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constants.h
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//! \file constants.h
//! A collection of constants
#ifndef OPENMC_CONSTANTS_H
#define OPENMC_CONSTANTS_H
#include <cmath>
#include <cstdint>
#include <limits>
#include "openmc/array.h"
#include "openmc/vector.h"
#include "openmc/version.h"
namespace openmc {
using double_2dvec = vector<vector<double>>;
using double_3dvec = vector<vector<vector<double>>>;
using double_4dvec = vector<vector<vector<vector<double>>>>;
// ============================================================================
// VERSIONING NUMBERS
// HDF5 data format
constexpr int HDF5_VERSION[] {3, 0};
// Version numbers for binary files
constexpr array<int, 2> VERSION_STATEPOINT {18, 1};
constexpr array<int, 2> VERSION_PARTICLE_RESTART {2, 0};
constexpr array<int, 2> VERSION_TRACK {3, 0};
constexpr array<int, 2> VERSION_SUMMARY {6, 0};
constexpr array<int, 2> VERSION_VOLUME {1, 0};
constexpr array<int, 2> VERSION_VOXEL {2, 0};
constexpr array<int, 2> VERSION_MGXS_LIBRARY {1, 0};
constexpr array<int, 2> VERSION_PROPERTIES {1, 0};
constexpr array<int, 2> VERSION_WEIGHT_WINDOWS {1, 0};
// ============================================================================
// ADJUSTABLE PARAMETERS
// NOTE: This is the only section of the constants module that should ever be
// adjusted. Modifying constants in other sections may cause the code to fail.
// Significance level for confidence intervals
constexpr double CONFIDENCE_LEVEL {0.95};
// Used for surface current tallies
constexpr double TINY_BIT {1e-8};
// User for precision in geometry
constexpr double FP_PRECISION {1e-14};
constexpr double FP_REL_PRECISION {1e-5};
constexpr double FP_COINCIDENT {1e-12};
// Coincidence tolerances
constexpr double TORUS_TOL {1e-10};
constexpr double RADIAL_MESH_TOL {1e-10};
// Maximum number of random samples per history
constexpr int MAX_SAMPLE {100000};
// ============================================================================
// MATH AND PHYSICAL CONSTANTS
// TODO: replace with <numbers> when we go for C++20
constexpr double PI {3.141592653589793238462643383279502884L};
const double SQRT_PI {std::sqrt(PI)};
constexpr double INFTY {std::numeric_limits<double>::max()};
// Values here are from the Committee on Data for Science and Technology
// (CODATA) 2018 recommendation (https://physics.nist.gov/cuu/Constants/).
// Physical constants
constexpr double MASS_NEUTRON {1.00866491595}; // mass of a neutron in amu
constexpr double MASS_NEUTRON_EV {
939.56542052e6}; // mass of a neutron in eV/c^2
constexpr double MASS_PROTON {1.007276466621}; // mass of a proton in amu
constexpr double MASS_ELECTRON_EV {
0.51099895000e6}; // electron mass energy equivalent in eV/c^2
constexpr double FINE_STRUCTURE {
137.035999084}; // inverse fine structure constant
constexpr double PLANCK_C {
1.2398419839593942e4}; // Planck's constant times c in eV-Angstroms
