import random import json def load_lists(list_names, base_dir="lists"): lists = {} for name in list_names: with open(f"{base_dir}/{name}.json", "r") as f: lists[name] = json.load(f) return lists def rand_hp(): # Weights from https://bulbapedia.bulbagarden.net/wiki/HP_(TCG) hp_range = list(range(30, 340 + 1, 10)) weights = [156, 542, 1264, 1727, 1477, 1232, 1008, 640, 436, 515, 469, 279, 188, 131, 132, 132, 56, 66, 97, 74, 23, 24, 25, 7, 15, 6, 0, 12, 18, 35, 18, 3] return random.choices(hp_range, weights)[0] def rand_type(types=['Grass', 'Fire', 'Water', 'Lightning', 'Fighting', 'Psychic', 'Colorless', 'Darkness', 'Metal', 'Dragon', 'Fairy'], can_be_none=False): if can_be_none: return random.choices([random.choices(types)[0], None])[0] else: return random.choices(types)[0] def rand_name(energy_type=rand_type()): lists = load_lists([energy_type], 'lists/names') return random.choices(lists[energy_type])[0] def rand_species(species): random_species = random.choices(species)[0] return f'{random_species.capitalize()}' def rand_length(): # Weights from https://bulbapedia.bulbagarden.net/wiki/List_of_Pok%C3%A9mon_by_height feet_ranges = ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11', '12', '13', '14', '16', '17', '18', '19', '20', '21', '22', '23', '24', '26', '28', '30', '32', '34', '35', '47', '65', '328'] weights = [30, 220, 230, 176, 130, 109, 63, 27, 17, 17, 5, 5, 6, 4, 3, 2, 2, 2, 1, 2, 3, 1, 2, 1, 1, 1, 2, 1, 1, 2, 1, 1, 1] return { "feet": random.choices(feet_ranges, weights)[0], "inches": random.randrange(0, 11 + 1, 1) } def rand_weight(): # Weights from https://bulbapedia.bulbagarden.net/wiki/List_of_Pok%C3%A9mon_by_weight weight_ranges = [{"start": 1, "end": 22}, {"start": 22, "end": 44}, {"start": 44, "end": 55}, {"start": 55, "end": 110}, {"start": 110, "end": 132}, {"start": 132, "end": 218}, {"start": 218, "end": 220}, {"start": 221, "end": 226}, { "start": 226, "end": 331}, {"start": 331, "end": 441}, {"start": 441, "end": 451}, {"start": 452, "end": 661}, {"start": 661, "end": 677}, {"start": 677, "end": 793}, {"start": 794, "end": 903}, {"start": 903, "end": 2204}] # 'weights' as in statistical weightings weights = [271, 145, 53, 204, 57, 122, 1, 11, 57, 28, 7, 34, 4, 17, 5, 31] start, end = random.choices(weight_ranges, weights)[0].values() random_weight = random.randrange(start, end + 1, 1) return f'{random_weight} lbs.' def rand_attack(attacks, name, energy_type=None, colorless_only_allowed=False): random_attack = random.choices(attacks)[0] # There are no attacks in Pokémon TCG that have Dragon energy costs # so this would loop indefinitely if looking for one if energy_type is not None and energy_type != 'Dragon' and not colorless_only_allowed: while energy_type not in random_attack["cost"]: random_attack = random.choices(attacks)[0] elif energy_type is not None and energy_type != 'Dragon' and colorless_only_allowed: while energy_type not in random_attack["cost"] and 'Colorless' not in random_attack["cost"]: random_attack = random.choices(attacks)[0] random_attack['text'] = random_attack['text'].replace('', name) return random_attack def rand_attacks(attacks, name, energy_type=None, n=2): attack1 = rand_attack(attacks, name, energy_type) if n > 1: attack2 = rand_attack(attacks, name, energy_type, True) while attack1['text'] == attack2['text']: attack2 = rand_attack(attacks, name, energy_type, True) return [attack1, attack2] else: return [attack1] def rand_retreat(): return random.randrange(0, 4, 1) def rand_description(descriptions): return random.choices(descriptions)[0] def rand_rarity(): return random.choices(['●', '◆', '★'], [10, 5, 1])[0] def rand_details(lists=load_lists(['attacks', 'descriptions', 'species'])): energy_type = rand_type() name = rand_name(energy_type) return { "name": name, "hp": rand_hp(), "energy_type": energy_type, "species": rand_species(lists["species"]), "length": rand_length(), "weight": rand_weight(), "attacks": rand_attacks(lists["attacks"], name, energy_type=energy_type), "weakness": rand_type(can_be_none=True), "resistance": rand_type(can_be_none=True), "retreat": rand_retreat(), "description": rand_description(lists["descriptions"]), "rarity": rand_rarity(), }