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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_tfsf.h"
# include "engine_ext_tfsf.h"
# include <cmath>
Operator_Ext_TFST : : Operator_Ext_TFST ( Operator * op ) : Operator_Extension ( op )
{
Init ( ) ;
}
Operator_Ext_TFST : : ~ Operator_Ext_TFST ( )
{
Reset ( ) ;
}
void Operator_Ext_TFST : : Init ( )
{
for ( int n = 0 ; n < 3 ; + + n )
for ( int l = 0 ; l < 2 ; + + l )
for ( int c = 0 ; c < 2 ; + + c )
{
m_VoltDelay [ n ] [ l ] [ c ] = NULL ;
m_VoltDelayDelta [ n ] [ l ] [ c ] = NULL ;
m_VoltAmp [ n ] [ l ] [ c ] = NULL ;
m_CurrDelay [ n ] [ l ] [ c ] = NULL ;
m_CurrDelayDelta [ n ] [ l ] [ c ] = NULL ;
m_CurrAmp [ n ] [ l ] [ c ] = NULL ;
}
Operator_Extension : : Init ( ) ;
}
void Operator_Ext_TFST : : Reset ( )
{
for ( int n = 0 ; n < 3 ; + + n )
for ( int l = 0 ; l < 2 ; + + l )
for ( int c = 0 ; c < 2 ; + + c )
{
delete [ ] m_VoltDelay [ n ] [ l ] [ c ] ;
m_VoltDelay [ n ] [ l ] [ c ] = NULL ;
delete [ ] m_VoltDelayDelta [ n ] [ l ] [ c ] ;
m_VoltDelayDelta [ n ] [ l ] [ c ] = NULL ;
delete [ ] m_VoltAmp [ n ] [ l ] [ c ] ;
m_VoltAmp [ n ] [ l ] [ c ] = NULL ;
delete [ ] m_CurrDelay [ n ] [ l ] [ c ] ;
m_CurrDelay [ n ] [ l ] [ c ] = NULL ;
delete [ ] m_CurrDelayDelta [ n ] [ l ] [ c ] ;
m_CurrDelayDelta [ n ] [ l ] [ c ] = NULL ;
delete [ ] m_CurrAmp [ n ] [ l ] [ c ] ;
m_CurrAmp [ n ] [ l ] [ c ] = NULL ;
}
Operator_Extension : : Reset ( ) ;
}
Operator_Extension * Operator_Ext_TFST : : Clone ( Operator * op )
{
UNUSED ( op ) ;
return NULL ;
}
bool Operator_Ext_TFST : : BuildExtension ( )
{
m_Exc = m_Op - > GetExcitationSignal ( ) ;
double dT = m_Op - > GetTimestep ( ) ;
if ( dT = = 0 )
return false ;
if ( m_Exc = = 0 )
return false ;
Reset ( ) ;
ContinuousStructure * CSX = m_Op - > GetGeometryCSX ( ) ;
vector < CSProperties * > vec_prop = CSX - > GetPropertyByType ( CSProperties : : EXCITATION ) ;
if ( vec_prop . size ( ) = = 0 )
{
cerr < < " Operator_Ext_TFST::BuildExtension: Warning, no excitation properties found " < < endl ;
SetActive ( false ) ;
return false ;
}
CSPropExcitation * elec = NULL ;
CSProperties * prop = NULL ;
CSPrimitives * prim = NULL ;
CSPrimBox * box = NULL ;
for ( size_t p = 0 ; p < vec_prop . size ( ) ; + + p )
{
prop = vec_prop . at ( p ) ;
elec = prop - > ToExcitation ( ) ;
if ( elec - > GetExcitType ( ) ! = 10 )
continue ;
if ( prop - > GetQtyPrimitives ( ) ! = 1 )
{
cerr < < " Operator_Ext_TFST::BuildExtension: Warning, plane wave excitation found with more (or less) than one primitive, skipping... " < < endl ;
continue ;
}
prim = prop - > GetPrimitive ( 0 ) ;
if ( prim - > GetType ( ) ! = CSPrimitives : : BOX )
{
cerr < < " Operator_Ext_TFST::BuildExtension: Warning, plane wave excitation found with false non-Box primitive, skipping... " < < endl ;
continue ;
}
box = prim - > ToBox ( ) ;
if ( box = = NULL ) //sanity check, should not happen!
