标签:return self move 源码 Pok str ._ LLMon def
.\PokeLLMon\poke_env\environment\move_category.py
# 导入需要的模块
from enum import Enum, auto, unique
# 定义一个枚举类 MoveCategory,表示一个移动类别
@unique
class MoveCategory(Enum):
"""Enumeration, represent a move category."""
# 定义枚举值 PHYSICAL,表示物理攻击类别
PHYSICAL = auto()
# 定义枚举值 SPECIAL,表示特殊攻击类别
SPECIAL = auto()
# 定义枚举值 STATUS,表示状态类别
STATUS = auto()
# 定义 __str__ 方法,返回枚举值的名称和描述信息
def __str__(self) -> str:
return f"{self.name} (move category) object"
.\PokeLLMon\poke_env\environment\pokemon.py
from __future__ import annotations
# 导入未来版本的注解特性
from typing import Any, Dict, List, Optional, Tuple, Union
# 导入类型提示相关的模块
from poke_env.data import GenData, to_id_str
# 从 poke_env.data 模块导入 GenData 和 to_id_str 函数
from poke_env.environment.effect import Effect
from poke_env.environment.move import SPECIAL_MOVES, Move
from poke_env.environment.pokemon_gender import PokemonGender
from poke_env.environment.pokemon_type import PokemonType
from poke_env.environment.status import Status
from poke_env.environment.z_crystal import Z_CRYSTAL
# 导入与 Pokemon 类相关的环境和效果模块
import math
# 导入数学模块
class Pokemon:
__slots__ = (
"_ability",
"_active",
"_active",
"_base_stats",
"_boosts",
"_current_hp",
"_data",
"_effects",
"_first_turn",
"_gender",
"_heightm",
"_item",
"_last_details",
"_last_request",
"_level",
"_max_hp",
"_moves",
"_must_recharge",
"_possible_abilities",
"_preparing_move",
"_preparing_target",
"_protect_counter",
"_shiny",
"_revealed",
"_species",
"_status",
"_status_counter",
"_terastallized",
"_terastallized_type",
"_type_1",
"_type_2",
"_weightkg",
)
# 定义 Pokemon 类的属性列表
def __init__(
self,
gen: int,
*,
species: Optional[str] = None,
request_pokemon: Optional[Dict[str, Any]] = None,
details: Optional[str] = None,
):
# Base data
self._data = GenData.from_gen(gen)
# Species related attributes
self._base_stats: Dict[str, int]
self._heightm: int
self._possible_abilities: List[str]
self._species: str = ""
self._type_1: PokemonType
self._type_2: Optional[PokemonType] = None
self._weightkg: int
# Individual related attributes
self._ability: Optional[str] = None
self._active: bool
self._gender: Optional[PokemonGender] = None
self._level: int = 100
self._max_hp: Optional[int] = 0
self._moves: Dict[str, Move] = {}
self._shiny: Optional[bool] = False
# Battle related attributes
self._active: bool = False
self._boosts: Dict[str, int] = {
"accuracy": 0,
"atk": 0,
"def": 0,
"evasion": 0,
"spa": 0,
"spd": 0,
"spe": 0,
}
self._current_hp: Optional[int] = 0
self._effects: Dict[Effect, int] = {}
self._first_turn: bool = False
self._terastallized: bool = False
self._terastallized_type: Optional[PokemonType] = None
self._item: Optional[str] = self._data.UNKNOWN_ITEM
self._last_request: Optional[Dict[str, Any]] = {}
self._last_details: str = ""
self._must_recharge: bool = False
self._preparing_move: Optional[Move] = None
self._preparing_target = None
self._protect_counter: int = 0
self._revealed: bool = False
self._status: Optional[Status] = None
self._status_counter: int = 0
# 根据不同情况更新属性
if request_pokemon:
self.update_from_request(request_pokemon)
elif details:
self._update_from_details(details)
elif species:
self._update_from_pokedex(species)
# 返回对象的字符串表示形式
def __repr__(self) -> str:
return self.__str__()
def __str__(self) -> str:
# 如果状态为空,则状态表示为 None
if self._status is None:
status_repr = None
else:
status_repr = self._status.name
# 返回包含种类、活跃状态和状态的字符串表示
return (
f"{self._species} (pokemon object) "
f"[Active: {self._active}, Status: {status_repr}]"
)
def _add_move(self, move_id: str, use: bool = False) -> Optional[Move]:
"""Store the move if applicable."""
