/* * 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 using PARAM = SIM_MODEL::PARAM; SIM_MODEL_SOURCE::SIM_MODEL_SOURCE( TYPE aType ) : SIM_MODEL( aType ) { for( const PARAM::INFO& paramInfo : makeParams( aType ) ) AddParam( paramInfo ); } wxString SIM_MODEL_SOURCE::GenerateSpiceModelLine( const wxString& aModelName ) const { return ""; } wxString SIM_MODEL_SOURCE::GenerateSpiceItemLine( const wxString& aRefName, const wxString& aModelName, const std::vector& aPinNetNames ) const { wxString argList = ""; for( int i = 0; i < GetParamCount(); ++i ) argList << GetParam( i ).value->ToString() << " "; wxString model = wxString::Format( GetSpiceInfo().inlineTypeString + "( %s)", argList ); return SIM_MODEL::GenerateSpiceItemLine( aRefName, model, aPinNetNames ); } const std::vector& SIM_MODEL_SOURCE::makeParams( TYPE aType ) { static std::vector vdc = makeDc( "v", "V" ); static std::vector idc = makeDc( "i", "A" ); static std::vector vsin = makeSin( "v", "V" ); static std::vector isin = makeSin( "i", "A" ); static std::vector vpulse = makePulse( "v", "V" ); static std::vector ipulse = makePulse( "i", "A" ); static std::vector vexp = makeExp( "v", "V" ); static std::vector iexp = makeExp( "i", "A" ); static std::vector vsfam = makeSfam( "v", "V" ); static std::vector isfam = makeSfam( "i", "A" ); static std::vector vsffm = makeSffm( "v", "V" ); static std::vector isffm = makeSffm( "i", "A" ); static std::vector vpwl = makePwl( "v", "Voltage", "V" ); static std::vector ipwl = makePwl( "i", "Current", "A" ); static std::vector vwhitenoise = makeWhiteNoise( "v", "V" ); static std::vector iwhitenoise = makeWhiteNoise( "i", "A" ); static std::vector vpinknoise = makePinkNoise( "v", "V" ); static std::vector ipinknoise = makePinkNoise( "i", "A" ); static std::vector vburstnoise = makeBurstNoise( "v", "V" ); static std::vector iburstnoise = makeBurstNoise( "i", "A" ); static std::vector vrandomuniform = makeRandomUniform( "v", "V" ); static std::vector irandomuniform = makeRandomUniform( "i", "A" ); static std::vector vrandomnormal = makeRandomNormal( "v", "V" ); static std::vector irandomnormal = makeRandomNormal( "i", "A" ); static std::vector vrandomexp = makeRandomExp( "v", "V" ); static std::vector irandomexp = makeRandomExp( "i", "A" ); static std::vector vrandompoisson = makeRandomPoisson( "v", "V" ); static std::vector irandompoisson = makeRandomPoisson( "i", "A" ); switch( aType ) { case TYPE::V_DC: return vdc; case TYPE::I_DC: return idc; case TYPE::V_SIN: return vsin; case TYPE::I_SIN: return isin; case TYPE::V_PULSE: return vpulse; case TYPE::I_PULSE: return ipulse; case TYPE::V_EXP: return vexp; case TYPE::I_EXP: return iexp; case TYPE::V_SFAM: return vsfam; case TYPE::I_SFAM: return isfam; case TYPE::V_SFFM: return vsffm; case TYPE::I_SFFM: return isffm; case TYPE::V_PWL: return vpwl; case TYPE::I_PWL: return ipwl; case TYPE::V_WHITENOISE: return vwhitenoise; case TYPE::I_WHITENOISE: return iwhitenoise; case TYPE::V_PINKNOISE: return vpinknoise; case TYPE::I_PINKNOISE: return ipinknoise; case TYPE::V_BURSTNOISE: return vburstnoise; case TYPE::I_BURSTNOISE: return iburstnoise; case TYPE::V_RANDUNIFORM: return vrandomuniform; case TYPE::I_RANDUNIFORM: return irandomuniform; case TYPE::V_RANDNORMAL: return vrandomnormal; case TYPE::I_RANDNORMAL: return irandomnormal; case TYPE::V_RANDEXP: return vrandomexp; case TYPE::I_RANDEXP: return irandomexp; case TYPE::V_RANDPOISSON: return vrandompoisson; case TYPE::I_RANDPOISSON: return irandompoisson; default: wxFAIL_MSG( "Unhandled SIM_MODEL type in SIM_MODEL_SOURCE" ); static std::vector empty; return empty; } } bool SIM_MODEL_SOURCE::SetParamValue( int aParamIndex, const wxString& aValue, SIM_VALUE_GRAMMAR::NOTATION aNotation ) { // Sources are special. All preceding parameter values must be filled. If they are not, fill // them out automatically. If a value is nulled, delete everything after it. if( aValue.IsEmpty() ) { for( int i = aParamIndex; i < GetParamCount(); ++i ) SIM_MODEL::SetParamValue( i, "", aNotation ); } else { for( int i = 0; i < aParamIndex; ++i ) { if( GetParam( i ).value->ToString().IsEmpty() ) SIM_MODEL::SetParamValue( i, "0", aNotation ); } } return SIM_MODEL::SetParamValue( aParamIndex, aValue, aNotation ); } std::vector SIM_MODEL_SOURCE::getPinNames() const { return { "+", "-" }; } std::vector SIM_MODEL_SOURCE::makeDc( wxString aPrefix, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "dc"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "DC value"; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_SOURCE::makeSin( wxString aPrefix, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "dc"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "DC offset"; paramInfos.push_back( paramInfo ); paramInfo.name = "ampl"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "Amplitude"; paramInfos.push_back( paramInfo ); paramInfo.name = "f"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "Hz"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "1/tstop"; paramInfo.description = "Frequency"; paramInfos.push_back( paramInfo ); paramInfo.name = "td"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Delay"; paramInfos.push_back( paramInfo ); paramInfo.name = "theta"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "1/s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Damping factor"; paramInfos.push_back( paramInfo ); paramInfo.name = "phase"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "deg"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Phase"; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_SOURCE::makePulse( wxString aPrefix, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = aPrefix + "1"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "Initial value"; paramInfos.push_back( paramInfo ); paramInfo.name = aPrefix + "2"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "Initial value"; paramInfos.push_back( paramInfo ); paramInfo.name = "td"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Delay"; paramInfos.push_back( paramInfo ); paramInfo.name = "tr"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "tstep"; paramInfo.description = "Rise time"; paramInfos.push_back( paramInfo ); paramInfo.name = "tf"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "tstep"; paramInfo.description = "Fall time"; paramInfos.push_back( paramInfo ); paramInfo.name = "pw"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "tstop"; paramInfo.description = "Pulse width"; paramInfos.push_back( paramInfo ); paramInfo.name = "per"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "tstop"; paramInfo.description = "Period"; paramInfos.push_back( paramInfo ); paramInfo.name = "phase"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "deg"; paramInfo.category = PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Phase"; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_SOURCE::makeExp( wxString aPrefix, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = aPrefix + "1"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "Initial value"; paramInfos.push_back( paramInfo ); paramInfo.name = aPrefix + "2"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "Pulsed value"; paramInfos.push_back( paramInfo ); paramInfo.name = "td1"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Rise delay time"; paramInfos.push_back( paramInfo ); paramInfo.name = "tau1"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "tstep"; paramInfo.description = "Rise time constant"; paramInfos.push_back( paramInfo ); paramInfo.name = "td2"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "td1+tstep"; paramInfo.description = "Fall delay time"; paramInfos.push_back( paramInfo ); paramInfo.name = "tau2"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "tstep"; paramInfo.description = "Fall time constant"; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_SOURCE::makeSfam( wxString aPrefix, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "dc"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "DC offset"; paramInfo.name = "ampl"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "Amplitude"; paramInfos.push_back( paramInfo ); paramInfo.name = "mo"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = ""; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "Modulating signal offset"; paramInfos.push_back( paramInfo ); paramInfo.name = "fc"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "Hz"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "Carrier frequency"; paramInfos.push_back( paramInfo ); paramInfo.name = "mf"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "Hz"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "Modulating frequency"; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_SOURCE::makeSffm( wxString aPrefix, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "dc"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "DC offset"; paramInfos.push_back( paramInfo ); paramInfo.name = "ampl"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "Amplitude"; paramInfos.push_back( paramInfo ); paramInfo.name = "fc"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "Hz"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "1/tstop"; paramInfo.description = "Carrier frequency"; paramInfos.push_back( paramInfo ); paramInfo.name = "mdi"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = ""; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "Modulation index"; paramInfos.push_back( paramInfo ); paramInfo.name = "fs"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "Hz"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "1/tstop"; paramInfo.description = "Signal frequency"; paramInfos.push_back( paramInfo ); paramInfo.name = "phasec"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "deg"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Carrier phase"; paramInfos.push_back( paramInfo ); paramInfo.name = "phases"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "deg"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Signal