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include <tbset.h>
include <time.h>
include "../lib/daophotdef.h"
include "../lib/apseldef.h"
include "../lib/peakdef.h"
# DP_TNEWPEAK -- Create a new output PEAK ST table.
procedure dp_tnewpeak (dao, tp, colpoint)
pointer dao # pointer to the daophot strucuture
pointer tp # pointer to the output table
int colpoint[ARB] # array of column pointers
int i
pointer sp, colnames, colunits, colformat, col_dtype, col_len
begin
# Allocate space for the table definition.
call smark (sp)
call salloc (colnames, PK_NOUTCOL * (SZ_COLNAME + 1), TY_CHAR)
call salloc (colunits, PK_NOUTCOL * (SZ_COLUNITS + 1), TY_CHAR)
call salloc (colformat, PK_NOUTCOL * (SZ_COLFMT + 1), TY_CHAR)
call salloc (col_dtype, PK_NOUTCOL, TY_INT)
call salloc (col_len, PK_NOUTCOL, TY_INT)
# Set up the column definitions.
call strcpy (ID, Memc[colnames], SZ_COLNAME)
call strcpy (XCENTER, Memc[colnames+SZ_COLNAME+1], SZ_COLNAME)
call strcpy (YCENTER, Memc[colnames+2*SZ_COLNAME+2], SZ_COLNAME)
call strcpy (MAG, Memc[colnames+3*SZ_COLNAME+3], SZ_COLNAME)
call strcpy (MAGERR, Memc[colnames+4*SZ_COLNAME+4], SZ_COLNAME)
call strcpy (SKY, Memc[colnames+5*SZ_COLNAME+5], SZ_COLNAME)
call strcpy (NITER, Memc[colnames+6*SZ_COLNAME+6], SZ_COLNAME)
call strcpy (SHARP, Memc[colnames+7*SZ_COLNAME+7], SZ_COLNAME)
call strcpy (CHI, Memc[colnames+8*SZ_COLNAME+8], SZ_COLNAME)
call strcpy (PIER, Memc[colnames+9*SZ_COLNAME+9], SZ_COLNAME)
call strcpy (PERROR, Memc[colnames+10*SZ_COLNAME+10], SZ_COLNAME)
# Define the column formats.
call strcpy ("%6d", Memc[colformat], SZ_COLFMT)
call strcpy ("%10.3f", Memc[colformat+SZ_COLFMT+1], SZ_COLFMT)
call strcpy ("%10.3f", Memc[colformat+2*SZ_COLFMT+2], SZ_COLFMT)
call strcpy ("%12.3f", Memc[colformat+3*SZ_COLFMT+3], SZ_COLFMT)
call strcpy ("%14.3f", Memc[colformat+4*SZ_COLFMT+4], SZ_COLFMT)
call strcpy ("%15.7g", Memc[colformat+5*SZ_COLFMT+5], SZ_COLFMT)
call strcpy ("%12.3f", Memc[colformat+6*SZ_COLFMT+6], SZ_COLFMT)
call strcpy ("%12.3f", Memc[colformat+7*SZ_COLFMT+7], SZ_COLFMT)
call strcpy ("%12.3f", Memc[colformat+8*SZ_COLFMT+8], SZ_COLFMT)
call strcpy ("%6d", Memc[colformat+9*SZ_COLFMT+9], SZ_COLFMT)
call strcpy ("%13s", Memc[colformat+10*SZ_COLFMT+10], SZ_COLFMT)
# Define the column units.
call strcpy ("NUMBER", Memc[colunits], SZ_COLUNITS)
call strcpy ("PIXELS", Memc[colunits+SZ_COLUNITS+1], SZ_COLUNITS)
call strcpy ("PIXELS", Memc[colunits+2*SZ_COLUNITS+2], SZ_COLUNITS)
call strcpy ("MAGNITUDES", Memc[colunits+3*SZ_COLUNITS+3], SZ_COLUNITS)
call strcpy ("MAGNITUDES", Memc[colunits+4*SZ_COLUNITS+4], SZ_COLUNITS)
call strcpy ("ADU", Memc[colunits+5*SZ_COLUNITS+5], SZ_COLUNITS)
call strcpy ("NUMBER", Memc[colunits+6*SZ_COLUNITS+6], SZ_COLUNITS)
call strcpy ("NUMBER", Memc[colunits+7*SZ_COLUNITS+7], SZ_COLUNITS)
call strcpy ("NUMBER", Memc[colunits+8*SZ_COLUNITS+8], SZ_COLUNITS)
call strcpy ("NUMBER", Memc[colunits+9*SZ_COLUNITS+9], SZ_COLUNITS)
call strcpy ("PERRORS", Memc[colunits+10*SZ_COLUNITS+10], SZ_COLUNITS)
