611 lines
19 KiB
Python
611 lines
19 KiB
Python
import random
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import time
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import numpy as np
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import pygame
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import pytmx
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from queue import Queue
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import math
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import pandas as pd
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from sklearn.model_selection import train_test_split
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from sklearn.tree import DecisionTreeClassifier
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import json
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pygame.init()
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display = pygame.display.set_mode((640, 640))
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clock = pygame.time.Clock()
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gameMap = pytmx.load_pygame("cafe.tmx")
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waiterImg = pygame.image.load("waiter.png")
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waiterImgD = pygame.image.load("waiterD.png")
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waiterImgL = pygame.image.load("waiterL.png")
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waiterImgR = pygame.image.load("waiterR.png")
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tableImg = pygame.image.load('table.png')
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chairImg = pygame.image.load('chair.png')
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clientImg = pygame.image.load('client.png')
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class Waiter:
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def __init__(self, loc):
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self.loc = loc
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def render(self, surface):
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surface.blit(waiterImg, (self.loc[0], self.loc[1]))
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def handle_events(self):
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key = pygame.key.get_pressed()
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if key[pygame.K_w] or key[pygame.K_UP]:
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self.loc[1] -= 32
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elif key[pygame.K_s] or key[pygame.K_DOWN]:
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self.loc[1] += 32
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elif key[pygame.K_a] or key[pygame.K_LEFT]:
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self.loc[0] -= 32
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elif key[pygame.K_d] or key[pygame.K_RIGHT]:
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self.loc[0] += 32
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def up(self):
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self.loc[1] -= 32
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def down(self):
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self.loc[1] += 32
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def left(self):
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self.loc[0] -= 32
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def right(self):
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self.loc[0] += 32
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class Client:
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def __init__(self, loc):
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self.loc = loc
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def render(self, surface):
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surface.blit(clientImg, (self.loc[0], self.loc[1]))
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def generate_client():
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loc_for_client = []
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for i in chairs:
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for j in i:
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loc_for_client.append(j.loc)
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loc = (random.randint(0, len(loc_for_client)))
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client_coordinates = (loc_for_client[loc])
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return client_coordinates
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class Table:
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def __init__(self, loc, num):
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self.loc = loc
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self.number = num
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self.num_of_chairs = np.random.randint(1, 5)
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def render(self, surface):
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surface.blit(tableImg, (self.loc[0], self.loc[1]))
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def get_number(self):
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return self.number
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def get_number_of_chairs(self):
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return self.num_of_chairs
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def check_collision_with_table(x,y):
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answer = False
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for i in tables_coordinates:
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if i[0] <= x <= i[0] + 32 and i[1] <= y <= i[1] + 32:
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answer = True
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else:
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continue
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return answer
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class Chair:
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def __init__(self, loc):
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self.loc = loc
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def render(self, surface):
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surface.blit(chairImg, (self.loc[0], self.loc[1]))
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def pos_of_chair(table_cor, k):
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pos = ((table_cor[0], table_cor[1] - 32),
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(table_cor[0], table_cor[1] + 32),
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(table_cor[0] - 32, table_cor[1]),
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(table_cor[0] + 32, table_cor[1]))
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return pos[k]
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def check_collision_with_chair(x,y):
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answer = False
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for i in chairs:
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for j in i:
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if j.loc[0] <= x <= j.loc[0] + 32 and j.loc[1] <= y <= j.loc[1] + 32:
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answer = True
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else:
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continue
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return answer
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class Food:
