This file is indexed.

/usr/include/claw/impl/graph.tpp is in libclaw-dev 1.7.4-2.

This file is owned by root:root, with mode 0o644.

The actual contents of the file can be viewed below.

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/*
  CLAW - a C++ Library Absolutely Wonderful

  CLAW is a free library without any particular aim but being useful to 
  anyone.

  Copyright (C) 2005-2011 Julien Jorge

  This library 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 2.1 of the License, or (at your option) any later version.

  This library 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 library; if not, write to the Free Software
  Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA

  contact: julien.jorge@gamned.org
*/
/**
 * \file graph.tpp
 * \brief Implementation of the claw::graph class.
 * \author Julien Jorge
 */
#include <cassert>
#include <algorithm>

#include <claw/functional.hpp>

/*---------------------------------------------------------------------------*/
/**
 * \brief Default constructor.
 */
claw::graph_exception::graph_exception() throw()
  : m_msg("No message") 
{

} // graph_exception()

/*---------------------------------------------------------------------------*/
/**
 * \brief Constructor.
 * \param s An explanation of the problem.
 */
claw::graph_exception::graph_exception( const std::string& s) throw()
  : m_msg(s) 
{

} // graph_exception()

/*---------------------------------------------------------------------------*/
/**
 * \brief Destructor.
 */
claw::graph_exception::~graph_exception() throw()
{

} // ~graph_exception()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get an explanation of the problem.
 */
const char* claw::graph_exception::what() const throw()
{
  return m_msg.c_str(); 
} // what()




/*---------------------------------------------------------------------------*/
/**
 * \brief Constructor of the graph_vertex_iterator class.
 */
template <class S, class A, class Comp>
claw::graph<S, A, Comp>::graph_vertex_iterator::graph_vertex_iterator()
{

} // graph_vertex_iterator() [constructor]

/*---------------------------------------------------------------------------*/
/**
 * \brief Preincrement.
 * \pre Iterator is not at the end of the container.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::graph_vertex_iterator&
claw::graph<S, A, Comp>::graph_vertex_iterator::operator++()
{
  ++m_iterator;
  return *this;
} // operator++() [preincrement]

/*---------------------------------------------------------------------------*/
/**
 * \brief Postincrement.
 * \pre Iterator is not at the end of the container.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::graph_vertex_iterator
claw::graph<S, A, Comp>::graph_vertex_iterator::operator++(int)
{
  graph_vertex_iterator it_tmp(*this);
  m_iterator++;
  return *this;
} // operator++() [postincrement]

/*---------------------------------------------------------------------------*/
/**
 * \brief Predecrement.
 * \pre Iterator is not at the begining of the container.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::graph_vertex_iterator&
claw::graph<S, A, Comp>::graph_vertex_iterator::operator--()
{
  --m_iterator;
  return *this;
} // operator--() [predecrement]

/*---------------------------------------------------------------------------*/
/**
 * \brief Postdecrement.
 * \pre Iterator is not at the begining of the container.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::graph_vertex_iterator 
claw::graph<S, A, Comp>::graph_vertex_iterator::operator--(int)
{
  graph_vertex_iterator it_tmp(*this);
  m_iterator--;
  return it_tmp;
} // operator--() [postdecrement]

/*---------------------------------------------------------------------------*/
/**
 * \brief Dereference.
 * \pre Iterator is not at the end of the container.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::graph_vertex_iterator::reference
claw::graph<S, A, Comp>::graph_vertex_iterator::operator*() const
{
  return m_iterator->first;
} // operator*()

/*---------------------------------------------------------------------------*/
/**
 * \brief Reference.
 * \pre Iterator is not at the end of the container.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::graph_vertex_iterator::pointer
claw::graph<S, A, Comp>::graph_vertex_iterator::operator->() const
{
  return &(m_iterator->first);
} // operator->()

/*---------------------------------------------------------------------------*/
/**
 * \brief Equality.
 * \param it Iterator to compare to.
 * \pre Iterator and it are not at the end of their respective  containers.
 */
template <class S, class A, class Comp>
bool claw::graph<S, A, Comp>::graph_vertex_iterator::operator==
(const graph_vertex_iterator& it) const
{
  return m_iterator == it.m_iterator;
} // operator==()

/*---------------------------------------------------------------------------*/
/**
 * \brief Difference.
 * \param it Iterator to compare to.
 * \pre Iterator and it are not at the end of their respective  containers.
 */
template <class S, class A, class Comp>
bool claw::graph<S, A, Comp>::graph_vertex_iterator::operator!=
(const graph_vertex_iterator& it) const
{
  return m_iterator != it.m_iterator;
} // operator!=()

