import mysql.connector import random from typing import List import shortuuid import uuid class Card: def __init__(self): self.name = "" self.is_visible = False self.is_accessible = False def toggle_visibility(self, toggle: bool = True): self.is_visible = toggle def toggle_accessibility(self, toggle: bool = True): self.is_accessible = toggle class Player: def __init__(self, player_id): self.player_id = player_id # self.name = name self.owned_starters = [] self.owned_citizens = [] self.owned_domains = [] self.owned_dukes = [] self.owned_monsters = [] self.gold_score = 2 self.strength_score = 0 self.magic_score = 1 self.is_first = False self.shadow_count = 0 self.holy_count = 0 self.soldier_count = 0 self.worker_count = 0 def calc_roles(self): for citizen in self.owned_citizens: self.shadow_count = self.shadow_count + citizen.shadow_count self.holy_count = self.holy_count + citizen.holy_count self.soldier_count = self.soldier_count + citizen.soldier_count self.worker_count = self.worker_count + citizen.worker_count for domain in self.owned_domains: self.shadow_count = self.shadow_count + domain.shadow_count self.holy_count = self.holy_count + domain.holy_count self.soldier_count = self.soldier_count + domain.soldier_count self.worker_count = self.worker_count + domain.worker_count class Starter(Card): def __init__(self, starter_id, name, roll_match1, roll_match2, gold_payout_on_turn, gold_payout_off_turn, strength_payout_on_turn, strength_payout_off_turn, magic_payout_on_turn, magic_payout_off_turn, has_special_payout_on_turn, has_special_payout_off_turn, special_payout_on_turn, special_payout_off_turn, expansion): super().__init__() self.starter_id = starter_id self.name = name self.rollMatch1 = roll_match1 self.rollMatch2 = roll_match2 self.goldPayoutOnTurn = gold_payout_on_turn self.goldPayoutOffTurn = gold_payout_off_turn self.strengthPayoutOnTurn = strength_payout_on_turn self.strengthPayoutOffTurn = strength_payout_off_turn self.magicPayoutOnTurn = magic_payout_on_turn self.magicPayoutOffTurn = magic_payout_off_turn self.hasSpecialPayoutOnTurn = has_special_payout_on_turn self.hasSpecialPayoutOffTurn = has_special_payout_off_turn self.specialPayoutOnTurn = special_payout_on_turn self.specialPayoutOffTurn = special_payout_off_turn self.expansion = expansion class Citizen(Card): def __init__(self, citizen_id, name, gold_cost, roll_match1, roll_match2, shadow_count, holy_count, soldier_count, worker_count, gold_payout_on_turn, gold_payout_off_turn, strength_payout_on_turn, strength_payout_off_turn, magic_payout_on_turn, magic_payout_off_turn, has_special_payout_on_turn, has_special_payout_off_turn, special_payout_on_turn, special_payout_off_turn, special_citizen, expansion): super().__init__() self.citizen_id = citizen_id self.name = name self.gold_cost = gold_cost self.roll_match1 = roll_match1 self.roll_match2 = roll_match2 self.shadow_count = shadow_count self.holy_count = holy_count self.soldier_count = soldier_count self.worker_count = worker_count self.gold_payout_on_turn = gold_payout_on_turn self.gold_payout_off_turn = gold_payout_off_turn self.strength_payout_on_turn = strength_payout_on_turn self.strength_payout_off_turn = strength_payout_off_turn self.magic_payout_on_turn = magic_payout_on_turn self.magic_payout_off_turn = magic_payout_off_turn self.has_special_payout_on_turn = has_special_payout_on_turn self.has_special_payout_off_turn = has_special_payout_off_turn self.special_payout_on_turn = special_payout_on_turn self.special_payout_off_turn = special_payout_off_turn self.special_citizen = special_citizen self.expansion = expansion class Domain(Card): def __init__(self, domain_id, name, gold_cost, shadow_count, holy_count, soldier_count, worker_count, vp_reward, has_activation_effect, has_passive_effect, passive_effect, activation_effect, text, expansion): super().