| /dports/math/mfem/mfem-4.3/fem/ |
| H A D | lor.cpp | 62 const FiniteElementCollection *fec = fes_ho.FEColl(); in GetFESpaceType()
299 const FEC *fec = dynamic_cast<const FEC*>(fes.FEColl()); in CheckScalarBasisType()
317 const FEC *fec = dynamic_cast<const FEC*>(fes.FEColl()); in CheckVectorBasisType()
395 fec = fes_ho.FEColl()->Clone(GetLOROrder()); in LORDiscretization()
434 fec = fes_ho.FEColl()->Clone(GetLOROrder()); in ParLORDiscretization()
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| H A D | fespacehierarchy.cpp | 81 new FiniteElementSpace(mesh, coarseFEspace.FEColl(), dim, ordering); in AddUniformlyRefinedLevel()
147 new ParFiniteElementSpace(mesh, coarseFEspace.FEColl(), dim, ordering); in AddUniformlyRefinedLevel()
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| H A D | convergence.cpp | 116 cont_type = gf->FESpace()->FEColl()->GetContType(); in AddGf()
158 cont_type = gf->FESpace()->FEColl()->GetContType(); in AddGf()
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| H A D | tfespace.hpp | 455 const FiniteElementCollection *fec = fes.FEColl(); in Matches()
524 const FiniteElementCollection *fec = fes.FEColl(); in Matches()
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| H A D | gridfunc.cpp | 84 fec = FiniteElementCollection::New(fes->FEColl()->Name()); in GridFunction()
316 const FiniteElementCollection *fec = fes->FEColl(); in VectorDim()
734 if (fes->FEColl()->GetContType() == in GetValue()
743 << fes->FEColl()->GetContType() << "\" not supported " in GetValue()
749 if (fes->FEColl()->GetContType() == in GetValue()
758 << fes->FEColl()->GetContType() << "\" not supported " in GetValue()
765 if (fes->FEColl()->GetContType() == in GetValue()
872 if (fes->FEColl()->GetContType() == in GetVectorValue()
887 if (fes->FEColl()->GetContType() == in GetVectorValue()
903 if (fes->FEColl()->GetContType() == in GetVectorValue()
[all …]
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| H A D | tmop_tools.cpp | 74 fess = new FiniteElementSpace(fes->GetMesh(), fes->FEColl(), 1); in ComputeAtNewPositionScalar()
80 pfess = new ParFiniteElementSpace(pfes->GetParMesh(), pfes->FEColl(), 1); in ComputeAtNewPositionScalar()
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| H A D | transfer.cpp | 890 dom_fes.FEColl()->GetContType() == FiniteElementCollection::CONTINUOUS) in BuildF()
905 if (lFESpace_.FEColl() == hFESpace_.FEColl()) in TransferOperator()
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| H A D | gslib.cpp | 588 const FiniteElementCollection *fec_in = field_in.FESpace()->FEColl(); in Interpolate()
660 FiniteElementSpace ind_fes(mesh, field_in.FESpace()->FEColl()); in InterpolateH1()
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| H A D | tmop.cpp | 1326 *ptspec_fes->FEColl(), ncomp); in FinalizeParDiscreteTargetSpec()
1333 tspec_fes->FEColl(), ncomp); in FinalizeParDiscreteTargetSpec()
1397 tspec_.FESpace()->FEColl(), 1); in SetDiscreteTargetBase()
1469 *tspec_fes->FEColl(), ncomp); in FinalizeSerialDiscreteTargetSpec()
1476 tspec_fes->FEColl(), ncomp); in FinalizeSerialDiscreteTargetSpec()
2250 *zeta->FESpace()->FEColl(), 1); in EnableAdaptiveLimiting()
2267 *z0.ParFESpace()->FEColl(), 1); in EnableAdaptiveLimiting()
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| H A D | fespace.hpp | 554 const FiniteElementCollection *FEColl() const { return fec; } in FEColl() function in mfem::FiniteElementSpace
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| H A D | staticcond.cpp | 20 tr_fec = fespace->FEColl()->GetTraceCollection(); in StaticCondensation()
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| H A D | tbilinearform.hpp | 134 sol_fe(*sol_fes.FEColl()), in TBilinearForm()
