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cvc5/examples/api/python/relations.py
Aina Niemetz fdf9ce7138 Update copyright headers. (#10459)
2024-03-12 09:35:09 -07:00

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#!/usr/bin/env python
###############################################################################
# Top contributors (to current version):
# Mudathir Mohamed, Aina Niemetz, Alex Ozdemir
#
# This file is part of the cvc5 project.
#
# Copyright (c) 2009-2024 by the authors listed in the file AUTHORS
# in the top-level source directory and their institutional affiliations.
# All rights reserved. See the file COPYING in the top-level source
# directory for licensing information.
# #############################################################################
#
# A simple demonstration of the solving capabilities of the cvc5 relations solver
# through the Python API. This is a direct translation of relations.cpp.
##
import cvc5
from cvc5 import Kind
if __name__ == "__main__":
solver = cvc5.Solver()
# Set the logic
solver.setLogic("ALL")
# options
solver.setOption("produce-models", "true")
# we need finite model finding to answer sat problems with universal
# quantified formulas
solver.setOption("finite-model-find", "true")
# we need sets extension to support set.universe operator
solver.setOption("sets-ext", "true")
integer = solver.getIntegerSort()
set_ = solver.mkSetSort(integer)
# Verify union distributions over intersection
# (A union B) intersection C = (A intersection C) union (B intersection C)
# (declare-sort Person 0)
personSort = solver.mkUninterpretedSort("Person")
# (Tuple Person)
tupleArity1 = solver.mkTupleSort(personSort)
# (Relation Person)
relationArity1 = solver.mkSetSort(tupleArity1)
# (Tuple Person Person)
tupleArity2 = solver.mkTupleSort(personSort, personSort)
# (Relation Person Person)
relationArity2 = solver.mkSetSort(tupleArity2)
# empty set
emptySetTerm = solver.mkEmptySet(relationArity1)
# empty relation
emptyRelationTerm = solver.mkEmptySet(relationArity2)
# universe set
universeSet = solver.mkUniverseSet(relationArity1)
# variables
people = solver.mkConst(relationArity1, "people")
males = solver.mkConst(relationArity1, "males")
females = solver.mkConst(relationArity1, "females")
father = solver.mkConst(relationArity2, "father")
mother = solver.mkConst(relationArity2, "mother")
parent = solver.mkConst(relationArity2, "parent")
ancestor = solver.mkConst(relationArity2, "ancestor")
descendant = solver.mkConst(relationArity2, "descendant")
isEmpty1 = solver.mkTerm(Kind.EQUAL, males, emptySetTerm)
isEmpty2 = solver.mkTerm(Kind.EQUAL, females, emptySetTerm)
# (assert (= people (as set.universe (Relation Person))))
peopleAreTheUniverse = solver.mkTerm(Kind.EQUAL, people, universeSet)
# (assert (not (= males (as set.empty (Relation Person)))))
maleSetIsNotEmpty = solver.mkTerm(Kind.NOT, isEmpty1)
# (assert (not (= females (as set.empty (Relation Person)))))
femaleSetIsNotEmpty = solver.mkTerm(Kind.NOT, isEmpty2)
# (assert (= (set.inter males females)
# (as set.empty (Relation Person))))
malesFemalesIntersection = solver.mkTerm(Kind.SET_INTER, males, females)
malesAndFemalesAreDisjoint = \
solver.mkTerm(Kind.EQUAL, malesFemalesIntersection, emptySetTerm)
# (assert (not (= father (as set.empty (Relation Person Person)))))
# (assert (not (= mother (as set.empty (Relation Person Person)))))
isEmpty3 = solver.mkTerm(Kind.EQUAL, father, emptyRelationTerm)
isEmpty4 = solver.mkTerm(Kind.EQUAL, mother, emptyRelationTerm)
fatherIsNotEmpty = solver.mkTerm(Kind.NOT, isEmpty3)
motherIsNotEmpty = solver.mkTerm(Kind.NOT, isEmpty4)
# fathers are males
# (assert (set.subset (rel.join father people) males))
fathers = solver.mkTerm(Kind.RELATION_JOIN, father, people)
fathersAreMales = solver.mkTerm(Kind.SET_SUBSET, fathers, males)
# mothers are females
# (assert (set.subset (rel.join mother people) females))
mothers = solver.mkTerm(Kind.RELATION_JOIN, mother, people)
mothersAreFemales = solver.mkTerm(Kind.SET_SUBSET, mothers, females)
# (assert (= parent (set.union father mother)))
unionFatherMother = solver.mkTerm(Kind.SET_UNION, father, mother)
parentIsFatherOrMother = \
solver.mkTerm(Kind.EQUAL, parent, unionFatherMother)
# (assert (= ancestor (rel.tclosure parent)))
transitiveClosure = solver.mkTerm(Kind.RELATION_TCLOSURE, parent)
ancestorFormula = solver.mkTerm(Kind.EQUAL, ancestor, transitiveClosure)
# (assert (= descendant (rel.transpose ancestor)))
transpose = solver.mkTerm(Kind.RELATION_TRANSPOSE, ancestor)
descendantFormula = solver.mkTerm(Kind.EQUAL, descendant, transpose)
# (assert (forall ((x Person)) (not (set.member (tuple x x) ancestor))))
x = solver.mkVar(personSort, "x")
xxTuple = solver.mkTuple([x, x])
member = solver.mkTerm(Kind.SET_MEMBER, xxTuple, ancestor)
notMember = solver.mkTerm(Kind.NOT, member)
quantifiedVariables = solver.mkTerm(Kind.VARIABLE_LIST, x)
noSelfAncestor = solver.mkTerm(Kind.FORALL, quantifiedVariables, notMember)
# formulas
solver.assertFormula(peopleAreTheUniverse)
solver.assertFormula(maleSetIsNotEmpty)
solver.assertFormula(femaleSetIsNotEmpty)
solver.assertFormula(malesAndFemalesAreDisjoint)
solver.assertFormula(fatherIsNotEmpty)
solver.assertFormula(motherIsNotEmpty)
solver.assertFormula(fathersAreMales)
solver.assertFormula(mothersAreFemales)
solver.assertFormula(parentIsFatherOrMother)
solver.assertFormula(descendantFormula)
solver.assertFormula(ancestorFormula)
solver.assertFormula(noSelfAncestor)
# check sat
result = solver.checkSat()
# output
print("Result = {}".format(result))
print("people = {}".format(solver.getValue(people)))
print("males = {}".format(solver.getValue(males)))
print("females = {}".format(solver.getValue(females)))
print("father = {}".format(solver.getValue(father)))
print("mother = {}".format(solver.getValue(mother)))
print("parent = {}".format(solver.getValue(parent)))
print("descendant = {}".format(solver.getValue(descendant)))
print("ancestor = {}".format(solver.getValue(ancestor)))
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