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/*
* Copyright ( C ) 2012 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 < http : //www.gnu.org/licenses/>.
*/
# include "operator_ext_conductingsheet.h"
# include "tools/array_ops.h"
# include "tools/constants.h"
# include "cond_sheet_parameter.h"
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# include "CSPropConductingSheet.h"
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Operator_Ext_ConductingSheet : : Operator_Ext_ConductingSheet ( Operator * op , double f_max ) : Operator_Ext_LorentzMaterial ( op )
{
m_f_max = f_max ;
}
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Operator_Ext_ConductingSheet : : Operator_Ext_ConductingSheet ( Operator * op , Operator_Ext_ConductingSheet * op_ext ) : Operator_Ext_LorentzMaterial ( op , op_ext )
{
m_f_max = op_ext - > m_f_max ;
}
Operator_Extension * Operator_Ext_ConductingSheet : : Clone ( Operator * op )
{
if ( dynamic_cast < Operator_Ext_ConductingSheet * > ( this ) = = NULL )
return NULL ;
return new Operator_Ext_ConductingSheet ( op , this ) ;
}
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bool Operator_Ext_ConductingSheet : : BuildExtension ( )
{
double dT = m_Op - > GetTimestep ( ) ;
unsigned int pos [ ] = { 0 , 0 , 0 } ;
double coord [ 3 ] ;
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unsigned int numLines [ 3 ] = { m_Op - > GetNumberOfLines ( 0 , true ) , m_Op - > GetNumberOfLines ( 1 , true ) , m_Op - > GetNumberOfLines ( 2 , true ) } ;
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m_Order = 0 ;
vector < unsigned int > v_pos [ 3 ] ;
int * * * * tanDir = Create_N_3DArray < int > ( numLines ) ;
float * * * * Conductivity = Create_N_3DArray < float > ( numLines ) ;
float * * * * Thickness = Create_N_3DArray < float > ( numLines ) ;
CSPrimitives * cs_sheet = NULL ;
double box [ 6 ] ;
int nP , nPP ;
bool b_pos_on ;
bool disable_pos ;
for ( pos [ 0 ] = 0 ; pos [ 0 ] < numLines [ 0 ] ; + + pos [ 0 ] )
{
for ( pos [ 1 ] = 0 ; pos [ 1 ] < numLines [ 1 ] ; + + pos [ 1 ] )
{
for ( pos [ 2 ] = 0 ; pos [ 2 ] < numLines [ 2 ] ; + + pos [ 2 ] )
{
b_pos_on = false ;
disable_pos = false ;
// disable conducting sheet model inside the boundary conditions, especially inside a pml
for ( int m = 0 ; m < 3 ; + + m )
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if ( ( pos [ m ] < = ( unsigned int ) m_Op - > GetBCSize ( 2 * m ) ) | | ( pos [ m ] > = ( numLines [ m ] - m_Op - > GetBCSize ( 2 * m + 1 ) - 1 ) ) )
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disable_pos = true ;
for ( int n = 0 ; n < 3 ; + + n )
{
nP = ( n + 1 ) % 3 ;
nPP = ( n + 2 ) % 3 ;
tanDir [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] = - 1 ; //deactivate by default
Conductivity [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] = 0 ; //deactivate by default
Thickness [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] = 0 ; //deactivate by default
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if ( m_Op - > GetYeeCoords ( n , pos , coord , false ) = = false )
continue ;
// Ez at r==0 not supported --> set to PEC
if ( m_CC_R0_included & & ( n = = 2 ) & & ( pos [ 0 ] = = 0 ) )
disable_pos = true ;
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CSProperties * prop = m_Op - > GetGeometryCSX ( ) - > GetPropertyByCoordPriority ( coord , ( CSProperties : : PropertyType ) ( CSProperties : : METAL | CSProperties : : MATERIAL ) , false , & cs_sheet ) ;
CSPropConductingSheet * cs_prop = dynamic_cast < CSPropConductingSheet * > ( prop ) ;
if ( cs_prop )
