/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2020 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 2 * 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: * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html * or you may search the http://www.gnu.org website for the version 2 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 ///! Update the schema version whenever a migration is required const int pcbCalculatorSchemaVersion = 0; PCB_CALCULATOR_SETTINGS::PCB_CALCULATOR_SETTINGS() : APP_SETTINGS_BASE( "pcb_calculator", pcbCalculatorSchemaVersion ), m_Attenuators(), m_BoardClassUnits( 0 ), m_ColorCodeTolerance( 0 ), m_Electrical(), m_LastPage( 0 ), m_Regulators(), m_cableSize(), m_wavelength(), m_TrackWidth(), m_TransLine(), m_ViaSize() { // Build settings: m_params.emplace_back( new PARAM( "board_class_units", &m_BoardClassUnits, 0 ) ); m_params.emplace_back( new PARAM( "color_code_tolerance", &m_ColorCodeTolerance, 0 ) ); m_params.emplace_back( new PARAM( "last_page", &m_LastPage, 0 ) ); m_params.emplace_back( new PARAM( "translines.type", &m_TransLine.type, 0 ) ); m_params.emplace_back( new PARAM( "attenuators.type", &m_Attenuators.type, 0 ) ); const std::array att_names = { "att_pi", "att_tee", "att_bridge", "att_splitter" }; for( const auto& att_name : att_names ) { std::string path = "attenuators." + att_name; m_Attenuators.attenuators[ att_name ] = ATTENUATOR(); ATTENUATOR* att = &m_Attenuators.attenuators[ att_name ]; m_params.emplace_back( new PARAM( path + ".attenuation", &att->attenuation, 6.0 ) ); m_params.emplace_back( new PARAM( path + ".zin", &att->zin, 50.0 ) ); m_params.emplace_back( new PARAM( path + ".zout", &att->zout, 50.0 ) ); } m_params.emplace_back( new PARAM( "electrical.spacing_units", &m_Electrical.spacing_units, 0 ) ); m_params.emplace_back( new PARAM( "electrical.spacing_voltage", &m_Electrical.spacing_voltage, "500" ) ); m_params.emplace_back( new PARAM( "regulators.r1", &m_Regulators.r1, "10" ) ); m_params.emplace_back( new PARAM( "regulators.r2", &m_Regulators.r2, "10" ) ); m_params.emplace_back( new PARAM( "regulators.vref", &m_Regulators.vref, "3" ) ); m_params.emplace_back( new PARAM( "regulators.vout", &m_Regulators.vout, "12" ) ); m_params.emplace_back( new PARAM( "regulators.data_file", &m_Regulators.data_file, "" ) ); m_params.emplace_back( new PARAM( "regulators.selected_regulator", &m_Regulators.selected_regulator, "" ) ); m_params.emplace_back( new PARAM( "cable_size.conductorMaterialResitivity", &m_cableSize.conductorMaterialResitivity, "" ) ); m_params.emplace_back( new PARAM( "regulators.type", &m_Regulators.type, 0 ) ); m_params.emplace_back( new PARAM( "regulators.last_param", &m_Regulators.last_param, 0 ) ); m_params.emplace_back( new PARAM( "cable_size.diameterUnit", &m_cableSize.diameterUnit, 0 ) ); m_params.emplace_back( new PARAM( "cable_size.linResUnit", &m_cableSize.linResUnit, 0 ) ); m_params.emplace_back( new PARAM( "cable_size.frequencyUnit", &m_cableSize.frequencyUnit, 0 ) ); m_params.emplace_back( new PARAM( "cable_size.lengthUnit", &m_cableSize.lengthUnit, 0 ) ); m_params.emplace_back( new PARAM( "wavelength.frequency", &m_wavelength.frequency, 1e9 ) ); m_params.emplace_back( new PARAM( "wavelength.permeability", &m_wavelength.permeability, 1 ) ); m_params.emplace_back( new PARAM( "wavelength.permittivity", &m_wavelength.permittivity, 4.6 ) ); m_params.emplace_back( new PARAM( "wavelength.frequencyUnit", &m_wavelength.frequencyUnit, 0 ) ); m_params.emplace_back( new PARAM( "wavelength.periodUnit", &m_wavelength.periodUnit, 0 ) ); m_params.emplace_back( new PARAM( "wavelength.wavelengthVacuumUnit", &m_wavelength.wavelengthVacuumUnit, 0 ) ); m_params.emplace_back( new PARAM( "wavelength.wavelengthMediumUnit", &m_wavelength.wavelengthMediumUnit, 0 ) ); m_params.emplace_back( new PARAM( "wavelength.speedUnit", &m_wavelength.speedUnit, 0 ) ); m_params.emplace_back( new PARAM( "track_width.current", &m_TrackWidth.current, "1.0" ) ); m_params.emplace_back( new PARAM( "track_width.delta_tc", &m_TrackWidth.delta_tc, "10.0" ) ); m_params.emplace_back( new PARAM( "track_width.track_len", &m_TrackWidth.track_len, "20" ) ); m_params.emplace_back( new PARAM( "track_width.track_len_units", &m_TrackWidth.track_len_units, 0 ) ); m_params.emplace_back( new PARAM( "track_width.resistivity", &m_TrackWidth.resistivity, "1.72e-8" ) ); m_params.emplace_back( new PARAM( "track_width.ext_track_width", &m_TrackWidth.ext_track_width, "0.2" ) ); m_params.emplace_back( new PARAM( "track_width.ext_track_width_units", &m_TrackWidth.ext_track_width_units, 0 ) ); m_params.emplace_back( new PARAM( "track_width.ext_track_thickness", &m_TrackWidth.ext_track_thickness, "0.035" ) ); m_params.emplace_back( new PARAM( "track_width.ext_track_thickness_units", &m_TrackWidth.ext_track_thickness_units, 0 ) ); m_params.emplace_back( new PARAM( "track_width.int_track_width", &m_TrackWidth.int_track_width, "0.2" ) ); m_params.emplace_back( new PARAM( "track_width.int_track_width_units", &m_TrackWidth.int_track_width_units, 0 ) ); m_params.emplace_back( new PARAM( "track_width.int_track_thickness", &m_TrackWidth.int_track_thickness, "0.035" ) ); m_params.emplace_back( new PARAM( "track_width.int_track_thickness_units", &m_TrackWidth.int_track_thickness_units, 0 ) ); { const std::array transline_names = { "MicroStrip", "CoPlanar", "GrCoPlanar", "RectWaveGuide", "Coax", "Coupled_MicroStrip", "StripLine", "TwistedPair" }; for( const auto& name : transline_names ) { m_TransLine.param_values[ name ] = TL_PARAM_MAP(); m_TransLine.param_units[ name ] = TL_PARAM_UNITS_MAP(); std::string path = "trans_line." + name + "."; m_params.emplace_back( new PARAM_MAP( path + "values", &m_TransLine.param_values.at( name ), {} ) ); m_params.emplace_back( new PARAM_MAP( path + "units", &m_TransLine.param_units.at( name ), {} ) ); } } m_params.emplace_back( new PARAM( "via_size.hole_diameter", &m_ViaSize.hole_diameter, "0.4" ) ); m_params.emplace_back( new PARAM( "via_size.hole_diameter_units", &m_ViaSize.hole_diameter_units, 0 ) ); m_params.emplace_back( new PARAM( "via_size.thickness", &m_ViaSize.thickness, "0.035" ) ); m_params.emplace_back( new PARAM( "via_size.thickness_units", &m_ViaSize.thickness_units, 0 ) ); m_params.emplace_back( new PARAM( "via_size.length", &m_ViaSize.length, "1.6" ) ); m_params.emplace_back( new PARAM( "via_size.length_units", &m_ViaSize.length_units, 