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/*
# This file is part of the Astrometry.net suite.
# Licensed under a 3-clause BSD style license - see LICENSE
*/
#include <unistd.h>
#include <stdio.h>
#include <string.h>
#include <math.h>
#include <assert.h>
/**
wget "http://antwrp.gsfc.nasa.gov/apod/image/0403/cmsky_cortner_full.jpg"
solve-field --backend-config backend.cfg -v --keep-xylist %s.xy --continue --scale-low 10 --scale-units degwidth --no-tweak cmsky_cortner_full.jpg
# index-219 ==> 159 index objs.
cp cmsky_cortner_full.xy 1.xy
cp cmsky_cortner_full.rdls 1.rd
cp cmsky_cortner_full.wcs 1.wcs
cp cmsky_cortner_full.jpg 1.jpg
# or:
# wget "http://live.astrometry.net/status.php?job=alpha-201003-01883980&get=wcs.fits" -O 1.wcs
# wget "http://live.astrometry.net/status.php?job=alpha-201003-01883980&get=index.rd.fits" -O 1.rd
verify -w 1.wcs -x 1.xy -r 1.rd -v
**/
#include "starutil.h"
#include "mathutil.h"
#include "bl.h"
#include "matchobj.h"
#include "xylist.h"
#include "rdlist.h"
#include "ioutils.h"
#include "starkd.h"
#include "boilerplate.h"
#include "sip.h"
#include "sip_qfits.h"
#include "log.h"
#include "fitsioutils.h"
#include "fit-wcs.h"
#include "verify.h"
#include "histogram2d.h"
#include "plotstuff.h"
#include "plotimage.h"
#include "cairoutils.h"
static const char* OPTIONS = "hx:w:r:vj:p:";
void print_help(char* progname) {
BOILERPLATE_HELP_HEADER(stdout);
printf("\nUsage: %s\n"
" -w <WCS input file>\n"
" -x <xyls input file>\n"
" -r <rdls input file>\n"
" [-p <plot output file>]\n"
" [-v]: verbose\n"
" [-j <pixel-jitter>]: set pixel jitter (default 1.0)\n"
"\n", progname);
}
int main(int argc, char** args) {
int c;
char* xylsfn = NULL;
char* wcsfn = NULL;
char* rdlsfn = NULL;
char* plotfn = NULL;
xylist_t* xyls = NULL;
rdlist_t* rdls = NULL;
sip_t sip;
int i;
int W, H;
double pixeljitter = 1.0;
int loglvl = LOG_MSG;
double wcsscale;
fits_use_error_system();
while ((c = getopt(argc, args, OPTIONS)) != -1) {
switch (c) {
case 'p':
plotfn = optarg;
break;
case 'j':
pixeljitter = atof(optarg);
break;
case 'h':
print_help(args[0]);
exit(0);
case 'r':
rdlsfn = optarg;
break;
case 'x':
xylsfn = optarg;
break;
case 'w':
wcsfn = optarg;
break;
case 'v':
loglvl++;
break;
}
}
if (optind != argc) {
print_help(args[0]);
exit(-1);
}
if (!xylsfn || !wcsfn || !rdlsfn) {
print_help(args[0]);
exit(-1);
}
log_init(loglvl);
// read WCS.
logmsg("Trying to parse SIP header from %s...\n", wcsfn);
if (!sip_read_header_file(wcsfn, &sip)) {
logmsg("Failed to parse SIP header from %s.\n", wcsfn);
}
// image W, H
W = sip.wcstan.imagew;
H = sip.wcstan.imageh;
if ((W == 0.0) || (H == 0.0)) {
logmsg("WCS file %s didn't contain IMAGEW and IMAGEH headers.\n", wcsfn);
// FIXME - use bounds of xylist?
exit(-1);
}
wcsscale = sip_pixel_scale(&sip);
logmsg("WCS scale: %g arcsec/pixel\n", wcsscale);
// read XYLS.
xyls = xylist_open(xylsfn);
if (!xyls) {
logmsg("Failed to read an xylist from file %s.\n", xylsfn);
exit(-1);
}
// read RDLS.
rdls = rdlist_open(rdlsfn);
if (!rdls) {
logmsg("Failed to read an rdlist from file %s.\n", rdlsfn);
exit(-1);
}
{
// (x,y) positions of field stars.
