import collections import concurrent.futures import logging import os import pickle import tempfile import time import zipfile import zlib from typing import Dict, List, Optional, Set, Tuple, Union import worlds from BaseClasses import CollectionState, Item, Location, LocationProgressType, MultiWorld, Region from Fill import balance_multiworld_progression, distribute_items_restrictive, distribute_planned, flood_items from Options import StartInventoryPool from settings import get_settings from Utils import __version__, output_path, version_tuple from worlds import AutoWorld from worlds.generic.Rules import exclusion_rules, locality_rules __all__ = ["main"] def main(args, seed=None, baked_server_options: Optional[Dict[str, object]] = None): if not baked_server_options: baked_server_options = get_settings().server_options.as_dict() assert isinstance(baked_server_options, dict) if args.outputpath: os.makedirs(args.outputpath, exist_ok=True) output_path.cached_path = args.outputpath start = time.perf_counter() # initialize the world world = MultiWorld(args.multi) logger = logging.getLogger() world.set_seed(seed, args.race, str(args.outputname) if args.outputname else None) world.plando_options = args.plando_options world.shuffle = args.shuffle.copy() world.logic = args.logic.copy() world.mode = args.mode.copy() world.difficulty = args.difficulty.copy() world.item_functionality = args.item_functionality.copy() world.timer = args.timer.copy() world.goal = args.goal.copy() world.boss_shuffle = args.shufflebosses.copy() world.enemy_health = args.enemy_health.copy() world.enemy_damage = args.enemy_damage.copy() world.beemizer_total_chance = args.beemizer_total_chance.copy() world.beemizer_trap_chance = args.beemizer_trap_chance.copy() world.countdown_start_time = args.countdown_start_time.copy() world.red_clock_time = args.red_clock_time.copy() world.blue_clock_time = args.blue_clock_time.copy() world.green_clock_time = args.green_clock_time.copy() world.dungeon_counters = args.dungeon_counters.copy() world.triforce_pieces_available = args.triforce_pieces_available.copy() world.triforce_pieces_required = args.triforce_pieces_required.copy() world.shop_shuffle = args.shop_shuffle.copy() world.shuffle_prizes = args.shuffle_prizes.copy() world.sprite_pool = args.sprite_pool.copy() world.dark_room_logic = args.dark_room_logic.copy() world.plando_items = args.plando_items.copy() world.plando_texts = args.plando_texts.copy() world.plando_connections = args.plando_connections.copy() world.required_medallions = args.required_medallions.copy() world.game = args.game.copy() world.player_name = args.name.copy() world.sprite = args.sprite.copy() world.glitch_triforce = args.glitch_triforce # This is enabled/disabled globally, no per player option. world.set_options(args) world.set_item_links() world.state = CollectionState(world) logger.info('Archipelago Version %s - Seed: %s\n', __version__, world.seed) logger.info(f"Found {len(AutoWorld.AutoWorldRegister.world_types)} World Types:") longest_name = max(len(text) for text in AutoWorld.AutoWorldRegister.world_types) max_item = 0 max_location = 0 for cls in AutoWorld.AutoWorldRegister.world_types.values(): if cls.item_id_to_name: max_item = max(max_item, max(cls.item_id_to_name)) max_location = max(max_location, max(cls.location_id_to_name)) item_digits = len(str(max_item)) location_digits = len(str(max_location)) item_count = len(str(max(len(cls.item_names) for cls in AutoWorld.AutoWorldRegister.world_types.values()))) location_count = len(str(max(len(cls.location_names) for cls in AutoWorld.AutoWorldRegister.world_types.values()))) del max_item, max_location for name, cls in AutoWorld.AutoWorldRegister.world_types.items(): if not cls.hidden and len(cls.item_names) > 0: logger.info(f" {name:{longest_name}}: {len(cls.item_names):{item_count}} " f"Items (IDs: {min(cls.item_id_to_name):{item_digits}} - " f"{max(cls.item_id_to_name):{item_digits}}) | " f"{len(cls.location_names):{location_count}} " f"Locations (IDs: {min(cls.location_id_to_name):{location_digits}} - " f"{max(cls.location_id_to_name):{location_digits}})") del item_digits, location_digits, item_count, location_count AutoWorld.call_stage(world, "assert_generate") AutoWorld.call_all(world, "generate_early") logger.info('') for player in world.player_ids: for item_name, count in world.start_inventory[player].value.items(): for _ in range(count): world.push_precollected(world.create_item(item_name, player)) for item_name, count in world.start_inventory_from_pool.setdefault(player, StartInventoryPool({})).value.items(): for _ in range(count): world.push_precollected(world.create_item(item_name, player)) logger.info('Creating World.') AutoWorld.call_all(world, "create_regions") logger.info('Creating Items.') AutoWorld.call_all(world, "create_items") # All worlds should have finished creating all regions, locations, and entrances. # Recache to ensure that they are all visible for locality rules. world._recache() logger.info('Calculating Access Rules.') for player in world.player_ids: # items can't be both local and non-local, prefer local world.non_local_items[player].value -= world.local_items[player].value world.non_local_items[player].value -= set(world.local_early_items[player]) if world.players > 1: locality_rules(world) else: world.non_local_items[1].value = set() world.local_items[1].value = set() AutoWorld.call_all(world, "set_rules") for player in world.player_ids: exclusion_rules(world, player, world.exclude_locations[player].value) world.priority_locations[player].value -= world.exclude_locations[player].value for location_name in world.priority_locations[player].value: world.get_location(location_name, player).progress_type = LocationProgressType.PRIORITY AutoWorld.call_all(world, "generate_basic") # remove starting inventory from pool items. # Because some worlds don't actually create items during create_items this has to be as late as possible. if any(world.start_inventory_from_pool[player].value for player in world.player_ids): new_items: List[Item] = [] depletion_pool: Dict[int, Dict[str, int]] = { player: world.start_inventory_from_pool[player].value.copy() for player in world.player_ids} for player, items in depletion_pool.items(): player_world: AutoWorld.World = world.worlds[player] for count in items.values(): new_items.append(player_world.create_filler()) target: int = sum(sum(items.values()) for items in depletion_pool.values()) for i, item in enumerate(world.itempool): if depletion_pool[item.player].get(item.name, 0): target -= 1 depletion_pool[item.player][item.name] -= 1 # quick abort if we have found all items if not target: new_items.extend(world.itempool[i+1:]) break else: new_items.append(item) # leftovers? if target: for player, remaining_items in depletion_pool.items(): remaining_items = {name: count for name, count in remaining_items.items() if count} if remaining_items: raise Exception(f"{world.get_player_name(player)}" f" is trying to remove items from their pool that don't exist: {remaining_items}") world.itempool[:] = new_items # temporary home for item links, should be moved out of Main for group_id, group in world.groups.items(): def find_common_pool(players: Set[int], shared_pool: Set[str]) -> Tuple[ Optional[Dict[int, Dict[str, int]]], Optional[Dict[str, int]] ]: classifications: Dict[str, int] = collections.defaultdict(int) counters = {player: {name: 0 for name in shared_pool} for player in players} for item in world.itempool: if item.player in counters and item.name in shared_pool: counters[item.player][item.name] += 1 classifications[item.name] |= item.classification for player in players.copy(): if all([counters[player][item] == 0 for item in shared_pool]): players.remove(player) del (counters[player]) if not players: return None, None for item in shared_pool: count = min(counters[player][item] for player in players) if count: for player in players: counters[player][item] = count else: for player in players: del (counters[player][item]) return counters, classifications common_item_count, classifications = find_common_pool(group["players"], group["item_pool"]) if not common_item_count: continue new_itempool: List[Item] = [] for item_name, item_count in next(iter(common_item_count.values())).items(): for _ in range(item_count): new_item = group["world"].create_item(item_name) # mangle together all original classification bits new_item.classification |= classifications[item_name] new_itempool.append(new_item) region = Region("Menu", group_id, world, "ItemLink") world.regions.append(region) locations = region.locations = [] for item in world.itempool: count = common_item_count.get(item.player, {}).get(item.name, 0) if count: loc = Location(group_id, f"Item Link: {item.name} -> {world.player_name[item.player]} {count}", None, region) loc.access_rule = lambda state, item_name = item.name, group_id_ = group_id, count_ = count: \ state.has(item_name, group_id_, count_) locations.append(loc) loc.place_locked_item(item) common_item_count[item.player][item.name] -= 1 else: new_itempool.append(item) itemcount = len(world.itempool) world.itempool = new_itempool while itemcount > len(world.itempool): items_to_add = [] for player in group["players"]: if group["link_replacement"]: item_player = group_id else: item_player = player if group["replacement_items"][player]: items_to_add.append(AutoWorld.call_single(world, "create_item", item_player, group["replacement_items"][player])) else: items_to_add.append(AutoWorld.call_single(world, "create_filler", item_player)) world.random.shuffle(items_to_add) world.itempool.extend(items_to_add[:itemcount - len(world.itempool)]) if any(world.item_links.values()): world._recache() world._all_state = None logger.info("Running Item Plando") distribute_planned(world) logger.info('Running Pre Main Fill.') AutoWorld.call_all(world, "pre_fill") logger.info(f'Filling the world with {len(world.itempool)} items.') if world.algorithm == 'flood': flood_items(world) # different algo, biased towards early game progress items elif world.algorithm == 'balanced': distribute_items_restrictive(world) AutoWorld.call_all(world, 'post_fill') if world.players > 1 and not args.skip_prog_balancing: balance_multiworld_progression(world) else: logger.info("Progression balancing skipped.") logger.info(f'Beginning output...') # we're about to output using multithreading, so we're removing the global random state to prevent accidental use world.random.passthrough = False outfilebase = 'AP_' + world.seed_name output = tempfile.TemporaryDirectory() with output as temp_dir: with concurrent.futures.ThreadPoolExecutor(world.players + 2) as pool: check_accessibility_task = pool.submit(world.fulfills_accessibility) output_file_futures = [pool.submit(AutoWorld.call_stage, world, "generate_output", temp_dir)] for player in world.player_ids: # skip starting a thread for methods that say "pass". if AutoWorld.World.generate_output.