#ifndef HORUS_LIFTEDWCNF_H #define HORUS_LIFTEDWCNF_H #include "ParfactorList.h" using namespace std; typedef long LiteralId; class ConstraintTree; enum LogVarType { FULL_LV, POS_LV, NEG_LV }; typedef vector LogVarTypes; class Literal { public: Literal (LiteralId lid, const LogVars& lvs) : lid_(lid), logVars_(lvs), negated_(false) { } Literal (const Literal& lit, bool negated) : lid_(lit.lid_), logVars_(lit.logVars_), negated_(negated) { } LiteralId lid (void) const { return lid_; } LogVars logVars (void) const { return logVars_; } size_t nrLogVars (void) const { return logVars_.size(); } LogVarSet logVarSet (void) const { return LogVarSet (logVars_); } void complement (void) { negated_ = !negated_; } bool isPositive (void) const { return negated_ == false; } bool isNegative (void) const { return negated_; } bool isGround (ConstraintTree constr, LogVarSet ipgLogVars) const; size_t indexOfLogVar (LogVar X) const; string toString (LogVarSet ipgLogVars = LogVarSet(), LogVarSet posCountedLvs = LogVarSet(), LogVarSet negCountedLvs = LogVarSet()) const; friend std::ostream& operator<< (std::ostream &os, const Literal& lit); private: LiteralId lid_; LogVars logVars_; bool negated_; }; typedef vector Literals; class Clause { public: Clause (const ConstraintTree& ct = ConstraintTree({})) : constr_(ct) { } Clause (vector> names) : constr_(ConstraintTree (names)) { } void addLiteral (const Literal& l) { literals_.push_back (l); } const Literals& literals (void) const { return literals_; } const ConstraintTree& constr (void) const { return constr_; } ConstraintTree constr (void) { return constr_; } bool isUnit (void) const { return literals_.size() == 1; } LogVarSet ipgLogVars (void) const { return ipgLogVars_; } void addIpgLogVar (LogVar X) { ipgLogVars_.insert (X); } void addPosCountedLogVar (LogVar X) { posCountedLvs_.insert (X); } void addNegCountedLogVar (LogVar X) { negCountedLvs_.insert (X); } LogVarSet posCountedLogVars (void) const { return posCountedLvs_; } LogVarSet negCountedLogVars (void) const { return negCountedLvs_; } unsigned nrPosCountedLogVars (void) const { return posCountedLvs_.size(); } unsigned nrNegCountedLogVars (void) const { return negCountedLvs_.size(); } void addLiteralComplemented (const Literal& lit); bool containsLiteral (LiteralId lid) const; bool containsPositiveLiteral (LiteralId lid, const LogVarTypes&) const; bool containsNegativeLiteral (LiteralId lid, const LogVarTypes&) const; void removeLiterals (LiteralId lid); void removePositiveLiterals (LiteralId lid, const LogVarTypes&); void removeNegativeLiterals (LiteralId lid, const LogVarTypes&); bool isCountedLogVar (LogVar X) const; bool isPositiveCountedLogVar (LogVar X) const; bool isNegativeCountedLogVar (LogVar X) const; bool isIpgLogVar (LogVar X) const; TinySet lidSet (void) const; LogVarSet ipgCandidates (void) const; LogVarTypes logVarTypes (size_t litIdx) const; void removeLiteral (size_t litIdx); static bool independentClauses (Clause& c1, Clause& c2); static void printClauses (const vector& clauses); friend std::ostream& operator<< (ostream &os, const Clause& clause); private: LogVarSet getLogVarSetExcluding (size_t idx) const; Literals literals_; LogVarSet ipgLogVars_; LogVarSet posCountedLvs_; LogVarSet negCountedLvs_; ConstraintTree constr_; }; typedef vector Clauses; class LitLvTypes { public: struct CompareLitLvTypes { bool operator() ( const LitLvTypes& types1, const LitLvTypes& types2) const { if (types1.lid_ < types2.lid_) { return true; } return types1.lvTypes_ < types2.lvTypes_; } }; LitLvTypes (LiteralId lid, const LogVarTypes& lvTypes) : lid_(lid), lvTypes_(lvTypes) { } LiteralId lid (void) const { return lid_; } const LogVarTypes& logVarTypes (void) const { return lvTypes_; } void setAllFullLogVars (void) { std::fill (lvTypes_.begin(), lvTypes_.end(), LogVarType::FULL_LV); } private: LiteralId lid_; LogVarTypes lvTypes_; }; typedef TinySet LitLvTypesSet; class LiftedWCNF { public: LiftedWCNF (const ParfactorList& pfList); ~LiftedWCNF (void); const Clauses& clauses (void) const { return clauses_; } double posWeight (LiteralId lid) const; double negWeight (LiteralId lid) const; Clause createClause (LiteralId lid) const; void printFormulaIndicators (void) const; void printWeights (void) const; void printClauses (void) const; private: LiteralId getLiteralId (PrvGroup prvGroup, unsigned range); void addWeight (LiteralId lid, double posW, double negW); void addIndicatorClauses (const ParfactorList& pfList); void addParameterClauses (const ParfactorList& pfList); Clauses clauses_; LiteralId freeLiteralId_; const ParfactorList& pfList_; unordered_map> map_; unordered_map> weights_; }; #endif // HORUS_LIFTEDWCNF_H