{
SetActive ( false ) ;
return false ;
}
// found a plane-wave excite with exactly one box
for ( int n = 0 ; n < 3 ; + + n )
m_PropDir [ n ] = elec - > GetPropagationDir ( n ) ;
double dir_norm = sqrt ( m_PropDir [ 0 ] * m_PropDir [ 0 ] + m_PropDir [ 1 ] * m_PropDir [ 1 ] + m_PropDir [ 2 ] * m_PropDir [ 2 ] ) ;
if ( dir_norm = = 0 )
{
cerr < < " Operator_Ext_TFST::BuildExtension: Warning, plane wave direction is zero, skipping... " < < endl ;
SetActive ( false ) ;
return false ;
}
//make it a unit vector
m_PropDir [ 0 ] / = dir_norm ; m_PropDir [ 1 ] / = dir_norm ; m_PropDir [ 2 ] / = dir_norm ;
if ( m_Op - > SnapBox2Mesh ( box - > GetStartCoord ( ) - > GetNativeCoords ( ) , box - > GetStopCoord ( ) - > GetNativeCoords ( ) , m_Start , m_Stop ) ! = 3 )
{
cerr < < " Operator_Ext_TFST::BuildExtension: Warning, plane wave box dimension is invalid, skipping... " < < endl ;
SetActive ( false ) ;
return false ;
}
double origin [ 3 ] ;
unsigned int ui_origin [ 3 ] ;
for ( int n = 0 ; n < 3 ; + + n )
{
m_E_Amp [ n ] = elec - > GetExcitation ( n ) ;
m_numLines [ n ] = m_Stop [ n ] - m_Start [ n ] + 1 ;
m_IncLow [ n ] = m_PropDir [ n ] > = 0 ;
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if ( m_Start [ n ] = = 0 )
m_ActiveDir [ n ] [ 0 ] = false ;
else
m_ActiveDir [ n ] [ 0 ] = true ;
if ( m_Stop [ n ] = = m_Op - > GetOriginalNumLines ( n ) - 1 )
m_ActiveDir [ n ] [ 1 ] = false ;
else
m_ActiveDir [ n ] [ 1 ] = true ;
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if ( m_IncLow [ n ] )
{
ui_origin [ n ] = m_Start [ n ] ;
}
else
{
ui_origin [ n ] = m_Stop [ n ] ;
}
origin [ n ] = m_Op - > GetDiscLine ( n , ui_origin [ n ] ) ;
}
double dotEk = ( m_E_Amp [ 0 ] * m_PropDir [ 0 ] + m_E_Amp [ 1 ] * m_PropDir [ 1 ] + m_E_Amp [ 2 ] * m_PropDir [ 2 ] ) ;
double angle = acos ( dotEk / ( m_E_Amp [ 0 ] * m_E_Amp [ 0 ] + m_E_Amp [ 1 ] * m_E_Amp [ 1 ] + m_E_Amp [ 2 ] * m_E_Amp [ 2 ] ) ) / PI * 180 ;
if ( angle = = 0 )
{
cerr < < " Operator_Ext_TFST::BuildExtension: Warning, plane wave direction and polarization is identical, skipping... " < < endl ;
SetActive ( false ) ;
return false ;
}
if ( angle ! = 90 )
{
cerr < < " Operator_Ext_TFST::BuildExtension: Warning, angle between propagation direction and polarization is not 90deg, resetting E-polarization to : ( " ;
for ( int n = 0 ; n < 3 ; + + n )
m_E_Amp [ n ] - = m_PropDir [ n ] * dotEk ;
cerr < < m_E_Amp [ 0 ] < < " , " < < m_E_Amp [ 1 ] < < " , " < < m_E_Amp [ 2 ] < < " ) " < < endl ;
}
int nP , nPP ;
for ( int n = 0 ; n < 3 ; + + n )
{
nP = ( n + 1 ) % 3 ;
nPP = ( n + 2 ) % 3 ;
m_H_Amp [ n ] = m_PropDir [ nP ] * m_E_Amp [ nPP ] - m_PropDir [ nPP ] * m_E_Amp [ nP ] ;
m_H_Amp [ n ] / = __Z0__ ;
}
double coord [ 3 ] ;
double unit = m_Op - > GetGridDelta ( ) ;
double delay ;
