1.1. Introduction to nucleardatapy toolkit#
In this tutorial, you will learn basic functions for using nuda toolkit.
First, import the libraries that will be employed in this tutorial.
# import matplotlib
import matplotlib.pyplot as plt
# Import nucleardatapy package
import nucleardatapy as nuda
What are the functions available in the toolkit? Type:
print ( dir ( nuda ) )
['APRfit_compute', 'AutoMinorLocator', 'CST_AtmMass', 'CST_dmHc2', 'CST_dmnc2', 'CST_mHc2', 'CST_mnc2', 'CubicSpline', 'EsymLsym_constraints', 'G_cgs', 'G_si', 'HIC_Esym', 'HIC_Lsym', 'HIC_Lsym_bound', 'HIC_xgi', 'HThsl', 'HTsl', 'HTvsl', 'ILt', 'ISt', 'KsatQsat_constraints', 'MODEL_STYLES', 'MODEL_TABLES_DIR', 'MeV2J', 'MeV2kg', 'MeVfm32dyncm2', 'MeVfm32gcm3', 'Msol_cgs', 'Msol_si', 'Nc', 'Rsol_cgs', 'Rsol_si', 'SOURCE_LABELS_LATEX', '__builtins__', '__cached__', '__doc__', '__file__', '__loader__', '__name__', '__package__', '__path__', '__spec__', 'astro', 'astro_setupGW_fig', 'astro_setupMR_fig', 'astro_setupMasses_fig', 'astro_setupMtov_fig', 'astro_setupMup_fig', 'be_exp_tables', 'be_exp_versions', 'be_theo_tables', 'c', 'c2', 'col', 'compute_proba_do', 'compute_proba_up', 'conversionMBE', 'corr', 'corr_setupEsymDen_fig', 'corr_setupEsymLsym_fig', 'corr_setupKsatQsat_fig', 'create_folder', 'create_folder_fig', 'crust', 'crust_models', 'crust_setupCrust_fig', 'cs2_nr', 'cst', 'curve_fit', 'day', 'delta_emp', 'den', 'denCC_emp', 'den_n', 'e', 'eF_n', 'eF_n_nr', 'effg_NM_nr', 'effg_SM_nr', 'effg_nr', 'effmass_emp', 'elements', 'env', 'eos', 'eos_setupAMBeq_cs2_lep_fig', 'eos_setupAMBeq_cs2_nuc_fig', 'eos_setupAMBeq_cs2_tot_fig', 'eos_setupAMBeq_e2a_lep_fig', 'eos_setupAMBeq_e2a_nuc_fig', 'eos_setupAMBeq_e2a_tot_fig', 'eos_setupAMBeq_eos_fig', 'eos_setupAMBeq_fig', 'eos_setupAMBeq_pre_lep_fig', 'eos_setupAMBeq_pre_nuc_fig', 'eos_setupAMBeq_pre_tot_fig', 'eos_setupAMBeq_xe_fig', 'eos_setupAMBeq_xmu_fig', 'eos_setupAMBeq_xp_fig', 'eos_setupAMLeq_fig', 'eos_setupAMLeq_xe_fig', 'eos_setupAMLeq_xexmu_fig', 'eos_setupAMLeq_xmu_fig', 'eos_setupAM_asy_lep_fig', 'eos_setupAM_asy_nuc_fig', 'eos_setupAM_asy_tot_fig', 'eos_setupAM_cs2_asy_lep_fig', 'eos_setupAM_cs2_asy_nuc_fig', 'eos_setupAM_cs2_asy_tot_fig', 'eos_setupAM_cs2_fig', 'eos_setupAM_e2a_asy_lep_fig', 'eos_setupAM_e2a_asy_nuc_fig', 'eos_setupAM_e2a_asy_tot_fig', 'eos_setupAM_e2a_fig', 'eos_setupAM_fig', 'eos_setupAM_pre_asy_lep_fig', 'eos_setupAM_pre_asy_nuc_fig', 'eos_setupAM_pre_asy_tot_fig', 'eos_setupAM_pre_fig', 'eos_setupCC_checkeos_fig', 'eos_setupCC_checkpre_fig', 'eos_setupCC_eos_fig', 'eos_setupCC_fig', 'esymffg_nr', 'f_dp_dn', 'feden', 'fig', 'five', 'fiveThird', 'flinear', 'four', 'fpres', 'fsolve', 'func_GCR_cs2', 'func_GCR_e2a', 'func_GCR_pre', 'func_am', 'func_betaeq', 'func_dpredn_NLEFT2024', 'func_e2a_NLEFT2024', 'func_pre_NLEFT2024', 'gauss', 'gw_hyps', 'gw_sources', 'h2m', 'half', 'hbc', 'hello', 'hic_inferences', 'hnuc', 'hnuc_setupChart_fig', 'hnuc_setupRE1LExp_fig', 'hour', 'isgmr_exp_tables', 'kf', 'kf_n', 'masses_obss', 'masses_sources', 'math', 'matter', 'matter_all_Esym_fig', 'matter_all_cs2_fig', 'matter_all_e2a_fig', 'matter_all_eos_fig', 'matter_all_fig', 'matter_all_pre_fig', 'matter_setupCheck_fig', 'matter_setupFFGLep_fig', 'matter_setupFFGNuc_EOS_fig', 'matter_setupFFGNuc_EP_fig', 'matter_setupFFGNuc_fig', 'matter_setupHIC_fig', 'matter_setupMicroEsym_fig', 'matter_setupMicro_LP_fig', 'matter_setupMicro_band_fig', 'matter_setupMicro_cs2_fig', 'matter_setupMicro_e2a_fig', 'matter_setupMicro_effmass_fig', 'matter_setupMicro_err_NM_fig', 'matter_setupMicro_fig', 'matter_setupMicro_gap_1s0_fig', 'matter_setupMicro_gap_3pf2_fig', 'matter_setupMicro_gap_fig', 'matter_setupMicro_pre_fig', 'matter_setupNEPStats_fig', 'matter_setupPhenoEsym_fig', 'matter_setupPheno_cs2_fig', 'matter_setupPheno_e2a_fig', 'matter_setupPheno_fig', 'matter_setupPheno_pre_fig', 'mec2', 'micro_LP_models', 'micro_effmass_models', 'micro_esym_mbs', 'micro_esym_models', 'micro_esym_models_mb', 'micro_esym_models_mbs', 'micro_gap_models', 'micro_mbs', 'micro_models', 'micro_models_mb', 'micro_models_mb_matter', 'micro_models_mbs', 'minute', 'mmuc2', 'mnc2', 'mnuc2', 'mnuc2_approx', 'month', 'mpc2', 'mpl', 'mr_obss', 'mr_sources', 'mup_hyps', 'mup_sources', 'nep_models', 'nep_params', 'np', 'ns', 'nsat', 'nuc', 'nuc_setupBEExp_D3n_fig', 'nuc_setupBEExp_D3p_fig', 'nuc_setupBEExp_S2n_fig', 'nuc_setupBEExp_S2p_fig', 'nuc_setupBEExp_chart_Rch_fig', 'nuc_setupBEExp_chart_fig', 'nuc_setupBEExp_chart_lt_fig', 'nuc_setupBEExp_chart_year_fig', 'nuc_setupBEExp_fig', 'nuc_setupBEExp_year_fig', 'nuc_setupBETheo_D3n_fig', 'nuc_setupBETheo_D3p_fig', 'nuc_setupBETheo_S2n_fig', 'nuc_setupBETheo_S2p_fig', 'nuc_setupBETheo_diff_fig', 'nuc_setupBETheo_fig', 'nuc_setupISGMRExp_fig', 'nuc_setupRchExp_3Zref_fig', 'nuc_setupRchExp_fig', 'nuc_setupRchTheo_3Zref_fig', 'nuc_setupRchTheo_fig', 'nuc_setupRnpExp_fig', 'nuc_setupRnpTheo_fig', 'nucleardatapy_tk', 'nuda', 'one', 'os', 'param', 'path_ame', 'path_data', 'pheno_esym_models', 'pheno_esym_params', 'pheno_models', 'pheno_params', 'pi', 'pi2', 'plot_shells', 'plt', 'pre_nr', 'random', 'rch_emp', 'rch_exp_tables', 'rch_theo_tables', 're1L_exp_tables', 're1Xi_exp_tables', 're2L_exp_tables', 'read_model_data', 'rnp_exp', 'rnp_exp_source', 'rnp_theo_models', 'rnp_theo_params', 'rshsol_si', 'setupAM', 'setupAMBeq', 'setupAMLeq', 'setupBEExp', 'setupBETheo', 'setupCC', 'setupCheck', 'setupCrust', 'setupEsymDen', 'setupEsymLsym', 'setupFFGLep', 'setupFFGNuc', 'setupGW', 'setupGWAverage', 'setupHIC', 'setupISGMRExp', 'setupKsatQsat', 'setupMR', 'setupMRAverage', 'setupMasses', 'setupMassesAverage', 'setupMicro', 'setupMicroBand', 'setupMicroEffmass', 'setupMicroEsym', 'setupMicroGap', 'setupMicroLP', 'setupMtov', 'setupMup', 'setupMupAverage', 'setupNEP', 'setupNEPStat_model', 'setupNEPStat_models', 'setupPheno', 'setupPhenoEsym', 'setupRE1LExp', 'setupRE1XiExp', 'setupRE2LExp', 'setupRchExp', 'setupRchExpIsotopes', 'setupRchTheo', 'setupRchTheoIsotopes', 'setupRnpAverage', 'setupRnpExp', 'setupRnpTheo', 'setup_EsymDen', 'setup_EsymLsym', 'setup_KsatQsat', 'setup_am', 'setup_am_Beq', 'setup_am_Leq', 'setup_be_exp', 'setup_be_theo', 'setup_check', 'setup_crust', 'setup_ffg', 'setup_gw', 'setup_hic', 'setup_isgmr_exp', 'setup_masses', 'setup_micro', 'setup_micro_band', 'setup_micro_effmass', 'setup_micro_esym', 'setup_micro_gap', 'setup_micro_lp', 'setup_mr', 'setup_mtov', 'setup_mup', 'setup_nep', 'setup_nep_stat_model', 'setup_nep_stat_models', 'setup_pheno', 'setup_pheno_esym', 'setup_rch_exp', 'setup_rch_theo', 'setup_re1L_exp', 'setup_re1Xi_exp', 'setup_re2L_exp', 'setup_rnp_exp', 'setup_rnp_theo', 'special', 'stable_fit_N', 'stable_fit_Z', 'sys', 'tex2str', 'third', 'three', 'threeFifth', 'two', 'twoThird', 'uncertainty_stat', 'verb', 'verb_latex', 'verb_output', 'year', 'yearMin']
print ( help ( nuda ) )
Help on package nucleardatapy:
NAME
nucleardatapy
DESCRIPTION
This toolkit is a community-driven tool providing data for nuclear and astro-nuclear research community. It contains microscopic, phenomenological, experimental and observational data for the understanding of neutron stars.