# 获取移动的 ID
id_ = Move.retrieve_id(move_id)
# 如果不应该存储该移动,则返回
if not Move.should_be_stored(id_, self._data.gen):
return
# 如果移动不在已有移动列表中,则创建新的移动对象并存储
if id_ not in self._moves:
move = Move(move_id=id_, raw_id=move_id, gen=self._data.gen)
self._moves[id_] = move
# 如果需要使用该移动,则调用移动对象的 use 方法
if use:
self._moves[id_].use()
return self._moves[id_]
def boost(self, stat: str, amount: int):
# 增加指定属性的增益值,并确保在 -6 到 6 之间
self._boosts[stat] += amount
if self._boosts[stat] > 6:
self._boosts[stat] = 6
elif self._boosts[stat] < -6:
self._boosts[stat] = -6
def cant_move(self):
# 重置首回合标志和保护计数器,如果状态为睡眠则增加状态计数器
self._first_turn = False
self._protect_counter = 0
if self._status == Status.SLP:
self._status_counter += 1
def clear_active(self):
# 清除活跃状态
self._active = False
def clear_boosts(self):
# 将所有属性的增益值清零
for stat in self._boosts:
self._boosts[stat] = 0
def _clear_effects(self):
# 清除所有效果
self._effects = {}
def clear_negative_boosts(self):
# 将所有负增益值清零
for stat, value in self._boosts.items():
if value < 0:
self._boosts[stat] = 0
def clear_positive_boosts(self):
# 将所有正增益值清零
for stat, value in self._boosts.items():
if value > 0:
self._boosts[stat] = 0
def copy_boosts(self, mon: Pokemon):
# 复制另一个 Pokemon 对象的增益值
self._boosts = dict(mon._boosts.items())
# 更新精灵的状态,可以传入一个状态字符串,默认为 None
def cure_status(self, status: Optional[str] = None):
# 如果传入了状态并且状态与当前状态相同,则将当前状态置为 None,并重置状态计数器
if status and Status[status.upper()] == self._status:
self._status = None
self._status_counter = 0
# 如果状态为 None 并且精灵没有失去意识,则将当前状态置为 None
elif status is None and not self.fainted:
self._status = None
# 造成伤害的方法,设置精灵的生命状态
def damage(self, hp_status: str):
self.set_hp_status(hp_status)
# 结束效果的方法,根据效果字符串结束对应效果
def end_effect(self, effect_str: str):
effect = Effect.from_showdown_message(effect_str)
# 如果效果存在于精灵的效果列表中,则移除该效果
if effect in self._effects:
self._effects.pop(effect)
# 结束物品效果的方法,将精灵的物品置为 None
def end_item(self, item: str):
self._item = None
# 如果物品为 "powerherb",则重置准备中的招式和目标
if item == "powerherb":
self._preparing_move = None
self._preparing_target = False
# 结束回合的方法,处理中毒状态计数和效果的回合计数
def end_turn(self):
# 如果精灵处于中毒状态,则中毒计数加一
if self._status == Status.TOX:
self._status_counter += 1
# 遍历精灵的效果列表,如果效果需要计数回合,则计数加一
for effect in self.effects:
if effect.is_turn_countable:
self.effects[effect] += 1
# 精灵失去意识的方法,将当前生命值置为 0,状态置为 FNT
def faint(self):
self._current_hp = 0
self._status = Status.FNT
# 改变形态的方法,根据传入的种类字符串更新精灵的形态
def forme_change(self, species: str):
species = species.split(",")[0]
self._update_from_pokedex(species, store_species=False)
# 恢复生命值的方法,设置精灵的生命状态
def heal(self, hp_status: str):
self.set_hp_status(hp_status)
# 反转增益的方法,将精灵的增益值取反
def invert_boosts(self):
self._boosts = {k: -v for k, v in self._boosts.items()}
# 超级进化的方法,根据传入的进化石字符串进行超级进化
def mega_evolve(self, stone: str):
species_id_str = to_id_str(self.species)
# 根据当前种类判断是否需要超级进化
mega_species = (
species_id_str + "mega"
if not species_id_str.endswith("mega")
else species_id_str
)
# 如果超级进化后的种类存在于资料库中,则更新精灵的种类
if mega_species in self._data.pokedex:
self._update_from_pokedex(mega_species, store_species=False)
# 如果进化石的最后一个字符为 "XYxy" 中的一个,则进行特殊形态的超级进化
elif stone[-1] in "XYxy":
mega_species = mega_species + stone[-1].lower()
self._update_from_pokedex(mega_species, store_species=False)
# 根据移动 ID 进行移动操作,可以设置失败标志和使用标志
def moved(self, move_id: str, failed: bool = False, use: bool = True):
# 重置必须充能标志和准备移动和目标
self._must_recharge = False
self._preparing_move = None
self._preparing_target = None
# 添加移动到精灵的移动列表中
move = self._add_move(move_id, use=use)
# 如果移动是保护反击且未失败,则增加保护反击计数
if move and move.is_protect_counter and not failed:
self._protect_counter += 1
else:
self._protect_counter = 0
# 如果精灵处于睡眠状态,则增加状态计数
if self._status == Status.SLP:
self._status_counter += 1
# 如果移动列表超过4个,则保留当前移动并替换其他移动
if len(self._moves) > 4:
new_moves = {}
# 保留当前移动
if move and move in self._moves.values():
new_moves = {
move_id: m for move_id, m in self._moves.items() if m is move
}
for move in self._moves:
if len(new_moves) == 4:
break
elif move not in new_moves:
new_moves[move] = self._moves[move]
self._moves = new_moves
# 准备移动,设置准备移动和目标
def prepare(self, move_id: str, target: Optional[Pokemon]):
self.moved(move_id, use=False)
move_id = Move.retrieve_id(move_id)
move = self.moves[move_id]
self._preparing_move = move
self._preparing_target = target
# 激怒状态,根据精灵种类更新属性
def primal(self):
species_id_str = to_id_str(self._species)
primal_species = (
species_id_str + "primal"
if not species_id_str.endswith("primal")
else species_id_str
)
self._update_from_pokedex(primal_species, store_species=False)
# 设置属性提升,确保提升值在 -6 到 6 之间
def set_boost(self, stat: str, amount: int):
assert (
abs(amount) <= 6