double dist ;
unsigned int pos [ 3 ] ;
unsigned int numP , ui_pos ;
m_maxDelay = 0 ;
for ( int n = 0 ; n < 3 ; + + n )
{
nP = ( n + 1 ) % 3 ;
nPP = ( n + 2 ) % 3 ;
pos [ n ] = 0 ; //unused
pos [ nP ] = m_Start [ nP ] ;
numP = m_numLines [ nP ] * m_numLines [ nPP ] ;
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if ( ! m_ActiveDir [ n ] [ 0 ] & & ! m_ActiveDir [ n ] [ 1 ] )
continue ;
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for ( int l = 0 ; l < 2 ; + + l )
for ( int c = 0 ; c < 2 ; + + c )
{
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if ( m_ActiveDir [ n ] [ l ] )
{
m_VoltDelay [ n ] [ l ] [ c ] = new unsigned int [ numP ] ;
m_VoltDelayDelta [ n ] [ l ] [ c ] = new FDTD_FLOAT [ numP ] ;
m_VoltAmp [ n ] [ l ] [ c ] = new FDTD_FLOAT [ numP ] ;
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m_CurrDelay [ n ] [ l ] [ c ] = new unsigned int [ numP ] ;
m_CurrDelayDelta [ n ] [ l ] [ c ] = new FDTD_FLOAT [ numP ] ;
m_CurrAmp [ n ] [ l ] [ c ] = new FDTD_FLOAT [ numP ] ;
}
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}
ui_pos = 0 ;
for ( unsigned int i = 0 ; i < m_numLines [ nP ] ; + + i )
{
pos [ nPP ] = m_Start [ nPP ] ;
for ( unsigned int j = 0 ; j < m_numLines [ nPP ] ; + + j )
{
// current updates
pos [ n ] = m_Start [ n ] ;
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if ( m_ActiveDir [ n ] [ 0 ] )
{
m_Op - > GetYeeCoords ( nP , pos , coord , false ) ;
dist = fabs ( coord [ 0 ] - origin [ 0 ] ) * m_PropDir [ 0 ] + fabs ( coord [ 1 ] - origin [ 1 ] ) * m_PropDir [ 1 ] + fabs ( coord [ 2 ] - origin [ 2 ] ) * m_PropDir [ 2 ] ;
delay = dist * unit / __C0__ / dT ;
m_maxDelay = max ( ( unsigned int ) delay , m_maxDelay ) ;
m_CurrDelay [ n ] [ 0 ] [ 1 ] [ ui_pos ] = floor ( delay ) ;
m_CurrDelayDelta [ n ] [ 0 ] [ 1 ] [ ui_pos ] = delay - floor ( delay ) ;
m_CurrAmp [ n ] [ 0 ] [ 1 ] [ ui_pos ] = m_E_Amp [ nP ] * m_Op - > GetEdgeLength ( nP , pos ) ;
m_Op - > GetYeeCoords ( nPP , pos , coord , false ) ;
dist = fabs ( coord [ 0 ] - origin [ 0 ] ) * m_PropDir [ 0 ] + fabs ( coord [ 1 ] - origin [ 1 ] ) * m_PropDir [ 1 ] + fabs ( coord [ 2 ] - origin [ 2 ] ) * m_PropDir [ 2 ] ;
delay = dist * unit / __C0__ / dT ;
m_maxDelay = max ( ( unsigned int ) delay , m_maxDelay ) ;
m_CurrDelay [ n ] [ 0 ] [ 0 ] [ ui_pos ] = floor ( delay ) ;
m_CurrDelayDelta [ n ] [ 0 ] [ 0 ] [ ui_pos ] = delay - floor ( delay ) ;
m_CurrAmp [ n ] [ 0 ] [ 0 ] [ ui_pos ] = m_E_Amp [ nPP ] * m_Op - > GetEdgeLength ( nPP , pos ) ;
- - pos [ n ] ;
m_CurrAmp [ n ] [ 0 ] [ 0 ] [ ui_pos ] * = m_Op - > GetIV ( nP , pos ) ;
m_CurrAmp [ n ] [ 0 ] [ 1 ] [ ui_pos ] * = m_Op - > GetIV ( nPP , pos ) ;
}
if ( m_ActiveDir [ n ] [ 1 ] )
{
pos [ n ] = m_Stop [ n ] ;
m_Op - > GetYeeCoords ( nP , pos , coord , false ) ;
