] = 0.25; } } CeedVectorSetArray(x_points, CEED_MEM_HOST, CEED_COPY_VALUES, x_array); } { CeedInt ind_x[num_elem + 1 + num_points]; for (CeedInt i = 0; i <= num_elem; i++) ind_x[i] = num_elem + 1 + i * num_points_per_elem; for (CeedInt i = 0; i < num_points; i++) ind_x[num_elem + 1 + i] = i; CeedElemRestrictionCreateAtPoints(ceed, num_elem, num_points, dim, num_points * dim, CEED_MEM_HOST, CEED_COPY_VALUES, ind_x, &elem_restriction_x_points); CeedElemRestrictionCreateAtPoints(ceed, num_elem, num_points, 1, num_points, CEED_MEM_HOST, CEED_COPY_VALUES, ind_x, &elem_restriction_q_data); } // Q data CeedVectorCreate(ceed, num_points, &q_data); // Cell coordinates { CeedInt p = 2, num_nodes = (num_elem_1d * (p - 1) + 1) * (num_elem_1d * (p - 1) + 1); CeedInt ind_x[num_elem * p * p]; for (CeedInt e = 0; e < num_elem; e++) { CeedInt elem_xy[2] = {1, 1}, n_d[2] = {0, 0}; for (CeedInt d = 0; d < dim; d++) n_d[d] = num_elem_1d * (p - 1) + 1; { CeedInt r_e = e; for (CeedInt d = 0; d < dim; d++) { elem_xy[d] = r_e % num_elem_1d; r_e /= num_elem_1d; } } CeedInt num_nodes_in_elem = p * p, *elem_nodes = ind_x + e * num_nodes_in_elem; for (CeedInt n = 0; n < num_nodes_in_elem; n++) { CeedInt g_node = 0, g_node_stride = 1, r_node = n; for (CeedInt d = 0; d < dim; d++) { g_node += (elem_xy[d] * (p - 1) + r_node % p) * g_node_stride; g_node_stride *= n_d[d]; r_node /= p; } elem_nodes[n] = p * g_node; } } CeedElemRestrictionCreate(ceed, num_elem, p * p, dim, 1, dim * num_nodes, CEED_MEM_HOST, CEED_COPY_VALUES, ind_x, &elem_restriction_x); CeedVectorCreate(ceed, dim * num_nodes, &x_elem); { CeedScalar x_array[dim * num_nodes]; for (CeedInt i = 0; i <= num_elem_1d; i++) { for (CeedInt j = 0; j <= num_elem_1d; j++) { x_array[(i * (num_elem_1d + 1) + j) * dim + 0] = j; x_array[(i * (num_elem_1d + 1) + j) * dim + 1] = i; } } CeedVectorSetArray(x_elem, CEED_MEM_HOST, CEED_COPY_VALUES, x_array); } } CeedBasisCreateTensorH1Lagrange(ceed, dim, dim, 2, q, CEED_GAUSS, &basis_x); // Cell solution { CeedInt ind_u[num_elem * p * p]; for (CeedInt e = 0; e < num_elem; e++) { CeedInt elem_xy[2] = {1, 1}, n_d[2] = {0, 0}; for (CeedInt d = 0; d < dim; d++) n_d[d] = num_elem_1d * (p - 1) + 1; { CeedInt r_e = e; for (CeedInt d = 0; d < dim; d++) { elem_xy[d] = r_e % num_elem_1d; r_e /= num_elem_1d; } } CeedInt num_nodes_in_elem = p * p, *elem_nodes = ind_u + e * num_nodes_in_elem; for (CeedInt n = 0; n < num_nodes_in_elem; n++) { CeedInt g_node = 0, g_node_stride = 1, r_node = n; for (CeedInt d = 0; d < dim; d++) { g_node += (elem_xy[d] * (p - 1) + r_node % p) * g_node_stride; g_node_stride *= n_d[d]; r_node /= p; } elem_nodes[n] = g_node; } } CeedElemRestrictionCreate(ceed, num_elem, p * p, 1, 1, num_nodes, CEED_MEM_HOST, CEED_COPY_VALUES, ind_u, &elem_restriction_u); } CeedBasisCreateTensorH1Lagrange(ceed, dim, 1, p, q, CEED_GAUSS, &basis_u); // Setup geometric scaling CeedQFunctionCreateInterior(ceed, 1, setup, setup_loc, &qf_setup); CeedQFunctionAddInput(qf_setup, "x", dim * dim, CEED_EVAL_GRAD); CeedQFunctionAddInput(qf_setup, "weight", 1, CEED_EVAL_WEIGHT); CeedQFunctionAddOutput(qf_setup, "rho", 1, CEED_EVAL_NONE); CeedOperatorCreateAtPoints(ceed, qf_setup, CEED_QFUNCTION_NONE, CEED_QFUNCTION_NONE, &op_setup); CeedOperatorSetField(op_setup, "x", elem_restriction_x, basis_x, CEED_VECTOR_ACTIVE); CeedOperatorSetField(op_setup, "weight", CEED_ELEMRESTRICTION_NONE, basis_x, CEED_VECTOR_NONE); CeedOperatorSetField(op_setup, "rho", elem_restriction_q_data, CEED_BASIS_NONE, CEED_VECTOR_ACTIVE); CeedOperatorAtPointsSetPoints(op_setup, elem_restriction_x_points, x_points); CeedOperatorApply(op_setup, x_elem, q_data, CEED_REQUEST_IMMEDIATE); // Mass