def start_uploading(settings): """ start uploading process based on "upload_scheduler.txt" :return: None """ today = datetime.date.today() with open("upload_scheduler.txt", "r") as f: lines = [l for l in f if l.strip()] for i, lin in enumerate(lines): path, time, status = lin.split() program = os.path.basename(os.path.dirname(path)) target_date = datetime.datetime.strptime(time, "%Y-%m-%d").date() if status == "pending" and target_date == today: if program not in args.observing_programs: Message.addMessage( "skipping uploading program: {} ({})".format( program, os.path.basename(path)), dump="header") continue Message.clearMessage("program") Message.clearMessage("session") Message.clearMessage("download") Message.clearMessage("log") upload = settings[program].get("upload", "no").lower() if upload == "ivs": code = os.path.basename(os.path.dirname(path)) Transfer.upload(path) emails = Helper.read_emails(settings[program], args.fallback_email) SendMail.writeMail_upload(code, emails) elif upload == "no": pass elif upload == "gow": code = os.path.basename(os.path.dirname(path)) Transfer.upload_GOW_ftp(path) emails = Helper.read_emails(settings[program], args.fallback_email) SendMail.writeMail_upload(code, emails) else: emails = upload.split(",") with open(os.path.join(path, "selected", "email.txt"), "r") as f: body = f.read() SendMail.writeMail(os.path.join(path, "selected"), emails, body) lines[i] = lin.replace("pending", "uploaded") with open("upload_scheduler.txt", "w") as f: for lout in lines: path, time, status = lout.split() target_date = datetime.datetime.strptime(time, "%Y-%m-%d").date() # do not list sessions older than 1 year in upload_scheduler.txt if target_date + datetime.timedelta(days=365) > today: f.write(lout)
def listen_worker(): Transfer.listen(listenport) while True: global enemy_playerX string = Transfer.receive() if "Playerposition:" in string: string_list = string.split(":") enemy_playerX = int(float(string_list[1])) elif "Bomb:" in string: string_list = string.split(":") bomb_list.append([int(float(string_list[1])), enemy_playerY])
def post(self, request, filename, format=None): # .encode('utf-8').decode('utf-8-sig') will remove the \ufeff in the string when add string as value in # a dictionary. domain_file = request.data['domain'].encode('utf-8').decode( 'utf-8-sig').lower() problem_file = request.data['problem'].encode('utf-8').decode( 'utf-8-sig').lower() animation_file = request.data['animation'].encode('utf-8').decode( 'utf-8-sig') # add url if "url" in request.data: url_link = request.data['url'] else: url_link = "http://solver.planning.domains/solve" predicates_list = Domain_parser.get_domain_json(domain_file) plan = Plan_generator.get_plan(domain_file, problem_file, url_link) problem_dic = Problem_parser.get_problem_dic(problem_file, predicates_list) object_list = Problem_parser.get_object_list(problem_file) animation_profile = json.loads( Animation_parser.get_animation_profile(animation_file, object_list)) stages = Predicates_generator.get_stages(plan, problem_dic, problem_file, predicates_list) objects_dic = Initialise.initialise_objects(stages["objects"], animation_profile) myfile = open('stagejson', 'w') # Write a line to the file myfile.write(json.dumps(stages)) # Close the file myfile.close() myfile = open('objects_dic', 'w') # Write a line to the file myfile.write(json.dumps(objects_dic)) # Close the file myfile.close() myfile = open('animation_profile', 'w') # Write a line to the file myfile.write(json.dumps(animation_profile)) # Close the file myfile.close() result = Solver.get_visualisation_dic(stages, animation_profile, plan['result']['plan'], problem_dic) visualisation_file = Transfer.generate_visualisation_file( result, list(objects_dic.keys()), animation_profile, plan['result']['plan']) return Response(visualisation_file)
def updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel = None): if pComponent["componenttype"] == Cassette.componentType: return Cassette.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Add.componentType: return Add.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Evaporate.componentType: return Evaporate.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Transfer.componentType: return Transfer.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == React.componentType: return React.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Prompt.componentType: return Prompt.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Install.componentType: return Install.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Comment.componentType: return Comment.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == TrapF18.componentType: return TrapF18.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == EluteF18.componentType: return EluteF18.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Initialize.componentType: return Initialize.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Mix.componentType: return Mix.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Move.componentType: return Move.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Summary.componentType: return Summary.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == ExternalAdd.componentType: return ExternalAdd.updateToComponent(pUnitOperation, nSequenceID, pComponent, username, database, systemModel) else: raise Exception("Unknown component type: " + pComponent["componenttype"])
def get_transfers_out_of_corp(db, corp_id): raw = db.execute( "SELECT * FROM transfers WHERE source=? ORDER BY date ASC", (corp_id, )).fetchall() return list( map(lambda t: Transfer.Transfer(t[0], t[1], t[2], t[3], t[4]), raw))
def simulateNetworksThreadedFAST(param_value): folderPath = 'D:\\sensitivityAnalaysisVirtualSocFAST\\' explorationProbability = param_value[0] popularityPreferenceIntensity = param_value[1] connectionPercentageWithMatchedNodes = param_value[2] mutualPreferenceIntensity = [ param_value[3], param_value[4], param_value[5] ] i = param_value[6] os.mkdir(folderPath + '\\' + str(i)) graphTemp1 = RandomSocialGraphAdvanced( labelSplit=[100, 200, 300], connectionPercentageWithMatchedNodes= connectionPercentageWithMatchedNodes, explorationProbability=explorationProbability, addTraidtionalFeatures=False, additionalFeatureLen=3, npDistFunc=[ 'np.random.randint(18, high=80)', 'np.random.binomial(2, 0.5)' ], popularityPreferenceIntensity=popularityPreferenceIntensity, mutualPreferenceIntensity=mutualPreferenceIntensity) # graphTemp1 = RandomSocialGraphAdvanced(labelSplit=[100, 200, 300], # connectionPercentageWithMatchedNodes=param_value[2], # explorationProbability=param_value[0], # addTraidtionalFeatures=False, additionalFeatureLen=3, # npDistFunc=['np.random.randint(18, high=80)', # 'np.random.binomial(2, 0.5)'], # popularityPreferenceIntensity=param_value[1], # mutualPreferenceIntensity=[param_value[3],param_value[4],param_value[5]]) tp.WriteToFile(graphTemp1).easySaveEverything(folderPath + str(i) + '\\') i += 1
def encode_old(reference, journal): """ encode reference object to a specific journal :param reference: a Reference Object :param journal: any journal in Defs :return: formatted string """ return Transfer.encode(reference, journal)
def run(self, evt): t0 = time.time() print(self.num_steps, self.style_weight, self.content_weight, type(self.num_steps)) if not self.StatusBar.busy: self.status2busy() Transfer(self.img_style, self.img_cont, "./data") self.timer.Start(1000)
def simulateNetworksEasy2(folderPath): explorationProbabilityV = np.linspace(0.01, 0.1, 2) popularityPreferenceIntensityV = np.linspace(0.5, 1.5, 2) connectionPercentageWithMatchedNodesV = np.linspace(0.5, 2, 2) mutualPreferenceIntensityV = [] len2 = np.random.uniform(low=0.7, high=1.0, size=2) len3 = np.random.uniform(low=0.3, high=0.7, size=2) len4 = np.random.uniform(low=0.0, high=0.3, size=2) for i in range(0, 2): mutualPreferenceIntensityV.append([len2[i], len3[i], len4[i]]) # popularityPreferenceIntensityV = np.arange(1,10,1) # popularityPreferenceIntensityV = popularityPreferenceIntensityV.tolist() for explorationProbability in explorationProbabilityV: for connectionPercentageWithMatchedNodes in connectionPercentageWithMatchedNodesV: for popularityPreferenceIntensity in popularityPreferenceIntensityV: for mutualPreferenceIntensity in mutualPreferenceIntensityV: os.mkdir(folderPath + '\\' + 'EP' + str(explorationProbability) + 