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kicad-source/eeschema/sim/ngspice_circuit_model.cpp
Jeff Young 492ef62053 ADDED support to save contributions from all noise generators. 
You must first check the checkbox in the Simulation Command dialog,
after which the signals will appear in the User Defined Signals
autocomplete lists.
2023-07-04 11:05:10 +01:00

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2016-2022 CERN
* Copyright (C) 1992-2023 KiCad Developers, see AUTHORS.TXT for contributors.
* @author Maciej Suminski <maciej.suminski@cern.ch>
*
* 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, you may find one here:
* https://www.gnu.org/licenses/gpl-3.0.html
* or you may search the http://www.gnu.org website for the version 3 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include "ngspice_circuit_model.h"
#include <macros.h> // for TO_UTF8 def
#include <wx/regex.h>
#include <wx/tokenzr.h>
#include <locale_io.h>
SIM_TRACE_TYPE NGSPICE_CIRCUIT_MODEL::VectorToSignal( const std::string& aVector,
wxString& aSignal ) const
{
static wxString BRANCH( wxS( "#branch" ) );
// See ngspice manual chapt. 31.1 "Accessing internal device parameters"
static wxRegEx internalDevParameter( wxS( "^@(\\w*[\\.\\w+]*)\\[(\\w*)\\]$" ), wxRE_ADVANCED );
wxString vector( aVector );
if( !internalDevParameter.Matches( vector ) )
{
if( vector.EndsWith( BRANCH ) )
{
aSignal = wxT( "I(" ) + vector.Left( vector.Length() - BRANCH.Length() ) + wxT( ")" );
return SPT_CURRENT;
}
else
{
aSignal = wxT( "V(" ) + vector + wxT( ")" );
return SPT_VOLTAGE;
}
}
else
{
wxString paramType = internalDevParameter.GetMatch( vector, 2 );
if( paramType.Lower()[0] == 'i' )
{
// this is a branch current
paramType[0] = 'I';
aSignal = paramType + wxT( "(" );
aSignal += internalDevParameter.GetMatch( vector, 1 ).Upper() + wxT( ")" );
return SPT_CURRENT;
}
else
{
return SPT_UNKNOWN;
}
}
}
wxString NGSPICE_CIRCUIT_MODEL::GetSchTextSimCommand()
{
wxString simCmd;
ReadDirectives( 0 );
for( const wxString& directive : GetDirectives() )
{
if( IsSimCommand( directive ) )
simCmd += wxString::Format( wxT( "%s\r\n" ), directive );
}
return simCmd;
}
SIM_TYPE NGSPICE_CIRCUIT_MODEL::GetSimType()
{
return CommandToSimType( GetSimCommand() );
}
SIM_TYPE NGSPICE_CIRCUIT_MODEL::CommandToSimType( const wxString& aCmd )
{
wxString cmd = aCmd.Lower().Trim();
if( cmd.StartsWith( wxT( ".ac" ) ) )
return ST_AC;
else if( cmd.StartsWith( wxT( ".dc" ) ) )
return ST_DC;
else if( cmd.StartsWith( wxT( ".tran" ) ) )
return ST_TRANSIENT;
else if( cmd == wxT( ".op" ) )
return ST_OP;
else if( cmd.StartsWith( wxT( ".disto" ) ) )
return ST_DISTORTION;
else if( cmd.StartsWith( wxT( ".noise" ) ) )
return ST_NOISE;
else if( cmd.StartsWith( wxT( ".pz" ) ) )
return ST_POLE_ZERO;
else if( cmd.StartsWith( wxT( ".sens" ) ) )
return ST_SENSITIVITY;
else if( cmd.StartsWith( wxT( ".tf" ) ) )
return ST_TRANS_FUNC;
else
return ST_UNKNOWN;
}
bool NGSPICE_CIRCUIT_MODEL::ParseDCCommand( const wxString& aCmd, SPICE_DC_PARAMS* aSource1,
SPICE_DC_PARAMS* aSource2 )
{
if( !aCmd.Lower().StartsWith( ".dc" ) )
return false;
wxString cmd = aCmd.Mid( 3 );
wxStringTokenizer tokens( cmd, wxS( " \t" ), wxTOKEN_STRTOK );
aSource1->m_source = tokens.GetNextToken();
aSource1->m_vstart = SPICE_VALUE( tokens.GetNextToken() );
aSource1->m_vend = SPICE_VALUE( tokens.GetNextToken() );
aSource1->m_vincrement = SPICE_VALUE( tokens.GetNextToken() );
aSource2->m_source = tokens.GetNextToken();
aSource2->m_vstart = SPICE_VALUE( tokens.GetNextToken() );
aSource2->m_vend = SPICE_VALUE( tokens.GetNextToken() );
aSource2->m_vincrement = SPICE_VALUE( tokens.GetNextToken() );
return true;
}
bool NGSPICE_CIRCUIT_MODEL::ParseNoiseCommand( const wxString& aCmd, wxString* aOutput,
wxString* aRef, wxString* aSource, wxString* aScale,
SPICE_VALUE* aPts, SPICE_VALUE* aFStart,
SPICE_VALUE* aFStop, bool* aSaveAll )
{
if( !aCmd.Lower().StartsWith( wxS( ".noise" ) ) )
return false;
wxString cmd = aCmd.Mid( 6 );
cmd.Trim( false );
if( !cmd.Lower().StartsWith( wxS( "v(" ) ) )
return false;
cmd = cmd.Mid( 2 );
wxString function = cmd.Before( ')' );
wxString params = cmd.After( ')' );
wxStringTokenizer func_tokens( function, wxS( " ,\t" ), wxTOKEN_STRTOK );
*aOutput = func_tokens.GetNextToken();
*aRef = func_tokens.GetNextToken();
wxStringTokenizer tokens( params, wxS( " \t" ), wxTOKEN_STRTOK );
wxString token = tokens.GetNextToken();
if( !token.IsEmpty() )
{
*aSource = token;
token = tokens.GetNextToken();
}
if( token.Lower() == "dec" || token.Lower() == "oct" || token.Lower() == "lin" )
{
*aScale = token;
token = tokens.GetNextToken();
}
if( !token.IsEmpty() )
{
*aPts = token;
token = tokens.GetNextToken();
}
if( !token.IsEmpty() )
{
*aFStart = SPICE_VALUE( token );
token = tokens.GetNextToken();
}
if( !token.IsEmpty() )
{
*aFStop = SPICE_VALUE( token );
token = tokens.GetNextToken();
}
if( !token.IsEmpty() )
*aSaveAll = true;
return true;
}
void NGSPICE_CIRCUIT_MODEL::WriteDirectives( OUTPUTFORMATTER& aFormatter,
unsigned aNetlistOptions ) const
{
if( GetSimCommandOverride().IsEmpty() )
aNetlistOptions |= OPTION_SIM_COMMAND;
NETLIST_EXPORTER_SPICE::WriteDirectives( aFormatter, aNetlistOptions );
if( !GetSimCommandOverride().IsEmpty() )
aFormatter.Print( 0, "%s\n", TO_UTF8( GetSimCommandOverride() ) );
}
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