operator CeedQFunctionCreateInterior(ceed, 1, mass, mass_loc, &qf_mass); CeedQFunctionAddInput(qf_mass, "u", 1, CEED_EVAL_INTERP); CeedQFunctionAddInput(qf_mass, "rho", 1, CEED_EVAL_NONE); CeedQFunctionAddOutput(qf_mass, "v", 1, CEED_EVAL_INTERP); CeedOperatorCreateAtPoints(ceed, qf_mass, CEED_QFUNCTION_NONE, CEED_QFUNCTION_NONE, &op_mass); CeedOperatorSetField(op_mass, "u", elem_restriction_u, basis_u, CEED_VECTOR_ACTIVE); CeedOperatorSetField(op_mass, "rho", elem_restriction_q_data, CEED_BASIS_NONE, q_data); CeedOperatorSetField(op_mass, "v", elem_restriction_u, basis_u, CEED_VECTOR_ACTIVE); CeedOperatorAtPointsSetPoints(op_mass, elem_restriction_x_points, x_points); CeedOperatorIsAtPoints(op_mass, &is_at_points); if (!is_at_points) printf("Error: Operator should be at points\n"); CeedVectorCreate(ceed, num_nodes, &u); CeedVectorSetValue(u, 1.0); CeedVectorCreate(ceed, num_nodes, &v); // Assemble QFunction CeedOperatorSetQFunctionAssemblyReuse(op_mass, true); CeedOperatorSetQFunctionAssemblyDataUpdateNeeded(op_mass, true); CeedOperatorLinearAssembleQFunction(op_mass, &qf_assembled, &elem_restriction_assembled, CEED_REQUEST_IMMEDIATE); // Check output { const CeedScalar *assembled_array, *q_data_array; CeedVectorGetArrayRead(qf_assembled, CEED_MEM_HOST, &assembled_array); CeedVectorGetArrayRead(q_data, CEED_MEM_HOST, &q_data_array); for (CeedInt i = 0; i < num_points; i++) { if (fabs(q_data_array[i] - assembled_array[i]) > 1e-9) { // LCOV_EXCL_START printf("Error: qf_assembled[%" CeedInt_FMT "] = %f != %f\n", i, assembled_array[i], q_data_array[i]); // LCOV_EXCL_STOP } } CeedVectorRestoreArrayRead(qf_assembled, &assembled_array); CeedVectorRestoreArrayRead(q_data, &q_data_array); } // Apply original Mass Operator CeedVectorSetValue(u, 1.0); CeedOperatorApply(op_mass, u, v, CEED_REQUEST_IMMEDIATE); // Check output { const CeedScalar *v_array; CeedScalar area = 0.0; CeedVectorGetArrayRead(v, CEED_MEM_HOST, &v_array); for (CeedInt i = 0; i < num_nodes; i++) area += v_array[i]; if (fabs(area - 1.0 * num_elem) > CEED_EPSILON * 5e3) printf("Error: True operator computed area = %f != 1.0\n", area); CeedVectorRestoreArrayRead(v, &v_array); } // Switch to new q_data { const CeedScalar *assembled_array; CeedVectorGetArrayRead(qf_assembled, CEED_MEM_HOST, &assembled_array); CeedVectorSetArray(q_data, CEED_MEM_HOST, CEED_COPY_VALUES, (CeedScalar *)assembled_array); CeedVectorRestoreArrayRead(qf_assembled, &assembled_array); } // Apply new Mass Operator CeedOperatorApply(op_mass, u, v, CEED_REQUEST_IMMEDIATE); // Check output { const CeedScalar *v_array; CeedScalar area = 0.0; CeedVectorGetArrayRead(v, CEED_MEM_HOST, &v_array); for (CeedInt i = 0; i < num_nodes; i++) area += v_array[i]; CeedVectorRestoreArrayRead(v, &v_array); if (fabs(area - 1.0 * num_elem) > CEED_EPSILON * 5e3) printf("Error: Linearized operator computed area = %f != 1.0\n", area); } // Cleanup CeedVectorDestroy(&qf_assembled); CeedVectorDestroy(&q_data); CeedVectorDestroy(&u); CeedVectorDestroy(&v); CeedVectorDestroy(&x_points); CeedVectorDestroy(&q_data); CeedVectorDestroy(&x_elem); CeedElemRestrictionDestroy(&elem_restriction_q_data); CeedElemRestrictionDestroy(&elem_restriction_x); CeedElemRestrictionDestroy(&elem_restriction_x_points); CeedElemRestrictionDestroy(&elem_restriction_u); CeedElemRestrictionDestroy(&elem_restriction_assembled); CeedBasisDestroy(&basis_x); CeedBasisDestroy(&basis_u); CeedQFunctionDestroy(&qf_setup); CeedQFunctionDestroy(&qf_mass); CeedOperatorDestroy(&op_setup); CeedOperatorDestroy(&op_mass); CeedDestroy(&ceed); return 0; }