Source code for statsmodels.genmod.families.varfuncs
"""
Variance functions for use with the link functions in statsmodels.family.links
"""
import numpy as np
FLOAT_EPS = np.finfo(float).eps
[docs]
class VarianceFunction:
"""
Relates the variance of a random variable to its mean. Defaults to 1.
Methods
-------
call
Returns an array of ones that is the same shape as `mu`
Notes
-----
After a variance function is initialized, its call method can be used.
Alias for VarianceFunction:
constant = VarianceFunction()
See Also
--------
statsmodels.genmod.families.family
"""
def __call__(self, mu):
"""
Default variance function
Parameters
----------
mu : array_like
mean parameters
Returns
-------
v : ndarray
ones(mu.shape)
"""
mu = np.asarray(mu)
return np.ones(mu.shape, np.float64)
[docs]
def deriv(self, mu):
"""
Derivative of the variance function v'(mu)
"""
return np.zeros_like(mu)
constant = VarianceFunction()
constant.__doc__ = """
The call method of constant returns a constant variance, i.e., a vector of
ones.
constant is an alias of VarianceFunction()
"""
[docs]
class Power:
"""
Power variance function
Parameters
----------
power : float
exponent used in power variance function
Methods
-------
call
Returns the power variance
Notes
-----
Formulas
V(mu) = numpy.fabs(mu)**power
Aliases for Power:
mu = Power()
mu_squared = Power(power=2)
mu_cubed = Power(power=3)
"""
def __init__(self, power=1.):
self.power = power
def __call__(self, mu):
"""
Power variance function
Parameters
----------
mu : array_like
mean parameters
Returns
-------
variance : ndarray
numpy.fabs(mu)**self.power
"""
return np.power(np.fabs(mu), self.power)
[docs]
def deriv(self, mu):
"""
Derivative of the variance function v'(mu)
May be undefined at zero.
"""
der = self.power * np.fabs(mu) ** (self.power - 1)
ii = np.flatnonzero(mu < 0)
der[ii] *= -1
return der
mu = Power()
mu.__doc__ = """
Returns np.fabs(mu)
Notes
-----
This is an alias of Power()
"""
mu_squared = Power(power=2)
mu_squared.__doc__ = """
Returns np.fabs(mu)**2
Notes
-----
This is an alias of statsmodels.family.links.Power(power=2)
"""
mu_cubed = Power(power=3)
mu_cubed.__doc__ = """
Returns np.fabs(mu)**3
Notes
-----
This is an alias of statsmodels.family.links.Power(power=3)
"""
[docs]
class Binomial:
"""
Binomial variance function
Parameters
----------
n : int, optional
The number of trials for a binomial variable. The default is 1 for
p in (0,1)
Methods
-------
call
Returns the binomial variance
Notes
-----
Formulas :
V(mu) = p * (1 - p) * n
where p = mu / n
Alias for Binomial:
binary = Binomial()
A private method _clean trims the data by machine epsilon so that p is
in (0,1)
"""
def __init__(self, n=1):
self.n = n
def _clean(self, p):
return np.clip(p, FLOAT_EPS, 1 - FLOAT_EPS)
def __call__(self, mu):
"""
Binomial variance function
Parameters
----------
mu : array_like
mean parameters
Returns
-------
variance : ndarray
variance = mu/n * (1 - mu/n) * self.n
"""
p = self._clean(mu / self.n)
return p * (1 - p) * self.n
# TODO: inherit from super
binary = Binomial()
binary.__doc__ = """
The binomial variance function for n = 1
Notes
-----
This is an alias of Binomial(n=1)
"""
[docs]
class NegativeBinomial:
'''
Negative binomial variance function
Parameters
----------
alpha : float
The ancillary parameter for the negative binomial variance function.
`alpha` is assumed to be nonstochastic. The default is 1.
Methods
-------
call
Returns the negative binomial variance
Notes
-----
Formulas :
V(mu) = mu + alpha*mu**2
Alias for NegativeBinomial:
nbinom = NegativeBinomial()
A private method _clean trims the data by machine epsilon so that p is
in (0,inf)
'''
def __init__(self, alpha=1.):
self.alpha = alpha
def _clean(self, p):
return np.clip(p, FLOAT_EPS, np.inf)
def __call__(self, mu):
"""
Negative binomial variance function
Parameters
----------
mu : array_like
mean parameters
Returns
-------
variance : ndarray
variance = mu + alpha*mu**2
"""
p = self._clean(mu)
return p + self.alpha*p**2
[docs]
def deriv(self, mu):
"""
Derivative of the negative binomial variance function.
"""
p = self._clean(mu)
return 1 + 2 * self.alpha * p
nbinom = NegativeBinomial()
nbinom.__doc__ = """
Negative Binomial variance function.
Notes
-----
This is an alias of NegativeBinomial(alpha=1.)
"""
Last update:
Oct 03, 2024