コード例 #1
0
ファイル: serialization.cpp プロジェクト: CDargis/Roto-Cal
bool Serialization::save(std::multiset<Event *, Cmp_event_day> &events)
{
    //Save file to disk
    QFile file("events.txt");
    if(!file.open(QIODevice::WriteOnly))
    {
        qDebug() << "Could not open file";
        return false;
    }

    //create output stream
    QDataStream out (&file);
    //set output version
    out.setVersion(QDataStream::Qt_4_8);

    //iteration
    std::multiset<Event *>::iterator it;
    for ( it=events.begin() ; it != events.end(); it++ )
        out << **it;

    //Finito! flush the stream to the file and close
    file.flush();
    file.close();
    return true;
}
コード例 #2
0
ファイル: tptp.cpp プロジェクト: dddejan/CVC4
void Tptp::checkLetBinding(const std::vector<Expr>& bvlist, Expr lhs, Expr rhs,
                           bool formula) {
  if (lhs.getKind() != CVC4::kind::APPLY_UF) {
    parseError("malformed let: LHS must be a flat function application");
  }
  const std::multiset<CVC4::Expr> vars{lhs.begin(), lhs.end()};
  if(formula && !lhs.getType().isBoolean()) {
    parseError("malformed let: LHS must be formula");
  }
  for (const CVC4::Expr& var : vars) {
    if (var.hasOperator()) {
      parseError("malformed let: LHS must be flat, illegal child: " +
                 var.toString());
    }
  }

  // ensure all let-bound variables appear on the LHS, and appear only once
  for (const Expr& bound_var : bvlist) {
    const size_t count = vars.count(bound_var);
    if (count == 0) {
      parseError(
          "malformed let: LHS must make use of all quantified variables, "
          "missing `" +
          bound_var.toString() + "'");
    } else if (count >= 2) {
      parseError("malformed let: LHS cannot use same bound variable twice: " +
                 bound_var.toString());
    }
  }
}
コード例 #3
0
ファイル: Node.hpp プロジェクト: atripathy86/srn
inline bool greater_than_strict(std::multiset< int > multiset1, std::multiset< int > multiset2, unsigned int id1, unsigned int id2){

			std::multiset< int >::iterator multiset1_itr = multiset1.begin(), multiset2_itr = multiset2.begin();
			int fi,fj;

 			for ( fi = multiset1.size(),fj = multiset2.size(); fi>0 && fj>0 ;fi--,fj--)
			{
 
				if (*multiset1_itr == *multiset2_itr)
				{
					multiset1_itr++ , multiset2_itr++;
				}
				else {
				
 					//return *multiset1_itr < *multiset2_itr ; //ascending
					return *multiset1_itr > *multiset2_itr ;//descending
				}
			}

			//Haven't returned yet and the foor loop exited, so that means the two input multiset have equal entries atleast the common portions 
 			if (fi==fj)
 			{
				//If they are equal, that means the relevance multiset is exactly the same, in that case we need to enforce stricter ordering based on node ids
				return id1> id2; //Descending
 			}
			//return (fi<fj);//asecending
			return (fi>fj);//descending

};
コード例 #4
0
ファイル: satbaseclass.cpp プロジェクト: Fettpet/Modulogame
/**
 A = x1 or x2 or ... xn
 create cnf to create an Equility.
 * @brief Solver::SatBaseClass::createTseitinOr
 * @param vars x1, ..., xn
 * @return A
*/
uint Solver::SatBaseClass::createTseitinOr(std::multiset<literal>& vars){
    if(vars.size() == 0) return getFalseVar();
    if(vars.size() == 1) return (*vars.begin()).varId;
    uint A(++countVars);
// if A is true, then one of the xi must be true
    result << "-" << A << " ";
    for(const literal& t: vars){
        if(t.positiv){
            result << t.varId << " ";
        }else {
            result << "-" << t.varId << " ";
        }
    }
    result << "0" << std::endl;
    countClausel++;

