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include <math/curfit.h>
include "hdicfit.h"
# IC_ERRORS -- Compute and error diagnositic information.
procedure ic_errorsd (ic, file, cv, x, y, wts, npts)
pointer ic # ICFIT pointer
char file[ARB] # Output file
pointer cv # Curfit pointer
double x[ARB] # Ordinates
double y[ARB] # Abscissas
double wts[ARB] # Weights
int npts # Number of data points
int i, n, deleted, ncoeffs, fd
double chisqr, rms
pointer sp, fit, wts1, coeffs, errors
int dcvstati(), open()
double ic_rmsd()
errchk open()
begin
# Open the output file.
fd = open (file, APPEND, TEXT_FILE)
# Determine the number of coefficients and allocate memory.
ncoeffs = dcvstati (cv, CVNCOEFF)
call smark (sp)
call salloc (coeffs, ncoeffs, TY_DOUBLE)
call salloc (errors, ncoeffs, TY_DOUBLE)
if (npts == IC_NFIT(ic)) {
# Allocate memory for the fit.
n = npts
call salloc (fit, n, TY_DOUBLE)
call salloc (wts1, n, TY_DOUBLE)
# Eliminate rejected points and count deleted points.
call amovd (wts, Memd[wts1], n)
if (IC_NREJECT(ic) > 0) {
do i = 1, npts {
if (Memi[IC_REJPTS(ic)+i-1] == YES)
Memd[wts1+i-1] = 0.
}
}
deleted = 0
do i = 1, n {
if (wts[i] == 0.)
deleted = deleted + 1
}
# Get the coefficients and compute the errors.
call dcvvector (cv, x, Memd[fit], n)
call dcvcoeff (cv, Memd[coeffs], ncoeffs)
call dcverrors (cv, y, Memd[wts1], Memd[fit], n, chisqr,
Memd[errors])
rms = ic_rmsd (x, y, Memd[fit], Memd[wts1], n)
} else {
# Allocate memory for the fit.
n = IC_NFIT(ic)
call salloc (fit, n, TY_DOUBLE)
call salloc (wts1, n, TY_DOUBLE)
# Eliminate rejected points and count deleted points.
call amovd (Memd[IC_WTSFIT(ic)], Memd[wts1], n)
if (IC_NREJECT(ic) > 0) {
do i = 1, npts {
if (Memi[IC_REJPTS(ic)+i-1] == YES)
Memd[wts1+i-1] = 0.
}
}
deleted = 0
do i = 1, n {
if (wts[i] == 0.)
deleted = deleted + 1
}
# Get the coefficients and compute the errors.
call dcvvector (cv, Memd[IC_XFIT(ic)], Memd[fit], n)
rms = ic_rmsd (Memd[IC_XFIT(ic)], Memd[IC_YFIT(ic)],
Memd[fit], Memd[wts1], n)
call dcvcoeff (cv, Memd[coeffs], ncoeffs)
call dcverrors (cv, Memd[IC_YFIT(ic)], Memd[wts1], Memd[fit],
n, chisqr, Memd[errors])
}
# Print the error analysis.
call fprintf (fd, "total points = %d\nsample points = %d\n")
call pargi (npts)
call pargi (n)
call fprintf (fd, "nrejected = %d\ndeleted = %d\n")
call pargi (IC_NREJECT(ic))
call pargi (deleted)
call fprintf (fd, "RMS = %7.4g\n")
call pargd (rms)
call fprintf (fd, "square root of reduced chi square = %7.4g\n")
call pargd (sqrt (chisqr))
#call fprintf (fd, "\tcoefficent\terror\n")
#do i = 1, ncoeffs {
# call fprintf (fd, "\t%10.4e\t%10.4e\n")
# call parg$t (Mem$t[coeffs+i-1])
# call parg$t (Mem$t[errors+i-1])
#}
# Free allocated memory.
call sfree (sp)
call close (fd)
end
# IC_RMS -- Compute RMS of points which have not been deleted.
double procedure ic_rmsd (x, y, fit, wts, npts)
double x[ARB] # Ordinates
double y[ARB] # Abscissas
double fit[ARB] # Fit
double wts[ARB] # Weights
int npts # Number of data points
int i, n
double resid, rms
begin
rms = 0.
n = 0
do i = 1, npts {
if (wts[i] == 0.)
next
resid = y[i] - fit[i]
rms = rms + resid * resid
n = n + 1
}
if (n > 0)
rms = sqrt (rms / n)
return (rms)
end
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