533 lines
20 KiB
Python
533 lines
20 KiB
Python
import re
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import time
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import random
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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 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 bot
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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 mobs
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class Commands:
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def __init__(self, global_state):
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self.g = global_state
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self.g.chat.set_handler(self.handle_chat)
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def handle_chat(self, message):
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source, text = message
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reply = None
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private = False
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for_me = False
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authed = False
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if source == 'SYSTEM':
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self.g.command_lock = False
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if text == 'You are now AFK.':
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self.g.afk = True
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elif text == 'You are no longer AFK.':
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self.g.afk = False
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match1 = re.match(r'.*<(\w+)> (.*)', text)
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match2 = re.match(r'\[(\w+) -> me] (.*)', text)
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if match1:
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sender, text = match1.groups()
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elif match2:
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sender, text = match2.groups()
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private = True
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else:
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return
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if sender == 'tanner6':
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authed = True
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if text.startswith('zzz'):
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text = '!zzz'
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bot_num = self.g.name[-1]
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if text.startswith(bot_num):
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text = text[1:]
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for_me = True
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elif text.startswith('! '):
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text = text[2:]
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elif text.startswith('!'):
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text = text[1:]
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else:
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return
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if ' ' in text:
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command = text.split(' ', 1)[0]
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data = text.split(' ', 1)[1]
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else:
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command = text
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data = None
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try:
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## ### Public Commands
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## These can be ran by anyone, all bots will reply.
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## !help - prints this whole help message to console
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## !help [command] - replies in-game explaining command
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if command == 'help':
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if data:
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for line in print_help.HELP_LINES:
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if line[1:].startswith(data) or line[1:].startswith(data[1:]):
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reply = 'command ' + line
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break
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else: # for
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reply = 'command not found'
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else:
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print()
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print()
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for line in print_help.HELP_LINES:
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print(line)
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reply = 'check console'
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## !ping - replies with "pong"
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if command == 'ping':
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reply = 'pong'
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## !echo [data] - replies with "data"
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if command == 'echo' and data:
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reply = data
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## !pos - replies with position and dimension
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if command == 'pos':
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reply = str(utils.pint(self.g.pos))[1:-1] + ', ' + self.g.dimension
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## !afk - goes AFK with /afk
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if command == 'afk':
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if not self.g.afk:
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reply = '/afk'
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## !unafk - goes not AFK with /afk
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if command == 'unafk':
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if self.g.afk:
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reply = '/afk'
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## !error - raises an error
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if command == 'error':
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reply = 'ok'
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raise
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## !inv - prints current inventory
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if command == 'inv':
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inv_list = []
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for i in self.g.inv.values():
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if i.present:
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inv_list.append('{}:{} x {}'.format(items.ITEM_NAMES[i.item_id], str(i.item_id), i.item_count))
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inv_list.sort()
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result = '\n'.join(inv_list)
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print(result or 'Empty')
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## !time - replies with Minecraft world time
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if command == 'time':
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reply = str(self.g.time)
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## !count [id] - counts the number of items with that id
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if command == 'count' and data:
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item = int(data)
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reply = str(self.g.game.count_items([item]))
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## !loaded - replies with the current loaded area
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if command == 'loaded':
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reply = str(self.g.chunks.get_loaded_area())
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## !players - prints the current players
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## !players clear - clears the current player list
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if command == 'players':
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if data == 'clear':
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self.g.players = {}
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reply = 'ok'
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else:
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for k, v in self.g.players.items():
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print(str(k) + ':', v, self.g.player_names[v.player_uuid])
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## !objects - prints the current items on ground
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## !objects clear - clears the current object list
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if command == 'objects':
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if data == 'clear':
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self.g.objects = {}
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reply = 'ok'
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else:
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for k, v in self.g.objects.items():
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if data and v.item_id != int(data): continue
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print(str(k) + ':', v, items.ITEM_NAMES[v.item_id])
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## !mobs - prints the current mobs
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## !mobs clear - clears the current mob list
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if command == 'mobs':
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if data == 'clear':
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self.g.mobs = {}
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reply = 'ok'
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else:
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all_mobs = sorted(list(self.g.mobs.items()), key=lambda x: x[1].type)
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for k, v in all_mobs:
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if data and v.type != int(data): continue
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print(str(k) + ':', v, mobs.MOB_NAMES[v.type])
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reply = str(len(all_mobs)) + ' mobs'
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## !monsters - prints the current monsters
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if command == 'monsters':
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monsters = sorted(list(self.g.mobs.items()), key=lambda x: x[1].type)
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count = 0
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for k, v in monsters:
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if v.type not in mobs.EVIL_IDS: continue
