441 lines
12 KiB
C++
441 lines
12 KiB
C++
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/*
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* TRANSLINE.cpp - base for a transmission line implementation
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*
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* Copyright (C) 2005 Stefan Jahn <stefan@lkcc.org>
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* Modified for Kicad: 2018 jean-pierre.charras
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (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 package; see the file COPYING. If not, write to
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* the Free Software Foundation, Inc., 51 Franklin Street - Fifth Floor,
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* Boston, MA 02110-1301, USA.
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*
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*/
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#include <cmath>
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#include <limits>
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#include <wx/colour.h>
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#include <wx/settings.h>
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#include "transline.h"
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#include "units.h"
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#ifndef INFINITY
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#define INFINITY std::numeric_limits<double>::infinity()
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#endif
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#ifndef M_PI_2
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#define M_PI_2 ( M_PI / 2 )
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#endif
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// Functions to Read/Write parameters in pcb_calculator main frame:
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// They are wrapper to actual functions, so all transline functions do not
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// depend on Graphic User Interface
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void SetPropertyInDialog( enum PRMS_ID aPrmId, double value );
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/* Puts the text into the given result line.
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*/
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void SetResultInDialog( int line, const char* text );
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/* print aValue into the given result line.
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*/
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void SetResultInDialog( int aLineNumber, double aValue, const char* aText );
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/* Returns a named property value. */
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double GetPropertyInDialog( enum PRMS_ID aPrmId );
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// Returns true if the param aPrmId is selected
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// Has meaning only for params that have a radio button
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bool IsSelectedInDialog( enum PRMS_ID aPrmId );
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/** Function SetPropertyBgColorInDialog
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* Set the background color of a parameter
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* @param aPrmId = param id to set
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* @param aCol = new color
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*/
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void SetPropertyBgColorInDialog( enum PRMS_ID aPrmId, const KIGFX::COLOR4D* aCol );
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/* Constructor creates a transmission line instance. */
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TRANSLINE::TRANSLINE()
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{
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m_parameters[MURC_PRM] = 1.0;
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m_Name = nullptr;
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ang_l = 0.0; // Electrical length in angle
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len = 0.0; // length of line
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er_eff = 1.0; // effective dielectric constant
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Init();
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}
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/* Destructor destroys a transmission line instance. */
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TRANSLINE::~TRANSLINE()
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{
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}
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void TRANSLINE::Init( void )
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{
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wxColour wxcol = wxSystemSettings::GetColour( wxSYS_COLOUR_WINDOW );
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okCol = KIGFX::COLOR4D( wxcol );
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okCol.r = wxcol.Red() / 255.0;
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okCol.g = wxcol.Green() / 255.0;
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okCol.b = wxcol.Blue() / 255.0;
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int i;
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// Initialize these variables mainly to avoid warnings from a static analyzer
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for( i = 0; i < EXTRA_PRMS_COUNT; ++i )
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{
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m_parameters[i] = 0;
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}
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}
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/* Sets a named property to the given value, access through the
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* application.
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*/
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void TRANSLINE::setProperty( enum PRMS_ID aPrmId, double value )
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{
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SetPropertyInDialog( aPrmId, value );
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}
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/*
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*Returns true if the param aPrmId is selected
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* Has meaning only for params that have a radio button
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*/
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bool TRANSLINE::isSelected( enum PRMS_ID aPrmId )
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{
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return IsSelectedInDialog( aPrmId );
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}
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/* Puts the text into the given result line.
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*/
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void TRANSLINE::setResult( int line, const char* text )
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{
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SetResultInDialog( line, text );
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}
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void TRANSLINE::setResult( int line, double value, const char* text )
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{
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SetResultInDialog( line, value, text );
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}
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/* Returns a property value. */
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double TRANSLINE::getProperty( enum PRMS_ID aPrmId )
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{
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return GetPropertyInDialog( aPrmId );
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}
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/** @function getProperties
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*
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* Get all properties from the UI. Computes some extra ones.
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**/
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void TRANSLINE::getProperties( void )
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{
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int i;
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for( i = 0; i < DUMMY_PRM; ++i )
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{
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m_parameters[i] = getProperty( (PRMS_ID) i );
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setErrorLevel( (PRMS_ID) i, TRANSLINE_OK );
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}
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m_parameters[SIGMA_PRM] = 1.0 / getProperty( RHO_PRM );
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m_parameters[EPSILON_EFF_PRM] = 1.0;
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m_parameters[SKIN_DEPTH_PRM] = skin_depth();
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}
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/** @function checkProperties
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*
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* Checks the input parameters (ie: negative length).
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* Does not check for incompatibility between values as this depends on the line shape.