To get some help, please contact: nucleardatapy@gmail.com.
PACKAGE CONTENTS
astro (package)
corr (package)
create_folder
crust (package)
cst
env
eos (package)
fig (package)
hello
hnuc (package)
matter (package)
nuc (package)
param
SUBMODULES
eos_setupAMBeq_fig
eos_setupAMLeq_fig
eos_setupAM_asy_lep_fig
eos_setupAM_asy_nuc_fig
eos_setupAM_asy_tot_fig
eos_setupAM_fig
eos_setupCC_fig
matter_all_fig
matter_setupFFGNuc_fig
matter_setupMicro_fig
matter_setupMicro_gap_fig
matter_setupPheno_fig
nuc_setupBEExp_chart_fig
nuc_setupBEExp_fig
nuc_setupBETheo_fig
setup_EsymDen
setup_EsymLsym
setup_KsatQsat
setup_am
setup_am_Beq
setup_am_Leq
setup_be_exp
setup_be_theo
setup_check
setup_crust
setup_ffg
setup_gw
setup_hic
setup_isgmr_exp
setup_masses
setup_micro
setup_micro_band
setup_micro_effmass
setup_micro_esym
setup_micro_gap
setup_micro_lp
setup_mr
setup_mtov
setup_mup
setup_nep
setup_nep_stat_model
setup_nep_stat_models
setup_pheno
setup_pheno_esym
setup_rch_exp
setup_rch_theo
setup_re1L_exp
setup_re1Xi_exp
setup_re2L_exp
setup_rnp_exp
setup_rnp_theo
DATA
CST_AtmMass = 931.494028
CST_dmHc2 = 1e-07
CST_dmnc2 = 5e-07
CST_mHc2 = 7.2889706
CST_mnc2 = 8.0713171
G_cgs = 6.67259e-08
G_si = 6.67259e-11
HThsl = 0.001
HTsl = 86400
HTvsl = 1.0
ILt = 3.155692608e+37
ISt = 1e-30
MODEL_STYLES = {'ddrh': {'color': 'green', 'label': 'DDRH', 'marker': ...
MODEL_TABLES_DIR = '/home/runner/work/nucleardatapy/nucleardatapy/vers...
MeV2J = 1.6021766339999998e-13
MeV2kg = 1.7826619216278976e-30
MeVfm32dyncm2 = 1.602176634e+33
MeVfm32gcm3 = 1782661921627.8977
Msol_cgs = 1.99e+33
Msol_si = 1.99e+30
Nc = 3
Rsol_cgs = 69600000000.0
Rsol_si = 696000000.0
SOURCE_LABELS_LATEX = {'208Pb': '$^{208}$Pb', '48Ca': '$^{48}$Ca'}
c = 299792458.0
c2 = 8.987551787368176e+16
col = ['blue', 'orange', 'green', 'red', 'purple', 'brown', 'pink', 'g...
day = 86400
e = 1.602176634e-19
elements = array(['H', 'He', 'Li', 'Be', 'B', 'C', 'N', 'O'...'Nh', 'F...
ndarray(shape, dtype=None, buffer=None, offset=0, strides=None, order=None)
--
ndarray(shape, dtype=float, buffer=None, offset=0, strides=None, order=None)
An array object represents a multidimensional, homogeneous array
of fixed-size items. An associated data-type object describes the
format of each element in the array (its byte-order, how many bytes it
occupies in memory, whether it is an integer, a floating point number,
or something else, etc.)
Arrays should be constructed using `array`, `zeros` or `empty` (refer
to the See Also section below). The parameters given here refer to
a low-level method (`ndarray(...)`) for instantiating an array.
For more information, refer to the `numpy` module and examine the
methods and attributes of an array.
Parameters
----------
(for the __new__ method; see Notes below)
shape : tuple of ints
Shape of created array.
dtype : data-type, optional
Any object that can be interpreted as a numpy data type.
Default is `numpy.float64`.
buffer : object exposing buffer interface, optional
Used to fill the array with data.
offset : int, optional
Offset of array data in buffer.
strides : tuple of ints, optional
Strides of data in memory.
order : {'C', 'F'}, optional
Row-major (C-style) or column-major (Fortran-style) order.
Attributes
----------
T : ndarray
Transpose of the array.
data : buffer
The array's elements, in memory.
dtype : dtype object
Describes the format of the elements in the array.
flags : dict
Dictionary containing information related to memory use, e.g.,
'C_CONTIGUOUS', 'OWNDATA', 'WRITEABLE', etc.
flat : numpy.flatiter object
Flattened version of the array as an iterator. The iterator
allows assignments, e.g., ``x.flat = 3`` (See `ndarray.flat` for
assignment examples; TODO).
imag : ndarray
Imaginary part of the array.
real : ndarray
Real part of the array.
size : int
Number of elements in the array.
itemsize : int
The memory use of each array element in bytes.
nbytes : int
The total number of bytes required to store the array data,
i.e., ``itemsize * size``.
ndim : int
The array's number of dimensions.
shape : tuple of ints
Shape of the array.
strides : tuple of ints
The step-size required to move from one element to the next in
memory. For example, a contiguous ``(3, 4)`` array of type
``int16`` in C-order has strides ``(8, 2)``. This implies that
to move from element to element in memory requires jumps of 2 bytes.
To move from row-to-row, one needs to jump 8 bytes at a time
(``2 * 4``).
ctypes : ctypes object
Class containing properties of the array needed for interaction
with ctypes.
base : ndarray
If the array is a view into another array, that array is its `base`
(unless that array is also a view). The `base` array is where the
array data is actually stored.
See Also
--------
array : Construct an array.
zeros : Create an array, each element of which is zero.
empty : Create an array, but leave its allocated memory unchanged (i.e.,
it contains "garbage").
dtype : Create a data-type.
numpy.typing.NDArray : An ndarray alias :term:`generic <generic type>`
w.r.t. its `dtype.type <numpy.dtype.type>`.
Notes
-----
There are two modes of creating an array using ``__new__``:
1. If `buffer` is None, then only `shape`, `dtype`, and `order`
are used.
2. If `buffer` is an object exposing the buffer interface, then
all keywords are interpreted.
No ``__init__`` method is needed because the array is fully initialized
after the ``__new__`` method.
Examples
--------
These examples illustrate the low-level `ndarray` constructor. Refer
to the `See Also` section above for easier ways of constructing an
ndarray.