constexpr double AMU {1.66053906660e-27}; // 1 amu in kg
constexpr double C_LIGHT {2.99792458e10}; // speed of light in cm/s
constexpr double N_AVOGADRO {0.602214076}; // Avogadro's number in 10^24/mol
constexpr double K_BOLTZMANN {8.617333262e-5}; // Boltzmann constant in eV/K
// Electron subshell labels
constexpr array<const char*, 39> SUBSHELLS = {"K", "L1", "L2", "L3", "M1", "M2",
"M3", "M4", "M5", "N1", "N2", "N3", "N4", "N5", "N6", "N7", "O1", "O2", "O3",
"O4", "O5", "O6", "O7", "O8", "O9", "P1", "P2", "P3", "P4", "P5", "P6", "P7",
"P8", "P9", "P10", "P11", "Q1", "Q2", "Q3"};
// Void material and nuclide
// TODO: refactor and remove
constexpr int MATERIAL_VOID {-1};
constexpr int NUCLIDE_NONE {-1};
// ============================================================================
// CROSS SECTION RELATED CONSTANTS
// Temperature treatment method
enum class TemperatureMethod { NEAREST, INTERPOLATION };
// Reaction types
enum ReactionType {
REACTION_NONE = 0,
TOTAL_XS = 1,
ELASTIC = 2,
N_NONELASTIC = 3,
N_LEVEL = 4,
MISC = 5,
N_2ND = 11,
N_2N = 16,
N_3N = 17,
N_FISSION = 18,
N_F = 19,
N_NF = 20,
N_2NF = 21,
N_NA = 22,
N_N3A = 23,
N_2NA = 24,
N_3NA = 25,
N_NP = 28,
N_N2A = 29,
N_2N2A = 30,
N_ND = 32,
N_NT = 33,
N_N3HE = 34,
N_ND2A = 35,
N_NT2A = 36,
N_4N = 37,
N_3NF = 38,
N_2NP = 41,
N_3NP = 42,
N_N2P = 44,
N_NPA = 45,
N_N1 = 51,
N_N40 = 90,
N_NC = 91,
N_DISAPPEAR = 101,
N_GAMMA = 102,
N_P = 103,
N_D = 104,
N_T = 105,
N_3HE = 106,
N_A = 107,
N_2A = 108,
N_3A = 109,
N_2P = 111,
N_PA = 112,
N_T2A = 113,
N_D2A = 114,
N_PD = 115,
N_PT = 116,
N_DA = 117,
N_5N = 152,
N_6N = 153,
N_2NT = 154,
N_TA = 155,
N_4NP = 156,
N_3ND = 157,
N_NDA = 158,
N_2NPA = 159,
N_7N = 160,
N_8N = 161,
N_5NP = 162,
N_6NP = 163,
N_7NP = 164,
N_4NA = 165,
N_5NA = 166,
N_6NA = 167,
N_7NA = 168,
N_4ND = 169,
N_5ND = 170,
N_6ND = 171,
N_3NT = 172,
N_4NT = 173,
N_5NT = 174,
N_6NT = 175,
N_2N3HE = 176,
N_3N3HE = 177,
N_4N3HE = 178,
N_3N2P = 179,
N_3N2A = 180,
N_3NPA = 181,
N_DT = 182,
N_NPD = 183,
N_NPT = 184,
N_NDT = 185,
N_NP3HE = 186,
N_ND3HE = 187,
N_NT3HE = 188,
N_NTA = 189,
N_2N2P = 190,
N_P3HE = 191,
N_D3HE = 192,
N_3HEA = 193,
N_4N2P = 194,
N_4N2A = 195,
N_4NPA = 196,
N_3P = 197,
N_N3P = 198,
N_3N2PA = 199,
N_5N2P = 200,
N_XP = 203,
N_XD = 204,
N_XT = 205,
N_X3HE = 206,
N_XA = 207,
HEATING = 301,
DAMAGE_ENERGY = 444,
COHERENT = 502,
INCOHERENT = 504,
PAIR_PROD_ELEC = 515,
PAIR_PROD = 516,
PAIR_PROD_NUC = 517,
PHOTOELECTRIC = 522,
N_P0 = 600,
N_PC = 649,
N_D0 = 650,
N_DC = 699,
N_T0 = 700,
N_TC = 749,
N_3HE0 = 750,
N_3HEC = 799,
N_A0 = 800,
N_AC = 849,
N_2N0 = 875,
N_2NC = 891,
HEATING_LOCAL = 901
};
constexpr array<int, 6> DEPLETION_RX {N_GAMMA, N_P, N_A, N_2N, N_3N, N_4N};
// Resonance elastic scattering methods
enum class ResScatMethod {
rvs, // Relative velocity sampling
dbrc, // Doppler broadening rejection correction
cxs // Constant cross section
};
enum class ElectronTreatment {
LED, // Local Energy Deposition
TTB // Thick Target Bremsstrahlung
};
