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	# Natural Language Toolkit: Interface to the Prover9 Theorem Prover
	#
	# Copyright (C) 2001-2023 NLTK Project
	# Author: Dan Garrette <[email protected]>
	# Ewan Klein <[email protected]>
	#
	# URL: <https://www.nltk.org/>
	# For license information, see LICENSE.TXT
	"""
	A theorem prover that makes use of the external 'Prover9' package.
	"""

	import os
	import subprocess

	import nltk
	from nltk.inference.api import BaseProverCommand, Prover
	from nltk.sem.logic import (
	AllExpression,
	AndExpression,
	EqualityExpression,
	ExistsExpression,
	Expression,
	IffExpression,
	ImpExpression,
	NegatedExpression,
	OrExpression,
	)

	#
	# Following is not yet used. Return code for 2 actually realized as 512.
	#
	p9_return_codes = {
	0: True,
	1: "(FATAL)", # A fatal error occurred (user's syntax error).
	2: False, # (SOS_EMPTY) Prover9 ran out of things to do
	# (sos list exhausted).
	3: "(MAX_MEGS)", # The max_megs (memory limit) parameter was exceeded.
	4: "(MAX_SECONDS)", # The max_seconds parameter was exceeded.
	5: "(MAX_GIVEN)", # The max_given parameter was exceeded.
	6: "(MAX_KEPT)", # The max_kept parameter was exceeded.
	7: "(ACTION)", # A Prover9 action terminated the search.
	101: "(SIGSEGV)", # Prover9 crashed, most probably due to a bug.
	}


	class Prover9CommandParent:
	"""
	A common base class used by both ``Prover9Command`` and ``MaceCommand``,
	which is responsible for maintaining a goal and a set of assumptions,
	and generating prover9-style input files from them.
	"""

	def print_assumptions(self, output_format="nltk"):
	"""
	Print the list of the current assumptions.
	"""
	if output_format.lower() == "nltk":
	for a in self.assumptions():
	print(a)
	elif output_format.lower() == "prover9":
	for a in convert_to_prover9(self.assumptions()):
	print(a)
	else:
	raise NameError(
	"Unrecognized value for 'output_format': %s" % output_format
	)


	class Prover9Command(Prover9CommandParent, BaseProverCommand):
	"""
	A ``ProverCommand`` specific to the ``Prover9`` prover. It contains
	the a print_assumptions() method that is used to print the list
	of assumptions in multiple formats.
	"""

	def __init__(self, goal=None, assumptions=None, timeout=60, prover=None):
	"""
	:param goal: Input expression to prove
	:type goal: sem.Expression
	:param assumptions: Input expressions to use as assumptions in
	the proof.
	:type assumptions: list(sem.Expression)
	:param timeout: number of seconds before timeout; set to 0 for
	no timeout.
	:type timeout: int
	:param prover: a prover. If not set, one will be created.
	:type prover: Prover9
	"""
	if not assumptions:
	assumptions = []

	if prover is not None:
	assert isinstance(prover, Prover9)
	else:
	prover = Prover9(timeout)

	BaseProverCommand.__init__(self, prover, goal, assumptions)

	def decorate_proof(self, proof_string, simplify=True):
	"""
	:see BaseProverCommand.decorate_proof()
	"""
	if simplify:
	return self._prover._call_prooftrans(proof_string, ["striplabels"])[
	0
	].rstrip()
	else:
	return proof_string.rstrip()


	class Prover9Parent:
	"""
	A common class extended by both ``Prover9`` and ``Mace <mace.Mace>``.
	It contains the functionality required to convert NLTK-style
	expressions into Prover9-style expressions.
	"""

	_binary_location = None

	def config_prover9(self, binary_location, verbose=False):
	if binary_location is None:
	self._binary_location = None
	self._prover9_bin = None
	else:
	name = "prover9"
	self._prover9_bin = nltk.internals.find_binary(
	name,
	path_to_bin=binary_location,
	env_vars=["PROVER9"],
	url="https://www.cs.unm.edu/~mccune/prover9/",
	binary_names=[name, name + ".exe"],
	verbose=verbose,
	)
	self._binary_location = self._prover9_bin.rsplit(os.path.sep, 1)

	def prover9_input(self, goal, assumptions):
	"""
	:return: The input string that should be provided to the
	prover9 binary. This string is formed based on the goal,
	assumptions, and timeout value of this object.
	"""
	s = ""

	if assumptions:
	s += "formulas(assumptions).\n"
	for p9_assumption in convert_to_prover9(assumptions):
	s += " %s.\n" % p9_assumption
	s += "end_of_list.\n\n"

	if goal:
	s += "formulas(goals).\n"
	s += " %s.\n" % convert_to_prover9(goal)
	s += "end_of_list.\n\n"

	return s

	def binary_locations(self):
	"""
	A list of directories that should be searched for the prover9
	executables. This list is used by ``config_prover9`` when searching
	for the prover9 executables.
	"""
	return [
	"/usr/local/bin/prover9",
	"/usr/local/bin/prover9/bin",
	"/usr/local/bin",
	"/usr/bin",
	"/usr/local/prover9",
	"/usr/local/share/prover9",
	]

	def _find_binary(self, name, verbose=False):
	binary_locations = self.binary_locations()
	if self._binary_location is not None:
	binary_locations += [self._binary_location]
	return nltk.internals.find_binary(
	name,
	searchpath=binary_locations,
	env_vars=["PROVER9"],
	url="https://www.cs.unm.edu/~mccune/prover9/",
	binary_names=[name, name + ".exe"],
	verbose=verbose,
	)

	def _call(self, input_str, binary, args=[], verbose=False):
	"""
	Call the binary with the given input.

