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Init_Load_Parameter.cpp
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638 lines (575 loc) · 51.4 KB
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#include "GAMER.h"
#include "ReadPara.h"
//-------------------------------------------------------------------------------------------------------
// Function : Init_Load_Parameter
// Description : Load the runtime parameters
//
// Note : Currently the filename is fixed to "Input__Parameter"
//-------------------------------------------------------------------------------------------------------
void Init_Load_Parameter()
{
if ( MPI_Rank == 0 ) Aux_Message( stdout, "%s ...\n", __FUNCTION__ );
const char FileName[] = "Input__Parameter";
ReadPara_t *ReadPara = new ReadPara_t;
// add parameters in the following format:
// --> note that VARIABLE, DEFAULT, MIN, and MAX must have the same data type
// --> some handy constants (e.g., NoMin_int, Eps_float, ...) are defined in "ReadPara.h"
// ********************************************************************************************************************************
// ReadPara->Add( "KEY_IN_THE_INPUT_TABLE", &VARIABLE, DEFAULT, MIN, MAX );
// ********************************************************************************************************************************
// simulation scale
ReadPara->Add( "BOX_SIZE", &BOX_SIZE, -1.0, Eps_double, NoMax_double );
ReadPara->Add( "NX0_TOT_X", &NX0_TOT[0], -1, PS2, NoMax_int );
ReadPara->Add( "NX0_TOT_Y", &NX0_TOT[1], -1, PS2, NoMax_int );
ReadPara->Add( "NX0_TOT_Z", &NX0_TOT[2], -1, PS2, NoMax_int );
// do not check MPI_NRANK_X/Y/Z since they are deprecated
ReadPara->Add( "MPI_NRANK_X", &MPI_NRank_X[0], -1, NoMin_int, NoMax_int );
ReadPara->Add( "MPI_NRANK_Y", &MPI_NRank_X[1], -1, NoMin_int, NoMax_int );
ReadPara->Add( "MPI_NRANK_Z", &MPI_NRank_X[2], -1, NoMin_int, NoMax_int );
// do not check OMP_NTHREAD since it may be reset by Init_ResetParameter()
ReadPara->Add( "OMP_NTHREAD", &OMP_NTHREAD, -1, NoMin_int, NoMax_int );
// do not check END_T and END_STEP since they may be reset by test problems or restart
ReadPara->Add( "END_T", &END_T, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "END_STEP", &END_STEP, -1L, NoMin_long, NoMax_long );
// test problems
ReadPara->Add( "TESTPROB_ID", &TESTPROB_ID, 0, 0, NoMax_int );
// code units
ReadPara->Add( "OPT__UNIT", &OPT__UNIT, false, Useless_bool, Useless_bool );
// do not check units since they are validated by Init_Unit()
ReadPara->Add( "UNIT_L", &UNIT_L, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "UNIT_M", &UNIT_M, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "UNIT_T", &UNIT_T, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "UNIT_V", &UNIT_V, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "UNIT_D", &UNIT_D, -1.0, NoMin_double, NoMax_double );
// boundary conditions
ReadPara->Add( "OPT__BC_FLU_XM", &OPT__BC_FLU[0], -1, 1, 5 );
ReadPara->Add( "OPT__BC_FLU_XP", &OPT__BC_FLU[1], -1, 1, 5 );
ReadPara->Add( "OPT__BC_FLU_YM", &OPT__BC_FLU[2], -1, 1, 5 );
ReadPara->Add( "OPT__BC_FLU_YP", &OPT__BC_FLU[3], -1, 1, 5 );
ReadPara->Add( "OPT__BC_FLU_ZM", &OPT__BC_FLU[4], -1, 1, 5 );
ReadPara->Add( "OPT__BC_FLU_ZP", &OPT__BC_FLU[5], -1, 1, 5 );
# ifdef GRAVITY
ReadPara->Add( "OPT__BC_POT", &OPT__BC_POT, -1, 1, 2 );
// do not check GFUNC_COEFF0 since it may be reset by Init_ResetParameter()
ReadPara->Add( "GFUNC_COEFF0", &GFUNC_COEFF0, -1.0, NoMin_double, NoMax_double );
# endif
// particle
# ifdef PARTICLE
// do no check PAR_NPAR since it may be reset by restart
ReadPara->Add( "PAR_NPAR", &amr->Par->NPar_Active_AllRank, -1L, NoMin_long, NoMax_long );
ReadPara->Add( "PAR_INIT", &amr->Par->Init, -1, 1, 3 );
ReadPara->Add( "PAR_IC_FORMAT", &amr->Par->ParICFormat, PAR_IC_FORMAT_ATT_ID, 1, 2 );
ReadPara->Add( "PAR_IC_FLOAT8", &PAR_IC_FLOAT8, -1, NoMin_int, 1 );
ReadPara->Add( "PAR_IC_INT8", &PAR_IC_INT8, -1, NoMin_int, 1 );
ReadPara->Add( "PAR_IC_MASS", &amr->Par->ParICMass, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "PAR_IC_TYPE", &amr->Par->ParICType, -1, NoMin_int, PAR_NTYPE-1 );
ReadPara->Add( "PAR_INTERP", &amr->Par->Interp, PAR_INTERP_CIC, 1, 3 );
ReadPara->Add( "PAR_INTEG", &amr->Par->Integ, PAR_INTEG_KDK, 1, 2 );
ReadPara->Add( "PAR_TR_INTERP", &amr->Par->InterpTracer, PAR_INTERP_TSC, 1, 3 );
ReadPara->Add( "PAR_TR_INTEG", &amr->Par->IntegTracer, TRACER_INTEG_RK2, 1, 2 );
ReadPara->Add( "PAR_IMPROVE_ACC", &amr->Par->ImproveAcc, true, Useless_bool, Useless_bool );
ReadPara->Add( "PAR_PREDICT_POS", &amr->Par->PredictPos, true, Useless_bool, Useless_bool );
