cauplt(3f) - [M_datapac:LINE_PLOT] generate a Cauchy probability plot
SUBROUTINE CAUPLT(X,N)
REAL(kind=wp),intent(in) :: X(:)
INTEGER,intent(in) :: N
CAUPLT(3f) generates a one-page Cauchy probability plot.
The prototype Cauchy distribution used herein has median = 0 and 75%
point = 1.
This distribution is defined for all X and has the probability
density function
f(X) = (1/pi) * (1/(1+X*X))
As used herein, a probability plot for a distribution is a plot
of the ordered observations versus the order statistic medians for
that distribution.
The Cauchy probability plot is useful in graphically testing the
composite (that is, location and scale parameters need not be
specified) hypothesis that the underlying distribution from which
the data have been randomly drawn is the Cauchy distribution.
If the hypothesis is true, the probability plot should be near-linear.
A measure of such linearity is given by the calculated probability
plot correlation coefficient.
X The vector of (unsorted or sorted) observations.
N The integer number of observations in the vector X.
A one-page Cauchy probability plot.
Sample program:
program demo_cauplt
use M_datapac, only : cauplt
implicit none
! call cauplt(x,y)
end program demo_cauplt
Results:
The original DATAPAC library was written by James Filliben of the
Statistical Engineering Division, National Institute of Standards
and Technology.
John Urban, 2022.05.31
CC0-1.0
| Type | Intent | Optional | Attributes | Name | ||
|---|---|---|---|---|---|---|
| real(kind=wp), | intent(in) | :: | X(:) | |||
| integer, | intent(in) | :: | N |
| Type | Attributes | Name | Initial | |||
|---|---|---|---|---|---|---|
| real | :: | WS(15000) |
SUBROUTINE CAUPLT(X,N) REAL(kind=wp),intent(in) :: X(:) INTEGER,intent(in) :: N REAL(kind=wp) :: an, arg, cc, hold, sum1, sum2, sum3, tau, wbar, WS, ybar, yint, yslope REAL(kind=wp) :: Y(7500), W(7500) INTEGER :: i, iupper COMMON /BLOCK2_real64/ WS(15000) EQUIVALENCE (Y(1),WS(1)) EQUIVALENCE (W(1),WS(7501)) DATA tau/10.02040649_wp/ iupper = size(y) ! ! CHECK THE INPUT ARGUMENTS FOR ERRORS ! IF ( N<1 .OR. N>iupper ) THEN WRITE (G_IO,99001) iupper 99001 FORMAT (' ***** FATAL ERROR--THE SECOND INPUT ARGUMENT TO CAUPLT(3f) IS OUTSIDE THE ALLOWABLE (1,' & & ,I0,') INTERVAL *****') WRITE (G_IO,99002) N 99002 FORMAT (' ','***** THE VALUE OF THE ARGUMENT IS ',I0,' *****') RETURN ELSEIF ( N==1 ) THEN WRITE (G_IO,99003) 99003 FORMAT (' ***** NON-FATAL DIAGNOSTIC--THE SECOND INPUT ARGUMENT TO THE CAUPLT SUBROUTINE HAS THE VALUE 1 *****') RETURN ELSE hold = X(1) DO i = 2 , N IF ( X(i)/=hold ) GOTO 50 ENDDO WRITE (G_IO,99004) hold 99004 FORMAT (' ***** NON-FATAL DIAGNOSTIC--THE FIRST INPUT ARGUMENT (A VECTOR) TO CAUPLT(3f) HAS ALL ELEMENTS = ', & & E15.8,' *****') ! !-----START POINT----------------------------------------------------- ! 50 continue an = N ! ! SORT THE DATA ! CALL SORT(X,N,Y) ! ! GENERATE UNIFORM ORDER STATISTIC MEDIANS ! CALL UNIMED(N,W) ! ! COMPUTE CAUCHY ORDER STATISTIC MEDIANS ! DO i = 1 , N arg = G_pi*W(i) W(i) = -COS(arg)/SIN(arg) ENDDO ! ! PLOT THE ORDERED OBSERVATIONS VERSUS ORDER STATISTICS MEDIANS. ! WRITE OUT THE TAIL LENGTH MEASURE OF THE DISTRIBUTION ! AND THE SAMPLE SIZE. ! CALL PLOT(Y,W,N) WRITE (G_IO,99005) tau , N 99005 FORMAT (' ','CAUCHY PROBABILITY PLOT (TAU = ',E15.8,')',56X, 'THE SAMPLE SIZE N = ',I0) ! ! COMPUTE THE PROBABILITY PLOT CORRELATION COEFFICIENT. ! COMPUTE LOCATION AND SCALE ESTIMATES ! FROM THE INTERCEPT AND SLOPE OF THE PROBABILITY PLOT. ! THEN WRITE THEM OUT. ! sum1 = 0.0_wp DO i = 1 , N sum1 = sum1 + Y(i) ENDDO ybar = sum1/an wbar = 0.0_wp sum1 = 0.0_wp sum2 = 0.0_wp sum3 = 0.0_wp DO i = 1 , N sum1 = sum1 + (Y(i)-ybar)*(Y(i)-ybar) sum2 = sum2 + W(i)*Y(i) sum3 = sum3 + W(i)*W(i) ENDDO cc = sum2/SQRT(sum3*sum1) yslope = sum2/sum3 yint = ybar - yslope*wbar WRITE (G_IO,99006) cc , yint , yslope 99006 FORMAT (' PROBABILITY PLOT CORRELATION COEFFICIENT = ',F8.5,5X,& & 'ESTIMATED INTERCEPT = ',E15.8,3X,'ESTIMATED SLOPE = ',E15.8) ENDIF ! END SUBROUTINE CAUPLT