boost/spirit/home/classic/utility/impl/chset/range_run.ipp
/*=============================================================================
Copyright (c) 2001-2003 Joel de Guzman
http://spirit.sourceforge.net/
Use, modification and distribution is subject to 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)
=============================================================================*/
#ifndef BOOST_SPIRIT_RANGE_RUN_IPP
#define BOOST_SPIRIT_RANGE_RUN_IPP
///////////////////////////////////////////////////////////////////////////////
#include <algorithm> // for std::lower_bound
#include <boost/spirit/home/classic/core/assert.hpp> // for BOOST_SPIRIT_ASSERT
#include <boost/spirit/home/classic/utility/impl/chset/range_run.hpp>
#include <boost/spirit/home/classic/debug.hpp>
#include <boost/limits.hpp>
///////////////////////////////////////////////////////////////////////////////
namespace boost { namespace spirit {
BOOST_SPIRIT_CLASSIC_NAMESPACE_BEGIN
namespace utility { namespace impl {
///////////////////////////////////////////////////////////////////////
//
// range class implementation
//
///////////////////////////////////////////////////////////////////////
template <typename CharT>
inline range<CharT>::range(CharT first_, CharT last_)
: first(first_), last(last_) {}
//////////////////////////////////
template <typename CharT>
inline bool
range<CharT>::is_valid() const
{ return first <= last; }
//////////////////////////////////
template <typename CharT>
inline bool
range<CharT>::includes(range const& r) const
{ return (first <= r.first) && (last >= r.last); }
//////////////////////////////////
template <typename CharT>
inline bool
range<CharT>::includes(CharT v) const
{ return (first <= v) && (last >= v); }
//////////////////////////////////
template <typename CharT>
inline bool
range<CharT>::overlaps(range const& r) const
{
CharT decr_first =
first == (std::numeric_limits<CharT>::min)() ? first : first-1;
CharT incr_last =
last == (std::numeric_limits<CharT>::max)() ? last : last+1;
return (decr_first <= r.last) && (incr_last >= r.first);
}
//////////////////////////////////
template <typename CharT>
inline void
range<CharT>::merge(range const& r)
{
first = (std::min)(first, r.first);
last = (std::max)(last, r.last);
}
///////////////////////////////////////////////////////////////////////
//
// range_run class implementation
//
///////////////////////////////////////////////////////////////////////
template <typename CharT>
inline bool
range_run<CharT>::test(CharT v) const
{
if (!run.empty())
{
const_iterator iter =
std::lower_bound(
run.begin(), run.end(), v,
range_char_compare<CharT>()
);
if (iter != run.end() && iter->includes(v))
return true;
if (iter != run.begin())
return (--iter)->includes(v);
}
return false;
}
//////////////////////////////////
template <typename CharT>
inline void
range_run<CharT>::swap(range_run& rr)
{ run.swap(rr.run); }
//////////////////////////////////
template <typename CharT>
void
range_run<CharT>::merge(iterator iter, range<CharT> const& r)
{
iter->merge(r);
iterator i = iter + 1;
while (i != run.end() && iter->overlaps(*i))
iter->merge(*i++);
run.erase(iter+1, i);
}
//////////////////////////////////
template <typename CharT>
void
range_run<CharT>::set(range<CharT> const& r)
{
BOOST_SPIRIT_ASSERT(r.is_valid());
if (!run.empty())
{
iterator iter =
std::lower_bound(
run.begin(), run.end(), r,
range_compare<CharT>()
);
if ((iter != run.end() && iter->includes(r)) ||
((iter != run.begin()) && (iter - 1)->includes(r)))
return;
if (iter != run.begin() && (iter - 1)->overlaps(r))
merge(--iter, r);
else if (iter != run.end() && iter->overlaps(r))
merge(iter, r);
else
run.insert(iter, r);
}
else
{
run.push_back(r);
}
}
//////////////////////////////////
template <typename CharT>
void
range_run<CharT>::clear(range<CharT> const& r)
{
BOOST_SPIRIT_ASSERT(r.is_valid());
if (!run.empty())
{
iterator iter =
std::lower_bound(
run.begin(), run.end(), r,
range_compare<CharT>()
);
iterator left_iter;
if ((iter != run.begin()) &&
(left_iter = (iter - 1))->includes(r.first))
{
if (left_iter->last > r.last)
{
CharT save_last = left_iter->last;
left_iter->last = r.first-1;
run.insert(iter, range<CharT>(r.last+1, save_last));
return;
}
else
{
left_iter->last = r.first-1;
}
}
iterator i = iter;
while (i != run.end() && r.includes(*i))
i++;
if (i != run.end() && i->includes(r.last))
i->first = r.last+1;
run.erase(iter, i);
}
}
//////////////////////////////////
template <typename CharT>
inline void
range_run<CharT>::clear()
{ run.clear(); }
//////////////////////////////////
template <typename CharT>
inline typename range_run<CharT>::const_iterator
range_run<CharT>::begin() const
{ return run.begin(); }
//////////////////////////////////
template <typename CharT>
inline typename range_run<CharT>::const_iterator
range_run<CharT>::end() const
{ return run.end(); }
}} // namespace utility::impl
BOOST_SPIRIT_CLASSIC_NAMESPACE_END
}} // namespace boost::spirit
#endif