| /dports/math/mfem/mfem-4.3/fem/ |
| H A D | quadinterpolator.cpp | 27 q_layout(QVectorLayout::byNODES), in QuadratureInterpolator()
43 q_layout(QVectorLayout::byNODES), in QuadratureInterpolator()
95 auto val = q_layout == QVectorLayout::byNODES ? in Eval2D()
98 auto der = q_layout == QVectorLayout::byNODES ? in Eval2D()
163 if (q_layout == QVectorLayout::byNODES) in Eval2D()
189 if (q_layout == QVectorLayout::byNODES) in Eval2D()
243 auto val = q_layout == QVectorLayout::byNODES ? in Eval3D()
246 auto der = q_layout == QVectorLayout::byNODES ? in Eval3D()
314 if (q_layout == QVectorLayout::byNODES) in Eval3D()
404 if (q_layout == QVectorLayout::byNODES) in Mult()
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| H A D | fespace.hpp | 34 byNODES, /**< loop first over the nodes (inner loop) then over the vector enumerator
50 Ordering::Map<Ordering::byNODES>(int ndofs, int vdim, int dof, int vd) in Map()
355 int vdim = 1, int ordering = Ordering::byNODES);
397 int vdim = 1, int ordering = Ordering::byNODES) in FiniteElementSpace()
406 int vdim = 1, int ordering = Ordering::byNODES) in FiniteElementSpace()
664 { return (ordering == Ordering::byNODES) ? (vdof%ndofs) : (vdof/vdim); } in VDofToDof()
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| H A D | nonlininteg_vectorconvection_mf.cpp | 22 MFEM_ASSERT(fes.GetOrdering() == Ordering::byNODES, in AssembleMF()
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| H A D | quadinterpolator.hpp | 23 byNODES, ///< NQPT x VDIM x NE (values) / NQPT x VDIM x DIM x NE (grads) enumerator
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| H A D | pfespace.hpp | 251 int dim = 1, int ordering = Ordering::byNODES);
261 int dim = 1, int ordering = Ordering::byNODES);
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| H A D | conduitdatacollection.cpp | 526 Ordering::Type ordering = Ordering::byNODES; in BlueprintFieldToGridFunction()
843 int entry_stride = (ordering == Ordering::byNODES ? 1 : vdim); in GridFunctionToBlueprintField()
844 int vdim_stride = (ordering == Ordering::byNODES ? ndofs : 1); in GridFunctionToBlueprintField()
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| H A D | fespace.cpp | 29 DofsToVDofs<Ordering::byNODES>(int ndofs, int vdim, Array<int> &dofs) in DofsToVDofs()
38 dofs[i+size*vd] = Map<byNODES>(ndofs, vdim, dofs[i], vd); in DofsToVDofs()
60 : mesh(NULL), fec(NULL), vdim(0), ordering(Ordering::byNODES), in FiniteElementSpace()
181 if (ordering == Ordering::byNODES) in GetVDofs()
185 dofs[i] = Ordering::Map<Ordering::byNODES>(ndofs, vdim, i, vd); in GetVDofs()
202 if (ordering == Ordering::byNODES) in DofsToVDofs()
204 Ordering::DofsToVDofs<Ordering::byNODES>(ndofs, vdim, dofs); in DofsToVDofs()
217 if (ordering == Ordering::byNODES) in DofsToVDofs()
221 dofs[i] = Ordering::Map<Ordering::byNODES>(ndofs, vdim, dofs[i], vd); in DofsToVDofs()
238 if (ordering == Ordering::byNODES) in DofToVDof()
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| /dports/math/mfem/mfem-4.3/miniapps/common/ |
| H A D | fem_extras.hpp | 34 int vdim = 1, int order = Ordering::byNODES);
48 int vdim = 1, int order = Ordering::byNODES);
62 int vdim = 1, int order = Ordering::byNODES);
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| H A D | pfem_extras.hpp | 37 int vdim = 1, int order = Ordering::byNODES);
51 int vdim = 1, int order = Ordering::byNODES);
65 int vdim = 1, int order = Ordering::byNODES);
79 int vdim = 1, int order = Ordering::byNODES);
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| /dports/math/mfem/mfem-4.3/fem/qinterp/ |
| H A D | eval.hpp | 50 auto y = Q_LAYOUT == QVectorLayout::byNODES ? in Values2D()
86 if (Q_LAYOUT == QVectorLayout::byNODES) { y(qx,qy,c,e) = u; } in Values2D()
112 auto y = Q_LAYOUT == QVectorLayout:: byNODES ? in Values3D()
151 if (Q_LAYOUT == QVectorLayout::byNODES) { y(qx,qy,qz,c,e) = u; } in Values3D()
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| H A D | grad.hpp | 53 auto y = Q_LAYOUT == QVectorLayout:: byNODES ? in Derivatives2D()
126 if (Q_LAYOUT == QVectorLayout::byNODES) in Derivatives2D()
160 auto y = Q_LAYOUT == QVectorLayout:: byNODES ? in Derivatives3D()
268 if (Q_LAYOUT == QVectorLayout::byNODES) in Derivatives3D()
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| H A D | grad_phys_by_nodes.cpp | 28 void TensorPhysDerivatives<QVectorLayout::byNODES>(const int NE, in TensorPhysDerivatives()
48 constexpr QVectorLayout L = QVectorLayout::byNODES; in TensorPhysDerivatives()
