G4FastList.hh

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//
// Author: Mathieu Karamitros
 
// The code is developed in the framework of the ESA AO7146
//
// We would be very happy hearing from you, send us your feedback! :)
//
// In order for Geant4-DNA to be maintained and still open-source,
// article citations are crucial. 
// If you use Geant4-DNA chemistry and you publish papers about your software, 
// in addition to the general paper on Geant4-DNA:
//
// Int. J. Model. Simul. Sci. Comput. 1 (2010) 157–178
//
// we would be very happy if you could please also cite the following
// reference papers on chemistry:
//
// J. Comput. Phys. 274 (2014) 841-882
// Prog. Nucl. Sci. Tec. 2 (2011) 503-508 
 
#pragma once
 
#include "globals.hh"
#include "G4ReferenceCountedHandle.hh"
#include <G4memory.hh>
#include <vector>
#include <set>
//#include "G4ManyFastLists.hh"
 
template<class OBJECT>
  class G4FastList;
template<class OBJECT>
  class G4FastList_Boundary;
template<typename OBJECT>
  struct G4FastList_iterator;
template<typename OBJECT>
  struct G4FastList_const_iterator;
template<typename OBJECT>
  class G4ManyFastLists;
template<typename OBJECT>
  struct G4ManyFastLists_iterator;
template<class OBJECT>
  struct sortWatcher;
 
 
#ifndef TYPE_WRAPPER
#define TYPE_WRAPPER
template < typename T>
struct type_wrapper
{
   typedef T type;
};
#endif
 
template<class LIST>
  struct _ListRef
  {
    typedef type_wrapper<LIST> traits_type;
    typedef type_wrapper<G4ManyFastLists_iterator<typename LIST::object>>
            mli_traits_type;
 
//#ifdef WIN32
//    friend typename traits_type::type;
//    friend typename traits_type::type::node;
//    friend typename mli_traits_type::type;
//#else
//    friend class traits_type::type;
//    friend class traits_type::type::node;
//    friend class mli_traits_type::type;
//#endif
 
    LIST* fpList;
 
//  protected:
    inline _ListRef(LIST* __list) :
        fpList(__list)
    {
      ;
    }
 };
 
template<class OBJECT>
  class G4FastListNode
  {
    typedef type_wrapper<OBJECT> ObjectW;
    typedef G4FastList<typename ObjectW::type> LIST;
//    typedef type_wrapper<LIST> > ListW;
    typedef type_wrapper<G4FastList<OBJECT> > ListW;
//    typedef type_wrapper<G4ManyFastLists<typename ObjectW::type> > ManyListsW;
    typedef type_wrapper<G4ManyFastLists<OBJECT> > ManyListsW;
//    typedef type_wrapper<G4ManyFastLists_iterator<typename ObjectW::type> > ManyListsIteratorW;
    typedef type_wrapper<G4ManyFastLists_iterator<OBJECT> > ManyListsIteratorW;
 
//#ifdef WIN32
//    friend typename ListW::type;
//    friend typename ManyListsW::type;
//    friend typename ManyListsIteratorW::type;
//#else
//    friend class ListW::type;
//    friend class ManyListsW::type;
//    friend struct ManyListsIteratorW::type;
//#endif
 
  public:
    ~G4FastListNode();
 
    OBJECT* GetObject()
    {
      return fpObject;
    }
 
    const OBJECT* GetObject() const
    {
      return fpObject;
    }
 
    G4FastListNode<OBJECT>* GetNext()
    {
      return fpNext;
    }
    const G4FastListNode<OBJECT>* GetNext() const
    {
      return fpNext;
    }
    G4FastListNode<OBJECT>* GetPrevious()
    {
      return fpPrevious;
    }
    const G4FastListNode<OBJECT>* GetPrevious() const
    {
      return fpPrevious;
    }
    bool IsAttached()
    {
      return fAttachedToList;
    }
 
  //protected:
    G4FastListNode(OBJECT* track = 0);
 
    void SetNext(G4FastListNode<OBJECT>* node)
    {
      fpNext = node;
    }
    void SetPrevious(G4FastListNode<OBJECT>* node)
    {
      fpPrevious = node;
    }
    void SetAttachedToList(bool flag)
    {
      fAttachedToList = flag;
    }
 
    void UnHook();
 
    void DetachYourSelf();
    
    bool fAttachedToList;
    G4shared_ptr<_ListRef<G4FastList<OBJECT> > > fListRef;
    OBJECT* fpObject;
    G4FastListNode<OBJECT>* fpPrevious;
    G4FastListNode<OBJECT>* fpNext;
  };
 
template<class OBJECT>
  class G4FastList
  {
  protected:
    G4int fNbObjects;
//    G4FastListNode<OBJECT> * fpStart;
//    G4FastListNode<OBJECT> * fpFinish;
    G4shared_ptr<_ListRef<G4FastList<OBJECT> > > fListRef;
 
