include include include "../lib/daophotdef.h" include "../lib/apseldef.h" include "../lib/nstardef.h" # DP_TPNEWNSTAR -- Create a new NSTAR output ST table. procedure dp_tpnewnstar (dao, nst, colpoint) pointer dao # pointer to the daophot structure pointer nst # pointer to output photometry file pointer colpoint[ARB] # array of column pointers int i pointer sp, colnames, colunits, colformat, col_dtype, col_len begin # Allocate space for table definition. call smark (sp) call salloc (colnames, NST_NOUTCOL * (SZ_COLNAME + 1), TY_CHAR) call salloc (colunits, NST_NOUTCOL * (SZ_COLUNITS + 1), TY_CHAR) call salloc (colformat, NST_NOUTCOL * (SZ_COLFMT + 1), TY_CHAR) call salloc (col_dtype, NST_NOUTCOL, TY_INT) call salloc (col_len, NST_NOUTCOL, TY_INT) # Set up the column definitions. call strcpy (ID, Memc[colnames], SZ_COLNAME) call strcpy (GROUP, Memc[colnames+SZ_COLNAME+1], SZ_COLNAME) call strcpy (XCENTER, Memc[colnames+2*SZ_COLNAME+2], SZ_COLNAME) call strcpy (YCENTER, Memc[colnames+3*SZ_COLNAME+3], SZ_COLNAME) call strcpy (MAG, Memc[colnames+4*SZ_COLNAME+4], SZ_COLNAME) call strcpy (MAGERR, Memc[colnames+5*SZ_COLNAME+5], SZ_COLNAME) call strcpy (SKY, Memc[colnames+6*SZ_COLNAME+6], SZ_COLNAME) call strcpy (NITER, Memc[colnames+7*SZ_COLNAME+7], SZ_COLNAME) call strcpy (SHARP, Memc[colnames+8*SZ_COLNAME+8], SZ_COLNAME) call strcpy (CHI, Memc[colnames+9*SZ_COLNAME+9], SZ_COLNAME) call strcpy (PIER, Memc[colnames+10*SZ_COLNAME+10], SZ_COLNAME) call strcpy (PERROR, Memc[colnames+11*SZ_COLNAME+11], SZ_COLNAME) # Se up the column format definitions. call strcpy ("%6d", Memc[colformat], SZ_COLFMT) call strcpy ("%6d", Memc[colformat+SZ_COLFMT+1], SZ_COLFMT) call strcpy ("%10.3f", Memc[colformat+2*SZ_COLFMT+2], SZ_COLFMT) call strcpy ("%10.3f", Memc[colformat+3*SZ_COLFMT+3], SZ_COLFMT) call strcpy ("%12.3f", Memc[colformat+4*SZ_COLFMT+4], SZ_COLFMT) call strcpy ("%14.3f", Memc[colformat+5*SZ_COLFMT+5], SZ_COLFMT) call strcpy ("%15.7g", Memc[colformat+6*SZ_COLFMT + 6], SZ_COLFMT) call strcpy ("%6d", Memc[colformat+7*SZ_COLFMT+7], SZ_COLFMT) call strcpy ("%12.3f", Memc[colformat+8*SZ_COLFMT+8], SZ_COLFMT) call strcpy ("%12.3f", Memc[colformat+9*SZ_COLFMT+9], SZ_COLFMT) call strcpy ("%6d", Memc[colformat+10*SZ_COLFMT+10], SZ_COLFMT) call strcpy ("%13s", Memc[colformat+11*SZ_COLFMT+11], SZ_COLFMT) # Set up the column unit definitions. call strcpy ("NUMBER", Memc[colunits], SZ_COLUNITS) call strcpy ("NUMBER", Memc[colunits+SZ_COLUNITS+1], SZ_COLUNITS) call strcpy ("PIXELS", Memc[colunits+2*SZ_COLUNITS+2], SZ_COLUNITS) call strcpy ("PIXELS", Memc[colunits+3*SZ_COLUNITS+3], SZ_COLUNITS) call strcpy ("MAGNITIDES", Memc[colunits+4*SZ_COLUNITS+4], SZ_COLUNITS) call strcpy ("MAGNITIDES", Memc[colunits+5*SZ_COLUNITS+5], SZ_COLUNITS) call strcpy ("COUNTS", 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 ("NUMBER", Memc[colunits+10*SZ_COLUNITS+10], SZ_COLUNITS) call strcpy ("PERRORS", Memc[colunits+11*SZ_COLUNITS+11], SZ_COLUNITS) # Define the column datatypes. Memi[col_dtype] = TY_INT Memi[col_dtype+1] = TY_INT 