import logging import threading import copy import functools import settings import typing from typing import Optional, List, AbstractSet, Union # remove when 3.8 support is dropped from collections import Counter, deque from string import printable logger = logging.getLogger("Ocarina of Time") from .Location import OOTLocation, LocationFactory, location_name_to_id, build_location_name_groups from .Entrance import OOTEntrance from .EntranceShuffle import shuffle_random_entrances, entrance_shuffle_table, EntranceShuffleError from .HintList import getRequiredHints from .Hints import HintArea, HintAreaNotFound, hint_dist_keys, get_hint_area, buildWorldGossipHints from .Items import OOTItem, item_table, oot_data_to_ap_id, oot_is_item_of_type from .ItemPool import generate_itempool, get_junk_item, get_junk_pool from .Regions import OOTRegion, TimeOfDay from .Rules import set_rules, set_shop_rules, set_entrances_based_rules from .RuleParser import Rule_AST_Transformer from .Options import oot_options from .Utils import data_path, read_json from .LocationList import business_scrubs, set_drop_location_names, dungeon_song_locations from .DungeonList import dungeon_table, create_dungeons from .LogicTricks import normalized_name_tricks from .Rom import Rom from .Patches import OoTContainer, patch_rom from .N64Patch import create_patch_file from .Cosmetics import patch_cosmetics from Utils import get_options from BaseClasses import MultiWorld, CollectionState, Tutorial, LocationProgressType from Options import Range, Toggle, VerifyKeys, Accessibility, PlandoConnections from Fill import fill_restrictive, fast_fill, FillError from worlds.generic.Rules import exclusion_rules, add_item_rule from ..AutoWorld import World, AutoLogicRegister, WebWorld # OoT's generate_output doesn't benefit from more than 2 threads, instead it uses a lot of memory. i_o_limiter = threading.Semaphore(2) class OOTCollectionState(metaclass=AutoLogicRegister): def init_mixin(self, parent: MultiWorld): oot_ids = parent.get_game_players(OOTWorld.game) + parent.get_game_groups(OOTWorld.game) self.child_reachable_regions = {player: set() for player in oot_ids} self.adult_reachable_regions = {player: set() for player in oot_ids} self.child_blocked_connections = {player: set() for player in oot_ids} self.adult_blocked_connections = {player: set() for player in oot_ids} self.day_reachable_regions = {player: set() for player in oot_ids} self.dampe_reachable_regions = {player: set() for player in oot_ids} self.age = {player: None for player in oot_ids} def copy_mixin(self, ret) -> CollectionState: ret.child_reachable_regions = {player: copy.copy(self.child_reachable_regions[player]) for player in self.child_reachable_regions} ret.adult_reachable_regions = {player: copy.copy(self.adult_reachable_regions[player]) for player in self.adult_reachable_regions} ret.child_blocked_connections = {player: copy.copy(self.child_blocked_connections[player]) for player in self.child_blocked_connections} ret.adult_blocked_connections = {player: copy.copy(self.adult_blocked_connections[player]) for player in self.adult_blocked_connections} ret.day_reachable_regions = {player: copy.copy(self.adult_reachable_regions[player]) for player in self.day_reachable_regions} ret.dampe_reachable_regions = {player: copy.copy(self.adult_reachable_regions[player]) for player in self.dampe_reachable_regions} return ret class OOTSettings(settings.Group): class RomFile(settings.UserFilePath): """File name of the OoT v1.0 ROM""" description = "Ocarina of Time ROM File" copy_to = "The Legend of Zelda - Ocarina of Time.z64" md5s = [ "5bd1fe107bf8106b2ab6650abecd54d6", # normal "6697768a7a7df2dd27a692a2638ea90b", # byte-swapped "05f0f3ebacbc8df9243b6148ffe4792f", # decompressed ] class RomStart(str): """ Set this to false to never autostart a rom (such as after patching), true for operating system default program Alternatively, a path to a program to open the .z64 file with """ rom_file: RomFile = RomFile(RomFile.copy_to) rom_start: typing.Union[RomStart, bool] = True class OOTWeb(WebWorld): setup = Tutorial( "Multiworld Setup Guide", "A guide to setting up the Archipelago Ocarina of Time software on your computer.", "English", "setup_en.md", "setup/en", ["Edos"] ) setup_es = Tutorial( setup.tutorial_name, setup.description, "Español", "setup_es.md", "setup/es", setup.authors ) setup_fr = Tutorial( setup.tutorial_name, setup.description, "Français", "setup_fr.md", "setup/fr", ["TheLynk"] ) setup_de = Tutorial( setup.tutorial_name, setup.description, "Deutsch", "setup_de.md", "setup/de", ["Held_der_Zeit"] ) tutorials = [setup, setup_es, setup_fr, setup_de] class OOTWorld(World): """ The Legend of Zelda: Ocarina of Time is a 3D action/adventure game. Travel through Hyrule in two time periods, learn magical ocarina songs, and explore twelve dungeons on your quest. Use Link's many items and abilities to rescue the Seven Sages, and then confront Ganondorf to save Hyrule! """ game: str = "Ocarina of Time" option_definitions: dict = oot_options settings: typing.ClassVar[OOTSettings] topology_present: bool = True item_name_to_id = {item_name: oot_data_to_ap_id(data, False) for item_name, data in item_table.items() if data[2] is not None and item_name not in { 'Keaton Mask', 'Skull Mask', 'Spooky Mask', 'Bunny Hood', 'Mask of Truth', 'Goron Mask', 'Zora Mask', 'Gerudo Mask', 'Buy Magic Bean', 'Milk', 'Small Key', 'Map', 'Compass', 'Boss Key', }} # These are items which aren't used, but have get-item values location_name_to_id = location_name_to_id web = OOTWeb() required_client_version = (0, 4, 0) item_name_groups = { # internal groups "medallions": {"Light Medallion", "Forest Medallion", "Fire Medallion", "Water Medallion", "Shadow Medallion", "Spirit Medallion"}, "stones": {"Kokiri Emerald", "Goron Ruby", "Zora Sapphire"}, "rewards": {"Light Medallion", "Forest Medallion", "Fire Medallion", "Water Medallion", "Shadow Medallion", "Spirit Medallion", "Kokiri Emerald", "Goron Ruby", "Zora Sapphire"}, "logic_bottles": {"Bottle", "Bottle with Milk", "Deliver Letter", "Sell Big Poe", "Bottle with Red Potion", "Bottle with Green Potion", "Bottle with Blue Potion", "Bottle with Fairy", "Bottle with Fish", "Bottle with Blue Fire", "Bottle with Bugs", "Bottle with Poe"}, # hint groups "Bottles": {"Bottle", "Bottle with Milk", "Rutos Letter", "Bottle with Big Poe", "Bottle with Red Potion", "Bottle with Green Potion", "Bottle with Blue Potion", "Bottle with Fairy", "Bottle with Fish", "Bottle with Blue Fire", "Bottle with Bugs", "Bottle with Poe"}, "Adult Trade Item": {"Pocket Egg", "Pocket Cucco", "Cojiro", "Odd Mushroom", "Odd Potion", "Poachers Saw", "Broken Sword", "Prescription", "Eyeball Frog", "Eyedrops", "Claim Check"}, "Keys": {"Small Key (Bottom of the Well)", "Small Key (Fire Temple)", "Small Key (Forest Temple)", "Small Key (Ganons Castle)", "Small Key (Gerudo Training Ground)", "Small Key (Shadow Temple)", "Small Key (Spirit Temple)", "Small Key (Thieves Hideout)", "Small Key (Water Temple)", "Small Key Ring (Bottom of the Well)", "Small Key Ring (Fire Temple)", "Small Key Ring (Forest Temple)", "Small Key Ring (Ganons Castle)", "Small Key Ring (Gerudo Training Ground)", "Small Key Ring (Shadow Temple)", "Small Key Ring (Spirit Temple)", "Small Key Ring (Thieves Hideout)", "Small Key Ring (Water Temple)", "Boss Key (Fire Temple)", "Boss Key (Forest Temple)", "Boss Key (Ganons Castle)", "Boss Key (Shadow Temple)", "Boss Key (Spirit Temple)", "Boss Key (Water Temple)"}, } location_name_groups = build_location_name_groups() def __init__(self, world, player): self.hint_data_available = threading.Event() self.collectible_flags_available = threading.Event() super(OOTWorld, self).