dist = fabs ( coord [ 0 ] - origin [ 0 ] ) * m_PropDir [ 0 ] + fabs ( coord [ 1 ] - origin [ 1 ] ) * m_PropDir [ 1 ] + fabs ( coord [ 2 ] - origin [ 2 ] ) * m_PropDir [ 2 ] ;
delay = dist * unit / __C0__ / dT ;
m_maxDelay = max ( ( unsigned int ) delay , m_maxDelay ) ;
m_CurrDelay [ n ] [ 1 ] [ 1 ] [ ui_pos ] = floor ( delay ) ;
m_CurrDelayDelta [ n ] [ 1 ] [ 1 ] [ ui_pos ] = delay - floor ( delay ) ;
m_CurrAmp [ n ] [ 1 ] [ 1 ] [ ui_pos ] = m_E_Amp [ nP ] * m_Op - > GetEdgeLength ( nP , pos ) ;
m_Op - > GetYeeCoords ( nPP , pos , coord , false ) ;
dist = fabs ( coord [ 0 ] - origin [ 0 ] ) * m_PropDir [ 0 ] + fabs ( coord [ 1 ] - origin [ 1 ] ) * m_PropDir [ 1 ] + fabs ( coord [ 2 ] - origin [ 2 ] ) * m_PropDir [ 2 ] ;
delay = dist * unit / __C0__ / dT ;
m_maxDelay = max ( ( unsigned int ) delay , m_maxDelay ) ;
m_CurrDelay [ n ] [ 1 ] [ 0 ] [ ui_pos ] = floor ( delay ) ;
m_CurrDelayDelta [ n ] [ 1 ] [ 0 ] [ ui_pos ] = delay - floor ( delay ) ;
m_CurrAmp [ n ] [ 1 ] [ 0 ] [ ui_pos ] = m_E_Amp [ nPP ] * m_Op - > GetEdgeLength ( nPP , pos ) ;
m_CurrAmp [ n ] [ 1 ] [ 0 ] [ ui_pos ] * = m_Op - > GetIV ( nP , pos ) ;
m_CurrAmp [ n ] [ 1 ] [ 1 ] [ ui_pos ] * = m_Op - > GetIV ( nPP , pos ) ;
}
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if ( m_IncLow [ n ] )
{
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if ( m_ActiveDir [ n ] [ 0 ] )
m_CurrAmp [ n ] [ 0 ] [ 0 ] [ ui_pos ] * = - 1 ;
if ( m_ActiveDir [ n ] [ 1 ] )
m_CurrAmp [ n ] [ 1 ] [ 1 ] [ ui_pos ] * = - 1 ;
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}
else
{
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if ( m_ActiveDir [ n ] [ 0 ] )
m_CurrAmp [ n ] [ 0 ] [ 1 ] [ ui_pos ] * = - 1 ;
if ( m_ActiveDir [ n ] [ 1 ] )
m_CurrAmp [ n ] [ 1 ] [ 0 ] [ ui_pos ] * = - 1 ;
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}
if ( pos [ nP ] = = m_Stop [ nP ] )
{
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if ( m_ActiveDir [ n ] [ 0 ] )
m_CurrAmp [ n ] [ 0 ] [ 1 ] [ ui_pos ] = 0 ;
if ( m_ActiveDir [ n ] [ 1 ] )
m_CurrAmp [ n ] [ 1 ] [ 1 ] [ ui_pos ] = 0 ;
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}
if ( pos [ nPP ] = = m_Stop [ nPP ] )
{
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if ( m_ActiveDir [ n ] [ 0 ] )
m_CurrAmp [ n ] [ 0 ] [ 0 ] [ ui_pos ] = 0 ;
if ( m_ActiveDir [ n ] [ 1 ] )
m_CurrAmp [ n ] [ 1 ] [ 0 ] [ ui_pos ] = 0 ;
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}
// voltage updates
pos [ n ] = m_Start [ n ] - 1 ;
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if ( m_ActiveDir [ n ] [ 0 ] )
{
m_Op - > GetYeeCoords ( nP , pos , coord , true ) ;
dist = fabs ( coord [ 0 ] - origin [ 0 ] ) * m_PropDir [ 0 ] + fabs ( coord [ 1 ] - origin [ 1 ] ) * m_PropDir [ 1 ] + fabs ( coord [ 2 ] - origin [ 2 ] ) * m_PropDir [ 2 ] ;
