bilby.gw.prior.UniformInComponentsChirpMass

class bilby.gw.prior.UniformInComponentsChirpMass(minimum, maximum, name='chirp_mass', latex_label='$\\mathcal{M}$', unit=None, boundary=None)[source]

Bases: PowerLaw

Prior distribution for chirp mass which is uniform in component masses.

This is useful when chirp mass and mass ratio are sampled while the prior is uniform in component masses.

\[p({\cal M}) \propto {\cal M}\]

Notes

This prior is intended to be used in conjunction with the corresponding bilby.gw.prior.UniformInComponentsMassRatio.

__init__(minimum, maximum, name='chirp_mass', latex_label='$\\mathcal{M}$', unit=None, boundary=None)[source]

Parameters:

minimumfloat: The minimum of chirp mass
maximumfloat: The maximum of chirp mass
name: see superclass
latex_label: see superclass
unit: see superclass
boundary: see superclass

__call__()[source]

Overrides the __call__ special method. Calls the sample method.

Returns:

float: The return value of the sample method.

Methods

`__init__`(minimum, maximum[, name, ...])	Parameters:
`cdf`(val)	Generic method to calculate CDF, can be overwritten in subclass
`from_json`(dct)
`from_repr`(string)	Generate the prior from its __repr__
`get_instantiation_dict`()
`is_in_prior_range`(val)	Returns True if val is in the prior boundaries, zero otherwise
`ln_prob`(val)	Return the logarithmic prior probability of val
`prob`(val)	Return the prior probability of val
`rescale`(val)	'Rescale' a sample from the unit line element to the power-law prior.
`sample`([size])	Draw a sample from the prior
`to_json`()

Attributes

`boundary`
`is_fixed`	Returns True if the prior is fixed and should not be used in the sampler.
`latex_label`	Latex label that can be used for plots.
`latex_label_with_unit`	If a unit is specified, returns a string of the latex label and unit
`maximum`
`minimum`
`unit`
`width`

cdf(val)[source]: Generic method to calculate CDF, can be overwritten in subclass

classmethod from_repr(string)[source]: Generate the prior from its __repr__

property is_fixed

Returns True if the prior is fixed and should not be used in the sampler. Does this by checking if this instance is an instance of DeltaFunction.

Returns:

bool: Whether it’s fixed or not!

is_in_prior_range(val)[source]

Returns True if val is in the prior boundaries, zero otherwise

Parameters:

val: Union[float, int, array_like]

Returns:

np.nan

property latex_label

Latex label that can be used for plots.

Draws from a set of default labels if no label is given

Returns:

str: A latex representation for this prior

property latex_label_with_unit: If a unit is specified, returns a string of the latex label and unit

ln_prob(val)[source]

Return the logarithmic prior probability of val

Parameters:

val: Union[float, int, array_like]

Returns:

float:

prob(val)[source]

Return the prior probability of val

Parameters:

val: Union[float, int, array_like]

Returns:

float: Prior probability of val

rescale(val)[source]

‘Rescale’ a sample from the unit line element to the power-law prior.

This maps to the inverse CDF. This has been analytically solved for this case.

Parameters:

val: Union[float, int, array_like]: Uniform probability

Returns:

Union[float, array_like]: Rescaled probability

sample(size=None)[source]

Draw a sample from the prior

Parameters:

size: int or tuple of ints, optional: See numpy.random.uniform docs

Returns:

float: A random number between 0 and 1, rescaled to match the distribution of this Prior