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f1ba9b8542
This PR adds the code for printing synthesis solutions to the docs. Various other changes are made to increase the consistency between the different bindings. Signed-off-by: Abdalrhman M Mohamed <abdalrhman-mohamed@uiowa.edu>
76 lines
2.5 KiB
Java
76 lines
2.5 KiB
Java
/******************************************************************************
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* Top contributors (to current version):
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* Abdalrhman Mohamed, Mudathir Mohamed, Aina Niemetz
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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) 2009-2021 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 Sygus API.
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*
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* A simple demonstration of how to use the Sygus API to synthesize a simple
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* invariant. This is a direct translation of sygus-inv.cpp.
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*/
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import static io.github.cvc5.api.Kind.*;
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import io.github.cvc5.api.*;
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public class SygusInv
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{
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public static void main(String args[]) throws CVC5ApiException
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{
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try (Solver slv = new Solver())
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{
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// required options
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slv.setOption("sygus", "true");
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slv.setOption("incremental", "false");
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// set the logic
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slv.setLogic("LIA");
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Sort integer = slv.getIntegerSort();
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Sort bool = slv.getBooleanSort();
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Term zero = slv.mkInteger(0);
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Term one = slv.mkInteger(1);
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Term ten = slv.mkInteger(10);
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// declare input variables for functions
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Term x = slv.mkVar(integer, "x");
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Term xp = slv.mkVar(integer, "xp");
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// (ite (< x 10) (= xp (+ x 1)) (= xp x))
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Term ite = slv.mkTerm(ITE,
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slv.mkTerm(LT, x, ten),
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slv.mkTerm(EQUAL, xp, slv.mkTerm(ADD, x, one)),
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slv.mkTerm(EQUAL, xp, x));
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// define the pre-conditions, transition relations, and post-conditions
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Term pre_f = slv.defineFun("pre-f", new Term[] {x}, bool, slv.mkTerm(EQUAL, x, zero));
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Term trans_f = slv.defineFun("trans-f", new Term[] {x, xp}, bool, ite);
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Term post_f = slv.defineFun("post-f", new Term[] {x}, bool, slv.mkTerm(LEQ, x, ten));
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// declare the invariant-to-synthesize
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Term inv_f = slv.synthInv("inv-f", new Term[] {x});
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slv.addSygusInvConstraint(inv_f, pre_f, trans_f, post_f);
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// print solutions if available
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if (slv.checkSynth().hasSolution())
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{
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// Output should be equivalent to:
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// (
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// (define-fun inv-f ((x Int)) Bool (not (>= x 11)))
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// )
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Term[] terms = new Term[] {inv_f};
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Utils.printSynthSolutions(terms, slv.getSynthSolutions(terms));
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}
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}
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}
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}
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