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_REAL Memi[col_dtype+7] = TY_INT Memi[col_dtype+8] = TY_REAL Memi[col_dtype+9] = TY_REAL Memi[col_dtype+10] = TY_INT Memi[col_dtype+11] = -13 # Define columnlengths. do i = 1, NST_NOUTCOL Memi[col_len+i-1] = 1 # Define and create the table. call tbcdef (nst, colpoint, Memc[colnames], Memc[colunits], Memc[colformat], Memi[col_dtype], Memi[col_len], NST_NOUTCOL) call tbtcre (nst) # Write out some header parameters. call dp_tnstarpars (dao, nst) call sfree (sp) end define NST_NAME1STR "#N%4tID%10tGROUP%16tXCENTER%26tYCENTER%36tMAG%48t\ MERR%62tMSKY%80t\\\n" define NST_UNIT1STR "#U%4t##%10t##%16tpixels%26tpixels%36tmagnitudes%48t\ magnitudes%62tcounts%80t\\\n" define NST_FORMAT1STR "#F%4t%%-9d%10t%%-6d%16t%%-10.3f%26t%%-10.3f%36t\ %%-12.3f%48t%%-14.3f%62t%%-15.7g%80t \n" define NST_NAME2STR "#N%12tNITER%18tSHARPNESS%30tCHI%42tPIER%48tPERROR%80t\\\n" define NST_UNIT2STR "#U%12t##%18t##%30t##%42t##%48tperrors%80t\\\n" define NST_FORMAT2STR "#F%12t%%-17d%18t%%-12.3f%30t%%-12.3f%42t%%-6d\ %48t%%-13s%80t \n" # DP_XPNEWNSTAR -- Create a new NSTAR output text file. procedure dp_xpnewnstar (dao, nst) pointer dao # pointer to the daophot structure int nst # the output file descriptor begin # Write out some header parameters. call dp_xnstarpars (dao, nst) # Write out the header banner. call fprintf (nst, "#\n") call fprintf (nst, NST_NAME1STR) call fprintf (nst, NST_UNIT1STR) call fprintf (nst, NST_FORMAT1STR) call fprintf (nst, "#\n") call fprintf (nst, NST_NAME2STR) call fprintf (nst, NST_UNIT2STR) call fprintf (nst, NST_FORMAT2STR) call fprintf (nst, "#\n") end # DP_XNSTARPARS -- Add parameters to the header of the output NSTAR text file. procedure dp_xnstarpars (dao, nst) pointer dao # pointer to the daophot structure int nst # the output file descriptor pointer psffit, sp, outstr, date, time, comment bool itob() int envfind() begin # Get 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) call salloc (comment, SZ_LINE, TY_CHAR) Memc[comment] = EOS # 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 (nst, "IRAF", Memc[outstr], "version", Memc[comment]) if (envfind ("userid", Memc[outstr], SZ_LINE) > 0) call dp_sparam (nst, "USER", Memc[outstr], "name", Memc[comment]) call gethost (Memc[outstr], SZ_LINE) call dp_sparam (nst, "HOST", Memc[outstr], "computer", Memc[comment]) call dp_date (Memc[date], Memc[time], SZ_DATE) call dp_sparam (nst, "DATE", Memc[date], "yyyy-mm-dd", Memc[comment]) call dp_sparam (nst, "TIME", Memc[time], "hh:mm:ss", Memc[comment]) call dp_sparam (nst, "PACKAGE", "daophot", "name", Memc[comment]) call dp_sparam (nst, "TASK", "nstar", "name", Memc[comment]) # Write out the file names. call dp_imroot (DP_INIMAGE(dao), Memc[outstr], SZ_FNAME) call dp_sparam (nst, "IMAGE", Memc[outstr], "imagename", Memc[comment]) call dp_froot (DP_INPHOTFILE(dao), Memc[outstr], SZ_FNAME) call dp_sparam (nst, "GRPFILE", Memc[outstr], "filename", Memc[comment]) call dp_imroot (DP_PSFIMAGE(dao), Memc[outstr], SZ_FNAME) call dp_sparam (nst, "PSFIMAGE", Memc[outstr], "imagename", Memc[comment]) call