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Options.py
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Options.py
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from __future__ import annotations
import abc
import functools
import logging
import math
import numbers
import random
import typing
from copy import deepcopy
from dataclasses import dataclass
from schema import And, Optional, Or, Schema
from Utils import get_fuzzy_results, is_iterable_of_str
if typing.TYPE_CHECKING:
from BaseClasses import PlandoOptions
from worlds.AutoWorld import World
import pathlib
class AssembleOptions(abc.ABCMeta):
def __new__(mcs, name, bases, attrs):
options = attrs["options"] = {}
name_lookup = attrs["name_lookup"] = {}
# merge parent class options
for base in bases:
if getattr(base, "options", None):
options.update(base.options)
name_lookup.update(base.name_lookup)
new_options = {name[7:].lower(): option_id for name, option_id in attrs.items() if
name.startswith("option_")}
assert "random" not in new_options, "Choice option 'random' cannot be manually assigned."
assert len(new_options) == len(set(new_options.values())), "same ID cannot be used twice. Try alias?"
attrs["name_lookup"].update({option_id: name for name, option_id in new_options.items()})
options.update(new_options)
# apply aliases, without name_lookup
aliases = {name[6:].lower(): option_id for name, option_id in attrs.items() if
name.startswith("alias_")}
assert "random" not in aliases, "Choice option 'random' cannot be manually assigned."
# auto-alias Off and On being parsed as True and False
if "off" in options:
options["false"] = options["off"]
if "on" in options:
options["true"] = options["on"]
options.update(aliases)
if "verify" not in attrs:
# not overridden by class -> look up bases
verifiers = [f for f in (getattr(base, "verify", None) for base in bases) if f]
if len(verifiers) > 1: # verify multiple bases/mixins
def verify(self, *args, **kwargs) -> None:
for f in verifiers:
f(self, *args, **kwargs)
attrs["verify"] = verify
else:
assert verifiers, "class Option is supposed to implement def verify"
# auto-validate schema on __init__
if "schema" in attrs.keys():
if "__init__" in attrs:
def validate_decorator(func):
def validate(self, *args, **kwargs):
ret = func(self, *args, **kwargs)
self.value = self.schema.validate(self.value)
return ret
return validate
attrs["__init__"] = validate_decorator(attrs["__init__"])
else:
# construct an __init__ that calls parent __init__
cls = super(AssembleOptions, mcs).__new__(mcs, name, bases, attrs)
def meta__init__(self, *args, **kwargs):
super(cls, self).__init__(*args, **kwargs)
self.value = self.schema.validate(self.value)
cls.__init__ = meta__init__
return cls
return super(AssembleOptions, mcs).__new__(mcs, name, bases, attrs)
T = typing.TypeVar('T')
class Option(typing.Generic[T], metaclass=AssembleOptions):
value: T
default = 0
# convert option_name_long into Name Long as display_name, otherwise name_long is the result.
# Handled in get_option_name()
auto_display_name = False
# can be weighted between selections
supports_weighting = True
# filled by AssembleOptions:
name_lookup: typing.Dict[T, str]
options: typing.Dict[str, int]
def __repr__(self) -> str:
return f"{self.__class__.__name__}({self.current_option_name})"
def __hash__(self) -> int:
return hash(self.value)
@property
def current_key(self) -> str:
return self.name_lookup[self.value]
def get_current_option_name(self) -> str:
"""Deprecated. use current_option_name instead. TODO remove around 0.4"""
logging.warning(DeprecationWarning(f"get_current_option_name for {self.__class__.__name__} is deprecated."
f" use current_option_name instead. Worlds should use {self}.current_key"))
return self.current_option_name
@property
def current_option_name(self) -> str:
"""For display purposes. Worlds should be using current_key."""
return self.get_option_name(self.value)
@classmethod
def get_option_name(cls, value: T) -> str:
if cls.auto_display_name:
return cls.name_lookup[value].replace("_", " ").title()
else:
return cls.name_lookup[value]
def __int__(self) -> T:
return self.value
def __bool__(self) -> bool:
return bool(self.value)
@classmethod
@abc.abstractmethod
def from_any(cls, data: typing.Any) -> Option[T]:
...
if typing.TYPE_CHECKING:
def verify(self, world: typing.Type[World], player_name: str, plando_options: PlandoOptions) -> None:
pass
else:
def verify(self, *args, **kwargs) -> None:
pass
class FreeText(Option[str]):
"""Text option that allows users to enter strings.
