def makeInjObjs(injfile, posfiles):
    """
    Make a list of results objects from the posfiles and injections
    """
    getByTime = False
    resObjs = []
    if injfile:
        import itertools
        injections = SimInspiralUtils.ReadSimInspiralFromFiles([injfile])
        if (len(injections) != len(posfiles)):
            print 'Different numbers of injections and posterior files, attempting to recognise by time'
            getByTime = True
    i = 0
    for posfile in posfiles:
        peparser = bppu.PEOutputParser('common')
        resObj = peparser.parse(open(posfile, 'r'))
        pos = bppu.Posterior(resObj)
        if not getByTime:
            injection = injections[i]
        else:
            time = pos['time'].mean
            injection = getInjByTime(time, injections)
        if injection is None:
            continue
        pos.set_injection(injection)
        resObjs.append(pos)
        i = i + 1
    return resObjs
Esempio n. 2
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def makeInjObjs(injfile,event,posfiles):
    """
    Make a list of results objects from the posfiles and injections
    """
    getByTime=False
    resObjs=[]
    if injfile:
        import itertools
        injections = SimInspiralUtils.ReadSimInspiralFromFiles([injfile])
    i=0
    for posfile in posfiles:
        peparser=bppu.PEOutputParser('common')
        resObj=peparser.parse(open(posfile,'r'))
        pos=bppu.Posterior(resObj)
        if event is not None:
            injection=injections[event]
        else:
            time=pos['time'].mean
            injection=getInjByTime(time,injections)
        if injection is None:
            continue
        pos.set_injection(injection)
        resObjs.append(pos)
        i=i+1
    return resObjs
Esempio n. 3
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    def get_coincs_from_coire(self, files, stat='snr'):
        """
    uses CoincInspiralUtils to get data from old-style (coire'd) coincs
    """
        coincTrigs = CoincInspiralUtils.coincInspiralTable()
        inspTrigs = SnglInspiralUtils.ReadSnglInspiralFromFiles(files, \
                                      mangle_event_id = True,verbose=None)
        statistic = CoincInspiralUtils.coincStatistic(stat, None, None)
        coincTrigs = CoincInspiralUtils.coincInspiralTable(
            inspTrigs, statistic)

        try:
            inspInj = SimInspiralUtils.ReadSimInspiralFromFiles(files)
            coincTrigs.add_sim_inspirals(inspInj)
        #FIXME: name the exception!
        except:
            pass

        #now extract the relevant information into CoincData objects
        for ctrig in coincTrigs:
            coinc = CoincData()
            coinc.set_ifos(ctrig.get_ifos()[1])
            coinc.set_gps(
                dict(
                    (trig.ifo, LIGOTimeGPS(trig.get_end())) for trig in ctrig))
            coinc.set_snr(
                dict((trig.ifo, getattr(ctrig, trig.ifo).snr)
                     for trig in ctrig))
            coinc.set_effDs(
                dict((trig.ifo, getattr(ctrig, trig.ifo).eff_distance)
                     for trig in ctrig))
            coinc.set_masses(dict((trig.ifo,getattr(ctrig,trig.ifo).mass1) for trig in ctrig), \
                             dict((trig.ifo,getattr(ctrig,trig.ifo).mass2) for trig in ctrig))

            try:
                effDs_inj = {}
                for ifo in coinc.ifo_list:
                    if ifo == 'H1':
                        effDs_inj[ifo] = getattr(ctrig, 'sim').eff_dist_h
                    elif ifo == 'L1':
                        effDs_inj[ifo] = getattr(ctrig, 'sim').eff_dist_l
                    elif ifo == 'V1':
                        effDs_inj[ifo] = getattr(ctrig, 'sim').eff_dist_v
                dist_inj = getattr(ctrig, 'sim').distance
                coinc.set_inj_params(getattr(ctrig,'sim').latitude,getattr(ctrig,'sim').longitude, \
                                     getattr(ctrig,'sim').mass1,getattr(ctrig,'sim').mass2,dist_inj,effDs_inj)
                coinc.is_injection = True
                #FIXME: name the exception!
            except:
                pass

            self.append(coinc)
Esempio n. 4
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     roq_force_flow = cp.getfloat('lalinference','roq_force_flow')
     print "WARNING: Forcing the f_low to ", str(roq_force_flow), "Hz"

