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Archipelago/worlds/minecraft/__init__.py

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Python
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import os
from .Items import MinecraftItem, item_table, item_frequencies
from .Locations import MinecraftAdvancement, advancement_table, exclusion_table, events_table
from .Regions import mc_regions, link_minecraft_structures
from .Rules import set_rules
from worlds.generic.Rules import exclusion_rules
from BaseClasses import Region, Entrance, Item
from .Options import minecraft_options
from ..AutoWorld import World
client_version = (0, 4)
class MinecraftWorld(World):
game: str = "Minecraft"
options = minecraft_options
topology_present = True
item_names = frozenset(item_table)
location_names = frozenset(advancement_table)
item_name_to_id = {name: data.code for name, data in item_table.items()}
location_name_to_id = {name: data.id for name, data in advancement_table.items()}
def _get_mc_data(self):
exits = ["Overworld Structure 1", "Overworld Structure 2", "Nether Structure 1", "Nether Structure 2",
"The End Structure"]
return {
'world_seed': self.world.slot_seeds[self.player].getrandbits(32),
# consistent and doesn't interfere with other generation
'seed_name': self.world.seed_name,
'player_name': self.world.get_player_names(self.player),
'player_id': self.player,
'client_version': client_version,
'structures': {exit: self.world.get_entrance(exit, self.player).connected_region.name for exit in exits},
'race': self.world.is_race
}
def generate_basic(self):
# Generate item pool
itempool = []
pool_counts = item_frequencies.copy()
if getattr(self.world, "bee_traps")[self.player]: # replace Rotten Flesh by bee traps
pool_counts.update({"Rotten Flesh": 0, "Bee Trap (Minecraft)": 4})
for item_name in item_table:
for count in range(pool_counts.get(item_name, 1)):
itempool.append(self.create_item(item_name))
# Choose locations to automatically exclude based on settings
exclusion_pool = set()
exclusion_types = ['hard', 'insane', 'postgame']
for key in exclusion_types:
if not getattr(self.world, f"include_{key}_advancements")[self.player]:
exclusion_pool.update(exclusion_table[key])
exclusion_rules(self.world, self.player, exclusion_pool)
# Prefill the Ender Dragon with the completion condition
completion = self.create_item("Victory")
self.world.get_location("Ender Dragon", self.player).place_locked_item(completion)
itempool.remove(completion)
self.world.itempool += itempool
def set_rules(self):
set_rules(self.world, self.player)
def create_regions(self):
def MCRegion(region_name: str, exits=[]):
ret = Region(region_name, None, region_name, self.player, self.world)
ret.locations = [MinecraftAdvancement(self.player, loc_name, loc_data.id, ret)
for loc_name, loc_data in advancement_table.items()
if loc_data.region == region_name]
for exit in exits:
ret.exits.append(Entrance(self.player, exit, ret))
return ret
self.world.regions += [MCRegion(*r) for r in mc_regions]
link_minecraft_structures(self.world, self.player)
def generate_output(self, output_directory: str):
import json
from base64 import b64encode
data = self._get_mc_data()
filename = f"AP_{self.world.seed_name}_P{self.player}_{self.world.get_player_names(self.player)}.apmc"
with open(os.path.join(output_directory, filename), 'wb') as f:
f.write(b64encode(bytes(json.dumps(data), 'utf-8')))
def fill_slot_data(self):
slot_data = self._get_mc_data()
for option_name in minecraft_options:
option = getattr(self.world, option_name)[self.player]
slot_data[option_name] = int(option.value)
return slot_data
def create_item(self, name: str) -> Item:
item_data = item_table[name]
item = MinecraftItem(name, item_data.progression, item_data.code, self.player)
if "Book" in name: # prevent enchanted books from being excluded
item.can_be_excluded = False
return item
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