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ae2b0f4875
...
433e35e79b
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@ -1,7 +1,7 @@
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import json
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import importlib
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from mosfet.info import mcdata
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from mosfet import mcdata
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MCD_BLOCKS = {}
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for d in mcdata.mcd.blocks.values():
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@ -24,17 +24,16 @@ from mosfet.protocol.managers import DataManager, ChunksManager, ChatManager, Ch
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from munch import Munch
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from mosfet import blocks
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from mosfet import game
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from mosfet import items
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from mosfet import job
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from mosfet import mcdata
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from mosfet import mobs
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from mosfet import path
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from mosfet import print_help
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from mosfet import utils
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from mosfet import vector
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from mosfet import world
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from mosfet.info import blocks
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from mosfet.info import items
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from mosfet.info import mcdata
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from mosfet.info import mobs
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for module in [
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blocks,
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@ -47,7 +46,6 @@ for module in [
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print_help,
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utils,
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vector,
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world,
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]:
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importlib.reload(module)
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@ -266,7 +264,7 @@ def bot(global_state):
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g.chat = ChatManager(g)
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g.game = game.Game(g)
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g.world = world.World(g)
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g.world = game.MCWorld(g)
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try:
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while not g.pos:
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326
mosfet/game.py
326
mosfet/game.py
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@ -2,9 +2,11 @@ import re
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import time
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import importlib
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import random
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import functools
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from math import hypot
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from itertools import count
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from munch import Munch
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from copy import copy
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from minecraft.networking.packets import Packet, clientbound, serverbound
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from minecraft.networking.types import BlockFace
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@ -25,12 +27,316 @@ from mosfet.protocol.types import Slot
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from mosfet import print_help
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from mosfet import utils
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from mosfet import path
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from mosfet import blocks
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from mosfet import items
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from mosfet import mcdata
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from mosfet import mobs
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from mosfet import bot
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from mosfet import vector
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from mosfet.info import blocks
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from mosfet.info import items
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from mosfet.info import mcdata
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from mosfet.info import mobs
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class MCWorld:
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def __init__(self, global_state):
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self.g = global_state
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def block_at(self, x, y, z):
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return self.g.chunks.get_block_at(x, y, z)
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def check_air_column(self, pos, distance):
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for i in range(distance):
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check = utils.padd(pos, (0, i, 0))
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if self.block_at(*check) not in blocks.NON_SOLID_IDS:
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return False
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return True
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def find_blocks_3d(self, center, block_ids, distance=0, y_limit=0):
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for offset in utils.search_3d(distance, y_limit):
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check = utils.padd(center, offset)
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if self.block_at(*check) in block_ids:
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yield check
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def find_blocks_indexed(self, center, block_ids, distance=0):
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print('finding', block_ids)
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index = []
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for bid in block_ids:
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index.extend(self.g.chunks.index.get(bid, []))
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print('index', index)
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result = []
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for block in index:
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if self.block_at(*block) not in block_ids:
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continue
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if distance and utils.phyp(center, block) > distance:
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continue
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if block not in result:
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result.append(block)
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result.sort(key=lambda x: utils.phyp(center, x))
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return result
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def find_blocks(self, center, distance, block_ids, limit=0):
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# search in a spiral from center to all blocks with ID
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result = []
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for n in count():
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offset = utils.spiral(n)
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check = utils.padd(center, offset)
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if self.block_at(*check) in block_ids:
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if hypot(*offset) < distance:
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result.append(check)
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if limit and len(result) == limit:
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return result
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if offset[0] > distance:
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return result
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def find_trees(self, center, distance):
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found_trees = []
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for log in self.find_blocks_3d(center, blocks.LOG_IDS, distance, 15):
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# crawl to the bottom log
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while self.block_at(*utils.padd(log, path.BLOCK_BELOW)) in blocks.LOG_IDS:
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log = utils.padd(log, path.BLOCK_BELOW)
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base = log
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if base in found_trees:
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continue
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# make sure we are on the ground
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if self.block_at(*utils.padd(base, path.BLOCK_BELOW)) in blocks.NON_SOLID_IDS:
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continue
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# crawl to the top log to count and check leaves
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log_count = 1
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good_leaves = False
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while self.block_at(*utils.padd(log, path.BLOCK_ABOVE)) in blocks.LOG_IDS:
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log = utils.padd(log, path.BLOCK_ABOVE)
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log_count += 1
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for offset in path.CHECK_DIRECTIONS:
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if self.block_at(*utils.padd(log, offset)) in blocks.LEAF_IDS:
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good_leaves = True
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# make sure it's a good tree
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if not good_leaves or log_count < 3:
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continue
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found_trees.append(base)
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yield base
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def find_tree_openings(self, tree):
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# returns coords in a cardinal direction where we can stand by tree
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maze_solver = path.Pathfinder(self.g)
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result = []
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# TODO: make sure only non-solid and leaves between
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# make sure traversable too and non-avoid