First mode, `buffer` is None:
>>> import numpy as np
>>> np.ndarray(shape=(2,2), dtype=float, order='F')
array([[0.0e+000, 0.0e+000], # random
[ nan, 2.5e-323]])
Second mode:
>>> np.ndarray((2,), buffer=np.array([1,2,3]),
... offset=np.int_().itemsize,
... dtype=int) # offset = 1*itemsize, i.e. skip first element
array([2, 3])
five = 5.0
fiveThird = 1.6666666666666667
four = 4.0
h2m = 41.471043279826425
half = 0.5
hbc = 197.3269804
hour = 3600
mec2 = 0.510998949
minute = 60
mmuc2 = 105.6583745
mnc2 = 939.565346
mnuc2 = 939.0
mnuc2_approx = 939.0
month = 2592000
mpc2 = 938.272013
ns = 1e-09
nsat = 0.16
nucleardatapy_tk = None
one = 1.0
path_ame = '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/...
path_data = '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0...
pi = 3.141592653589793
pi2 = 9.869604401089358
rshsol_si = 2954.85453973408
third = 0.3333333333333333
three = 3.0
threeFifth = 0.6
two = 2.0
twoThird = 0.6666666666666666
verb = False
verb_latex = True
verb_output = False
year = 31556926.080000002
yearMin = 1890
FILE
/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/__init__.py
None
print ( nuda.__dict__ )
{'__name__': 'nucleardatapy', '__doc__': '\nThis toolkit is a community-driven tool providing data for nuclear and astro-nuclear research community. It contains microscopic, phenomenological, experimental and observational data for the understanding of neutron stars.\nTo get some help, please contact: nucleardatapy@gmail.com.\n', '__package__': 'nucleardatapy', '__loader__': <_frozen_importlib_external.SourceFileLoader object at 0x7f541eeef170>, '__spec__': ModuleSpec(name='nucleardatapy', loader=<_frozen_importlib_external.SourceFileLoader object at 0x7f541eeef170>, origin='/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/__init__.py', submodule_search_locations=['/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy']), '__path__': ['/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy'], '__file__': '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/__init__.py', '__cached__': '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/__pycache__/__init__.cpython-312.pyc', '__builtins__': {'__name__': 'builtins', '__doc__': "Built-in functions, types, exceptions, and other objects.\n\nThis module provides direct access to all 'built-in'\nidentifiers of Python; for example, builtins.len is\nthe full name for the built-in function len().\n\nThis module is not normally accessed explicitly by most\napplications, but can be useful in modules that provide\nobjects with the same name as a built-in value, but in\nwhich the built-in of that name is also needed.", '__package__': '', '__loader__': <class '_frozen_importlib.BuiltinImporter'>, '__spec__': ModuleSpec(name='builtins', loader=<class '_frozen_importlib.BuiltinImporter'>, origin='built-in'), '__build_class__': <built-in function __build_class__>, '__import__': <built-in function __import__>, 'abs': <built-in function abs>, 'all': <built-in function all>, 'any': <built-in function any>, 'ascii': <built-in function ascii>, 'bin': <built-in function bin>, 'breakpoint': <built-in function breakpoint>, 'callable': <built-in function callable>, 'chr': <built-in function chr>, 'compile': <built-in function compile>, 'delattr': <built-in function delattr>, 'dir': <built-in function dir>, 'divmod': <built-in function divmod>, 'eval': <built-in function eval>, 'exec': <built-in function exec>, 'format': <built-in function format>, 'getattr': <built-in function getattr>, 'globals': <built-in function globals>, 'hasattr': <built-in function hasattr>, 'hash': <built-in function hash>, 'hex': <built-in function hex>, 'id': <built-in function id>, 'input': <bound method Kernel.raw_input of <ipykernel.ipkernel.IPythonKernel object at 0x7f545daa7e90>>, 'isinstance': <built-in function isinstance>, 'issubclass': <built-in function issubclass>, 'iter': <built-in function iter>, 'aiter': <built-in function aiter>, 'len': <built-in function len>, 'locals': <built-in function locals>, 'max': <built-in function max>, 'min': <built-in function min>, 'next': <built-in function next>, 'anext': <built-in function anext>, 'oct': <built-in function oct>, 'ord': <built-in function ord>, 'pow': <built-in function pow>, 'print': <built-in function print>, 'repr': <built-in function repr>, 'round': <built-in function round>, 'setattr': <built-in function setattr>, 'sorted': <built-in function sorted>, 'sum': <built-in function sum>, 'vars': <built-in function vars>, 'None': None, 'Ellipsis': Ellipsis, 'NotImplemented': NotImplemented, 'False': False, 'True': True, 'bool': <class 'bool'>, 'memoryview': <class 'memoryview'>, 'bytearray': <class 'bytearray'>, 'bytes': <class 'bytes'>, 'classmethod': <class 'classmethod'>, 'complex': <class 'complex'>, 'dict': <class 'dict'>, 'enumerate': <class 'enumerate'>, 'filter': <class 'filter'>, 'float': <class 'float'>, 'frozenset': <class 'frozenset'>, 'property': <class 'property'>, 'int': <class 'int'>, 'list': <class 'list'>, 'map': <class 'map'>, 'object': <class 'object'>, 'range': <class 'range'>, 'reversed': <class 'reversed'>, 'set': <class 'set'>, 'slice': <class 'slice'>, 'staticmethod': <class 'staticmethod'>, 'str': <class 'str'>, 'super': <class 'super'>, 'tuple': <class 'tuple'>, 'type': <class 'type'>, 'zip': <class 'zip'>, '__debug__': True, 'BaseException': <class 'BaseException'>, 'BaseExceptionGroup': <class 'BaseExceptionGroup'>, 'Exception': <class 'Exception'>, 'GeneratorExit': <class 'GeneratorExit'>, 'KeyboardInterrupt': <class 'KeyboardInterrupt'>, 'SystemExit': <class 'SystemExit'>, 'ArithmeticError': <class 'ArithmeticError'>, 'AssertionError': <class 'AssertionError'>, 'AttributeError': <class 'AttributeError'>, 'BufferError': <class 'BufferError'>, 'EOFError': <class 'EOFError'>, 'ImportError': <class 'ImportError'>, 'LookupError': <class 'LookupError'>, 'MemoryError': <class 'MemoryError'>, 'NameError': <class 'NameError'>, 'OSError': <class 'OSError'>, 'ReferenceError': <class 'ReferenceError'>, 'RuntimeError': <class 'RuntimeError'>, 'StopAsyncIteration': <class 'StopAsyncIteration'>, 'StopIteration': <class 'StopIteration'>, 'SyntaxError': <class 'SyntaxError'>, 'SystemError': <class 'SystemError'>, 'TypeError': <class 'TypeError'>, 'ValueError': <class 'ValueError'>, 'Warning': <class 'Warning'>, 'FloatingPointError': <class 'FloatingPointError'>, 'OverflowError': <class 'OverflowError'>, 'ZeroDivisionError': <class 'ZeroDivisionError'>, 'BytesWarning': <class 'BytesWarning'>, 'DeprecationWarning': <class 'DeprecationWarning'>, 'EncodingWarning': <class 'EncodingWarning'>, 'FutureWarning': <class 'FutureWarning'>, 'ImportWarning': <class 'ImportWarning'>, 'PendingDeprecationWarning': <class 'PendingDeprecationWarning'>, 'ResourceWarning': <class 'ResourceWarning'>, 'RuntimeWarning': <class 'RuntimeWarning'>, 'SyntaxWarning': <class 'SyntaxWarning'>, 'UnicodeWarning': <class 'UnicodeWarning'>, 'UserWarning': <class 'UserWarning'>, 'BlockingIOError': <class 'BlockingIOError'>, 'ChildProcessError': <class 'ChildProcessError'>, 'ConnectionError': <class 'ConnectionError'>, 'FileExistsError': <class 'FileExistsError'>, 'FileNotFoundError': <class 'FileNotFoundError'>, 'InterruptedError': <class 'InterruptedError'>, 'IsADirectoryError': <class 'IsADirectoryError'>, 'NotADirectoryError': <class 'NotADirectoryError'>, 'PermissionError': <class 'PermissionError'>, 'ProcessLookupError': <class 'ProcessLookupError'>, 'TimeoutError': <class 'TimeoutError'>, 'IndentationError': <class 'IndentationError'>, 'IndexError': <class 'IndexError'>, 'KeyError': <class 'KeyError'>, 'ModuleNotFoundError': <class 'ModuleNotFoundError'>, 'NotImplementedError': <class 'NotImplementedError'>, 'RecursionError': <class 'RecursionError'>, 'UnboundLocalError': <class 'UnboundLocalError'>, 'UnicodeError': <class 'UnicodeError'>, 'BrokenPipeError': <class 'BrokenPipeError'>, 'ConnectionAbortedError': <class 'ConnectionAbortedError'>, 'ConnectionRefusedError': <class 'ConnectionRefusedError'>, 'ConnectionResetError': <class 'ConnectionResetError'>, 'TabError': <class 'TabError'>, 'UnicodeDecodeError': <class 'UnicodeDecodeError'>, 'UnicodeEncodeError': <class 'UnicodeEncodeError'>, 'UnicodeTranslateError': <class 'UnicodeTranslateError'>, 'ExceptionGroup': <class 'ExceptionGroup'>, 'EnvironmentError': <class 'OSError'>, 'IOError': <class 'OSError'>, 'open': <built-in function open>, 'copyright': Copyright (c) 2001-2023 Python Software Foundation.
All Rights Reserved.
Copyright (c) 2000 BeOpen.com.
All Rights Reserved.
Copyright (c) 1995-2001 Corporation for National Research Initiatives.
All Rights Reserved.
Copyright (c) 1991-1995 Stichting Mathematisch Centrum, Amsterdam.
