1294 lines
59 KiB
Python
1294 lines
59 KiB
Python
from __future__ import annotations
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import copy
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from enum import Enum, unique
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import logging
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import json
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import functools
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from collections import OrderedDict, Counter, deque
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from typing import List, Dict, Optional, Set, Iterable, Union, Any, Tuple
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import secrets
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import random
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class MultiWorld():
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debug_types = False
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player_name: Dict[int, str]
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_region_cache: Dict[int, Dict[str, Region]]
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difficulty_requirements: dict
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required_medallions: dict
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dark_room_logic: Dict[int, str]
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restrict_dungeon_item_on_boss: Dict[int, bool]
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plando_texts: List[Dict[str, str]]
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plando_items: List
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plando_connections: List
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er_seeds: Dict[int, str]
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worlds: Dict[int, Any]
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is_race: bool = False
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class AttributeProxy():
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def __init__(self, rule):
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self.rule = rule
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def __getitem__(self, player) -> bool:
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return self.rule(player)
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def __init__(self, players: int):
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self.random = random.Random() # world-local random state is saved for multiple generations running concurrently
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self.players = players
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self.glitch_triforce = False
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self.algorithm = 'balanced'
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self.dungeons: Dict[Tuple[str, int], Dungeon] = {}
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self.regions = []
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self.shops = []
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self.itempool = []
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self.seed = None
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self.seed_name: str = "Unavailable"
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self.precollected_items = []
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self.state = CollectionState(self)
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self._cached_entrances = None
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self._cached_locations = None
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self._entrance_cache = {}
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self._location_cache = {}
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self.required_locations = []
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self.light_world_light_cone = False
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self.dark_world_light_cone = False
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self.rupoor_cost = 10
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self.aga_randomness = True
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self.lock_aga_door_in_escape = False
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self.save_and_quit_from_boss = True
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self.custom = False
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self.customitemarray = []
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self.shuffle_ganon = True
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self.dynamic_regions = []
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self.dynamic_locations = []
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self.spoiler = Spoiler(self)
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self.fix_trock_doors = self.AttributeProxy(lambda player: self.shuffle[player] != 'vanilla' or self.mode[player] == 'inverted')
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self.fix_skullwoods_exit = self.AttributeProxy(lambda player: self.shuffle[player] not in ['vanilla', 'simple', 'restricted', 'dungeonssimple'])
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self.fix_palaceofdarkness_exit = self.AttributeProxy(lambda player: self.shuffle[player] not in ['vanilla', 'simple', 'restricted', 'dungeonssimple'])
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self.fix_trock_exit = self.AttributeProxy(lambda player: self.shuffle[player] not in ['vanilla', 'simple', 'restricted', 'dungeonssimple'])
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self.NOTCURSED = self.AttributeProxy(lambda player: not self.CURSED[player])
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for player in range(1, players + 1):
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def set_player_attr(attr, val):
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self.__dict__.setdefault(attr, {})[player] = val
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set_player_attr('tech_tree_layout_prerequisites', {})
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set_player_attr('_region_cache', {})
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set_player_attr('shuffle', "vanilla")
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set_player_attr('logic', "noglitches")
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set_player_attr('mode', 'open')
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set_player_attr('swordless', False)
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set_player_attr('difficulty', 'normal')
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set_player_attr('item_functionality', 'normal')
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set_player_attr('timer', False)
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set_player_attr('goal', 'ganon')
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set_player_attr('accessibility', 'items')
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set_player_attr('retro', False)
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set_player_attr('hints', True)
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set_player_attr('required_medallions', ['Ether', 'Quake'])
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set_player_attr('swamp_patch_required', False)
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set_player_attr('powder_patch_required', False)
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set_player_attr('ganon_at_pyramid', True)
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set_player_attr('ganonstower_vanilla', True)
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set_player_attr('can_access_trock_eyebridge', None)
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set_player_attr('can_access_trock_front', None)
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set_player_attr('can_access_trock_big_chest', None)
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set_player_attr('can_access_trock_middle', None)
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set_player_attr('fix_fake_world', True)
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set_player_attr('difficulty_requirements', None)
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set_player_attr('boss_shuffle', 'none')
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set_player_attr('enemy_shuffle', False)
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set_player_attr('enemy_health', 'default')
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set_player_attr('enemy_damage', 'default')
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set_player_attr('killable_thieves', False)
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set_player_attr('tile_shuffle', False)
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set_player_attr('bush_shuffle', False)
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set_player_attr('beemizer', 0)
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set_player_attr('escape_assist', [])
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set_player_attr('open_pyramid', False)
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set_player_attr('treasure_hunt_icon', 'Triforce Piece')
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set_player_attr('treasure_hunt_count', 0)
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set_player_attr('clock_mode', False)
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set_player_attr('countdown_start_time', 10)
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set_player_attr('red_clock_time', -2)
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set_player_attr('blue_clock_time', 2)
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set_player_attr('green_clock_time', 4)
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set_player_attr('can_take_damage', True)
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set_player_attr('progression_balancing', True)
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set_player_attr('local_items', set())
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set_player_attr('non_local_items', set())
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set_player_attr('triforce_pieces_available', 30)
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set_player_attr('triforce_pieces_required', 20)
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set_player_attr('shop_shuffle', 'off')
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set_player_attr('shuffle_prizes', "g")
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set_player_attr('sprite_pool', [])
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set_player_attr('dark_room_logic', "lamp")
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set_player_attr('restrict_dungeon_item_on_boss', False)
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set_player_attr('plando_items', [])
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set_player_attr('plando_texts', {})
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set_player_attr('plando_connections', [])
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set_player_attr('game', "A Link to the Past")
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set_player_attr('completion_condition', lambda state: True)
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self.custom_data = {}
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self.worlds = {}
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def set_options(self, args):
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from worlds import AutoWorld
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for player in self.player_ids:
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self.custom_data[player] = {}
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world_type = AutoWorld.AutoWorldRegister.world_types[self.game[player]]
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for option in world_type.options:
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setattr(self, option, getattr(args, option, {}))
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self.worlds[player] = world_type(self, player)
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def secure(self):
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self.random = secrets.SystemRandom()
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self.is_race = True
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@functools.cached_property
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def player_ids(self):
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return tuple(range(1, self.players + 1))
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@functools.lru_cache()
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def get_game_players(self, game_name: str):
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return tuple(player for player in self.player_ids if self.game[player] == game_name)
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@functools.lru_cache()
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def get_game_worlds(self, game_name: str):
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return tuple(world for player, world in self.worlds.items() if self.game[player] == game_name)
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def get_name_string_for_object(self, obj) -> str:
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return obj.name if self.players == 1 else f'{obj.name} ({self.get_player_name(obj.player)})'
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def get_player_name(self, player: int) -> str:
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return self.player_name[player]
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def initialize_regions(self, regions=None):
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for region in regions if regions else self.regions:
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region.world = self
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self._region_cache[region.player][region.name] = region
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@functools.cached_property
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def world_name_lookup(self):
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return {self.player_name[player_id]: player_id for player_id in self.player_ids}
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def _recache(self):
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"""Rebuild world cache"""
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for region in self.regions:
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player = region.player
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self._region_cache[player][region.name] = region
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for exit in region.exits:
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self._entrance_cache[exit.name, player] = exit
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for r_location in region.locations:
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self._location_cache[r_location.name, player] = r_location
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def get_regions(self, player=None):
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return self.regions if player is None else self._region_cache[player].values()
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def get_region(self, regionname: str, player: int) -> Region:
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try:
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return self._region_cache[player][regionname]