), f"{stat} of mon {self._species} is not <= 6. Got {amount}"
self._boosts[stat] = int(amount)
# 设置生命值,调用设置生命状态的方法
def set_hp(self, hp_status: str):
self.set_hp_status(hp_status)
# 设置精灵的生命值状态
def set_hp_status(self, hp_status: str):
# 如果生命值状态为 "0 fnt",则将精灵设为失去意识状态并返回
if hp_status == "0 fnt":
self.faint()
return
# 如果生命值状态中包含空格,则分割出生命值和状态
if " " in hp_status:
hp, status = hp_status.split(" ")
# 将状态转换为大写形式并存储在精灵的状态属性中
self._status = Status[status.upper()]
else:
hp = hp_status
# 提取生命值中的数字部分并分割出当前生命值和最大生命值
hp = "".join([c for c in hp if c in "0123456789/"]).split("/")
self._current_hp = int(hp[0])
self._max_hp = int(hp[1])
# 启动效果
def start_effect(self, effect_str: str):
# 从效果字符串中创建效果对象
effect = Effect.from_showdown_message(effect_str)
# 如果效果不在精灵的效果列表中,则添加到列表中;如果效果可以计数,则增加计数
if effect not in self._effects:
self._effects[effect] = 0
elif effect.is_action_countable:
self._effects[effect] += 1
# 如果效果会打破保护状态,则将保护计数器设为0
if effect.breaks_protect:
self._protect_counter = 0
# 交换攻击和特攻提升
def _swap_boosts(self):
self._boosts["atk"], self._boosts["spa"] = (
self._boosts["spa"],
self._boosts["atk"],
)
# 精灵交换上场
def switch_in(self, details: Optional[str] = None):
self._active = True
# 如果有详细信息,则更新精灵状态
if details:
self._update_from_details(details)
self._first_turn = True
self._revealed = True
# 精灵交换下场
def switch_out(self):
self._active = False
self.clear_boosts()
self._clear_effects()
self._first_turn = False
self._must_recharge = False
self._preparing_move = None
self._preparing_target = None
self._protect_counter = 0
# 如果精灵处于中毒状态,则将中毒计数器设为0
if self._status == Status.TOX:
self._status_counter = 0
# 转变为特殊状态
def terastallize(self, type_: str):
# 将精灵的特殊状态类型设为给定类型,并标记为特殊状态
self._terastallized_type = PokemonType.from_name(type_)
self._terastallized = True
# 转变为另一个精灵
def transform(self, into: Pokemon):
current_hp = self.current_hp
# 更新精灵的信息为另一个精灵的信息,但不存储物种信息
self._update_from_pokedex(into.species, store_species=False)
self._current_hp = int(current_hp)
self._boosts = into.boosts.copy()
# 从宝可梦图鉴更新信息,包括种类、基础属性、类型、能力、身高和体重
def _update_from_pokedex(self, species: str, store_species: bool = True):
# 将种类名称转换为小写字符串
species = to_id_str(species)
# 获取宝可梦图鉴中该种类的信息
dex_entry = self._data.pokedex[species]
# 如果需要存储种类信息,则更新当前实例的种类属性
if store_species:
self._species = species
# 更新当前实例的基础属性
self._base_stats = dex_entry["baseStats"]
# 更新当前实例的第一个类型
self._type_1 = PokemonType.from_name(dex_entry["types"][0])
# 如果宝可梦只有一个类型,则第二个类型为空
if len(dex_entry["types"]) == 1:
self._type_2 = None
else:
self._type_2 = PokemonType.from_name(dex_entry["types"][1])
# 将宝可梦可能的能力转换为小写字符串列表
self._possible_abilities = [
to_id_str(ability) for ability in dex_entry["abilities"].values()
]
# 如果宝可梦只有一种可能的能力,则将其设置为当前实例的能力
if len(self._possible_abilities) == 1:
self.ability = self._possible_abilities[0]
# 更新当前实例的身高和体重属性
self._heightm = dex_entry["heightm"]
self._weightkg = dex_entry["weightkg"]
# 从给定的详情字符串更新属性
def _update_from_details(self, details: str):
# 如果详情字符串与上次相同,则直接返回
if details == self._last_details:
return
else:
# 更新上次的详情字符串
self._last_details = details
# 如果详情字符串中包含", shiny",则设置为闪光属性并移除该部分
if ", shiny" in details:
self._shiny = True
details = details.replace(", shiny", "")
else:
self._shiny = False
# 将详情字符串按", "分割
split_details = details.split(", ")
gender = None
level = None
# 遍历分割后的详情字符串
for split_detail in split_details:
# 如果以"tera:"开头,则设置特拉斯化类型并移除该部分
if split_detail.startswith("tera:"):
self._terastallized_type = PokemonType.from_name(split_detail[5:])
split_details.remove(split_detail)
break
# 根据分割后的长度确定物种、等级和性别
if len(split_details) == 3:
species, level, gender = split_details
elif len(split_details) == 2:
if split_details[1].startswith("L"):
species, level = split_details
else:
species, gender = split_details
else:
species = to_id_str(split_details[0])
# 根据性别设置性别属性
if gender:
self._gender = PokemonGender.from_request_details(gender)
else:
self._gender = PokemonGender.NEUTRAL
# 根据等级设置等级属性
if level:
self._level = int(level[1:])
else:
self._level = 100
# 如果物种不同于当前物种,则更新属性
if species != self._species:
self._update_from_pokedex(species)
# 从请求中更新精灵信息
def update_from_request(self, request_pokemon: Dict[str, Any]):
# 更新精灵的活跃状态
self._active = request_pokemon["active"]
# 如果请求的精灵信息与上次请求相同,则直接返回
if request_pokemon == self._last_request:
return
# 根据请求中是否包含能力信息来更新精灵的能力
if "ability" in request_pokemon:
self.ability = request_pokemon["ability"]
elif "baseAbility" in request_pokemon:
self.ability = request_pokemon["baseAbility"]
# 更新上次请求的精灵信息
self._last_request = request_pokemon
# 根据请求中的状态信息更新精灵的血量状态
condition = request_pokemon["condition"]
self.set_hp_status(condition)
# 更新精灵的持有物品
self._item = request_pokemon["item"]
# 更新精灵的详细信息
details = request_pokemon["details"]
