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BaseClasses.py
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BaseClasses.py
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from __future__ import annotations
import copy
import functools
import logging
import random
import secrets
import typing # this can go away when Python 3.8 support is dropped
from argparse import Namespace
from collections import ChainMap, Counter, OrderedDict, deque
from enum import IntEnum, IntFlag
from typing import Any, Callable, Dict, Iterable, List, NamedTuple, Optional, Set, Tuple, TypedDict, Union
import NetUtils
import Options
import Utils
class Group(TypedDict, total=False):
name: str
game: str
world: auto_world
players: Set[int]
item_pool: Set[str]
replacement_items: Dict[int, Optional[str]]
local_items: Set[str]
non_local_items: Set[str]
link_replacement: bool
class ThreadBarrierProxy():
"""Passes through getattr while passthrough is True"""
def __init__(self, obj: Any):
self.passthrough = True
self.obj = obj
def __getattr__(self, item):
if self.passthrough:
return getattr(self.obj, item)
else:
raise RuntimeError("You are in a threaded context and global random state was removed for your safety. "
"Please use multiworld.per_slot_randoms[player] or randomize ahead of output.")
class MultiWorld():
debug_types = False
player_name: Dict[int, str]
_region_cache: Dict[int, Dict[str, Region]]
difficulty_requirements: dict
required_medallions: dict
dark_room_logic: Dict[int, str]
restrict_dungeon_item_on_boss: Dict[int, bool]
plando_texts: List[Dict[str, str]]
plando_items: List[List[Dict[str, Any]]]
plando_connections: List
worlds: Dict[int, auto_world]
groups: Dict[int, Group]
regions: List[Region]
itempool: List[Item]
is_race: bool = False
precollected_items: Dict[int, List[Item]]
state: CollectionState
plando_options: PlandoOptions
accessibility: Dict[int, Options.Accessibility]
early_items: Dict[int, Dict[str, int]]
local_early_items: Dict[int, Dict[str, int]]
local_items: Dict[int, Options.LocalItems]
non_local_items: Dict[int, Options.NonLocalItems]
progression_balancing: Dict[int, Options.ProgressionBalancing]
completion_condition: Dict[int, Callable[[CollectionState], bool]]
indirect_connections: Dict[Region, Set[Entrance]]
exclude_locations: Dict[int, Options.ExcludeLocations]
priority_locations: Dict[int, Options.PriorityLocations]
start_inventory: Dict[int, Options.StartInventory]
start_hints: Dict[int, Options.StartHints]
start_location_hints: Dict[int, Options.StartLocationHints]
item_links: Dict[int, Options.ItemLinks]
game: Dict[int, str]
random: random.Random
per_slot_randoms: Dict[int, random.Random]
class AttributeProxy():
def __init__(self, rule):
self.rule = rule
def __getitem__(self, player) -> bool:
return self.rule(player)
def __init__(self, players: int):
# world-local random state is saved for multiple generations running concurrently
self.random = ThreadBarrierProxy(random.Random())
self.players = players
self.player_types = {player: NetUtils.SlotType.player for player in self.player_ids}
self.glitch_triforce = False
self.algorithm = 'balanced'
self.dungeons: Dict[Tuple[str, int], Dungeon] = {}
self.groups = {}
self.regions = []
self.shops = []
self.itempool = []
self.seed = None
self.seed_name: str = "Unavailable"
self.precollected_items = {player: [] for player in self.player_ids}
self._cached_entrances = None
self._cached_locations = None
self._entrance_cache = {}
self._location_cache: Dict[Tuple[str, int], Location] = {}
self.required_locations = []
self.light_world_light_cone = False