// do not check PAR_REMOVE_CELL since it may be reset by Init_ResetParameter()
ReadPara->Add( "PAR_REMOVE_CELL", &amr->Par->RemoveCell, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "OPT__FREEZE_PAR", &OPT__FREEZE_PAR, false, Useless_bool, Useless_bool );
ReadPara->Add( "PAR_TR_VEL_CORR", &amr->Par->TracerVelCorr, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__PAR_INIT_CHECK", &OPT__PAR_INIT_CHECK, true, Useless_bool, Useless_bool );
# endif // #ifdef PARTICLE
// cosmology
# ifdef COMOVING
ReadPara->Add( "A_INIT", &A_INIT, -1.0, Eps_double, NoMax_double );
ReadPara->Add( "OMEGA_M0", &OMEGA_M0, -1.0, 0.0, 1.0 );
ReadPara->Add( "HUBBLE0", &HUBBLE0, -1.0, Eps_double, 1.0 );
# endif
// time-step
ReadPara->Add( "DT__MAX", &DT__MAX, -1.0, NoMin_double, NoMax_double );
// do not check DT__FLUID/FLUID_INIT/GRAVITY/PARVEL_MAX/HYBRID_* since they may be reset by Init_ResetParameter()
ReadPara->Add( "DT__FLUID", &DT__FLUID, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "DT__FLUID_INIT", &DT__FLUID_INIT, -1.0, NoMin_double, NoMax_double );
# ifdef SRHD
ReadPara->Add( "DT__SPEED_OF_LIGHT", &DT__SPEED_OF_LIGHT, false, Useless_bool, Useless_bool );
# endif
# ifdef GRAVITY
ReadPara->Add( "DT__GRAVITY", &DT__GRAVITY, -1.0, NoMin_double, NoMax_double );
# endif
# if ( MODEL == ELBDM )
ReadPara->Add( "DT__PHASE", &DT__PHASE, 0.0, 0.0, NoMax_double );
# if ( ELBDM_SCHEME == ELBDM_HYBRID )
ReadPara->Add( "DT__HYBRID_CFL", &DT__HYBRID_CFL, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "DT__HYBRID_CFL_INIT", &DT__HYBRID_CFL_INIT, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "DT__HYBRID_VELOCITY", &DT__HYBRID_VELOCITY, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "DT__HYBRID_VELOCITY_INIT", &DT__HYBRID_VELOCITY_INIT, -1.0, NoMin_double, NoMax_double );
# endif
# endif // #if ( MODEL == ELBDM )
# ifdef PARTICLE
ReadPara->Add( "DT__PARVEL", &DT__PARVEL, 0.5, 0.0, NoMax_double );
ReadPara->Add( "DT__PARVEL_MAX", &DT__PARVEL_MAX, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "DT__PARACC", &DT__PARACC, 0.5, 0.0, NoMax_double );
# endif
# ifdef CR_DIFFUSION
ReadPara->Add( "DT__CR_DIFFUSION", &DT__CR_DIFFUSION, 3.0e-1, 0.0, NoMax_double );
# endif
# ifdef COMOVING
ReadPara->Add( "DT__MAX_DELTA_A", &DT__MAX_DELTA_A, 0.01, 0.0, NoMax_double );
# endif
ReadPara->Add( "DT__SYNC_PARENT_LV", &DT__SYNC_PARENT_LV, 0.1, 0.0, NoMax_double );
ReadPara->Add( "DT__SYNC_CHILDREN_LV", &DT__SYNC_CHILDREN_LV, 0.1, 0.0, 1.0 );
ReadPara->Add( "OPT__DT_USER", &OPT__DT_USER, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__DT_LEVEL", &OPT__DT_LEVEL, 3, 1, 3 );
ReadPara->Add( "OPT__RECORD_DT", &OPT__RECORD_DT, true, Useless_bool, Useless_bool );
ReadPara->Add( "AUTO_REDUCE_DT", &AUTO_REDUCE_DT, true, Useless_bool, Useless_bool );
ReadPara->Add( "AUTO_REDUCE_DT_FACTOR", &AUTO_REDUCE_DT_FACTOR, 1.0, Eps_double, 1.0 );
ReadPara->Add( "AUTO_REDUCE_DT_FACTOR_MIN", &AUTO_REDUCE_DT_FACTOR_MIN, 0.1, 0.0, 1.0 );
# if ( MODEL == HYDRO )
ReadPara->Add( "AUTO_REDUCE_MINMOD_FACTOR", &AUTO_REDUCE_MINMOD_FACTOR, 0.8, Eps_double, 1.0 );
ReadPara->Add( "AUTO_REDUCE_MINMOD_MIN", &AUTO_REDUCE_MINMOD_MIN, 1.0e-2, 0.0, NoMax_double );
# endif
ReadPara->Add( "AUTO_REDUCE_INT_MONO_FACTOR",&AUTO_REDUCE_INT_MONO_FACTOR, 0.8, Eps_double, 1.0 );
ReadPara->Add( "AUTO_REDUCE_INT_MONO_MIN", &AUTO_REDUCE_INT_MONO_MIN, 1.0e-2, 0.0, NoMax_double );
// grid refinement
ReadPara->Add( "REGRID_COUNT", ®RID_COUNT, 4, 1, NoMax_int );
ReadPara->Add( "REFINE_NLEVEL", &REFINE_NLEVEL, 1, 1, NoMax_int );
ReadPara->Add( "FLAG_BUFFER_SIZE", &FLAG_BUFFER_SIZE, -1, NoMin_int, PS1 );
ReadPara->Add( "FLAG_BUFFER_SIZE_MAXM1_LV", &FLAG_BUFFER_SIZE_MAXM1_LV, -1, NoMin_int, PS1 );
ReadPara->Add( "FLAG_BUFFER_SIZE_MAXM2_LV", &FLAG_BUFFER_SIZE_MAXM2_LV, -1, NoMin_int, PS1 );
ReadPara->Add( "MAX_LEVEL", &MAX_LEVEL, TOP_LEVEL, 0, TOP_LEVEL );
ReadPara->Add( "OPT__FLAG_RHO", &OPT__FLAG_RHO, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__FLAG_RHO_GRADIENT", &OPT__FLAG_RHO_GRADIENT, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__FLAG_LOHNER_DENS", &OPT__FLAG_LOHNER_DENS, false, Useless_bool, Useless_bool );
# if ( MODEL == HYDRO )
ReadPara->Add( "OPT__FLAG_PRES_GRADIENT", &OPT__FLAG_PRES_GRADIENT, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__FLAG_VORTICITY", &OPT__FLAG_VORTICITY, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__FLAG_JEANS", &OPT__FLAG_JEANS, false, Useless_bool, Useless_bool );
# ifdef SRHD
ReadPara->Add( "OPT__FLAG_LRTZ_GRADIENT", &OPT__FLAG_LRTZ_GRADIENT, false, Useless_bool, Useless_bool );