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except KeyError:
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self._recache()
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return self._region_cache[player][regionname]
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def get_entrance(self, entrance: str, player: int) -> Entrance:
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try:
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return self._entrance_cache[entrance, player]
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except KeyError:
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self._recache()
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return self._entrance_cache[entrance, player]
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def get_location(self, location: str, player: int) -> Location:
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try:
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return self._location_cache[location, player]
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except KeyError:
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self._recache()
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return self._location_cache[location, player]
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def get_dungeon(self, dungeonname: str, player: int) -> Dungeon:
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try:
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return self.dungeons[dungeonname, player]
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except KeyError as e:
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raise KeyError('No such dungeon %s for player %d' % (dungeonname, player)) from e
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def get_all_state(self) -> CollectionState:
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cached = getattr(self, "_all_state", None)
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if cached:
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return cached.copy()
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ret = CollectionState(self)
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for item in self.itempool:
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self.worlds[item.player].collect(ret, item)
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from worlds.alttp.Dungeons import get_dungeon_item_pool
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for item in get_dungeon_item_pool(self):
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subworld = self.worlds[item.player]
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if item.name in subworld.dungeon_local_item_names:
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subworld.collect(ret, item)
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ret.sweep_for_events()
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self._all_state = ret
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return ret
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def get_items(self) -> list:
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return [loc.item for loc in self.get_filled_locations()] + self.itempool
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def find_items(self, item, player: int) -> List[Location]:
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return [location for location in self.get_locations() if
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location.item is not None and location.item.name == item and location.item.player == player]
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def find_item(self, item, player: int) -> Location:
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return next(location for location in self.get_locations() if
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location.item and location.item.name == item and location.item.player == player)
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def create_item(self, item_name: str, player: int) -> Item:
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return self.worlds[player].create_item(item_name)
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def push_precollected(self, item: Item):
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item.world = self
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self.precollected_items.append(item)
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self.state.collect(item, True)
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def push_item(self, location: Location, item: Item, collect: bool = True):
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if not isinstance(location, Location):
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raise RuntimeError(
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'Cannot assign item %s to invalid location %s (player %d).' % (item, location, item.player))
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if location.can_fill(self.state, item, False):
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location.item = item
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item.location = location
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item.world = self # try to not have this here anymore
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if collect:
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self.state.collect(item, location.event, location)
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logging.debug('Placed %s at %s', item, location)
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else:
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raise RuntimeError('Cannot assign item %s to location %s.' % (item, location))
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def get_entrances(self) -> list:
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if self._cached_entrances is None:
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self._cached_entrances = [entrance for region in self.regions for entrance in region.entrances]
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return self._cached_entrances
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def clear_entrance_cache(self):
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self._cached_entrances = None
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def get_locations(self) -> list:
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if self._cached_locations is None:
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self._cached_locations = [location for region in self.regions for location in region.locations]
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return self._cached_locations
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def clear_location_cache(self):
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self._cached_locations = None
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def get_unfilled_locations(self, player=None) -> list:
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if player is not None:
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return [location for location in self.get_locations() if
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location.player == player and not location.item]
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return [location for location in self.get_locations() if not location.item]
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def get_unfilled_dungeon_locations(self):
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return [location for location in self.get_locations() if not location.item and location.parent_region.dungeon]
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def get_filled_locations(self, player=None) -> list:
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if player is not None:
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return [location for location in self.get_locations() if
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location.player == player and location.item is not None]
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return [location for location in self.get_locations() if location.item is not None]
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def get_reachable_locations(self, state=None, player=None) -> list:
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if state is None:
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state = self.state
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return [location for location in self.get_locations() if
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(player is None or location.player == player) and location.can_reach(state)]
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def get_placeable_locations(self, state=None, player=None) -> list:
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if state is None:
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state = self.state
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return [location for location in self.get_locations() if
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(player is None or location.player == player) and location.item is None and location.can_reach(state)]
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def get_unfilled_locations_for_players(self, location_name: str, players: Iterable[int]):
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for player in players:
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location = self.get_location(location_name, player)
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if location.item is None:
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yield location
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def unlocks_new_location(self, item) -> bool:
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temp_state = self.state.copy()
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temp_state.collect(item, True)
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for location in self.get_unfilled_locations():
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if temp_state.can_reach(location) and not self.state.can_reach(location):
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return True
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return False
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def has_beaten_game(self, state, player: Optional[int] = None):
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if player:
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return self.completion_condition[player](state)
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else:
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return all((self.has_beaten_game(state, p) for p in range(1, self.players + 1)))
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def can_beat_game(self, starting_state : Optional[CollectionState]=None):
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if starting_state:
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if self.has_beaten_game(starting_state):
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return True
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state = starting_state.copy()
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else:
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if self.has_beaten_game(self.state):
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return True
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state = CollectionState(self)
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prog_locations = {location for location in self.get_locations() if location.item
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and location.item.advancement and location not in state.locations_checked}
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while prog_locations:
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sphere = set()
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# build up spheres of collection radius.
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# Everything in each sphere is independent from each other in dependencies and only depends on lower spheres
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for location in prog_locations:
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if location.can_reach(state):
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sphere.add(location)
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if not sphere:
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# ran out of places and did not finish yet, quit
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return False
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for location in sphere:
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state.collect(location.item, True, location)
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prog_locations -= sphere
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|
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if self.has_beaten_game(state):
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return True
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return False
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def get_spheres(self):
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state = CollectionState(self)
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locations = set(self.get_filled_locations())
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while locations:
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sphere = set()
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|
|
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for location in locations:
|
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if location.can_reach(state):
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sphere.add(location)
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yield sphere
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if not sphere:
|
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if locations:
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yield locations # unreachable locations
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break
|
|
|
|
for location in sphere:
|
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state.collect(location.item, True, location)
|
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locations -= sphere
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|
|
|
def fulfills_accessibility(self, state: Optional[CollectionState] = None):
|
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"""Check if accessibility rules are fulfilled with current or supplied state."""
|
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if not state:
|
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state = CollectionState(self)
|
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players = {"none" : set(),
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"items": set(),
|
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"locations": set()}
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for player, access in self.accessibility.items():
|
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players[access].add(player)
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|
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beatable_fulfilled = False
|
|
|
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def location_conditition(location : Location):
|
|
"""Determine if this location has to be accessible, location is already filtered by location_relevant"""
|
|
if location.player in players["none"]:
|
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return False
|
|
return True
|
|
|
|
def location_relevant(location : Location):
|
|
"""Determine if this location is relevant to sweep."""