# Define the column data types.
Memi[col_dtype] = TY_INT
Memi[col_dtype+1] = TY_REAL
Memi[col_dtype+2] = TY_REAL
Memi[col_dtype+3] = TY_REAL
Memi[col_dtype+4] = TY_REAL
Memi[col_dtype+5] = TY_REAL
Memi[col_dtype+6] = TY_INT
Memi[col_dtype+7] = TY_REAL
Memi[col_dtype+8] = TY_REAL
Memi[col_dtype+9] = TY_INT
Memi[col_dtype+10] = -13
# Define the column lengths.
do i = 1, PK_NOUTCOL
Memi[col_len+i-1] = 1
# Define and create the table.
call tbcdef (tp, colpoint, Memc[colnames], Memc[colunits],
Memc[colformat], Memi[col_dtype], Memi[col_len], PK_NOUTCOL)
call tbtcre (tp)
# Write out some header parameters.
call dp_tpeakpars (dao, tp)
call sfree (sp)
end
define PK_NAME1STR "#N%4tID%10tXCENTER%20tYCENTER%30tMAG%42tMERR%56tMSKY%71t\
NITER%80t\\\n"
define PK_UNIT1STR "#U%4t##%10tpixels%20tpixels%30tmagnitudes%42t\
magnitudes%56tcounts%71t##%80t\\\n"
define PK_FORMAT1STR "#F%4t%%-9d%10t%%-10.3f%20t%%-10.3f%30t%%-12.3f%42t\
%%-14.3f%56t%%-15.7g%71t%%-6d%80t \n"
define PK_NAME2STR "#N%12tSHARPNESS%24tCHI%36tPIER%42tPERROR%80t\\\n"
define PK_UNIT2STR "#U%12t##%24t##%36t##%42tperrors%80t\\\n"
define PK_FORMAT2STR "#F%12t%%-23.3f%24t%%-12.3f%36t%%-6d%42t%%-13s%80t \n"
# DP_XNEWPEAK -- Create a new PEAK output text file.
procedure dp_xnewpeak (dao, tp)
pointer dao # pointer to the daophot structure
int tp # the output file descriptor
begin
# Write out some header parameters.
call dp_xpeakpars (dao, tp)
# Print out the banner file.
call fprintf (tp, "#\n")
call fprintf (tp, PK_NAME1STR)
call fprintf (tp, PK_UNIT1STR)
call fprintf (tp, PK_FORMAT1STR)
call fprintf (tp, "#\n")
call fprintf (tp, PK_NAME2STR)
call fprintf (tp, PK_UNIT2STR)
call fprintf (tp, PK_FORMAT2STR)
call fprintf (tp, "#\n")
end
# DP_TPEAKPARS -- Add parameters to the header of the PEAK ST table.
procedure dp_tpeakpars (dao, tp)
pointer dao # pointer to the daophot structure
pointer tp # pointer to the output table
pointer sp, psffit, outstr, date, time
bool itob()
int envfind()
begin
# Define some daophot pointers.
psffit = DP_PSFFIT(dao)
# Allocate working space.
call smark (sp)
call salloc (outstr, SZ_LINE, TY_CHAR)
call salloc (date, SZ_DATE, TY_CHAR)
call salloc (time, SZ_DATE, TY_CHAR)
# Write the id.
if (envfind ("version", Memc[outstr], SZ_LINE) <= 0)
call strcpy ("NOAO/IRAF", Memc[outstr], SZ_LINE)
call dp_rmwhite (Memc[outstr], Memc[outstr], SZ_LINE)
call tbhadt (tp, "IRAF", Memc[outstr])
if (envfind ("userid", Memc[outstr], SZ_LINE) <= 0)
call tbhadt (tp, "USER", Memc[outstr])
call gethost (Memc[outstr], SZ_LINE)
call tbhadt (tp, "HOST", Memc[outstr])
call dp_date (Memc[date], Memc[time], SZ_DATE)
call tbhadt (tp, "DATE", Memc[date])
call tbhadt (tp, "TIME", Memc[time])
call tbhadt (tp, "PACKAGE", "daophot")
call tbhadt (tp, "TASK", "peak")
# Write out the files names.
call dp_imroot (DP_INIMAGE(dao), Memc[outstr], SZ_LINE)
call tbhadt (tp, "IMAGE", Memc[outstr])
call dp_froot (DP_INPHOTFILE(dao), Memc[outstr], SZ_LINE)
call tbhadt (tp, "PHOTFILE", Memc[outstr])
call dp_imroot (DP_PSFIMAGE(dao), Memc[outstr], SZ_LINE)
call tbhadt (tp, "PSFIMAGE", Memc[outstr])
call dp_froot (DP_OUTPHOTFILE(dao), Memc[outstr], SZ_LINE)
call tbhadt (tp, "PEAKFILE", Memc[outstr])
if (DP_OUTREJFILE(dao) == EOS)
call tbhadt (tp, "REJFILE", "\"\"")
else {
call dp_froot (DP_OUTREJFILE(dao), Memc[outstr], SZ_LINE)
call tbhadt (tp, "REJFILE", Memc[outstr])