self._update_from_details(details)
# 添加请求中的招式到精灵的招式列表中
for move in request_pokemon["moves"]:
self._add_move(move)
# 如果招式数量超过4个,则只保留最新的4个招式
if len(self._moves) > 4:
moves_to_keep = {
Move.retrieve_id(move_id) for move_id in request_pokemon["moves"]
}
self._moves = {
move_id: move
for move_id, move in self._moves.items()
if move_id in moves_to_keep
}
# 使用 Z 招式
def used_z_move(self):
# 将精灵的持有物品设为 None
self._item = None
# 判断是否被幻觉术影响
def was_illusioned(self):
# 重置精灵的血量、最大血量和状态
self._current_hp = None
self._max_hp = None
self._status = None
# 保存上次请求的精灵信息
last_request = self._last_request
self._last_request = None
# 如果存在上次请求的信息,则更新精灵信息并切换出场
if last_request:
self.update_from_request(last_request)
# 切换出场
self.switch_out()
# 根据请求中的信息获取可用的移动列表
def available_moves_from_request(self, request: Dict[str, Any]) -> List[Move]:
# 初始化一个空的移动列表
moves: List[Move] = []
# 从请求中提取可用的移动列表
request_moves: List[str] = [
move["id"] for move in request["moves"] if not move.get("disabled", False)
]
# 遍历请求中的每个移动
for move in request_moves:
# 如果移动在当前角色的移动列表中
if move in self.moves:
# 如果当前角色处于极巨化状态,则添加极巨化后的移动
if self.is_dynamaxed:
moves.append(self.moves[move].dynamaxed)
else:
moves.append(self.moves[move])
# 如果移动是特殊移动
elif move in SPECIAL_MOVES:
moves.append(Move(move, gen=self._data.gen))
# 如果移动是"hiddenpower"且只有一个隐藏能力
elif (
move == "hiddenpower"
and len([m for m in self.moves if m.startswith("hiddenpower")]) == 1
):
moves.append(
[v for m, v in self.moves.items() if m.startswith("hiddenpower")][0]
)
else:
# 断言当前角色的移动列表中包含特定的移动
assert {
"copycat",
"metronome",
"mefirst",
"mirrormove",
"assist",
"transform",
"mimic",
}.intersection(self.moves), (
f"Error with move {move}. Expected self.moves to contain copycat, "
"metronome, mefirst, mirrormove, assist, transform or mimic. Got"
f" {self.moves}"
)
moves.append(Move(move, gen=self._data.gen))
# 返回最终的移动列表
return moves
def damage_multiplier(self, type_or_move: Union[PokemonType, Move]) -> float:
"""
Returns the damage multiplier associated with a given type or move on this
pokemon.
This method is a shortcut for PokemonType.damage_multiplier with relevant types.
:param type_or_move: The type or move of interest.
:type type_or_move: PokemonType or Move
:return: The damage multiplier associated with given type on the pokemon.
:rtype: float
"""
# 如果输入的是 Move 对象,则获取其类型
if isinstance(type_or_move, Move):
type_or_move = type_or_move.type
# 调用 PokemonType.damage_multiplier 方法计算伤害倍率
return type_or_move.damage_multiplier(
self._type_1, self._type_2, type_chart=self._data.type_chart
)
@property
def ability(self) -> Optional[str]:
"""
:return: The pokemon's ability. None if unknown.
:rtype: str, optional
"""
# 返回宝可梦的能力
return self._ability
@ability.setter
def ability(self, ability: Optional[str]):
# 设置宝可梦的能力,如果输入为 None,则设为 None,否则转换为小写字符串
if ability is None:
self._ability = None
else:
self._ability = to_id_str(ability)
@property
def active(self) -> Optional[bool]:
"""
:return: Boolean indicating whether the pokemon is active.
:rtype: bool
"""
# 返回一个布尔值,指示宝可梦是否处于活跃状态
return self._active
@active.setter
def active(self, value: Optional[bool]):
# 设置宝可梦的活跃状态
self.active = value
@property
def available_z_moves(self) -> List[Move]:
"""
Caution: this property is not properly tested yet.
:return: The set of moves that pokemon can use as z-moves.
:rtype: List[Move]
"""
# 检查是否持有 Z 水晶道具,如果是则返回可以使用的 Z 招式列表
if isinstance(self.item, str) and self.item.endswith("iumz"):
type_, move = Z_CRYSTAL[self.item]
if type_:
return [
move
for move in self._moves.values()
if move.type == type_ and move.can_z_move
]
elif move in self._moves:
return [self._moves[move]]
return []
@property
def base_species(self) -> str:
"""
:return: The pokemon's base species.
:rtype: str
"""
# 返回精灵的基础种类
dex_entry = self._data.pokedex[self._species]
if "baseSpecies" in dex_entry:
return to_id_str(dex_entry["baseSpecies"])
return self._species
@property
def base_stats(self) -> Dict[str, int]:
"""
:return: The pokemon's base stats.
:rtype: Dict[str, int]
"""
# 返回精灵的基础属性
return self._base_stats
@property
def boosts(self) -> Dict[str, int]:
"""
:return: The pokemon's boosts.
:rtype: Dict[str, int]
"""
# 返回精灵的属性提升
return self._boosts
@boosts.setter
def boosts(self, value: Dict[str, int]):
self._boosts = value
@property
def current_hp(self) -> int:
"""
:return: The pokemon's current hp. For your pokemons, this is the actual value.
For opponent's pokemon, this value depends on showdown information: it can
be on a scale from 0 to 100 or on a pixel scale.
:rtype: int
"""
# 返回精灵的当前生命值,如果为对手的精灵,则根据信息返回不同的值
return self._current_hp or 0
@property
def current_hp_fraction(self) -> float:
"""
:return: The pokemon's current remaining hp fraction.