|
|
if location.player in players["locations"] or location.event or \
|
|
(location.item and location.item.advancement):
|
|
return True
|
|
return False
|
|
|
|
def all_done():
|
|
"""Check if all access rules are fulfilled"""
|
|
if beatable_fulfilled:
|
|
if any(location_conditition(location) for location in locations):
|
|
return False # still locations required to be collected
|
|
return True
|
|
|
|
locations = {location for location in self.get_locations() if location_relevant(location)}
|
|
|
|
while locations:
|
|
sphere = set()
|
|
for location in locations:
|
|
if location.can_reach(state):
|
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sphere.add(location)
|
|
|
|
if not sphere:
|
|
# ran out of places and did not finish yet, quit
|
|
logging.warning(f"Could not access required locations for accessibility check."
|
|
f" Missing: {locations}")
|
|
return False
|
|
|
|
for location in sphere:
|
|
locations.remove(location)
|
|
state.collect(location.item, True, location)
|
|
|
|
if self.has_beaten_game(state):
|
|
beatable_fulfilled = True
|
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|
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if all_done():
|
|
return True
|
|
|
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return False
|
|
|
|
|
|
class CollectionState(object):
|
|
|
|
def __init__(self, parent: MultiWorld):
|
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self.prog_items = Counter()
|
|
self.world = parent
|
|
self.reachable_regions = {player: set() for player in range(1, parent.players + 1)}
|
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self.blocked_connections = {player: set() for player in range(1, parent.players + 1)}
|
|
self.events = set()
|
|
self.path = {}
|
|
self.locations_checked = set()
|
|
self.stale = {player: True for player in range(1, parent.players + 1)}
|
|
for item in parent.precollected_items:
|
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self.collect(item, True)
|
|
|
|
def update_reachable_regions(self, player: int):
|
|
from worlds.alttp.EntranceShuffle import indirect_connections
|
|
self.stale[player] = False
|
|
rrp = self.reachable_regions[player]
|
|
bc = self.blocked_connections[player]
|
|
queue = deque(self.blocked_connections[player])
|
|
start = self.world.get_region('Menu', player)
|
|
|
|
# init on first call - this can't be done on construction since the regions don't exist yet
|
|
if not start in rrp:
|
|
rrp.add(start)
|
|
bc.update(start.exits)
|
|
queue.extend(start.exits)
|
|
|
|
# run BFS on all connections, and keep track of those blocked by missing items
|
|
while queue:
|
|
connection = queue.popleft()
|
|
new_region = connection.connected_region
|
|
if new_region in rrp:
|
|
bc.remove(connection)
|
|
elif connection.can_reach(self):
|
|
rrp.add(new_region)
|
|
bc.remove(connection)
|
|
bc.update(new_region.exits)
|
|
queue.extend(new_region.exits)
|
|
self.path[new_region] = (new_region.name, self.path.get(connection, None))
|
|
|
|
# Retry connections if the new region can unblock them
|
|
if new_region.name in indirect_connections:
|
|
new_entrance = self.world.get_entrance(indirect_connections[new_region.name], player)
|
|
if new_entrance in bc and new_entrance not in queue:
|
|
queue.append(new_entrance)
|
|
|
|
def copy(self) -> CollectionState:
|
|
ret = CollectionState(self.world)
|
|
ret.prog_items = self.prog_items.copy()
|
|
ret.reachable_regions = {player: copy.copy(self.reachable_regions[player]) for player in
|
|
range(1, self.world.players + 1)}
|
|
ret.blocked_connections = {player: copy.copy(self.blocked_connections[player]) for player in range(1, self.world.players + 1)}
|
|
ret.events = copy.copy(self.events)
|
|
ret.path = copy.copy(self.path)
|
|
ret.locations_checked = copy.copy(self.locations_checked)
|
|
return ret
|
|
|
|
def can_reach(self, spot, resolution_hint=None, player=None) -> bool:
|
|
if not hasattr(spot, "spot_type"):
|
|
# try to resolve a name
|
|
if resolution_hint == 'Location':
|
|
spot = self.world.get_location(spot, player)
|
|
elif resolution_hint == 'Entrance':
|
|
spot = self.world.get_entrance(spot, player)
|
|
else:
|
|
# default to Region
|
|
spot = self.world.get_region(spot, player)
|
|
return spot.can_reach(self)
|
|
|
|
def sweep_for_events(self, key_only: bool = False, locations=None):
|
|
if locations is None:
|
|
locations = self.world.get_filled_locations()
|
|
new_locations = True
|
|
# since the loop has a good chance to run more than once, only filter the events once
|
|
locations = {location for location in locations if location.event}
|
|
while new_locations:
|
|
reachable_events = {location for location in locations if
|
|
(not key_only or getattr(location.item, "locked_dungeon_item", False))
|
|
and location.can_reach(self)}
|
|
new_locations = reachable_events - self.events
|
|
for event in new_locations:
|
|
self.events.add(event)
|
|
self.collect(event.item, True, event)
|
|
|
|
def has(self, item, player: int, count: int = 1):
|
|
return self.prog_items[item, player] >= count
|
|
|
|
def has_all(self, items: Set[str], player:int):
|
|
return all(self.prog_items[item, player] for item in items)
|
|
|
|
def has_any(self, items: Set[str], player:int):
|
|
return any(self.prog_items[item, player] for item in items)
|
|
|
|
def has_group(self, item_name_group: str, player: int, count: int = 1):
|
|
found: int = 0
|
|
for item_name in self.world.worlds[player].item_name_groups[item_name_group]:
|
|
found += self.prog_items[item_name, player]
|
|
if found >= count:
|
|
return True
|
|
return False
|
|
|
|
def count_group(self, item_name_group: str, player: int):
|
|
found: int = 0
|
|
for item_name in self.world.worlds[player].item_name_groups[item_name_group]:
|
|
found += self.prog_items[item_name, player]
|
|
return found
|
|
|
|
def can_buy_unlimited(self, item: str, player: int) -> bool:
|
|
return any(shop.region.player == player and shop.has_unlimited(item) and shop.region.can_reach(self) for
|
|
shop in self.world.shops)
|
|
|
|
def can_buy(self, item: str, player: int) -> bool:
|
|
return any(shop.region.player == player and shop.has(item) and shop.region.can_reach(self) for
|
|
shop in self.world.shops)
|
|
|
|
def item_count(self, item, player: int) -> int:
|
|
return self.prog_items[item, player]
|
|
|
|
def has_triforce_pieces(self, count: int, player: int) -> bool:
|
|
return self.item_count('Triforce Piece', player) + self.item_count('Power Star', player) >= count
|
|
|
|
def has_crystals(self, count: int, player: int) -> bool:
|
|
found: int = 0
|
|
for crystalnumber in range(1, 8):
|
|
found += self.prog_items[f"Crystal {crystalnumber}", player]
|
|
if found >= count:
|
|
return True
|
|
return False
|
|
|
|
def can_lift_rocks(self, player: int):
|
|
return self.has('Power Glove', player) or self.has('Titans Mitts', player)
|
|
|
|
def bottle_count(self, player: int) -> int:
|
|
return min(self.world.difficulty_requirements[player].progressive_bottle_limit,
|
|
self.count_group("Bottles", player))
|
|
|
|
def has_hearts(self, player: int, count: int) -> int:
|
|
# Warning: This only considers items that are marked as advancement items
|
|
return self.heart_count(player) >= count
|
|
|
|
def heart_count(self, player: int) -> int:
|
|
# Warning: This only considers items that are marked as advancement items
|
|
diff = self.world.difficulty_requirements[player]
|
|
return min(self.item_count('Boss Heart Container', player), diff.boss_heart_container_limit) \
|
|
+ self.item_count('Sanctuary Heart Container', player) \
|
|
+ min(self.item_count('Piece of Heart', player), diff.heart_piece_limit) // 4 \
|
|
+ 3 # starting hearts
|
|
|
|
def can_lift_heavy_rocks(self, player: int) -> bool:
|
|
return self.has('Titans Mitts', player)
|
|
|
|
def can_extend_magic(self, player: int, smallmagic: int = 16,
|
|
fullrefill: bool = False): # This reflects the total magic Link has, not the total extra he has.
