alttpr-python/Main.py

from collections import OrderedDict
import copy
from itertools import zip_longest
import json
import logging
import os
import random
import time
import zlib

from BaseClasses import World, CollectionState, Item, Region, Location, Shop
from Items import ItemFactory
from KeyDoorShuffle import validate_key_placement
from Regions import create_regions, create_shops, mark_light_world_regions, create_dungeon_regions
from InvertedRegions import create_inverted_regions, mark_dark_world_regions
from EntranceShuffle import link_entrances, link_inverted_entrances
from Rom import patch_rom, patch_race_rom, patch_enemizer, apply_rom_settings, LocalRom, JsonRom, get_hash_string
from Doors import create_doors
from DoorShuffle import link_doors
from RoomData import create_rooms
from Rules import set_rules
from Dungeons import create_dungeons, fill_dungeons, fill_dungeons_restrictive
from Fill import distribute_items_cutoff, distribute_items_staleness, distribute_items_restrictive, flood_items, balance_multiworld_progression
from ItemList import generate_itempool, difficulties, fill_prizes
from Utils import output_path, parse_player_names

__version__ = '0.1.0.5-u'

class EnemizerError(RuntimeError):
    pass


def main(args, seed=None, fish=None):
    if args.outputpath:
        os.makedirs(args.outputpath, exist_ok=True)
        output_path.cached_path = args.outputpath

    start = time.perf_counter()

    # initialize the world
    world = World(args.multi, args.shuffle, args.door_shuffle, args.logic, args.mode, args.swords, args.difficulty, args.item_functionality, args.timer, args.progressive, args.goal, args.algorithm, args.accessibility, args.shuffleganon, args.retro, args.custom, args.customitemarray, args.hints)
    logger = logging.getLogger('')
    if seed is None:
        random.seed(None)
        world.seed = random.randint(0, 999999999)
    else:
        world.seed = int(seed)
    random.seed(world.seed)

    world.remote_items = args.remote_items.copy()
    world.mapshuffle = args.mapshuffle.copy()
    world.compassshuffle = args.compassshuffle.copy()
    world.keyshuffle = args.keyshuffle.copy()
    world.bigkeyshuffle = args.bigkeyshuffle.copy()
    world.crystals_needed_for_ganon = {player: random.randint(0, 7) if args.crystals_ganon[player] == 'random' else int(args.crystals_ganon[player]) for player in range(1, world.players + 1)}
    world.crystals_needed_for_gt = {player: random.randint(0, 7) if args.crystals_gt[player] == 'random' else int(args.crystals_gt[player]) for player in range(1, world.players + 1)}
    world.open_pyramid = args.openpyramid.copy()
    world.boss_shuffle = args.shufflebosses.copy()
    world.enemy_shuffle = args.shuffleenemies.copy()
    world.enemy_health = args.enemy_health.copy()
    world.enemy_damage = args.enemy_damage.copy()
    world.beemizer = args.beemizer.copy()
    world.experimental = args.experimental.copy()
    world.dungeon_counters = args.dungeon_counters.copy()
    world.fish = fish

    world.rom_seeds = {player: random.randint(0, 999999999) for player in range(1, world.players + 1)}

    logger.info(
      world.fish.translate("cli","cli","app.title") + "\n",
      __version__,
      world.seed
    )

    parsed_names = parse_player_names(args.names, world.players, args.teams)
    world.teams = len(parsed_names)
    for i, team in enumerate(parsed_names, 1):
        if world.players > 1:
            logger.info('%s%s', 'Team%d: ' % i if world.teams > 1 else 'Players: ', ', '.join(team))
        for player, name in enumerate(team, 1):
            world.player_names[player].append(name)
    logger.info('')

    for player in range(1, world.players + 1):
        world.difficulty_requirements[player] = difficulties[world.difficulty[player]]

