# DAOPHOT header file # DAOPHOT PSF function types define FCTN_FTYPES "|gauss|lorentz|moffat15|moffat25|penny1|penny2|auto|" define FCTN_GAUSS 1 define FCTN_LORENTZ 2 define FCTN_MOFFAT15 3 define FCTN_MOFFAT25 4 define FCTN_PENNY1 5 define FCTN_PENNY2 6 define FCTN_AUTO 7 define FCTN_NFTYPES 6 # WCS types define WCS_LOGICAL 1 define WCS_TV 2 define WCS_PHYSICAL 3 define WCS_WORLD 4 define WCSINSTR "|logical|tv|physical|world|" define WCSOUTSTR "|logical|tv|physical|" define WCSPSFSTR "|logical|tv|physical|" # DAOPHOT parameters (# 1 - 100) # wcs parameters define MW 1 # mwcs pointer define WCSIN 2 # input wcs type define WCSOUT 3 # output wcs type define WCSPSF 4 # psf wcs type define CTIN 5 # input transform define CTOUT 6 # output transform define CTPSF 7 # psf transform # data dependent parameters define SFWHMPSF 8 # full-width at half-max of the psf (scale) define FWHMPSF 9 # full-width at half-max of the psf (pixels) define MAXGDATA 10 # maximum good data value (ADU) define MINGDATA 11 # minimum good data value (ADU) define PHOTADU 12 # gain (e- / ADU) define READNOISE 13 # readout noise (e-) define SCALE 14 # scale of the imge # keyword parameters define CCDGAIN 15 # gain image header keyword define CCDREAD 16 # readnoise image header keyword define EXPTIME 17 # exposure time image header keyword define FILTER 18 # filter image header keyword define OBSTIME 19 # observing time image header keyword define AIRMASS 20 # airmass image header keyword # observing parameters define XAIRMASS 21 # value of the airmass define IFILTER 22 # filter id define ITIME 23 # integration time define OTIME 24 # time of observation # psf fitting parameters define FUNCTION 25 # psf function analytic function define VARORDER 26 # order of psf variability (0, 1, or 2) define FEXPAND 27 # fraction pixel interpolation (yes or no) define SATURATED 28 # use saturated psf stars ? define NCLEAN 29 # the number of psf clean passes define FUNCLIST 30 # user function list define RPSFRAD 31 # requested psf radius (scale) define SPSFRAD 32 # psf radius (scale) define PSFRAD 33 # psf radius (pixels) define SMATCHRAD 34 # matching radius (scale) define MATCHRAD 35 # matching radius (pixels) # star fitting parameters define SFITRAD 36 # fitting radius (scale) define FITRAD 37 # fitting radius (pixels) define SANNULUS 38 # inner sky radius (scale) define ANNULUS 39 # inner sky radius (pixels) define SDANNULUS 40 # width of sky annulus (scale) define DANNULUS 41 # width of sky annulus (pixels) define SMERGERAD 42 # merging radius (scale) define MERGERAD 43 # merging radius (pixels) define CRITSNRATIO 44 # critical S/N overlap define MAXNSTAR 45 # maximum number of stars to fit define MAXGROUP 46 # maximum number of stars in group define MAXITER 47 # maximum number of iterations define RECENTER 48 # recenter ? define FITSKY 49 # refit the group sky ? define GROUPSKY 50 # use group or individual sky values define FLATERR 51 # the flat field error define PROFERR 52 # the profile or interpolation error define CLIPRANGE 53 # clipping range define CLIPEXP 54 # clipping exponent # file/image name and input/output parameters define TEXT 55 # text file define VERBOSE 56 # verbose mode define INIMAGE 57 # input image name define INPHOTFILE 