# endif
# ifdef MHD
ReadPara->Add( "OPT__FLAG_CURRENT", &OPT__FLAG_CURRENT, false, Useless_bool, Useless_bool );
# endif
# ifdef COSMIC_RAY
ReadPara->Add( "OPT__FLAG_CRAY", &OPT__FLAG_CRAY, false, Useless_bool, Useless_bool );
# endif
ReadPara->Add( "OPT__FLAG_LOHNER_ENGY", &OPT__FLAG_LOHNER_ENGY, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__FLAG_LOHNER_PRES", &OPT__FLAG_LOHNER_PRES, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__FLAG_LOHNER_TEMP", &OPT__FLAG_LOHNER_TEMP, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__FLAG_LOHNER_ENTR", &OPT__FLAG_LOHNER_ENTR, false, Useless_bool, Useless_bool );
# ifdef COSMIC_RAY
ReadPara->Add( "OPT__FLAG_LOHNER_CRAY", &OPT__FLAG_LOHNER_CRAY, false, Useless_bool, Useless_bool );
# endif
# endif
# if ( MODEL == ELBDM )
ReadPara->Add( "OPT__FLAG_ENGY_DENSITY", &OPT__FLAG_ENGY_DENSITY, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__FLAG_SPECTRAL", &OPT__FLAG_SPECTRAL, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__FLAG_SPECTRAL_N", &OPT__FLAG_SPECTRAL_N, 2, 1, 14 );
# if ( ELBDM_SCHEME == ELBDM_HYBRID )
ReadPara->Add( "OPT__FLAG_INTERFERENCE", &OPT__FLAG_INTERFERENCE, false, Useless_bool, Useless_bool );
# endif
# endif // #if ( MODEL == ELBDM )
ReadPara->Add( "OPT__FLAG_LOHNER_FORM", &OPT__FLAG_LOHNER_FORM, LOHNER_FLASH2, 1, 4 );
ReadPara->Add( "OPT__FLAG_USER", &OPT__FLAG_USER, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__FLAG_USER_NUM", &OPT__FLAG_USER_NUM, 1, 1, NoMax_int );
ReadPara->Add( "OPT__FLAG_REGION", &OPT__FLAG_REGION, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__FLAG_ANGULAR", &OPT__FLAG_ANGULAR, false, Useless_bool, Useless_bool );
ReadPara->Add( "FLAG_ANGULAR_CEN_X", &FLAG_ANGULAR_CEN_X, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "FLAG_ANGULAR_CEN_Y", &FLAG_ANGULAR_CEN_Y, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "FLAG_ANGULAR_CEN_Z", &FLAG_ANGULAR_CEN_Z, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "OPT__FLAG_RADIAL", &OPT__FLAG_RADIAL, false, Useless_bool, Useless_bool );
ReadPara->Add( "FLAG_RADIAL_CEN_X", &FLAG_RADIAL_CEN_X, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "FLAG_RADIAL_CEN_Y", &FLAG_RADIAL_CEN_Y, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "FLAG_RADIAL_CEN_Z", &FLAG_RADIAL_CEN_Z, -1.0, NoMin_double, NoMax_double );
# ifdef PARTICLE
ReadPara->Add( "OPT__FLAG_NPAR_PATCH", &OPT__FLAG_NPAR_PATCH, 0, 0, 2 );
ReadPara->Add( "OPT__FLAG_NPAR_CELL", &OPT__FLAG_NPAR_CELL, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__FLAG_PAR_MASS_CELL", &OPT__FLAG_PAR_MASS_CELL, false, Useless_bool, Useless_bool );
# endif
ReadPara->Add( "OPT__NO_FLAG_NEAR_BOUNDARY", &OPT__NO_FLAG_NEAR_BOUNDARY, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__PATCH_COUNT", &OPT__PATCH_COUNT, 1, 0, 2 );
# ifdef PARTICLE
ReadPara->Add( "OPT__PARTICLE_COUNT", &OPT__PARTICLE_COUNT, 1, 0, 2 );
# endif
ReadPara->Add( "OPT__REUSE_MEMORY", &OPT__REUSE_MEMORY, 2, 0, 2 );
ReadPara->Add( "OPT__MEMORY_POOL", &OPT__MEMORY_POOL, false, Useless_bool, Useless_bool );
// load balance
# ifdef LOAD_BALANCE
ReadPara->Add( "LB_INPUT__WLI_MAX", &LB_INPUT__WLI_MAX, 0.1, 0.0, NoMax_double );
# ifdef PARTICLE
ReadPara->Add( "LB_INPUT__PAR_WEIGHT", &LB_INPUT__PAR_WEIGHT, 0.0, 0.0, NoMax_double );
# endif
ReadPara->Add( "OPT__RECORD_LOAD_BALANCE", &OPT__RECORD_LOAD_BALANCE, true, Useless_bool, Useless_bool );
// exchange father pathes for hybrid scheme with MPI
# if ( ELBDM_SCHEME == ELBDM_HYBRID )
ReadPara->Add( "OPT__LB_EXCHANGE_FATHER", &OPT__LB_EXCHANGE_FATHER, true, Useless_bool, Useless_bool );
# else
ReadPara->Add( "OPT__LB_EXCHANGE_FATHER", &OPT__LB_EXCHANGE_FATHER, false, Useless_bool, Useless_bool );
# endif // ELBDM_SCHEME
# endif // #ifdef LOAD_BALANCE
ReadPara->Add( "OPT__MINIMIZE_MPI_BARRIER", &OPT__MINIMIZE_MPI_BARRIER, false, Useless_bool, Useless_bool );
// source terms
ReadPara->Add( "SRC_DELEPTONIZATION", &SrcTerms.Deleptonization, false, Useless_bool, Useless_bool );
ReadPara->Add( "SRC_USER", &SrcTerms.User, false, Useless_bool, Useless_bool );
// do not check SRC_GPU_NPGROUP since it may be reset by either Init_ResetParameter() or CUAPI_SetMemSize()
ReadPara->Add( "SRC_GPU_NPGROUP", &SRC_GPU_NPGROUP, -1, NoMin_int, NoMax_int );
// Grackle
# ifdef SUPPORT_GRACKLE
ReadPara->Add( "GRACKLE_ACTIVATE", &GRACKLE_ACTIVATE, true, Useless_bool, Useless_bool );
ReadPara->Add( "GRACKLE_VERBOSE", &GRACKLE_VERBOSE, true, Useless_bool, Useless_bool );
ReadPara->Add( "GRACKLE_COOLING", &GRACKLE_COOLING, true, Useless_bool, Useless_bool );
