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// Boost.Geometry Index
//
// R-tree spatial query visitor implementation
//
// Copyright (c) 2011-2014 Adam Wulkiewicz, Lodz, Poland.
//
// This file was modified by Oracle on 2019.
// Modifications copyright (c) 2019 Oracle and/or its affiliates.
// Contributed and/or modified by Adam Wulkiewicz, on behalf of Oracle
//
// 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_VISITORS_SPATIAL_QUERY_HPP
#define BOOST_GEOMETRY_INDEX_DETAIL_RTREE_VISITORS_SPATIAL_QUERY_HPP
namespace boost { namespace geometry { namespace index {
namespace detail { namespace rtree { namespace visitors {
template <typename MembersHolder, typename Predicates, typename OutIter>
struct spatial_query
: public MembersHolder::visitor_const
{
typedef typename MembersHolder::parameters_type parameters_type;
typedef typename MembersHolder::translator_type translator_type;
typedef typename MembersHolder::allocators_type allocators_type;
typedef typename index::detail::strategy_type<parameters_type>::type strategy_type;
typedef typename MembersHolder::node node;
typedef typename MembersHolder::internal_node internal_node;
typedef typename MembersHolder::leaf leaf;
typedef typename allocators_type::size_type size_type;
static const unsigned predicates_len = index::detail::predicates_length<Predicates>::value;
inline spatial_query(parameters_type const& par, translator_type const& t, Predicates const& p, OutIter out_it)
: tr(t), pred(p), out_iter(out_it), found_count(0), strategy(index::detail::get_strategy(par))
{}
inline void operator()(internal_node const& n)
{
typedef typename rtree::elements_type<internal_node>::type elements_type;
elements_type const& elements = rtree::elements(n);
// traverse nodes meeting predicates
for (typename elements_type::const_iterator it = elements.begin();
it != elements.end(); ++it)
{
// if node meets predicates
// 0 - dummy value
if ( index::detail::predicates_check
<
index::detail::bounds_tag, 0, predicates_len
>(pred, 0, it->first, strategy) )
{
rtree::apply_visitor(*this, *it->second);
}
}
}
inline void operator()(leaf const& n)
{
typedef typename rtree::elements_type<leaf>::type elements_type;
elements_type const& elements = rtree::elements(n);
// get all values meeting predicates
for (typename elements_type::const_iterator it = elements.begin();
it != elements.end(); ++it)
{
// if value meets predicates
if ( index::detail::predicates_check
<
index::detail::value_tag, 0, predicates_len
>(pred, *it, tr(*it), strategy) )
{
*out_iter = *it;
++out_iter;
++found_count;
}
}
}
translator_type const& tr;
Predicates pred;
OutIter out_iter;
size_type found_count;
strategy_type strategy;
};
template <typename MembersHolder, typename Predicates>
class spatial_query_incremental
: public MembersHolder::visitor_const
{
typedef typename MembersHolder::value_type value_type;
typedef typename MembersHolder::parameters_type parameters_type;
typedef typename MembersHolder::translator_type translator_type;
typedef typename MembersHolder::allocators_type allocators_type;
typedef typename index::detail::strategy_type<parameters_type>::type strategy_type;
public:
typedef typename MembersHolder::node node;
typedef typename MembersHolder::internal_node internal_node;
typedef typename MembersHolder::leaf leaf;
typedef typename allocators_type::size_type size_type;
typedef typename allocators_type::const_reference const_reference;
typedef typename allocators_type::node_pointer node_pointer;
typedef typename rtree::elements_type<internal_node>::type::const_iterator internal_iterator;
typedef typename rtree::elements_type<leaf>::type leaf_elements;
typedef typename rtree::elements_type<leaf>::type::const_iterator leaf_iterator;
static const unsigned predicates_len = index::detail::predicates_length<Predicates>::value;
inline spatial_query_incremental()
: m_translator(NULL)
// , m_pred()
, m_values(NULL)
, m_current()
// , m_strategy()
{}
inline spatial_query_incremental(parameters_type const& params, translator_type const& t, Predicates const& p)
: m_translator(::boost::addressof(t))
, m_pred(p)
, m_values(NULL)
, m_current()
, m_strategy(index::detail::get_strategy(params))
{}
inline void operator()(internal_node const& n)
{
typedef typename rtree::elements_type<internal_node>::type elements_type;
elements_type const& elements = rtree::elements(n);
m_internal_stack.push_back(std::make_pair(elements.begin(), elements.end()));
}
inline void operator()(leaf const& n)
{
m_values = ::boost::addressof(rtree::elements(n));
m_current = rtree::elements(n).begin();
}
const_reference dereference() const
{
BOOST_GEOMETRY_INDEX_ASSERT(m_values, "not dereferencable");
return *m_current;
}
void initialize(node_pointer root)
{
rtree::apply_visitor(*this, *root);
search_value();
}
void increment()
{
++m_current;
search_value();
}
void search_value()
{
for (;;)
{
// if leaf is choosen, move to the next value in leaf
if ( m_values )
{
if ( m_current != m_values->end() )
{
// return if next value is found
value_type const& v = *m_current;
if (index::detail::predicates_check
<
index::detail::value_tag, 0, predicates_len
>(m_pred, v, (*m_translator)(v), m_strategy))
{
return;
}
++m_current;
}
// no more values, clear current leaf
else
{
m_values = 0;
}
}
// if leaf isn't choosen, move to the next leaf
else
{
// return if there is no more nodes to traverse
if ( m_internal_stack.empty() )
return;
// no more children in current node, remove it from stack
if ( m_internal_stack.back().first == m_internal_stack.back().second )
{
m_internal_stack.pop_back();
continue;
}
internal_iterator it = m_internal_stack.back().first;
++m_internal_stack.back().first;
// next node is found, push it to the stack
if (index::detail::predicates_check
<
index::detail::bounds_tag, 0, predicates_len
>(m_pred, 0, it->first, m_strategy))
{
rtree::apply_visitor(*this, *(it->second));
}
}
}
}
bool is_end() const
{
return 0 == m_values;
}
friend bool operator==(spatial_query_incremental const& l, spatial_query_incremental const& r)
{
return (l.m_values == r.m_values) && (0 == l.m_values || l.m_current == r.m_current );
}
private:
const translator_type * m_translator;
Predicates m_pred;
std::vector< std::pair<internal_iterator, internal_iterator> > m_internal_stack;
const leaf_elements * m_values;
leaf_iterator m_current;
strategy_type m_strategy;
};
}}} // namespace detail::rtree::visitors
}}} // namespace boost::geometry::index
#endif // BOOST_GEOMETRY_INDEX_DETAIL_RTREE_VISITORS_SPATIAL_QUERY_HPP
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