Needs to be validated by the world or option definition."""
def __init__(self, value: str):
assert isinstance(value, str), "value of FreeText must be a string"
self.value = value
@property
def current_key(self) -> str:
return self.value
@classmethod
def from_text(cls, text: str) -> FreeText:
return cls(text)
@classmethod
def from_any(cls, data: typing.Any) -> FreeText:
return cls.from_text(str(data))
@classmethod
def get_option_name(cls, value: str) -> str:
return value
class NumericOption(Option[int], numbers.Integral, abc.ABC):
default = 0
# note: some of the `typing.Any`` here is a result of unresolved issue in python standards
# `int` is not a `numbers.Integral` according to the official typestubs
# (even though isinstance(5, numbers.Integral) == True)
# https://github.com/python/typing/issues/272
# https://github.com/python/mypy/issues/3186
# https://github.com/microsoft/pyright/issues/1575
def __eq__(self, other: typing.Any) -> bool:
if isinstance(other, NumericOption):
return self.value == other.value
else:
return typing.cast(bool, self.value == other)
def __lt__(self, other: typing.Union[int, NumericOption]) -> bool:
if isinstance(other, NumericOption):
return self.value < other.value
else:
return self.value < other
def __le__(self, other: typing.Union[int, NumericOption]) -> bool:
if isinstance(other, NumericOption):
return self.value <= other.value
else:
return self.value <= other
def __gt__(self, other: typing.Union[int, NumericOption]) -> bool:
if isinstance(other, NumericOption):
return self.value > other.value
else:
return self.value > other
def __ge__(self, other: typing.Union[int, NumericOption]) -> bool:
if isinstance(other, NumericOption):
return self.value >= other.value
else:
return self.value >= other
def __bool__(self) -> bool:
return bool(self.value)
def __int__(self) -> int:
return self.value
def __mul__(self, other: typing.Any) -> typing.Any:
if isinstance(other, NumericOption):
return self.value * other.value
else:
return self.value * other
def __rmul__(self, other: typing.Any) -> typing.Any:
if isinstance(other, NumericOption):
return other.value * self.value
else:
return other * self.value
def __sub__(self, other: typing.Any) -> typing.Any:
if isinstance(other, NumericOption):
return self.value - other.value
else:
return self.value - other
def __rsub__(self, left: typing.Any) -> typing.Any:
if isinstance(left, NumericOption):
return left.value - self.value
else:
return left - self.value
def __add__(self, other: typing.Any) -> typing.Any:
if isinstance(other, NumericOption):
return self.value + other.value
else:
return self.value + other
def __radd__(self, left: typing.Any) -> typing.Any:
if isinstance(left, NumericOption):
return left.value + self.value
else:
return left + self.value
def __truediv__(self, other: typing.Any) -> typing.Any:
if isinstance(other, NumericOption):
return self.value / other.value
else:
return self.value / other
def __rtruediv__(self, left: typing.Any) -> typing.Any:
if isinstance(left, NumericOption):
return left.value / self.value
else:
return left / self.value
def __abs__(self) -> typing.Any:
return abs(self.value)
def __and__(self, other: typing.Any) -> int:
return self.value & int(other)
def __ceil__(self) -> int:
return math.ceil(self.value)
def __floor__(self) -> int:
return math.floor(self.value)
def __floordiv__(self, other: typing.Any) -> int:
return self.value // int(other)
def __invert__(self) -> int:
return ~(self.value)
def __lshift__(self, other: typing.Any) -> int:
return self.value << int(other)
def __mod__(self, other: typing.Any) -> int:
return self.value % int(other)
def __neg__(self) -> int:
return -(self.value)
def __or__(self, other: typing.Any) -> int:
return self.value | int(other)
def __pos__(self) -> int:
return +(self.value)
def __pow__(self, exponent: numbers.Complex, modulus: typing.Optional[numbers.Integral] = None) -> int:
if not (modulus is None):
assert isinstance(exponent, numbers.Integral)
return pow(self.value, exponent, modulus) # type: ignore