ReadPara->Add( "GRACKLE_PRIMORDIAL", &GRACKLE_PRIMORDIAL, 0, 0, 3 );
ReadPara->Add( "GRACKLE_METAL", &GRACKLE_METAL, false, Useless_bool, Useless_bool );
ReadPara->Add( "GRACKLE_UV", &GRACKLE_UV, false, Useless_bool, Useless_bool );
ReadPara->Add( "GRACKLE_CMB_FLOOR", &GRACKLE_CMB_FLOOR, true, Useless_bool, Useless_bool );
ReadPara->Add( "GRACKLE_PE_HEATING", &GRACKLE_PE_HEATING, false, Useless_bool, Useless_bool );
ReadPara->Add( "GRACKLE_PE_HEATING_RATE", &GRACKLE_PE_HEATING_RATE, 8.5e-26, 0.0, NoMax_double );
ReadPara->Add( "GRACKLE_CLOUDY_TABLE", GRACKLE_CLOUDY_TABLE, NoDef_str, Useless_str, Useless_str );
ReadPara->Add( "GRACKLE_THREE_BODY_RATE", &GRACKLE_THREE_BODY_RATE, 0, 0, 5 );
ReadPara->Add( "GRACKLE_CIE_COOLING", &GRACKLE_CIE_COOLING, false, Useless_bool, Useless_bool );
ReadPara->Add( "GRACKLE_H2_OPA_APPROX", &GRACKLE_H2_OPA_APPROX, 0, 0, 1 );
// do not check CHE_GPU_NPGROUP since it may be reset by either Init_ResetParameter() or CUAPI_SetMemSize()
ReadPara->Add( "CHE_GPU_NPGROUP", &CHE_GPU_NPGROUP, -1, NoMin_int, NoMax_int );
# endif
// star formation
# ifdef STAR_FORMATION
ReadPara->Add( "SF_CREATE_STAR_SCHEME", &SF_CREATE_STAR_SCHEME, 0, 0, 1 );
ReadPara->Add( "SF_CREATE_STAR_RSEED", &SF_CREATE_STAR_RSEED, 123, 0, NoMax_int );
// do not check SF_CREATE_STAR_DET_RANDOM since its default depends on the makefile option BITWISE_REPRODUCIBILITY
ReadPara->Add( "SF_CREATE_STAR_DET_RANDOM", &SF_CREATE_STAR_DET_RANDOM, -1, NoMin_int, NoMax_int );
ReadPara->Add( "SF_CREATE_STAR_MIN_LEVEL", &SF_CREATE_STAR_MIN_LEVEL, 0, NoMin_int, TOP_LEVEL );
ReadPara->Add( "SF_CREATE_STAR_MIN_GAS_DENS", &SF_CREATE_STAR_MIN_GAS_DENS, 1.0e1, 0.0, NoMax_double );
ReadPara->Add( "SF_CREATE_STAR_MASS_EFF", &SF_CREATE_STAR_MASS_EFF, 1.0e-2, Eps_double, 1.0 );
ReadPara->Add( "SF_CREATE_STAR_MIN_STAR_MASS", &SF_CREATE_STAR_MIN_STAR_MASS, 0.0, 0.0, NoMax_double );
ReadPara->Add( "SF_CREATE_STAR_MAX_STAR_MFRAC", &SF_CREATE_STAR_MAX_STAR_MFRAC, 0.5, Eps_double, 1.0 );
# endif
// feedback
# ifdef FEEDBACK
ReadPara->Add( "FB_LEVEL", &FB_LEVEL, -1, NoMin_int, TOP_LEVEL );
ReadPara->Add( "FB_RSEED", &FB_RSEED, 456, 0, NoMax_int );
ReadPara->Add( "FB_SNE", &FB_SNE, false, Useless_bool, Useless_bool );
ReadPara->Add( "FB_USER", &FB_USER, false, Useless_bool, Useless_bool );
# endif
// cosmic ray
# ifdef COSMIC_RAY
ReadPara->Add( "GAMMA_CR", &GAMMA_CR, 4.0/3.0, 1.0, NoMax_double );
# endif
// microphysics
# ifdef CR_DIFFUSION
ReadPara->Add( "CR_DIFF_PARA", &CR_DIFF_PARA, 0.0, 0.0, NoMax_double );
ReadPara->Add( "CR_DIFF_PERP", &CR_DIFF_PERP, 0.0, 0.0, NoMax_double );
ReadPara->Add( "CR_DIFF_MIN_B", &CR_DIFF_MIN_B, 0.0, NoMin_double, NoMax_double );
# endif
// fluid solvers in HYDRO
# if ( MODEL == HYDRO )
# if ( EOS == EOS_GAMMA )
ReadPara->Add( "GAMMA", &GAMMA, 5.0/3.0, 1.0, NoMax_double );
# else
ReadPara->Add( "GAMMA", &GAMMA, __DBL_MAX__, NoMin_double, NoMax_double );
# endif
ReadPara->Add( "MOLECULAR_WEIGHT", &MOLECULAR_WEIGHT, 0.6, Eps_double, NoMax_double );
ReadPara->Add( "MU_NORM", &MU_NORM, -1.0, NoMin_double, NoMax_double );
# if ( EOS == EOS_ISOTHERMAL )
ReadPara->Add( "ISO_TEMP", &ISO_TEMP, -1.0, Eps_double, NoMax_double );
# else
ReadPara->Add( "ISO_TEMP", &ISO_TEMP, __DBL_MAX__, NoMin_double, NoMax_double );
# endif
ReadPara->Add( "MINMOD_COEFF", &MINMOD_COEFF, 1.5, 1.0, 2.0 );
ReadPara->Add( "MINMOD_MAX_ITER", &MINMOD_MAX_ITER, 0, 0, NoMax_int );
ReadPara->Add( "OPT__LR_LIMITER", &OPT__LR_LIMITER, LR_LIMITER_DEFAULT, -1, 7 );
ReadPara->Add( "OPT__1ST_FLUX_CORR", &OPT__1ST_FLUX_CORR, -1, NoMin_int, 2 );
# ifdef MHD
ReadPara->Add( "OPT__1ST_FLUX_CORR_SCHEME", &OPT__1ST_FLUX_CORR_SCHEME, RSOLVER_1ST_DEFAULT, NoMin_int, 4 );
# else
ReadPara->Add( "OPT__1ST_FLUX_CORR_SCHEME", &OPT__1ST_FLUX_CORR_SCHEME, RSOLVER_1ST_DEFAULT,-1, 3 );
# endif
# ifdef DUAL_ENERGY
ReadPara->Add( "DUAL_ENERGY_SWITCH", &DUAL_ENERGY_SWITCH, 2.0e-2, 0.0, NoMax_double );
# endif
# ifdef MHD
ReadPara->Add( "OPT__SAME_INTERFACE_B", &OPT__SAME_INTERFACE_B, -1, -1, 1 );
# endif
# endif // #if ( MODEL == HYDRO )
// fluid solver in ELBDM
# if ( MODEL == ELBDM )
ReadPara->Add( "ELBDM_MASS", &ELBDM_MASS, -1.0, Eps_double, NoMax_double );
// do not check ELBDM_PLANCK_CONST since it may be reset by Init_Unit()
ReadPara->Add( "ELBDM_PLANCK_CONST", &ELBDM_PLANCK_CONST, -1.0, NoMin_double, NoMax_double );
# ifdef QUARTIC_SELF_INTERACTION
ReadPara->Add( "ELBDM_LAMBDA", &ELBDM_LAMBDA, 1.0, NoMin_double, NoMax_double );
# endif
ReadPara->Add( "ELBDM_TAYLOR3_COEFF", &ELBDM_TAYLOR3_COEFF, 1.0/6.0, NoMin_double, NoMax_double );
