/**************************************************************************** * * MODULE: iostream * * COPYRIGHT (C) 2007 Laura Toma * * * Iostream is a library that implements streams, external memory * sorting on streams, and an external memory priority queue on * streams. These are the fundamental components used in external * memory algorithms. * Credits: The library was developed by Laura Toma. The kernel of * class STREAM is based on the similar class existent in the GPL TPIE * project developed at Duke University. The sorting and priority * queue have been developed by Laura Toma based on communications * with Rajiv Wickremesinghe. The library was developed as part of * porting Terraflow to GRASS in 2001. PEARL upgrades in 2003 by * Rajiv Wickremesinghe as part of the Terracost project. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * **************************************************************************/ #ifndef __EMPQ_ADAPTIVE_H #define __EMPQ_ADAPTIVE_H #include "minmaxheap.h" #include "empq.h" #include "empq_impl.h" #define EMPQAD_DEBUG if(G_verbose() > G_verbose_std()) enum regim_type { INMEM = 0, EXTMEM, EXTMEM_DEBUG }; template class EMPQueueAdaptive { private: //dictates if the structure works in the internal/external memory regim; regim_type regim; MinMaxHeap *im; em_pqueue *em; UnboundedMinMaxHeap *dim; // debug, internal memory pq void initPQ(size_t); public: /* start in INMEM regim by allocating im of size precisely twice the size of the (pqueue within) the em_pqueue; */ EMPQueueAdaptive(long N) : EMPQueueAdaptive() {}; EMPQueueAdaptive(); EMPQueueAdaptive(size_t inMem); ~EMPQueueAdaptive(); void makeExternal(); void makeExternalDebug(); long maxlen() const; //return the maximum nb of elts that can fit bool is_empty() const; //return true if empty bool is_full() const; //return true if full bool min(T& elt); //return the element with min priority XXX //delete the element with minimum priority in the structure; //return false if pq is empty bool extract_min(T& elt); //extract all elts with min key, add them and return their sum XXX bool extract_all_min(T& elt); /* insert an element; if regim == INMEM, try insert it in im, and if it is full, extract_max pqsize/2 elements of im into a stream, switch to EXTMEM and insert the stream into em; if regim is EXTMEM, insert in em; */ bool insert(const T& elt); long size() const; //return the nb of elements in the structure void clear(); /* delete all contents of pq */ void verify(); }; #endif