コード例 #1
0
ファイル: SimpSolver.cpp プロジェクト: lncosie/ogdf
// Returns FALSE if clause is always satisfied.
bool SimpSolver::merge(const Clause& _ps, const Clause& _qs, Var v, int& size)
{
	merges++;

	bool  ps_smallest = _ps.size() < _qs.size();
	const Clause& ps  =  ps_smallest ? _qs : _ps;
	const Clause& qs  =  ps_smallest ? _ps : _qs;
	const Lit*  __ps  = static_cast<const Lit*>(ps);
	const Lit*  __qs  = static_cast<const Lit*>(qs);

	size = ps.size()-1;

	for (int i = 0; i < qs.size(); i++) {
		if (var(__qs[i]) != v) {
			for (int j = 0; j < ps.size(); j++) {
				if (var(__ps[j]) == var(__qs[i])) {
					if (__ps[j] == ~__qs[i])
						return false;
					else
						goto next;
				}
			}
			size++;
		}
next:;
	}

	return true;
}
コード例 #2
0
/**
@brief Cleans clauses from failed literals/removes satisfied clauses from cs

May change solver->ok to FALSE (!)
*/
void CompleteDetachReatacher::cleanAndAttachClauses(
    vector<ClOffset>& cs
    , bool removeStatsFirst
) {
    assert(!solver->drup->something_delayed());
    vector<ClOffset>::iterator i = cs.begin();
    vector<ClOffset>::iterator j = i;
    for (vector<ClOffset>::iterator end = cs.end(); i != end; i++) {
        Clause* cl = solver->clAllocator.getPointer(*i);

        //Handle stat removal if need be
        if (removeStatsFirst) {
            if (cl->red()) {
                solver->litStats.redLits -= cl->size();
            } else {
                solver->litStats.irredLits -= cl->size();
            }
        }

        if (cleanClause(cl)) {
            solver->attachClause(*cl);
            *j++ = *i;
        } else {
            solver->clAllocator.clauseFree(*i);
        }
    }
    cs.resize(cs.size() - (i-j));
}
コード例 #3
0
ファイル: sat.c プロジェクト: cmears/chuffed
void SAT::removeClause(Clause& c) {
	assert(c.size() > 1);
	watches[toInt(~c[0])].remove(&c);
	watches[toInt(~c[1])].remove(&c);
	if (c.learnt) learnts_literals -= c.size();
	else          clauses_literals -= c.size();

	if (c.learnt) for (int i = 0; i < c.size(); i++) decVarUse(var(c[i]));

        if (c.learnt) {
            //            learntClauseScore[c.clauseID()] = c.rawActivity();
            /* if (so.debug) { */
            if (so.learnt_stats) {
                int id = c.clauseID();
                learntStatsStream << learntClauseString[id];
                learntStatsStream << ",";
                learntStatsStream << c.rawActivity();
                learntStatsStream << "\n";
                /* std::cerr << "clausescore," <<  << "," << c.rawActivity() << "\n"; */
            }
            /* } */
        }

	free(&c);
}
コード例 #4
0
ファイル: propengine.cpp プロジェクト: Wushaowei001/crossbow
void PropEngine::attachClause(
    const Clause& c
    , const bool checkAttach
) {
    assert(c.size() > 3);
    if (checkAttach) {
        assert(value(c[0]) == l_Undef);
        assert(value(c[1]) == l_Undef || value(c[1]) == l_False);
    }

    if (c.red() && red_long_cls_is_reducedb(c)) {
        num_red_cls_reducedb++;
    }

    #ifdef DEBUG_ATTACH
    for (uint32_t i = 0; i < c.size(); i++) {
        assert(varData[c[i].var()].removed == Removed::none);
    }
    #endif //DEBUG_ATTACH

    const ClOffset offset = cl_alloc.get_offset(&c);

    const Lit blocked_lit = find_good_blocked_lit(c);
    watches[c[0].toInt()].push(Watched(offset, blocked_lit));
    watches[c[1].toInt()].push(Watched(offset, blocked_lit));
}
コード例 #5
0
// Returns FALSE if clause is always satisfied.
bool SimpSolver::merge(const Clause& _ps, const Clause& _qs, Var v)
{
    merges++;