ReadPara->Add( "ELBDM_TAYLOR3_AUTO", &ELBDM_TAYLOR3_AUTO, false, Useless_bool, Useless_bool );
ReadPara->Add( "ELBDM_REMOVE_MOTION_CM", &ELBDM_REMOVE_MOTION_CM, ELBDM_REMOVE_MOTION_CM_NONE, 0, 2 );
ReadPara->Add( "ELBDM_BASE_SPECTRAL", &ELBDM_BASE_SPECTRAL, false, Useless_bool, Useless_bool );
# if ( ELBDM_SCHEME == ELBDM_HYBRID )
ReadPara->Add( "ELBDM_MATCH_PHASE", &ELBDM_MATCH_PHASE, true, Useless_bool, Useless_bool );
ReadPara->Add( "ELBDM_FIRST_WAVE_LEVEL", &ELBDM_FIRST_WAVE_LEVEL, -1, 1, NoMax_int );
# endif
# endif // #if ( MODEL == ELBDM )
// fluid solvers in all models
// do not check FLU_GPU_NPGROUP and GPU_NSTREAM since they may be reset by either Init_ResetParameter() or CUAPI_SetMemSize()
ReadPara->Add( "FLU_GPU_NPGROUP", &FLU_GPU_NPGROUP, -1, NoMin_int, NoMax_int );
ReadPara->Add( "GPU_NSTREAM", &GPU_NSTREAM, -1, NoMin_int, NoMax_int );
# if ( MODEL == ELBDM && ELBDM_SCHEME != ELBDM_HYBRID && WAVE_SCHEME == WAVE_GRAMFE )
ReadPara->Add( "OPT__FIXUP_FLUX", &OPT__FIXUP_FLUX, false, Useless_bool, Useless_bool );
# else
ReadPara->Add( "OPT__FIXUP_FLUX", &OPT__FIXUP_FLUX, true, Useless_bool, Useless_bool );
# endif
# ifdef MHD
ReadPara->Add( "OPT__FIXUP_ELECTRIC", &OPT__FIXUP_ELECTRIC, true, Useless_bool, Useless_bool );
# endif
ReadPara->Add( "OPT__FIXUP_RESTRICT", &OPT__FIXUP_RESTRICT, true, Useless_bool, Useless_bool );
// do not check OPT__CORR_AFTER_ALL_SYNC since it may be reset by Init_ResetParameter()
ReadPara->Add( "OPT__CORR_AFTER_ALL_SYNC", &OPT__CORR_AFTER_ALL_SYNC, -1, NoMin_int, NoMax_int );
ReadPara->Add( "OPT__NORMALIZE_PASSIVE", &OPT__NORMALIZE_PASSIVE, true, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__INT_FRAC_PASSIVE_LR", &OPT__INT_FRAC_PASSIVE_LR, true, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__OVERLAP_MPI", &OPT__OVERLAP_MPI, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__RESET_FLUID", &OPT__RESET_FLUID, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__RESET_FLUID_INIT", &OPT__RESET_FLUID_INIT, -1, NoMin_int, NoMax_int );
ReadPara->Add( "OPT__FREEZE_FLUID", &OPT__FREEZE_FLUID, false, Useless_bool, Useless_bool );
# if ( MODEL == HYDRO )
ReadPara->Add( "OPT__CHECK_PRES_AFTER_FLU", &OPT__CHECK_PRES_AFTER_FLU, -1, NoMin_int, 1 );
ReadPara->Add( "OPT__LAST_RESORT_FLOOR", &OPT__LAST_RESORT_FLOOR, true, Useless_bool, Useless_bool );
# endif
# if ( MODEL == HYDRO || MODEL == ELBDM )
ReadPara->Add( "MIN_DENS", &MIN_DENS, 0.0, 0.0, NoMax_double );
# endif
# if ( MODEL == HYDRO )
ReadPara->Add( "MIN_PRES", &MIN_PRES, 0.0, 0.0, NoMax_double );
ReadPara->Add( "MIN_EINT", &MIN_EINT, 0.0, 0.0, NoMax_double );
ReadPara->Add( "MIN_TEMP", &MIN_TEMP, 0.0, 0.0, NoMax_double );
ReadPara->Add( "MIN_ENTR", &MIN_ENTR, 0.0, 0.0, NoMax_double );
ReadPara->Add( "JEANS_MIN_PRES", &JEANS_MIN_PRES, false, Useless_bool, Useless_bool );
ReadPara->Add( "JEANS_MIN_PRES_LEVEL", &JEANS_MIN_PRES_LEVEL, -1, NoMin_int, NLEVEL-1 );
ReadPara->Add( "JEANS_MIN_PRES_NCELL", &JEANS_MIN_PRES_NCELL, 4, 1, NoMax_int );
# endif
// self-gravity
# ifdef GRAVITY
// do not check NEWTON_G since it may be reset by Init_Unit()
ReadPara->Add( "NEWTON_G", &NEWTON_G, -1.0, NoMin_double, NoMax_double );
// do not check SOR_XXX since they may be reset by Init_Set_Default_SOR_Parameter()
ReadPara->Add( "SOR_OMEGA", &SOR_OMEGA, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "SOR_MAX_ITER", &SOR_MAX_ITER, -1, NoMin_int, NoMax_int );
ReadPara->Add( "SOR_MIN_ITER", &SOR_MIN_ITER, -1, NoMin_int, NoMax_int );
// do not check MG_XXX since they may be reset by Init_Set_Default_MG_Parameter()
ReadPara->Add( "MG_MAX_ITER", &MG_MAX_ITER, -1, NoMin_int, NoMax_int );
ReadPara->Add( "MG_NPRE_SMOOTH", &MG_NPRE_SMOOTH, -1, NoMin_int, NoMax_int );
ReadPara->Add( "MG_NPOST_SMOOTH", &MG_NPOST_SMOOTH, -1, NoMin_int, NoMax_int );
ReadPara->Add( "MG_TOLERATED_ERROR", &MG_TOLERATED_ERROR, -1.0, NoMin_double, NoMax_double );
// do not check POT_GPU_NPGROUP since it may be reset by either Init_ResetParameter() or CUAPI_SetMemSize()
ReadPara->Add( "POT_GPU_NPGROUP", &POT_GPU_NPGROUP, -1, NoMin_int, NoMax_int );
ReadPara->Add( "OPT__GRA_P5_GRADIENT", &OPT__GRA_P5_GRADIENT, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__SELF_GRAVITY", &OPT__SELF_GRAVITY, true, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__EXT_ACC", &OPT__EXT_ACC, 0, 0, 1 );
ReadPara->Add( "OPT__EXT_POT", &OPT__EXT_POT, 0, 0, 2 );
// do not check the parameters of external potential table here --> do it in Init_LoadExtPotTable()
ReadPara->Add( "EXT_POT_TABLE_NAME", EXT_POT_TABLE_NAME, NoDef_str, Useless_str, Useless_str );