All Rights Reserved., 'credits': Thanks to CWI, CNRI, BeOpen, Zope Corporation, the Python Software
Foundation, and a cast of thousands for supporting Python
development. See www.python.org for more information., 'license': Type license() to see the full license text, 'help': Type help() for interactive help, or help(object) for help about object., 'execfile': <function execfile at 0x7f5458978680>, 'runfile': <function runfile at 0x7f54588bad40>, '__IPYTHON__': True, 'display': <function display at 0x7f545e9e93a0>, 'get_ipython': <bound method InteractiveShell.get_ipython of <ipykernel.zmqshell.ZMQInteractiveShell object at 0x7f54584241d0>>}, 'cst': <module 'nucleardatapy.cst' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/cst.py'>, 'hbc': 197.3269804, 'pi': 3.141592653589793, 'pi2': 9.869604401089358, 'mec2': 0.510998949, 'mmuc2': 105.6583745, 'mnc2': 939.565346, 'mpc2': 938.272013, 'mnuc2': 939.0, 'mnuc2_approx': 939.0, 'h2m': 41.471043279826425, 'nsat': 0.16, 'e': 1.602176634e-19, 'c': 299792458.0, 'c2': 8.987551787368176e+16, 'Nc': 3, 'G_cgs': 6.67259e-08, 'G_si': 6.67259e-11, 'Msol_cgs': 1.99e+33, 'Msol_si': 1.99e+30, 'Rsol_cgs': 69600000000.0, 'Rsol_si': 696000000.0, 'rshsol_si': 2954.85453973408, 'one': 1.0, 'two': 2.0, 'three': 3.0, 'four': 4.0, 'five': 5.0, 'half': 0.5, 'third': 0.3333333333333333, 'twoThird': 0.6666666666666666, 'threeFifth': 0.6, 'fiveThird': 1.6666666666666667, 'MeV2J': 1.6021766339999998e-13, 'MeV2kg': 1.7826619216278976e-30, 'MeVfm32gcm3': 1782661921627.8977, 'MeVfm32dyncm2': 1.602176634e+33, 'env': <module 'nucleardatapy.env' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/env.py'>, 'verb': False, 'verb_output': False, 'verb_latex': True, 'param': <module 'nucleardatapy.param' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/param.py'>, 'os': <module 'os' (frozen)>, 'np': <module 'numpy' from '/opt/hostedtoolcache/Python/3.12.13/x64/lib/python3.12/site-packages/numpy/__init__.py'>, 'nucleardatapy_tk': None, 'path_data': '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/data/', 'path_ame': '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/data/AME/', 'col': ['blue', 'orange', 'green', 'red', 'purple', 'brown', 'pink', 'gray', 'olive', 'cyan', 'black', 'magenta', 'yellow', '#1f77b4', '#ff7f0e', '#2ca02c', '#d62728', '#9467bd', '#8c564b', '#e377c2', '#7f7f7f', '#bcbd22', '#17becf'], 'elements': array(['H', 'He', 'Li', 'Be', 'B', 'C', 'N', 'O', 'F', 'Ne', 'Na', 'Mg',
'Al', 'Si', 'P', 'S', 'Cl', 'Ar', 'K', 'Ca', 'Sc', 'Ti', 'V', 'Cr',
'Mn', 'Fe', 'Co', 'Ni', 'Cu', 'Zn', 'Ga', 'Ge', 'As', 'Se', 'Br',
'Kr', 'Rb', 'Sr', 'Y', 'Zr', 'Nb', 'Mo', 'Tc', 'Ru', 'Rh', 'Pd',
'Ag', 'Cd', 'In', 'Sn', 'Sb', 'Te', 'I', 'Xe', 'Cs', 'Ba', 'La',
'Ce', 'Pr', 'Nd', 'Pm', 'Sm', 'Eu', 'Gd', 'Tb', 'Dy', 'Ho', 'Er',
'Tm', 'Yb', 'Lu', 'Hf', 'Ta', 'W', 'Re', 'Os', 'Ir', 'Pt', 'Au',
'Hg', 'Tl', 'Pb', 'Bi', 'Po', 'At', 'Rn', 'Fr', 'Ra', 'Ac', 'Th',
'Pa', 'U', 'Np', 'Pu', 'Am', 'Cm', 'Bk', 'Cf', 'Es', 'Fm', 'Md',
'No', 'Lr', 'Rf', 'Db', 'Sg', 'Bh', 'Hs', 'Mt', 'Ds', 'Rg', 'Cn',
'Nh', 'Fl', 'Mc', 'Lv', 'Ts', 'Og'], dtype='<U2'), 'tex2str': <function tex2str at 0x7f541ef10040>, 'hello': <function hello at 0x7f541ef10180>, 'create_folder': <module 'nucleardatapy.create_folder' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/create_folder.py'>, 'create_folder_fig': <function create_folder_fig at 0x7f541ef102c0>, 'matter': <module 'nucleardatapy.matter' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/__init__.py'>, 'setup_ffg': <module 'nucleardatapy.matter.setup_ffg' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_ffg.py'>, 'nuda': <module 'nucleardatapy' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/__init__.py'>, 'kf': <function kf at 0x7f541ef105e0>, 'den': <function den at 0x7f541ef10680>, 'kf_n': <function kf_n at 0x7f541ef10860>, 'den_n': <function den_n at 0x7f541ef10900>, 'eF_n': <function eF_n at 0x7f541ef109a0>, 'eF_n_nr': <function eF_n_nr at 0x7f541ef10a40>, 'effg_NM_nr': <function effg_NM_nr at 0x7f541ef10ae0>, 'effg_SM_nr': <function effg_SM_nr at 0x7f541ef10b80>, 'effg_nr': <function effg_nr at 0x7f541ef10c20>, 'esymffg_nr': <function esymffg_nr at 0x7f541ef10cc0>, 'pre_nr': <function pre_nr at 0x7f541ef10d60>, 'cs2_nr': <function cs2_nr at 0x7f541ef10e00>, 'feden': <function feden at 0x7f541ef10ea0>, 'fpres': <function fpres at 0x7f541ef10f40>, 'f_dp_dn': <function f_dp_dn at 0x7f541ef10fe0>, 'setupFFGNuc': <class 'nucleardatapy.matter.setup_ffg.setupFFGNuc'>, 'setupFFGLep': <class 'nucleardatapy.matter.setup_ffg.setupFFGLep'>, 'setup_micro': <module 'nucleardatapy.matter.setup_micro' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_micro.py'>, 'CubicSpline': <class 'scipy.interpolate._cubic.CubicSpline'>, 'curve_fit': <function curve_fit at 0x7f5410b8bce0>, 'random': <module 'random' from '/opt/hostedtoolcache/Python/3.12.13/x64/lib/python3.12/random.py'>, 'uncertainty_stat': <function uncertainty_stat at 0x7f541ef114e0>, 'micro_mbs': <function micro_mbs at 0x7f541ef116c0>, 'micro_models_mb': <function micro_models_mb at 0x7f540f6adee0>, 'micro_models_mbs': <function micro_models_mbs at 0x7f540f6af2e0>, 'micro_models': <function micro_models at 0x7f540f6af600>, 'micro_models_mb_matter': <function micro_models_mb_matter at 0x7f540f6af6a0>, 'APRfit_compute': <function APRfit_compute at 0x7f540f6af740>, 'func_GCR_e2a': <function func_GCR_e2a at 0x7f540f6af7e0>, 'func_GCR_pre': <function func_GCR_pre at 0x7f540f6af880>, 'func_GCR_cs2': <function func_GCR_cs2 at 0x7f540f6af920>, 'func_e2a_NLEFT2024': <function func_e2a_NLEFT2024 at 0x7f540f6af9c0>, 'func_pre_NLEFT2024': <function func_pre_NLEFT2024 at 0x7f540f6afa60>, 'func_dpredn_NLEFT2024': <function func_dpredn_NLEFT2024 at 0x7f540f6afb00>, 'setupMicro': <class 'nucleardatapy.matter.setup_micro.setupMicro'>, 'setup_micro_effmass': <module 'nucleardatapy.matter.setup_micro_effmass' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_micro_effmass.py'>, 'sys': <module 'sys' (built-in)>, 'math': <module 'math' from '/opt/hostedtoolcache/Python/3.12.13/x64/lib/python3.12/lib-dynload/math.cpython-312-x86_64-linux-gnu.so'>, 'effmass_emp': <function effmass_emp at 0x7f540f6afba0>, 'micro_effmass_models': <function micro_effmass_models at 0x7f540f6afe20>, 'setupMicroEffmass': <class 'nucleardatapy.matter.setup_micro_effmass.setupMicroEffmass'>, 'setup_micro_gap': <module 'nucleardatapy.matter.setup_micro_gap' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_micro_gap.py'>, 'micro_gap_models': <function micro_gap_models at 0x7f540f6afec0>, 'setupMicroGap': <class 'nucleardatapy.matter.setup_micro_gap.setupMicroGap'>, 'setup_micro_band': <module 'nucleardatapy.matter.setup_micro_band' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_micro_band.py'>, 'gauss': <function gauss at 0x7f540f42a2a0>, 'setupMicroBand': <class 'nucleardatapy.matter.setup_micro_band.setupMicroBand'>, 'setup_micro_esym': <module 