58 # input photometry file define PSFIMAGE 59 # psf image name define COORDS 60 # input coordinate file define OUTPHOTFILE 61 # output photometry file define OUTIMAGE 62 # output image name define OUTREJFILE 63 # output rejected photometry file define MEMFUDGE 1.05 # DAOPHOT structure definitions define LEN_DPSTRUCT (70 + 17 * SZ_FNAME + 17) # sub-structure pointers define DP_VERSION Memi[$1] # package version number define DP_ADDSTAR Memi[$1+1] # pointer to addstar structure define DP_ALLSTAR Memi[$1+2] # pointer to allstar structure (used) define DP_APSEL Memi[$1+3] # pointer to phot structure (used) define DP_GROUP Memi[$1+4] # pointer to group structure define DP_NSTAR Memi[$1+5] # pointer to nstar structure (used) define DP_PEAK Memi[$1+6] # pointer to the peak structure define DP_PSF Memi[$1+7] # pointer to psf structure (used) define DP_PSFFIT Memi[$1+8] # pointer to psffit structure (used) define DP_SUBSTAR Memi[$1+9] # pointer to substar structure # the wcs parameters define DP_WCSIN Memi[$1+10] # the input wcs define DP_WCSOUT Memi[$1+11] # the output wcs define DP_WCSPSF Memi[$1+12] # the psf wcs define DP_MW Memi[$1+13] # pointer to mwcs structure define DP_CTIN Memi[$1+14] # the input transformation pointer define DP_CTOUT Memi[$1+15] # the output transformation pointer define DP_CTPSF Memi[$1+16] # the psf transformation pointer # parameters define DP_VARORDER Memi[$1+17] # order of psf variability define DP_FEXPAND Memi[$1+18] # expand the analytic function ? define DP_SATURATED Memi[$1+19] # use saturated psf stars ? define DP_NCLEAN Memi[$1+20] # number of psf cleaning passes define DP_MAXNSTAR Memi[$1+21] # maximum number of stars define DP_MAXGROUP Memi[$1+22] # maximum group size define DP_MAXITER Memi[$1+23] # maximum number of iterations define DP_RECENTER Memi[$1+24] # recenter ? define DP_FITSKY Memi[$1+25] # fit the sky ? define DP_GROUPSKY Memi[$1+26] # use the group sky value ? define DP_CLIPEXP Memi[$1+27] # clip exponent define DP_TEXT Memi[$1+28] # text file or table input/output ? define DP_VERBOSE Memi[$1+29] # verbose mode ? define DP_SCALE Memr[P2R($1+30)] # image scale in units/pixel define DP_SFWHMPSF Memr[P2R($1+31)] # fwhm of the psf (scale) define DP_FWHMPSF Memr[P2R($1+32)] # fwhm of the psf (pixels) define DP_MAXGDATA Memr[P2R($1+33)] # maximum good data value (ADU) define DP_MINGDATA Memr[P2R($1+34)] # minimum good data value (ADU) define DP_PHOTADU Memr[P2R($1+35)] # gain in electrons/ADU define DP_READNOISE Memr[P2R($1+36)] # readout noise (electrons) define DP_XAIRMASS Memr[P2R($1+37)] # value of the airmass define DP_ITIME Memr[P2R($1+38)] # value of the exposure time define DP_SMATCHRAD Memr[P2R($1+39)] # matching radius (scale) define DP_MATCHRAD Memr[P2R($1+40)] # matching radius (pixels) define DP_RPSFRAD Memr[P2R($1+41)] # requested psf radius (scale) define DP_SPSFRAD Memr[P2R($1+42)] # actual psf radius (scale) define DP_PSFRAD Memr[P2R($1+43)] # actual psf radius (pixels) define DP_SFITRAD Memr[P2R($1+44)] # fitting radius (scale) define DP_FITRAD Memr[P2R($1+45)] # fitting radius (pixels) define DP_SANNULUS Memr[P2R($1+46)] # inner sky radius (scale) define DP_ANNULUS Memr[P2R($1+47)] # inner sky radius (pixels) define DP_SDANNULUS