C++ Boost sorted_erdos_renyi_iterator
template<typename RandomGenerator, typename Graph>
class sorted_erdos_renyi_iterator
{
public:
  typedef std::input_iterator_tag iterator_category;
  typedef std::pair<vertices_size_type, vertices_size_type> value_type;
  typedef const value_type& reference;
  typedef const value_type* pointer;
  typedef void difference_type;

  sorted_erdos_renyi_iterator();
  sorted_erdos_renyi_iterator(RandomGenerator& gen, vertices_size_type n,
                              double probability = 0.0, bool allow_self_loops = false);

  // Iterator operations
  reference operator*() const;
  pointer operator->() const;
  sorted_erdos_renyi_iterator& operator++();
  sorted_erdos_renyi_iterator operator++(int);
  bool operator==(const sorted_erdos_renyi_iterator& other) const;
  bool operator!=(const sorted_erdos_renyi_iterator& other) const;
}; 

This class template implements a generator for Erdös-Renyi graphs, suitable for initializing an adjacency_list or other graph structure with iterator-based initialization. An Erdös-Renyi graph G = (n, p) is a graph with n vertices that. The probability of having an edge (u, v) in G is p for any vertices u and v. Typically, there are no self-loops, but the generator can optionally introduce self-loops with probability p.

Erdös-Renyi graphs typically exhibit very little structure. For this reason, they are rarely useful in modeling real-world problems. However, they are often used when determining the theoretical complexity of complex graph algorithms.

Where Defined

boost/graph/erdos_renyi_generator.hpp

Constructors

sorted_erdos_renyi_iterator();
Constructs a past-the-end iterator.
sorted_erdos_renyi_iterator(RandomGenerator& gen, vertices_size_type n,
                            double probability = 0.0, bool allow_self_loops = false);
Constructs an Erdös-Renyi generator iterator that creates a graph with n vertices and a given probability of the total number of edges that a simple graph may have. probability. Random vertices and edges are selected using the random number generator gen. Self-loops are permitted only when allow_self_loops is true.

Example

#include <boost/graph/adjacency_list.hpp>
#include <boost/graph/erdos_renyi_generator.hpp>
#include <boost/random/linear_congruential.hpp>

typedef boost::adjacency_list<> Graph;
typedef boost::sorted_erdos_renyi_iterator<boost::minstd_rand, Graph> ERGen;

int main()
{
  boost::minstd_rand gen;
  // Create graph with 100 nodes and edges with probability 0.05
  Graph g(ERGen(gen, 100, 0.05), ERGen(), 100);
  return 0;
}


Copyright © 2005 Jeremiah Willcock, Indiana University ()
Doug Gregor, Indiana University ()
Andrew Lumsdaine, Indiana University ()