/* * param.h * * List of regular measurement parameters. * *%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% * * This file part of: SExtractor * * Copyright: (C) 1993-2011 Emmanuel Bertin -- IAP/CNRS/UPMC * * License: GNU General Public License * * SExtractor is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * SExtractor is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * You should have received a copy of the GNU General Public License * along with SExtractor. If not, see . * * Last modified: 12/01/2011 * *%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/ objstruct outobj; obj2struct outobj2; /*--------------------------------- initialization --------------------------*/ keystruct objkey[] = { {"NUMBER", "Running object number", &outobj.number, H_INT, T_LONG, "%10d", "", "meta.record", ""}, {"EXT_NUMBER", "FITS extension number", &outobj2.ext_number, H_INT, T_SHORT, "%3d", "", "meta.id;meta.dataset", ""}, {"FLUX_ISO", "Isophotal flux", &outobj2.flux_iso, H_FLOAT, T_FLOAT, "%12.7g", "count", "phot.flux", "ct"}, {"FLUXERR_ISO", "RMS error for isophotal flux", &outobj2.fluxerr_iso, H_FLOAT, T_FLOAT, "%12.7g", "count", "stat.stdev;phot.flux", "ct"}, {"MAG_ISO", "Isophotal magnitude", &outobj2.mag_iso, H_FLOAT, T_FLOAT, "%8.4f", "mag", "phot.mag", "mag"}, {"MAGERR_ISO", "RMS error for isophotal magnitude", &outobj2.magerr_iso, H_FLOAT, T_FLOAT, "%8.4f", "mag", "stat.stdev;phot.mag", "mag"}, {"FLUX_ISOCOR", "Corrected isophotal flux", &outobj2.flux_isocor, H_FLOAT, T_FLOAT, "%12.7g", "count", "phot.flux", "ct"}, {"FLUXERR_ISOCOR", "RMS error for corrected isophotal flux", &outobj2.fluxerr_isocor, H_FLOAT, T_FLOAT, "%12.7g", "count", "stat.stdev;phot.flux", "ct"}, {"MAG_ISOCOR", "Corrected isophotal magnitude", &outobj2.mag_isocor, H_FLOAT, T_FLOAT, "%8.4f", "mag", "phot.mag", "mag"}, {"MAGERR_ISOCOR", "RMS error for corrected isophotal magnitude", &outobj2.magerr_isocor, H_FLOAT, T_FLOAT, "%8.4f", "mag", "stat.stdev;phot.mag", "mag"}, {"FLUX_APER", "Flux vector within fixed circular aperture(s)", &outobj2.flux_aper, H_FLOAT, T_FLOAT, "%12.7g", "count", "phot.flux", "ct", 1, &prefs.flux_apersize}, {"FLUXERR_APER", "RMS error vector for aperture flux(es)", &outobj2.fluxerr_aper, H_FLOAT, T_FLOAT, "%12.7g", "count", "stat.stdev;phot.flux", "ct", 1, &prefs.fluxerr_apersize}, {"MAG_APER", "Fixed aperture magnitude vector", &outobj2.mag_aper, H_FLOAT, T_FLOAT, "%8.4f", "mag", "phot.mag", "mag", 1, &prefs.mag_apersize}, {"MAGERR_APER", "RMS error vector for fixed aperture mag.", &outobj2.magerr_aper, H_FLOAT, T_FLOAT, "%8.4f", "mag", "stat.stdev;phot.mag", "mag", 1, &prefs.magerr_apersize}, {"FLUX_AUTO", "Flux within a Kron-like elliptical aperture", &outobj2.flux_auto, H_FLOAT, T_FLOAT, "%12.7g", "count", "phot.flux;meta.main", "ct"}, {"FLUXERR_AUTO", "RMS error for AUTO flux", &outobj2.fluxerr_auto, H_FLOAT, T_FLOAT, "%12.7g", "count", "stat.stdev;phot.flux;meta.main", "ct"}, {"MAG_AUTO", "Kron-like elliptical aperture magnitude", &outobj2.mag_auto, H_FLOAT, T_FLOAT, "%8.4f", "mag", "phot.mag;meta.main", "mag"}, {"MAGERR_AUTO", "RMS error for AUTO magnitude", &outobj2.magerr_auto, H_FLOAT, T_FLOAT, "%8.4f", "mag", "stat.stdev;phot.mag;meta.main", "mag"}, {"FLUX_PETRO", "Flux within a Petrosian-like elliptical aperture", &outobj2.flux_petro, H_FLOAT, T_FLOAT, "%12.7g", "count", "phot.flux", "ct"}, {"FLUXERR_PETRO", "RMS error for PETROsian flux", &outobj2.fluxerr_petro, H_FLOAT, T_FLOAT, "%12.7g", "count", "stat.stdev;phot.flux", "ct"}, {"MAG_PETRO", "Petrosian-like elliptical aperture magnitude", &outobj2.mag_petro, H_FLOAT, T_FLOAT, "%8.4f", "mag", "phot.mag", "mag"}, {"MAGERR_PETRO", "RMS error for PETROsian magnitude", &outobj2.magerr_petro, H_FLOAT, T_FLOAT, "%8.4f", "mag", "stat.stdev;phot.mag", "mag"}, {"FLUX_BEST", "Best of FLUX_AUTO and FLUX_ISOCOR", &outobj2.flux_best, H_FLOAT, T_FLOAT, "%12.7g", "count", "phot.flux", "ct"}, {"FLUXERR_BEST", "RMS error for BEST flux", &outobj2.fluxerr_best, H_FLOAT, T_FLOAT, "%12.7g", "count", "stat.stdev;phot.flux", "ct"}, {"MAG_BEST", "Best of MAG_AUTO and MAG_ISOCOR", &outobj2.mag_best, H_FLOAT, T_FLOAT, "%8.4f", "mag", "phot.mag", "mag"}, {"MAGERR_BEST", "RMS error for MAG_BEST", &outobj2.magerr_best, H_FLOAT, T_FLOAT, "%8.4f", "mag", "stat.stdev;phot.mag", "mag"}, {"FLUX_WIN", "Gaussian-weighted flux", &outobj2.flux_win, H_FLOAT, T_FLOAT, "%12.7g", "count", "phot.flux", "ct"}, {"FLUXERR_WIN", "RMS error for WIN flux", &outobj2.fluxerr_win, H_FLOAT, T_FLOAT, "%12.7g", "count", "stat.stdev;phot.flux", "ct"}, {"MAG_WIN", "Gaussian-weighted magnitude", &outobj2.mag_win, H_FLOAT, T_FLOAT, "%8.4f", "mag", "phot.mag", "mag"}, {"MAGERR_WIN", "RMS error for MAG_WIN", &outobj2.magerr_win, H_FLOAT, T_FLOAT, "%8.4f", "mag", "stat.stdev;phot.mag", "mag"}, {"FLUX_SOMFIT", "Flux derived from SOM fit", &outobj2.flux_somfit, H_FLOAT, T_FLOAT, "%12.7g", "count", "phot.flux", "ct"}, {"FLUXERR_SOMFIT", "RMS error for SOMFIT flux", &outobj2.fluxerr_somfit, H_FLOAT, T_FLOAT, "%12.7g", "count", "stat.stdev;phot.flux", "ct"}, {"MAG_SOMFIT", "Magnitude derived from SOM