|
|
basemagic = 8
|
|
if self.has('Magic Upgrade (1/4)', player):
|
|
basemagic = 32
|
|
elif self.has('Magic Upgrade (1/2)', player):
|
|
basemagic = 16
|
|
if self.can_buy_unlimited('Green Potion', player) or self.can_buy_unlimited('Blue Potion', player):
|
|
if self.world.item_functionality[player] == 'hard' and not fullrefill:
|
|
basemagic = basemagic + int(basemagic * 0.5 * self.bottle_count(player))
|
|
elif self.world.item_functionality[player] == 'expert' and not fullrefill:
|
|
basemagic = basemagic + int(basemagic * 0.25 * self.bottle_count(player))
|
|
else:
|
|
basemagic = basemagic + basemagic * self.bottle_count(player)
|
|
return basemagic >= smallmagic
|
|
|
|
def can_kill_most_things(self, player: int, enemies=5) -> bool:
|
|
return (self.has_melee_weapon(player)
|
|
or self.has('Cane of Somaria', player)
|
|
or (self.has('Cane of Byrna', player) and (enemies < 6 or self.can_extend_magic(player)))
|
|
or self.can_shoot_arrows(player)
|
|
or self.has('Fire Rod', player)
|
|
or (self.has('Bombs (10)', player) and enemies < 6))
|
|
|
|
def can_shoot_arrows(self, player: int) -> bool:
|
|
if self.world.retro[player]:
|
|
return (self.has('Bow', player) or self.has('Silver Bow', player)) and self.can_buy('Single Arrow', player)
|
|
return self.has('Bow', player) or self.has('Silver Bow', player)
|
|
|
|
def can_get_good_bee(self, player: int) -> bool:
|
|
cave = self.world.get_region('Good Bee Cave', player)
|
|
return (
|
|
self.has_group("Bottles", player) and
|
|
self.has('Bug Catching Net', player) and
|
|
(self.has('Pegasus Boots', player) or (self.has_sword(player) and self.has('Quake', player))) and
|
|
cave.can_reach(self) and
|
|
self.is_not_bunny(cave, player)
|
|
)
|
|
|
|
def can_retrieve_tablet(self, player:int) -> bool:
|
|
return self.has('Book of Mudora', player) and (self.has_beam_sword(player) or
|
|
(self.world.swordless[player] and
|
|
self.has("Hammer", player)))
|
|
|
|
def has_sword(self, player: int) -> bool:
|
|
return self.has('Fighter Sword', player) \
|
|
or self.has('Master Sword', player) \
|
|
or self.has('Tempered Sword', player) \
|
|
or self.has('Golden Sword', player)
|
|
|
|
def has_beam_sword(self, player: int) -> bool:
|
|
return self.has('Master Sword', player) or self.has('Tempered Sword', player) or self.has('Golden Sword', player)
|
|
|
|
def has_melee_weapon(self, player: int) -> bool:
|
|
return self.has_sword(player) or self.has('Hammer', player)
|
|
|
|
def has_fire_source(self, player: int) -> bool:
|
|
return self.has('Fire Rod', player) or self.has('Lamp', player)
|
|
|
|
def can_melt_things(self, player: int) -> bool:
|
|
return self.has('Fire Rod', player) or \
|
|
(self.has('Bombos', player) and
|
|
(self.world.swordless[player] or
|
|
self.has_sword(player)))
|
|
|
|
def can_avoid_lasers(self, player: int) -> bool:
|
|
return self.has('Mirror Shield', player) or self.has('Cane of Byrna', player) or self.has('Cape', player)
|
|
|
|
def is_not_bunny(self, region: Region, player: int) -> bool:
|
|
if self.has('Moon Pearl', player):
|
|
return True
|
|
|
|
return region.is_light_world if self.world.mode[player] != 'inverted' else region.is_dark_world
|
|
|
|
def can_reach_light_world(self, player: int) -> bool:
|
|
if True in [i.is_light_world for i in self.reachable_regions[player]]:
|
|
return True
|
|
return False
|
|
|
|
def can_reach_dark_world(self, player: int) -> bool:
|
|
if True in [i.is_dark_world for i in self.reachable_regions[player]]:
|
|
return True
|
|
return False
|
|
|
|
def has_misery_mire_medallion(self, player: int) -> bool:
|
|
return self.has(self.world.required_medallions[player][0], player)
|
|
|
|
def has_turtle_rock_medallion(self, player: int) -> bool:
|
|
return self.has(self.world.required_medallions[player][1], player)
|
|
|
|
def can_boots_clip_lw(self, player):
|
|
if self.world.mode[player] == 'inverted':
|
|
return self.has('Pegasus Boots', player) and self.has('Moon Pearl', player)
|
|
return self.has('Pegasus Boots', player)
|
|
|
|
def can_boots_clip_dw(self, player):
|
|
if self.world.mode[player] != 'inverted':
|
|
return self.has('Pegasus Boots', player) and self.has('Moon Pearl', player)
|
|
return self.has('Pegasus Boots', player)
|
|
|
|
def can_get_glitched_speed_lw(self, player):
|
|
rules = [self.has('Pegasus Boots', player), any([self.has('Hookshot', player), self.has_sword(player)])]
|
|
if self.world.mode[player] == 'inverted':
|
|
rules.append(self.has('Moon Pearl', player))
|
|
return all(rules)
|
|
|
|
def can_superbunny_mirror_with_sword(self, player):
|
|
return self.has('Magic Mirror', player) and self.has_sword(player)
|
|
|
|
def can_get_glitched_speed_dw(self, player: int):
|
|
rules = [self.has('Pegasus Boots', player), any([self.has('Hookshot', player), self.has_sword(player)])]
|
|
if self.world.mode[player] != 'inverted':
|
|
rules.append(self.has('Moon Pearl', player))
|
|
return all(rules)
|
|
|
|
def can_bomb_clip(self, region: Region, player: int) -> bool:
|
|
return self.is_not_bunny(region, player) and self.has('Pegasus Boots', player)
|
|
|
|
def collect(self, item: Item, event: bool = False, location: Location = None) -> bool:
|
|
if location:
|
|
self.locations_checked.add(location)
|
|
|
|
changed = self.world.worlds[item.player].collect(self, item)
|
|
|
|
if not changed and event:
|
|
self.prog_items[item.name, item.player] += 1
|
|
changed = True
|
|
|
|
self.stale[item.player] = True
|
|
|
|
if changed and not event:
|
|
self.sweep_for_events()
|
|
|
|
return changed
|
|
|
|
def remove(self, item):
|
|
changed = self.world.worlds[item.player].remove(self, item)
|
|
if changed:
|
|
# invalidate caches, nothing can be trusted anymore now
|
|
self.reachable_regions[item.player] = set()
|
|
self.blocked_connections[item.player] = set()
|
|
self.stale[item.player] = True
|
|
|
|
@unique
|
|
class RegionType(int, Enum):
|
|
Generic = 0
|
|
LightWorld = 1
|
|
DarkWorld = 2
|
|
Cave = 3 # Also includes Houses
|
|
Dungeon = 4
|
|
|
|
@property
|
|
def is_indoors(self):
|
|
"""Shorthand for checking if Cave or Dungeon"""
|
|
return self in (RegionType.Cave, RegionType.Dungeon)
|
|
|
|
|
|
class Region(object):
|
|
|
|
def __init__(self, name: str, type, hint, player: int, world: Optional[MultiWorld] = None):
|
|
self.name = name
|
|
self.type = type
|
|
self.entrances = []
|
|
self.exits = []
|
|
self.locations = []
|
|
self.dungeon = None
|
|
self.shop = None
|
|
self.world = world
|
|
self.is_light_world = False # will be set after making connections.
