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/******************************************************************************
* Top contributors (to current version):
* Andrew Reynolds, Gereon Kremer
*
* This file is part of the cvc5 project.
*
* Copyright (c) 2009-2021 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.
* ****************************************************************************
*
* The inference manager for the theory of sets.
*/
#include "cvc4_private.h"
#ifndef CVC5__THEORY__SETS__INFERENCE_MANAGER_H
#define CVC5__THEORY__SETS__INFERENCE_MANAGER_H
#include "theory/inference_manager_buffered.h"
#include "theory/sets/solver_state.h"
namespace cvc5 {
namespace theory {
namespace sets {
class TheorySetsPrivate;
/** Inference manager
*
* This class manages inferences produced by the theory of sets. It manages
* whether inferences are processed as external lemmas on the output channel
* of theory of sets or internally as literals asserted to the equality engine
* of theory of sets. The latter literals are referred to as "facts".
*/
class InferenceManager : public InferenceManagerBuffered
{
typedef context::CDHashSet<Node, NodeHashFunction> NodeSet;
public:
InferenceManager(Theory& t, SolverState& s, ProofNodeManager* pnm);
/**
* Add facts corresponding to ( exp => fact ) via calls to the assertFact
* method of TheorySetsPrivate.
*
* The portions of fact that were unable to be processed as facts are added
* to the data member d_pendingLemmas.
*
* The argument inferType is used for overriding the policy on whether
* fact is processed as a lemma, where inferType=1 forces fact to be
* set as a lemma, and inferType=-1 forces fact to be processed as a fact
* (if possible).
*/
void assertInference(Node fact,
InferenceId id,
Node exp,
int inferType = 0);
/** same as above, where exp is interpreted as a conjunction */
void assertInference(Node fact,
InferenceId id,
std::vector<Node>& exp,
int inferType = 0);
/** same as above, where conc is interpreted as a conjunction */
void assertInference(std::vector<Node>& conc,
InferenceId id,
Node exp,
int inferType = 0);
/** same as above, where both exp and conc are interpreted as conjunctions */
void assertInference(std::vector<Node>& conc,
InferenceId id,
std::vector<Node>& exp,
int inferType = 0);
/** flush the splitting lemma ( n OR (NOT n) )
*
* If reqPol is not 0, then a phase requirement for n is requested with
* polarity ( reqPol>0 ).
*/
void split(Node n, InferenceId id, int reqPol = 0);
private:
/** constants */
Node d_true;
Node d_false;
/**
* Reference to the state object for the theory of sets. We store the
* (derived) state here, since it has additional methods required in this
* class.
*/
SolverState& d_state;
/** Assert fact recursive
*
* This is a helper function for assertInference, which calls assertFact
* in theory of sets and adds to d_pendingLemmas based on fact.
* The argument inferType determines the policy on whether fact is processed
* as a fact or as a lemma (see assertInference above).
*/
bool assertFactRec(Node fact, InferenceId id, Node exp, int inferType = 0);
};
} // namespace sets
} // namespace theory
} // namespace cvc5
#endif /* CVC5__THEORY__SETS__INFERENCE_MANAGER_H */
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