// if one of the xi is true then A is true
    for(const literal& t: vars){
        result << A << " ";
        if(t.positiv){
            result << "-" << t.varId << " 0" << std::endl;
        } else {
            result << t.varId << " 0" << std::endl;
        }
        countClausel++;
    }
    return A;
}
コード例 #5
0
void populateMultiset(std::multiset<sdEvent*, sdEventCompare> eventSet) {
    std::multiset <sdEvent*, sdEventCompare>::iterator eit = eventSet.begin();
    while(eit != eventSet.end()) {
        sdEvent* event = *eit;
        std::cout << "   " << event->getTime() << ":" << event->getDescriptorAsString() << " " << event->getValueAsString() << std::endl;
        eit++;
    }
}
コード例 #6
0
ファイル: Exercise 15.30.cpp プロジェクト: zpiao1/CPP-Primer
double Basket::total_receipt(ostream &os) const
{
    double sum = 0.0;
    for (auto iter = items.cbegin();
              iter != items.cend();
              iter = items.upper_bound(*iter)) {
        sum += print_total(os, **iter, items.count(*iter));
    }
    os << "Total Sale: " << sum << endl;
    return sum;
}
コード例 #7
0
static bool find_and_remove(std::multiset<std::string>& files,
		const std::string& filename)
{
	std::multiset<std::string>::iterator ptr;
	if ( (ptr = files.find(filename)) != files.end())
	{
		//erase(filename) erases *all* entries with that key
		files.erase(ptr);
		return true;
	}
	return false;
}
コード例 #8
0
bool TrajectoryEvaluator::checkTrajectoriesForCollision(const std::multiset<PolyTraj2D, PolyTraj2D::CompPolyTraj2D>& traj_set,
    const std::map<int, Vehicle>& predicted_obstacles, const std::string set_name,
    std::multiset<PolyTraj2D>::const_iterator& best_traj, double& longest_time_to_collision) {

  bool collision = true, found_maybe = false;
  double collision_time;
  longest_time_to_collision = 0;
  std::multiset<PolyTraj2D>::const_iterator it_traj;
  uint32_t j = 0;
  for (it_traj = traj_set.begin(), j = 0; it_traj != traj_set.end(); it_traj++, j++) {

    TrjOccupancyState_t static_collision = TRJ_BLOCKED;
    if (obstacle_map_) {
      pthread_mutex_lock(&obstacle_map_mutex_);
      static_collision = checkCollisionStatic(it_traj->trajectory2D_); // TODO: add collision_time and longest_time_to_collision to static check
      pthread_mutex_unlock(&obstacle_map_mutex_);

      if (static_collision==TRJ_BLOCKED) {
        continue;
      }
//      std::vector<driving_common::TrajectoryPoint2D>::const_iterator tit = it_traj->trajectory2D_.begin(), tit_end = it_traj->trajectory2D_.end();
//      bool zero_velocity=true;
//      for(; tit!=tit_end; tit++) {
//      if(std::abs((*tit).v)>.01) {zero_velocity=false; break;}
//      }
//      if(zero_velocity) {continue;}
    }

    if (!checkCollisionOfTrajectoriesDynamic(it_traj->trajectory2D_, predicted_obstacles, collision_time)) {
      if (j != 0) {std::cout << j << "th trajectory (" << set_name << ") of " << traj_set.size() << " is free.\n";}
      longest_time_to_collision = std::numeric_limits<double>::infinity();
        // we found a collision-free trajectory regardless if it's in maybe range or not
      collision = false;
        // if we did not find any free before or we found a free now and had a maybe before => update best trajectory
      if(!found_maybe || static_collision==TRJ_FREE) {best_traj = it_traj;}
        // if there are only maybes we want the one that was found first since it's the best :-)
        // otherwise we found a free one and are done
      if(static_collision==TRJ_MAYBE_BLOCKED) {found_maybe=true;}
      else {
        break;
      }
    }
    else {
      if (collision_time > longest_time_to_collision) {
        longest_time_to_collision = collision_time;
        best_traj = it_traj;
      }
    }
  }

  return collision;
}
コード例 #9
0
double Basket::total() const
{
    double sum = 0.0;

    for(const_iter i = items.begin() ;  i != items.end() ; i = items.upper_bound(*i))
    {
        sum += (*i)->net_price(items.count(*i));
    }


    return sum;