	:param input_str: A string whose contents are used as stdin.
	:param binary: The location of the binary to call
	:param args: A list of command-line arguments.
	:return: A tuple (stdout, returncode)
	:see: ``config_prover9``
	"""
	if verbose:
	print("Calling:", binary)
	print("Args:", args)
	print("Input:\n", input_str, "\n")

	# Call prover9 via a subprocess
	cmd = [binary] + args
	try:
	input_str = input_str.encode("utf8")
	except AttributeError:
	pass
	p = subprocess.Popen(
	cmd, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, stdin=subprocess.PIPE
	)
	(stdout, stderr) = p.communicate(input=input_str)

	if verbose:
	print("Return code:", p.returncode)
	if stdout:
	print("stdout:\n", stdout, "\n")
	if stderr:
	print("stderr:\n", stderr, "\n")

	return (stdout.decode("utf-8"), p.returncode)


	def convert_to_prover9(input):
	"""
	Convert a ``logic.Expression`` to Prover9 format.
	"""
	if isinstance(input, list):
	result = []
	for s in input:
	try:
	result.append(_convert_to_prover9(s.simplify()))
	except:
	print("input %s cannot be converted to Prover9 input syntax" % input)
	raise
	return result
	else:
	try:
	return _convert_to_prover9(input.simplify())
	except:
	print("input %s cannot be converted to Prover9 input syntax" % input)
	raise


	def _convert_to_prover9(expression):
	"""
	Convert ``logic.Expression`` to Prover9 formatted string.
	"""
	if isinstance(expression, ExistsExpression):
	return (
	"exists "
	+ str(expression.variable)
	+ " "
	+ _convert_to_prover9(expression.term)
	)
	elif isinstance(expression, AllExpression):
	return (
	"all "
	+ str(expression.variable)
	+ " "
	+ _convert_to_prover9(expression.term)
	)
	elif isinstance(expression, NegatedExpression):
	return "-(" + _convert_to_prover9(expression.term) + ")"
	elif isinstance(expression, AndExpression):
	return (
	"("
	+ _convert_to_prover9(expression.first)
	+ " & "
	+ _convert_to_prover9(expression.second)
	+ ")"
	)
	elif isinstance(expression, OrExpression):
	return (
	"("
	+ _convert_to_prover9(expression.first)
	+ " \| "
	+ _convert_to_prover9(expression.second)
	+ ")"
	)
	elif isinstance(expression, ImpExpression):
	return (
	"("
	+ _convert_to_prover9(expression.first)
	+ " -> "
	+ _convert_to_prover9(expression.second)
	+ ")"
	)
	elif isinstance(expression, IffExpression):
	return (
	"("
	+ _convert_to_prover9(expression.first)
	+ " <-> "
	+ _convert_to_prover9(expression.second)
	+ ")"
	)
	elif isinstance(expression, EqualityExpression):
	return (
	"("
	+ _convert_to_prover9(expression.first)
	+ " = "
	+ _convert_to_prover9(expression.second)
	+ ")"
	)
	else:
	return str(expression)


	class Prover9(Prover9Parent, Prover):
	_prover9_bin = None
	_prooftrans_bin = None

	def __init__(self, timeout=60):
	self._timeout = timeout
	"""The timeout value for prover9. If a proof can not be found
	in this amount of time, then prover9 will return false.
	(Use 0 for no timeout.)"""

	def _prove(self, goal=None, assumptions=None, verbose=False):
	"""
	Use Prover9 to prove a theorem.
	:return: A pair whose first element is a boolean indicating if the
	proof was successful (i.e. returns value of 0) and whose second element
	is the output of the prover.
	"""
	if not assumptions:
	assumptions = []

	stdout, returncode = self._call_prover9(
	self.prover9_input(goal, assumptions), verbose=verbose
	)
	return (returncode == 0, stdout)

	def prover9_input(self, goal, assumptions):
	"""
	:see: Prover9Parent.prover9_input
	"""
	s = "clear(auto_denials).\n" # only one proof required
	return s + Prover9Parent.prover9_input(self, goal, assumptions)

	def _call_prover9(self, input_str, args=[], verbose=False):
	"""
	Call the ``prover9`` binary with the given input.

