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233 lines
6.6 KiB
233 lines
6.6 KiB
import re |
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import time |
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import importlib |
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import random |
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from itertools import count |
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from math import floor |
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from minecraft.networking.types import BlockFace |
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from mosfet.protocol.managers import ChunkNotLoadedException |
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from mosfet import utils |
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from mosfet import path |
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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 SellToVillagerStates: |
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def idle(self): |
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return None |
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def init(self): |
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self.trade = None |
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self.state = self.find_villager |
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def find_villager(self): |
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print('Finding new villager...') |
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w = self.g.world |
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p = utils.pint(self.g.pos) |
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for v in w.find_villagers(p, 100): |
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print('Found villager:', v) |
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if v in self.bad_villagers: |
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print('In bad villager list') |
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continue |
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if v in self.spent_villagers: |
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print('In spent villager list') |
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continue |
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if 'profession' not in v: |
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print('Villager has unknown profession') |
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continue |
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if v.profession not in mobs.TRADES: |
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print('Villager doesnt sell stuff we collect') |
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continue |
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trades = mobs.TRADES[v.profession] |
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if not self.g.game.count_items(trades): |
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print('We dont have anything to sell him') |
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continue |
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break |
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else: # for |
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print('No good villagers left, aborting.') |
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self.spent_villagers = [] |
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self.state = self.cleanup |
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return |
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self.villager = v |
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self.villager_pos = utils.pint((v.x, v.y, v.z)) |
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self.state = self.find_openings |
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def find_openings(self): |
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w = self.g.world |
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self.openings = w.find_villager_openings(self.villager_pos) |
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self.state = self.choose_opening |
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def choose_opening(self): |
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w = self.g.world |
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p = utils.pint(self.g.pos) |
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print('openings:', self.openings) |
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if not len(self.openings): |
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print('Unable to get to villager:', self.villager) |
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if self.villager not in self.good_villagers: |
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self.bad_villagers.append(self.villager) |
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print('Added to bad villager list') |
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self.state = self.find_villager |
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return |
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navpath = w.path_to_place(p, self.openings[0]) |
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if navpath: |
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self.g.path = navpath |
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self.state = self.going_to_villager |
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else: |
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self.openings.pop(0) |
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time.sleep(0.1) |
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def going_to_villager(self): |
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if utils.pint(self.g.pos) == self.openings[0]: |
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print('Arrived at villager') |
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self.g.look_at = self.villager_pos |
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self.wait_time = 0.5 |
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self.state = self.wait_to_interact |
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def wait_to_interact(self): |
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if self.wait_time > 0: |
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self.wait_time -= utils.TICK |
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else: |
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self.state = self.interact_villager |
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def interact_villager(self): |
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print('Interacting with villager') |
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self.g.game.interact(self.villager.entity_id) |
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self.g.game.animate() |
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self.wait_time = 0.5 |
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self.state = self.wait_for_window |
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def wait_for_window(self): |
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if self.wait_time > 0: |
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self.wait_time -= utils.TICK |
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else: |
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self.state = self.choose_trade |
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def choose_trade(self): |
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g = self.g.game |
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w = self.g.window |
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if not w or not self.g.trades: |
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print('Didnt get a trade window, aborting') |
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self.state = self.cleanup |
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return |
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if w.data.window_type != mcdata.VILLAGER_TRADE: |
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print('Got wrong window, aborting') |
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self.state = self.cleanup |
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return |
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for trade_num, trade in enumerate(self.g.trades): |
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in_id = trade.input_item_1.item_id |
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in_num = trade.input_item_1.item_count |
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out_id = trade.output_item.item_id |
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price = in_num \ |
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+ floor(in_num * trade.price_multiplier * trade.demand) \ |
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+ trade.special_price |
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if price < 1: price = 1 |
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if g.count_items([in_id]) < price: |
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continue |
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print('Checking trade #', trade_num) |
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if trade.trade_disabled: |
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print('Trade disabled, skipping') |
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continue |
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if out_id != items.EMERALD_ID: |
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print('Not for emeralds, skipping') |
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continue |
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if price > in_num: |
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print('Trade in demand, skipping') |
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continue |
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print('Found trade:', trade) |
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print('Adjusted price:', price) |
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self.trade = trade |
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self.trade_num = trade_num |
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self.state = self.click_trade |
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break |
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else: |
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print('Villager has been spent, aborting') |
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self.g.game.close_window() |
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self.spent_villagers.append(self.villager) |
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self.state = self.find_villager |
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return |
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def click_trade(self): |
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print('Clicking trade') |
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self.g.item_lock = True |
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self.g.game.select_trade(self.trade_num) |
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self.state = self.execute_trade |
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def execute_trade(self): |
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if self.g.item_lock: |
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return |
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w = self.g.window |
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w_info = mcdata.WINDOWS[w.data.window_type] |
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slot_num = w_info.output |
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if slot_num in w.contents: |
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print('Executing trade') |
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slot = w.contents[slot_num] |
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self.g.game.click_window(slot_num, 0, 1, slot) |
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else: |
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print('Bad trade, aborting') |
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self.state = self.end_trade |
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def end_trade(self): |
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print('Trading complete') |
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self.g.game.close_window() |
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self.wait_time = 1 |
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self.state = self.wait_for_trade |
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def wait_for_trade(self): |
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if self.wait_time > 0: |
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self.wait_time -= utils.TICK |
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else: |
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self.state = self.interact_villager |
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def wait(self): |
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if self.wait_time > 0: |
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self.wait_time -= utils.TICK |
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else: |
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self.state = self.cleanup |
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def cleanup(self): |
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self.state = self.done |
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def done(self): |
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# never gets ran, placeholder |
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return None |
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def __init__(self, global_state): |
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self.g = global_state |
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self.state = self.idle |
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self.villager = None |
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self.villager_pos = None |
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self.bad_villagers = [] |
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self.good_villagers = [] |
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self.spent_villagers = [] |
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self.openings = [] |
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self.trade = None |
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self.wait_time = 0 |
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def run(self): |
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self.state()
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