ReadPara->Add( "EXT_POT_TABLE_NPOINT_X", &EXT_POT_TABLE_NPOINT[0], -1, NoMin_int, NoMax_int );
ReadPara->Add( "EXT_POT_TABLE_NPOINT_Y", &EXT_POT_TABLE_NPOINT[1], -1, NoMin_int, NoMax_int );
ReadPara->Add( "EXT_POT_TABLE_NPOINT_Z", &EXT_POT_TABLE_NPOINT[2], -1, NoMin_int, NoMax_int );
ReadPara->Add( "EXT_POT_TABLE_DH_X", &EXT_POT_TABLE_DH[0], -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "EXT_POT_TABLE_DH_Y", &EXT_POT_TABLE_DH[1], -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "EXT_POT_TABLE_DH_Z", &EXT_POT_TABLE_DH[2], -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "EXT_POT_TABLE_EDGEL_X", &EXT_POT_TABLE_EDGEL[0], NoDef_double, NoMin_double, NoMax_double );
ReadPara->Add( "EXT_POT_TABLE_EDGEL_Y", &EXT_POT_TABLE_EDGEL[1], NoDef_double, NoMin_double, NoMax_double );
ReadPara->Add( "EXT_POT_TABLE_EDGEL_Z", &EXT_POT_TABLE_EDGEL[2], NoDef_double, NoMin_double, NoMax_double );
// fix EXT_POT_TABLE_FLOAT8 to -1 for now since this option is not supported yet
ReadPara->Add( "EXT_POT_TABLE_FLOAT8", &EXT_POT_TABLE_FLOAT8, -1, -1, -1 );
ReadPara->Add( "OPT__GRAVITY_EXTRA_MASS", &OPT__GRAVITY_EXTRA_MASS, false, Useless_bool, Useless_bool );
# endif // #ifdef GRAVITY
// initialization
ReadPara->Add( "OPT__INIT", &OPT__INIT, -1, 1, 3 );
ReadPara->Add( "RESTART_LOAD_NRANK", &RESTART_LOAD_NRANK, 1, 1, NoMax_int );
ReadPara->Add( "OPT__RESTART_RESET", &OPT__RESTART_RESET, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__UM_IC_LEVEL", &OPT__UM_IC_LEVEL, 0, 0, TOP_LEVEL );
ReadPara->Add( "OPT__UM_IC_NLEVEL", &OPT__UM_IC_NLEVEL, 1, 1, NoMax_int );
// do not check OPT__UM_IC_NVAR since it depends on OPT__INIT and MODEL
// --> also, we do not load the density field for ELBDM
# if ( MODEL == ELBDM )
ReadPara->Add( "OPT__UM_IC_NVAR", &OPT__UM_IC_NVAR, -1, NoMin_int, NCOMP_TOTAL-1 );
# else
ReadPara->Add( "OPT__UM_IC_NVAR", &OPT__UM_IC_NVAR, -1, NoMin_int, NCOMP_TOTAL );
# endif
ReadPara->Add( "OPT__UM_IC_FORMAT", &OPT__UM_IC_FORMAT, UM_IC_FORMAT_VZYX, 1, 2 );
ReadPara->Add( "OPT__UM_IC_FLOAT8", &OPT__UM_IC_FLOAT8, -1, NoMin_int, 1 );
ReadPara->Add( "OPT__UM_IC_DOWNGRADE", &OPT__UM_IC_DOWNGRADE, true, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__UM_IC_REFINE", &OPT__UM_IC_REFINE, true, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__UM_IC_LOAD_NRANK", &OPT__UM_IC_LOAD_NRANK, 1, 1, NoMax_int );
ReadPara->Add( "OPT__INIT_RESTRICT", &OPT__INIT_RESTRICT, true, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__INIT_GRID_WITH_OMP", &OPT__INIT_GRID_WITH_OMP, true, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__GPUID_SELECT", &OPT__GPUID_SELECT, -1, -3, NoMax_int );
ReadPara->Add( "INIT_SUBSAMPLING_NCELL", &INIT_SUBSAMPLING_NCELL, 0, 0, NoMax_int );
# ifdef MHD
ReadPara->Add( "OPT__INIT_BFIELD_BYVECPOT", &OPT__INIT_BFIELD_BYVECPOT, INIT_MAG_BYVECPOT_NONE, 0, 2 );
# endif
# ifdef SUPPORT_FFTW
# if ( SUPPORT_FFTW == FFTW2 )
ReadPara->Add( "OPT__FFTW_STARTUP", &OPT__FFTW_STARTUP, FFTW_STARTUP_DEFAULT, FFTW_STARTUP_DEFAULT, FFTW_STARTUP_MEASURE );
# elif ( SUPPORT_FFTW == FFTW3 ) // # if ( SUPPORT_FFTW == FFTW2 )
ReadPara->Add( "OPT__FFTW_STARTUP", &OPT__FFTW_STARTUP, FFTW_STARTUP_DEFAULT, FFTW_STARTUP_DEFAULT, FFTW_STARTUP_PATIENT );
# else // # if ( SUPPORT_FFTW == FFTW2 ) ... # else
# error : ERROR : Unsupported FFTW version for OPT__FFTW_STARTUP
# endif // # if ( SUPPORT_FFTW == FFTW2 ) ... # else
# endif // # ifdef SUPPORT_FFTW
// interpolation schemes
ReadPara->Add( "OPT__INT_TIME", &OPT__INT_TIME, true, Useless_bool, Useless_bool );
# if ( MODEL == HYDRO )
ReadPara->Add( "OPT__INT_PRIM", &OPT__INT_PRIM, true, Useless_bool, Useless_bool );
# endif
# if ( MODEL == ELBDM )
ReadPara->Add( "OPT__INT_PHASE", &OPT__INT_PHASE, true, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__RES_PHASE", &OPT__RES_PHASE, false, Useless_bool, Useless_bool );
# endif
// do not check OPT__FLU_INT_SCHEME and OPT__REF_FLU_INT_SCHEME since they may be reset by Init_ResetParameter()
ReadPara->Add( "OPT__FLU_INT_SCHEME", &OPT__FLU_INT_SCHEME, INT_DEFAULT, NoMin_int, NoMax_int );
ReadPara->Add( "OPT__REF_FLU_INT_SCHEME", &OPT__REF_FLU_INT_SCHEME, INT_DEFAULT, NoMin_int, NoMax_int );
# ifdef MHD
ReadPara->Add( "OPT__MAG_INT_SCHEME", &OPT__MAG_INT_SCHEME, INT_CQUAD, NoMin_int, NoMax_int );
ReadPara->Add( "OPT__REF_MAG_INT_SCHEME", &OPT__REF_MAG_INT_SCHEME, INT_CQUAD, NoMin_int, NoMax_int );
# endif
# ifdef GRAVITY
ReadPara->Add( "OPT__POT_INT_SCHEME", &OPT__POT_INT_SCHEME, INT_CQUAD, 4, 5 );
ReadPara->Add( "OPT__RHO_INT_SCHEME", &OPT__RHO_INT_SCHEME, INT_CQUAD, 1, 7 );
ReadPara->Add( "OPT__GRA_INT_SCHEME", &OPT__GRA_INT_SCHEME, INT_CQUAD, 1, 7 );