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if data and v.type != int(data): continue
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count += 1
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print(str(k) + ':', v, mobs.MOB_NAMES[v.type])
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reply = str(count) + ' monsters'
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## !villagers - prints the current villagers
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if command == 'villagers':
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all_mobs = sorted(list(self.g.mobs.items()), key=lambda x: x[1].type)
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count = 0
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for k, v in all_mobs:
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type_name = mobs.MOB_NAMES[v.type]
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if type_name != 'villager' : continue
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count += 1
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print(str(k) + ':', v, type_name)
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reply = str(count) + ' villagers'
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## !threats - prints the dangerous monsters within 20 blocks
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## !threats [num] - prints the dangerous monsters within num blocks
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if command == 'threats':
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distance = int(data) if data else 20
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p = utils.pint(self.g.pos)
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threats = self.g.world.find_threats(p, distance)
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for t in threats:
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print(str(t.entity_id) + ':', t, mobs.MOB_NAMES[t.type])
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reply = str(len(threats)) + ' threats'
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if command == 'spiral' and data:
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for i in range(int(data)):
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print(utils.spiral(i))
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if command == 'sand_slice':
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result = self.g.world.find_sand_slice(utils.pint(self.g.pos), 50)
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reply = str(result)
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## "zzz" or !zzz - bot does /afk to let others sleep
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if command == 'zzz':
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if not self.g.afk and self.g.dimension == 'overworld':
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reply = '/afk'
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self.g.afk_timeout = 5.0
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## !tree - replies with the closest tree
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if command == 'tree':
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pos = utils.pint(self.g.pos)
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tree = next(self.g.world.find_trees(pos, 50))
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reply = str(tree)[1:-1]
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## !block x y z - replies what block is at (x, y, z)
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if command == 'block':
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try:
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data = data.replace('(', ' ').replace(')', ' ').replace(',', ' ')
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x1, y1, z1 = [int(x) for x in data.split()]
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except (AttributeError, ValueError):
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reply = 'usage: !block x1 y1 z1'
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if not reply:
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coord = (x1, y1, z1)
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block = self.g.world.block_at(*coord)
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if not reply and block is None:
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reply = 'first coord out of range'
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if not reply:
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reply = blocks.BLOCKS[block] + ':' + str(block)
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################# Specific commands ##########################
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## ### Bot-specific Commands
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## These will only run for the bot they are addressed to.
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if for_me:
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## 1respawn - respawns the bot if it's dead
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if command == 'respawn':
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self.g.game.respawn()
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reply = 'ok'
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## 1gather wood - gathers wood from the world
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## 1gather sand - gathers sand from the world
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if command == 'gather' and data:
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if data == 'wood':
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self.g.job.state = self.g.job.gather_wood
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reply = 'ok'
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elif data == 'sand':
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if not self.g.sand_origin or not self.g.chunks.check_loaded(self.g.sand_origin):
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self.g.sand_origin = utils.pint(self.g.pos)
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self.g.job.state = self.g.job.gather_sand
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reply = 'ok'
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if reply:
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for i in self.g.inv.values():
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print(i.item_id)
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if i.item_id in items.BED_IDS:
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break
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else:
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reply += ', I need a bed'
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## 1farm wood - farms wood from a certain area
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## 1farm sand - farms sand from a certain area
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## 1farm wart - farms netherwart from a certain area
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## 1farm crop - farms mature crops from a certain area
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if command == 'farm' and data:
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if data == 'wood':
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self.g.job.state = self.g.job.farm_wood
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reply = 'ok'
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elif data == 'sand':
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if not self.g.sand_origin or not self.g.chunks.check_loaded(self.g.sand_origin):
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self.g.sand_origin = utils.pint(self.g.pos)
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self.g.job.state = self.g.job.farm_sand
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reply = 'ok'
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elif data == 'wart':
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self.g.job.state = self.g.job.farm_wart
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reply = 'ok'
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elif data.startswith('crop'):
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self.g.job.state = self.g.job.farm_crop
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reply = 'ok'
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if reply and self.g.dimension == 'overworld':
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for i in self.g.inv.values():
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if i.item_id in items.BED_IDS:
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break
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else:
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reply += ', I need a bed'
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## 1loiter - stands still but eats, sleeps, and flees
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if command == 'loiter':
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self.g.job.state = self.g.job.loiter
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reply = 'ok'
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## 1trade - sells items to villagers to get emeralds
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if command == 'trade':
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self.g.job.state = self.g.job.trade
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reply = 'ok'
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## 1stop - stops the current job and resets bot
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if command == 'stop':
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self.g.game.close_window()
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bot.init(self.g)
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reply = 'ok'
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## 1drop - drops the current stack its holding
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if command == 'drop':
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self.g.game.drop_stack()
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## 1select [id] - moves item with id into main hand
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if command == 'select' and data:
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item = int(data)
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if self.g.game.select_item([item]):
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reply = 'ok'
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else:
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reply = 'not found'
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## 1dump [id] - drops all items matching id
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if command == 'dump' and data:
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item = int(data)
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if self.g.game.count_items([item]):
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self.g.dumping = item
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reply = 'ok'
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else:
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reply = 'not found'
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## 1drain - drops all items in inventory
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if command == 'drain':
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self.g.draining = True