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**/
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void TRANSLINE::checkProperties( void )
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{
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// Do not check for values that are results of anylzing / synthesizing
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// Do not check for transline specific incompatibilities ( like " conductor height sould be lesser than dielectric height")
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if( !std::isfinite( m_parameters[EPSILONR_PRM] ) || m_parameters[EPSILONR_PRM] <= 0 )
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setErrorLevel( EPSILONR_PRM, TRANSLINE_WARNING );
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if( !std::isfinite( m_parameters[TAND_PRM] ) || m_parameters[TAND_PRM] < 0 )
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setErrorLevel( TAND_PRM, TRANSLINE_WARNING );
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if( !std::isfinite( m_parameters[RHO_PRM] ) || m_parameters[RHO_PRM] < 0 )
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setErrorLevel( RHO_PRM, TRANSLINE_WARNING );
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if( !std::isfinite( m_parameters[H_PRM] ) || m_parameters[H_PRM] < 0 )
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setErrorLevel( H_PRM, TRANSLINE_WARNING );
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if( !std::isfinite( m_parameters[TWISTEDPAIR_TWIST_PRM] )
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|| m_parameters[TWISTEDPAIR_TWIST_PRM] < 0 )
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setErrorLevel( TWISTEDPAIR_TWIST_PRM, TRANSLINE_WARNING );
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if( !std::isfinite( m_parameters[STRIPLINE_A_PRM] ) || m_parameters[STRIPLINE_A_PRM] <= 0 )
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setErrorLevel( STRIPLINE_A_PRM, TRANSLINE_WARNING );
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if( !std::isfinite( m_parameters[H_T_PRM] ) || m_parameters[H_T_PRM] <= 0 )
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setErrorLevel( H_T_PRM, TRANSLINE_WARNING );
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// How can we check ROUGH_PRM ?
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if( !std::isfinite( m_parameters[MUR_PRM] ) || m_parameters[MUR_PRM] < 0 )
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setErrorLevel( MUR_PRM, TRANSLINE_WARNING );
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if( !std::isfinite( m_parameters[TWISTEDPAIR_EPSILONR_ENV_PRM] )
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|| m_parameters[TWISTEDPAIR_EPSILONR_ENV_PRM] <= 0 )
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setErrorLevel( TWISTEDPAIR_EPSILONR_ENV_PRM, TRANSLINE_WARNING );
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if( !std::isfinite( m_parameters[MURC_PRM] ) || m_parameters[MURC_PRM] < 0 )
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setErrorLevel( MURC_PRM, TRANSLINE_WARNING );
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if( !std::isfinite( m_parameters[FREQUENCY_PRM] ) || m_parameters[FREQUENCY_PRM] <= 0 )
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setErrorLevel( FREQUENCY_PRM, TRANSLINE_WARNING );
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}
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void TRANSLINE::analyze()
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{
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getProperties();
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checkProperties();
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calcAnalyze();
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showAnalyze();
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show_results();
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}
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void TRANSLINE::synthesize()
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{
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getProperties();
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checkProperties();
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calcSynthesize();
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showSynthesize();
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show_results();
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}
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/**
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* @function skin_depth
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* calculate skin depth
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*
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* \f$ \frac{1}{\sqrt{ \pi \cdot f \cdot \mu \cdot \sigma }} \f$
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*/
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#include <cstdio>
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double TRANSLINE::skin_depth()
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{
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double depth;
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depth = 1.0
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/ sqrt( M_PI * m_parameters[FREQUENCY_PRM] * m_parameters[MURC_PRM] * MU0
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* m_parameters[SIGMA_PRM] );
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return depth;
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}
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/* *****************************************************************
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********** **********
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********** mathematical functions **********
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********** **********
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***************************************************************** */
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#define NR_EPSI 2.2204460492503131e-16
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/* The function computes the complete elliptic integral of first kind
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* K() and the second kind E() using the arithmetic-geometric mean
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* algorithm (AGM) by Abramowitz and Stegun.
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*/
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void TRANSLINE::ellipke( double arg, double& k, double& e )
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{
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int iMax = 16;
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if( arg == 1.0 )
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{
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k = INFINITY; // infinite
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e = 0;
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}
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else if( std::isinf( arg ) && arg < 0 )
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{
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k = 0;
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e = INFINITY; // infinite
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}
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else
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{
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double a, b, c, fr, s, fk = 1, fe = 1, t, da = arg;
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int i;
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if( arg < 0 )
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{
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fk = 1 / sqrt( 1 - arg );
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fe = sqrt( 1 - arg );
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da = -arg / ( 1 - arg );
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}
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a = 1;
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b = sqrt( 1 - da );
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c = sqrt( da );
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fr = 0.5;
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s = fr * c * c;
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for( i = 0; i < iMax; i++ )
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{
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t = ( a + b ) / 2;
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c = ( a - b ) / 2;
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b = sqrt( a * b );
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a = t;
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fr *= 2;
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s += fr * c * c;
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if( c / a < NR_EPSI )
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break;
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}
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if( i >= iMax )
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{
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k = 0;
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e = 0;
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}
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else
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{
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k = M_PI_2 / a;
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e = M_PI_2 * ( 1 - s ) / a;
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if( arg < 0 )
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{
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k *= fk;
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e *= fe;
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}
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}
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}
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}
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/* We need to know only K(k), and if possible KISS. */
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double TRANSLINE::ellipk( double k )
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{
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double r, lost;
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ellipke( k, r, lost );
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return r;
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}
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#define MAX_ERROR 0.000001
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/**
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* @function minimizeZ0Error1D
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*
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* Tries to find a parameter that minimizes the error ( on Z0 ).