dp_froot (DP_OUTPHOTFILE(dao), Memc[outstr], SZ_FNAME) call dp_sparam (nst, "NSTARFILE", Memc[outstr], "filename", Memc[comment]) if (DP_OUTREJFILE(dao) == EOS) call dp_sparam (nst, "REJFILE", "\"\"", "filename", Memc[comment]) else { call dp_froot (DP_OUTREJFILE(dao), Memc[outstr], SZ_FNAME) call dp_sparam (nst, "REJFILE", Memc[outstr], "filename", Memc[comment]) } # Write out the data dependent parameters. call dp_rparam (nst, "SCALE", DP_SCALE(dao), "units/pix", Memc[comment]) call dp_rparam (nst, "DATAMIN", DP_MINGDATA(dao), "counts", Memc[comment]) call dp_rparam (nst, "DATAMAX", DP_MAXGDATA(dao), "counts", Memc[comment]) call dp_rparam (nst, "GAIN", DP_PHOTADU(dao), "number", Memc[comment]) call dp_rparam (nst, "READNOISE", DP_READNOISE(dao), "electrons", Memc[comment]) # Write out the observing parameters. call dp_sparam (nst, "OTIME", DP_OTIME(dao), "timeunit", Memc[comment]) call dp_rparam (nst, "XAIRMASS", DP_XAIRMASS(dao), "number", Memc[comment]) call dp_sparam (nst, "IFILTER", DP_IFILTER(dao), "filter", Memc[comment]) # Write out the fitting parameters. call dp_bparam (nst, "RECENTER", itob (DP_RECENTER(dao)), "switch", Memc[comment]) call dp_bparam (nst, "FITSKY", itob (DP_FITSKY(dao)), "switch", Memc[comment]) call dp_bparam (nst, "GRPSKY", itob (DP_GROUPSKY(dao)), "switch", Memc[comment]) call dp_rparam (nst, "PSFMAG", DP_PSFMAG(psffit), "magnitude", Memc[comment]) call dp_rparam (nst, "PSFRAD", DP_SPSFRAD(dao), "scaleunit", Memc[comment]) call dp_rparam (nst, "FITRAD", DP_SFITRAD(dao), "scaleunit", Memc[comment]) call dp_iparam (nst, "MAXITER", DP_MAXITER(dao), "number", Memc[comment]) call dp_iparam (nst, "MAXGROUP", DP_MAXGROUP(dao), "number", Memc[comment]) call dp_rparam (nst, "FLATERROR", DP_FLATERR(dao), "percentage", Memc[comment]) call dp_rparam (nst, "PROFERROR", DP_PROFERR(dao), "percentage", Memc[comment]) call dp_iparam (nst, "CLIPEXP", DP_CLIPEXP(dao), "number", Memc[comment]) call dp_rparam (nst, "CLIPRANGE", DP_CLIPRANGE(dao), "sigma", Memc[comment]) call dp_rparam (nst, "MERGERAD", DP_SMERGERAD(dao), "scaleunit", Memc[comment]) call sfree(sp) end # DP_TNSTARPARS -- Add parameters to the header of the output NSTAR ST table. procedure dp_tnstarpars (dao, nst) pointer dao # pointer to the daophot structure pointer nst # pointer to the output photometry table pointer psffit, sp, outstr, date, time bool itob() int envfind() begin # Get 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 (nst, "IRAF", Memc[outstr]) if (envfind ("userid", Memc[outstr], SZ_LINE) > 0) call tbhadt (nst, "USER", Memc[outstr]) call gethost (Memc[outstr], SZ_LINE) call tbhadt (nst, "HOST", Memc[outstr]) call dp_date (Memc[date], Memc[time], SZ_DATE) call tbhadt (nst, "DATE", Memc[date]) call tbhadt (nst, "TIME", Memc[time]) call tbhadt (nst, "PACKAGE", "daophot") call tbhadt (nst, "TASK", "nstar") # Write out the file names. call dp_imroot (DP_INIMAGE(dao), Memc[outstr], SZ_FNAME) call tbhadt (nst, "IMAGE", Memc[outstr]) call dp_froot (DP_INPHOTFILE(dao), Memc[outstr], SZ_FNAME) call