return self.value ** exponent # type: ignore
def __rand__(self, other: typing.Any) -> int:
return int(other) & self.value
def __rfloordiv__(self, other: typing.Any) -> int:
return int(other) // self.value
def __rlshift__(self, other: typing.Any) -> int:
return int(other) << self.value
def __rmod__(self, other: typing.Any) -> int:
return int(other) % self.value
def __ror__(self, other: typing.Any) -> int:
return int(other) | self.value
def __round__(self, ndigits: typing.Optional[int] = None) -> int:
return round(self.value, ndigits)
def __rpow__(self, base: typing.Any) -> typing.Any:
return base ** self.value
def __rrshift__(self, other: typing.Any) -> int:
return int(other) >> self.value
def __rshift__(self, other: typing.Any) -> int:
return self.value >> int(other)
def __rxor__(self, other: typing.Any) -> int:
return int(other) ^ self.value
def __trunc__(self) -> int:
return math.trunc(self.value)
def __xor__(self, other: typing.Any) -> int:
return self.value ^ int(other)
class Toggle(NumericOption):
option_false = 0
option_true = 1
default = 0
def __init__(self, value: int):
assert value == 0 or value == 1, "value of Toggle can only be 0 or 1"
self.value = value
@classmethod
def from_text(cls, text: str) -> Toggle:
if text == "random":
return cls(random.choice(list(cls.name_lookup)))
elif text.lower() in {"off", "0", "false", "none", "null", "no"}:
return cls(0)
else:
return cls(1)
@classmethod
def from_any(cls, data: typing.Any):
if type(data) == str:
return cls.from_text(data)
else:
return cls(int(data))
@classmethod
def get_option_name(cls, value):
return ["No", "Yes"][int(value)]
__hash__ = Option.__hash__ # see https://docs.python.org/3/reference/datamodel.html#object.__hash__
class DefaultOnToggle(Toggle):
default = 1
class Choice(NumericOption):
auto_display_name = True
def __init__(self, value: int):
self.value: int = value
@classmethod
def from_text(cls, text: str) -> Choice:
text = text.lower()
if text == "random":
return cls(random.choice(list(cls.name_lookup)))
for option_name, value in cls.options.items():
if option_name == text:
return cls(value)
raise KeyError(
f'Could not find option "{text}" for "{cls.__name__}", '
f'known options are {", ".join(f"{option}" for option in cls.name_lookup.values())}')
@classmethod
def from_any(cls, data: typing.Any) -> Choice:
if type(data) == int and data in cls.options.values():
return cls(data)
return cls.from_text(str(data))
def __eq__(self, other):
if isinstance(other, self.__class__):
return other.value == self.value
elif isinstance(other, str):
assert other in self.options, f"compared against a str that could never be equal. {self} == {other}"
return other == self.current_key
elif isinstance(other, int):
assert other in self.name_lookup, f"compared against an int that could never be equal. {self} == {other}"
return other == self.value
elif isinstance(other, bool):
return other == bool(self.value)
else:
raise TypeError(f"Can't compare {self.__class__.__name__} with {other.__class__.__name__}")
def __ne__(self, other):
if isinstance(other, self.__class__):
return other.value != self.value
elif isinstance(other, str):
assert other in self.options, f"compared against a str that could never be equal. {self} != {other}"
return other != self.current_key
elif isinstance(other, int):
assert other in self.name_lookup, f"compared against am int that could never be equal. {self} != {other}"
return other != self.value
elif isinstance(other, bool):
return other != bool(self.value)
elif other is None:
return False
else:
raise TypeError(f"Can't compare {self.__class__.__name__} with {other.__class__.__name__}")
__hash__ = Option.__hash__ # see https://docs.python.org/3/reference/datamodel.html#object.__hash__
class TextChoice(Choice):
"""Allows custom string input and offers choices. Choices will resolve to int and text will resolve to string"""
value: typing.Union[str, int]
def __init__(self, value: typing.Union[str, int]):
assert isinstance(value, str) or isinstance(value, int), \
f"{value} is not a valid option for {self.__class__.__name__}"
