source: trunk/source/geometry/volumes/include/G4EnhancedVecAllocator.hh @ 1316

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//
// $Id: G4EnhancedVecAllocator.hh,v 1.3 2010/04/23 10:25:22 gcosmo Exp $
// GEANT4 tag $Name: geant4-09-04-beta-cand-01 $
//
// 
// ------------------------------------------------------------
// GEANT 4 class header file 
//
// Class Description:
//
// A class for fast allocation of STL vectors through a static pool.
// It's meant to be used as alternative allocator for STL vectors.
       
//      ---------------- G4EnhancedVecAllocator ----------------
//
// Original author: X.Dong (NorthEastern Univ.), November 2009
// Reviewed implementation: G.Cosmo (CERN), December 2009
// ------------------------------------------------------------

#ifndef G4EnhancedVecAllocator_h
#define G4EnhancedVecAllocator_h 1

#include "G4Types.hh"

// #include <cstdlib>

typedef struct
{
  G4int isAllocated;
  char *address;
} G4ChunkType;

typedef struct
{
  size_t size;
  G4int totalspace;
  G4ChunkType *preAllocated;
} G4ChunkIndexType;

class G4AllocStats
{
  // --------------------------------------------------------------------
  // Utility class, placeholder for global data on allocation.
  // Initialisation to zero of the data below *must* be added ONCE only
  // directly in the client code, where this allocator is to be applied
  // --------------------------------------------------------------------

  public:

    static G4ChunkIndexType * allocStat;
    static G4int totSpace;
    static G4int numCat;
};

template<typename _Tp>
class G4EnhancedVecAllocator : public std::allocator<_Tp>
{
  public:

    template<typename _Tp1>
    struct rebind { typedef G4EnhancedVecAllocator<_Tp1> other; };

    G4EnhancedVecAllocator() {;}

    G4EnhancedVecAllocator(const G4EnhancedVecAllocator<_Tp>&)
      : std::allocator<_Tp>() {;}

    template<typename _Tp1>
    G4EnhancedVecAllocator(const G4EnhancedVecAllocator<_Tp1>&)
      : std::allocator<_Tp>() {;}

    ~G4EnhancedVecAllocator() {;}

    // override allocate / deallocate
    //
    void deallocate(_Tp* _Ptr, size_t _Count);
    _Tp* allocate(size_t _Count);
};

// ------------------------------------------------------------
// Inline implementations
// ------------------------------------------------------------

// ************************************************************
// deallocate
// ************************************************************
//
template<typename _Tp>
void G4EnhancedVecAllocator<_Tp>::deallocate(_Tp* _Ptr, size_t _Count)
{
  G4int found = -1;
  for (register int j = 0 ; j < G4AllocStats::numCat ; j++)
  {
    if ( (G4AllocStats::allocStat != 0)
      && (G4AllocStats::allocStat[j].size == (_Count * sizeof(_Tp))))
    {
      found = j;
      break;
    }
  }
  // assert(found != -1);

  for (register int k = 0; k < G4AllocStats::allocStat[found].totalspace; k++)
  {
    if ( ((G4AllocStats::allocStat[found]).preAllocated[k]).address
      == ((char *) _Ptr))
    {
   // assert(((G4AllocStats::allocStat[found]).preAllocated[k]).isAllocated==1);
      ((G4AllocStats::allocStat[found]).preAllocated[k]).isAllocated = 0;
      return;
    }
  }
}

// ************************************************************
// allocate
// ************************************************************
//
template<typename _Tp>
_Tp* G4EnhancedVecAllocator<_Tp>::allocate(size_t _Count)
{
  size_t totalsize = _Count * sizeof(_Tp);

  G4int found = -1;
  for (register int j = 0 ; j < G4AllocStats::numCat ; j++)
  {
    if ( (G4AllocStats::allocStat != 0)
      && (G4AllocStats::allocStat[j].size == totalsize) )
    {
      found = j;
      break;
    } 
  }   

  if (found == -1)  // Find the new size
  {
    G4AllocStats::numCat++;
    if (G4AllocStats::numCat > G4AllocStats::totSpace)
    {
      G4AllocStats::totSpace = G4AllocStats::totSpace + 128;
        // heuristic parameter for different sizes