self.dark_world_light_cone = False
self.rupoor_cost = 10
self.aga_randomness = True
self.save_and_quit_from_boss = True
self.custom = False
self.customitemarray = []
self.shuffle_ganon = True
self.spoiler = Spoiler(self)
self.early_items = {player: {} for player in self.player_ids}
self.local_early_items = {player: {} for player in self.player_ids}
self.indirect_connections = {}
self.start_inventory_from_pool: Dict[int, Options.StartInventoryPool] = {}
self.fix_trock_doors = self.AttributeProxy(
lambda player: self.shuffle[player] != 'vanilla' or self.mode[player] == 'inverted')
self.fix_skullwoods_exit = self.AttributeProxy(
lambda player: self.shuffle[player] not in ['vanilla', 'simple', 'restricted', 'dungeonssimple'])
self.fix_palaceofdarkness_exit = self.AttributeProxy(
lambda player: self.shuffle[player] not in ['vanilla', 'simple', 'restricted', 'dungeonssimple'])
self.fix_trock_exit = self.AttributeProxy(
lambda player: self.shuffle[player] not in ['vanilla', 'simple', 'restricted', 'dungeonssimple'])
for player in range(1, players + 1):
def set_player_attr(attr, val):
self.__dict__.setdefault(attr, {})[player] = val
set_player_attr('tech_tree_layout_prerequisites', {})
set_player_attr('_region_cache', {})
set_player_attr('shuffle', "vanilla")
set_player_attr('logic', "noglitches")
set_player_attr('mode', 'open')
set_player_attr('difficulty', 'normal')
set_player_attr('item_functionality', 'normal')
set_player_attr('timer', False)
set_player_attr('goal', 'ganon')
set_player_attr('required_medallions', ['Ether', 'Quake'])
set_player_attr('swamp_patch_required', False)
set_player_attr('powder_patch_required', False)
set_player_attr('ganon_at_pyramid', True)
set_player_attr('ganonstower_vanilla', True)
set_player_attr('can_access_trock_eyebridge', None)
set_player_attr('can_access_trock_front', None)
set_player_attr('can_access_trock_big_chest', None)
set_player_attr('can_access_trock_middle', None)
set_player_attr('fix_fake_world', True)
set_player_attr('difficulty_requirements', None)
set_player_attr('boss_shuffle', 'none')
set_player_attr('enemy_health', 'default')
set_player_attr('enemy_damage', 'default')
set_player_attr('beemizer_total_chance', 0)
set_player_attr('beemizer_trap_chance', 0)
set_player_attr('escape_assist', [])
set_player_attr('treasure_hunt_icon', 'Triforce Piece')
set_player_attr('treasure_hunt_count', 0)
set_player_attr('clock_mode', False)
set_player_attr('countdown_start_time', 10)
set_player_attr('red_clock_time', -2)
set_player_attr('blue_clock_time', 2)
set_player_attr('green_clock_time', 4)
set_player_attr('can_take_damage', True)
set_player_attr('triforce_pieces_available', 30)
set_player_attr('triforce_pieces_required', 20)
set_player_attr('shop_shuffle', 'off')
set_player_attr('shuffle_prizes', "g")
set_player_attr('sprite_pool', [])
set_player_attr('dark_room_logic', "lamp")
set_player_attr('plando_items', [])
set_player_attr('plando_texts', {})
set_player_attr('plando_connections', [])
set_player_attr('game', "A Link to the Past")
set_player_attr('completion_condition', lambda state: True)
self.custom_data = {}
self.worlds = {}
self.per_slot_randoms = {}
self.plando_options = PlandoOptions.none
def get_all_ids(self) -> Tuple[int, ...]:
return self.player_ids + tuple(self.groups)
def add_group(self, name: str, game: str, players: Set[int] = frozenset()) -> Tuple[int, Group]:
"""Create a group with name and return the assigned player ID and group.
If a group of this name already exists, the set of players is extended instead of creating a new one."""
