/*
* Copyright (C) 2010 Thorsten Liebig (Thorsten.Liebig@gmx.de)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
#ifndef OPERATOR_CYLINDERMULTIGRID_H
#define OPERATOR_CYLINDERMULTIGRID_H
#define CYLIDINDERMULTIGRID_LIMIT 20
#include "operator_cylinder.h"
//! This is a cylindrical FDTD operator using a simple multi-grid approach.
/*!
This cylindrical multi-grid operator itself is not calculating any real operator, instead it is hosting two separate "child" operators of type "Operator_Cylinder".
This operator class (or the corresponding engine) will perform the interpolation and connection between these two child-operator/engines.
One of the child operators itself may be another multi-grid operator to allow for a cascaded multi-grid approach.
*/
class Operator_CylinderMultiGrid : public Operator_Cylinder
{
friend class Engine_CylinderMultiGrid;
public:
static Operator_CylinderMultiGrid* New(vector Split_Radii, unsigned int numThreads = 0, unsigned int level = 0);
virtual ~Operator_CylinderMultiGrid();
virtual double GetNumberCells() const;
virtual Engine* CreateEngine();
virtual bool SetGeometryCSX(ContinuousStructure* geo);
//! Get the coordinates for a given node index and component, according to the cylindrical yee-algorithm. Returns true if inside the FDTD domain.
virtual bool GetYeeCoords(int ny, unsigned int pos[3], double* coords, bool dualMesh) const;
virtual unsigned int GetSplitPos() const {return m_Split_Pos;}
virtual void SetBoundaryCondition(int* BCs);
virtual void AddExtension(Operator_Extension* op_ext);
//! Get the multi grid level of this operator, e.g. 0 is main grid --> no parent grid
int GetMultiGridLevel() const {return m_MultiGridLevel;}
Operator_Cylinder* GetInnerOperator() const {return m_InnerOp;}
virtual void SetExcitationSignal(Excitation* exc);
virtual void ShowStat() const;
//! Get the cell center coordinate usable for material averaging (Warning, may not be the yee cell center)
virtual bool GetCellCenterMaterialAvgCoord(const int pos[3], double coord[3]) const;
#ifdef MPI_SUPPORT
virtual void SetTag(int tag);
virtual void SetNeighborUp(int ny, int id);
virtual void SetNeighborDown(int ny, int id);
#endif
protected:
Operator_CylinderMultiGrid(vector Split_Radii, unsigned int level);
virtual void Init();
void Delete();
virtual void Reset();
virtual bool SetupCSXGrid(CSRectGrid* grid);
virtual int CalcECOperator( DebugFlags debugFlags = None );
virtual void DumpPEC2File( string filename, unsigned int *range = NULL );
//! The material data storage in the sub-grid area's will not be filled by the base-operator. Check and do this here!
void FillMissingDataStorage();
unsigned int m_MultiGridLevel;
double m_Split_Rad;
vector m_Split_Radii;
unsigned int m_Split_Pos;
Operator_Cylinder* m_InnerOp;
// sub-grid to base interpolation coefficients
unsigned int* m_interpol_pos_v_2p[2];
f4vector* f4_interpol_v_2p[2];
unsigned int* m_interpol_pos_v_2pp[2];
f4vector* f4_interpol_v_2pp[2];
unsigned int* m_interpol_pos_i_2p[2];
f4vector* f4_interpol_i_2p[2];
unsigned int* m_interpol_pos_i_2pp[2];
f4vector* f4_interpol_i_2pp[2];
void SetupInterpolation();
virtual void CalcStartStopLines(unsigned int &numThreads, vector &start, vector &stop) const;
};
#endif // OPERATOR_CYLINDERMULTIGRID_H