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def __init__(self, name, pos_in_card, price, spiciness, vege, size, allergens, ingridients, drink_in):
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self.name = name
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self.pos_in_card = pos_in_card
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self.price = price
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self.spiciness = spiciness
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self.vege = vege
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self.size = size
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self.allergens = allergens
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self.ingridients = ingridients
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self.drink_in = drink_in
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def get_food(self):
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return self.name, self.price
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class Menu:
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def __init__(self, card={}):
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self.card = card
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def get_menu(self):
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return self.card
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def add_to_card(self, dish):
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self.card[str(len(self.card) + 1)] = dish
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class Order(Table):
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def __init__(self, status=False, table=0, dishes=[]):
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self.table = table
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self.dishes = dishes
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self.status = status
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def take_order(self, foods, table):
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self.dishes.append(foods)
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self.table = table.number
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def deliver(self):
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self.status = True
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class Graph:
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def __init__(self, num_of_nodes, directed=True):
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self.m_num_of_nodes = num_of_nodes
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self.m_nodes = range(self.m_num_of_nodes)
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self.m_directed = directed
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self.m_adj_list = {node: set() for node in self.m_nodes}
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def add_edge(self, node1, node2, weight=1):
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self.m_adj_list[node1].add((node2, weight))
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if not self.m_directed:
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self.m_adj_list[node2].add((node1, weight))
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def print_adj_list(self):
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for key in self.m_adj_list.keys():
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print("node", key, ": ", self.m_adj_list[key])
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def bfs(self, start_node, target_node):
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visited = set()
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queue = Queue()
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queue.put(start_node)
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visited.add(start_node)
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parent = dict()
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parent[start_node] = None
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path_found = False
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while not queue.empty():
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current_node = queue.get()
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if current_node == target_node:
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path_found = True
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break
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for (next_node, weight) in self.m_adj_list[current_node]:
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if next_node not in visited:
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queue.put(next_node)
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parent[next_node] = current_node
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visited.add(next_node)
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path = []
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if path_found:
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path.append(target_node)
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while parent[target_node] is not None:
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path.append(parent[target_node])
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target_node = parent[target_node]
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path.reverse()
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return path
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def pathFromTo(start, dest):
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tab2 = [42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57]
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tab4 = [41, 58]
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tab3 = []
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tab5 = []
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for x in range(16):
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for num in tab4:
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tab5.append(num + x * 20)
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for x in range(16):
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for num in tab2:
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tab3.append(num + x * 20)
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graph = Graph(400, directed=False)
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for x in tab5:
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b = x + 1
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c = x + 20
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d = x - 20
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graph.add_edge(x, b)
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graph.add_edge(x, c)
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graph.add_edge(x, d)
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for x in tab3:
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b = x + 1
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c = x + 20
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d = x - 1
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e = x - 20
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graph.add_edge(x, b)
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graph.add_edge(x, c)
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graph.add_edge(x, d)
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graph.add_edge(x, e)
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graph.add_edge(21, 22)
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graph.add_edge(21, 41)
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graph.add_edge(378, 358)
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graph.add_edge(378, 377)
