// -*- mode: c++; mode: visual-line; mode: flyspell; fill-column: 100000 -*-
/***************************************************************************
* doc/tutorial_map.dox
*
* Usage Tutorial for STXXL
*
* Part of the STXXL. See http://stxxl.sourceforge.net
*
* Copyright (C) 2013 Timo Bingmann <tb@panthema.net>
* Copyright (C) 2013 Daniel Feist <daniel.feist@student.kit.edu>
*
* Distributed under the Boost Software License, Version 1.0.
* (See accompanying file LICENSE_1_0.txt or copy at
* http://www.boost.org/LICENSE_1_0.txt)
**************************************************************************/
namespace stxxl {
/** \page tutorial_map STXXL Map (B+-tree)
This page introduces into the stxxl::map (for further information on the structure you may have a look at \ref design_map).
stxxl::map is an external associative container that stores elements formed by a combination of a unique key value and a data value, following a specific order.
The map's key values are generally used to sort and uniquely identify the data values, while the data values store the content associated to this key.
### Creating a STXXL Map
To create a stxxl::map object, several template parameters are required. The first two parameters KeyType and DataType which is an std::pair<int, char> in this example are self-explanatory, the third parameter has to be a comparator class which is used to determine whether a key is smaller than another one, the fourth and fifth parameter define the node- and leaf block size.
\code
#define DATA_NODE_BLOCK_SIZE (4096)
#define DATA_LEAF_BLOCK_SIZE (4096)
...
// template parameter <KeyType, DataType, CompareType, RawNodeSize, RawLeafSize, PDAllocStrategy (optional)>
typedef stxxl::map<int, char, CompareGreater, DATA_NODE_BLOCK_SIZE, DATA_LEAF_BLOCK_SIZE> map_type;
// constructor map(node_cache_size_in_bytes, leaf_cache_size_in_bytes) to create map object named my_map
map_type my_map((map_type::node_block_type::raw_size) * 3, (map_type::leaf_block_type::raw_size) * 3);
\endcode
The comparator class has to be defined by hand (and before the map definition above) and looks like:
\code
struct ComparatorGreater
{
bool operator () (const int & a, const int & b) const
{ return a > b; }
static int max_value()
{ return std::numeric_limits<int>::min(); }
};
\endcode
If CompareGreater()(a,b) is true, then a is smaller than b. CompareType must also provide a static max_value method, that returns a value of type KeyType that is larger than any key stored in map, i.e. for all x in map holds CompareType()(x,CompareType::max_value())
Naturally, we can define a comparator class which returns true if b is smaller than a as follows:
\code
struct CompareLess
{
bool operator () (const int & a, const int & b) const
{ return a<b; }
static int max_value() const
{ return std::numeric_limits<int>::max(); }
};
\endcode
Note that CompareType must define a strict weak ordering.
### Insert elements
Insertion of elements is possible in three different ways:
1. simple insertion
\code
my_map.insert(std::pair<int, char>(1, 'a'));
my_map.insert(std::pair<int, char>(2, 'b'));
my_map.insert(std::pair<int, char>(3, 'c'));
my_map.insert(std::pair<int, char>(4, 'd'));
\endcode
2. insertion with hint
\code
map_type::iterator iter = my_map.begin();
my_map.insert(iter, std::pair<int, char>(5, 'w'));
my_map.insert(iter, std::pair<int, char>(6, 'x'));
my_map.insert(iter, std::pair<int, char>(7, 'y'));
my_map.insert(iter, std::pair<int, char>(8, 'z'));
\endcode
3. range insertion
\code
map_type anothermap((map_type::node_block_type::raw_size) * 3, (map_type::leaf_block_type::raw_size) * 3);
anothermap.insert(my_map.begin(),my_map.find('c')); // stores (1, 'a'), (2, 'b'), (3, 'c')
\endcode
### Access elements
Random access is possible by using the []-operator:
\code
std::cout << "my_map[4] is " << my_map[4] << std::endl; // prints 'd'
\endcode
Scanning a stxxl::map by an iterator works like
\code
// echo every element my_map contains
for (iter = my_map.begin(); iter != my_map.end(); ++iter)
{
std::cout << iter->first << " => " << iter->second << std::endl;
}
\endcode
Hint: To enable leaf prefetching during scanning, call my_map.enable_prefetching() before.
In addition, the operations lower_bound() and upper_bound() are available. The function lower_bound(key) returns an iterator which initially points to the first element in the container whose key <b> is not considered </b> to go before key. upper_bound(key) works similar as it returns an iterator which initially points to the first element in the container whose key <b> is considered </b> to go after key.
\code
map_type::iterator iter_low, iter_up;
iter_low = my_map.lower_bound(2); // iter_low points to 2 in this case
iter_up = my_map.upper_bound(6); // iter_up points to 5 in this case
std::cout << "lower bound " << iter_low->second << " upper bound " << iter_up->second << std::endl;
\endcode
Note: lower_bound() works nearly equal to upper_bound(), except in the case that the map contains an element with a key equivalent lower_bound(x): In this case lower_bound(x) returns an iterator pointing to that element, whereas upper_bound(x) returns an iterator pointing to the next element.
### Delete elements
Removing elements out of the map is possible in three different ways:
1. Erasing by iterator
\code
map_type::iter iter = my_map.find(7);
my_map.erase(iter);
\endcode
2. Erasing by key
\code
my_map.erase(8);
\endcode
3. Erasing by range
\code
iter = my_map.find(3);
my_map.erase(iter, my_map.end());
\endcode
### Determine size / Check whether the map is empty
To determine the size (i.e. the number of elements) of an instance, call size():
\code
std::cout << "number of elements in my_map: " << my_map.size() << std::endl;
\endcode
To check if the priority queue is empty, call empty() which returns true in case:
\code
std::cout << "is my_map empty? " << my_map.empty() << std::endl;
\endcode
### A minimal working example on STXXL Map
(See \ref examples/containers/map1.cpp for the sourcecode of the following example).
\snippet examples/containers/map1.cpp example
\example examples/containers/map1.cpp
This example code is explained in the \ref tutorial_map section
*/
} // namespace stxxl