Memr[P2R($1+48)] # width of sky annulus (scale) define DP_DANNULUS Memr[P2R($1+49)] # width of sky annulus (pixels) define DP_CRITSNRATIO Memr[P2R($1+50)] # critical S/N overlap define DP_FLATERR Memr[P2R($1+51)] # percent flat field error define DP_PROFERR Memr[P2R($1+52)] # percent profile error define DP_CLIPRANGE Memr[P2R($1+53)] # clipping range define DP_SMERGERAD Memr[P2R($1+54)] # merging radius (scale) define DP_MERGERAD Memr[P2R($1+55)] # merging radius (pixels) # temporary variables, not yet used #define DP_FITRADSQ Memr[P2R($1+56)] # fit radius squared (pixels) #define DP_PSFRADSQ Memr[P2R($1+57)] # psf radius squared (pixels) #define DP_RNOISESQ Memr[P2R($1+58)] # read noise squared (ADU) #define DP_PERR Memr[P2R($1+59)] # percentage error #define DP_PKERR Memr[P2R($1+60)] # peak error #define DP_TMAXGDATA Memr[P2R($1+61)] # true data max #define DP_TMINGDATA Memr[P2R($1+62)] # true data min # file / image names define DP_INIMAGE Memc[P2C($1+64)] # input image name define DP_PSFIMAGE Memc[P2C($1+64+SZ_FNAME+1)] # psf image name define DP_INPHOTFILE Memc[P2C($1+64+2*SZ_FNAME+2)] # input photometry file define DP_COORDS Memc[P2C($1+64+3*SZ_FNAME+3)] # input coordinate file define DP_OUTIMAGE Memc[P2C($1+64+4*SZ_FNAME+4)] # output image name define DP_OUTPHOTFILE Memc[P2C($1+64+5*SZ_FNAME+5)] # output photometry file define DP_OUTREJFILE Memc[P2C($1+64+6*SZ_FNAME+6)] # output photometry file # keyword / parameter names define DP_IFILTER Memc[P2C($1+64+7*SZ_FNAME+7)] # filter id define DP_OTIME Memc[P2C($1+64+8*SZ_FNAME+8)] # time of observation define DP_CCDGAIN Memc[P2C($1+64+9*SZ_FNAME+9)] # gain keyword define DP_CCDREAD Memc[P2C($1+64+10*SZ_FNAME+10)] # readnoise keyword define DP_EXPTIME Memc[P2C($1+64+11*SZ_FNAME+11)] # exposure keyword define DP_FILTER Memc[P2C($1+64+12*SZ_FNAME+12)] # filter keyword define DP_OBSTIME Memc[P2C($1+64+13*SZ_FNAME+13)] # obstime keyword define DP_AIRMASS Memc[P2C($1+64+14*SZ_FNAME+14)] # airmass keyword define DP_FUNCTION Memc[P2C($1+64+15*SZ_FNAME+15)] # analytic psf function define DP_FUNCLIST Memc[P2C($1+64+16*SZ_FNAME+16)] # psf function list # PSF Fit Parameters define LEN_PSFFIT (20) define DP_PSFUNCTION Memi[$1] # PSF type define DP_PSFNPARS Memi[$1+1] # number of psf parameters define DP_PSFSIZE Memi[$1+2] # size of PSF lut define DP_PSFPARS Memi[$1+3] # pointer to the PSF parameters define DP_PSFLUT Memi[$1+4] # pointer to the PSF lookup table define DP_NVLTABLE Memi[$1+5] # number of variability luts define DP_NFEXTABLE Memi[$1+6] # number of PSF expansion luts define DP_PSFHEIGHT Memr[P2R($1+7)] # brightness of psf define DP_PSFMAG Memr[P2R($1+8)] # magnitude of the PSF define DP_PSFX Memr[P2R($1+9)] # x position of the PSF define DP_PSFY Memr[P2R($1+10)]# y position of the PSF define MAX_NFCTNPARS (6) # max number of pars in psf function define MAX_NEXPTERMS (11) # max number of expansion terms # default daophot parameter values define DEF_SCALE 1.0 define DEF_FWHMPSF 2.5 define DEF_PSFRAD 11.0 define DEF_FITRAD 2.5 define DEF_ANNULUS 10.0 define DEF_DANNULUS 10.0 define DEF_MAXNSTAR 5000 define DEF_MAXGROUP 60 define DEF_MAXITER 50 define DEF_DEFNAME "default" define DEF_LENDEFNAME 7 # some useful macros define DAO_GOODDATA ($2>DP_MINGDATA($1)&&$2