566 lines
16 KiB
C++
566 lines
16 KiB
C++
/*
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* This program source code file is part of KiCad, a free EDA CAD application.
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*
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* Copyright (C) 2022 Mikolaj Wielgus
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* Copyright (C) 2022 CERN
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* Copyright (C) 2022-2023 KiCad Developers, see AUTHORS.txt for contributors.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 3
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, you may find one here:
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* https://www.gnu.org/licenses/gpl-3.0.html
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* or you may search the http://www.gnu.org website for the version 3 license,
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* or you may write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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#ifndef SIM_MODEL_H
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#define SIM_MODEL_H
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#include <wx/string.h>
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#include <map>
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#include <utility>
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#include <reporter.h>
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#include <sch_field.h>
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#include <lib_field.h>
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// Must be included after sch_field.h (exactly eda_shape.h) to avoid a colliding
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// declaration with a window header (under msys2)
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#include <sim/sim_value.h>
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#include <enum_vector.h>
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class SIM_LIBRARY;
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struct SPICE_ITEM;
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class SPICE_GENERATOR;
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class SIM_MODEL_SERIALIZER;
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class PROJECT;
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#define SIM_REFERENCE_FIELD wxT( "Reference" )
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#define SIM_VALUE_FIELD wxT( "Value" )
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#define SIM_DEVICE_FIELD wxT( "Sim.Device" )
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#define SIM_DEVICE_SUBTYPE_FIELD wxT( "Sim.Type" )
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#define SIM_PINS_FIELD wxT( "Sim.Pins" )
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#define SIM_PARAMS_FIELD wxT( "Sim.Params" )
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#define SIM_LIBRARY_FIELD wxT( "Sim.Library" )
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#define SIM_NAME_FIELD wxT( "Sim.Name" )
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#define SIM_NODES_FORMAT_FIELD wxT( "Sim.NodesFormat" )
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#define SIM_LEGACY_ENABLE_FIELD_V7 wxT( "Sim.Enable" )
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#define SIM_LEGACY_PRIMITIVE_FIELD wxS( "Spice_Primitive" )
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#define SIM_LEGACY_MODEL_FIELD wxS( "Spice_Model" )
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#define SIM_LEGACY_PINS_FIELD wxS( "Spice_Node_Sequence" )
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#define SIM_LEGACY_ENABLE_FIELD wxS( "Spice_Netlist_Enabled" )
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#define SIM_LEGACY_LIBRARY_FIELD wxS( "Spice_Lib_File" )
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class SIM_MODEL
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{
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public:
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friend class SPICE_GENERATOR;
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friend class NETLIST_EXPORTER_SPICE;
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struct PIN;
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struct PARAM;
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// There's a trailing '_' because `DEVICE_TYPE` collides with something in Windows headers.
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DEFINE_ENUM_CLASS_WITH_ITERATOR( DEVICE_T,
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NONE,
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R,
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C,
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L,
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K,
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TLINE,
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SW,
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D,
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NPN,
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PNP,
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NJFET,
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PJFET,
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NMES,
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PMES,
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NMOS,
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PMOS,
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V,
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I,
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E,
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F,
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G,
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H,
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SUBCKT,
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XSPICE,
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KIBIS,
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SPICE
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)
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struct DEVICE_INFO
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{
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std::string fieldValue;
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std::string description;
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bool showInMenu;
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};
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DEFINE_ENUM_CLASS_WITH_ITERATOR( TYPE,
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NONE,
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R,
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R_POT,
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R_BEHAVIORAL,
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C,
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C_BEHAVIORAL,
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L,
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L_BEHAVIORAL,
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K,
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TLINE_Z0,
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TLINE_RLGC,
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SW_V,
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SW_I,
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D,
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NPN_VBIC,
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PNP_VBIC,
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NPN_GUMMELPOON,
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PNP_GUMMELPOON,
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//NPN_MEXTRAM,
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//PNP_MEXTRAM,
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NPN_HICUM2,
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PNP_HICUM2,
