/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2016 CERN * @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 "netlist_exporter_pspice_sim.h" #include wxString NETLIST_EXPORTER_PSPICE_SIM::GetSpiceVector( const wxString& aName, SIM_PLOT_TYPE aType, const wxString& aParam ) const { wxString res; // Some of the flags should exclude mutually assert( ( ( aType & SPT_VOLTAGE ) == 0 ) != ( ( aType & SPT_CURRENT ) == 0 ) ); assert( ( ( aType & SPT_AC_PHASE ) == 0 ) || ( ( aType & SPT_AC_MAG ) == 0 ) ); if( aType & SPT_VOLTAGE ) { // netnames are escaped (can contain "{slash}" for '/') Unscape them: wxString spicenet = UnescapeString( aName ); // Spice netlist netnames does not accept some chars, which are replaced // by eeschema netlist generator. // Replace these forbidden chars to find the actual spice net name NETLIST_EXPORTER_PSPICE::ReplaceForbiddenChars( spicenet ); return wxString::Format( "V(%s)", spicenet ); } else if( aType & SPT_CURRENT ) { wxString device = GetSpiceDevice( aName ).Lower(); wxString param = aParam.Lower(); if( device[0] == 'x' ) { return "current probe of .subckt not yet implemented"; } else { return wxString::Format( "@%s[%s]", device, param.IsEmpty() ? "i" : param ); } } return res; } const std::vector& NETLIST_EXPORTER_PSPICE_SIM::GetCurrents( SPICE_PRIMITIVE aPrimitive ) { static const std::vector passive = { "I" }; static const std::vector diode = { "Id" }; static const std::vector bjt = { "Ib", "Ic", "Ie" }; static const std::vector mos = { "Ig", "Id", "Is" }; static const std::vector empty; switch( aPrimitive ) { case SP_RESISTOR: case SP_CAPACITOR: case SP_INDUCTOR: case SP_VSOURCE: return passive; case SP_DIODE: return diode; case SP_BJT: return bjt; case SP_MOSFET: return mos; default: return empty; } } wxString NETLIST_EXPORTER_PSPICE_SIM::GetSheetSimCommand() { wxString simCmd; UpdateDirectives( NET_ALL_FLAGS ); for( const auto& dir : GetDirectives() ) { if( IsSimCommand( dir ) ) simCmd += wxString::Format( "%s\r\n", dir ); } return simCmd; } wxString NETLIST_EXPORTER_PSPICE_SIM::GetUsedSimCommand() { return m_simCommand.IsEmpty() ? GetSheetSimCommand() : m_simCommand; } SIM_TYPE NETLIST_EXPORTER_PSPICE_SIM::GetSimType() { return CommandToSimType( GetUsedSimCommand() ); } SIM_TYPE NETLIST_EXPORTER_PSPICE_SIM::CommandToSimType( const wxString& aCmd ) { const std::map simCmds = { { ".ac ", ST_AC }, { ".dc ", ST_DC }, { ".disto ", ST_DISTORTION }, { ".noise ", ST_NOISE }, { ".op ", ST_OP }, { ".pz ", ST_POLE_ZERO }, { ".sens ", ST_SENSITIVITY }, { ".tf ", ST_TRANS_FUNC }, { ".tran ", ST_TRANSIENT } }; wxString lcaseCmd = aCmd.Lower(); for( const auto& c : simCmds ) { if( lcaseCmd.StartsWith( c.first ) ) return c.second; } return ST_UNKNOWN; } bool NETLIST_EXPORTER_PSPICE_SIM::ParseDCCommand( const wxString& aCmd, SPICE_DC_PARAMS* aSource1, SPICE_DC_PARAMS* aSource2 ) { if( !aCmd.Lower().StartsWith( ".dc" ) ) return false; wxString cmd = aCmd.Mid( 3 ).Trim().Trim( false ); wxStringTokenizer tokens( cmd ); size_t num = tokens.CountTokens(); if( num != 4 && num != 8 ) return false; 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( num == 8 ) { 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; } void NETLIST_EXPORTER_PSPICE_SIM::writeDirectives( OUTPUTFORMATTER* aFormatter, unsigned aCtl ) const { // Add a directive to obtain currents //aFormatter->Print( 0, ".options savecurrents\n" ); // does not work :( for( const auto& item : GetSpiceItems() ) { for( const auto& current : NETLIST_EXPORTER_PSPICE_SIM::GetCurrents( (SPICE_PRIMITIVE) item.m_primitive ) ) { if( !item.m_enabled ) continue; /// @todo is it required to switch to lowercase aFormatter->Print( 0, ".save %s\n", (const char*) GetSpiceVector( item.m_refName, SPT_CURRENT, current ).c_str() ); } } // If we print out .save directives for currents, then it needs to be done for voltages as well for( const auto& netMap : GetNetIndexMap() ) { // the "0" and the "GND" nets are automaticallly saved internally by ngspice. // Skip them wxString netname = GetSpiceVector( netMap.first, SPT_VOLTAGE ); if( netname == "V(0)" || netname == "V(GND)" ) continue; aFormatter->Print( 0, ".save %s\n", (const char*) netname.c_str() ); } if( m_simCommand.IsEmpty() ) { // Fallback to the default behavior and just write all directives NETLIST_EXPORTER_PSPICE::writeDirectives( aFormatter, aCtl ); } else { // Dump all directives but simulation commands for( const auto& dir : GetDirectives() ) { if( !IsSimCommand( dir ) ) aFormatter->Print( 0, "%s\n", (const char*) dir.c_str() ); } // Finish with our custom simulation command aFormatter->Print( 0, "%s\n", (const char*) m_simCommand.c_str() ); } }