__init__() self.domain_id = domain_id self.name = name self.gold_cost = gold_cost self.shadow_count = shadow_count self.holy_count = holy_count self.soldier_count = soldier_count self.worker_count = worker_count self.vp_reward = vp_reward self.has_activation_effect = has_activation_effect self.has_passive_effect = has_passive_effect self.passive_effect = passive_effect self.activation_effect = activation_effect self.text = text self.expansion = expansion class Monster(Card): def __init__(self, monster_id, name, area, monster_type, order, strength_cost, magic_cost, vp_reward, gold_reward, strength_reward, magic_reward, has_special_reward, special_reward, has_special_cost, special_cost, is_extra, expansion): super().__init__() self.monster_id = monster_id self.name = name self.area = area self.monster_type = monster_type self.order = order self.strength_cost = strength_cost self.magic_cost = magic_cost self.vp_reward = vp_reward self.gold_reward = gold_reward self.strength_reward = strength_reward self.magic_reward = magic_reward self.has_special_reward = has_special_reward self.special_reward = special_reward self.has_special_cost = has_special_cost self.special_cost = special_cost self.is_extra = is_extra self.expansion = expansion def add_strength_cost(self, added_strength): self.strength_cost = self.strength_cost + added_strength def add_magic_cost(self, added_magic): self.magic_cost = self.magic_cost + added_magic class Duke(Card): def __init__(self, duke_id, name, gold_mult, strength_mult, magic_mult, shadow_mult, holy_mult, soldier_mult, worker_mult, monster_mult, citizen_mult, domain_mult, boss_mult, minion_mult, beast_mult, titan_mult, expansion): super().__init__() self.duke_id = duke_id self.name = name self.gold_multiplier = gold_mult self.strength_multiplier = strength_mult self.magic_multiplier = magic_mult self.shadow_multiplier = shadow_mult self.holy_multiplier = holy_mult self.soldier_multiplier = soldier_mult self.worker_multiplier = worker_mult self.monster_multiplier = monster_mult self.citizen_multiplier = citizen_mult self.domain_multiplier = domain_mult self.boss_multiplier = boss_mult self.minion_multiplier = minion_mult self.beast_multiplier = beast_mult self.titan_multiplier = titan_mult self.expansion = expansion class Game: def __init__(self, player_count, preset="shuffled", number_of_dukes=2): self.game_id = uuid.uuid4() self.player_count = player_count self.preset = preset self.number_of_dukes = number_of_dukes self.player_list = [] self.citizen_grid: List[List[Citizen]] = [[] for _ in range(10)] self.domain_grid: List[List[Domain]] = [[] for _ in range(5)] self.monster_grid: List[List[Monster]] = [[] for _ in range(5)] self.duke_stack = [] self.domain_stack = [] self.citizen_stack = [] self.monster_stack = [] self.starter_stack = [] self.graveyard = [] self.die_one = 0 self.die_two = 0 self.die_sum = 0 self.exhausted_count = 0 my_connect = mysql.connector.connect(user='vckonline', password='vckonline', host='localhost', database='vckonline') my_cursor = my_connect.cursor(dictionary=True) # load game data my_cursor.execute("SELECT * FROM dukes") my_result = my_cursor.fetchall() for row in my_result: my_duke = Duke(row['id_dukes'], row['name'], row['gold_mult'], row['strength_mult'], row['magic_mult'], row['shadow_mult'], row['holy_mult'], row['soldier_mult'], row['worker_mult'], row['monster_mult'], row['citizen_mult'], row['domain_mult'], row['boss_mult'], row['minion_mult'], row['beast_mult'], row['titan_mult'], row['expansion']) self.duke_stack.append(my_duke) random.shuffle(self.duke_stack) my_cursor.execute("SELECT * FROM domains") my_result = my_cursor.fetchall() for row in my_result: my_domain = Domain(row['id_domains'], row['name'], row['gold_cost'], row['shadow_count'], row['holy_count'], row['soldier_count'], row['worker_count'], row['vp_reward'], row['has_activation_effect'], row['has_passive_effect'], row['passive_effect'], row['activation_effect'], row['text'], row['expansion']) self.domain_stack.append(my_domain) random.shuffle(self.domain_stack) my_cursor.execute("SELECT * FROM citizens") my_result = my_cursor.fetchall() for row in my_result: for i in range(6): my_citizen = Citizen(row['id_citizens'], row['name'], row['gold_cost'], row['roll_match1'], row['roll_match2'], row['shadow_count'], row['holy_count'], row['soldier_count'], row['worker_count'], row['gold_payout_on_turn'], row['gold_payout_off_turn'], row['strength_payout_on_turn'], row['strength_payout_off_turn'], row['magic_payout_on_turn'], row['magic_payout_off_turn'], row['has_special_payout_on_turn'], row['has_special_payout_off_turn'], row['special_payout_on_turn'], row['special_payout_off_turn'], row['special_citizen'], row['expansion']) self.citizen_stack.append(my_citizen) my_cursor.execute("SELECT * FROM starters") my_result = my_cursor.fetchall() for row in my_result: my_starter = Starter(row['id_starters'], row['name'], row['roll_match1'], row['roll_match2'], row['gold_payout_on_turn'], row['gold_payout_off_turn'], row['strength_payout_on_turn'], row['strength_payout_off_turn'], row['magic_payout_on_turn'], row['magic_payout_off_turn'], row['has_special_payout_on_turn'], row['has_special_payout_off_turn'], row['special_payout_on_turn'], row['special_payout_off_turn'], row['expansion']) self.starter_stack.append(my_starter) my_cursor.execute("SELECT * FROM monsters") my_result = my_cursor.fetchall() for row in my_result: my_monster = Monster(row['id_monsters'], row['name'], row['area'], row['monster_type'], row['monster_order'], row['strength_cost'], row['magic_cost'], row['vp_reward'], row['gold_reward'], row['strength_reward'], row['magic_reward'], row['has_special_reward'], row['special_reward'], row['has_special_cost'], row['special_cost'], row['is_extra'], row['expansion']) self.monster_stack.append(my_monster) my_connect.close() # end load game data # remove extra cards if self.player_count != 5: extra_monsters = [] remaining_monsters = [] for monster in self.monster_stack: if monster.is_extra == 1: extra_monsters.append(monster) else: remaining_monsters.append(monster) self.monster_stack = remaining_monsters self.graveyard.extend(extra_monsters) match self.preset: case "base1": base1_monsters = [] other_expansion_monsters = [] for monster in self.monster_stack: if monster.expansion == "base1": base1_monsters.append(monster) else: other_expansion_monsters.append(monster) self.monster_stack = base1_monsters self.graveyard.extend(other_expansion_monsters) base1_citizens = [] other_expansion_citizens = [] for citizen in self.citizen_stack: if citizen.expansion == "base1": base1_citizens.append(citizen) else: other_expansion_citizens.append(citizen) self.citizen_stack = base1_citizens self.graveyard.extend(other_expansion_citizens) case "base2": base1_monsters = [] base2_monsters = [] other_expansion_monsters = [] for monster in self.monster_stack: if monster.expansion == "base1": base1_monsters.append(monster) elif monster.expansion == "base2": base2_monsters.append(monster) else: other_expansion_monsters.append(monster) # add 2 random monster areas from base1 to fill out base2 monsters grouped_monsters = {} for base1_monster in base1_monsters: area = base1_monster.area if area in grouped_monsters: grouped_monsters[area].append(base1_monster) else: grouped_monsters[area] = [base1_monster] areas = list(grouped_monsters.keys()) chosen_areas = random.sample(areas, 2) not_chosen_monsters = [monster for area, monsters in grouped_monsters.items() if area not in chosen_areas for monster in monsters] self.graveyard.extend(not_chosen_monsters) for i, area in enumerate(chosen_areas): monsters = grouped_monsters[area] base2_monsters.extend(monsters) self.monster_stack = base2_monsters self.graveyard.extend(other_expansion_monsters) base2_citizens = [] other_expansion_citizens = [] for citizen in self.citizen_stack: if citizen.expansion == "base2": base2_citizens.append(citizen) else: other_expansion_citizens.append(citizen) # add peasant and knight from base1 for citizen in other_expansion_citizens: if citizen.name == "Peasant" and citizen.expansion == "base1": base2_citizens.append(citizen) elif citizen.name == "Knight" and citizen.expansion == "base1": base2_citizens.append(citizen) self.citizen_stack = base2_citizens # put the rest of the cards in the graveyard grouped_citizens = {} for citizen in other_expansion_citizens: expansion = citizen.expansion if expansion in grouped_citizens: grouped_citizens[expansion].append(citizen) else: grouped_citizens[expansion] = [citizen] if "base1" in grouped_citizens: base1_citizens = grouped_citizens["base1"] base1_citizens = [citizen for citizen in base1_citizens if citizen.name not in ("Peasant", "Knight")] grouped_citizens["base1"] = base1_citizens other_expansion_citizens = [] for expansion in grouped_citizens.values(): other_expansion_citizens.extend(expansion) self.graveyard.extend(other_expansion_citizens) case "shadowvale": shadowvale_monsters = [] other_expansion_monsters = [] for monster in self.monster_stack: if monster.expansion == "shadowvale": shadowvale_monsters.append(monster) else: other_expansion_monsters.append(monster) self.monster_stack = shadowvale_monsters self.graveyard.extend(other_expansion_monsters) shadowvale_citizens = [] other_expansion_citizens = [] for citizen in self.citizen_stack: if citizen.expansion == "shadowvale": shadowvale_citizens.append(citizen) else: other_expansion_citizens.append(citizen) self.citizen_stack = shadowvale_citizens self.graveyard.extend(other_expansion_citizens) case "flamesandfrost": flamesandfrost_monsters = [] other_expansion_monsters = [] for monster in self.monster_stack: if monster.expansion == "flamesandfrost": flamesandfrost_monsters.append(monster) else: other_expansion_monsters.append(monster) self.monster_stack = flamesandfrost_monsters self.graveyard.extend(other_expansion_monsters) flamesandfrost_citizens = [] other_expansion_citizens = [] for citizen in self.citizen_stack: if citizen.expansion == "flamesandfrost": flamesandfrost_citizens.append(citizen) else: other_expansion_citizens.append(citizen) self.citizen_stack = flamesandfrost_citizens self.graveyard.extend(other_expansion_citizens) case _: if self.player_count != 5: for stack in self.monster_grid: # Remove monsters with isExtra = True from each stack stack[:] = [monster for monster in stack if not monster.is_extra] # end remove extra cards # create players and determine order for x in range(0, self.player_count): my_player = Player(shortuuid.uuid()) my_player.name = f"Player {(x + 1)}" self.player_list.append(my_player) random.shuffle(self.player_list) self.player_list[0].is_first = True # give players starters and dukes for player in self.player_list: player.owned_starters.append(self.starter_stack[0]) player.owned_starters.append(self.starter_stack[1]) for i in range(number_of_dukes): player.owned_dukes.append(self.duke_stack.pop()) # deal monsters onto the board grouped_monsters = {} for monster in self.monster_stack: area = monster.area if area in grouped_monsters: grouped_monsters[area].append(monster) else: grouped_monsters[area] = [monster] # Reverse the order of each group by monster_order for area, monsters in grouped_monsters.items(): monsters.sort(key=lambda item: item.order, reverse=True) areas = list(grouped_monsters.keys()) chosen_areas = random.sample(areas, 5) for i, area in enumerate(chosen_areas): monsters = grouped_monsters[area] self.monster_grid[i].extend(monsters) for