}
コード例 #10
0
ファイル: daemon.cpp プロジェクト: roastduck/YAUJ
		virtual Json::Value judgeStatus()
		{
			Json::Value ret;
			ret["runningCnt"]=runningCnt;
			ret["totDumpCmdCnt"]=totCnt;
			ret["preserveCnt"]=preserveCnt;
			ret["boardingPass"]=Json::Value();
			pthread_mutex_lock(&cntLock);
			for (std::multiset<int>::iterator i=boardingPass.begin(); i!=boardingPass.end(); i++)
				ret["boardingPass"].append(*i);
			pthread_mutex_unlock(&cntLock);
			return ret;
		}
コード例 #11
0
ファイル: daemon.cpp プロジェクト: roastduck/YAUJ
		virtual bool cancel(int key)
		{
#ifdef DEBUG
			std::clog << "cancel" << std::endl;
#endif
			bool ret = false;
			pthread_mutex_lock(&cntLock);
			if (boardingPass.count(key))
				ret = true, boardingPass.erase(boardingPass.find(key));
			preserveCnt--;
			pthread_mutex_unlock(&cntLock);
			return ret;
		}
コード例 #12
0
unsigned LyricsMatchGrader::catagoryGrader(const std::multiset<std::string>& lyrics,
										   const std::string& queryWord) const
{
	unsigned int grade = DEFAULT_GRADE;
	size_t wordOccourences = lyrics.count(queryWord);

	if(QUERY_WORD_NOT_FOUND_FLAG != lyrics.count(queryWord))
	{
		grade = (this->getGradingCatagoryWeight()) * (wordOccourences);
	}

	return grade;
}
コード例 #13
0
int plPXPhysicalControllerCore::SweepControllerPath(const hsPoint3& startPos, const hsPoint3& endPos, hsBool vsDynamics, hsBool vsStatics, 
                            uint32_t& vsSimGroups, std::multiset< plControllerSweepRecord >& WhatWasHitOut)
{
    NxCapsule tempCap;
    tempCap.p0 =plPXConvert::Point( startPos);
    tempCap.p0.z = tempCap.p0.z + fPreferedRadius;
    tempCap.radius = fPreferedRadius ;
    tempCap.p1 = tempCap.p0;
    tempCap.p1.z = tempCap.p1.z + fPreferedHeight;

    NxVec3 vec;
    vec.x = endPos.fX - startPos.fX;
    vec.y = endPos.fY - startPos.fY;
    vec.z = endPos.fZ - startPos.fZ;

    int numberofHits = 0;
    int HitsReturned = 0;
    WhatWasHitOut.clear();
    NxScene *myscene = plSimulationMgr::GetInstance()->GetScene(fWorldKey);
    NxSweepQueryHit whatdidIhit[10];
    unsigned int flags = NX_SF_ALL_HITS;
    if(vsDynamics)
        flags |= NX_SF_DYNAMICS;
    if(vsStatics)
        flags |= NX_SF_STATICS;
    numberofHits = myscene->linearCapsuleSweep(tempCap, vec, flags, nil, 10, whatdidIhit, nil, vsSimGroups);
    if(numberofHits)
    {//we hit a dynamic object lets make sure it is not animatable
        for(int i=0; i<numberofHits; i++)
        {
            plControllerSweepRecord CurrentHit;
            CurrentHit.ObjHit=(plPhysical*)whatdidIhit[i].hitShape->getActor().userData;
            CurrentHit.Norm.fX = whatdidIhit[i].normal.x;
            CurrentHit.Norm.fY = whatdidIhit[i].normal.y;
            CurrentHit.Norm.fZ = whatdidIhit[i].normal.z;
            if(CurrentHit.ObjHit != nil)
            {
                hsPoint3 where;
                where.fX = whatdidIhit[i].point.x;
                where.fY = whatdidIhit[i].point.y;
                where.fZ = whatdidIhit[i].point.z;
                CurrentHit.locHit = where;
                CurrentHit.TimeHit = whatdidIhit[i].t ;
                WhatWasHitOut.insert(CurrentHit);
                HitsReturned++;
            }
        }
    }

