NumProcLinearHyperbolic (shared_ptr<PDE> apde, const Flags & flags) : NumProc (apde), timer_element("convection - time element"), timer_facet("convection - time facet"), timer_mass("convection - time mass") { gfu = apde->GetGridFunction (flags.GetStringFlag ("gridfunction", "u")); cfflow = apde->GetCoefficientFunction (flags.GetStringFlag ("flow", "flow")); dt = flags.GetNumFlag ("dt", 0.001); tend = flags.GetNumFlag ("tend", 1); }
NumProc :: NumProc (weak_ptr<PDE> apde, const Flags & flags) : NGS_Object (shared_ptr<PDE> (apde)->GetMeshAccess(int(flags.GetNumFlag("mesh",1))-1), "numproc"), pde(apde) { if (flags.StringFlagDefined ("name")) SetName (flags.GetStringFlag ("name","")); }
MyVTKOutput<D>::MyVTKOutput(const Array<shared_ptr<CoefficientFunction>> & a_coefs, const Flags & flags, shared_ptr<MeshAccess> ama) : MyVTKOutput(ama, a_coefs, flags.GetStringListFlag("fieldnames" ), flags.GetStringFlag("filename","output"), (int) flags.GetNumFlag("subdivision", 0), (int) flags.GetNumFlag("only_element", -1), flags.GetDefineFlag("nocache")) {;}
NumProcFluxError ( shared_ptr<PDE> apde, const Flags & flags) : NumProc(apde) { fes = GetPDE()->GetFESpace(flags.GetStringFlag("fespace",NULL)); ext = GetPDE()->GetFESpace(flags.GetStringFlag("extensionspace",NULL)); hdivip = GetPDE()->GetBilinearForm(flags.GetStringFlag("hdivproduct",NULL)); q = GetPDE()->GetGridFunction(flags.GetStringFlag("discreteq",NULL)); Q = GetPDE()->GetGridFunction(flags.GetStringFlag("exactq",NULL)); err = GetPDE()->GetGridFunction(flags.GetStringFlag("errorsquareq",NULL)); }
NumProcEnergyCalc :: NumProcEnergyCalc (PDE & apde, const Flags & flags) : NumProc (apde), point(1) { bfa = pde.GetBilinearForm (flags.GetStringFlag ("bilinearform", ""), 1); lff = pde.GetLinearForm (flags.GetStringFlag ("linearform", ""), 1); gfu = pde.GetGridFunction (flags.GetStringFlag ("gridfunction", ""), 0); gfu0 = pde.GetGridFunction (flags.GetStringFlag ("gridfunction0", ""), 0); gfv = pde.GetGridFunction (flags.GetStringFlag ("gridfunction2", ""), 1); pqrfile = flags.GetStringFlag ("pqrfile","pqr"); showsteps = flags.GetStringFlag (flags.GetStringFlag ("showsteps", ""), 0); readMolecule(); variablename = flags.GetStringFlag ("resultvariable", ""); point.SetSize(3); if (flags.NumListFlagDefined ("point")) { const Array<double> & p = flags.GetNumListFlag ("point"); point.SetSize(p.Size()); for (int i = 0; i < p.Size(); i++) point(i) = p[i]; cout << "point = " << point << endl; } integrateonplanes = flags.GetDefineFlag("integrateonplanes"); variabledirection = static_cast<int>(flags.GetNumFlag("variabledirection",0))-1; n[0] = static_cast<int>(flags.GetNumFlag("n1",0)); n[1] = static_cast<int>(flags.GetNumFlag("n2",0)); n[2] = static_cast<int>(flags.GetNumFlag("n3",0)); text = flags.GetStringFlag ("text","energydiff"); if(flags.StringFlagDefined("filename")) filename = pde.GetDirectory() + dirslash + flags.GetStringFlag("filename",""); else filename = "err.out"; applyd = flags.GetDefineFlag ("applyd"); hermitsch = flags.GetDefineFlag ("hermitsch"); outputprecision = (pde.ConstantUsed("outputprecision")) ? int(pde.GetConstant("outputprecision")) : -1; if(flags.NumFlagDefined("outputprecision")) outputprecision = int(flags.GetNumFlag("outputprecision",-1)); component = static_cast<int>(flags.GetNumFlag("cachecomp",1))-1; }
NumProc :: NumProc (const Flags & flags) : NGS_Object (nullptr, "numproc") { if (flags.StringFlagDefined ("name")) SetName (flags.GetStringFlag ("name","")); }
NumProcSumUp (PDE & apde, const Flags & flags) : NumProc (apde) { gfu = pde.GetGridFunction (flags.GetStringFlag ("gridfunction", "u")); }