    bool  ps_smallest = _ps.size() < _qs.size();
    const Clause& ps =  ps_smallest ? _qs : _ps;
    const Clause& qs =  ps_smallest ? _ps : _qs;
    const Lit* __ps = (const Lit*)ps;
    const Lit* __qs = (const Lit*)qs;

    for (int i = 0; i < qs.size(); i++){
        if (var(__qs[i]) != v){
            for (int j = 0; j < ps.size(); j++)
	      if (var(__ps[j]) == var(__qs[i])) {
		if (__ps[j] == ~__qs[i])
		  return false;
		else
		  goto next;
	      }
	}
        next:;
    }

    return true;
}
コード例 #6
0
ファイル: SimpSolver.cpp プロジェクト: lncosie/ogdf
// Returns FALSE if clause is always satisfied ('out_clause' should not be used).
bool SimpSolver::merge(const Clause& _ps, const Clause& _qs, Var v, vec<Lit>& out_clause)
{
	merges++;
	out_clause.clear();

	bool  ps_smallest = _ps.size() < _qs.size();
	const Clause& ps  =  ps_smallest ? _qs : _ps;
	const Clause& qs  =  ps_smallest ? _ps : _qs;

	for (int i = 0; i < qs.size(); i++) {
		if (var(qs[i]) != v) {
			for (int j = 0; j < ps.size(); j++) {
				if (var(ps[j]) == var(qs[i])) {
					if (ps[j] == ~qs[i])
						return false;
					else
						goto next;
				}
			}
			out_clause.push(qs[i]);
		}
next:;
	}

	for (int i = 0; i < ps.size(); i++)
		if (var(ps[i]) != v)
			out_clause.push(ps[i]);

	return true;
}
コード例 #7
0
ファイル: XorFinder.cpp プロジェクト: TeamAmalgam/kodkod
/**
@brief Returns if the two clauses are equal

NOTE: assumes that the clauses are of equal lenght AND contain the same
variables (but the invertedness of the literals might differ)
*/
bool XorFinder::clauseEqual(const Clause& c1, const Clause& c2) const
{
    assert(c1.size() == c2.size());
    for (uint32_t i = 0, size = c1.size(); i < size; i++)
        if (c1[i].sign() !=  c2[i].sign()) return false;

    return true;
}
コード例 #8
0
ファイル: Solver.C プロジェクト: lokdlok/Numberjack
void Solver::detachClause(Clause& c) {
    assert(c.size() > 1);
    assert(find(watches[toInt(~c[0])], &c));
    assert(find(watches[toInt(~c[1])], &c));
    remove(watches[toInt(~c[0])], &c);
    remove(watches[toInt(~c[1])], &c);
    if (c.learnt()) learnts_literals -= c.size();
    else            clauses_literals -= c.size(); }
コード例 #9
0
ファイル: MiniSATP.C プロジェクト: dreal-deps/opensmt
void MiniSATP::attachClause(Clause& c) 
{
    assert(c.size() > 1);
    watches[toInt(~c[0])].push(&c);
    watches[toInt(~c[1])].push(&c);
    if (c.learnt()) learnts_literals += c.size();
    else            clauses_literals += c.size(); 
}
コード例 #10
0
ファイル: sat.c プロジェクト: geoffchu/chuffed
void SAT::removeClause(Clause& c) {
	assert(c.size() > 1);
	watches[toInt(~c[0])].remove(&c);
	watches[toInt(~c[1])].remove(&c);
	if (c.learnt) learnts_literals -= c.size();
	else          clauses_literals -= c.size();

	if (c.learnt) for (int i = 0; i < c.size(); i++) decVarUse(var(c[i]));

	free(&c);
}
コード例 #11
0
ファイル: Solver.C プロジェクト: msoos/glucosetrack
void Solver::detachClause(Clause& c) {
    assert(c.size() > 1);
    //    assert(find(watches[toInt(~c[0])], &c));
    //assert(find(watches[toInt(~c[1])], &c));