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reply = 'ok'
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if command == 'gapple':
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self.g.job.state = self.g.job.find_gapple
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if data:
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self.g.job.find_gapple_states.count = int(data)
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reply = 'ok'
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if command == 'cache':
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self.g.job.state = self.g.job.cache_items
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self.g.job.cache_items_states.minimum = 0
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self.g.job.cache_items_states.silent = True
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reply = 'ok'
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## 1fill [x] [y] [z] [x] [y] [z] - fills the cuboid with the block at the first coordinate
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if command == 'fill':
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try:
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data = data.replace('(', ' ').replace(')', ' ').replace(',', ' ')
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x1, y1, z1, x2, y2, z2 = [int(x) for x in data.split()]
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except (AttributeError, ValueError):
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reply = 'usage: !fill x1 y1 z1 x2 y2 z2'
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if not reply:
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coord1 = (x1, y1, z1)
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coord2 = (x2, y2, z2)
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block = self.g.world.block_at(*coord1)
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if not reply and y1 > y2:
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reply = 'can only fill upwards'
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if not reply and block is None:
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reply = 'first coord out of range'
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if not reply and block == 0:
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reply = 'can\'t fill with air'
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if not reply:
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self.g.filling = Munch(coord1=coord1, coord2=coord2, block=block)
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self.g.job.state = self.g.job.fill_blocks
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reply = 'filling ' + str(utils.pvolume(coord1, coord2)) + ' with ' + blocks.BLOCKS[block]
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## 1here - bot comes to your location
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if command == 'here':
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try:
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sender_uuid = self.g.player_names[sender]
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except KeyError:
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reply = 'can\'t find your uuid'
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if not reply:
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for p in self.g.players.values():
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if p.player_uuid == sender_uuid:
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player = p
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break
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else: # for
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reply = 'can\'t find you'
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if not reply:
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pos = utils.pint(self.g.pos)
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goal = utils.pint((p.x, p.y, p.z))
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start = time.time()
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navpath = self.g.world.path_to_place(pos, goal)
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if navpath:
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self.g.path = navpath
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if self.g.job:
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self.g.job.stop()
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print(len(navpath))
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print(navpath)
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print(round(time.time() - start, 3), 'seconds')
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if self.g.job:
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self.g.job.stop()
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self.g.look_at = None
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reply = 'ok'
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else:
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reply = 'no path'
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## 1goto [x] [y] [z] - sends the bot to coordinate (x, y, z)
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if command == 'goto':
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try:
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data = data.replace('(', ' ').replace(')', ' ').replace(',', ' ')
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x2, y2, z2 = [int(x) for x in data.split()]
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except (AttributeError, ValueError):
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reply = 'usage: !goto x y z'
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if not reply:
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pos = utils.pint(self.g.pos)
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goal = utils.pint((x2, y2, z2))
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start = time.time()
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navpath = self.g.world.path_to_place(pos, goal)
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if navpath:
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self.g.path = navpath
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if self.g.job:
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self.g.job.stop()
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print(len(navpath))
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print(navpath)
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print(round(time.time() - start, 3), 'seconds')
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if self.g.job:
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self.g.job.stop()
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self.g.look_at = None
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reply = 'ok'
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else:
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reply = 'no path'
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if command == 'break':
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self.g.game.break_block(blocks.TEST_BLOCK)
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reply = 'ok'
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if command == 'open':
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self.g.game.open_container(blocks.TEST_BLOCK)
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## 1close - closes the current Minecraft window
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if command == 'close':
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if self.g.window:
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self.g.game.close_window()
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reply = 'ok'
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else:
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reply = 'nothing open'
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## 1click [slot] [button] [mode] - clicks the current window
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if command == 'click' and data:
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if self.g.window:
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slot, button, mode = [int(x) for x in data.split(' ')]
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try:
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item = self.g.window.contents[slot]
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except KeyError:
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item = Slot(present=False)
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print(item)
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self.g.game.click_window(slot, button, mode, item)
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else:
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reply = 'nothing open'
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## 1use - use the item it's currently holding
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if command == 'use':
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self.g.game.use_item(0)
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## 1interact [entity id] - interacts with that entity
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if command == 'interact' and data:
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self.g.game.interact(int(data))
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if command == 'test':
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reply = 'ok'
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r = self.g.world.find_villager_openings((615, 78, 493))
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print(r)
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################# Authorized commands ##########################
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## ### Authorized Commands
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## These dangerous commands can only be ran by the bot owner.
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if authed:
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## 1print [expression] - replies with Python eval(expression)
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if command == 'print':
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data = data.replace('`', '.')
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reply = str(eval(data))
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## 1exit - exits the program
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if command == 'exit':
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import os
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os._exit(0)
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except BaseException as e:
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import traceback
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print(traceback.format_exc())
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reply = 'Error: {} - {}\n'.format(e.__class__.__name__, e)
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pass
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if reply:
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print('Reply:', reply)
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if len(reply) >= 256:
|
|
reply = 'reply too long, check console'
|
|
|
|
if private and not reply.startswith('/'):
|
|
self.g.chat.send('/m ' + sender + ' ' + reply)
|
|
else:
|
|
self.g.chat.send(reply)
|
|
|