  print "WARNING: Overwriting user choice of flow, srate, seglen, and (mc_min, mc_max and q-min) or (mass1_min, mass1_max, mass2_min, mass2_max)"

  if opts.gid is not None:
    gid=opts.gid
  elif opts.injections is not None or cp.has_option('input','injection-file'):
    print "Only 0-th event in the XML table will be considered while running with ROQ\n"
    # Read event 0 from  Siminspiral Table
    from pylal import SimInspiralUtils
    if opts.injections is not None:
      inxml=opts.injections
    else:
      inxml=cp.get('input','injection-file')
    injTable=SimInspiralUtils.ReadSimInspiralFromFiles([inxml])
    row=injTable[0]
  else:
    gid=None
    row=None

  roq_bounds = pipe_utils.Query_ROQ_Bounds_Type(path, roq_paths)
  if roq_bounds == 'chirp_mass_q':
    print 'ROQ has bounds in chirp mass and mass-ratio'
    mc_priors, trigger_mchirp = pipe_utils.get_roq_mchirp_priors(path, roq_paths, roq_params, key, gid=gid, sim_inspiral=row)
  elif roq_bounds == 'component_mass':
    print 'ROQ has bounds in component masses'
    # get component mass bounds, then compute the chirp mass that can be safely covered
    # further below we pass along the component mass bounds to the sampler, not the tighter chirp-mass, q bounds
    m1_priors, m2_priors, trigger_mchirp = pipe_utils.get_roq_component_mass_priors(path, roq_paths, roq_params, key, gid=gid, sim_inspiral=row)
    mc_priors = {}
Esempio n. 5
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def compare_bayes(outdir,names_and_pos_folders,injection_path,eventnum,username,password,reload_flag,clf,ldg_flag,contour_figsize=(4.5,4.5),contour_dpi=250,contour_figposition=[0.15,0.15,0.5,0.75],fail_on_file_err=True,covarianceMatrices=None,meanVectors=None,Npixels2D=50):

    injection=None

    if injection_path is not None and os.path.exists(injection_path) and eventnum is not None:
        eventnum=int(eventnum)
        import itertools
        injections = SimInspiralUtils.ReadSimInspiralFromFiles([injection_path])
        if eventnum is not None:
            if(len(injections)<eventnum):
                print "Error: You asked for event %d, but %s contains only %d injections" %(eventnum,injection_path,len(injections))
                sys.exit(1)
            else:
                injection=injections[eventnum]
    
    #Create analytic likelihood functions if covariance matrices and mean vectors were given
    analyticLikelihood = None
    if covarianceMatrices and meanVectors:
	analyticLikelihood = bppu.AnalyticLikelihood(covarianceMatrices, meanVectors)
    peparser=bppu.PEOutputParser('common')
    pos_list={}
    tp_list={}
    common_params=None
    working_folder=os.getcwd()
    for name,pos_folder in names_and_pos_folders:
        import urlparse

        pos_folder_url=urlparse.urlparse(pos_folder)
        pfu_scheme,pfu_netloc,pfu_path,pfu_params,pfu_query,pfu_fragment=pos_folder_url

        if 'http' in pfu_scheme:

            """
            Retrieve a file over http(s).
            """
            downloads_folder=os.path.join(os.getcwd(),"downloads")
            pos_folder_parse=urlparse.urlparse(pos_folder)
            pfp_scheme,pfp_netloc,pfp_path,pfp_params,pfp_query,pfp_fragment=pos_folder_parse
            head,tail=os.path.split(pfp_path)
            if tail is 'posplots.html' or tail:
                pos_file_part=head
            else:
                pos_file_part=pfp_path
            pos_file_url=urlparse.urlunsplit((pfp_scheme,pfp_netloc,os.path.join(pos_file_part,'posterior_samples.dat'),'',''))
            print pos_file_url
            pos_file=os.path.join(os.getcwd(),downloads_folder,"%s.dat"%name)

            if not os.path.exists(pos_file):
                reload_flag=True

            if reload_flag:
                if os.path.exists(pos_file):
                    os.remove(pos_file)
                if not os.path.exists(downloads_folder):
                    os.makedirs(downloads_folder)
                open_url_wget(pos_file_url,un=username,pw=password,args=["-O","%s"%pos_file])


        elif pfu_scheme is '' or pfu_scheme is 'file':
            pos_file=os.path.join(pos_folder,'%s.dat'%name)
            # Try looking for posterior_samples.dat if name.dat doesn't exist
            if not os.path.exists(pos_file):
                print '%s does not exist, trying posterior_samples.dat'%(pos_file)
                pos_file=os.path.join(pos_folder,'posterior_samples.dat')
        else:
            print "Unknown scheme for input data url: %s\nFull URL: %s"%(pfu_scheme,str(pos_folder_url))
            exit(0)

        print "Reading posterior samples from %s ..."%pos_file

        try:
            common_output_table_header,common_output_table_raw=peparser.parse(open(pos_file,'r'))
        except:
            print 'Unable to read file '+pos_file
            continue

        test_and_switch_param(common_output_table_header,'distance','dist')
        test_and_switch_param(common_output_table_header,'chirpmass','mchirp')
        test_and_switch_param(common_output_table_header,'mc','mchirp')
        test_and_switch_param(common_output_table_header,'asym_massratio','q')
        test_and_switch_param(common_output_table_header,'massratio', 'eta')
        test_and_switch_param(common_output_table_header,'RA','ra')
        test_and_switch_param(common_output_table_header,'rightascension','ra')
        test_and_switch_param(common_output_table_header,'declination','dec')
        test_and_switch_param(common_output_table_header,'tilt_spin1','tilt1')
        test_and_switch_param(common_output_table_header,'tilt_spin2','tilt2')

        if 'LI_MCMC' in name or 'FU_MCMC' in name:

            try:

                idx=common_output_table_header.index('iota')
                print "Inverting iota!"

                common_output_table_raw[:,idx]= np.pi*np.ones(len(common_output_table_raw[:,0])) - common_output_table_raw[:,idx]

            except:
                pass


        # try:
        #     print "Converting phi_orb-> 2phi_orb"
        #     idx=common_output_table_header.index('phi_orb')
        #     common_output_table_header[idx]='2phi_orb'
        #     common_output_table_raw[:,idx]= 2*common_output_table_raw[:,idx]
        # except:
        #     pass

        try:
            print "Converting iota-> cos(iota)"
            idx=common_output_table_header.index('iota')
            common_output_table_header[idx]='cos(iota)'
            common_output_table_raw[:,idx]=np.cos(common_output_table_raw[:,idx])
        except:
            pass

        #try:
        #    print "Converting tilt1 -> cos(tilt1)"
        #    idx=common_output_table_header.index('tilt1')
        #    common_output_table_header[idx]='cos(tilt1)'
        #    common_output_table_raw[:,idx]=np.cos(common_output_table_raw[:,idx])
        #except:
        #    pass

        #try:
        #    print "Converting tilt2 -> cos(tilt2)"
        #    idx=common_output_table_header.index('tilt2')
        #    common_output_table_header[idx]='cos(tilt2)'
        #    common_output_table_raw[:,idx]=np.cos(common_output_table_raw[:,idx])
        #except:
        #    pass

        try:
            print "Converting thetas -> cos(thetas)"
            idx=common_output_table_header.index('thetas')
            common_output_table_header[idx]='cos(thetas)'
            common_output_table_raw[:,idx]=np.cos(common_output_table_raw[:,idx])
        except:
            pass

        try:
            print "Converting beta -> cos(beta)"
            idx=common_output_table_header.index('beta')
            common_output_table_header[idx]='cos(beta)'
            common_output_table_raw[:,idx]=np.cos(common_output_table_raw[:,idx])
        except:
            pass

        try:
            idx=common_output_table_header.index('f_ref')
            injFrefs=np.unique(common_output_table_raw[:,idx])
            if len(injFrefs) == 1:
              injFref = injFrefs[0]
              print "Using f_ref in results as injected value"
        except:
            injFref = None
            pass

        pos_temp=bppu.Posterior((common_output_table_header,common_output_table_raw),SimInspiralTableEntry=injection, injFref=injFref)

        if 'a1' in pos_temp.names and min(pos_temp['a1'].samples)[0] < 0:
          pos_temp.append_mapping('spin1', lambda a:a, 'a1')
          pos_temp.pop('a1')
          pos_temp.append_mapping('a1', lambda a:np.abs(a), 'spin1')
        if 'a2' in pos_temp.names and min(pos_temp['a2'].samples)[0] < 0:
          pos_temp.append_mapping('spin2', lambda a:a, 'a2')
          pos_temp.pop('a2')
          pos_temp.append_mapping('a2', lambda a:np.abs(a), 'spin2')


        if 'm1' in pos_temp.names and 'm2' in pos_temp.names:
          print "Calculating total mass"
          pos_temp.append_mapping('mtotal', lambda m1,m2: m1+m2, ['m1','m2'])
        if 'mass1' in pos_temp.names and 'mass2' in pos_temp.names:
          print "Calculating total mass"
          pos_temp.append_mapping('mtotal', lambda m1,m2: m1+m2, ['mass1','mass2'])

        try:
            idx=common_output_table_header.index('m1')

            idx2=common_output_table_header.index('m2')

            if pos_temp['m1'].mean<pos_temp['m2'].mean:
                print "SWAPPING MASS PARAMS!"
                common_output_table_header[idx]='x'
                common_output_table_header[idx2]='m1'
                common_output_table_header[idx]='m2'
                pos_temp=bppu.Posterior((common_output_table_header,common_output_table_raw),SimInspiralTableEntry=injection)
        except:
            pass

        pos_list[name]=pos_temp

        if common_params is None:
            common_params=pos_temp.names
        else:
            set_of_pars = set(pos_temp.names)
            common_params=list(set_of_pars.intersection(common_params))

    print "Common parameters are %s"%str(common_params)

    if injection is None and injection_path is not None:
        import itertools
        injections = SimInspiralUtils.ReadSimInspiralFromFiles([injection_path])
        injection=bppu.get_inj_by_time(injections,pos_temp.means['time'])
    if injection is not None:
        for pos in pos_list.values():
            pos.set_injection(injection)

    set_of_pars = set(allowed_params)
    common_params=list(set_of_pars.intersection(common_params))

    print "Using parameters %s"%str(common_params)

    if not os.path.exists(os.path.join(os.getcwd(),'results')):
        os.makedirs('results')

    if not os.path.exists(outdir):
        os.makedirs(outdir)

    pdfdir=os.path.join(outdir,'pdfs')
    if not os.path.exists(pdfdir):
        os.makedirs(pdfdir)

    greedy2savepaths=[]

    if common_params is not [] and common_params is not None: #If there are common parameters....
        colorlst=bppu.__default_color_lst

        if len(common_params)>1: #If there is more than one parameter...
            temp=copy.copy(common_params)
            #Plot two param contour plots

            #Assign some colours to each different analysis result
            color_by_name={}
            hatches_by_name={}
            my_cm=mpl_cm.Dark2
            cmap_size=my_cm.N
            color_idx=0
            color_idx_max=len(names_and_pos_folders)
            cmap_array=my_cm(np.array(range(cmap_size)))
            #cmap_array=['r','g','b','c','m','k','0.5','#ffff00']
            hatches=['/','\\','|','-','+','x','o','O','.','*']
            ldg='auto'
            if not ldg_flag:
              ldg=None
            for name,infolder in names_and_pos_folders:
                #color_by_name=cmap_array[color_idx]
                color_by_name[name]=cmap_array[int(floor(color_idx*cmap_size/color_idx_max)),:]
                color_idx+=1
                hatches_by_name[name]=hatches[color_idx]

            for i,j in all_pairs(temp):#Iterate over all unique pairs in the set of common parameters
                pplst=[i,j]
                rpplst=pplst[:]
                rpplst.reverse()

                pplst_cond=(pplst in twoDplots)
                rpplst_cond=(rpplst in twoDplots)
                if pplst_cond or rpplst_cond:#If this pair of parameters is in the plotting list...

                    try:
                        print '2d plots: building ',i,j
                        greedy2Params={i:greedyBinSizes[i],j:greedyBinSizes[j]}
                    except KeyError:
                        continue

                    name_list=[]
                    cs_list=[]

                    slinestyles=['solid', 'dashed', 'dashdot', 'dotted']

                    fig=bppu.plot_two_param_kde_greedy_levels(pos_list,greedy2Params,TwoDconfidenceLevels,color_by_name,figsize=contour_figsize,dpi=contour_dpi,figposition=contour_figposition,legend=ldg,line_styles=slinestyles,hatches_by_name=hatches_by_name,Npixels=Npixels2D)
                    if fig is None: continue
                    #fig=bppu.plot_two_param_greedy_bins_contour(pos_list,greedy2Params,TwoDconfidenceLevels,color_by_name,figsize=contour_figsize,dpi=contour_dpi,figposition=contour_figposition)
                    greedy2savepaths.append('%s-%s.png'%(pplst[0],pplst[1]))
                    fig.savefig(os.path.join(outdir,'%s-%s.png'%(pplst[0],pplst[1])),bbox_inches='tight')
                    fig.savefig(os.path.join(pdfdir,'%s-%s.pdf'%(pplst[0],pplst[1])),bbox_inches='tight')


            plt.clf()
        oned_data={}
        #confidence_levels={}
        confidence_levels=[{},{},{},{}]
        confidence_uncertainty={}
        for param in common_params:
            print "Plotting comparison for '%s'"%param

            cl_table_header='<table><th>Run</th>'
            cl_table={}
            save_paths=[]
            cl_table_min_max_str='<tr><td> Min | Max </td>'
            level_index=0
            for confidence_level in OneDconfidenceLevels:
		if analyticLikelihood:
		  pdf=analyticLikelihood.pdf(param)
		  cdf=analyticLikelihood.cdf(param)
		else:
		  pdf=None
		  cdf=None
		  
                cl_table_header+='<th colspan="2">%i%% (Lower|Upper)</th>'%(int(100*confidence_level))
                hist_fig,cl_intervals=compare_plots_one_param_line_hist(pos_list,param,confidence_level,color_by_name,cl_lines_flag=clf,legend=ldg,analyticPDF=pdf)
                hist_fig2,cl_intervals=compare_plots_one_param_line_hist_cum(pos_list,param,confidence_level,color_by_name,cl_lines_flag=clf,analyticCDF=cdf,legend=ldg)

                # Save confidence levels and uncertainty
                #confidence_levels[param]=[]
                confidence_levels[level_index][param]=[]
                
                for name,pos in pos_list.items():
                    median=pos[param].median
                    low,high=cl_intervals[name]
                    #confidence_levels[param].append((name,low,median,high))
                    confidence_levels[level_index][param].append((name,low,median,high))
                    
                level_index=level_index+1
                cl_bounds=[]
                poses=[]
                for name,pos in pos_list.items():
                    cl_bounds.append(cl_intervals[name])
                    poses.append(pos[param])
                confidence_uncertainty[param]=bppu.confidence_interval_uncertainty(confidence_level, cl_bounds, poses)

                save_path=''
                if hist_fig is not None:
                    save_path=os.path.join(outdir,'%s_%i.png'%(param,int(100*confidence_level)))
                    save_path_pdf=os.path.join(pdfdir,'%s_%i.pdf'%(param,int(100*confidence_level)))
                    try:
                      plt.tight_layout(hist_fig)
                      plt.tight_layout(hist_fig2)
                    except:
                      pass
                    hist_fig.savefig(save_path,bbox_inches='tight')
                    hist_fig.savefig(save_path_pdf,bbox_inches='tight')
                    save_paths.append(save_path)
                    save_path=os.path.join(outdir,'%s_%i_cum.png'%(param,int(100*confidence_level)))
                    save_path_pdf=os.path.join(pdfdir,'%s_%i_cum.pdf'%(param,int(100*confidence_level)))
                    hist_fig2.savefig(save_path,bbox_inches='tight')
                    hist_fig2.savefig(save_path_pdf,bbox_inches='tight')
                    save_paths.append(save_path)
                min_low,max_high=cl_intervals.values()[0]
                for name,interval in cl_intervals.items():
                    low,high=interval
                    if low<min_low:
                        min_low=low
                    if high>max_high:
                        max_high=high
                    try:
                        cl_table[name]+='<td>%s</td><td>%s</td>'%(low,high)
                    except:
                        cl_table[name]='<td>%s</td><td>%s</td>'%(low,high)
                cl_table_min_max_str+='<td>%s</td><td>%s</td>'%(min_low,max_high)
            cl_table_str=cl_table_header
            for name,row_contents in cl_table.items():
                cl_table_str+='<tr><td>%s<font color="%s"></font></td>'%(name,str(mpl_colors.rgb2hex(color_by_name[name][0:3])))#,'&#183;'.encode('utf-8'))

                cl_table_str+=row_contents+'</tr>'
            cl_table_str+=cl_table_min_max_str+'</tr>'
            cl_table_str+='</table>'

            cl_uncer_str='<table> <th>Confidence Relative Uncertainty</th> <th>Confidence Fractional Uncertainty</th> <th>Confidence Percentile Uncertainty</th>\n'
            cl_uncer_str+='<tr> <td> %g </td> <td> %g </td> <td> %g </td> </tr> </table>'%(confidence_uncertainty[param][0], confidence_uncertainty[param][1], confidence_uncertainty[param][2])

            ks_matrix=compute_ks_pvalue_matrix(pos_list, param)

            N=ks_matrix.shape[0]+1

            # Make up KS-test table
            ks_table_str='<table><th colspan="%d"> K-S test p-value matrix </th>'%N

            # Column headers
            ks_table_str+='<tr> <td> -- </td> '
            for name,pos in pos_list.items():
                ks_table_str+='<td> %s </td>'%name
            ks_table_str+='</tr>'

            # Now plot rows of matrix
            for i in range(len(pos_list)):
                ks_table_str+='<tr> <td> %s </td>'%(pos_list.keys()[i])
                for j in range(len(pos_list)):
                    if i == j:
                        ks_table_str+='<td> -- </td>'
                    elif ks_matrix[i,j] < 0.05:
                        # Failing at suspiciously low p-value
                        ks_table_str+='<td> <b> %g </b> </td>'%ks_matrix[i,j]
                    else:
                        ks_table_str+='<td> %g </td>'%ks_matrix[i,j]

                ks_table_str+='</tr>'

            ks_table_str+='</table>'

            oned_data[param]=(save_paths,cl_table_str,ks_table_str,cl_uncer_str)
            
    # Watch out---using private variable _logL
    max_logls = [[name,max(pos._logL)] for name,pos in pos_list.items()]

    return greedy2savepaths,oned_data,confidence_uncertainty,confidence_levels,max_logls
Esempio n. 6
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parser.add_option("-c","--code",dest="c")

(options, args) = parser.parse_args()

if (options.i == None or options.o == None or options.j == None or options.e == None):
    parser.error("not enough arguments")
input=options.i
output=options.o
injFile=options.j
event=options.e
code=options.c

file = open(input,'r')

from pylal import SimInspiralUtils
injections = SimInspiralUtils.ReadSimInspiralFromFiles([injFile])

if(len(injections)<event):
    print "Error: You asked for event %d, but %s contains only %d injections" %(event,injfile,len(injections))
    sys.exit(1)
else:
    injection = injections[event]


def grabParam(posterior,injVal,param_name):
    counter = 0
    total = 0
    countSamples = 0
    
    column = None
    for line in posterior:
Esempio n. 7
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	cp.set('data',ifo.lower()+'-channel',channel)

if cp.has_option('analysis','time-slide-dump'):
	timeslidefiledump= cp.get('analysis','time-slide-dump')
else:
	timeslidefiledump=None

time_event=None
if opts.inj and cp.has_option('analysis','events'):
    time_event={}
    events=[]
    times=[]
    raw_events=cp.get('analysis','events').replace('[','').replace(']','').split(',')

    from pylal import SimInspiralUtils
    injTable=SimInspiralUtils.ReadSimInspiralFromFiles([opts.inj])

    if 'all' is raw_events or 'all' in raw_events:
        events=range(len(injTable))

    else:
        for raw_event in raw_events:
            if ':' in raw_event:
                limits=raw_event.split(':')
                if len(limits) != 2:
                    print "Error: in event config option; ':' must separate two numbers."
                    exit(0)
                low=int(limits[0])
                high=int(limits[1])
                if low>high:
                    events.extend(range(int(high),int(low)))