scipy.stats.boxcox_normplot¶
-
scipy.stats.
boxcox_normplot
(x, la, lb, plot=None, N=80)[source]¶ Compute parameters for a Box-Cox normality plot, optionally show it.
A Box-Cox normality plot shows graphically what the best transformation parameter is to use in
boxcox
to obtain a distribution that is close to normal.Parameters: - x : array_like
Input array.
- la, lb : scalar
The lower and upper bounds for the
lmbda
values to pass toboxcox
for Box-Cox transformations. These are also the limits of the horizontal axis of the plot if that is generated.- plot : object, optional
If given, plots the quantiles and least squares fit. plot is an object that has to have methods “plot” and “text”. The
matplotlib.pyplot
module or a Matplotlib Axes object can be used, or a custom object with the same methods. Default is None, which means that no plot is created.- N : int, optional
Number of points on the horizontal axis (equally distributed from la to lb).
Returns: - lmbdas : ndarray
The
lmbda
values for which a Box-Cox transform was done.- ppcc : ndarray
Probability Plot Correlelation Coefficient, as obtained from
probplot
when fitting the Box-Cox transformed input x against a normal distribution.
See also
Notes
Even if plot is given, the figure is not shown or saved by
boxcox_normplot
;plt.show()
orplt.savefig('figname.png')
should be used after callingprobplot
.Examples
>>> from scipy import stats >>> import matplotlib.pyplot as plt
Generate some non-normally distributed data, and create a Box-Cox plot:
>>> x = stats.loggamma.rvs(5, size=500) + 5 >>> fig = plt.figure() >>> ax = fig.add_subplot(111) >>> prob = stats.boxcox_normplot(x, -20, 20, plot=ax)
Determine and plot the optimal
lmbda
to transformx
and plot it in the same plot:>>> _, maxlog = stats.boxcox(x) >>> ax.axvline(maxlog, color='r')
>>> plt.show()