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for distance in range(5):
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for direction in path.CHECK_DIRECTIONS:
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offset = utils.pmul(direction, distance+1)
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if maze_solver.check_traverse(tree, offset):
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result.append(utils.padd(tree, offset))
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return result
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def path_to_place(self, start, place):
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maze_solver = path.Pathfinder(self.g)
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try:
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s = maze_solver.astar(start, place)
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return list(s) if s else None
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except path.AStarTimeout:
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return None
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def find_bed_areas(self, center, distance):
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bed_clearance = 9 # 5x5 area
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clear_distance = 2
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for a in self.find_blocks_3d(center, [0], distance, 50):
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# check for air around the area
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if len(self.find_blocks(a, clear_distance, [0], bed_clearance)) < bed_clearance:
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continue
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# check for ground around the area
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if len(self.find_blocks(utils.padd(a, path.BLOCK_BELOW), clear_distance, blocks.NON_SOLID_IDS, bed_clearance)):
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continue
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# check for air above the area
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if len(self.find_blocks(utils.padd(a, path.BLOCK_ABOVE), clear_distance, [0], bed_clearance)) < bed_clearance:
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continue
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# ensure there's no monsters within 20 blocks
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# can't sleep if they are within 10, good to have a buffer
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if self.find_monsters(a, 20):
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continue
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yield a
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def find_cache_areas(self, center, distance):
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return self.find_bed_areas(center, distance)
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def sand_adjacent_safe(self, sand):
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for direction in path.CHECK_DIRECTIONS:
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if self.block_at(*utils.padd(sand, direction)) in blocks.AVOID_IDS:
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return False
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return True
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def find_sand(self, center, distance, player):
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sand = []
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sand.extend(self.find_blocks(center, distance, [blocks.SAND], 25))
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safe_sand = []
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for s in sand:
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# make sure it has solid below
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if self.block_at(*utils.padd(s, path.BLOCK_BELOW)) in blocks.NON_SOLID_IDS:
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continue
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# make sure it has solid two below - prevent hanging sand
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if self.block_at(*utils.padd(s, path.BLOCK_BELOW2)) in blocks.NON_SOLID_IDS:
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continue
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# and walkable air above
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if self.block_at(*utils.padd(s, path.BLOCK_ABOVE)) not in blocks.NON_SOLID_IDS:
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continue
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if not self.sand_adjacent_safe(s):
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continue
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safe_sand.append(s)
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safe_sand.sort(key=lambda x: utils.phyp(player, x))
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return safe_sand
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def check_sand_slice(self, center):
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# checks if a 5x5x1 slice has sand in it
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for i in range(9):
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s = utils.padd(center, utils.spiral(i))
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if self.block_at(*s) != blocks.SAND:
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continue
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# make sure it has solid below
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if self.block_at(*utils.padd(s, path.BLOCK_BELOW)) in blocks.NON_SOLID_IDS:
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continue
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# make sure it has solid two below - prevent hanging sand
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if self.block_at(*utils.padd(s, path.BLOCK_BELOW2)) in blocks.NON_SOLID_IDS:
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continue
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# and walkable air above
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if self.block_at(*utils.padd(s, path.BLOCK_ABOVE)) not in blocks.NON_SOLID_IDS:
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continue
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if not self.sand_adjacent_safe(s):
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continue
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return True
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return False
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def find_sand_slice(self, center, distance, y_limit=0, bad_slices=[], prev_layer=0):
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# returns the centre coord of the next 5x5x1 slice that still has
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# diggable sand in it. lower slices are only valid if there's an
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# adjacent slice farther at the same level. this should ensure an
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# upside down pyramid gets excavated so the edges are still climbable
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for v in count(prev_layer):
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peak = utils.padd(center, (0, 10-v, 0))
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slices = []
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layer = 0
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for step in count():
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offset = utils.spiral(step)
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layer = max(layer, *offset)
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offset = utils.pmul(offset, 3)
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check = utils.padd(peak, offset)
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check = utils.padd(check, (0, layer, 0))
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if y_limit and check[1] - center[1] > y_limit:
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break
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if utils.phyp_king(center, check) > distance:
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break
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if self.check_sand_slice(check) and check not in bad_slices:
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slices.append(check)
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if len(slices):
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return v, slices[-1]
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elif v > 40:
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return None, None
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def find_bed_openings(self, area):
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# returns coords in a cardinal direction where we can stand by bed
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result = []
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for direction in path.CHECK_DIRECTIONS:
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result.append(utils.padd(area, direction))
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return result
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def find_cache_openings(self, area):
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return self.find_bed_openings(area)
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def find_objects(self, object_ids):
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result = []
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for eid, obj in copy(self.g.objects).items():
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if obj.get('item_id', None) in object_ids:
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result.append(obj)
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return result
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def find_leaves(self, center, distance):
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for a in self.find_blocks_3d(center, blocks.LEAF_IDS, distance, 10):
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yield a
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def find_monsters(self, center, distance):
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# finds monsters within distance
|
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result = []
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for eid, mob in copy(self.g.mobs).items():
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if mob.type not in mobs.EVIL_IDS:
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continue
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pos = utils.pint((mob.x, mob.y, mob.z))
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if utils.phyp(center, pos) > distance:
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continue
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result.append(mob)
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return result
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def find_threats(self, center, distance):
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# finds monsters on the surface within distance
|
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monsters = self.find_monsters(center, distance)
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result = []
|
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for mob in monsters:
|
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pos = utils.pint((mob.x, mob.y, mob.z))
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# check distance number of blocks above, close enough?