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* This function only works with a single parameter.
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* Calls @ref calcAnalyze several times until the error is acceptable.
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* While the error is unnacceptable, changes slightly the parameter.
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*
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* This function does not change Z0 / Angl_L.
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*
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* @param avar Parameter to synthesize
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* @return 'true' if error < MAX_ERROR, else 'false'
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*/
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bool TRANSLINE::minimizeZ0Error1D( double* aVar )
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{
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double Z0_dest, Z0_current, Z0_result, angl_l_dest, increment, slope, error;
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int iteration;
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if( !std::isfinite( m_parameters[Z0_PRM] ) )
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{
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*aVar = NAN;
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return false;
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}
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if( ( !std::isfinite( *aVar ) ) || ( *aVar == 0 ) )
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{
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*aVar = 0.001;
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}
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/* required value of Z0 */
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Z0_dest = m_parameters[Z0_PRM];
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/* required value of angl_l */
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angl_l_dest = m_parameters[ANG_L_PRM];
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/* Newton's method */
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iteration = 0;
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/* compute parameters */
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calcAnalyze();
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Z0_current = m_parameters[Z0_PRM];
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error = fabs( Z0_dest - Z0_current );
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while( error > MAX_ERROR )
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{
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iteration++;
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increment = *aVar / 100.0;
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*aVar += increment;
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/* compute parameters */
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calcAnalyze();
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Z0_result = m_parameters[Z0_PRM];
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/* f(w(n)) = Z0 - Z0(w(n)) */
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/* f'(w(n)) = -f'(Z0(w(n))) */
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/* f'(Z0(w(n))) = (Z0(w(n)) - Z0(w(n+delw))/delw */
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/* w(n+1) = w(n) - f(w(n))/f'(w(n)) */
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slope = ( Z0_result - Z0_current ) / increment;
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slope = ( Z0_dest - Z0_current ) / slope - increment;
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*aVar += slope;
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if( *aVar <= 0.0 )
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*aVar = increment;
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/* find new error */
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/* compute parameters */
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calcAnalyze();
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Z0_current = m_parameters[Z0_PRM];
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error = fabs( Z0_dest - Z0_current );
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if( iteration > 100 )
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break;
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}
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/* Compute one last time, but with correct length */
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m_parameters[Z0_PRM] = Z0_dest;
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m_parameters[ANG_L_PRM] = angl_l_dest;
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m_parameters[PHYS_LEN_PRM] = C0 / m_parameters[FREQUENCY_PRM]
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/ sqrt( m_parameters[EPSILON_EFF_PRM] ) * m_parameters[ANG_L_PRM]
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/ 2.0 / M_PI; /* in m */
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calcAnalyze();
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/* Restore parameters */
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m_parameters[Z0_PRM] = Z0_dest;
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m_parameters[ANG_L_PRM] = angl_l_dest;
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m_parameters[PHYS_LEN_PRM] = C0 / m_parameters[FREQUENCY_PRM]
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/ sqrt( m_parameters[EPSILON_EFF_PRM] ) * m_parameters[ANG_L_PRM]
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/ 2.0 / M_PI; /* in m */
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return error <= MAX_ERROR;
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}
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/**
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* @function setErrorLevel
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*
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* set an error / warning level for a given parameter.
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*
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* @see TRANSLINE_OK
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* @see TRANSLINE_WARNING
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* @see TRANSLINE_ERROR
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*
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* @param aP parameter
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* @param aErrorLevel Error level
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*/
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void TRANSLINE::setErrorLevel( PRMS_ID aP, char aErrorLevel )
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{
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switch( aErrorLevel )
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{
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case( TRANSLINE_WARNING ):
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SetPropertyBgColorInDialog( aP, &warnCol );
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break;
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case( TRANSLINE_ERROR ):
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SetPropertyBgColorInDialog( aP, &errCol );
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break;
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default:
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SetPropertyBgColorInDialog( aP, &okCol );
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break;
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}
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}
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