// ============================================================================
// MULTIGROUP RELATED
// Flag to denote this was a macroscopic data object
constexpr double MACROSCOPIC_AWR {-2.};
// Number of mu bins to use when converting Legendres to tabular type
constexpr int DEFAULT_NMU {33};
// Mgxs::get_xs enumerated types
enum class MgxsType {
TOTAL,
ABSORPTION,
INVERSE_VELOCITY,
DECAY_RATE,
NU_SCATTER,
SCATTER,
NU_SCATTER_FMU,
SCATTER_FMU,
FISSION,
KAPPA_FISSION,
PROMPT_NU_FISSION,
DELAYED_NU_FISSION,
NU_FISSION,
CHI_PROMPT,
CHI_DELAYED
};
// ============================================================================
// TALLY-RELATED CONSTANTS
enum class TallyResult { VALUE, SUM, SUM_SQ, SIZE };
enum class TallyType { VOLUME, MESH_SURFACE, SURFACE, PULSE_HEIGHT };
enum class TallyEstimator { ANALOG, TRACKLENGTH, COLLISION };
enum class TallyEvent { SURFACE, LATTICE, KILL, SCATTER, ABSORB };
// Tally score type -- if you change these, make sure you also update the
// _SCORES dictionary in openmc/capi/tally.py
//
// These are kept as a normal enum and made negative, since variables which
// store one of these enum values usually also may be responsible for storing
// MT numbers from the long enum above.
enum TallyScore {
SCORE_FLUX = -1, // flux
SCORE_TOTAL = -2, // total reaction rate
SCORE_SCATTER = -3, // scattering rate
SCORE_NU_SCATTER = -4, // scattering production rate
SCORE_ABSORPTION = -5, // absorption rate
SCORE_FISSION = -6, // fission rate
SCORE_NU_FISSION = -7, // neutron production rate
SCORE_KAPPA_FISSION = -8, // fission energy production rate
SCORE_CURRENT = -9, // current
SCORE_EVENTS = -10, // number of events
SCORE_DELAYED_NU_FISSION = -11, // delayed neutron production rate
SCORE_PROMPT_NU_FISSION = -12, // prompt neutron production rate
SCORE_INVERSE_VELOCITY = -13, // flux-weighted inverse velocity
SCORE_FISS_Q_PROMPT = -14, // prompt fission Q-value
SCORE_FISS_Q_RECOV = -15, // recoverable fission Q-value
SCORE_DECAY_RATE = -16, // delayed neutron precursor decay rate
SCORE_PULSE_HEIGHT = -17 // pulse-height
};
// Global tally parameters
constexpr int N_GLOBAL_TALLIES {4};
enum class GlobalTally { K_COLLISION, K_ABSORPTION, K_TRACKLENGTH, LEAKAGE };
// Miscellaneous
constexpr int C_NONE {-1};
// Interpolation rules
enum class Interpolation {
histogram = 1,
lin_lin = 2,
lin_log = 3,
log_lin = 4,
log_log = 5,
// skip 6 b/c ENDF-6 reserves this value for
// "special one-dimensional interpolation law"
quadratic = 7,
cubic = 8
};
enum class RunMode {
UNSET, // default value, OpenMC throws error if left to this
FIXED_SOURCE,
EIGENVALUE,
PLOTTING,
PARTICLE,
VOLUME
};
enum class SolverType { MONTE_CARLO, RANDOM_RAY };
enum class RandomRayVolumeEstimator { NAIVE, SIMULATION_AVERAGED, HYBRID };
enum class RandomRaySourceShape { FLAT, LINEAR, LINEAR_XY };
//==============================================================================
// Geometry Constants
enum class GeometryType { CSG, DAG };
} // namespace openmc
#endif // OPENMC_CONSTANTS_H