|
|
self.is_dark_world = False
|
|
self.spot_type = 'Region'
|
|
self.hint_text = hint
|
|
self.player = player
|
|
|
|
def can_reach(self, state: CollectionState):
|
|
if state.stale[self.player]:
|
|
state.update_reachable_regions(self.player)
|
|
return self in state.reachable_regions[self.player]
|
|
|
|
def can_reach_private(self, state: CollectionState):
|
|
for entrance in self.entrances:
|
|
if entrance.can_reach(state):
|
|
if not self in state.path:
|
|
state.path[self] = (self.name, state.path.get(entrance, None))
|
|
return True
|
|
return False
|
|
|
|
def __repr__(self):
|
|
return self.__str__()
|
|
|
|
def __str__(self):
|
|
return self.world.get_name_string_for_object(self) if self.world else f'{self.name} (Player {self.player})'
|
|
|
|
|
|
class Entrance(object):
|
|
spot_type = 'Entrance'
|
|
|
|
def __init__(self, player: int, name: str = '', parent=None):
|
|
self.name = name
|
|
self.parent_region = parent
|
|
self.connected_region = None
|
|
self.target = None
|
|
self.addresses = None
|
|
self.access_rule = lambda state: True
|
|
self.player = player
|
|
self.hide_path = False
|
|
|
|
def can_reach(self, state):
|
|
if self.parent_region.can_reach(state) and self.access_rule(state):
|
|
if not self.hide_path and not self in state.path:
|
|
state.path[self] = (self.name, state.path.get(self.parent_region, (self.parent_region.name, None)))
|
|
return True
|
|
|
|
return False
|
|
|
|
def connect(self, region, addresses=None, target=None):
|
|
self.connected_region = region
|
|
self.target = target
|
|
self.addresses = addresses
|
|
region.entrances.append(self)
|
|
|
|
def __repr__(self):
|
|
return self.__str__()
|
|
|
|
def __str__(self):
|
|
world = self.parent_region.world if self.parent_region else None
|
|
return world.get_name_string_for_object(self) if world else f'{self.name} (Player {self.player})'
|
|
|
|
|
|
class Dungeon(object):
|
|
def __init__(self, name: str, regions, big_key, small_keys, dungeon_items, player: int):
|
|
self.name = name
|
|
self.regions = regions
|
|
self.big_key = big_key
|
|
self.small_keys = small_keys
|
|
self.dungeon_items = dungeon_items
|
|
self.bosses = dict()
|
|
self.player = player
|
|
self.world = None
|
|
|
|
@property
|
|
def boss(self):
|
|
return self.bosses.get(None, None)
|
|
|
|
@boss.setter
|
|
def boss(self, value):
|
|
self.bosses[None] = value
|
|
|
|
@property
|
|
def keys(self):
|
|
return self.small_keys + ([self.big_key] if self.big_key else [])
|
|
|
|
@property
|
|
def all_items(self):
|
|
return self.dungeon_items + self.keys
|
|
|
|
def is_dungeon_item(self, item: Item) -> bool:
|
|
return item.player == self.player and item.name in (dungeon_item.name for dungeon_item in self.all_items)
|
|
|
|
def __eq__(self, other: Dungeon) -> bool:
|
|
if not other:
|
|
return False
|
|
return self.name == other.name and self.player == other.player
|
|
|
|
def __repr__(self):
|
|
return self.__str__()
|
|
|
|
def __str__(self):
|
|
return self.world.get_name_string_for_object(self) if self.world else f'{self.name} (Player {self.player})'
|
|
|
|
class Boss():
|
|
def __init__(self, name, enemizer_name, defeat_rule, player: int):
|
|
self.name = name
|
|
self.enemizer_name = enemizer_name
|
|
self.defeat_rule = defeat_rule
|
|
self.player = player
|
|
|
|
def can_defeat(self, state) -> bool:
|
|
return self.defeat_rule(state, self.player)
|
|
|
|
def __repr__(self):
|
|
return f"Boss({self.name})"
|
|
|
|
class Location():
|
|
# If given as integer, then this is the shop's inventory index
|
|
shop_slot: Optional[int] = None
|
|
shop_slot_disabled: bool = False
|
|
event: bool = False
|
|
locked: bool = False
|
|
spot_type = 'Location'
|
|
game: str = "Generic"
|
|
crystal: bool = False
|
|
always_allow = staticmethod(lambda item, state: False)
|
|
access_rule = staticmethod(lambda state: True)
|
|
item_rule = staticmethod(lambda item: True)
|
|
|
|
def __init__(self, player: int, name: str = '', address:int = None, parent=None):
|
|
self.name: str = name
|
|
self.address: Optional[int] = address
|
|
self.parent_region: Region = parent
|
|
self.player: int = player
|
|
self.item: Optional[Item] = None
|
|
|
|
def can_fill(self, state: CollectionState, item: Item, check_access=True) -> bool:
|
|
return self.always_allow(state, item) or (self.item_rule(item) and (not check_access or self.can_reach(state)))
|
|
|
|
def can_reach(self, state: CollectionState) -> bool:
|
|
# self.access_rule computes faster on average, so placing it first for faster abort
|
|
if self.access_rule(state) and self.parent_region.can_reach(state):
|
|
return True
|
|
return False
|
|
|
|
def place_locked_item(self, item: Item):
|
|
if self.item:
|
|
raise Exception(f"Location {self} already filled.")
|
|
self.item = item
|
|
self.event = item.advancement
|
|
self.item.world = self.parent_region.world
|
|
self.locked = True
|
|
|
|
def __repr__(self):
|
|
return self.__str__()
|
|
|
|
def __str__(self):
|
|
world = self.parent_region.world if self.parent_region and self.parent_region.world else None
|
|
return world.get_name_string_for_object(self) if world else f'{self.name} (Player {self.player})'
|
|
|
|
def __hash__(self):
|
|
return hash((self.name, self.player))
|
|
|
|
def __lt__(self, other):
|
|
return (self.player, self.name) < (other.player, other.name)
|
|
|
|
@property
|
|
def native_item(self) -> bool:
|
|
"""Returns True if the item in this location matches game."""
