/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2022 Mikolaj Wielgus * Copyright (C) 2022-2023 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 simulator headers after wxWidgets headers to avoid conflicts with Windows headers // (especially on msys2 + wxWidgets 3.0.x) #include #include #include #include using namespace std::placeholders; SIM_LIB_MGR::SIM_LIB_MGR( const PROJECT* aPrj ) : m_project( aPrj ), m_forceFullParse( false ) { } void SIM_LIB_MGR::Clear() { m_libraries.clear(); m_models.clear(); } wxString SIM_LIB_MGR::ResolveLibraryPath( const wxString& aLibraryPath, const PROJECT* aProject ) { wxString expandedPath = ExpandEnvVarSubstitutions( aLibraryPath, aProject ); // Convert it to UNIX format expandedPath.Replace( '\\', '/' ); wxFileName fn( expandedPath ); if( fn.IsAbsolute() ) return fn.GetFullPath(); wxFileName projectFn( aProject ? aProject->AbsolutePath( expandedPath ) : expandedPath ); if( projectFn.Exists() ) return projectFn.GetFullPath(); wxFileName spiceLibFn( expandedPath ); wxString spiceLibDir; wxGetEnv( wxT( "SPICE_LIB_DIR" ), &spiceLibDir ); if( !spiceLibDir.IsEmpty() && spiceLibFn.MakeAbsolute( spiceLibDir ) && spiceLibFn.Exists() ) return spiceLibFn.GetFullPath(); if( spiceLibDir.IsEmpty() || spiceLibFn.GetFullPath() == projectFn.GetFullPath() ) { THROW_IO_ERROR( wxString::Format( _( "Simulation model library not found at '%s'" ), projectFn.GetFullPath() ) ); } else { THROW_IO_ERROR( wxString::Format( _( "Simulation model library not found at '%s' or '%s'" ), projectFn.GetFullPath(), spiceLibFn.GetFullPath() ) ); } } wxString SIM_LIB_MGR::ResolveEmbeddedLibraryPath( const wxString& aLibPath, const wxString& aRelativeLib ) { wxFileName testPath( aLibPath ); wxString fullPath( aLibPath ); if( !testPath.IsAbsolute() && !aRelativeLib.empty() ) { wxString relLib( aRelativeLib ); try { relLib = ResolveLibraryPath( relLib, m_project ); } catch( ... ) {} wxFileName fn( relLib ); testPath.MakeAbsolute( fn.GetPath( true ) ); fullPath = testPath.GetFullPath(); } try { wxFileName fn( fullPath ); if( !fn.Exists() ) fullPath = aLibPath; fullPath = ResolveLibraryPath( fullPath, m_project ); } catch( ... ) {} return fullPath; } void SIM_LIB_MGR::SetLibrary( const wxString& aLibraryPath, REPORTER& aReporter ) { try { wxString path = ResolveLibraryPath( aLibraryPath, m_project ); std::function f2 = std::bind( &SIM_LIB_MGR::ResolveEmbeddedLibraryPath, this, _1, _2 ); std::unique_ptr library = SIM_LIBRARY::Create( path, m_forceFullParse, aReporter, &f2 ); Clear(); m_libraries[path] = std::move( library ); } catch( const IO_ERROR& e ) { aReporter.Report( e.What() ); } } SIM_MODEL& SIM_LIB_MGR::CreateModel( SIM_MODEL::TYPE aType, const std::vector& aPins, REPORTER& aReporter ) { m_models.push_back( SIM_MODEL::Create( aType, aPins, aReporter ) ); return *m_models.back(); } SIM_MODEL& SIM_LIB_MGR::CreateModel( const SIM_MODEL* aBaseModel, const std::vector& aPins, REPORTER& aReporter ) { m_models.push_back( SIM_MODEL::Create( aBaseModel, aPins, aReporter ) ); return *m_models.back(); } template SIM_MODEL& SIM_LIB_MGR::CreateModel( const SIM_MODEL* aBaseModel, const std::vector& aPins, const std::vector& aFields, REPORTER& aReporter ) { m_models.push_back( SIM_MODEL::Create( aBaseModel, aPins, aFields, aReporter ) ); return *m_models.back(); } template SIM_MODEL& SIM_LIB_MGR::CreateModel( const SIM_MODEL* aBaseModel, const std::vector& aPins, const std::vector& aFields, REPORTER& aReporter ); template SIM_MODEL& SIM_LIB_MGR::CreateModel( const SIM_MODEL* aBaseModel, const std::vector& aPins, const std::vector& aFields, REPORTER& aReporter ); SIM_LIBRARY::MODEL SIM_LIB_MGR::CreateModel( const SCH_SHEET_PATH* aSheetPath, SCH_SYMBOL& aSymbol, REPORTER& aReporter ) { // Note: currently this creates a resolved model (all Kicad variables references are resolved // before building the model). // // That's not what we want if this is ever called from the Simulation Model Editor (or other // editors, but it is what we want if called to generate a netlist or other exported items. std::vector fields; for( const SCH_FIELD& field : aSymbol.GetFields() ) { if( field.GetId() == REFERENCE_FIELD ) { fields.emplace_back( VECTOR2I(), -1, &aSymbol, field.GetName() ); fields.back().SetText( aSymbol.GetRef( aSheetPath ) ); } else if( field.GetId() == VALUE_FIELD || field.GetName().StartsWith( wxS( "Sim." ) ) ) { fields.emplace_back( VECTOR2I(), -1, &aSymbol, field.GetName() ); fields.back().SetText( field.GetShownText( aSheetPath, false ) ); } } auto getOrCreateField = [&aSymbol, &fields]( const wxString& name ) -> SCH_FIELD* { for( SCH_FIELD& field : fields ) { if( field.GetName().IsSameAs( name ) ) return &field; } fields.emplace_back( &aSymbol, -1, name ); return &fields.back(); }; wxString deviceType; wxString modelType; wxString modelParams; wxString pinMap; bool storeInValue = false; // Infer RLC and VI models if they aren't specified if( SIM_MODEL::InferSimModel( aSymbol, &fields, true, SIM_VALUE_GRAMMAR::NOTATION::SI, &deviceType, &modelType, &modelParams, &pinMap ) ) { getOrCreateField( SIM_DEVICE_FIELD )->SetText( deviceType ); if( !modelType.IsEmpty() ) getOrCreateField( SIM_DEVICE_SUBTYPE_FIELD )->SetText( modelType ); getOrCreateField( SIM_PARAMS_FIELD )->SetText( modelParams ); getOrCreateField( SIM_PINS_FIELD )->SetText( pinMap ); storeInValue = true; } std::vector sourcePins = aSymbol.GetAllLibPins(); std::sort( sourcePins.begin(), sourcePins.end(), []( const LIB_PIN* lhs, const LIB_PIN* rhs ) { return StrNumCmp( lhs->GetNumber(), rhs->GetNumber(), true ) < 0; } ); SIM_LIBRARY::MODEL model = CreateModel( fields, sourcePins, true, aReporter ); model.model.SetIsStoredInValue( storeInValue ); return model; } template SIM_LIBRARY::MODEL SIM_LIB_MGR::CreateModel( const std::vector& aFields, const std::vector& aPins, bool aResolved, REPORTER& aReporter ) { std::string libraryPath = SIM_MODEL::GetFieldValue( &aFields, SIM_LIBRARY::LIBRARY_FIELD ); std::string baseModelName = SIM_MODEL::GetFieldValue( &aFields, SIM_LIBRARY::NAME_FIELD ); if( libraryPath != "" ) { return CreateModel( libraryPath, baseModelName, aFields, aPins, aReporter ); } else { m_models.push_back( SIM_MODEL::Create( aFields, aPins, aResolved, aReporter ) ); return { baseModelName, *m_models.back() }; } } template SIM_LIBRARY::MODEL SIM_LIB_MGR::CreateModel( const std::vector& aFields, const std::vector& aPins, bool aResolved, REPORTER& aReporter ); template SIM_LIBRARY::MODEL SIM_LIB_MGR::CreateModel( const std::vector& aFields, const std::vector& aPins, bool aResolved, REPORTER& aReporter ); template SIM_LIBRARY::MODEL SIM_LIB_MGR::CreateModel( const wxString& aLibraryPath, const std::string& aBaseModelName, const std::vector& aFields, const std::vector& aPins, REPORTER& aReporter ) { wxString path; wxString msg; SIM_LIBRARY* library = nullptr; SIM_MODEL* baseModel = nullptr; std::string modelName; try { path = ResolveLibraryPath( aLibraryPath, m_project ); auto it = m_libraries.find( path ); if( it == m_libraries.end() ) { std::function f2 = std::bind( &SIM_LIB_MGR::ResolveEmbeddedLibraryPath, this, _1, _2 ); it = m_libraries.emplace( path, SIM_LIBRARY::Create( path, m_forceFullParse, aReporter, &f2 ) ).first; } library = &*it->second; } catch( const IO_ERROR& e ) { msg.Printf( _( "Error loading simulation model library '%s': %s" ), path, e.What() ); aReporter.Report( msg, RPT_SEVERITY_ERROR ); } if( aBaseModelName == "" ) { msg.Printf( _( "Error loading simulation model: no '%s' field" ), SIM_LIBRARY::NAME_FIELD ); aReporter.Report( msg, RPT_SEVERITY_ERROR ); modelName = _( "unknown" ).ToStdString(); } else if( library ) { baseModel = library->FindModel( aBaseModelName ); modelName = aBaseModelName; if( !baseModel ) { msg.Printf( _( "Error loading simulation model: could not find base model '%s' " "in library '%s'" ), aBaseModelName, path ); aReporter.Report( msg, RPT_SEVERITY_ERROR ); } } m_models.push_back( SIM_MODEL::Create( baseModel, aPins, aFields, aReporter ) ); return { modelName, *m_models.back() }; } void SIM_LIB_MGR::SetModel( int aIndex, std::unique_ptr aModel ) { m_models.at( aIndex ) = std::move( aModel ); } std::map> SIM_LIB_MGR::GetLibraries() const { std::map> libraries; for( auto& [path, library] : m_libraries ) libraries.try_emplace( path, *library ); return libraries; } std::vector> SIM_LIB_MGR::GetModels() const { std::vector> models; for( const std::unique_ptr& model : m_models ) models.emplace_back( *model ); return models; }