/usr/include/mdds/rectangle_set_def.inl is in libmdds-dev 0.11.1-1.
This file is owned by root:root, with mode 0o644.
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*
* Copyright (c) 2011-2012 Kohei Yoshida
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use,
* copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following
* conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
* OTHER DEALINGS IN THE SOFTWARE.
*
************************************************************************/
#include <sstream>
namespace mdds {
template<typename _Key, typename _Data>
rectangle_set<_Key,_Data>::rectangle_set()
{
}
template<typename _Key, typename _Data>
rectangle_set<_Key,_Data>::rectangle_set(const rectangle_set& r) :
m_inner_map(r.m_inner_map),
m_dataset(r.m_dataset)
{
build_outer_segment_tree();
}
template<typename _Key, typename _Data>
rectangle_set<_Key,_Data>::~rectangle_set()
{
}
template<typename _Key, typename _Data>
rectangle_set<_Key,_Data>& rectangle_set<_Key,_Data>::operator= (const rectangle_set& r)
{
clear(); // Don't forget to clear the internal state beforehands.
m_inner_map = r.m_inner_map;
m_dataset = r.m_dataset;
build_outer_segment_tree();
return *this;
}
template<typename _Key, typename _Data>
bool rectangle_set<_Key,_Data>::operator== (const rectangle_set& r) const
{
if (m_dataset.size() != r.m_dataset.size())
return false;
typename dataset_type::const_iterator itr = m_dataset.begin(), itr_end = m_dataset.end();
for (; itr != itr_end; ++itr)
{
typename dataset_type::const_iterator itr_rhs = r.m_dataset.find(itr->first);
if (itr_rhs == r.m_dataset.end())
return false;
if (itr->second != itr_rhs->second)
return false;
}
return true;
}
template<typename _Key, typename _Data>
bool rectangle_set<_Key,_Data>::insert(key_type x1, key_type y1, key_type x2, key_type y2, data_type* data)
{
if (x1 >= x2 || y1 >= y2)
{
std::ostringstream os;
os << "specified range coordinates are invalid (x1=" << x1 << ",y1=" << y1 << ",x2=" << x2 << ",y2=" << y2 << ')';
throw invalid_arg_error(os.str());
}
// Make sure this is not a duplicate.
if (m_dataset.find(data) != m_dataset.end())
return false;
// Check if interval x1 - x2 is already stored.
interval_type outer_interval = interval_type(x1, x2);
typename inner_segment_map_type::iterator itr = m_inner_map.find(outer_interval);
if (itr == m_inner_map.end())
{
// this interval has not yet been stored. Create a new inner segment
// tree instance for this interval.
::std::pair<typename inner_segment_map_type::iterator, bool> r =
m_inner_map.insert(outer_interval, new inner_type);
if (!r.second)
throw general_error("inner segment tree insertion failed.");
itr = r.first;
// Register the pointer to this inner segment tree instance with the
// outer segment tree.
if (!m_outer_segments.insert(x1, x2, itr->second))
// This should never fail if my logic is correct.
throw general_error("failed to insert an inner segment tree pointer into the outer segment tree.");
}
inner_type* inner_tree = itr->second;
inner_tree->insert(y1, y2, data);
m_dataset.insert(typename dataset_type::value_type(data, rectangle(x1, y1, x2, y2)));
return true;
}
template<typename _Key, typename _Data>
bool rectangle_set<_Key,_Data>::search(key_type x, key_type y, search_result_type& result)
{
typename outer_type::search_result_type inner_trees;
if (!m_outer_segments.is_tree_valid())
m_outer_segments.build_tree();
if (!m_outer_segments.search(x, inner_trees))
return false;
typename outer_type::search_result_type::iterator itr_tree = inner_trees.begin(), itr_tree_end = inner_trees.end();
for (; itr_tree != itr_tree_end; ++itr_tree)
{
inner_type* inner_tree = *itr_tree;
if (!inner_tree->is_tree_valid())
inner_tree->build_tree();
// Search all relevant inner trees and aggregate results.
