Theory of Bags 

examples/api/cpp/bags.cpp

             /******************************************************************************
 * Top contributors (to current version):
 *   Mudathir Mohamed
 *
 * This file is part of the cvc5 project.
 *
 * Copyright (c) 2009-2022 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 reasoning about bags.
 */

#include <cvc5/cvc5.h>

#include <iostream>

using namespace std;
using namespace cvc5;

int main()
{
  Solver slv;
  slv.setLogic("ALL");
  // Produce models
  slv.setOption("produce-models", "true");
  slv.setOption("incremental", "true");

  Sort bag = slv.mkBagSort(slv.getStringSort());
  Term A = slv.mkConst(bag, "A");
  Term B = slv.mkConst(bag, "B");
  Term C = slv.mkConst(bag, "C");
  Term x = slv.mkConst(slv.getStringSort(), "x");

  Term intersectionAC = slv.mkTerm(Kind::BAG_INTER_MIN, {A, C});
  Term intersectionBC = slv.mkTerm(Kind::BAG_INTER_MIN, {B, C});

  // union disjoint does not distribute over intersection
  {
    Term unionDisjointAB = slv.mkTerm(Kind::BAG_UNION_DISJOINT, {A, B});
    Term lhs = slv.mkTerm(Kind::BAG_INTER_MIN, {unionDisjointAB, C});
    Term rhs =
        slv.mkTerm(Kind::BAG_UNION_DISJOINT, {intersectionAC, intersectionBC});
    Term guess = slv.mkTerm(Kind::EQUAL, {lhs, rhs});
    cout << "cvc5 reports: " << guess.notTerm() << " is "
         << slv.checkSatAssuming(guess.notTerm()) << "." << endl;

    cout << A << ": " << slv.getValue(A) << endl;
    cout << B << ": " << slv.getValue(B) << endl;
    cout << C << ": " << slv.getValue(C) << endl;
    cout << lhs << ": " << slv.getValue(lhs) << endl;
    cout << rhs << ": " << slv.getValue(rhs) << endl;
  }

  // union max distributes over intersection
  {
    Term unionMaxAB = slv.mkTerm(Kind::BAG_UNION_MAX, {A, B});
    Term lhs = slv.mkTerm(Kind::BAG_INTER_MIN, {unionMaxAB, C});
    Term rhs =
        slv.mkTerm(Kind::BAG_UNION_MAX, {intersectionAC, intersectionBC});
    Term theorem = slv.mkTerm(Kind::EQUAL, {lhs, rhs});
    cout << "cvc5 reports: " << theorem.notTerm() << " is "
         << slv.checkSatAssuming(theorem.notTerm()) << "." << endl;
  }

  // Verify emptbag is a subbag of any bag
  {
    Term emptybag = slv.mkEmptyBag(bag);
    Term theorem = slv.mkTerm(Kind::BAG_SUBBAG, {emptybag, A});

    cout << "cvc5 reports: " << theorem.notTerm() << " is "
         << slv.checkSatAssuming(theorem.notTerm()) << "." << endl;
  }

  // find an element with multiplicity 4 in the disjoint union of
  // ; {|"a", "a", "b", "b", "b"|} and {|"b", "c", "c"|}

  {
    Term one = slv.mkInteger(1);
    Term two = slv.mkInteger(2);
    Term three = slv.mkInteger(3);
    Term four = slv.mkInteger(4);
    Term a = slv.mkString("a");
    Term b = slv.mkString("b");
    Term c = slv.mkString("c");