ReadPara->Add( "OPT__REF_POT_INT_SCHEME", &OPT__REF_POT_INT_SCHEME, INT_CQUAD, 1, 7 );
# endif
ReadPara->Add( "INT_MONO_COEFF", &INT_MONO_COEFF, 2.0, 1.0, 4.0 );
# ifdef MHD
ReadPara->Add( "INT_MONO_COEFF_B", &INT_MONO_COEFF_B, 2.0, 1.0, 4.0 );
# endif
ReadPara->Add( "MONO_MAX_ITER", &MONO_MAX_ITER, 10, 0, NoMax_int );
# if ( MODEL == HYDRO )
ReadPara->Add( "INT_OPP_SIGN_0TH_ORDER", &INT_OPP_SIGN_0TH_ORDER, true, Useless_bool, Useless_bool );
# elif ( MODEL == ELBDM )
ReadPara->Add( "INT_OPP_SIGN_0TH_ORDER", &INT_OPP_SIGN_0TH_ORDER, false, Useless_bool, Useless_bool );
# else
# error : unsupported MODEL !!
# endif
# ifdef SUPPORT_SPECTRAL_INT
ReadPara->Add( "SPEC_INT_TABLE_PATH", SPEC_INT_TABLE_PATH, NoDef_str, Useless_str, Useless_str );
ReadPara->Add( "SPEC_INT_GHOST_BOUNDARY", &SPEC_INT_GHOST_BOUNDARY, 4, 1, NoMax_int );
# if ( MODEL == ELBDM )
ReadPara->Add( "SPEC_INT_XY_INSTEAD_DEPHA", &SPEC_INT_XY_INSTEAD_DEPHA, true, Useless_bool, Useless_bool );
ReadPara->Add( "SPEC_INT_VORTEX_THRESHOLD", &SPEC_INT_VORTEX_THRESHOLD, 0.1, 0.0, NoMax_double );
# endif
# endif // #ifdef SUPPORT_SPECTRAL_INT
// data dump
ReadPara->Add( "OPT__OUTPUT_TOTAL", &OPT__OUTPUT_TOTAL, 1, 0, 2 );
ReadPara->Add( "OPT__OUTPUT_PART", &OPT__OUTPUT_PART, 0, 0, 8 );
ReadPara->Add( "OPT__OUTPUT_USER", &OPT__OUTPUT_USER, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__OUTPUT_TEXT_FORMAT_FLT", OPT__OUTPUT_TEXT_FORMAT_FLT, "%24.16e", Useless_str, Useless_str );
ReadPara->Add( "OPT__OUTPUT_TEXT_LENGTH_INT",&OPT__OUTPUT_TEXT_LENGTH_INT, 12, 0, NoMax_int );
# ifdef PARTICLE
ReadPara->Add( "OPT__OUTPUT_PAR_MODE", &OPT__OUTPUT_PAR_MODE, 0, 0, 2 );
# ifdef TRACER
ReadPara->Add( "OPT__OUTPUT_PAR_MESH", &OPT__OUTPUT_PAR_MESH, true, Useless_bool, Useless_bool );
# else
ReadPara->Add( "OPT__OUTPUT_PAR_MESH", &OPT__OUTPUT_PAR_MESH, false, Useless_bool, Useless_bool );
# endif
# endif
ReadPara->Add( "OPT__OUTPUT_BASEPS", &OPT__OUTPUT_BASEPS, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__OUTPUT_BASE", &OPT__OUTPUT_BASE, false, Useless_bool, Useless_bool );
# ifdef MHD
ReadPara->Add( "OPT__OUTPUT_CC_MAG", &OPT__OUTPUT_CC_MAG, true, Useless_bool, Useless_bool );
# endif
# ifdef GRAVITY
ReadPara->Add( "OPT__OUTPUT_POT", &OPT__OUTPUT_POT, true, Useless_bool, Useless_bool );
# endif
# ifdef PARTICLE
ReadPara->Add( "OPT__OUTPUT_PAR_DENS", &OPT__OUTPUT_PAR_DENS, PAR_OUTPUT_DENS_PAR_ONLY, 0, 2 );
# endif
# if ( MODEL == HYDRO )
ReadPara->Add( "OPT__OUTPUT_PRES", &OPT__OUTPUT_PRES, false, Useless_bool, Useless_bool );
const bool OutTempDefault = ( EOS == EOS_TAUBMATHEWS ) ? true : false;
ReadPara->Add( "OPT__OUTPUT_TEMP", &OPT__OUTPUT_TEMP, OutTempDefault, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__OUTPUT_ENTR", &OPT__OUTPUT_ENTR, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__OUTPUT_CS", &OPT__OUTPUT_CS, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__OUTPUT_DIVVEL", &OPT__OUTPUT_DIVVEL, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__OUTPUT_MACH", &OPT__OUTPUT_MACH, false, Useless_bool, Useless_bool );
# endif
# ifdef MHD
ReadPara->Add( "OPT__OUTPUT_DIVMAG", &OPT__OUTPUT_DIVMAG, false, Useless_bool, Useless_bool );
# endif
# ifdef SRHD
ReadPara->Add( "OPT__OUTPUT_LORENTZ", &OPT__OUTPUT_LORENTZ, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__OUTPUT_3VELOCITY", &OPT__OUTPUT_3VELOCITY, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__OUTPUT_ENTHALPY", &OPT__OUTPUT_ENTHALPY, true, Useless_bool, Useless_bool );
# endif
ReadPara->Add( "OPT__OUTPUT_USER_FIELD", &OPT__OUTPUT_USER_FIELD, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__OUTPUT_MODE", &OPT__OUTPUT_MODE, -1, 1, 3 );
ReadPara->Add( "OPT__OUTPUT_RESTART", &OPT__OUTPUT_RESTART, false, Useless_bool, Useless_bool );
// do not check OUTPUT_STEP and OUTPUT_DT since they depend on OPT__OUTPUT_MODE
ReadPara->Add( "OUTPUT_STEP", &OUTPUT_STEP, -1, NoMin_int, NoMax_int );
ReadPara->Add( "OUTPUT_DT", &OUTPUT_DT, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "OUTPUT_WALLTIME", &OUTPUT_WALLTIME, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "OUTPUT_WALLTIME_UNIT", &OUTPUT_WALLTIME_UNIT, 0, 0, 3 );
// do not check OUTPUT_PART_X/Y/Z since they depend on OPT__OUTPUT_PART
ReadPara->Add( "OUTPUT_PART_X", &OUTPUT_PART_X, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "OUTPUT_PART_Y", &OUTPUT_PART_Y, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "OUTPUT_PART_Z", &OUTPUT_PART_Z, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "INIT_DUMPID", &INIT_DUMPID, -1, NoMin_int, NoMax_int );