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| H A D | eval_by_nodes.cpp | 28 void TensorValues<QVectorLayout::byNODES>(const int NE, in TensorValues()
42 constexpr QVectorLayout L = QVectorLayout::byNODES; in TensorValues()
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| H A D | grad_by_nodes.cpp | 27 void TensorDerivatives<QVectorLayout::byNODES>(const int NE, in TensorDerivatives()
43 constexpr QVectorLayout L = QVectorLayout::byNODES; in TensorDerivatives()
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| /dports/math/mfem/mfem-4.3/examples/ |
| H A D | ex18.cpp | 146 FiniteElementSpace dfes(&mesh, &fec, dim, Ordering::byNODES); in main()
148 FiniteElementSpace vfes(&mesh, &fec, num_equation, Ordering::byNODES); in main()
151 MFEM_ASSERT(fes.GetOrdering() == Ordering::byNODES, ""); in main()
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| H A D | ex18p.cpp | 167 ParFiniteElementSpace dfes(&pmesh, &fec, dim, Ordering::byNODES); in main()
169 ParFiniteElementSpace vfes(&pmesh, &fec, num_equation, Ordering::byNODES); in main()
172 MFEM_ASSERT(fes.GetOrdering() == Ordering::byNODES, ""); in main()
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| /dports/math/mfem/mfem-4.3/tests/unit/fem/ |
| H A D | test_quadinterpolator.cpp | 30 << ",l=" << (q_layout == QVectorLayout::byNODES ? in testQuadratureInterpolator()
40 const int ordering = Ordering::byNODES; in testQuadratureInterpolator()
248 const auto l = GENERATE(QVectorLayout::byNODES, QVectorLayout::byVDIM);
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| H A D | test_derefine.cpp | 56 mesh.SetCurvature(std::max(order,1), false, dimension, Ordering::byNODES);
143 mesh.SetCurvature(std::max(order,1), false, dimension, Ordering::byNODES);
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| /dports/math/mfem/mfem-4.3/mesh/ |
| H A D | tmesh.hpp | 25 VectorLayout<Ordering::byNODES,FESpace::FE_type::dim> >
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| /dports/math/mfem/mfem-4.3/miniapps/gslib/ |
| H A D | field-diff.cpp | 84 { mesh_1.SetCurvature(mesh_poly_deg, false, dim, Ordering::byNODES); } in main()
86 { mesh_2.SetCurvature(mesh_poly_deg, false, dim, Ordering::byNODES); } in main()
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| H A D | schwarz_ex1.cpp | 167 mesharr[0]->SetCurvature(order, false, dim, Ordering::byNODES); in main()
169 mesharr[1]->SetCurvature(order, false, dim, Ordering::byNODES); in main()
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| /dports/math/mfem/mfem-4.3/miniapps/performance/ |
| H A D | ex1p.cpp | 192 mesh->SetCurvature(mesh_p, false, -1, Ordering::byNODES); in main()
217 mesh->SetCurvature(new_mesh_p, false, -1, Ordering::byNODES); in main()
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| /dports/math/mfem/mfem-4.3/miniapps/meshing/ |
| H A D | minimal-surface.cpp | 186 SetCurvature(opt.order, false, SDIM, Ordering::byNODES); in Prefix()
193 SetCurvature(opt.order, false, SDIM, Ordering::byNODES); in Postfix()
508 SetCurvature(opt.order, false, SDIM, Ordering::byNODES); in Prefix()
597 SetCurvature(opt.order, false, SDIM, Ordering::byNODES); in Prefix()
806 SetCurvature(opt.order, false, SDIM, Ordering::byNODES); in Prefix()
926 SetCurvature(opt.order, false, SDIM, Ordering::byNODES); in Prefix()
1225 mesh.SetCurvature(opt.order, false, DIM, Ordering::byNODES); in Problem1()
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| H A D | pminimal-surface.cpp | 186 SetCurvature(opt.order, false, SDIM, Ordering::byNODES); in Prefix()
193 SetCurvature(opt.order, false, SDIM, Ordering::byNODES); in Postfix()
515 SetCurvature(opt.order, false, SDIM, Ordering::byNODES); in Prefix()
604 SetCurvature(opt.order, false, SDIM, Ordering::byNODES); in Prefix()
813 SetCurvature(opt.order, false, SDIM, Ordering::byNODES); in Prefix()
933 SetCurvature(opt.order, false, SDIM, Ordering::byNODES); in Prefix()
1232 smesh.SetCurvature(opt.order, false, DIM, Ordering::byNODES); in Problem1()
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| /dports/science/ascent/ascent-0.7.1-66-gbcf2742a/src/ascent/runtimes/ |
| H A D | ascent_mfem_data_adapter.cpp | 406 int entry_stride = (ordering == mfem::Ordering::byNODES ? 1 : vdim); in GridFunctionToBlueprintField()
407 int vdim_stride = (ordering == mfem::Ordering::byNODES ? ndofs : 1); in GridFunctionToBlueprintField()
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