|
|
return self.item and self.item.game == self.game
|
|
|
|
@property
|
|
def hint_text(self):
|
|
hint_text = getattr(self, "_hint_text", None)
|
|
if hint_text:
|
|
return hint_text
|
|
return "at " + self.name.replace("_", " ").replace("-", " ")
|
|
|
|
|
|
class Item():
|
|
location: Optional[Location] = None
|
|
world: Optional[MultiWorld] = None
|
|
code: Optional[str] = None # an item with ID None is called an Event, and does not get written to multidata
|
|
game: str = "Generic"
|
|
type: str = None
|
|
# change manually to ensure that a specific non-progression item never goes on an excluded location
|
|
never_exclude = False
|
|
|
|
# need to find a decent place for these to live and to allow other games to register texts if they want.
|
|
pedestal_credit_text: str = "and the Unknown Item"
|
|
sickkid_credit_text: Optional[str] = None
|
|
magicshop_credit_text: Optional[str] = None
|
|
zora_credit_text: Optional[str] = None
|
|
fluteboy_credit_text: Optional[str] = None
|
|
|
|
# hopefully temporary attributes to satisfy legacy LttP code, proper implementation in subclass ALttPItem
|
|
smallkey: bool = False
|
|
bigkey: bool = False
|
|
map: bool = False
|
|
compass: bool = False
|
|
|
|
def __init__(self, name: str, advancement: bool, code: Optional[int], player: int):
|
|
self.name = name
|
|
self.advancement = advancement
|
|
self.player = player
|
|
self.code = code
|
|
|
|
@property
|
|
def hint_text(self):
|
|
return getattr(self, "_hint_text", self.name.replace("_", " ").replace("-", " "))
|
|
|
|
@property
|
|
def pedestal_hint_text(self):
|
|
return getattr(self, "_pedestal_hint_text", self.name.replace("_", " ").replace("-", " "))
|
|
|
|
def __eq__(self, other):
|
|
return self.name == other.name and self.player == other.player
|
|
|
|
def __lt__(self, other):
|
|
if other.player != self.player:
|
|
return other.player < self.player
|
|
return self.name < other.name
|
|
|
|
def __hash__(self):
|
|
return hash((self.name, self.player))
|
|
|
|
def __repr__(self):
|
|
return self.__str__()
|
|
|
|
def __str__(self):
|
|
return self.world.get_name_string_for_object(self) if self.world else f'{self.name} (Player {self.player})'
|
|
|
|
|
|
class Spoiler():
|
|
world: MultiWorld
|
|
|
|
def __init__(self, world):
|
|
self.world = world
|
|
self.hashes = {}
|
|
self.entrances = OrderedDict()
|
|
self.medallions = {}
|
|
self.playthrough = {}
|
|
self.unreachables = []
|
|
self.startinventory = []
|
|
self.locations = {}
|
|
self.paths = {}
|
|
self.metadata = {}
|
|
self.shops = []
|
|
self.bosses = OrderedDict()
|
|
|
|
def set_entrance(self, entrance, exit, direction, player):
|
|
if self.world.players == 1:
|
|
self.entrances[(entrance, direction, player)] = OrderedDict([('entrance', entrance), ('exit', exit), ('direction', direction)])
|
|
else:
|
|
self.entrances[(entrance, direction, player)] = OrderedDict([('player', player), ('entrance', entrance), ('exit', exit), ('direction', direction)])
|
|
|
|
def parse_data(self):
|
|
self.medallions = OrderedDict()
|
|
for player in self.world.get_game_players("A Link to the Past"):
|
|
self.medallions[f'Misery Mire ({self.world.get_player_name(player)})'] = self.world.required_medallions[player][0]
|
|
self.medallions[f'Turtle Rock ({self.world.get_player_name(player)})'] = self.world.required_medallions[player][1]
|
|
|
|
self.startinventory = list(map(str, self.world.precollected_items))
|
|
|
|
self.locations = OrderedDict()
|
|
listed_locations = set()
|
|
|
|
lw_locations = [loc for loc in self.world.get_locations() if loc not in listed_locations and loc.parent_region and loc.parent_region.type == RegionType.LightWorld]
|
|
self.locations['Light World'] = OrderedDict([(str(location), str(location.item) if location.item is not None else 'Nothing') for location in lw_locations])
|
|
listed_locations.update(lw_locations)
|
|
|
|
dw_locations = [loc for loc in self.world.get_locations() if loc not in listed_locations and loc.parent_region and loc.parent_region.type == RegionType.DarkWorld]
|
|
self.locations['Dark World'] = OrderedDict([(str(location), str(location.item) if location.item is not None else 'Nothing') for location in dw_locations])
|
|
listed_locations.update(dw_locations)
|
|
|
|
cave_locations = [loc for loc in self.world.get_locations() if loc not in listed_locations and loc.parent_region and loc.parent_region.type == RegionType.Cave]
|
|
self.locations['Caves'] = OrderedDict([(str(location), str(location.item) if location.item is not None else 'Nothing') for location in cave_locations])
|
|
listed_locations.update(cave_locations)
|
|
|
|
for dungeon in self.world.dungeons.values():
|
|
dungeon_locations = [loc for loc in self.world.get_locations() if loc not in listed_locations and loc.parent_region and loc.parent_region.dungeon == dungeon]
|
|
self.locations[str(dungeon)] = OrderedDict([(str(location), str(location.item) if location.item is not None else 'Nothing') for location in dungeon_locations])
|
|
listed_locations.update(dungeon_locations)
|
|
|
|
other_locations = [loc for loc in self.world.get_locations() if loc not in listed_locations]
|
|
if other_locations:
|
|
self.locations['Other Locations'] = OrderedDict([(str(location), str(location.item) if location.item is not None else 'Nothing') for location in other_locations])
|
|
listed_locations.update(other_locations)
|
|
|
|
self.shops = []
|
|
from worlds.alttp.Shops import ShopType
|
|
for shop in self.world.shops:
|
|
if not shop.custom:
|
|
continue
|
|
shopdata = {'location': str(shop.region),
|
|
'type': 'Take Any' if shop.type == ShopType.TakeAny else 'Shop'
|
|
}
|
|
for index, item in enumerate(shop.inventory):
|
|
if item is None:
|
|
continue
|
|
shopdata['item_{}'.format(index)] = "{} — {}".format(item['item'], item['price']) if item['price'] else item['item']
|
|
|
|
if item['player'] > 0:
|
|
shopdata['item_{}'.format(index)] = shopdata['item_{}'.format(index)].replace('—', '(Player {}) — '.format(item['player']))