'CPN' + str(connectionPercentageWithMatchedNodes) + 'PP' + str(popularityPreferenceIntensity) + 'mpi' + str(mutualPreferenceIntensity[0]) + str(mutualPreferenceIntensity[1]) + str(mutualPreferenceIntensity[2])) graphTemp1 = RandomSocialGraphAdvanced( labelSplit=[500, 1000, 1500], connectionPercentageWithMatchedNodes= connectionPercentageWithMatchedNodes, explorationProbability=explorationProbability, addTraidtionalFeatures=False, additionalFeatureLen=3, npDistFunc=[ 'np.random.randint(18, high=80)', 'np.random.binomial(2, 0.5)' ], popularityPreferenceIntensity= popularityPreferenceIntensity, mutualPreferenceIntensity=mutualPreferenceIntensity) graphTemp1.mutateDNAandSocialise(mutationIntensity=0.3) graphTemp1.socialise() graphTemp1.mutateDNAandSocialise(mutationIntensity=0.7) graphTemp1.socialise() tp.WriteToFile(graphTemp1).easySaveEverything( folderPath + '\\' + 'EP' + str(explorationProbability) + 'CPN' + str(connectionPercentageWithMatchedNodes) + 'PP' + str(popularityPreferenceIntensity) + 'mpi' + str(mutualPreferenceIntensity[0]) + str(mutualPreferenceIntensity[1]) + str(mutualPreferenceIntensity[2]) + '\\')
def simulateNetworksEasymutualPreferenceIntensityTest2(folderPath): explorationProbabilityV = [0.5] popularityPreferenceIntensityV = [1] connectionPercentageWithMatchedNodesV = [10.00] mutualPreferenceIntensityV = [] len2 = np.random.uniform(low=20, high=30, size=300) len3 = np.random.uniform(low=10, high=20, size=300) len4 = np.random.uniform(low=1, high=10, size=300) for i in range(0, 300): mutualPreferenceIntensityV.append([len2[i], len3[i], len4[i]]) # popularityPreferenceIntensityV = np.arange(1,10,1) # popularityPreferenceIntensityV = popularityPreferenceIntensityV.tolist() for explorationProbability in explorationProbabilityV: for connectionPercentageWithMatchedNodes in connectionPercentageWithMatchedNodesV: for popularityPreferenceIntensity in popularityPreferenceIntensityV: for mutualPreferenceIntensity in mutualPreferenceIntensityV: os.mkdir(folderPath + '\\' + 'EP' + str("%6.5f" % explorationProbability) + 'CPN' + str("%6.3f" % connectionPercentageWithMatchedNodes) + 'PP' + str("%6.3f" % popularityPreferenceIntensity) + 'mpi' + str("%6.3f" % mutualPreferenceIntensity[0]) + str("%6.3f" % mutualPreferenceIntensity[1]) + str("%6.3f" % mutualPreferenceIntensity[2])) graphTemp1 = RandomSocialGraphAdvanced( labelSplit=[100, 200, 300], connectionPercentageWithMatchedNodes= connectionPercentageWithMatchedNodes, explorationProbability=explorationProbability, addTraidtionalFeatures=False, additionalFeatureLen=3, npDistFunc=[ 'np.random.randint(18, high=80)', 'np.random.binomial(2, 0.5)' ], popularityPreferenceIntensity= popularityPreferenceIntensity, mutualPreferenceIntensity=mutualPreferenceIntensity) graphTemp1.socialise() graphTemp1.socialise() tp.WriteToFile(graphTemp1).easySaveEverything( folderPath + '\\' + 'EP' + str("%6.5f" % explorationProbability) + 'CPN' + str("%6.3f" % connectionPercentageWithMatchedNodes) + 'PP' + str("%6.3f" % popularityPreferenceIntensity) + 'mpi' + str("%6.3f" % mutualPreferenceIntensity[0]) + str("%6.3f" % mutualPreferenceIntensity[1]) + str("%6.3f" % mutualPreferenceIntensity[2]) + '\\')
def createFromComponent(nSequenceID, pComponent, username, database, systemModel=None): if pComponent["componenttype"] == Cassette.componentType: return Cassette.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Add.componentType: return Add.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Evaporate.componentType: return Evaporate.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Transfer.componentType: return Transfer.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == React.componentType: return React.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Prompt.componentType: return Prompt.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Install.componentType: return Install.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Comment.componentType: return Comment.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == TrapF18.componentType: return TrapF18.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == EluteF18.componentType: return EluteF18.