for group_id, group in self.groups.items():
if group["name"] == name:
group["players"] |= players
return group_id, group
new_id: int = self.players + len(self.groups) + 1
self.game[new_id] = game
self.custom_data[new_id] = {}
self.player_types[new_id] = NetUtils.SlotType.group
self._region_cache[new_id] = {}
world_type = AutoWorld.AutoWorldRegister.world_types[game]
for option_key, option in world_type.option_definitions.items():
getattr(self, option_key)[new_id] = option(option.default)
for option_key, option in Options.common_options.items():
getattr(self, option_key)[new_id] = option(option.default)
for option_key, option in Options.per_game_common_options.items():
getattr(self, option_key)[new_id] = option(option.default)
self.worlds[new_id] = world_type(self, new_id)
self.worlds[new_id].collect_item = classmethod(AutoWorld.World.collect_item).__get__(self.worlds[new_id])
self.player_name[new_id] = name
new_group = self.groups[new_id] = Group(name=name, game=game, players=players,
world=self.worlds[new_id])
return new_id, new_group
def get_player_groups(self, player) -> Set[int]:
return {group_id for group_id, group in self.groups.items() if player in group["players"]}
def set_seed(self, seed: Optional[int] = None, secure: bool = False, name: Optional[str] = None):
self.seed = get_seed(seed)
if secure:
self.secure()
else:
self.random.seed(self.seed)
self.seed_name = name if name else str(self.seed)
self.per_slot_randoms = {player: random.Random(self.random.getrandbits(64)) for player in
range(1, self.players + 1)}
def set_options(self, args: Namespace) -> None:
for option_key in Options.common_options:
setattr(self, option_key, getattr(args, option_key, {}))
for option_key in Options.per_game_common_options:
setattr(self, option_key, getattr(args, option_key, {}))
for player in self.player_ids:
self.custom_data[player] = {}
world_type = AutoWorld.AutoWorldRegister.world_types[self.game[player]]
for option_key in world_type.option_definitions:
setattr(self, option_key, getattr(args, option_key, {}))
self.worlds[player] = world_type(self, player)
def set_item_links(self):
item_links = {}
replacement_prio = [False, True, None]
for player in self.player_ids:
for item_link in self.item_links[player].value:
if item_link["name"] in item_links:
if item_links[item_link["name"]]["game"] != self.game[player]:
raise Exception(f"Cannot ItemLink across games. Link: {item_link['name']}")
current_link = item_links[item_link["name"]]
current_link["players"][player] = item_link["replacement_item"]
current_link["item_pool"] &= set(item_link["item_pool"])
current_link["exclude"] |= set(item_link.get("exclude", []))
current_link["local_items"] &= set(item_link.get("local_items", []))
current_link["non_local_items"] &= set(item_link.get("non_local_items", []))
current_link["link_replacement"] = min(current_link["link_replacement"],
replacement_prio.index(item_link["link_replacement"]))
else:
if item_link["name"] in self.player_name.values():
raise Exception(f"Cannot name a ItemLink group the same as a player ({item_link['name']}) "
f"({self.get_player_name(player)}).")
item_links[item_link["name"]] = {
"players": {player: item_link["replacement_item"]},
"item_pool": set(item_link["item_pool"]),
"exclude": set(item_link.get("exclude", [])),
"game": self.game[player],
"local_items": set(item_link.get("local_items", [])),
"non_local_items": set(item_link.get("non_local_items", [])),
"link_replacement": replacement_prio.index(item_link["link_replacement"]),
}
for name, item_link in item_links.items():
current_item_name_groups = AutoWorld.AutoWorldRegister.world_types[item_link["game"]].item_name_groups
pool = set()
local_items = set()
non_local_items = set()
for item in item_link["item_pool"]:
pool |= current_item_name_groups.get(item, {item})
for item in item_link["exclude"]:
pool -= current_item_name_groups.get(item, {item})
for item in item_link["local_items"]:
local_items |= current_item_name_groups.get(item, {item})
for item in item_link["non_local_items"]:
non_local_items |= current_item_name_groups.get(item, {item})
local_items &= pool
non_local_items &= pool
item_link["item_pool"] = pool
item_link["local_items"] = local_items
item_link["non_local_items"] = non_local_items
for group_name, item_link in item_links.items():
game = item_link["game"]
group_id, group = self.add_group(group_name, game, set(item_link["players"]))
group["item_pool"] = item_link["item_pool"]
group["replacement_items"] = item_link["players"]
group["local_items"] = item_link["local_items"]
group["non_local_items"] = item_link["non_local_items"]
group["link_replacement"] = replacement_prio[item_link["link_replacement"]]
# intended for unittests
def set_default_common_options(self):
for option_key, option in Options.common_options.items():
setattr(self, option_key, {player_id: option(option.default) for player_id in self.player_ids})
for option_key, option in Options.per_game_common_options.items():
setattr(self, option_key, {player_id: option(option.default) for player_id in self.player_ids})
self.state = CollectionState(self)
def secure(self):
self.random = ThreadBarrierProxy(secrets.SystemRandom())
self.is_race = True
@functools.cached_property
def player_ids(self) -> Tuple[int, ...]:
return tuple(range(1, self.players + 1))
@functools.lru_cache()
def get_game_players(self, game_name: str) -> Tuple[int, ...]:
return tuple(player for player in self.player_ids if self.game[player] == game_name)
@functools.lru_cache()
def get_game_worlds(self, game_name: str):
return tuple(world for player, world in self.worlds.items() if
player not in self.groups and self.game[player] == game_name)
def get_name_string_for_object(self, obj) -> str:
return obj.name if self.players == 1 else f'{obj.name} ({self.get_player_name(obj.player)})'
def get_player_name(self, player: int) -> str:
return self.player_name[player]
def get_file_safe_player_name(self, player: int) -> str:
return Utils.get_file_safe_name(self.get_player_name(player))
def get_out_file_name_base(self, player: int) -> str:
""" the base name (without file extension) for each player's output file for a seed """
return f"AP_{self.seed_name}_P{player}_{self.get_file_safe_player_name(player).replace(' ', '_')}"
def initialize_regions(self, regions=None):
for region in regions if regions else self.regions:
region.multiworld = self
self._region_cache[region.player][region.name] = region
@functools.cached_property
def world_name_lookup(self):
return {self.player_name[player_id]: player_id for player_id in self.player_ids}
def _recache(self):
"""Rebuild world cache"""
self._cached_locations = None
for region in self.regions:
player = region.player
self._region_cache[player][region.name] = region
for exit in region.exits:
self._entrance_cache[exit.name, player] = exit
for r_location in region.locations:
self._location_cache[r_location.name, player] = r_location
def get_regions(self, player=None):
return self.regions if player is None else self._region_cache[player].values()
def get_region(self, regionname: str, player: int) -> Region:
try:
return self._region_cache[player][regionname]
except KeyError:
self._recache()
return self._region_cache[player][regionname]
def get_entrance(self, entrance: str, player: int) -> Entrance:
try:
return self._entrance_cache[entrance, player]
except KeyError:
self._recache()
return self._entrance_cache[entrance, player]
def get_location(self, location: str, player: int) -> Location:
try:
return self._location_cache[location, player]
except KeyError:
self._recache()
return self._location_cache[location, player]
def get_dungeon(self, dungeonname: str, player: int) -> Dungeon:
try:
return self.dungeons[dungeonname, player]
except KeyError as e:
raise KeyError('No such dungeon %s for player %d' % (dungeonname, player)) from e
def get_all_state(self, use_cache: bool) -> CollectionState:
cached = getattr(self, "_all_state", None)
if use_cache and cached:
return cached.copy()
ret = CollectionState(self)
for item in self.itempool:
self.worlds[item.player].collect(ret, item)
for player in self.player_ids:
subworld = self.worlds[player]
for item in subworld.get_pre_fill_items():
subworld.collect(ret, item)
ret.sweep_for_events()
if use_cache:
self._all_state = ret
return ret
def get_items(self) -> List[Item]:
return [loc.item for loc in self.get_filled_locations()] + self.itempool
def find_item_locations(self, item, player: int, resolve_group_locations: bool = False) -> List[Location]:
if resolve_group_locations:
player_groups = self.get_player_groups(player)
return [location for location in self.get_locations() if
location.item and location.item.name == item and location.player not in player_groups and
(location.item.player == player or location.item.player in player_groups)]
return [location for location in self.get_locations() if
location.item and location.item.name == item and location.item.player == player]
def find_item(self, item, player: int) -> Location:
return next(location for location in self.get_locations() if
location.item and location.item.name == item and location.item.player == player)
def find_items_in_locations(self, items: Set[str], player: int, resolve_group_locations: bool = False) -> List[Location]:
if resolve_group_locations:
player_groups = self.get_player_groups(player)
return [location for location in self.get_locations() if
location.item and location.item.name in items and location.player not in player_groups and
(location.item.player == player or location.item.player in player_groups)]
return [location for location in self.get_locations() if
location.item and location.item.name in items and location.item.player == player]
def create_item(self, item_name: str, player: int) -> Item:
return self.worlds[player].create_item(item_name)
def push_precollected(self, item: Item):
self.precollected_items[item.player].append(item)
self.state.collect(item, True)
def push_item(self, location: Location, item: Item, collect: bool = True):
assert location.can_fill(self.state, item, False), f"Cannot place {item} into {location}."
location.item = item
item.location = location
if collect:
self.state.collect(item, location.event, location)
logging.debug('Placed %s at %s', item, location)
def get_entrances(self) -> List[Entrance]:
if self._cached_entrances is None:
self._cached_entrances = [entrance for region in self.regions for entrance in region.entrances]
return self._cached_entrances
def clear_entrance_cache(self):
self._cached_entrances = None
def register_indirect_condition(self, region: Region, entrance: Entrance):
"""Report that access to this Region can result in unlocking this Entrance,
state.can_reach(Region) in the Entrance's traversal condition, as opposed to pure transition logic."""