        if world.mode[player] == 'standard' and world.enemy_shuffle[player] != 'none':
            if hasattr(world,"escape_assist") and player in world.escape_assist:
                world.escape_assist[player].append('bombs') # enemized escape assumes infinite bombs available and will likely be unbeatable without it

        for tok in filter(None, args.startinventory[player].split(',')):
            item = ItemFactory(tok.strip(), player)
            if item:
                world.push_precollected(item)

        if world.mode[player] != 'inverted':
            create_regions(world, player)
        else:
            create_inverted_regions(world, player)
        create_dungeon_regions(world, player)
        create_shops(world, player)
        create_doors(world, player)
        create_rooms(world, player)
        create_dungeons(world, player)

    logger.info(world.fish.translate("cli","cli","shuffling.world"))

    for player in range(1, world.players + 1):
        if world.mode[player] != 'inverted':
            link_entrances(world, player)
        else:
            link_inverted_entrances(world, player)

    logger.info(world.fish.translate("cli","cli","shuffling.dungeons"))

    for player in range(1, world.players + 1):
        link_doors(world, player)
        if world.mode[player] != 'inverted':
            mark_light_world_regions(world, player)
        else:
            mark_dark_world_regions(world, player)
    logger.info(world.fish.translate("cli","cli","generating.itempool"))

    for player in range(1, world.players + 1):
        generate_itempool(world, player)

    logger.info(world.fish.translate("cli","cli","calc.access.rules"))

    for player in range(1, world.players + 1):
        set_rules(world, player)

    logger.info(world.fish.translate("cli","cli","placing.dungeon.prizes"))

    fill_prizes(world)

    logger.info(world.fish.translate("cli","cli","placing.dungeon.items"))

    shuffled_locations = None
    if args.algorithm in ['balanced', 'vt26'] or any(list(args.mapshuffle.values()) + list(args.compassshuffle.values()) +
                                                     list(args.keyshuffle.values()) + list(args.bigkeyshuffle.values())):
        shuffled_locations = world.get_unfilled_locations()
        random.shuffle(shuffled_locations)
        fill_dungeons_restrictive(world, shuffled_locations)
    else:
        fill_dungeons(world)

    for player in range(1, world.players+1):
        if world.logic[player] != 'nologic':
            for key_layout in world.key_layout[player].values():
                if not validate_key_placement(key_layout, world, player):
                    raise RuntimeError(
                      "%s: %s (%s %d)" %
                      (
                        world.fish.translate("cli", "cli", "keylock.detected"),
                        key_layout.sector.name,
                        world.fish.translate("cli", "cli", "player"),
                        player
                      )
                    )

    logger.info(world.fish.translate("cli","cli","fill.world"))

    if args.algorithm == 'flood':
        flood_items(world)  # different algo, biased towards early game progress items
    elif args.algorithm == 'vt21':
        distribute_items_cutoff(world, 1)
    elif args.algorithm == 'vt22':
        distribute_items_cutoff(world, 0.66)
    elif args.algorithm == 'freshness':
        distribute_items_staleness(world)
    elif args.algorithm == 'vt25':
        distribute_items_restrictive(world, False)
    elif args.algorithm == 'vt26':

        distribute_items_restrictive(world, True, shuffled_locations)
    elif args.algorithm == 'balanced':
        distribute_items_restrictive(world, True)

    if world.players > 1:
        logger.info(world.fish.translate("cli","cli","balance.multiworld"))
        balance_multiworld_progression(world)