    Term bag_a_2 = slv.mkTerm(Kind::BAG_MAKE, {a, two});
    Term bag_b_3 = slv.mkTerm(Kind::BAG_MAKE, {b, three});
    Term bag_b_1 = slv.mkTerm(Kind::BAG_MAKE, {b, one});
    Term bag_c_2 = slv.mkTerm(Kind::BAG_MAKE, {c, two});
    Term bag_a_2_b_3 = slv.mkTerm(Kind::BAG_UNION_DISJOINT, {bag_a_2, bag_b_3});
    Term bag_b_1_c_2 = slv.mkTerm(Kind::BAG_UNION_DISJOINT, {bag_b_1, bag_c_2});
    Term union_disjoint =
        slv.mkTerm(Kind::BAG_UNION_DISJOINT, {bag_a_2_b_3, bag_b_1_c_2});

    Term count_x = slv.mkTerm(Kind::BAG_COUNT, {x, union_disjoint});
    Term e = slv.mkTerm(Kind::EQUAL, {four, count_x});
    Result result = slv.checkSatAssuming(e);

    cout << "cvc5 reports: " << e << " is " << result << "." << endl;
    if (result.isSat())
    {
      cout << x << ": " << slv.getValue(x) << endl;
    }
  }
}

            

examples/api/java/Bags.java

             /******************************************************************************
 * Top contributors (to current version):
 *   Mudathir Mohamed, Andres Noetzli
 *
 * This file is part of the cvc5 project.
 *
 * Copyright (c) 2009-2022 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 reasoning about bags with cvc5.
 */

import static io.github.cvc5.Kind.*;

import io.github.cvc5.*;

public class Bags
{
  public static void main(String args[]) throws CVC5ApiException

  {
    Solver slv = new Solver();
    {
      slv.setLogic("ALL");

      // Produce models
      slv.setOption("produce-models", "true");
      slv.setOption("incremental", "true");

      Sort bag = slv.mkBagSort(slv.getStringSort());
      Term A = slv.mkConst(bag, "A");
      Term B = slv.mkConst(bag, "B");
      Term C = slv.mkConst(bag, "C");
      Term x = slv.mkConst(slv.getStringSort(), "x");

      Term intersectionAC = slv.mkTerm(BAG_INTER_MIN, new Term[] {A, C});
      Term intersectionBC = slv.mkTerm(BAG_INTER_MIN, new Term[] {B, C});

      // union disjoint does not distribute over intersection
      {
        Term unionDisjointAB = slv.mkTerm(BAG_UNION_DISJOINT, new Term[] {A, B});
        Term lhs = slv.mkTerm(BAG_INTER_MIN, new Term[] {unionDisjointAB, C});
        Term rhs = slv.mkTerm(BAG_UNION_DISJOINT, new Term[] {intersectionAC, intersectionBC});
        Term guess = slv.mkTerm(EQUAL, new Term[] {lhs, rhs});

        System.out.println("cvc5 reports: " + guess.notTerm() + " is "
            + slv.checkSatAssuming(guess.notTerm()) + ".");

        System.out.println(A + ": " + slv.getValue(A));
        System.out.println(B + ": " + slv.getValue(B));
        System.out.println(C + ": " + slv.getValue(C));
        System.out.println(lhs + ": " + slv.getValue(lhs));
        System.out.println(rhs + ": " + slv.getValue(rhs));
      }

      // union max distributes over intersection
      {
        Term unionMaxAB = slv.mkTerm(BAG_UNION_MAX, new Term[] {A, B});
        Term lhs = slv.mkTerm(BAG_INTER_MIN, new Term[] {unionMaxAB, C});
        Term rhs = slv.mkTerm(BAG_UNION_MAX, new Term[] {intersectionAC, intersectionBC});
        Term theorem = slv.mkTerm(EQUAL, new Term[] {lhs, rhs});
        System.out.println("cvc5 reports: " + theorem.notTerm() + " is "
            + slv.checkSatAssuming(theorem.notTerm()) + ".");
      }

      // Verify emptbag is a subbag of any bag
      {
        Term emptybag = slv.mkEmptyBag(bag);
        Term theorem = slv.mkTerm(BAG_SUBBAG, new Term[] {emptybag, A});

