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include <error.h>
include <ctotok.h>
include "pexamine.h"
# PT_INIT - Initialize the pexamine structure.
pointer procedure pt_init (photcols, usercols, xcol, ycol, xpos, ypos, hcol)
char photcols[ARB] # the list of photometry columns
char usercols[ARB] # the list of user columns
char xcol[ARB] # the name of the x column
char ycol[ARB] # the name of the y column
char xpos[ARB] # the name of the x coord column
char ypos[ARB] # the name of the y coord column
char hcol[ARB] # the name of the histogram column
pointer px
bool streq()
int strdic()
begin
# Preload the daophot and apphot photometry fields.
if (streq ("DAOPHOT", photcols) || streq ("daophot", photcols))
call strcpy (PX_DAOCOLS, photcols, PX_SZCOLNAME * (PX_MAXNCOLS + 1))
else if (streq ("APPHOT", photcols) || streq ("apphot", photcols))
call strcpy (PX_APCOLS, photcols, PX_SZCOLNAME * (PX_MAXNCOLS + 1))
# Allocate space for the pexamine structure and the column lists.
call malloc (px, LEN_PXSTRUCT, TY_STRUCT)
# Initialize the requested column information.
PX_RNPHOT(px) = 0; PX_RNUSER(px) = 0; PX_RNCOLS(px) = 0
call malloc (PX_RCOLNAMES(px), PX_SZCOLNAME * (PX_MAXNCOLS + 1),
TY_CHAR)
Memc[PX_RCOLNAMES(px)] = EOS
# Initialize the stored column information.
PX_NPHOT(px) = 0; PX_NUSER(px) = 0; PX_NCOLS(px) = 0
call malloc (PX_COLNAMES(px), PX_SZCOLNAME * (PX_MAXNCOLS + 1),
TY_CHAR)
Memc[PX_COLNAMES(px)] = EOS
# Decode the column strings. Check that the number of columns
# does not exceed the maximum number permitted, by extracting
# the column names one by one from the photometry and user column
# strings.
call pt_setnames (px, photcols, usercols)
# Convert all the input column name specifications to upper case.
call strupr (xcol)
call strupr (ycol)
call strupr (xpos)
call strupr (ypos)
call strupr (hcol)
# Decode the x and y columns.
if (strdic (xcol, PX_RXCOLNAME(px), PX_SZCOLNAME,
Memc[PX_RCOLNAMES(px)]) <= 0)
call strcpy (xcol, PX_RXCOLNAME(px), PX_SZCOLNAME)
if (strdic (ycol, PX_RYCOLNAME(px), PX_SZCOLNAME,
Memc[PX_RCOLNAMES(px)]) <= 0)
call strcpy (ycol, PX_RYCOLNAME(px), PX_SZCOLNAME)
# Decode the y and y coordinate column names.
if (strdic (xpos, PX_RXPOSNAME(px), PX_SZCOLNAME,
Memc[PX_RCOLNAMES(px)]) <= 0)
call strcpy (xpos, PX_RXPOSNAME(px), PX_SZCOLNAME)
if (strdic (ypos, PX_RYPOSNAME(px), PX_SZCOLNAME,
Memc[PX_RCOLNAMES(px)]) <= 0)
call strcpy (ypos, PX_RYPOSNAME(px), PX_SZCOLNAME)
# Decode the histogram column name.
if (strdic (hcol, PX_RHCOLNAME(px), PX_SZCOLNAME,
Memc[PX_RCOLNAMES(px)]) <= 0)
call strcpy (hcol, PX_RHCOLNAME(px), PX_SZCOLNAME)
# Allocate space for the pointers and initialize them to NULL.
call malloc (PX_COLPTRS(px), PX_MAXNCOLS, TY_POINTER)
call amovki (NULL, Memi[PX_COLPTRS(px)], PX_MAXNCOLS)
return (px)
end
# PT_FREE -- Free memory used by the pexamine task.
procedure pt_free (px)