    # if we only check for beatable, we can do this sanity check first before creating the rom
    if not world.can_beat_game():
        raise RuntimeError(world.fish.translate("cli","cli","cannot.beat.game"))

    outfilebase = 'DR_%s' % (args.outputname if args.outputname else world.seed)

    rom_names = []
    jsonout = {}
    enemized = False
    if not args.suppress_rom:
        logger.info(world.fish.translate("cli","cli","patching.rom"))
        for team in range(world.teams):
            for player in range(1, world.players + 1):
                sprite_random_on_hit = type(args.sprite[player]) is str and args.sprite[player].lower() == 'randomonhit'
                use_enemizer = (world.boss_shuffle[player] != 'none' or world.enemy_shuffle[player] != 'none'
                                or world.enemy_health[player] != 'default' or world.enemy_damage[player] != 'default'
                                or args.shufflepots[player] or sprite_random_on_hit)

                rom = JsonRom() if args.jsonout or use_enemizer else LocalRom(args.rom)

                if use_enemizer and (args.enemizercli or not args.jsonout):
                    if args.rom and not(os.path.isfile(args.rom)):
                        raise RuntimeError("Could not find valid base rom for enemizing at expected path %s." % args.rom)
                    if os.path.exists(args.enemizercli):
                        patch_enemizer(world, player, rom, args.rom, args.enemizercli, args.shufflepots[player], sprite_random_on_hit)
                        enemized = True
                        if not args.jsonout:
                            rom = LocalRom.fromJsonRom(rom, args.rom, 0x400000)
                    else:
                        enemizerMsg  = world.fish.translate("cli","cli","enemizer.not.found") + ': ' + args.enemizercli + "\n"
                        enemizerMsg += world.fish.translate("cli","cli","enemizer.nothing.applied")
                        logging.warning(enemizerMsg)
                        raise EnemizerError(enemizerMsg)

                patch_rom(world, rom, player, team, enemized)

                if args.race:
                    patch_race_rom(rom)

                rom_names.append((player, team, list(rom.name)))
                world.spoiler.hashes[(player, team)] = get_hash_string(rom.hash)

                apply_rom_settings(rom, args.heartbeep[player], args.heartcolor[player], args.quickswap[player], args.fastmenu[player], args.disablemusic[player], args.sprite[player], args.ow_palettes[player], args.uw_palettes[player])

                if args.jsonout:
                    jsonout[f'patch_t{team}_p{player}'] = rom.patches
                else:
                    mcsb_name = ''
                    if all([world.mapshuffle[player], world.compassshuffle[player], world.keyshuffle[player], world.bigkeyshuffle[player]]):
                        mcsb_name = '-keysanity'
                    elif [world.mapshuffle[player], world.compassshuffle[player], world.keyshuffle[player], world.bigkeyshuffle[player]].count(True) == 1:
                        mcsb_name = '-mapshuffle' if world.mapshuffle[player] else '-compassshuffle' if world.compassshuffle[player] else '-keyshuffle' if world.keyshuffle[player] else '-bigkeyshuffle'
                    elif any([world.mapshuffle[player], world.compassshuffle[player], world.keyshuffle[player], world.bigkeyshuffle[player]]):
                        mcsb_name = '-%s%s%s%sshuffle' % (
                        'M' if world.mapshuffle[player] else '', 'C' if world.compassshuffle[player] else '',
                        'S' if world.keyshuffle[player] else '', 'B' if world.bigkeyshuffle[player] else '')