fit", &outobj2.mag_somfit, H_FLOAT, T_FLOAT, "%8.4f", "mag", "phot.mag", "mag"}, {"MAGERR_SOMFIT", "Magnitude error derived from SOM fit", &outobj2.magerr_somfit, H_FLOAT, T_FLOAT, "%8.4f", "mag", "stat.stdev;phot.mag", "mag"}, {"ERROR_SOMFIT", "Reduced Chi-square error of the SOM fit", &outobj2.stderr_somfit, H_FLOAT, T_FLOAT, "%10.4g", "", "stat.fit.chi2", ""}, {"VECTOR_SOMFIT", "Position vector of the winning SOM node", &outobj2.vector_somfit, H_FLOAT, T_FLOAT, "%5.2f", "", "src.morph.param", "", 1, &prefs.somfit_vectorsize}, /* The following would use Principal Component fitting. This has been obsoleted by bona fide model fitting. {"FLUX_GALFIT", "Flux derived from the galaxy fit", &outobj2.flux_galfit, H_FLOAT, T_FLOAT, "%12.7g", "count", "phot.flux;stat.fit.param", "ct"}, {"FLUXERR_GALFIT", "RMS error for GALFIT flux", &outobj2.fluxerr_galfit, H_FLOAT, T_FLOAT, "%12.7g", "count"}, {"MAG_GALFIT", "Magnitude derived from galaxy fit", &outobj2.mag_galfit, H_FLOAT, T_FLOAT, "%8.4f", "mag", "phot.mag;stat.fit.param", "mag"}, {"MAGERR_GALFIT", "Magnitude error derived from galaxy fit", &outobj2.magerr_galfit, H_FLOAT, T_FLOAT, "%8.4f", "mag"}, {"ERROR_GALFIT", "Reduced Chi-square error of the galaxy fit", &outobj2.stderr_galfit, H_FLOAT, T_FLOAT, "%10g", ""}, {"GALDANG_IMAGE", "Galaxy disk position angle from the galaxy fit", &outobj2.gdposang, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;stat.fit.param", "deg"}, {"GALDSCALE_IMAGE", "Galaxy disk-scale from the galaxy fit", &outobj2.gdscale, H_FLOAT, T_FLOAT, "%9.3f", "pixel", "src.morph.scLength;stat.fit.param", "pix"}, {"GALDASPEC_IMAGE", "Galaxy disk aspect ratio from the galaxy fit", &outobj2.gdaspect, H_FLOAT, T_FLOAT, "%5.3f", "", "phys.size.axisRatio;stat.fit.param", ""}, {"GALDE1_IMAGE", "Galaxy disk ellipticity #1 from the galaxy fit", &outobj2.gde1, H_FLOAT, T_FLOAT, "%6.4f", "", "src.ellipticity", ""}, {"GALDE2_IMAGE", "Galaxy disk ellipticity #2 from the galaxy fit", &outobj2.gde2, H_FLOAT, T_FLOAT, "%6.4f", "", "src.ellipticity", ""}, {"GALBRATIO_IMAGE", "Galaxy bulge ratio from the galaxy fit", &outobj2.gbratio, H_FLOAT, T_FLOAT, "%5.3f", "", "src.morph.param;stat.fit.param", ""}, {"GALBANG_IMAGE", "Galaxy bulge position angle from the galaxy fit", &outobj2.gbposang, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;stat.fit.param", "deg"}, {"GALBSCALE_IMAGE", "Galaxy bulge-scale from the galaxy fit", &outobj2.gbscale, H_FLOAT, T_FLOAT, "%9.3f", "pixel", "src.morph.scLength;stat.fit.param", "pix"}, {"GALBASPEC_IMAGE", "Galaxy bulge aspect ratio from the galaxy fit", &outobj2.gbaspect, H_FLOAT, T_FLOAT, "%5.3f", "", "phys.size.axisRatio;stat.fit.param", ""}, */ {"KRON_RADIUS", "Kron apertures in units of A or B", &outobj2.kronfactor, H_FLOAT, T_FLOAT, "%5.2f", "", "arith.factor;arith.ratio", ""}, {"PETRO_RADIUS", "Petrosian apertures in units of A or B", &outobj2.petrofactor, H_FLOAT, T_FLOAT, "%5.2f", "", "arith.factor;arith.ratio", ""}, {"BACKGROUND", "Background at centroid position", &outobj.bkg, H_FLOAT, T_FLOAT, "%12.7g", "count", "instr.skyLevel", "ct"}, {"THRESHOLD", "Detection threshold above background", &outobj.dthresh, H_FLOAT, T_FLOAT, "%12.7g", "count", "instr.sensitivity;phot.flux.sb", "ct"}, {"FLUX_MAX", "Peak flux above background", &outobj.peak, H_FLOAT, T_FLOAT, "%12.7g", "count", "phot.flux.sb;stat.max", "ct"}, {"ISOAREA_IMAGE", "Isophotal area above Analysis threshold", &outobj.npix, H_INT, T_LONG, "%9d", "pixel**2", "phys.area", "pix2"}, {"ISOAREAF_IMAGE", "Isophotal area (filtered) above Detection threshold", &outobj.fdnpix, H_INT, T_LONG, "%9d", "pixel**2", "phys.area", "pix2"}, {"XMIN_IMAGE", "Minimum x-coordinate among detected pixels", &outobj.xmin, H_INT, T_LONG, "%10d", "pixel", "pos.cartesian.x;stat.min", "pix"}, {"YMIN_IMAGE", "Minimum y-coordinate among detected pixels", &outobj.ymin, H_INT, T_LONG, "%10d", "pixel", "pos.cartesian.y;stat.min", "pix"}, {"XMAX_IMAGE", "Maximum x-coordinate among detected pixels", &outobj.xmax, H_INT, T_LONG, "%10d", "pixel", "pos.cartesian.x;stat.max", "pix"}, {"YMAX_IMAGE", "Maximum y-coordinate among detected pixels", &outobj.ymax, H_INT, T_LONG, "%10d", "pixel", "pos.cartesian.y;stat.max", "pix"}, {"XPEAK_IMAGE", "x-coordinate of the brightest pixel", &outobj.peakx, H_INT, T_LONG, "%10d", "pixel", "pos.cartesian.x", "pix"}, {"YPEAK_IMAGE", "y-coordinate of the brightest pixel", &outobj.peaky, H_INT, T_LONG, "%10d", "pixel", "pos.cartesian.y", "pix"}, {"XPEAK_FOCAL", "Focal-plane x coordinate of the brightest pixel", &outobj2.peakxf, H_FLOAT, T_DOUBLE, "%18.10e", "", "pos.cartesian.x", ""}, {"YPEAK_FOCAL", "Focal-plane y coordinate of the brightest pixel", &outobj2.peakyf, H_FLOAT, T_DOUBLE, "%18.10e", "", "pos.cartesian.y", ""}, {"XPEAK_WORLD", "World-x coordinate of the brightest pixel", &outobj2.peakxw, H_FLOAT, T_DOUBLE, "%18.10e", "deg", "pos.eq.ra", "deg"}, {"YPEAK_WORLD", "World-y coordinate of the brightest pixel", &outobj2.peakyw, H_FLOAT, T_DOUBLE, "%18.10e", "deg", "pos.eq.dec", "deg"}, {"ALPHAPEAK_SKY", "Right ascension of brightest pix (native)", &outobj2.peakalphas, H_FLOAT, T_DOUBLE, "%11.7f", "deg", "pos.eq.ra", "deg"}, {"DELTAPEAK_SKY", "Declination