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include <pkg/inlfit.h>
include "inlfitdef.h"
# IN_DUMP -- INLFIT debugging routine.
procedure in_dump$t (fd, in)
int fd # file descriptor
pointer in # INLFIT descriptor
int i, npars, nfpars, nvars
begin
# Test INLFIT pointer.
if (in == NULL) {
call fprintf (fd, "\n****** in_dump: Null INLFIT pointer\n")
call flush (fd)
return
}
# File and INLFIT descriptors.
call fprintf (fd, "\n****** in_dump: (fd=%d), (in=%d)\n")
call pargi (fd)
call pargi (in)
call flush (fd)
# Function and derivative pointers.
call fprintf (fd, "Fitting function pointer = %d\n")
call pargi (IN_FUNC (in))
call fprintf (fd, "Derivative function pointer = %d\n")
call pargi (IN_DFUNC (in))
call flush (fd)
# Number of parameters, fitting parameters, and variables.
npars = IN_NPARAMS (in)
nfpars = IN_NFPARAMS (in)
nvars = IN_NVARS (in)
call fprintf (fd, "Number of parameters = %d\n")
call pargi (npars)
call fprintf (fd, "Number of fitted parameters = %d\n")
call pargi (nfpars)
call fprintf (fd, "Number of variables = %d\n")
call pargi (nvars)
call fprintf (fd, "Number of points = %d\n")
call pargi (IN_NPTS (in))
call flush (fd)
# Parameter values.
call fprintf (fd, "Parameter values (%d):\n")
call pargi (npars)
if (IN_PARAM (in) != NULL) {
do i = 1, npars {
call fprintf (fd, "%d -> %g\n")
call pargi (i)
call parg$t (Mem$t [IN_PARAM (in) + i - 1])
}
} else
call fprintf (fd, "Null parameter value pointer\n")
call flush (fd)
# Parameter changes.
if (IN_PARAM (in) != NULL) {
call fprintf (fd, "Parameter changes (%d):\n")
call pargi (npars)
do i = 1, npars {
call fprintf (fd, "%d -> %g\n")
call pargi (i)
call parg$t (Mem$t [IN_DPARAM (in) + i - 1])
}
} else
call fprintf (fd, "Null parameter change pointer\n")
call flush (fd)
# Parameter list.
if (IN_PARAM (in) != NULL) {
call fprintf (fd, "Parameter list (%d):\n")
call pargi (npars)
do i = 1, npars {
call fprintf (fd, "%d -> %d\n")
call pargi (i)
call pargi (Memi[IN_PLIST (in) + i - 1])
}
} else
call fprintf (fd, "Null parameter list pointer\n")
call flush (fd)
# Floating point parameters.
if (IN_SFLOAT (in) != NULL) {
call fprintf (fd, "Fit tolerance = %g\n")
call parg$t (IN_TOL$T (in))
call fprintf (fd, "Low reject = %g\n")
call parg$t (IN_LOW$T (in))
call fprintf (fd, "High reject = %g\n")
call parg$t (IN_HIGH$T (in))
call fprintf (fd, "Growing radius = %g\n")
call parg$t (IN_GROW$T (in))
} else
call fprintf (fd, "Null floating point pointer\n")
call flush (fd)
# Max number of iterations, and rejection iterations.
call fprintf (fd, "Maximum number of iterations = %d\n")
call pargi (IN_MAXITER (in))
call fprintf (fd, "Number of rejection iterations = %d\n")
call pargi (IN_MAXITER (in))
# Rejected points.
call fprintf (fd, "Number of rejected points = %d\n")
call pargi (IN_NREJPTS (in))
call fprintf (fd, "Rejected point list pointer = %d\n")
call pargi (IN_REJPTS (in))
# User procedures.
call fprintf (fd, "User axis procedure pointer = %d\n")
call pargi (IN_UAXES (in))
call fprintf (fd, "User colon procedure pointer = %d\n")
call pargi (IN_UCOLON (in))
call fprintf (fd, "User fit procedure pointer = %d\n")
call pargi (IN_UFIT (in))
# Minimum variable values.
if (IN_XMIN (in) != NULL) {
call fprintf (fd, "Minimum variable values (%d):\n")
call pargi (nvars)
do i = 1, nvars {
call fprintf (fd, "%d -> %g\n")
call pargi (i)
call parg$t (Mem$t[IN_XMIN (in) + i - 1])
}
} else
call fprintf (fd, "Null minimum value pointer\n")
call flush (fd)