i, stack in enumerate(self.monster_grid): for monster in stack: monster.toggle_visibility(True) # Make the last monster in the stack accessible stack[-1].toggle_accessibility(True) self.monster_stack = [] # deal citizens onto the board # Create a dictionary to store citizen lists with roll numbers as keys citizens_by_roll = {roll: [] for roll in [1, 2, 3, 4, 5, 6, 7, 8, 9, 11]} # Group citizens by roll number for citizen in self.citizen_stack: citizen.toggle_visibility() citizens_by_roll[citizen.roll_match1].append(citizen) for roll in citizens_by_roll: # Map 11 roll to index 9 index = roll - 1 if roll < 11 else 9 citizens = citizens_by_roll[roll] self.citizen_grid[index].extend(list(citizens)) # Make the first citizen in each list accessible self.citizen_grid[index][-1].toggle_accessibility(True) self.citizen_stack = [] # Deal the domains into the stacks for i in range(5): stack = self.domain_grid[i] for j in range(3): if j == 2: # top domain is visible and accessible domain = self.domain_stack.pop() domain.toggle_visibility(True) domain.toggle_accessibility(True) stack.append(domain) else: # other domains are not visible or accessible domain = self.domain_stack.pop() stack.append(domain) self.get_game_state() def get_game_state(self): for i, monster_list in enumerate(self.monster_grid): print( f"Monster Stack {i + 1}: {[f'{monster.name} ({monster.monster_id})' + ('E' if monster.is_extra else '') + ('V' if monster.is_visible else '') + ('A' if monster.is_accessible else '') for monster in monster_list]}") for i, citizen_list in enumerate(self.citizen_grid): print( f"Citizen Stack {i + 1}: {[f'{citizen.name} ({citizen.citizen_id})' + ('V' if citizen.is_visible else '') + ('A' if citizen.is_accessible else '') for citizen in citizen_list]}") for i, domain_list in enumerate(self.domain_grid): print( f"Domain Stack {i + 1}: {[f'{domain.name} ({domain.domain_id})' + ('V' if domain.is_visible else '') + ('A' if domain.is_accessible else '') for domain in domain_list]}") for i, player in enumerate(self.player_list): print( f"Player {i + 1}: {[f'{player.player_id}' + (' *' if player.is_first else '') + f' G{player.gold_score} S{player.strength_score} M{player.magic_score}']}") print(f"monster stack size {len(self.monster_stack)}") print(f"citizen stack size {len(self.citizen_stack)}") print(f"domain stack size {len(self.domain_stack)}") print(f"graveyard stack size {len(self.graveyard)}") def roll_phase(self): self.die_one = random.randint(1, 6) self.die_two = random.randint(1, 6) self.die_sum = self.die_one + self.die_two print(f"{self.die_one} | {self.die_two} | {self.die_sum}") for citizen in self.player_list[0].owned_citizens: if (citizen.roll_match1 == self.die_one) or (citizen.roll_match1 == self.die_two) or ( citizen.roll_match1 == self.die_sum) or (citizen.roll_match2 == self.die_sum): print(f"{citizen.name} Payout") self.player_list[0].gold_score = self.player_list[0].gold_score + citizen.gold_payout_on_turn self.player_list[0].strength_score = self.player_list[ 0].strength_score + citizen.strength_payout_on_turn self.player_list[0].magic_score = self.player_list[0].magic_score + citizen.magic_payout_on_turn list_iterator = iter(self.player_list) next(list_iterator) for player in list_iterator: for citizen in player.owned_citizens: if (citizen.roll_match1 == self.die_one) or (citizen.roll_match1 == self.die_two) or ( citizen.roll_match1 == self.die_sum) or (citizen.roll_match2 == self.die_sum): print(f"{citizen.name} Payout") player.gold_score = player.gold_score + citizen.gold_payout_off_turn player.strength_score = player.strength_score + citizen.strength_payout_off_turn player.magic_score = player.magic_score + citizen.magic_payout_off_turn def play_turn(self): self.roll_phase() def end_check(self): if self.exhausted_count <= (self.player_count * 2): return False