def add_new_item(): """ Adds a new item """ item_code = input("Enter item code: ") item_description = input("Enter item description: ") item_rental_price = input("Enter item rental price: ") # Get price from the market prices module item_price = market_prices.get_latest_price(item_code) is_furniture = input("Is this item a piece of furniture? (Y/N): ") if is_furniture.lower() == "y": item_material = input("Enter item material: ") item_size = input("Enter item size (S,M,L,XL): ") new_item = Furniture(item_code, item_description, item_price, item_rental_price, item_material, item_size) else: is_electric_appliance = input( "Is this item an electric appliance? (Y/N): ") if is_electric_appliance.lower() == "y": item_brand = input("Enter item brand: ") item_voltage = input("Enter item voltage: ") new_item = ElectricAppliances(item_code, item_description, item_price, item_rental_price, item_brand, item_voltage) else: new_item = Inventory(item_code, item_description, item_price, item_rental_price) full_inventory[item_code] = new_item.return_as_dictionary() print("New inventory item added")
def test_furniture(self): """Tests for Furniture dictionary output""" my_inv = Furniture(product_code=12, description='apple chair', market_price=70, rental_price=45, material='apple', size=12) inv_dict = my_inv.return_as_dictionary() assert inv_dict['product_code'] == 12 assert inv_dict['description'] == 'apple chair' assert inv_dict['market_price'] == 70 assert inv_dict['rental_price'] == 45 assert inv_dict['material'] == 'apple' assert inv_dict['size'] == 12
class Bed(Furniture): def __init__(self): self.furniture = Furniture() def print_define(self): self.furniture.print_define() print "床是供人躺在上面睡觉的家具。" def print_classify(self, classify): print "床的分类为:%s" % classify def print_colour(self, colour): print "床的颜色是:%s" % colour
def build_json_building_at_position( self, filename, position ): # applys the json file to world coordinates. can be done over multiple chunks. print('building: ' + str(filename) + ' at ' + str(position)) start = time.time() #TODO: fill the chunk overmap tile with this om_terrain with open(filename) as json_file: data = json.load(json_file) #print(data) group = data['group'] overmap_terrain = data['overmap_terrain'] floors = data['floors'] #print(floors) terrain = data['terrain'] # list furniture = data['furniture'] # list fill_terrain = data['fill_terrain'] # string impassable_tiles = ['t_wall'] #TODO: make this global for k, floor in floors.items(): #print(k) i, j = 0, 0 for row in floor: i = 0 for char in row: #print(char) #print(terrain) impassable = False t_position = Position(position.x + i, position.y + j, k) self.put_object_at_position( Terrain(fill_terrain, impassable), t_position) # use fill_terrain if unrecognized. if char in terrain: #print('char in terrain') if terrain[char] in impassable_tiles: impassable = True #print('placing: ' + str(terrain[char])) self.put_object_at_position( Terrain(terrain[char], impassable), t_position) elif char in furniture: #print('placing: ' + str(furniture[char])) self.put_object_at_position(Furniture(furniture[char]), t_position) else: #print('placed : ' + str(fill_terrain)) pass i = i + 1 j = j + 1 end = time.time() duration = end - start
def populate_map(self, map): # define rooms and items # furniture couch = Furniture("couch") piano = Furniture("piano") double_bed = Furniture("double bed") queen_bed = Furniture("queen bed") dresser = Furniture("dresser") dining_table = Furniture("dining table") # doors door_a = Door("door a") door_b = Door("door b") door_c = Door("door c") door_d = Door("door d") # keys key_a = Key("key for door a", door_a) key_b = Key("key for door b", door_b) key_c = Key("key for door c", door_c) key_d = Key("key for door d", door_d) # rooms game_room = Room("game room") bedroom_1 = Room("bedroom 1") bedroom_2 = Room("bedroom 2") living_room = Room("living room") outside = Room("outside") # setting start and end rooms map.set_start_room(game_room) map.set_end_room(outside) # object relations map.add_relation("game room", [couch, piano, door_a]) map.add_relation("bedroom 1", [queen_bed, door_a, door_b, door_c]) map.add_relation("bedroom 2", [double_bed, dresser, door_b]) map.add_relation("living room", [dining_table, door_c, door_d]) map.add_relation("outside", [door_d]) map.add_relation("piano", [key_a]) map.add_relation("double bed", [key_c]) map.add_relation("dresser", [key_d]) map.add_relation("queen bed", [key_b]) map.add_relation("door a", [game_room, bedroom_1]) map.add_relation("door b", [bedroom_1, bedroom_2]) map.add_relation("door c", [bedroom_1, living_room]) map.add_relation("door d", [living_room, outside])
