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include "../lib/apphot.h"
include "../lib/display.h"
include "../lib/noise.h"
include "../lib/find.h"
# AP_FDCOLON -- Process colon commands from the daofind task.
procedure ap_fdcolon (ap, im, out, stid, cmdstr, newimage, newbuf, newfit)
pointer ap # pointer to the apphot structure
pointer im # pointer to the iraf image
int out # output file descriptor
int stid # output file sequence number
char cmdstr # command string
int newimage # new mage ?
int newbuf # new center buffer ?
int newfit # new center fit ?
int cl, junk
pointer sp, incmd, outcmd
int strdic()
begin
call smark (sp)
call salloc (incmd, SZ_LINE, TY_CHAR)
call salloc (outcmd, SZ_LINE, TY_CHAR)
# Get the command.
call sscan (cmdstr)
call gargwrd (Memc[incmd], SZ_LINE)
if (Memc[incmd] == EOS) {
call sfree (sp)
return
}
# Process the command making sure that the pointer to the
# coords file is always NULL.
if (strdic (Memc[incmd], Memc[outcmd], SZ_LINE, APCMDS) != 0) {
cl = NULL
call ap_apcolon (ap, im, cl, out, stid, junk, cmdstr, newimage,
junk, junk, junk, junk, newbuf, newfit)
if (cl != NULL) {
call close (cl)
cl = NULL
call apsets (ap, CLNAME, "")
}
} else if (strdic (Memc[incmd], Memc[outcmd], SZ_LINE, NCMDS) != 0) {
call ap_nscolon (ap, im, out, stid, cmdstr, junk, junk,
junk, junk, newbuf, newfit)
} else if (strdic (Memc[incmd], Memc[outcmd], SZ_LINE, FCMDS) != 0) {
call ap_fcolon (ap, out, stid, cmdstr, newbuf, newfit)
} else {
call ap_fimcolon (ap, cmdstr)
}
call sfree (sp)
end
# AP_FCOLON -- Process colon commands for setting the find algorithm
# parameters.
procedure ap_fcolon (ap, out, stid, cmdstr, newbuf, newfit)
pointer ap # pointer to the apphot structure
int out # output file descriptor
int stid # file number id
char cmdstr[ARB] # command string
int newbuf, newfit # change magnitude parameters
bool bval
int ncmd
pointer sp, cmd, str
real rval
bool itob()
int strdic(), nscan(), btoi(), apstati()
real apstatr()
begin
call smark (sp)
call salloc (cmd, SZ_LINE, TY_CHAR)
call salloc (str, SZ_LINE, TY_CHAR)
# Get the command.
call sscan (cmdstr)
call gargwrd (Memc[cmd], SZ_LINE)
if (Memc[cmd] == EOS) {
call sfree (sp)
return
}
# Process the command.
ncmd = strdic (Memc[cmd], Memc[cmd], SZ_LINE, FCMDS)
switch (ncmd) {
case FCMD_NSIGMA:
call gargr (rval)
if (nscan() == 1) {
call printf ("%s = %g %s\n")
call pargstr (KY_NSIGMA)
call pargr (apstatr (ap, NSIGMA))
call pargstr (UN_FSIGMA)
} else {
call apsetr (ap, NSIGMA, rval)
if (stid > 1)
call ap_rparam (out, KY_NSIGMA, rval, UN_FSIGMA,
"size of kernel in sigma")
newbuf = YES; newfit = YES
}
case FCMD_RATIO:
call gargr (rval)
if (nscan() == 1) {
call printf ("%s = %g %s\n")
call pargstr (KY_RATIO)
call pargr (apstatr (ap, RATIO))
call pargstr (UN_FNUMBER)
} else {
call apsetr (ap, RATIO, rval)
if (stid > 1)
call ap_rparam (out, KY_RATIO, rval, UN_FNUMBER,
"sigma y / x of Gaussian kernel")
newbuf = YES; newfit = YES
}
case FCMD_SHARPLO:
call gargr (rval)
if (nscan() == 1) {
call printf ("%s = %g %s\n")
call pargstr (KY_SHARPLO)
call pargr (apstatr (ap, SHARPLO))
