scipy.stats.shapiro¶
- scipy.stats.shapiro(x, a=None, reta=False)[source]¶
Perform the Shapiro-Wilk test for normality.
The Shapiro-Wilk test tests the null hypothesis that the data was drawn from a normal distribution.
Parameters: x : array_like
Array of sample data.
a : array_like, optional
Array of internal parameters used in the calculation. If these are not given, they will be computed internally. If x has length n, then a must have length n/2.
reta : bool, optional
Whether or not to return the internally computed a values. The default is False.
Returns: W : float
The test statistic.
p-value : float
The p-value for the hypothesis test.
a : array_like, optional
If reta is True, then these are the internally computed “a” values that may be passed into this function on future calls.
See also
Notes
The algorithm used is described in [R634] but censoring parameters as described are not implemented. For N > 5000 the W test statistic is accurate but the p-value may not be.
The chance of rejecting the null hypothesis when it is true is close to 5% regardless of sample size.
References
[R631] http://www.itl.nist.gov/div898/handbook/prc/section2/prc213.htm [R632] Shapiro, S. S. & Wilk, M.B (1965). An analysis of variance test for normality (complete samples), Biometrika, Vol. 52, pp. 591-611. [R633] Razali, N. M. & Wah, Y. B. (2011) Power comparisons of Shapiro-Wilk, Kolmogorov-Smirnov, Lilliefors and Anderson-Darling tests, Journal of Statistical Modeling and Analytics, Vol. 2, pp. 21-33. [R634] (1, 2) ALGORITHM AS R94 APPL. STATIST. (1995) VOL. 44, NO. 4. Examples
>>> from scipy import stats >>> np.random.seed(12345678) >>> x = stats.norm.rvs(loc=5, scale=3, size=100) >>> stats.shapiro(x) (0.9772805571556091, 0.08144091814756393)