:rtype: float
"""
# 计算当前剩余 HP 占总 HP 的比例
if self.current_hp:
return self.current_hp / self.max_hp
return 0
@property
def effects(self) -> Dict[Effect, int]:
"""
:return: A Dict mapping the effects currently affecting the pokemon and the
associated counter.
:rtype: Dict[Effect, int]
"""
# 返回当前影响宝可梦的效果及其计数的字典
return self._effects
@property
def fainted(self) -> bool:
"""
:return: Wheter the pokemon has fainted.
:rtype: bool
"""
# 返回宝可梦是否已经倒下
return Status.FNT == self._status
@property
def first_turn(self) -> bool:
"""
:return: Wheter this is this pokemon's first action since its last switch in.
:rtype: bool
"""
# 返回这只宝可梦自上次交换以来是否第一次行动
return self._first_turn
@property
def gender(self) -> Optional[PokemonGender]:
"""
:return: The pokemon's gender.
:rtype: PokemonGender, optional
"""
# 返回宝可梦的性别
return self._gender
@property
def height(self) -> float:
"""
:return: The pokemon's height, in meters.
:rtype: float
"""
# 返回宝可梦的身高,单位为米
return self._heightm
@property
def is_dynamaxed(self) -> bool:
"""
:return: Whether the pokemon is currently dynamaxed
:rtype: bool
"""
# 返回宝可梦当前是否处于极巨化状态
return Effect.DYNAMAX in self.effects
@property
def item(self) -> Optional[str]:
"""
:return: The pokemon's item.
:rtype: str | None
"""
# 返回宝可梦携带的物品
return self._item
@item.setter
def item(self, item: Optional[str]):
# 设置宝可梦携带的物品
self._item = item
@property
def level(self) -> int:
"""
:return: The pokemon's level.
:rtype: int
"""
# 返回宝可梦的等级
return self._level
@property
def max_hp(self) -> int:
"""
:return: The pokemon's max hp. For your pokemons, this is the actual value.
For opponent's pokemon, this value depends on showdown information: it can
be on a scale from 0 to 100 or on a pixel scale.
:rtype: int
"""
# 返回精灵的最大生命值,如果没有则返回0
return self._max_hp or 0
@property
def moves(self) -> Dict[str, Move]:
"""
:return: A dictionary of the pokemon's known moves.
:rtype: Dict[str, Move]
"""
# 返回精灵已知招式的字典
return self._moves
@property
def must_recharge(self) -> bool:
"""
:return: A boolean indicating whether the pokemon must recharge.
:rtype: bool
"""
# 返回一个布尔值,指示精灵是否需要充能
return self._must_recharge
@must_recharge.setter
def must_recharge(self, value: bool):
# 设置精灵是否需要充能
self._must_recharge = value
@property
def pokeball(self) -> Optional[str]:
"""
:return: The pokeball in which is the pokemon.
:rtype: str | None
"""
# 返回精灵所在的精灵球
if self._last_request is not None:
return self._last_request.get("pokeball", None)
@property
def possible_abilities(self) -> List[str]:
"""
:return: The list of possible abilities for this pokemon.
:rtype: List[str]
"""
# 返回该精灵可能的能力列表
return self._possible_abilities
@property
def preparing(self) -> bool:
"""
:return: Whether this pokemon is preparing a multi-turn move.
:rtype: bool
"""
# 返回一个布尔值,指示该精灵是否正在准备多回合招式
return bool(self._preparing_target) or bool(self._preparing_move)
@property
def preparing_target(self) -> Optional[Union[bool, Pokemon]]:
"""
:return: The moves target - optional.
:rtype: Any
"""
# 返回准备的招式目标,可选
return self._preparing_target
@property
def preparing_move(self) -> Optional[Move]:
"""
:return: The move being prepared - optional.
:rtype: Move, optional
"""
# 返回正在准备的招式,可选
return self._preparing_move
@property
def protect_counter(self) -> int:
"""
:return: How many protect-like moves where used in a row by this pokemon.
:rtype: int
"""
# 返回该精灵连续使用保护类招式的次数
return self._protect_counter
@property
def revealed(self) -> bool:
"""
:return: Whether this pokemon has appeared in the current battle.
:rtype: bool
"""
# 返回该精灵是否已经在当前战斗中出现过
return self._revealed
@property
def shiny(self) -> bool:
"""
:return: Whether this pokemon is shiny.
:rtype: bool
"""
# 返回该精灵是否为闪光精灵
return bool(self._shiny)
@property
def species(self) -> str:
"""
:return: The pokemon's species.
:rtype: str | None
"""
# 返回该精灵的种类
return self._species
@property
def stats(self) -> Optional[Dict[str, Optional[int]]]:
"""
:return: The pokemon's stats, as a dictionary.
:rtype: Dict[str, int | None]
"""
# 如果上一个请求存在,则返回上一个请求中的stats,否则返回默认值
if self._last_request is not None:
return self._last_request.get(
"stats",
{"atk": None, "def": None, "spa": None, "spd": None, "spe": None},
)
@property
def status(self) -> Optional[Status]:
"""
:return: The pokemon's status.