                    outfilepname = f'_T{team+1}' if world.teams > 1 else ''
                    if world.players > 1:
                        outfilepname += f'_P{player}'
                    if world.players > 1 or world.teams > 1:
                        outfilepname += f"_{world.player_names[player][team].replace(' ', '_')}" if world.player_names[player][team] != 'Player %d' % player else ''
                    outfilestuffs = {
                      "logic": world.logic[player],                                   # 0
                      "difficulty": world.difficulty[player],                         # 1
                      "difficulty_adjustments": world.difficulty_adjustments[player], # 2
                      "mode": world.mode[player],                                     # 3
                      "goal": world.goal[player],                                     # 4
                      "timer": str(world.timer),                                      # 5
                      "shuffle": world.shuffle[player],                               # 6
                      "doorShuffle": world.doorShuffle[player],                       # 7
                      "algorithm": world.algorithm,                                   # 8
                      "mscb": mcsb_name,                                              # 9
                      "retro": world.retro[player],                                   # A
                      "progressive": world.progressive,                               # B
                      "hints": 'True' if world.hints[player] else 'False'             # C
                    }
                    #                  0  1  2  3  4 5  6  7  8 9 A B C
                    outfilesuffix = ('_%s_%s-%s-%s-%s%s_%s_%s-%s%s%s%s%s' % (
                      #  0          1      2      3    4     5    6      7     8        9         A     B           C
                      # _noglitches_normal-normal-open-ganon-ohko_simple_basic-balanced-keysanity-retro-prog_swords-nohints
                      # _noglitches_normal-normal-open-ganon     _simple_basic-balanced-keysanity-retro
                      # _noglitches_normal-normal-open-ganon     _simple_basic-balanced-keysanity      -prog_swords
                      # _noglitches_normal-normal-open-ganon     _simple_basic-balanced-keysanity                  -nohints
                      outfilestuffs["logic"], # 0

                      outfilestuffs["difficulty"],             # 1
                      outfilestuffs["difficulty_adjustments"], # 2
                      outfilestuffs["mode"],                   # 3
                      outfilestuffs["goal"],                   # 4
                      "" if outfilestuffs["timer"] in ['False', 'none', 'display'] else "-" + outfilestuffs["timer"], # 5

                      outfilestuffs["shuffle"],     # 6
                      outfilestuffs["doorShuffle"], # 7
                      outfilestuffs["algorithm"],   # 8
                      outfilestuffs["mscb"],        # 9

                      "-retro" if outfilestuffs["retro"] == "True" else "", # A
                      "-prog_" + outfilestuffs["progressive"] if outfilestuffs["progressive"] in ['off', 'random'] else "", # B
                      "-nohints" if not outfilestuffs["hints"] == "True" else "")) if not args.outputname else '' # C
                    rom.write_to_file(output_path(f'{outfilebase}{outfilepname}{outfilesuffix}.sfc'))

        if world.players > 1:
            multidata = zlib.compress(json.dumps({"names": parsed_names,
                                                  "roms": rom_names,
                                                  "remote_items": [player for player in range(1, world.players + 1) if world.remote_items[player]],
                                                  "locations": [((location.address, location.player), (location.item.code, location.item.player))
                                                                for location in world.get_filled_locations() if type(location.address) is int]
                                                  }).encode("utf-8"))
            if args.jsonout:
                jsonout["multidata"] = list(multidata)
            else:
                with open(output_path('%s_multidata' % outfilebase), 'wb') as f:
                    f.write(multidata)

    if not args.skip_playthrough:
        logger.info(world.fish.translate("cli","cli","calc.playthrough"))
        create_playthrough(world)

    if args.jsonout:
        print(json.dumps({**jsonout, 'spoiler': world.spoiler.to_json()}))
    elif args.create_spoiler:
        logger.info(world.fish.translate("cli","cli","patching.spoiler"))
        if args.jsonout:
            with open(output_path('%s_Spoiler.json' % outfilebase), 'w') as outfile:
              outfile.write(world.spoiler.to_json())
        else:
            world.spoiler.to_file(output_path('%s_Spoiler.txt' % outfilebase))

    YES = world.fish.translate("cli","cli","yes")
    NO = world.fish.translate("cli","cli","no")
    logger.info("")
    logger.info(world.fish.translate("cli","cli","done"))
    logger.info("")
    logger.info(world.fish.translate("cli","cli","made.rom") % (YES if (args.create_rom) else NO))
    logger.info(world.fish.translate("cli","cli","made.playthrough") % (YES if (args.calc_playthrough) else NO))
    logger.info(world.fish.translate("cli","cli","made.spoiler") % (YES if (not args.jsonout and args.create_spoiler) else NO))
    logger.info(world.fish.translate("cli","cli","used.enemizer") % (YES if enemized else NO))
    logger.info(world.fish.translate("cli","cli","seed") + ": %d", world.seed)
    logger.info(world.fish.translate("cli","cli","total.time"), time.perf_counter() - start)