self.indirect_connections.setdefault(region, set()).add(entrance)
def get_locations(self, player: Optional[int] = None) -> List[Location]:
if self._cached_locations is None:
self._cached_locations = [location for region in self.regions for location in region.locations]
if player is not None:
return [location for location in self._cached_locations if location.player == player]
return self._cached_locations
def clear_location_cache(self):
self._cached_locations = None
def get_unfilled_locations(self, player: Optional[int] = None) -> List[Location]:
return [location for location in self.get_locations(player) if location.item is None]
def get_filled_locations(self, player: Optional[int] = None) -> List[Location]:
return [location for location in self.get_locations(player) if location.item is not None]
def get_reachable_locations(self, state: Optional[CollectionState] = None, player: Optional[int] = None) -> List[Location]:
state: CollectionState = state if state else self.state
return [location for location in self.get_locations(player) if location.can_reach(state)]
def get_placeable_locations(self, state=None, player=None) -> List[Location]:
state: CollectionState = state if state else self.state
return [location for location in self.get_locations(player) if location.item is None and location.can_reach(state)]
def get_unfilled_locations_for_players(self, location_names: List[str], players: Iterable[int]):
for player in players:
if not location_names:
location_names = [location.name for location in self.get_unfilled_locations(player)]
for location_name in location_names:
location = self._location_cache.get((location_name, player), None)
if location is not None and location.item is None:
yield location
def unlocks_new_location(self, item: Item) -> bool:
temp_state = self.state.copy()
temp_state.collect(item, True)
for location in self.get_unfilled_locations():
if temp_state.can_reach(location) and not self.state.can_reach(location):
return True
return False
def has_beaten_game(self, state: CollectionState, player: Optional[int] = None) -> bool:
if player:
return self.completion_condition[player](state)
else:
return all((self.has_beaten_game(state, p) for p in range(1, self.players + 1)))
def can_beat_game(self, starting_state: Optional[CollectionState] = None):
if starting_state:
if self.has_beaten_game(starting_state):
return True
state = starting_state.copy()
else:
if self.has_beaten_game(self.state):
return True
state = CollectionState(self)
prog_locations = {location for location in self.get_locations() if location.item
and location.item.advancement and location not in state.locations_checked}
while prog_locations:
sphere = set()
# build up spheres of collection radius.
# Everything in each sphere is independent from each other in dependencies and only depends on lower spheres
for location in prog_locations:
if location.can_reach(state):
sphere.add(location)
if not sphere:
# ran out of places and did not finish yet, quit
return False
for location in sphere:
state.collect(location.item, True, location)
prog_locations -= sphere
if self.has_beaten_game(state):
return True
return False
def get_spheres(self):
state = CollectionState(self)
locations = set(self.get_filled_locations())
while locations:
sphere = set()
for location in locations:
if location.can_reach(state):
sphere.add(location)
yield sphere
if not sphere:
if locations:
yield locations # unreachable locations
break
for location in sphere:
state.collect(location.item, True, location)
locations -= sphere
def fulfills_accessibility(self, state: Optional[CollectionState] = None):
"""Check if accessibility rules are fulfilled with current or supplied state."""
if not state:
state = CollectionState(self)
players: Dict[str, Set[int]] = {
"minimal": set(),
"items": set(),
"locations": set()
}
for player, access in self.accessibility.items():
players[access.current_key].add(player)
beatable_fulfilled = False
def location_condition(location: Location):
"""Determine if this location has to be accessible, location is already filtered by location_relevant"""
if location.player in players["minimal"]:
return False
return True
def location_relevant(location: Location):
"""Determine if this location is relevant to sweep."""