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graph.add_edge(38, 37)
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graph.add_edge(38, 58)
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graph.add_edge(361, 362)
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graph.add_edge(361, 341)
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# graph.print_adj_list()
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path = []
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path = graph.bfs(start, dest)
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return path
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def numToX(num):
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digits = [int(a) for a in str(num)]
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if num >= 100:
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if digits[1] % 2 == 0:
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x = digits[2]
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else:
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x = digits[2] + 10
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else:
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if digits[0] % 2 == 0:
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x = digits[1]
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else:
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x = digits[1] + 10
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x = x * 32
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return x
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def numToY(num):
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y = (math.floor(num / 20)) * 32
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return y
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def coordsToNum(coords):
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num = ((coords[1] // 32) * 20) + (coords[0] // 32)
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return int(num)
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def waiterGo(dest):
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print("Path: ", (pathFromTo(coordsToNum(waiter.loc), dest)))
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go = []
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for numb in range(len(pathFromTo(coordsToNum(waiter.loc), dest)) - 1):
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go.append(pathFromTo(coordsToNum(waiter.loc), dest)[numb] - pathFromTo(coordsToNum(waiter.loc), dest)[numb + 1])
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for x in range(len(go)):
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if go[x] == -20:
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waiter.down()
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display.blit(waiterImgD, (waiter.loc[0], waiter.loc[1]))
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# waiter.render(display)
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pygame.display.update()
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time.sleep(0.2)
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elif go[x] == 20:
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waiter.up()
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display.blit(waiterImg, (waiter.loc[0], waiter.loc[1]))
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# waiter.render(display)
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pygame.display.update()
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time.sleep(0.2)
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elif go[x] == 1:
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waiter.left()
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display.blit(waiterImgL, (waiter.loc[0], waiter.loc[1]))
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# waiter.render(display)
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pygame.display.update()
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time.sleep(0.2)
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elif go[x] == -1:
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waiter.right()
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display.blit(waiterImgR, (waiter.loc[0], waiter.loc[1]))
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# waiter.render(display)
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pygame.display.update()
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time.sleep(0.2)
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def mouseToNum():
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x = pygame.mouse.get_pos()[0]
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y = pygame.mouse.get_pos()[1]
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cordTab = [x, y]
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squareNum = coordsToNum(cordTab)
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return squareNum
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class Map:
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def __init__(self):
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self.arr = np.zeros((20, 20))
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self.arr[1:19, 1:19] = 1
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def add_chair(self, loc):
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self.arr[loc[0] // 32, loc[1] // 32] = 100
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def add_table(self, loc):
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self.arr[loc[0] // 32, loc[1] // 32] = 200
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def get_arr(self):
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return self.arr.transpose()
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class Tile():
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def __init__(self, parent=None, loc=None):
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self.parent = parent
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self.position = loc
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self.g = 0
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self.h = 0
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self.f = 0
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def __eq__(self, other):
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return self.position == other.position
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def astar(map, start, end):
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start_tile = Tile(None, start)
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start_tile.g = start_tile.h = start_tile.f = 0
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end_tile = Tile(None, end)
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end_tile.g = end_tile.h = end_tile.f = 0
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open_list = []
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closed_list = []
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open_list.append(start_tile)
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while len(open_list) > 0:
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current_tile = open_list[0]
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current_index = 0
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for index, item in enumerate(open_list):
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if item.f <= current_tile.f:
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current_tile = item
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current_index = index
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open_list.pop(current_index)
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closed_list.append(current_tile)
