def add_person(self, person_name, person_position, wants_accommodation=False): """A method that defines how a new occupant of the dojo is created and assigned space""" if person_name not in list(self.list_of_people.keys()): if person_position.lower().strip() == 'fellow': new_fellow = Fellow(person_name) self.list_of_people[person_name] = new_fellow self.list_of_fellows[person_name] = new_fellow self.total_number_of_fellows += 1 self.total_number_of_people += 1 office_allocation_msg = self.allocate_office_space(person_name) living_space_allocation_message = '' if not len(self.list_of_people[person_name].office_assigned): self.unallocated_people.append(person_name) if wants_accommodation: living_space_allocation_message = self.allocate_living_space(person_name) return ' Fellow ' + person_name + ' has been successfully added.\n' + office_allocation_msg + living_space_allocation_message + '\n' elif person_position.lower().strip() == 'staff': new_staff = Staff(person_name) self.list_of_people[person_name] = new_staff self.list_of_staff[person_name] = new_staff self.total_number_of_staff += 1 self.total_number_of_people += 1 office_allocation_msg = self.allocate_office_space(person_name) if not len(self.list_of_people[person_name].office_assigned): self.unallocated_people.append(person_name) return ' Staff ' + person_name + ' has been successfully added.' + '\n' + office_allocation_msg + '\n' else: return ' Enter a valid position e.g. Fellow, Staff' else: return ' A person with this name already exists'
def add_person(self, name, position, wants_accomodation): '''A method that checks whether the person is staff or a fellow. It then calls the method 'allocate_random' to allocate the person a living space or office or both''' office = 'office' livingspace = 'Living space' if (position == 'STAFF'): new_staff = Staff(name) name = new_staff self.allocate_random(name, office, self.dojo_offices, Office, position) if (wants_accomodation == 'Y'): print('\n\n') print( colored( 'Sorry there are no living spaces available for staff', 'red')) print('\n\n') return 'Sorry there are no living spaces available for staff' return new_staff else: new_fellow = Fellow(name) name = new_fellow self.allocate_random(name, office, self.dojo_offices, Office, position) if (wants_accomodation == 'Y'): self.allocate_random(name, livingspace, self.dojo_livingspaces, LivingSpace, position) return new_fellow
def __init__(self, name="", jobType="", wantsRoom="NO", choice=1, new_id_no=0): self.name = name self.jobType = jobType self.wantsRoom = wantsRoom self.choice = choice self.id_no = 0 self.new_id_no = new_id_no if self.choice == 0: self.id_no = self.generate_ID(self.name) else: self.id_no = self.new_id_no #Create a variable that holds the instance of person created if self.jobType == "FELLOW": self.andelan = Fellow(self.id_no) elif self.jobType == "STAFF": self.andelan = Staff(self.id_no) else: #If job type is not indicated, person created is fellow by default. self.wantsRoom = "NO" self.andelan = Fellow(self.id_no)
def test_reallocate_person_successful_message(self): new_person = Staff('STEVE JOBS') self.the_dojo.dojo_offices['BLUE'] = [new_person] self.the_dojo.dojo_offices['RED'] = [] person_id = id(new_person) self.the_dojo.reallocate_person(person_id, 'RED', 'OFFICE')
def test_reallocate_person_from_office_to_office(self): new_person = Staff('CHARLES ODUK') self.the_dojo.dojo_offices['BLUE'] = [new_person] self.the_dojo.dojo_offices['RED'] = [] person_id = id(new_person) self.the_dojo.reallocate_person(person_id, 'RED', 'OFFICE') self.assertIn(new_person,self.the_dojo.dojo_offices['RED'])
def load_unallocated_people(): for person in session.query(Unallocated).order_by(Unallocated.id): name = person.name position = person.position need1 = person.need_one need2 = person.need_two if need2 == 'No need': if position == 'STAFF': name = Staff(name) self.unallocated[name] = [position, need1] else: name = Fellow(name) self.unallocated[name] = [position, need1] else: if position == 'STAFF': name = Staff(name) self.unallocated[name] = [position, need1, need2] else: name = Fellow(name) self.unallocated[name] = [position, need1, need2]
def create(role, name, age, gender, **kwargs): if role.lower() == "fellow": wants_residence = kwargs.get("wants_residence") level = kwargs.get("level") person = Fellow(name, age, gender, wants_residence, level) if role.lower() == "staff": job_title = kwargs.get("job_title") department = kwargs.get("department") person = Staff(name, age, gender, job_title, department) return person
class Test(unittest.TestCase): def setUp(self): self.staff = Staff() def test_id_value(self): self.assertNotEqual(self.staff.id_no, 0, msg="Id number not sumitted.") @patch('app.storage') def test_staff_has_office_allocation(self,test_storage): test_storage.people_info.retun_value = {12345678 :"Marvin kangethe"} self.assertTrue(self.staff.is_allocated(12345678), msg = "You already have room allocated.")