of brightest pix (native)", &outobj2.peakdeltas, H_FLOAT, T_DOUBLE, "%+11.7f", "deg", "pos.eq.dec", "deg"}, {"ALPHAPEAK_J2000", "Right ascension of brightest pix (J2000)", &outobj2.peakalpha2000, H_FLOAT, T_DOUBLE, "%11.7f", "deg", "pos.eq.ra", "deg"}, {"DELTAPEAK_J2000", "Declination of brightest pix (J2000)", &outobj2.peakdelta2000, H_FLOAT, T_DOUBLE, "%+11.7f", "deg", "pos.eq.dec", "deg"}, {"ALPHAPEAK_B1950", "Right ascension of brightest pix (B1950)", &outobj2.peakalpha1950, H_FLOAT, T_DOUBLE, "%11.7f", "deg", "pos.eq.ra", "deg"}, {"DELTAPEAK_B1950", "Declination of brightest pix (B1950)", &outobj2.peakdelta1950, H_FLOAT, T_DOUBLE, "%+11.7f", "deg", "pos.eq.dec", "deg"}, {"X_IMAGE", "Object position along x", &outobj2.sposx, H_FLOAT, T_FLOAT, "%10.3f", "pixel", "pos.cartesian.x;pos.barycenter;instr.det;meta.main", "pix"}, {"Y_IMAGE", "Object position along y", &outobj2.sposy, H_FLOAT, T_FLOAT, "%10.3f", "pixel", "pos.cartesian.y;pos.barycenter;instr.det;meta.main", "pix"}, {"X_IMAGE_DBL", "Object position along x (double precision)", &outobj2.posx, H_FLOAT, T_DOUBLE, "%10.3f", "pixel", "pos.cartesian.x;pos.barycenter;instr.det", "pix"}, {"Y_IMAGE_DBL", "Object position along y (double precision)", &outobj2.posy, H_FLOAT, T_DOUBLE, "%10.3f", "pixel", "pos.cartesian.x;pos.barycenter;instr.det", "pix"}, {"X_FOCAL", "Barycenter position along focal-plane x axis", &outobj2.mxf, H_FLOAT, T_DOUBLE, "%18.10e", "", "pos.cartesian.x", ""}, {"Y_FOCAL", "Barycenter position along focal-plane y axis", &outobj2.myf, H_FLOAT, T_DOUBLE, "%18.10e", "", "pos.cartesian.y", ""}, {"X_WORLD", "Barycenter position along world x axis", &outobj2.mxw, H_FLOAT, T_DOUBLE, "%18.10e", "deg", "pos.eq.ra", "deg"}, {"Y_WORLD", "Barycenter position along world y axis", &outobj2.myw, H_FLOAT, T_DOUBLE, "%18.10e", "deg", "pos.eq.dec", "deg"}, {"X_MAMA", "Barycenter position along MAMA x axis", &outobj2.mamaposx, H_FLOAT, T_DOUBLE, "%8.1f", "m**(-6)", "pos.cartesian.x;instr.det;pos.barycenter", "um"}, {"Y_MAMA", "Barycenter position along MAMA y axis", &outobj2.mamaposy, H_FLOAT, T_DOUBLE, "%8.1f", "m**(-6)", "pos.cartesian.y;instr.det;pos.barycenter", "um"}, {"ALPHA_SKY", "Right ascension of barycenter (native)", &outobj2.alphas, H_FLOAT, T_DOUBLE, "%11.7f", "deg", "pos.eq.ra;pos.barycenter", "deg"}, {"DELTA_SKY", "Declination of barycenter (native)", &outobj2.deltas, H_FLOAT, T_DOUBLE, "%+11.7f", "deg", "pos.eq.dec;pos.barycenter", "deg"}, {"ALPHA_J2000", "Right ascension of barycenter (J2000)", &outobj2.alpha2000, H_FLOAT, T_DOUBLE, "%11.7f", "deg", "pos.eq.ra;pos.barycenter;meta.main", "deg"}, {"DELTA_J2000", "Declination of barycenter (J2000)", &outobj2.delta2000, H_FLOAT, T_DOUBLE, "%+11.7f", "deg", "pos.eq.dec;pos.barycenter;meta.main", "deg"}, {"ALPHA_B1950", "Right ascension of barycenter (B1950)", &outobj2.alpha1950, H_FLOAT, T_DOUBLE, "%11.7f", "deg", "pos.eq.ra;pos.barycenter", "deg"}, {"DELTA_B1950", "Declination of barycenter (B1950)", &outobj2.delta1950, H_FLOAT, T_DOUBLE, "%+11.7f", "deg", "pos.eq.dec;pos.barycenter", "deg"}, {"X2_IMAGE", "Variance along x", &outobj.mx2, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "src.impactParam;instr.det", "pix2"}, {"Y2_IMAGE", "Variance along y", &outobj.my2, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "src.impactParam;instr.det", "pix2"}, {"XY_IMAGE", "Covariance between x and y", &outobj.mxy, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "src.impactParam;instr.det", "pix2"}, {"X2_WORLD", "Variance along X-WORLD (alpha)", &outobj2.mx2w, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "src.impactParam", "deg2"}, {"Y2_WORLD", "Variance along Y-WORLD (delta)", &outobj2.my2w, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "src.impactParam", "deg2"}, {"XY_WORLD", "Covariance between X-WORLD and Y-WORLD", &outobj2.mxyw, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "src.impactParam", "deg2"}, {"CXX_IMAGE", "Cxx object ellipse parameter", &outobj.cxx, H_EXPO, T_FLOAT, "%15.7e", "pixel**(-2)", "src.impactParam;instr.det", "pix-2"}, {"CYY_IMAGE", "Cyy object ellipse parameter", &outobj.cyy, H_EXPO, T_FLOAT, "%15.7e", "pixel**(-2)", "src.impactParam;instr.det", "pix-2"}, {"CXY_IMAGE", "Cxy object ellipse parameter", &outobj.cxy, H_EXPO, T_FLOAT, "%15.7e", "pixel**(-2)", "src.impactParam;instr.det", "pix-2"}, {"CXX_WORLD", "Cxx object ellipse parameter (WORLD units)", &outobj2.cxxw, H_EXPO, T_FLOAT, "%15.7e", "deg**(-2)", "src.impactParam", "deg-2"}, {"CYY_WORLD", "Cyy object ellipse parameter (WORLD units)", &outobj2.cyyw, H_EXPO, T_FLOAT, "%15.7e", "deg**(-2)", "src.impactParam", "deg-2"}, {"CXY_WORLD", "Cxy object ellipse parameter (WORLD units)", &outobj2.cxyw, H_EXPO, T_FLOAT, "%15.7e", "deg**(-2)", "src.impactParam", "deg-2"}, {"A_IMAGE", "Profile RMS along major axis", &outobj.a, H_FLOAT, T_FLOAT, "%9.3f", "pixel", "phys.size.smajAxis;instr.det;meta.main", "pix"}, {"B_IMAGE", "Profile RMS along minor axis", &outobj.b, H_FLOAT, T_FLOAT, "%9.3f", "pixel", "phys.size.sminAxis;instr.det;meta.main", "pix"}, {"THETA_IMAGE", "Position angle (CCW/x)", &outobj.theta, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;instr.det;meta.main", "deg"}, {"A_WORLD", "Profile RMS along major axis (world units)", &outobj2.aw, H_FLOAT, T_FLOAT, "%12.7g", "deg", "phys.size.smajAxis;meta.main", "deg"}, {"B_WORLD", "Profile RMS along minor axis (world units)", &outobj2.bw, H_FLOAT, T_FLOAT, "%12.7g", "deg", "phys.size.sminAxis;meta.main", "deg"}, {"THETA_WORLD", "Position angle (CCW/world-x)", &outobj2.thetaw, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng", "deg"}, {"THETA_SKY", "Position angle (east of north) (native)", &outobj2.thetas, H_FLOAT, T_FLOAT, "%+6.2f", "deg", "pos.posAng", "deg"}, {"THETA_J2000", "Position angle (east of north) (J2000)", &outobj2.theta2000, H_FLOAT, T_FLOAT, "%+6.2f", "deg", "pos.posAng;meta.main", "deg"}, {"THETA_B1950", "Position angle (east of north) (B1950)", &outobj2.theta1950, H_FLOAT, T_FLOAT, "%+6.2f", "deg", "pos.posAng", "deg"}, {"ERRX2_IMAGE", "Variance of position along x", &outobj.poserr_mx2, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "stat.variance;pos.errorEllipse;instr.det", "pix2"}, {"ERRY2_IMAGE", "Variance of position along y", &outobj.poserr_my2, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "stat.variance;pos.errorEllipse;instr.det", "pix2"}, {"ERRXY_IMAGE", "Covariance of position between x and y", &outobj.poserr_mxy, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "stat.covariance;pos.errorEllipse;instr.det", "pix2"}, {"ERRX2_WORLD", "Variance of position along X-WORLD (alpha)", &outobj2.poserr_mx2w, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "stat.variance;pos.errorEllipse", "deg2"}, {"ERRY2_WORLD", "Variance of position along Y-WORLD (delta)", &outobj2.poserr_my2w, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "stat.variance;pos.errorEllipse", "deg2"}, {"ERRXY_WORLD", "Covariance of position X-WORLD/Y-WORLD", &outobj2.poserr_mxyw, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "stat.covariance;pos.errorEllipse", "deg2"}, {"ERRCXX_IMAGE", "Cxx error ellipse parameter", &outobj2.poserr_cxx, H_EXPO, T_FLOAT, "%12.7g", "pixel**(-2)", "src.impactParam;pos.errorEllipse;instr.det", "pix-2"}, {"ERRCYY_IMAGE", "Cyy error ellipse parameter", &outobj2.poserr_cyy, H_EXPO, T_FLOAT, "%12.7g", "pixel**(-2)", "src.impactParam;pos.errorEllipse;instr.det", "pix-2"}, {"ERRCXY_IMAGE", "Cxy error ellipse parameter", &outobj2.poserr_cxy, H_EXPO, T_FLOAT, "%12.7g", "pixel**(-2)", "src.impactParam;pos.errorEllipse;instr.det", "pix-2"}, {"ERRCXX_WORLD", "Cxx error ellipse parameter (WORLD units)", &outobj2.poserr_cxxw, H_EXPO, T_FLOAT, "%12.7g", "deg**(-2)", "src.impactParam;pos.errorEllipse", "deg-2"}, {"ERRCYY_WORLD", "Cyy error ellipse parameter (WORLD units)", &outobj2.poserr_cyyw, H_EXPO, T_FLOAT, "%12.7g", "deg**(-2)", "src.impactParam;pos.errorEllipse", "deg-2"}, {"ERRCXY_WORLD", "Cxy error ellipse parameter (WORLD units)", &outobj2.poserr_cxyw, H_EXPO, T_FLOAT, "%12.7g", "deg**(-2)", "src.impactParam;pos.errorEllipse", "deg-2"}, {"ERRA_IMAGE", "RMS position error along major axis", &outobj2.poserr_a, H_FLOAT, T_FLOAT, "%8.4f", "pixel", "stat.stdev;stat.max;pos.errorEllipse;instr.det;meta.main", "pix"}, {"ERRB_IMAGE", "RMS position error along minor axis", &outobj2.poserr_b, H_FLOAT, T_FLOAT, "%8.4f", "pixel", "stat.stdev;stat.min;pos.errorEllipse;instr.det;meta.main", "pix"}, {"ERRTHETA_IMAGE", "Error ellipse position angle (CCW/x)", &outobj2.poserr_theta, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse;instr.det;meta.main", "deg"}, {"ERRA_WORLD", "World RMS position error along major axis", &outobj2.poserr_aw, H_FLOAT, T_FLOAT, "%12.7g", "deg", "stat.stdev;stat.max;pos.errorEllipse;meta.main", "deg"}, {"ERRB_WORLD", "World RMS position error along minor axis", &outobj2.poserr_bw, H_FLOAT, T_FLOAT, "%12.7g", "deg", "stat.stdev;stat.min;pos.errorEllipse;meta.main", "deg"}, {"ERRTHETA_WORLD", "Error ellipse pos. angle (CCW/world-x)", &outobj2.poserr_thetaw, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse", "deg"}, {"ERRTHETA_SKY", "Native error ellipse pos. angle (east of north)", &outobj2.poserr_thetas, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse", "deg"}, {"ERRTHETA_J2000", "J2000 error ellipse pos. angle (east of north)", &outobj2.poserr_theta2000, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse;meta.main", "deg"}, {"ERRTHETA_B1950", "B1950 error ellipse pos. angle (east of north)", &outobj2.poserr_theta1950, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse", "deg"}, {"XWIN_IMAGE", "Windowed position estimate along x", &outobj2.winpos_x, H_FLOAT, T_DOUBLE, "%10.3f", "pixel", "pos.cartesian.x;instr.det", "pix"}, {"YWIN_IMAGE", "Windowed position estimate along y", &outobj2.winpos_y, H_FLOAT, T_DOUBLE, "%10.3f", "pixel", "pos.cartesian.y;instr.det", "pix"}, {"XWIN_FOCAL", "Windowed position along focal-plane x axis", &outobj2.winpos_xf, H_FLOAT, T_DOUBLE, "%18.10e", "", "pos.cartesian.x", ""}, {"YWIN_FOCAL", "Windowed position along focal-plane y axis", &outobj2.winpos_yf, H_FLOAT, T_DOUBLE, "%18.10e", "", "pos.cartesian.y", ""}, {"XWIN_WORLD", "Windowed position along world x axis", &outobj2.winpos_xw, H_FLOAT, T_DOUBLE, "%18.10e", "deg", "pos.eq.ra", "deg"}, {"YWIN_WORLD", "Windowed