ReadPara->Add( "OUTPUT_DIR", OUTPUT_DIR, ".", Useless_str, Useless_str );
// yt inline analysis
# ifdef SUPPORT_LIBYT
ReadPara->Add( "YT_SCRIPT", YT_SCRIPT, NoDef_str, Useless_str, Useless_str );
ReadPara->Add( "YT_VERBOSE", (int*)&YT_VERBOSE, 1, 0, 3 );
ReadPara->Add( "YT_FIG_BASENAME", YT_FIG_BASENAME, NoDef_str, Useless_str, Useless_str );
# ifdef LIBYT_JUPYTER
ReadPara->Add( "YT_JUPYTER_USE_CONNECTION_FILE", &YT_JUPYTER_USE_CONNECTION_FILE, false, Useless_bool, Useless_bool );
# endif
# endif
// miscellaneous
ReadPara->Add( "OPT__VERBOSE", &OPT__VERBOSE, false, Useless_bool, Useless_bool );
// do not check OPT__TIMING_BARRIER since it depends on other options
ReadPara->Add( "OPT__TIMING_BARRIER", &OPT__TIMING_BARRIER, -1, NoMin_int, NoMax_int );
ReadPara->Add( "OPT__TIMING_BALANCE", &OPT__TIMING_BALANCE, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__TIMING_MPI", &OPT__TIMING_MPI, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__RECORD_NOTE", &OPT__RECORD_NOTE, true, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__RECORD_UNPHY", &OPT__RECORD_UNPHY, true, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__RECORD_MEMORY", &OPT__RECORD_MEMORY, true, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__RECORD_PERFORMANCE", &OPT__RECORD_PERFORMANCE, true, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__MANUAL_CONTROL", &OPT__MANUAL_CONTROL, true, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__RECORD_CENTER", &OPT__RECORD_CENTER, false, Useless_bool, Useless_bool );
ReadPara->Add( "COM_CEN_X", &COM_CEN_X, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "COM_CEN_Y", &COM_CEN_Y, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "COM_CEN_Z", &COM_CEN_Z, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "COM_MAX_R", &COM_MAX_R, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "COM_MIN_RHO", &COM_MIN_RHO, 0.0, 0.0, NoMax_double );
ReadPara->Add( "COM_TOLERR_R", &COM_TOLERR_R, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "COM_MAX_ITER", &COM_MAX_ITER, 10, 1, NoMax_int );
ReadPara->Add( "OPT__RECORD_USER", &OPT__RECORD_USER, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__OPTIMIZE_AGGRESSIVE", &OPT__OPTIMIZE_AGGRESSIVE, false, Useless_bool, Useless_bool );
# ifdef LOAD_BALANCE
ReadPara->Add( "OPT__SORT_PATCH_BY_LBIDX", &OPT__SORT_PATCH_BY_LBIDX, true, Useless_bool, Useless_bool );
# else
ReadPara->Add( "OPT__SORT_PATCH_BY_LBIDX", &OPT__SORT_PATCH_BY_LBIDX, false, Useless_bool, Useless_bool );
# endif
// simulation checks
ReadPara->Add( "OPT__CK_REFINE", &OPT__CK_REFINE, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__CK_PROPER_NESTING", &OPT__CK_PROPER_NESTING, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__CK_CONSERVATION", &OPT__CK_CONSERVATION, false, Useless_bool, Useless_bool );
ReadPara->Add( "ANGMOM_ORIGIN_X", &ANGMOM_ORIGIN_X, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "ANGMOM_ORIGIN_Y", &ANGMOM_ORIGIN_Y, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "ANGMOM_ORIGIN_Z", &ANGMOM_ORIGIN_Z, -1.0, NoMin_double, NoMax_double );
ReadPara->Add( "OPT__CK_NORMALIZE_PASSIVE", &OPT__CK_NORMALIZE_PASSIVE, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__CK_RESTRICT", &OPT__CK_RESTRICT, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__CK_FINITE", &OPT__CK_FINITE, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__CK_PATCH_ALLOCATE", &OPT__CK_PATCH_ALLOCATE, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__CK_FLUX_ALLOCATE", &OPT__CK_FLUX_ALLOCATE, false, Useless_bool, Useless_bool );
# if ( MODEL == HYDRO )
ReadPara->Add( "OPT__CK_NEGATIVE", &OPT__CK_NEGATIVE, 0, 0, 3 );
# endif
ReadPara->Add( "OPT__CK_MEMFREE", &OPT__CK_MEMFREE, 1.0, 0.0, NoMax_double );
# ifdef PARTICLE
ReadPara->Add( "OPT__CK_PARTICLE", &OPT__CK_PARTICLE, false, Useless_bool, Useless_bool );
# endif
# ifdef MHD
ReadPara->Add( "OPT__CK_INTERFACE_B", &OPT__CK_INTERFACE_B, false, Useless_bool, Useless_bool );
ReadPara->Add( "OPT__CK_DIVERGENCE_B", &OPT__CK_DIVERGENCE_B, 0, 0, 2 );
# endif
ReadPara->Add( "OPT__CK_INPUT_FLUID", &OPT__CK_INPUT_FLUID, false, Useless_bool, Useless_bool );
// load parameters
// ********************************************************************************************************************************
ReadPara->Read( FileName );
// ********************************************************************************************************************************
// free memory
delete ReadPara;
if ( MPI_Rank == 0 ) Aux_Message( stdout, "%s ... done\n", __FUNCTION__ );
} // FUNCTION : Init_Load_Parameter