docs/plugins/inflow__fv1_8h_source.html

/*

 * Copyright (c) 2013:  G-CSC, Goethe University Frankfurt

 * Author: Andreas Vogel

 *

 * This file is part of UG4.

 *

 * UG4 is free software: you can redistribute it and/or modify it under the

 * terms of the GNU Lesser General Public License version 3 (as published by the

 * Free Software Foundation) with the following additional attribution

 * requirements (according to LGPL/GPL v3 §7):

 *

 * (1) The following notice must be displayed in the Appropriate Legal Notices

 * of covered and combined works: "Based on UG4 (www.ug4.org/license)".

 *

 * (2) The following notice must be displayed at a prominent place in the

 * terminal output of covered works: "Based on UG4 (www.ug4.org/license)".

 *

 * (3) The following bibliography is recommended for citation and must be

 * preserved in all covered files:

 * "Reiter, S., Vogel, A., Heppner, I., Rupp, M., and Wittum, G. A massively

 *   parallel geometric multigrid solver on hierarchically distributed grids.

 *   Computing and visualization in science 16, 4 (2013), 151-164"

 * "Vogel, A., Reiter, S., Rupp, M., Nägel, A., and Wittum, G. UG4 -- a novel

 *   flexible software system for simulating pde based models on high performance

 *   computers. Computing and visualization in science 16, 4 (2013), 165-179"

 *

 * This program is distributed in the hope that it will be useful,

 * but WITHOUT ANY WARRANTY; without even the implied warranty of

 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the

 * GNU Lesser General Public License for more details.

 */


#ifndef __H__UG__NAVIER_STOKES__INCOMPRESSIBLE__FV1__BND__INFLOW_FV1__

#define __H__UG__NAVIER_STOKES__INCOMPRESSIBLE__FV1__BND__INFLOW_FV1__


#include "../../bnd/inflow_base.h"

#include "../navier_stokes_fv1.h"


#include "lib_disc/spatial_disc/elem_disc/neumann_boundary/neumann_boundary_base.h"

#include "lib_disc/spatial_disc/constraints/dirichlet_boundary/lagrange_dirichlet_boundary.h"


namespace ug{

namespace NavierStokes{


template <  typename TDomain, typename TAlgebra>


class NavierStokesInflowFV1

  : public NavierStokesInflowBase<TDomain, TAlgebra>

{

  private:

    static const int dim = TDomain::dim;


  public:

    virtual size_t num_elem_disc() const {return 1;}


    virtual SmartPtr<IElemDisc<TDomain> > elem_disc(size_t i) {return m_spNeumannDisc;}


    virtual size_t num_constraint() const {return 1;}


    virtual SmartPtr<IDomainConstraint<TDomain, TAlgebra> > constraint(size_t i) {return m_spDirichletConstraint;}


  public:

    NavierStokesInflowFV1(SmartPtr< NavierStokesFV1<TDomain> > spMaster);


    void add(SmartPtr<CplUserData<MathVector<dim>, dim> > user, const char* subsetsBND);


  protected:

    SmartPtr<NeumannBoundaryBase<TDomain> > m_spNeumannDisc;


    SmartPtr<DirichletBoundary<TDomain,TAlgebra> > m_spDirichletConstraint;


    SmartPtr< NavierStokesFV1<TDomain> > m_spMaster;

};

class NavierStokesInflowFV1 {…};


} // namespace NavierStokes

} // end namespace ug


#include "inflow_fv1_impl.h"


#endif /* __H__UG__NAVIER_STOKES__INCOMPRESSIBLE__FV1__BND__INFLOW_FV1__ */

NavierStokes
function NavierStokes(fcts, subsets, discType)

SmartPtr

ug::CplUserData

ug::MathVector

ug::NavierStokes::NavierStokesFV1
Finite Volume Element Discretization for the incompressible Navier-Stokes Equation.
Definition navier_stokes_fv1.h:148

ug::NavierStokes::NavierStokesInflowBase
Definition inflow_base.h:44

ug::NavierStokes::NavierStokesInflowFV1
Definition inflow_fv1.h:48

ug::NavierStokes::NavierStokesInflowFV1::constraint
virtual SmartPtr< IDomainConstraint< TDomain, TAlgebra > > constraint(size_t i)
returns an element disc
Definition inflow_fv1.h:63

ug::NavierStokes::NavierStokesInflowFV1::dim
static const int dim
Definition inflow_fv1.h:50

ug::NavierStokes::NavierStokesInflowFV1::m_spMaster
SmartPtr< NavierStokesFV1< TDomain > > m_spMaster
The master discretization:
Definition inflow_fv1.h:80

ug::NavierStokes::NavierStokesInflowFV1::m_spNeumannDisc
SmartPtr< NeumannBoundaryBase< TDomain > > m_spNeumannDisc
neumann disc for pressure equation
Definition inflow_fv1.h:74

ug::NavierStokes::NavierStokesInflowFV1::num_elem_disc
virtual size_t num_elem_disc() const
returns the number of element discs
Definition inflow_fv1.h:54

ug::NavierStokes::NavierStokesInflowFV1::m_spDirichletConstraint
SmartPtr< DirichletBoundary< TDomain, TAlgebra > > m_spDirichletConstraint
dirichlet disc for velocity components
Definition inflow_fv1.h:77

ug::NavierStokes::NavierStokesInflowFV1::add
void add(SmartPtr< CplUserData< MathVector< dim >, dim > > user, const char *subsetsBND)
sets the velocity to a given value
Definition inflow_fv1_impl.h:59

ug::NavierStokes::NavierStokesInflowFV1::num_constraint
virtual size_t num_constraint() const
returns the number of constraints
Definition inflow_fv1.h:60

ug::NavierStokes::NavierStokesInflowFV1::elem_disc
virtual SmartPtr< IElemDisc< TDomain > > elem_disc(size_t i)
returns the element disc
Definition inflow_fv1.h:57

inflow_fv1_impl.h

lagrange_dirichlet_boundary.h

ug

neumann_boundary_base.h