Datasets:

X-LANCE
/

WikiHow-taskset

	# Created by Danyang Zhang @X-Lance.

	import abc
	from typing import Iterable, Iterator, Union
	from typing import List, Tuple
	#import enum
	import numpy as np
	import itertools

	class Item(abc.ABC):
	# class Item {{{ #
	@abc.abstractmethod
	def instantiate(self) -> str:
	"""
	Samples from the underlying template a sentence.

	Return:
	str
	"""

	raise NotImplementedError()

	@property
	@abc.abstractmethod
	def regex(self) -> str:
	raise NotImplementedError()

	@abc.abstractmethod
	def get_targets(self) -> List[str]:
	"""
	Collects the target patterns from the nodes or the sub-nodes
	recursively.

	Return:
	list of str
	"""

	raise NotImplementedError()

	@abc.abstractmethod
	def implement(self, targets: Iterator[str]):
	"""
	Implements the target slots by the real target values. It is expected
	for `targets` to have the same length with `self.getTarget()`.

	Args:
	target: iterator of str
	"""

	raise NotImplementedError()

	def __add__(self, item: "Item") -> "Item":
	if self is Nil:
	return item
	elif item is Nil:
	return self
	return Concat(self, item)

	def __str__(self) -> str:
	raise NotImplementedError()
	def __repr__(self) -> str:
	raise NotImplementedError()
	# }}} class Item #

	Nil = type( "Nil", (Item,)
	, { "instantiate": lambda self: ""
	, "regex": ""
	, "get_targets": lambda self: []
	, "implement": lambda self, tgts: None
	, "__str__": lambda self: ""
	, "__repr__": lambda self: "Nil"
	}
	)()

	class Concat(Item):
	# class Concat {{{ #
	def __init__(self, *items: Iterable[Item]):
	super(Concat, self).__init__()

	self._items: List[Item] = []
	self._regex: str = ""

	for itm in items:
	self += itm

	def __iter__(self) -> Iterator[Item]:
	return iter(self._items)

	def __iadd__(self, item: Item) -> Item:
	if isinstance(item, Concat):
	self._items += item
	elif item is not Nil:
	self._items.append(item)
	self._regex += item.regex
	return self

	def instantiate(self) -> str:
	return "".join(map(lambda itm: itm.instantiate(), self._items))

	@property
	def regex(self) -> str:
	return self._regex

	def get_targets(self) -> List[str]:
	return list( itertools.chain.from_iterable(
	map( lambda itm: itm.get_targets()
	, self._items
	)
	)
	)

	def implement(self, targets: Iterator[str]):
	for itm in self._items:
	itm.implement(targets)

	def __str__(self) -> str:
	return "".join(map(str, self._items))
	def __repr__(self) -> str:
	return "Concat({:})".format(
	", ".join( map( repr
	, self._items
	)
	)
	)
	# }}} class Concat #

	class Const(Item):
	# class Const {{{ #
	regex_meta_chars = str.maketrans( { ch: "\\" + ch
	for ch in [ ".", "^", "$", "*"
	, "+", "?", "{", "}"
	, "\\", "[", "]", "\|"
	, "(", ")"
	]
	}
	)

	def __init__(self, value: str):
	super(Const, self).__init__()

	self.value: str = value
	self._regex: str = self.value.translate(Const.regex_meta_chars)

	def instantiate(self) -> str:
	return self.value

	@property
	def regex(self) -> str:
	return self._regex

	def get_targets(self) -> List[str]:
	return []

	def implement(self, targets: Iterator[str]):
	pass

	def __str__(self) -> str:
	return self.value
	def __repr__(self) -> str:
	return "Const({:})".format(repr(self.value))
	# }}} class Const #

	class Choice(Item):
	# class Choice {{{ #
	def __init__(self, *items: Iterable[Item]):
	super(Choice, self).__init__()

	self._items: List[Item] = list(
	filter( lambda itm: itm is not Nil
	, items
	)
	)
	self._regex: str = "(?:" + "\|".join(map(lambda itm: itm.regex, self._items)) + ")"

	self._rng: np.random.Generator = np.random.default_rng()

	def instantiate(self) -> str:
	if len(self._items)==0:
	return ""
	return self._items[self._rng.integers(len(self._items))].instantiate()