if location.progress_type != LocationProgressType.EXCLUDED \
and (location.player in players["locations"] or location.event
or (location.item and location.item.advancement)):
return True
return False
def all_done() -> bool:
"""Check if all access rules are fulfilled"""
if not beatable_fulfilled:
return False
if any(location_condition(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: List[Location] = []
for n in range(len(locations) - 1, -1, -1):
if locations[n].can_reach(state):
sphere.append(locations.pop(n))
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:
if location.item:
state.collect(location.item, True, location)
if self.has_beaten_game(state):
beatable_fulfilled = True
if all_done():
return True
return False
PathValue = Tuple[str, Optional["PathValue"]]
class CollectionState():
prog_items: typing.Counter[Tuple[str, int]]
multiworld: MultiWorld
reachable_regions: Dict[int, Set[Region]]
blocked_connections: Dict[int, Set[Entrance]]
events: Set[Location]
path: Dict[Union[Region, Entrance], PathValue]
locations_checked: Set[Location]
stale: Dict[int, bool]
additional_init_functions: List[Callable[[CollectionState, MultiWorld], None]] = []
additional_copy_functions: List[Callable[[CollectionState, CollectionState], CollectionState]] = []
def __init__(self, parent: MultiWorld):
self.prog_items = Counter()
self.multiworld = parent
self.reachable_regions = {player: set() for player in parent.get_all_ids()}
self.blocked_connections = {player: set() for player in parent.get_all_ids()}
self.events = set()
self.path = {}
self.locations_checked = set()
self.stale = {player: True for player in parent.get_all_ids()}
for function in self.additional_init_functions:
function(self, parent)
for items in parent.precollected_items.values():
for item in items:
self.collect(item, True)
def update_reachable_regions(self, player: int):
self.stale[player] = False
rrp = self.reachable_regions[player]
bc = self.blocked_connections[player]
queue = deque(self.blocked_connections[player])
start = self.multiworld.get_region('Menu', player)
# init on first call - this can't be done on construction since the regions don't exist yet
if start not 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):
assert new_region, f"tried to search through an Entrance \"{connection}\" with no Region"
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
for new_entrance in self.multiworld.indirect_connections.get(new_region, set()):
if new_entrance in bc and new_entrance not in queue:
queue.append(new_entrance)
def copy(self) -> CollectionState:
ret = CollectionState(self.multiworld)
ret.prog_items = self.prog_items.copy()
ret.reachable_regions = {player: copy.copy(self.reachable_regions[player]) for player in
self.reachable_regions}
ret.blocked_connections = {player: copy.copy(self.blocked_connections[player]) for player in
self.blocked_connections}
ret.events = copy.copy(self.events)
ret.path = copy.copy(self.path)
ret.locations_checked = copy.copy(self.locations_checked)
for function in self.additional_copy_functions:
ret = function(self, ret)
return ret
def can_reach(self,
spot: Union[Location, Entrance, Region, str],
resolution_hint: Optional[str] = None,
player: Optional[int] = None) -> bool:
if isinstance(spot, str):
assert isinstance(player, int), "can_reach: player is required if spot is str"
# try to resolve a name
if resolution_hint == 'Location':
spot = self.multiworld.get_location(spot, player)
elif resolution_hint == 'Entrance':
spot = self.multiworld.get_entrance(spot, player)
else:
# default to Region
spot = self.multiworld.get_region(spot, player)
return spot.can_reach(self)
def sweep_for_events(self, key_only: bool = False, locations: Optional[Iterable[Location]] = None) -> None:
if locations is None:
locations = self.multiworld.get_filled_locations()
reachable_events = 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 and location not in self.events and
not key_only or getattr(location.item, "locked_dungeon_item", False)}
while reachable_events:
reachable_events = {location for location in locations if location.can_reach(self)}
locations -= reachable_events
for event in reachable_events:
self.events.add(event)
assert isinstance(event.item, Item), "tried to collect Event with no Item"
self.collect(event.item, True, event)
def has(self, item: str, player: int, count: int = 1) -> bool:
return self.prog_items[item, player] >= count
def has_all(self, items: Set[str], player: int) -> bool:
return all(self.prog_items[item, player] for item in items)
def has_any(self, items: Set[str], player: int) -> bool:
return any(self.prog_items[item, player] for item in items)
def count(self, item: str, player: int) -> int:
return self.prog_items[item, player]
def has_group(self, item_name_group: str, player: int, count: int = 1) -> bool:
found: int = 0
for item_name in self.multiworld.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) -> int:
found: int = 0
for item_name in self.multiworld.worlds[player].item_name_groups[item_name_group]:
found += self.prog_items[item_name, player]
return found
def item_count(self, item: str, player: int) -> int:
return self.prog_items[item, player]
def collect(self, item: Item, event: bool = False, location: Optional[Location] = None) -> bool:
if location:
self.locations_checked.add(location)
changed = self.multiworld.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: Item):
changed = self.multiworld.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
class Region:
name: str
_hint_text: str
player: int
multiworld: Optional[MultiWorld]
entrances: List[Entrance]
exits: List[Entrance]
locations: List[Location]
dungeon: Optional[Dungeon] = None
def __init__(self, name: str, player: int, multiworld: MultiWorld, hint: Optional[str] = None):
self.name = name
self.entrances = []
self.exits = []
self.locations = []
self.multiworld = multiworld
self._hint_text = hint
self.player = player
def can_reach(self, state: CollectionState) -> bool:
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) -> bool:
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
@property
def hint_text(self) -> str:
return self._hint_text if self._hint_text else self.name
def get_connecting_entrance(self, is_main_entrance: typing.Callable[[Entrance], bool]) -> Entrance:
for entrance in self.entrances:
if is_main_entrance(entrance):
return entrance
for entrance in self.entrances: # BFS might be better here, trying DFS for now.