__init__(world, player) @classmethod def stage_assert_generate(cls, multiworld: MultiWorld): rom = Rom(file=get_options()['oot_options']['rom_file']) # Option parsing, handling incompatible options, building useful-item table def generate_early(self): self.parser = Rule_AST_Transformer(self, self.player) for (option_name, option) in oot_options.items(): result = getattr(self.multiworld, option_name)[self.player] if isinstance(result, Range): option_value = int(result) elif isinstance(result, Toggle): option_value = bool(result) elif isinstance(result, VerifyKeys): option_value = result.value elif isinstance(result, PlandoConnections): option_value = result.value else: option_value = result.current_key setattr(self, option_name, option_value) self.regions = [] # internal caches of regions for this world, used later self._regions_cache = {} self.shop_prices = {} self.remove_from_start_inventory = [] # some items will be precollected but not in the inventory self.starting_items = Counter() self.songs_as_items = False self.file_hash = [self.multiworld.random.randint(0, 31) for i in range(5)] self.connect_name = ''.join(self.multiworld.random.choices(printable, k=16)) self.collectible_flag_addresses = {} # Incompatible option handling # ER and glitched logic are not compatible; glitched takes priority if self.logic_rules == 'glitched': self.shuffle_interior_entrances = 'off' self.shuffle_dungeon_entrances = 'off' self.spawn_positions = 'off' self.shuffle_bosses = 'off' self.shuffle_grotto_entrances = False self.shuffle_overworld_entrances = False self.owl_drops = False self.warp_songs = False # Fix spawn positions option new_sp = [] if self.spawn_positions in {'child', 'both'}: new_sp.append('child') if self.spawn_positions in {'adult', 'both'}: new_sp.append('adult') self.spawn_positions = new_sp # Closed forest and adult start are not compatible; closed forest takes priority if self.open_forest == 'closed': self.starting_age = 'child' # These ER options force closed forest to become closed deku if (self.shuffle_interior_entrances == 'all' or self.shuffle_overworld_entrances or self.warp_songs or self.spawn_positions): self.open_forest = 'closed_deku' # Ganon boss key should not be in itempool in triforce hunt if self.triforce_hunt: self.shuffle_ganon_bosskey = 'triforce' # Force itempool to higher settings if it doesn't have enough hearts max_required_hearts = 3 if self.bridge == 'hearts': max_required_hearts = max(max_required_hearts, self.bridge_hearts) if self.shuffle_ganon_bosskey == 'hearts': max_required_hearts = max(max_required_hearts, self.ganon_bosskey_hearts) if max_required_hearts > 3 and self.item_pool_value == 'minimal': self.item_pool_value = 'scarce' if max_required_hearts > 12 and self.item_pool_value == 'scarce': self.item_pool_value = 'balanced' # If songs/keys locked to own world by settings, add them to local_items local_types = [] if self.shuffle_song_items != 'any': local_types.append('Song') if self.shuffle_mapcompass != 'keysanity': local_types += ['Map', 'Compass'] if self.shuffle_smallkeys != 'keysanity': local_types.append('SmallKey') if self.shuffle_hideoutkeys != 'keysanity': local_types.append('HideoutSmallKey') if self.shuffle_bosskeys != 'keysanity': local_types.append('BossKey') if self.shuffle_ganon_bosskey != 'keysanity': local_types.append('GanonBossKey') self.multiworld.local_items[self.player].value |= set(name for name, data in item_table.items() if data[0] in local_types) # If any songs are itemlinked, set songs_as_items for group in self.multiworld.groups.values(): if self.songs_as_items or group['game'] != self.game or self.player not in group['players']: continue for item_name in group['item_pool']: if oot_is_item_of_type(item_name, 'Song'): self.songs_as_items = True break # Determine skipped trials in GT # This needs to be done before the logic rules in GT are parsed trial_list = ['Forest', 'Fire', 'Water', 'Spirit', 'Shadow', 'Light'] chosen_trials = self.multiworld.random.sample(trial_list, self.trials) # chooses a list of trials to NOT skip self.skipped_trials = {trial: (trial not in chosen_trials) for trial in trial_list} # Determine tricks in logic if self.logic_rules == 'glitchless': for trick in self.logic_tricks: normalized_name = trick.casefold() if normalized_name in normalized_name_tricks: setattr(self, normalized_name_tricks[normalized_name]['name'], True) else: raise Exception(f'Unknown OOT logic trick for player {self.player}: {trick}') # No Logic forces all tricks on, prog balancing off and beatable-only elif self.logic_rules == 'no_logic': self.multiworld.progression_balancing[self.player].value = False self.multiworld.accessibility[self.player].value = Accessibility.option_minimal for trick in normalized_name_tricks.values(): setattr(self, trick['name'], True) # Not implemented for now, but needed to placate the generator. Remove as they are implemented self.ocarina_songs = False # just need to pull in the OcarinaSongs module self.mix_entrance_pools = False self.decouple_entrances = False self.available_tokens = 100 # Deprecated LACS options self.lacs_condition = 'vanilla' self.lacs_stones = 3 self.lacs_medallions = 6 self.lacs_rewards = 9 self.lacs_tokens = 100 self.lacs_hearts = 20 # RuleParser hack self.triforce_goal_per_world = self.triforce_goal # Set internal names used by the OoT generator self.keysanity = self.shuffle_smallkeys in ['keysanity', 'remove', 'any_dungeon', 'overworld'] self.trials_random = self.multiworld.trials[self.player].randomized self.mq_dungeons_random = self.multiworld.mq_dungeons_count[self.player].randomized self.easier_fire_arrow_entry = self.fae_torch_count < 24 if self.misc_hints: self.misc_hints = ['ganondorf', 'altar', 'warp_songs', 'dampe_diary', '10_skulltulas', '20_skulltulas', '30_skulltulas', '40_skulltulas', '50_skulltulas'] else: self.misc_hints = [] # Hint stuff self.clearer_hints = True # this is being enforced since non-oot items do not have non-clear hint text self.gossip_hints = {} self.required_locations = [] self.empty_areas = {} self.major_item_locations = [] self.hinted_dungeon_reward_locations = {} # ER names self.shuffle_special_dungeon_entrances = self.shuffle_dungeon_entrances == 'all' self.shuffle_dungeon_entrances = self.shuffle_dungeon_entrances != 'off' self.ensure_tod_access = (self.shuffle_interior_entrances != 'off') or self.shuffle_overworld_entrances or self.spawn_positions self.entrance_shuffle = ( self.shuffle_interior_entrances != 'off' or self.shuffle_bosses != 'off' or self.shuffle_dungeon_entrances or self.shuffle_special_dungeon_entrances or self.spawn_positions or self.shuffle_grotto_entrances or self.shuffle_overworld_entrances or