public software.sextractor
[/] [trunk/] [src/] [makeit.c] - Rev 11
Go to most recent revision | Compare with Previous | Blame | View Log
/* makeit.c *%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% * * Part of: SExtractor * * Author: E.BERTIN, IAP & Leiden observatory * * Contents: main program. * * Last modify: 04/07/2006 * *%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include <math.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <time.h> #include "define.h" #include "globals.h" #include "prefs.h" #include "fits/fitscat.h" #include "assoc.h" #include "back.h" #include "check.h" #include "field.h" #include "filter.h" #include "growth.h" #include "interpolate.h" #include "psf.h" #include "som.h" #include "weight.h" #include "xml.h" /******************************** makeit *************************************/ /* Manage the whole stuff. */ void makeit() { checkstruct *check; picstruct *dfield, *field,*pffield[MAXFLAG], *wfield,*dwfield; catstruct *imacat; tabstruct *imatab; static time_t thetime1, thetime2; time_t thetimet, thetimet2; struct tm *tm; int i, nok, ntab, next; /* Install error logging */ error_installfunc(write_xmlerror); /* Processing start date and time */ thetimet = time(NULL); tm = localtime(&thetimet); sprintf(prefs.sdate_start,"%04d-%02d-%02d", tm->tm_year+1900, tm->tm_mon+1, tm->tm_mday); sprintf(prefs.stime_start,"%02d:%02d:%02d", tm->tm_hour, tm->tm_min, tm->tm_sec); NFPRINTF(OUTPUT, ""); QPRINTF(OUTPUT, "----- %s %s started on %s at %s with %d thread%s\n\n", BANNER, MYVERSION, prefs.sdate_start, prefs.stime_start, prefs.nthreads, prefs.nthreads>1? "s":""); /* Initialize globals variables */ initglob(); NFPRINTF(OUTPUT, "Setting catalog parameters"); readcatparams(prefs.param_name); useprefs(); /* update things accor. to prefs parameters */ if (prefs.psf_flag) { NFPRINTF(OUTPUT, "Reading PSF information"); thepsf = psf_load(prefs.psf_name[0]); if (prefs.dpsf_flag) ppsf = psf_load(prefs.psf_name[1]); /*-- Need to check things up because of PSF context parameters */ updateparamflags(); useprefs(); } if (prefs.filter_flag) { NFPRINTF(OUTPUT, "Reading detection filter"); getfilter(prefs.filter_name); /* get the detection filter */ } if (FLAG(obj2.sprob)) { NFPRINTF(OUTPUT, "Initializing Neural Network"); neurinit(); NFPRINTF(OUTPUT, "Reading Neural Network Weights"); getnnw(); } if (prefs.somfit_flag) { int margin; thesom = som_load(prefs.som_name); if ((margin=(thesom->inputsize[1]+1)/2) > prefs.cleanmargin) prefs.cleanmargin = margin; if (prefs.somfit_vectorsize>thesom->neurdim) { prefs.somfit_vectorsize = thesom->neurdim; sprintf(gstr,"%d", prefs.somfit_vectorsize); warning("Dimensionality of the SOM-fit vector limited to ", gstr); } } /* Prepare growth-curve buffer */ if (prefs.growth_flag) initgrowth(); /* Compute the number of valid input extensions */ if (!(imacat = read_cat(prefs.image_name[0]))) error(EXIT_FAILURE, "*Error*: cannot open ", prefs.image_name[0]); close_cat(imacat); imatab = imacat->tab; next = 0; for (ntab = 0 ; ntab<imacat->ntab; ntab++, imatab = imatab->nexttab) { /*-- Check for the next valid image extension */ if ((imatab->naxis < 2) || !strncmp(imatab->xtension, "BINTABLE", 8) || !strncmp(imatab->xtension, "ASCTABLE", 8)) continue; next++; } thecat.next = next; /*-- Init the CHECK-images */ if (prefs.check_flag) { checkenum c; NFPRINTF(OUTPUT, "Initializing check-image(s)"); for (i=0; i<prefs.ncheck_type; i++) if ((c=prefs.check_type[i]) != CHECK_NONE) { if (prefs.check[c]) error(EXIT_FAILURE,"*Error*: 2 CHECK_IMAGEs cannot have the same ", " CHECK_IMAGE_TYPE"); prefs.check[c] = initcheck(prefs.check_name[i], prefs.check_type[i], next); free(prefs.check_name[i]); } } NFPRINTF(OUTPUT, "Initializing catalog"); initcat(); /* Initialize XML data */ if (prefs.xml_flag) init_xml(next); /* Go