|
||||
if not self.check_air_column(pos, distance):
|
||||
continue
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result.append(mob)
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return result
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def find_villagers(self, center, distance):
|
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# finds villagers within distance
|
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result = []
|
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for eid, mob in copy(self.g.mobs).items():
|
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type_name = mobs.MOB_NAMES[mob.type]
|
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if type_name != 'villager' : continue
|
||||
pos = utils.pint((mob.x, mob.y, mob.z))
|
||||
if utils.phyp(center, pos) > distance:
|
||||
continue
|
||||
result.append(mob)
|
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return result
|
||||
|
||||
def find_villager_openings(self, villager):
|
||||
# returns coords in a cardinal direction where we can stand by a villager
|
||||
maze_solver = path.Pathfinder(self.g)
|
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result = []
|
||||
|
||||
for distance in range(3):
|
||||
for direction in path.CHECK_DIRECTIONS:
|
||||
offset = utils.pmul(direction, distance+1)
|
||||
|
||||
if not maze_solver.check_traverse(villager, offset):
|
||||
continue
|
||||
|
||||
# check for line of sight
|
||||
for check in range(distance+1):
|
||||
offset2 = utils.pmul(direction, check+1)
|
||||
offset2 = utils.padd(offset2, path.BLOCK_ABOVE)
|
||||
check = utils.padd(villager, offset2)
|
||||
if self.block_at(*check) not in blocks.NON_SOLID_IDS:
|
||||
break
|
||||
else: # for
|
||||
result.append(utils.padd(villager, offset))
|
||||
return result
|
||||
|
||||
|
||||
class Game:
|
||||
def __init__(self, global_state):
|
||||
|
@ -71,8 +377,8 @@ class Game:
|
|||
self.g.name = packet.Username
|
||||
|
||||
def handle_join_game(self, packet):
|
||||
print('Received join game packet')
|
||||
print('Connected.')
|
||||
print(packet)
|
||||
self.g.info = packet
|
||||
self.g.eid = packet.entity_id
|
||||
self.g.dimension = packet.world_name.replace('minecraft:', '')
|
||||
|
@ -641,8 +947,8 @@ class Game:
|
|||
elif g.window:
|
||||
g.window.contents[packet.slot] = packet.slot_data
|
||||
|
||||
if g.item_lock and packet.window_id >= 0 and not packet.slot_data.present:
|
||||
print('Unlocking item lock')
|
||||
if packet.window_id >= 0 and not packet.slot_data.present:
|
||||
print('unlocking item lock')
|
||||
g.item_lock = False
|
||||
|
||||
def break_block(self, location):
|
||||
|
@ -995,12 +1301,6 @@ class Game:
|
|||
self.g.health = packet.health
|
||||
self.g.food = packet.food
|
||||
|
||||
if packet.health == 0:
|
||||
print('Died, stopping')
|
||||
print('Use 1respawn to respawn the bot')
|
||||
self.close_window()
|
||||
bot.init(self.g)
|
||||
|
||||
def use_item(self, hand):
|
||||
packet = serverbound.play.UseItemPacket()
|
||||
packet.hand = hand
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
from mosfet.jobs import (
|
||||
cache_items,
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class CacheItemsStates:
|
||||
def idle(self):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class CheckThreatsStates:
|
||||
def idle(self):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class ClearLeavesStates:
|
||||
def idle(self):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class EatFoodStates:
|
||||
