pylab.xscale('log') pylab.yscale('log') pylab.xlim(xmin=min(g), xmax=4*10**2) pylab.legend() pfile.close() # adding to html page name = '_cumul_hist_signif_fap'+str(FAPThr) fname = InspiralUtils.set_figure_name(opts, name) fname_thumb = InspiralUtils.savefig_pylal(filename=fname, doThumb=True, dpi_thumb=opts.figure_resolution) fnameList.append(fname) tagList.append(name) pylab.close() ############################################################################################################## ### this next bit will help to print the options nicely on the html page opts_dict = vars(opts) html_filename = InspiralUtils.write_html_output(opts, [" --"+key.replace('_','-')+"="+str(opts_dict[key]) for key in opts_dict.keys()], fnameList, tagList, comment=comments) InspiralUtils.write_cache_output(opts, html_filename, fnameList) if opts.html_for_cbcweb: html_filename_publish = InspiralUtils.wrifacte_html_output(opts, args, fnameList, tagList, cbcweb=True) ############################################################################################################## if opts.verbose: print 'Done.'
fname = InspiralUtils.set_figure_name(opts, name) fname_thumb = InspiralUtils.savefig_pylal(filename=fname, doThumb=True, dpi_thumb=opts.figure_resolution) fnameList.append(fname) tagList.append(name) pylab.close() ############################################################################################################## ### this next bit will help to print the options nicely on the html page opts_dict = vars(opts) html_filename = InspiralUtils.write_html_output(opts, [ " --" + key.replace('_', '-') + "=" + str(opts_dict[key]) for key in opts_dict.keys() ], fnameList, tagList, comment=comments) InspiralUtils.write_cache_output(opts, html_filename, fnameList) if opts.html_for_cbcweb: html_filename_publish = InspiralUtils.wrifacte_html_output(opts, args, fnameList, tagList, cbcweb=True) ############################################################################################################## if opts.verbose: print 'Done.'
pylab.close() # 17 fig_num += 1 pylab.figure(1) pylab.plot(values_FOM, values_splits, "yo") pylab.title("Correlation between delta FOM and number of splittings") pylab.xlabel("Values for delta FOM") pylab.ylabel("Number of splits") name = "FOM_splits" fname = InspiralUtils.set_figure_name(opts, name) fname_thumb = InspiralUtils.savefig_pylal(filename=fname, doThumb=True, dpi_thumb=opts.figure_resolution) fnameList.append(fname) tagList.append("FOM_splits") pylab.close() ############################################################################################################## html_filename = InspiralUtils.write_html_output(opts, args, fnameList, tagList, comment=comments) InspiralUtils.write_cache_output(opts, html_filename, fnameList) if opts.html_for_cbcweb: html_filename_publish = InspiralUtils.wrifacte_html_output(opts, args, fnameList, tagList, cbcweb=True) ##############################################################################################################
pylab.xlabel('Values for delta FOM') pylab.ylabel('Number of splits') name = "FOM_splits" fname = InspiralUtils.set_figure_name(opts, name) fname_thumb = InspiralUtils.savefig_pylal(filename=fname, doThumb=True, dpi_thumb=opts.figure_resolution) fnameList.append(fname) tagList.append("FOM_splits") pylab.close() ############################################################################################################## html_filename = InspiralUtils.write_html_output(opts, args, fnameList, tagList, comment=comments) InspiralUtils.write_cache_output(opts, html_filename, fnameList) if opts.html_for_cbcweb: html_filename_publish = InspiralUtils.wrifacte_html_output(opts, args, fnameList, tagList, cbcweb=True) ##############################################################################################################