From 6feba6fd4aa01d9d538d6b225422981e6f9a317a Mon Sep 17 00:00:00 2001 From: Milan Skocic Date: Tue, 14 Nov 2023 06:57:41 +0100 Subject: [PATCH] BLD: Final cpython code in Fortran. --- pywrapper/pycodata/cpycodata.c | 4981 ++++++++++++++++---------------- 1 file changed, 2490 insertions(+), 2491 deletions(-) diff --git a/pywrapper/pycodata/cpycodata.c b/pywrapper/pycodata/cpycodata.c index c6e1e1c..fe0b5af 100644 --- a/pywrapper/pycodata/cpycodata.c +++ b/pywrapper/pycodata/cpycodata.c @@ -2,7 +2,6 @@ #include #include "codata.h" - PyDoc_STRVAR(module_docstring, "C extension for codata constants."); static PyMethodDef myMethods[] = {{ NULL, NULL, 0, NULL }}; @@ -10,2493 +9,2493 @@ static PyMethodDef myMethods[] = {{ NULL, NULL, 0, NULL }}; static struct PyModuleDef codata = {PyModuleDef_HEAD_INIT, "codata", module_docstring, -1, myMethods}; PyMODINIT_FUNC PyInit_codata(void){ - PyObject *m; - PyObject *d; - PyObject *v; - m = PyModule_Create(&codata); - d = PyModule_GetDict(m); - - v = PyLong_FromLong(YEAR); - PyDict_SetItemString(d, "YEAR", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ALPHA_PARTICLE_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "ALPHA_PARTICLE_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ALPHA_PARTICLE_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "U_ALPHA_PARTICLE_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ALPHA_PARTICLE_MASS); - PyDict_SetItemString(d, "ALPHA_PARTICLE_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ALPHA_PARTICLE_MASS); - PyDict_SetItemString(d, "U_ALPHA_PARTICLE_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "U_ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "U_ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ALPHA_PARTICLE_MASS_IN_U); - PyDict_SetItemString(d, "ALPHA_PARTICLE_MASS_IN_U", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ALPHA_PARTICLE_MASS_IN_U); - PyDict_SetItemString(d, "U_ALPHA_PARTICLE_MASS_IN_U", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ALPHA_PARTICLE_MOLAR_MASS); - PyDict_SetItemString(d, "ALPHA_PARTICLE_MOLAR_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ALPHA_PARTICLE_MOLAR_MASS); - PyDict_SetItemString(d, "U_ALPHA_PARTICLE_MOLAR_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ALPHA_PARTICLE_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "ALPHA_PARTICLE_PROTON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ALPHA_PARTICLE_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "U_ALPHA_PARTICLE_PROTON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ALPHA_PARTICLE_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "ALPHA_PARTICLE_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ALPHA_PARTICLE_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "U_ALPHA_PARTICLE_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ANGSTROM_STAR); - PyDict_SetItemString(d, "ANGSTROM_STAR", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ANGSTROM_STAR); - PyDict_SetItemString(d, "U_ANGSTROM_STAR", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_MASS_CONSTANT); - PyDict_SetItemString(d, "ATOMIC_MASS_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_MASS_CONSTANT); - PyDict_SetItemString(d, "U_ATOMIC_MASS_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "U_ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "U_ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_1ST_HYPERPOLARIZABILITY); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_1ST_HYPERPOLARIZABILITY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_1ST_HYPERPOLARIZABILITY); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_1ST_HYPERPOLARIZABILITY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_2ND_HYPERPOLARIZABILITY); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_2ND_HYPERPOLARIZABILITY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_2ND_HYPERPOLARIZABILITY); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_2ND_HYPERPOLARIZABILITY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ACTION); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ACTION", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ACTION); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ACTION", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_CHARGE); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_CHARGE", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_CHARGE); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_CHARGE", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_CHARGE_DENSITY); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_CHARGE_DENSITY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_CHARGE_DENSITY); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_CHARGE_DENSITY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_CURRENT); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_CURRENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_CURRENT); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_CURRENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ELECTRIC_DIPOLE_MOM); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ELECTRIC_DIPOLE_MOM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ELECTRIC_DIPOLE_MOM); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ELECTRIC_DIPOLE_MOM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ELECTRIC_FIELD); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ELECTRIC_FIELD", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ELECTRIC_FIELD); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ELECTRIC_FIELD", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ELECTRIC_FIELD_GRADIENT); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ELECTRIC_FIELD_GRADIENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ELECTRIC_FIELD_GRADIENT); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ELECTRIC_FIELD_GRADIENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ELECTRIC_POLARIZABILITY); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ELECTRIC_POLARIZABILITY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ELECTRIC_POLARIZABILITY); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ELECTRIC_POLARIZABILITY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ELECTRIC_POTENTIAL); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ELECTRIC_POTENTIAL", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ELECTRIC_POTENTIAL); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ELECTRIC_POTENTIAL", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ELECTRIC_QUADRUPOLE_MOM); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ELECTRIC_QUADRUPOLE_MOM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ELECTRIC_QUADRUPOLE_MOM); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ELECTRIC_QUADRUPOLE_MOM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ENERGY); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ENERGY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ENERGY); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ENERGY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_FORCE); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_FORCE", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_FORCE); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_FORCE", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_LENGTH); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_LENGTH", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_LENGTH); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_LENGTH", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_MAG__DIPOLE_MOM); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_MAG__DIPOLE_MOM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_MAG__DIPOLE_MOM); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_MAG__DIPOLE_MOM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_MAG__FLUX_DENSITY); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_MAG__FLUX_DENSITY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_MAG__FLUX_DENSITY); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_MAG__FLUX_DENSITY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_MAGNETIZABILITY); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_MAGNETIZABILITY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_MAGNETIZABILITY); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_MAGNETIZABILITY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_MASS); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_MASS); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_MOMENTUM); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_MOMENTUM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_MOMENTUM); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_MOMENTUM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_PERMITTIVITY); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_PERMITTIVITY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_PERMITTIVITY); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_PERMITTIVITY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_TIME); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_TIME", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_TIME); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_TIME", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ATOMIC_UNIT_OF_VELOCITY); - PyDict_SetItemString(d, "ATOMIC_UNIT_OF_VELOCITY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_VELOCITY); - PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_VELOCITY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(AVOGADRO_CONSTANT); - PyDict_SetItemString(d, "AVOGADRO_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_AVOGADRO_CONSTANT); - PyDict_SetItemString(d, "U_AVOGADRO_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(BOHR_MAGNETON); - PyDict_SetItemString(d, "BOHR_MAGNETON", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_BOHR_MAGNETON); - PyDict_SetItemString(d, "U_BOHR_MAGNETON", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(BOHR_MAGNETON_IN_EV_T); - PyDict_SetItemString(d, "BOHR_MAGNETON_IN_EV_T", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_BOHR_MAGNETON_IN_EV_T); - PyDict_SetItemString(d, "U_BOHR_MAGNETON_IN_EV_T", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(BOHR_MAGNETON_IN_HZ_T); - PyDict_SetItemString(d, "BOHR_MAGNETON_IN_HZ_T", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_BOHR_MAGNETON_IN_HZ_T); - PyDict_SetItemString(d, "U_BOHR_MAGNETON_IN_HZ_T", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(BOHR_MAGNETON_IN_INVERSE_METER_PER_TESLA); - PyDict_SetItemString(d, "BOHR_MAGNETON_IN_INVERSE_METER_PER_TESLA", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_BOHR_MAGNETON_IN_INVERSE_METER_PER_TESLA); - PyDict_SetItemString(d, "U_BOHR_MAGNETON_IN_INVERSE_METER_PER_TESLA", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(BOHR_MAGNETON_IN_K_T); - PyDict_SetItemString(d, "BOHR_MAGNETON_IN_K_T", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_BOHR_MAGNETON_IN_K_T); - PyDict_SetItemString(d, "U_BOHR_MAGNETON_IN_K_T", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(BOHR_RADIUS); - PyDict_SetItemString(d, "BOHR_RADIUS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_BOHR_RADIUS); - PyDict_SetItemString(d, "U_BOHR_RADIUS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(BOLTZMANN_CONSTANT); - PyDict_SetItemString(d, "BOLTZMANN_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_BOLTZMANN_CONSTANT); - PyDict_SetItemString(d, "U_BOLTZMANN_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(BOLTZMANN_CONSTANT_IN_EV_K); - PyDict_SetItemString(d, "BOLTZMANN_CONSTANT_IN_EV_K", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_BOLTZMANN_CONSTANT_IN_EV_K); - PyDict_SetItemString(d, "U_BOLTZMANN_CONSTANT_IN_EV_K", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(BOLTZMANN_CONSTANT_IN_HZ_K); - PyDict_SetItemString(d, "BOLTZMANN_CONSTANT_IN_HZ_K", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_BOLTZMANN_CONSTANT_IN_HZ_K); - PyDict_SetItemString(d, "U_BOLTZMANN_CONSTANT_IN_HZ_K", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(BOLTZMANN_CONSTANT_IN_INVERSE_METER_PER_KELVIN); - PyDict_SetItemString(d, "BOLTZMANN_CONSTANT_IN_INVERSE_METER_PER_KELVIN", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_BOLTZMANN_CONSTANT_IN_INVERSE_METER_PER_KELVIN); - PyDict_SetItemString(d, "U_BOLTZMANN_CONSTANT_IN_INVERSE_METER_PER_KELVIN", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(CHARACTERISTIC_IMPEDANCE_OF_VACUUM); - PyDict_SetItemString(d, "CHARACTERISTIC_IMPEDANCE_OF_VACUUM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_CHARACTERISTIC_IMPEDANCE_OF_VACUUM); - PyDict_SetItemString(d, "U_CHARACTERISTIC_IMPEDANCE_OF_VACUUM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(CLASSICAL_ELECTRON_RADIUS); - PyDict_SetItemString(d, "CLASSICAL_ELECTRON_RADIUS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_CLASSICAL_ELECTRON_RADIUS); - PyDict_SetItemString(d, "U_CLASSICAL_ELECTRON_RADIUS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "COMPTON_WAVELENGTH", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "U_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(CONDUCTANCE_QUANTUM); - PyDict_SetItemString(d, "CONDUCTANCE_QUANTUM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_CONDUCTANCE_QUANTUM); - PyDict_SetItemString(d, "U_CONDUCTANCE_QUANTUM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(CONVENTIONAL_VALUE_OF_AMPERE_90); - PyDict_SetItemString(d, "CONVENTIONAL_VALUE_OF_AMPERE_90", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_CONVENTIONAL_VALUE_OF_AMPERE_90); - PyDict_SetItemString(d, "U_CONVENTIONAL_VALUE_OF_AMPERE_90", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(CONVENTIONAL_VALUE_OF_COULOMB_90); - PyDict_SetItemString(d, "CONVENTIONAL_VALUE_OF_COULOMB_90", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_CONVENTIONAL_VALUE_OF_COULOMB_90); - PyDict_SetItemString(d, "U_CONVENTIONAL_VALUE_OF_COULOMB_90", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(CONVENTIONAL_VALUE_OF_FARAD_90); - PyDict_SetItemString(d, "CONVENTIONAL_VALUE_OF_FARAD_90", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_CONVENTIONAL_VALUE_OF_FARAD_90); 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- Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_ELECTRON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "DEUTERON_ELECTRON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_ELECTRON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_DEUTERON_ELECTRON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "DEUTERON_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "U_DEUTERON_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_G_FACTOR); - PyDict_SetItemString(d, "DEUTERON_G_FACTOR", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_G_FACTOR); - PyDict_SetItemString(d, "U_DEUTERON_G_FACTOR", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_MAG__MOM); - PyDict_SetItemString(d, "DEUTERON_MAG__MOM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_MAG__MOM); - PyDict_SetItemString(d, "U_DEUTERON_MAG__MOM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "DEUTERON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_DEUTERON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "DEUTERON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_DEUTERON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_MASS); - PyDict_SetItemString(d, "DEUTERON_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_MASS); - PyDict_SetItemString(d, "U_DEUTERON_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "DEUTERON_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "U_DEUTERON_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "DEUTERON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "U_DEUTERON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_MASS_IN_U); - PyDict_SetItemString(d, "DEUTERON_MASS_IN_U", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_MASS_IN_U); - PyDict_SetItemString(d, "U_DEUTERON_MASS_IN_U", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_MOLAR_MASS); - PyDict_SetItemString(d, "DEUTERON_MOLAR_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_MOLAR_MASS); - PyDict_SetItemString(d, "U_DEUTERON_MOLAR_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_NEUTRON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "DEUTERON_NEUTRON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_NEUTRON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_DEUTERON_NEUTRON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "DEUTERON_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_DEUTERON_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "DEUTERON_PROTON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "U_DEUTERON_PROTON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "DEUTERON_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "U_DEUTERON_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(DEUTERON_RMS_CHARGE_RADIUS); - PyDict_SetItemString(d, "DEUTERON_RMS_CHARGE_RADIUS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_DEUTERON_RMS_CHARGE_RADIUS); - PyDict_SetItemString(d, "U_DEUTERON_RMS_CHARGE_RADIUS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_CHARGE_TO_MASS_QUOTIENT); - PyDict_SetItemString(d, "ELECTRON_CHARGE_TO_MASS_QUOTIENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_CHARGE_TO_MASS_QUOTIENT); - PyDict_SetItemString(d, "U_ELECTRON_CHARGE_TO_MASS_QUOTIENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_DEUTERON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "ELECTRON_DEUTERON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_DEUTERON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_ELECTRON_DEUTERON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_DEUTERON_MASS_RATIO); - PyDict_SetItemString(d, "ELECTRON_DEUTERON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_DEUTERON_MASS_RATIO); - PyDict_SetItemString(d, "U_ELECTRON_DEUTERON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_G_FACTOR); - PyDict_SetItemString(d, "ELECTRON_G_FACTOR", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_G_FACTOR); - PyDict_SetItemString(d, "U_ELECTRON_G_FACTOR", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_GYROMAG__RATIO); - PyDict_SetItemString(d, "ELECTRON_GYROMAG__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_GYROMAG__RATIO); - PyDict_SetItemString(d, "U_ELECTRON_GYROMAG__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_GYROMAG__RATIO_IN_MHZ_T); - PyDict_SetItemString(d, "ELECTRON_GYROMAG__RATIO_IN_MHZ_T", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_GYROMAG__RATIO_IN_MHZ_T); - PyDict_SetItemString(d, "U_ELECTRON_GYROMAG__RATIO_IN_MHZ_T", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_HELION_MASS_RATIO); - PyDict_SetItemString(d, "ELECTRON_HELION_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_HELION_MASS_RATIO); - PyDict_SetItemString(d, "U_ELECTRON_HELION_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_MAG__MOM); - PyDict_SetItemString(d, "ELECTRON_MAG__MOM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_MAG__MOM); - PyDict_SetItemString(d, "U_ELECTRON_MAG__MOM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_MAG__MOM__ANOMALY); - PyDict_SetItemString(d, "ELECTRON_MAG__MOM__ANOMALY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_MAG__MOM__ANOMALY); - PyDict_SetItemString(d, "U_ELECTRON_MAG__MOM__ANOMALY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "ELECTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_ELECTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "ELECTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_ELECTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_MASS); - PyDict_SetItemString(d, "ELECTRON_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_MASS); - PyDict_SetItemString(d, "U_ELECTRON_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "ELECTRON_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "U_ELECTRON_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "ELECTRON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "U_ELECTRON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_MASS_IN_U); - PyDict_SetItemString(d, "ELECTRON_MASS_IN_U", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_MASS_IN_U); - PyDict_SetItemString(d, "U_ELECTRON_MASS_IN_U", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_MOLAR_MASS); - PyDict_SetItemString(d, "ELECTRON_MOLAR_