def setUp(self): amity_obj = Amity() self.personA = Fellow("Malik Wahab", "M", "Y") self.personB = Staff("Joe Jack", "M") amity_obj.persons = self.personA amity_obj.persons = self.personB self.roomallocation = RoomAllocation(amity_obj) self.livingA = LivingSpace("Spata", "M") self.officeB = Office("Trafford") self.officeA = Office("Mars") self.roomallocation.create_room(self.livingA) self.roomallocation.create_room(self.officeA) self.roomallocation.create_room(self.officeB)
def load_rooms_and_people_in_them(): for room in session.query(Rooms).order_by(Rooms.id): if room.roomtype == 'OFFICE': rooms = self.dojo_offices else: rooms = self.dojo_livingspaces rooms[room.roomname] = [] for person in session.query(People).order_by(People.id): if person.room == room.roomname: if person.position == 'STAFF': person = Staff(person.name) rooms[room.roomname].append(person) else: person = Fellow(person.name) rooms[room.roomname].append(person)
def test_office_can_fill_up(self): self.office.add_person(Staff('Atukwase Sylvestre')) self.office.add_person(Staff('Murungi Patricia')) self.office.add_person(Fellow('Patience Mukami', True)) self.office.add_person(Staff('Irene Mulyagonja')) self.office.add_person(Staff('Annie Myles')) self.office.add_person(Staff('John Katureebe')) self.office.add_person(Staff('George Williams')) self.assertEqual(len(self.office.members), 6) self.assertTrue(self.office.is_full())
def add_person(self, name, person_type, wants_accommodation): """ adds a newly *inducted* person into the room allocation system. It can go ahead and grant them rooms depending on their person type. """ person = None # what do we do for existing fellows and staff, do we re-add them if person_type == 'Fellow': person = Fellow(name, wants_accommodation) elif person_type == 'Staff': person = Staff(name) else: print("unknown person type: expecting <Fellow> or <Staff> type") return False if person is not None: self.employees.append(person) self._allocate_person_room(person) return True
class TestRoomAllocation(unittest.TestCase): def setUp(self): amity_obj = Amity() self.personA = Fellow("Malik Wahab", "M", "Y") self.personB = Staff("Joe Jack", "M") amity_obj.persons = self.personA amity_obj.persons = self.personB self.roomallocation = RoomAllocation(amity_obj) self.livingA = LivingSpace("Spata", "M") self.officeB = Office("Trafford") self.officeA = Office("Mars") self.roomallocation.create_room(self.livingA) self.roomallocation.create_room(self.officeA) self.roomallocation.create_room(self.officeB) def test_create_room(self): self.roomallocation.create_room(self.livingA) self.assertIn("spata", self.roomallocation.amity.rooms) def test_create_person(self): fellow = Fellow("Jose Morinho", "M", "Y") self.roomallocation.create_person(fellow) self.assertTrue(fellow.is_allocated("livingspace")) def test_creat_person_two(self): self.roomallocation.remove_room(self.officeA.get_id()) self.roomallocation.remove_room(self.officeB.get_id()) status = self.roomallocation.create_person(self.personB) self.assertFalse(status[0]) def test_create_person_two(self): fellow = Fellow("Jose Morinho", "M", "Y") self.roomallocation.create_person(fellow) self.assertTrue(fellow.is_allocated("office")) def test_allocate_office(self): self.roomallocation.allocate_office(self.personB.identifier) self.assertTrue(self.personB.is_allocated("office")) def test_allocate_office_two(self): self.roomallocation.allocate_office(self.personB.identifier) self.assertIn(self.personB.room_name["office"], ['mars', 'trafford']) def test_allocate_livingspace(self): self.roomallocation.allocate_livingspace(self.personA.identifier) self.assertTrue(self.personA.is_allocated("livingspace")) def test_allocate_livingspace_two(self): self.roomallocation.allocate_livingspace(self.personA.identifier) self.assertIn(self.personA.identifier, self.livingA.occupants) def test_allocate_livingspace_three(self): self.roomallocation.allocate_livingspace(self.personA.identifier) self.assertEqual("spata", self.personA.room_name["livingspace"]) def test_allocate_livingspace_four(self): with self.assertRaises(KeyError): self.roomallocation.allocate_livingspace("ahmed") def