def idle(self):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class FillBlocksStates:
|
||||
def idle(self):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class FindGappleStates:
|
||||
def idle(self):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class GatherCropStates:
|
||||
def idle(self):
|
||||
|
@ -35,7 +35,8 @@ class GatherCropStates:
|
|||
blocks.MATURE_BEETROOT_ID,
|
||||
]
|
||||
|
||||
for crop in w.find_blocks_3d(p, mature_crops, 50, 20, True):
|
||||
for crop in w.find_blocks_3d(p, mature_crops, 50, 20):
|
||||
print('Found crop:', crop)
|
||||
if crop not in self.bad_crops:
|
||||
break
|
||||
else: # for
|
||||
|
@ -43,7 +44,6 @@ class GatherCropStates:
|
|||
self.state = self.cleanup
|
||||
return
|
||||
|
||||
print('Found crop:', crop)
|
||||
self.crop = crop
|
||||
self.type_id = w.block_at(*crop)
|
||||
self.state = self.nav_to_crop
|
||||
|
@ -55,12 +55,10 @@ class GatherCropStates:
|
|||
navpath = w.path_to_place(p, self.crop)
|
||||
|
||||
if navpath:
|
||||
print('Going to crop', self.crop)
|
||||
self.g.path = navpath
|
||||
self.g.look_at = utils.padd(self.crop, path.BLOCK_BELOW)
|
||||
self.state = self.going_to_crop
|
||||
else:
|
||||
print('Cant get to it, blacklisting')
|
||||
self.bad_crops.append(self.crop)
|
||||
self.wait_time = 0.5
|
||||
self.state = self.wait_to_restart
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class GatherSandStates:
|
||||
def bair(self, p):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class GatherWartStates:
|
||||
def idle(self):
|
||||
|
@ -29,7 +29,8 @@ class GatherWartStates:
|
|||
p = utils.pint(self.g.pos)
|
||||
|
||||
mature_wart = max(blocks.NETHERWART_IDS)
|
||||
for wart in w.find_blocks_3d(p, [mature_wart], 50, 20, True):
|
||||
for wart in w.find_blocks_3d(p, [mature_wart], 50, 20):
|
||||
print('Found wart:', wart)
|
||||
if wart not in self.bad_warts:
|
||||
break
|
||||
else: # for
|
||||
|
@ -37,7 +38,6 @@ class GatherWartStates:
|
|||
self.state = self.cleanup
|
||||
return
|
||||
|
||||
print('Found wart:', wart)
|
||||
self.wart = wart
|
||||
self.state = self.nav_to_wart
|
||||
|
||||
|
@ -48,21 +48,11 @@ class GatherWartStates:
|
|||
navpath = w.path_to_place(p, self.wart)
|
||||
|
||||
if navpath:
|
||||
print('Going to wart', self.wart)
|
||||
self.g.path = navpath
|
||||
self.g.look_at = utils.padd(self.wart, path.BLOCK_BELOW)
|
||||
self.state = self.going_to_wart
|
||||
else:
|
||||
print('Cant get to it, blacklisting')
|
||||
self.bad_warts.append(wart)
|
||||
self.wait_time = 0.5
|
||||
self.state = self.wait_to_restart
|
||||
|
||||
def wait_to_restart(self):
|
||||
# prevent timeouts
|
||||
if self.wait_time > 0:
|
||||
self.wait_time -= utils.TICK
|
||||
else:
|
||||
self.state = self.find_new_wart
|
||||
|
||||
def going_to_wart(self):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class GatherWoodStates:
|
||||
def bair(self, p):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class GrabSandStates:
|
||||
def idle(self):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class GrabSaplingStates:
|
||||
def idle(self):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class GrabSuppliesStates:
|
||||
def idle(self):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class PlantTreeStates:
|
||||
def idle(self):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class SellToVillagerStates:
|
||||
def idle(self):
|
||||
|
|
|
@ -11,10 +11,10 @@ from mosfet.protocol.managers import ChunkNotLoadedException
|
|||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import items
|
||||
from mosfet.info import mcdata