self.value = value
@property
def current_key(self) -> str:
if isinstance(self.value, str):
return self.value
return super().current_key
@classmethod
def from_text(cls, text: str) -> TextChoice:
if text.lower() == "random": # chooses a random defined option but won't use any free text options
return cls(random.choice(list(cls.name_lookup)))
for option_name, value in cls.options.items():
if option_name.lower() == text.lower():
return cls(value)
return cls(text)
@classmethod
def get_option_name(cls, value: T) -> str:
if isinstance(value, str):
return value
return super().get_option_name(value)
def __eq__(self, other: typing.Any):
if isinstance(other, self.__class__):
return other.value == self.value
elif isinstance(other, str):
if other in self.options:
return other == self.current_key
return other == self.value
elif isinstance(other, int):
assert other in self.name_lookup, f"compared against an int that could never be equal. {self} == {other}"
return other == self.value
elif isinstance(other, bool):
return other == bool(self.value)
else:
raise TypeError(f"Can't compare {self.__class__.__name__} with {other.__class__.__name__}")
class BossMeta(AssembleOptions):
def __new__(mcs, name, bases, attrs):
if name != "PlandoBosses":
assert "bosses" in attrs, f"Please define valid bosses for {name}"
attrs["bosses"] = frozenset((boss.lower() for boss in attrs["bosses"]))
assert "locations" in attrs, f"Please define valid locations for {name}"
attrs["locations"] = frozenset((location.lower() for location in attrs["locations"]))
cls = super().__new__(mcs, name, bases, attrs)
assert not cls.duplicate_bosses or "singularity" in cls.options, f"Please define option_singularity for {name}"
return cls
class PlandoBosses(TextChoice, metaclass=BossMeta):
"""Generic boss shuffle option that supports plando. Format expected is
'location1-boss1;location2-boss2;shuffle_mode'.
If shuffle_mode is not provided in the string, this will be the default shuffle mode. Must override can_place_boss,
which passes a plando boss and location. Check if the placement is valid for your game here."""
bosses: typing.ClassVar[typing.Union[typing.Set[str], typing.FrozenSet[str]]]
locations: typing.ClassVar[typing.Union[typing.Set[str], typing.FrozenSet[str]]]
duplicate_bosses: bool = False
@classmethod
def from_text(cls, text: str):
# set all of our text to lower case for name checking
text = text.lower()
if text == "random":
return cls(random.choice(list(cls.options.values())))
for option_name, value in cls.options.items():
if option_name == text:
return cls(value)
options = text.split(";")
# since plando exists in the option verify the plando values given are valid
cls.validate_plando_bosses(options)
return cls.get_shuffle_mode(options)
@classmethod
def get_shuffle_mode(cls, option_list: typing.List[str]):
# find out what mode of boss shuffle we should use for placing bosses after plando
# and add as a string to look nice in the spoiler
if "random" in option_list:
shuffle = random.choice(list(cls.options))
option_list.remove("random")
options = ";".join(option_list) + f";{shuffle}"
boss_class = cls(options)
else:
for option in option_list:
if option in cls.options:
options = ";".join(option_list)
break
else:
if cls.duplicate_bosses and len(option_list) == 1:
if cls.valid_boss_name(option_list[0]):
# this doesn't exist in this class but it's a forced option for classes where this is called
options = option_list[0] + ";singularity"
else:
options = option_list[0] + f";{cls.name_lookup[cls.default]}"
else:
options = ";".join(option_list) + f";{cls.name_lookup[cls.default]}"
boss_class = cls(options)
return boss_class
@classmethod
def validate_plando_bosses(cls, options: typing.List[str]) -> None:
used_locations = []
used_bosses = []
for option in options:
# check if a shuffle mode was provided in the incorrect location
if option == "random" or option in cls.options:
if option != options[-1]:
raise ValueError(f"{option} option must be at the end of the boss_shuffle options!")