	:param input_str: A string whose contents are used as stdin.
	:param args: A list of command-line arguments.
	:return: A tuple (stdout, returncode)
	:see: ``config_prover9``
	"""
	if self._prover9_bin is None:
	self._prover9_bin = self._find_binary("prover9", verbose)

	updated_input_str = ""
	if self._timeout > 0:
	updated_input_str += "assign(max_seconds, %d).\n\n" % self._timeout
	updated_input_str += input_str

	stdout, returncode = self._call(
	updated_input_str, self._prover9_bin, args, verbose
	)

	if returncode not in [0, 2]:
	errormsgprefix = "%%ERROR:"
	if errormsgprefix in stdout:
	msgstart = stdout.index(errormsgprefix)
	errormsg = stdout[msgstart:].strip()
	else:
	errormsg = None
	if returncode in [3, 4, 5, 6]:
	raise Prover9LimitExceededException(returncode, errormsg)
	else:
	raise Prover9FatalException(returncode, errormsg)

	return stdout, returncode

	def _call_prooftrans(self, input_str, args=[], verbose=False):
	"""
	Call the ``prooftrans`` binary with the given input.

	:param input_str: A string whose contents are used as stdin.
	:param args: A list of command-line arguments.
	:return: A tuple (stdout, returncode)
	:see: ``config_prover9``
	"""
	if self._prooftrans_bin is None:
	self._prooftrans_bin = self._find_binary("prooftrans", verbose)

	return self._call(input_str, self._prooftrans_bin, args, verbose)


	class Prover9Exception(Exception):
	def __init__(self, returncode, message):
	msg = p9_return_codes[returncode]
	if message:
	msg += "\n%s" % message
	Exception.__init__(self, msg)


	class Prover9FatalException(Prover9Exception):
	pass


	class Prover9LimitExceededException(Prover9Exception):
	pass


	######################################################################
	# { Tests and Demos
	######################################################################


	def test_config():

	a = Expression.fromstring("(walk(j) & sing(j))")
	g = Expression.fromstring("walk(j)")
	p = Prover9Command(g, assumptions=[a])
	p._executable_path = None
	p.prover9_search = []
	p.prove()
	# config_prover9('/usr/local/bin')
	print(p.prove())
	print(p.proof())


	def test_convert_to_prover9(expr):
	"""
	Test that parsing works OK.
	"""
	for t in expr:
	e = Expression.fromstring(t)
	print(convert_to_prover9(e))


	def test_prove(arguments):
	"""
	Try some proofs and exhibit the results.
	"""
	for (goal, assumptions) in arguments:
	g = Expression.fromstring(goal)
	alist = [Expression.fromstring(a) for a in assumptions]
	p = Prover9Command(g, assumptions=alist).prove()
	for a in alist:
	print(" %s" % a)
	print(f"\|- {g}: {p}\n")


	arguments = [
	("(man(x) <-> (not (not man(x))))", []),
	("(not (man(x) & (not man(x))))", []),
	("(man(x) \| (not man(x)))", []),
	("(man(x) & (not man(x)))", []),
	("(man(x) -> man(x))", []),
	("(not (man(x) & (not man(x))))", []),
	("(man(x) \| (not man(x)))", []),
	("(man(x) -> man(x))", []),
	("(man(x) <-> man(x))", []),
	("(not (man(x) <-> (not man(x))))", []),
	("mortal(Socrates)", ["all x.(man(x) -> mortal(x))", "man(Socrates)"]),
	("((all x.(man(x) -> walks(x)) & man(Socrates)) -> some y.walks(y))", []),
	("(all x.man(x) -> all x.man(x))", []),
	("some x.all y.sees(x,y)", []),
	(
	"some e3.(walk(e3) & subj(e3, mary))",
	[
	"some e1.(see(e1) & subj(e1, john) & some e2.(pred(e1, e2) & walk(e2) & subj(e2, mary)))"
	],
	),
	(
	"some x e1.(see(e1) & subj(e1, x) & some e2.(pred(e1, e2) & walk(e2) & subj(e2, mary)))",
	[
	"some e1.(see(e1) & subj(e1, john) & some e2.(pred(e1, e2) & walk(e2) & subj(e2, mary)))"
	],
	),
	]

	expressions = [
	r"some x y.sees(x,y)",
	r"some x.(man(x) & walks(x))",
	r"\x.(man(x) & walks(x))",
	r"\x y.sees(x,y)",
	r"walks(john)",
	r"\x.big(x, \y.mouse(y))",
	r"(walks(x) & (runs(x) & (threes(x) & fours(x))))",
	r"(walks(x) -> runs(x))",
	r"some x.(PRO(x) & sees(John, x))",
	r"some x.(man(x) & (not walks(x)))",
	r"all x.(man(x) -> walks(x))",
	]


	def spacer(num=45):
	print("-" * num)


	def demo():
	print("Testing configuration")
	spacer()
	test_config()
	print()
	print("Testing conversion to Prover9 format")
	spacer()
	test_convert_to_prover9(expressions)
	print()
	print("Testing proofs")
	spacer()
	test_prove(arguments)


	if __name__ == "__main__":
	demo()