    if(c.size()==2) {
      removeBin(watchesBin[toInt(~c[0])],&c);
      removeBin(watchesBin[toInt(~c[1])],&c);
    } else {
      removeW(watches[toInt(~c[0])], &c);
      removeW(watches[toInt(~c[1])], &c);
    }
    if (c.learnt()) learnts_literals -= c.size();
    else            clauses_literals -= c.size(); }
コード例 #12
0
ファイル: sat.c プロジェクト: geoffchu/chuffed
void SAT::addClause(Clause& c, bool one_watch) {
	assert(c.size() > 0);
	if (c.size() == 1) {
		assert(decisionLevel() == 0);
		if (DEBUG) fprintf(stderr, "warning: adding length 1 clause!\n");
		if (value(c[0]) == l_False) TL_FAIL();
		if (value(c[0]) == l_Undef) enqueue(c[0]);
		free(&c);
		return;
	}
	if (!c.learnt) {
		if (c.size() == 2) bin_clauses++;
		else if (c.size() == 3) tern_clauses++;
		else long_clauses++;
	}

	// Mark lazy lits which are used
	if (c.learnt) for (int i = 0; i < c.size(); i++) incVarUse(var(c[i]));

	if (c.size() == 2) {
		if (!one_watch) watches[toInt(~c[0])].push(c[1]);
		watches[toInt(~c[1])].push(c[0]);
		if (!c.learnt) free(&c);
		return;
	}
	if (!one_watch) watches[toInt(~c[0])].push(&c);
	watches[toInt(~c[1])].push(&c);
	if (c.learnt) learnts_literals += c.size();
	else            clauses_literals += c.size();
        
	if (c.received) receiveds.push(&c);
        else if (c.learnt) learnts.push(&c);
	else            clauses.push(&c);
}
コード例 #13
0
ファイル: VarReplacer.cpp プロジェクト: audemard/CVC4
/**
@brief Helper function for replace_set()
*/
bool VarReplacer::handleUpdatedClause(Clause& c, const Lit origLit1, const Lit origLit2, const Lit origLit3)
{
    bool satisfied = false;
    std::sort(c.getData(), c.getData() + c.size());
    Lit p;
    uint32_t i, j;
    const uint32_t origSize = c.size();
    for (i = j = 0, p = lit_Undef; i != origSize; i++) {
        if (solver.value(c[i]) == l_True || c[i] == ~p) {
            satisfied = true;
            break;
        }
        else if (solver.value(c[i]) != l_False && c[i] != p)
            c[j++] = p = c[i];
    }
    c.shrink(i - j);
    c.setChanged();

    solver.detachModifiedClause(origLit1, origLit2, origLit3, origSize, &c);

    #ifdef VERBOSE_DEBUG
    cout << "clause after replacing: ";
    c.plainPrint();
    #endif

    if (satisfied) return true;

    switch(c.size()) {
    case 0:
        solver.ok = false;
        return true;
    case 1 :
        solver.uncheckedEnqueue(c[0]);
        solver.ok = (solver.propagate<false>().isNULL());
        return true;
    case 2:
        solver.attachBinClause(c[0], c[1], c.learnt());
        solver.numNewBin++;
        solver.dataSync->signalNewBinClause(c);
        return true;
    default:
        solver.attachClause(c);
        return false;
    }

    assert(false);
    return false;
}
コード例 #14
0
ファイル: reducedb.cpp プロジェクト: snklee/cryptominisat
void ReduceDB::remove_cl_from_array_and_count_stats(
    CleaningStats& tmpStats
    , uint64_t sumConfl
) {
    size_t i, j;
    for (i = j = 0
        ; i < solver->longRedCls[1].size()
        ; i++
    ) {
        ClOffset offset = solver->longRedCls[1][i];
        Clause* cl = solver->cl_alloc.ptr(offset);
        assert(cl->size() > 3);

        if (cl->stats.locked) {
            cl_locked++;
        } else if (cl->stats.marked_clause) {
            cl_marked++;
        } else if (cl->stats.ttl != 0) {
            cl_ttl++;
        } else if (solver->clause_locked(*cl, offset)) {
            cl_locked_solver++;
        }

        if (cl->stats.glue <= solver->conf.glue_must_keep_clause_if_below_or_eq) {
            solver->longRedCls[0].push_back(offset);
            continue;
        }

        if (!cl_needs_removal(cl, offset)) {
            cl->stats.ttl = 0;
            solver->longRedCls[1][j++] = offset;
            tmpStats.remain.incorporate(cl, sumConfl);
            cl->stats.marked_clause = 0;
            continue;
        }

