/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2022 Mikolaj Wielgus * Copyright (C) 2022 KiCad Developers, see AUTHORS.txt for contributors. * * 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 #include #include std::vector SPICE_GENERATOR_NGSPICE::CurrentNames( const SPICE_ITEM& aItem ) const { switch( m_model.GetTypeInfo().deviceType ) { case SIM_MODEL::DEVICE_T::NPN: case SIM_MODEL::DEVICE_T::PNP: return { fmt::format( "I({}:c)", aItem.refName ), fmt::format( "I({}:b)", aItem.refName ), fmt::format( "I({}:e)", aItem.refName ) }; case SIM_MODEL::DEVICE_T::NJFET: case SIM_MODEL::DEVICE_T::PJFET: case SIM_MODEL::DEVICE_T::NMES: case SIM_MODEL::DEVICE_T::PMES: case SIM_MODEL::DEVICE_T::NMOS: case SIM_MODEL::DEVICE_T::PMOS: return { fmt::format( "I({}:d)", aItem.refName ), fmt::format( "I({}:g)", aItem.refName ), fmt::format( "I({}:s)", aItem.refName ) }; case SIM_MODEL::DEVICE_T::R: case SIM_MODEL::DEVICE_T::C: case SIM_MODEL::DEVICE_T::L: case SIM_MODEL::DEVICE_T::D: return SPICE_GENERATOR::CurrentNames( aItem ); default: wxFAIL_MSG( "Unhandled model device type in SIM_MODEL_NGSPICE" ); return {}; } } SIM_MODEL_NGSPICE::SIM_MODEL_NGSPICE( TYPE aType ) : SIM_MODEL_SPICE( aType, std::make_unique( *this ) ) { const MODEL_INFO& modelInfo = ModelInfo( getModelType() ); for( const SIM_MODEL::PARAM::INFO& paramInfo : modelInfo.instanceParams ) { // For now, only the geometry parameters. if( paramInfo.category == SIM_MODEL::PARAM::CATEGORY::PRINCIPAL || paramInfo.category == SIM_MODEL::PARAM::CATEGORY::GEOMETRY ) { AddParam( paramInfo, getIsOtherVariant() ); } } for( const SIM_MODEL::PARAM::INFO& paramInfo : modelInfo.modelParams ) AddParam( paramInfo, getIsOtherVariant() ); } void SIM_MODEL_NGSPICE::SetParamFromSpiceCode( const std::string& aParamName, const std::string& aParamValue, SIM_VALUE_GRAMMAR::NOTATION aNotation ) { std::string paramName = boost::to_lower_copy( aParamName ); // "level" and "version" are not really parameters - they're part of the type - so silently // ignore them. if( paramName == "level" || paramName == "version" ) return; // First we try to use the name as is. Note that you can't set instance parameters from this // function, it's for ".model" cards, not for instantiations. std::vector> params = GetParams(); auto paramIt = std::find_if( params.begin(), params.end(), [paramName]( const PARAM& param ) { return !param.info.isSpiceInstanceParam && param.info.category != PARAM::CATEGORY::SUPERFLUOUS && ( param.info.name == boost::to_lower_copy( paramName ) || param.info.name == boost::to_lower_copy( paramName ) + "_" ); } ); if( paramIt != params.end() ) { SIM_MODEL::SetParamValue( static_cast( paramIt - params.begin() ), aParamValue, aNotation ); return; } // One Spice param can have multiple names, we need to take this into account. std::vector ngspiceParams = ModelInfo( getModelType() ).modelParams; auto ngspiceParamIt = std::find_if( ngspiceParams.begin(), ngspiceParams.end(), [paramName]( const PARAM& param ) { // Now we search without excluding Spice instance // parameters and superfluous parameters. return param.info.name == boost::to_lower_copy( paramName ); } ); if( ngspiceParamIt == ngspiceParams.end() ) { if( canSilentlyIgnoreParam( paramName ) ) return; THROW_IO_ERROR( wxString::Format( "Failed to set parameter '%s' to value '%s'", aParamName, aParamValue ) ); } // We obtain the id of the Ngspice param that is to be set. We use this id to address the // parameter to be set here because a superfluous parameter may be an alias: this will // dereference it. unsigned id = ngspiceParamIt->id; // Find an actual parameter with the same id. paramIt = std::find_if( params.begin(), params.end(), [id]( const PARAM& param ) { // Look for any non-superfluous parameter with the same id. return param.info.id == id && param.info.category != PARAM::CATEGORY::SUPERFLUOUS; } ); if( paramIt == params.end() ) { THROW_IO_ERROR( wxString::Format( "Failed to set parameter '%s' to value '%s'", aParamName, aParamValue ) ); } SIM_MODEL::SetParamValue( static_cast( paramIt - params.begin() ), aParamValue, aNotation ); } bool SIM_MODEL_NGSPICE::canSilentlyIgnoreParam( const std::string& aParamName ) { // Ignore the purely informative LTspice-specific parameters "mfg" and "type". if( aParamName == "mfg" || aParamName == "type" ) return true; if( GetDeviceType() == DEVICE_T::D ) { if( aParamName == "perim" || aParamName == "isw" || aParamName == "ns" || aParamName == "rsw" || aParamName == "cjsw" || aParamName == "vjsw" || aParamName == "mjsw" || aParamName == "fcs" ) { return true; } } if( GetDeviceType() == DEVICE_T::NPN || GetDeviceType() == DEVICE_T::PNP ) { // Ignore the purely informative LTspice-specific parameters "icrating" and "vceo". if( aParamName == "icrating" || aParamName == "vceo" ) return true; } if( GetType() == TYPE::NPN_GUMMELPOON || GetType() == TYPE::PNP_GUMMELPOON ) { // Ignore unused parameters. if( aParamName == "bvcbo" || aParamName == "nbvcbo" || aParamName == "tbvcbo1" || aParamName == "tbvcbo2" || aParamName == "bvbe" || aParamName == "ibvbe" || aParamName == "nbvbe" ) { return true; } } return false; } std::vector SIM_MODEL_NGSPICE::getPinNames() const { return ModelInfo( getModelType() ).pinNames; } SIM_MODEL_NGSPICE::MODEL_TYPE SIM_MODEL_NGSPICE::getModelType() const { switch( GetType() ) { case TYPE::NONE: return MODEL_TYPE::NONE; case TYPE::D: return MODEL_TYPE::DIODE; case TYPE::NPN_VBIC: case TYPE::PNP_VBIC: return MODEL_TYPE::VBIC; case TYPE::NPN_GUMMELPOON: case TYPE::PNP_GUMMELPOON: return MODEL_TYPE::BJT; case TYPE::NPN_HICUM2: case TYPE::PNP_HICUM2: return MODEL_TYPE::HICUM2; case TYPE::NJFET_SHICHMANHODGES: case TYPE::PJFET_SHICHMANHODGES: return MODEL_TYPE::JFET; case TYPE::NJFET_PARKERSKELLERN: case TYPE::PJFET_PARKERSKELLERN: return MODEL_TYPE::JFET2; case TYPE::NMES_STATZ: case TYPE::PMES_STATZ: return MODEL_TYPE::MES; case TYPE::NMES_YTTERDAL: case TYPE::PMES_YTTERDAL: return MODEL_TYPE::MESA; case TYPE::NMES_HFET1: case TYPE::PMES_HFET1: return MODEL_TYPE::HFET1; case TYPE::NMES_HFET2: case TYPE::PMES_HFET2: return MODEL_TYPE::HFET2; case TYPE::NMOS_VDMOS: case TYPE::PMOS_VDMOS: return MODEL_TYPE::VDMOS; case TYPE::NMOS_MOS1: case TYPE::PMOS_MOS1: return MODEL_TYPE::MOS1; case TYPE::NMOS_MOS2: case TYPE::PMOS_MOS2: return MODEL_TYPE::MOS2; case TYPE::NMOS_MOS3: case TYPE::PMOS_MOS3: return MODEL_TYPE::MOS3; case TYPE::NMOS_BSIM1: case TYPE::PMOS_BSIM1: return MODEL_TYPE::BSIM1; case TYPE::NMOS_BSIM2: case TYPE::PMOS_BSIM2: return MODEL_TYPE::BSIM2; case TYPE::NMOS_MOS6: case TYPE::PMOS_MOS6: return MODEL_TYPE::MOS6; case TYPE::NMOS_BSIM3: case TYPE::PMOS_BSIM3: return MODEL_TYPE::BSIM3; case TYPE::NMOS_MOS9: case TYPE::PMOS_MOS9: return MODEL_TYPE::MOS9; case TYPE::NMOS_B4SOI: case TYPE::PMOS_B4SOI: return MODEL_TYPE::B4SOI; case TYPE::NMOS_BSIM4: case TYPE::PMOS_BSIM4: return MODEL_TYPE::BSIM4; case TYPE::NMOS_B3SOIFD: case TYPE::PMOS_B3SOIFD: return MODEL_TYPE::B3SOIFD; case TYPE::NMOS_B3SOIDD: case TYPE::PMOS_B3SOIDD: return MODEL_TYPE::B3SOIDD; case TYPE::NMOS_B3SOIPD: case TYPE::PMOS_B3SOIPD: return MODEL_TYPE::B3SOIPD; case TYPE::NMOS_HISIM2: case TYPE::PMOS_HISIM2: return MODEL_TYPE::HISIM2; case TYPE::NMOS_HISIMHV1: case TYPE::PMOS_HISIMHV1: return MODEL_TYPE::HISIMHV1; case TYPE::NMOS_HISIMHV2: case TYPE::PMOS_HISIMHV2: return MODEL_TYPE::HISIMHV2; default: wxFAIL_MSG( "Unhandled SIM_MODEL type in SIM_MODEL_NGSPICE" ); return MODEL_TYPE::NONE; } } bool SIM_MODEL_NGSPICE::getIsOtherVariant() { switch( GetType() ) { case TYPE::PNP_GUMMELPOON: case TYPE::PNP_VBIC: case TYPE::PNP_HICUM2: case TYPE::PJFET_SHICHMANHODGES: case TYPE::PJFET_PARKERSKELLERN: case TYPE::PMES_STATZ: case TYPE::PMES_YTTERDAL: case TYPE::PMES_HFET1: case TYPE::PMES_HFET2: case TYPE::PMOS_VDMOS: case TYPE::PMOS_MOS1: case TYPE::PMOS_MOS2: case TYPE::PMOS_MOS3: case TYPE::PMOS_BSIM1: case TYPE::PMOS_BSIM2: case TYPE::PMOS_MOS6: case TYPE::PMOS_BSIM3: case TYPE::PMOS_MOS9: case TYPE::PMOS_B4SOI: case TYPE::PMOS_BSIM4: case TYPE::PMOS_B3SOIFD: case TYPE::PMOS_B3SOIDD: case TYPE::PMOS_B3SOIPD: case TYPE::PMOS_HISIM2: case TYPE::PMOS_HISIMHV1: case TYPE::PMOS_HISIMHV2: return true; default: return false; } }