    return HitsReturned;
}
コード例 #14
0
ファイル: converter_impl.hpp プロジェクト: 4og/guacamole
inline void converter<point_t>::knot_insertion(
    point_container_t& P,
    std::multiset<typename point_t::value_type>& knots,
    std::size_t order) const {
  //typedef typename point_t::value_type value_type;
  std::set<value_type> unique(knots.begin(), knots.end());

  for (typename std::set<value_type>::const_iterator i = unique.begin();
       i != unique.end();
       ++i) {
    if (knots.count(*i) < order - 1) {
      knot_insertion(P, knots, order, *i);
    }
  }
}
コード例 #15
0
void ExtremalQuery3BSP<Real>::CreateBSPTree (
    std::multiset<SphericalArc>& arcs, std::vector<SphericalArc>& nodes)
{
    // The tree has at least a root.
    mTreeDepth = 1;

    typename std::multiset<SphericalArc>::reverse_iterator iter;
    for (iter = arcs.rbegin(); iter != arcs.rend(); ++iter)
    {
        InsertArc(*iter, nodes);
    }

    // The leaf nodes are not counted in the traversal of InsertArc.  The
    // depth must be incremented to account for leaves.
    ++mTreeDepth;
}
コード例 #16
0
ファイル: knapsack.cpp プロジェクト: flm8620/HashCode
//回溯法求解
std::multiset<int> knapsack(std::multiset<std::pair<int,int> >& products,int maxLoad){
  int N=products.size();
  int *w = new int[N+1];
  int *v = new int[N+1];
  int *IDs = new int[N+1];
  w[0]=0;v[0]=0;
  int i=1;
  for(auto p : products){
    w[i]=v[i]=p.second;
    IDs[i]=p.first;
    i++;
  }
  int *flag= new int[N+1]; //flag[i][j]表示在容量为j的时候是否将第i件物品放入背包
  for (int i = 0; i < N+1; i++) flag[i]=0;
  zero_one_pack(maxLoad, w, v, flag, N);
  //cout << "需要放入的物品如下" << endl;
  multiset<int> sol;
  for (int i = 1; i <= N; i++) {
    if (flag[i] == 1)
      sol.insert(IDs[i]);
      //cout << i << "重量为" << w[i] << ", 价值为" << v[i] << endl;
  }
  //cout << "总的价值为: " << total_value << endl;
  delete w;
  delete v;
  delete flag;
  delete IDs;
  return sol;
}
コード例 #17
0
ファイル: set.hpp プロジェクト: rpclib/rpclib
 void operator()(clmdep_msgpack::object::with_zone& o, const std::multiset<T, Compare, Alloc>& v) const {
     o.type = clmdep_msgpack::type::ARRAY;
     if (v.empty()) {
         o.via.array.ptr = nullptr;
         o.via.array.size = 0;
     } else {
         uint32_t size = checked_get_container_size(v.size());
         clmdep_msgpack::object* p = static_cast<clmdep_msgpack::object*>(o.zone.allocate_align(sizeof(clmdep_msgpack::object)*size));
         clmdep_msgpack::object* const pend = p + size;
         o.via.array.ptr = p;
         o.via.array.size = size;
         typename std::multiset<T, Compare, Alloc>::const_iterator it(v.begin());
         do {
             *p = clmdep_msgpack::object(*it, o.zone);
             ++p;
             ++it;
         } while(p < pend);
     }
 }
コード例 #18
0
void f_multiset() {
  std::multiset<int> C;
  std::multiset<int>::iterator MSetI1 = C.begin();
  // CHECK-MESSAGES: :[[@LINE-1]]:3: warning: use auto when declaring iterators
  // CHECK-FIXES: auto MSetI1 = C.begin();

  std::multiset<int>::reverse_iterator MSetI2 = C.rbegin();
  // CHECK-MESSAGES: :[[@LINE-1]]:3: warning: use auto when declaring iterators
  // CHECK-FIXES: auto MSetI2 = C.rbegin();