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_MOLAR_MASS); - PyDict_SetItemString(d, "U_ELECTRON_MOLAR_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_MUON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "ELECTRON_MUON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_MUON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_ELECTRON_MUON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_MUON_MASS_RATIO); - PyDict_SetItemString(d, "ELECTRON_MUON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_MUON_MASS_RATIO); - PyDict_SetItemString(d, "U_ELECTRON_MUON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_NEUTRON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "ELECTRON_NEUTRON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_NEUTRON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_ELECTRON_NEUTRON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_NEUTRON_MASS_RATIO); - PyDict_SetItemString(d, "ELECTRON_NEUTRON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_NEUTRON_MASS_RATIO); - PyDict_SetItemString(d, "U_ELECTRON_NEUTRON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "ELECTRON_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_ELECTRON_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "ELECTRON_PROTON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "U_ELECTRON_PROTON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "ELECTRON_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "U_ELECTRON_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_TAU_MASS_RATIO); - PyDict_SetItemString(d, "ELECTRON_TAU_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_TAU_MASS_RATIO); - PyDict_SetItemString(d, "U_ELECTRON_TAU_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_TO_ALPHA_PARTICLE_MASS_RATIO); - PyDict_SetItemString(d, "ELECTRON_TO_ALPHA_PARTICLE_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_TO_ALPHA_PARTICLE_MASS_RATIO); - PyDict_SetItemString(d, "U_ELECTRON_TO_ALPHA_PARTICLE_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_TO_SHIELDED_HELION_MAG__MOM__RATIO); - PyDict_SetItemString(d, "ELECTRON_TO_SHIELDED_HELION_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_TO_SHIELDED_HELION_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_ELECTRON_TO_SHIELDED_HELION_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "ELECTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_ELECTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_TRITON_MASS_RATIO); - PyDict_SetItemString(d, "ELECTRON_TRITON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_TRITON_MASS_RATIO); - PyDict_SetItemString(d, "U_ELECTRON_TRITON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_VOLT); - PyDict_SetItemString(d, "ELECTRON_VOLT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_VOLT); - PyDict_SetItemString(d, "U_ELECTRON_VOLT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_VOLT_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "ELECTRON_VOLT_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_VOLT_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "U_ELECTRON_VOLT_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_VOLT_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "ELECTRON_VOLT_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_VOLT_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "U_ELECTRON_VOLT_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_VOLT_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "ELECTRON_VOLT_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_VOLT_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "U_ELECTRON_VOLT_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_VOLT_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "ELECTRON_VOLT_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_VOLT_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "U_ELECTRON_VOLT_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_VOLT_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "ELECTRON_VOLT_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_VOLT_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "U_ELECTRON_VOLT_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_VOLT_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "ELECTRON_VOLT_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_VOLT_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "U_ELECTRON_VOLT_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELECTRON_VOLT_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "ELECTRON_VOLT_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELECTRON_VOLT_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "U_ELECTRON_VOLT_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELEMENTARY_CHARGE); - PyDict_SetItemString(d, "ELEMENTARY_CHARGE", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELEMENTARY_CHARGE); - PyDict_SetItemString(d, "U_ELEMENTARY_CHARGE", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(ELEMENTARY_CHARGE_OVER_H_BAR); - PyDict_SetItemString(d, "ELEMENTARY_CHARGE_OVER_H_BAR", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_ELEMENTARY_CHARGE_OVER_H_BAR); - PyDict_SetItemString(d, "U_ELEMENTARY_CHARGE_OVER_H_BAR", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(FARADAY_CONSTANT); - PyDict_SetItemString(d, "FARADAY_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_FARADAY_CONSTANT); - PyDict_SetItemString(d, "U_FARADAY_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(FERMI_COUPLING_CONSTANT); - PyDict_SetItemString(d, "FERMI_COUPLING_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_FERMI_COUPLING_CONSTANT); - PyDict_SetItemString(d, "U_FERMI_COUPLING_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(FINE_STRUCTURE_CONSTANT); - PyDict_SetItemString(d, "FINE_STRUCTURE_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_FINE_STRUCTURE_CONSTANT); - PyDict_SetItemString(d, "U_FINE_STRUCTURE_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(FIRST_RADIATION_CONSTANT); - PyDict_SetItemString(d, "FIRST_RADIATION_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_FIRST_RADIATION_CONSTANT); - PyDict_SetItemString(d, "U_FIRST_RADIATION_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(FIRST_RADIATION_CONSTANT_FOR_SPECTRAL_RADIANCE); - PyDict_SetItemString(d, "FIRST_RADIATION_CONSTANT_FOR_SPECTRAL_RADIANCE", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_FIRST_RADIATION_CONSTANT_FOR_SPECTRAL_RADIANCE); - PyDict_SetItemString(d, "U_FIRST_RADIATION_CONSTANT_FOR_SPECTRAL_RADIANCE", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HARTREE_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "HARTREE_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HARTREE_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "U_HARTREE_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HARTREE_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "HARTREE_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HARTREE_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "U_HARTREE_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HARTREE_ENERGY); - PyDict_SetItemString(d, "HARTREE_ENERGY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HARTREE_ENERGY); - PyDict_SetItemString(d, "U_HARTREE_ENERGY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HARTREE_ENERGY_IN_EV); - PyDict_SetItemString(d, "HARTREE_ENERGY_IN_EV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HARTREE_ENERGY_IN_EV); - PyDict_SetItemString(d, "U_HARTREE_ENERGY_IN_EV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HARTREE_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "HARTREE_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HARTREE_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "U_HARTREE_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HARTREE_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "HARTREE_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HARTREE_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "U_HARTREE_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HARTREE_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "HARTREE_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HARTREE_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "U_HARTREE_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HARTREE_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "HARTREE_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HARTREE_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "U_HARTREE_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HARTREE_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "HARTREE_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HARTREE_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "U_HARTREE_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HELION_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "HELION_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HELION_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "U_HELION_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HELION_G_FACTOR); - PyDict_SetItemString(d, "HELION_G_FACTOR", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HELION_G_FACTOR); - PyDict_SetItemString(d, "U_HELION_G_FACTOR", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HELION_MAG__MOM); - PyDict_SetItemString(d, "HELION_MAG__MOM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HELION_MAG__MOM); - PyDict_SetItemString(d, "U_HELION_MAG__MOM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HELION_MASS); - PyDict_SetItemString(d, "HELION_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HELION_MASS); - PyDict_SetItemString(d, "U_HELION_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HELION_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "HELION_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HELION_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "U_HELION_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HELION_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "HELION_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HELION_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "U_HELION_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HELION_MASS_IN_U); - PyDict_SetItemString(d, "HELION_MASS_IN_U", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HELION_MASS_IN_U); - PyDict_SetItemString(d, "U_HELION_MASS_IN_U", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HELION_MOLAR_MASS); - PyDict_SetItemString(d, "HELION_MOLAR_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HELION_MOLAR_MASS); - PyDict_SetItemString(d, "U_HELION_MOLAR_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HELION_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "HELION_PROTON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HELION_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "U_HELION_PROTON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HELION_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "HELION_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HELION_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "U_HELION_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HELION_SHIELDING_SHIFT); - PyDict_SetItemString(d, "HELION_SHIELDING_SHIFT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HELION_SHIELDING_SHIFT); - PyDict_SetItemString(d, "U_HELION_SHIELDING_SHIFT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HERTZ_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "HERTZ_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HERTZ_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "U_HERTZ_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HERTZ_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "HERTZ_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HERTZ_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "U_HERTZ_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HERTZ_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "HERTZ_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HERTZ_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "U_HERTZ_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HERTZ_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "HERTZ_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HERTZ_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "U_HERTZ_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HERTZ_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "HERTZ_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HERTZ_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "U_HERTZ_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HERTZ_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "HERTZ_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HERTZ_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "U_HERTZ_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HERTZ_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "HERTZ_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HERTZ_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "U_HERTZ_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(HYPERFINE_TRANSITION_FREQUENCY_OF_CS_133); - PyDict_SetItemString(d, "HYPERFINE_TRANSITION_FREQUENCY_OF_CS_133", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_HYPERFINE_TRANSITION_FREQUENCY_OF_CS_133); - PyDict_SetItemString(d, "U_HYPERFINE_TRANSITION_FREQUENCY_OF_CS_133", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(INVERSE_FINE_STRUCTURE_CONSTANT); - PyDict_SetItemString(d, "INVERSE_FINE_STRUCTURE_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_INVERSE_FINE_STRUCTURE_CONSTANT); - PyDict_SetItemString(d, "U_INVERSE_FINE_STRUCTURE_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(INVERSE_METER_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "INVERSE_METER_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_INVERSE_METER_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "U_INVERSE_METER_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(INVERSE_METER_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "INVERSE_METER_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_INVERSE_METER_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "U_INVERSE_METER_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(INVERSE_METER_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "INVERSE_METER_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_INVERSE_METER_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "U_INVERSE_METER_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(INVERSE_METER_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "INVERSE_METER_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_INVERSE_METER_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "U_INVERSE_METER_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(INVERSE_METER_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "INVERSE_METER_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_INVERSE_METER_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "U_INVERSE_METER_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(INVERSE_METER_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "INVERSE_METER_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_INVERSE_METER_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "U_INVERSE_METER_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(INVERSE_METER_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "INVERSE_METER_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_INVERSE_METER_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "U_INVERSE_METER_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(INVERSE_OF_CONDUCTANCE_QUANTUM); - PyDict_SetItemString(d, "INVERSE_OF_CONDUCTANCE_QUANTUM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_INVERSE_OF_CONDUCTANCE_QUANTUM); - PyDict_SetItemString(d, "U_INVERSE_OF_CONDUCTANCE_QUANTUM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(JOSEPHSON_CONSTANT); - PyDict_SetItemString(d, "JOSEPHSON_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_JOSEPHSON_CONSTANT); - PyDict_SetItemString(d, "U_JOSEPHSON_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(JOULE_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "JOULE_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_JOULE_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "U_JOULE_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(JOULE_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "JOULE_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_JOULE_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "U_JOULE_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(JOULE_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "JOULE_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_JOULE_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "U_JOULE_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(JOULE_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "JOULE_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_JOULE_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "U_JOULE_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(JOULE_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "JOULE_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_JOULE_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "U_JOULE_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(JOULE_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "JOULE_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_JOULE_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "U_JOULE_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(JOULE_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "JOULE_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_JOULE_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "U_JOULE_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KELVIN_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "KELVIN_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KELVIN_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "U_KELVIN_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KELVIN_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "KELVIN_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KELVIN_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "U_KELVIN_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KELVIN_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "KELVIN_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KELVIN_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "U_KELVIN_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KELVIN_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "KELVIN_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KELVIN_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "U_KELVIN_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KELVIN_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "KELVIN_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KELVIN_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "U_KELVIN_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KELVIN_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "KELVIN_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KELVIN_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "U_KELVIN_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KELVIN_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "KELVIN_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KELVIN_KILOGRAM_RELATIONSHIP); - PyDict_SetItemString(d, "U_KELVIN_KILOGRAM_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KILOGRAM_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "KILOGRAM_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KILOGRAM_ATOMIC_MASS_UNIT_RELATIONSHIP); - PyDict_SetItemString(d, "U_KILOGRAM_ATOMIC_MASS_UNIT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KILOGRAM_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "KILOGRAM_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KILOGRAM_ELECTRON_VOLT_RELATIONSHIP); - PyDict_SetItemString(d, "U_KILOGRAM_ELECTRON_VOLT_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KILOGRAM_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "KILOGRAM_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KILOGRAM_HARTREE_RELATIONSHIP); - PyDict_SetItemString(d, "U_KILOGRAM_HARTREE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KILOGRAM_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "KILOGRAM_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