|
||||
from mosfet.info import mobs
|
||||
from mosfet import blocks
|
||||
from mosfet import items
|
||||
from mosfet import mcdata
|
||||
from mosfet import mobs
|
||||
|
||||
class SleepWithBedStates:
|
||||
def idle(self):
|
||||
|
|
|
@ -5,7 +5,7 @@ from math import hypot, sqrt
|
|||
|
||||
from astar import AStar
|
||||
|
||||
from mosfet.info import blocks
|
||||
from mosfet import blocks
|
||||
from mosfet import utils
|
||||
|
||||
class AStarTimeout(Exception):
|
||||
|
|
|
@ -10,7 +10,7 @@ from minecraft.networking.types import (
|
|||
|
||||
from .types import Nbt, Slot, Entry, Trade
|
||||
|
||||
from mosfet.info import blocks
|
||||
from mosfet import blocks
|
||||
|
||||
|
||||
class ChunkDataPacket(Packet):
|
||||
|
|
|
@ -2,8 +2,8 @@ import importlib
|
|||
import collections
|
||||
from math import floor, ceil, sqrt, hypot
|
||||
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import mcdata
|
||||
from mosfet import blocks
|
||||
from mosfet import mcdata
|
||||
|
||||
TICK = 0.05
|
||||
|
||||
|
@ -133,32 +133,49 @@ def search_2d(distance=0):
|
|||
visited.add(cur)
|
||||
yield cur
|
||||
|
||||
def get_neighbors_3d(x,y,z):
|
||||
return [
|
||||
#(x+1, y+1, z+0),
|
||||
#(x+1, y-1, z+0),
|
||||
#(x+1, y+1, z+1),
|
||||
#(x+1, y+0, z+1),
|
||||
#(x+1, y-1, z+1),
|
||||
#(x+1, y+1, z-1),
|
||||
#(x+1, y+0, z-1),
|
||||
#(x+1, y-1, z-1),
|
||||
(x+1, y+0, z+0),
|
||||
(x+0, y+1, z+0),
|
||||
(x+0, y-1, z+0),
|
||||
#(x+0, y+1, z+1),
|
||||
(x+0, y+0, z+1),
|
||||
#(x+0, y-1, z+1),
|
||||
#(x+0, y+1, z-1),
|
||||
(x+0, y+0, z-1),
|
||||
#(x+0, y-1, z-1),
|
||||
#(x-1, y+1, z+0),
|
||||
#(x-1, y-1, z+0),
|
||||
#(x-1, y+1, z+1),
|
||||
#(x-1, y+0, z+1),
|
||||
#(x-1, y-1, z+1),
|
||||
#(x-1, y+1, z-1),
|
||||
#(x-1, y+0, z-1),
|
||||
#(x-1, y-1, z-1),
|
||||
(x-1, y+0, z+0),
|
||||
]
|
||||
def search_3d(distance=0, y_limit=0):
|
||||
def get_neighbors(x,y,z):
|
||||
return [
|
||||
(x+1, y+1, z+0),
|
||||
(x+1, y-1, z+0),
|
||||
(x+1, y+1, z+1),
|
||||
(x+1, y+0, z+1),
|
||||
(x+1, y-1, z+1),
|
||||
(x+1, y+1, z-1),
|
||||
(x+1, y+0, z-1),
|
||||
(x+1, y-1, z-1),
|
||||
(x+1, y+0, z+0),
|
||||
(x+0, y+1, z+0),
|
||||
(x+0, y-1, z+0),
|
||||
(x+0, y+1, z+1),
|
||||
(x+0, y+0, z+1),
|
||||
(x+0, y-1, z+1),
|
||||
(x+0, y+1, z-1),
|
||||
(x+0, y+0, z-1),
|
||||
(x+0, y-1, z-1),
|
||||
(x-1, y+1, z+0),
|
||||
(x-1, y-1, z+0),
|
||||
(x-1, y+1, z+1),
|
||||
(x-1, y+0, z+1),
|
||||
(x-1, y-1, z+1),
|
||||
(x-1, y+1, z-1),
|
||||
(x-1, y+0, z-1),
|
||||
(x-1, y-1, z-1),
|
||||
(x-1, y+0, z+0),
|
||||
]
|
||||
|
||||
to_visit = collections.deque([(0, 0, 0)])
|
||||
visited = set()
|
||||
|
||||
while to_visit:
|
||||
cur = to_visit.pop()
|
||||
if cur in visited:
|
||||
continue
|
||||
if y_limit and abs(cur[1]) > y_limit:
|
||||
continue
|
||||
if distance and hypot(*cur) > distance:
|
||||
continue
|
||||
for neighbor in get_neighbors(*cur):
|
||||
to_visit.appendleft(neighbor)
|
||||
visited.add(cur)
|
||||
yield cur
|
||||
|
|
333
mosfet/world.py
333
mosfet/world.py
|
@ -1,333 +0,0 @@
|
|||
import collections
|
||||
import re
|
||||
import time
|
||||
import random
|
||||
from math import hypot
|
||||
from itertools import count
|
||||
from copy import copy
|
||||
|
||||
from mosfet import utils
|
||||
from mosfet import path
|
||||
from mosfet.info import blocks
|
||||
from mosfet.info import mobs
|
||||
|
||||
class World:
|
||||
def __init__(self, global_state):
|
||||
self.g = global_state
|
||||
|
||||
def block_at(self, x, y, z):
|
||||
return self.g.chunks.get_block_at(x, y, z)