call pargstr (UN_FNUMBER)
} else {
call apsetr (ap, SHARPLO, rval)
if (stid > 1)
call ap_rparam (out, KY_SHARPLO, rval, UN_FNUMBER,
"lower sharpness bound")
newfit = YES
}
case FCMD_SHARPHI:
call gargr (rval)
if (nscan() == 1) {
call printf ("%s = %g %s\n")
call pargstr (KY_SHARPHI)
call pargr (apstatr (ap, SHARPHI))
call pargstr (UN_FNUMBER)
} else {
call apsetr (ap, SHARPHI, rval)
if (stid > 1)
call ap_rparam (out, KY_SHARPHI, rval, UN_FNUMBER,
"upper sharpness bound")
newfit = YES
}
case FCMD_ROUNDLO:
call gargr (rval)
if (nscan() == 1) {
call printf ("%s = %g %s\n")
call pargstr (KY_ROUNDLO)
call pargr (apstatr (ap, ROUNDLO))
call pargstr (UN_FNUMBER)
} else {
call apsetr (ap, ROUNDLO, rval)
if (stid > 1)
call ap_rparam (out, KY_ROUNDLO, rval, UN_FNUMBER,
"lower roundness bound")
newfit = YES
}
case FCMD_ROUNDHI:
call gargr (rval)
if (nscan() == 1) {
call printf ("%s = %g %s\n")
call pargstr (KY_ROUNDHI)
call pargr (apstatr (ap, ROUNDHI))
call pargstr (UN_FNUMBER)
} else {
call apsetr (ap, ROUNDHI, rval)
if (stid > 1)
call ap_rparam (out, KY_ROUNDHI, rval, UN_FNUMBER,
"upper roundness bound")
newfit = YES
}
case FCMD_MKDETECTIONS:
call gargb (bval)
if (nscan () == 1) {
call printf ("%s = %b\n")
call pargstr (KY_MKDETECTIONS)
call pargb (itob (apstati (ap, MKDETECTIONS)))
} else
call apseti (ap, MKDETECTIONS, btoi (bval))
case FCMD_THETA:
call gargr (rval)
if (nscan() == 1) {
call printf ("%s = %g %s\n")
call pargstr (KY_THETA)
call pargr (apstatr (ap, THETA))
call pargstr (UN_FDEGREES)
} else {
call apsetr (ap, THETA, rval)
if (stid > 1)
call ap_rparam (out, KY_THETA, rval, UN_FDEGREES,
"position angle")
newbuf = YES; newfit = YES
}
case FCMD_THRESHOLD:
call gargr (rval)
if (nscan() == 1) {
call printf ("%s = %g %s\n")
call pargstr (KY_THRESHOLD)
call pargr (apstatr (ap, THRESHOLD))
call pargstr (UN_FSIGMA)
} else {
call apsetr (ap, THRESHOLD, rval)
if (stid > 1)
call ap_rparam (out, KY_THRESHOLD, rval, UN_FSIGMA,
"detection threshold in sigma")
newfit = YES
}
default:
call printf ("Unknown or ambiguous colon command\7\n")
}
call sfree (sp)
end
# AP_FIMCOLON -- Process colon commands for the daofind task that do
# not affect the data dependent or find parameters.
procedure ap_fimcolon (ap, cmdstr)
pointer ap # pointer to the apphot structure
char cmdstr[ARB] # command string
int ncmd
pointer sp, cmd
int strdic()
begin
# Get the command.
call smark (sp)
call salloc (cmd, SZ_LINE, TY_CHAR)
call sscan (cmdstr)
call gargwrd (Memc[cmd], SZ_LINE)
if (Memc[cmd] == EOS) {
call sfree (sp)
return
}
# Process the command.
ncmd = strdic (Memc[cmd], Memc[cmd], SZ_LINE, MISC1)
switch (ncmd) {
case ACMD_SHOW:
call gargwrd (Memc[cmd], SZ_LINE)
ncmd = strdic (Memc[cmd], Memc[cmd], SZ_LINE, FSHOWARGS)
switch (ncmd) {
case FCMD_DATA:
call printf ("\n")
call ap_nshow (ap)
call printf ("\n")
case FCMD_FIND:
call printf ("\n")
call ap_fshow (ap)
call printf ("\n")
default:
call printf ("\n")
call ap_fdshow (ap)
call printf ("\n")
}
default:
call printf ("Unknown or ambiguous colon command\7\n")
}
call sfree (sp)
end
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