restructured files and fixed all errors
This commit is contained in:
212
common.py
212
common.py
@@ -1,214 +1,4 @@
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import json
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import time
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from json import JSONEncoder, JSONDecoder
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import random
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from typing import List, Dict
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from constants import *
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import mariadb
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import shortuuid
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import uuid
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from cards import *
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from game import *
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class LobbyMember:
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def __init__(self, player_name, player_id):
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self.name = player_name
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self.player_id = player_id
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self.is_ready = False
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self.last_active_time = 0
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class GameMember:
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def __init__(self, player_id, player_name, game_id):
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self.name = player_name
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self.player_id = player_id
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self.game_id = game_id
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def load_game_data(game_id, preset, player_list_from_lobby):
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monster_query = ""
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monster_stack = []
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citizen_query = ""
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citizen_stack = []
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domain_query = "select_random_domains"
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domain_stack = []
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duke_query = "select_random_dukes"
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duke_stack = []
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starter_query = "SELECT * FROM starters"
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starter_stack = []
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player_list = []
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citizen_grid: List[List[Citizen]] = [[] for _ in range(10)]
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domain_grid: List[List[Domain]] = [[] for _ in range(5)]
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monster_grid: List[List[Monster]] = [[] for _ in range(5)]
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die_one = 0
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die_two = 0
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die_sum = 0
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exhausted_count = 0
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effects = {
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"roll_phase": [],
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"harvest_phase": [],
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"action_phase": []
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}
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action_required = {
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"player_id": "",
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"action": ""
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}
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match preset:
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case "base1":
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monster_query = "select_base1_monsters"
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citizen_query = "select_base1_citizens"
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case "base2":
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monster_query = "select_base2_monsters"
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citizen_query = "select_base2_citizens"
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try:
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my_connect = mariadb.connect(user='vckonline', password='vckonline', host='127.0.0.1',
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database='vckonline')
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my_cursor = my_connect.cursor(dictionary=True)
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my_cursor.callproc(monster_query)
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results = my_cursor.fetchall()
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for row in results:
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my_monster = Monster(row['id_monsters'], row['name'], row['area'], row['monster_type'],
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row['monster_order'], row['strength_cost'], row['magic_cost'], row['vp_reward'],
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row['gold_reward'], row['strength_reward'], row['magic_reward'],
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row['has_special_reward'], row['special_reward'], row['has_special_cost'],
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row['special_cost'], row['is_extra'], row['expansion'])
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monster_stack.append(my_monster)
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my_cursor.callproc(citizen_query)
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citizen_count = 5
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if len(player_list_from_lobby) == 5:
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citizen_count = 6
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results = my_cursor.fetchall()
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for row in results:
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for i in range(citizen_count):
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my_citizen = Citizen(row['id_citizens'], row['name'], row['gold_cost'], row['roll_match1'],
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row['roll_match2'], row['shadow_count'], row['holy_count'], row['soldier_count'],
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row['worker_count'], row['gold_payout_on_turn'], row['gold_payout_off_turn'],
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row['strength_payout_on_turn'], row['strength_payout_off_turn'],
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row['magic_payout_on_turn'], row['magic_payout_off_turn'],
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row['has_special_payout_on_turn'], row['has_special_payout_off_turn'],
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row['special_payout_on_turn'], row['special_payout_off_turn'],
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row['special_citizen'],
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row['expansion'])
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citizen_stack.append(my_citizen)
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my_cursor.callproc(domain_query)
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results = my_cursor.fetchall()
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for row in results:
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my_domain = Domain(row['id_domains'], row['name'], row['gold_cost'], row['shadow_count'], row['holy_count'],
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row['soldier_count'], row['worker_count'], row['vp_reward'],
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row['has_activation_effect'], row['has_passive_effect'], row['passive_effect'],
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row['activation_effect'], row['text'], row['expansion'])
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domain_stack.append(my_domain)
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my_cursor.callproc(duke_query)
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results = my_cursor.fetchall()
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for row in results:
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my_duke = Duke(row['id_dukes'], row['name'], row['gold_mult'], row['strength_mult'], row['magic_mult'],
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row['shadow_mult'], row['holy_mult'], row['soldier_mult'], row['worker_mult'],
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row['monster_mult'], row['citizen_mult'], row['domain_mult'], row['boss_mult'],
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row['minion_mult'], row['beast_mult'], row['titan_mult'], row['expansion'])
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duke_stack.append(my_duke)
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my_cursor.execute(starter_query)
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my_result = my_cursor.fetchall()
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for row in my_result:
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my_starter = Starter(row['id_starters'], row['name'], row['roll_match1'], row['roll_match2'],
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row['gold_payout_on_turn'], row['gold_payout_off_turn'],
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row['strength_payout_on_turn'], row['strength_payout_off_turn'],
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row['magic_payout_on_turn'], row['magic_payout_off_turn'],
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row['has_special_payout_on_turn'], row['has_special_payout_off_turn'],
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row['special_payout_on_turn'], row['special_payout_off_turn'], row['expansion'])
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starter_stack.append(my_starter)
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my_cursor.close()
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my_connect.close()
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except Exception as e:
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print(f"Error: {e}")
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# print(f"size of monster stack: {len(monster_stack)}")
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# print(f"size of citizen stack: {len(citizen_stack)}")
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# print(f"size of domain stack: {len(domain_stack)}")
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# print(f"size of duke stack: {len(duke_stack)}")
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# print(f"size of starter stack: {len(starter_stack)}")
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# create players and determine order
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if not all([player_list_from_lobby, starter_query, monster_stack, citizen_stack, domain_stack, duke_stack]):
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raise ValueError("One or more required lists are empty.")