elif "-" in option:
location, boss = option.split("-")
if location in used_locations:
raise ValueError(f"Duplicate Boss Location {location} not allowed.")
if not cls.duplicate_bosses and boss in used_bosses:
raise ValueError(f"Duplicate Boss {boss} not allowed.")
used_locations.append(location)
used_bosses.append(boss)
if not cls.valid_boss_name(boss):
raise ValueError(f"{boss.title()} is not a valid boss name.")
if not cls.valid_location_name(location):
raise ValueError(f"{location.title()} is not a valid boss location name.")
if not cls.can_place_boss(boss, location):
raise ValueError(f"{location.title()} is not a valid location for {boss.title()} to be placed.")
else:
if cls.duplicate_bosses:
if not cls.valid_boss_name(option):
raise ValueError(f"{option} is not a valid boss name.")
else:
raise ValueError(f"{option.title()} is not formatted correctly.")
@classmethod
def can_place_boss(cls, boss: str, location: str) -> bool:
raise NotImplementedError
@classmethod
def valid_boss_name(cls, value: str) -> bool:
return value in cls.bosses
@classmethod
def valid_location_name(cls, value: str) -> bool:
return value in cls.locations
def verify(self, world: typing.Type[World], player_name: str, plando_options: "PlandoOptions") -> None:
if isinstance(self.value, int):
return
from BaseClasses import PlandoOptions
if not (PlandoOptions.bosses & plando_options):
# plando is disabled but plando options were given so pull the option and change it to an int
option = self.value.split(";")[-1]
self.value = self.options[option]
logging.warning(f"The plando bosses module is turned off, so {self.name_lookup[self.value].title()} "
f"boss shuffle will be used for player {player_name}.")
class Range(NumericOption):
range_start = 0
range_end = 1
def __init__(self, value: int):
if value < self.range_start:
raise Exception(f"{value} is lower than minimum {self.range_start} for option {self.__class__.__name__}")
elif value > self.range_end:
raise Exception(f"{value} is higher than maximum {self.range_end} for option {self.__class__.__name__}")
self.value = value
@classmethod
def from_text(cls, text: str) -> Range:
text = text.lower()
if text.startswith("random"):
return cls.weighted_range(text)
elif text == "default" and hasattr(cls, "default"):
return cls.from_any(cls.default)
elif text == "high":
return cls(cls.range_end)
elif text == "low":
return cls(cls.range_start)
elif cls.range_start == 0 \
and hasattr(cls, "default") \
and cls.default != 0 \
and text in ("true", "false"):
# these are the conditions where "true" and "false" make sense
if text == "true":
return cls.from_any(cls.default)
else: # "false"
return cls(0)
return cls(int(text))
@classmethod
def weighted_range(cls, text) -> Range:
if text == "random-low":
return cls(cls.triangular(cls.range_start, cls.range_end, cls.range_start))
elif text == "random-high":
return cls(cls.triangular(cls.range_start, cls.range_end, cls.range_end))
elif text == "random-middle":
return cls(cls.triangular(cls.range_start, cls.range_end))
elif text.startswith("random-range-"):
return cls.custom_range(text)
elif text == "random":
return cls(random.randint(cls.range_start, cls.range_end))
else:
raise Exception(f"random text \"{text}\" did not resolve to a recognized pattern. "
f"Acceptable values are: random, random-high, random-middle, random-low, "
f"random-range-low-<min>-<max>, random-range-middle-<min>-<max>, "
f"random-range-high-<min>-<max>, or random-range-<min>-<max>.")