      G4AllocStats::allocStat =
           (G4ChunkIndexType *) realloc(G4AllocStats::allocStat,
           sizeof(G4ChunkIndexType) * G4AllocStats::totSpace);
        // This value must be different than zero; otherwise means
        // failure in allocating extra space !
      // assert(G4AllocStats::allocStat != 0);
    }

    G4AllocStats::allocStat[G4AllocStats::numCat-1].size = totalsize;
    G4AllocStats::allocStat[G4AllocStats::numCat-1].totalspace = 0;
    G4AllocStats::allocStat[G4AllocStats::numCat-1].preAllocated = 0;

    found = G4AllocStats::numCat - 1;

    G4AllocStats::allocStat[found].totalspace = 512;
      // heuristic for the number of STL vector instances

    G4AllocStats::allocStat[found].preAllocated =
        (G4ChunkType *) realloc(G4AllocStats::allocStat[found].preAllocated,
          sizeof(G4ChunkType) * G4AllocStats::allocStat[found].totalspace);
      // This value must be different than zero; otherwise means
      // failure in allocating extra space for pointers !
    // assert(G4AllocStats::allocStat[found].preAllocated != 0);

    char *newSpace1 = (char *) malloc(totalsize * 512);
      // This pointer must be different than zero; otherwise means
      // failure in allocating extra space for instances !
    // assert(newSpace1 != 0);

    for (register int k = 0; k < 512 ; k++)
    {
      ((G4AllocStats::allocStat[found]).preAllocated[k]).isAllocated = 0;
      ((G4AllocStats::allocStat[found]).preAllocated[k]).address =
                                                    newSpace1+totalsize*k;
    }

    ((G4AllocStats::allocStat[found]).preAllocated[0]).isAllocated = 1;
    return (_Tp*)(((G4AllocStats::allocStat[found]).preAllocated[0]).address);
  }

  // assert(G4AllocStats::allocStat[found].size == totalsize);

  for (register int k = 0; k < G4AllocStats::allocStat[found].totalspace; k++)
  {
    if (((G4AllocStats::allocStat[found]).preAllocated[k]).isAllocated == 0)
    { 
      ((G4AllocStats::allocStat[found]).preAllocated[k]).isAllocated = 1;
      return (_Tp*)(((G4AllocStats::allocStat[found]).preAllocated[k]).address);
    }
  }

  G4int originalchunknumber = G4AllocStats::allocStat[found].totalspace;
      
  G4AllocStats::allocStat[found].totalspace =      // heuristic for the number
    G4AllocStats::allocStat[found].totalspace+512; // of STL vector instances

  G4AllocStats::allocStat[found].preAllocated =
    (G4ChunkType *) realloc(G4AllocStats::allocStat[found].preAllocated,
      sizeof(G4ChunkType) * G4AllocStats::allocStat[found].totalspace);
    // This value must be different than zero; otherwise means
    // failure in allocating extra space for pointers !
  // assert(G4AllocStats::allocStat[found].preAllocated != 0);

  char *newSpace = (char *) malloc(totalsize * 512);
    // This pointer must be different than zero; otherwise means
    // failure in allocating extra space for instances !
  // assert(newSpace != 0);

  for (register int k = 0; k < 512 ; k++)
  {
    ((G4AllocStats::allocStat[found]).
      preAllocated[originalchunknumber + k]).isAllocated= 0;
    ((G4AllocStats::allocStat[found]).
      preAllocated[originalchunknumber + k]).address= newSpace+totalsize*k;
  }

  ((G4AllocStats::allocStat[found]).preAllocated[originalchunknumber])
                                   .isAllocated = 1;

  return (_Tp*)(((G4AllocStats::allocStat[found]).
                  preAllocated[originalchunknumber]).address);
}

// ************************************************************
// operator==
// ************************************************************
//
template<typename _T1, typename _T2>
inline bool operator==(const G4EnhancedVecAllocator<_T1>&,
                       const G4EnhancedVecAllocator<_T2>&)
{ return true; }

// ************************************************************
// operator!=
// ************************************************************
//
template<typename _T1, typename _T2>
inline bool operator!=(const G4EnhancedVecAllocator<_T1>&,
                       const G4EnhancedVecAllocator<_T2>&)
{ return false; }

#endif