if (!inner_tree->search(y, result))
return false;
}
return true;
}
template<typename _Key, typename _Data>
typename rectangle_set<_Key,_Data>::search_result
rectangle_set<_Key,_Data>::search(key_type x, key_type y)
{
search_result result;
typename outer_type::search_result_type inner_trees;
if (!m_outer_segments.is_tree_valid())
m_outer_segments.build_tree();
if (!m_outer_segments.search(x, inner_trees))
return result;
typename outer_type::search_result_type::iterator itr_tree = inner_trees.begin(), itr_tree_end = inner_trees.end();
for (; itr_tree != itr_tree_end; ++itr_tree)
{
inner_type* inner_tree = *itr_tree;
if (!inner_tree->is_tree_valid())
inner_tree->build_tree();
// Search all relevant inner trees and aggregate results.
inner_tree->search(y, result);
}
return result;
}
template<typename _Key, typename _Data>
void rectangle_set<_Key,_Data>::remove(data_type* data)
{
typename dataset_type::iterator itr_data = m_dataset.find(data);
if (itr_data == m_dataset.end())
// The data is not stored in this data structure.
return;
const rectangle& rect = itr_data->second;
// Find the corresponding inner segment tree for this outer interval.
interval_type outer(rect.x1, rect.x2);
typename inner_segment_map_type::iterator itr_seg = m_inner_map.find(outer);
if (itr_seg == m_inner_map.end())
throw general_error("inconsistent internal state: failed to find an internal segment tree for an existing interval.");
// Remove data from the inner segment tree.
inner_type* inner_tree = itr_seg->second;
inner_tree->remove(data);
if (inner_tree->empty())
{
// This inner tree is now empty. Erase it.
m_outer_segments.remove(inner_tree);
m_inner_map.erase(itr_seg);
}
// Remove it from the data set as well.
m_dataset.erase(data);
}
template<typename _Key, typename _Data>
void rectangle_set<_Key,_Data>::clear()
{
m_outer_segments.clear();
m_inner_map.clear();
m_dataset.clear();
}
template<typename _Key, typename _Data>
size_t rectangle_set<_Key,_Data>::size() const
{
return m_dataset.size();
}
template<typename _Key, typename _Data>
bool rectangle_set<_Key,_Data>::empty() const
{
return m_dataset.empty();
}
template<typename _Key, typename _Data>
void rectangle_set<_Key,_Data>::build_outer_segment_tree()
{
// Re-construct the outer segment tree from the authoritative inner tree
// map.
typename inner_segment_map_type::iterator itr = m_inner_map.begin(), itr_end = m_inner_map.end();
for (; itr != itr_end; ++itr)
{
const interval_type& interval = itr->first;
inner_type* tree = itr->second;
m_outer_segments.insert(interval.first, interval.second, tree);
}
}
#ifdef MDDS_UNIT_TEST
template<typename _Key, typename _Data>
void rectangle_set<_Key,_Data>::dump_rectangles() const
{
using namespace std;
cout << "dump rectangles ------------------------------------------------" << endl;
if (m_dataset.empty())
{
cout << "No rectangles in the data set." << endl;
return;
}
typename dataset_type::const_iterator itr = m_dataset.begin(), itr_end = m_dataset.end();
for (; itr != itr_end; ++itr)
{
const rectangle& rect = itr->second;
cout << itr->first->name << ": (x1,y1,x2,y2) = "
<< "(" << rect.x1 << "," << rect.y1 << "," << rect.x2 << "," << rect.y2 << ")"
<< endl;
}
}
template<typename _Key, typename _Data>
bool rectangle_set<_Key,_Data>::verify_rectangles(const dataset_type& expected) const
{
if (m_dataset.size() != expected.size())
// Data sizes differ.
return false;
typename dataset_type::const_iterator itr_data = m_dataset.begin(), itr_data_end = m_dataset.end();
for (; itr_data != itr_data_end; ++itr_data)
{
const data_type* data = itr_data->first;
typename dataset_type::const_iterator itr_test = expected.find(data);
if (itr_test == expected.end())
// Pointer in one container but not in the other.
return false;
if (itr_data->second != itr_test->second)
// Rectangle positions and/or sizes differ.
return false;
}
return true;
}
#endif
}
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