#    print_wiki_doors_by_room(dungeon_regions,world,1)
#    print_wiki_doors_by_region(dungeon_regions,world,1)

    return world

def copy_world(world):
    # ToDo: Not good yet
    ret = World(world.players, world.shuffle, world.doorShuffle, world.logic, world.mode, world.swords, world.difficulty, world.difficulty_adjustments, world.timer, world.progressive, world.goal, world.algorithm, world.accessibility, world.shuffle_ganon, world.retro, world.custom, world.customitemarray, world.hints)
    ret.teams = world.teams
    ret.player_names = copy.deepcopy(world.player_names)
    ret.remote_items = world.remote_items.copy()
    ret.required_medallions = world.required_medallions.copy()
    ret.swamp_patch_required = world.swamp_patch_required.copy()
    ret.ganon_at_pyramid = world.ganon_at_pyramid.copy()
    ret.powder_patch_required = world.powder_patch_required.copy()
    ret.ganonstower_vanilla = world.ganonstower_vanilla.copy()
    ret.treasure_hunt_count = world.treasure_hunt_count.copy()
    ret.treasure_hunt_icon = world.treasure_hunt_icon.copy()
    ret.sewer_light_cone = world.sewer_light_cone.copy()
    ret.light_world_light_cone = world.light_world_light_cone
    ret.dark_world_light_cone = world.dark_world_light_cone
    ret.seed = world.seed
    ret.can_access_trock_eyebridge = world.can_access_trock_eyebridge.copy()
    ret.can_access_trock_front = world.can_access_trock_front.copy()
    ret.can_access_trock_big_chest = world.can_access_trock_big_chest.copy()
    ret.can_access_trock_middle = world.can_access_trock_middle.copy()
    ret.can_take_damage = world.can_take_damage
    ret.difficulty_requirements = world.difficulty_requirements.copy()
    ret.fix_fake_world = world.fix_fake_world.copy()
    ret.lamps_needed_for_dark_rooms = world.lamps_needed_for_dark_rooms
    ret.mapshuffle = world.mapshuffle.copy()
    ret.compassshuffle = world.compassshuffle.copy()
    ret.keyshuffle = world.keyshuffle.copy()
    ret.bigkeyshuffle = world.bigkeyshuffle.copy()
    ret.crystals_needed_for_ganon = world.crystals_needed_for_ganon.copy()
    ret.crystals_needed_for_gt = world.crystals_needed_for_gt.copy()
    ret.open_pyramid = world.open_pyramid.copy()
    ret.boss_shuffle = world.boss_shuffle.copy()
    ret.enemy_shuffle = world.enemy_shuffle.copy()
    ret.enemy_health = world.enemy_health.copy()
    ret.enemy_damage = world.enemy_damage.copy()
    ret.beemizer = world.beemizer.copy()

    for player in range(1, world.players + 1):
        if world.mode[player] != 'inverted':
            create_regions(ret, player)
        else:
            create_inverted_regions(ret, player)
        create_dungeon_regions(ret, player)
        create_shops(ret, player)
        create_doors(ret, player)
        create_rooms(ret, player)
        create_dungeons(ret, player)

    copy_dynamic_regions_and_locations(world, ret)

    # copy bosses
    for dungeon in world.dungeons:
        for level, boss in dungeon.bosses.items():
            ret.get_dungeon(dungeon.name, dungeon.player).bosses[level] = boss

    for shop in world.shops:
        copied_shop = ret.get_region(shop.region.name, shop.region.player).shop
        copied_shop.inventory = copy.copy(shop.inventory)

    # connect copied world
    for region in world.regions:
        copied_region = ret.get_region(region.name, region.player)
        copied_region.is_light_world = region.is_light_world
        copied_region.is_dark_world = region.is_dark_world
        for entrance in region.entrances:
            ret.get_entrance(entrance.name, entrance.player).connect(copied_region)