self.owl_drops or self.warp_songs ) self.disable_trade_revert = (self.shuffle_interior_entrances != 'off') or self.shuffle_overworld_entrances self.shuffle_special_interior_entrances = self.shuffle_interior_entrances == 'all' # Convert the double option used by shopsanity into a single option if self.shopsanity == 'random_number': self.shopsanity = 'random' elif self.shopsanity == 'fixed_number': self.shopsanity = str(self.shop_slots) # Rename options self.dungeon_shortcuts_choice = self.dungeon_shortcuts if self.dungeon_shortcuts_choice == 'random_dungeons': self.dungeon_shortcuts_choice = 'random' self.key_rings_list = {s.replace("'", "") for s in self.key_rings_list} self.dungeon_shortcuts = {s.replace("'", "") for s in self.dungeon_shortcuts_list} self.mq_dungeons_specific = {s.replace("'", "") for s in self.mq_dungeons_list} # self.empty_dungeons_specific = {s.replace("'", "") for s in self.empty_dungeons_list} # Determine which dungeons have key rings. keyring_dungeons = [d['name'] for d in dungeon_table if d['small_key']] + ['Thieves Hideout'] if self.key_rings == 'off': self.key_rings = [] elif self.key_rings == 'all': self.key_rings = keyring_dungeons elif self.key_rings == 'choose': self.key_rings = self.key_rings_list elif self.key_rings == 'random_dungeons': self.key_rings = self.multiworld.random.sample(keyring_dungeons, self.multiworld.random.randint(0, len(keyring_dungeons))) # Determine which dungeons are MQ. Not compatible with glitched logic. mq_dungeons = set() all_dungeons = [d['name'] for d in dungeon_table] if self.logic_rules != 'glitched': if self.mq_dungeons_mode == 'mq': mq_dungeons = all_dungeons elif self.mq_dungeons_mode == 'specific': mq_dungeons = self.mq_dungeons_specific elif self.mq_dungeons_mode == 'count': mq_dungeons = self.multiworld.random.sample(all_dungeons, self.mq_dungeons_count) else: self.mq_dungeons_mode = 'count' self.mq_dungeons_count = 0 self.dungeon_mq = {item['name']: (item['name'] in mq_dungeons) for item in dungeon_table} self.dungeon_mq['Thieves Hideout'] = False # fix for bug in SaveContext:287 # Empty dungeon placeholder for the moment self.empty_dungeons = {name: False for name in self.dungeon_mq} # Determine which dungeons have shortcuts. Not compatible with glitched logic. shortcut_dungeons = ['Deku Tree', 'Dodongos Cavern', \ 'Jabu Jabus Belly', 'Forest Temple', 'Fire Temple', \ 'Water Temple', 'Shadow Temple', 'Spirit Temple'] if self.logic_rules != 'glitched': if self.dungeon_shortcuts_choice == 'off': self.dungeon_shortcuts = set() elif self.dungeon_shortcuts_choice == 'all': self.dungeon_shortcuts = set(shortcut_dungeons) elif self.dungeon_shortcuts_choice == 'random': self.dungeon_shortcuts = self.multiworld.random.sample(shortcut_dungeons, self.multiworld.random.randint(0, len(shortcut_dungeons))) # == 'choice', leave as previous else: self.dungeon_shortcuts = set() # fixing some options # Fixes starting time spelling: "witching_hour" -> "witching-hour" self.starting_tod = self.starting_tod.replace('_', '-') self.shuffle_scrubs = self.shuffle_scrubs.replace('_prices', '') # Convert adult trade option to expected Set self.adult_trade_start = {self.adult_trade_start.title().replace('_', ' ')} # Get hint distribution self.hint_dist_user = read_json(data_path('Hints', f'{self.hint_dist}.json')) self.added_hint_types = {} self.item_added_hint_types = {} self.hint_exclusions = set() if self.shuffle_child_trade == 'skip_child_zelda': self.hint_exclusions.add('Song from Impa') self.hint_type_overrides = {} self.item_hint_type_overrides = {} # unused hint stuff self.named_item_pool = {} self.hint_text_overrides = {} for dist in hint_dist_keys: self.added_hint_types[dist] = [] for loc in self.hint_dist_user['add_locations']: if 'types' in loc: if dist in loc['types']: self.added_hint_types[dist].append(loc['location']) self.item_added_hint_types[dist] = [] for i in self.hint_dist_user['add_items']: if dist in i['types']: self.item_added_hint_types[dist].append(i['item']) self.hint_type_overrides[dist] = [] for loc in self.hint_dist_user['remove_locations']: if dist in loc['types']: self.hint_type_overrides[dist].append(loc['location']) self.item_hint_type_overrides[dist] = [] for i in self.hint_dist_user['remove_items']: if dist in i['types']: self.item_hint_type_overrides[dist].append(i['item']) self.always_hints = [hint.name for hint in getRequiredHints(self)] # Determine items which are not considered advancement based on settings. They will never be excluded. self.nonadvancement_items = {'Double Defense', 'Deku Stick Capacity', 'Deku Nut Capacity'} if (self.damage_multiplier != 'ohko' and self.damage_multiplier != 'quadruple' and self.shuffle_scrubs == 'off' and not self.shuffle_grotto_entrances): # nayru's love may be required to prevent forced damage self.nonadvancement_items.add('Nayrus Love') if getattr(self, 'logic_grottos_without_agony', False) and self.hints != 'agony': # Stone of Agony skippable if not used for hints or grottos self.nonadvancement_items.add('Stone of Agony') if (not self.shuffle_special_interior_entrances and not self.shuffle_overworld_entrances and not self.warp_songs and not self.spawn_positions): # Serenade and Prelude are never required unless one of those settings is enabled self.nonadvancement_items.add('Serenade of Water') self.nonadvancement_items.add('Prelude of Light') if not self.blue_fire_arrows: # Ice Arrows serve no purpose if they're not hacked to have one self.nonadvancement_items.add('Ice Arrows') if not self.bombchus_in_logic: # Nonrenewable bombchus are not a default logical explosive self.nonadvancement_items.update({ 'Bombchus (5)', 'Bombchus (10)', 'Bombchus (20)', }) if not (self.bridge == 'hearts' or self.shuffle_ganon_bosskey == 'hearts'): self.nonadvancement_items.update({ 'Heart Container', 'Piece of Heart', 'Piece of Heart (Treasure Chest Game)' }) if self.logic_rules == 'glitchless': # Both two-handed swords can be required in glitch logic, so only consider them nonprogression in glitchless self.nonadvancement_items.add('Biggoron Sword') self.nonadvancement_items.add('Giants Knife') if not getattr(self, 'logic_water_central_gs_fw', False): # Farore's Wind skippable if not used for this logic trick in Water Temple self.nonadvancement_items.add('Farores Wind') # Reads a group of regions from the given JSON file. def load_regions_from_json(self, file_path): region_json = read_json(file_path) for region in region_json: new_region = OOTRegion(region['region_name'], self.player, self.multiworld) if 'pretty_name' in region: new_region.pretty_name = region['pretty_name'] if 'font_color' in region: new_region.font_color = region['font_color'] if 'scene' in region: new_region.scene = region['scene'] if 'dungeon' in region: new_region.dungeon = region['dungeon'] new_region.set_hint_data(region['dungeon']) if 'is_boss_room' in region: new_region.is_boss_room = region['is_boss_room'] if 'hint' in region: new_region.set_hint_data(region['hint']) if 'alt_hint' in region: new_region.alt_hint = HintArea[region['alt_hint']] if 'time_passes' in region: new_region.time_passes = region['time_passes'] new_region.provides_time = TimeOfDay.ALL if new_region.name == 'Ganons Castle