        System.out.println("cvc5 reports: " + theorem.notTerm() + " is "
            + slv.checkSatAssuming(theorem.notTerm()) + ".");
      }

      // find an element with multiplicity 4 in the disjoint union of
      // ; {|"a", "a", "b", "b", "b"|} and {|"b", "c", "c"|}
      {
        Term one = slv.mkInteger(1);
        Term two = slv.mkInteger(2);
        Term three = slv.mkInteger(3);
        Term four = slv.mkInteger(4);
        Term a = slv.mkString("a");
        Term b = slv.mkString("b");
        Term c = slv.mkString("c");

        Term bag_a_2 = slv.mkTerm(BAG_MAKE, new Term[] {a, two});
        Term bag_b_3 = slv.mkTerm(BAG_MAKE, new Term[] {b, three});
        Term bag_b_1 = slv.mkTerm(BAG_MAKE, new Term[] {b, one});
        Term bag_c_2 = slv.mkTerm(BAG_MAKE, new Term[] {c, two});

        Term bag_a_2_b_3 = slv.mkTerm(BAG_UNION_DISJOINT, new Term[] {bag_a_2, bag_b_3});

        Term bag_b_1_c_2 = slv.mkTerm(BAG_UNION_DISJOINT, new Term[] {bag_b_1, bag_c_2});

        Term union_disjoint = slv.mkTerm(BAG_UNION_DISJOINT, new Term[] {bag_a_2_b_3, bag_b_1_c_2});

        Term count_x = slv.mkTerm(BAG_COUNT, new Term[] {x, union_disjoint});
        Term e = slv.mkTerm(EQUAL, new Term[] {four, count_x});
        Result result = slv.checkSatAssuming(e);

        System.out.println("cvc5 reports: " + e + " is " + result + ".");
        if (result.isSat())
        {
          System.out.println(x + ": " + slv.getValue(x));
        }
      }
    }
  }
}

            

examples/api/python/bags.py

             #!/usr/bin/env python
###############################################################################
# Top contributors (to current version):
#   Mudathir Mohamed, Aina Niemetz
#
# This file is part of the cvc5 project.
#
# Copyright (c) 2009-2022 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 reasoning about bags.
##

import cvc5
from cvc5 import Kind

if __name__ == "__main__":
    slv = cvc5.Solver()
    slv.setLogic("ALL")

    # Produce models
    slv.setOption("produce-models", "true")
    slv.setOption("incremental", "true")

    bag = slv.mkBagSort(slv.getStringSort())
    A = slv.mkConst(bag, "A")
    B = slv.mkConst(bag, "B")
    C = slv.mkConst(bag, "C")
    x = slv.mkConst(slv.getStringSort(), "x")

    intersectionAC = slv.mkTerm(Kind.BAG_INTER_MIN, A, C)
    intersectionBC = slv.mkTerm(Kind.BAG_INTER_MIN, B, C)

    # union disjoint does not distribute over intersection
    unionDisjointAB = slv.mkTerm(Kind.BAG_UNION_DISJOINT, A, B)
    lhs = slv.mkTerm(Kind.BAG_INTER_MIN, unionDisjointAB, C)
    rhs = slv.mkTerm(Kind.BAG_UNION_DISJOINT, intersectionAC, intersectionBC)
    guess = slv.mkTerm(Kind.EQUAL, lhs, rhs)
    print("cvc5 reports: {} is {}".format(
        guess.notTerm(), slv.checkSatAssuming(guess.notTerm())))

    print("{}: {}".format(A, slv.getValue(A)))
    print("{}: {}".format(B, slv.getValue(B)))
    print("{}: {}".format(C, slv.getValue(C)))
    print("{}: {}".format(lhs, slv.getValue(lhs)))
    print("{}: {}".format(rhs, slv.getValue(rhs)))