'nucleardatapy.matter.setup_micro_esym' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_micro_esym.py'>, 'micro_esym_mbs': <function micro_esym_mbs at 0x7f540f6c0680>, 'micro_esym_models_mb': <function micro_esym_models_mb at 0x7f540f6c0720>, 'micro_esym_models_mbs': <function micro_esym_models_mbs at 0x7f540f6c07c0>, 'micro_esym_models': <function micro_esym_models at 0x7f540f6c0860>, 'setupMicroEsym': <class 'nucleardatapy.matter.setup_micro_esym.setupMicroEsym'>, 'setup_micro_lp': <module 'nucleardatapy.matter.setup_micro_lp' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_micro_lp.py'>, 'micro_LP_models': <function micro_LP_models at 0x7f541ef10540>, 'setupMicroLP': <class 'nucleardatapy.matter.setup_micro_lp.setupMicroLP'>, 'setup_pheno': <module 'nucleardatapy.matter.setup_pheno' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_pheno.py'>, 'pheno_models': <function pheno_models at 0x7f540f6c0e00>, 'pheno_params': <function pheno_params at 0x7f540f6c0ea0>, 'setupPheno': <class 'nucleardatapy.matter.setup_pheno.setupPheno'>, 'setup_pheno_esym': <module 'nucleardatapy.matter.setup_pheno_esym' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_pheno_esym.py'>, 'pheno_esym_models': <function pheno_esym_models at 0x7f540f6c1260>, 'pheno_esym_params': <function pheno_esym_params at 0x7f540f6c1300>, 'setupPhenoEsym': <class 'nucleardatapy.matter.setup_pheno_esym.setupPhenoEsym'>, 'setup_hic': <module 'nucleardatapy.matter.setup_hic' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_hic.py'>, 'hic_inferences': <function hic_inferences at 0x7f540f6c1760>, 'setupHIC': <class 'nucleardatapy.matter.setup_hic.setupHIC'>, 'setup_nep': <module 'nucleardatapy.matter.setup_nep' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_nep.py'>, 'nep_models': <function nep_models at 0x7f540f6c1a80>, 'nep_params': <function nep_params at 0x7f540f6c1b20>, 'setupNEP': <class 'nucleardatapy.matter.setup_nep.setupNEP'>, 'setup_nep_stat_model': <module 'nucleardatapy.matter.setup_nep_stat_model' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_nep_stat_model.py'>, 'setupNEPStat_model': <class 'nucleardatapy.matter.setup_nep_stat_model.setupNEPStat_model'>, 'setup_nep_stat_models': <module 'nucleardatapy.matter.setup_nep_stat_models' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_nep_stat_models.py'>, 'setupNEPStat_models': <class 'nucleardatapy.matter.setup_nep_stat_models.setupNEPStat_models'>, 'setup_check': <module 'nucleardatapy.matter.setup_check' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/matter/setup_check.py'>, 'setupCheck': <class 'nucleardatapy.matter.setup_check.setupCheck'>, 'eos': <module 'nucleardatapy.eos' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/eos/__init__.py'>, 'setup_am': <module 'nucleardatapy.eos.setup_am' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/eos/setup_am.py'>, 'fsolve': <function fsolve at 0x7f5410b88cc0>, 'setupAM': <class 'nucleardatapy.eos.setup_am.setupAM'>, 'setup_am_Leq': <module 'nucleardatapy.eos.setup_am_Leq' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/eos/setup_am_Leq.py'>, 'func_am': <function func_am at 0x7f540f6c2a20>, 'setupAMLeq': <class 'nucleardatapy.eos.setup_am_Leq.setupAMLeq'>, 'setup_am_Beq': <module 'nucleardatapy.eos.setup_am_Beq' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/eos/setup_am_Beq.py'>, 'func_betaeq': <function func_betaeq at 0x7f540f6c2d40>, 'setupAMBeq': <class 'nucleardatapy.eos.setup_am_Beq.setupAMBeq'>, 'setupCC': <class 'nucleardatapy.eos.setupCC.setupCC'>, 'denCC_emp': <function denCC_emp at 0x7f540f6c3100>, 'corr': <module 'nucleardatapy.corr' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/corr/__init__.py'>, 'setup_KsatQsat': <module 'nucleardatapy.corr.setup_KsatQsat' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/corr/setup_KsatQsat.py'>, 'KsatQsat_constraints': <function KsatQsat_constraints at 0x7f540f6c3560>, 'flinear': <function flinear at 0x7f540f6c3600>, 'setupKsatQsat': <class 'nucleardatapy.corr.setup_KsatQsat.setupKsatQsat'>, 'setup_EsymLsym': <module 'nucleardatapy.corr.setup_EsymLsym' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/corr/setup_EsymLsym.py'>, 'EsymLsym_constraints': <function EsymLsym_constraints at 0x7f540f6c3b00>, 'HIC_Esym': <function HIC_Esym at 0x7f540f6c3ba0>, 'HIC_Lsym': <function HIC_Lsym at 0x7f540f6c3c40>, 'HIC_xgi': <function HIC_xgi at 0x7f540f6c3ce0>, 'HIC_Lsym_bound': <function HIC_Lsym_bound at 0x7f540f6c3d80>, 'setupEsymLsym': <class 'nucleardatapy.corr.setup_EsymLsym.setupEsymLsym'>, 'setup_EsymDen': <module 'nucleardatapy.corr.setup_EsymDen' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/corr/setup_EsymDen.py'>, 'setupEsymDen': <class 'nucleardatapy.corr.setup_EsymDen.setupEsymDen'>, 'nuc': <module 'nucleardatapy.nuc' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/nuc/__init__.py'>, 'setup_be_exp': <module 'nucleardatapy.nuc.setup_be_exp' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/nuc/setup_be_exp.py'>, 'CST_AtmMass': 931.494028, 'CST_mnc2': 8.0713171, 'CST_dmnc2': 5e-07, 'CST_mHc2': 7.2889706, 'CST_dmHc2': 1e-07, 'yearMin': 1890, 'ns': 1e-09, 'minute': 60, 'hour': 3600, 'day': 86400, 'month': 2592000, 'year': 31556926.080000002, 'ILt': 3.155692608e+37, 'ISt': 1e-30, 'HTsl': 86400, 'HTvsl': 1.0, 'HThsl': 0.001, 'stable_fit_Z': <function stable_fit_Z at 0x7f540f3f4900>, 'stable_fit_N': <function stable_fit_N at 0x7f540f3f49a0>, 'be_exp_tables': <function be_exp_tables at 0x7f540f3f4a40>, 'be_exp_versions': <function be_exp_versions at 0x7f540f3f4ae0>, 'plot_shells': <function plot_shells at 0x7f540f3f4b80>, 'setupBEExp': <class 'nucleardatapy.nuc.setup_be_exp.setupBEExp'>, 'setup_be_theo': <module 'nucleardatapy.nuc.setup_be_theo' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/nuc/setup_be_theo.py'>, 'delta_emp': <function delta_emp at 0x7f540f3f4220>, 'be_theo_tables': <function be_theo_tables at 0x7f540f3f58a0>, 'conversionMBE': <function conversionMBE at 0x7f540f3f5940>, 'setupBETheo': <class 'nucleardatapy.nuc.setup_be_theo.setupBETheo'>, 'setup_isgmr_exp': <module 'nucleardatapy.nuc.setup_isgmr_exp' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/nuc/setup_isgmr_exp.py'>, 'isgmr_exp_tables': <function isgmr_exp_tables at 0x7f540f3f6340>, 'setupISGMRExp': <class 'nucleardatapy.nuc.setup_isgmr_exp.setupISGMRExp'>, 'setup_rnp_exp': <module 'nucleardatapy.nuc.setup_rnp_exp' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/nuc/setup_rnp_exp.py'>, 'rnp_exp': <function rnp_exp at 0x7f540f3f68e0>, 'rnp_exp_source': <function rnp_exp_source at 0x7f540f3f6980>, 'setupRnpExp': <class 'nucleardatapy.nuc.setup_rnp_exp.setupRnpExp'>, 'setupRnpAverage': <class 'nucleardatapy.nuc.setup_rnp_exp.setupRnpAverage'>, 'setup_rnp_theo': <module 'nucleardatapy.nuc.setup_rnp_theo' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/nuc/setup_rnp_theo.py'>, 'rnp_theo_models': <function rnp_theo_models at 0x7f540f3f6fc0>, 'rnp_theo_params': <function rnp_theo_params at 0x7f540f3f7060>, 'setupRnpTheo': <class 