|
||||
|
||||
def check_air_column(self, pos, distance):
|
||||
for i in range(distance):
|
||||
check = utils.padd(pos, (0, i, 0))
|
||||
if self.block_at(*check) not in blocks.NON_SOLID_IDS:
|
||||
return False
|
||||
return True
|
||||
|
||||
def find_blocks_3d(self, center, block_ids, distance=0, y_limit=0, thru_air=False):
|
||||
to_visit = collections.deque([(0, 0, 0)])
|
||||
visited = set()
|
||||
|
||||
while to_visit:
|
||||
cur = to_visit.pop()
|
||||
if cur in visited:
|
||||
continue
|
||||
if y_limit and abs(cur[1]) > y_limit:
|
||||
continue
|
||||
if distance and hypot(*cur) > distance:
|
||||
continue
|
||||
|
||||
check = utils.padd(center, cur)
|
||||
|
||||
if not thru_air or self.block_at(*check) in blocks.NON_SOLID_IDS:
|
||||
for neighbor in utils.get_neighbors_3d(*cur):
|
||||
to_visit.appendleft(neighbor)
|
||||
|
||||
visited.add(cur)
|
||||
|
||||
if self.block_at(*check) in block_ids:
|
||||
yield check
|
||||
|
||||
def find_blocks_indexed(self, center, block_ids, distance=0):
|
||||
print('finding', block_ids)
|
||||
index = []
|
||||
for bid in block_ids:
|
||||
index.extend(self.g.chunks.index.get(bid, []))
|
||||
|
||||
print('index', index)
|
||||
|
||||
result = []
|
||||
for block in index:
|
||||
if self.block_at(*block) not in block_ids:
|
||||
continue
|
||||
if distance and utils.phyp(center, block) > distance:
|
||||
continue
|
||||
if block not in result:
|
||||
result.append(block)
|
||||
|
||||
result.sort(key=lambda x: utils.phyp(center, x))
|
||||
return result
|
||||
|
||||
def find_blocks(self, center, distance, block_ids, limit=0):
|
||||
# search in a spiral from center to all blocks with ID
|
||||
result = []
|
||||
for n in count():
|
||||
offset = utils.spiral(n)
|
||||
check = utils.padd(center, offset)
|
||||
if self.block_at(*check) in block_ids:
|
||||
if hypot(*offset) < distance:
|
||||
result.append(check)
|
||||
if limit and len(result) == limit:
|
||||
return result
|
||||
if offset[0] > distance:
|
||||
return result
|
||||
|
||||
def find_trees(self, center, distance):
|
||||
found_trees = []
|
||||
for log in self.find_blocks_3d(center, blocks.LOG_IDS, distance, 15):
|
||||
# crawl to the bottom log
|
||||
while self.block_at(*utils.padd(log, path.BLOCK_BELOW)) in blocks.LOG_IDS:
|
||||
log = utils.padd(log, path.BLOCK_BELOW)
|
||||
base = log
|
||||
|
||||
if base in found_trees:
|
||||
continue
|
||||
|
||||
# make sure we are on the ground
|
||||
if self.block_at(*utils.padd(base, path.BLOCK_BELOW)) in blocks.NON_SOLID_IDS:
|
||||
continue
|
||||
|
||||
# crawl to the top log to count and check leaves
|
||||
log_count = 1
|
||||
good_leaves = False
|
||||
while self.block_at(*utils.padd(log, path.BLOCK_ABOVE)) in blocks.LOG_IDS:
|
||||
log = utils.padd(log, path.BLOCK_ABOVE)
|
||||
log_count += 1
|
||||
|
||||
for offset in path.CHECK_DIRECTIONS:
|
||||
if self.block_at(*utils.padd(log, offset)) in blocks.LEAF_IDS:
|
||||
good_leaves = True
|
||||
|
||||
# make sure it's a good tree
|
||||
if not good_leaves or log_count < 3:
|
||||
continue
|
||||
|
||||
found_trees.append(base)
|
||||
|
||||
yield base
|
||||
|
||||
def find_tree_openings(self, tree):
|
||||
# returns coords in a cardinal direction where we can stand by tree
|
||||
maze_solver = path.Pathfinder(self.g)
|
||||
result = []
|
||||
|
||||
# TODO: make sure only non-solid and leaves between
|
||||
# make sure traversable too and non-avoid
|
||||
|
||||
for distance in range(5):
|
||||
for direction in path.CHECK_DIRECTIONS:
|
||||
offset = utils.pmul(direction, distance+1)