phase"; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_SOURCE::makePwl( wxString aPrefix, wxString aQuantity, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "t"; paramInfo.type = SIM_VALUE::TYPE::FLOAT_VECTOR; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "Time vector"; paramInfos.push_back( paramInfo ); paramInfo.name = aPrefix; paramInfo.type = SIM_VALUE::TYPE::FLOAT_VECTOR; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = aQuantity + " vector"; paramInfos.push_back( paramInfo ); paramInfo.name = "repeat"; paramInfo.type = SIM_VALUE::TYPE::BOOL; paramInfo.unit = ""; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "Repeat forever"; paramInfos.push_back( paramInfo ); paramInfo.name = "td"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Delay"; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_SOURCE::makeWhiteNoise( wxString aPrefix, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "dc"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "DC offset"; paramInfos.push_back( paramInfo ); paramInfo.name = "na"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "White noise RMS amplitude"; paramInfos.push_back( paramInfo ); paramInfo.name = "nt"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Time step"; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_SOURCE::makePinkNoise( wxString aPrefix, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "dc"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = ""; paramInfo.description = "DC offset"; paramInfos.push_back( paramInfo ); paramInfo.name = "nalpha"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = ""; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "1/f noise exponent"; paramInfos.push_back( paramInfo ); paramInfo.name = "namp"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = ""; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "1/f noise RMS amplitude"; paramInfos.push_back( paramInfo ); paramInfo.name = "nt"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Time step"; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_SOURCE::makeBurstNoise( wxString aPrefix, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "rtsam"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Burst noise amplitude"; paramInfos.push_back( paramInfo ); paramInfo.name = "rtscapt"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Burst noise trap capture time"; paramInfos.push_back( paramInfo ); paramInfo.name = "rtsemt"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Burst noise trap emission time"; paramInfos.push_back( paramInfo ); paramInfo.name = "nt"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Time step"; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_SOURCE::makeRandomUniform( wxString aPrefix, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "min"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "-0.5"; paramInfo.description = "Min. value"; paramInfos.push_back( paramInfo ); paramInfo.name = "max"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0.5"; paramInfo.description = "Max. value"; paramInfos.push_back( paramInfo ); paramInfo.name = "td"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Delay"; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_SOURCE::makeRandomNormal( wxString aPrefix, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "mean"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Mean"; paramInfos.push_back( paramInfo ); paramInfo.name = "stddev"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "1"; paramInfo.description = "Standard deviation"; paramInfos.push_back( paramInfo ); paramInfo.name = "td"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Delay"; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_SOURCE::makeRandomExp( wxString aPrefix, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "offset"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Offset"; paramInfos.push_back( paramInfo ); paramInfo.name = "mean"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "1"; paramInfo.description = "Mean"; paramInfos.push_back( paramInfo ); paramInfo.name = "td"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Delay"; paramInfos.push_back( paramInfo ); return paramInfos; } std::vector SIM_MODEL_SOURCE::makeRandomPoisson( wxString aPrefix, wxString aUnit ) { std::vector paramInfos; PARAM::INFO paramInfo; paramInfo.name = "offset"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Offset"; paramInfos.push_back( paramInfo ); paramInfo.name = "lambda"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = aUnit; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "1"; paramInfo.description = "Mean"; paramInfos.push_back( paramInfo ); paramInfo.name = "td"; paramInfo.type = SIM_VALUE::TYPE::FLOAT; paramInfo.unit = "s"; paramInfo.category = SIM_MODEL::PARAM::CATEGORY::PRINCIPAL; paramInfo.defaultValue = "0"; paramInfo.description = "Delay"; paramInfos.push_back( paramInfo ); return paramInfos; }