# Maximum variable values.
if (IN_XMAX (in) != NULL) {
call fprintf (fd, "Maximum variable values (%d):\n")
call pargi (nvars)
do i = 1, nvars {
call fprintf (fd, "%d -> %g\n")
call pargi (i)
call parg$t (Mem$t[IN_XMAX (in) + i - 1])
}
} else
call fprintf (fd, "Null maximum value pointer\n")
call flush (fd)
# Flags.
call fprintf (fd, "Overplot next flag = %d\n")
call pargi (IN_OVERPLOT (in))
call fprintf (fd, "Overplot fit flag = %d\n")
call pargi (IN_PLOTFIT (in))
call fprintf (fd, "Fit error code = %d\n")
call pargi (IN_FITERROR (in))
# Strings.
if (IN_LABELS (in) != NULL) {
call fprintf (fd, "Axis labels = [%s]\n")
call pargstr (Memc[IN_LABELS (in)])
} else
call fprintf (fd, "Null axis label pointer\n")
if (IN_UNITS (in) != NULL) {
call fprintf (fd, "Axis units = [%s]\n")
call pargstr (Memc[IN_UNITS (in)])
} else
call fprintf (fd, "Null axis unit pointer\n")
if (IN_FLABELS (in) != NULL) {
call fprintf (fd, "Function/fit labels = [%s]\n")
call pargstr (Memc[IN_FLABELS (in)])
} else
call fprintf (fd, "Null function/fit label pointer\n")
if (IN_FUNITS (in) != NULL) {
call fprintf (fd, "Function/fit units = [%s]\n")
call pargstr (Memc[IN_FUNITS (in)])
} else
call fprintf (fd, "Null function/fit unit pointer\n")
if (IN_PLABELS (in) != NULL) {
call fprintf (fd, "Parameter labels = [%s]\n")
call pargstr (Memc[IN_PLABELS (in)])
} else
call fprintf (fd, "Null parameter label pointer\n")
if (IN_PUNITS (in) != NULL) {
call fprintf (fd, "Parameter units = [%s]\n")
call pargstr (Memc[IN_PUNITS (in)])
} else
call fprintf (fd, "Null parameter unit pointer\n")
if (IN_VLABELS (in) != NULL) {
call fprintf (fd, "Variable labels = [%s]\n")
call pargstr (Memc[IN_VLABELS (in)])
} else
call fprintf (fd, "Null variable label pointer\n")
if (IN_VUNITS (in) != NULL) {
call fprintf (fd, "Variable units = [%s]\n")
call pargstr (Memc[IN_VUNITS (in)])
} else
call fprintf (fd, "Null variable unit pointer\n")
if (IN_USERLABELS (in) != NULL) {
call fprintf (fd, "User plot labels = [%s]\n")
call pargstr (Memc[IN_USERLABELS (in)])
} else
call fprintf (fd, "Null user plot label pointer\n")
if (IN_USERUNITS (in) != NULL) {
call fprintf (fd, "User plot units = [%s]\n")
call pargstr (Memc[IN_USERUNITS (in)])
} else
call fprintf (fd, "Null user plot unit pointer\n")
if (IN_HELP (in) != NULL) {
call fprintf (fd, "Help page = [%s]\n")
call pargstr (Memc[IN_HELP (in)])
} else
call fprintf (fd, "Null help page pointer\n")
if (IN_PROMPT (in) != NULL) {
call fprintf (fd, "Help prompt = [%s]\n")
call pargstr (Memc[IN_PROMPT (in)])
} else
call fprintf (fd, "Null help prompt\n")
call flush (fd)
# Graph keys.
if (IN_SGAXES (in) != NULL) {
call fprintf (fd, "Current graph key = %d\n")
call pargi (IN_GKEY (in))
do i = 1, INLNGKEYS {
call fprintf (fd, "%d, xtype=%d, xnum=%d, ytype=%d, ynum=%d\n")
call pargi (i)
call pargi (IN_GXTYPE (in, i))
call pargi (IN_GXNUMBER (in, i))
call pargi (IN_GYTYPE (in, i))
call pargi (IN_GYNUMBER (in, i))
}
} else
call fprintf (fd, "Null key pointer\n")
call flush (fd)
end
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