IMSL C Stat Library
complementary_t_cdf
Evaluates the complement of the Student’s t distribution.
Synopsis
#include <imsls.h>
float imsls_f_complementary_t_cdf (float t, float df)
The type double function is imsls_d_complementary_t_cdf.
Required Arguments
float t (Input)
Argument for which Pr(x > t) is to be evaluated.
float df (Input)
Degrees of freedom. Argument df must be greater than or equal to 1.0.
Return Value
The probability that a Student’s t random variable takes a value greater than t.
Description
Function imsls_f_complementary_t_cdf evaluates one minus the distribution function of a Student’s t random variable with ν  = df degrees of freedom. If t2 ν, the following identity relating the complementary Student’s t cumulative distribution function, denoted by , to the incomplete beta ratio function is used:
where
and
If t2 < ν, the solution space is partitioned into four algorithms as follows: If ν  64 and t2/ν  0.1, a Cornish-Fisher expansion is used to evaluate the distribution function. If ν < 64 and an integer and |t| < 2.0, a trigonometric series is used (see Abramowitz and Stegun 1964, Equations 26.7.3 and 26.7.4 with some rearrangement). If ν  < 64 and an integer and |t 2.0, a series given by Hill (1970) that converges well for large values of t is used. For the remaining t2 < ν cases, is calculated using the identity:
where
This function provides higher right tail accuracy for the Student's t distribution.
Figure 11.20 — Plot of Ft (t, df)
Example
This example finds the 2-tail probability that a Student’s t random variable exceeds 2.447.
 
#include <imsls.h>
#include <stdio.h>
 
int main ()
{
    float  t = 2.447, df = 6.0, p;
 
    p  = 2.0*imsls_f_complementary_t_cdf(t,df);
    printf("Pr(|t(%1.0f)| > %4.3f) = %6.4f\n", df, t, p);
}
 
Output
 
Pr(|t(6)| > 2.447) = 0.0500