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yap-6.3/packages/bee/cryptominisat-2.5.1/Solver/FailedVarSearcher.h
Vitor Santos Costa 16015bd8e6 bee
2019-04-22 12:15:21 +01:00

165 lines
4.9 KiB
C++
Executable File

/***********************************************************************************
CryptoMiniSat -- Copyright (c) 2009 Mate Soos
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
**************************************************************************************************/
#ifndef FAILEDVARSEARCHER_H
#define FAILEDVARSEARCHER_H
#include <set>
#include <map>
using std::map;
#include "SolverTypes.h"
#include "Clause.h"
#include "BitArray.h"
class Solver;
class TwoLongXor
{
public:
const bool operator==(const TwoLongXor& other) const
{
if (var[0] == other.var[0] && var[1] == other.var[1] && inverted == other.inverted)
return true;
return false;
}
const bool operator<(const TwoLongXor& other) const
{
if (var[0] < other.var[0]) return true;
if (var[0] > other.var[0]) return false;
if (var[1] < other.var[1]) return true;
if (var[1] > other.var[1]) return false;
if (inverted < other.inverted) return true;
if (inverted > other.inverted) return false;
return false;
}
Var var[2];
bool inverted;
};
class FailedVarSearcher {
public:
FailedVarSearcher(Solver& _solver);
const bool search(uint64_t numProps);
template<bool startUp>
const bool removeUslessBinFull();
private:
//For 2-long xor
const TwoLongXor getTwoLongXor(const XorClause& c);
void addFromSolver(const vec<XorClause*>& cs);
uint32_t newBinXor;
//For detach&re-attach (when lots of vars found)
template<class T>
void cleanAndAttachClauses(vec<T*>& cs);
const bool cleanClause(Clause& ps);
const bool cleanClause(XorClause& ps);
void completelyDetachAndReattach();
//For re-adding old removed learnt clauses
const bool readdRemovedLearnts();
void removeOldLearnts();
//Main
const bool tryBoth(const Lit lit1, const Lit lit2);
const bool tryAll(const Lit* begin, const Lit* end);
void printResults(const double myTime) const;
Solver& solver;
//Time
uint32_t extraTime;
//For failure
bool failed;
//bothprop finding
BitArray propagated;
BitArray propValue;
vec<Lit> bothSame;
//2-long xor-finding
vec<uint32_t> xorClauseSizes;
vector<vector<uint32_t> > occur;
void removeVarFromXors(const Var var);
void addVarFromXors(const Var var);
BitArray xorClauseTouched;
vec<uint32_t> investigateXor;
std::set<TwoLongXor> twoLongXors;
bool binXorFind;
uint32_t lastTrailSize;
//2-long xor-finding no.2 through
// 1) (a->b, ~a->~b) -> a=b
// 2) binary clause (a,c): (a->g, c->~g) -> a = ~c
uint32_t bothInvert;
//finding HyperBins
void addBinClauses(const Lit& lit);
BitArray unPropagatedBin;
vec<Var> propagatedVars;
void addBin(const Lit& lit1, const Lit& lit2);
void fillImplies(const Lit& lit);
BitArray myimplies;
vec<Var> myImpliesSet;
uint64_t hyperbinProps;
vector<uint32_t> litDegrees;
const bool orderLits();
uint64_t maxHyperBinProps;
uint64_t binClauseAdded;
//Remove useless binaries
template<bool startUp>
const bool fillBinImpliesMinusLast(const Lit& origLit, const Lit& lit, vec<Lit>& wrong);
template<bool startUp>
const bool removeUselessBinaries(const Lit& lit);
void removeBin(const Lit& lit1, const Lit& lit2);
vec<char> toDeleteSet;
vec<Lit> oneHopAway;
vec<Lit> wrong;
//Temporaries
vec<Lit> tmpPs;
//State for this run
uint32_t toReplaceBefore;
uint32_t origTrailSize;
uint64_t origProps;
uint32_t numFailed;
uint32_t goodBothSame;
//State between runs
bool finishedLastTimeVar;
uint32_t lastTimeWentUntilVar;
bool finishedLastTimeBin;
uint32_t lastTimeWentUntilBin;
double numPropsMultiplier;
uint32_t lastTimeFoundTruths;
uint32_t numCalls;
};
#endif //FAILEDVARSEARCHER_H