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Initialize.componentType: return Initialize.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Mix.componentType: return Mix.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Move.componentType: return Move.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == Summary.componentType: return Summary.createFromComponent(nSequenceID, pComponent, username, database, systemModel) elif pComponent["componenttype"] == ExternalAdd.componentType: return ExternalAdd.createFromComponent(nSequenceID, pComponent, username, database, systemModel) else: raise Exception("Unknown component type: " + pComponent["componenttype"])
def simulateNetworksEasy(folderPath): explorationProbabilityV = np.linspace(0.1, 0.5, 3) connectionPercentageWithMatchedNodesV = np.arange(5, 30, 3) # popularityPreferenceIntensityV = np.arange(1,10,1) # popularityPreferenceIntensityV = popularityPreferenceIntensityV.tolist() for explorationProbability in explorationProbabilityV: for connectionPercentageWithMatchedNodes in connectionPercentageWithMatchedNodesV: for popularityPreferenceIntensity in range(1, 5): os.mkdir(folderPath + '\\' + 'EP' + str(explorationProbability) + 'CPN' + str(connectionPercentageWithMatchedNodes) + 'PPV' + str(popularityPreferenceIntensity)) graphTemp1 = RandomSocialGraphAdvanced( labelSplit=[500, 1000, 1500], connectionPercentageWithMatchedNodes= connectionPercentageWithMatchedNodes, explorationProbability=explorationProbability, addTraidtionalFeatures=True, additionalFeatureLen=2, npDistFunc=[ 'np.random.randint(18, high=80)', 'np.random.binomial(2, 0.5)' ], popularityPreferenceIntensity=popularityPreferenceIntensity, mutualPreferenceIntensity=[3, 2, 1]) graphTemp1.mutateDNAandSocialise(mutationIntensity=0.3) graphTemp1.mutateDNAandSocialise(mutationIntensity=0.5) graphTemp1.mutateDNAandSocialise(mutationIntensity=0.7) graphTemp1.socialise() tp.WriteToFile(graphTemp1).easySaveEverything( folderPath + '\\' + 'EP' + str(explorationProbability) + 'CPN' + str(connectionPercentageWithMatchedNodes) + 'PPV' + str(popularityPreferenceIntensity) + '\\')
def start_scheduling(settings): """ start VieSched++ AUTO processing :return: None """ prefix = settings["general"].get("prefix_output_folder", "Schedules") if os.sep == "\\": prefix = prefix.replace("/", "\\") path_scheduler = settings["general"].get("path_to_scheduler") if not os.path.exists("upload_scheduler.txt"): with open("upload_scheduler.txt", "w"): pass Message.addMessage("VieSched++ AUTO report", dump="header") today = datetime.date.today() Message.addMessage("date: {:%B %d, %Y}".format(today), dump="header") Message.addMessage("computer: {}, Python {}".format( platform.node(), platform.python_version()), dump="header") if settings["general"].get("institute") is not None: Message.addMessage("institution: {}".format( settings["general"].get("institute")), dump="header") Message.addMessage( "This is an automatically generated message. Do NOT reply to this email directly!", dump="header") # download files if not args.no_download: Transfer.download_ftp() Transfer.download_http() else: Message.addMessage("no downloads", dump="header") # start processing all programs for program in settings.sections(): if program == "general": continue if program not in args.observing_programs: print("skipping scheduling observing program: {}".format(program)) continue s_program = settings[program] emails = Helper.read_emails(s_program, args.fallback_email) delta_days = s_program.get("schedule_date", "10") if args.date is not None: try: target_day = datetime.datetime.strptime(args.date, '%Y-%m-%d') delta_days = (target_day.date() - today).days year = target_day.year % 100 except ValueError: print("ERROR while interpreting target date (-d option): {}". format(args.date)) print( " must be in format \"yyyy-mm-dd\" (e.g.: 2020-01-31)") return else: try: target_day = datetime.datetime.strptime(delta_days, '%Y-%m-%d') delta_days = (target_day.date() - today).days year = target_day.year % 100 except ValueError: if delta_days.isnumeric(): delta_days = int(delta_days) target_day = today + datetime.timedelta(days=delta_days) year = target_day.year % 100 else: delta_days = delta_days.lower() year = today.year % 100 delta_days_upload = s_program.getint("upload_date", 7) statistic_field = s_program.get("statistics").split(",") upload = True if s_program.get("upload", "no").lower() == "no": upload = False # read master files template_master = Template(s_program.get("master", "master$YY.txt")) master = template_master.substitute(YY=str(year)) master = os.path.join("MASTER", master) sessions = Helper.read_master(master) try: pattern = s_program["pattern"] f = Helper.find_function(select_best_functions, s_program["function"])[0] f_pre = Helper.find_function( pre_scheduling_functions, s_program.get("pre_scheduling_functions", "")) f_post = Helper.find_function( post_scheduling_functions, s_program.get("post_scheduling_functions", "")) start(sessions, path_scheduler, program, pattern, f, emails, delta_days, delta_days_upload, statistic_field, prefix, upload, f_pre, f_post) except: Message.addMessage("#### ERROR ####") Message.addMessage(traceback.format_exc()) SendMail.writeErrorMail(emails)
def transfer(self): self.root.destroy() obj2 = Transfer.transfer_class(self.id)
if event.type == QUIT: pygame.quit() sys.exit() elif event.type == pygame.MOUSEBUTTONDOWN: Released = False Pressed = True Down = True elif event.type == pygame.MOUSEBUTTONUP: Released = True Pressed = False Down = False elif event.type == pygame.KEYDOWN: if Grinch_start == True: bomb_list.append([current_playerX, current_playerY]) if Grinch_start == True: Transfer.send(sendip, semdport, str("Bomb:" + str(current_playerX))) if Pressed == True: mouse_x, mouse_y = pygame.mouse.get_pos() if mouse_x > current_playerX and mouse_x < current_playerX + current_image.get_width() and mouse_y > current_playerY and mouse_y < current_playerY + current_image.get_height(): current_playerX = mouse_x - current_image.get_width() / 2 Transfer.send(sendip, semdport, str("Playerposition:" + str(current_playerX))) if Down and Target != None: Target.pos = pos if Released: Target = None pygame.display.update() fpsClock.tick(FPS)
def checkDetails(self): con = cx_Oracle.connect('surya/peace@localhost/xe') cur = con.cursor() i = 0 d = 1 count = 0 print("\n\n\t\tSign In To Your Account\n") while (i != 1): cust = input("Enter Customer Id: ") try: cur.execute( "select CUSTOMER_ID,STATUS from CUSTOMER_DETAILS where CUSTOMER_ID=:1", (cust, )) user1 = cur.fetchall() self.cid = user1[0][0] '''print(cid)''' if (self.cid == int(cust)): cst = user1[0][1] if (cst == 'OPEN'): break else: print("Your Account is Blocked/Closed.") d = 0 break except: print("Invalid customer id.Please Enter again!") while (d != 0): pwd = input("Enter password:"******"select password from CUSTOMER_DETAILS where password=:m and CUSTOMER_ID=:1", ( pwd, self.cid, )) u = cur.fetchall() p = u[0][0] if (p == pwd): print("\n\tSuccessfully Logged In!") count = 0 ach = 0 while (ach != 7): print('\n\t\tUser Menu') print('\n\t1.Address Change') print('\n\t2.Money Deposit') print('\n\t3.Money Withdrawal') print('\n\t4.Print Statement') print('\n\t5.Transfer Money') print('\n\t6.Account Closure') print('\n\t7.Customer Logout') adch = input("\n\nSelect Option: ") if adch == '1': print('\n\n\t\tEnter New Address Details') self.al1 = input('Address Line 1: ') self.al2 = input('Address Line 2: ') self.addr = self.al1 + ' ' + self.al2 self.city = input('City: ') self.state = input('State: ') f = 1 while (f != 0): self.pin = input('Pincode: ') tmp = self.pin if (len(str(tmp)) != 6): print("Pincode should be of 6 digits.") else: f = 0 try: cur.execute( "UPDATE customer_details SET ADDRESS=:1,CITY=:2,STATE=:3,PINCODE=:4 WHERE CUSTOMER_ID=:5", ( self.addr, self.city, self.state, self.pin, self.cid, )) con.commit() print( '\tAddress has been successfully updated') except Exception as e: print(e) print("\tAddress Update Failed!! Try again") elif adch == '2': try: dep = Deposit.Deposit() dep.deposit() except Exception as e: print("Error: ", e) elif adch == '3': try: w = Withdrawal.Withdrawal() w.withdrawal() except Exception as e: print("Error: ", e) elif adch == '4': print('\n\n\t\tPrint Statement') acc = input('Enter Account Number: ') try: cur.execute( "select ACCOUNT_NO from account_details where ACCOUNT_NO=:a AND CUSTOMER_ID=:c", { 'a': acc, 'c': self.cid }) user = cur.fetchall() ac = user[0][0] if ac == int(acc): tag = 1 '''while (tag != 0): dateto = input("Enter Date To(mm/dd/yyyy): ") datefr = input("Enter Date From(mm/dd/yyyy): ") import time dt = time.strptime(dateto, "%m/%d/%Y") df = time.strptime(datefr, "%m/%d/%Y") if (dt > df): tag = 0 else: print("\tDate To should be greater than Date From.