        //Stats Update
        cl->setRemoved();
        solver->watches.smudge((*cl)[0]);
        solver->watches.smudge((*cl)[1]);
        tmpStats.removed.incorporate(cl, sumConfl);
        solver->litStats.redLits -= cl->size();

        *solver->drat << del << *cl << fin;
        delayed_clause_free.push_back(offset);
    }
    solver->longRedCls[1].resize(j);
}
コード例 #15
0
ファイル: propengine.cpp プロジェクト: Wushaowei001/crossbow
PropResult PropEngine::handle_normal_prop_fail(
    Clause& c
    , ClOffset offset
    , PropBy& confl
) {
    confl = PropBy(offset);
    #ifdef VERBOSE_DEBUG_FULLPROP
    cout << "Conflict from ";
    for(size_t i = 0; i < c.size(); i++) {
        cout  << c[i] << " , ";
    }
    cout << endl;
    #endif //VERBOSE_DEBUG_FULLPROP

    //Update stats
    #ifdef STATS_NEEDED
    c.stats.conflicts_made++;
    c.stats.sum_of_branch_depth_conflict += decisionLevel() + 1;
    #endif
    if (c.red())
        lastConflictCausedBy = ConflCausedBy::longred;
    else
        lastConflictCausedBy = ConflCausedBy::longirred;

    qhead = trail.size();
    return PROP_FAIL;
}
コード例 #16
0
ファイル: ClauseCleaner.cpp プロジェクト: audemard/CVC4
bool ClauseCleaner::satisfied(const Clause& c) const
{
    for (uint32_t i = 0; i != c.size(); i++)
        if (solver.value(c[i]) == l_True)
            return true;
        return false;
}
コード例 #17
0
ファイル: SAT.cpp プロジェクト: shengyushen/compsyn
 void Manager::View::cleanClause(Clause & clause) {
   exprView.sort(clause.begin(), clause.end());
   for (Clause::iterator it = clause.begin(); it != clause.end(); ) {
     if (*it == exprView.btrue())
       // [true lit]
       throw Trivial(true);
     else if (*it == exprView.bfalse())
       // [false lit]
       clause.erase(it);
     else if (it+1 != clause.end()) {
       if (*it == *(it+1)) {
         // [repetition of lit]
         clause.erase(it);
       }
       else if (*it == exprView.apply(Expr::Not, *(it+1)))
         // [var with both phases]
         // Relies on how Expr handles negation, so possibly a hack.
         // However, I meant for this property to be usable, so it
         // will be maintained.
         throw Trivial(true);
       else
         it++;
     }
     else
       it++;
   }
   if (clause.size() == 0)
     // empty clause
     throw Trivial(false);
 }
コード例 #18
0
ファイル: SimpSMTSolver.C プロジェクト: aehyvari/OpenSMT2
bool SimpSMTSolver::asymm(Var v, Clause& c)
{
  assert(decisionLevel() == 0);

  if (c.mark() || satisfied(c)) return true;

  trail_lim.push(trail.size());
  Lit l = lit_Undef;
  for (int i = 0; i < c.size(); i++)
    if (var(c[i]) != v && value(c[i]) != l_False)
    {
      uncheckedEnqueue(~c[i]);
    }
    else
      l = c[i];

  if (propagate() != NULL){
    cancelUntil(0);
    asymm_lits++;
    if (!strengthenClause(c, l))
      return false;
  }else
    cancelUntil(0);

  return true;
}
コード例 #19
0
ファイル: XorFinder.cpp プロジェクト: TeamAmalgam/kodkod
/**
@brief Returns whether the number of inverted literals in the clause is pair or impair
*/
bool XorFinder::impairSigns(const Clause& c) const
{
    uint32_t num = 0;
    for (const Lit *it = &c[0], *end = it + c.size(); it != end; it++)
        num += it->sign();

    return num % 2;
}
コード例 #20
0
void SimpSolver::toDimacs(FILE* f, Clause& c)
{
    if (satisfied(c)) return;

    for (int i = 0; i < c.size(); i++)
        if (value(c[i]) != l_False)
            fprintf(f, "%s%d ", sign(c[i]) ? "-" : "", var(c[i])+1);
    fprintf(f, "0\n");
}
コード例 #21
0
bool SimpSolver::strengthenClause(Clause& c, Lit l)
{
    assert(decisionLevel() == 0);
    assert(c.mark() == 0);
    assert(!c.learnt());
    assert(find(watches[toInt(~c[0])], &c));
    assert(find(watches[toInt(~c[1])], &c));