}
# Define the data characteristics.
call tbhadr (tp, "SCALE", DP_SCALE(dao))
call tbhadr (tp, "DATAMIN", DP_MINGDATA(dao))
call tbhadr (tp, "DATAMAX", DP_MAXGDATA(dao))
call tbhadr (tp, "GAIN", DP_PHOTADU(dao))
call tbhadr (tp, "READNOISE", DP_READNOISE(dao))
# Define the observing parameters.
call tbhadt (tp, "OTIME", DP_OTIME(dao))
call tbhadr (tp, "XAIRMASS", DP_XAIRMASS(dao))
call tbhadt (tp, "IFILTER", DP_IFILTER(dao))
# Define the fitting parameters.
call tbhadb (tp, "RECENTER", itob (DP_RECENTER(dao)))
call tbhadb (tp, "FITSKY", itob (DP_FITSKY(dao)))
call tbhadr (tp, "PSFRAD", DP_SPSFRAD(dao))
call tbhadr (tp, "FITRAD", DP_SFITRAD(dao))
call tbhadr (tp, "PSFMAG", DP_PSFMAG(psffit))
call tbhadi (tp, "MAXITER", DP_MAXITER(dao))
call tbhadr (tp, "FLATERROR", DP_FLATERR(dao))
call tbhadr (tp, "PROFERROR", DP_PROFERR(dao))
call tbhadi (tp, "CLIPEXP", DP_CLIPEXP(dao))
call tbhadr (tp, "CLIPRANGE", DP_CLIPRANGE(dao))
#call tbhadi (tp, "MAXNSTAR", DP_MAXNSTAR(dao))
call sfree(sp)
end
# DP_XPEAKPARS -- Add parameters to the header of the output PEAK text file.
procedure dp_xpeakpars (dao, tp)
pointer dao # pointer to the daophot structure
int tp # the output file descriptor
pointer sp, psffit, outstr, date, time
bool itob()
int envfind()
begin
# Define some daophot pointers.
psffit = DP_PSFFIT(dao)
# Allocate working space.
call smark (sp)
call salloc (outstr, SZ_LINE, TY_CHAR)
call salloc (date, SZ_DATE, TY_CHAR)
call salloc (time, SZ_DATE, TY_CHAR)
# Write the id.
if (envfind ("version", Memc[outstr], SZ_LINE) <= 0)
call strcpy ("NOAO/IRAF", Memc[outstr], SZ_LINE)
call dp_rmwhite (Memc[outstr], Memc[outstr], SZ_LINE)
call dp_sparam (tp, "IRAF", Memc[outstr], "version", "")
if (envfind ("userid", Memc[outstr], SZ_LINE) <= 0)
call dp_sparam (tp, "USER", Memc[outstr], "name", "")
call gethost (Memc[outstr], SZ_LINE)
call dp_sparam (tp, "HOST", Memc[outstr], "computer", "")
call dp_date (Memc[date], Memc[time], SZ_DATE)
call dp_sparam (tp, "DATE", Memc[date], "yyyy-mm-dd", "")
call dp_sparam (tp, "TIME", Memc[time], "hh:mm:ss", "")
call dp_sparam (tp, "PACKAGE", "daophot", "name", "")
call dp_sparam (tp, "TASK", "peak", "name", "")
# Write out the files names.
call dp_imroot (DP_INIMAGE(dao), Memc[outstr], SZ_LINE)
call dp_sparam (tp, "IMAGE", Memc[outstr], "imagename", "")
call dp_froot (DP_INPHOTFILE(dao), Memc[outstr], SZ_LINE)
call dp_sparam (tp, "PHOTFILE", Memc[outstr], "filename", "")
call dp_imroot (DP_PSFIMAGE(dao), Memc[outstr], SZ_LINE)
call dp_sparam (tp, "PSFIMAGE", Memc[outstr], "imagename", "")
call dp_froot (DP_OUTPHOTFILE(dao), Memc[outstr], SZ_LINE)
call dp_sparam (tp, "PEAKFILE", Memc[outstr], "filename", "")
if (DP_OUTREJFILE(dao) == EOS)
call dp_sparam (tp, "REJFILE", "\"\"", "filename", "")
else {
call dp_froot (DP_OUTREJFILE(dao), Memc[outstr], SZ_LINE)
call dp_sparam (tp, "REJFILE", Memc[outstr], "filename", "")