tbhadt (nst, "GRPFILE", Memc[outstr]) call dp_imroot (DP_PSFIMAGE(dao), Memc[outstr], SZ_FNAME) call tbhadt (nst, "PSFIMAGE", Memc[outstr]) call dp_froot (DP_OUTPHOTFILE(dao), Memc[outstr], SZ_FNAME) call tbhadt (nst, "NSTARFILE", Memc[outstr]) if (DP_OUTREJFILE(dao) == EOS) call tbhadt (nst, "REJFILE", "\"\"") else { call dp_froot (DP_OUTPHOTFILE(dao), Memc[outstr], SZ_FNAME) call tbhadt (nst, "REJFILE", Memc[outstr]) } # Write out the data dependent parameters. call tbhadr (nst, "SCALE", DP_SCALE(dao)) call tbhadr (nst, "DATAMIN", DP_MINGDATA(dao)) call tbhadr (nst, "DATAMAX", DP_MAXGDATA(dao)) call tbhadr (nst, "GAIN", DP_PHOTADU(dao)) call tbhadr (nst, "READNOISE", DP_READNOISE(dao)) # Write out the observing parameters. call tbhadt (nst, "OTIME", DP_OTIME(dao)) call tbhadr (nst, "XAIRMASS", DP_XAIRMASS(dao)) call tbhadt (nst, "IFILTER", DP_IFILTER(dao)) # Write out the fitting parameters. call tbhadb (nst, "RECENTER", itob (DP_RECENTER(dao))) call tbhadb (nst, "FITSKY", itob (DP_FITSKY(dao))) call tbhadb (nst, "GRPSKY", itob (DP_GROUPSKY(dao))) call tbhadr (nst, "PSFMAG", DP_PSFMAG(psffit)) call tbhadr (nst, "PSFRAD", DP_SPSFRAD(dao)) call tbhadr (nst, "FITRAD", DP_SFITRAD(dao)) call tbhadi (nst, "MAXITER", DP_MAXITER(dao)) call tbhadi (nst, "MAXGROUP", DP_MAXGROUP(dao)) call tbhadr (nst, "FLATERROR", DP_FLATERR(dao)) call tbhadr (nst, "PROFERROR", DP_PROFERR(dao)) call tbhadi (nst, "CLIPEXP", DP_CLIPEXP(dao)) call tbhadr (nst, "CLIPRANGE", DP_CLIPRANGE(dao)) call tbhadr (nst, "MERGERAD", DP_SMERGERAD(dao)) call sfree(sp) end # DP_TNTWRITE -- Write out the NSTAR results to an ST table. procedure dp_tntwrite (dao, im, nst, rej, niter, old_size, output_row, routput_row, colpoint) pointer dao # pointer to the daophot structure pointer im # the input image descriptor pointer nst # output photometry file descriptor int rej # output rejections file descriptor int niter # number of iterations int old_size # original size of group int output_row # output photometry file row number int routput_row # output rejections file row number pointer colpoint[ARB] # column pointer array int i, id, nkeep, nreject, pier, plen, iter pointer psffit, nstar, apsel, sp, perror real xcen, ycen, mag, errmag, sharp int dp_gnsterr() begin # Get some daophot pointers. nstar = DP_NSTAR(dao) apsel = DP_APSEL(dao) psffit = DP_PSFFIT(dao) # Fill in the INDEFS. nkeep = DP_NNUM(nstar) nreject = old_size - nkeep if (nreject > 0) { call amovkr (INDEFR, Memr[DP_APMAG(apsel)+nkeep], nreject) call amovkr (INDEFR, Memr[DP_APERR(apsel)+nkeep], nreject) call amovkr (INDEFR, Memr[DP_APCHI(apsel)+nkeep], nreject) } call smark (sp) call salloc (perror, SZ_FNAME, TY_CHAR) # Now write out the results. do i = 1, old_size { # Get the results. id = Memi[DP_APID (apsel)+i-1] xcen = Memr[DP_APXCEN (apsel)+i-1] ycen = Memr[DP_APYCEN (apsel)+i-1] if (IS_INDEFR(xcen) || IS_INDEFR(ycen)) next call dp_wout (dao, im, xcen, ycen, xcen, ycen, 1) mag = Memr[DP_APMAG(apsel)+i-1] errmag = Memr[DP_APERR(apsel)+i-1] if (! IS_INDEFR(mag)) { if (! IS_INDEFR(errmag)) errmag = 1.085736 * errmag / mag sharp = 1.4427 * Memr[DP_PSFPARS(psffit)] * Memr[DP_PSFPARS(psffit)+1] * Memr[DP_NNUMER(nstar)+i-1] / (mag * DP_PSFHEIGHT(psffit) * Memr[DP_NDENOM(nstar)+i-1]) if ((sharp < MIN_SHARP) || (sharp > MAX_SHARP)) sharp = INDEFR mag = DP_PSFMAG (psffit) - 2.5 * log10 (mag) } else sharp = INDEFR pier = Memi[DP_NIER(nstar)+i-1] if (pier == NSTERR_OK) iter = niter else iter = 0 plen = dp_gnsterr (pier, Memc[perror], SZ_FNAME) # Write the results to the standard output. if (DP_VERBOSE (dao) == YES) { call printf ( "\tID: %5d XCEN: %8.2f YCEN: %8.2f MAG: %8.2f\n") call pargi (id) call pargr (xcen) call pargr (ycen) call pargr (mag) } # Write the output row to the proper table. if ((rej != NULL) && (pier != NSTERR_OK)) { routput_row = routput_row + 1 call tbrpti (rej, colpoint[1], id, 1, routput_row) call tbrpti (rej, colpoint[2], DP_NGNUM(nstar), 1, routput_row) call tbrptr (rej, colpoint[3], xcen, 1, routput_row) call tbrptr (rej, colpoint[4], ycen, 1, routput_row) call tbrptr (rej, colpoint[5], mag, 1, routput_row) call tbrptr (rej, colpoint[6], errmag, 1, routput_row) call tbrptr (rej, colpoint[7], Memr[DP_APMSKY(apsel)+i-1], 1, routput_row) call tbrpti (rej, colpoint[8], iter, 1, routput_row) call tbrptr (rej, colpoint[9], sharp, 1, routput_row) call tbrptr (rej, colpoint[10], Memr[DP_APCHI(apsel)+i-1], 1, routput_row) call tbrpti (rej, colpoint[11], pier, 1, routput_row) call tbrptt (rej, colpoint[12], Memc[perror], plen, 1, routput_row) } else { output_row = output_row + 1 call tbrpti (nst, colpoint[1], id, 1, output_row) call tbrpti (nst, colpoint[2], DP_NGNUM(nstar), 1, output_row) call tbrptr (nst, colpoint[3], xcen, 1, output_row) call tbrptr (nst, colpoint[4], ycen, 1, output_row) call tbrptr (nst, colpoint[5], mag, 1, output_row) call tbrptr (nst, colpoint[6], errmag, 1, output_row) call tbrptr (nst, colpoint[7], Memr[DP_APMSKY(apsel)+i-1], 1, output_row) call tbrpti (nst, colpoint[8], iter, 1, output_row) call tbrptr (nst, colpoint[9], sharp, 1, output_row) call tbrptr (nst, colpoint[10], Memr[DP_APCHI(apsel)+i-1], 1, output_row) call tbrpti (nst, colpoint[11], pier, 1, output_row) call tbrptt (nst, colpoint[12], Memc[perror], plen, 1, output_row) } } call sfree (sp) end define NST_DATA1STR "%-9d%10t%-6d%16t%-10.3f%26t%-10.3f%36t%-12.3f%48t\ %-14.3f%62t%-15.7g%80t\\\n" define NST_DATA2STR "%12t%-6d%18t%-12.3f%30t%-12.3f%42t%-6d%48t%-13.13s%80t \n" # DP_XNTWRITE -- Write out the NSTAR results to a text file. procedure dp_xntwrite (dao, im, nst, rej, niter, old_size) pointer dao # pointer to the daophot structure pointer im # the input image descriptor int nst # the output photometry file descriptor int rej # the output rejections file descriptor int niter # the number of the iteration int old_size # old size of group int i, id, nkeep, nreject, pier, plen, iter pointer nstar, psffit, apsel, sp, perror real xcen, ycen, mag, errmag, sharp int dp_gnsterr() begin # Get some daophot pointers. nstar = DP_NSTAR(dao) psffit = DP_PSFFIT(dao) apsel = DP_APSEL(dao) # Fill in