/*---------------------------------------------------------------------------*/
/**
 * \brief Constructor with an iterator on graph class data.
 * \param it Iterator where scan starts.
 */
template <class S, class A, class Comp>
claw::graph<S, A, Comp>::graph_vertex_iterator::graph_vertex_iterator
(typename graph_content::const_iterator it)
  : m_iterator(it)
{
  
} // graph_vertex_iterator() [constructor on an iterator]




/*---------------------------------------------------------------------------*/
/**
 * \brief Constructor.
 */
template <class S, class A, class Comp>
claw::graph<S, A, Comp>::graph_edge_iterator::edge::edge()
  : m_label(NULL), m_source(NULL), m_target(NULL)
{

} // edge::edge [constructor]

/*---------------------------------------------------------------------------*/
/**
 * \brief Gets edge's label.
 */
template <class S, class A, class Comp>
const typename claw::graph<S, A, Comp>::edge_type& 
claw::graph<S, A, Comp>::graph_edge_iterator::edge::label() const
{
  assert(m_label != NULL);
  return *m_label;
} // edge::label()

/*---------------------------------------------------------------------------*/
/**
 * \brief Gets edge's source.
 */
template <class S, class A, class Comp>
const typename claw::graph<S, A, Comp>::vertex_type& 
claw::graph<S, A, Comp>::graph_edge_iterator::edge::source() const
{
  assert(m_source != NULL);
  return *m_source;
} // edge::source()

/*---------------------------------------------------------------------------*/
/**
 * \brief Gets edge's target.
 */
template <class S, class A, class Comp>
const typename claw::graph<S, A, Comp>::vertex_type&
claw::graph<S, A, Comp>::graph_edge_iterator::edge::target() const
{
  assert(m_target != NULL);
  return *m_target;
} // edge::target()

/*---------------------------------------------------------------------------*/
/**
 * \brief Sets label, source and taget.
 */
template <class S, class A, class Comp>
void claw::graph<S, A, Comp>::graph_edge_iterator::edge::
set( const edge_type& l, const vertex_type& s, const vertex_type& t )
{
  m_label = &l;
  m_source = &s;
  m_target = &t;
} // edge::set()




/*---------------------------------------------------------------------------*/
/**
 * \brief Constructor of the graph_edge_iterator class.
 */
template <class S, class A, class Comp>
claw::graph<S, A, Comp>::graph_edge_iterator::graph_edge_iterator()
{

} // graph_edge_iterator() [constructor]

/*---------------------------------------------------------------------------*/
/**
 * \brief Preincrement.
 * \pre Iterator is not at the end of the container.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::graph_edge_iterator&
claw::graph<S, A, Comp>::graph_edge_iterator::operator++()
{
  bool ok = true;
  ++m_neighbours_iterator;

  // end of a neighbourhood
  if ( m_neighbours_iterator == m_vertex_iterator->second.end() )
    {
      // find next edge or end.
      ok = false;
      ++m_vertex_iterator;

      while ( (m_vertex_iterator != m_vertex_end) && !ok )
        if ( !m_vertex_iterator->second.empty() )
          {
            ok = true;
            m_neighbours_iterator = m_vertex_iterator->second.begin();
          }
        else
          ++m_vertex_iterator;
    }

  if (ok)
    m_edge.set( m_neighbours_iterator->second, m_vertex_iterator->first,
                m_neighbours_iterator->first );

  return *this;
} // operator++() [preincrement]

/*---------------------------------------------------------------------------*/
/**
 * \brief Postincrement.
 * \pre Iterator is not at the end of the container.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::graph_edge_iterator
claw::graph<S, A, Comp>::graph_edge_iterator::operator++(int)
{
  graph_edge_iterator it_tmp(*this);
  ++(*this);
  return it_tmp;
} // operator++() [postincrement]

/*---------------------------------------------------------------------------*/
/**
 * \brief Predecrement.
 * \pre Iterator is not at the begining of the container.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::graph_edge_iterator&
claw::graph<S, A, Comp>::graph_edge_iterator::operator--()
{
  bool ok = true;

  if (m_vertex_iterator == m_vertex_end)
    {
      --m_vertex_iterator;
      m_neighbours_iterator = m_vertex_iterator->second.end();
    }

