424 lines
12 KiB
C++
424 lines
12 KiB
C++
/*
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* Copyright (C) 2010 Thorsten Liebig (Thorsten.Liebig@gmx.de)
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "operator_ext_pml_sf.h"
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#include "engine_ext_pml_sf.h"
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#include "FDTD/operator_cylinder.h"
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#include "tools/array_ops.h"
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#include "fparser.hh"
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bool Build_Split_Field_PML(Operator* op, int BC[6], int size[6], string gradFunc)
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{
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for (int n=0;n<6;++n)
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{
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if (BC[n]==3) //split field PML
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{
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Operator_Ext_PML_SF_Plane* op_pml_sf = new Operator_Ext_PML_SF_Plane(op);
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op_pml_sf->SetDirection(n/2,n%2);
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if ((size[n]<4) || (size[n]>50))
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{
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cerr << "Build_Split_Field_PML: Warning, pml size invalid, skipping pml..." << endl;
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delete op_pml_sf;
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continue;
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}
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op_pml_sf->SetPMLLength(size[n]);
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op_pml_sf->SetBoundaryCondition(BC);
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if (!op_pml_sf->SetGradingFunction(gradFunc))
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{
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cerr << "Build_Split_Field_PML: Warning, pml grading function invalid, skipping pml..." << endl;
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delete op_pml_sf;
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continue;
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}
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cerr << "Build_Split_Field_PML:: Warning, currently only pml planes are implemented... edges and corner coming soon..." << endl;
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op->AddExtension(op_pml_sf);
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}
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}
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return true;
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}
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/************************************************ Operator_Ext_PML_SF **************************************************************************/
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Operator_Ext_PML_SF::Operator_Ext_PML_SF(Operator* op) : Operator_Extension(op)
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{
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m_SetupDone = false;
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m_numLines[0]=0;
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m_numLines[1]=0;
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m_numLines[2]=0;
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vv[0] = NULL; vv[1] = NULL;
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vi[0] = NULL; vi[1] = NULL;
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ii[0] = NULL; ii[1] = NULL;
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iv[0] = NULL; iv[1] = NULL;
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for (int n=0;n<6;++n)
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m_BC[n]=0;
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m_GradingFunction = new FunctionParser();
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//default grading function
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SetGradingFunction(" -log(1e-6)*log(2.5)/(2*dl*pow(2.5,W/dl)-1) * pow(2.5, D/dl) / Z ");
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}
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Operator_Ext_PML_SF::~Operator_Ext_PML_SF()
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{
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delete m_GradingFunction;
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m_GradingFunction = NULL;
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DeleteOP();
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}
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void Operator_Ext_PML_SF::InitOP()
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{
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if (!m_SetupDone)
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return;
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vv[0] = Create_N_3DArray<FDTD_FLOAT>(m_numLines);
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vv[1] = Create_N_3DArray<FDTD_FLOAT>(m_numLines);
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vi[0] = Create_N_3DArray<FDTD_FLOAT>(m_numLines);
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vi[1] = Create_N_3DArray<FDTD_FLOAT>(m_numLines);
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ii[0] = Create_N_3DArray<FDTD_FLOAT>(m_numLines);
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ii[1] = Create_N_3DArray<FDTD_FLOAT>(m_numLines);
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iv[0] = Create_N_3DArray<FDTD_FLOAT>(m_numLines);
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iv[1] = Create_N_3DArray<FDTD_FLOAT>(m_numLines);
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}
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void Operator_Ext_PML_SF::DeleteOP()
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{
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if (!m_SetupDone)
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return;
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Delete_N_3DArray<FDTD_FLOAT>(vv[0],m_numLines);
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vv[0] = NULL;
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Delete_N_3DArray<FDTD_FLOAT>(vv[1],m_numLines);
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vv[1] = NULL;
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Delete_N_3DArray<FDTD_FLOAT>(vi[0],m_numLines);
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vi[0] = NULL;
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Delete_N_3DArray<FDTD_FLOAT>(vi[1],m_numLines);
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vi[1] = NULL;
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Delete_N_3DArray<FDTD_FLOAT>(ii[0],m_numLines);
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ii[0] = NULL;
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Delete_N_3DArray<FDTD_FLOAT>(ii[1],m_numLines);
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ii[1] = NULL;
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Delete_N_3DArray<FDTD_FLOAT>(iv[0],m_numLines);
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iv[0] = NULL;