	@property
	def regex(self) -> str:
	return self._regex

	@classmethod
	def fromItem(cls, item: Item):
	if isinstance(item, Concat):
	return cls(*item)
	else:
	return cls(item)

	def get_targets(self) -> List[str]:
	return list( itertools.chain.from_iterable(
	map( lambda itm: itm.get_targets()
	, self._items
	)
	)
	)

	def implement(self, targets: Iterator[str]):
	for itm in self._items:
	itm.implement(targets)

	def __str__(self) -> str:
	return "({:})".format(
	"/".join( map( str
	, self._items
	)
	)
	)
	def __repr__(self) -> str:
	return "Choice({:})".format(
	", ".join( map( repr
	, self._items
	)
	)
	)
	# }}} class Choice #

	class Optional(Item):
	# class Optional {{{ #
	def __init__(self, item: Union[Item, str]):
	super(Optional, self).__init__()

	if isinstance(item, str):
	item = Const(item)
	self._item: Item = item
	self._regex = "(?:" + self._item.regex + ")?"

	self._rng: np.random.Generator = np.random.default_rng()

	def instantiate(self) -> str:
	return self._item.instantiate() if self._rng.random()<0.5 else ""

	@property
	def regex(self) -> str:
	return self._regex

	def get_targets(self) -> List[str]:
	return self._item.get_targets()

	def implement(self, targets: Iterator[str]):
	self._item.implement(targets)

	def __str__(self) -> str:
	return "[" + str(self._item) + "]"
	def __repr__(self) -> str:
	return "Optional(" + repr(self._item) + ")"
	# }}} class Optional #

	class Target(Item):
	# class Target {{{ #
	def __init__(self, pattern: str):
	super(Target, self).__init__()

	self._pattern: str = pattern
	self._value: str = ""

	def instantiate(self) -> str:
	return self._value

	@property
	def regex(self) -> str:
	return "(.+)"

	def get_targets(self) -> List[str]:
	return [self._pattern]

	def implement(self, targets: Iterator[str]):
	try:
	value = next(targets)
	self._value = value
	except StopIteration:
	pass

	def __str__(self) -> str:
	return "{" + self._pattern + "}"
	def __repr__(self) -> str:
	return "Target(" + repr(self._pattern) + ")"
	# }}} class Target #

	def read_plain(pattern: str) -> Tuple[Union[Const, type(Nil)], str]:
	# function read_plain {{{ #
	plain = "".join(
	itertools.takewhile( lambda ch: ch not in { "(", "/", ")"
	, "[", "]"
	, "{", "}"
	}
	, pattern
	)
	)
	return Const(plain) if len(plain)>0 else Nil\
	, pattern[len(plain):]
	# }}} function read_plain #

	def read_until(stop: str, pattern: str) -> Tuple[str, str]:
	# function read_until {{{ #
	"""
	Args:
	stop: char
	pattern: str

	Return:
	- str as the output
	- str as the remaining
	"""

	plain = "".join(
	itertools.takewhile( lambda ch: ch!=stop
	, pattern
	)
	)
	return plain, pattern[len(plain):]
	# }}} function read_until #

	def read_while(while_char: str, pattern: str) -> Tuple[List[Item], str]:
	# function read_while {{{ #
	"""
	Args:
	while_char: char
	pattern: str

	Return:
	- list of Item
	- str
	"""

	(item, char), remaining = read_item(pattern)
	items = [item]
	while char==while_char:
	(item, char), remaining = read_item(remaining)
	items.append(item)
	return items, remaining
	# }}} function read_while #

	def read_item(pattern: str) -> Tuple[ Tuple [ Item
	, str
	]
	, str
	]:
	# function read_item {{{ #
	"""
	Args:
	pattern: str

	Return:
	- tuple like (Item, char)
	- str
	"""

	prelude, remaining = read_plain(pattern)
	if len(remaining)==0:
	return (prelude, "$"), ""

	head, tail = remaining[0], remaining[1:]
	if head=="(":
	choices, remaining = read_while("/", tail)
	(others, end), remaining = read_item(remaining)
	return ( prelude\
	+ Choice(*choices)\
	+ others\
	, end
	)\
	, remaining
	elif head=="/":
	return (prelude, "/")\
	, tail
	elif head==")":
	return (prelude, ")")\
	, tail
	elif head=="[":
	(option, _), remaining = read_item(tail)
	(others, end), remaining = read_item(remaining)
	return ( prelude\
	+ Optional(option)\
	+ others\
	, end
	)\
	, remaining
	elif head=="]":
	return (prelude, "]")\
	, tail
	elif head=="{":
	target, remaining = read_until("}", tail)
	(others, end), remaining = read_item(remaining[1:])
	return ( prelude\
	+ Target(target)\
	+ others\
	, end
	)\
	, remaining
	# }}} function read_item #

	def parse_pattern(pattern: str) -> Item:
	(item, end), remaining = read_item(pattern)
	assert len(remaining)==0 and end=="$"
	return item