  const std::multiset<int> D;
  std::multiset<int>::const_iterator MSetI3 = D.begin();
  // CHECK-MESSAGES: :[[@LINE-1]]:3: warning: use auto when declaring iterators
  // CHECK-FIXES: auto MSetI3 = D.begin();

  std::multiset<int>::const_reverse_iterator MSetI4 = D.rbegin();
  // CHECK-MESSAGES: :[[@LINE-1]]:3: warning: use auto when declaring iterators
  // CHECK-FIXES: auto MSetI4 = D.rbegin();
}
コード例 #19
0
ファイル: Node.hpp プロジェクト: atripathy86/srn
//if return is 0 then neither greater or equal, if returned 1 then equal, if 2 then greater
inline int equal_and_greater(std::multiset< int > multiset1, std::multiset< int > multiset2){

			std::multiset< int >::iterator multiset1_itr = multiset1.begin(), multiset2_itr = multiset2.begin();
			int fi,fj;
 
			for ( fi = multiset1.size(),fj = multiset2.size(); fi>0 && fj>0 ;fi--,fj--)
			{
				if (*multiset1_itr == *multiset2_itr)
				{
					multiset1_itr++ ; multiset2_itr++;  
				}
				else {
					return ((*multiset1_itr > *multiset2_itr) ? 2 : (*multiset1_itr == *multiset2_itr)?  1 : 0) ;
				}
 			}
			
			return (fi < fj) ? 0: (fi > fj) ? 2: 1;

};
コード例 #20
0
int main(){
    // read input
    scanf("%d",&N);
    for(int i=0;i<N;++i)
        scanf("%lld%lld",&P[i].x,&P[i].y);
    // sort points by x-coordinate
    std::sort(P,P+N);
    for(int i=0,j=0;i<N;++i){
        while(j<i&&P[i].x-P[j].x>ans)
            // these points should not be considered
            // so remove them from the active set
            bbst.erase(bbst.lower_bound(P[j++]));
        for(auto x=bbst.lower_bound(pnt(P[i].x-ans,P[i].y-ans));x!=bbst.end()&&x->y<=P[i].y+ans;++x)
            // this algorithm looks like it should take O(N^2), but the number of iterations is actually constant
            ans=std::min(ans,dist(P[i],*x));
        // insert into the active set
        bbst.insert(P[i]);
    }
    printf("%lld\n",ans);
}
コード例 #21
0
ファイル: simulation.cpp プロジェクト: jqnorris/Misc
void clear_sim(void)
{
	invadedSites.clear();
	accessibleBonds.clear();
	growth.clear();
	removed.clear();
	r_squared_array.clear();
	counter = 0;
	chem_level_list.clear();
	burst_list.clear();
}
void Comparer::SortTree(Node *p, std::multiset<Node *, NCompare> &setNodes)
{
	std::vector<Node *> temp;
	setNodes.insert(p);
	temp = p->getChildren();
	for (auto node : temp)
	{
		SortTree(node, setNodes);
	}
	temp.clear();
}
コード例 #23
0
ファイル: set.hpp プロジェクト: d-kami/msgpack
inline std::multiset<T>& operator>> (object o, std::multiset<T>& v)
{
	if(o.type != type::ARRAY) { throw type_error(); }
	object* p = o.via.array.ptr + o.via.array.size;
	object* const pbegin = o.via.array.ptr;
	while(p > pbegin) {
		--p;
		v.insert(p->as<T>());
	}
	return v;
}
コード例 #24
0
ファイル: Node.hpp プロジェクト: atripathy86/srn
inline bool greater_than(std::multiset< int > multiset1, std::multiset< int > multiset2){

			std::multiset< int >::iterator multiset1_itr = multiset1.begin(), multiset2_itr = multiset2.begin();
			int fi,fj;

 			for ( fi = multiset1.size(),fj = multiset2.size(); fi>0 && fj>0 ;fi--,fj--)
			{
 
				if (*multiset1_itr == *multiset2_itr)
				{
					multiset1_itr++ , multiset2_itr++;
				}
				else {
				
 					//return *multiset1_itr < *multiset2_itr ; //ascending
					return *multiset1_itr > *multiset2_itr ;//descending
				}
			}