the results for the rejected stars with INDEFS. nkeep = DP_NNUM(nstar) nreject = old_size - nkeep if (nreject > 0) { call amovkr (INDEFR, Memr[DP_APMAG(apsel)+nkeep], nreject) call amovkr (INDEFR, Memr[DP_APERR(apsel)+nkeep], nreject) call amovkr (INDEFR, Memr[DP_APCHI(apsel)+nkeep], nreject) } call smark (sp) call salloc (perror, SZ_FNAME, TY_CHAR) # Now write out the results. do i = 1, old_size { # Get the results. id = Memi[DP_APID (apsel)+i-1] xcen = Memr[DP_APXCEN (apsel)+i-1] ycen = Memr[DP_APYCEN (apsel)+i-1] if (IS_INDEFR(xcen) || IS_INDEFR(ycen)) next call dp_wout (dao, im, xcen, ycen, xcen, ycen, 1) mag = Memr[DP_APMAG(apsel)+i-1] errmag = Memr[DP_APERR(apsel)+i-1] if (! IS_INDEFR(mag)) { if (! IS_INDEFR(errmag)) errmag = 1.085736 * errmag / mag sharp = 1.4427 * Memr[DP_PSFPARS(psffit)] * Memr[DP_PSFPARS(psffit)+1] * Memr[DP_NNUMER(nstar)+i-1] / (mag * DP_PSFHEIGHT(psffit) * Memr[DP_NDENOM(nstar)+i-1]) if ((sharp < MIN_SHARP) || (sharp > MAX_SHARP)) sharp = INDEFR mag = DP_PSFMAG (psffit) - 2.5 * log10 (mag) } else sharp = INDEFR pier = Memi[DP_NIER(nstar)+i-1] if (pier == NSTERR_OK) iter = niter else iter = 0 plen = dp_gnsterr (pier, Memc[perror], SZ_FNAME) # Write the results to the standard output. if (DP_VERBOSE (dao) == YES) { call printf ( "\tID: %5d XCEN: %8.2f YCEN: %8.2f MAG: %8.2f\n") call pargi (id) call pargr (xcen) call pargr (ycen) call pargr (mag) } # Write the results to the output file. if ((rej != NULL) && (pier != NSTERR_OK)) { call fprintf (rej, NST_DATA1STR) call pargi (id) call pargi (DP_NGNUM(nstar)) call pargr (xcen) call pargr (ycen) call pargr (mag) call pargr (errmag) call pargr (Memr[DP_APMSKY(apsel)+i-1]) call fprintf (rej, NST_DATA2STR) call pargi (iter) call pargr (sharp) call pargr (Memr[DP_APCHI(apsel)+i-1]) call pargi (pier) call pargstr (Memc[perror]) } else { call fprintf (nst, NST_DATA1STR) call pargi (id) call pargi (DP_NGNUM(nstar)) call pargr (xcen) call pargr (ycen) call pargr (mag) call pargr (errmag) call pargr (Memr[DP_APMSKY(apsel)+i-1]) call fprintf (nst, NST_DATA2STR) call pargi (iter) call pargr (sharp) call pargr (Memr[DP_APCHI(apsel)+i-1]) call pargi (pier) call pargstr (Memc[perror]) } } call sfree (sp) end # DP_GNSTERR -- Set the NSTAR task error code string. int procedure dp_gnsterr (ier, perror, maxch) int ier # the integer error code char perror # the output error code string int maxch # the maximum size of the error code string int plen int gstrcpy() begin switch (ier) { case NSTERR_OK: plen = gstrcpy ("No_error", perror, maxch) case NSTERR_BIGGROUP: plen = gstrcpy ("Big_group", perror, maxch) case NSTERR_INDEFSKY: plen = gstrcpy ("Bad_sky", perror, maxch) case NSTERR_NOPIX: plen = gstrcpy ("Npix_too_few", perror, maxch) case NSTERR_SINGULAR: plen = gstrcpy ("Singular", perror, maxch) case NSTERR_FAINT: plen = gstrcpy ("Too_faint", perror, maxch) case NSTERR_MERGE: plen = gstrcpy ("Merged", perror, maxch) case NSTERR_OFFIMAGE: plen = gstrcpy ("Off_image", perror, maxch) default: plen = gstrcpy ("No_error", perror, maxch) } return (plen) end