/* * 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 * * 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 "spice_circuit_model.h" #include #include #include #include SIM_TRACE_TYPE SPICE_CIRCUIT_MODEL::VectorToSignal( const std::string& aVector, wxString& aSignal ) const { static wxString BRANCH( wxS( "#branch" ) ); static wxString POWER( wxS( ":power" ) ); // 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 if( vector.EndsWith( POWER ) ) { aSignal = wxT( "P(" ) + vector.Left( vector.Length() - POWER.Length() ) + wxT( ")" ); return SPT_POWER; } 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 SPICE_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.Trim(); } SIM_TYPE SPICE_CIRCUIT_MODEL::CommandToSimType( const wxString& aCmd ) { wxString cmd = aCmd.Lower().Trim(); if( cmd == wxT( ".op" ) ) return ST_OP; else 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_TRAN; else if( cmd.StartsWith( wxT( ".disto" ) ) ) return ST_DISTO; else if( cmd.StartsWith( wxT( ".noise" ) ) ) return ST_NOISE; else if( cmd.StartsWith( wxT( ".pz" ) ) ) return ST_PZ; else if( cmd.StartsWith( wxT( ".sens" ) ) ) return ST_SENS; else if( cmd.StartsWith( wxT( ".sp" ) ) ) return ST_SP; else if( cmd.StartsWith( wxT( ".tf" ) ) ) return ST_TF; else if( cmd.StartsWith( wxT( "fft" ) ) || cmd.Contains( wxT( "\nfft" ) ) ) return ST_FFT; else return ST_UNKNOWN; } bool SPICE_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() ); if( tokens.HasMoreTokens() ) { 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 SPICE_CIRCUIT_MODEL::ParsePZCommand( const wxString& aCmd, wxString* transferFunction, wxString* input, wxString* inputRef, wxString* output, wxString* outputRef, SPICE_PZ_ANALYSES* analyses ) { if( !aCmd.Lower().StartsWith( wxS( ".pz" ) ) ) return false; *transferFunction = "vol"; analyses->m_Poles = true; analyses->m_Zeros = true; wxStringTokenizer tokens( aCmd.Mid( 3 ), wxS( " \t" ), wxTOKEN_STRTOK ); if( tokens.HasMoreTokens() ) *input = tokens.GetNextToken(); if( tokens.HasMoreTokens() ) *inputRef = tokens.GetNextToken(); if( tokens.HasMoreTokens() ) *output = tokens.GetNextToken(); if( tokens.HasMoreTokens() ) *outputRef = tokens.GetNextToken(); if( tokens.HasMoreTokens() ) *transferFunction = tokens.GetNextToken(); if( tokens.HasMoreTokens() ) { wxString token = tokens.GetNextToken().Lower(); if( token == wxS( "pol" ) ) analyses->m_Zeros = false; else if( token == wxS( "zer" ) ) analyses->m_Poles = false; } return true; } bool SPICE_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 SPICE_CIRCUIT_MODEL::WriteDirectives( const wxString& aSimCommand, unsigned aSimOptions, OUTPUTFORMATTER& aFormatter ) const { if( aSimCommand.IsEmpty() ) aSimOptions |= OPTION_SIM_COMMAND; NETLIST_EXPORTER_SPICE::WriteDirectives( aSimCommand, aSimOptions, aFormatter ); if( !aSimCommand.IsEmpty() ) aFormatter.Print( 0, "%s\n", TO_UTF8( aSimCommand ) ); }