    # union max distributes over intersection
    unionMaxAB = slv.mkTerm(Kind.BAG_UNION_MAX, A, B)
    lhs = slv.mkTerm(Kind.BAG_INTER_MIN, unionMaxAB, C)
    rhs = slv.mkTerm(Kind.BAG_UNION_MAX, intersectionAC, intersectionBC)
    theorem = slv.mkTerm(Kind.EQUAL, lhs, rhs)
    print("cvc5 reports: {} is {}.".format(
        theorem.notTerm(), slv.checkSatAssuming(theorem.notTerm())))

    # Verify emptbag is a subbag of any bag
    emptybag = slv.mkEmptyBag(bag)
    theorem = slv.mkTerm(Kind.BAG_SUBBAG, emptybag, A)
    print("cvc5 reports: {} is {}.".format(
        theorem.notTerm(), slv.checkSatAssuming(theorem.notTerm())))

    # find an element with multiplicity 4 in the disjoint union of
    #  {|"a", "a", "b", "b", "b"|} and {|"b", "c", "c"|}
    one = slv.mkInteger(1)
    two = slv.mkInteger(2)
    three = slv.mkInteger(3)
    four = slv.mkInteger(4)
    a = slv.mkString("a")
    b = slv.mkString("b")
    c = slv.mkString("c")

    bag_a_2 = slv.mkTerm(Kind.BAG_MAKE, a, two)
    bag_b_3 = slv.mkTerm(Kind.BAG_MAKE, b, three)
    bag_b_1 = slv.mkTerm(Kind.BAG_MAKE, b, one)
    bag_c_2 = slv.mkTerm(Kind.BAG_MAKE, c, two)
    bag_a_2_b_3 = slv.mkTerm(Kind.BAG_UNION_DISJOINT, bag_a_2, bag_b_3)
    bag_b_1_c_2 = slv.mkTerm(Kind.BAG_UNION_DISJOINT, bag_b_1, bag_c_2)
    UnionDisjoint = slv.mkTerm(
            Kind.BAG_UNION_DISJOINT, bag_a_2_b_3, bag_b_1_c_2)

    count_x = slv.mkTerm(Kind.BAG_COUNT, x, UnionDisjoint)
    e = slv.mkTerm(Kind.EQUAL, four, count_x)
    result = slv.checkSatAssuming(e)

    print("cvc5 reports: {} is {}.".format(e, result))
    if result.isSat():
        print("{}: {} ".format(x, slv.getValue(x)))

            

examples/api/smtlib/bags.smt2

             (set-logic ALL)

(set-option :produce-models true)
(set-option :incremental true)

(declare-const A (Bag String))
(declare-const B (Bag String))
(declare-const C (Bag String))
(declare-const x String)

; union disjoint does not distribute over intersection
; sat
(check-sat-assuming
 ((distinct
   (bag.inter_min (bag.union_disjoint A B) C)
   (bag.union_disjoint (bag.inter_min A C) (bag.inter_min B C)))))


(get-value (A))
(get-value (B))
(get-value (C))
(get-value ((bag.inter_min (bag.union_disjoint A B) C)))
(get-value ((bag.union_disjoint (bag.inter_min A C) (bag.inter_min B C))))

; union max distributes over intersection
; unsat
(check-sat-assuming
 ((distinct
   (bag.inter_min (bag.union_max A B) C)
   (bag.union_max (bag.inter_min A C) (bag.inter_min B C)))))

; Verify emptbag is a subbag of any bag
; unsat
(check-sat-assuming
 ((not (bag.subbag (as bag.empty (Bag String)) A))))

; find an element with multiplicity 4 in the disjoint union of
; {|"a", "a", "b", "b", "b"|} and {|"b", "c", "c"|}
(check-sat-assuming
 ((= 4
     (bag.count x
                (bag.union_disjoint
                 (bag.union_disjoint (bag "a" 2) (bag "b" 3))
                 (bag.union_disjoint (bag "b" 1) (bag "c" 2)))))))

; x is "b"
(get-value (x))

            