|
||||
if maze_solver.check_traverse(tree, offset):
|
||||
result.append(utils.padd(tree, offset))
|
||||
return result
|
||||
|
||||
def path_to_place(self, start, place):
|
||||
maze_solver = path.Pathfinder(self.g)
|
||||
|
||||
try:
|
||||
s = maze_solver.astar(start, place)
|
||||
return list(s) if s else None
|
||||
except path.AStarTimeout:
|
||||
return None
|
||||
|
||||
def find_bed_areas(self, center, distance):
|
||||
bed_clearance = 9 # 5x5 area
|
||||
clear_distance = 2
|
||||
|
||||
for a in self.find_blocks_3d(center, [0], distance, 50):
|
||||
# check for air around the area
|
||||
if len(self.find_blocks(a, clear_distance, [0], bed_clearance)) < bed_clearance:
|
||||
continue
|
||||
|
||||
# check for ground around the area
|
||||
if len(self.find_blocks(utils.padd(a, path.BLOCK_BELOW), clear_distance, blocks.NON_SOLID_IDS, bed_clearance)):
|
||||
continue
|
||||
|
||||
# check for air above the area
|
||||
if len(self.find_blocks(utils.padd(a, path.BLOCK_ABOVE), clear_distance, [0], bed_clearance)) < bed_clearance:
|
||||
continue
|
||||
|
||||
# ensure there's no monsters within 20 blocks
|
||||
# can't sleep if they are within 10, good to have a buffer
|
||||
if self.find_monsters(a, 20):
|
||||
continue
|
||||
|
||||
yield a
|
||||
|
||||
def find_cache_areas(self, center, distance):
|
||||
return self.find_bed_areas(center, distance)
|
||||
|
||||
def sand_adjacent_safe(self, sand):
|
||||
for direction in path.CHECK_DIRECTIONS:
|
||||
if self.block_at(*utils.padd(sand, direction)) in blocks.AVOID_IDS:
|
||||
return False
|
||||
return True
|
||||
|
||||
def find_sand(self, center, distance, player):
|
||||
sand = []
|
||||
sand.extend(self.find_blocks(center, distance, [blocks.SAND], 25))
|
||||
|
||||
safe_sand = []
|
||||
for s in sand:
|
||||
# make sure it has solid below
|
||||
if self.block_at(*utils.padd(s, path.BLOCK_BELOW)) in blocks.NON_SOLID_IDS:
|
||||
continue
|
||||
# make sure it has solid two below - prevent hanging sand
|
||||
if self.block_at(*utils.padd(s, path.BLOCK_BELOW2)) in blocks.NON_SOLID_IDS:
|
||||
continue
|
||||
|
||||
# and walkable air above
|
||||
if self.block_at(*utils.padd(s, path.BLOCK_ABOVE)) not in blocks.NON_SOLID_IDS:
|
||||
continue
|
||||
|
||||
if not self.sand_adjacent_safe(s):
|
||||
continue
|
||||
|
||||
safe_sand.append(s)
|
||||
|
||||
safe_sand.sort(key=lambda x: utils.phyp(player, x))
|
||||
return safe_sand
|
||||
|
||||
def check_sand_slice(self, center):
|
||||
# checks if a 5x5x1 slice has sand in it
|
||||
for i in range(9):
|
||||
s = utils.padd(center, utils.spiral(i))
|
||||
if self.block_at(*s) != blocks.SAND:
|
||||
continue
|
||||
# make sure it has solid below
|
||||
if self.block_at(*utils.padd(s, path.BLOCK_BELOW)) in blocks.NON_SOLID_IDS:
|
||||
continue
|
||||
# make sure it has solid two below - prevent hanging sand
|
||||
if self.block_at(*utils.padd(s, path.BLOCK_BELOW2)) in blocks.NON_SOLID_IDS:
|
||||
continue
|
||||
# and walkable air above
|
||||
if self.block_at(*utils.padd(s, path.BLOCK_ABOVE)) not in blocks.NON_SOLID_IDS:
|
||||
continue
|
||||
if not self.sand_adjacent_safe(s):
|
||||
continue
|
||||
return True
|
||||
|
||||
return False
|
||||
|
||||
def find_sand_slice(self, center, distance, y_limit=0, bad_slices=[], prev_layer=0):
|
||||
# returns the centre coord of the next 5x5x1 slice that still has
|
||||
# diggable sand in it. lower slices are only valid if there's an
|
||||
# adjacent slice farther at the same level. this should ensure an
|
||||