KILOGRAM_HERTZ_RELATIONSHIP); - PyDict_SetItemString(d, "U_KILOGRAM_HERTZ_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KILOGRAM_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "KILOGRAM_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KILOGRAM_INVERSE_METER_RELATIONSHIP); - PyDict_SetItemString(d, "U_KILOGRAM_INVERSE_METER_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KILOGRAM_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "KILOGRAM_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KILOGRAM_JOULE_RELATIONSHIP); - PyDict_SetItemString(d, "U_KILOGRAM_JOULE_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(KILOGRAM_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "KILOGRAM_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_KILOGRAM_KELVIN_RELATIONSHIP); - PyDict_SetItemString(d, "U_KILOGRAM_KELVIN_RELATIONSHIP", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(LATTICE_PARAMETER_OF_SILICON); - PyDict_SetItemString(d, "LATTICE_PARAMETER_OF_SILICON", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_LATTICE_PARAMETER_OF_SILICON); - PyDict_SetItemString(d, "U_LATTICE_PARAMETER_OF_SILICON", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(LATTICE_SPACING_OF_IDEAL_SI__220); - PyDict_SetItemString(d, "LATTICE_SPACING_OF_IDEAL_SI__220", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_LATTICE_SPACING_OF_IDEAL_SI__220); - PyDict_SetItemString(d, "U_LATTICE_SPACING_OF_IDEAL_SI__220", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(LOSCHMIDT_CONSTANT__273_15_K__100_KPA); - PyDict_SetItemString(d, "LOSCHMIDT_CONSTANT__273_15_K__100_KPA", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_LOSCHMIDT_CONSTANT__273_15_K__100_KPA); - PyDict_SetItemString(d, "U_LOSCHMIDT_CONSTANT__273_15_K__100_KPA", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(LOSCHMIDT_CONSTANT__273_15_K__101_325_KPA); - PyDict_SetItemString(d, "LOSCHMIDT_CONSTANT__273_15_K__101_325_KPA", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_LOSCHMIDT_CONSTANT__273_15_K__101_325_KPA); - PyDict_SetItemString(d, "U_LOSCHMIDT_CONSTANT__273_15_K__101_325_KPA", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(LUMINOUS_EFFICACY); - PyDict_SetItemString(d, "LUMINOUS_EFFICACY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_LUMINOUS_EFFICACY); - PyDict_SetItemString(d, "U_LUMINOUS_EFFICACY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MAG__FLUX_QUANTUM); - PyDict_SetItemString(d, "MAG__FLUX_QUANTUM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MAG__FLUX_QUANTUM); - PyDict_SetItemString(d, "U_MAG__FLUX_QUANTUM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MOLAR_GAS_CONSTANT); - PyDict_SetItemString(d, "MOLAR_GAS_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MOLAR_GAS_CONSTANT); - PyDict_SetItemString(d, "U_MOLAR_GAS_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MOLAR_MASS_CONSTANT); - PyDict_SetItemString(d, "MOLAR_MASS_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MOLAR_MASS_CONSTANT); - PyDict_SetItemString(d, "U_MOLAR_MASS_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MOLAR_MASS_OF_CARBON_12); - PyDict_SetItemString(d, "MOLAR_MASS_OF_CARBON_12", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MOLAR_MASS_OF_CARBON_12); - PyDict_SetItemString(d, "U_MOLAR_MASS_OF_CARBON_12", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MOLAR_PLANCK_CONSTANT); - PyDict_SetItemString(d, "MOLAR_PLANCK_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MOLAR_PLANCK_CONSTANT); - PyDict_SetItemString(d, "U_MOLAR_PLANCK_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__100_KPA); - PyDict_SetItemString(d, "MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__100_KPA", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__100_KPA); - PyDict_SetItemString(d, "U_MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__100_KPA", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__101_325_KPA); - PyDict_SetItemString(d, "MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__101_325_KPA", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__101_325_KPA); - PyDict_SetItemString(d, "U_MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__101_325_KPA", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MOLAR_VOLUME_OF_SILICON); - PyDict_SetItemString(d, "MOLAR_VOLUME_OF_SILICON", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MOLAR_VOLUME_OF_SILICON); - PyDict_SetItemString(d, "U_MOLAR_VOLUME_OF_SILICON", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MOLYBDENUM_X_UNIT); - PyDict_SetItemString(d, "MOLYBDENUM_X_UNIT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MOLYBDENUM_X_UNIT); - PyDict_SetItemString(d, "U_MOLYBDENUM_X_UNIT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "MUON_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "U_MUON_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "MUON_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "U_MUON_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_G_FACTOR); - PyDict_SetItemString(d, "MUON_G_FACTOR", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_G_FACTOR); - PyDict_SetItemString(d, "U_MUON_G_FACTOR", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_MAG__MOM); - PyDict_SetItemString(d, "MUON_MAG__MOM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_MAG__MOM); - PyDict_SetItemString(d, "U_MUON_MAG__MOM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_MAG__MOM__ANOMALY); - PyDict_SetItemString(d, "MUON_MAG__MOM__ANOMALY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_MAG__MOM__ANOMALY); - PyDict_SetItemString(d, "U_MUON_MAG__MOM__ANOMALY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "MUON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_MUON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "MUON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_MUON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_MASS); - PyDict_SetItemString(d, "MUON_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_MASS); - PyDict_SetItemString(d, "U_MUON_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "MUON_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "U_MUON_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "MUON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "U_MUON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_MASS_IN_U); - PyDict_SetItemString(d, "MUON_MASS_IN_U", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_MASS_IN_U); - PyDict_SetItemString(d, "U_MUON_MASS_IN_U", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_MOLAR_MASS); - PyDict_SetItemString(d, "MUON_MOLAR_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_MOLAR_MASS); - PyDict_SetItemString(d, "U_MUON_MOLAR_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_NEUTRON_MASS_RATIO); - PyDict_SetItemString(d, "MUON_NEUTRON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_NEUTRON_MASS_RATIO); - PyDict_SetItemString(d, "U_MUON_NEUTRON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "MUON_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_MUON_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "MUON_PROTON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "U_MUON_PROTON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(MUON_TAU_MASS_RATIO); - PyDict_SetItemString(d, "MUON_TAU_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_MUON_TAU_MASS_RATIO); - PyDict_SetItemString(d, "U_MUON_TAU_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NATURAL_UNIT_OF_ACTION); - PyDict_SetItemString(d, "NATURAL_UNIT_OF_ACTION", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_ACTION); - PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_ACTION", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NATURAL_UNIT_OF_ACTION_IN_EV_S); - PyDict_SetItemString(d, "NATURAL_UNIT_OF_ACTION_IN_EV_S", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_ACTION_IN_EV_S); - PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_ACTION_IN_EV_S", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NATURAL_UNIT_OF_ENERGY); - PyDict_SetItemString(d, "NATURAL_UNIT_OF_ENERGY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_ENERGY); - PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_ENERGY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NATURAL_UNIT_OF_ENERGY_IN_MEV); - PyDict_SetItemString(d, "NATURAL_UNIT_OF_ENERGY_IN_MEV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_ENERGY_IN_MEV); - PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_ENERGY_IN_MEV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NATURAL_UNIT_OF_LENGTH); - PyDict_SetItemString(d, "NATURAL_UNIT_OF_LENGTH", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_LENGTH); - PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_LENGTH", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NATURAL_UNIT_OF_MASS); - PyDict_SetItemString(d, "NATURAL_UNIT_OF_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_MASS); - PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NATURAL_UNIT_OF_MOMENTUM); - PyDict_SetItemString(d, "NATURAL_UNIT_OF_MOMENTUM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_MOMENTUM); - PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_MOMENTUM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NATURAL_UNIT_OF_MOMENTUM_IN_MEV_C); - PyDict_SetItemString(d, "NATURAL_UNIT_OF_MOMENTUM_IN_MEV_C", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_MOMENTUM_IN_MEV_C); - PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_MOMENTUM_IN_MEV_C", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NATURAL_UNIT_OF_TIME); - PyDict_SetItemString(d, "NATURAL_UNIT_OF_TIME", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_TIME); - PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_TIME", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NATURAL_UNIT_OF_VELOCITY); - PyDict_SetItemString(d, "NATURAL_UNIT_OF_VELOCITY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_VELOCITY); - PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_VELOCITY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "NEUTRON_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "U_NEUTRON_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_ELECTRON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "NEUTRON_ELECTRON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_ELECTRON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_NEUTRON_ELECTRON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "NEUTRON_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "U_NEUTRON_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_G_FACTOR); - PyDict_SetItemString(d, "NEUTRON_G_FACTOR", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_G_FACTOR); - PyDict_SetItemString(d, "U_NEUTRON_G_FACTOR", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_GYROMAG__RATIO); - PyDict_SetItemString(d, "NEUTRON_GYROMAG__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_GYROMAG__RATIO); - PyDict_SetItemString(d, "U_NEUTRON_GYROMAG__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_GYROMAG__RATIO_IN_MHZ_T); - PyDict_SetItemString(d, "NEUTRON_GYROMAG__RATIO_IN_MHZ_T", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_GYROMAG__RATIO_IN_MHZ_T); - PyDict_SetItemString(d, "U_NEUTRON_GYROMAG__RATIO_IN_MHZ_T", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_MAG__MOM); - PyDict_SetItemString(d, "NEUTRON_MAG__MOM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_MAG__MOM); - PyDict_SetItemString(d, "U_NEUTRON_MAG__MOM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "NEUTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_NEUTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "NEUTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_NEUTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_MASS); - PyDict_SetItemString(d, "NEUTRON_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_MASS); - PyDict_SetItemString(d, "U_NEUTRON_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "NEUTRON_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "U_NEUTRON_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "NEUTRON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "U_NEUTRON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_MASS_IN_U); - PyDict_SetItemString(d, "NEUTRON_MASS_IN_U", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_MASS_IN_U); - PyDict_SetItemString(d, "U_NEUTRON_MASS_IN_U", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_MOLAR_MASS); - PyDict_SetItemString(d, "NEUTRON_MOLAR_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_MOLAR_MASS); - PyDict_SetItemString(d, "U_NEUTRON_MOLAR_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_MUON_MASS_RATIO); - PyDict_SetItemString(d, "NEUTRON_MUON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_MUON_MASS_RATIO); - PyDict_SetItemString(d, "U_NEUTRON_MUON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "NEUTRON_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_NEUTRON_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_PROTON_MASS_DIFFERENCE); - PyDict_SetItemString(d, "NEUTRON_PROTON_MASS_DIFFERENCE", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_PROTON_MASS_DIFFERENCE); - PyDict_SetItemString(d, "U_NEUTRON_PROTON_MASS_DIFFERENCE", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "U_NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "U_NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_PROTON_MASS_DIFFERENCE_IN_U); - PyDict_SetItemString(d, "NEUTRON_PROTON_MASS_DIFFERENCE_IN_U", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_PROTON_MASS_DIFFERENCE_IN_U); - PyDict_SetItemString(d, "U_NEUTRON_PROTON_MASS_DIFFERENCE_IN_U", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "NEUTRON_PROTON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "U_NEUTRON_PROTON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "NEUTRON_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "U_NEUTRON_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_TAU_MASS_RATIO); - PyDict_SetItemString(d, "NEUTRON_TAU_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_TAU_MASS_RATIO); - PyDict_SetItemString(d, "U_NEUTRON_TAU_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEUTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "NEUTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEUTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_NEUTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEWTONIAN_CONSTANT_OF_GRAVITATION); - PyDict_SetItemString(d, "NEWTONIAN_CONSTANT_OF_GRAVITATION", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEWTONIAN_CONSTANT_OF_GRAVITATION); - PyDict_SetItemString(d, "U_NEWTONIAN_CONSTANT_OF_GRAVITATION", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NEWTONIAN_CONSTANT_OF_GRAVITATION_OVER_H_BAR_C); - PyDict_SetItemString(d, "NEWTONIAN_CONSTANT_OF_GRAVITATION_OVER_H_BAR_C", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NEWTONIAN_CONSTANT_OF_GRAVITATION_OVER_H_BAR_C); - PyDict_SetItemString(d, "U_NEWTONIAN_CONSTANT_OF_GRAVITATION_OVER_H_BAR_C", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NUCLEAR_MAGNETON); - PyDict_SetItemString(d, "NUCLEAR_MAGNETON", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NUCLEAR_MAGNETON); - PyDict_SetItemString(d, "U_NUCLEAR_MAGNETON", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NUCLEAR_MAGNETON_IN_EV_T); - PyDict_SetItemString(d, "NUCLEAR_MAGNETON_IN_EV_T", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NUCLEAR_MAGNETON_IN_EV_T); - PyDict_SetItemString(d, "U_NUCLEAR_MAGNETON_IN_EV_T", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NUCLEAR_MAGNETON_IN_INVERSE_METER_PER_TESLA); - PyDict_SetItemString(d, "NUCLEAR_MAGNETON_IN_INVERSE_METER_PER_TESLA", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NUCLEAR_MAGNETON_IN_INVERSE_METER_PER_TESLA); - PyDict_SetItemString(d, "U_NUCLEAR_MAGNETON_IN_INVERSE_METER_PER_TESLA", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NUCLEAR_MAGNETON_IN_K_T); - PyDict_SetItemString(d, "NUCLEAR_MAGNETON_IN_K_T", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NUCLEAR_MAGNETON_IN_K_T); - PyDict_SetItemString(d, "U_NUCLEAR_MAGNETON_IN_K_T", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(NUCLEAR_MAGNETON_IN_MHZ_T); - PyDict_SetItemString(d, "NUCLEAR_MAGNETON_IN_MHZ_T", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_NUCLEAR_MAGNETON_IN_MHZ_T); - PyDict_SetItemString(d, "U_NUCLEAR_MAGNETON_IN_MHZ_T", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PLANCK_CONSTANT); - PyDict_SetItemString(d, "PLANCK_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PLANCK_CONSTANT); - PyDict_SetItemString(d, "U_PLANCK_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PLANCK_CONSTANT_IN_EV_HZ); - PyDict_SetItemString(d, "PLANCK_CONSTANT_IN_EV_HZ", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PLANCK_CONSTANT_IN_EV_HZ); - PyDict_SetItemString(d, "U_PLANCK_CONSTANT_IN_EV_HZ", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PLANCK_LENGTH); - PyDict_SetItemString(d, "PLANCK_LENGTH", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PLANCK_LENGTH); - PyDict_SetItemString(d, "U_PLANCK_LENGTH", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PLANCK_MASS); - PyDict_SetItemString(d, "PLANCK_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PLANCK_MASS); - PyDict_SetItemString(d, "U_PLANCK_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PLANCK_MASS_ENERGY_EQUIVALENT_IN_GEV); - PyDict_SetItemString(d, "PLANCK_MASS_ENERGY_EQUIVALENT_IN_GEV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PLANCK_MASS_ENERGY_EQUIVALENT_IN_GEV); - PyDict_SetItemString(d, "U_PLANCK_MASS_ENERGY_EQUIVALENT_IN_GEV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PLANCK_TEMPERATURE); - PyDict_SetItemString(d, "PLANCK_TEMPERATURE", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PLANCK_TEMPERATURE); - PyDict_SetItemString(d, "U_PLANCK_TEMPERATURE", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PLANCK_TIME); - PyDict_SetItemString(d, "PLANCK_TIME", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PLANCK_TIME); - PyDict_SetItemString(d, "U_PLANCK_TIME", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_CHARGE_TO_MASS_QUOTIENT); - PyDict_SetItemString(d, "PROTON_CHARGE_TO_MASS_QUOTIENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_CHARGE_TO_MASS_QUOTIENT); - PyDict_SetItemString(d, "U_PROTON_CHARGE_TO_MASS_QUOTIENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "PROTON_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "U_PROTON_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "PROTON_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "U_PROTON_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_G_FACTOR); - PyDict_SetItemString(d, "PROTON_G_FACTOR", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_G_FACTOR); - PyDict_SetItemString(d, "U_PROTON_G_FACTOR", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_GYROMAG__RATIO); - PyDict_SetItemString(d, "PROTON_GYROMAG__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_GYROMAG__RATIO); - PyDict_SetItemString(d, "U_PROTON_GYROMAG__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_GYROMAG__RATIO_IN_MHZ_T); - PyDict_SetItemString(d, "PROTON_GYROMAG__RATIO_IN_MHZ_T", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_GYROMAG__RATIO_IN_MHZ_T); - PyDict_SetItemString(d, "U_PROTON_GYROMAG__RATIO_IN_MHZ_T", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_MAG__MOM); - PyDict_SetItemString(d, "PROTON_MAG__MOM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_MAG__MOM); - PyDict_SetItemString(d, "U_PROTON_MAG__MOM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_MAG__SHIELDING_CORRECTION); - PyDict_SetItemString(d, "PROTON_MAG__SHIELDING_CORRECTION", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_MAG__SHIELDING_CORRECTION); - PyDict_SetItemString(d, "U_PROTON_MAG__SHIELDING_CORRECTION", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_MASS); - PyDict_SetItemString(d, "PROTON_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_MASS); - PyDict_SetItemString(d, "U_PROTON_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "PROTON_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "U_PROTON_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "PROTON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "U_PROTON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_MASS_IN_U); - PyDict_SetItemString(d, "PROTON_MASS_IN_U", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_MASS_IN_U); - PyDict_SetItemString(d, "U_PROTON_MASS_IN_U", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_MOLAR_MASS); - PyDict_SetItemString(d, "PROTON_MOLAR_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_MOLAR_MASS); - PyDict_SetItemString(d, "U_PROTON_MOLAR_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_MUON_MASS_RATIO); - PyDict_SetItemString(d, "PROTON_MUON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_MUON_MASS_RATIO); - PyDict_SetItemString(d, "U_PROTON_MUON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_NEUTRON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "PROTON_NEUTRON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_NEUTRON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_PROTON_NEUTRON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_NEUTRON_MASS_RATIO); - PyDict_SetItemString(d, "PROTON_NEUTRON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_NEUTRON_MASS_RATIO); - PyDict_SetItemString(d, "U_PROTON_NEUTRON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "PROTON_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "U_PROTON_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_RMS_CHARGE_RADIUS); - PyDict_SetItemString(d, "PROTON_RMS_CHARGE_RADIUS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_RMS_CHARGE_RADIUS); - PyDict_SetItemString(d, "U_PROTON_RMS_CHARGE_RADIUS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(PROTON_TAU_MASS_RATIO); - PyDict_SetItemString(d, "PROTON_TAU_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_PROTON_TAU_MASS_RATIO); - PyDict_SetItemString(d, "U_PROTON_TAU_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(QUANTUM_OF_CIRCULATION); - PyDict_SetItemString(d, "QUANTUM_OF_CIRCULATION", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_QUANTUM_OF_CIRCULATION); - PyDict_SetItemString(d, "U_QUANTUM_OF_CIRCULATION", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(QUANTUM_OF_CIRCULATION_TIMES_2); - PyDict_SetItemString(d, "QUANTUM_OF_CIRCULATION_TIMES_2", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_QUANTUM_OF_CIRCULATION_TIMES_2); - PyDict_SetItemString(d, "U_QUANTUM_OF_CIRCULATION_TIMES_2", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(REDUCED_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "REDUCED_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_REDUCED_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "U_REDUCED_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(REDUCED_MUON_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "REDUCED_MUON_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_REDUCED_MUON_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "U_REDUCED_MUON_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(REDUCED_NEUTRON_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "REDUCED_NEUTRON_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_REDUCED_NEUTRON_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "U_REDUCED_NEUTRON_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(REDUCED_PLANCK_CONSTANT); - PyDict_SetItemString(d, "REDUCED_PLANCK_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_REDUCED_PLANCK_CONSTANT); - PyDict_SetItemString(d, "U_REDUCED_PLANCK_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(REDUCED_PLANCK_CONSTANT_IN_EV_S); - PyDict_SetItemString(d, "REDUCED_PLANCK_CONSTANT_IN_EV_S", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_REDUCED_PLANCK_CONSTANT_IN_EV_S); - PyDict_SetItemString(d, "U_REDUCED_PLANCK_CONSTANT_IN_EV_S", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(REDUCED_PLANCK_CONSTANT_TIMES_C_IN_MEV_FM); - PyDict_SetItemString(d, "REDUCED_PLANCK_CONSTANT_TIMES_C_IN_MEV_FM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_REDUCED_PLANCK_CONSTANT_TIMES_C_IN_MEV_FM); - PyDict_SetItemString(d, "U_REDUCED_PLANCK_CONSTANT_TIMES_C_IN_MEV_FM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(REDUCED_PROTON_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "REDUCED_PROTON_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_REDUCED_PROTON_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "U_REDUCED_PROTON_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(REDUCED_TAU_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "REDUCED_TAU_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_REDUCED_TAU_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "U_REDUCED_TAU_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(RYDBERG_CONSTANT); - PyDict_SetItemString(d, "RYDBERG_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_RYDBERG_CONSTANT); - PyDict_SetItemString(d, "U_RYDBERG_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(RYDBERG_CONSTANT_TIMES_C_IN_HZ); - PyDict_SetItemString(d, "RYDBERG_CONSTANT_TIMES_C_IN_HZ", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_RYDBERG_CONSTANT_TIMES_C_IN_HZ); - PyDict_SetItemString(d, "U_RYDBERG_CONSTANT_TIMES_C_IN_HZ", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(RYDBERG_CONSTANT_TIMES_HC_IN_EV); - PyDict_SetItemString(d, "RYDBERG_CONSTANT_TIMES_HC_IN_EV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_RYDBERG_CONSTANT_TIMES_HC_IN_EV); - PyDict_SetItemString(d, "U_RYDBERG_CONSTANT_TIMES_HC_IN_EV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(RYDBERG_CONSTANT_TIMES_HC_IN_J); - PyDict_SetItemString(d, "RYDBERG_CONSTANT_TIMES_HC_IN_J", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_RYDBERG_CONSTANT_TIMES_HC_IN_J); - PyDict_SetItemString(d, "U_RYDBERG_CONSTANT_TIMES_HC_IN_J", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SACKUR_TETRODE_CONSTANT__1_K__100_KPA); - PyDict_SetItemString(d, "SACKUR_TETRODE_CONSTANT__1_K__100_KPA", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SACKUR_TETRODE_CONSTANT__1_K__100_KPA); - PyDict_SetItemString(d, "U_SACKUR_TETRODE_CONSTANT__1_K__100_KPA", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SACKUR_TETRODE_CONSTANT__1_K__101_325_KPA); - PyDict_SetItemString(d, "SACKUR_TETRODE_CONSTANT__1_K__101_325_KPA", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SACKUR_TETRODE_CONSTANT__1_K__101_325_KPA); - PyDict_SetItemString(d, "U_SACKUR_TETRODE_CONSTANT__1_K__101_325_KPA", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SECOND_RADIATION_CONSTANT); - PyDict_SetItemString(d, "SECOND_RADIATION_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SECOND_RADIATION_CONSTANT); - PyDict_SetItemString(d, "U_SECOND_RADIATION_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDED_HELION_GYROMAG__RATIO); - PyDict_SetItemString(d, "SHIELDED_HELION_GYROMAG__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDED_HELION_GYROMAG__RATIO); - PyDict_SetItemString(d, "U_SHIELDED_HELION_GYROMAG__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDED_HELION_GYROMAG__RATIO_IN_MHZ_T); - PyDict_SetItemString(d, "SHIELDED_HELION_GYROMAG__RATIO_IN_MHZ_T", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDED_HELION_GYROMAG__RATIO_IN_MHZ_T); - PyDict_SetItemString(d, "U_SHIELDED_HELION_GYROMAG__RATIO_IN_MHZ_T", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDED_HELION_MAG__MOM); - PyDict_SetItemString(d, "SHIELDED_HELION_MAG__MOM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDED_HELION_MAG__MOM); - PyDict_SetItemString(d, "U_SHIELDED_HELION_MAG__MOM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDED_HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "SHIELDED_HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDED_HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_SHIELDED_HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDED_HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "SHIELDED_HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDED_HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_SHIELDED_HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDED_HELION_TO_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "SHIELDED_HELION_TO_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDED_HELION_TO_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_SHIELDED_HELION_TO_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDED_HELION_TO_SHIELDED_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "SHIELDED_HELION_TO_SHIELDED_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDED_HELION_TO_SHIELDED_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_SHIELDED_HELION_TO_SHIELDED_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDED_PROTON_GYROMAG__RATIO); - PyDict_SetItemString(d, "SHIELDED_PROTON_GYROMAG__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDED_PROTON_GYROMAG__RATIO); - PyDict_SetItemString(d, "U_SHIELDED_PROTON_GYROMAG__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDED_PROTON_GYROMAG__RATIO_IN_MHZ_T); - PyDict_SetItemString(d, "SHIELDED_PROTON_GYROMAG__RATIO_IN_MHZ_T", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDED_PROTON_GYROMAG__RATIO_IN_MHZ_T); - PyDict_SetItemString(d, "U_SHIELDED_PROTON_GYROMAG__RATIO_IN_MHZ_T", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDED_PROTON_MAG__MOM); - PyDict_SetItemString(d, "SHIELDED_PROTON_MAG__MOM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDED_PROTON_MAG__MOM); - PyDict_SetItemString(d, "U_SHIELDED_PROTON_MAG__MOM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDED_PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "SHIELDED_PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDED_PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_SHIELDED_PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDED_PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "SHIELDED_PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDED_PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_SHIELDED_PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDING_DIFFERENCE_OF_D_AND_P_IN_HD); - PyDict_SetItemString(d, "SHIELDING_DIFFERENCE_OF_D_AND_P_IN_HD", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDING_DIFFERENCE_OF_D_AND_P_IN_HD); - PyDict_SetItemString(d, "U_SHIELDING_DIFFERENCE_OF_D_AND_P_IN_HD", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SHIELDING_DIFFERENCE_OF_T_AND_P_IN_HT); - PyDict_SetItemString(d, "SHIELDING_DIFFERENCE_OF_T_AND_P_IN_HT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SHIELDING_DIFFERENCE_OF_T_AND_P_IN_HT); - PyDict_SetItemString(d, "U_SHIELDING_DIFFERENCE_OF_T_AND_P_IN_HT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(SPEED_OF_LIGHT_IN_VACUUM); - PyDict_SetItemString(d, "SPEED_OF_LIGHT_IN_VACUUM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_SPEED_OF_LIGHT_IN_VACUUM); - PyDict_SetItemString(d, "U_SPEED_OF_LIGHT_IN_VACUUM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(STANDARD_ACCELERATION_OF_GRAVITY); - PyDict_SetItemString(d, "STANDARD_ACCELERATION_OF_GRAVITY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_STANDARD_ACCELERATION_OF_GRAVITY); - PyDict_SetItemString(d, "U_STANDARD_ACCELERATION_OF_GRAVITY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(STANDARD_ATMOSPHERE); - PyDict_SetItemString(d, "STANDARD_ATMOSPHERE", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_STANDARD_ATMOSPHERE); - PyDict_SetItemString(d, "U_STANDARD_ATMOSPHERE", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(STANDARD_STATE_PRESSURE); - PyDict_SetItemString(d, "STANDARD_STATE_PRESSURE", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_STANDARD_STATE_PRESSURE); - PyDict_SetItemString(d, "U_STANDARD_STATE_PRESSURE", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(STEFAN_BOLTZMANN_CONSTANT); - PyDict_SetItemString(d, "STEFAN_BOLTZMANN_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_STEFAN_BOLTZMANN_CONSTANT); - PyDict_SetItemString(d, "U_STEFAN_BOLTZMANN_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TAU_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "TAU_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TAU_COMPTON_WAVELENGTH); - PyDict_SetItemString(d, "U_TAU_COMPTON_WAVELENGTH", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TAU_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "TAU_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TAU_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "U_TAU_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TAU_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "TAU_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TAU_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "U_TAU_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TAU_MASS); - PyDict_SetItemString(d, "TAU_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TAU_MASS); - PyDict_SetItemString(d, "U_TAU_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TAU_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "TAU_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TAU_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "U_TAU_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TAU_MASS_IN_U); - PyDict_SetItemString(d, "TAU_MASS_IN_U", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TAU_MASS_IN_U); - PyDict_SetItemString(d, "U_TAU_MASS_IN_U", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TAU_MOLAR_MASS); - PyDict_SetItemString(d, "TAU_MOLAR_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TAU_MOLAR_MASS); - PyDict_SetItemString(d, "U_TAU_MOLAR_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TAU_MUON_MASS_RATIO); - PyDict_SetItemString(d, "TAU_MUON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TAU_MUON_MASS_RATIO); - PyDict_SetItemString(d, "U_TAU_MUON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TAU_NEUTRON_MASS_RATIO); - PyDict_SetItemString(d, "TAU_NEUTRON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TAU_NEUTRON_MASS_RATIO); - PyDict_SetItemString(d, "U_TAU_NEUTRON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TAU_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "TAU_PROTON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TAU_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "U_TAU_PROTON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(THOMSON_CROSS_SECTION); - PyDict_SetItemString(d, "THOMSON_CROSS_SECTION", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_THOMSON_CROSS_SECTION); - PyDict_SetItemString(d, "U_THOMSON_CROSS_SECTION", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TRITON_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "TRITON_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TRITON_ELECTRON_MASS_RATIO); - PyDict_SetItemString(d, "U_TRITON_ELECTRON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TRITON_G_FACTOR); - PyDict_SetItemString(d, "TRITON_G_FACTOR", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TRITON_G_FACTOR); - PyDict_SetItemString(d, "U_TRITON_G_FACTOR", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TRITON_MAG__MOM); - PyDict_SetItemString(d, "TRITON_MAG__MOM", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TRITON_MAG__MOM); - PyDict_SetItemString(d, "U_TRITON_MAG__MOM", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TRITON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "TRITON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TRITON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_TRITON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TRITON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "TRITON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TRITON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); - PyDict_SetItemString(d, "U_TRITON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TRITON_MASS); - PyDict_SetItemString(d, "TRITON_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TRITON_MASS); - PyDict_SetItemString(d, "U_TRITON_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TRITON_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "TRITON_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TRITON_MASS_ENERGY_EQUIVALENT); - PyDict_SetItemString(d, "U_TRITON_MASS_ENERGY_EQUIVALENT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TRITON_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "TRITON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TRITON_MASS_ENERGY_EQUIVALENT_IN_MEV); - PyDict_SetItemString(d, "U_TRITON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TRITON_MASS_IN_U); - PyDict_SetItemString(d, "TRITON_MASS_IN_U", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TRITON_MASS_IN_U); - PyDict_SetItemString(d, "U_TRITON_MASS_IN_U", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TRITON_MOLAR_MASS); - PyDict_SetItemString(d, "TRITON_MOLAR_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TRITON_MOLAR_MASS); - PyDict_SetItemString(d, "U_TRITON_MOLAR_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TRITON_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "TRITON_PROTON_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TRITON_PROTON_MASS_RATIO); - PyDict_SetItemString(d, "U_TRITON_PROTON_MASS_RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TRITON_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "TRITON_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TRITON_RELATIVE_ATOMIC_MASS); - PyDict_SetItemString(d, "U_TRITON_RELATIVE_ATOMIC_MASS", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(TRITON_TO_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "TRITON_TO_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_TRITON_TO_PROTON_MAG__MOM__RATIO); - PyDict_SetItemString(d, "U_TRITON_TO_PROTON_MAG__MOM__RATIO", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(UNIFIED_ATOMIC_MASS_UNIT); - PyDict_SetItemString(d, "UNIFIED_ATOMIC_MASS_UNIT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_UNIFIED_ATOMIC_MASS_UNIT); - PyDict_SetItemString(d, "U_UNIFIED_ATOMIC_MASS_UNIT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(VACUUM_ELECTRIC_PERMITTIVITY); - PyDict_SetItemString(d, "VACUUM_ELECTRIC_PERMITTIVITY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_VACUUM_ELECTRIC_PERMITTIVITY); - PyDict_SetItemString(d, "U_VACUUM_ELECTRIC_PERMITTIVITY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(VACUUM_MAG__PERMEABILITY); - PyDict_SetItemString(d, "VACUUM_MAG__PERMEABILITY", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_VACUUM_MAG__PERMEABILITY); - PyDict_SetItemString(d, "U_VACUUM_MAG__PERMEABILITY", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(VON_KLITZING_CONSTANT); - PyDict_SetItemString(d, "VON_KLITZING_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_VON_KLITZING_CONSTANT); - PyDict_SetItemString(d, "U_VON_KLITZING_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(WEAK_MIXING_ANGLE); - PyDict_SetItemString(d, "WEAK_MIXING_ANGLE", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_WEAK_MIXING_ANGLE); - PyDict_SetItemString(d, "U_WEAK_MIXING_ANGLE", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(WIEN_FREQUENCY_DISPLACEMENT_LAW_CONSTANT); - PyDict_SetItemString(d, "WIEN_FREQUENCY_DISPLACEMENT_LAW_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_WIEN_FREQUENCY_DISPLACEMENT_LAW_CONSTANT); - PyDict_SetItemString(d, "U_WIEN_FREQUENCY_DISPLACEMENT_LAW_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(WIEN_WAVELENGTH_DISPLACEMENT_LAW_CONSTANT); - PyDict_SetItemString(d, "WIEN_WAVELENGTH_DISPLACEMENT_LAW_CONSTANT", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_WIEN_WAVELENGTH_DISPLACEMENT_LAW_CONSTANT); - PyDict_SetItemString(d, "U_WIEN_WAVELENGTH_DISPLACEMENT_LAW_CONSTANT", v); - Py_INCREF(v); - - v = PyFloat_FromDouble(W_TO_Z_MASS_RATIO); - PyDict_SetItemString(d, "W_TO_Z_MASS_RATIO", v); - Py_INCREF(v); - v = PyFloat_FromDouble(U_W_TO_Z_MASS_RATIO); - PyDict_SetItemString(d, "U_W_TO_Z_MASS_RATIO", v); - Py_INCREF(v); - - return m; -} \ No newline at end of file + PyObject *m; + PyObject *d; + PyObject *v; + m = PyModule_Create(&codata); + d = PyModule_GetDict(m); + + v = PyLong_FromLong(YEAR); + PyDict_SetItemString(d, "YEAR", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ALPHA_PARTICLE_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "ALPHA_PARTICLE_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ALPHA_PARTICLE_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "U_ALPHA_PARTICLE_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ALPHA_PARTICLE_MASS); + PyDict_SetItemString(d, "ALPHA_PARTICLE_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ALPHA_PARTICLE_MASS); + PyDict_SetItemString(d, "U_ALPHA_PARTICLE_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "U_ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "U_ALPHA_PARTICLE_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ALPHA_PARTICLE_MASS_IN_U); + PyDict_SetItemString(d, "ALPHA_PARTICLE_MASS_IN_U", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ALPHA_PARTICLE_MASS_IN_U); + PyDict_SetItemString(d, "U_ALPHA_PARTICLE_MASS_IN_U", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ALPHA_PARTICLE_MOLAR_MASS); + PyDict_SetItemString(d, "ALPHA_PARTICLE_MOLAR_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ALPHA_PARTICLE_MOLAR_MASS); + PyDict_SetItemString(d, "U_ALPHA_PARTICLE_MOLAR_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ALPHA_PARTICLE_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "ALPHA_PARTICLE_PROTON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ALPHA_PARTICLE_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "U_ALPHA_PARTICLE_PROTON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ALPHA_PARTICLE_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "ALPHA_PARTICLE_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ALPHA_PARTICLE_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "U_ALPHA_PARTICLE_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ANGSTROM_STAR); + PyDict_SetItemString(d, "ANGSTROM_STAR", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ANGSTROM_STAR); + PyDict_SetItemString(d, "U_ANGSTROM_STAR", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_MASS_CONSTANT); + PyDict_SetItemString(d, "ATOMIC_MASS_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_MASS_CONSTANT); + PyDict_SetItemString(d, "U_ATOMIC_MASS_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "U_ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "U_ATOMIC_MASS_CONSTANT_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_MASS_UNIT_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "ATOMIC_MASS_UNIT_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_MASS_UNIT_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "U_ATOMIC_MASS_UNIT_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_1ST_HYPERPOLARIZABILITY); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_1ST_HYPERPOLARIZABILITY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_1ST_HYPERPOLARIZABILITY); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_1ST_HYPERPOLARIZABILITY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_2ND_HYPERPOLARIZABILITY); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_2ND_HYPERPOLARIZABILITY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_2ND_HYPERPOLARIZABILITY); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_2ND_HYPERPOLARIZABILITY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ACTION); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ACTION", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ACTION); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ACTION", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_CHARGE); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_CHARGE", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_CHARGE); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_CHARGE", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_CHARGE_DENSITY); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_CHARGE_DENSITY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_CHARGE_DENSITY); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_CHARGE_DENSITY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_CURRENT); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_CURRENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_CURRENT); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_CURRENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ELECTRIC_DIPOLE_MOM); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ELECTRIC_DIPOLE_MOM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ELECTRIC_DIPOLE_MOM); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ELECTRIC_DIPOLE_MOM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ELECTRIC_FIELD); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ELECTRIC_FIELD", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ELECTRIC_FIELD); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ELECTRIC_FIELD", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ELECTRIC_FIELD_GRADIENT); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ELECTRIC_FIELD_GRADIENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ELECTRIC_FIELD_GRADIENT); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ELECTRIC_FIELD_GRADIENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ELECTRIC_POLARIZABILITY); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ELECTRIC_POLARIZABILITY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ELECTRIC_POLARIZABILITY); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ELECTRIC_POLARIZABILITY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ELECTRIC_POTENTIAL); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ELECTRIC_POTENTIAL", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ELECTRIC_POTENTIAL); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ELECTRIC_POTENTIAL", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ELECTRIC_QUADRUPOLE_MOM); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ELECTRIC_QUADRUPOLE_MOM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ELECTRIC_QUADRUPOLE_MOM); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ELECTRIC_QUADRUPOLE_MOM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_ENERGY); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_ENERGY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_ENERGY); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_ENERGY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_FORCE); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_FORCE", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_FORCE); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_FORCE", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_LENGTH); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_LENGTH", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_LENGTH); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_LENGTH", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_MAG__DIPOLE_MOM); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_MAG__DIPOLE_MOM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_MAG__DIPOLE_MOM); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_MAG__DIPOLE_MOM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_MAG__FLUX_DENSITY); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_MAG__FLUX_DENSITY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_MAG__FLUX_DENSITY); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_MAG__FLUX_DENSITY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_MAGNETIZABILITY); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_MAGNETIZABILITY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_MAGNETIZABILITY); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_MAGNETIZABILITY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_MASS); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_MASS); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_MOMENTUM); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_MOMENTUM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_MOMENTUM); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_MOMENTUM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_PERMITTIVITY); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_PERMITTIVITY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_PERMITTIVITY); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_PERMITTIVITY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_TIME); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_TIME", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_TIME); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_TIME", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ATOMIC_UNIT_OF_VELOCITY); + PyDict_SetItemString(d, "ATOMIC_UNIT_OF_VELOCITY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ATOMIC_UNIT_OF_VELOCITY); + PyDict_SetItemString(d, "U_ATOMIC_UNIT_OF_VELOCITY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(AVOGADRO_CONSTANT); + PyDict_SetItemString(d, "AVOGADRO_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_AVOGADRO_CONSTANT); + PyDict_SetItemString(d, "U_AVOGADRO_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(BOHR_MAGNETON); + PyDict_SetItemString(d, "BOHR_MAGNETON", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_BOHR_MAGNETON); + PyDict_SetItemString(d, "U_BOHR_MAGNETON", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(BOHR_MAGNETON_IN_EV_T); + PyDict_SetItemString(d, "BOHR_MAGNETON_IN_EV_T", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_BOHR_MAGNETON_IN_EV_T); + PyDict_SetItemString(d, "U_BOHR_MAGNETON_IN_EV_T", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(BOHR_MAGNETON_IN_HZ_T); + PyDict_SetItemString(d, "BOHR_MAGNETON_IN_HZ_T", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_BOHR_MAGNETON_IN_HZ_T); + PyDict_SetItemString(d, "U_BOHR_MAGNETON_IN_HZ_T", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(BOHR_MAGNETON_IN_INVERSE_METER_PER_TESLA); + PyDict_SetItemString(d, "BOHR_MAGNETON_IN_INVERSE_METER_PER_TESLA", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_BOHR_MAGNETON_IN_INVERSE_METER_PER_TESLA); + PyDict_SetItemString(d, "U_BOHR_MAGNETON_IN_INVERSE_METER_PER_TESLA", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(BOHR_MAGNETON_IN_K_T); + PyDict_SetItemString(d, "BOHR_MAGNETON_IN_K_T", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_BOHR_MAGNETON_IN_K_T); + PyDict_SetItemString(d, "U_BOHR_MAGNETON_IN_K_T", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(BOHR_RADIUS); + PyDict_SetItemString(d, "BOHR_RADIUS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_BOHR_RADIUS); + PyDict_SetItemString(d, "U_BOHR_RADIUS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(BOLTZMANN_CONSTANT); + PyDict_SetItemString(d, "BOLTZMANN_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_BOLTZMANN_CONSTANT); + PyDict_SetItemString(d, "U_BOLTZMANN_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(BOLTZMANN_CONSTANT_IN_EV_K); + PyDict_SetItemString(d, "BOLTZMANN_CONSTANT_IN_EV_K", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_BOLTZMANN_CONSTANT_IN_EV_K); + PyDict_SetItemString(d, "U_BOLTZMANN_CONSTANT_IN_EV_K", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(BOLTZMANN_CONSTANT_IN_HZ_K); + PyDict_SetItemString(d, "BOLTZMANN_CONSTANT_IN_HZ_K", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_BOLTZMANN_CONSTANT_IN_HZ_K); + PyDict_SetItemString(d, "U_BOLTZMANN_CONSTANT_IN_HZ_K", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(BOLTZMANN_CONSTANT_IN_INVERSE_METER_PER_KELVIN); + PyDict_SetItemString(d, "BOLTZMANN_CONSTANT_IN_INVERSE_METER_PER_KELVIN", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_BOLTZMANN_CONSTANT_IN_INVERSE_METER_PER_KELVIN); + PyDict_SetItemString(d, "U_BOLTZMANN_CONSTANT_IN_INVERSE_METER_PER_KELVIN", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(CHARACTERISTIC_IMPEDANCE_OF_VACUUM); + PyDict_SetItemString(d, "CHARACTERISTIC_IMPEDANCE_OF_VACUUM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_CHARACTERISTIC_IMPEDANCE_OF_VACUUM); + PyDict_SetItemString(d, "U_CHARACTERISTIC_IMPEDANCE_OF_VACUUM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(CLASSICAL_ELECTRON_RADIUS); + PyDict_SetItemString(d, "CLASSICAL_ELECTRON_RADIUS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_CLASSICAL_ELECTRON_RADIUS); + PyDict_SetItemString(d, "U_CLASSICAL_ELECTRON_RADIUS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "COMPTON_WAVELENGTH", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "U_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(CONDUCTANCE_QUANTUM); + PyDict_SetItemString(d, "CONDUCTANCE_QUANTUM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_CONDUCTANCE_QUANTUM); + PyDict_SetItemString(d, "U_CONDUCTANCE_QUANTUM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(CONVENTIONAL_VALUE_OF_AMPERE_90); + PyDict_SetItemString(d, "CONVENTIONAL_VALUE_OF_AMPERE_90", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_CONVENTIONAL_VALUE_OF_AMPERE_90); + PyDict_SetItemString(d, "U_CONVENTIONAL_VALUE_OF_AMPERE_90", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(CONVENTIONAL_VALUE_OF_COULOMB_90); + PyDict_SetItemString(d, "CONVENTIONAL_VALUE_OF_COULOMB_90", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_CONVENTIONAL_VALUE_OF_COULOMB_90); + PyDict_SetItemString(d, "U_CONVENTIONAL_VALUE_OF_COULOMB_90", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(CONVENTIONAL_VALUE_OF_FARAD_90); + PyDict_SetItemString(d, "CONVENTIONAL_VALUE_OF_FARAD_90", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_CONVENTIONAL_VALUE_OF_FARAD_90); + PyDict_SetItemString(d, "U_CONVENTIONAL_VALUE_OF_FARAD_90", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(CONVENTIONAL_VALUE_OF_HENRY_90); + PyDict_SetItemString(d, "CONVENTIONAL_VALUE_OF_HENRY_90", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_CONVENTIONAL_VALUE_OF_HENRY_90); + PyDict_SetItemString(d, "U_CONVENTIONAL_VALUE_OF_HENRY_90", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(CONVENTIONAL_VALUE_OF_JOSEPHSON_CONSTANT); + PyDict_SetItemString(d, "CONVENTIONAL_VALUE_OF_JOSEPHSON_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_CONVENTIONAL_VALUE_OF_JOSEPHSON_CONSTANT); + PyDict_SetItemString(d, "U_CONVENTIONAL_VALUE_OF_JOSEPHSON_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(CONVENTIONAL_VALUE_OF_OHM_90); + PyDict_SetItemString(d, "CONVENTIONAL_VALUE_OF_OHM_90", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_CONVENTIONAL_VALUE_OF_OHM_90); + PyDict_SetItemString(d, "U_CONVENTIONAL_VALUE_OF_OHM_90", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(CONVENTIONAL_VALUE_OF_VOLT_90); + PyDict_SetItemString(d, "CONVENTIONAL_VALUE_OF_VOLT_90", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_CONVENTIONAL_VALUE_OF_VOLT_90); + PyDict_SetItemString(d, "U_CONVENTIONAL_VALUE_OF_VOLT_90", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(CONVENTIONAL_VALUE_OF_VON_KLITZING_CONSTANT); + PyDict_SetItemString(d, "CONVENTIONAL_VALUE_OF_VON_KLITZING_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_CONVENTIONAL_VALUE_OF_VON_KLITZING_CONSTANT); + PyDict_SetItemString(d, "U_CONVENTIONAL_VALUE_OF_VON_KLITZING_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(CONVENTIONAL_VALUE_OF_WATT_90); + PyDict_SetItemString(d, "CONVENTIONAL_VALUE_OF_WATT_90", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_CONVENTIONAL_VALUE_OF_WATT_90); + PyDict_SetItemString(d, "U_CONVENTIONAL_VALUE_OF_WATT_90", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(COPPER_X_UNIT); + PyDict_SetItemString(d, "COPPER_X_UNIT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_COPPER_X_UNIT); + PyDict_SetItemString(d, "U_COPPER_X_UNIT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_ELECTRON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "DEUTERON_ELECTRON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_ELECTRON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_DEUTERON_ELECTRON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "DEUTERON_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "U_DEUTERON_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_G_FACTOR); + PyDict_SetItemString(d, "DEUTERON_G_FACTOR", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_G_FACTOR); + PyDict_SetItemString(d, "U_DEUTERON_G_FACTOR", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_MAG__MOM); + PyDict_SetItemString(d, "DEUTERON_MAG__MOM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_MAG__MOM); + PyDict_SetItemString(d, "U_DEUTERON_MAG__MOM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "DEUTERON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_DEUTERON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "DEUTERON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_DEUTERON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_MASS); + PyDict_SetItemString(d, "DEUTERON_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_MASS); + PyDict_SetItemString(d, "U_DEUTERON_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "DEUTERON_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "U_DEUTERON_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "DEUTERON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "U_DEUTERON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_MASS_IN_U); + PyDict_SetItemString(d, "DEUTERON_MASS_IN_U", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_MASS_IN_U); + PyDict_SetItemString(d, "U_DEUTERON_MASS_IN_U", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_MOLAR_MASS); + PyDict_SetItemString(d, "DEUTERON_MOLAR_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_MOLAR_MASS); + PyDict_SetItemString(d, "U_DEUTERON_MOLAR_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_NEUTRON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "DEUTERON_NEUTRON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_NEUTRON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_DEUTERON_NEUTRON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "DEUTERON_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_DEUTERON_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "DEUTERON_PROTON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "U_DEUTERON_PROTON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "DEUTERON_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "U_DEUTERON_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(DEUTERON_RMS_CHARGE_RADIUS); + PyDict_SetItemString(d, "DEUTERON_RMS_CHARGE_RADIUS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_DEUTERON_RMS_CHARGE_RADIUS); + PyDict_SetItemString(d, "U_DEUTERON_RMS_CHARGE_RADIUS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_CHARGE_TO_MASS_QUOTIENT); + PyDict_SetItemString(d, "ELECTRON_CHARGE_TO_MASS_QUOTIENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_CHARGE_TO_MASS_QUOTIENT); + PyDict_SetItemString(d, "U_ELECTRON_CHARGE_TO_MASS_QUOTIENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_DEUTERON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "ELECTRON_DEUTERON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_DEUTERON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_ELECTRON_DEUTERON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_DEUTERON_MASS_RATIO); + PyDict_SetItemString(d, "ELECTRON_DEUTERON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_DEUTERON_MASS_RATIO); + PyDict_SetItemString(d, "U_ELECTRON_DEUTERON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_G_FACTOR); + PyDict_SetItemString(d, "ELECTRON_G_FACTOR", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_G_FACTOR); + PyDict_SetItemString(d, "U_ELECTRON_G_FACTOR", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_GYROMAG__RATIO); + PyDict_SetItemString(d, "ELECTRON_GYROMAG__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_GYROMAG__RATIO); + PyDict_SetItemString(d, "U_ELECTRON_GYROMAG__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_GYROMAG__RATIO_IN_MHZ_T); + PyDict_SetItemString(d, "ELECTRON_GYROMAG__RATIO_IN_MHZ_T", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_GYROMAG__RATIO_IN_MHZ_T); + PyDict_SetItemString(d, "U_ELECTRON_GYROMAG__RATIO_IN_MHZ_T", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_HELION_MASS_RATIO); + PyDict_SetItemString(d, "ELECTRON_HELION_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_HELION_MASS_RATIO); + PyDict_SetItemString(d, "U_ELECTRON_HELION_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_MAG__MOM); + PyDict_SetItemString(d, "ELECTRON_MAG__MOM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_MAG__MOM); + PyDict_SetItemString(d, "U_ELECTRON_MAG__MOM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_MAG__MOM__ANOMALY); + PyDict_SetItemString(d, "ELECTRON_MAG__MOM__ANOMALY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_MAG__MOM__ANOMALY); + PyDict_SetItemString(d, "U_ELECTRON_MAG__MOM__ANOMALY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "ELECTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_ELECTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "ELECTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_ELECTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_MASS); + PyDict_SetItemString(d, "ELECTRON_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