    // FIX: this is too inefficient but would be nice to have (properly implemented)
    // if (!find(subsumption_queue, &c))
    subsumption_queue.insert(&c);

    // If l is watched, delete it from watcher list and watch a new literal
    if (c[0] == l || c[1] == l){
        Lit other = c[0] == l ? c[1] : c[0];
        if (c.size() == 2){
            removeClause(c);
            c.strengthen(l);
        }else{
            c.strengthen(l);
            remove(watches[toInt(~l)], &c);

            // Add a watch for the correct literal
            watches[toInt(~(c[1] == other ? c[0] : c[1]))].push(&c);

            // !! this version assumes that remove does not change the order !!
            //watches[toInt(~c[1])].push(&c);
            clauses_literals -= 1;
        }
    }
    else{
        c.strengthen(l);
        clauses_literals -= 1;
    }

    // if subsumption-indexing is active perform the necessary updates
    if (use_simplification){
        remove(occurs[var(l)], &c);
        n_occ[toInt(l)]--;
        updateElimHeap(var(l));
    }

    return c.size() == 1 ? enqueue(c[0]) && propagate() == NULL : true;
}
コード例 #22
0
ファイル: Aggregate.cpp プロジェクト: alviano/wasp
bool
Aggregate::checkDecisionLevelsOrder(
    const Solver& solver,
    const Clause& clause ) const
{
    if( clause.size() <= 1 )
        return true;
    
    unsigned int max1 = solver.isUndefined( clause[ 0 ] ) ? MAXUNSIGNEDINT : solver.getDecisionLevel( clause[ 0 ] );
    unsigned int max2 = solver.getDecisionLevel( clause[ 1 ] );
    for( unsigned int i = 2; i < clause.size(); i++ )
    {
        unsigned int dl = solver.getDecisionLevel( clause[ i ] );
        
        if( dl > max1 || dl > max2 )
            return false;
    }
    
    return max1 >= max2;
}
コード例 #23
0
ファイル: sat.c プロジェクト: cmears/chuffed
bool SAT::simplify(Clause& c) {
	if (value(c[0]) == l_True) return true;
	if (value(c[1]) == l_True) return true;
	int i, j;
	for (i = j = 2; i < c.size(); i++) {
		if (value(c[i]) == l_True) return true;
		if (value(c[i]) == l_Undef) c[j++] = c[i];
	}
  c.resize(j);
	return false;
}
コード例 #24
0
ファイル: Solver.cpp プロジェクト: ogdf/ogdf
void Solver::toDimacs(std::ostream &out, Clause& c, vec<Var>& map, Var& max) {
	if (satisfied(c)) return;
	for (int i = 0; i < c.size(); i++){
		if (value(c[i]) != l_False) {
			if (sign(c[i])) {
				out << "-";
			}
			out << mapVar(var(c[i]), map, max)+1;
		}
	}
	out << "0\n";
}
コード例 #25
0
ファイル: Solver.C プロジェクト: msoos/glucosetrack
void Solver::attachClause(Clause& c) {
    assert(c.size() > 1);
    if(c.size()==2) {
      watchesBin[toInt(~c[0])].push();
      watchesBin[toInt(~c[1])].push();
      watchesBin[toInt(~c[0])].last().clause = &c;
      watchesBin[toInt(~c[0])].last().implied = c[1];
      watchesBin[toInt(~c[1])].last().clause = &c;
      watchesBin[toInt(~c[1])].last().implied = c[0];