  // begining of a neighbourhood
  if ( m_neighbours_iterator == m_vertex_iterator->second.begin() )
    {
      ok = false;
      // find previous edge or begining.
      while ( (m_vertex_iterator != m_vertex_begin) && !ok )
        {
          --m_vertex_iterator;
          if ( !m_vertex_iterator->second.empty() )
            {
              ok = true;
              m_neighbours_iterator = --m_vertex_iterator->second.end();
            }
        }
    }
  else
    --m_neighbours_iterator;

  if (!ok)
    m_vertex_iterator == m_vertex_end;
  else
    m_edge.set( m_neighbours_iterator->second, m_vertex_iterator->first,
                m_neighbours_iterator->first );

  return *this;
} // operator--() [predecrement]

/*---------------------------------------------------------------------------*/
/**
 * \brief postdecrement.
 * \pre Iterator is not at the begining of the container.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::graph_edge_iterator 
claw::graph<S, A, Comp>::graph_edge_iterator::operator--(int)
{
  graph_edge_iterator it_tmp(*this);
  --(*this);
  return it_tmp;
} // operator--() [postdecrement]

/*---------------------------------------------------------------------------*/
/**
 * \brief Reference.
 * \pre Iterator is not at the end of the container.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::graph_edge_iterator::reference
claw::graph<S, A, Comp>::graph_edge_iterator::operator*() const
{
  return m_edge;
} // operator*()

/*---------------------------------------------------------------------------*/
/**
 * \brief Pointer.
 * \pre Iterator is not at the end of the container.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::graph_edge_iterator::pointer
claw::graph<S, A, Comp>::graph_edge_iterator::operator->() const
{
  return &m_edge;
} // operator->()

/*---------------------------------------------------------------------------*/
/**
 * \brief Equality.
 * \param it Iterator to compare to.
 * \pre Iterator and it are not at the end of their respective  containers.
 */
template <class S, class A, class Comp>
bool claw::graph<S, A, Comp>::graph_edge_iterator::operator==
(const graph_edge_iterator& it) const
{
  // both are empty
  if ( m_vertex_begin == m_vertex_end )
    return (it.m_vertex_begin == it.m_vertex_end) 
      && (m_vertex_begin == it.m_vertex_begin);
  else
    if ( it.m_vertex_begin == it.m_vertex_end ) // -it- is empty
      return false;
    else
      // none is empty, perheaps at the end ?
      if (m_vertex_iterator == m_vertex_end)
        return (it.m_vertex_iterator == it.m_vertex_end)
          && (m_vertex_begin == it.m_vertex_begin);
      else
        if (it.m_vertex_iterator == it.m_vertex_end)
          return false;
        else
          return m_neighbours_iterator == it.m_neighbours_iterator;
} // operator==()

/*---------------------------------------------------------------------------*/
/**
 * \brief Difference.
 * \param it Iterator to compare to.
 * \pre Iterator and it are not at the end of their respective  containers.
 */
template <class S, class A, class Comp>
bool claw::graph<S, A, Comp>::graph_edge_iterator::operator!=
(const graph_edge_iterator& it) const
{
  return !(*this == it);
} // operator!=()

/*---------------------------------------------------------------------------*/
/**
 * \brief Constructor with an iterator on graph class data.
 * \param it_begin Iterator on the first node.
 * \param it_end Iterator on the last node.
 * \param it_s Iterator on current edge's source.
 * \param it_d Iterator where scan starts.
 */
template <class S, class A, class Comp>
claw::graph<S, A, Comp>::graph_edge_iterator::graph_edge_iterator
( typename graph_content::const_iterator it_begin,
  typename graph_content::const_iterator it_end,
  typename graph_content::const_iterator it_s,
  typename neighbours_list::const_iterator it_d)
  : m_vertex_begin(it_begin), m_vertex_end(it_end), 
    m_vertex_iterator(it_s), m_neighbours_iterator(it_d)
{
  if (m_vertex_begin != m_vertex_end)
    m_edge.set( m_neighbours_iterator->second, m_vertex_iterator->first,
                m_neighbours_iterator->first );
} // graph_edge_iterator() [constructor on an iterator]




/*---------------------------------------------------------------------------*/
/**
 * \brief Constructor.
 */
template <class S, class A, class Comp>
claw::graph<S, A, Comp>::graph()
  : m_edges_count(0)
{

} // graph::graph() [constructor]