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if current_tile == end_tile:
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path = []
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current = current_tile
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while current is not None:
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path.append(current.position)
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current = current.parent
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return path[::-1]
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children = []
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for new_position in [(0, -1), (0, 1), (-1, 0), (1, 0)]:
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tile_position = (current_tile.position[0] + new_position[0], current_tile.position[1] + new_position[1])
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if map[tile_position[0]][tile_position[1]] == 0:
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continue
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new_node = Tile(current_tile, tile_position)
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children.append(new_node)
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for child in children:
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skip = False
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for closed_child in closed_list:
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if child == closed_child:
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skip = True
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if skip is False:
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child.g = current_tile.g + map[child.position[0]][child.position[1]]
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child.h = np.absolute(child.position[0] - end_tile.position[0]) + np.absolute(child.position[1] - end_tile.position[1])
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child.f = child.g + child.h
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for open_node in open_list:
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if child == open_node and child.g > open_node.g:
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continue
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open_list.append(child)
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def tell_preferences():
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possibilities = [[30, 40 ,50, None],
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[True, False, None],
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[True, False, None],
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["high", "low", None],
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["tomato", "olives", "feta", None],
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["sausage", "pineapple", "mushrooms", "shrimps", "salami", None],
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[True, False, None]]
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choices = []
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for i in possibilities:
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choices.append(random.choice(i))
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return choices
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def evaluate_preferences(preferences):
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data = []
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if preferences[0] == 30:
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data.append(30)
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elif preferences[0] == 40:
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data.append(40)
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elif preferences[0] == 50:
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data.append(50)
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else:
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data.append(random.choice([30, 40, 50]))
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if preferences[1] is True:
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data.append(1)
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elif preferences[1] is False:
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data.append(0)
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else:
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data.append(random.choice([1, 0]))
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if preferences[2] is True:
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data.append(1)
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elif preferences[2] is False:
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data.append(0)
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else:
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data.append(random.choice([1, 0]))
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if preferences[3] == 'low':
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data.append(30)
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elif preferences[3] == 'high':
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data.append(50)
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else:
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data.append(random.choice([30, 50]))
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if preferences[4] == 'tomato':
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data.append(1)
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elif preferences[4] == 'olives':
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data.append(3)
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elif preferences[4] == 'feta':
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data.append(2)
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else:
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data.append(0)
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if preferences[5] == 'salami':
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data.append(1)
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elif preferences[5] == 'mushrooms':
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data.append(2)
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elif preferences[5] == 'pineapple':
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data.append(3)
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elif preferences[5] == 'shrimps':
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data.append(4)
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elif preferences[5] == 'sausage':
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data.append(5)
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else:
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data.append(0)
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if preferences[6] is True:
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data.append(1)
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elif preferences[6] is False:
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data.append(0)
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else:
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data.append(random.choice([1, 0]))
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return data
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def choose_pizza(prefernce):
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df = pd.read_excel("restaurant.xlsx")
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d = {'low': 30, 'high': 50}
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df['level of hunger'] = df['level of hunger'].map(d)
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d = {'none': 0, 'tomato': 1, 'feta': 2, 'olives': 3}
