/* * This program source code file is part of KiCad, a free EDA CAD application. * * 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 #include #include #include #include "sim_lib_mgr.h" std::string SPICE_GENERATOR_KIBIS::ModelName( const SPICE_ITEM& aItem ) const { return fmt::format( "{}.{}", aItem.refName, aItem.baseModelName ); } std::string SPICE_GENERATOR_KIBIS::ModelLine( const SPICE_ITEM& aItem ) const { return ""; } std::vector> SPICE_GENERATOR_KIBIS::GetInstanceParams() const { std::vector> vec; return vec; } std::vector SPICE_GENERATOR_KIBIS::CurrentNames( const SPICE_ITEM& aItem ) const { std::vector currentNames; for( const SIM_MODEL::PIN& pin : GetPins() ) currentNames.push_back( fmt::format( "I({}:{})", ItemName( aItem ), pin.name ) ); return currentNames; } std::string SPICE_GENERATOR_KIBIS::IbisDevice( const SPICE_ITEM& aItem, const PROJECT& aProject, const wxString& aCacheDir, REPORTER& aReporter ) const { std::string ibisLibFilename = SIM_MODEL::GetFieldValue( &aItem.fields, SIM_LIBRARY::LIBRARY_FIELD ); std::string ibisCompName = SIM_MODEL::GetFieldValue( &aItem.fields, SIM_LIBRARY::NAME_FIELD ); std::string ibisPinName = SIM_MODEL::GetFieldValue( &aItem.fields, SIM_LIBRARY_KIBIS::PIN_FIELD ); std::string ibisModelName = SIM_MODEL::GetFieldValue( &aItem.fields, SIM_LIBRARY_KIBIS::MODEL_FIELD ); bool diffMode = SIM_MODEL::GetFieldValue( &aItem.fields, SIM_LIBRARY_KIBIS::DIFF_FIELD ) == "1"; wxString path = SIM_LIB_MGR::ResolveLibraryPath( ibisLibFilename, &aProject ); KIBIS kibis( std::string( path.c_str() ) ); kibis.m_cacheDir = std::string( aCacheDir.c_str() ); kibis.m_reporter = &aReporter; if( !kibis.m_valid ) THROW_IO_ERROR( wxString::Format( _( "Invalid IBIS file '%s'" ), ibisLibFilename ) ); KIBIS_COMPONENT* kcomp = kibis.GetComponent( std::string( ibisCompName ) ); if( !kcomp ) THROW_IO_ERROR( wxString::Format( _( "Could not find IBIS component '%s'" ), ibisCompName ) ); KIBIS_PIN* kpin = kcomp->GetPin( ibisPinName ); if( !kcomp->m_valid ) THROW_IO_ERROR( wxString::Format( _( "Invalid IBIS component '%s'" ), ibisCompName ) ); if( !kpin ) { THROW_IO_ERROR( wxString::Format( _( "Could not find IBIS pin '%s' in component '%s'" ), ibisPinName, ibisCompName ) ); } if( !kpin->m_valid ) { THROW_IO_ERROR( wxString::Format( _( "Invalid IBIS pin '%s' in component '%s'" ), ibisPinName, ibisCompName ) ); } KIBIS_MODEL* kmodel = kibis.GetModel( ibisModelName ); if( !kmodel ) THROW_IO_ERROR( wxString::Format( _( "Could not find IBIS model '%s'" ), ibisModelName ) ); if( !kmodel->m_valid ) THROW_IO_ERROR( wxString::Format( _( "Invalid IBIS model '%s'" ), ibisModelName ) ); KIBIS_PARAMETER kparams; if( const SIM_MODEL::PARAM* vcc = m_model.FindParam( "vcc" ) ) kparams.SetCornerFromString( kparams.m_supply, vcc->value ); if( const SIM_MODEL::PARAM* rpin = m_model.FindParam( "rpin" ) ) kparams.SetCornerFromString( kparams.m_Rpin, rpin->value ); if( const SIM_MODEL::PARAM* lpin = m_model.FindParam( "lpin" ) ) kparams.SetCornerFromString( kparams.m_Lpin, lpin->value ); if( const SIM_MODEL::PARAM* cpin = m_model.FindParam( "cpin" ) ) kparams.SetCornerFromString( kparams.m_Cpin, cpin->value ); //kparams.SetCornerFromString( kparams.m_Ccomp, FindParam( "ccomp" )->value ); std::string result; switch( m_model.GetType() ) { case SIM_MODEL::TYPE::KIBIS_DEVICE: if( diffMode ) kpin->writeSpiceDiffDevice( &result, aItem.modelName, *kmodel, kparams ); else kpin->writeSpiceDevice( &result, aItem.modelName, *kmodel, kparams ); break; case SIM_MODEL::TYPE::KIBIS_DRIVER_DC: { std::string paramValue = ""; if( const SIM_MODEL::PARAM* dc = m_model.FindParam( "dc" ) ) paramValue = dc->value; if( paramValue == "hi-Z" ) { kparams.m_waveform = static_cast( new KIBIS_WAVEFORM_HIGH_Z( &kibis ) ); } else if( paramValue == "low" ) { kparams.m_waveform = static_cast( new KIBIS_WAVEFORM_STUCK_LOW( &kibis ) ); } else if( paramValue == "high" ) { kparams.m_waveform = static_cast( new KIBIS_WAVEFORM_STUCK_HIGH( &kibis ) ); } if( diffMode ) kpin->writeSpiceDiffDriver( &result, aItem.modelName, *kmodel, kparams ); else kpin->writeSpiceDriver( &result, aItem.modelName, *kmodel, kparams ); break; } case SIM_MODEL::TYPE::KIBIS_DRIVER_RECT: { KIBIS_WAVEFORM_RECTANGULAR* waveform = new KIBIS_WAVEFORM_RECTANGULAR( &kibis ); if( const SIM_MODEL::PARAM* ton = m_model.FindParam( "ton" ) ) waveform->m_ton = SIM_VALUE::ToDouble( ton->value, 0 ); if( const SIM_MODEL::PARAM* toff = m_model.FindParam( "toff" ) ) waveform->m_toff = SIM_VALUE::ToDouble( toff->value, 0 ); if( const SIM_MODEL::PARAM* td = m_model.FindParam( "td" ) ) waveform->m_delay = SIM_VALUE::ToDouble( td->value, 0 ); if( const SIM_MODEL::PARAM* n = m_model.FindParam( "n" ) ) waveform->m_cycles = SIM_VALUE::ToInt( n->value, 1 ); kparams.m_waveform = waveform; if( diffMode ) kpin->writeSpiceDiffDriver( &result, aItem.modelName, *kmodel, kparams ); else kpin->writeSpiceDriver( &result, aItem.modelName, *kmodel, kparams ); break; } case SIM_MODEL::TYPE::KIBIS_DRIVER_PRBS: { KIBIS_WAVEFORM_PRBS* waveform = new KIBIS_WAVEFORM_PRBS( &kibis ); if( const SIM_MODEL::PARAM* f0 = m_model.FindParam( "f0" ) ) waveform->m_bitrate = SIM_VALUE::ToDouble( f0->value, 0 ); if( const SIM_MODEL::PARAM* td = m_model.FindParam( "td" ) ) waveform->m_delay = SIM_VALUE::ToDouble( td->value, 0 ); if( const SIM_MODEL::PARAM* n = m_model.FindParam( "n" ) ) waveform->m_bits = SIM_VALUE::ToInt( n->value, 0 ); kparams.m_waveform = waveform; if( diffMode ) kpin->writeSpiceDiffDriver( &result, aItem.modelName, *kmodel, kparams ); else kpin->writeSpiceDriver( &result, aItem.modelName, *kmodel, kparams ); break; } default: wxFAIL_MSG( "Unknown IBIS model type" ); return ""; } return result; } SIM_MODEL_KIBIS::SIM_MODEL_KIBIS( TYPE aType ) : SIM_MODEL( aType, std::make_unique( *this ) ), m_enableDiff( false ), m_sourceModel( nullptr ) { static std::vector device = makeParamInfos( TYPE::KIBIS_DEVICE ); static std::vector dcDriver = makeParamInfos( TYPE::KIBIS_DRIVER_DC ); static std::vector rectDriver = makeParamInfos( TYPE::KIBIS_DRIVER_RECT ); static std::vector prbsDriver = makeParamInfos( TYPE::KIBIS_DRIVER_PRBS ); std::vector* paramInfos = nullptr; switch( aType ) { case SIM_MODEL::TYPE::KIBIS_DEVICE: paramInfos = &device; break; case SIM_MODEL::TYPE::KIBIS_DRIVER_DC: paramInfos = &dcDriver; break; case SIM_MODEL::TYPE::KIBIS_DRIVER_RECT: paramInfos = &rectDriver; break; case SIM_MODEL::TYPE::KIBIS_DRIVER_PRBS: paramInfos = &prbsDriver; break; default: wxFAIL; return; } for( const PARAM::INFO& paramInfo : *paramInfos ) AddParam( paramInfo ); SwitchSingleEndedDiff( false ); } void SIM_MODEL_KIBIS::SwitchSingleEndedDiff( bool aDiff ) { ClearPins(); if( aDiff ) { AddPin( { "GND", "1" } ); AddPin( { "+", "2" } ); AddPin( { "-", "3" } ); } else { AddPin( { "GND", "1" } ); AddPin( { "IN/OUT", "2" } ); } } SIM_MODEL_KIBIS::SIM_MODEL_KIBIS( TYPE aType, const SIM_MODEL_KIBIS& aSource ) : SIM_MODEL_KIBIS( aType ) { for( PARAM& param1 : m_params ) { for( auto& param2refwrap : aSource.GetParams() ) { const PARAM& param2 = param2refwrap.get(); if( param1.info.name == param2.info.name ) param1.value = param2.value; } } m_componentName = aSource.m_componentName; m_ibisPins = aSource.GetIbisPins(); m_ibisModels = aSource.GetIbisModels(); m_enableDiff = aSource.CanDifferential(); } bool SIM_MODEL_KIBIS::ChangePin( const SIM_LIBRARY_KIBIS& aLib, std::string aPinNumber ) { KIBIS_COMPONENT* kcomp = aLib.m_kibis.GetComponent( std::string( GetComponentName() ) ); if( !kcomp ) return false; KIBIS_PIN* kpin = kcomp->GetPin( std::string( aPinNumber.c_str() ) ); if( !kpin ) return false; m_ibisModels.clear(); for( KIBIS_MODEL* kmodel : kpin->m_models ) m_ibisModels.push_back( kmodel->m_name ); return true; } void SIM_MODEL_KIBIS::SetBaseModel( const SIM_MODEL& aBaseModel ) { // Actual base models can only be of the same type, which is not the case here, as in addition // to IBIS device model type we have multiple types of drivers available for the same sourced // model. And we don't want to inherit the default values anyway. So we just store these models // and use the only for Spice code generation. m_sourceModel = dynamic_cast( &aBaseModel ); } std::vector SIM_MODEL_KIBIS::makeParamInfos( TYPE aType ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "vcc"; paramInfo.type = SIM_VALUE::TYPE_STRING; paramInfo.unit = ""; paramInfo.category = PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "typ"; paramInfo.description = _( "Power supply" ); paramInfo.spiceModelName = ""; paramInfo.enumValues = { "typ", "min", "max" }; paramInfos.push_back( paramInfo ); paramInfo.name = "rpin"; paramInfo.type = SIM_VALUE::TYPE_STRING; paramInfo.unit = ""; paramInfo.category = PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "typ"; paramInfo.description = _( "Parasitic pin resistance" ); paramInfo.spiceModelName = ""; paramInfo.enumValues = { "typ", "min", "max" }; paramInfos.push_back( paramInfo ); paramInfo.name = "lpin"; paramInfo.type = SIM_VALUE::TYPE_STRING; paramInfo.unit = ""; paramInfo.category = PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "typ"; paramInfo.description = _( "Parasitic pin inductance" ); paramInfo.spiceModelName = ""; paramInfo.enumValues = { "typ", "min", "max" }; paramInfos.push_back( paramInfo ); paramInfo.name = "cpin"; paramInfo.type = SIM_VALUE::TYPE_STRING; paramInfo.unit = ""; paramInfo.category = PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "typ"; paramInfo.description = _( "Parasitic pin capacitance" ); paramInfo.spiceModelName = ""; paramInfo.enumValues = { "typ", "min", "max" }; paramInfos.push_back( paramInfo ); std::vector dc = makeDcWaveformParamInfos(); std::vector rect = makeRectWaveformParamInfos(); std::vector prbs = makePrbsWaveformParamInfos(); switch( aType ) { case TYPE::KIBIS_DRIVER_DC: for( const PARAM::INFO& param : makeDcWaveformParamInfos() ) paramInfos.push_back( param ); break; case TYPE::KIBIS_DRIVER_RECT: for( const PARAM::INFO& param : makeRectWaveformParamInfos() ) paramInfos.push_back( param ); break; case TYPE::KIBIS_DRIVER_PRBS: for( const PARAM::INFO& param : makePrbsWaveformParamInfos() ) paramInfos.push_back( param ); break; default: break; } return paramInfos; } std::vector SIM_MODEL_KIBIS::makeDcWaveformParamInfos() { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "dc"; paramInfo.type = SIM_VALUE::TYPE_STRING; paramInfo.unit = ""; paramInfo.category = PARAM::CATEGORY::WAVEFORM; paramInfo.defaultValue = "hi-Z"; paramInfo.description = _( "DC Value" ); paramInfo.enumValues = { "hi-Z", "low", "high" }; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_KIBIS::makeRectWaveformParamInfos() { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "ton"; paramInfo.type = SIM_VALUE::TYPE_FLOAT; paramInfo.unit = "s"; paramInfo.category = PARAM::CATEGORY::WAVEFORM; paramInfo.defaultValue = ""; paramInfo.description = _( "ON time" ); paramInfos.push_back( paramInfo ); paramInfo.name = "toff"; paramInfo.type = SIM_VALUE::TYPE_FLOAT; paramInfo.unit = "s"; paramInfo.category = PARAM::CATEGORY::WAVEFORM; paramInfo.defaultValue = ""; paramInfo.description = _( "OFF time" ); paramInfos.push_back( paramInfo ); paramInfo.name = "td"; paramInfo.type = SIM_VALUE::TYPE_FLOAT; paramInfo.unit = "s"; paramInfo.category = PARAM::CATEGORY::WAVEFORM; paramInfo.defaultValue = "0"; paramInfo.description = _( "Delay" ); paramInfos.push_back( paramInfo ); paramInfo.name = "n"; paramInfo.type = SIM_VALUE::TYPE_INT; paramInfo.unit = ""; paramInfo.category = PARAM::CATEGORY::WAVEFORM; paramInfo.defaultValue = "1"; paramInfo.description = _( "Number of cycles" ); paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_KIBIS::makePrbsWaveformParamInfos() { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "f0"; paramInfo.type = SIM_VALUE::TYPE_FLOAT; paramInfo.unit = "Hz"; paramInfo.category = PARAM::CATEGORY::WAVEFORM; paramInfo.defaultValue = ""; paramInfo.description = _( "Bitrate" ); paramInfos.push_back( paramInfo ); paramInfo.name = "td"; paramInfo.type = SIM_VALUE::TYPE_FLOAT; paramInfo.unit = "s"; paramInfo.category = PARAM::CATEGORY::WAVEFORM; paramInfo.defaultValue = ""; paramInfo.description = _( "Delay" ); paramInfos.push_back( paramInfo ); paramInfo.name = "n"; paramInfo.type = SIM_VALUE::TYPE_INT; paramInfo.unit = ""; paramInfo.category = PARAM::CATEGORY::WAVEFORM; paramInfo.defaultValue = ""; paramInfo.description = _( "Number of bits" ); paramInfos.push_back( paramInfo ); return paramInfos; }