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// equivset.hpp
// Copyright (c) 2007-2009 Ben Hanson (http://www.benhanson.net/)
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file licence_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_LEXER_EQUIVSET_HPP
#define BOOST_LEXER_EQUIVSET_HPP
#include <algorithm>
#include "../parser/tree/node.hpp"
#include <set>
#include "../size_t.hpp"
namespace boost
{
namespace lexer
{
namespace detail
{
struct equivset
{
typedef std::set<std::size_t> index_set;
typedef std::vector<std::size_t> index_vector;
// Not owner of nodes:
typedef std::vector<node *> node_vector;
index_vector _index_vector;
bool _greedy;
std::size_t _id;
node_vector _followpos;
equivset () :
_greedy (true),
_id (0)
{
}
equivset (const index_set &index_set_, const bool greedy_,
const std::size_t id_, const node_vector &followpos_) :
_greedy (greedy_),
_id (id_),
_followpos (followpos_)
{
index_set::const_iterator iter_ = index_set_.begin ();
index_set::const_iterator end_ = index_set_.end ();
for (; iter_ != end_; ++iter_)
{
_index_vector.push_back (*iter_);
}
}
bool empty () const
{
return _index_vector.empty () && _followpos.empty ();
}
void intersect (equivset &rhs_, equivset &overlap_)
{
intersect_indexes (rhs_._index_vector, overlap_._index_vector);
if (!overlap_._index_vector.empty ())
{
// Note that the LHS takes priority in order to
// respect rule ordering priority in the lex spec.
overlap_._id = _id;
overlap_._greedy = _greedy;
overlap_._followpos = _followpos;
node_vector::const_iterator overlap_begin_ =
overlap_._followpos.begin ();
node_vector::const_iterator overlap_end_ =
overlap_._followpos.end ();
node_vector::const_iterator rhs_iter_ =
rhs_._followpos.begin ();
node_vector::const_iterator rhs_end_ =
rhs_._followpos.end ();
for (; rhs_iter_ != rhs_end_; ++rhs_iter_)
{
node *node_ = *rhs_iter_;
if (std::find (overlap_begin_, overlap_end_, node_) ==
overlap_end_)
{
overlap_._followpos.push_back (node_);
overlap_begin_ = overlap_._followpos.begin ();
overlap_end_ = overlap_._followpos.end ();
}
}
if (_index_vector.empty ())
{
_followpos.clear ();
}
if (rhs_._index_vector.empty ())
{
rhs_._followpos.clear ();
}
}
}
private:
void intersect_indexes (index_vector &rhs_, index_vector &overlap_)
{
index_vector::iterator iter_ = _index_vector.begin ();
index_vector::iterator end_ = _index_vector.end ();
index_vector::iterator rhs_iter_ = rhs_.begin ();
index_vector::iterator rhs_end_ = rhs_.end ();
while (iter_ != end_ && rhs_iter_ != rhs_end_)
{
const std::size_t index_ = *iter_;
const std::size_t rhs_index_ = *rhs_iter_;
if (index_ < rhs_index_)
{
++iter_;
}
else if (index_ > rhs_index_)
{
++rhs_iter_;
}
else
{
overlap_.push_back (index_);
iter_ = _index_vector.erase (iter_);
end_ = _index_vector.end ();
rhs_iter_ = rhs_.erase (rhs_iter_);
rhs_end_ = rhs_.end ();
}
}
}
};
}
}
}
#endif