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Delete_N_3DArray<FDTD_FLOAT>(iv[1],m_numLines);
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iv[1] = NULL;
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}
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bool Operator_Ext_PML_SF::SetGradingFunction(string func)
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{
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if (func.empty())
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return true;
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m_GradFunc = func;
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int res = m_GradingFunction->Parse(m_GradFunc.c_str(), "D,dl,W,Z,N");
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if(res < 0) return true;
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cerr << "Operator_Ext_PML_SF::SetGradingFunction: Warning, an error occured parsing the pml grading function (see below) ..." << endl;
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cerr << func << "\n" << string(res, ' ') << "^\n" << m_GradingFunction->ErrorMsg() << "\n";
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return false;
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}
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bool Operator_Ext_PML_SF::BuildExtension()
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{
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if (!m_SetupDone)
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{
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cerr << "Operator_Ext_PML_SF::BuildExtension: Warning, Extension not initialized! Abort build!!" << endl;
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return false;
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}
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double dT = m_Op->GetTimestep();
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unsigned int pos[] = {0,0,0};
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DeleteOP();
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InitOP();
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double inEC[4];
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for (int n=0;n<3;++n)
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{
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for (pos[0]=0;pos[0]<m_numLines[0];++pos[0])
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{
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for (pos[1]=0;pos[1]<m_numLines[1];++pos[1])
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{
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for (pos[2]=0;pos[2]<m_numLines[2];++pos[2])
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{
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Calc_ECPos(0,n,pos,inEC);
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if (inEC[0]>0)
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GetVV(0,n,pos[0],pos[1],pos[2]) = (1-dT*inEC[1]/2/inEC[0])/(1+dT*inEC[1]/2/inEC[0]);
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if (inEC[2]>0)
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GetII(0,n,pos[0],pos[1],pos[2]) = (1-dT*inEC[3]/2/inEC[2])/(1+dT*inEC[3]/2/inEC[2]);
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if (inEC[0]>0)
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GetVI(0,n,pos[0],pos[1],pos[2]) = (dT/inEC[0])/(1+dT*inEC[1]/2/inEC[0]);
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if (inEC[2]>0)
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GetIV(0,n,pos[0],pos[1],pos[2]) = (dT/inEC[2])/(1+dT*inEC[3]/2/inEC[2]);
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// if (n==0)
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// cerr << pos[0] << " " << pos[1] << " " << pos[2] << " " << inEC[1] << endl;
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Calc_ECPos(1,n,pos,inEC);
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if (inEC[0]>0)
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GetVV(1,n,pos[0],pos[1],pos[2]) = (1-dT*inEC[1]/2/inEC[0])/(1+dT*inEC[1]/2/inEC[0]);
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if (inEC[2]>0)
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GetII(1,n,pos[0],pos[1],pos[2]) = (1-dT*inEC[3]/2/inEC[2])/(1+dT*inEC[3]/2/inEC[2]);
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if (inEC[0]>0)
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GetVI(1,n,pos[0],pos[1],pos[2]) = (dT/inEC[0])/(1+dT*inEC[1]/2/inEC[0]);
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if (inEC[2]>0)
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GetIV(1,n,pos[0],pos[1],pos[2]) = (dT/inEC[2])/(1+dT*inEC[3]/2/inEC[2]);
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// if (n==0)
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// cerr << pos[0] << " " << pos[1] << " " << pos[2] << " " << inEC[1] << endl;
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}
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}
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}
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}
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ApplyBC();
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return true;
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}
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/************************************************ Operator_Ext_PML_SF_Plane **************************************************************************/
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Operator_Ext_PML_SF_Plane::Operator_Ext_PML_SF_Plane(Operator* op) : Operator_Ext_PML_SF(op)
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{
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}
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Operator_Ext_PML_SF_Plane::~Operator_Ext_PML_SF_Plane()
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{
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}
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void Operator_Ext_PML_SF_Plane::SetDirection(int ny, bool top_ny)
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{
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if ((ny<0) || (ny>2))
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return;
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m_ny = ny;
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m_nyP = (ny+1)%3;
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m_nyPP = (ny+2)%3;
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m_top = top_ny;
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m_numLines[m_ny] = 8; //default width of the pml plane
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m_numLines[m_nyP] = m_Op->GetNumberOfLines(m_nyP);
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m_numLines[m_nyPP] = m_Op->GetNumberOfLines(m_nyPP);
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unsigned int pos[] = {0,0,0};
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m_LineNr = (unsigned int)((int)m_top * (int)(m_Op->GetNumberOfLines(m_ny)-1));
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pos[m_ny] = m_LineNr;
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m_pml_delta = m_Op->GetMeshDelta(m_ny,pos);
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}
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void Operator_Ext_PML_SF_Plane::SetPMLLength(int width)