position along world y axis", &outobj2.winpos_yw, H_FLOAT, T_DOUBLE, "%18.10e", "deg", "pos.eq.dec", "deg"}, {"ALPHAWIN_SKY", "Windowed right ascension (native)", &outobj2.winpos_alphas, H_FLOAT, T_DOUBLE, "%11.7f", "deg", "pos.eq.ra", "deg"}, {"DELTAWIN_SKY", "Windowed declination (native)", &outobj2.winpos_deltas, H_FLOAT, T_DOUBLE, "%+11.7f", "deg", "pos.eq.dec", "deg"}, {"ALPHAWIN_J2000", "Windowed right ascension (J2000)", &outobj2.winpos_alpha2000, H_FLOAT, T_DOUBLE, "%11.7f", "deg", "pos.eq.ra", "deg"}, {"DELTAWIN_J2000", "windowed declination (J2000)", &outobj2.winpos_delta2000, H_FLOAT, T_DOUBLE, "%+11.7f", "deg", "pos.eq.dec", "deg"}, {"ALPHAWIN_B1950", "Windowed right ascension (B1950)", &outobj2.winpos_alpha1950, H_FLOAT, T_DOUBLE, "%11.7f", "deg", "pos.eq.ra", "deg"}, {"DELTAWIN_B1950", "Windowed declination (B1950)", &outobj2.winpos_delta1950, H_FLOAT, T_DOUBLE, "%+11.7f", "deg", "pos.eq.dec", "deg"}, {"X2WIN_IMAGE", "Windowed variance along x", &outobj2.win_mx2, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "src.impactParam;instr.det", "pix2"}, {"Y2WIN_IMAGE", "Windowed variance along y", &outobj2.win_my2, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "src.impactParam;instr.det", "pix2"}, {"XYWIN_IMAGE", "Windowed covariance between x and y", &outobj2.win_mxy, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "src.impactParam;instr.det", "pix2"}, {"X2WIN_WORLD", "Windowed variance along X-WORLD (alpha)", &outobj2.win_mx2w, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "src.impactParam", "deg2"}, {"Y2WIN_WORLD", "Windowed variance along Y-WORLD (delta)", &outobj2.win_my2w, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "src.impactParam", "deg2"}, {"XYWIN_WORLD", "Windowed covariance between X-WORLD and Y-WORLD", &outobj2.win_mxyw, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "src.impactParam", "deg2"}, {"CXXWIN_IMAGE", "Windowed Cxx object ellipse parameter", &outobj2.win_cxx, H_EXPO, T_FLOAT, "%15.7e", "pixel**(-2)", "src.impactParam;instr.det", "pix-2"}, {"CYYWIN_IMAGE", "Windowed Cyy object ellipse parameter", &outobj2.win_cyy, H_EXPO, T_FLOAT, "%15.7e", "pixel**(-2)", "src.impactParam;instr.det", "pix-2"}, {"CXYWIN_IMAGE", "Windowed Cxy object ellipse parameter", &outobj2.win_cxy, H_EXPO, T_FLOAT, "%15.7e", "pixel**(-2)", "src.impactParam;instr.det", "pix-2"}, {"CXXWIN_WORLD", "Windowed Cxx object ellipse parameter (WORLD units)", &outobj2.win_cxxw, H_EXPO, T_FLOAT, "%15.7e", "deg**(-2)", "src.impactParam", "deg-2"}, {"CYYWIN_WORLD", "Windowed Cyy object ellipse parameter (WORLD units)", &outobj2.win_cyyw, H_EXPO, T_FLOAT, "%15.7e", "deg**(-2)", "src.impactParam", "deg-2"}, {"CXYWIN_WORLD", "Windowed Cxy object ellipse parameter (WORLD units)", &outobj2.win_cxyw, H_EXPO, T_FLOAT, "%15.7e", "deg**(-2)", "src.impactParam", "deg-2"}, {"AWIN_IMAGE", "Windowed profile RMS along major axis", &outobj2.win_a, H_FLOAT, T_FLOAT, "%9.3f", "pixel", "phys.size.smajAxis;instr.det", "pix"}, {"BWIN_IMAGE", "Windowed profile RMS along minor axis", &outobj2.win_b, H_FLOAT, T_FLOAT, "%9.3f", "pixel", "phys.size.sminAxis;instr.det", "pix"}, {"THETAWIN_IMAGE", "Windowed position angle (CCW/x)", &outobj2.win_theta, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;instr.det", "deg"}, {"AWIN_WORLD", "Windowed profile RMS along major axis (world units)", &outobj2.win_aw, H_FLOAT, T_FLOAT, "%12.7g", "deg", "phys.size.smajAxis", "deg"}, {"BWIN_WORLD", "Windowed profile RMS along minor axis (world units)", &outobj2.win_bw, H_FLOAT, T_FLOAT, "%12.7g", "deg", "phys.size.sminAxis", "deg"}, {"THETAWIN_WORLD", "Windowed position angle (CCW/world-x)", &outobj2.win_thetaw, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng", "deg"}, {"THETAWIN_SKY", "Windowed position angle (east of north) (native)", &outobj2.win_thetas, H_FLOAT, T_FLOAT, "%+6.2f", "deg", "pos.posAng", "deg"}, {"THETAWIN_J2000", "Windowed position angle (east of north) (J2000)", &outobj2.win_theta2000, H_FLOAT, T_FLOAT, "%+6.2f", "deg", "pos.posAng", "deg"}, {"THETAWIN_B1950", "Windowed position angle (east of north) (B1950)", &outobj2.win_theta1950, H_FLOAT, T_FLOAT, "%+6.2f", "deg", "pos.posAng", "deg"}, {"ERRX2WIN_IMAGE", "Variance of windowed pos along x", &outobj2.winposerr_mx2, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "stat.variance;pos.errorEllipse;instr.det", "pix2"}, {"ERRY2WIN_IMAGE", "Variance of windowed pos along y", &outobj2.winposerr_my2, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "stat.variance;pos.errorEllipse;instr.det", "pix2"}, {"ERRXYWIN_IMAGE", "Covariance of windowed pos between x and y", &outobj2.winposerr_mxy, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "stat.covariance;pos.errorEllipse;instr.det", "pix2"}, {"ERRX2WIN_WORLD", "Variance of windowed pos along X-WORLD (alpha)", &outobj2.winposerr_mx2w, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "stat.variance;pos.errorEllipse", "deg2"}, {"ERRY2WIN_WORLD", "Variance of windowed pos along Y-WORLD (delta)", &outobj2.winposerr_my2w, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "stat.variance;pos.errorEllipse", "deg2"}, {"ERRXYWIN_WORLD", "Covariance