    G4FastListNode<OBJECT> fBoundary;
    // Must be empty and link to the last non-empty node of the list
    // and to the first non-empty node of the list (begin())
    // The iterator returned by end() is linked to this empty node
 
  public:
    class Watcher
    {
    public:
      enum Priority
      {
        eExtreme,
        eHigh,
        eNormal,
        eLow,
        eVeryLow
      };
 
      typedef G4FastList<OBJECT> list;
 
      Watcher()
      {
        fPriority = Priority::eVeryLow;
      }
 
      virtual ~Watcher()
      {
        typename std::set<G4FastList<OBJECT>*>::iterator it = fWatching.begin();
        typename std::set<G4FastList<OBJECT>*>::iterator end = fWatching.end();
        for(;it!=end;it++)
        {
          (*it)->RemoveWatcher(this);
        }
      }
 
      virtual G4String GetWatcherName(){
        return "";
      }
 
      Priority GetPriority() const{
        return fPriority;
      }
 
      // ===============================
      // NOTIFICATIONS
      void NotifyDeletingList(G4FastList<OBJECT>*){;}
      // used by PriorityList & ManyFastLists
 
      virtual void NotifyAddObject(OBJECT*, G4FastList<OBJECT>*){;}
      virtual void NotifyRemoveObject(OBJECT*, G4FastList<OBJECT>*){;}
//      void NotifyEmpty(OBJECT*, G4FastList<OBJECT>*){;}
 
      // ===============================
 
      void Watch(G4FastList<OBJECT>* fastList)
      {
        fWatching.insert(fastList);
        fastList->AddWatcher(this);
      }
 
      void StopWatching(G4FastList<OBJECT>* fastList, bool removeWatcher = true)
      {
        typename std::set<G4FastList<OBJECT>*>::iterator it = fWatching.find(fastList);
        if(it == fWatching.end()) return; //TODO: exception?
        fWatching.erase(it);
        if(removeWatcher) fastList->RemoveWatcher(this);
      }
 
    protected:
      Priority fPriority;
 
    private:
      std::set<G4FastList<OBJECT>*> fWatching;
    };
 
    template<typename WATCHER_TYPE>
    class TWatcher : public Watcher
    {
      public:
      TWatcher() : Watcher(){;}
      virtual ~TWatcher(){}
      virtual G4String GetWatcherName()
      {
        return typeid(WATCHER_TYPE).name();
      }
    };
 
  protected:
    typedef std::set<typename G4FastList<OBJECT>::Watcher*,
                    sortWatcher<OBJECT>> WatcherSet;
    WatcherSet   fWatchers;
    G4FastListNode<G4FastList<OBJECT> >* fpNodeInManyLists;
 
  public:
    typedef OBJECT object;
    typedef G4FastList_iterator<OBJECT> iterator;
    typedef G4FastList_const_iterator<OBJECT> const_iterator;
    typedef G4FastListNode<OBJECT> node;
 
    G4FastList();
    ~G4FastList();
 
    void SetListNode(G4FastListNode<G4FastList<OBJECT> >* __node)
    {
      fpNodeInManyLists = __node;
    }
 
    G4FastListNode<G4FastList<OBJECT> >* GetListNode()
    {
      return fpNodeInManyLists;
    }
 
    void AddWatcher(Watcher* watcher)
    {
      fWatchers.insert(watcher);
    }
 
    void RemoveWatcher(Watcher* watcher)
    {
      typename WatcherSet::iterator it = fWatchers.find(watcher);
      if(it == fWatchers.end()) return; //TODO: exception?
      fWatchers.erase(it);
    }
 
    inline OBJECT* back()
    {
//      if (fNbObjects != 0) return fpFinish->GetObject();
      if (fNbObjects != 0) return fBoundary.GetPrevious()->GetObject();
      else return 0;
    }
 
    inline G4int size() const
    {
      return fNbObjects;
    }
 
    inline bool empty() const;
    iterator insert(iterator /*position*/, OBJECT*);
 
    inline iterator begin();
    inline const_iterator begin() const;
 
    inline iterator end();
    inline const_iterator end() const;
    bool Holds(const OBJECT*) const;
 
    inline void push_front(OBJECT* __track);
    inline void push_back(OBJECT* __track);
    OBJECT* pop_back();
 
    void remove(OBJECT*);
 
    iterator pop(OBJECT*);
    iterator pop(G4FastListNode<OBJECT>*);
    iterator pop(iterator __first, iterator __last);
    iterator erase(OBJECT*);
    iterator erase(iterator __first, iterator __last);
    void clear();
    void transferTo(G4FastList<OBJECT>*);
    static G4FastListNode<OBJECT>* GetNode(OBJECT*);
    static void SetNode(OBJECT* __obj, G4FastListNode<OBJECT>* __node);
    static G4FastList<OBJECT>* GetList(OBJECT*);
    static G4FastList<OBJECT>* GetList(G4FastListNode<OBJECT>* __trackListNode);
    static void Pop(OBJECT*);
 
