// @(#)root/eve:$Id$ // Authors: Matevz Tadel & Alja Mrak-Tadel: 2006, 2007 /************************************************************************* * Copyright (C) 1995-2007, Rene Brun and Fons Rademakers. * * All rights reserved. * * * * For the licensing terms see $ROOTSYS/LICENSE. * * For the list of contributors see $ROOTSYS/README/CREDITS. * *************************************************************************/ #ifndef ROOT_TEveChunkManager #define ROOT_TEveChunkManager #include "TEveUtil.h" #include "TObject.h" #include "TArrayC.h" #include /******************************************************************************/ // TEveChunkManager /******************************************************************************/ class TEveChunkManager { private: TEveChunkManager(const TEveChunkManager&); // Not implemented TEveChunkManager& operator=(const TEveChunkManager&); // Not implemented protected: Int_t fS; // Size of atom Int_t fN; // Number of atoms in a chunk Int_t fSize; // Size of container, number of atoms Int_t fVecSize; // Number of allocated chunks Int_t fCapacity; // Available capacity within the chunks std::vector fChunks; // Memory blocks void ReleaseChunks(); public: TEveChunkManager(); TEveChunkManager(Int_t atom_size, Int_t chunk_size); virtual ~TEveChunkManager(); void Reset(Int_t atom_size, Int_t chunk_size); void Refit(); Int_t S() const { return fS; } Int_t N() const { return fN; } Int_t Size() const { return fSize; } Int_t VecSize() const { return fVecSize; } Int_t Capacity() const { return fCapacity; } Char_t* Atom(Int_t idx) const { return fChunks[idx/fN]->fArray + idx%fN*fS; } Char_t* Chunk(Int_t chk) const { return fChunks[chk]->fArray; } Int_t NAtoms(Int_t chk) const { return (chk < fVecSize-1) ? fN : (fSize-1)%fN + 1; } Char_t* NewAtom(); Char_t* NewChunk(); // Iterator struct iterator { TEveChunkManager *fPlex; Char_t *fCurrent; Int_t fAtomIndex; Int_t fNextChunk; Int_t fAtomsToGo; const std::set *fSelection; std::set::const_iterator fSelectionIterator; iterator(TEveChunkManager* p) : fPlex(p), fCurrent(0), fAtomIndex(-1), fNextChunk(0), fAtomsToGo(0), fSelection(0), fSelectionIterator() {} iterator(TEveChunkManager& p) : fPlex(&p), fCurrent(0), fAtomIndex(-1), fNextChunk(0), fAtomsToGo(0), fSelection(0), fSelectionIterator() {} iterator(const iterator& i) : fPlex(i.fPlex), fCurrent(i.fCurrent), fAtomIndex(i.fAtomIndex), fNextChunk(i.fNextChunk), fAtomsToGo(i.fAtomsToGo), fSelection(i.fSelection), fSelectionIterator(i.fSelectionIterator) {} iterator& operator=(const iterator& i) { fPlex = i.fPlex; fCurrent = i.fCurrent; fAtomIndex = i.fAtomIndex; fNextChunk = i.fNextChunk; fAtomsToGo = i.fAtomsToGo; fSelection = i.fSelection; fSelectionIterator = i.fSelectionIterator; return *this; } Bool_t next(); void reset() { fCurrent = 0; fAtomIndex = -1; fNextChunk = fAtomsToGo = 0; } Char_t* operator()() { return fCurrent; } Char_t* operator*() { return fCurrent; } Int_t index() { return fAtomIndex; } }; ClassDef(TEveChunkManager, 1); // Vector-like container with chunked memory allocation. }; //______________________________________________________________________________ inline Char_t* TEveChunkManager::NewAtom() { Char_t *a = (fSize >= fCapacity) ? NewChunk() : Atom(fSize); ++fSize; return a; } /******************************************************************************/ // Templated some-class TEveChunkVector /******************************************************************************/ template class TEveChunkVector : public TEveChunkManager { private: TEveChunkVector(const TEveChunkVector&); // Not implemented TEveChunkVector& operator=(const TEveChunkVector&); // Not implemented public: TEveChunkVector() : TEveChunkManager() {} TEveChunkVector(Int_t chunk_size) : TEveChunkManager(sizeof(T), chunk_size) {} virtual ~TEveChunkVector() {} void Reset(Int_t chunk_size) { Reset(sizeof(T), chunk_size); } T* At(Int_t idx) { return reinterpret_cast(Atom(idx)); } T& Ref(Int_t idx) { return *At(idx); } ClassDef(TEveChunkVector, 1); // Templated class for specific atom classes (given as template argument). }; #endif