"textbooks": [ Book("UCSMP Pre-Algebra", "Transitions I-II", 600, True), Book("UCSMP Algebra", "Algebra I", 650, True), Book("UCSMP Geometry", "Geometry", 700, True), Book("UCSMP Advanced Algebra", "Algebra II", 750, True) ], "stationery": [ Stationery("ruler", 12, "blue", 10, "measuring"), Stationery("pencil", 8, "yellow", 25, "writing"), Stationery("eraser", 2, "pink", 20, "erasing"), Stationery("protractor", 10, "transparent", 10, "measuring angles"), Stationery("compass", 6, "black", 5, "drawing circles"), Stationery("graph paper", 20, "yellowish", 75, "being written on") ], "furniture": (Furniture("table", 5, 4, "wood", 4), Furniture("chair", 3, 4, "metal", 12), Furniture("whiteboard", 7, 6, "plastic", 2)), "students": [Student("Mallika", True, 14, 5, 1, 9, 'student')] } print("{} is our {} teacher".format(math_classroom['teacher'].name, math_classroom['teacher'].subject)) math_classroom['teacher'].teach() print('\n') for textbook in math_classroom['textbooks']: print("Our textbook for {} is {} - it has {} pages".format( textbook.topic, textbook.title, textbook.pages)) print('') for item in math_classroom['stationery']:
str(int(pos[1] / 24))) if (event.button == 1): if (editor.selected_item is not None): editor.building_layout[int(pos[0] / 24)][int( pos[1] / 24)][editor.curFloor]['items'].append( Item(editor.selected_item)) elif (editor.selected_furniture is not None): editor.building_layout[int(pos[0] / 24)][int( pos[1] / 24 )][editor.curFloor]['terrain'] = Terrain( editor.fill_terrain ) # can only place furniture on fill_terrain otherwise the chars would overwrite each other. editor.building_layout[int(pos[0] / 24)][int( pos[1] / 24 )][editor.curFloor]['furniture'] = Furniture( editor.selected_furniture) elif (editor.selected_terrain is not None): editor.building_layout[int(pos[0] / 24)][int( pos[1] / 24)][editor.curFloor]['terrain'] = Terrain( editor.selected_terrain) editor.building_layout[int(pos[0] / 24)][int( pos[1] / 24)][editor.curFloor]['furniture'] = None elif (event.button == 3): editor.building_layout[int(pos[0] / 24)][int( pos[1] / 24)][editor.curFloor]['items'] = [] editor.building_layout[int(pos[0] / 24)][int( pos[1] / 24)][editor.curFloor]['furniture'] = None editor.building_layout[int(pos[0] / 24)][int(
def furniture_menu(): furniture_menu = ''' Furniture Managment System 1. Add Furniture 2. View Furniture 3. Search Furiture 4. Exit ''' while True: # receive data stream. it won't accept data packet greater than 1024 bytes try: conn.send(bytes(furniture_menu, 'utf-8')) data = conn.recv(1024).decode() if data.lower().strip() == "1": data = "Adding Furniture to the System:" conn.send(data.encode()) data = conn.recv(1024) data = json.loads(data.decode()) new_data = data["Add"] f1 = Furniture(new_data['Name'], new_data['Type'], new_data['Category'], new_data['WoodType'], new_data['Color'], new_data['Size']) f1.file_handling(f1.data_dict()) notify = json.dumps(f1.Details()) conn.send(notify.encode()) print(data["Add"]) elif data.lower().strip() == "2": # data = "All the furniture in the System:" # conn.send(data.encode()) f1 = Furniture() data = f1.view_furniture() data = json.dumps(data) conn.send(data.encode()) elif data.lower().strip() == "3": data = "Provide Id for furniture:" conn.send(data.encode()) client_data = conn.recv(1024) f1 = Furniture() data = f1.search_furniture(client_data.decode()) data = json.dumps(data) conn.send(data.encode()) # elif data.lower().strip() == "exit" or data.lower().strip() == "4": # # if data is not received break # data = "Exiting...bye" # conn.send(data.encode()) # conn.close() # break elif data.lower().strip() == "": print("data recieved") data = "Wrong choice...Try again with mentioned choice" conn.send(data.encode()) continue except ConnectionAbortedError: print("Client Exited") break conn.close()
def __init__(self): self.furniture = Furniture()