delay = dist * unit / __C0__ / dT ;
m_maxDelay = max ( ( unsigned int ) delay , m_maxDelay ) ;
m_VoltDelay [ n ] [ 0 ] [ 1 ] [ ui_pos ] = floor ( delay ) ;
m_VoltDelayDelta [ n ] [ 0 ] [ 1 ] [ ui_pos ] = delay - floor ( delay ) ;
m_VoltAmp [ n ] [ 0 ] [ 1 ] [ ui_pos ] = m_H_Amp [ nP ] * m_Op - > GetEdgeLength ( nP , pos , true ) ;
m_Op - > GetYeeCoords ( nPP , pos , coord , true ) ;
dist = fabs ( coord [ 0 ] - origin [ 0 ] ) * m_PropDir [ 0 ] + fabs ( coord [ 1 ] - origin [ 1 ] ) * m_PropDir [ 1 ] + fabs ( coord [ 2 ] - origin [ 2 ] ) * m_PropDir [ 2 ] ;
delay = dist * unit / __C0__ / dT ;
m_maxDelay = max ( ( unsigned int ) delay , m_maxDelay ) ;
m_VoltDelay [ n ] [ 0 ] [ 0 ] [ ui_pos ] = floor ( delay ) ;
m_VoltDelayDelta [ n ] [ 0 ] [ 0 ] [ ui_pos ] = delay - floor ( delay ) ;
m_VoltAmp [ n ] [ 0 ] [ 0 ] [ ui_pos ] = m_H_Amp [ nPP ] * m_Op - > GetEdgeLength ( nPP , pos , true ) ;
+ + pos [ n ] ;
m_VoltAmp [ n ] [ 0 ] [ 0 ] [ ui_pos ] * = m_Op - > GetVI ( nP , pos ) ;
m_VoltAmp [ n ] [ 0 ] [ 1 ] [ ui_pos ] * = m_Op - > GetVI ( nPP , pos ) ;
}
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pos [ n ] = m_Stop [ n ] ;
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if ( m_ActiveDir [ n ] [ 1 ] )
{
m_Op - > GetYeeCoords ( nP , pos , coord , true ) ;
dist = fabs ( coord [ 0 ] - origin [ 0 ] ) * m_PropDir [ 0 ] + fabs ( coord [ 1 ] - origin [ 1 ] ) * m_PropDir [ 1 ] + fabs ( coord [ 2 ] - origin [ 2 ] ) * m_PropDir [ 2 ] ;
delay = dist * unit / __C0__ / dT ;
m_maxDelay = max ( ( unsigned int ) delay , m_maxDelay ) ;
m_VoltDelay [ n ] [ 1 ] [ 1 ] [ ui_pos ] = floor ( delay ) ;
m_VoltDelayDelta [ n ] [ 1 ] [ 1 ] [ ui_pos ] = delay - floor ( delay ) ;
m_VoltAmp [ n ] [ 1 ] [ 1 ] [ ui_pos ] = m_H_Amp [ nP ] * m_Op - > GetEdgeLength ( nP , pos , true ) ;
m_Op - > GetYeeCoords ( nPP , pos , coord , true ) ;
dist = fabs ( coord [ 0 ] - origin [ 0 ] ) * m_PropDir [ 0 ] + fabs ( coord [ 1 ] - origin [ 1 ] ) * m_PropDir [ 1 ] + fabs ( coord [ 2 ] - origin [ 2 ] ) * m_PropDir [ 2 ] ;
delay = dist * unit / __C0__ / dT ;
m_maxDelay = max ( ( unsigned int ) delay , m_maxDelay ) ;
m_VoltDelay [ n ] [ 1 ] [ 0 ] [ ui_pos ] = floor ( delay ) ;
m_VoltDelayDelta [ n ] [ 1 ] [ 0 ] [ ui_pos ] = delay - floor ( delay ) ;
m_VoltAmp [ n ] [ 1 ] [ 0 ] [ ui_pos ] = m_H_Amp [ nPP ] * m_Op - > GetEdgeLength ( nPP , pos , true ) ;
m_VoltAmp [ n ] [ 1 ] [ 0 ] [ ui_pos ] * = m_Op - > GetVI ( nP , pos ) ;
m_VoltAmp [ n ] [ 1 ] [ 1 ] [ ui_pos ] * = m_Op - > GetVI ( nPP , pos ) ;
}
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if ( m_IncLow [ n ] )
{
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if ( m_ActiveDir [ n ] [ 1 ] )
m_VoltAmp [ n ] [ 1 ] [ 0 ] [ ui_pos ] * = - 1 ;
if ( m_ActiveDir [ n ] [ 0 ] )