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{
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if (m_ny<0)
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{
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cerr << "Operator_Ext_PML_SF_Plane::SetPMLLength: Warning, Direction not set! Use SetDirection first!!" << endl;
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return;
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}
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if (width<4)
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{
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cerr << "Operator_Ext_PML_SF_Plane::SetPMLLength: Warning: A pml width smaller than 4 lines is not allowed, skipping..." << endl;
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return;
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}
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if (width>50)
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{
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cerr << "Operator_Ext_PML_SF_Plane::SetPMLLength: Warning: A pml width greater than 20 lines is not allowed, skipping..." << endl;
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return;
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}
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m_SetupDone = true;
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m_numLines[m_ny] = width;
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m_pml_width = (width - 1.5) * m_pml_delta;
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}
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double Operator_Ext_PML_SF_Plane::GetEdgeArea(int ny, unsigned int pos[3], bool dualMesh) const
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{
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unsigned int l_pos[] = {pos[0],pos[1],pos[2]};
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l_pos[m_ny] = m_LineNr;
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return m_Op->GetEdgeArea(ny,l_pos,dualMesh);
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}
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double Operator_Ext_PML_SF_Plane::GetEdgeLength(int ny, unsigned int pos[3], bool dualMesh) const
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{
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if (ny==m_ny)
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return m_pml_delta;
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unsigned int l_pos[] = {pos[0],pos[1],pos[2]};
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l_pos[m_ny] = m_LineNr;
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return m_Op->GetEdgeLength(ny,l_pos,dualMesh);
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}
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double Operator_Ext_PML_SF_Plane::GetKappaGraded(double depth, double Zm) const
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{
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if (depth<0)
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return 0.0;
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double vars[5] = {depth, m_pml_delta, m_pml_width, Zm, m_numLines[m_ny]};
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return m_GradingFunction->Eval(vars);
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}
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bool Operator_Ext_PML_SF_Plane::Calc_ECPos(int nP, int n, unsigned int* pos, double* inEC) const
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{
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unsigned int l_pos[] = {pos[0],pos[1],pos[2]};
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l_pos[m_ny] = m_LineNr;
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double inMat[4];
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m_Op->Calc_EffMatPos(n,l_pos,inMat);
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double Zm2 = inMat[2] / inMat[0]; // Zm^2 = mue/eps
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double Zm = sqrt(Zm2); // Zm = sqrt(Zm^2) = sqrt(mue/eps)
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double kappa = 0;
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double sigma = 0;
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double depth = 0;
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if ( (n + nP + 1)%3 == m_ny )
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{
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if (m_top)
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{
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depth = pos[m_ny]*m_pml_delta - 0.5*m_pml_delta;
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kappa = GetKappaGraded(depth, Zm);
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sigma = GetKappaGraded(depth + 0.5*m_pml_delta, Zm) * Zm2;
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}
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else
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{
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depth = m_pml_width - (pos[m_ny])*m_pml_delta;
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kappa = GetKappaGraded(depth, Zm) ;
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sigma = GetKappaGraded(depth-0.5*m_pml_delta, Zm) * Zm2;
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}
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if ((inMat[0]<=0) || (inMat[2]<=0)) //check if material properties are valid (necessary for cylindrical coords)
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{
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kappa = sigma = 0;
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}
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}
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double geomFactor = GetEdgeArea(n,pos) / GetEdgeLength(n,pos);
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if (geomFactor<=0 || isnan(geomFactor) || isinf(geomFactor)) //check if geomFactor is positive, not zero and a valid number (necessary for cylindrical coords)
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geomFactor = 0;
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inEC[0] = inMat[0] * geomFactor;
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inEC[1] = (inMat[1]+kappa) * geomFactor;
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geomFactor = GetEdgeArea(n,pos,true) / GetEdgeLength(n,pos,true);
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if (geomFactor<=0 || isnan(geomFactor) || isinf(geomFactor)) //check if geomFactor is positive, not zero and a valid number (necessary for cylindrical coords)
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geomFactor = 0;
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inEC[2] = inMat[2] * geomFactor;
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inEC[3] = (inMat[3]+sigma) * geomFactor;
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return true;
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}
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void Operator_Ext_PML_SF_Plane::ApplyBC()
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{
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bool PEC[6] = {1,1,1,1,1,1};
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bool PMC[6] = {0,0,0,0,0,0};