double* fieldpix;
int Nfield;
double* indexpix;
starxy_t* xy;
rd_t* rd;
int Nindex;
xy = xylist_read_field(xyls, NULL);
if (!xy) {
logmsg("Failed to read xyls entries.\n");
exit(-1);
}
Nfield = starxy_n(xy);
fieldpix = starxy_to_xy_array(xy, NULL);
logmsg("Found %i field objects\n", Nfield);
// Project RDLS into pixel space.
rd = rdlist_read_field(rdls, NULL);
if (!rd) {
logmsg("Failed to read rdls entries.\n");
exit(-1);
}
Nindex = rd_n(rd);
logmsg("Found %i indx objects\n", Nindex);
indexpix = malloc(2 * Nindex * sizeof(double));
for (i=0; i<Nindex; i++) {
anbool ok;
double ra = rd_getra(rd, i);
double dec = rd_getdec(rd, i);
ok = sip_radec2pixelxy(&sip, ra, dec, indexpix + i*2, indexpix + i*2 + 1);
assert(ok);
}
logmsg("CRPIX is (%g,%g)\n", sip.wcstan.crpix[0], sip.wcstan.crpix[1]);
{
double* fieldsigma2s = malloc(Nfield * sizeof(double));
int besti;
int* theta;
double logodds;
double Q2, R2;
double qc[2];
double gamma;
// HACK -- quad radius-squared
Q2 = square(100.0);
qc[0] = sip.wcstan.crpix[0];
qc[1] = sip.wcstan.crpix[1];
// HACK -- variance growth rate wrt radius.
gamma = 1.0;
for (i=0; i<Nfield; i++) {
R2 = distsq(qc, fieldpix + 2*i, 2);
fieldsigma2s[i] = square(pixeljitter) * (1.0 + gamma * R2/Q2);
}
logodds = verify_star_lists(indexpix, Nindex,
fieldpix, fieldsigma2s, Nfield,
W*H,
0.25,
log(1e-100),
log(1e100),
&besti, NULL, &theta, NULL);
logmsg("Logodds: %g\n", logodds);
if (TRUE) {
for (i=0; i<Nfield; i++) {
if (theta[i] < 0)
continue;
printf("%g %g %g %g\n", fieldpix[2*i+0], fieldpix[2*i+1],
rd_getra(rd, theta[i]), rd_getdec(rd, theta[i]));
}
}
if (plotfn) {
plot_args_t pargs;
plotimage_t* img;
cairo_t* cairo;
plotstuff_init(&pargs);
pargs.outformat = PLOTSTUFF_FORMAT_PNG;
pargs.outfn = plotfn;
img = plotstuff_get_config(&pargs, "image");
img->format = PLOTSTUFF_FORMAT_JPG;
plot_image_set_filename(img, "1.jpg");
plot_image_setsize(&pargs, img);
plotstuff_run_command(&pargs, "image");
cairo = pargs.cairo;
// red circles around every field star.
cairo_set_color(cairo, "red");
for (i=0; i<Nfield; i++) {
cairoutils_draw_marker(cairo, CAIROUTIL_MARKER_CIRCLE,
fieldpix[2*i+0], fieldpix[2*i+1],
2.0 * sqrt(fieldsigma2s[i]));
cairo_stroke(cairo);
}
// green crosshairs at every index star.
cairo_set_color(cairo, "green");
for (i=0; i<Nindex; i++) {
cairoutils_draw_marker(cairo, CAIROUTIL_MARKER_XCROSSHAIR,
indexpix[2*i+0], indexpix[2*i+1],
3);
cairo_stroke(cairo);
}
// thick white circles for corresponding field stars.
cairo_set_line_width(cairo, 2);
for (i=0; i<Nfield; i++) {
if (theta[i] < 0)
continue;
cairo_set_color(cairo, "white");
cairoutils_draw_marker(cairo, CAIROUTIL_MARKER_CIRCLE,
fieldpix[2*i+0], fieldpix[2*i+1],
2.0 * sqrt(fieldsigma2s[i]));
cairo_stroke(cairo);
// thick cyan crosshairs for corresponding index stars.
cairo_set_color(cairo, "cyan");
cairoutils_draw_marker(cairo, CAIROUTIL_MARKER_XCROSSHAIR,
indexpix[2*theta[i]+0],
indexpix[2*theta[i]+1],
3);
cairo_stroke(cairo);
}
plotstuff_output(&pargs);
}
free(theta);
free(fieldsigma2s);
}
free(fieldpix);
free(indexpix);
}
if (xylist_close(xyls)) {
logmsg("Failed to close XYLS file.\n");
}
return 0;
}
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