m_VoltAmp [ n ] [ 0 ] [ 1 ] [ ui_pos ] * = - 1 ;
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}
else
{
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if ( m_ActiveDir [ n ] [ 0 ] )
m_VoltAmp [ n ] [ 0 ] [ 0 ] [ ui_pos ] * = - 1 ;
if ( m_ActiveDir [ n ] [ 1 ] )
m_VoltAmp [ n ] [ 1 ] [ 1 ] [ ui_pos ] * = - 1 ;
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}
if ( pos [ nP ] = = m_Stop [ nP ] )
{
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if ( m_ActiveDir [ n ] [ 0 ] )
m_VoltAmp [ n ] [ 0 ] [ 0 ] [ ui_pos ] = 0 ;
if ( m_ActiveDir [ n ] [ 1 ] )
m_VoltAmp [ n ] [ 1 ] [ 0 ] [ ui_pos ] = 0 ;
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}
if ( pos [ nPP ] = = m_Stop [ nPP ] )
{
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if ( m_ActiveDir [ n ] [ 0 ] )
m_VoltAmp [ n ] [ 0 ] [ 1 ] [ ui_pos ] = 0 ;
if ( m_ActiveDir [ n ] [ 1 ] )
m_VoltAmp [ n ] [ 1 ] [ 1 ] [ ui_pos ] = 0 ;
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}
+ + pos [ nPP ] ;
+ + ui_pos ;
}
+ + pos [ nP ] ;
}
}
+ + m_maxDelay ;
return true ;
}
SetActive ( false ) ;
return false ;
}
Engine_Extension * Operator_Ext_TFST : : CreateEngineExtention ( )
{
return new Engine_Ext_TFSF ( this ) ;
}
void Operator_Ext_TFST : : ShowStat ( ostream & ostr ) const
{
Operator_Extension : : ShowStat ( ostr ) ;
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cout < < " Active directions \t : " < < " ( " < < m_ActiveDir [ 0 ] [ 0 ] < < " / " < < m_ActiveDir [ 0 ] [ 1 ] < < " , " < < m_ActiveDir [ 1 ] [ 0 ] < < " / " < < m_ActiveDir [ 1 ] [ 1 ] < < " , " < < m_ActiveDir [ 2 ] [ 0 ] < < " / " < < m_ActiveDir [ 2 ] [ 1 ] < < " ) " < < endl ;
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cout < < " Propagation direction \t : " < < " ( " < < m_PropDir [ 0 ] < < " , " < < m_PropDir [ 1 ] < < " , " < < m_PropDir [ 2 ] < < " ) " < < endl ;
cout < < " E-field amplitude \t : " < < " ( " < < m_E_Amp [ 0 ] < < " , " < < m_E_Amp [ 1 ] < < " , " < < m_E_Amp [ 2 ] < < " ) " < < endl ;
cout < < " m_H_Amp amplitude \t : " < < " ( " < < m_H_Amp [ 0 ] * __Z0__ < < " , " < < m_H_Amp [ 1 ] * __Z0__ < < " , " < < m_H_Amp [ 2 ] * __Z0__ < < " )/Z0 " < < endl ;
cout < < " Box Dimensions \t \t : " < < m_numLines [ 0 ] < < " x " < < m_numLines [ 1 ] < < " x " < < m_numLines [ 2 ] < < endl ;
cout < < " Max. Delay (TS) \t \t : " < < m_maxDelay < < endl ;
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int dirs = m_ActiveDir [ 0 ] [ 0 ] + m_ActiveDir [ 0 ] [ 1 ] + m_ActiveDir [ 1 ] [ 0 ] + m_ActiveDir [ 1 ] [ 1 ] + m_ActiveDir [ 2 ] [ 0 ] + m_ActiveDir [ 2 ] [ 1 ] ;
cout < < " Memory usage (est.) \t : ~ " < < m_numLines [ 0 ] * m_numLines [ 1 ] * m_numLines [ 2 ] * dirs * 4 * 4 / 1024 < < " kiB " < < endl ;
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}