:rtype: Optional[Status]
"""
# 返回该精灵的状态
return self._status
# 计算精灵的属性值,包括IV和EV
def calculate_stats(self, ivs=(31,) * 6, evs=(85,) * 6):
# 定义一个内部函数,用于计算精灵的属性值
def common_pkmn_stat_calc(stat: int, iv: int, ev: int, level: int):
return math.floor(((2 * stat + iv + math.floor(ev / 4)) * level) / 100)
# 创建一个新的属性字典
new_stats = dict()
# 计算并更新HP属性值
new_stats['hp'] = common_pkmn_stat_calc(
self._base_stats['hp'],
ivs[0],
evs[0],
self._level
) + self._level + 10
# 计算并更新攻击属性值
new_stats['atk'] = common_pkmn_stat_calc(
self._base_stats['atk'],
ivs[1],
evs[1],
self._level
) + 5
# 计算并更新防御属性值
new_stats['def'] = common_pkmn_stat_calc(
self._base_stats['def'],
ivs[2],
evs[2],
self._level
) + 5
# 计算并更新特攻属性值
new_stats['spa'] = common_pkmn_stat_calc(
self._base_stats['spa'],
ivs[3],
evs[3],
self._level
) + 5
# 计算并更新特防属性值
new_stats['spd'] = common_pkmn_stat_calc(
self._base_stats['spd'],
ivs[4],
evs[4],
self._level
) + 5
# 计算并更新速度属性值
new_stats['spe'] = common_pkmn_stat_calc(
self._base_stats['spe'],
ivs[5],
evs[5],
self._level
) + 5
# 将属性值转换为整数
new_stats = {k: int(v) for k, v in new_stats.items()}
# 返回新的属性字典
return new_stats
# 属性装饰器
@property
# 返回宝可梦的状态回合计数。只计算中毒和睡眠状态。
def status_counter(self) -> int:
"""
:return: The pokemon's status turn count. Only counts TOXIC and SLEEP statuses.
:rtype: int
"""
return self._status_counter
# 设置宝可梦的状态
@status.setter
def status(self, status: Optional[Union[Status, str]]):
self._status = Status[status.upper()] if isinstance(status, str) else status
# 返回宝可梦的STAB倍数
@property
def stab_multiplier(self) -> float:
"""
:return: The pokemon's STAB multiplier.
:rtype: float
"""
if self._terastallized and self._terastallized_type in (
self._type_1,
self._type_2,
):
return 2
return 1
# 返回宝可梦当前是否处于terastallized状态
@property
def terastallized(self) -> bool:
"""
:return: Whether the pokemon is currently terastallized
:rtype: bool
"""
return self._terastallized
# 返回宝可梦的第一个类型
@property
def type_1(self) -> PokemonType:
"""
:return: The pokemon's first type.
:rtype: PokemonType
"""
if self._terastallized and self._terastallized_type is not None:
return self._terastallized_type
return self._type_1
# 返回宝可梦的第二个类型
@property
def type_2(self) -> Optional[PokemonType]:
"""
:return: The pokemon's second type.
:rtype: Optional[PokemonType]
"""
if self._terastallized:
return None
return self._type_2
# 返回宝可梦的类型,以元组形式返回
@property
def types(self) -> Tuple[PokemonType, Optional[PokemonType]]:
"""
:return: The pokemon's types, as a tuple.
:rtype: Tuple[PokemonType, Optional[PokemonType]]
"""
return self.type_1, self._type_2
# 返回宝可梦的重量,单位为千克
@property
def weight(self) -> float:
"""
:return: The pokemon's weight, in kilograms.
:rtype: float
"""
return self._weightkg
.\PokeLLMon\poke_env\environment\pokemon_gender.py
"""
This module defines the PokemonGender class, which represents the gender of a Pokemon.
"""
# 导入必要的模块
from __future__ import annotations
from enum import Enum, auto, unique
from poke_env.exceptions import ShowdownException
# 定义 PokemonGender 枚举类
@unique
class PokemonGender(Enum):
"""Enumeration, represent a pokemon's gender."""
# 定义枚举值
FEMALE = auto()
MALE = auto()
NEUTRAL = auto()
# 定义对象的字符串表示
def __str__(self) -> str:
return f"{self.name} (pokemon gender) object"
# 根据接收到的性别信息返回对应的 PokemonGender 对象
@staticmethod
def from_request_details(gender: str) -> PokemonGender:
"""Returns the PokemonGender object corresponding to the gender received in a message.
:param gender: The received gender to convert.
:type gender: str
:return: The corresponding PokemonGenre object.
:rtype: PokemonGenre
"""
if gender == "M":
return PokemonGender.MALE
elif gender == "F":
return PokemonGender.FEMALE
# 抛出异常,表示未处理的请求性别
raise ShowdownException("Unmanaged request gender: '%s'", gender)
.\PokeLLMon\poke_env\environment\pokemon_type.py
"""This module defines the PokemonType class, which represents a Pokemon type.
PokemonTypes are mainly associated with Pokemons and moves.
"""
# 导入必要的模块
from __future__ import annotations
from enum import Enum, auto, unique
from typing import Dict, Optional
# 定义 PokemonType 枚举类
@unique
class PokemonType(Enum):
"""A Pokemon type
This enumeration represents pokemon types. Each type is an instance of this class,
whose name corresponds to the upper case spelling of its english name (ie. FIRE).
"""
# 定义不同的 Pokemon 类型
BUG = auto()
DARK = auto()
DRAGON = auto()
ELECTRIC = auto()
FAIRY = auto()
FIGHTING = auto()
FIRE = auto()
FLYING = auto()
GHOST = auto()
GRASS = auto()
GROUND = auto()
ICE = auto()
NORMAL = auto()
POISON = auto()
PSYCHIC = auto()
ROCK = auto()
STEEL = auto()
WATER = auto()
THREE_QUESTION_MARKS = auto()
# 返回 Pokemon 类型对象的字符串表示
def __str__(self) -> str:
return f"{self.name} (pokemon type) object"
# 计算该类型对于具有 type_1 和 type_2 类型的宝可梦的伤害倍率
def damage_multiplier(
self,
type_1: PokemonType,
type_2: Optional[PokemonType] = None,
*,
type_chart: Dict[str, Dict[str, float]],
) -> float:
"""Computes the damage multiplier from this type on a pokemon with types `type_1`
and, optionally, `type_2`.