0 ) ); m_params.emplace_back( new PARAM( "via_size.pad_diameter", &m_ViaSize.pad_diameter, "0.6" ) ); m_params.emplace_back( new PARAM( "via_size.pad_diameter_units", &m_ViaSize.pad_diameter_units, 0 ) ); m_params.emplace_back( new PARAM( "via_size.clearance_diameter", &m_ViaSize.clearance_diameter, "1.0" ) ); m_params.emplace_back( new PARAM( "via_size.clearance_diameter_units", &m_ViaSize.clearance_diameter_units, 0 ) ); m_params.emplace_back( new PARAM( "via_size.characteristic_impedance", &m_ViaSize.characteristic_impedance, "50" ) ); m_params.emplace_back( new PARAM( "via_size.characteristic_impedance_units", &m_ViaSize.characteristic_impedance_units, 0 ) ); m_params.emplace_back( new PARAM( "via_size.applied_current", &m_ViaSize.applied_current, "1" ) ); m_params.emplace_back( new PARAM( "via_size.plating_resistivity", &m_ViaSize.plating_resistivity, "1.72e-8" ) ); m_params.emplace_back( new PARAM( "via_size.permittivity", &m_ViaSize.permittivity, "4.5" ) ); m_params.emplace_back( new PARAM( "via_size.temp_rise", &m_ViaSize.temp_rise, "10" ) ); m_params.emplace_back( new PARAM( "via_size.pulse_rise_time", &m_ViaSize.pulse_rise_time, "1" ) ); } bool PCB_CALCULATOR_SETTINGS::MigrateFromLegacy( wxConfigBase* aCfg ) { bool ret = APP_SETTINGS_BASE::MigrateFromLegacy( aCfg ); ret &= fromLegacy( aCfg, "BrdClass_selection", "board_class_units" ); ret &= fromLegacy( aCfg, "CC_selection", "color_code_tolerance" ); ret &= fromLegacy( aCfg, "Page_selection", "last_page" ); ret &= fromLegacy( aCfg, "Att_selection", "attenuators.type" ); { nlohmann::json::json_pointer ptr = JSON_SETTINGS_INTERNALS::PointerFromString( "attenuators" ); const std::array att_names = { "att_pi", "att_tee", "att_bridge", "att_splitter" }; double val = 0; for( const auto& att : att_names ) { aCfg->SetPath( "Attenuators/" + att ); ptr.push_back( att ); if( aCfg->Read( "Attenuation", &val ) ) ( *m_internals )[ptr]["attenuation"] = val; if( aCfg->Read( "Zin", &val ) ) ( *m_internals )[ptr]["zin"] = val; if( aCfg->Read( "Zout", &val ) ) ( *m_internals )[ptr]["zout"] = val; ptr.pop_back(); aCfg->SetPath( "../.." ); } } ret &= fromLegacy( aCfg, "ElectSpacing_selection", "electrical.spacing_units" ); ret &= fromLegacyString( aCfg, "ElectSpacing_voltage", "electrical.spacing_voltage" ); ret &= fromLegacyString( aCfg, "RegulR1", "regulators.r1" ); ret &= fromLegacyString( aCfg, "RegulR2", "regulators.r2" ); ret &= fromLegacyString( aCfg, "RegulVREF", "regulators.vref" ); ret &= fromLegacyString( aCfg, "RegulVOUT", "regulators.vout" ); ret &= fromLegacyString( aCfg, "DataFilename", "regulators.data_file" ); ret &= fromLegacyString( aCfg, "RegulName", "regulators.selected_regulator" ); ret &= fromLegacy( aCfg, "RegulType", "regulators.type" ); ret &= fromLegacy( aCfg, "RegulLastParam", "regulators.last_param" ); ret &= fromLegacyString( aCfg, "TW_Track_Current", "track_width.current" ); ret &= fromLegacyString( aCfg, "TW_Delta_TC", "track_width.delta_tc" ); ret &= fromLegacyString( aCfg, "TW_Track_Len", "track_width.track_len" ); ret &= fromLegacy( aCfg, "TW_Track_Len_Unit", "track_width.track_len_units" ); ret &= fromLegacyString( aCfg, "TW_Resistivity", "track_width.resistivity" ); ret &= fromLegacyString( aCfg, "TW_ExtTrack_Width", "track_width.ext_track_width" ); ret &= fromLegacy( aCfg, "TW_ExtTrack_Width_Unit", "track_width.ext_track_width_units" ); ret &= fromLegacyString( aCfg, "TW_ExtTrack_Thickness", "track_width.ext_track_thickness" ); ret &= fromLegacy( aCfg, "TW_ExtTrack_Thickness_Unit", "track_width.ext_track_thickness_units" ); ret &= fromLegacyString( aCfg, "TW_IntTrack_Width", "track_width.int_track_width" ); ret &= fromLegacy( aCfg, "TW_IntTrack_Width_Unit", "track_width.int_track_width_units" ); ret &= fromLegacyString( aCfg, "TW_IntTrack_Thickness", "track_width.int_track_thickness" ); ret &= fromLegacy( aCfg, "TW_IntTrack_Thickness_Unit", "track_width.int_track_thickness_units" ); ret &= fromLegacy( aCfg, "Transline_selection", "trans_line.selection" ); { nlohmann::json::json_pointer ptr = JSON_SETTINGS_INTERNALS::PointerFromString( "trans_line" ); wxString key; double value = 0; int units = 0; const std::array transline_names = { "MicroStrip", "CoPlanar", "GrCoPlanar", "RectWaveGuide", "Coax", "Coupled_MicroStrip", "StripLine", "TwistedPair" }; for( const auto& name : transline_names ) { long index = 0; aCfg->SetPath( name ); ptr.push_back( name ); while( aCfg->GetNextEntry( key, index ) ) { // Keys look like "translineprmN" and "translineprmNunit" wxString dest = key; dest.Replace( "translineprm", wxEmptyString ); if( dest.EndsWith( "unit" ) ) { dest.Replace( "unit", wxEmptyString ); aCfg->Read( key, &units ); ptr.push_back( "units" ); ( *m_internals )[ptr].push_back( { { dest.ToStdString(), units } } ); ptr.pop_back(); } else { aCfg->Read( key, &value ); ptr.push_back( "values" ); ( *m_internals )[ptr].push_back( { { dest.ToStdString(), value } } ); ptr.pop_back(); } } ptr.pop_back(); aCfg->SetPath( ".." ); } } ret &= fromLegacyString( aCfg, "VS_Hole_Dia", "via_size.hole_diameter" ); ret &= fromLegacy( aCfg, "VS_Hole_Dia_Unit", "via_size.hole_diameter_units" ); ret &= fromLegacyString( aCfg, "VS_Plating_Thickness", "via_size.thickness" ); ret &= fromLegacy( aCfg, "VS_Plating_Thickness_Unit", "via_size.thickness_units" ); ret &= fromLegacyString( aCfg, "VS_Via_Length", "via_size.length" ); ret &= fromLegacy( aCfg, "VS_Via_Length_Unit", "via_size.length_units" ); ret &= fromLegacyString( aCfg, "VS_Pad_Dia", "via_size.pad_diameter" ); ret &= fromLegacy( aCfg, "VS_Pad_Dia_Unit", "via_size.pad_diameter_units" ); ret &= fromLegacyString( aCfg, "VS_Clearance_Dia", "via_size.clearance_diameter" ); ret &= fromLegacy( aCfg, "VS_Clearance_Dia_Unit", "via_size.clearance_diameter_units" ); ret &= fromLegacyString( aCfg, "VS_Characteristic_Impedance", "via_size.characteristic_impedance" ); ret &= fromLegacy( aCfg, "VS_Characteristic_Impedance_Unit", "via_size.characteristic_impedance_units" ); ret &= fromLegacyString( aCfg, "VS_Current", "via_size.applied_current" ); ret &= fromLegacyString( aCfg, "VS_Resistivity", "via_size.plating_resistivity" ); ret &= fromLegacyString( aCfg, "VS_Permittivity", "via_size.permittivity" ); ret &= fromLegacyString( aCfg, "VS_Temperature_Differential", "via_size.temp_rise" ); ret &= fromLegacyString( aCfg, "VS_Pulse_Rise_Time", "via_size.pulse_rise_time" ); return ret; }