through all images */ nok = -1; for (ntab = 0 ; ntab<imacat->ntab; ntab++, imatab = imatab->nexttab) { /*-- Check for the next valid image extension */ if ((imatab->naxis < 2) || !strncmp(imatab->xtension, "BINTABLE", 8) || !strncmp(imatab->xtension, "ASCTABLE", 8)) continue; nok++; /*-- Initial time measurement*/ time(&thetime1); thecat.currext = nok+1; dfield = field = wfield = dwfield = NULL; if (prefs.dimage_flag) { /*---- Init the Detection and Measurement-images */ dfield = newfield(prefs.image_name[0], DETECT_FIELD, nok); field = newfield(prefs.image_name[1], MEASURE_FIELD, nok); if ((field->width!=dfield->width) || (field->height!=dfield->height)) error(EXIT_FAILURE, "*Error*: Frames have different sizes",""); /*---- Prepare interpolation */ if (prefs.dweight_flag && prefs.interp_type[0] == INTERP_ALL) init_interpolate(dfield, -1, -1); if (prefs.interp_type[1] == INTERP_ALL) init_interpolate(field, -1, -1); } else { field = newfield(prefs.image_name[0], DETECT_FIELD | MEASURE_FIELD, nok); /*-- Prepare interpolation */ if ((prefs.dweight_flag || prefs.weight_flag) && prefs.interp_type[0] == INTERP_ALL) init_interpolate(field, -1, -1); /* 0.0 or anything else */ } /*-- Init the WEIGHT-images */ if (prefs.dweight_flag || prefs.weight_flag) { weightenum wtype; PIXTYPE interpthresh; if (prefs.nweight_type>1) { /*------ Double-weight-map mode */ if (prefs.weight_type[1] != WEIGHT_NONE) { /*-------- First: the "measurement" weights */ wfield = newweight(prefs.wimage_name[1],field,prefs.weight_type[1], nok); wtype = prefs.weight_type[1]; interpthresh = prefs.weight_thresh[1]; /*-------- Convert the interpolation threshold to variance units */ weight_to_var(wfield, &interpthresh, 1); wfield->weight_thresh = interpthresh; if (prefs.interp_type[1] != INTERP_NONE) init_interpolate(wfield, prefs.interp_xtimeout[1], prefs.interp_ytimeout[1]); } /*------ The "detection" weights */ if (prefs.weight_type[0] != WEIGHT_NONE) { interpthresh = prefs.weight_thresh[0]; if (prefs.weight_type[0] == WEIGHT_FROMINTERP) { dwfield=newweight(prefs.wimage_name[0],wfield,prefs.weight_type[0], nok); weight_to_var(wfield, &interpthresh, 1); } else { dwfield = newweight(prefs.wimage_name[0], dfield?dfield:field, prefs.weight_type[0], nok); weight_to_var(dwfield, &interpthresh, 1); } dwfield->weight_thresh = interpthresh; if (prefs.interp_type[0] != INTERP_NONE) init_interpolate(dwfield, prefs.interp_xtimeout[0], prefs.interp_ytimeout[0]); } } else { /*------ Single-weight-map mode */ wfield = newweight(prefs.wimage_name[0], dfield?dfield:field, prefs.weight_type[0], nok); wtype = prefs.weight_type[0]; interpthresh = prefs.weight_thresh[0]; /*------ Convert the interpolation threshold to variance units */ weight_to_var(wfield, &interpthresh, 1); wfield->weight_thresh = interpthresh; if (prefs.interp_type[0] != INTERP_NONE) init_interpolate(wfield, prefs.interp_xtimeout[0], prefs.interp_ytimeout[0]); } } /*-- Init the FLAG-images */ for (i=0; i<prefs.nimaflag; i++) { pffield[i] = newfield(prefs.fimage_name[i], FLAG_FIELD, nok); if ((pffield[i]->width!=field->width) || (pffield[i]->height!=field->height)) error(EXIT_FAILURE, "*Error*: Incompatible FLAG-map size in ", prefs.fimage_name[i]); } /*-- Compute background maps for `standard' fields */ QPRINTF(OUTPUT, dfield? "Measurement image:" : "Detection+Measurement image: "); makeback(field, wfield); QPRINTF(OUTPUT, (dfield || (dwfield&&dwfield->flags^INTERP_FIELD))? "(M) " "Background: %-10g RMS: %-10g / Threshold: %-10g \n" : "(M+D) " "Background: %-10g RMS: %-10g / Threshold: %-10g \n", field->backmean, field->backsig, (field->flags & DETECT_FIELD)? field->dthresh: field->thresh); if (dfield) { QPRINTF(OUTPUT, "Detection image: "); makeback(dfield, dwfield? dwfield : (prefs.weight_type[0] == WEIGHT_NONE?NULL:wfield)); QPRINTF(OUTPUT, "(D) " "Background: %-10g RMS: %-10g / Threshold: %-10g \n", dfield->backmean, dfield->backsig, dfield->dthresh); } else if (dwfield && dwfield->flags^INTERP_FIELD) { makeback(field, dwfield); QPRINTF(OUTPUT, "(D) " "Background: %-10g RMS: %-10g / Threshold: %-10g \n", field->backmean, field->backsig, field->dthresh); } /*-- For interpolated weight-maps, copy the background structure */ if (dwfield && dwfield->flags&(INTERP_FIELD|BACKRMS_FIELD)) copyback(dwfield->reffield, dwfield); if (wfield && wfield->flags&(INTERP_FIELD|BACKRMS_FIELD)) copyback(wfield->reffield, wfield); /*-- Prepare learn and/or associations */ if (prefs.assoc_flag) init_assoc(field); /* initialize assoc tasks */ /*-- Update the CHECK-images */ if (prefs.check_flag) for (i=0; i<MAXCHECK; i++) if ((check=prefs.check[i])) reinitcheck(field, check); /*-- Initialize PSF contexts and workspace */ if (prefs.psf_flag) { psf_readcontext(thepsf, field); psf_init(thepsf); if (prefs.dpsf_flag) { psf_readcontext(thepsf, dfield); psf_init(thepsf); /*?*/ } } /*-- Copy field structures to static ones (for catalog info) */ if (dfield) { thefield1 = *field; thefield2 = *dfield; } else thefield1 = thefield2 = *field; if (wfield) { thewfield1 = *wfield; thewfield2 = dwfield? *dwfield: *wfield; } else if (dwfield) thewfield2 = *dwfield; reinitcat(field); /*-- Start the extraction pipeline */ NFPRINTF(OUTPUT, "Scanning image"); scanimage(field, dfield, pffield, prefs.nimaflag, wfield, dwfield); /*-- Finish the current CHECK-image processing */ if (prefs.check_flag) for (i=0; i<MAXCHECK; i++) if ((check=prefs.check[i])) reendcheck(field, check); /*-- Final time measurements*/ if (time(&thetime2)!=-1) { if (!strftime(thecat.ext_date, 12, "%d/%m/%Y", localtime(&thetime2))) error(EXIT_FAILURE, "*Internal Error*: Date string too long ",""); if (!strftime(thecat.ext_time, 10, "%H:%M:%S", localtime(&thetime2))) error(EXIT_FAILURE, "*Internal Error*: Time/date string too long ",""); thecat.ext_elapsed = difftime(thetime2, thetime1); } reendcat(); /* Update XML data */ if (prefs.xml_flag) update_xml(&thecat, dfield? dfield:field, field, dwfield? dwfield:wfield, wfield); /*-- Close ASSOC routines */ end_assoc(field); for (i=0; i<prefs.nimaflag; i++) endfield(pffield[i]); endfield(field); if (dfield) endfield(dfield); if (wfield) endfield(wfield); if (dwfield) endfield(dwfield); QPRINTF(OUTPUT, "Objects: detected %-8d / sextracted %-8d \n", thecat.ndetect, thecat.ntotal); } if (nok<0) error(EXIT_FAILURE, "Not enough valid FITS image extensions in ", prefs.image_name[0]); free_cat(&imacat, 1); NFPRINTF(OUTPUT, "Closing files"); endcat(); /* End CHECK-image processing */ if (prefs.check_flag) for (i=0; i<MAXCHECK; i++) { if ((check=prefs.check[i])) endcheck(check); prefs.check[i] = NULL; } if (prefs.filter_flag) endfilter(); if (prefs.somfit_flag) som_end(thesom); if (prefs.growth_flag) endgrowth(); if (prefs.psf_flag) psf_end(thepsf,thepsfit); /*?*/ if (prefs.dpsf_flag) psf_end(ppsf,ppsfit); if (FLAG(obj2.sprob)) neurclose(); /* Processing end date and time */ thetimet2 = time(NULL); tm = localtime(&thetimet2); sprintf(prefs.sdate_end,"%04d-%02d-%02d", tm->tm_year+1900, tm->tm_mon+1, tm->tm_mday); sprintf(prefs.stime_end,"%02d:%02d:%02d", tm->tm_hour, tm->tm_min, tm->tm_sec); prefs.time_diff = difftime(thetimet2, thetimet); /* Write XML */ if (prefs.xml_flag) write_xml(); return; } /******************************** initglob ***********************************/ /* Initialize a few global variables */ void initglob() { int i; for (i=0; i<37; i++) { ctg[i] = cos(i*PI/18); stg[i] = sin(i*PI/18); } return; } /* int matherr(struct exception *x) { printf("***MATH ERROR***: %d %s %f %f\n", x->type, x->name, x->arg1, x->retval); return (0); } */
Go to most recent revision | Compare with Previous | Blame | View Log