# upside down pyramid gets excavated so the edges are still climbable
|
||||
for v in count(prev_layer):
|
||||
peak = utils.padd(center, (0, 10-v, 0))
|
||||
|
||||
slices = []
|
||||
layer = 0
|
||||
for step in count():
|
||||
offset = utils.spiral(step)
|
||||
layer = max(layer, *offset)
|
||||
offset = utils.pmul(offset, 3)
|
||||
check = utils.padd(peak, offset)
|
||||
check = utils.padd(check, (0, layer, 0))
|
||||
|
||||
if y_limit and check[1] - center[1] > y_limit:
|
||||
break
|
||||
if utils.phyp_king(center, check) > distance:
|
||||
break
|
||||
|
||||
if self.check_sand_slice(check) and check not in bad_slices:
|
||||
slices.append(check)
|
||||
|
||||
if len(slices):
|
||||
return v, slices[-1]
|
||||
elif v > 40:
|
||||
return None, None
|
||||
|
||||
|
||||
def find_bed_openings(self, area):
|
||||
# returns coords in a cardinal direction where we can stand by bed
|
||||
result = []
|
||||
|
||||
for direction in path.CHECK_DIRECTIONS:
|
||||
result.append(utils.padd(area, direction))
|
||||
return result
|
||||
|
||||
def find_cache_openings(self, area):
|
||||
return self.find_bed_openings(area)
|
||||
|
||||
def find_objects(self, object_ids):
|
||||
result = []
|
||||
for eid, obj in copy(self.g.objects).items():
|
||||
if obj.get('item_id', None) in object_ids:
|
||||
result.append(obj)
|
||||
return result
|
||||
|
||||
def find_leaves(self, center, distance):
|
||||
for a in self.find_blocks_3d(center, blocks.LEAF_IDS, distance, 10):
|
||||
yield a
|
||||
|
||||
def find_monsters(self, center, distance):
|
||||
# finds monsters within distance
|
||||
result = []
|
||||
for eid, mob in copy(self.g.mobs).items():
|
||||
if mob.type not in mobs.EVIL_IDS:
|
||||
continue
|
||||
pos = utils.pint((mob.x, mob.y, mob.z))
|
||||
if utils.phyp(center, pos) > distance:
|
||||
continue
|
||||
result.append(mob)
|
||||
return result
|
||||
|
||||
def find_threats(self, center, distance):
|
||||
# finds monsters on the surface within distance
|
||||
monsters = self.find_monsters(center, distance)
|
||||
result = []
|
||||
for mob in monsters:
|
||||
pos = utils.pint((mob.x, mob.y, mob.z))
|
||||
# check distance number of blocks above, close enough?
|
||||
if not self.check_air_column(pos, distance):
|
||||
continue
|
||||
result.append(mob)
|
||||
return result
|
||||
|
||||
def find_villagers(self, center, distance):
|
||||
# finds villagers within distance
|
||||
result = []
|
||||
for eid, mob in copy(self.g.mobs).items():
|
||||
type_name = mobs.MOB_NAMES[mob.type]
|
||||
if type_name != 'villager' : continue
|
||||
pos = utils.pint((mob.x, mob.y, mob.z))
|
||||
if utils.phyp(center, pos) > distance:
|
||||
continue
|
||||
result.append(mob)
|
||||
return result
|
||||
|
||||
def find_villager_openings(self, villager):
|
||||
# returns coords in a cardinal direction where we can stand by a villager
|
||||
maze_solver = path.Pathfinder(self.g)
|
||||
result = []
|
||||
|
||||
for distance in range(3):
|
||||
for direction in path.CHECK_DIRECTIONS:
|
||||
offset = utils.pmul(direction, distance+1)
|
||||
|
||||
if not maze_solver.check_traverse(villager, offset):
|
||||
continue
|
||||
|
||||
# check for line of sight
|
||||
for check in range(distance+1):
|
||||
offset2 = utils.pmul(direction, check+1)
|
||||
offset2 = utils.padd(offset2, path.BLOCK_ABOVE)
|
||||
check = utils.padd(villager, offset2)
|
||||
if self.block_at(*check) not in blocks.NON_SOLID_IDS:
|
||||
break
|
||||
else: # for
|
||||
result.append(utils.padd(villager, offset))
|
||||
return result
|
Loading…
Reference in New Issue
Block a user