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| H A D | conduitdatacollection.cpp | 826 n_field["basis"] = gf->FESpace()->FEColl()->Name(); in GridFunctionToBlueprintField()
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| /dports/math/mfem/mfem-4.3/miniapps/meshing/ |
| H A D | trimmer.cpp | 225 int order = fes->FEColl()->GetOrder(); in main()
228 dynamic_cast<const L2_FECollection*>(fes->FEColl()) != NULL; in main()
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| H A D | mesh-explorer.cpp | 218 const FiniteElementCollection *fec = fes->FEColl(); in skin_mesh()
355 cout << mesh->GetNodalFESpace()->FEColl()->Name() << endl; in main()
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| /dports/math/mfem/mfem-4.3/mesh/ |
| H A D | tmesh.hpp | 48 fe(*fes.FEColl()), t_fes(fe, fes), node_layout(fes) in TMesh()
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| /dports/science/axom/axom-0.6.1/src/axom/quest/detail/ |
| H A D | PointInCellMeshWrapper_mfem.hpp | 306 const mfem::FiniteElementCollection* nodalFEColl = nodalFESpace->FEColl(); in computeHighOrderBoundingBoxes()
352 << positiveNodes->FESpace()->FEColl()->Name() in computeHighOrderBoundingBoxes()
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| /dports/math/mfem/mfem-4.3/miniapps/shifted/ |
| H A D | dist_solver.cpp | 114 ParFiniteElementSpace pfes_s(pfes.GetParMesh(), pfes.FEColl()); in ComputeVectorDistance()
126 auto check_h1 = dynamic_cast<const H1_FECollection *>(pfes.FEColl()); in ComputeScalarDistance()
264 ParFiniteElementSpace fespace_vec(&pmesh, pfes.FEColl(), in ComputeScalarDistance()
288 auto check_h1 = dynamic_cast<const H1_FECollection *>(fesd->FEColl()); in ComputeScalarDistance()
289 auto check_l2 = dynamic_cast<const L2_FECollection *>(fesd->FEColl()); in ComputeScalarDistance()
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| /dports/science/ascent/ascent-0.7.1-66-gbcf2742a/src/ascent/runtimes/ |
| H A D | ascent_mfem_data_adapter.cpp | 310 const mfem::FiniteElementCollection *ho_fes_col = ho_fes_space->FEColl(); in Linearize()
324 std::string basis(ho_gf->FESpace()->FEColl()->Name()); in Linearize()
386 n_field["basis"] = gf->FESpace()->FEColl()->Name(); in GridFunctionToBlueprintField()
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| /dports/science/axom/axom-0.6.1/src/axom/sidre/examples/ |
| H A D | sidre_mfem_datacollection_restart.cpp | 167 m_fecoll = m_fespace->FEColl(); in reloadSim()
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| /dports/math/mfem/mfem-4.3/miniapps/gslib/ |
| H A D | field-diff.cpp | 211 FiniteElementSpace m1_fes(&mesh_1, mesh_1.GetNodes()->FESpace()->FEColl()); in main()
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| H A D | field-interp.cpp | 196 const FiniteElementCollection *fec_in = func_source->FESpace()->FEColl(); in main()
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| /dports/math/mfem/mfem-4.3/general/ |
| H A D | adios2stream.cpp | 581 Ordering::byVDIM, std::string(fes->FEColl()->Name())); in Save()
645 std::string(fes->FEColl()->Name()) ); in Save()
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| /dports/science/axom/axom-0.6.1/src/axom/quest/tests/ |
| H A D | quest_point_in_cell_mfem.cpp | 643 EXPECT_EQ(feCollName, m_mesh->GetNodalFESpace()->FEColl()->Name()); in setupTestMesh()
847 EXPECT_EQ(feCollName, m_mesh->GetNodalFESpace()->FEColl()->Name()); in setupTestMesh()
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| /dports/science/ascent/ascent-0.7.1-66-gbcf2742a/src/examples/proxies/laghos/serial/ |
| H A D | laghos_solver_s.cpp | 73 H1compFESpace(h1_fes.GetMesh(), h1_fes.FEColl(), 1), in LagrangianHydroOperator()
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