2.13.1.22 swtest
Brief Information
Shapiro-Wilk Normality test
Command Line Usage
1. swtest irng:=col(a)
2. swtest irng:=Col(A) stat:=w df:=d prob:=p
X-Function Execution Options
Please refer to the page for additional option switches when accessing the x-function from script
Variables
Display
Name
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Variable
Name
|
I/O
and
Type
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Default
Value
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Description
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| Input
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irng
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Input
Range
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<active>
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This variable specifies the input data range for test normality. The sample size of data range needs to be between 3 and 5000 for the Shapiro-Wilk test to apply.
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| Statistics
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stat
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Output
double
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<unassigned>
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Value of Shapiro-Wilk W statistic. This variable specifies the name of output statistic value.
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| Degrees of Freedom
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df
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Output
double
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<unassigned>
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Degrees of freedom of the test. This variable specifies the name of output degrees of freedom value.
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| P-value
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prob
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Output
double
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<unassigned>
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Probability that the null hypothesis, i.e. that the data are from normal distribution, will be rejected. This variable specifies the name of output probability value.
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Description
The Shapiro-Wilk Normality Test is used to determine whether or not a random sample of values follows a normal distribution. The normality test is useful because other statistical tests (such as the t-test, 1- and 2-way ANOVA) require that data be sampled from a normally distributed population in order to produce statistically significant results. A W statistic and a p value are computed, which can be compared with a chosen level of significance, and used to make a statistical decision.
Examples
1. To list all input and output results of Shapiro-Wilk test on the 1st column of the active worksheet, using default setting, type:
- swtest irng:=col(a);
- swtest.=
2. To return the Shapiro-Wilk test statistic for the 2nd column of active worksheet, and test to see if these sample data arise from a normal distribution, type:
- swtest irng:=col(b) stat:=s;
Algorithm
This routine calculates Shapiro Wilk's W statistic with a given significance level for any sample size between 3 and 5000. Origin calculates the W statistic based on the Applied Statistics Algorithm R94. The full description of the theory behind this algorithm is given in Royston (1995).
Given a set of observations  sorted into either ascending or descending order, the Shapiro Wilk W statistic is defined as:
where  is the sample mean and  , for  are a set of mathematical weights, the values of which depend only on the sample size n.
References
Royston JP. AS R94. 1995. Shapiro-Wilk normality test and P-value. Applied Statistics; 44(4).
Related X-Functions
stats, kstest, lillietest
Keywords:normal distribution
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