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//NPN_HICUM_L0,
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//PNP_HICUM_L0,
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NJFET_SHICHMANHODGES,
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PJFET_SHICHMANHODGES,
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NJFET_PARKERSKELLERN,
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PJFET_PARKERSKELLERN,
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NMES_STATZ,
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PMES_STATZ,
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NMES_YTTERDAL,
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PMES_YTTERDAL,
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NMES_HFET1,
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PMES_HFET1,
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NMES_HFET2,
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PMES_HFET2,
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NMOS_VDMOS,
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PMOS_VDMOS,
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NMOS_MOS1,
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PMOS_MOS1,
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NMOS_MOS2,
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PMOS_MOS2,
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NMOS_MOS3,
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PMOS_MOS3,
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NMOS_BSIM1,
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PMOS_BSIM1,
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NMOS_BSIM2,
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PMOS_BSIM2,
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NMOS_MOS6,
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PMOS_MOS6,
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NMOS_MOS9,
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PMOS_MOS9,
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NMOS_BSIM3,
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PMOS_BSIM3,
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NMOS_B4SOI,
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PMOS_B4SOI,
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NMOS_BSIM4,
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PMOS_BSIM4,
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//NMOS_EKV2_6,
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//PMOS_EKV2_6,
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//NMOS_PSP,
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//PMOS_PSP,
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NMOS_B3SOIFD,
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PMOS_B3SOIFD,
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NMOS_B3SOIDD,
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PMOS_B3SOIDD,
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NMOS_B3SOIPD,
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PMOS_B3SOIPD,
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//NMOS_STAG,
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//PMOS_STAG,
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NMOS_HISIM2,
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PMOS_HISIM2,
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NMOS_HISIMHV1,
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PMOS_HISIMHV1,
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NMOS_HISIMHV2,
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PMOS_HISIMHV2,
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V,
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V_SIN,
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V_PULSE,
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V_EXP,
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V_AM,
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V_SFFM,
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V_VCL,
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V_CCL,
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V_PWL,
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V_WHITENOISE,
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V_PINKNOISE,
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V_BURSTNOISE,
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V_RANDUNIFORM,
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V_RANDGAUSSIAN,
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V_RANDEXP,
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V_RANDPOISSON,
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V_BEHAVIORAL,
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I,
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I_SIN,
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I_PULSE,
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I_EXP,
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I_AM,
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I_SFFM,
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I_VCL,
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I_CCL,
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I_PWL,
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I_WHITENOISE,
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I_PINKNOISE,
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I_BURSTNOISE,
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I_RANDUNIFORM,
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I_RANDGAUSSIAN,
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I_RANDEXP,
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I_RANDPOISSON,
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I_BEHAVIORAL,
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SUBCKT,
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XSPICE,
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KIBIS_DEVICE,
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KIBIS_DRIVER_DC,
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KIBIS_DRIVER_RECT,
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KIBIS_DRIVER_PRBS,
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RAWSPICE
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)
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struct INFO
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{
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DEVICE_T deviceType;
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std::string fieldValue;
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std::string description;
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};
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struct SPICE_INFO
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{
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std::string itemType;
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std::string modelType = "";
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std::string functionName = "";
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std::string level = "";
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bool isDefaultLevel = false;
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bool hasExpression = false;
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std::string version = "";
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};
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struct PIN
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{
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const std::string name;
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std::string symbolPinNumber;
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static constexpr auto NOT_CONNECTED = -1;
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};
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struct PARAM
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{
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// MS Windows compilers complain about the names IN and OUT, so we prefix them.
