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// Boost.Geometry Index
//
// R-tree ostreaming visitor implementation
//
// Copyright (c) 2011-2013 Adam Wulkiewicz, Lodz, Poland.
//
// 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_GEOMETRY_INDEX_DETAIL_RTREE_UTILITIES_PRINT_HPP
#define BOOST_GEOMETRY_INDEX_DETAIL_RTREE_UTILITIES_PRINT_HPP
#include <iostream>
namespace boost { namespace geometry { namespace index { namespace detail {
namespace utilities {
namespace dispatch {
template <typename Point, size_t Dimension>
struct print_point
{
BOOST_STATIC_ASSERT(0 < Dimension);
static inline void apply(std::ostream & os, Point const& p)
{
print_point<Point, Dimension - 1>::apply(os, p);
os << ", " << geometry::get<Dimension - 1>(p);
}
};
template <typename Point>
struct print_point<Point, 1>
{
static inline void apply(std::ostream & os, Point const& p)
{
os << geometry::get<0>(p);
}
};
template <typename Box, size_t Corner, size_t Dimension>
struct print_corner
{
BOOST_STATIC_ASSERT(0 < Dimension);
static inline void apply(std::ostream & os, Box const& b)
{
print_corner<Box, Corner, Dimension - 1>::apply(os, b);
os << ", " << geometry::get<Corner, Dimension - 1>(b);
}
};
template <typename Box, size_t Corner>
struct print_corner<Box, Corner, 1>
{
static inline void apply(std::ostream & os, Box const& b)
{
os << geometry::get<Corner, 0>(b);
}
};
template <typename Indexable, typename Tag>
struct print_indexable
{
BOOST_MPL_ASSERT_MSG((false), NOT_IMPLEMENTED_FOR_THIS_TAG, (Tag));
};
template <typename Indexable>
struct print_indexable<Indexable, box_tag>
{
static const size_t dimension = geometry::dimension<Indexable>::value;
static inline void apply(std::ostream &os, Indexable const& i)
{
os << '(';
print_corner<Indexable, min_corner, dimension>::apply(os, i);
os << ")x(";
print_corner<Indexable, max_corner, dimension>::apply(os, i);
os << ')';
}
};
template <typename Indexable>
struct print_indexable<Indexable, point_tag>
{
static const size_t dimension = geometry::dimension<Indexable>::value;
static inline void apply(std::ostream &os, Indexable const& i)
{
os << '(';
print_point<Indexable, dimension>::apply(os, i);
os << ')';
}
};
template <typename Indexable>
struct print_indexable<Indexable, segment_tag>
{
static const size_t dimension = geometry::dimension<Indexable>::value;
static inline void apply(std::ostream &os, Indexable const& i)
{
os << '(';
print_corner<Indexable, 0, dimension>::apply(os, i);
os << ")-(";
print_corner<Indexable, 1, dimension>::apply(os, i);
os << ')';
}
};
} // namespace dispatch
template <typename Indexable> inline
void print_indexable(std::ostream & os, Indexable const& i)
{
dispatch::print_indexable<
Indexable,
typename tag<Indexable>::type
>::apply(os, i);
}
} // namespace utilities
namespace rtree { namespace utilities {
namespace visitors {
template <typename Value, typename Options, typename Translator, typename Box, typename Allocators>
struct print : public rtree::visitor<Value, typename Options::parameters_type, Box, Allocators, typename Options::node_tag, true>::type
{
typedef typename rtree::internal_node<Value, typename Options::parameters_type, Box, Allocators, typename Options::node_tag>::type internal_node;
typedef typename rtree::leaf<Value, typename Options::parameters_type, Box, Allocators, typename Options::node_tag>::type leaf;
inline print(std::ostream & o, Translator const& t)
: os(o), tr(t), level(0)
{}
inline void operator()(internal_node const& n)
{
typedef typename rtree::elements_type<internal_node>::type elements_type;
elements_type const& elements = rtree::elements(n);
spaces(level) << "INTERNAL NODE - L:" << level << " Ch:" << elements.size() << " @:" << &n << '\n';
for (typename elements_type::const_iterator it = elements.begin();
it != elements.end(); ++it)
{
spaces(level);
detail::utilities::print_indexable(os, it->first);
os << " ->" << it->second << '\n';
}
size_t level_backup = level;
++level;
for (typename elements_type::const_iterator it = elements.begin();
it != elements.end(); ++it)
{
rtree::apply_visitor(*this, *it->second);
}
level = level_backup;
}
inline void operator()(leaf const& n)
{
typedef typename rtree::elements_type<leaf>::type elements_type;
elements_type const& elements = rtree::elements(n);
spaces(level) << "LEAF - L:" << level << " V:" << elements.size() << " @:" << &n << '\n';
for (typename elements_type::const_iterator it = elements.begin();
it != elements.end(); ++it)
{
spaces(level);
detail::utilities::print_indexable(os, tr(*it));
os << '\n';
}
}
inline std::ostream & spaces(size_t level)
{
for ( size_t i = 0 ; i < 2 * level ; ++i )
os << ' ';
return os;
}
std::ostream & os;
Translator const& tr;
size_t level;
};
} // namespace visitors
template <typename Rtree> inline
void print(std::ostream & os, Rtree const& tree)
{
typedef utilities::view<Rtree> RTV;
RTV rtv(tree);
visitors::print<
typename RTV::value_type,
typename RTV::options_type,
typename RTV::translator_type,
typename RTV::box_type,
typename RTV::allocators_type
> print_v(os, rtv.translator());
rtv.apply_visitor(print_v);
}
}} // namespace rtree::utilities
}}}} // namespace boost::geometry::index::detail
#endif // BOOST_GEOMETRY_INDEX_DETAIL_RTREE_UTILITIES_PRINT_HPP
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