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else:
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for player in player_list_from_lobby:
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my_player = Player(player.player_id, player.name)
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player_list.append(my_player)
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random.shuffle(player_list)
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player_list[0].is_first = True
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# give players starters and dukes
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for player in player_list:
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player.owned_starters.append(starter_stack[0])
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player.owned_starters.append(starter_stack[1])
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for i in range(2):
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player.owned_dukes.append(duke_stack.pop())
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# deal monsters onto the board
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grouped_monsters = {}
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for monster in monster_stack:
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area = monster.area
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if area in grouped_monsters:
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grouped_monsters[area].append(monster)
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else:
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grouped_monsters[area] = [monster]
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# Reverse the order of each group by monster_order
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for area, monsters in grouped_monsters.items():
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monsters.sort(key=lambda item: item.order, reverse=True)
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areas = list(grouped_monsters.keys())
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chosen_areas = random.sample(areas, 5)
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for i, area in enumerate(chosen_areas):
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monsters = grouped_monsters[area]
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monster_grid[i].extend(monsters)
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for i, stack in enumerate(monster_grid):
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for monster in stack:
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monster.toggle_visibility(True)
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# Make the last monster in the stack accessible
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stack[-1].toggle_accessibility(True)
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monster_stack = []
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# deal citizens onto the board
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# Create a dictionary to store citizen lists with roll numbers as keys
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citizens_by_roll = {roll: [] for roll in [1, 2, 3, 4, 5, 6, 7, 8, 9, 11]}
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# Group citizens by roll number
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for citizen in citizen_stack:
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citizen.toggle_visibility()
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citizens_by_roll[citizen.roll_match1].append(citizen)
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for roll in citizens_by_roll:
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# Map 11 roll to index 9
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index = roll - 1 if roll < 11 else 9
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citizens = citizens_by_roll[roll]
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citizen_grid[index].extend(list(citizens))
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# Make the first citizen in each list accessible
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citizen_grid[index][-1].toggle_accessibility(True)
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citizen_stack = []
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# Deal the domains into the stacks
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for i in range(5):
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stack = domain_grid[i]
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for j in range(3):
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if j == 2: # top domain is visible and accessible
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domain = domain_stack.pop()
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domain.toggle_visibility(True)
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domain.toggle_accessibility(True)
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stack.append(domain)
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else: # other domains are not visible or accessible
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domain = domain_stack.pop()
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stack.append(domain)
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# Create a dictionary to store all the stacks
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game_state = {'game_id': game_id,
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'player_list': player_list,
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'monster_grid': monster_grid,
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'citizen_grid': citizen_grid,
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'domain_grid': domain_grid,
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'die_one': die_one,
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'die_two': die_two,
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'die_sum': die_sum,
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'exhausted_count': exhausted_count,
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'effects': effects,
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'action_required': action_required}
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# Return the dictionary
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return game_state
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212
game.py
212
game.py
@@ -1,5 +1,12 @@
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from common import *
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import time
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import random
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from json import JSONEncoder
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from typing import List
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import mariadb
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from constants import *
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from cards import *
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class Player:
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def __init__(self, player_id, name):
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self.player_id = player_id
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@@ -69,6 +76,7 @@ class Player:
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}
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return roles_dict
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class Game:
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def __init__(self, game_state):
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self.game_id = game_state['game_id']
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@@ -359,6 +367,206 @@ class Game:
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return
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class LobbyMember:
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def __init__(self, player_name, player_id):
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self.name = player_name
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self.player_id = player_id
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self.is_ready = False
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self.last_active_time = 0
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class GameMember:
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def __init__(self, player_id, player_name, game_id):
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self.name = player_name
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self.player_id = player_id
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self.game_id = game_id
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def load_game_data(game_id, preset, player_list_from_lobby):
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monster_query = ""
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monster_stack = []
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citizen_query = ""
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citizen_stack = []