			//Haven't returned yet and the foor loop exited, so that means the two input multiset have equal entries atleast the common portions 
 			//return (fi<fj);//asecending
			return (fi>fj);//descending
};
コード例 #25
0
ファイル: compare.pass.cpp プロジェクト: CaseyCarter/libcxx
int main()
{
    typedef test_compare<std::less<int> > C;
    const std::multiset<int, C> m(C(3));
    assert(m.empty());
    assert(m.begin() == m.end());
    assert(m.key_comp() == C(3));
    assert(m.value_comp() == C(3));
}
コード例 #26
0
void ExtremalQuery3BSP<Real>::CreateSphericalBisectors (BasicMesh& mesh,
        std::multiset<SphericalArc>& arcs)
{
    // For each vertex, sort the normals into a counterclockwise spherical
    // polygon when viewed from outside the sphere.
    SortVertexAdjacents(mesh);

    int numVertices = mesh.GetNumVertices();
    const BasicMesh::Vertex* vertices = mesh.GetVertices();
    std::queue<std::pair<int,int> > queue;
    for (int i = 0; i < numVertices; ++i)
    {
        const BasicMesh::Vertex& vertex = vertices[i];

        queue.push(std::make_pair(0, vertex.NumTriangles));
        while (!queue.empty())
        {
            std::pair<int,int> arc = queue.front();
            queue.pop();
            int i0 = arc.first, i1 = arc.second;
            int separation = i1 - i0;
            if (separation > 1 && separation != vertex.NumTriangles - 1)
            {
                if (i1 < vertex.NumTriangles)
                {
                    SphericalArc arc;
                    arc.NIndex[0] = vertex.T[i0];
                    arc.NIndex[1] = vertex.T[i1];
                    arc.Separation = separation;

                    arc.Normal = mFaceNormals[arc.NIndex[0]].Cross(
                                     mFaceNormals[arc.NIndex[1]]);

                    arc.PosVertex = i;
                    arc.NegVertex = i;
                    arcs.insert(arc);
                }
                int iMid = (i0 + i1 + 1)/2;
                if (iMid != i1)
                {
                    queue.push(std::make_pair(i0, iMid));
                    queue.push(std::make_pair(iMid, i1));
                }
            }
        }
    }
}
コード例 #27
0
ファイル: ExpMapGenerator.cpp プロジェクト: rms80/libgeometry
void ExpMapGenerator::RemoveNeighbours( ExpMapParticle * pParticle, std::multiset< ParticleQueueWrapper > & pq )
{
	ExpMapParticle::ListEntry * pCur = GetNeighbourList( pParticle );
	if ( pCur == NULL ) lgBreakToDebugger();
	while ( pCur != NULL ) {

		ExpMapParticle * pCurParticle = pCur->pParticle;
		pCur = pCur->pNext;

		if ( pCurParticle->State() != ExpMapParticle::Active )
			continue;

		// find entry in pq
#if 1
		std::multiset<ParticleQueueWrapper>::iterator found( 
			pq.find( ParticleQueueWrapper( pCurParticle->SurfaceDistance() ) ) );
		if ( found != pq.end() ) {

			while ( (*found).Particle() != pCurParticle &&
						(*found).QueueValue() == pCurParticle->SurfaceDistance() )
				++found;

			// [RMS: this should always happen...]
			lgASSERT( (*found).Particle() == pCurParticle );
			if ( (*found).Particle() == pCurParticle ) {
				pq.erase( found );
			}
		} else {
			lgASSERT( found != pq.end() );
		}

#else 
		std::multiset<ParticleQueueWrapper>::iterator cur( pq.begin() );
		bool bFound = false;
		while ( !bFound && cur != pq.end() ) {
			if ( (*cur).Particle() == pCurParticle ) {
				pq.erase( cur );
				bFound = true;
			} else
				++cur;
		}
		lgASSERT( bFound );
#endif