_MASS); + PyDict_SetItemString(d, "U_ELECTRON_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "ELECTRON_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "U_ELECTRON_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "ELECTRON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "U_ELECTRON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_MASS_IN_U); + PyDict_SetItemString(d, "ELECTRON_MASS_IN_U", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_MASS_IN_U); + PyDict_SetItemString(d, "U_ELECTRON_MASS_IN_U", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_MOLAR_MASS); + PyDict_SetItemString(d, "ELECTRON_MOLAR_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_MOLAR_MASS); + PyDict_SetItemString(d, "U_ELECTRON_MOLAR_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_MUON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "ELECTRON_MUON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_MUON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_ELECTRON_MUON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_MUON_MASS_RATIO); + PyDict_SetItemString(d, "ELECTRON_MUON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_MUON_MASS_RATIO); + PyDict_SetItemString(d, "U_ELECTRON_MUON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_NEUTRON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "ELECTRON_NEUTRON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_NEUTRON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_ELECTRON_NEUTRON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_NEUTRON_MASS_RATIO); + PyDict_SetItemString(d, "ELECTRON_NEUTRON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_NEUTRON_MASS_RATIO); + PyDict_SetItemString(d, "U_ELECTRON_NEUTRON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "ELECTRON_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_ELECTRON_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "ELECTRON_PROTON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "U_ELECTRON_PROTON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "ELECTRON_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "U_ELECTRON_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_TAU_MASS_RATIO); + PyDict_SetItemString(d, "ELECTRON_TAU_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_TAU_MASS_RATIO); + PyDict_SetItemString(d, "U_ELECTRON_TAU_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_TO_ALPHA_PARTICLE_MASS_RATIO); + PyDict_SetItemString(d, "ELECTRON_TO_ALPHA_PARTICLE_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_TO_ALPHA_PARTICLE_MASS_RATIO); + PyDict_SetItemString(d, "U_ELECTRON_TO_ALPHA_PARTICLE_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_TO_SHIELDED_HELION_MAG__MOM__RATIO); + PyDict_SetItemString(d, "ELECTRON_TO_SHIELDED_HELION_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_TO_SHIELDED_HELION_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_ELECTRON_TO_SHIELDED_HELION_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "ELECTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_ELECTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_TRITON_MASS_RATIO); + PyDict_SetItemString(d, "ELECTRON_TRITON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_TRITON_MASS_RATIO); + PyDict_SetItemString(d, "U_ELECTRON_TRITON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_VOLT); + PyDict_SetItemString(d, "ELECTRON_VOLT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_VOLT); + PyDict_SetItemString(d, "U_ELECTRON_VOLT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_VOLT_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "ELECTRON_VOLT_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_VOLT_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "U_ELECTRON_VOLT_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_VOLT_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "ELECTRON_VOLT_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_VOLT_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "U_ELECTRON_VOLT_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_VOLT_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "ELECTRON_VOLT_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_VOLT_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "U_ELECTRON_VOLT_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_VOLT_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "ELECTRON_VOLT_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_VOLT_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "U_ELECTRON_VOLT_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_VOLT_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "ELECTRON_VOLT_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_VOLT_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "U_ELECTRON_VOLT_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_VOLT_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "ELECTRON_VOLT_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_VOLT_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "U_ELECTRON_VOLT_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELECTRON_VOLT_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "ELECTRON_VOLT_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELECTRON_VOLT_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "U_ELECTRON_VOLT_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELEMENTARY_CHARGE); + PyDict_SetItemString(d, "ELEMENTARY_CHARGE", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELEMENTARY_CHARGE); + PyDict_SetItemString(d, "U_ELEMENTARY_CHARGE", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(ELEMENTARY_CHARGE_OVER_H_BAR); + PyDict_SetItemString(d, "ELEMENTARY_CHARGE_OVER_H_BAR", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_ELEMENTARY_CHARGE_OVER_H_BAR); + PyDict_SetItemString(d, "U_ELEMENTARY_CHARGE_OVER_H_BAR", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(FARADAY_CONSTANT); + PyDict_SetItemString(d, "FARADAY_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_FARADAY_CONSTANT); + PyDict_SetItemString(d, "U_FARADAY_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(FERMI_COUPLING_CONSTANT); + PyDict_SetItemString(d, "FERMI_COUPLING_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_FERMI_COUPLING_CONSTANT); + PyDict_SetItemString(d, "U_FERMI_COUPLING_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(FINE_STRUCTURE_CONSTANT); + PyDict_SetItemString(d, "FINE_STRUCTURE_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_FINE_STRUCTURE_CONSTANT); + PyDict_SetItemString(d, "U_FINE_STRUCTURE_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(FIRST_RADIATION_CONSTANT); + PyDict_SetItemString(d, "FIRST_RADIATION_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_FIRST_RADIATION_CONSTANT); + PyDict_SetItemString(d, "U_FIRST_RADIATION_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(FIRST_RADIATION_CONSTANT_FOR_SPECTRAL_RADIANCE); + PyDict_SetItemString(d, "FIRST_RADIATION_CONSTANT_FOR_SPECTRAL_RADIANCE", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_FIRST_RADIATION_CONSTANT_FOR_SPECTRAL_RADIANCE); + PyDict_SetItemString(d, "U_FIRST_RADIATION_CONSTANT_FOR_SPECTRAL_RADIANCE", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HARTREE_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "HARTREE_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HARTREE_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "U_HARTREE_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HARTREE_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "HARTREE_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HARTREE_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "U_HARTREE_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HARTREE_ENERGY); + PyDict_SetItemString(d, "HARTREE_ENERGY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HARTREE_ENERGY); + PyDict_SetItemString(d, "U_HARTREE_ENERGY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HARTREE_ENERGY_IN_EV); + PyDict_SetItemString(d, "HARTREE_ENERGY_IN_EV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HARTREE_ENERGY_IN_EV); + PyDict_SetItemString(d, "U_HARTREE_ENERGY_IN_EV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HARTREE_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "HARTREE_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HARTREE_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "U_HARTREE_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HARTREE_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "HARTREE_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HARTREE_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "U_HARTREE_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HARTREE_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "HARTREE_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HARTREE_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "U_HARTREE_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HARTREE_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "HARTREE_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HARTREE_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "U_HARTREE_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HARTREE_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "HARTREE_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HARTREE_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "U_HARTREE_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HELION_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "HELION_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HELION_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "U_HELION_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HELION_G_FACTOR); + PyDict_SetItemString(d, "HELION_G_FACTOR", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HELION_G_FACTOR); + PyDict_SetItemString(d, "U_HELION_G_FACTOR", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HELION_MAG__MOM); + PyDict_SetItemString(d, "HELION_MAG__MOM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HELION_MAG__MOM); + PyDict_SetItemString(d, "U_HELION_MAG__MOM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HELION_MASS); + PyDict_SetItemString(d, "HELION_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HELION_MASS); + PyDict_SetItemString(d, "U_HELION_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HELION_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "HELION_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HELION_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "U_HELION_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HELION_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "HELION_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HELION_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "U_HELION_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HELION_MASS_IN_U); + PyDict_SetItemString(d, "HELION_MASS_IN_U", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HELION_MASS_IN_U); + PyDict_SetItemString(d, "U_HELION_MASS_IN_U", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HELION_MOLAR_MASS); + PyDict_SetItemString(d, "HELION_MOLAR_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HELION_MOLAR_MASS); + PyDict_SetItemString(d, "U_HELION_MOLAR_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HELION_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "HELION_PROTON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HELION_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "U_HELION_PROTON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HELION_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "HELION_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HELION_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "U_HELION_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HELION_SHIELDING_SHIFT); + PyDict_SetItemString(d, "HELION_SHIELDING_SHIFT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HELION_SHIELDING_SHIFT); + PyDict_SetItemString(d, "U_HELION_SHIELDING_SHIFT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HERTZ_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "HERTZ_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HERTZ_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "U_HERTZ_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HERTZ_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "HERTZ_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HERTZ_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "U_HERTZ_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HERTZ_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "HERTZ_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HERTZ_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "U_HERTZ_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HERTZ_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "HERTZ_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HERTZ_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "U_HERTZ_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HERTZ_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "HERTZ_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HERTZ_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "U_HERTZ_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HERTZ_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "HERTZ_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HERTZ_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "U_HERTZ_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HERTZ_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "HERTZ_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HERTZ_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "U_HERTZ_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(HYPERFINE_TRANSITION_FREQUENCY_OF_CS_133); + PyDict_SetItemString(d, "HYPERFINE_TRANSITION_FREQUENCY_OF_CS_133", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_HYPERFINE_TRANSITION_FREQUENCY_OF_CS_133); + PyDict_SetItemString(d, "U_HYPERFINE_TRANSITION_FREQUENCY_OF_CS_133", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(INVERSE_FINE_STRUCTURE_CONSTANT); + PyDict_SetItemString(d, "INVERSE_FINE_STRUCTURE_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_INVERSE_FINE_STRUCTURE_CONSTANT); + PyDict_SetItemString(d, "U_INVERSE_FINE_STRUCTURE_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(INVERSE_METER_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "INVERSE_METER_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_INVERSE_METER_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "U_INVERSE_METER_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(INVERSE_METER_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "INVERSE_METER_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_INVERSE_METER_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "U_INVERSE_METER_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(INVERSE_METER_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "INVERSE_METER_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_INVERSE_METER_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "U_INVERSE_METER_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(INVERSE_METER_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "INVERSE_METER_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_INVERSE_METER_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "U_INVERSE_METER_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(INVERSE_METER_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "INVERSE_METER_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_INVERSE_METER_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "U_INVERSE_METER_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(INVERSE_METER_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "INVERSE_METER_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_INVERSE_METER_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "U_INVERSE_METER_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(INVERSE_METER_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "INVERSE_METER_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_INVERSE_METER_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "U_INVERSE_METER_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(INVERSE_OF_CONDUCTANCE_QUANTUM); + PyDict_SetItemString(d, "INVERSE_OF_CONDUCTANCE_QUANTUM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_INVERSE_OF_CONDUCTANCE_QUANTUM); + PyDict_SetItemString(d, "U_INVERSE_OF_CONDUCTANCE_QUANTUM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(JOSEPHSON_CONSTANT); + PyDict_SetItemString(d, "JOSEPHSON_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_JOSEPHSON_CONSTANT); + PyDict_SetItemString(d, "U_JOSEPHSON_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(JOULE_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "JOULE_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_JOULE_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "U_JOULE_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(JOULE_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "JOULE_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_JOULE_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "U_JOULE_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(JOULE_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "JOULE_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_JOULE_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "U_JOULE_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(JOULE_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "JOULE_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_JOULE_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "U_JOULE_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(JOULE_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "JOULE_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_JOULE_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "U_JOULE_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(JOULE_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "JOULE_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_JOULE_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "U_JOULE_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(JOULE_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "JOULE_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_JOULE_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "U_JOULE_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KELVIN_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "KELVIN_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KELVIN_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "U_KELVIN_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KELVIN_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "KELVIN_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KELVIN_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "U_KELVIN_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KELVIN_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "KELVIN_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KELVIN_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "U_KELVIN_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KELVIN_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "KELVIN_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KELVIN_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "U_KELVIN_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KELVIN_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "KELVIN_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KELVIN_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "U_KELVIN_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KELVIN_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "KELVIN_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KELVIN_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "U_KELVIN_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KELVIN_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "KELVIN_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KELVIN_KILOGRAM_RELATIONSHIP); + PyDict_SetItemString(d, "U_KELVIN_KILOGRAM_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KILOGRAM_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "KILOGRAM_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KILOGRAM_ATOMIC_MASS_UNIT_RELATIONSHIP); + PyDict_SetItemString(d, "U_KILOGRAM_ATOMIC_MASS_UNIT