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/****************************************************************************** |
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* Top contributors (to current version): |
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* Andrew Reynolds, Mathias Preiner |
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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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* quantifier util |
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*/ |
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#include "cvc5_private.h" |
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#ifndef CVC5__THEORY__QUANT_UTIL_H |
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#define CVC5__THEORY__QUANT_UTIL_H |
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#include <iostream> |
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#include <map> |
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#include <vector> |
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#include "expr/node.h" |
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#include "smt/env_obj.h" |
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#include "theory/incomplete_id.h" |
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#include "theory/theory.h" |
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namespace cvc5 { |
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namespace theory { |
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/** Quantifiers utility |
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* |
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* This is a lightweight version of a quantifiers module that does not implement |
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* methods for checking satisfiability. |
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*/ |
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class QuantifiersUtil : protected EnvObj |
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{ |
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public: |
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QuantifiersUtil(Env& env); |
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virtual ~QuantifiersUtil(){} |
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/** Called at the beginning of check-sat call. */ |
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virtual void presolve() {} |
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/* reset |
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* Called at the beginning of an instantiation round |
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* Returns false if the reset failed. When reset fails, the utility should |
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* have added a lemma via a call to d_qim.addPendingLemma. |
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*/ |
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virtual bool reset(Theory::Effort e) { return true; } |
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/* Called for new quantifiers */ |
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virtual void registerQuantifier(Node q) {} |
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/** Identify this module (for debugging, dynamic configuration, etc..) */ |
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virtual std::string identify() const = 0; |
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/** Check complete? |
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* |
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* Returns false if the utility's reasoning was globally incomplete |
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* (e.g. "sat" must be replaced with "incomplete"). If this method returns |
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* false, it should update incId to the reason for incompleteness. |
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*/ |
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virtual bool checkComplete(IncompleteId& incId) { return true; } |
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}; |
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class QuantPhaseReq |
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{ |
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private: |
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/** helper functions compute phase requirements */ |
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void computePhaseReqs( Node n, bool polarity, std::map< Node, int >& phaseReqs ); |
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public: |
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QuantPhaseReq(){} |
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QuantPhaseReq( Node n, bool computeEq = false ); |
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~QuantPhaseReq(){} |
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void initialize( Node n, bool computeEq ); |
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/** is phase required */ |
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bool isPhaseReq( Node lit ) { return d_phase_reqs.find( lit )!=d_phase_reqs.end(); } |
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/** get phase requirement */ |
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bool getPhaseReq( Node lit ) { return d_phase_reqs.find( lit )==d_phase_reqs.end() ? false : d_phase_reqs[ lit ]; } |
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/** phase requirements for each quantifier for each instantiation literal */ |
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std::map< Node, bool > d_phase_reqs; |
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std::map< Node, bool > d_phase_reqs_equality; |
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std::map< Node, Node > d_phase_reqs_equality_term; |
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/** |
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* Get the polarity of the child^th child of n, assuming its polarity |
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* is given by (hasPol, pol). A term has polarity if it is only relevant |
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* if asserted with one polarity. Its polarity is (typically) the number |
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* of negations it is beneath. |
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*/ |
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static void getPolarity(Node n, |
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size_t child, |
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bool hasPol, |
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bool pol, |
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bool& newHasPol, |
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bool& newPol); |
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/** |
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* Get the entailed polarity of the child^th child of n, assuming its |
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* entailed polarity is given by (hasPol, pol). A term has entailed polarity |
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* if it must be asserted with a polarity. Its polarity is (typically) the |
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* number of negations it is beneath. |
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* |
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* Entailed polarity and polarity above differ, e.g.: |
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* (and A B): A and B have true polarity and true entailed polarity |
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* (or A B): A and B have true polarity and no entailed polarity |
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*/ |
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static void getEntailPolarity(Node n, |
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size_t child, |
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bool hasPol, |
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bool pol, |
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bool& newHasPol, |
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bool& newPol); |
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}; |
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} |
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} // namespace cvc5 |
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#endif /* CVC5__THEORY__QUANT_UTIL_H */ |