    } else {
      watches[toInt(~c[0])].push();
      watches[toInt(~c[1])].push();
      watches[toInt(~c[0])].last().wcl = &c;
      watches[toInt(~c[0])].last().blocked = c[c.size()/2];
      watches[toInt(~c[1])].last().wcl = &c;
      watches[toInt(~c[1])].last().blocked = c[c.size()/2];
    }
    if (c.learnt()) learnts_literals += c.size();
    else            clauses_literals += c.size();
}
コード例 #26
0
ファイル: slave.c プロジェクト: geoffchu/chuffed
bool SAT::convertToSClause(Clause& c) {
        assert(c.size() <= TEMP_SC_LEN/2);
        temp_sc->size = c.size();
        temp_sc->extra = 0;
        temp_sc->source = so.thread_no;
        int j = 0;
        // TODO: DO I need this? (=> do I want to send/receive clauses?)
        /*
         * Different kind of literals: 
         *      - Boolean literal (purely boolean)
         *      - Lazy Literal for integers
         *      - Eager Literal for Integers
         * */
        //fprintf(stderr, "ConvertToSC called! \n");
        //fflush(stderr);
        for (int i = 0; i < c.size(); i++) {
                int type = c_info[var(c[i])].cons_type;
                if(type == 2)
                  printf("hmm, prop-lit? \n");
                assert(type != 2);
                int vid = c_info[var(c[i])].cons_id;
                // TODO: 1. Feld: Name der (Int-LL)-Variablen. 
                // Feld 2: Vorzeichen (1 Bit), Art (1 Bit), Wert (30 Bit)?
                // ChannelInfo: - Val_type <-> Gleichung/Ungleichung
                //              - Val: 
                if (type == 1 && vid != -1 && engine.vars[vid]->getType() == INT_VAR_LL) {
                        int var_field = (0x8000000 + (vid<<2) + (3*c_info[var(c[i])].val_type))^sign(c[i]);
                        temp_sc->data[j++] = var_field;
                        temp_sc->data[j++] = c_info[var(c[i])].val;
                        temp_sc->extra++;
                } else {
                        // Only a boolean literal. Okay as 
                        //      either this is a boolean variable, 
                        //      or it was encoded the same way for every process
                        //)
                        temp_sc->data[j++] = toInt(c[i]);
                }
        }
        return true;
}
コード例 #27
0
void SimpSolver::removeClause(Clause& c)
{
    assert(!c.learnt());

    if (use_simplification)
        for (int i = 0; i < c.size(); i++){
            n_occ[toInt(c[i])]--;
            updateElimHeap(var(c[i]));
        }

    detachClause(c);
    c.mark(1);
}
コード例 #28
0
ファイル: gatefinder.cpp プロジェクト: lacop/cryptominisat
void GateFinder::set_seen2_and_abstraction(
    const Clause& cl
    , cl_abst_type& abstraction
) {
    *simplifier->limit_to_decrease -= cl.size();
    for (const Lit lit: cl) {
        if (!seen2[lit.toInt()]) {
            seen2[lit.toInt()] = true;
            seen2Set.push_back(lit.toInt());
        }
        abstraction |= abst_var(lit.var());
    }
}
コード例 #29
0
ファイル: VarReplacer.cpp プロジェクト: yp/ZRHCstar
/**
@brief Helper function for replace_set()
*/
const bool VarReplacer::handleUpdatedClause(Clause& c, const Lit origLit1, const Lit origLit2, const Lit origLit3)
{
    bool satisfied = false;
    std::sort(c.getData(), c.getData() + c.size());
    Lit p;
    uint32_t i, j;
    const uint32_t origSize = c.size();
    for (i = j = 0, p = lit_Undef; i != origSize; i++) {
        if (solver.value(c[i]) == l_True || c[i] == ~p) {
            satisfied = true;
            break;
        }
        else if (solver.value(c[i]) != l_False && c[i] != p)
            c[j++] = p = c[i];
    }
    c.shrink(i - j);
    c.setStrenghtened();

    solver.detachModifiedClause(origLit1, origLit2, origLit3, origSize, &c);

    if (satisfied) return true;

    switch(c.size()) {
    case 0:
        solver.ok = false;
        return true;
    case 1 :
        solver.uncheckedEnqueue(c[0]);
        solver.ok = (solver.propagate().isNULL());
        return true;
    default:
        solver.attachClause(c);

        return false;
    }

    assert(false);
    return false;
}
コード例 #30
0
ファイル: MiniSATP.C プロジェクト: dreal-deps/opensmt
// Modified Lines
// void MiniSATP::removeClause(Clause& c) 
// {
void MiniSATP::removeClause(Clause& c) 
{
    // Remove clause from reasons
    // 
    for ( int i = 0 ; i < c.size( ) ; i ++ )
    {
      const Var v = var(c[i]);
      if ( reason[ v ] == &c )
	reason[ v ] = NULL;
    }
    detachClause(c);
    removed.push( &c );
}