return entrance.parent_region.get_connecting_entrance(is_main_entrance)
def add_locations(self, locations: Dict[str, Optional[int]], location_type: Optional[typing.Type[Location]] = None) -> None:
"""Adds locations to the Region object, where location_type is your Location class and locations is a dict of
location names to address."""
if location_type is None:
location_type = Location
for location, address in locations.items():
self.locations.append(location_type(self.player, location, address, self))
def add_exits(self, exits: Dict[str, Optional[str]], rules: Dict[str, Callable[[CollectionState], bool]] = None) -> None:
"""
Connects current region to regions in exit dictionary. Passed region names must exist first.
:param exits: exits from the region. format is {"connecting_region", "exit_name"}
:param rules: rules for the exits from this region. format is {"connecting_region", rule}
"""
for exiting_region, name in exits.items():
ret = Entrance(self.player, name, self) if name \
else Entrance(self.player, f"{self.name} -> {exiting_region}", self)
if rules and exiting_region in rules:
ret.access_rule = rules[exiting_region]
self.exits.append(ret)
ret.connect(self.multiworld.get_region(exiting_region, self.player))
def __repr__(self):
return self.__str__()
def __str__(self):
return self.multiworld.get_name_string_for_object(self) if self.multiworld else f'{self.name} (Player {self.player})'
class Entrance:
access_rule: Callable[[CollectionState], bool] = staticmethod(lambda state: True)
hide_path: bool = False
player: int
name: str
parent_region: Optional[Region]
connected_region: Optional[Region] = None
# LttP specific, TODO: should make a LttPEntrance
addresses = None
target = None
def __init__(self, player: int, name: str = '', parent: Region = None):
self.name = name
self.parent_region = parent
self.player = player
def can_reach(self, state: CollectionState) -> bool:
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: Region, addresses: Any = None, target: Any = None) -> 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.multiworld 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: List[Region], big_key: Item, small_keys: List[Item],
dungeon_items: List[Item], 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.multiworld = None
@property
def boss(self) -> Optional[Boss]:
return self.bosses.get(None, None)
@boss.setter
def boss(self, value: Optional[Boss]):
self.bosses[None] = value
@property
def keys(self) -> List[Item]:
return self.small_keys + ([self.big_key] if self.big_key else [])
@property
def all_items(self) -> List[Item]:
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.multiworld.get_name_string_for_object(self) if self.multiworld else f'{self.name} (Player {self.player})'
class Boss():
def __init__(self, name: str, enemizer_name: str, defeat_rule: Callable, 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 LocationProgressType(IntEnum):
DEFAULT = 1
PRIORITY = 2
EXCLUDED = 3
class Location:
game: str = "Generic"
player: int
name: str
address: Optional[int]
parent_region: Optional[Region]
event: bool = False
locked: bool = False
show_in_spoiler: bool = True
progress_type: LocationProgressType = LocationProgressType.DEFAULT
always_allow = staticmethod(lambda item, state: False)
access_rule: Callable[[CollectionState], bool] = staticmethod(lambda state: True)
item_rule = staticmethod(lambda item: True)
item: Optional[Item] = None
def __init__(self, player: int, name: str = '', address: Optional[int] = None, parent: Optional[Region] = None):
self.player = player
self.name = name
self.address = address
self.parent_region = parent
def can_fill(self, state: CollectionState, item: Item, check_access=True) -> bool:
return ((self.always_allow(state, item) and item.name not in state.multiworld.non_local_items[item.player])
or ((self.progress_type != LocationProgressType.EXCLUDED or not (item.advancement or item.useful))
and 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
assert self.parent_region, "Can't reach location without region"
return self.access_rule(state) and self.parent_region.can_reach(state)