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/*
* 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 < http : //www.gnu.org/licenses/>.
*/
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# include "engine.h"
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# include "engine_extension.h"
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# include "operator_extension.h"
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# include "tools/array_ops.h"
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//! \brief construct an Engine instance
//! it's the responsibility of the caller to free the returned pointer
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Engine * Engine : : New ( const Operator * op )
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{
Engine * e = new Engine ( op ) ;
e - > Init ( ) ;
return e ;
}
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Engine : : Engine ( const Operator * op )
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{
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Op = op ;
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for ( int n = 0 ; n < 3 ; + + n )
{
numLines [ n ] = Op - > GetNumberOfLines ( n ) ;
}
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for ( size_t n = 0 ; n < Op - > GetNumberOfExtentions ( ) ; + + n )
{
Operator_Extension * op_ext = Op - > GetExtension ( n ) ;
Engine_Extension * eng_ext = op_ext - > CreateEngineExtention ( ) ;
if ( eng_ext )
{
eng_ext - > SetEngine ( this ) ;
m_Eng_exts . push_back ( eng_ext ) ;
}
}
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}
Engine : : ~ Engine ( )
{
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for ( size_t n = 0 ; n < m_Eng_exts . size ( ) ; + + n )
delete m_Eng_exts . at ( n ) ;
m_Eng_exts . clear ( ) ;
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this - > Reset ( ) ;
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}
void Engine : : Init ( )
{
numTS = 0 ;
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volt = Create_N_3DArray ( numLines ) ;
curr = Create_N_3DArray ( numLines ) ;
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file_et1 . open ( " et1 " ) ;
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}
void Engine : : Reset ( )
{
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Delete_N_3DArray ( volt , numLines ) ;
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volt = NULL ;
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Delete_N_3DArray ( curr , numLines ) ;
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curr = NULL ;
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file_et1 . close ( ) ;
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}
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void Engine : : UpdateVoltages ( )
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{
unsigned int pos [ 3 ] ;
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bool shift [ 3 ] ;
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//voltage updates
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for ( pos [ 0 ] = 0 ; pos [ 0 ] < numLines [ 0 ] ; + + pos [ 0 ] )
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{
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shift [ 0 ] = pos [ 0 ] ;
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for ( pos [ 1 ] = 0 ; pos [ 1 ] < numLines [ 1 ] ; + + pos [ 1 ] )
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{
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shift [ 1 ] = pos [ 1 ] ;
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for ( pos [ 2 ] = 0 ; pos [ 2 ] < numLines [ 2 ] ; + + pos [ 2 ] )
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{
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shift [ 2 ] = pos [ 2 ] ;
//do the updates here
//for x
volt [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * = Op - > vv [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] ;
volt [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] + = Op - > vi [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * ( curr [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] - curr [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] - shift [ 1 ] ] [ pos [ 2 ] ] - curr [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] + curr [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] - shift [ 2 ] ] ) ;
//for y
volt [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * = Op - > vv [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] ;
volt [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] + = Op - > vi [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * ( curr [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] - curr [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] - shift [ 2 ] ] - curr [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] + curr [ 2 ] [ pos [ 0 ] - shift [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] ) ;
//for z
volt [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * = Op - > vv [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] ;
volt [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] + = Op - > vi [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * ( curr [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] - curr [ 1 ] [ pos [ 0 ] - shift [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] - curr [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] + curr [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] - shift [ 1 ] ] [ pos [ 2 ] ] ) ;
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}
}
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}
}
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void Engine : : ApplyVoltageExcite ( )
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{
int exc_pos ;
//soft voltage excitation here (E-field excite)
for ( unsigned int n = 0 ; n < Op - > E_Exc_Count ; + + n )
{
exc_pos = ( int ) numTS - ( int ) Op - > E_Exc_delay [ n ] ;
exc_pos * = ( exc_pos > 0 & & exc_pos < = ( int ) Op - > ExciteLength ) ;