|
|
|
|
if item['max'] == 0:
|
|
continue
|
|
shopdata['item_{}'.format(index)] += " x {}".format(item['max'])
|
|
|
|
if item['replacement'] is None:
|
|
continue
|
|
shopdata['item_{}'.format(index)] += ", {} - {}".format(item['replacement'], item['replacement_price']) if item['replacement_price'] else item['replacement']
|
|
self.shops.append(shopdata)
|
|
|
|
for player in self.world.get_game_players("A Link to the Past"):
|
|
self.bosses[str(player)] = OrderedDict()
|
|
self.bosses[str(player)]["Eastern Palace"] = self.world.get_dungeon("Eastern Palace", player).boss.name
|
|
self.bosses[str(player)]["Desert Palace"] = self.world.get_dungeon("Desert Palace", player).boss.name
|
|
self.bosses[str(player)]["Tower Of Hera"] = self.world.get_dungeon("Tower of Hera", player).boss.name
|
|
self.bosses[str(player)]["Hyrule Castle"] = "Agahnim"
|
|
self.bosses[str(player)]["Palace Of Darkness"] = self.world.get_dungeon("Palace of Darkness", player).boss.name
|
|
self.bosses[str(player)]["Swamp Palace"] = self.world.get_dungeon("Swamp Palace", player).boss.name
|
|
self.bosses[str(player)]["Skull Woods"] = self.world.get_dungeon("Skull Woods", player).boss.name
|
|
self.bosses[str(player)]["Thieves Town"] = self.world.get_dungeon("Thieves Town", player).boss.name
|
|
self.bosses[str(player)]["Ice Palace"] = self.world.get_dungeon("Ice Palace", player).boss.name
|
|
self.bosses[str(player)]["Misery Mire"] = self.world.get_dungeon("Misery Mire", player).boss.name
|
|
self.bosses[str(player)]["Turtle Rock"] = self.world.get_dungeon("Turtle Rock", player).boss.name
|
|
if self.world.mode[player] != 'inverted':
|
|
self.bosses[str(player)]["Ganons Tower Basement"] = self.world.get_dungeon('Ganons Tower', player).bosses['bottom'].name
|
|
self.bosses[str(player)]["Ganons Tower Middle"] = self.world.get_dungeon('Ganons Tower', player).bosses['middle'].name
|
|
self.bosses[str(player)]["Ganons Tower Top"] = self.world.get_dungeon('Ganons Tower', player).bosses['top'].name
|
|
else:
|
|
self.bosses[str(player)]["Ganons Tower Basement"] = self.world.get_dungeon('Inverted Ganons Tower', player).bosses['bottom'].name
|
|
self.bosses[str(player)]["Ganons Tower Middle"] = self.world.get_dungeon('Inverted Ganons Tower', player).bosses['middle'].name
|
|
self.bosses[str(player)]["Ganons Tower Top"] = self.world.get_dungeon('Inverted Ganons Tower', player).bosses['top'].name
|
|
|
|
self.bosses[str(player)]["Ganons Tower"] = "Agahnim 2"
|
|
self.bosses[str(player)]["Ganon"] = "Ganon"
|
|
|
|
from Utils import __version__ as APVersion
|
|
self.metadata = {'version': APVersion,
|
|
'logic': self.world.logic,
|
|
'dark_room_logic': self.world.dark_room_logic,
|
|
'mode': self.world.mode,
|
|
'retro': self.world.retro,
|
|
'swordless': self.world.swordless,
|
|
'goal': self.world.goal,
|
|
'shuffle': self.world.shuffle,
|
|
'item_pool': self.world.difficulty,
|
|
'item_functionality': self.world.item_functionality,
|
|
'open_pyramid': self.world.open_pyramid,
|
|
'accessibility': self.world.accessibility,
|
|
'hints': self.world.hints,
|
|
'boss_shuffle': self.world.boss_shuffle,
|
|
'enemy_shuffle': self.world.enemy_shuffle,
|
|
'enemy_health': self.world.enemy_health,
|
|
'enemy_damage': self.world.enemy_damage,
|
|
'killable_thieves': self.world.killable_thieves,
|
|
'tile_shuffle': self.world.tile_shuffle,
|
|
'bush_shuffle': self.world.bush_shuffle,
|
|
'beemizer': self.world.beemizer,
|
|
'shufflepots': self.world.shufflepots,
|
|
'players': self.world.players,
|
|
'progression_balancing': self.world.progression_balancing,
|
|
'triforce_pieces_available': self.world.triforce_pieces_available,
|
|
'triforce_pieces_required': self.world.triforce_pieces_required,
|
|
'shop_shuffle': self.world.shop_shuffle,
|
|
'shuffle_prizes': self.world.shuffle_prizes,
|
|
'sprite_pool': self.world.sprite_pool,
|
|
'restrict_dungeon_item_on_boss': self.world.restrict_dungeon_item_on_boss,
|
|
'game': self.world.game,
|
|
'er_seeds': self.world.er_seeds
|
|
}
|
|
|
|
def to_json(self):
|
|
self.parse_data()
|
|
out = OrderedDict()
|
|
out['Entrances'] = list(self.entrances.values())
|
|
out.update(self.locations)
|
|
out['Starting Inventory'] = self.startinventory
|
|
out['Special'] = self.medallions
|
|
if self.hashes:
|
|
out['Hashes'] = self.hashes
|
|
if self.shops:
|
|
out['Shops'] = self.shops
|
|
out['playthrough'] = self.playthrough
|
|
out['paths'] = self.paths
|
|
out['Bosses'] = self.bosses
|
|
out['meta'] = self.metadata
|
|
|
|
return json.dumps(out)
|
|
|
|
def to_file(self, filename):
|
|
self.parse_data()
|
|
|
|
def bool_to_text(variable: Union[bool, str]) -> str:
|
|
if type(variable) == str:
|
|
return variable
|
|
return 'Yes' if variable else 'No'
|
|
|
|
with open(filename, 'w', encoding="utf-8-sig") as outfile:
|
|
outfile.write(
|
|
'Archipelago Version %s - Seed: %s\n\n' % (
|
|
self.metadata['version'], self.world.seed))
|
|
outfile.write('Filling Algorithm: %s\n' % self.world.algorithm)
|
|
outfile.write('Players: %d\n' % self.world.players)
|
|
|
|
for player in range(1, self.world.players + 1):
|
|
if self.world.players > 1:
|
|
outfile.write('\nPlayer %d: %s\n' % (player, self.world.get_player_name(player)))
|
|
outfile.write('Game: %s\n' % self.world.game[player])
|
|
if self.world.players > 1:
|
|
outfile.write('Progression Balanced: %s\n' % (
|
|
'Yes' if self.metadata['progression_balancing'][player] else 'No'))
|
|
outfile.write('Accessibility: %s\n' % self.metadata['accessibility'][player])
|
|
options = self.world.worlds[player].options
|
|
if options:
|
|
for f_option, option in options.items():
|
|
res = getattr(self.world, f_option)[player]
|
|
displayname = getattr(option, "displayname", f_option)
|
|
outfile.write(f'{displayname + ":":33}{res.get_current_option_name()}\n')
|
|
|
|
if player in self.world.get_game_players("A Link to the Past"):
|
|