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{
if ( cs_sheet = = NULL )
return false ; //sanity check, this should never happen
if ( cs_sheet - > GetDimension ( ) ! = 2 )
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{
cerr < < " Operator_Ext_ConductingSheet::BuildExtension: A conducting sheet primitive (ID: " < < cs_sheet - > GetID ( ) < < " ) with dimension: " < < cs_sheet - > GetDimension ( ) < < " found, fallback to PEC! " < < endl ;
m_Op - > SetVV ( n , pos [ 0 ] , pos [ 1 ] , pos [ 2 ] , 0 ) ;
m_Op - > SetVI ( n , pos [ 0 ] , pos [ 1 ] , pos [ 2 ] , 0 ) ;
+ + m_Op - > m_Nr_PEC [ n ] ;
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continue ;
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}
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cs_sheet - > SetPrimitiveUsed ( true ) ;
if ( disable_pos )
{
m_Op - > SetVV ( n , pos [ 0 ] , pos [ 1 ] , pos [ 2 ] , 0 ) ;
m_Op - > SetVI ( n , pos [ 0 ] , pos [ 1 ] , pos [ 2 ] , 0 ) ;
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+ + m_Op - > m_Nr_PEC [ n ] ;
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continue ;
}
Conductivity [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] = cs_prop - > GetConductivity ( ) ;
Thickness [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] = cs_prop - > GetThickness ( ) ;
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if ( ( Conductivity [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] < = 0 ) | | ( Thickness [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] < = 0 ) )
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{
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cerr < < " Operator_Ext_ConductingSheet::BuildExtension: Warning: Zero conductivity or thickness detected... fallback to PEC! " < < endl ;
m_Op - > SetVV ( n , pos [ 0 ] , pos [ 1 ] , pos [ 2 ] , 0 ) ;
m_Op - > SetVI ( n , pos [ 0 ] , pos [ 1 ] , pos [ 2 ] , 0 ) ;
+ + m_Op - > m_Nr_PEC [ n ] ;
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continue ;
}
cs_sheet - > GetBoundBox ( box ) ;
if ( box [ 2 * nP ] ! = box [ 2 * nP + 1 ] )
tanDir [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] = nP ;
if ( box [ 2 * nPP ] ! = box [ 2 * nPP + 1 ] )
tanDir [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] = nPP ;
b_pos_on = true ;
}
}
if ( b_pos_on )
{
for ( int n = 0 ; n < 3 ; + + n )
v_pos [ n ] . push_back ( pos [ n ] ) ;
}
}
}
}
size_t numCS = v_pos [ 0 ] . size ( ) ;
if ( numCS = = 0 )
return false ;
m_LM_Count . push_back ( numCS ) ;
m_LM_Count . push_back ( numCS ) ;
m_Order = 2 ;
m_volt_ADE_On = new bool [ m_Order ] ;
m_volt_ADE_On [ 0 ] = m_volt_ADE_On [ 1 ] = true ;
m_curr_ADE_On = new bool [ m_Order ] ;
m_curr_ADE_On [ 0 ] = m_curr_ADE_On [ 1 ] = false ;
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m_volt_Lor_ADE_On = new bool [ m_Order ] ;
m_volt_Lor_ADE_On [ 0 ] = m_volt_Lor_ADE_On [ 1 ] = false ;
m_curr_Lor_ADE_On = new bool [ m_Order ] ;
m_curr_Lor_ADE_On [ 0 ] = m_curr_Lor_ADE_On [ 1 ] = false ;
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m_LM_pos = new unsigned int * * [ m_Order ] ;
m_LM_pos [ 0 ] = new unsigned int * [ 3 ] ;
m_LM_pos [ 1 ] = new unsigned int * [ 3 ] ;
v_int_ADE = new FDTD_FLOAT * * [ m_Order ] ;
v_ext_ADE = new FDTD_FLOAT * * [ m_Order ] ;
v_int_ADE [ 0 ] = new FDTD_FLOAT * [ 3 ] ;
v_ext_ADE [ 0 ] = new FDTD_FLOAT * [ 3 ] ;
v_int_ADE [ 1 ] = new FDTD_FLOAT * [ 3 ] ;
v_ext_ADE [ 1 ] = new FDTD_FLOAT * [ 3 ] ;
for ( int n = 0 ; n < 3 ; + + n )
{
m_LM_pos [ 0 ] [ n ] = new unsigned int [ numCS ] ;