'nucleardatapy.nuc.setup_rnp_theo.setupRnpTheo'>, 'setup_rch_exp': <module 'nucleardatapy.nuc.setup_rch_exp' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/nuc/setup_rch_exp.py'>, 'rch_exp_tables': <function rch_exp_tables at 0x7f540f3f7420>, 'setupRchExp': <class 'nucleardatapy.nuc.setup_rch_exp.setupRchExp'>, 'setupRchExpIsotopes': <class 'nucleardatapy.nuc.setup_rch_exp.setupRchExpIsotopes'>, 'setup_rch_theo': <module 'nucleardatapy.nuc.setup_rch_theo' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/nuc/setup_rch_theo.py'>, 'rch_emp': <function rch_emp at 0x7f540f3f63e0>, 'rch_theo_tables': <function rch_theo_tables at 0x7f540f3f7a60>, 'setupRchTheo': <class 'nucleardatapy.nuc.setup_rch_theo.setupRchTheo'>, 'setupRchTheoIsotopes': <class 'nucleardatapy.nuc.setup_rch_theo.setupRchTheoIsotopes'>, 'crust': <module 'nucleardatapy.crust' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/crust/__init__.py'>, 'setup_crust': <module 'nucleardatapy.crust.setup_crust' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/crust/setup_crust.py'>, 'crust_models': <function crust_models at 0x7f540f3f7f60>, 'setupCrust': <class 'nucleardatapy.crust.setup_crust.setupCrust'>, 'astro': <module 'nucleardatapy.astro' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/astro/__init__.py'>, 'setup_masses': <module 'nucleardatapy.astro.setup_masses' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/astro/setup_masses.py'>, 'masses_sources': <function masses_sources at 0x7f540f428680>, 'masses_obss': <function masses_obss at 0x7f540f428720>, 'setupMasses': <class 'nucleardatapy.astro.setup_masses.setupMasses'>, 'setupMassesAverage': <class 'nucleardatapy.astro.setup_masses.setupMassesAverage'>, 'setup_mup': <module 'nucleardatapy.astro.setup_mup' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/astro/setup_mup.py'>, 'mup_sources': <function mup_sources at 0x7f540f428ea0>, 'mup_hyps': <function mup_hyps at 0x7f540f428f40>, 'setupMup': <class 'nucleardatapy.astro.setup_mup.setupMup'>, 'setupMupAverage': <class 'nucleardatapy.astro.setup_mup.setupMupAverage'>, 'setup_mtov': <module 'nucleardatapy.astro.setup_mtov' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/astro/setup_mtov.py'>, 'special': <module 'scipy.special' from '/opt/hostedtoolcache/Python/3.12.13/x64/lib/python3.12/site-packages/scipy/special/__init__.py'>, 'compute_proba_do': <function compute_proba_do at 0x7f540f428040>, 'compute_proba_up': <function compute_proba_up at 0x7f540f429620>, 'setupMtov': <class 'nucleardatapy.astro.setup_mtov.setupMtov'>, 'setup_mr': <module 'nucleardatapy.astro.setup_mr' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/astro/setup_mr.py'>, 'mr_sources': <function mr_sources at 0x7f540f4299e0>, 'mr_obss': <function mr_obss at 0x7f540f429a80>, 'setupMR': <class 'nucleardatapy.astro.setup_mr.setupMR'>, 'setupMRAverage': <class 'nucleardatapy.astro.setup_mr.setupMRAverage'>, 'setup_gw': <module 'nucleardatapy.astro.setup_gw' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/astro/setup_gw.py'>, 'gw_sources': <function gw_sources at 0x7f540f42a160>, 'gw_hyps': <function gw_hyps at 0x7f540f42a200>, 'setupGW': <class 'nucleardatapy.astro.setup_gw.setupGW'>, 'setupGWAverage': <class 'nucleardatapy.astro.setup_gw.setupGWAverage'>, 'hnuc': <module 'nucleardatapy.hnuc' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/hnuc/__init__.py'>, 'setup_re1L_exp': <module 'nucleardatapy.hnuc.setup_re1L_exp' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/hnuc/setup_re1L_exp.py'>, 're1L_exp_tables': <function re1L_exp_tables at 0x7f540f42a980>, 'setupRE1LExp': <class 'nucleardatapy.hnuc.setup_re1L_exp.setupRE1LExp'>, 'setup_re2L_exp': <module 'nucleardatapy.hnuc.setup_re2L_exp' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/hnuc/setup_re2L_exp.py'>, 're2L_exp_tables': <function re2L_exp_tables at 0x7f540f42aca0>, 'setupRE2LExp': <class 'nucleardatapy.hnuc.setup_re2L_exp.setupRE2LExp'>, 'setup_re1Xi_exp': <module 'nucleardatapy.hnuc.setup_re1Xi_exp' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/hnuc/setup_re1Xi_exp.py'>, 're1Xi_exp_tables': <function re1Xi_exp_tables at 0x7f540f42ad40>, 'setupRE1XiExp': <class 'nucleardatapy.hnuc.setup_re1Xi_exp.setupRE1XiExp'>, 'fig': <module 'nucleardatapy.fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/__init__.py'>, 'matter_setupFFGNuc_fig': <module 'nucleardatapy.fig.matter_setupFFGNuc_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/matter_setupFFGNuc_fig.py'>, 'mpl': <module 'matplotlib' from '/opt/hostedtoolcache/Python/3.12.13/x64/lib/python3.12/site-packages/matplotlib/__init__.py'>, 'plt': <module 'matplotlib.pyplot' from '/opt/hostedtoolcache/Python/3.12.13/x64/lib/python3.12/site-packages/matplotlib/pyplot.py'>, 'matter_setupFFGNuc_EP_fig': <function matter_setupFFGNuc_EP_fig at 0x7f540f42ba60>, 'matter_setupFFGNuc_EOS_fig': <function matter_setupFFGNuc_EOS_fig at 0x7f540f42bba0>, 'matter_setupFFGLep_fig': <function matter_setupFFGLep_fig at 0x7f540f42b2e0>, 'matter_setupMicro_fig': <module 'nucleardatapy.fig.matter_setupMicro_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/matter_setupMicro_fig.py'>, 'matter_setupMicro_e2a_fig': <function matter_setupMicro_e2a_fig at 0x7f540f42b420>, 'matter_setupMicro_pre_fig': <function matter_setupMicro_pre_fig at 0x7f540f42bce0>, 'matter_setupMicro_cs2_fig': <function matter_setupMicro_cs2_fig at 0x7f540f4554e0>, 'matter_setupMicro_err_NM_fig': <function matter_setupMicro_err_NM_fig at 0x7f540f4556c0>, 'matter_setupMicro_band_fig': <function matter_setupMicro_band_fig at 0x7f540f4558a0>, 'matter_setupMicro_effmass_fig': <function matter_setupMicro_effmass_fig at 0x7f540f455b20>, 'matter_setupMicro_gap_fig': <module 'nucleardatapy.fig.matter_setupMicro_gap_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/matter_setupMicro_gap_fig.py'>, 'matter_setupMicro_gap_1s0_fig': <function matter_setupMicro_gap_1s0_fig at 0x7f540f455d00>, 'matter_setupMicro_gap_3pf2_fig': <function matter_setupMicro_gap_3pf2_fig at 0x7f540f455da0>, 'matter_setupMicro_LP_fig': <function matter_setupMicro_LP_fig at 0x7f540f455800>, 'matter_setupMicroEsym_fig': <function matter_setupMicroEsym_fig at 0x7f540f4560c0>, 'matter_setupPheno_fig': <module 'nucleardatapy.fig.matter_setupPheno_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/matter_setupPheno_fig.py'>, 'matter_setupPheno_e2a_fig': <function matter_setupPheno_e2a_fig at 0x7f540f456160>, 'matter_setupPheno_pre_fig': <function matter_setupPheno_pre_fig at 0x7f540f456200>, 'matter_setupPheno_cs2_fig': <function matter_setupPheno_cs2_fig at 0x7f540f4562a0>, 'matter_setupPhenoEsym_fig': <function matter_setupPhenoEsym_fig at 0x7f540f456480>, 'matter_setupHIC_fig': <function matter_setupHIC_fig at 0x7f540f456520>, 'matter_setupNEPStats_fig': <function matter_setupNEPStats_fig at 0x7f540f456020>, 'matter_setupCheck_fig': <function matter_setupCheck_fig at 0x7f540f456660>, 'matter_all_fig': <module 