from __future__ import annotations
from typing import Dict, Set, Tuple, List, Optional, TextIO, Any
from BaseClasses import MultiWorld, Item, CollectionState, Location
from Options import Option
class AutoWorldRegister(type):
world_types: Dict[str, World] = {}
def __new__(cls, name: str, bases, dct: Dict[str, Any]):
# filter out any events
dct["item_name_to_id"] = {name: id for name, id in dct["item_name_to_id"].items() if id}
dct["location_name_to_id"] = {name: id for name, id in dct["location_name_to_id"].items() if id}
# build reverse lookups
dct["item_id_to_name"] = {code: name for name, code in dct["item_name_to_id"].items()}
dct["location_id_to_name"] = {code: name for name, code in dct["location_name_to_id"].items()}
# build rest
dct["item_names"] = frozenset(dct["item_name_to_id"])
dct["location_names"] = frozenset(dct["location_name_to_id"])
dct["all_item_and_group_names"] = frozenset(dct["item_names"] | set(dct.get("item_name_groups", {})))
# construct class
new_class = super().__new__(cls, name, bases, dct)
if "game" in dct:
AutoWorldRegister.world_types[dct["game"]] = new_class
return new_class
class AutoLogicRegister(type):
def __new__(cls, name, bases, dct):
new_class = super().__new__(cls, name, bases, dct)
for item_name, function in dct.items():
if not item_name.startswith("__"):
if hasattr(CollectionState, item_name):
raise Exception(f"Name conflict on Logic Mixin {name} trying to overwrite {item_name}")
setattr(CollectionState, item_name, function)
return new_class
def call_single(world: MultiWorld, method_name: str, player: int, *args):
method = getattr(world.worlds[player], method_name)
return method(*args)
def call_all(world: MultiWorld, method_name: str, *args):
world_types = set()
for player in world.player_ids:
world_types.add(world.worlds[player].__class__)
call_single(world, method_name, player, *args)
for world_type in world_types:
stage_callable = getattr(world_type, f"stage_{method_name}", None)
if stage_callable:
stage_callable(world, *args)
def call_stage(world: MultiWorld, method_name: str, *args):
world_types = {world.worlds[player].__class__ for player in world.player_ids}
for world_type in world_types:
stage_callable = getattr(world_type, f"stage_{method_name}", None)
if stage_callable:
stage_callable(world, *args)
class World(metaclass=AutoWorldRegister):
"""A World object encompasses a game's Items, Locations, Rules and additional data or functionality required.
A Game should have its own subclass of World in which it defines the required data structures."""
options: Dict[str, type(Option)] = {} # link your Options mapping
game: str # name the game
topology_present: bool = False # indicate if world type has any meaningful layout/pathing
all_item_and_group_names: Set[str] = frozenset() # gets automatically populated with all item and item group names
# map names to their IDs
item_name_to_id: Dict[str, int] = {}
location_name_to_id: Dict[str, int] = {}
# maps item group names to sets of items. Example: "Weapons" -> {"Sword", "Bow"}
item_name_groups: Dict[str, Set[str]] = {}
# increment this every time something in your world's names/id mappings changes.
# While this is set to 0 in *any* AutoWorld, the entire DataPackage is considered in testing mode and will be
# retrieved by clients on every connection.
data_version: int = 1
hint_blacklist: Set[str] = frozenset() # any names that should not be hintable
# if a world is set to remote_items, then it just needs to send location checks to the server and the server
# sends back the items
# if a world is set to remote_items = False, then the server never sends an item where receiver == finder,
# the client finds its own items in its own world.
remote_items: bool = True
# If remote_start_inventory is true, the start_inventory/world.precollected_items is sent on connection,
# otherwise the world implementation is in charge of writing the items to their output data.
remote_start_inventory: bool = True
# For games where after a victory it is impossible to go back in and get additional/remaining Locations checked.
# this forces forfeit: auto for those games.
forced_auto_forfeit: bool = False
# Hide World Type from various views. Does not remove functionality.
hidden: bool = False
# autoset on creation:
world: MultiWorld
player: int
# automatically generated
item_id_to_name: Dict[int, str]
location_id_to_name: Dict[int, str]
item_names: Set[str] # set of all potential item names
location_names: Set[str] # set of all potential location names
# If the game displays all contained items to the user, this flag pre-fills the hint system with this information
# For example the "full" tech tree information option in Factorio
sending_visible: bool = False
def __init__(self, world: MultiWorld, player: int):
self.world = world
self.player = player
# overridable methods that get called by Main.py, sorted by execution order
# can also be implemented as a classmethod and called "stage_<original_name>",
# in that case the MultiWorld object is passed as an argument and it gets called once for the entire multiworld.
# An example of this can be found in alttp as stage_pre_fill
def generate_early(self):
pass
def create_regions(self):
pass
def create_items(self):
pass
def set_rules(self):
pass
def generate_basic(self):
pass
def pre_fill(self):
"""Optional method that is supposed to be used for special fill stages. This is run *after* plando."""
pass
@classmethod
def fill_hook(cls, progitempool: List[Item], nonexcludeditempool: List[Item],
localrestitempool: Dict[int, List[Item]], nonlocalrestitempool: Dict[int, List[Item]],
restitempool: List[Item], fill_locations: List[Location]):
"""Special method that gets called as part of distribute_items_restrictive (main fill).
This gets called once per present world type."""
pass
def post_fill(self):
"""Optional Method that is called after regular fill. Can be used to do adjustments before output generation."""
def generate_output(self, output_directory: str):
"""This method gets called from a threadpool, do not use world.random here.
If you need any last-second randomization, use MultiWorld.slot_seeds[slot] instead."""
pass
def fill_slot_data(self) -> dict:
"""Fill in the slot_data field in the Connected network package."""
return {}
def modify_multidata(self, multidata: dict):
"""For deeper modification of server multidata."""
pass
def get_required_client_version(self) -> Tuple[int, int, int]:
return 0, 1, 6
# Spoiler writing is optional, these may not get called.
def write_spoiler_header(self, spoiler_handle: TextIO):
"""Write to the spoiler header. If individual it's right at the end of that player's options,
if as stage it's right under the common header before per-player options."""
pass
def write_spoiler(self, spoiler_handle: TextIO):
"""Write to the spoiler "middle", this is after the per-player options and before locations,
meant for useful or interesting info."""
pass
def write_spoiler_end(self, spoiler_handle: TextIO):
"""Write to the end of the spoiler"""
pass
# end of ordered Main.py calls
def collect_item(self, state: CollectionState, item: Item, remove: bool = False) -> Optional[str]:
"""Collect an item name into state. For speed reasons items that aren't logically useful get skipped.
Collect None to skip item.
:param remove: indicate if this is meant to remove from state instead of adding."""
if item.advancement:
return item.name
def create_item(self, name: str) -> Item:
"""Create an item for this world type and player.
Warning: this may be called with self.world = None, for example by MultiServer"""
raise NotImplementedError
# following methods should not need to be overridden.
def collect(self, state: CollectionState, item: Item) -> bool:
name = self.collect_item(state, item)
if name:
state.prog_items[name, item.player] += 1
return True
return False
def remove(self, state: CollectionState, item: Item) -> bool:
name = self.collect_item(state, item, True)
if name:
state.prog_items[name, item.player] -= 1
if state.prog_items[name, item.player] < 1:
del (state.prog_items[name, item.player])
return True
return False
# any methods attached to this can be used as part of CollectionState,
# please use a prefix as all of them get clobbered together
class LogicMixin(metaclass=AutoLogicRegister):
pass