pointer px
int i
begin
# Free the column lists.
if (PX_RCOLNAMES(px) != NULL)
call mfree (PX_RCOLNAMES(px), TY_CHAR)
if (PX_COLNAMES(px) != NULL)
call mfree (PX_COLNAMES(px), TY_CHAR)
# Free the column pointers.
do i = 1, PX_MAXNCOLS {
if (Memi[PX_COLPTRS(px)+i-1] != NULL)
call mfree (Memi[PX_COLPTRS(px)+i-1], TY_REAL)
}
if (PX_COLPTRS(px) != NULL)
call mfree (PX_COLPTRS(px), TY_POINTER)
# Free the pexamine structure.
call mfree (px, TY_STRUCT)
end
# PT_SETNAMES -- Decode the photometry and user columns.
procedure pt_setnames (px, photcols, usercols)
pointer px # pointer to the pexamine strucuture
char photcols[ARB] # list of photometry columns
char usercols[ARB] # list of user columns
int ip, nphot
pointer sp, name
int pt_getnames()
begin
call smark (sp)
call salloc (name, PX_SZCOLNAME, TY_CHAR)
call strupr (photcols)
call strupr (usercols)
Memc[PX_RCOLNAMES(px)] = EOS
ip = 1
nphot = 0
while (pt_getnames (photcols, ip, Memc[name], PX_SZCOLNAME) != EOF) {
if (nphot >= PX_MAXNCOLS)
break
#if (Memc[name] == EOS)
#next
call strcat (",", Memc[PX_RCOLNAMES(px)], PX_SZCOLNAME *
(PX_MAXNCOLS + 1))
call strcat (Memc[name], Memc[PX_RCOLNAMES(px)], PX_SZCOLNAME *
(PX_MAXNCOLS + 1))
nphot = nphot + 1
}
PX_RNPHOT(px) = nphot
# Decode the user columns.
ip = 1
while (pt_getnames (usercols, ip, Memc[name], PX_SZCOLNAME) != EOF) {
if (nphot >= PX_MAXNCOLS)
break
#if (Memc[name] == EOS)
#next
call strcat (",", Memc[PX_RCOLNAMES(px)], PX_SZCOLNAME *
(PX_MAXNCOLS + 1))
call strcat (Memc[name], Memc[PX_RCOLNAMES(px)], PX_SZCOLNAME *
(PX_MAXNCOLS + 1))
nphot = nphot + 1
}
PX_RNUSER(px) = nphot - PX_RNPHOT(px)
PX_RNCOLS(px) = nphot
call sfree (sp)
end
# PT_GPHOTCOLS -- Extract the requested and stored photometric columns
# from the pexamine structure.
procedure pt_gphotcols (px, rphotcols, rnphot, photcols, nphot)
pointer px # pointer to the pexamine structure
char rphotcols[ARB] # list of requested photometric columns
int rnphot # number of requested photometric columns
char photcols[ARB] # list of photometric columns
int nphot # number of photometric columns
int ip, ncols
pointer sp, name
int pt_getnames()
begin
call smark (sp)
call salloc (name, PX_SZCOLNAME, TY_CHAR)
ip = 1
ncols = 0
rphotcols[1] = EOS
while (pt_getnames (Memc[PX_RCOLNAMES(px)], ip, Memc[name],
PX_SZCOLNAME) != EOF) {
#if (Memc[name] == EOS)
#next
ncols = ncols + 1
if (ncols > PX_RNPHOT(px))
break
call strcat (",", rphotcols, PX_SZCOLNAME * (PX_MAXNCOLS + 1))
call strcat (Memc[name], rphotcols, PX_SZCOLNAME *
(PX_MAXNCOLS + 1))
}
rnphot = PX_RNPHOT(px)
ip = 1
ncols = 0
photcols[1] = EOS
while (pt_getnames (Memc[PX_COLNAMES(px)], ip, Memc[name],
PX_SZCOLNAME) != EOF) {
#if (Memc[name] == EOS)
#next
ncols = ncols + 1
if (ncols > PX_NPHOT(px))
break
call strcat (",", photcols, PX_SZCOLNAME * (PX_MAXNCOLS + 1))
call strcat (Memc[name], photcols, PX_SZCOLNAME *
(PX_MAXNCOLS + 1))
}
nphot = PX_NPHOT(px)
call sfree (sp)