}
# Define the data characteristics.
call dp_rparam (tp, "SCALE", DP_SCALE(dao), "units/pix", "")
call dp_rparam (tp, "DATAMIN", DP_MINGDATA(dao), "counts", "")
call dp_rparam (tp, "DATAMAX", DP_MAXGDATA(dao), "counts", "")
call dp_rparam (tp, "GAIN", DP_PHOTADU(dao), "e-/adu", "")
call dp_rparam (tp, "READNOISE", DP_READNOISE(dao), "electrons", "")
# Define the observing parameters.
call dp_sparam (tp, "OTIME", DP_OTIME(dao), "timeunit", "")
call dp_rparam (tp, "XAIRMASS", DP_XAIRMASS(dao), "number", "")
call dp_sparam (tp, "IFILTER", DP_IFILTER(dao), "filter", "")
# Define the fitting parameters.
call dp_bparam (tp, "RECENTER", itob (DP_RECENTER(dao)), "switch", "")
call dp_bparam (tp, "FITSKY", itob (DP_FITSKY(dao)), "switch", "")
call dp_rparam (tp, "PSFRAD", DP_SPSFRAD(dao), "scaleunit", "")
call dp_rparam (tp, "FITRAD", DP_SFITRAD(dao), "scaleunit", "")
call dp_rparam (tp, "PSFMAG", DP_PSFMAG(psffit), "magnitudes", "")
call dp_iparam (tp, "MAXITER", DP_MAXITER(dao), "number", "")
call dp_rparam (tp, "FLATERROR", DP_FLATERR(dao), "percentage", "")
call dp_rparam (tp, "PROFERROR", DP_PROFERR(dao), "percentage", "")
call dp_iparam (tp, "CLIPEXP", DP_CLIPEXP(dao), "number", "")
call dp_rparam (tp, "CLIPRANGE", DP_CLIPRANGE(dao), "sigma", "")
#call dp_iparam (tp, "MAXNSTAR", DP_MAXNSTAR(dao), "number", "")
call sfree(sp)
end
# DP_TPKWRITE -- Write the output photometry record to a PEAK ST table.
procedure dp_tpkwrite (tpout, colpoint, id, x, y, mag, errmag, sky, niter, chi,
sharp, pier, perror, plen, star)
pointer tpout # pointer to the output table
int colpoint[ARB] # array of column pointers
int id # id of the star
real x, y # position of the star
real mag # magnitude of the star
real errmag # error magnitude of the star
real sky # value of sky
int niter # number of iterations
real chi # chi squared value
real sharp # sharpness characteristic
int pier # the error code
char perror[ARB] # the error string
int plen # the length of the error code string
int star # row number
begin
call tbrpti (tpout, colpoint[1], id, 1, star)
call tbrptr (tpout, colpoint[2], x, 1, star)
call tbrptr (tpout, colpoint[3], y, 1, star)
call tbrptr (tpout, colpoint[4], mag, 1, star)
call tbrptr (tpout, colpoint[5], errmag, 1, star)
call tbrptr (tpout, colpoint[6], sky, 1, star)
call tbrpti (tpout, colpoint[7], niter, 1, star)
call tbrptr (tpout, colpoint[8], sharp, 1, star)
call tbrptr (tpout, colpoint[9], chi, 1, star)
call tbrpti (tpout, colpoint[10], pier, 1, star)
call tbrptt (tpout, colpoint[11], perror, plen, 1, star)
end
define PK_DATA1STR "%-9d%10t%-10.3f%20t%-10.3f%30t%-12.3f%42t%-14.3f%56t\
%-15.7g%71t%-6d%80t\\\n"
define PK_DATA2STR "%12t%-12.3f%24t%-12.3f%36t%-6d%42t%-13.13s%80t \n"
# DP_XPKWRITE -- Write the output photometry record to a PEAK text file.
procedure dp_xpkwrite (tpout, id, x, y, mag, errmag, sky, niter, chi, sharp,
pier, perror, plen)
int tpout # the output file descriptor
int id # id of the star
real x, y # position of the star
real mag # magnitude of the star
real errmag # error magnitude of the star
real sky # value of sky
int niter # number of iterations
real chi # chi squared value
real sharp # sharpness characteristic
int pier # the error code
char perror[ARB] # the error string
int plen # the length of the error code string
begin
call fprintf (tpout, PK_DATA1STR)
call pargi (id)
call pargr (x)
call pargr (y)
call pargr (mag)
call pargr (errmag)
call pargr (sky)
call pargi (niter)
call fprintf (tpout, PK_DATA2STR)
call pargr (sharp)
call pargr (chi)
call pargi (pier)
call pargstr (perror)
end
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