:param type_1: The first type of the target.
:type type_1: PokemonType
:param type_2: The second type of the target. Defaults to None.
:type type_2: PokemonType, optional
:return: The damage multiplier from this type on a pokemon with types `type_1`
and, optionally, `type_2`.
:rtype: float
"""
# 如果类型为 THREE_QUESTION_MARKS,则返回伤害倍率为 1
if (
self == PokemonType.THREE_QUESTION_MARKS
or type_1 == PokemonType.THREE_QUESTION_MARKS
):
return 1
# 计算伤害倍率
damage_multiplier = type_chart[type_1.name][self.name]
if type_2 is not None:
return damage_multiplier * type_chart[type_2.name][self.name]
return damage_multiplier
# 从给定名称返回对应的 PokemonType 对象
@staticmethod
def from_name(name: str) -> PokemonType:
"""Returns a pokemon type based on its name.
:param name: The name of the pokemon type.
:type name: str
:return: The corresponding type object.
:rtype: PokemonType
"""
# 如果名称为 "???",返回特定的 PokemonType 对象
if name == "???":
return PokemonType.THREE_QUESTION_MARKS
# 否则根据名称在 PokemonType 枚举中查找对应的对象并返回
return PokemonType[name.upper()]
.\PokeLLMon\poke_env\environment\side_condition.py
"""This module defines the SideCondition class, which represents a in-battle side
condition.
"""
# 导入日志记录模块
import logging
# 导入枚举模块
from enum import Enum, auto, unique
# 定义一个枚举类,表示战斗中的一侧状态
@unique
class SideCondition(Enum):
"""Enumeration, represent a in-battle side condition."""
UNKNOWN = auto()
AURORA_VEIL = auto()
FIRE_PLEDGE = auto()
G_MAX_CANNONADE = auto()
G_MAX_STEELSURGE = auto()
G_MAX_VINE_LASH = auto()
G_MAX_VOLCALITH = auto()
G_MAX_WILDFIRE = auto()
GRASS_PLEDGE = auto()
LIGHT_SCREEN = auto()
LUCKY_CHANT = auto()
MIST = auto()
REFLECT = auto()
SAFEGUARD = auto()
SPIKES = auto()
STEALTH_ROCK = auto()
STICKY_WEB = auto()
TAILWIND = auto()
TOXIC_SPIKES = auto()
WATER_PLEDGE = auto()
# 返回对象的字符串表示形式
def __str__(self) -> str:
return f"{self.name} (side condition) object"
@staticmethod
def from_showdown_message(message: str):
"""Returns the SideCondition object corresponding to the message.
:param message: The message to convert.
:type message: str
:return: The corresponding SideCondition object.
:rtype: SideCondition
"""
# 替换消息中的特定字符
message = message.replace("move: ", "")
message = message.replace(" ", "_")
message = message.replace("-", "_")
try:
# 尝试返回对应的 SideCondition 对象
return SideCondition[message.upper()]
except KeyError:
# 如果未找到对应的对象,则记录警告信息
logging.getLogger("poke-env").warning(
"Unexpected side condition '%s' received. SideCondition.UNKNOWN will be"
" used instead. If this is unexpected, please open an issue at "
"https://github.com/hsahovic/poke-env/issues/ along with this error "
"message and a description of your program.",
message,
)
return SideCondition.UNKNOWN
# SideCondition -> Max useful stack level
# 定义可叠加状态及其最大叠加层数的字典
STACKABLE_CONDITIONS = {SideCondition.SPIKES: 3, SideCondition.TOXIC_SPIKES: 2}
.\PokeLLMon\poke_env\environment\status.py
"""
This module defines the Status class, which represents statuses a pokemon can be afflicted with.
"""
# 导入必要的模块
from enum import Enum, auto, unique
# 定义 Status 类,表示宝可梦可能受到的状态
@unique
class Status(Enum):
"""Enumeration, represent a status a pokemon can be afflicted with."""
# 定义不同的状态
BRN = auto() # 烧伤状态
FNT = auto() # 濒死状态
FRZ = auto() # 冰冻状态
PAR = auto() # 麻痹状态
PSN = auto() # 中毒状态
SLP = auto() # 睡眠状态
TOX = auto() # 中毒状态(剧毒)
# 定义 __str__ 方法,返回状态对象的字符串表示
def __str__(self) -> str:
return f"{self.name} (status) object"
.\PokeLLMon\poke_env\environment\weather.py
"""This module defines the Weather class, which represents a in-battle weather.
"""
# 导入日志记录模块
import logging
# 导入枚举模块
from enum import Enum, auto, unique
# 定义 Weather 枚举类
@unique
class Weather(Enum):
"""Enumeration, represent a non null weather in a battle."""
# 枚举值
UNKNOWN = auto()
DESOLATELAND = auto()
DELTASTREAM = auto()
HAIL = auto()
PRIMORDIALSEA = auto()
RAINDANCE = auto()
SANDSTORM = auto()
SNOW = auto()
SUNNYDAY = auto()
# 返回对象的字符串表示
def __str__(self) -> str:
return f"{self.name} (weather) object"
# 根据 Showdown 消息返回对应的 Weather 对象
@staticmethod
def from_showdown_message(message: str):
"""Returns the Weather object corresponding to the message.
:param message: The message to convert.
:type message: str
:return: The corresponding Weather object.