@classmethod
def custom_range(cls, text) -> Range:
textsplit = text.split("-")
try:
random_range = [int(textsplit[len(textsplit) - 2]), int(textsplit[len(textsplit) - 1])]
except ValueError:
raise ValueError(f"Invalid random range {text} for option {cls.__name__}")
random_range.sort()
if random_range[0] < cls.range_start or random_range[1] > cls.range_end:
raise Exception(
f"{random_range[0]}-{random_range[1]} is outside allowed range "
f"{cls.range_start}-{cls.range_end} for option {cls.__name__}")
if text.startswith("random-range-low"):
return cls(cls.triangular(random_range[0], random_range[1], random_range[0]))
elif text.startswith("random-range-middle"):
return cls(cls.triangular(random_range[0], random_range[1]))
elif text.startswith("random-range-high"):
return cls(cls.triangular(random_range[0], random_range[1], random_range[1]))
else:
return cls(random.randint(random_range[0], random_range[1]))
@classmethod
def from_any(cls, data: typing.Any) -> Range:
if type(data) == int:
return cls(data)
return cls.from_text(str(data))
@classmethod
def get_option_name(cls, value: int) -> str:
return str(value)
def __str__(self) -> str:
return str(self.value)
@staticmethod
def triangular(lower: int, end: int, tri: typing.Optional[int] = None) -> int:
return int(round(random.triangular(lower, end, tri), 0))
class NamedRange(Range):
special_range_names: typing.Dict[str, int] = {}
"""Special Range names have to be all lowercase as matching is done with text.lower()"""
def __init__(self, value: int) -> None:
if value < self.range_start and value not in self.special_range_names.values():
raise Exception(f"{value} is lower than minimum {self.range_start} for option {self.__class__.__name__} " +
f"and is also not one of the supported named special values: {self.special_range_names}")
elif value > self.range_end and value not in self.special_range_names.values():
raise Exception(f"{value} is higher than maximum {self.range_end} for option {self.__class__.__name__} " +
f"and is also not one of the supported named special values: {self.special_range_names}")
self.value = value
@classmethod
def from_text(cls, text: str) -> Range:
text = text.lower()
if text in cls.special_range_names:
return cls(cls.special_range_names[text])
return super().from_text(text)
class SpecialRange(NamedRange):
special_range_cutoff = 0
# TODO: remove class SpecialRange, earliest 3 releases after 0.4.3
def __new__(cls, value: int) -> SpecialRange:
from Utils import deprecate
deprecate(f"Option type {cls.__name__} is a subclass of SpecialRange, which is deprecated and pending removal. "
"Consider switching to NamedRange, which supports all use-cases of SpecialRange, and more. In "
"NamedRange, range_start specifies the lower end of the regular range, while special values can be "
"placed anywhere (below, inside, or above the regular range).")
return super().__new__(cls, value)
@classmethod
def weighted_range(cls, text) -> Range:
if text == "random-low":
return cls(cls.triangular(cls.special_range_cutoff, cls.range_end, cls.special_range_cutoff))
elif text == "random-high":
return cls(cls.triangular(cls.special_range_cutoff, cls.range_end, cls.range_end))
elif text == "random-middle":
return cls(cls.triangular(cls.special_range_cutoff, cls.range_end))
elif text.startswith("random-range-"):
return cls.custom_range(text)
elif text == "random":
return cls(random.randint(cls.special_range_cutoff, cls.range_end))
else:
raise Exception(f"random text \"{text}\" did not resolve to a recognized pattern. "
f"Acceptable values are: random, random-high, random-middle, random-low, "
f"random-range-low-<min>-<max>, random-range-middle-<min>-<max>, "
f"random-range-high-<min>-<max>, or random-range-<min>-<max>.")