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df['allergy'] = df['allergy'].map(d)
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d = {'none': 0, 'salami': 1, 'mushrooms': 2, 'pineapple': 3, 'shrimps': 4, 'sausage': 5}
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df['favorite ingridient'] = df['favorite ingridient'].map(d)
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d = {'margherita': 0, 'hawajska': 1, 'funghi': 2, 'light': 3, '4 sery': 4, 'pepperoni': 5,
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'salami': 6, 'wegetarianska': 7, 'barbecue': 8, 'miesna': 9, 'paprykowa': 10,
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'jalapeno': 11, 'barbecue wege': 12, 'kebab': 13, 'grecka': 14, 'piekielna': 15,
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'drwala': 16, 'grzybowa': 17, 'staropolska': 18, 'goralska': 19, 'prosciutto': 20,
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'broccoli': 21, 'americana': 22, 'farmerska': 23, 'nachos': 24, 'texas': 25,
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'kurczak': 26, 'zielona': 27, 'mix': 28}
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df['pizza'] = df['pizza'].map(d)
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features = ['budget', 'spiciness', 'vege', 'level of hunger', 'allergy', 'favorite ingridient', 'drink in']
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x = df[features]
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y = df['pizza']
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x_train, x_test, y_train, y_test = train_test_split(x, y)
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clf = DecisionTreeClassifier(random_state=400)
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clf = clf.fit(x_train, y_train)
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return clf.predict([prefernce])
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def get_pizza(number):
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with open("dishes.json") as f:
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data = json.load(f)
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for i in data:
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if i["pos_in_card"] == int(number):
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food = Food(i['name'], i['pos_in_card'], i['price'], i['spiciness'], i['vege'], i['size'], i['allergens'], i['ingridients'], i['drink_in'])
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return food
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map = Map()
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waiter = Waiter([32, 32])
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tables = []
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tables_coordinates = ((32 * 3, 32 * 2), (32 * 7, 32 * 2), (32 * 12, 32 * 2), (32 * 16, 32 * 2),
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(32 * 3, 32 * 6), (32 * 7, 32 * 6), (32 * 12, 32 * 6), (32 * 16, 32 * 6),
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(32 * 3, 32 * 13), (32 * 7, 32 * 13), (32 * 12, 32 * 13), (32 * 16, 32 * 13),
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(32 * 3, 32 * 17), (32 * 7, 32 * 17), (32 * 12, 32 * 17), (32 * 16, 32 * 17))
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|
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chairs = []
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for i in range(16):
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tables.append(Table(tables_coordinates[i], i))
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|
arr = []
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for j in range(0, tables[i].get_number_of_chairs()):
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arr.append(Chair(pos_of_chair(tables_coordinates[i], j)))
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map.add_chair(Chair(pos_of_chair(tables_coordinates[i], j)).loc)
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chairs.append(arr)
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|
for table in tables:
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map.add_table(table.loc)
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|
|
|
client = Client(generate_client())
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|
|
|
def main():
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|
direction = []
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|
while True:
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|
|
|
clock.tick(10)
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|
keys = pygame.key.get_pressed()
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|
|
|
for event in pygame.event.get():
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|
if event.type == pygame.QUIT:
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|
quit()
|
|
if keys[pygame.K_ESCAPE]:
|
|
quit()
|
|
|
|
for layer in gameMap.visible_layers:
|
|
for x, y, gid, in layer:
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|
tile = gameMap.get_tile_image_by_gid(gid)
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|
if tile is not None:
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|
display.blit(tile, (x * gameMap.tilewidth, y * gameMap.tileheight))
|
|
|
|
waiter.handle_events()
|
|
for table in tables:
|
|
table.render(display)
|
|
for chair_list in chairs:
|
|
for chair in chair_list:
|
|
chair.render(display)
|
|
key = pygame.key.get_pressed()
|
|
left, middle, right = pygame.mouse.get_pressed()
|
|
if left:
|
|
waiterGo(mouseToNum())
|
|
elif right:
|
|
while True:
|
|
x = pygame.mouse.get_pos()[1]
|
|
y = pygame.mouse.get_pos()[0]
|
|
if y > 608 or y < 32 or x > 608 or x < 32 or check_collision_with_table(y,x) or check_collision_with_chair(y, x):
|
|
print("I can't go there")
|
|
break
|
|
goal = (x // 32, y // 32)
|
|
route = astar(map.get_arr(), (waiter.loc[1] // 32, waiter.loc[0] // 32), goal)
|
|
direction = [(x[1] - y[1], x[0] - y[0]) for x, y in zip(route[1:], route)]
|
|
break
|
|
elif middle:
|
|
if client.loc[0] in [64, 128, 192, 256, 352, 416, 480, 544]:
|
|
while True:
|
|
x = client.loc[1] - 32
|
|
y = client.loc[0]
|
|
goal = (x // 32, y // 32)
|
|
route = astar(map.get_arr(), (waiter.loc[1] // 32, waiter.loc[0] // 32), goal)
|
|
direction = [(x[1] - y[1], x[0] - y[0]) for x, y in zip(route[1:], route)]
|
|
break
|
|
elif client.loc[0] in [96, 224, 384, 512]:
|
|
while True:
|
|
x = client.loc[1]
|
|
y = client.loc[0] - 32
|
|
goal = (x // 32, y // 32)
|
|
route = astar(map.get_arr(), (waiter.loc[1] // 32, waiter.loc[0] // 32), goal)
|
|
direction = [(x[1] - y[1], x[0] - y[0]) for x, y in zip(route[1:], route)]
|
|
break
|
|
print()
|
|
print("Hello Sir, tell me yours preferences")
|
|
print("Pass: 'budget', 'spiciness', 'vege', 'level_of_hunger', 'allergy', 'favorite_ingridient', 'drink_in'\n")
|
|
print("Here is my list of preferences")
|
|
ingridients = tell_preferences()
|
|
print(ingridients)
|
|
print()
|
|
pizza = get_pizza(choose_pizza(evaluate_preferences(ingridients)))
|
|
print("Our proposition:")
|
|
print("Name = {}\nprice = {}\nspiciness = {}\nvege = {}\nsize = {}\nallergens = {}\ningridients = {}\ndrink_in = {}\n"
|
|
.format(pizza.name,pizza.price, pizza.spiciness,pizza.vege,pizza.size,pizza.allergens,pizza.ingridients,pizza.drink_in))
|
|
|
|
|
|
if len(direction) > 0:
|
|
d = direction.pop(0)
|
|
if d[0] == 1:
|
|
waiter.right()
|
|
elif d[0] == -1:
|
|
waiter.left()
|
|
elif d[1] == 1:
|
|
waiter.down()
|
|
elif d[1] == -1:
|
|
waiter.up()
|
|
|
|
key = pygame.key.get_pressed()
|
|
if key[pygame.K_p]:
|
|
pass
|
|
waiter.render(display)
|
|
client.render(display)
|
|
pygame.display.update()
|
|
|
|
|
|
if __name__ == '__main__':
|
|
main()
|