    # fill locations
    for location in world.get_locations():
        if location.item is not None:
            item = Item(location.item.name, location.item.advancement, location.item.priority, location.item.type, player = location.item.player)
            ret.get_location(location.name, location.player).item = item
            item.location = ret.get_location(location.name, location.player)
            item.world = ret
        if location.event:
            ret.get_location(location.name, location.player).event = True
        if location.locked:
            ret.get_location(location.name, location.player).locked = True

    # copy remaining itempool. No item in itempool should have an assigned location
    for item in world.itempool:
        ret.itempool.append(Item(item.name, item.advancement, item.priority, item.type, player = item.player))

    for item in world.precollected_items:
        ret.push_precollected(ItemFactory(item.name, item.player))

    # copy progress items in state
    ret.state.prog_items = world.state.prog_items.copy()
    ret.state.stale = {player: True for player in range(1, world.players + 1)}

    ret.doors = world.doors
    ret.paired_doors = world.paired_doors
    ret.rooms = world.rooms
    ret.inaccessible_regions = world.inaccessible_regions
    ret.dungeon_layouts = world.dungeon_layouts
    ret.key_logic = world.key_logic

    for player in range(1, world.players + 1):
        set_rules(ret, player)

    return ret

def copy_dynamic_regions_and_locations(world, ret):
    for region in world.dynamic_regions:
        new_reg = Region(region.name, region.type, region.hint_text, region.player)
        ret.regions.append(new_reg)
        ret.initialize_regions([new_reg])
        ret.dynamic_regions.append(new_reg)

        # Note: ideally exits should be copied here, but the current use case (Take anys) do not require this

        if region.shop:
            new_reg.shop = Shop(new_reg, region.shop.room_id, region.shop.type, region.shop.shopkeeper_config, region.shop.custom, region.shop.locked)
            ret.shops.append(new_reg.shop)

    for location in world.dynamic_locations:
        new_reg = ret.get_region(location.parent_region.name, location.parent_region.player)
        new_loc = Location(location.player, location.name, location.address, location.crystal, location.hint_text, new_reg)
        # todo: this is potentially dangerous. later refactor so we
        # can apply dynamic region rules on top of copied world like other rules
        new_loc.access_rule = location.access_rule
        new_loc.always_allow = location.always_allow
        new_loc.item_rule = location.item_rule
        new_reg.locations.append(new_loc)

        ret.clear_location_cache()


def create_playthrough(world):
    # create a copy as we will modify it
    old_world = world
    world = copy_world(world)

    # get locations containing progress items
    prog_locations = [location for location in world.get_filled_locations() if location.item.advancement]
    state_cache = [None]
    collection_spheres = []
    state = CollectionState(world)
    sphere_candidates = list(prog_locations)
    logging.getLogger('').debug(world.fish.translate("cli","cli","building.collection.spheres"))
    while sphere_candidates:
        state.sweep_for_events(key_only=True)
        state.sweep_for_crystal_access()

        sphere = []
        # 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 sphere_candidates:
            if state.can_reach(location) and state.not_flooding_a_key(world, location):
                sphere.append(location)

        for location in sphere:
            sphere_candidates.remove(location)
            state.collect(location.item, True, location)

        collection_spheres.append(sphere)

        state_cache.append(state.copy())

        logging.getLogger('').debug(world.fish.translate("cli","cli","building.calculating.spheres"), len(collection_spheres), len(sphere), len(prog_locations))
        if not sphere:
            logging.getLogger('').debug(world.fish.translate("cli","cli","cannot.reach.items"), [world.fish.translate("cli","cli","cannot.reach.item") % (location.item.name, location.item.player, location.name, location.player) for location in sphere_candidates])
            if any([world.accessibility[location.item.player] != 'none' for location in sphere_candidates]):
                raise RuntimeError(world.fish.translate("cli","cli","cannot.reach.progression"))
            else:
                old_world.spoiler.unreachables = sphere_candidates.copy()
                break