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domain_query = "select_random_domains"
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domain_stack = []
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duke_query = "select_random_dukes"
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duke_stack = []
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starter_query = "SELECT * FROM starters"
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starter_stack = []
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player_list = []
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citizen_grid: List[List[Citizen]] = [[] for _ in range(10)]
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domain_grid: List[List[Domain]] = [[] for _ in range(5)]
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monster_grid: List[List[Monster]] = [[] for _ in range(5)]
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die_one = 0
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die_two = 0
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die_sum = 0
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exhausted_count = 0
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effects = {
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"roll_phase": [],
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"harvest_phase": [],
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"action_phase": []
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}
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action_required = {
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"player_id": "",
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"action": ""
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}
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match preset:
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case "base1":
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monster_query = "select_base1_monsters"
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citizen_query = "select_base1_citizens"
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case "base2":
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monster_query = "select_base2_monsters"
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citizen_query = "select_base2_citizens"
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try:
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my_connect = mariadb.connect(user='vckonline', password='vckonline', host='127.0.0.1',
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database='vckonline')
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my_cursor = my_connect.cursor(dictionary=True)
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my_cursor.callproc(monster_query)
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results = my_cursor.fetchall()
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for row in results:
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my_monster = Monster(row['id_monsters'], row['name'], row['area'], row['monster_type'],
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row['monster_order'], row['strength_cost'], row['magic_cost'], row['vp_reward'],
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row['gold_reward'], row['strength_reward'], row['magic_reward'],
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row['has_special_reward'], row['special_reward'], row['has_special_cost'],
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row['special_cost'], row['is_extra'], row['expansion'])
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monster_stack.append(my_monster)
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my_cursor.callproc(citizen_query)
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citizen_count = 5
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if len(player_list_from_lobby) == 5:
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citizen_count = 6
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results = my_cursor.fetchall()
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for row in results:
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for i in range(citizen_count):
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my_citizen = Citizen(row['id_citizens'], row['name'], row['gold_cost'], row['roll_match1'],
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row['roll_match2'], row['shadow_count'], row['holy_count'], row['soldier_count'],
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row['worker_count'], row['gold_payout_on_turn'], row['gold_payout_off_turn'],
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row['strength_payout_on_turn'], row['strength_payout_off_turn'],
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row['magic_payout_on_turn'], row['magic_payout_off_turn'],
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row['has_special_payout_on_turn'], row['has_special_payout_off_turn'],
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row['special_payout_on_turn'], row['special_payout_off_turn'],
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row['special_citizen'],
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row['expansion'])
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citizen_stack.append(my_citizen)
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my_cursor.callproc(domain_query)
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results = my_cursor.fetchall()
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for row in results:
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my_domain = Domain(row['id_domains'], row['name'], row['gold_cost'], row['shadow_count'], row['holy_count'],
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row['soldier_count'], row['worker_count'], row['vp_reward'],
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row['has_activation_effect'], row['has_passive_effect'], row['passive_effect'],
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row['activation_effect'], row['text'], row['expansion'])
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domain_stack.append(my_domain)
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my_cursor.callproc(duke_query)
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results = my_cursor.fetchall()
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for row in results:
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my_duke = Duke(row['id_dukes'], row['name'], row['gold_mult'], row['strength_mult'], row['magic_mult'],
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row['shadow_mult'], row['holy_mult'], row['soldier_mult'], row['worker_mult'],
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row['monster_mult'], row['citizen_mult'], row['domain_mult'], row['boss_mult'],
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row['minion_mult'], row['beast_mult'], row['titan_mult'], row['expansion'])
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duke_stack.append(my_duke)
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my_cursor.execute(starter_query)
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my_result = my_cursor.fetchall()
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for row in my_result:
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my_starter = Starter(row['id_starters'], row['name'], row['roll_match1'], row['roll_match2'],
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row['gold_payout_on_turn'], row['gold_payout_off_turn'],
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row['strength_payout_on_turn'], row['strength_payout_off_turn'],
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row['magic_payout_on_turn'], row['magic_payout_off_turn'],
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row['has_special_payout_on_turn'], row['has_special_payout_off_turn'],
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row['special_payout_on_turn'], row['special_payout_off_turn'], row['expansion'])
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starter_stack.append(my_starter)
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my_cursor.close()
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my_connect.close()
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except Exception as e:
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print(f"Error: {e}")
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# print(f"size of monster stack: {len(monster_stack)}")
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# print(f"size of citizen stack: {len(citizen_stack)}")
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# print(f"size of domain stack: {len(domain_stack)}")
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# print(f"size of duke stack: {len(duke_stack)}")
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# print(f"size of starter stack: {len(starter_stack)}")
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# create players and determine order
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if not all([player_list_from_lobby, starter_query, monster_stack, citizen_stack, domain_stack, duke_stack]):
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raise ValueError("One or more required lists are empty.")
