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/********************* */
/*! \file pseudo_boolean_processor.h
** \verbatim
** Top contributors (to current version):
** Tim King, Andres Noetzli, Mathias Preiner
** This file is part of the CVC4 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.\endverbatim
**
** \brief [[ Add one-line brief description here ]]
**
** [[ Add lengthier description here ]]
** \todo document this file
**/
#include "cvc4_private.h"
#ifndef CVC5__PREPROCESSING__PASSES__PSEUDO_BOOLEAN_PROCESSOR_H
#define CVC5__PREPROCESSING__PASSES__PSEUDO_BOOLEAN_PROCESSOR_H
#include <unordered_set>
#include <vector>
#include "context/cdhashmap.h"
#include "context/cdo.h"
#include "expr/node.h"
#include "preprocessing/preprocessing_pass.h"
#include "theory/substitutions.h"
#include "util/maybe.h"
#include "util/rational.h"
namespace cvc5 {
namespace preprocessing {
namespace passes {
class PseudoBooleanProcessor : public PreprocessingPass
{
public:
PseudoBooleanProcessor(PreprocessingPassContext* preprocContext);
protected:
PreprocessingPassResult applyInternal(
AssertionPipeline* assertionsToPreprocess) override;
private:
/** Assumes that the assertions have been rewritten. */
void learn(const std::vector<Node>& assertions);
/** Assumes that the assertions have been rewritten. */
void applyReplacements(AssertionPipeline* assertionsToPreprocess);
bool likelyToHelp() const;
bool isPseudoBoolean(Node v) const;
// Adds the fact the that integert typed variable v
// must be >= 0 to the context.
// This is explained by the explanation exp.
// exp cannot be null.
void addGeqZero(Node v, Node exp);
// Adds the fact the that integert typed variable v
// must be <= 1 to the context.
// This is explained by the explanation exp.
// exp cannot be null.
void addLeqOne(Node v, Node exp);
static inline bool isIntVar(Node v)
{
return v.isVar() && v.getType().isInteger();
}
void clear();
/** Assumes that the assertion has been rewritten. */
void learn(Node assertion);
/** Rewrites a node */
Node applyReplacements(Node pre);
void learnInternal(Node assertion, bool negated, Node orig);
void learnRewrittenGeq(Node assertion, bool negated, Node orig);
void addSub(Node from, Node to);
void learnGeqSub(Node geq);
static Node mkGeqOne(Node v);
// x -> <geqZero, leqOne>
typedef context::CDHashMap<Node, std::pair<Node, Node>, NodeHashFunction>
CDNode2PairMap;
CDNode2PairMap d_pbBounds;
theory::SubstitutionMap d_subCache;
typedef std::unordered_set<Node, NodeHashFunction> NodeSet;
NodeSet d_learningCache;
context::CDO<unsigned> d_pbs;
// decompose into \sum pos >= neg + off
Maybe<Rational> d_off;
std::vector<Node> d_pos;
std::vector<Node> d_neg;
/** Returns true if successful. */
bool decomposeAssertion(Node assertion, bool negated);
};
} // namespace passes
} // namespace preprocessing
} // namespace cvc5
#endif // CVC5__PREPROCESSING__PASSES__PSEUDO_BOOLEAN_PROCESSOR_H
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