class FreezeValidKeys(AssembleOptions):
def __new__(mcs, name, bases, attrs):
if "valid_keys" in attrs:
attrs["_valid_keys"] = frozenset(attrs["valid_keys"])
return super(FreezeValidKeys, mcs).__new__(mcs, name, bases, attrs)
class VerifyKeys(metaclass=FreezeValidKeys):
valid_keys: typing.Iterable = []
_valid_keys: frozenset # gets created by AssembleOptions from valid_keys
valid_keys_casefold: bool = False
convert_name_groups: bool = False
verify_item_name: bool = False
verify_location_name: bool = False
value: typing.Any
@classmethod
def verify_keys(cls, data: typing.Iterable[str]) -> None:
if cls.valid_keys:
data = set(data)
dataset = set(word.casefold() for word in data) if cls.valid_keys_casefold else set(data)
extra = dataset - cls._valid_keys
if extra:
raise Exception(f"Found unexpected key {', '.join(extra)} in {cls}. "
f"Allowed keys: {cls._valid_keys}.")
def verify(self, world: typing.Type[World], player_name: str, plando_options: "PlandoOptions") -> None:
if self.convert_name_groups and self.verify_item_name:
new_value = type(self.value)() # empty container of whatever value is
for item_name in self.value:
new_value |= world.item_name_groups.get(item_name, {item_name})
self.value = new_value
elif self.convert_name_groups and self.verify_location_name:
new_value = type(self.value)()
for loc_name in self.value:
new_value |= world.location_name_groups.get(loc_name, {loc_name})
self.value = new_value
if self.verify_item_name:
for item_name in self.value:
if item_name not in world.item_names:
picks = get_fuzzy_results(item_name, world.item_names, limit=1)
raise Exception(f"Item {item_name} from option {self} "
f"is not a valid item name from {world.game}. "
f"Did you mean '{picks[0][0]}' ({picks[0][1]}% sure)")
elif self.verify_location_name:
for location_name in self.value:
if location_name not in world.location_names:
picks = get_fuzzy_results(location_name, world.location_names, limit=1)
raise Exception(f"Location {location_name} from option {self} "
f"is not a valid location name from {world.game}. "
f"Did you mean '{picks[0][0]}' ({picks[0][1]}% sure)")
class OptionDict(Option[typing.Dict[str, typing.Any]], VerifyKeys, typing.Mapping[str, typing.Any]):
default: typing.Dict[str, typing.Any] = {}
supports_weighting = False
def __init__(self, value: typing.Dict[str, typing.Any]):
self.value = deepcopy(value)
@classmethod
def from_any(cls, data: typing.Dict[str, typing.Any]) -> OptionDict:
if type(data) == dict:
cls.verify_keys(data)
return cls(data)
else:
raise NotImplementedError(f"Cannot Convert from non-dictionary, got {type(data)}")
def get_option_name(self, value):
return ", ".join(f"{key}: {v}" for key, v in value.items())
def __getitem__(self, item: str) -> typing.Any:
return self.value.__getitem__(item)
def __iter__(self) -> typing.Iterator[str]:
return self.value.__iter__()
def __len__(self) -> int:
return self.value.__len__()
class ItemDict(OptionDict):
verify_item_name = True
def __init__(self, value: typing.Dict[str, int]):
if any(item_count < 1 for item_count in value.values()):
raise Exception("Cannot have non-positive item counts.")
super(ItemDict, self).__init__(value)
class OptionList(Option[typing.List[typing.Any]], VerifyKeys):