\n\tEnter correct dates.")''' try: cur.execute( "select TRAN_DATE,CREDIT,DEBIT,CUR_BALANCE,ACCOUNT_NO from transaction_details where ACCOUNT_NO=:a", { 'a': acc, }) ad = cur.fetchall() an = ad[0][4] if an == int(acc): print( "\t Transaction DATE\t\tTRANSACTION TYPE\tAMOUNT\tBALANCE" ) for i in range(0, cur.rowcount): if ad[i][1] == 0: print( "\t", ad[i][0], "\t\tDebit\t\t ", ad[i][2], " ", ad[i][3]) else: print( "\t", ad[i][0], "\t\tCredit\t\t ", ad[i][1], " ", ad[i][3]) except Exception as e: print(e) print( "\tNo Transaction Record Found. Customer has not performed any transactions." ) except Exception as e: print(e) print( '\tInvalid Account Number!!\n\tTry again!!' ) elif adch == '5': try: tra = Transfer.Transfer() tra.transfer() except: pass #print("Error: ", e) elif adch == '6': print('\n\n\t\tAccount Closure') acc = input('Enter Account Number: ') try: cur.execute( "select ACCOUNT_NO from account_details where ACCOUNT_NO=:a AND CUSTOMER_ID=:c", { 'a': acc, 'c': self.cid }) user = cur.fetchall() ac = user[0][0] if ac == int(acc): try: cur.execute( "select S_ACCOUNT_NO,BALANCE from savings_account_details where S_ACCOUNT_NO=:1", (acc, )) ad = cur.fetchall() an = ad[0][0] if an == int(acc): b = ad[0][1] if b >= 2000: b = b - 2000 cur.execute( "UPDATE savings_account_details SET STATUS='CLOSED',BALANCE=:1 WHERE S_ACCOUNT_NO=:2", ( b, acc, )) cur.execute( "UPDATE customer_details SET STATUS='CLOSED' WHERE CUSTOMER_ID=:1", (self.cid, )) con.commit() print( "\tYour Savings Account ", an, " has been closed successfully." ) print( "\tAn amount of Rs.", b, " will be send to your address." ) print( "\tRs.2000 has been reduced from your account as account closure fee." ) except Exception as e: print(e) try: cur.execute( "select C_ACCOUNT_NO,BALANCE from current_account_details where C_ACCOUNT_NO=:1", (acc, )) ad = cur.fetchall() an = ad[0][0] if an == int(acc): b = ad[0][1] if b >= 2000: b = b - 2000 cur.execute( "UPDATE current_account_details SET STATUS='CLOSED',BALANCE=::1 WHERE C_ACCOUNT_NO=:2", (acc, )) cur.execute( "UPDATE customer_details SET STATUS='CLOSED' WHERE CUSTOMER_ID=:1", (self.cid, )) con.commit() print( "\tYour Current Account ", acc, "has been closed successfully." ) print( "\tAn amount of Rs.", b, " will be send to your address." ) print( "Rs.2000 has been reduced from your account as account closure fee." ) except Exception as e: print("ERROR: ", e) except Exception as e: print(e) print( "Account doesn't belong to your customer id" ) elif adch == '7': ach = 7 else: print( "Wrong Choice Entered. Please Enter Correct Choice" ) break except: print("Invalid password.Please Enter again") count = count + 1 if (count == 3): print( "\n\n\tSorry! You have made 3 unsuccessful attempts!Your account is Bloced!" ) cur.execute( "UPDATE customer_details SET STATUS='BLOCKED' WHERE CUSTOMER_ID=:1", (self.cid, )) con.commit() break con.close() #s=Signin() #s.checkDetails()
args = parser.parse_args() logging.info('Loading original image %s' % (args.original_image)) org_img = load_image(args.original_image) logging.info('Method to create mask') mask_type = args.mask logging.info('Loading style...') sty_list = args.style masks = args.mask mask_list = [] for i in masks: mask_list.append(load_image(i)) # make a transferor with all inputs, get transfered img. transferor = Transfer.Transferor() transferor.get_original(org_img) transferor.get_styles(sty_list) transferor.transfer_images() transfered_imgs = transferor.return_transfered_list() # make a blendor with all input, get blended img. blendor = Blend.Blendor() blendor.get_input(org_img, transfered_imgs) blendor.get_mask(mask_list) blendor.blend() blended_img = blendor.return_output() cv2.imwrite(args.transfered_image, blended_img)
def transfer(self): self.rt.destroy() o8 = Transfer.trans_acc(self.admid)