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KILOGRAM_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "KILOGRAM_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KILOGRAM_ELECTRON_VOLT_RELATIONSHIP); + PyDict_SetItemString(d, "U_KILOGRAM_ELECTRON_VOLT_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KILOGRAM_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "KILOGRAM_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KILOGRAM_HARTREE_RELATIONSHIP); + PyDict_SetItemString(d, "U_KILOGRAM_HARTREE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KILOGRAM_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "KILOGRAM_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KILOGRAM_HERTZ_RELATIONSHIP); + PyDict_SetItemString(d, "U_KILOGRAM_HERTZ_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KILOGRAM_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "KILOGRAM_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KILOGRAM_INVERSE_METER_RELATIONSHIP); + PyDict_SetItemString(d, "U_KILOGRAM_INVERSE_METER_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KILOGRAM_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "KILOGRAM_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KILOGRAM_JOULE_RELATIONSHIP); + PyDict_SetItemString(d, "U_KILOGRAM_JOULE_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(KILOGRAM_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "KILOGRAM_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_KILOGRAM_KELVIN_RELATIONSHIP); + PyDict_SetItemString(d, "U_KILOGRAM_KELVIN_RELATIONSHIP", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(LATTICE_PARAMETER_OF_SILICON); + PyDict_SetItemString(d, "LATTICE_PARAMETER_OF_SILICON", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_LATTICE_PARAMETER_OF_SILICON); + PyDict_SetItemString(d, "U_LATTICE_PARAMETER_OF_SILICON", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(LATTICE_SPACING_OF_IDEAL_SI__220); + PyDict_SetItemString(d, "LATTICE_SPACING_OF_IDEAL_SI__220", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_LATTICE_SPACING_OF_IDEAL_SI__220); + PyDict_SetItemString(d, "U_LATTICE_SPACING_OF_IDEAL_SI__220", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(LOSCHMIDT_CONSTANT__273_15_K__100_KPA); + PyDict_SetItemString(d, "LOSCHMIDT_CONSTANT__273_15_K__100_KPA", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_LOSCHMIDT_CONSTANT__273_15_K__100_KPA); + PyDict_SetItemString(d, "U_LOSCHMIDT_CONSTANT__273_15_K__100_KPA", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(LOSCHMIDT_CONSTANT__273_15_K__101_325_KPA); + PyDict_SetItemString(d, "LOSCHMIDT_CONSTANT__273_15_K__101_325_KPA", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_LOSCHMIDT_CONSTANT__273_15_K__101_325_KPA); + PyDict_SetItemString(d, "U_LOSCHMIDT_CONSTANT__273_15_K__101_325_KPA", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(LUMINOUS_EFFICACY); + PyDict_SetItemString(d, "LUMINOUS_EFFICACY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_LUMINOUS_EFFICACY); + PyDict_SetItemString(d, "U_LUMINOUS_EFFICACY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MAG__FLUX_QUANTUM); + PyDict_SetItemString(d, "MAG__FLUX_QUANTUM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MAG__FLUX_QUANTUM); + PyDict_SetItemString(d, "U_MAG__FLUX_QUANTUM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MOLAR_GAS_CONSTANT); + PyDict_SetItemString(d, "MOLAR_GAS_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MOLAR_GAS_CONSTANT); + PyDict_SetItemString(d, "U_MOLAR_GAS_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MOLAR_MASS_CONSTANT); + PyDict_SetItemString(d, "MOLAR_MASS_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MOLAR_MASS_CONSTANT); + PyDict_SetItemString(d, "U_MOLAR_MASS_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MOLAR_MASS_OF_CARBON_12); + PyDict_SetItemString(d, "MOLAR_MASS_OF_CARBON_12", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MOLAR_MASS_OF_CARBON_12); + PyDict_SetItemString(d, "U_MOLAR_MASS_OF_CARBON_12", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MOLAR_PLANCK_CONSTANT); + PyDict_SetItemString(d, "MOLAR_PLANCK_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MOLAR_PLANCK_CONSTANT); + PyDict_SetItemString(d, "U_MOLAR_PLANCK_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__100_KPA); + PyDict_SetItemString(d, "MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__100_KPA", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__100_KPA); + PyDict_SetItemString(d, "U_MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__100_KPA", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__101_325_KPA); + PyDict_SetItemString(d, "MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__101_325_KPA", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__101_325_KPA); + PyDict_SetItemString(d, "U_MOLAR_VOLUME_OF_IDEAL_GAS__273_15_K__101_325_KPA", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MOLAR_VOLUME_OF_SILICON); + PyDict_SetItemString(d, "MOLAR_VOLUME_OF_SILICON", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MOLAR_VOLUME_OF_SILICON); + PyDict_SetItemString(d, "U_MOLAR_VOLUME_OF_SILICON", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MOLYBDENUM_X_UNIT); + PyDict_SetItemString(d, "MOLYBDENUM_X_UNIT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MOLYBDENUM_X_UNIT); + PyDict_SetItemString(d, "U_MOLYBDENUM_X_UNIT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "MUON_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "U_MUON_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "MUON_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "U_MUON_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_G_FACTOR); + PyDict_SetItemString(d, "MUON_G_FACTOR", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_G_FACTOR); + PyDict_SetItemString(d, "U_MUON_G_FACTOR", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_MAG__MOM); + PyDict_SetItemString(d, "MUON_MAG__MOM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_MAG__MOM); + PyDict_SetItemString(d, "U_MUON_MAG__MOM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_MAG__MOM__ANOMALY); + PyDict_SetItemString(d, "MUON_MAG__MOM__ANOMALY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_MAG__MOM__ANOMALY); + PyDict_SetItemString(d, "U_MUON_MAG__MOM__ANOMALY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "MUON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_MUON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "MUON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_MUON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_MASS); + PyDict_SetItemString(d, "MUON_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_MASS); + PyDict_SetItemString(d, "U_MUON_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "MUON_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "U_MUON_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "MUON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "U_MUON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_MASS_IN_U); + PyDict_SetItemString(d, "MUON_MASS_IN_U", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_MASS_IN_U); + PyDict_SetItemString(d, "U_MUON_MASS_IN_U", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_MOLAR_MASS); + PyDict_SetItemString(d, "MUON_MOLAR_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_MOLAR_MASS); + PyDict_SetItemString(d, "U_MUON_MOLAR_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_NEUTRON_MASS_RATIO); + PyDict_SetItemString(d, "MUON_NEUTRON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_NEUTRON_MASS_RATIO); + PyDict_SetItemString(d, "U_MUON_NEUTRON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "MUON_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_MUON_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "MUON_PROTON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "U_MUON_PROTON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(MUON_TAU_MASS_RATIO); + PyDict_SetItemString(d, "MUON_TAU_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_MUON_TAU_MASS_RATIO); + PyDict_SetItemString(d, "U_MUON_TAU_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NATURAL_UNIT_OF_ACTION); + PyDict_SetItemString(d, "NATURAL_UNIT_OF_ACTION", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_ACTION); + PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_ACTION", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NATURAL_UNIT_OF_ACTION_IN_EV_S); + PyDict_SetItemString(d, "NATURAL_UNIT_OF_ACTION_IN_EV_S", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_ACTION_IN_EV_S); + PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_ACTION_IN_EV_S", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NATURAL_UNIT_OF_ENERGY); + PyDict_SetItemString(d, "NATURAL_UNIT_OF_ENERGY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_ENERGY); + PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_ENERGY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NATURAL_UNIT_OF_ENERGY_IN_MEV); + PyDict_SetItemString(d, "NATURAL_UNIT_OF_ENERGY_IN_MEV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_ENERGY_IN_MEV); + PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_ENERGY_IN_MEV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NATURAL_UNIT_OF_LENGTH); + PyDict_SetItemString(d, "NATURAL_UNIT_OF_LENGTH", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_LENGTH); + PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_LENGTH", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NATURAL_UNIT_OF_MASS); + PyDict_SetItemString(d, "NATURAL_UNIT_OF_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_MASS); + PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NATURAL_UNIT_OF_MOMENTUM); + PyDict_SetItemString(d, "NATURAL_UNIT_OF_MOMENTUM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_MOMENTUM); + PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_MOMENTUM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NATURAL_UNIT_OF_MOMENTUM_IN_MEV_C); + PyDict_SetItemString(d, "NATURAL_UNIT_OF_MOMENTUM_IN_MEV_C", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_MOMENTUM_IN_MEV_C); + PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_MOMENTUM_IN_MEV_C", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NATURAL_UNIT_OF_TIME); + PyDict_SetItemString(d, "NATURAL_UNIT_OF_TIME", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_TIME); + PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_TIME", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NATURAL_UNIT_OF_VELOCITY); + PyDict_SetItemString(d, "NATURAL_UNIT_OF_VELOCITY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NATURAL_UNIT_OF_VELOCITY); + PyDict_SetItemString(d, "U_NATURAL_UNIT_OF_VELOCITY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "NEUTRON_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "U_NEUTRON_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_ELECTRON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "NEUTRON_ELECTRON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_ELECTRON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_NEUTRON_ELECTRON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "NEUTRON_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "U_NEUTRON_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_G_FACTOR); + PyDict_SetItemString(d, "NEUTRON_G_FACTOR", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_G_FACTOR); + PyDict_SetItemString(d, "U_NEUTRON_G_FACTOR", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_GYROMAG__RATIO); + PyDict_SetItemString(d, "NEUTRON_GYROMAG__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_GYROMAG__RATIO); + PyDict_SetItemString(d, "U_NEUTRON_GYROMAG__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_GYROMAG__RATIO_IN_MHZ_T); + PyDict_SetItemString(d, "NEUTRON_GYROMAG__RATIO_IN_MHZ_T", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_GYROMAG__RATIO_IN_MHZ_T); + PyDict_SetItemString(d, "U_NEUTRON_GYROMAG__RATIO_IN_MHZ_T", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_MAG__MOM); + PyDict_SetItemString(d, "NEUTRON_MAG__MOM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_MAG__MOM); + PyDict_SetItemString(d, "U_NEUTRON_MAG__MOM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "NEUTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_NEUTRON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "NEUTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_NEUTRON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_MASS); + PyDict_SetItemString(d, "NEUTRON_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_MASS); + PyDict_SetItemString(d, "U_NEUTRON_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "NEUTRON_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "U_NEUTRON_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "NEUTRON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "U_NEUTRON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_MASS_IN_U); + PyDict_SetItemString(d, "NEUTRON_MASS_IN_U", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_MASS_IN_U); + PyDict_SetItemString(d, "U_NEUTRON_MASS_IN_U", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_MOLAR_MASS); + PyDict_SetItemString(d, "NEUTRON_MOLAR_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_MOLAR_MASS); + PyDict_SetItemString(d, "U_NEUTRON_MOLAR_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_MUON_MASS_RATIO); + PyDict_SetItemString(d, "NEUTRON_MUON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_MUON_MASS_RATIO); + PyDict_SetItemString(d, "U_NEUTRON_MUON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "NEUTRON_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_NEUTRON_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_PROTON_MASS_DIFFERENCE); + PyDict_SetItemString(d, "NEUTRON_PROTON_MASS_DIFFERENCE", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_PROTON_MASS_DIFFERENCE); + PyDict_SetItemString(d, "U_NEUTRON_PROTON_MASS_DIFFERENCE", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "U_NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "U_NEUTRON_PROTON_MASS_DIFFERENCE_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_PROTON_MASS_DIFFERENCE_IN_U); + PyDict_SetItemString(d, "NEUTRON_PROTON_MASS_DIFFERENCE_IN_U", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_PROTON_MASS_DIFFERENCE_IN_U); + PyDict_SetItemString(d, "U_NEUTRON_PROTON_MASS_DIFFERENCE_IN_U", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "NEUTRON_PROTON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "U_NEUTRON_PROTON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "NEUTRON_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "U_NEUTRON_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_TAU_MASS_RATIO); + PyDict_SetItemString(d, "NEUTRON_TAU_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_TAU_MASS_RATIO); + PyDict_SetItemString(d, "U_NEUTRON_TAU_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEUTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "NEUTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEUTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_NEUTRON_TO_SHIELDED_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEWTONIAN_CONSTANT_OF_GRAVITATION); + PyDict_SetItemString(d, "NEWTONIAN_CONSTANT_OF_GRAVITATION", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEWTONIAN_CONSTANT_OF_GRAVITATION); + PyDict_SetItemString(d, "U_NEWTONIAN_CONSTANT_OF_GRAVITATION", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NEWTONIAN_CONSTANT_OF_GRAVITATION_OVER_H_BAR_C); + PyDict_SetItemString(d, "NEWTONIAN_CONSTANT_OF_GRAVITATION_OVER_H_BAR_C", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NEWTONIAN_CONSTANT_OF_GRAVITATION_OVER_H_BAR_C); + PyDict_SetItemString(d, "U_NEWTONIAN_CONSTANT_OF_GRAVITATION_OVER_H_BAR_C", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NUCLEAR_MAGNETON); + PyDict_SetItemString(d, "NUCLEAR_MAGNETON", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NUCLEAR_MAGNETON); + PyDict_SetItemString(d, "U_NUCLEAR_MAGNETON", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NUCLEAR_MAGNETON_IN_EV_T); + PyDict_SetItemString(d, "NUCLEAR_MAGNETON_IN_EV_T", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NUCLEAR_MAGNETON_IN_EV_T); + PyDict_SetItemString(d, "U_NUCLEAR_MAGNETON_IN_EV_T", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NUCLEAR_MAGNETON_IN_INVERSE_METER_PER_TESLA); + PyDict_SetItemString(d, "NUCLEAR_MAGNETON_IN_INVERSE_METER_PER_TESLA", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NUCLEAR_MAGNETON_IN_INVERSE_METER_PER_TESLA); + PyDict_SetItemString(d, "U_NUCLEAR_MAGNETON_IN_INVERSE_METER_PER_TESLA", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NUCLEAR_MAGNETON_IN_K_T); + PyDict_SetItemString(d, "NUCLEAR_MAGNETON_IN_K_T", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NUCLEAR_MAGNETON_IN_K_T); + PyDict_SetItemString(d, "U_NUCLEAR_MAGNETON_IN_K_T", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(NUCLEAR_MAGNETON_IN_MHZ_T); + PyDict_SetItemString(d, "NUCLEAR_MAGNETON_IN_MHZ_T", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_NUCLEAR_MAGNETON_IN_MHZ_T); + PyDict_SetItemString(d, "U_NUCLEAR_MAGNETON_IN_MHZ_T", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PLANCK_CONSTANT); + PyDict_SetItemString(d, "PLANCK_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PLANCK_CONSTANT); + PyDict_SetItemString(d, "U_PLANCK_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PLANCK_CONSTANT_IN_EV_HZ); + PyDict_SetItemString(d, "PLANCK_CONSTANT_IN_EV_HZ", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PLANCK_CONSTANT_IN_EV_HZ); + PyDict_SetItemString(d, "U_PLANCK_CONSTANT_IN_EV_HZ", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PLANCK_LENGTH); + PyDict_SetItemString(d, "PLANCK_LENGTH", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PLANCK_LENGTH); + PyDict_SetItemString(d, "U_PLANCK_LENGTH", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PLANCK_MASS); + PyDict_SetItemString(d, "PLANCK_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PLANCK_MASS); + PyDict_SetItemString(d, "U_PLANCK_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PLANCK_MASS_ENERGY_EQUIVALENT_IN_GEV); + PyDict_SetItemString(d, "PLANCK_MASS_ENERGY_EQUIVALENT_IN_GEV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PLANCK_MASS_ENERGY_EQUIVALENT_IN_GEV); + PyDict_SetItemString(d, "U_PLANCK_MASS_ENERGY_EQUIVALENT_IN_GEV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PLANCK_TEMPERATURE); + PyDict_SetItemString(d, "PLANCK_TEMPERATURE", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PLANCK_TEMPERATURE); + PyDict_SetItemString(d, "U_PLANCK_TEMPERATURE", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PLANCK_TIME); + PyDict_SetItemString(d, "PLANCK_TIME", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PLANCK_TIME); + PyDict_SetItemString(d, "U_PLANCK_TIME", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_CHARGE_TO_MASS_QUOTIENT); + PyDict_SetItemString(d, "PROTON_CHARGE_TO_MASS_QUOTIENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_CHARGE_TO_MASS_QUOTIENT); + PyDict_SetItemString(d, "U_PROTON_CHARGE_TO_MASS_QUOTIENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "PROTON_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "U_PROTON_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "PROTON_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "U_PROTON_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_G_FACTOR); + PyDict_SetItemString(d, "PROTON_G_FACTOR", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_G_FACTOR); + PyDict_SetItemString(d, "U_PROTON_G_FACTOR", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_GYROMAG__RATIO); + PyDict_SetItemString(d, "PROTON_GYROMAG__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_GYROMAG__RATIO); + PyDict_SetItemString(d, "U_PROTON_GYROMAG__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_GYROMAG__RATIO_IN_MHZ_T); + PyDict_SetItemString(d, "PROTON_GYROMAG__RATIO_IN_MHZ_T", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_GYROMAG__RATIO_IN_MHZ_T); + PyDict_SetItemString(d, "U_PROTON_GYROMAG__RATIO_IN_MHZ_T", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_MAG__MOM); + PyDict_SetItemString(d, "PROTON_MAG__MOM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_MAG__MOM); + PyDict_SetItemString(d, "U_PROTON_MAG__MOM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_MAG__SHIELDING_CORRECTION); + PyDict_SetItemString(d, "PROTON_MAG__SHIELDING_CORRECTION", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_MAG__SHIELDING_CORRECTION); + PyDict_SetItemString(d, "U_PROTON_MAG__SHIELDING_CORRECTION", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_MASS); + PyDict_SetItemString(d, "PROTON_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_MASS); + PyDict_SetItemString(d, "U_PROTON_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "PROTON_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "U_PROTON_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "PROTON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "U_PROTON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_MASS_IN_U); + PyDict_SetItemString(d, "PROTON_MASS_IN_U", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_MASS_IN_U); + PyDict_SetItemString(d, "U_PROTON_MASS_IN_U", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_MOLAR_MASS); + PyDict_SetItemString(d, "PROTON_MOLAR_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_MOLAR_MASS); + PyDict_SetItemString(d, "U_PROTON_MOLAR_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_MUON_MASS_RATIO); + PyDict_SetItemString(d, "PROTON_MUON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_MUON_MASS_RATIO); + PyDict_SetItemString(d, "U_PROTON_MUON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_NEUTRON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "PROTON_NEUTRON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_NEUTRON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_PROTON_NEUTRON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_NEUTRON_MASS_RATIO); + PyDict_SetItemString(d, "PROTON_NEUTRON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_NEUTRON_MASS_RATIO); + PyDict_SetItemString(d, "U_PROTON_NEUTRON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "PROTON_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "U_PROTON_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_RMS_CHARGE_RADIUS); + PyDict_SetItemString(d, "PROTON_RMS_CHARGE_RADIUS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_RMS_CHARGE_RADIUS); + PyDict_SetItemString(d, "U_PROTON_RMS_CHARGE_RADIUS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(PROTON_TAU_MASS_RATIO); + PyDict_SetItemString(d, "PROTON_TAU_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_PROTON_TAU_MASS_RATIO); + PyDict_SetItemString(d, "U_PROTON_TAU_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(QUANTUM_OF_CIRCULATION); + PyDict_SetItemString(d, "QUANTUM_OF_CIRCULATION", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_QUANTUM_OF_CIRCULATION); + PyDict_SetItemString(d, "U_QUANTUM_OF_CIRCULATION", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(QUANTUM_OF_CIRCULATION_TIMES_2); + PyDict_SetItemString(d, "QUANTUM_OF_CIRCULATION_TIMES_2", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_QUANTUM_OF_CIRCULATION_TIMES_2); + PyDict_SetItemString(d, "U_QUANTUM_OF_CIRCULATION_TIMES_2", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(REDUCED_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "REDUCED_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_REDUCED_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "U_REDUCED_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(REDUCED_MUON_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "REDUCED_MUON_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_REDUCED_MUON_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "U_REDUCED_MUON_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(REDUCED_NEUTRON_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "REDUCED_NEUTRON_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_REDUCED_NEUTRON_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "U_REDUCED_NEUTRON_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(REDUCED_PLANCK_CONSTANT); + PyDict_SetItemString(d, "REDUCED_PLANCK_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_REDUCED_PLANCK_CONSTANT); + PyDict_SetItemString(d, "U_REDUCED_PLANCK_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(REDUCED_PLANCK_CONSTANT_IN_EV_S); + PyDict_SetItemString(d, "REDUCED_PLANCK_CONSTANT_IN_EV_S", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_REDUCED_PLANCK_CONSTANT_IN_EV_S); + PyDict_SetItemString(d, "U_REDUCED_PLANCK_CONSTANT_IN_EV_S", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(REDUCED_PLANCK_CONSTANT_TIMES_C_IN_MEV_FM); + PyDict_SetItemString(d, "REDUCED_PLANCK_CONSTANT_TIMES_C_IN_MEV_FM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_REDUCED_PLANCK_CONSTANT_TIMES_C_IN_MEV_FM); + PyDict_SetItemString(d, "U_REDUCED_PLANCK_CONSTANT_TIMES_C_IN_MEV_FM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(REDUCED_PROTON_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "REDUCED_PROTON_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_REDUCED_PROTON_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "U_REDUCED_PROTON_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(REDUCED_TAU_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "REDUCED_TAU_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_REDUCED_TAU_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "U_REDUCED_TAU_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(RYDBERG_CONSTANT); + PyDict_SetItemString(d, "RYDBERG_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_RYDBERG_CONSTANT); + PyDict_SetItemString(d, "U_RYDBERG_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(RYDBERG_CONSTANT_TIMES_C_IN_HZ); + PyDict_SetItemString(d, "RYDBERG_CONSTANT_TIMES_C_IN_HZ", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_RYDBERG_CONSTANT_TIMES_C_IN_HZ); + PyDict_SetItemString(d, "U_RYDBERG_CONSTANT_TIMES_C_IN_HZ", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(RYDBERG_CONSTANT_TIMES_HC_IN_EV); + PyDict_SetItemString(d, "RYDBERG_CONSTANT_TIMES_HC_IN_EV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_RYDBERG_CONSTANT_TIMES_HC_IN_EV); + PyDict_SetItemString(d, "U_RYDBERG_CONSTANT_TIMES_HC_IN_EV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(RYDBERG_CONSTANT_TIMES_HC_IN_J); + PyDict_SetItemString(d, "RYDBERG_CONSTANT_TIMES_HC_IN_J", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_RYDBERG_CONSTANT_TIMES_HC_IN_J); + PyDict_SetItemString(d, "U_RYDBERG_CONSTANT_TIMES_HC_IN_J", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SACKUR_TETRODE_CONSTANT__1_K__100_KPA); + PyDict_SetItemString(d, "SACKUR_TETRODE_CONSTANT__1_K__100_KPA", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SACKUR_TETRODE_CONSTANT__1_K__100_KPA); + PyDict_SetItemString(d, "U_SACKUR_TETRODE_CONSTANT__1_K__100_KPA", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SACKUR_TETRODE_CONSTANT__1_K__101_325_KPA); + PyDict_SetItemString(d, "SACKUR_TETRODE_CONSTANT__1_K__101_325_KPA", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SACKUR_TETRODE_CONSTANT__1_K__101_325_KPA); + PyDict_SetItemString(d, "U_SACKUR_TETRODE_CONSTANT__1_K__101_325_KPA", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SECOND_RADIATION_CONSTANT); + PyDict_SetItemString(d, "SECOND_RADIATION_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SECOND_RADIATION_CONSTANT); + PyDict_SetItemString(d, "U_SECOND_RADIATION_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDED_HELION_GYROMAG__RATIO); + PyDict_SetItemString(d, "SHIELDED_HELION_GYROMAG__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDED_HELION_GYROMAG__RATIO); + PyDict_SetItemString(d, "U_SHIELDED_HELION_GYROMAG__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDED_HELION_GYROMAG__RATIO_IN_MHZ_T); + PyDict_SetItemString(d, "SHIELDED_HELION_GYROMAG__RATIO_IN_MHZ_T", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDED_HELION_GYROMAG__RATIO_IN_MHZ_T); + PyDict_SetItemString(d, "U_SHIELDED_HELION_GYROMAG__RATIO_IN_MHZ_T", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDED_HELION_MAG__MOM); + PyDict_SetItemString(d, "SHIELDED_HELION_MAG__MOM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDED_HELION_MAG__MOM); + PyDict_SetItemString(d, "U_SHIELDED_HELION_MAG__MOM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDED_HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "SHIELDED_HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDED_HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_SHIELDED_HELION_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDED_HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "SHIELDED_HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDED_HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_SHIELDED_HELION_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDED_HELION_TO_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "SHIELDED_HELION_TO_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDED_HELION_TO_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_SHIELDED_HELION_TO_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDED_HELION_TO_SHIELDED_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "SHIELDED_HELION_TO_SHIELDED_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDED_HELION_TO_SHIELDED_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_SHIELDED_HELION_TO_SHIELDED_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDED_PROTON_GYROMAG__RATIO); + PyDict_SetItemString(d, "SHIELDED_PROTON_GYROMAG__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDED_PROTON_GYROMAG__RATIO); + PyDict_SetItemString(d, "U_SHIELDED_PROTON_GYROMAG__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDED_PROTON_GYROMAG__RATIO_IN_MHZ_T); + PyDict_SetItemString(d, "SHIELDED_PROTON_GYROMAG__RATIO_IN_MHZ_T", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDED_PROTON_GYROMAG__RATIO_IN_MHZ_T); + PyDict_SetItemString(d, "U_SHIELDED_PROTON_GYROMAG__RATIO_IN_MHZ_T", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDED_PROTON_MAG__MOM); + PyDict_SetItemString(d, "SHIELDED_PROTON_MAG__MOM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDED_PROTON_MAG__MOM); + PyDict_SetItemString(d, "U_SHIELDED_PROTON_MAG__MOM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDED_PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "SHIELDED_PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDED_PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_SHIELDED_PROTON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDED_PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "SHIELDED_PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDED_PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_SHIELDED_PROTON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDING_DIFFERENCE_OF_D_AND_P_IN_HD); + PyDict_SetItemString(d, "SHIELDING_DIFFERENCE_OF_D_AND_P_IN_HD", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDING_DIFFERENCE_OF_D_AND_P_IN_HD); + PyDict_SetItemString(d, "U_SHIELDING_DIFFERENCE_OF_D_AND_P_IN_HD", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SHIELDING_DIFFERENCE_OF_T_AND_P_IN_HT); + PyDict_SetItemString(d, "SHIELDING_DIFFERENCE_OF_T_AND_P_IN_HT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SHIELDING_DIFFERENCE_OF_T_AND_P_IN_HT); + PyDict_SetItemString(d, "U_SHIELDING_DIFFERENCE_OF_T_AND_P_IN_HT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(SPEED_OF_LIGHT_IN_VACUUM); + PyDict_SetItemString(d, "SPEED_OF_LIGHT_IN_VACUUM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_SPEED_OF_LIGHT_IN_VACUUM); + PyDict_SetItemString(d, "U_SPEED_OF_LIGHT_IN_VACUUM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(STANDARD_ACCELERATION_OF_GRAVITY); + PyDict_SetItemString(d, "STANDARD_ACCELERATION_OF_GRAVITY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_STANDARD_ACCELERATION_OF_GRAVITY); + PyDict_SetItemString(d, "U_STANDARD_ACCELERATION_OF_GRAVITY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(STANDARD_ATMOSPHERE); + PyDict_SetItemString(d, "STANDARD_ATMOSPHERE", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_STANDARD_ATMOSPHERE); + PyDict_SetItemString(d, "U_STANDARD_ATMOSPHERE", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(STANDARD_STATE_PRESSURE); + PyDict_SetItemString(d, "STANDARD_STATE_PRESSURE", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_STANDARD_STATE_PRESSURE); + PyDict_SetItemString(d, "U_STANDARD_STATE_PRESSURE", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(STEFAN_BOLTZMANN_CONSTANT); + PyDict_SetItemString(d, "STEFAN_BOLTZMANN_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_STEFAN_BOLTZMANN_CONSTANT); + PyDict_SetItemString(d, "U_STEFAN_BOLTZMANN_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TAU_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "TAU_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TAU_COMPTON_WAVELENGTH); + PyDict_SetItemString(d, "U_TAU_COMPTON_WAVELENGTH", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TAU_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "TAU_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TAU_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "U_TAU_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TAU_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "TAU_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TAU_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "U_TAU_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TAU_MASS); + PyDict_SetItemString(d, "TAU_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TAU_MASS); + PyDict_SetItemString(d, "U_TAU_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TAU_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "TAU_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TAU_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "U_TAU_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TAU_MASS_IN_U); + PyDict_SetItemString(d, "TAU_MASS_IN_U", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TAU_MASS_IN_U); + PyDict_SetItemString(d, "U_TAU_MASS_IN_U", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TAU_MOLAR_MASS); + PyDict_SetItemString(d, "TAU_MOLAR_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TAU_MOLAR_MASS); + PyDict_SetItemString(d, "U_TAU_MOLAR_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TAU_MUON_MASS_RATIO); + PyDict_SetItemString(d, "TAU_MUON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TAU_MUON_MASS_RATIO); + PyDict_SetItemString(d, "U_TAU_MUON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TAU_NEUTRON_MASS_RATIO); + PyDict_SetItemString(d, "TAU_NEUTRON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TAU_NEUTRON_MASS_RATIO); + PyDict_SetItemString(d, "U_TAU_NEUTRON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TAU_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "TAU_PROTON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TAU_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "U_TAU_PROTON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(THOMSON_CROSS_SECTION); + PyDict_SetItemString(d, "THOMSON_CROSS_SECTION", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_THOMSON_CROSS_SECTION); + PyDict_SetItemString(d, "U_THOMSON_CROSS_SECTION", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TRITON_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "TRITON_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TRITON_ELECTRON_MASS_RATIO); + PyDict_SetItemString(d, "U_TRITON_ELECTRON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TRITON_G_FACTOR); + PyDict_SetItemString(d, "TRITON_G_FACTOR", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TRITON_G_FACTOR); + PyDict_SetItemString(d, "U_TRITON_G_FACTOR", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TRITON_MAG__MOM); + PyDict_SetItemString(d, "TRITON_MAG__MOM", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TRITON_MAG__MOM); + PyDict_SetItemString(d, "U_TRITON_MAG__MOM", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TRITON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "TRITON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TRITON_MAG__MOM__TO_BOHR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_TRITON_MAG__MOM__TO_BOHR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TRITON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "TRITON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TRITON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO); + PyDict_SetItemString(d, "U_TRITON_MAG__MOM__TO_NUCLEAR_MAGNETON_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TRITON_MASS); + PyDict_SetItemString(d, "TRITON_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TRITON_MASS); + PyDict_SetItemString(d, "U_TRITON_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TRITON_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "TRITON_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TRITON_MASS_ENERGY_EQUIVALENT); + PyDict_SetItemString(d, "U_TRITON_MASS_ENERGY_EQUIVALENT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TRITON_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "TRITON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TRITON_MASS_ENERGY_EQUIVALENT_IN_MEV); + PyDict_SetItemString(d, "U_TRITON_MASS_ENERGY_EQUIVALENT_IN_MEV", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TRITON_MASS_IN_U); + PyDict_SetItemString(d, "TRITON_MASS_IN_U", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TRITON_MASS_IN_U); + PyDict_SetItemString(d, "U_TRITON_MASS_IN_U", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TRITON_MOLAR_MASS); + PyDict_SetItemString(d, "TRITON_MOLAR_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TRITON_MOLAR_MASS); + PyDict_SetItemString(d, "U_TRITON_MOLAR_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TRITON_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "TRITON_PROTON_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TRITON_PROTON_MASS_RATIO); + PyDict_SetItemString(d, "U_TRITON_PROTON_MASS_RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TRITON_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "TRITON_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TRITON_RELATIVE_ATOMIC_MASS); + PyDict_SetItemString(d, "U_TRITON_RELATIVE_ATOMIC_MASS", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(TRITON_TO_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "TRITON_TO_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_TRITON_TO_PROTON_MAG__MOM__RATIO); + PyDict_SetItemString(d, "U_TRITON_TO_PROTON_MAG__MOM__RATIO", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(UNIFIED_ATOMIC_MASS_UNIT); + PyDict_SetItemString(d, "UNIFIED_ATOMIC_MASS_UNIT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_UNIFIED_ATOMIC_MASS_UNIT); + PyDict_SetItemString(d, "U_UNIFIED_ATOMIC_MASS_UNIT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(VACUUM_ELECTRIC_PERMITTIVITY); + PyDict_SetItemString(d, "VACUUM_ELECTRIC_PERMITTIVITY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_VACUUM_ELECTRIC_PERMITTIVITY); + PyDict_SetItemString(d, "U_VACUUM_ELECTRIC_PERMITTIVITY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(VACUUM_MAG__PERMEABILITY); + PyDict_SetItemString(d, "VACUUM_MAG__PERMEABILITY", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_VACUUM_MAG__PERMEABILITY); + PyDict_SetItemString(d, "U_VACUUM_MAG__PERMEABILITY", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(VON_KLITZING_CONSTANT); + PyDict_SetItemString(d, "VON_KLITZING_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_VON_KLITZING_CONSTANT); + PyDict_SetItemString(d, "U_VON_KLITZING_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(WEAK_MIXING_ANGLE); + PyDict_SetItemString(d, "WEAK_MIXING_ANGLE", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_WEAK_MIXING_ANGLE); + PyDict_SetItemString(d, "U_WEAK_MIXING_ANGLE", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(WIEN_FREQUENCY_DISPLACEMENT_LAW_CONSTANT); + PyDict_SetItemString(d, "WIEN_FREQUENCY_DISPLACEMENT_LAW_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_WIEN_FREQUENCY_DISPLACEMENT_LAW_CONSTANT); + PyDict_SetItemString(d, "U_WIEN_FREQUENCY_DISPLACEMENT_LAW_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(WIEN_WAVELENGTH_DISPLACEMENT_LAW_CONSTANT); + PyDict_SetItemString(d, "WIEN_WAVELENGTH_DISPLACEMENT_LAW_CONSTANT", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_WIEN_WAVELENGTH_DISPLACEMENT_LAW_CONSTANT); + PyDict_SetItemString(d, "U_WIEN_WAVELENGTH_DISPLACEMENT_LAW_CONSTANT", v); + Py_INCREF(v); + + v = PyFloat_FromDouble(W_TO_Z_MASS_RATIO); + PyDict_SetItemString(d, "W_TO_Z_MASS_RATIO", v); + Py_INCREF(v); + v = PyFloat_FromDouble(U_W_TO_Z_MASS_RATIO); + PyDict_SetItemString(d, "U_W_TO_Z_MASS_RATIO", v); + Py_INCREF(v); + + return m; +}