of windowed pos X-WORLD/Y-WORLD", &outobj2.winposerr_mxyw, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "stat.covariance;pos.errorEllipse", "deg2"}, {"ERRCXXWIN_IMAGE", "Cxx windowed error ellipse parameter", &outobj2.winposerr_cxx, H_EXPO, T_FLOAT, "%12.7g", "pixel**(-2)", "src.impactParam;pos.errorEllipse;instr.det", "pix-2"}, {"ERRCYYWIN_IMAGE", "Cyy windowed error ellipse parameter", &outobj2.winposerr_cyy, H_EXPO, T_FLOAT, "%12.7g", "pixel**(-2)", "src.impactParam;pos.errorEllipse;instr.det", "pix-2"}, {"ERRCXYWIN_IMAGE", "Cxy windowed error ellipse parameter", &outobj2.winposerr_cxy, H_EXPO, T_FLOAT, "%12.7g", "pixel**(-2)", "src.impactParam;pos.errorEllipse;instr.det", "pix-2"}, {"ERRCXXWIN_WORLD", "Cxx windowed error ellipse parameter (WORLD units)", &outobj2.winposerr_cxxw, H_EXPO, T_FLOAT, "%12.7g", "deg**(-2)", "src.impactParam;pos.errorEllipse", "deg-2"}, {"ERRCYYWIN_WORLD", "Cyy windowed error ellipse parameter (WORLD units)", &outobj2.winposerr_cyyw, H_EXPO, T_FLOAT, "%12.7g", "deg**(-2)", "src.impactParam;pos.errorEllipse", "deg-2"}, {"ERRCXYWIN_WORLD", "Cxy windowed error ellipse parameter (WORLD units)", &outobj2.winposerr_cxyw, H_EXPO, T_FLOAT, "%12.7g", "deg**(-2)", "src.impactParam;pos.errorEllipse", "deg-2"}, {"ERRAWIN_IMAGE", "RMS windowed pos error along major axis", &outobj2.winposerr_a, H_FLOAT, T_FLOAT, "%8.4f", "pixel", "stat.stdev;stat.max;pos.errorEllipse;instr.det", "pix"}, {"ERRBWIN_IMAGE", "RMS windowed pos error along minor axis", &outobj2.winposerr_b, H_FLOAT, T_FLOAT, "%8.4f", "pixel", "stat.stdev;stat.min;pos.errorEllipse;instr.det", "pix"}, {"ERRTHETAWIN_IMAGE", "Windowed error ellipse pos angle (CCW/x)", &outobj2.winposerr_theta, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse;instr.det", "deg"}, {"ERRAWIN_WORLD", "World RMS windowed pos error along major axis", &outobj2.winposerr_aw, H_FLOAT, T_FLOAT, "%12.7g", "deg", "stat.stdev;stat.max;pos.errorEllipse", "deg"}, {"ERRBWIN_WORLD", "World RMS windowed pos error along minor axis", &outobj2.winposerr_bw, H_FLOAT, T_FLOAT, "%12.7g", "deg", "stat.stdev;stat.min;pos.errorEllipse", "deg"}, {"ERRTHETAWIN_WORLD", "Windowed error ellipse pos. angle (CCW/world-x)", &outobj2.winposerr_thetaw, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse", "deg"}, {"ERRTHETAWIN_SKY", "Native windowed error ellipse pos. angle (east of north)", &outobj2.winposerr_thetas, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse", "deg"}, {"ERRTHETAWIN_J2000", "J2000 windowed error ellipse pos. angle (east of north)", &outobj2.winposerr_theta2000, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse", "deg"}, {"ERRTHETAWIN_B1950", "B1950 windowed error ellipse pos. angle (east of north)", &outobj2.winposerr_theta1950, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse", "deg"}, {"NITER_WIN", "Number of iterations for WIN centering", &outobj2.winpos_niter, H_INT, T_SHORT, "%3d", "", "meta.number", ""}, {"MU_THRESHOLD", "Detection threshold above background", &outobj2.threshmu, H_FLOAT, T_FLOAT, "%8.4f", "mag * arcsec**(-2)", "instr.sensitivity;phot.mag.sb", "mag.arcsec-2"}, {"MU_MAX", "Peak surface brightness above background", &outobj2.maxmu, H_FLOAT, T_FLOAT, "%8.4f", "mag * arcsec**(-2)", "phot.mag.sb;stat.max", "mag.arcsec-2"}, {"ISOAREA_WORLD", "Isophotal area above Analysis threshold", &outobj2.npixw, H_FLOAT, T_FLOAT, "%12.7g", "deg**2", "phys.angArea", "deg2"}, {"ISOAREAF_WORLD", "Isophotal area (filtered) above Detection threshold", &outobj2.fdnpixw, H_FLOAT, T_FLOAT, "%12.7g", "deg**2", "phys.angArea", "deg2"}, {"ISO0", "Isophotal area at level 0", &outobj.iso[0], H_INT, T_LONG, "%8d", "pixel**2", "phys.area;instr.det", "pix2"}, {"ISO1", "Isophotal area at level 1", &outobj.iso[1], H_INT, T_LONG, "%8d", "pixel**2", "phys.area;instr.det", "pix2"}, {"ISO2", "Isophotal area at level 2", &outobj.iso[2], H_INT, T_LONG, "%8d", "pixel**2", "phys.area;instr.det", "pix2"}, {"ISO3", "Isophotal area at level 3", &outobj.iso[3], H_INT, T_LONG, "%8d", "pixel**2", "phys.area;instr.det", "pix2"}, {"ISO4", "Isophotal area at level 4", &outobj.iso[4], H_INT, T_LONG, "%8d", "pixel**2", "phys.area;instr.det", "pix2"}, {"ISO5", "Isophotal area at level 5", &outobj.iso[5], H_INT, T_LONG, "%8d", "pixel**2", "phys.area;instr.det", "pix2"}, {"ISO6", "Isophotal area at level 6", &outobj.iso[6], H_INT, T_LONG, "%8d", "pixel**2", "phys.area;instr.det", "pix2"}, {"ISO7", "Isophotal area at level 7", &outobj.iso[7], H_INT, T_LONG, "%8d", "pixel**2", "phys.area;instr.det", "pix2"}, {"FLAGS", "Extraction flags", &outobj.flag, H_INT, T_SHORT, "%3d", "", "meta.code.qual", ""}, {"FLAGS_WEIGHT", "Weighted extraction flags", &outobj.wflag, H_INT, T_SHORT, "%1d", "", "meta.code.qual", ""}, {"FLAGS_WIN", "Flags for WINdowed parameters", &outobj2.win_flag, H_INT, T_SHORT, "%3d", "", "meta.code.qual", ""}, {"IMAFLAGS_ISO", "FLAG-image flags OR'ed over the iso. profile", outobj.imaflag, H_INT, T_LONG, "%9u", "", "meta.code.qual", "", 1, &prefs.imaflag_size}, {"NIMAFLAGS_ISO", "Number of flagged pixels entering