Beta function

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The Beta function is a function of two variables which is often found in probability theory and mathematical statistics. It plays a role in the F- distribution and the Student’s t-distribution.

Beta DistributionThe Beta distribution represents a probabilistic distribution of probabilities – the case where we don’t know what a probability is in advance, but we have some reasonable guesses.

The incomplete beta function is a generalization of the beta function.

The cumulative beta distribution is the same as the so-called regularized incomplete beta function. If this is multiplied by the corresponding beta function one obtains the actual incomplete beta function.

The source code estimates the various beta functions. The source code includes the gamma function, which is needed for the estimation.

[code language="vb"]    
#COMPILE EXE
#REGISTER NONE
#DIM ALL
'
SUB IncomplBeta(BYVAL X AS EXT, BYVAL P AS EXT, BYVAL Q AS EXT, _
    BYREF beta AS EXT, BYREF betain AS EXT)
'
'   Derived from FORTRAN code based on:
'   algorithm AS 63  Appl. Statist. (1973), vol.22, no.3
'   Computes incomplete beta function ratio for arguments
'   X between zero and one, p (=a) and q (=b) positive.
'   Returns log beta and Regularized Incomplete Beta
'
    LOCAL ns, indx AS LONG
    LOCAL zero, one, acu AS EXT
    LOCAL psq, cx, xx, pp, qq, term, ai, rx, temp AS EXT

'   define accuracy and initialise
    zero = 0.0 : one = 1.0 : acu = 1.0E-18
    betain = 0.0 : beta = 0.0

'   test for admissibility of arguments
    IF(p <= zero OR q <= zero) THEN EXIT SUB
    IF(x < zero OR x > one) THEN EXIT SUB
    IF(x = zero OR x = one) THEN EXIT SUB

'   calculate log of beta by using function GammLn
    beta = gammln(p) + gammln(q) - gammln(p + q)
    betain = x

'   change tail if necessary
    psq = p + q
    cx = one - x
    IF (p < psq * x) THEN
        xx = cx
        cx = x
        pp = q
        qq = p
        indx = 1
    ELSE
        xx = x
        pp = p
        qq = q
        indx = 0
    END IF
    term = one
    ai = one
    betain = one
    ns = qq + cx * psq

'   use Soper's reduction formulae.
    rx = xx / cx
    temp = qq - ai
    IF (ns = 0) THEN rx = xx
    DO
        term = term * temp * rx / (pp + ai)
        betain = betain + term
        temp = ABS(term)
        IF(temp <= acu AND temp <= acu * betain) THEN EXIT DO
        ai = ai + one         
        ns = ns - 1         
        IF (ns >= 0) THEN
            temp = qq - ai
            IF (ns = 0) THEN rx = xx
        ELSE
            temp = psq
            psq = psq + one
        END IF
    LOOP

'   calculate Regularized Incomplete Beta
    betain = betain * EXP(pp * LOG(xx) + (qq - one) * LOG(cx) - beta) / pp
    IF indx = 1 THEN betain = one - betain
END SUB

FUNCTION PBMAIN
    LOCAL i1, i2 AS LONG
    LOCAL Result AS STRING
    LOCAL X, a, b, Beta, Ibeta AS EXT
    Result = INPUTBOX$("Enter X, a, b","Get beta functions")
    i1 = INSTR(Result, ",")
    i2 = INSTR(i1 + 1, Result, ",")
    X = VAL(LEFT$(Result, i1 - 1))
    a = VAL(MID$(Result, i1 + 1, i2 - i1 - 1))
    b = VAL(MID$(Result, i2 + 1))
    CALL IncomplBeta(X, a, b, Beta, Ibeta)
    Result = "Regularized Incomplete Beta = " + _
    FORMAT$(Ibeta," 0.##################") + _
    $CRLF + $CRLF + "Ln Beta = " + _
    FORMAT$(Beta," 0.##################E-####") + _
    $CRLF + $CRLF + "Beta = " + _
    FORMAT$((EXP(Beta))," 0.##################E-####") + $CRLF + $CRLF + _
    "Incomplete Beta = Beta x Regularized Incomplete Beta =" + $CRLF + _
    FORMAT$((EXP(Beta)*Ibeta)," 0.##################E-####")
    MSGBOX Result, , "Beta Results for X = "+FORMAT$(X,"0.#####") + _
    "  a ="+STR$(a) + "  b ="+STR$(b)
END FUNCTION
'
FUNCTION GammLn(BYVAL x AS EXT) AS EXT

    ' Returns Ln(Gamma()) or 0 on error
    ' Based on Numerical Recipes gamma.h
    ' Lanczos, C. 1964, "A Precision Approximation
    ' of the Gamma Function," SIAM Journal on Numerical
    ' Analysis, ser. B, vol. 1, pp. 86-96.

    LOCAL j AS LONG, tmp, y, ser AS EXT
    DIM cof(0 TO 13) AS LOCAL EXT
    cof(0) = 57.1562356658629235
    cof(1) = -59.5979603554754912
    cof(2) = 14.1360979747417471
    cof(3) = -0.491913816097620199
    cof(4) = 0.339946499848118887e-4
    cof(5) = 0.465236289270485756e-4
    cof(6) = -0.983744753048795646e-4
    cof(7) = 0.158088703224912494e-3
    cof(8) = -0.210264441724104883e-3
    cof(9) = 0.217439618115212643e-3
    cof(10) = -0.164318106536763890e-3
    cof(11) = 0.844182239838527433e-4
    cof(12) = -0.261908384015814087e-4
    cof(13) = 0.368991826595316234e-5
    IF x <= 0.0 THEN FUNCTION = 0.0 : EXIT FUNCTION ' Bad argument
    y = x
    tmp = x + 5.2421875
    tmp = (x + 0.5) * LOG(tmp) - tmp
    ser = 0.999999999999997092
    FOR j = 0 TO 13
        y = y + 1
        ser = ser + cof(j)/y
    NEXT j
    FUNCTION = tmp + LOG(2.5066282746310005 * ser / x)
END FUNCTION
[/code]

Estimation of Beta Functions

Estimated Beta Functions

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