This processing module calculates the vorticity and adds it as an extra-field to the output file. More...

#include <ProcessNumModes.h>

Inheritance diagram for Nektar::Utilities::ProcessNumModes:

Collaboration diagram for Nektar::Utilities::ProcessNumModes:

Public Member Functions
	ProcessNumModes (FieldSharedPtr f)

virtual	~ProcessNumModes ()

virtual void	Process (po::variables_map &vm)
	Write mesh to output file. More...

Public Member Functions inherited from Nektar::Utilities::ProcessModule
	ProcessModule ()

	ProcessModule (FieldSharedPtr p_f)

	ProcessModule (MeshSharedPtr p_m)

Public Member Functions inherited from Nektar::Utilities::Module
	Module (FieldSharedPtr p_f)

void	RegisterConfig (string key, string value)
	Register a configuration option with a module. More...

void	PrintConfig ()
	Print out all configuration options for a module. More...

void	SetDefaults ()
	Sets default configuration options for those which have not been set. More...

bool	GetRequireEquiSpaced (void)

void	SetRequireEquiSpaced (bool pVal)

void	EvaluateTriFieldAtEquiSpacedPts (LocalRegions::ExpansionSharedPtr &exp, const Array< OneD, const NekDouble > &infield, Array< OneD, NekDouble > &outfield)

	Module (MeshSharedPtr p_m)

virtual void	Process ()=0

void	RegisterConfig (string key, string value)

void	PrintConfig ()

void	SetDefaults ()

MeshSharedPtr	GetMesh ()

virtual void	ProcessVertices ()
	Extract element vertices. More...

virtual void	ProcessEdges (bool ReprocessEdges=true)
	Extract element edges. More...

virtual void	ProcessFaces (bool ReprocessFaces=true)
	Extract element faces. More...

virtual void	ProcessElements ()
	Generate element IDs. More...

virtual void	ProcessComposites ()
	Generate composites. More...

virtual void	ClearElementLinks ()

Static Public Member Functions
static boost::shared_ptr< Module >	create (FieldSharedPtr f)
	Creates an instance of this class. More...

Static Public Attributes
static ModuleKey	className

Additional Inherited Members
Protected Member Functions inherited from Nektar::Utilities::Module
	Module ()

void	ReorderPrisms (PerMap &perFaces)
	Reorder node IDs so that prisms and tetrahedra are aligned correctly. More...

void	PrismLines (int prism, PerMap &perFaces, set< int > &prismsDone, vector< ElementSharedPtr > &line)

Protected Attributes inherited from Nektar::Utilities::Module
FieldSharedPtr	m_f
	Field object. More...

map< string, ConfigOption >	m_config
	List of configuration values. More...

bool	m_requireEquiSpaced

MeshSharedPtr	m_mesh
	Mesh object. More...

Detailed Description

This processing module calculates the vorticity and adds it as an extra-field to the output file.

Definition at line 49 of file ProcessNumModes.h.

Constructor & Destructor Documentation

Nektar::Utilities::ProcessNumModes::ProcessNumModes ( FieldSharedPtr f )

Definition at line 56 of file ProcessNumModes.cpp.

                                                  : ProcessModule(f)
 {
 }

Nektar::Utilities::ProcessNumModes::~ProcessNumModes ( )

virtual

Definition at line 60 of file ProcessNumModes.cpp.

61 {

62 }

Member Function Documentation

static boost::shared_ptr<Module> Nektar::Utilities::ProcessNumModes::create ( FieldSharedPtr f )

inlinestatic

Creates an instance of this class.

Definition at line 53 of file ProcessNumModes.h.

References Nektar::MemoryManager< DataType >::AllocateSharedPtr().

                                                                 {
             return MemoryManager<ProcessNumModes>::AllocateSharedPtr(f);
         }

void Nektar::Utilities::ProcessNumModes::Process ( po::variables_map & vm )

virtual

Write mesh to output file.

Implements Nektar::Utilities::Module.

Definition at line 64 of file ProcessNumModes.cpp.

References Vmath::Fill(), Nektar::iterator, and Nektar::Utilities::Module::m_f.

