yt.frontends.tipsy.fields module¶
- class yt.frontends.tipsy.fields.TipsyFieldInfo(ds, field_list, slice_info=None)[source]¶
Bases:
SPHFieldInfo
- add_deprecated_field(name, function, sampling_type, since, removal=None, ret_name=None, **kwargs)¶
Add a new field which is deprecated, along with supplemental metadata, to the list of available fields. This respects a number of arguments, all of which are passed on to the constructor for
DerivedField
.- Parameters:
name (str) – is the name of the field.
function (callable) – A function handle that defines the field. Should accept arguments (field, data)
sampling_type (str) – “cell” or “particle” or “local”
since (str) – The version string marking when this field was deprecated.
removal (str) – The version string marking when this field will be removed.
ret_name (str) – The name of the field which will actually be returned, used only by
alias()
.units (str) – A plain text string encoding the unit. Powers must be in python syntax (** instead of ^). If set to “auto” the units will be inferred from the return value of the field function.
take_log (bool) – Describes whether the field should be logged
validators (list) – A list of
FieldValidator
objectsvector_field (bool) – Describes the dimensionality of the field. Currently unused.
display_name (str) – A name used in the plots
- add_field(name: tuple[str, str], function: Callable, sampling_type: str, *, alias: DerivedField | None = None, force_override: bool = False, **kwargs) None ¶
Add a new field, along with supplemental metadata, to the list of available fields. This respects a number of arguments, all of which are passed on to the constructor for
DerivedField
.- Parameters:
name (tuple[str, str]) – field (or particle) type, field name
function (callable) – A function handle that defines the field. Should accept arguments (field, data)
sampling_type (str) – “cell” or “particle” or “local”
force_override (bool) – If False (default), an error will be raised if a field of the same name already exists.
alias (DerivedField (optional):) – existing field to be aliased
units (str) – A plain text string encoding the unit. Powers must be in python syntax (** instead of ^). If set to “auto” the units will be inferred from the return value of the field function.
take_log (bool) – Describes whether the field should be logged
validators (list) – A list of
FieldValidator
objectsvector_field (bool) – Describes the dimensionality of the field. Currently unused.
display_name (str) – A name used in the plots
- add_output_field(name, sampling_type, **kwargs)¶
- alias(alias_name: tuple[str, str], original_name: tuple[str, str], units: str | None = None, deprecate: tuple[str, str | None] | None = None)¶
Alias one field to another field.
- Parameters:
units (str) – A plain text string encoding the unit. Powers must be in python syntax (** instead of ^). If set to “auto” the units will be inferred from the return value of the field function.
deprecate (tuple[str, str | None] | None) – If this is set, then the tuple contains two string version numbers: the first marking the version when the field was deprecated, and the second marking when the field will be removed.
- aux_particle_fields = {'FeMassFrac': ('FeMassFrac', ('dimensionless', ['Fe_fraction'], None)), 'HI': ('HI', ('dimensionless', ['H_fraction'], None)), 'HII': ('HII', ('dimensionless', ['H_p1_fraction'], None)), 'HeI': ('HeI', ('dimensionless', ['He_fraction'], None)), 'HeII': ('HeII', ('dimensionless', ['He_p2_fraction'], None)), 'OxMassFrac': ('OxMassFrac', ('dimensionless', ['O_fraction'], None)), 'acc': ('acc', ('code_velocity / code_time', [''], None)), 'accg': ('accg', ('code_velocity / code_time', [''], None)), 'c': ('c', ('code_velocity', [''], None)), 'coolontime': ('coolontime', ('code_time', [''], None)), 'massform': ('massform', ('code_mass', [''], None)), 'smoothlength': ('smoothlength', ('code_length', ['smoothing_length'], None)), 'timeform': ('timeform', ('code_time', [''], None)), 'uDot': ('uDot', ('code_mass * code_velocity**2', [''], None)), 'uDotAV': ('uDotAV', ('code_mass * code_velocity**2', [''], None)), 'uDotDiff': ('uDotDiff', ('code_mass * code_velocity**2', [''], None)), 'uDotFB': ('uDotFB', ('code_mass * code_velocity**2', [''], None)), 'uDotHydro': ('uDotHydro', ('code_mass * code_velocity**2', [''], None)), 'uDotPdV': ('uDotPdV', ('code_mass * code_velocity**2', [''], None))}¶
- check_derived_fields(fields_to_check=None)¶
- clear() None. Remove all items from D. ¶
- copy()¶
- classmethod create_with_fallback(fallback, name='')¶
- fallback = None¶
- find_dependencies(loaded)¶
- classmethod fromkeys(iterable, value=None)¶
- get(k[, d]) D[k] if k in D, else d. d defaults to None. ¶
- has_key(key)¶
- items() a set-like object providing a view on D's items ¶
- keys() a set-like object providing a view on D's keys ¶
- known_other_fields: KnownFieldsT = ()¶
- known_particle_fields: KnownFieldsT = (('Mass', ('code_mass', ['particle_mass'], None)), ('Masses', ('code_mass', ['particle_mass'], None)), ('Coordinates', ('code_length', ['particle_position'], None)), ('Velocity', ('code_velocity', ['particle_velocity'], None)), ('Velocities', ('code_velocity', ['particle_velocity'], None)), ('ParticleIDs', ('', ['particle_index'], None)), ('InternalEnergy', ('code_specific_energy', ['specific_thermal_energy'], None)), ('SmoothingLength', ('code_length', ['smoothing_length'], None)), ('Density', ('code_mass / code_length**3', ['density'], None)), ('MaximumTemperature', ('K', [], None)), ('Temperature', ('K', ['temperature'], None)), ('Epsilon', ('code_length', [], None)), ('Metals', ('code_metallicity', ['metallicity'], None)), ('Metallicity', ('code_metallicity', ['metallicity'], None)), ('Phi', ('code_length', [], None)), ('Potential', ('code_velocity**2', ['gravitational_potential'], None)), ('StarFormationRate', ('Msun / yr', ['star_formation_rate'], None)), ('FormationTime', ('code_time', ['creation_time'], None)), ('Metallicity_00', ('', ['metallicity'], None)), ('InitialMass', ('code_mass', [], None)), ('TrueMass', ('code_mass', [], None)), ('ElevenMetalMasses', ('code_mass', [], None)), ('ColdFraction', ('', ['cold_fraction'], None)), ('HotTemperature', ('code_temperature', ['hot_temperature'], None)), ('CloudFraction', ('', ['cold_fraction'], None)), ('HotPhaseTemperature', ('code_temperature', ['hot_temperature'], None)), ('smoothing_length', ('code_length', [], None)))¶
- pop(k[, d]) v, remove specified key and return the corresponding value. ¶
If key is not found, d is returned if given, otherwise KeyError is raised.
- popitem() (k, v), remove and return some (key, value) pair ¶
as a 2-tuple; but raise KeyError if D is empty.
- setdefault(k[, d]) D.get(k,d), also set D[k]=d if k not in D ¶
- setup_extra_union_fields(ptype='all')¶
- setup_fluid_fields()¶
- setup_fluid_index_fields()¶
- setup_particle_fields(ptype, *args, **kwargs)¶
- setup_smoothed_fields(ptype, num_neighbors=64, ftype='gas')¶
- update([E, ]**F) None. Update D from mapping/iterable E and F. ¶
If E present and has a .keys() method, does: for k in E: D[k] = E[k] If E present and lacks .keys() method, does: for (k, v) in E: D[k] = v In either case, this is followed by: for k, v in F.items(): D[k] = v
- values() an object providing a view on D's values ¶