/*---------------------------------------------------------------------------*/
/**
 * \brief Add an edge in the graph.
 * \param s1 Tail of the edge.
 * \param s2 Head of the edgre.
 * \param e The label on the edge.
 */
template <class S, class A, class Comp>
void claw::graph<S, A, Comp>::add_edge
( const vertex_type& s1, const vertex_type& s2, const edge_type& e )
{
  if ( !edge_exists(s1, s2) )
    {
      // s2 is not a neighbor of s1
      ++m_edges_count;

      add_vertex(s1);
      add_vertex(s2); 

      // in all cases, s2 as one more inner edge
      ++m_inner_degrees[s2]; 
    }

  m_edges[s1][s2] = e;
} // graph::add_edge()

/*---------------------------------------------------------------------------*/
/**
 * \brief Add a vertex.
 * \param s The vertex to add.
 */
template <class S, class A, class Comp>
void claw::graph<S, A, Comp>::add_vertex( const vertex_type& s )
{
  std::pair<S, neighbours_list> p;

  if (m_edges.find(s) == m_edges.end())
    {
      // Add the vertex in the adjacency list.
      p.first = s;
      m_edges.insert(p);
      m_inner_degrees[s] = 0;
    }
} // graph::add_vertex()

/*---------------------------------------------------------------------------*/
/**
 * \brief Check if there is an edge linking to vertices.
 * \param s Vertex at the tail of the edge.
 * \param r Vertex at the head of the edge.
 */
template <class S, class A, class Comp>
bool claw::graph<S, A, Comp>::edge_exists
( const vertex_type& s, const vertex_type& r ) const 
{ 
  typename graph_content::const_iterator it = m_edges.find(s);

  if ( it == m_edges.end() )
    return false;
  else
    return it->second.find(r) != it->second.end(); 
} // graph::edge_exists()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get the neighbors of a vertex.
 * \param s The vertex.
 * \param v (out) The neighbors.
 */
template <class S, class A, class Comp>
void claw::graph<S, A, Comp>::neighbours
(const vertex_type& s, std::vector<vertex_type>& v) const 
{ 
  typename graph_content::const_iterator it_s = m_edges.find(s);
  v.clear();

  if ( it_s != m_edges.end() )
    {
      v.resize( it_s->second.size() );
      std::transform( it_s->second.begin(), it_s->second.end(), v.begin(),
                      const_first<S,A>() );
    }
} // graph::neighbours()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get all the vertices.
 * \param v (out) The vertices.
 */
template <class S, class A, class Comp>
void claw::graph<S, A, Comp>::vertices(std::vector<vertex_type>& v) const 
{ 
  v.clear();
  v.resize(m_edges.size());

  std::transform( m_edges.begin(), m_edges.end(), v.begin(), 
                  const_first<S,neighbours_list>() );
} // graph::vertices()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get a node iterator on the first node.
 * \remark Returns vertex_end() if graph is empty.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::vertex_iterator
claw::graph<S, A, Comp>::vertex_begin() const
{
  return vertex_iterator( m_edges.begin() );
} // graph::vertex_begin()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get a node iterator past the last node.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::vertex_iterator 
claw::graph<S, A, Comp>::vertex_end() const
{
  return vertex_iterator( m_edges.end() );
} // graph::vertex_end()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get a node iterator on a particular node.
 * \remark Returns vertex_end() if S is not found.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::vertex_iterator 
claw::graph<S, A, Comp>::vertex_begin( const vertex_type& s ) const
{
  return vertex_iterator( m_edges.find(s) );
} // graph::vertex_begin()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get a reverse node iterator on the first node.
 * \remark Returns vertex_rend() if graph is empty.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::reverse_vertex_iterator
claw::graph<S, A, Comp>::vertex_rbegin() const
{
  return reverse_vertex_iterator( vertex_end() );
} // graph::vertex_rbegin()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get a reverse node iterator past the last node.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::reverse_vertex_iterator 
claw::graph<S, A, Comp>::vertex_rend() const
{
  return reverse_vertex_iterator( vertex_begin() );
} // graph::vertex_rend()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get a reverse node iterator just after a particular node.
 * \remark Returns vertex_rend() if s is not found.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::reverse_vertex_iterator 
claw::graph<S, A, Comp>::vertex_rbegin( const vertex_type& s ) const
{
  vertex_iterator it = vertex_begin(s);

  if (it != vertex_end())
    ++it;

  return reverse_vertex_iterator( it );
} // graph::vertex_rbegin()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get an edge iterator on the first edge.
 * \remark Returns edge_end() if there's no edge in the graph.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::edge_iterator
claw::graph<S, A, Comp>::edge_begin() const
{
  bool ok = false;
  typename graph_content::const_iterator it_s;
  it_s = m_edges.begin();

  while ( (it_s != m_edges.end()) && !ok )
    if ( it_s->second.empty() )
      ++it_s;
    else
      ok = true;

  if (ok)
    return edge_iterator( m_edges.begin(), m_edges.end(), it_s, 
                          it_s->second.begin() );
  else
    return edge_end();
                                                 