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else:
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for player in player_list_from_lobby:
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my_player = Player(player.player_id, player.name)
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player_list.append(my_player)
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random.shuffle(player_list)
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player_list[0].is_first = True
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# give players starters and dukes
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for player in player_list:
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player.owned_starters.append(starter_stack[0])
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player.owned_starters.append(starter_stack[1])
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for i in range(2):
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player.owned_dukes.append(duke_stack.pop())
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# deal monsters onto the board
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grouped_monsters = {}
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for monster in monster_stack:
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area = monster.area
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if area in grouped_monsters:
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grouped_monsters[area].append(monster)
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else:
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grouped_monsters[area] = [monster]
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# Reverse the order of each group by monster_order
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for area, monsters in grouped_monsters.items():
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monsters.sort(key=lambda item: item.order, reverse=True)
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areas = list(grouped_monsters.keys())
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chosen_areas = random.sample(areas, 5)
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for i, area in enumerate(chosen_areas):
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monsters = grouped_monsters[area]
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monster_grid[i].extend(monsters)
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for i, stack in enumerate(monster_grid):
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for monster in stack:
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monster.toggle_visibility(True)
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# Make the last monster in the stack accessible
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stack[-1].toggle_accessibility(True)
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# deal citizens onto the board
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# Create a dictionary to store citizen lists with roll numbers as keys
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citizens_by_roll = {roll: [] for roll in [1, 2, 3, 4, 5, 6, 7, 8, 9, 11]}
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# Group citizens by roll number
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for citizen in citizen_stack:
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citizen.toggle_visibility()
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citizens_by_roll[citizen.roll_match1].append(citizen)
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for roll in citizens_by_roll:
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# Map 11 roll to index 9
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index = roll - 1 if roll < 11 else 9
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citizens = citizens_by_roll[roll]
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citizen_grid[index].extend(list(citizens))
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# Make the first citizen in each list accessible
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citizen_grid[index][-1].toggle_accessibility(True)
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# Deal the domains into the stacks
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for i in range(5):
|
||||
stack = domain_grid[i]
|
||||
for j in range(3):
|
||||
if j == 2: # top domain is visible and accessible
|
||||
domain = domain_stack.pop()
|
||||
domain.toggle_visibility(True)
|
||||
domain.toggle_accessibility(True)
|
||||
stack.append(domain)
|
||||
else: # other domains are not visible or accessible
|
||||
domain = domain_stack.pop()
|
||||
stack.append(domain)
|
||||
|
||||
# Create a dictionary to store all the stacks
|
||||
game_state = {'game_id': game_id,
|
||||
'player_list': player_list,
|
||||
'monster_grid': monster_grid,
|
||||
'citizen_grid': citizen_grid,
|
||||
'domain_grid': domain_grid,
|
||||
'die_one': die_one,
|
||||
'die_two': die_two,
|
||||
'die_sum': die_sum,
|
||||
'exhausted_count': exhausted_count,
|
||||
'effects': effects,
|
||||
'action_required': action_required}
|
||||
# Return the dictionary
|
||||
return game_state
|
||||
|
||||
|
||||
class SummaryEncoder(JSONEncoder):
|
||||
def default(self, obj):
|
||||
if isinstance(obj, Player):
|
||||
@@ -441,4 +649,4 @@ class GameObjectEncoder(JSONEncoder):
|
||||
"action_required": obj.action_required
|
||||
}
|
||||
else:
|
||||
return super().default(obj)
|
||||
return super().default(obj)
|
||||
|
||||
@@ -1,4 +1,8 @@
|
||||
from common import *
|
||||
import json
|
||||
import shortuuid
|
||||
import uuid
|
||||
from game import *
|
||||
|
||||
player1_id = shortuuid.uuid()
|
||||
player2_id = shortuuid.uuid()
|
||||
player1 = Player(player1_id, "Player 1")
|
||||
|
||||
Reference in New Issue
Block a user