IMAFLAGS_ISO", outobj.imanflag, H_INT, T_LONG, "%9d", "", "meta.number", "", 1, &prefs.imanflag_size}, {"NLOWWEIGHT_ISO", "Nb of pixels with low weight over the iso. profile", &outobj.nzwpix, H_INT, T_LONG, "%9d", "", "meta.number", ""}, {"NLOWDWEIGHT_ISO", "Nb of pixels with low det. weight over the iso. profile", &outobj.nzdwpix, H_INT, T_LONG, "%9d", "", "meta.number", ""}, {"FWHM_IMAGE", "FWHM assuming a gaussian core", &outobj.fwhm, H_FLOAT, T_FLOAT, "%8.2f", "pixel", "phys.size.diameter;instr.det.psf", "pix"}, {"FWHM_WORLD", "FWHM assuming a gaussian core", &outobj2.fwhmw, H_FLOAT, T_FLOAT, "%12.7g", "deg", "phys.angSize;instr.det.psf", "deg"}, {"ELONGATION", "A_IMAGE/B_IMAGE", &outobj2.elong, H_FLOAT, T_FLOAT, "%8.3f", "", "src.ellipticity;arith.ratio;instr.det", ""}, {"ELLIPTICITY", "1 - B_IMAGE/A_IMAGE", &outobj2.ellip, H_FLOAT, T_FLOAT, "%8.3f", "", "src.ellipticity;instr.det ", ""}, {"POLAR_IMAGE", "(A_IMAGE^2 - B_IMAGE^2)/(A_IMAGE^2 + B_IMAGE^2)", &outobj2.polar, H_FLOAT, T_FLOAT, "%7.5f", "", "src.ellipticity;instr.det", ""}, {"POLAR_WORLD", "(A_WORLD^2 - B_WORLD^2)/(A_WORLD^2 + B_WORLD^2)", &outobj2.polarw, H_FLOAT, T_FLOAT, "%7.5f", "", "src.ellipticity", ""}, {"POLARWIN_IMAGE", "(AWIN^2 - BWIN^2)/(AWIN^2 + BWIN^2)", &outobj2.win_polar, H_FLOAT, T_FLOAT, "%7.5f", "", "src.ellipticity;instr.det", ""}, {"POLARWIN_WORLD", "(AWIN^2 - BWIN^2)/(AWIN^2 + BWIN^2)", &outobj2.win_polarw, H_FLOAT, T_FLOAT, "%7.5f", "", "src.ellipticity", ""}, {"CLASS_STAR", "S/G classifier output", &outobj2.sprob, H_FLOAT, T_FLOAT, "%6.3f", "", "src.class.starGalaxy", ""}, {"VIGNET", "Pixel data around detection", &outobj2.vignet, H_FLOAT, T_FLOAT, "%12.7g", "count", "obs.image", "ct", 2, prefs.vignetsize}, {"VIGNET_SHIFT", "Pixel data around detection, corrected for shift", &outobj2.vigshift, H_FLOAT, T_FLOAT, "%12.7g", "count", "obs.image", "ct", 2, prefs.vigshiftsize}, {"VECTOR_ASSOC", "ASSOCiated parameter vector", &outobj2.assoc, H_FLOAT, T_DOUBLE, "%12.7g", "", "src", "", 1, &prefs.assoc_size}, {"NUMBER_ASSOC", "Number of ASSOCiated IDs", &outobj2.assoc_number, H_INT, T_LONG, "%10d", "", "meta.number;src", ""}, {"THRESHOLDMAX", "Maximum threshold possible for detection", &outobj.dthresh, H_FLOAT, T_FLOAT, "%12.7g", "count", "phot.flux.sb;stat.max", "ct"}, {"FLUX_GROWTH", "Cumulated growth-curve", &outobj2.flux_growth, H_FLOAT, T_FLOAT, "%12.7g", "count", "phot.count", "ct", 1, &prefs.flux_growthsize}, {"FLUX_GROWTHSTEP", "Step for growth-curves", &outobj2.flux_growthstep, H_FLOAT, T_FLOAT, "%10.3f", "pixel", "pos.distance", "pix"}, {"MAG_GROWTH", "Cumulated magnitude growth-curve", &outobj2.mag_growth, H_FLOAT, T_FLOAT, "%8.4f", "mag", "phot.mag", "mag", 1, &prefs.mag_growthsize}, {"MAG_GROWTHSTEP", "Step for growth-curves", &outobj2.mag_growthstep, H_FLOAT, T_FLOAT, "%10.3f", "pixel", "pos.distance", "pix"}, {"FLUX_RADIUS", "Fraction-of-light radii", &outobj2.flux_radius, H_FLOAT, T_FLOAT, "%10.3f", "pixel", "phys.size.radius;instr.det", "pix", 1, &prefs.flux_radiussize}, {"XPSF_IMAGE", "X coordinate from PSF-fitting", &outobj2.x_psf, H_FLOAT, T_DOUBLE, "%10.3f", "pixel", "pos.cartesian.x;stat.fit.param;instr.det", "pix"}, {"YPSF_IMAGE", "Y coordinate from PSF-fitting", &outobj2.y_psf, H_FLOAT, T_DOUBLE, "%10.3f", "pixel", "pos.cartesian.y;stat.fit.param;instr.det", "pix"}, {"XPSF_WORLD", "PSF position along world x axis", &outobj2.xw_psf, H_FLOAT, T_DOUBLE, "%18.10e", "deg", "pos.eq.ra;stat.fit.param", "deg"}, {"YPSF_WORLD", "PSF position along world y axis", &outobj2.yw_psf, H_FLOAT, T_DOUBLE, "%18.10e", "deg", "pos.eq.dec;stat.fit.param", "deg"}, {"ALPHAPSF_SKY", "Right ascension of the fitted PSF (native)", &outobj2.alphas_psf, H_FLOAT, T_DOUBLE, "%11.7f", "deg", "pos.eq.ra;stat.fit.param", "deg"}, {"DELTAPSF_SKY", "Declination of the fitted PSF (native)", &outobj2.deltas_psf, H_FLOAT, T_DOUBLE, "%+11.7f", "deg", "pos.eq.dec;stat.fit.param", "deg"}, {"ALPHAPSF_J2000", "Right ascension of the fitted PSF (J2000)", &outobj2.alpha2000_psf, H_FLOAT, T_DOUBLE, "%11.7f", "deg", "pos.eq.ra;stat.fit.param", "deg"}, {"DELTAPSF_J2000", "Declination of the fitted PSF (J2000)", &outobj2.delta2000_psf, H_FLOAT, T_DOUBLE, "%+11.7f", "deg", "pos.eq.dec;stat.fit.param", "deg"}, {"ALPHAPSF_B1950", "Right ascension of the fitted PSF (B1950)", &outobj2.alpha1950_psf, H_FLOAT, T_DOUBLE, "%11.7f", "deg", "pos.eq.ra;stat.fit.param", "deg"}, {"DELTAPSF_B1950", "Declination of the fitted PSF (B1950)", &outobj2.delta1950_psf, H_FLOAT, T_DOUBLE, "%+11.7f", "deg", "pos.eq.dec;stat.fit.param", "deg"}, {"FLUX_PSF", "Flux from PSF-fitting", &outobj2.flux_psf, H_FLOAT, T_FLOAT, "%12.7g", "count", "phot.count;stat.fit.param", "ct"}, {"FLUXERR_PSF", "RMS flux error for PSF-fitting", &outobj2.fluxerr_psf, H_FLOAT, T_FLOAT, "%12.7g", "count", "stat.stdev;phot.count", "ct"}, {"MAG_PSF", "Magnitude from PSF-fitting", &outobj2.mag_psf, H_FLOAT, T_FLOAT, "%8.4f", "mag", "phot.mag", "mag"}, {"MAGERR_PSF", "RMS magnitude error from PSF-fitting", &outobj2.magerr_psf, H_FLOAT, T_FLOAT, "%8.4f", "mag", "stat.stdev;phot.mag", "mag"}, {"NITER_PSF", "Number of iterations for PSF-fitting", &outobj2.niter_psf, H_INT, T_SHORT, "%3d", "", "meta.number", ""}, {"CHI2_PSF", "Reduced