    # in the second phase, we cull each sphere such that the game is still beatable, reducing each range of influence to the bare minimum required inside it
    for num, sphere in reversed(list(enumerate(collection_spheres))):
        to_delete = []
        for location in sphere:
            # we remove the item at location and check if game is still beatable
            logging.getLogger('').debug('Checking if %s (Player %d) is required to beat the game.', location.item.name, location.item.player)
            old_item = location.item
            location.item = None
            if world.can_beat_game(state_cache[num]):
                to_delete.append(location)
            else:
                # still required, got to keep it around
                location.item = old_item

        # cull entries in spheres for spoiler walkthrough at end
        for location in to_delete:
            sphere.remove(location)

    # second phase, sphere 0
    for item in [i for i in world.precollected_items if i.advancement]:
        logging.getLogger('').debug('Checking if %s (Player %d) is required to beat the game.', item.name, item.player)
        world.precollected_items.remove(item)
        world.state.remove(item)
        if not world.can_beat_game():
            world.push_precollected(item)

    # we are now down to just the required progress items in collection_spheres. Unfortunately
    # the previous pruning stage could potentially have made certain items dependant on others
    # in the same or later sphere (because the location had 2 ways to access but the item originally
    # used to access it was deemed not required.) So we need to do one final sphere collection pass
    # to build up the correct spheres

    required_locations = [item for sphere in collection_spheres for item in sphere]
    state = CollectionState(world)
    collection_spheres = []
    while required_locations:
        state.sweep_for_events(key_only=True)
        state.sweep_for_crystal_access()

        sphere = list(filter(lambda loc: state.can_reach(loc) and state.not_flooding_a_key(world, loc), required_locations))

        for location in sphere:
            required_locations.remove(location)
            state.collect(location.item, True, location)

        collection_spheres.append(sphere)

        logging.getLogger('').debug(world.fish.translate("cli","cli","building.final.spheres"), len(collection_spheres), len(sphere), len(required_locations))
        if not sphere:
            raise RuntimeError(world.fish.translate("cli","cli","cannot.reach.required"))

    # store the required locations for statistical analysis
    old_world.required_locations = [(location.name, location.player) for sphere in collection_spheres for location in sphere]

    def flist_to_iter(node):
        while node:
            value, node = node
            yield value

    def get_path(state, region):
        reversed_path_as_flist = state.path.get(region, (region, None))
        string_path_flat = reversed(list(map(str, flist_to_iter(reversed_path_as_flist))))
        # Now we combine the flat string list into (region, exit) pairs
        pathsiter = iter(string_path_flat)
        pathpairs = zip_longest(pathsiter, pathsiter)
        return list(pathpairs)

    old_world.spoiler.paths = dict()
    for player in range(1, world.players + 1):
        old_world.spoiler.paths.update({ str(location) : get_path(state, location.parent_region) for sphere in collection_spheres for location in sphere if location.player == player})
        for _, path in dict(old_world.spoiler.paths).items():
            if any(exit == 'Pyramid Fairy' for (_, exit) in path):
                if world.mode[player] != 'inverted':
                    old_world.spoiler.paths[str(world.get_region('Big Bomb Shop', player))] = get_path(state, world.get_region('Big Bomb Shop', player))
                else:
                    old_world.spoiler.paths[str(world.get_region('Inverted Big Bomb Shop', player))] = get_path(state, world.get_region('Inverted Big Bomb Shop', player))

    # we can finally output our playthrough
    old_world.spoiler.playthrough = OrderedDict([("0", [str(item) for item in world.precollected_items if item.advancement])])
    for i, sphere in enumerate(collection_spheres):
        old_world.spoiler.playthrough[str(i + 1)] = {str(location): str(location.item) for location in sphere}