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enum DIR
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{
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DIR_IN,
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DIR_OUT,
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DIR_INOUT
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};
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enum class CATEGORY
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{
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PRINCIPAL,
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GEOMETRY,
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AC,
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DC,
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CAPACITANCE,
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TEMPERATURE,
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NOISE,
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DISTRIBUTED_QUANTITIES,
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LIMITING_VALUES,
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S_PARAM,
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ADVANCED,
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FLAGS,
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WAVEFORM,
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INITIAL_CONDITIONS,
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SUPERFLUOUS
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};
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struct INFO
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{
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INFO( const std::string& aName = "",
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unsigned aId = 0,
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DIR aDir = DIR_INOUT,
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SIM_VALUE::TYPE aType = SIM_VALUE::TYPE_FLOAT,
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const std::string& aUnit = "",
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CATEGORY aCategory = CATEGORY::PRINCIPAL,
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const std::string& aDefaultValue = "",
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const std::string& legacy_unused_value = "",
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const std::string& aDescription = "",
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bool aIsSpiceInstanceParam = false,
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bool aIsInstanceParam = false,
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const std::string& aSpiceModelName = "",
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const std::string& aSpiceInstanceName = "",
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std::vector<std::string> aEnumValues = {} ) :
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name( aName ),
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id( aId ),
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dir( aDir ),
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type( aType ),
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unit( aUnit ),
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category( aCategory ),
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defaultValue( aDefaultValue ),
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description( aDescription ),
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isSpiceInstanceParam( aIsSpiceInstanceParam ),
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isInstanceParam( aIsInstanceParam ),
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spiceModelName( aSpiceModelName ),
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spiceInstanceName( aSpiceInstanceName ),
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enumValues( std::move( aEnumValues ) )
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{}
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bool Matches( const std::string& aName ) const;
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std::string name;
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unsigned id;
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DIR dir;
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SIM_VALUE::TYPE type;
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std::string unit;
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CATEGORY category;
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std::string defaultValue;
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std::string description;
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bool isSpiceInstanceParam;
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bool isInstanceParam;
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std::string spiceModelName;
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std::string spiceInstanceName;
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std::vector<std::string> enumValues;
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};
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PARAM( const INFO& aInfo ) :
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info( aInfo )
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{}
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bool Matches( const std::string& aName ) const
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{
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return info.Matches( aName );
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}
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std::string value;
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const INFO& info;
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};
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static DEVICE_INFO DeviceInfo( DEVICE_T aDeviceType );
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static INFO TypeInfo( TYPE aType );
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static SPICE_INFO SpiceInfo( TYPE aType );
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template <typename T>
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static TYPE ReadTypeFromFields( const std::vector<T>& aFields, REPORTER& aReporter );
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static std::unique_ptr<SIM_MODEL> Create( TYPE aType, const std::vector<LIB_PIN*>& aPins,
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REPORTER& aReporter );
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static std::unique_ptr<SIM_MODEL> Create( const SIM_MODEL* aBaseModel,
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const std::vector<LIB_PIN*>& aPins,
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REPORTER& aReporter );
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template <typename T>
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static std::unique_ptr<SIM_MODEL> Create( const SIM_MODEL* aBaseModel,
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const std::vector<LIB_PIN*>& aPins,
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const std::vector<T>& aFields,
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REPORTER& aReporter );
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template <typename T>
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static std::unique_ptr<SIM_MODEL> Create( const std::vector<T>& aFields,
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const std::vector<LIB_PIN*>& aPins,
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bool aResolved, REPORTER& aReporter );
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template <typename T>
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static std::string GetFieldValue( const std::vector<T>* aFields, const wxString& aFieldName,
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bool aResolve = true );
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template <typename T>
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static void SetFieldValue( std::vector<T>& aFields, const wxString& aFieldName,
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const std::string& aValue );
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const SPICE_GENERATOR& SpiceGenerator() const { return *m_spiceGenerator; }
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const SIM_MODEL_SERIALIZER& Serializer() const { return *m_serializer; }
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// Move semantics.
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// Rule of five.
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virtual ~SIM_MODEL(); // = default in implementation file.
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SIM_MODEL() = delete;
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SIM_MODEL( const SIM_MODEL& aOther ) = delete;
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SIM_MODEL( SIM_MODEL&& aOther ) = default;
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SIM_MODEL& operator=(SIM_MODEL&& aOther ) = delete;
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template <typename T>
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void ReadDataFields( const std::vector<T>* aFields, const std::vector<LIB_PIN*>& aPins );
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template <typename T>
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void WriteFields( std::vector<T>& aFields ) const;
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SPICE_INFO GetSpiceInfo() const { return SpiceInfo( GetType() ); }
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void AddPin( const PIN& aPin );
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void ClearPins();
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int FindModelPinIndex( const std::string& aSymbolPinNumber );
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void AddParam( const PARAM::INFO& aInfo );
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DEVICE_INFO GetDeviceInfo() const { return DeviceInfo( GetDeviceType() ); }
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INFO GetTypeInfo() const { return TypeInfo( GetType() ); }
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DEVICE_T GetDeviceType() const { return GetTypeInfo().deviceType; }
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TYPE GetType() const { return m_type; }
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const SIM_MODEL* GetBaseModel() const { return m_baseModel; }
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virtual void SetBaseModel( const SIM_MODEL& aBaseModel );
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virtual std::vector<std::string> GetPinNames() const { return {}; }
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int GetPinCount() const { return static_cast<int>( m_pins.size() ); }
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const PIN& GetPin( unsigned aIndex ) const { return m_pins.at( aIndex ); }
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std::vector<std::reference_wrapper<const PIN>> GetPins() const;
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void SetPinSymbolPinNumber( int aPinIndex, const std::string& aSymbolPinNumber );
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virtual void SetPinSymbolPinNumber( const std::string& aPinName,
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const std::string& aSymbolPinNumber );
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int GetParamCount() const { return static_cast<int>( m_params.size() ); }
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virtual const PARAM& GetParam( unsigned aParamIndex ) const; // Return base parameter unless it's overridden.