:rtype: Weather
"""
# 处理消息字符串
message = message.replace("move: ", "")
message = message.replace(" ", "_")
message = message.replace("-", "_")
try:
# 尝试从枚举中获取对应的 Weather 对象
return Weather[message.upper()]
except KeyError:
# 如果未找到对应的 Weather 对象,则记录警告并返回 UNKNOWN
logging.getLogger("poke-env").warning(
"Unexpected weather '%s' received. Weather.UNKNOWN will be used "
"instead. If this is unexpected, please open an issue at "
"https://github.com/hsahovic/poke-env/issues/ along with this error "
"message and a description of your program.",
message,
)
return Weather.UNKNOWN
.\PokeLLMon\poke_env\environment\z_crystal.py
"""This module contains objects related ot z-crystal management. It should not be used
directly.
"""
# 导入必要的类型
from typing import Dict, Optional, Tuple
# 定义一个字典,存储 Z 晶石的信息,键为晶石名称,值为元组,元组包含两个元素:对应的宝可梦属性和招式
Z_CRYSTAL: Dict[str, Tuple[Optional[PokemonType], Optional[str]]] = {
"buginiumz": (PokemonType.BUG, None),
"darkiniumz": (PokemonType.DARK, None),
"dragoniumz": (PokemonType.DRAGON, None),
"electriumz": (PokemonType.ELECTRIC, None),
"fairiumz": (PokemonType.FAIRY, None),
"fightiniumz": (PokemonType.FIGHTING, None),
"firiumz": (PokemonType.FIRE, None),
"flyiniumz": (PokemonType.FLYING, None),
"ghostiumz": (PokemonType.GHOST, None),
"grassiumz": (PokemonType.GRASS, None),
"groundiumz": (PokemonType.GROUND, None),
"iciumz": (PokemonType.ICE, None),
"normaliumz": (PokemonType.NORMAL, None),
"poisoniumz": (PokemonType.POISON, None),
"psychiumz": (PokemonType.PSYCHIC, None),
"rockiumz": (PokemonType.ROCK, None),
"steeliumz": (PokemonType.STEEL, None),
"wateriumz": (PokemonType.WATER, None),
"aloraichiumz": (None, "thunderbolt"),
"decidiumz": (None, "spiritshackle"),
"eeviumz": (None, "lastresort"),
"inciniumz": (None, "darkestlariat"),
"kommoniumz": (None, "clangingscales"),
"lunaliumz": (None, "moongeistbeam"),
"lycaniumz": (None, "stoneedge"),
"marshadiumz": (None, "spectralthief"),
"mewniumz": (None, "psychic"),
"mimikiumz": (None, "playrough"),
"pikaniumz": (None, "volttackle"),
"pikashuniumz": (None, "thunderbolt"),
"primariumz": (None, "sparklingaria"),
"snorliumz": (None, "gigaimpact"),
"solganiumz": (None, "sunsteelstrike"),
"tapuniumz": (None, "naturesmadness"),
"ultranecroziumz": (None, "photongeyser"),
}
.\PokeLLMon\poke_env\environment\__init__.py
# 从 poke_env.environment 模块中导入各种类和常量
from poke_env.environment import (
abstract_battle,
battle,
double_battle,
effect,
field,
move,
move_category,
pokemon,
pokemon_gender,
pokemon_type,
side_condition,
status,
weather,
z_crystal,
)
# 从 poke_env.environment.abstract_battle 模块中导入 AbstractBattle 类
from poke_env.environment.abstract_battle import AbstractBattle
# 从 poke_env.environment.battle 模块中导入 Battle 类
from poke_env.environment.battle import Battle
# 从 poke_env.environment.double_battle 模块中导入 DoubleBattle 类
from poke_env.environment.double_battle import DoubleBattle
# 从 poke_env.environment.effect 模块中导入 Effect 类
from poke_env.environment.effect import Effect
# 从 poke_env.environment.field 模块中导入 Field 类
from poke_env.environment.field import Field
# 从 poke_env.environment.move 模块中导入 SPECIAL_MOVES, EmptyMove, Move 类
from poke_env.environment.move import SPECIAL_MOVES, EmptyMove, Move
# 从 poke_env.environment.move_category 模块中导入 MoveCategory 类
from poke_env.environment.move_category import MoveCategory
# 从 poke_env.environment.pokemon 模块中导入 Pokemon 类
from poke_env.environment.pokemon import Pokemon
# 从 poke_env.environment.pokemon_gender 模块中导入 PokemonGender 类
from poke_env.environment.pokemon_gender import PokemonGender
# 从 poke_env.environment.pokemon_type 模块中导入 PokemonType 类
from poke_env.environment.pokemon_type import PokemonType
# 从 poke_env.environment.side_condition 模块中导入 STACKABLE_CONDITIONS, SideCondition 类
from poke_env.environment.side_condition import STACKABLE_CONDITIONS, SideCondition
# 从 poke_env.environment.status 模块中导入 Status 类
from poke_env.environment.status import Status
# 从 poke_env.environment.weather 模块中导入 Weather 类
from poke_env.environment.weather import Weather
# 从 poke_env.environment.z_crystal 模块中导入 Z_CRYSTAL 类
from poke_env.environment.z_crystal import Z_CRYSTAL
# 定义 __all__ 列表,包含所有导入的类和常量的名称
__all__ = [
"AbstractBattle",
"Battle",
"DoubleBattle",
"Effect",
"EmptyMove",
"Field",
"Move",
"MoveCategory",
"Pokemon",
"PokemonGender",
"PokemonType",
"SPECIAL_MOVES",
"STACKABLE_CONDITIONS",
"SideCondition",
"Status",
"Weather",
"Z_CRYSTAL",
"abstract_battle",
"battle",
"double_battle",
"effect",
"field",
"move",
"move_category",
"pokemon",
"pokemon_gender",
"pokemon_type",
"side_condition",
"status",
"weather",
"z_crystal",
]
标签:return,
self,
move,
源码,
Pok,
str,
._,
LLMon,
def
From: https://www.cnblogs.com/apachecn/p/18058926