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#include "cvc4_private.h"
#ifndef __CVC4__THEORY__ARITH__ARITH_PROPAGATOR_H
#define __CVC4__THEORY__ARITH__ARITH_PROPAGATOR_H
#include "expr/node.h"
#include "context/cdlist.h"
#include "context/context.h"
#include "context/cdo.h"
#include "theory/arith/ordered_bounds_list.h"
#include <algorithm>
#include <vector>
namespace CVC4 {
namespace theory {
namespace arith {
class ArithUnatePropagator {
private:
/** Index of assertions. */
context::CDList<Node> d_assertions;
/** Index of the last assertion in d_assertions to be asserted. */
context::CDO<unsigned int> d_pendingAssertions;
public:
ArithUnatePropagator(context::Context* cxt);
/**
* Adds a new atom for the propagator to watch.
* Atom is assumed to have been rewritten by TheoryArith::rewrite().
*/
void addAtom(TNode atom);
/**
* Informs the propagator that a literal has been asserted to the theory.
*/
void assertLiteral(TNode lit);
/**
* returns a vector of literals that are
*/
std::vector<Node> getImpliedLiterals();
/** Explains a literal that was asserted in the current context. */
Node explain(TNode lit);
private:
/** returns true if the left hand side side left has been setup. */
bool leftIsSetup(TNode left);
/**
* Sets up a left hand side.
* This initializes the attributes PropagatorEqList, PropagatorGeqList, and PropagatorLeqList for left.
*/
void setupLefthand(TNode left);
/**
* Given that the literal lit is now asserted,
* enqueue additional entailed assertions in buffer.
*/
void enqueueImpliedLiterals(TNode lit, std::vector<Node>& buffer);
void enqueueEqualityImplications(TNode original, std::vector<Node>& buffer);
void enqueueLowerBoundImplications(TNode atom, TNode original, std::vector<Node>& buffer);
/**
* Given that the literal original is now asserted, which is either (<= x c) or (not (>= x c)),
* enqueue additional entailed assertions in buffer.
*/
void enqueueUpperBoundImplications(TNode atom, TNode original, std::vector<Node>& buffer);
};
namespace propagator {
/** Basic memory management wrapper for deleting PropagatorEqList, PropagatorGeqList, and PropagatorLeqList.*/
struct ListCleanupStrategy{
static void cleanup(OrderedBoundsList* l){
Debug("arithgc") << "cleaning up " << l << "\n";
delete l;
}
};
struct PropagatorEqListID {};
typedef expr::Attribute<PropagatorEqListID, OrderedBoundsList*, ListCleanupStrategy> PropagatorEqList;
struct PropagatorGeqListID {};
typedef expr::Attribute<PropagatorGeqListID, OrderedBoundsList*, ListCleanupStrategy> PropagatorGeqList;
struct PropagatorLeqListID {};
typedef expr::Attribute<PropagatorLeqListID, OrderedBoundsList*, ListCleanupStrategy> PropagatorLeqList;
struct PropagatorMarkedID {};
typedef expr::CDAttribute<PropagatorMarkedID, bool> PropagatorMarked;
struct PropagatorExplanationID {};
typedef expr::CDAttribute<PropagatorExplanationID, Node> PropagatorExplanation;
}/* CVC4::theory::arith::propagator */
}/* CVC4::theory::arith namespace */
}/* CVC4::theory namespace */
}/* CVC4 namespace */
#endif /* __CVC4__THEORY__ARITH__THEORY_ARITH_H */
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