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// if (n==0) cerr << numTS << " => " << Op->ExciteSignal[exc_pos] << endl;
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GetVolt ( Op - > E_Exc_dir [ n ] , Op - > E_Exc_index [ 0 ] [ n ] , Op - > E_Exc_index [ 1 ] [ n ] , Op - > E_Exc_index [ 2 ] [ n ] ) + = Op - > E_Exc_amp [ n ] * Op - > ExciteSignal_volt [ exc_pos ] ;
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}
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// write the first excitation into the file "et1"
if ( Op - > E_Exc_Count > = 1 ) {
exc_pos = ( int ) numTS - ( int ) Op - > E_Exc_delay [ 0 ] ;
exc_pos * = ( exc_pos > 0 & & exc_pos < = ( int ) Op - > ExciteLength ) ;
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file_et1 < < numTS * Op - > GetTimestep ( ) < < " \t " < < Op - > E_Exc_amp [ 0 ] * Op - > ExciteSignal_volt [ exc_pos ] < < " \n " ; // do not use std::endl here, because it will do an implicit flush
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}
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}
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void Engine : : UpdateCurrents ( )
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{
unsigned int pos [ 3 ] ;
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for ( pos [ 0 ] = 0 ; pos [ 0 ] < numLines [ 0 ] - 1 ; + + pos [ 0 ] )
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{
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for ( pos [ 1 ] = 0 ; pos [ 1 ] < numLines [ 1 ] - 1 ; + + pos [ 1 ] )
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{
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for ( pos [ 2 ] = 0 ; pos [ 2 ] < numLines [ 2 ] - 1 ; + + pos [ 2 ] )
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{
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//do the updates here
//for x
curr [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * = Op - > ii [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] ;
curr [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] + = Op - > iv [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * ( volt [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] - volt [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] + 1 ] [ pos [ 2 ] ] - volt [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] + volt [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] + 1 ] ) ;
//for y
curr [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * = Op - > ii [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] ;
curr [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] + = Op - > iv [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * ( volt [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] - volt [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] + 1 ] - volt [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] + volt [ 2 ] [ pos [ 0 ] + 1 ] [ pos [ 1 ] ] [ pos [ 2 ] ] ) ;
//for z
curr [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * = Op - > ii [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] ;
curr [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] + = Op - > iv [ 2 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] * ( volt [ 1 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] - volt [ 1 ] [ pos [ 0 ] + 1 ] [ pos [ 1 ] ] [ pos [ 2 ] ] - volt [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] ] [ pos [ 2 ] ] + volt [ 0 ] [ pos [ 0 ] ] [ pos [ 1 ] + 1 ] [ pos [ 2 ] ] ) ;
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}
}
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}
}
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void Engine : : ApplyCurrentExcite ( )
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{
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int exc_pos ;
//soft current excitation here (H-field excite)
for ( unsigned int n = 0 ; n < Op - > Curr_Exc_Count ; + + n )
{
exc_pos = ( int ) numTS - ( int ) Op - > Curr_Exc_delay [ n ] ;
exc_pos * = ( exc_pos > 0 & & exc_pos < = ( int ) Op - > ExciteLength ) ;
// if (n==0) cerr << numTS << " => " << Op->ExciteSignal[exc_pos] << endl;
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GetCurr ( Op - > Curr_Exc_dir [ n ] , Op - > Curr_Exc_index [ 0 ] [ n ] , Op - > Curr_Exc_index [ 1 ] [ n ] , Op - > Curr_Exc_index [ 2 ] [ n ] ) + = Op - > Curr_Exc_amp [ n ] * Op - > ExciteSignal_curr [ exc_pos ] ;
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}
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}
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bool Engine : : IterateTS ( unsigned int iterTS )
{
for ( unsigned int iter = 0 ; iter < iterTS ; + + iter )
{
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//voltage updates with extensions
for ( size_t n = 0 ; n < m_Eng_exts . size ( ) ; + + n )
m_Eng_exts . at ( n ) - > DoPreVoltageUpdates ( ) ;
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UpdateVoltages ( ) ;
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for ( size_t n = 0 ; n < m_Eng_exts . size ( ) ; + + n )
m_Eng_exts . at ( n ) - > DoPostVoltageUpdates ( ) ;
for ( size_t n = 0 ; n < m_Eng_exts . size ( ) ; + + n )
m_Eng_exts . at ( n ) - > Apply2Voltages ( ) ;
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ApplyVoltageExcite ( ) ;
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//current updates with extensions
for ( size_t n = 0 ; n < m_Eng_exts . size ( ) ; + + n )
m_Eng_exts . at ( n ) - > DoPreCurrentUpdates ( ) ;
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UpdateCurrents ( ) ;
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for ( size_t n = 0 ; n < m_Eng_exts . size ( ) ; + + n )
m_Eng_exts . at ( n ) - > DoPostCurrentUpdates ( ) ;
for ( size_t n = 0 ; n < m_Eng_exts . size ( ) ; + + n )
m_Eng_exts . at ( n ) - > Apply2Current ( ) ;
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ApplyCurrentExcite ( ) ;
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+ + numTS ;
}
return true ;
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}