test_allocate_room(self): with self.assertRaises(NoRoomError): self.roomallocation.allocate_room(self.personA.identifier, {}) def test_allocate_room_two(self): self.roomallocation.allocate_livingspace(self.personA.identifier) with self.assertRaises(PersonAllocatedError): self.roomallocation.allocate_room(self.personA.identifier, {'spata': self.livingA}) def test_rellocate_person(self): livingB = LivingSpace("Black", "M") self.roomallocation.allocate_livingspace(self.personA.identifier) self.roomallocation.allocate_office(self.personA.identifier) self.roomallocation.create_room(livingB) self.roomallocation.rellocate_person(self.personA.identifier, livingB.get_id()) self.assertEqual("black", self.personA.room_name["livingspace"]) def test_rellocate_person_four(self): with self.assertRaises(KeyError): self.roomallocation.rellocate_person(self.personA.identifier, 'om') def test_rellocate_person_three(self): self.roomallocation.allocate_livingspace(self.personA.identifier) self.roomallocation.allocate_office(self.personA.identifier) with self.assertRaises(PersonInRoomError): self.roomallocation.rellocate_person(self.personA.identifier, self.personA.room_name["office"]) def test_rellocate_person_two(self): with self.assertRaises(KeyError): self.roomallocation.rellocate_person("malik", 'spata') def test_remove_person(self): person_id = self.personA.identifier self.roomallocation.remove_person(person_id) self.assertIsNone(self.roomallocation.amity.persons.get(person_id)) def test_remove_person_two(self): person_id = self.personA.identifier self.roomallocation.allocate_office(self.personA.identifier) self.roomallocation.allocate_livingspace(self.personA.identifier) room = self.roomallocation.amity \ .rooms[self.personA.room_name["office"]] self.roomallocation.remove_person(person_id) self.assertNotIn(person_id, room.occupants) def test_remove_person_three(self): with self.assertRaises(KeyError): self.roomallocation.remove_person('invalidname') def test_remove_room(self): room_id = self.livingA.get_id() self.roomallocation.remove_room(room_id) self.assertIsNone(self.roomallocation.amity.rooms.get(room_id)) def test_remove_room_two(self): room_id = self.livingA.get_id() occupants = self.livingA.get_occupants() self.roomallocation.remove_room(room_id) for i in occupants: occupant = occupants[i] self.assertEqual(9, occupant.get_allocation("livingspace")) def test_remove_room_three(self): with self.assertRaises(KeyError): self.roomallocation.remove_room('notthere') def test_load_persons_from_text(self): status = self.roomallocation.load_persons_from_text('names.txt') self.assertNotEqual([], status) def test_select_random(self): a_dict = {"one": 1, "two": 2, "three": 3, "four": 4} random = self.roomallocation.select_random(a_dict) self.assertIn(random, a_dict.values()) def test_get_unallocated(self): fellow1 = Fellow("Jose Morinho", "M", "Y") fellow2 = Fellow("Wayne Rooney", "M", "Y") fellow3 = Fellow("Rio Fedinand", "M", "Y") fellow4 = Fellow("Micheal Carrick", "M", "Y") fellow5 = Fellow("David Degea", "M", "Y") fellow6 = Fellow("Steve Maccoy", "M", "Y") fellow7 = Fellow("Steve Jobs", "M", "Y") self.roomallocation.create_person(fellow1) self.roomallocation.create_person(fellow2) self.roomallocation.create_person(fellow3) self.roomallocation.create_person(fellow4) self.roomallocation.create_person(fellow5) self.roomallocation.create_person(fellow6) try: self.roomallocation.create_person(fellow7) except NoRoomError: pass self.assertIn(fellow7, self.roomallocation.rmprint. get_unallocated()[1].values()) def test_get_unallocated_two(self): fellow1 = Fellow("Jose Morinho", "M", "Y") self.roomallocation.create_person(fellow1) office_id = fellow1.room_name.get('office') self.roomallocation.remove_room(office_id) self.assertIn(fellow1, self.roomallocation.rmprint. get_unallocated()[0].values()) def test_print_persons(self): del self.roomallocation.amity.persons[self.personB.identifier] persons_string = self.roomallocation.rmprint.print_persons() expected_string = "List of Persons with Id\n" expected_string += (self.personA.name + " fellow " + self.personA.identifier + "\n") self.assertEqual(persons_string, expected_string) def test_print_person(self): person_string = self.roomallocation.rmprint.print_person(self.personA) expected_string = "MALIK WAHAB FELLOW Y\n" self.assertEqual(person_string, expected_string) def test_print_person_two(self): person_string = self.roomallocation.rmprint.print_person(self.personB) expected_string = "JOE JACK STAFF \n" self.assertEqual(person_string, expected_string) def test_print_room(self): self.livingA.add_occupant(self.personA) room_string = self.roomallocation.rmprint.print_room(self.livingA.get_id()) expected_string = "\n--Spata(livingspace)--\n" expected_string += "MALIK WAHAB FELLOW Y\n" self.assertEqual(room_string, expected_string) def test_build_allocation_string(self): allocation_string = self.roomallocation.rmprint.build_allocation_string() rooms = self.roomallocation.amity.rooms expected_string = "" for room_id in rooms: expected_string += self.roomallocation.rmprint.print_room(room_id) self.assertEqual(allocation_string, expected_string) def test_build_unallocated_string(self): self.roomallocation.remove_person(self.personB.identifier) unallocated_string = self.roomallocation.rmprint.build_unallocation_string() expected_string = "\n--Unallocated for Office-- \n" expected_string += "MALIK WAHAB FELLOW Y\n" expected_string += "\n--Unallocated for LivingSpace-- \n" expected_string += "MALIK WAHAB FELLOW Y\n" self.assertEqual(unallocated_string, expected_string) def test_print_allocation_to_file(self): self.roomallocation.rmprint.print_allocation_to_file("test/test" + "_allocation_to_file.txt") rooms = self.roomallocation.amity.rooms expected_string = "" for room_id in rooms: expected_string += self.roomallocation.rmprint.print_room(room_id) allocation_string_from_file = "" with open("test/test_allocation_to_file.txt", 'r') as allocation_line: allocation_string_from_file += allocation_line.read() os.remove("test/test_allocation_to_file.txt") self.assertEqual(allocation_string_from_file, expected_string) def test_print_unallocated_to_file(self): self.roomallocation.remove_person(self.personB.identifier) self.roomallocation.rmprint \ .print_unallocated_to_file('test/test_unallocated_to_file.txt') expected_string = "\n--Unallocated for Office-- \n" expected_string += "MALIK WAHAB FELLOW Y\n" expected_string += "\n--Unallocated for LivingSpace-- \n" expected_string += "MALIK WAHAB FELLOW Y\n" with open("test/test_unallocated_to_file.txt", 'r') as allocation_line: unallocated_string_from_file = allocation_line.read() os.remove('test/test_unallocated_to_file.txt') self.assertEqual(expected_string, unallocated_string_from_file) def test_save_to_database(self): db = AllocationDb('test/test_save.db') self.roomallocation.save_to_database(db) rooms = db.get_rooms() os.remove('test/test_save.db') self.assertIn('spata', rooms) def test_save_to_database_two(self): db = AllocationDb('test/test_save.db') self.roomallocation.save_to_database(db) persons = db.get_persons() os.remove('test/test_save.db') self.assertIn(self.personA.identifier, persons) def test_load_from_database(self): db = AllocationDb('test/test_save.db') fellow = Fellow("Jose Morinho", "M", "Y") staff = Staff("Alex Fergie", "M") self.roomallocation.create_person(fellow) self.roomallocation.create_person(staff) self.roomallocation.save_to_database(db) del self.roomallocation.amity.persons[self.personA.identifier] self.roomallocation.remove_room('spata') self.roomallocation.load_from_database(db) self.assertIn(self.personA.identifier, self.roomallocation.amity.persons)
def test_staff_not_added_to_livingspaces(self): self.assertEqual(len(self.livingspace.members), 0) resp = self.livingspace.add_person(Staff('Kadongo Moses')) self.assertEqual(len(self.livingspace.members), 0) self.assertFalse(resp) self.assertTrue(self.livingspace.is_empty())
def __init__(self): self.engine = '' self.fellow = Fellow() self.staff = Staff() self.living_space = LivingSpace() self.office = Office()
def setUp(self): self.staff = Staff()
def setUp(self): self.office = Office('Blue') self.staff1 = Staff('Will')