	}
}
コード例 #28
0
void ExtremalQuery3BSP<Real>::CreateSphericalArcs (BasicMesh& mesh,
        std::multiset<SphericalArc>& arcs)
{
    int numEdges = mesh.GetNumEdges();
    const BasicMesh::Edge* edges = mesh.GetEdges();
    const BasicMesh::Triangle* triangles = mesh.GetTriangles();

    const int prev[3] = { 2, 0, 1 };
    const int next[3] = { 1, 2, 0 };

    for (int i = 0; i < numEdges; ++i)
    {
        const BasicMesh::Edge& edge = edges[i];

        SphericalArc arc;
        arc.NIndex[0] = edge.T[0];
        arc.NIndex[1] = edge.T[1];
        arc.Separation = 1;

        arc.Normal = mFaceNormals[arc.NIndex[0]].Cross(
                         mFaceNormals[arc.NIndex[1]]);

        const BasicMesh::Triangle& adj = triangles[edge.T[0]];
        int j;
        for (j = 0; j < 3; ++j)
        {
            if (adj.V[j] != edge.V[0]
                    &&  adj.V[j] != edge.V[1])
            {
                arc.PosVertex = adj.V[prev[j]];
                arc.NegVertex = adj.V[next[j]];
                break;
            }
        }
        assertion(j < 3, "Unexpected condition\n");

        arcs.insert(arc);
    }

    CreateSphericalBisectors(mesh, arcs);
}
コード例 #29
0
ファイル: daemon.cpp プロジェクト: roastduck/YAUJ
		virtual int preserve(int sid)
		{
#ifdef DEBUG
			std::clog << "preserve" << std::endl;
#endif
			if (preserveCnt >= MAX_RUN) return -1;
			pthread_mutex_lock(&cntLock);
			preserveCnt++;
			pthread_mutex_unlock(&cntLock);
			
			int exitCode;
			pid_t child = fork();
			if (!child)
			{
				if (webServer=="127.0.0.1" || webServer=="localhost") exit(0);
				std::ostringstream s;
				s << "mkdir -p " << sourcePath << '/' << sid/10000;
				system(s.str().c_str());
				s.str("");
				s << "rsync -e 'ssh -c arcfour' -rz -W --del " << webServer << ":" << sourcePath << '/' << sid/10000 << '/' << sid%10000 << ' ' << sourcePath << '/' << sid/10000;
				int exitCode=system(s.str().c_str());
				if (!WIFEXITED(exitCode))
					syslog(LOG_ERR, "failed to run rsync");
				exit(WEXITSTATUS(exitCode));
			}
			waitpid(child,&exitCode,0);
			if (!WIFEXITED(exitCode)||WEXITSTATUS(exitCode))
			{
				pthread_mutex_lock(&cntLock);
				preserveCnt--;
				pthread_mutex_unlock(&cntLock);
				return -1;
			}
			
			int ret;
			pthread_mutex_lock(&cntLock);
			ret = rand();
			boardingPass.insert(ret);
			pthread_mutex_unlock(&cntLock);
			return ret;
		}
コード例 #30
0
ファイル: pretty_print.hpp プロジェクト: orthez/arc_utilities
 inline std::string PrettyPrint(const std::multiset<T>& settoprint, const bool add_delimiters=false, const std::string& separator=", ")
 {
     std::ostringstream strm;
     if (settoprint.size() > 0)
     {
         if (add_delimiters)
         {
             strm << "(";
             typename std::multiset<T, Compare, Allocator>::const_iterator itr;
             for (itr = settoprint.begin(); itr != settoprint.end(); ++itr)
             {
                 if (itr != settoprint.begin())
                 {
                     strm << separator << PrettyPrint(*itr, add_delimiters, separator);
                 }
                 else
                 {
                     strm << PrettyPrint(*itr, add_delimiters, separator);
                 }
             }
             strm << ")";
         }
         else
         {
             typename std::multiset<T, Compare, Allocator>::const_iterator itr;
             for (itr = settoprint.begin(); itr != settoprint.end(); ++itr)
             {
                 if (itr != settoprint.begin())
                 {
                     strm << separator << PrettyPrint(*itr, add_delimiters, separator);
                 }
                 else
                 {
                     strm << PrettyPrint(*itr, add_delimiters, separator);
                 }
             }
         }
     }
     return strm.str();
 }