# Supports duplicate entries and ordering.
# If only unique entries are needed and input order of elements does not matter, OptionSet should be used instead.
# Not a docstring so it doesn't get grabbed by the options system.
default: typing.Union[typing.List[typing.Any], typing.Tuple[typing.Any, ...]] = ()
supports_weighting = False
def __init__(self, value: typing.Iterable[str]):
self.value = list(deepcopy(value))
super(OptionList, self).__init__()
@classmethod
def from_text(cls, text: str):
return cls([option.strip() for option in text.split(",")])
@classmethod
def from_any(cls, data: typing.Any):
if is_iterable_of_str(data):
cls.verify_keys(data)
return cls(data)
return cls.from_text(str(data))
def get_option_name(self, value):
return ", ".join(map(str, value))
def __contains__(self, item):
return item in self.value
class OptionSet(Option[typing.Set[str]], VerifyKeys):
default: typing.Union[typing.Set[str], typing.FrozenSet[str]] = frozenset()
supports_weighting = False
def __init__(self, value: typing.Iterable[str]):
self.value = set(deepcopy(value))
super(OptionSet, self).__init__()
@classmethod
def from_text(cls, text: str):
return cls([option.strip() for option in text.split(",")])
@classmethod
def from_any(cls, data: typing.Any):
if is_iterable_of_str(data):
cls.verify_keys(data)
return cls(data)
return cls.from_text(str(data))
def get_option_name(self, value):
return ", ".join(sorted(value))
def __contains__(self, item):
return item in self.value
class ItemSet(OptionSet):
verify_item_name = True
convert_name_groups = True
class Accessibility(Choice):
"""Set rules for reachability of your items/locations.
Locations: ensure everything can be reached and acquired.
Items: ensure all logically relevant items can be acquired.
Minimal: ensure what is needed to reach your goal can be acquired."""
display_name = "Accessibility"
option_locations = 0
option_items = 1
option_minimal = 2
alias_none = 2
default = 1
class ProgressionBalancing(NamedRange):
"""A system that can move progression earlier, to try and prevent the player from getting stuck and bored early.
A lower setting means more getting stuck. A higher setting means less getting stuck."""
default = 50
range_start = 0
range_end = 99
display_name = "Progression Balancing"
special_range_names = {
"disabled": 0,
"normal": 50,
"extreme": 99,
}
class OptionsMetaProperty(type):
def __new__(mcs,
name: str,
bases: typing.Tuple[type, ...],
attrs: typing.Dict[str, typing.Any]) -> "OptionsMetaProperty":
for attr_type in attrs.values():
assert not isinstance(attr_type, AssembleOptions), \
f"Options for {name} should be type hinted on the class, not assigned"
return super().__new__(mcs, name, bases, attrs)
@property
@functools.lru_cache(maxsize=None)
def type_hints(cls) -> typing.Dict[str, typing.Type[Option[typing.Any]]]:
"""Returns type hints of the class as a dictionary."""
return typing.get_type_hints(cls)
@dataclass
class CommonOptions(metaclass=OptionsMetaProperty):
progression_balancing: ProgressionBalancing
accessibility: Accessibility
def as_dict(self, *option_names: str, casing: str = "snake") -> typing.Dict[str, typing.Any]:
"""
Returns a dictionary of [str, Option.value]
:param option_names: names of the options to return
:param casing: case of the keys to return. Supports `snake`, `camel`, `pascal`, `kebab`
"""
option_results = {}
for option_name in option_names:
if option_name in type(self).type_hints:
if casing == "snake":
display_name = option_name
elif casing == "camel":
split_name = [name.title() for name in option_name.split("_")]
split_name[0] = split_name[0].lower()
display_name = "".join(split_name)
elif casing == "pascal":
display_name = "".join([name.title() for name in option_name.split("_")])
elif casing == "kebab":
display_name = option_name.replace("_", "-")
else:
raise ValueError(f"{casing} is invalid casing for as_dict. "
"Valid names are 'snake', 'camel', 'pascal', 'kebab'.")
value = getattr(self, option_name).value
if isinstance(value, set):
value = sorted(value)
option_results[display_name] = value
else:
raise ValueError(f"{option_name} not found in {tuple(type(self).type_hints)}")
return option_results
class LocalItems(ItemSet):
"""Forces these items to be in their native world."""
display_name = "Local Items"
class NonLocalItems(ItemSet):
"""Forces these items to be outside their native world."""
display_name = "Not Local Items"
class StartInventory(ItemDict):
"""Start with these items."""
verify_item_name = True
display_name = "Start Inventory"
class StartInventoryPool(StartInventory):