'nucleardatapy.fig.matter_all_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/matter_all_fig.py'>, 'matter_all_e2a_fig': <function matter_all_e2a_fig at 0x7f540f4567a0>, 'matter_all_Esym_fig': <function matter_all_Esym_fig at 0x7f540f456840>, 'matter_all_pre_fig': <function matter_all_pre_fig at 0x7f540f4568e0>, 'matter_all_eos_fig': <function matter_all_eos_fig at 0x7f540f456980>, 'matter_all_cs2_fig': <function matter_all_cs2_fig at 0x7f540f456a20>, 'corr_setupKsatQsat_fig': <function corr_setupKsatQsat_fig at 0x7f540f456ac0>, 'corr_setupEsymLsym_fig': <function corr_setupEsymLsym_fig at 0x7f540f456b60>, 'corr_setupEsymDen_fig': <function corr_setupEsymDen_fig at 0x7f540f456700>, 'nuc_setupBEExp_fig': <module 'nucleardatapy.fig.nuc_setupBEExp_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/nuc_setupBEExp_fig.py'>, 'nuc_setupBEExp_year_fig': <function nuc_setupBEExp_year_fig at 0x7f540f456ca0>, 'nuc_setupBEExp_S2n_fig': <function nuc_setupBEExp_S2n_fig at 0x7f540f456d40>, 'nuc_setupBEExp_S2p_fig': <function nuc_setupBEExp_S2p_fig at 0x7f540f456de0>, 'nuc_setupBEExp_D3n_fig': <function nuc_setupBEExp_D3n_fig at 0x7f540f456e80>, 'nuc_setupBEExp_D3p_fig': <function nuc_setupBEExp_D3p_fig at 0x7f540f456f20>, 'nuc_setupBETheo_fig': <module 'nucleardatapy.fig.nuc_setupBETheo_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/nuc_setupBETheo_fig.py'>, 'nuc_setupBETheo_diff_fig': <function nuc_setupBETheo_diff_fig at 0x7f540f456fc0>, 'nuc_setupBETheo_S2n_fig': <function nuc_setupBETheo_S2n_fig at 0x7f540f457060>, 'nuc_setupBETheo_S2p_fig': <function nuc_setupBETheo_S2p_fig at 0x7f540f457100>, 'nuc_setupBETheo_D3n_fig': <function nuc_setupBETheo_D3n_fig at 0x7f540f4571a0>, 'nuc_setupBETheo_D3p_fig': <function nuc_setupBETheo_D3p_fig at 0x7f540f457240>, 'nuc_setupBEExp_chart_fig': <module 'nucleardatapy.fig.nuc_setupBEExp_chart_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/nuc_setupBEExp_chart_fig.py'>, 'nuc_setupBEExp_chart_lt_fig': <function nuc_setupBEExp_chart_lt_fig at 0x7f540f4572e0>, 'nuc_setupBEExp_chart_year_fig': <function nuc_setupBEExp_chart_year_fig at 0x7f540f457380>, 'nuc_setupBEExp_chart_Rch_fig': <function nuc_setupBEExp_chart_Rch_fig at 0x7f540f457420>, 'nuc_setupRchExp_fig': <function nuc_setupRchExp_fig at 0x7f540f4574c0>, 'nuc_setupRchExp_3Zref_fig': <function nuc_setupRchExp_3Zref_fig at 0x7f540f457560>, 'nuc_setupRchTheo_fig': <function nuc_setupRchTheo_fig at 0x7f540f4565c0>, 'nuc_setupRchTheo_3Zref_fig': <function nuc_setupRchTheo_3Zref_fig at 0x7f540f457740>, 'nuc_setupISGMRExp_fig': <function nuc_setupISGMRExp_fig at 0x7f540f4577e0>, 'nuc_setupRnpExp_fig': <function nuc_setupRnpExp_fig at 0x7f540f457880>, 'AutoMinorLocator': <class 'matplotlib.ticker.AutoMinorLocator'>, 'SOURCE_LABELS_LATEX': {'48Ca': '$^{48}$Ca', '208Pb': '$^{208}$Pb'}, 'nuc_setupRnpTheo_fig': <function nuc_setupRnpTheo_fig at 0x7f540f457a60>, 'MODEL_TABLES_DIR': '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/data//rnp/', 'MODEL_STYLES': {'skyrme': {'color': 'blue', 'marker': 's', 'label': 'Skyrme'}, 'nlrh': {'color': 'red', 'marker': '^', 'label': 'NLRH'}, 'ddrh': {'color': 'green', 'marker': 'D', 'label': 'DDRH'}}, 'read_model_data': <function read_model_data at 0x7f540f4579c0>, 'hnuc_setupRE1LExp_fig': <function hnuc_setupRE1LExp_fig at 0x7f540f457b00>, 'hnuc_setupChart_fig': <function hnuc_setupChart_fig at 0x7f540f457600>, 'eos_setupAM_fig': <module 'nucleardatapy.fig.eos_setupAM_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/eos_setupAM_fig.py'>, 'eos_setupAM_e2a_fig': <function eos_setupAM_e2a_fig at 0x7f540f457ce0>, 'eos_setupAM_pre_fig': <function eos_setupAM_pre_fig at 0x7f540f457d80>, 'eos_setupAM_cs2_fig': <function eos_setupAM_cs2_fig at 0x7f540f457e20>, 'eos_setupAM_asy_nuc_fig': <module 'nucleardatapy.fig.eos_setupAM_asy_nuc_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/eos_setupAM_asy_nuc_fig.py'>, 'eos_setupAM_e2a_asy_nuc_fig': <function eos_setupAM_e2a_asy_nuc_fig at 0x7f540f457ec0>, 'eos_setupAM_pre_asy_nuc_fig': <function eos_setupAM_pre_asy_nuc_fig at 0x7f540f457f60>, 'eos_setupAM_cs2_asy_nuc_fig': <function eos_setupAM_cs2_asy_nuc_fig at 0x7f540f48c040>, 'eos_setupAM_asy_lep_fig': <module 'nucleardatapy.fig.eos_setupAM_asy_lep_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/eos_setupAM_asy_lep_fig.py'>, 'eos_setupAM_e2a_asy_lep_fig': <function eos_setupAM_e2a_asy_lep_fig at 0x7f540f48c0e0>, 'eos_setupAM_pre_asy_lep_fig': <function eos_setupAM_pre_asy_lep_fig at 0x7f540f48c180>, 'eos_setupAM_cs2_asy_lep_fig': <function eos_setupAM_cs2_asy_lep_fig at 0x7f540f48c220>, 'eos_setupAM_asy_tot_fig': <module 'nucleardatapy.fig.eos_setupAM_asy_tot_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/eos_setupAM_asy_tot_fig.py'>, 'eos_setupAM_e2a_asy_tot_fig': <function eos_setupAM_e2a_asy_tot_fig at 0x7f540f48c2c0>, 'eos_setupAM_pre_asy_tot_fig': <function eos_setupAM_pre_asy_tot_fig at 0x7f540f48c360>, 'eos_setupAM_cs2_asy_tot_fig': <function eos_setupAM_cs2_asy_tot_fig at 0x7f540f48c400>, 'eos_setupAMBeq_fig': <module 'nucleardatapy.fig.eos_setupAMBeq_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/eos_setupAMBeq_fig.py'>, 'eos_setupAMBeq_e2a_nuc_fig': <function eos_setupAMBeq_e2a_nuc_fig at 0x7f540f457c40>, 'eos_setupAMBeq_pre_nuc_fig': <function eos_setupAMBeq_pre_nuc_fig at 0x7f540f48c5e0>, 'eos_setupAMBeq_cs2_nuc_fig': <function eos_setupAMBeq_cs2_nuc_fig at 0x7f540f48c680>, 'eos_setupAMBeq_e2a_lep_fig': <function eos_setupAMBeq_e2a_lep_fig at 0x7f540f48c720>, 'eos_setupAMBeq_pre_lep_fig': <function eos_setupAMBeq_pre_lep_fig at 0x7f540f48c7c0>, 'eos_setupAMBeq_cs2_lep_fig': <function eos_setupAMBeq_cs2_lep_fig at 0x7f540f48c860>, 'eos_setupAMBeq_e2a_tot_fig': <function eos_setupAMBeq_e2a_tot_fig at 0x7f540f48c900>, 'eos_setupAMBeq_pre_tot_fig': <function eos_setupAMBeq_pre_tot_fig at 0x7f540f48c9a0>, 'eos_setupAMBeq_cs2_tot_fig': <function eos_setupAMBeq_cs2_tot_fig at 0x7f540f48ca40>, 'eos_setupAMBeq_eos_fig': <function eos_setupAMBeq_eos_fig at 0x7f540f48cae0>, 'eos_setupAMBeq_xp_fig': <function eos_setupAMBeq_xp_fig at 0x7f540f48cb80>, 'eos_setupAMBeq_xe_fig': <function eos_setupAMBeq_xe_fig at 0x7f540f48cc20>, 'eos_setupAMBeq_xmu_fig': <function eos_setupAMBeq_xmu_fig at 0x7f540f48ccc0>, 'eos_setupAMLeq_fig': <module 'nucleardatapy.fig.eos_setupAMLeq_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/eos_setupAMLeq_fig.py'>, 'eos_setupAMLeq_xe_fig': <function eos_setupAMLeq_xe_fig at 0x7f540f48cd60>, 'eos_setupAMLeq_xmu_fig': <function eos_setupAMLeq_xmu_fig at 0x7f540f48ce00>, 'eos_setupAMLeq_xexmu_fig': <function eos_setupAMLeq_xexmu_fig at 0x7f540f48cea0>, 'eos_setupCC_fig': <module 'nucleardatapy.fig.eos_setupCC_fig' from '/home/runner/work/nucleardatapy/nucleardatapy/version-1.0/nucleardatapy/fig/eos_setupCC_fig.py'>, 'eos_setupCC_eos_fig': <function eos_setupCC_eos_fig at 0x7f540f48cfe0>, 'eos_setupCC_checkpre_fig': <function eos_setupCC_checkpre_fig at 0x7f540f48d080>, 'eos_setupCC_checkeos_fig': <function eos_setupCC_checkeos_fig at 0x7f540f48d120>, 'crust_setupCrust_fig': <function crust_setupCrust_fig at 0x7f540f48d1c0>, 'astro_setupGW_fig': <function astro_setupGW_fig at 0x7f540f48d260>, 'astro_setupMasses_fig': <function astro_setupMasses_fig at 0x7f540f48cf40>, 'astro_setupMR_fig': <function astro_setupMR_fig at 0x7f540f48d440>, 'astro_setupMtov_fig': <function astro_setupMtov_fig at 0x7f540f48d4e0>, 'astro_setupMup_fig': <function astro_setupMup_fig at 0x7f540f48d580>}
