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6f32ee5ca0
It also replaces calls to deprecated functions of `Solver` with the corresponding function of `TermManager`. --------- Co-authored-by: mudathirmahgoub <mudathirmahgoub@gmail.com>
81 lines
2.7 KiB
Java
81 lines
2.7 KiB
Java
/******************************************************************************
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* Top contributors (to current version):
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* Mudathir Mohamed, Morgan Deters, Tim King
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*
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* This file is part of the cvc5 project.
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*
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* Copyright (c) 2009-2024 by the authors listed in the file AUTHORS
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* in the top-level source directory and their institutional affiliations.
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* All rights reserved. See the file COPYING in the top-level source
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* directory for licensing information.
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* ****************************************************************************
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*
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* A simple demonstration of the linear arithmetic solving capabilities and
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* the push pop of cvc5. This also gives an example option.
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*/
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import io.github.cvc5.*;
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public class LinearArith
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{
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public static void main(String args[]) throws CVC5ApiException
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{
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TermManager tm = new TermManager();
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Solver slv = new Solver(tm);
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{
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slv.setLogic("QF_LIRA"); // Set the logic
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// Prove that if given x (Integer) and y (Real) then
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// the maximum value of y - x is 2/3
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// Sorts
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Sort real = tm.getRealSort();
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Sort integer = tm.getIntegerSort();
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// Variables
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Term x = tm.mkConst(integer, "x");
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Term y = tm.mkConst(real, "y");
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// Constants
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Term three = tm.mkInteger(3);
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Term neg2 = tm.mkInteger(-2);
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Term two_thirds = tm.mkReal(2, 3);
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// Terms
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Term three_y = tm.mkTerm(Kind.MULT, three, y);
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Term diff = tm.mkTerm(Kind.SUB, y, x);
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// Formulas
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Term x_geq_3y = tm.mkTerm(Kind.GEQ, x, three_y);
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Term x_leq_y = tm.mkTerm(Kind.LEQ, x, y);
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Term neg2_lt_x = tm.mkTerm(Kind.LT, neg2, x);
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Term assertions = tm.mkTerm(Kind.AND, x_geq_3y, x_leq_y, neg2_lt_x);
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System.out.println("Given the assertions " + assertions);
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slv.assertFormula(assertions);
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slv.push();
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Term diff_leq_two_thirds = tm.mkTerm(Kind.LEQ, diff, two_thirds);
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System.out.println("Prove that " + diff_leq_two_thirds + " with cvc5.");
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System.out.println("cvc5 should report UNSAT.");
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System.out.println(
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"Result from cvc5 is: " + slv.checkSatAssuming(diff_leq_two_thirds.notTerm()));
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slv.pop();
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System.out.println();
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slv.push();
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Term diff_is_two_thirds = tm.mkTerm(Kind.EQUAL, diff, two_thirds);
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slv.assertFormula(diff_is_two_thirds);
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System.out.println("Show that the assertions are consistent with ");
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System.out.println(diff_is_two_thirds + " with cvc5.");
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System.out.println("cvc5 should report SAT.");
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System.out.println("Result from cvc5 is: " + slv.checkSat());
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slv.pop();
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System.out.println("Thus the maximum value of (y - x) is 2/3.");
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}
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Context.deletePointers();
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}
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}
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