Grounds': new_region.provides_time = TimeOfDay.DAMPE if 'locations' in region: for location, rule in region['locations'].items(): new_location = LocationFactory(location, self.player) if new_location.type in ['HintStone', 'Hint']: continue new_location.parent_region = new_region new_location.rule_string = rule self.parser.parse_spot_rule(new_location) if new_location.never: # We still need to fill the location even if ALR is off. logger.debug('Unreachable location: %s', new_location.name) new_location.player = self.player # Change some attributes of Drop locations if new_location.type == 'Drop': new_location.name = new_region.name + ' ' + new_location.name new_location.show_in_spoiler = False new_region.locations.append(new_location) if 'events' in region: for event, rule in region['events'].items(): # Allow duplicate placement of events lname = '%s from %s' % (event, new_region.name) new_location = OOTLocation(self.player, lname, type='Event', parent=new_region) new_location.rule_string = rule self.parser.parse_spot_rule(new_location) if new_location.never: logger.debug('Dropping unreachable event: %s', new_location.name) else: new_location.player = self.player new_region.locations.append(new_location) self.make_event_item(event, new_location) new_location.show_in_spoiler = False if 'exits' in region: for exit, rule in region['exits'].items(): new_exit = OOTEntrance(self.player, self.multiworld, '%s -> %s' % (new_region.name, exit), new_region) new_exit.vanilla_connected_region = exit new_exit.rule_string = rule if self.multiworld.logic_rules != 'none': self.parser.parse_spot_rule(new_exit) if new_exit.never: logger.debug('Dropping unreachable exit: %s', new_exit.name) else: new_region.exits.append(new_exit) self.multiworld.regions.append(new_region) self.regions.append(new_region) self._regions_cache[new_region.name] = new_region # Sets deku scrub prices def set_scrub_prices(self): # Get Deku Scrub Locations scrub_locations = [location for location in self.get_locations() if location.type in {'Scrub', 'GrottoScrub'}] scrub_dictionary = {} self.scrub_prices = {} for location in scrub_locations: if location.default not in scrub_dictionary: scrub_dictionary[location.default] = [] scrub_dictionary[location.default].append(location) # Loop through each type of scrub. for (scrub_item, default_price, text_id, text_replacement) in business_scrubs: price = default_price if self.shuffle_scrubs == 'low': price = 10 elif self.shuffle_scrubs == 'random': # this is a random value between 0-99 # average value is ~33 rupees price = int(self.multiworld.random.betavariate(1, 2) * 99) # Set price in the dictionary as well as the location. self.scrub_prices[scrub_item] = price if scrub_item in scrub_dictionary: for location in scrub_dictionary[scrub_item]: location.price = price if location.item is not None: location.item.price = price # Sets prices for shuffled shop locations def random_shop_prices(self): shop_item_indexes = ['7', '5', '8', '6'] self.shop_prices = {} for region in self.regions: if self.shopsanity == 'random': shop_item_count = self.multiworld.random.randint(0, 4) else: shop_item_count = int(self.shopsanity) for location in region.locations: if location.type == 'Shop': if location.name[-1:] in shop_item_indexes[:shop_item_count]: if self.shopsanity_prices == 'normal': self.shop_prices[location.name] = int(self.multiworld.random.betavariate(1.5, 2) * 60) * 5 elif self.shopsanity_prices == 'affordable': self.shop_prices[location.name] = 10 elif self.shopsanity_prices == 'starting_wallet': self.shop_prices[location.name] = self.multiworld.random.randrange(0,100,5) elif self.shopsanity_prices == 'adults_wallet': self.shop_prices[location.name] = self.multiworld.random.randrange(0,201,5) elif self.shopsanity_prices == 'giants_wallet': self.shop_prices[location.name] = self.multiworld.random.randrange(0,501,5) elif self.shopsanity_prices == 'tycoons_wallet': self.shop_prices[location.name] = self.multiworld.random.randrange(0,1000,5) # Fill boss prizes def fill_bosses(self, bossCount=9): boss_location_names = ( 'Queen Gohma', 'King Dodongo', 'Barinade', 'Phantom Ganon', 'Volvagia', 'Morpha', 'Bongo Bongo', 'Twinrova', 'Links Pocket' ) boss_rewards = sorted(map(self.create_item, self.item_name_groups['rewards'])) boss_locations = [self.multiworld.get_location(loc, self.player) for loc in boss_location_names] placed_prizes = [loc.item.name for loc in boss_locations if loc.item is not None] prizepool = [item for item in boss_rewards if item.name not in placed_prizes] prize_locs = [loc for loc in boss_locations if loc.item is None] while bossCount: bossCount -= 1 self.multiworld.random.shuffle(prizepool) self.multiworld.random.shuffle(prize_locs) item = prizepool.pop() loc = prize_locs.pop() loc.place_locked_item(item) self.hinted_dungeon_reward_locations[item.name] = loc # Separate the result from generate_itempool into main and prefill pools def divide_itempools(self): prefill_item_types = set() if self.shopsanity != 'off': prefill_item_types.add('Shop') if self.shuffle_song_items != 'any': prefill_item_types.add('Song') if self.shuffle_smallkeys != 'keysanity': prefill_item_types.add('SmallKey') if self.shuffle_bosskeys != 'keysanity': prefill_item_types.add('BossKey') if self.shuffle_hideoutkeys != 'keysanity': prefill_item_types.add('HideoutSmallKey') if self.shuffle_ganon_bosskey != 'keysanity': prefill_item_types.add('GanonBossKey') if self.shuffle_mapcompass != 'keysanity': prefill_item_types.update({'Map', 'Compass'}) main_items = [] prefill_items = [] for item in self.itempool: if item.type in prefill_item_types: prefill_items.append(item) else: main_items.append(item) return main_items, prefill_items # only returns proper result after create_items and divide_itempools are run def get_pre_fill_items(self): return self.pre_fill_items # Note on allow_arbitrary_name: # OoT defines many helper items and event names that are treated indistinguishably from regular items, # but are only defined in the logic files. This means we need to create items for any name. # Allowing any item name to be created is dangerous in case of plando, so this is a middle ground. def create_item(self, name: str, allow_arbitrary_name: bool = False): if name in item_table: return OOTItem(name, self.player, item_table[name], False, (name in self.nonadvancement_items if getattr(self, 'nonadvancement_items', None) else False)) if allow_arbitrary_name: return OOTItem(name, self.player, ('Event', True, None, None), True, False) raise Exception(f"Invalid item name: {name}") def make_event_item(self, name, location, item=None): if item is None: item = self.create_item(name, allow_arbitrary_name=True) self.multiworld.push_item(location, item, collect=False) location.locked = True if name not in item_table: location.internal = True return item # Create regions, locations, and entrances def create_regions(self): if self.logic_rules == 'glitchless' or self.logic_rules == 'no_logic': # enables ER + NL world_type = 'World' else: world_type = 'Glitched World' overworld_data_path = data_path(world_type, 'Overworld.json') bosses_data_path = data_path(world_type, 'Bosses.json') menu = OOTRegion('Menu', self.player, self.multiworld) start = OOTEntrance(self.player, self.multiworld, 'New Game', menu) menu.exits.append(start) self.multiworld.regions.append(menu) self.load_regions_from_json(overworld_data_path) self.load_regions_from_json(bosses_data_path) start.connect(self.get_region('Root')) create_dungeons(self) self.parser.create_delayed_rules() if self.shopsanity != 'off': self.random_shop_prices() self.set_scrub_prices() # Bind entrances to vanilla for region in self.regions: for exit in region.exits: exit.connect(self.get_region(exit.vanilla_connected_region)) # Create items, starting item handling, boss prize fill (before entrance randomizer) def create_items(self): # Generate itempool generate_itempool(self) junk_pool = get_junk_pool(self) removed_items = [] # Determine starting items for item in self.multiworld.precollected_items[self.player]: if item.name in self.remove_from_start_inventory: self.remove_from_start_inventory.remove(item.name) removed_items.append(item.name) else: self.starting_items[item.name] += 1 if item.type == 'Song': self.songs_as_items = True # Call the junk fill and get a replacement if item in self.itempool: self.itempool.remove(item) self.itempool.append(self.create_item(*get_junk_item(pool=junk_pool))) if self.start_with_consumables: self.starting_items['Deku Sticks'] = 30 self.starting_items['Deku Nuts'] = 40 if self.start_with_rupees: self.starting_items['Rupees'] = 999 # Divide itempool into prefill and main pools self.itempool, self.pre_fill_items = self.divide_itempools() self.multiworld.itempool += self.itempool self.remove_from_start_inventory.extend(removed_items) # Fill boss prizes. needs to happen before entrance shuffle self.fill_bosses() def set_rules(self): # This has to run AFTER creating items but BEFORE set_entrances_based_rules if self.entrance_shuffle: # 10 attempts at shuffling entrances tries = 10 while tries: try: shuffle_random_entrances(self) except EntranceShuffleError as e: tries -= 1 logger.debug( f"Failed shuffling entrances for world {self.player}, retrying {tries} more times") if tries == 0: raise e # Restore original state and delete assumed entrances for entrance in self.get_shuffled_entrances(): if entrance.connected_region is not None: entrance.disconnect() entrance.connect(self.multiworld.get_region(entrance.vanilla_connected_region, self.player)) if entrance.assumed: assumed_entrance = entrance.assumed if assumed_entrance.connected_region is not None: assumed_entrance.disconnect() del assumed_entrance entrance.reverse = None entrance.replaces = None entrance.assumed = None entrance.shuffled = False # Clean up root entrances root = self.get_region("Root Exits") root.exits = root.exits[:8] else: break set_rules(self) set_entrances_based_rules(self) def generate_basic(self): # mostly killing locations that shouldn't exist by settings # Gather items for ice trap appearances self.fake_items = [] if self.ice_trap_appearance in ['major_only', 'anything']: self.fake_items.extend(item for item in self.itempool if item.index and self.is_major_item(item)) if self.ice_trap_appearance in ['junk_only', 'anything']: self.fake_items.extend(item for item in self.itempool if item.index and not item.type == 'Shop' and not self.is_major_item(item) and item.name != 'Ice Trap') # Kill unreachable events that can't be gotten even with all items # Make sure to only kill actual internal events, not in-game "events" all_state = self.get_state_with_complete_itempool() all_locations = self.get_locations() all_state.sweep_for_events(locations=all_locations) reachable = self.multiworld.get_reachable_locations(all_state, self.player) unreachable = [loc for loc in all_locations if (loc.internal or loc.type == 'Drop') and loc.address is None and loc.locked and loc not in reachable] for loc in unreachable: loc.parent_region.locations.remove(loc) # Exception: Sell Big Poe is an event which is only reachable if Bottle with Big Poe is in the item pool. # We allow it to be removed only if Bottle with Big Poe is not in the itempool. bigpoe = self.multiworld.get_location('Sell Big Poe from Market Guard House', self.player) if not all_state.has('Bottle with Big Poe', self.player) and bigpoe not in reachable: bigpoe.parent_region.locations.remove(bigpoe) # If fast scarecrow then we need to kill the Pierre location as it will be unreachable if self.free_scarecrow: loc = self.multiworld.get_location("Pierre", self.player) loc.parent_region.locations.remove(loc) # If open zora's domain then we need to kill Deliver Rutos Letter if self.zora_fountain == 'open': loc = self.multiworld.get_location("Deliver Rutos Letter", self.player) loc.parent_region.locations.remove(loc) def pre_fill(self): def prefill_state(base_state): state = base_state.copy() for item in self.get_pre_fill_items(): self.collect(state, item) state.sweep_for_events(locations=self.get_locations()) return state # Prefill shops, songs, and dungeon items items = self.get_pre_fill_items() locations = list(self.multiworld.get_unfilled_locations(self.player)) self.multiworld.random.shuffle(locations) # Set up initial state state = CollectionState(self.multiworld) for item in self.itempool: self.collect(state, item) state.sweep_for_events(locations=self.get_locations()) # Place dungeon items special_fill_types = ['GanonBossKey', 'BossKey', 'SmallKey', 'HideoutSmallKey', 'Map', 'Compass'] type_to_setting = { 'Map': 'shuffle_mapcompass', 'Compass': 'shuffle_mapcompass', 'SmallKey': 'shuffle_smallkeys', 'BossKey': 'shuffle_bosskeys', 'HideoutSmallKey': 'shuffle_hideoutkeys', 'GanonBossKey': 'shuffle_ganon_bosskey', } special_fill_types.sort(key=lambda x: 0 if getattr(self, type_to_setting[x]) == 'dungeon' else 1) for fill_stage in special_fill_types: stage_items = list(filter(lambda item: oot_is_item_of_type(item, fill_stage), self.pre_fill_items)) if not stage_items: continue if fill_stage in ['GanonBossKey', 'HideoutSmallKey']: locations = gather_locations(self.multiworld, fill_stage, self.player) if isinstance(locations, list): for item in stage_items: self.pre_fill_items.remove(item) self.multiworld.random.shuffle(locations) fill_restrictive(self.multiworld, prefill_state(state), locations, stage_items, single_player_placement=True, lock=True, allow_excluded=True) else: for dungeon_info in dungeon_table: dungeon_name = dungeon_info['name'] dungeon_items = list(filter(lambda item: dungeon_name in item.name, stage_items)) if not dungeon_items: continue locations = gather_locations(self.multiworld, fill_stage, self.player, dungeon=dungeon_name) if isinstance(locations, list): for item in dungeon_items: self.pre_fill_items.remove(item) self.multiworld.random.shuffle(locations) fill_restrictive(self.multiworld, prefill_state(state), locations, dungeon_items, single_player_placement=True, lock=True, allow_excluded=True) # Place songs # 5 built-in retries because this section can fail sometimes if self.shuffle_song_items != 'any': tries = 10 if self.shuffle_song_items == 'song': song_locations = list(filter(lambda location: location.type == 'Song', self.multiworld.get_unfilled_locations(player=self.player))) elif self.shuffle_song_items == 'dungeon': song_locations = list(filter(lambda location: location.name in