m_LM_pos [ 1 ] [ n ] = new unsigned int [ numCS ] ;
for ( unsigned int i = 0 ; i < numCS ; + + i )
{
m_LM_pos [ 0 ] [ n ] [ i ] = v_pos [ n ] . at ( i ) ;
m_LM_pos [ 1 ] [ n ] [ i ] = v_pos [ n ] . at ( i ) ;
}
v_int_ADE [ 0 ] [ n ] = new FDTD_FLOAT [ numCS ] ;
v_int_ADE [ 1 ] [ n ] = new FDTD_FLOAT [ numCS ] ;
v_ext_ADE [ 0 ] [ n ] = new FDTD_FLOAT [ numCS ] ;
v_ext_ADE [ 1 ] [ n ] = new FDTD_FLOAT [ numCS ] ;
}
unsigned int index ;
float w_stop = m_f_max * 2 * PI ;
float Omega_max = 0 ;
float G , L1 , L2 , R1 , R2 , Lmin ;
float G0 , w0 ;
float wtl ; //width to length factor
float factor = 1 ;
int t_dir = 0 ; //tangential sheet direction
unsigned int tpos [ ] = { 0 , 0 , 0 } ;
unsigned int optParaPos ;
for ( unsigned int i = 0 ; i < numCS ; + + i )
{
pos [ 0 ] = m_LM_pos [ 0 ] [ 0 ] [ i ] ; pos [ 1 ] = m_LM_pos [ 0 ] [ 1 ] [ i ] ; pos [ 2 ] = m_LM_pos [ 0 ] [ 2 ] [ i ] ;
tpos [ 0 ] = pos [ 0 ] ; tpos [ 1 ] = pos [ 1 ] ; tpos [ 2 ] = pos [ 2 ] ;
index = m_Op - > MainOp - > SetPos ( pos [ 0 ] , pos [ 1 ] , pos [ 2 ] ) ;
for ( int n = 0 ; n < 3 ; + + n )
{
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tpos [ 0 ] = pos [ 0 ] ; tpos [ 1 ] = pos [ 1 ] ; tpos [ 2 ] = pos [ 2 ] ;
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t_dir = tanDir [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] ;
G0 = Conductivity [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * Thickness [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] ;
w0 = 8.0 / G0 / Thickness [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] / __MUE0__ ;
Omega_max = w_stop / w0 ;
for ( optParaPos = 0 ; optParaPos < numOptPara ; + + optParaPos )
if ( omega_stop [ optParaPos ] > Omega_max )
break ;
if ( optParaPos > = numOptPara )
{
cerr < < " Operator_Ext_ConductingSheet::BuildExtension(): Error, conductor thickness, conductivity or max. simulation frequency of interest is too high! Check parameter! " < < endl ;
cerr < < " --> max f: " < < m_f_max < < " Hz, Conductivity: " < < Conductivity [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] < < " S/m, Thickness " < < Thickness [ n ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * 1e6 < < " um " < < endl ;
optParaPos = numOptPara - 1 ;
}
v_int_ADE [ 0 ] [ n ] [ i ] = 0 ;
v_ext_ADE [ 0 ] [ n ] [ i ] = 0 ;
v_int_ADE [ 1 ] [ n ] [ i ] = 0 ;
v_ext_ADE [ 1 ] [ n ] [ i ] = 0 ;
if ( t_dir > = 0 )
{
wtl = m_Op - > GetEdgeLength ( n , pos ) / m_Op - > GetNodeWidth ( t_dir , pos ) ;
factor = 1 ;
if ( tanDir [ t_dir ] [ tpos [ 0 ] ] [ tpos [ 1 ] ] [ tpos [ 2 ] ] < 0 )
factor = 2 ;
- - tpos [ t_dir ] ;
if ( tanDir [ t_dir ] [ tpos [ 0 ] ] [ tpos [ 1 ] ] [ tpos [ 2 ] ] < 0 )
factor = 2 ;
L1 = l1 [ optParaPos ] / G0 / w0 * factor ;
L2 = l2 [ optParaPos ] / G0 / w0 * factor ;
R1 = r1 [ optParaPos ] / G0 * factor ;
R2 = r2 [ optParaPos ] / G0 * factor ;
G = G0 * g [ optParaPos ] / factor ;
L1 * = wtl ;
L2 * = wtl ;
R1 * = wtl ;
R2 * = wtl ;
G / = wtl ;
Lmin = L1 ;
if ( L2 < L1 )
Lmin = L2 ;
m_Op - > EC_G [ n ] [ index ] = G ;
m_Op - > EC_C [ n ] [ index ] = dT * dT / 4.0 * ( 16.0 / Lmin + 1 / L1 + 1 / L2 ) ;
m_Op - > Calc_ECOperatorPos ( n , pos ) ;
v_int_ADE [ 0 ] [ n ] [ i ] = ( 2.0 * L1 - dT * R1 ) / ( 2.0 * L1 + dT * R1 ) ;
v_ext_ADE [ 0 ] [ n ] [ i ] = dT / ( L1 + dT * R1 / 2.0 ) * m_Op - > GetVI ( n , pos [ 0 ] , pos [ 1 ] , pos [ 2 ] ) ;
v_int_ADE [ 1 ] [ n ] [ i ] = ( 2.0 * L2 - dT * R2 ) / ( 2.0 * L2 + dT * R2 ) ;
v_ext_ADE [ 1 ] [ n ] [ i ] = dT / ( L2 + dT * R2 / 2.0 ) * m_Op - > GetVI ( n , pos [ 0 ] , pos [ 1 ] , pos [ 2 ] ) ;
}
}
}
return true ;
}