__code__ is not world.worlds[player].generate_output.__code__: output_file_futures.append( pool.submit(AutoWorld.call_single, world, "generate_output", player, temp_dir)) # collect ER hint info er_hint_data: Dict[int, Dict[int, str]] = {} AutoWorld.call_all(world, 'extend_hint_information', er_hint_data) def write_multidata(): import NetUtils slot_data = {} client_versions = {} games = {} minimum_versions = {"server": AutoWorld.World.required_server_version, "clients": client_versions} slot_info = {} names = [[name for player, name in sorted(world.player_name.items())]] for slot in world.player_ids: player_world: AutoWorld.World = world.worlds[slot] minimum_versions["server"] = max(minimum_versions["server"], player_world.required_server_version) client_versions[slot] = player_world.required_client_version games[slot] = world.game[slot] slot_info[slot] = NetUtils.NetworkSlot(names[0][slot - 1], world.game[slot], world.player_types[slot]) for slot, group in world.groups.items(): games[slot] = world.game[slot] slot_info[slot] = NetUtils.NetworkSlot(group["name"], world.game[slot], world.player_types[slot], group_members=sorted(group["players"])) precollected_items = {player: [item.code for item in world_precollected if type(item.code) == int] for player, world_precollected in world.precollected_items.items()} precollected_hints = {player: set() for player in range(1, world.players + 1 + len(world.groups))} for slot in world.player_ids: slot_data[slot] = world.worlds[slot].fill_slot_data() def precollect_hint(location): entrance = er_hint_data.get(location.player, {}).get(location.address, "") hint = NetUtils.Hint(location.item.player, location.player, location.address, location.item.code, False, entrance, location.item.flags) precollected_hints[location.player].add(hint) if location.item.player not in world.groups: precollected_hints[location.item.player].add(hint) else: for player in world.groups[location.item.player]["players"]: precollected_hints[player].add(hint) locations_data: Dict[int, Dict[int, Tuple[int, int, int]]] = {player: {} for player in world.player_ids} for location in world.get_filled_locations(): if type(location.address) == int: assert location.item.code is not None, "item code None should be event, " \ "location.address should then also be None. Location: " \ f" {location}" locations_data[location.player][location.address] = \ location.item.code, location.item.player, location.item.flags if location.name in world.start_location_hints[location.player]: precollect_hint(location) elif location.item.name in world.start_hints[location.item.player]: precollect_hint(location) elif any([location.item.name in world.start_hints[player] for player in world.groups.get(location.item.player, {}).get("players", [])]): precollect_hint(location) # embedded data package data_package = { game_world.game: worlds.network_data_package["games"][game_world.game] for game_world in world.worlds.values() } checks_in_area: Dict[int, Dict[str, Union[int, List[int]]]] = {} multidata = { "slot_data": slot_data, "slot_info": slot_info, "connect_names": {name: (0, player) for player, name in world.player_name.items()}, "locations": locations_data, "checks_in_area": checks_in_area, "server_options": baked_server_options, "er_hint_data": er_hint_data, "precollected_items": precollected_items, "precollected_hints": precollected_hints, "version": tuple(version_tuple), "tags": ["AP"], "minimum_versions": minimum_versions, "seed_name": world.seed_name, "datapackage": data_package, } AutoWorld.call_all(world, "modify_multidata", multidata) multidata = zlib.compress(pickle.dumps(multidata), 9) with open(os.path.join(temp_dir, f'{outfilebase}.archipelago'), 'wb') as f: f.write(bytes([3])) # version of format f.write(multidata) multidata_task = pool.submit(write_multidata) if not check_accessibility_task.result(): if not world.can_beat_game(): raise Exception("Game appears as unbeatable. Aborting.") else: logger.warning("Location Accessibility requirements not fulfilled.") # retrieve exceptions via .result() if they occurred. multidata_task.result() for i, future in enumerate(concurrent.futures.as_completed(output_file_futures), start=1): if i % 10 == 0 or i == len(output_file_futures): logger.info(f'Generating output files ({i}/{len(output_file_futures)}).') future.result() if args.spoiler > 1: logger.info('Calculating playthrough.') world.spoiler.create_playthrough(create_paths=args.spoiler > 2) if args.spoiler: world.spoiler.to_file(os.path.join(temp_dir, '%s_Spoiler.txt' % outfilebase)) zipfilename = output_path(f"AP_{world.seed_name}.zip") logger.info(f"Creating final archive at {zipfilename}") with zipfile.ZipFile(zipfilename, mode="w", compression=zipfile.ZIP_DEFLATED, compresslevel=9) as zf: for file in os.scandir(temp_dir): zf.write(file.path, arcname=file.name) logger.info('Done. Enjoy. Total Time: %s', time.perf_counter() - start) return world