end
# PT_GUSERCOLS -- Extract the requested and stored user columns
# from the pexamine structure.
procedure pt_gusercols (px, rusercols, rnuser, usercols, nuser)
pointer px # pointer to the pexamine structure
char rusercols[ARB] # list of requested user columns
int rnuser # number of requested user columns
char usercols[ARB] # list of user columns
int nuser # number of user columns
int ip, ncols
pointer sp, name
int pt_getnames()
begin
call smark (sp)
call salloc (name, PX_SZCOLNAME, TY_CHAR)
ip = 1
ncols = 0
rusercols[1] = EOS
while (pt_getnames (Memc[PX_RCOLNAMES(px)], ip, Memc[name],
PX_SZCOLNAME) != EOF) {
#if (Memc[name] == EOS)
#next
ncols = ncols + 1
if (ncols <= PX_RNPHOT(px))
next
call strcat (",", rusercols, PX_SZCOLNAME * (PX_MAXNCOLS + 1))
call strcat (Memc[name], rusercols, PX_SZCOLNAME *
(PX_MAXNCOLS + 1))
}
rnuser = PX_RNUSER(px)
ip = 1
ncols = 0
usercols[1] = EOS
while (pt_getnames (Memc[PX_COLNAMES(px)], ip, Memc[name],
PX_SZCOLNAME) != EOF) {
#if (Memc[name] == EOS)
#next
ncols = ncols + 1
if (ncols <= PX_NPHOT(px))
next
call strcat (",", usercols, PX_SZCOLNAME * (PX_MAXNCOLS + 1))
call strcat (Memc[name], usercols, PX_SZCOLNAME *
(PX_MAXNCOLS + 1))
}
nuser = PX_NUSER(px)
call sfree (sp)
end
# PT_LCOLS -- List the requested and stored columns with an optional
# title string.
procedure pt_lcols (title, rcols, rncols, cols, ncols)
char title[ARB] # title string for column listing
char rcols[ARB] # list of requested columns
int rncols # the number of requested columns
char cols[ARB] # list of stored columns
int ncols # the number of stored columns
int ip1, ip2, i
pointer sp, name1, name2
int pt_getnames()
begin
call smark (sp)
call salloc (name1, PX_SZCOLNAME, TY_CHAR)
call salloc (name2, PX_SZCOLNAME, TY_CHAR)
call printf ("\n%s\n\n")
call pargstr (title)
ip1 = 1
ip2 = 1
do i = 1, max (rncols, ncols) {
if (pt_getnames (rcols, ip1, Memc[name1], PX_SZCOLNAME) == EOF)
Memc[name1] = EOS
if (pt_getnames (cols, ip2, Memc[name2], PX_SZCOLNAME) == EOF)
Memc[name2] = EOS
call printf (" requested: %*.*s stored: %*.*s\n")
call pargi (-PX_SZCOLNAME)
call pargi (PX_SZCOLNAME)
call pargstr (Memc[name1])
call pargi (-PX_SZCOLNAME)
call pargi (PX_SZCOLNAME)
call pargstr (Memc[name2])
}
call sfree (sp)
end
# PT_GETNAMES -- Decode the list of column names into list of column names.
int procedure pt_getnames (colnames, ip, name, maxch)
char colnames[ARB] # list of column names
int ip # pointer in to the list of names
char name[ARB] # the output column name
int maxch # maximum length of a column name
int op, token
int ctotok(), strlen()
begin
# Decode the column labels.
op = 1
while (colnames[ip] != EOS) {
token = ctotok (colnames, ip, name[op], maxch)
if (name[op] == EOS)
next
if ((token == TOK_UNKNOWN) || (token == TOK_CHARCON))
break
if ((token == TOK_PUNCTUATION) && (name[op] == ',')) {
if (op == 1)
next
else
break
}
op = op + strlen (name[op])
}
name[op] = EOS
if ((colnames[ip] == EOS) && (op == 1))
return (EOF)
else
return (op - 1)
end
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