} // graph::edge_begin()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get an edge iterator after the last edge.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::edge_iterator
claw::graph<S, A, Comp>::edge_end() const
{
  return edge_iterator( m_edges.begin(), m_edges.end(), m_edges.end(),
                        typename neighbours_list::const_iterator() );
} // graph::edge_end()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get en iterator on a particular edge .
 * \remark Returns edge_end() if edge (s1,s2) is not found.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::edge_iterator
claw::graph<S, A, Comp>::edge_begin
( const vertex_type& s1, const vertex_type& s2 ) const
{
  if ( edge_exists(s1, s2) )
    {
      typename graph_content::const_iterator it_s1;

      it_s1 = m_edges.find(s1);
      return edge_iterator( m_edges.begin(), m_edges.end(), it_s1, 
                            it_s1->second.find(s2) );
    }
  else
    return edge_end();
} // graph::edge_()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get a reverse edge iterator on the first edge.
 * \remark Returns redge_end() if there's no edge in the graph.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::reverse_edge_iterator
claw::graph<S, A, Comp>::edge_rbegin() const
{
  return reverse_edge_iterator( edge_end() );
} // graph::edge_rbegin()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get a reverse edge iterator after the last edge.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::reverse_edge_iterator 
claw::graph<S, A, Comp>::edge_rend() const
{
  return reverse_edge_iterator( edge_begin() );
} // graph::edge_rend()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get a reverse edge iterator on a particular edge.
 * \remark Returns redge_end() if edge (s1,s2) is not found.
 */
template <class S, class A, class Comp>
typename claw::graph<S, A, Comp>::reverse_edge_iterator 
claw::graph<S, A, Comp>::edge_rbegin
( const vertex_type& s1, const vertex_type& s2 ) const
{
  reverse_edge_iterator it = edge_begin(s1, s2);

  if ( it != edge_end() )
    ++it;

  return reverse_edge_iterator( it );
} // graph::edge_rbegin()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get the label of an edge.
 * \param s The vertex at the tail of the edge.
 * \param r The vertex at the head of the edge.
 */
template <class S, class A, class Comp>
const typename claw::graph<S, A, Comp>::edge_type& 
claw::graph<S, A, Comp>::label
( const vertex_type& s, const vertex_type& r ) const 
{ 
  typename graph_content::const_iterator it_s = m_edges.find(s);

  if ( it_s == m_edges.end() )
    throw graph_exception
      ("claw::graph::label(): unkonwn source vertex.");
  else 
    {
      typename neighbours_list::const_iterator it_r = it_s->second.find(r);

      if ( it_r == it_s->second.end() )
        throw graph_exception
          ("claw::graph::label(): destination is not a neighbor.");
      else
        return it_r->second; 
    }
} // graph::label()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get the outter degree of a vertex.
 * \param s The vertex.
 */
template <class S, class A, class Comp>
std::size_t claw::graph<S, A, Comp>::outer_degree( const vertex_type& s ) const 
{ 
  typename graph_content::const_iterator it = m_edges.find(s);
  
  if (it == m_edges.end())
    throw graph_exception("claw::graph::outer_degree(): unknown vertex.");
  else
    return it->second.size(); 
} // graph::outer_degree()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get the inner degree of a vertex.
 * \param s The vertex
 */
template <class S, class A, class Comp>
std::size_t claw::graph<S, A, Comp>::inner_degree( const vertex_type& s ) const 
{ 
  typename std::map<S, std::size_t, Comp>::const_iterator it;
  it = m_inner_degrees.find(s);
  
  if (it == m_inner_degrees.end())
    throw graph_exception
      ("claw::graph::inner_degree(): unkown vertex.");
  else
    return it->second; 
} // graph::inner_degree()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get the number of vertices. 
 */
template <class S, class A, class Comp>
std::size_t claw::graph<S, A, Comp>::vertices_count() const 
{
  return m_edges.size(); 
} // graph::vertices_count()

/*---------------------------------------------------------------------------*/
/**
 * \brief Get the number of edges. 
 */
template <class S, class A, class Comp>
std::size_t claw::graph<S, A, Comp>::edges_count() const 
{
  return m_edges_count; 
} // graph::edges_count()