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virtual const PARAM* GetTunerParam() const { return nullptr; }
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const PARAM* FindParam( const std::string& aParamName ) const;
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std::vector<std::reference_wrapper<const PARAM>> GetParams() const;
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const PARAM& GetParamOverride( unsigned aParamIndex ) const; // Return the actual parameter.
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const PARAM& GetBaseParam( unsigned aParamIndex ) const; // Always return base parameter if it exists.
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void SetParamValue( int aParamIndex, const std::string& aValue,
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SIM_VALUE::NOTATION aNotation = SIM_VALUE::NOTATION::SI );
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void SetParamValue( const std::string& aParamName, const std::string& aValue,
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SIM_VALUE::NOTATION aNotation = SIM_VALUE::NOTATION::SI );
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// Can modifying a model parameter also modify other parameters?
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virtual bool HasAutofill() const { return false; }
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virtual bool HasPrimaryValue() const { return false; }
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void SetIsEnabled( bool aIsEnabled ) { m_isEnabled = aIsEnabled; }
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bool IsEnabled() const { return m_isEnabled; }
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void SetIsStoredInValue( bool aIsStoredInValue )
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{
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if( HasPrimaryValue() )
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m_isStoredInValue = aIsStoredInValue;
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}
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bool IsStoredInValue() const { return m_isStoredInValue; }
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virtual void SwitchSingleEndedDiff( bool aDiff ) { };
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template <class T_symbol, class T_field>
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static bool InferSimModel( T_symbol& aSymbol, std::vector<T_field>* aFields, bool aResolve,
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SIM_VALUE_GRAMMAR::NOTATION aNotation, wxString* aDeviceType,
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wxString* aModelType, wxString* aModelParams, wxString* aPinMap );
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template <class T_symbol, class T_field>
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static void MigrateSimModel( T_symbol& aSymbol, const PROJECT* aProject );
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protected:
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static std::unique_ptr<SIM_MODEL> Create( TYPE aType );
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SIM_MODEL( TYPE aType );
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SIM_MODEL( TYPE aType, std::unique_ptr<SPICE_GENERATOR> aSpiceGenerator );
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SIM_MODEL( TYPE aType, std::unique_ptr<SPICE_GENERATOR> aSpiceGenerator,
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std::unique_ptr<SIM_MODEL_SERIALIZER> aSerializer );
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void createPins( const std::vector<LIB_PIN*>& aSymbolPins );
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virtual int doFindParam( const std::string& aParamName ) const;
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virtual void doSetParamValue( int aParamIndex, const std::string& aValue );
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private:
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template <typename T>
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void doReadDataFields( const std::vector<T>* aFields, const std::vector<LIB_PIN*>& aPins );
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template <typename T>
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void doWriteFields( std::vector<T>& aFields ) const;
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virtual bool requiresSpiceModelLine( const SPICE_ITEM& aItem ) const;
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protected:
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std::vector<PARAM> m_params;
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std::vector<PIN> m_pins;
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const SIM_MODEL* m_baseModel;
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std::unique_ptr<SIM_MODEL_SERIALIZER> m_serializer;
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private:
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std::unique_ptr<SPICE_GENERATOR> m_spiceGenerator;
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const TYPE m_type;
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bool m_isEnabled;
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bool m_isStoredInValue;
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};
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#endif // SIM_MODEL_H
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