  protected:
    G4FastListNode<OBJECT>* CreateNode(OBJECT*);
    static G4FastListNode<OBJECT>* __GetNode(OBJECT*);
    G4FastListNode<OBJECT>* Flag(OBJECT*);
    G4FastListNode<OBJECT>* Unflag(OBJECT*);
    void Unflag(G4FastListNode<OBJECT>* __trackListNode);
    void CheckFlag(G4FastListNode<OBJECT>*);
    void DeleteObject(OBJECT*);
 
    void Hook(G4FastListNode<OBJECT>* /*position*/,
              G4FastListNode<OBJECT>* /*toHook*/);
    void Unhook(G4FastListNode<OBJECT>*);
    G4FastListNode<OBJECT>* EraseListNode(OBJECT*);
 
  private:
    G4FastList(const G4FastList<OBJECT>& other);
    G4FastList<OBJECT> & operator=(const G4FastList<OBJECT> &right);
    G4bool operator==(const G4FastList<OBJECT> &right) const;
    G4bool operator!=(const G4FastList<OBJECT> &right) const;
  };
 
 
template<class OBJECT>
  struct sortWatcher
  {
    bool operator()(const typename G4FastList<OBJECT>::Watcher* left,
                    const typename G4FastList<OBJECT>::Watcher* right) const
    {
      if(left && right)
      {
        if(left->GetPriority() != right->GetPriority())
        {
          return left->GetPriority() < right->GetPriority();
        }
        return left < right;
      }
      return false;
    }
  };
 
 
template<typename OBJECT>
  struct G4FastList_iterator
  {
//    friend class G4FastList<OBJECT>;
    typedef G4FastList_iterator<OBJECT> _Self;
    typedef G4FastListNode<OBJECT> _Node;
 
    G4FastList_iterator() = default;
 
    explicit G4FastList_iterator(_Node* __x) :
        fpNode(__x)
    {
    }
 
    G4FastList_iterator(const G4FastList_iterator& right) = default;
    _Self& operator=(const G4FastList_iterator& right) = default;
 
    _Node* GetNode()
    {
      return fpNode;
    }
 
    const _Node* GetNode() const
    {
      return fpNode;
    }
 
    OBJECT*
    operator*();
 
    const OBJECT*
    operator*() const;
 
    OBJECT*
    operator->();
 
    const OBJECT*
    operator->() const;
 
    _Self&
    operator++()
    {
      fpNode = fpNode->GetNext();
      return *this;
    }
 
    _Self operator++(int)
    {
      _Self __tmp = *this;
      fpNode = fpNode->GetNext();
      return __tmp;
    }
 
    _Self&
    operator--()
    {
      fpNode = fpNode->GetPrevious();
      return *this;
    }
 
    _Self operator--(int)
    {
      _Self __tmp = *this;
      fpNode = fpNode->GetPrevious();
      return __tmp;
    }
 
    G4bool operator==(const _Self& __x) const
    {
      return (fpNode == __x.fpNode);
    }
 
    G4bool operator!=(const _Self& __x) const
    {
      return (fpNode != __x.fpNode);
    }
 
//  private:
    // The only member points to the G4FastList_iterator element.
    _Node* fpNode = nullptr;
  };
 
template<typename OBJECT>
  struct G4FastList_const_iterator
  {
//    friend class G4FastList<OBJECT>;
    typedef G4FastList_const_iterator<OBJECT> _Self;
    typedef G4FastListNode<OBJECT> _Node;
 
    G4FastList_const_iterator() = default;
 
    explicit G4FastList_const_iterator(const _Node* __x) :
        fpNode(__x)
    {
    }
 
    G4FastList_const_iterator(const G4FastList_const_iterator& right) = default;
    _Self& operator=(const G4FastList_const_iterator& right) = default;
 
    G4FastList_const_iterator(const G4FastList_iterator<OBJECT>& right) :
        fpNode(right.GetNode())
    {
    }
 
    _Self& operator=(const G4FastList_iterator<OBJECT>& right)
    {
      fpNode = right.GetNode();
      return *this;
    }
 
    const OBJECT*
    operator*() const
    {
      if(fpNode == 0) return 0;
      return fpNode->GetObject();
    }
 
    const OBJECT*
    operator->() const
    {
      if(fpNode == 0) return 0;
      return fpNode->GetObject();
    }
 
    _Self&
    operator++()
    {
      fpNode = fpNode->GetNext();
      return *this;
    }
 
    _Self operator++(int)
    {
      _Self __tmp = *this;
      fpNode = fpNode->GetNext();
      return __tmp;
    }
 
    _Self&
    operator--()
    {
      fpNode = fpNode->GetPrevious();
      return *this;
    }
 
    _Self operator--(int)
    {
      _Self __tmp = *this;
      fpNode = fpNode->GetPrevious();
      return __tmp;
    }
 
    G4bool operator==(const _Self& __x) const
    {
      return (fpNode == __x.fpNode);
    }
 
    G4bool operator!=(const _Self& __x) const
    {
      return (fpNode != __x.fpNode);
    }
 
//  private:
    // The only member points to the G4FastList_iterator element.
    const _Node* fpNode = nullptr;
  };
 
#include "G4FastList.icc"