chi2 from PSF-fitting", &outobj2.chi2_psf, H_FLOAT, T_FLOAT, "%9.4g", "", "stat.fit.chi2", ""}, {"ERRX2PSF_IMAGE", "Variance of PSF position along x", &outobj2.poserrmx2_psf, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "stat.variance;pos.errorEllipse;instr.det", "pix2"}, {"ERRY2PSF_IMAGE", "Variance of PSF position along y", &outobj2.poserrmy2_psf, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "stat.variance;pos.errorEllipse;instr.det", "pix2"}, {"ERRXYPSF_IMAGE", "Covariance of PSF position between x and y", &outobj2.poserrmxy_psf, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "stat.covariance;pos.errorEllipse;instr.det", "pix2"}, {"ERRX2PSF_WORLD", "Variance of PSF position along X-WORLD (alpha)", &outobj2.poserrmx2w_psf, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "stat.variance;pos.errorEllipse", "deg2"}, {"ERRY2PSF_WORLD", "Variance of PSF position along Y-WORLD (delta)", &outobj2.poserrmy2w_psf, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "stat.variance;pos.errorEllipse", "deg2"}, {"ERRXYPSF_WORLD", "Covariance of PSF position X-WORLD/Y-WORLD", &outobj2.poserrmxyw_psf, H_EXPO, T_DOUBLE, "%18.10e", "deg**2", "stat.covariance;pos.errorEllipse", "deg2"}, {"ERRCXXPSF_IMAGE", "Cxx PSF error ellipse parameter", &outobj2.poserrcxx_psf, H_EXPO, T_FLOAT, "%12.7g", "pixel**(-2)", "src.impactParam;pos.errorEllipse;instr.det", "pix-2"}, {"ERRCYYPSF_IMAGE", "Cyy PSF error ellipse parameter", &outobj2.poserrcyy_psf, H_EXPO, T_FLOAT, "%12.7g", "pixel**(-2)", "src.impactParam;pos.errorEllipse;instr.det", "pix-2"}, {"ERRCXYPSF_IMAGE", "Cxy PSF error ellipse parameter", &outobj2.poserrcxy_psf, H_EXPO, T_FLOAT, "%12.7g", "pixel**(-2)", "src.impactParam;pos.errorEllipse;instr.det", "pix-2"}, {"ERRCXXPSF_WORLD", "Cxx PSF error ellipse parameter (WORLD units)", &outobj2.poserrcxxw_psf, H_EXPO, T_FLOAT, "%12.7g", "deg**(-2)", "src.impactParam;pos.errorEllipse", "deg-2"}, {"ERRCYYPSF_WORLD", "Cyy PSF error ellipse parameter (WORLD units)", &outobj2.poserrcyyw_psf, H_EXPO, T_FLOAT, "%12.7g", "deg**(-2)", "src.impactParam;pos.errorEllipse", "deg-2"}, {"ERRCXYPSF_WORLD", "Cxy PSF error ellipse parameter (WORLD units)", &outobj2.poserrcxyw_psf, H_EXPO, T_FLOAT, "%12.7g", "deg**(-2)", "src.impactParam;pos.errorEllipse", "deg-2"}, {"ERRAPSF_IMAGE", "PSF RMS position error along major axis", &outobj2.poserra_psf, H_FLOAT, T_FLOAT, "%8.4f", "pixel", "stat.stdev;stat.max;pos.errorEllipse;instr.det", "pix"}, {"ERRBPSF_IMAGE", "PSF RMS position error along minor axis", &outobj2.poserrb_psf, H_FLOAT, T_FLOAT, "%8.4f", "pixel", "stat.stdev;stat.min;pos.errorEllipse;instr.det", "pix"}, {"ERRTHETAPSF_IMAGE", "PSF error ellipse position angle (CCW/x)", &outobj2.poserrtheta_psf, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse;instr.det", "deg"}, {"ERRAPSF_WORLD", "World PSF RMS position error along major axis", &outobj2.poserraw_psf, H_FLOAT, T_FLOAT, "%12.7g", "pixel", "stat.stdev;stat.max;pos.errorEllipse", "deg"}, {"ERRBPSF_WORLD", "World PSF RMS position error along minor axis", &outobj2.poserrbw_psf, H_FLOAT, T_FLOAT, "%12.7g", "pixel", "stat.stdev;stat.min;pos.errorEllipse", "deg"}, {"ERRTHETAPSF_WORLD", "PSF error ellipse pos. angle (CCW/world-x)", &outobj2.poserrthetaw_psf, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse", "deg"}, {"ERRTHETAPSF_SKY", "Native PSF error ellipse pos. angle (east of north)", &outobj2.poserrthetas_psf, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse", "deg"}, {"ERRTHETAPSF_J2000", "J2000 PSF error ellipse pos. angle (east of north)", &outobj2.poserrtheta2000_psf, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse", "deg"}, {"ERRTHETAPSF_B1950", "B1950 PSF error ellipse pos. angle (east of north)", &outobj2.poserrtheta1950_psf, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;pos.errorEllipse", "deg"}, {"DURATION_ANALYSIS", "Duration of analysis for this source", &outobj2.analtime, H_FLOAT, T_FLOAT, "%9.4g", "s", "time.duration;time.processing", "s"}, /* Temporarily (at least) deactivated not to confuse users with model-fitting {"X2PC_IMAGE", "PC variance along x", &outobj2.mx2_pc, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "src.impactParam;instr.det", "pix2"}, {"Y2PC_IMAGE", "PC variance along y", &outobj2.my2_pc, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "src.impactParam;instr.det", "pix2"}, {"XYPC_IMAGE", "PC covariance between x and y", &outobj2.mxy_pc, H_EXPO, T_DOUBLE, "%18.10e", "pixel**2", "src.impactParam;instr.det", "pix2"}, {"APC_IMAGE", "PC profile RMS along major axis", &outobj2.a_pc, H_FLOAT, T_FLOAT, "%8.2f", "pixel", "phys.size.smajAxis;instr.det", "pix"}, {"BPC_IMAGE", "PC profile RMS along minor axis", &outobj2.b_pc, H_FLOAT, T_FLOAT, "%8.2f", "pixel", "phys.size.sminAxis;instr.det", "pix"}, {"THETAPC_IMAGE", "PC position angle (CCW/x)", &outobj2.theta_pc, H_FLOAT, T_FLOAT, "%6.2f", "deg", "pos.posAng;instr.det", "deg"}, {"PC", "Principal components", &outobj2.vector_pc, H_FLOAT, T_FLOAT, "%18.10e", "", "src.morph.param", "", 1, &prefs.pc_vectorsize}, */ #ifdef USE_MODEL #include "paramprofit.h" #endif {""} };