def main(): parser = OptionParser() imsimUtils.addOptions(parser) (opt, args) = parser.parse_args() inButler = imsimUtils.getInputButler(opt) allkeys = imsimUtils.getAllKeys(opt, inButler) solvedindex = [] for keys in allkeys: pmatches = inButler.get('icMatch', **keys) matchmeta = pmatches.getSourceMatchMetadata() indexid = matchmeta.getInt('ANINDID') print('Solved with', indexid) solvedindex.append(indexid) solvedindex = np.array(solvedindex) U = np.unique(solvedindex) U.sort() Ntotal = len(solvedindex) for ind in U: N = sum(solvedindex == ind) print('Index', ind, 'solved', N, 'or %.1f %%' % (100. * N / float(Ntotal))) plt.clf() plt.hist(solvedindex) plt.xlabel('Astrometry.net index ID') plt.ylabel('Number of CCDs solved') plt.savefig('solvedindex.png')
def main(): parser = OptionParser() imsimUtils.addOptions(parser, input=True, output=True) parser.add_option('-T', '--threads', dest='threads', default=None, help='run N processes at once', type='int') (opt, args) = parser.parse_args() if not os.path.isdir(opt.outRoot): os.makedirs(opt.outRoot) if not opt.registry and not os.path.exists(os.path.join(opt.outRoot, "registry.sqlite3")): opt.registry = os.path.join(opt.inRoot, "registry.sqlite3") inButler = imsimUtils.getInputButler(opt) outButler = imsimUtils.getOutputButler(opt) allkeys = imsimUtils.getAllKeys(opt, inButler) if opt.threads is None: for keys in allkeys: process(keys, inButler, outButler) else: import multiprocessing p = multiprocessing.Pool(opt.threads) p.map(process, [(k, inButler, outButler) for k in allkeys])
def main(): parser = OptionParser() imsimUtils.addOptions(parser, input=True, output=True) parser.add_option('-T', '--threads', dest='threads', default=None, help='run N processes at once', type='int') (opt, args) = parser.parse_args() if not os.path.isdir(opt.outRoot): os.makedirs(opt.outRoot) if not opt.registry and not os.path.exists( os.path.join(opt.outRoot, "registry.sqlite3")): opt.registry = os.path.join(opt.inRoot, "registry.sqlite3") inButler = imsimUtils.getInputButler(opt) outButler = imsimUtils.getOutputButler(opt) allkeys = imsimUtils.getAllKeys(opt, inButler) if opt.threads is None: for keys in allkeys: process(keys, inButler, outButler) else: import multiprocessing p = multiprocessing.Pool(opt.threads) p.map(process, [(k, inButler, outButler) for k in allkeys])
def main(): parser = OptionParser() imsimUtils.addOptions(parser) parser.add_option('--fixup', dest='fixup', action='store_true', default=False, help='Fix up problems with PT1.1-current outputs') parser.add_option('--photometry', '-P', dest='dophotometry', action='store_true', default=False, help='Make photometry plot?') parser.add_option('--corr', '-C', dest='docorr', action='store_true', default=False, help='Make correspondences plot?') parser.add_option('--distortion', '-D', dest='dodistortion', action='store_true', default=False, help='Make distortion plot?') parser.add_option('--matches', '-M', dest='domatches', action='store_true', default=False, help='Make matches plot?') parser.add_option('--prefix', '-p', dest='prefix', default='', help='Plot output filename prefix') (opt, args) = parser.parse_args() if (opt.dophotometry is False and opt.docorr is False and opt.dodistortion is False and opt.domatches is False): plots = None else: plots = [] if opt.dophotometry: plots.append('photom') if opt.docorr: plots.append('corr') if opt.dodistortion: plots.append('distortion') if opt.domatches: plots.append('matches') inButler = imsimUtils.getInputButler(opt) allkeys = imsimUtils.getAllKeys(opt, inButler) for keys in allkeys: plotsForField(inButler, keys, opt.fixup, plots, opt.prefix)