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if (m_top==false)
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PEC[2*m_ny+1] = 0;
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for (int n=0;n<6;++n)
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{
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PMC[n] = (m_BC[n] == 1);
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if (n/2 == m_ny)
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PMC[n] = false;
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}
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//apply BC
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unsigned int pos[3] = {0,0,0};
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for (int n=0;n<3;++n)
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{
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int nP = (n+1)%3;
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int nPP = (n+2)%3;
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for (pos[nP]=0;pos[nP]<m_numLines[nP];++pos[nP])
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{
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for (pos[nPP]=0;pos[nPP]<m_numLines[nPP];++pos[nPP])
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{
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for (int m=0;m<2;++m)
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{
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pos[n]=0;
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GetVV(m,nP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PEC[2*n];
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GetVI(m,nP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PEC[2*n];
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GetVV(m,nPP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PEC[2*n];
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GetVI(m,nPP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PEC[2*n];
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GetII(m,n,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PMC[2*n];
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GetIV(m,n,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PMC[2*n];
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GetII(m,nP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PMC[2*n];
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GetIV(m,nP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PMC[2*n];
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GetII(m,nPP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PMC[2*n];
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GetIV(m,nPP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PMC[2*n];
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pos[n]=m_numLines[n]-1;
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GetVV(m,n,pos[0],pos[1],pos[2]) = 0; // these are outside the FDTD-domain as defined by the main disc
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GetVI(m,n,pos[0],pos[1],pos[2]) = 0; // these are outside the FDTD-domain as defined by the main disc
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GetVV(m,nP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PEC[2*n+1];
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GetVI(m,nP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PEC[2*n+1];
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GetVV(m,nPP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PEC[2*n+1];
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GetVI(m,nPP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PEC[2*n+1];
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pos[n]=m_numLines[n]-2;
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GetII(m,nP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PMC[2*n+1];
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GetIV(m,nP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PMC[2*n+1];
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GetII(m,nPP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PMC[2*n+1];
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GetIV(m,nPP,pos[0],pos[1],pos[2]) *= (FDTD_FLOAT)!PMC[2*n+1];
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}
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}
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}
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}
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}
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Engine_Extension* Operator_Ext_PML_SF_Plane::CreateEngineExtention()
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{
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Engine_Ext_PML_SF_Plane* eng_ext = new Engine_Ext_PML_SF_Plane(this);
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return eng_ext;
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}
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bool Operator_Ext_PML_SF_Plane::IsCylinderCoordsSave() const
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{
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if (m_ny==2)
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{
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Operator_Cylinder* op_cyl = dynamic_cast<Operator_Cylinder*>(m_Op);
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if (op_cyl==NULL)
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{
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cerr << "Operator_Ext_PML_SF_Plane::IsCylinderCoordsSave(): Error!!! Sanity check failed!!! ==> Developer is not sane.... this should never have happend.. exit..." << endl;
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exit(0);
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}
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if (op_cyl->GetClosedAlpha())
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{
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cerr << "Operator_Ext_PML_SF_Plane::IsCylinderCoordsSave(): Warning... this extension can not handle a closed alpha cylinder operator... " << endl;
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return false;
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}
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return true;
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}
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return false;
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}
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void Operator_Ext_PML_SF_Plane::ShowStat(ostream &ostr) const
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{
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Operator_Extension::ShowStat(ostr);
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string XYZ[3] = {"x","y","z"};
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string top_bot[2] = {"bottom", "top"};
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ostr << " Active direction\t: " << XYZ[m_ny] << " (" << top_bot[m_top] << ")" << endl;
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ostr << " PML width (cells)\t: " << m_numLines[m_ny] << endl;
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ostr << " Grading function\t: \"" << m_GradFunc << "\"" << endl;
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}
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