dungeon_song_locations, self.multiworld.get_unfilled_locations(player=self.player))) else: raise Exception(f"Unknown song shuffle type: {self.shuffle_song_items}") songs = list(filter(lambda item: item.type == 'Song', self.pre_fill_items)) for song in songs: self.pre_fill_items.remove(song) important_warps = (self.shuffle_special_interior_entrances or self.shuffle_overworld_entrances or self.warp_songs or self.spawn_positions) song_order = { 'Zeldas Lullaby': 1, 'Eponas Song': 1, 'Sarias Song': 3 if important_warps else 0, 'Suns Song': 0, 'Song of Time': 0, 'Song of Storms': 3, 'Minuet of Forest': 2 if important_warps else 0, 'Bolero of Fire': 2 if important_warps else 0, 'Serenade of Water': 2 if important_warps else 0, 'Requiem of Spirit': 2, 'Nocturne of Shadow': 2, 'Prelude of Light': 2 if important_warps else 0, } songs.sort(key=lambda song: song_order.get(song.name, 0)) while tries: try: self.multiworld.random.shuffle(song_locations) fill_restrictive(self.multiworld, prefill_state(state), song_locations[:], songs[:], single_player_placement=True, lock=True, allow_excluded=True) logger.debug(f"Successfully placed songs for player {self.player} after {6 - tries} attempt(s)") except FillError as e: tries -= 1 if tries == 0: raise Exception(f"Failed placing songs for player {self.player}. Error cause: {e}") logger.debug(f"Failed placing songs for player {self.player}. Retries left: {tries}") # undo what was done for song in songs: song.location = None song.world = None for location in song_locations: location.item = None location.locked = False else: break # Place shop items # fast fill will fail because there is some logic on the shop items. we'll gather them up and place the shop items if self.shopsanity != 'off': shop_prog = list(filter(lambda item: item.type == 'Shop' and item.advancement, self.pre_fill_items)) shop_junk = list(filter(lambda item: item.type == 'Shop' and not item.advancement, self.pre_fill_items)) shop_locations = list( filter(lambda location: location.type == 'Shop' and location.name not in self.shop_prices, self.multiworld.get_unfilled_locations(player=self.player))) shop_prog.sort(key=lambda item: { 'Buy Deku Shield': 2 * int(self.open_forest == 'closed'), 'Buy Goron Tunic': 1, 'Buy Zora Tunic': 1, }.get(item.name, 0)) # place Deku Shields if needed, then tunics, then other advancement self.multiworld.random.shuffle(shop_locations) self.pre_fill_items = [] # all prefill should be done fill_restrictive(self.multiworld, prefill_state(state), shop_locations, shop_prog, single_player_placement=True, lock=True, allow_excluded=True) fast_fill(self.multiworld, shop_junk, shop_locations) for loc in shop_locations: loc.locked = True set_shop_rules(self) # sets wallet requirements on shop items, must be done after they are filled # Exclude locations in Ganon's Castle proportional to the number of items required to make the bridge # Check for dungeon ER later if self.logic_rules == 'glitchless': if self.bridge == 'medallions': ganon_junk_fill = self.bridge_medallions / 9 elif self.bridge == 'stones': ganon_junk_fill = self.bridge_stones / 9 elif self.bridge == 'dungeons': ganon_junk_fill = self.bridge_rewards / 9 elif self.bridge == 'vanilla': ganon_junk_fill = 2 / 9 elif self.bridge == 'tokens': ganon_junk_fill = self.bridge_tokens / 100 elif self.bridge == 'hearts': ganon_junk_fill = self.bridge_hearts / 20 elif self.bridge == 'open': ganon_junk_fill = 0 else: raise Exception("Unexpected bridge setting") ganon_junk_fill = min(1, ganon_junk_fill) gc = next(filter(lambda dungeon: dungeon.name == 'Ganons Castle', self.dungeons)) locations = [loc.name for region in gc.regions for loc in region.locations if loc.item is None] junk_fill_locations = self.multiworld.random.sample(locations, round(len(locations) * ganon_junk_fill)) exclusion_rules(self.multiworld, self.player, junk_fill_locations) # Locations which are not sendable must be converted to events # This includes all locations for which show_in_spoiler is false, and shuffled shop items. for loc in self.get_locations(): if loc.address is not None and ( not loc.show_in_spoiler or oot_is_item_of_type(loc.item, 'Shop') or (self.shuffle_child_trade == 'skip_child_zelda' and loc.name in ['HC Zeldas Letter', 'Song from Impa'])): loc.address = None def generate_output(self, output_directory: str): # Write entrances to spoiler log all_entrances = self.get_shuffled_entrances() all_entrances.sort(reverse=True, key=lambda x: (x.type, x.name)) if not self.decouple_entrances: while all_entrances: loadzone = all_entrances.pop() if loadzone.type != 'Overworld': if loadzone.primary: entrance = loadzone else: entrance = loadzone.reverse if entrance.reverse is not None: self.multiworld.spoiler.set_entrance(entrance, entrance.replaces.reverse, 'both', self.player) else: self.multiworld.spoiler.set_entrance(entrance, entrance.replaces, 'entrance', self.player) else: reverse = loadzone.replaces.reverse if reverse in all_entrances: all_entrances.remove(reverse) self.multiworld.spoiler.set_entrance(loadzone, reverse, 'both', self.player) else: for entrance in all_entrances: self.multiworld.spoiler.set_entrance(entrance, entrance.replaces, 'entrance', self.player) if self.hints != 'none': self.hint_data_available.wait() with i_o_limiter: # Make traps appear as other random items trap_location_ids = [loc.address for loc in self.get_locations() if loc.item.trap] self.trap_appearances = {} for loc_id in trap_location_ids: self.trap_appearances[loc_id] = self.create_item(self.multiworld.per_slot_randoms[self.player].choice(self.fake_items).name) # Seed hint RNG, used for ganon text lines also self.hint_rng = self.multiworld.per_slot_randoms[self.player] outfile_name = self.multiworld.get_out_file_name_base(self.player) rom = Rom(file=get_options()['oot_options']['rom_file']) try: if self.hints != 'none': buildWorldGossipHints(self) patch_rom(self, rom) patch_cosmetics(self, rom) except Exception as e: logger.error(e) raise e finally: self.collectible_flags_available.set() rom.update_header() patch_data = create_patch_file(rom) rom.restore() apz5 = OoTContainer(patch_data, outfile_name, output_directory, player=self.player, player_name=self.multiworld.get_player_name(self.player)) apz5.write() # Gathers hint data for OoT. Loops over all world locations for woth, barren, and major item locations. @classmethod def stage_generate_output(cls, multiworld: MultiWorld, output_directory: str): def hint_type_players(hint_type: str) -> set: return {autoworld.player for autoworld in multiworld.get_game_worlds("Ocarina of Time") if autoworld.hints != 'none' and autoworld.hint_dist_user['distribution'][hint_type]['copies'] > 0 and (autoworld.hint_dist_user['distribution'][hint_type]['fixed'] > 0 or autoworld.hint_dist_user['distribution'][hint_type]['weight'] > 0)} try: item_hint_players = hint_type_players('item') barren_hint_players = hint_type_players('barren') woth_hint_players = hint_type_players('woth') items_by_region = {} for player in barren_hint_players: items_by_region[player] = {} for r in multiworld.worlds[player].regions: items_by_region[player][r._hint_text] = {'dungeon': False, 'weight': 0, 'is_barren': True} for d in multiworld.worlds[player].dungeons: items_by_region[player][d.hint_text] = {'dungeon': True, 'weight': 0, 'is_barren': True} del (items_by_region[player]["Link's pocket"]) del (items_by_region[player][None]) if item_hint_players: # loop once over all locations to gather major items. Check oot locations for barren/woth if needed for loc in multiworld.get_locations(): player = loc.item.player autoworld = multiworld.worlds[player] if ((player in item_hint_players and (autoworld.is_major_item(loc.item) or loc.item.name in autoworld.item_added_hint_types['item'])) or (loc.player in item_hint_players and loc.name in multiworld.worlds[loc.player].added_hint_types['item'])): autoworld.major_item_locations.append(loc) if loc.game == "Ocarina of Time" and loc.item.code and (not loc.locked or (oot_is_item_of_type(loc.item, 'Song') or (oot_is_item_of_type(loc.item, 'SmallKey') and multiworld.worlds[loc.player].shuffle_smallkeys in ('overworld', 'any_dungeon', 'regional')) or (oot_is_item_of_type(loc.item, 'HideoutSmallKey') and multiworld.worlds[loc.player].shuffle_hideoutkeys in ('overworld', 'any_dungeon', 'regional')) or (oot_is_item_of_type(loc.item, 'BossKey') and multiworld.worlds[loc.player].shuffle_bosskeys in ('overworld', 'any_dungeon', 'regional')) or (oot_is_item_of_type(loc.item, 'GanonBossKey') and multiworld.worlds[loc.player].shuffle_ganon_bosskey in ('overworld', 'any_dungeon', 'regional')))): if loc.player in barren_hint_players: hint_area = get_hint_area(loc) items_by_region[loc.player][hint_area]['weight'] += 1 if loc.item.advancement or loc.item.useful: items_by_region[loc.player][hint_area]['is_barren'] = False if loc.player in woth_hint_players and loc.item.advancement: # Skip item at location and see if game is still beatable state = CollectionState(multiworld) state.locations_checked.add(loc) if not multiworld.can_beat_game(state): multiworld.worlds[loc.player].required_locations.append(loc) elif barren_hint_players or woth_hint_players: # Check only relevant oot locations for barren/woth for player in (barren_hint_players | woth_hint_players): for loc in multiworld.worlds[player].get_locations(): if loc.item.code and (not loc.locked or (oot_is_item_of_type(loc.item, 'Song') or (oot_is_item_of_type(loc.item, 'SmallKey') and multiworld.worlds[loc.player].shuffle_smallkeys in ('overworld', 'any_dungeon', 'regional')) or (oot_is_item_of_type(loc.item, 'HideoutSmallKey') and multiworld.worlds[loc.player].shuffle_hideoutkeys in ('overworld', 'any_dungeon', 'regional')) or (oot_is_item_of_type(loc.item, 'BossKey') and multiworld.worlds[loc.player].shuffle_bosskeys in ('overworld', 'any_dungeon', 'regional')) or (oot_is_item_of_type(loc.item, 'GanonBossKey') and multiworld.worlds[loc.player].shuffle_ganon_bosskey in ('overworld', 'any_dungeon', 'regional')))): if player in barren_hint_players: hint_area = get_hint_area(loc) items_by_region[player][hint_area]['weight'] += 1 if loc.item.advancement or loc.item.useful: items_by_region[player][hint_area]['is_barren'] = False if player in woth_hint_players and loc.item.advancement: state = CollectionState(multiworld) state.locations_checked.add(loc) if not multiworld.can_beat_game(state): multiworld.worlds[player].required_locations.append(loc) for player in barren_hint_players: multiworld.worlds[player].empty_areas = {region: info for (region, info) in items_by_region[player].items() if info['is_barren']} except Exception as e: raise e finally: for autoworld in multiworld.get_game_worlds("Ocarina of Time"): autoworld.hint_data_available.set() def fill_slot_data(self): self.collectible_flags_available.wait() slot_data = { 'collectible_override_flags': self.collectible_override_flags, 'collectible_flag_offsets': self.collectible_flag_offsets } slot_data.update(self.options.as_dict( "open_forest", "open_kakariko", "open_door_of_time", "zora_fountain", "gerudo_fortress", "bridge", "bridge_stones", "bridge_medallions", "bridge_rewards", "bridge_tokens", "bridge_hearts", "shuffle_ganon_bosskey", "ganon_bosskey_medallions", "ganon_bosskey_stones", "ganon_bosskey_rewards", "ganon_bosskey_tokens", "ganon_bosskey_hearts", "trials", "triforce_hunt", "triforce_goal", "extra_triforce_percentage", "shopsanity", "shop_slots", "shopsanity_prices", "tokensanity", "dungeon_shortcuts", "dungeon_shortcuts_list", "mq_dungeons_mode", "mq_dungeons_list", "mq_dungeons_count", "shuffle_interior_entrances", "shuffle_grotto_entrances", "shuffle_dungeon_entrances", "shuffle_overworld_entrances", "shuffle_bosses", "key_rings", "key_rings_list", "enhance_map_compass", "shuffle_mapcompass", "shuffle_smallkeys", "shuffle_hideoutkeys", "shuffle_bosskeys", "logic_rules", "logic_no_night_tokens_without_suns_song", "logic_tricks", "warp_songs", "shuffle_song_items","shuffle_medigoron_carpet_salesman", "shuffle_frog_song_rupees", "shuffle_scrubs", "shuffle_child_trade", "shuffle_freestanding_items", "shuffle_pots", "shuffle_crates", "shuffle_cows", "shuffle_beehives", "shuffle_kokiri_sword", "shuffle_ocarinas", "shuffle_gerudo_card", "shuffle_beans", "starting_age", "bombchus_in_logic", "spawn_positions", "owl_drops", "no_epona_race", "skip_some_minigame_phases", "complete_mask_quest", "free_scarecrow", "plant_beans", "chicken_count", "big_poe_count", "fae_torch_count", "blue_fire_arrows", "damage_multiplier", "deadly_bonks", "starting_tod", "junk_ice_traps", "start_with_consumables", "adult_trade_start", "plando_connections" ) ) return slot_data def modify_multidata(self, multidata: dict): # Replace connect name multidata['connect_names'][self.connect_name] = multidata['connect_names'][self.multiworld.player_name[self.player]] # Remove undesired items from start_inventory # This is because we don't want them to show up in the autotracker, # they just don't exist in-game. for item_name in self.remove_from_start_inventory: item_id = self.item_name_to_id.get(item_name, None) if item_id is None: continue multidata["precollected_items"][self.player].remove(item_id) # If skip child zelda, push item onto autotracker if self.shuffle_child_trade == 'skip_child_zelda': impa_item_id = self.item_name_to_id.get(self.get_location('Song from Impa').item.name, None) zelda_item_id = self.item_name_to_id.get(self.get_location('HC Zeldas Letter').item.name, None) if impa_item_id: multidata["precollected_items"][self.player].append(impa_item_id) if zelda_item_id: multidata["precollected_items"][self.player].append(zelda_item_id) def extend_hint_information(self, er_hint_data: dict): er_hint_data[self.player] = {} hint_entrances = set() for entrance in entrance_shuffle_table: if entrance[0] in {'Dungeon', 'DungeonSpecial', 'Interior', 'SpecialInterior', 'Grotto', 'Grave'}: hint_entrances.add(entrance[1][0]) # Get main hint entrance to region. # If the region is directly adjacent to a hint-entrance, we return that one. # If it's in a dungeon, scan all the entrances for all the regions in the dungeon. # This should terminate on the first region anyway, but we scan everything to be safe. # If it's one of the special cases, go one level deeper. # If it's a boss room, go one level deeper to the boss door region, which is in a dungeon. # Otherwise return None. def get_entrance_to_region(region): special_case_regions = { "Beyond Door of Time", "Kak Impas House Near Cow", } for entrance in region.entrances: if entrance.name in hint_entrances: return entrance if region.dungeon is not None: for r in region.dungeon.regions: for e in r.entrances: if e.name in hint_entrances: return e if region.is_boss_room or region.name in special_case_regions: return get_entrance_to_region(region.entrances[0].parent_region) return None if (self.shuffle_interior_entrances != 'off' or self.shuffle_dungeon_entrances or self.shuffle_grotto_entrances or self.shuffle_bosses != 'off'): for region in self.regions: if not any(bool(loc.address) for loc in region.locations): # check if region has any non-event locations continue main_entrance = get_entrance_to_region(region) if main_entrance is not None and (main_entrance.shuffled or (region.is_boss_room and self.shuffle_bosses != 'off')): for location in region.locations: if type(location.address) == int: er_hint_data[self.player][location.address] = main_entrance.name logger.debug(f"Set {location.name} hint data to {main_entrance.name}") def write_spoiler(self, spoiler_handle: typing.TextIO) -> None: required_trials_str = ", ".join(t for t in self.skipped_trials if not self.skipped_trials[t]) if required_trials_str == "": required_trials_str = "None" spoiler_handle.write(f"\n\nTrials ({self.multiworld.get_player_name(self.player)}): {required_trials_str}\n") if self.shopsanity != 'off': spoiler_handle.write(f"\nShop Prices ({self.multiworld.get_player_name(self.player)}):\n") for k, v in self.shop_prices.items(): spoiler_handle.write(f"{k}: {v} Rupees\n") # Key ring handling: # Key rings are multiple items glued together into one, so we need to give # the appropriate number of keys in the collection state when they are # picked up. def collect(self, state: CollectionState, item: OOTItem) -> bool: if item.advancement and item.special and item.special.get('alias', False): alt_item_name, count = item.special.get('alias') state.prog_items[self.player][alt_item_name] += count return True return super().collect(state, item) def remove(self, state: CollectionState, item: OOTItem) -> bool: if item.advancement and item.special and item.special.get('alias', False): alt_item_name, count = item.special.get('alias') state.prog_items[self.player][alt_item_name] -= count if state.prog_items[self.player][alt_item_name] < 1: del (state.prog_items[self.player][alt_item_name]) return True return super().remove(state, item) # Helper functions def region_has_shortcuts(self, regionname): region = self.get_region(regionname) try: dungeon_name = HintArea.at(region).dungeon_name return dungeon_name in self.dungeon_shortcuts except HintAreaNotFound: return False def get_shufflable_entrances(self, type=None, only_primary=False): return [entrance for entrance in self.get_entrances() if ((type == None or entrance.type == type) and (not only_primary or entrance.primary))] def get_shuffled_entrances(self, type=None, only_primary=False): return [entrance for entrance in self.get_shufflable_entrances(type=type, only_primary=only_primary) if entrance.shuffled] def get_locations(self): return self.multiworld.get_locations(self.player) def get_location(self, location): return self.multiworld.get_location(location, self.player) def get_region(self, region_name): try: return self._regions_cache[region_name] except KeyError: ret = self.multiworld.get_region(region_name, self.player) self._regions_cache[region_name] = ret return ret def get_entrances(self): return self.multiworld.get_entrances(self.player) def get_entrance(self, entrance): return self.multiworld.get_entrance(entrance, self.player) def is_major_item(self, item: OOTItem): if item.type == 'Token': return self.bridge == 'tokens' or self.lacs_condition == 'tokens' if item.name in self.nonadvancement_items: return True if item.type in ('Drop', 'Event', 'Shop', 'DungeonReward') or not item.advancement: return False if item.name.startswith('Bombchus') and not self.bombchus_in_logic: return False if item.type in ['Map', 'Compass']: return False if item.type == 'SmallKey' and self.shuffle_smallkeys in ['dungeon', 'vanilla']: return False if item.type == 'HideoutSmallKey' and self.shuffle_hideoutkeys == 'vanilla': return False if item.type == 'BossKey' and self.shuffle_bosskeys in ['dungeon', 'vanilla']: return False if item.type == 'GanonBossKey' and self.shuffle_ganon_bosskey in ['dungeon', 'vanilla']: return False return True # Specifically ensures that only real items are gotten, not any events. # In particular, ensures that Time Travel needs to be found. def get_state_with_complete_itempool(self): all_state = CollectionState(self.multiworld) for item in self.itempool + self.pre_fill_items: self.multiworld.worlds[item.player].collect(all_state, item) # If free_scarecrow give Scarecrow Song if self.free_scarecrow: all_state.collect(self.create_item("Scarecrow Song"), prevent_sweep=True) all_state.stale[self.player] = True return all_state def get_filler_item_name(self) -> str: return get_junk_item(count=1, pool=get_junk_pool(self))[0] def valid_dungeon_item_location(world: OOTWorld, option: str, dungeon: str, loc: OOTLocation) -> bool: if option == 'dungeon': return (getattr(loc.parent_region.dungeon, 'name', None) == dungeon and (world.shuffle_song_items != 'dungeon' or loc.name not in dungeon_song_locations)) elif option == 'any_dungeon': return (loc.parent_region.dungeon is not None and (world.shuffle_song_items != 'dungeon' or loc.name not in dungeon_song_locations)) elif option == 'overworld': return (loc.parent_region.dungeon is None and (loc.type != 'Shop' or loc.name in world.shop_prices) and (world.shuffle_song_items != 'song' or loc.type != 'Song') and (world.shuffle_song_items != 'dungeon' or loc.name not in dungeon_song_locations)) elif option == 'regional': color = HintArea.for_dungeon(dungeon).color return (HintArea.at(loc).color == color and (loc.type != 'Shop' or loc.name in world.shop_prices) and (world.shuffle_song_items != 'song' or loc.type != 'Song') and (world.shuffle_song_items != 'dungeon' or loc.name not in dungeon_song_locations)) return False # raise ValueError(f'Unexpected argument to valid_dungeon_item_location: {option}') def gather_locations(multiworld: MultiWorld, item_type: str, players: Union[int, AbstractSet[int]], dungeon: str = '' ) -> Optional[List[OOTLocation]]: type_to_setting = { 'Map': 'shuffle_mapcompass', 'Compass': 'shuffle_mapcompass', 'SmallKey': 'shuffle_smallkeys', 'BossKey': 'shuffle_bosskeys', 'HideoutSmallKey': 'shuffle_hideoutkeys', 'GanonBossKey': 'shuffle_ganon_bosskey', } # Special handling for atypical item types if item_type == 'HideoutSmallKey': dungeon = 'Thieves Hideout' elif item_type == 'GanonBossKey': dungeon = 'Ganons Castle' if isinstance(players, int): players = {players} fill_opts = {p: getattr(multiworld.worlds[p], type_to_setting[item_type]) for p in players} locations = [] if any(map(lambda v: v == 'keysanity', fill_opts.values())): return None for player, option in fill_opts.items(): condition = functools.partial(valid_dungeon_item_location, multiworld.worlds[player], option, dungeon) locations += filter(condition, multiworld.get_unfilled_locations(player=player)) return locations