outfile.write('%s%s\n' % ('Hash: ', self.hashes[player]))
|
|
|
|
outfile.write('Logic: %s\n' % self.metadata['logic'][player])
|
|
outfile.write('Dark Room Logic: %s\n' % self.metadata['dark_room_logic'][player])
|
|
outfile.write('Restricted Boss Drops: %s\n' %
|
|
bool_to_text(self.metadata['restrict_dungeon_item_on_boss'][player]))
|
|
|
|
outfile.write('Mode: %s\n' % self.metadata['mode'][player])
|
|
outfile.write('Retro: %s\n' %
|
|
('Yes' if self.metadata['retro'][player] else 'No'))
|
|
outfile.write('Swordless: %s\n' % ('Yes' if self.metadata['swordless'][player] else 'No'))
|
|
outfile.write('Goal: %s\n' % self.metadata['goal'][player])
|
|
if "triforce" in self.metadata["goal"][player]: # triforce hunt
|
|
outfile.write("Pieces available for Triforce: %s\n" %
|
|
self.metadata['triforce_pieces_available'][player])
|
|
outfile.write("Pieces required for Triforce: %s\n" %
|
|
self.metadata["triforce_pieces_required"][player])
|
|
outfile.write('Difficulty: %s\n' % self.metadata['item_pool'][player])
|
|
outfile.write('Item Functionality: %s\n' % self.metadata['item_functionality'][player])
|
|
outfile.write('Entrance Shuffle: %s\n' % self.metadata['shuffle'][player])
|
|
if self.metadata['shuffle'][player] != "vanilla":
|
|
outfile.write('Entrance Shuffle Seed %s\n' % self.metadata['er_seeds'][player])
|
|
outfile.write('Pyramid hole pre-opened: %s\n' % (
|
|
'Yes' if self.metadata['open_pyramid'][player] else 'No'))
|
|
outfile.write('Shop inventory shuffle: %s\n' %
|
|
bool_to_text("i" in self.metadata["shop_shuffle"][player]))
|
|
outfile.write('Shop price shuffle: %s\n' %
|
|
bool_to_text("p" in self.metadata["shop_shuffle"][player]))
|
|
outfile.write('Shop upgrade shuffle: %s\n' %
|
|
bool_to_text("u" in self.metadata["shop_shuffle"][player]))
|
|
outfile.write('New Shop inventory: %s\n' %
|
|
bool_to_text("g" in self.metadata["shop_shuffle"][player] or
|
|
"f" in self.metadata["shop_shuffle"][player]))
|
|
outfile.write('Custom Potion Shop: %s\n' %
|
|
bool_to_text("w" in self.metadata["shop_shuffle"][player]))
|
|
outfile.write('Boss shuffle: %s\n' % self.metadata['boss_shuffle'][player])
|
|
outfile.write(
|
|
'Enemy shuffle: %s\n' % bool_to_text(self.metadata['enemy_shuffle'][player]))
|
|
outfile.write('Enemy health: %s\n' % self.metadata['enemy_health'][player])
|
|
outfile.write('Enemy damage: %s\n' % self.metadata['enemy_damage'][player])
|
|
outfile.write(f'Killable thieves: {bool_to_text(self.metadata["killable_thieves"][player])}\n')
|
|
outfile.write(f'Shuffled tiles: {bool_to_text(self.metadata["tile_shuffle"][player])}\n')
|
|
outfile.write(f'Shuffled bushes: {bool_to_text(self.metadata["bush_shuffle"][player])}\n')
|
|
outfile.write(
|
|
'Hints: %s\n' % ('Yes' if self.metadata['hints'][player] else 'No'))
|
|
outfile.write('Beemizer: %s\n' % self.metadata['beemizer'][player])
|
|
outfile.write('Pot shuffle %s\n'
|
|
% ('Yes' if self.metadata['shufflepots'][player] else 'No'))
|
|
outfile.write('Prize shuffle %s\n' %
|
|
self.metadata['shuffle_prizes'][player])
|
|
if self.entrances:
|
|
outfile.write('\n\nEntrances:\n\n')
|
|
outfile.write('\n'.join(['%s%s %s %s' % (f'{self.world.get_player_name(entry["player"])}: '
|
|
if self.world.players > 1 else '', entry['entrance'],
|
|
'<=>' if entry['direction'] == 'both' else
|
|
'<=' if entry['direction'] == 'exit' else '=>',
|
|
entry['exit']) for entry in self.entrances.values()]))
|
|
|
|
if self.medallions:
|
|
outfile.write('\n\nMedallions:\n')
|
|
for dungeon, medallion in self.medallions.items():
|
|
outfile.write(f'\n{dungeon}: {medallion}')
|
|
factorio_players = self.world.get_game_players("Factorio")
|
|
if factorio_players:
|
|
outfile.write('\n\nRecipes:\n')
|
|
for player in factorio_players:
|
|
name = self.world.get_player_name(player)
|
|
for recipe in self.world.worlds[player].custom_recipes.values():
|
|
outfile.write(f"\n{recipe.name} ({name}): {recipe.ingredients} -> {recipe.products}")
|
|
|
|
if self.startinventory:
|
|
outfile.write('\n\nStarting Inventory:\n\n')
|
|
outfile.write('\n'.join(self.startinventory))
|
|
|
|
outfile.write('\n\nLocations:\n\n')
|
|
outfile.write('\n'.join(['%s: %s' % (location, item) for grouping in self.locations.values() for (location, item) in grouping.items()]))
|
|
|
|
if self.shops:
|
|
outfile.write('\n\nShops:\n\n')
|
|
outfile.write('\n'.join("{} [{}]\n {}".format(shop['location'], shop['type'], "\n ".join(item for item in [shop.get('item_0', None), shop.get('item_1', None), shop.get('item_2', None)] if item)) for shop in self.shops))
|
|
|
|
for player in self.world.get_game_players("A Link to the Past"):
|
|
if self.world.boss_shuffle[player] != 'none':
|
|
bossmap = self.bosses[str(player)] if self.world.players > 1 else self.bosses
|
|
outfile.write(f'\n\nBosses{(f" ({self.world.get_player_name(player)})" if self.world.players > 1 else "")}:\n')
|
|
outfile.write(' '+'\n '.join([f'{x}: {y}' for x, y in bossmap.items()]))
|
|
outfile.write('\n\nPlaythrough:\n\n')
|
|
outfile.write('\n'.join(['%s: {\n%s\n}' % (sphere_nr, '\n'.join([' %s: %s' % (location, item) for (location, item) in sphere.items()] if sphere_nr != '0' else [f' {item}' for item in sphere])) for (sphere_nr, sphere) in self.playthrough.items()]))
|
|
if self.unreachables:
|
|
outfile.write('\n\nUnreachable Items:\n\n')
|
|
outfile.write('\n'.join(['%s: %s' % (unreachable.item, unreachable) for unreachable in self.unreachables]))
|
|
|
|
if self.paths:
|
|
outfile.write('\n\nPaths:\n\n')
|
|
path_listings = []
|
|
for location, path in sorted(self.paths.items()):
|
|
path_lines = []
|
|
for region, exit in path:
|
|
if exit is not None:
|
|
path_lines.append("{} -> {}".format(region, exit))
|
|
else:
|
|
path_lines.append(region)
|
|
path_listings.append("{}\n {}".format(location, "\n => ".join(path_lines)))
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outfile.write('\n'.join(path_listings))
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