 {
     if (m_f->m_verbose)
     {
         cout << "ProcessNumModes: Calculating number of modes..." << endl;
     }
 
     int i, j, s;
     int expdim    = m_f->m_graph->GetMeshDimension();
     int nfields   = m_f->m_fielddef[0]->m_fields.size();
     int addfields = expdim;
     int npoints   = m_f->m_exp[0]->GetNpoints();
     Array<OneD, Array<OneD, NekDouble> > outfield(addfields);
 
     int nstrips;
 
     m_f->m_session->LoadParameter("Strip_Z", nstrips, 1);
 
     m_f->m_exp.resize(nfields * nstrips);
 
     for (i = 0; i < addfields; ++i)
     {
         outfield[i] = Array<OneD, NekDouble>(npoints);
     }
 
     vector<MultiRegions::ExpListSharedPtr> Exp(nstrips * addfields);
 
     int nExp, nq, offset;
     nExp = m_f->m_exp[0]->GetExpSize();
 
     for (int n = 0; n < nExp; n++)
     {
         offset = m_f->m_exp[0]->GetPhys_Offset(n);
         nq     = m_f->m_exp[0]->GetExp(n)->GetTotPoints();
 
         for (i = 0; i < expdim; i++)
         {
             int P = m_f->m_exp[0]->GetExp(n)->GetBasis(i)->GetNumModes();
             Array<OneD, NekDouble> result = outfield[i] + offset;
             Vmath::Fill(nq, 1.0 * P, result, 1);
         }
     }
 
     for (s = 0; s < nstrips; ++s)
     {
         for (i = 0; i < addfields; ++i)
         {
             int n = s * addfields + i;
             Exp[n] =
                 m_f->AppendExpList(m_f->m_fielddef[0]->m_numHomogeneousDir);
             Exp[n]->UpdatePhys() = outfield[i];
             Exp[n]->FwdTrans_IterPerExp(outfield[i], Exp[n]->UpdateCoeffs());
         }
     }
 
     vector<MultiRegions::ExpListSharedPtr>::iterator it;
     for (s = 0; s < nstrips; ++s)
     {
         for (i = 0; i < addfields; ++i)
         {
             it = m_f->m_exp.begin() + s * (nfields + addfields) + nfields + i;
             m_f->m_exp.insert(it, Exp[s * addfields + i]);
         }
     }
 
     vector<string> outname;
     outname.push_back("P1");
     if (addfields >= 2)
     {
         outname.push_back("P2");
     }
 
     if (addfields == 3)
     {
         outname.push_back("P3");
     }
 
     std::vector<LibUtilities::FieldDefinitionsSharedPtr> FieldDef =
         m_f->m_exp[0]->GetFieldDefinitions();
     std::vector<std::vector<NekDouble> > FieldData(FieldDef.size());
 
     // homogeneous strip variant
     for (s = 0; s < nstrips; ++s)
     {
         for (j = 0; j < nfields + addfields; ++j)
         {
             for (i = 0; i < FieldDef.size() / nstrips; ++i)
             {
                 int n = s * FieldDef.size() / nstrips + i;
 
                 if (j >= nfields)
                 {
                     FieldDef[n]->m_fields.push_back(outname[j - nfields]);
                 }
                 else
                 {
                     FieldDef[n]->m_fields.push_back(
                         m_f->m_fielddef[0]->m_fields[j]);
                 }
 
                 m_f->m_exp[s * (nfields + addfields) + j]->AppendFieldData(
                     FieldDef[n], FieldData[n]);
             }
         }
     }
 
     m_f->m_fielddef = FieldDef;
     m_f->m_data     = FieldData;
 }

Member Data Documentation

ModuleKey Nektar::Utilities::ProcessNumModes::className

static

Initial value:

=
    GetModuleFactory().RegisterCreatorFunction(
        ModuleKey(eProcessModule, "nummodes"), ProcessNumModes::create,
        "Computes number of modes in each direction for each element.")

Definition at line 56 of file ProcessNumModes.h.

Public Member Functions

Static Public Member Functions

Static Public Attributes

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation