def main(args): #Start with clean set of parameters all_params={} #get predictor modules predictors=User.predictors.get(args.predictors) predictor_modules=import_predictor_modules(predictors) all_params.update(predictor_modules) #FIXME: need to come up with generalised parsing of options to the predictors #get versions versions=User.versions.get(args.versions) for predictor , versions in versions.items(): if predictor==predictors['spectrum_generator']: try: all_params[predictor]['version']=versions except KeyError: all_params[predictor]={'version':versions} else: try: all_params[predictor]['versions']=versions except KeyError: all_params[predictor]={'versions':versions} #this is afterburner style if args.mc_cmssm : all_params.update(inputs.get_mc_cmssm_inputs(*(args.mc_cmssm))) elif args.mc_cmssm_default: all_params.update(inputs.get_mc_cmssm_inputs(271.378279475, 920.368119935, 14.4499538001, -1193.57068242, 173.474173, 91.1877452551, 0.0274821578423)) elif args.mc_neg_mu_cmssm : all_params.update(inputs.get_mc_neg_mu_cmssm_inputs(*(args.mc_neg_mu_cmssm))) elif args.mc_nuhm1 : all_params.update(inputs.get_mc_nuhm1_inputs(*(args.mc_nuhm1))) elif args.mc_neg_mu_nuhm1 : all_params.update(inputs.get_mc_neg_mu_nuhm1_inputs(*(args.mc_neg_mu_nuhm1))) elif args.mc_nuhm1_default : all_params.update(inputs.get_mc_nuhm1_inputs(237.467776964, 968.808711245, 15.649644, -1858.78698798, -6499529.79661, 173.385870186, 91.1875000682, 0.0274949856504)) elif args.mc_pmssm8 : all_params.update(inputs.get_mc_pmssm8_inputs(*(args.mc_pmssm8))) elif args.mc_pmssm10 : all_params.update(inputs.get_mc_pmssm10_inputs(*(args.mc_pmssm10))) elif args.mc_pmssm10_default : all_params.update(inputs.get_mc_pmssm10_inputs(1663.99,1671.75,414.131,294.935,311.199,1712.73, 1841.21,718.489,43.4923,775.09,173.233,91.1874,0.0275018)) elif args.run_softsusy_input_slha: all_params.update({'SoftSUSY':{'file':args.run_softsusy_input_slha}}) elif args.run_spectrum: all_params.update({'spectrumfile':args.run_spectrum}) #check for command line input parameters if args.input_pars is not None: command_line_dict=eval(args.input_pars) for key, value in command_line_dict.items(): # if input_pars.get(key) is None: # input_pars.update if isinstance(value,dict) and (all_params.get(key) is not None): all_params[key].update(value) else: all_params[key]=value #check for tmp_dir if args.tmp_dir: all_params.update({'tmp_dir':args.tmp_dir}) #print inputs like if 'inputs' in args.verbose: print(all_params) #check verbosity if args.verbose: all_params['verbose']=args.verbose try: slha_obj, point ,stdouts = POINT.run_point(**all_params) except TypeError: print("ERROR: Point failed to run") exit() if __name__=="__main__" and slha_obj is None: print('ERROR: Point fails\nExiting') exit() if not args.suppress_chi2_calc: all_constraints=Constraints_list.constraints #mc8 data set try: data_set=data_sets[args.data_set] except KeyError: print("WARNING: \"{}\" invalid data set. No X^2 is calculated".format(args.data_set)) data_set=[] if not args.suppress_chi2_calc: constraints={name: all_constraints[name] for name in data_set} #FIXME: this should become a separate file #pass this constraints list to the chi2 function if not args.suppress_chi2_calc: total, breakdown = Analyse.chi2(point,constraints) # optional printing if args.obs: pp.pprint(point) if args.breakdown: Analyse.print_chi2_breakdown(point, constraints,data_set) # save to root if args.root_save: # NOTE: for old_mc_rootstorage, need X^2 point[('tot_X2','all')]=total root.root_open(args.root_save) VARS=old_mc_rootstorage.get_VARS(point,point[('m','in_o')]) root.root_write(VARS) root.root_close() if args.json_breakdown: l=[] for d in data_set: l.append([d,breakdown[d]]) with open(args.json_breakdown,'w') as f: json.dump(l,f) # print only observable keys if args.observable_keys: pp.pprint([key for key in point.keys()]) # store observables to piclked file if args.store_pickle: with open(args.store_pickle,'wb') as pickle_file: pickle.dump(point,pickle_file) #create json file with [('oid1','oid2',array_id), ... ] for storage array ids if args.create_storage_dict: point=OrderedDict([(('tot_X2', 'all'),0)]+list(point.items())) l=[] i=0 #make list for key,val in point.items(): oid1,oid2=key l.append([oid1,oid2,i]) i+=1 #store as json file with open(args.create_storage_dict,'w') as f: json.dump(l,f,indent=3) if args.numpy_out : if args.storage_dict: with open(args.storage_dict, 'r') as f: l=json.load(f) d={(oid1,oid2):array_id for oid1,oid2, array_id in l} #start with list of None's vars=[None]*len(d) #Fill with values for oids, val in point.items(): vars[d[oids]]=val dt=numpy.dtype(len(vars)*[('','f')]) vars=numpy.array(tuple(vars),dtype=dt) try: a=numpy.load(args.numpy_out) print(args.numpy_out,'exists. Appending') a=numpy.append(a,vars) except FileNotFoundError: print('creating: ', args.numpy_out) a=vars numpy.save(args.numpy_out,a) #FIXME: we may want a better way of doing this return slha_obj, point ,stdouts
if __name__=="__main__" : con = None args= parse_args() try: #connection and cursor con=sqlite3.connect(args.input_file) cur=con.cursor() #retrieve a point n_points=args.n_points root.root_open('temp/test.root') cur.execute('select * from points limit {}'.format(n_points)) for row in cur: root.root_write(row) root.root_close() # rows=cur.fetchmany(100000) # points=sql.retrieve_points_from_rows(con,cur,rows) # Finalise ... except sqlite3.Error as e: if con: con.rollback() print('ERROR: {}'.format(e.args[0])) sys.exit() finally: if con: con.close() # # # save to root # if args.root_save:
def signal_handler(signal, frame): print('EXITING ON SIGNAL:'.format(signal)) if args.root_out: root.root_close() sys.exit(0)