class Amity(object): def __init__(self): self.engine = '' self.fellow = Fellow() self.staff = Staff() self.living_space = LivingSpace() self.office = Office() def connect_db(self, db_name=None): if db_name is not None: name = 'sqlite:///' + db_name[:db_name.index('.')] + '.db' else: name = 'sqlite:///amity.db' # db_name = db_name[:db_name.index('.')] or 'amity' # return create_engine(db_name+'.db') return create_engine(name) def create_tables(self): engine = self.connect_db() # check if the tables exist then drop them all if they exist if engine.dialect.has_table(engine.connect(), "user"): User.__table__.drop(engine) if engine.dialect.has_table(engine.connect(), "room"): Room.__table__.drop(engine) Base.metadata.create_all(engine) def load_state(self): '''copy data from the database to the application''' engine = self.connect_db() print("Please Wait... This may take some few minutes.") # do something Session = sessionmaker(bind=engine) Session.configure(bind=engine) session = Session() print("\tReading data from the database") # populate the various lists and dicts self.retrieve_data_from_db(session) session.commit() session.flush() print("Load State successfully completed") def retrieve_data_from_db(self, session): query_room = session.query(Room).all() query_user = session.query(User).all() fellows = [ user.person_name for user in query_user if user.type_person == 'fellow'] staffs = [ user.person_name for user in query_user if user.type_person == 'staff'] offices = {} livingspaces = {} query_room = session.query(Room).all() for room in query_room: livingspace_occupants = [] office_occupants = [] if room.room_type.lower() == 'office': office_occupants.append(room.occupant1) office_occupants.append(room.occupant2) office_occupants.append(room.occupant3) office_occupants.append(room.occupant4) office_occupants.append(room.occupant5) office_occupants.append(room.occupant6) # remove all '' entries office_occupants = [ ocupant for ocupant in office_occupants if ocupant != ''] offices[room.room_name] = office_occupants else: livingspace_occupants.append(room.occupant1) livingspace_occupants.append(room.occupant2) livingspace_occupants.append(room.occupant3) livingspace_occupants.append(room.occupant4) # remove all '' entries livingspace_occupants = [ ocupant for ocupant in livingspace_occupants if ocupant != ''] livingspaces[room.room_name] = livingspace_occupants # load data from db text = self.fellow.load_fellows(fellows) text = text + '\n%s' % self.staff.load_staffs(staffs) text = text + \ '\n%s' % self.living_space.load_livingspaces(livingspaces) text = text + '\n%s' % self.office.load_offices(offices) print(text) def save_state(self, db=None): engine = self.connect_db(db) print("Please Wait... This may take some few minutes.") self.create_tables() Session = sessionmaker(bind=engine) Session.configure(bind=engine) session = Session() print("\tInitiating database population....") # populate table users # populate table rooms self.order_data_ready_for_saving(session) print("\tFinalizing database population....") session.commit() session.flush() print("Save State successfully completed.") def order_data_ready_for_saving(self, session): people = [] people.extend(list(Fellow.fellow_names)) people.extend(list(Staff.staff_names)) ordered_users = [] for person in people: if person is not None and person != 'None': user = User() user.person_name = person if person in list(Fellow.fellow_names): user.type_person = 'fellow' elif person in list(Staff.staff_names): user.type_person = 'staff' ordered_users.append(user) session.add_all(ordered_users) Total_rooms = {} Total_rooms.update(Office.office_n_occupants) Total_rooms.update(LivingSpace.room_n_occupants) ordered_rooms = [] for key, value in list(Total_rooms.items()): room = Room() room.room_name = key room.occupant1 = '' if len(value) < 1 else value[0] room.occupant2 = '' if len(value) < 2 else value[1] room.occupant3 = '' if len(value) < 3 else value[2] room.occupant4 = '' if len(value) < 4 else value[3] if room.room_name in LivingSpace.room_n_occupants: room.room_type = 'livingspace' else: room.room_type = 'office' room.occupant5 = '' if len(value) < 5 else value[4] room.occupant6 = '' if len(value) < 6 else value[5] ordered_rooms.append(room) session.add_all(ordered_rooms) def load_people(self, filename='people.txt'): '''loads people into the database''' with open(filename, 'r') as input_file: people = input_file.readlines() data = [] for persn in people: persn = persn.split(' ') if persn: wants_accomodation = 'n' person_name = persn[0] if 'STAFF' in persn: type_person = 'staff' else: type_person = 'fellow' if len(persn) > 2: ps = persn[2] if '\n' in ps: wants_accomodation = ps[:ps.index('\n')].lower() else: wants_accomodation = ps.lower() arg_dict = { "person_name": person_name, "type_person": type_person, "wants_accomodation": wants_accomodation } data.append(arg_dict) for entry in data: ret_val = Person().add_person( person_name=entry["person_name"], type_person=entry["type_person"], want_accomodation=entry["wants_accomodation"]) if ret_val == 'None': print ('No Rooms Available') else: print(ret_val) def get_allocations(self, filename=None): '''Display allocated rooms and print to a file if a file is provided''' allocated_offices = self.compute_rooms( Office.office_n_occupants, 'allocated') allocated_livingSpaces = self.compute_rooms( LivingSpace.room_n_occupants, 'allocated') response_offices = 'No File Saved' response_livingspaces = 'No File Saved' if filename is not None: response_offices = Amity().print_file( filename, 'RnO-Office', allocated_offices) response_livingspaces = Amity().print_file( filename, 'RnO-Livin', allocated_livingSpaces) if type(allocated_offices) and type(allocated_livingSpaces) is dict: allocated_offices.update(allocated_livingSpaces) return [allocated_offices, response_offices, response_livingspaces] def get_unallocated(self, filename=None): '''Display unallocated rooms and print to a file if filename is provided''' allocated_offices = self.compute_rooms( Office.office_n_occupants, 'unallocated') allocated_livingSpaces = self.compute_rooms( LivingSpace.room_n_occupants, 'unallocated') response_office = 'No File Saved' response_livingspaces = 'No File Saved' if filename is not None: response_office = Amity().print_file( filename, 'Empty-Office', allocated_offices) response_livingspaces = Amity().print_file( filename, 'Empty-Livin', allocated_livingSpaces) if type(allocated_offices) and type(allocated_livingSpaces) is list: allocated_offices.extend(allocated_livingSpaces) return [allocated_offices, response_office, response_livingspaces] def compute_rooms(self, rooms, return_type): '''Compute allocated rooms and unallocated rooms''' allocated = {key: value for key, value in rooms.items() if len(value) > 0} unallocated = [key for key, value in rooms.items() if len(value) < 1] if return_type == 'allocated': return allocated return unallocated def get_all_unallocated_people(self, filename=None): fellows = list(Fellow.fellow_names) staff = list(Staff.staff_names) occupants = [] for key, value in LivingSpace.room_n_occupants.items(): occupants.extend(value) for key, value in Office.office_n_occupants.items(): occupants.extend(value) set_occupants = set(occupants) fellow_occupants = set(fellows) - set_occupants staff_occupants = set(staff) - set_occupants response_fellows = 'No File Saved' response_staff = 'No File Saved' if filename is not None: response_fellows = Amity().print_file( filename, 'unallo_fellows', fellow_occupants) response_staff = Amity().print_file( filename, 'unallo_staff', staff_occupants) return [fellow_occupants, response_fellows, staff_occupants, response_staff] def print_file(self, filename, type, data): '''Assign .txt extension''' filename = filename + '-' + type + '.txt' try: with open(filename, 'w') as file: temp = '' if 'RnO' in type: # Print room names and Occupants dict for key, value in data.items(): temp = 'Room Name: ' + key + \ ' Occupants:' + str(value) + \ '\n\r' file.write(temp) elif 'Empty' in type: # Print empty rooms list temp = 'Empty Rooms:' + str(data) + '\n\r' file.write(temp) elif 'unallo_' in type: temp = 'Unallocated people\n' + str(data) file.write(temp) file.close() return '"' + filename + '"" successfully saved' except: return 'Failed to save ' + filename + ' successfully.'