print ( nuda.__dict__.keys() )
dict_keys(['__name__', '__doc__', '__package__', '__loader__', '__spec__', '__path__', '__file__', '__cached__', '__builtins__', 'cst', 'hbc', 'pi', 'pi2', 'mec2', 'mmuc2', 'mnc2', 'mpc2', 'mnuc2', 'mnuc2_approx', 'h2m', 'nsat', 'e', 'c', 'c2', 'Nc', 'G_cgs', 'G_si', 'Msol_cgs', 'Msol_si', 'Rsol_cgs', 'Rsol_si', 'rshsol_si', 'one', 'two', 'three', 'four', 'five', 'half', 'third', 'twoThird', 'threeFifth', 'fiveThird', 'MeV2J', 'MeV2kg', 'MeVfm32gcm3', 'MeVfm32dyncm2', 'env', 'verb', 'verb_output', 'verb_latex', 'param', 'os', 'np', 'nucleardatapy_tk', 'path_data', 'path_ame', 'col', 'elements', 'tex2str', 'hello', 'create_folder', 'create_folder_fig', 'matter', 'setup_ffg', 'nuda', 'kf', 'den', 'kf_n', 'den_n', 'eF_n', 'eF_n_nr', 'effg_NM_nr', 'effg_SM_nr', 'effg_nr', 'esymffg_nr', 'pre_nr', 'cs2_nr', 'feden', 'fpres', 'f_dp_dn', 'setupFFGNuc', 'setupFFGLep', 'setup_micro', 'CubicSpline', 'curve_fit', 'random', 'uncertainty_stat', 'micro_mbs', 'micro_models_mb', 'micro_models_mbs', 'micro_models', 'micro_models_mb_matter', 'APRfit_compute', 'func_GCR_e2a', 'func_GCR_pre', 'func_GCR_cs2', 'func_e2a_NLEFT2024', 'func_pre_NLEFT2024', 'func_dpredn_NLEFT2024', 'setupMicro', 'setup_micro_effmass', 'sys', 'math', 'effmass_emp', 'micro_effmass_models', 'setupMicroEffmass', 'setup_micro_gap', 'micro_gap_models', 'setupMicroGap', 'setup_micro_band', 'gauss', 'setupMicroBand', 'setup_micro_esym', 'micro_esym_mbs', 'micro_esym_models_mb', 'micro_esym_models_mbs', 'micro_esym_models', 'setupMicroEsym', 'setup_micro_lp', 'micro_LP_models', 'setupMicroLP', 'setup_pheno', 'pheno_models', 'pheno_params', 'setupPheno', 'setup_pheno_esym', 'pheno_esym_models', 'pheno_esym_params', 'setupPhenoEsym', 'setup_hic', 'hic_inferences', 'setupHIC', 'setup_nep', 'nep_models', 'nep_params', 'setupNEP', 'setup_nep_stat_model', 'setupNEPStat_model', 'setup_nep_stat_models', 'setupNEPStat_models', 'setup_check', 'setupCheck', 'eos', 'setup_am', 'fsolve', 'setupAM', 'setup_am_Leq', 'func_am', 'setupAMLeq', 'setup_am_Beq', 'func_betaeq', 'setupAMBeq', 'setupCC', 'denCC_emp', 'corr', 'setup_KsatQsat', 'KsatQsat_constraints', 'flinear', 'setupKsatQsat', 'setup_EsymLsym', 'EsymLsym_constraints', 'HIC_Esym', 'HIC_Lsym', 'HIC_xgi', 'HIC_Lsym_bound', 'setupEsymLsym', 'setup_EsymDen', 'setupEsymDen', 'nuc', 'setup_be_exp', 'CST_AtmMass', 'CST_mnc2', 'CST_dmnc2', 'CST_mHc2', 'CST_dmHc2', 'yearMin', 'ns', 'minute', 'hour', 'day', 'month', 'year', 'ILt', 'ISt', 'HTsl', 'HTvsl', 'HThsl', 'stable_fit_Z', 'stable_fit_N', 'be_exp_tables', 'be_exp_versions', 'plot_shells', 'setupBEExp', 'setup_be_theo', 'delta_emp', 'be_theo_tables', 'conversionMBE', 'setupBETheo', 'setup_isgmr_exp', 'isgmr_exp_tables', 'setupISGMRExp', 'setup_rnp_exp', 'rnp_exp', 'rnp_exp_source', 'setupRnpExp', 'setupRnpAverage', 'setup_rnp_theo', 'rnp_theo_models', 'rnp_theo_params', 'setupRnpTheo', 'setup_rch_exp', 'rch_exp_tables', 'setupRchExp', 'setupRchExpIsotopes', 'setup_rch_theo', 'rch_emp', 'rch_theo_tables', 'setupRchTheo', 'setupRchTheoIsotopes', 'crust', 'setup_crust', 'crust_models', 'setupCrust', 'astro', 'setup_masses', 'masses_sources', 'masses_obss', 'setupMasses', 'setupMassesAverage', 'setup_mup', 'mup_sources', 'mup_hyps', 'setupMup', 'setupMupAverage', 'setup_mtov', 'special', 'compute_proba_do', 'compute_proba_up', 'setupMtov', 'setup_mr', 'mr_sources', 'mr_obss', 'setupMR', 'setupMRAverage', 'setup_gw', 'gw_sources', 'gw_hyps', 'setupGW', 'setupGWAverage', 'hnuc', 'setup_re1L_exp', 're1L_exp_tables', 'setupRE1LExp', 'setup_re2L_exp', 're2L_exp_tables', 'setupRE2LExp', 'setup_re1Xi_exp', 're1Xi_exp_tables', 'setupRE1XiExp', 'fig', 'matter_setupFFGNuc_fig', 'mpl', 'plt', 'matter_setupFFGNuc_EP_fig', 'matter_setupFFGNuc_EOS_fig', 'matter_setupFFGLep_fig', 'matter_setupMicro_fig', 'matter_setupMicro_e2a_fig', 'matter_setupMicro_pre_fig', 'matter_setupMicro_cs2_fig', 'matter_setupMicro_err_NM_fig', 'matter_setupMicro_band_fig', 'matter_setupMicro_effmass_fig', 'matter_setupMicro_gap_fig', 'matter_setupMicro_gap_1s0_fig', 'matter_setupMicro_gap_3pf2_fig', 'matter_setupMicro_LP_fig', 'matter_setupMicroEsym_fig', 'matter_setupPheno_fig', 'matter_setupPheno_e2a_fig', 'matter_setupPheno_pre_fig', 'matter_setupPheno_cs2_fig', 'matter_setupPhenoEsym_fig', 'matter_setupHIC_fig', 'matter_setupNEPStats_fig', 'matter_setupCheck_fig', 'matter_all_fig', 'matter_all_e2a_fig', 'matter_all_Esym_fig', 'matter_all_pre_fig', 'matter_all_eos_fig', 'matter_all_cs2_fig', 'corr_setupKsatQsat_fig', 'corr_setupEsymLsym_fig', 'corr_setupEsymDen_fig', 'nuc_setupBEExp_fig', 'nuc_setupBEExp_year_fig', 'nuc_setupBEExp_S2n_fig', 'nuc_setupBEExp_S2p_fig', 'nuc_setupBEExp_D3n_fig', 'nuc_setupBEExp_D3p_fig', 'nuc_setupBETheo_fig', 'nuc_setupBETheo_diff_fig', 'nuc_setupBETheo_S2n_fig', 'nuc_setupBETheo_S2p_fig', 'nuc_setupBETheo_D3n_fig', 'nuc_setupBETheo_D3p_fig', 'nuc_setupBEExp_chart_fig', 'nuc_setupBEExp_chart_lt_fig', 'nuc_setupBEExp_chart_year_fig', 'nuc_setupBEExp_chart_Rch_fig', 'nuc_setupRchExp_fig', 'nuc_setupRchExp_3Zref_fig', 'nuc_setupRchTheo_fig', 'nuc_setupRchTheo_3Zref_fig', 'nuc_setupISGMRExp_fig', 'nuc_setupRnpExp_fig', 'AutoMinorLocator', 'SOURCE_LABELS_LATEX', 'nuc_setupRnpTheo_fig', 'MODEL_TABLES_DIR', 'MODEL_STYLES', 'read_model_data', 'hnuc_setupRE1LExp_fig', 'hnuc_setupChart_fig', 'eos_setupAM_fig', 'eos_setupAM_e2a_fig', 'eos_setupAM_pre_fig', 'eos_setupAM_cs2_fig', 'eos_setupAM_asy_nuc_fig', 'eos_setupAM_e2a_asy_nuc_fig', 'eos_setupAM_pre_asy_nuc_fig', 'eos_setupAM_cs2_asy_nuc_fig', 'eos_setupAM_asy_lep_fig', 'eos_setupAM_e2a_asy_lep_fig', 'eos_setupAM_pre_asy_lep_fig', 'eos_setupAM_cs2_asy_lep_fig', 'eos_setupAM_asy_tot_fig', 'eos_setupAM_e2a_asy_tot_fig', 'eos_setupAM_pre_asy_tot_fig', 'eos_setupAM_cs2_asy_tot_fig', 'eos_setupAMBeq_fig', 'eos_setupAMBeq_e2a_nuc_fig', 'eos_setupAMBeq_pre_nuc_fig', 'eos_setupAMBeq_cs2_nuc_fig', 'eos_setupAMBeq_e2a_lep_fig', 'eos_setupAMBeq_pre_lep_fig', 'eos_setupAMBeq_cs2_lep_fig', 'eos_setupAMBeq_e2a_tot_fig', 'eos_setupAMBeq_pre_tot_fig', 'eos_setupAMBeq_cs2_tot_fig', 'eos_setupAMBeq_eos_fig', 'eos_setupAMBeq_xp_fig', 'eos_setupAMBeq_xe_fig', 'eos_setupAMBeq_xmu_fig', 'eos_setupAMLeq_fig', 'eos_setupAMLeq_xe_fig', 'eos_setupAMLeq_xmu_fig', 'eos_setupAMLeq_xexmu_fig', 'eos_setupCC_fig', 'eos_setupCC_eos_fig', 'eos_setupCC_checkpre_fig', 'eos_setupCC_checkeos_fig', 'crust_setupCrust_fig', 'astro_setupGW_fig', 'astro_setupMasses_fig', 'astro_setupMR_fig', 'astro_setupMtov_fig', 'astro_setupMup_fig'])