/*
Copyright (c) 2007-2013 Contributors as noted in the AUTHORS file
This file is part of 0MQ.
0MQ is free software; you can redistribute it and/or modify it under
the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
0MQ 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program. If not, see .
*/
#ifndef __ZMQ_ARRAY_INCLUDED__
#define __ZMQ_ARRAY_INCLUDED__
#include
#include
namespace zmq
{
// Base class for objects stored in the array. If you want to store
// same object in mutliple arrays, each of those arrays has to have
// different ID. The item itself has to be derived from instantiations of
// array_item_t template for all relevant IDs.
template class array_item_t
{
public:
inline array_item_t () :
array_index (-1)
{
}
// The destructor doesn't have to be virtual. It is mad virtual
// just to keep ICC and code checking tools from complaining.
inline virtual ~array_item_t ()
{
}
inline void set_array_index (int index_)
{
array_index = index_;
}
inline int get_array_index ()
{
return array_index;
}
private:
int array_index;
array_item_t (const array_item_t&);
const array_item_t &operator = (const array_item_t&);
};
// Fast array implementation with O(1) access to item, insertion and
// removal. Array stores pointers rather than objects. The objects have
// to be derived from array_item_t class.
template class array_t
{
private:
typedef array_item_t item_t;
public:
typedef typename std::vector ::size_type size_type;
inline array_t ()
{
}
inline ~array_t ()
{
}
inline size_type size ()
{
return items.size ();
}
inline bool empty ()
{
return items.empty ();
}
inline T *&operator [] (size_type index_)
{
return items [index_];
}
inline void push_back (T *item_)
{
if (item_)
((item_t*) item_)->set_array_index ((int) items.size ());
items.push_back (item_);
}
inline void erase (T *item_) {
erase (((item_t*) item_)->get_array_index ());
}
inline void erase (size_type index_) {
if (items.back ())
((item_t*) items.back ())->set_array_index ((int) index_);
items [index_] = items.back ();
items.pop_back ();
}
inline void swap (size_type index1_, size_type index2_)
{
if (items [index1_])
((item_t*) items [index1_])->set_array_index ((int) index2_);
if (items [index2_])
((item_t*) items [index2_])->set_array_index ((int) index1_);
std::swap (items [index1_], items [index2_]);
}
inline void clear ()
{
items.clear ();
}
inline size_type index (T *item_)
{
return (size_type) ((item_t*) item_)->get_array_index ();
}
private:
typedef std::vector items_t;
items_t items;
array_t (const array_t&);
const array_t &operator = (const array_t&);
};
}
#endif