/usr/include/mdds/quad_node.hpp is in libmdds-dev 0.5.4-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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*
* Copyright (c) 2010 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.
*
************************************************************************/
#ifndef __MDDS_QUAD_NODE_HPP__
#define __MDDS_QUAD_NODE_HPP__
#include "mdds/global.hpp"
#include <boost/intrusive_ptr.hpp>
namespace mdds {
#ifdef DEBUG_NODE_BASE
size_t node_instance_count = 0;
inline size_t get_node_instance_count()
{
return node_instance_count;
}
#endif
/**
* NW | NE
* -----|-----
* SW | SE
*/
enum node_quadrant_t
{
quad_northeast,
quad_northwest,
quad_southeast,
quad_southwest,
quad_unspecified
};
/**
* NW | N | NE
* -----|-----|-----
* W | C | E
* -----|-----|-----
* SW | S | SE
*/
enum search_region_space_t
{
region_northwest,
region_north,
region_northeast,
region_east,
region_southeast,
region_south,
region_southwest,
region_west,
region_center
};
/**
* N
* |
* |
* W -----+----- E
* |
* |
* S
*/
enum direction_t
{
dir_north,
dir_west,
dir_south,
dir_east
};
inline node_quadrant_t opposite(node_quadrant_t quad)
{
switch (quad)
{
case quad_northeast:
return quad_southwest;
case quad_northwest:
return quad_southeast;
case quad_southeast:
return quad_northwest;
case quad_southwest:
return quad_northeast;
case quad_unspecified:
default:
;
}
return quad_unspecified;
}
template<typename _NodePtr, typename _NodeType, typename _Key>
struct quad_node_base
{
typedef _Key key_type;
typedef _NodePtr node_ptr;
typedef _NodeType node_type;
size_t refcount;
node_ptr parent;
node_ptr northeast;
node_ptr northwest;
node_ptr southeast;
node_ptr southwest;
key_type x;
key_type y;
quad_node_base(key_type _x, key_type _y) :
refcount(0),
parent(NULL),
northeast(NULL),
northwest(NULL),
southeast(NULL),
southwest(NULL),
x(_x),
y(_y)
{
#ifdef DEBUG_NODE_BASE
++node_instance_count;
#endif
}
/**
* When copying node, only the stored values should be copied.
* Connections to the parent and the neighboring nodes must not be copied.
*/
quad_node_base(const quad_node_base& r) :
refcount(0),
parent(NULL),
northeast(NULL),
northwest(NULL),
southeast(NULL),
southwest(NULL),
x(r.x),
y(r.y)
{
#ifdef DEBUG_NODE_BASE
++node_instance_count;
#endif
}
bool leaf() const
{
return !northeast && !northwest && !southeast && !southwest;
}
bool operator==(const quad_node_base& r) const
{
return x == r.x && y == r.y;
}
/**
* Like the copy constructor, only the stored values should be copied.
*/
quad_node_base& operator=(const quad_node_base& r)
{
if (this == &r)
// assignment to self.
return *this;
x = r.x;
y = r.y;
return *this;
}
~quad_node_base()
{
#ifdef DEBUG_NODE_BASE
--node_instance_count;
#endif
static_cast<node_type*>(this)->dispose();
}
/**
* Return the quadrant of specified point in reference to this node.
*
* @return quadrant where the other node is located in reference to this
* node.
*/
node_quadrant_t get_quadrant(key_type other_x, key_type other_y) const
{
if (other_x < x)
// west
return other_y < y ? quad_northwest : quad_southwest;
// east
return other_y < y ? quad_northeast : quad_southeast;
}
bool has_quadrant_node(node_quadrant_t quad) const
{
switch (quad)
{
case quad_northeast:
return northeast.get() != NULL;
case quad_northwest:
return northwest.get() != NULL;
case quad_southeast:
return southeast.get() != NULL;
case quad_southwest:
return southwest.get() != NULL;
default:
throw general_error("unknown quadrant type");
}
return false;
}
node_ptr get_quadrant_node(node_quadrant_t quad) const
{
switch (quad)
{
case quad_northeast:
return northeast;
case quad_northwest:
return northwest;
case quad_southeast:
return southeast;
case quad_southwest:
return southwest;
default:
throw general_error("unknown quadrant type");
}
return node_ptr();
}
};
template<typename _NodePtr, typename _NodeType, typename _Key>
inline void intrusive_ptr_add_ref(::mdds::quad_node_base<_NodePtr,_NodeType,_Key>* p)
{
++p->refcount;
}
template<typename _NodePtr, typename _NodeType, typename _Key>
inline void intrusive_ptr_release(::mdds::quad_node_base<_NodePtr,_NodeType,_Key>* p)
{
--p->refcount;
if (!p->refcount)
delete p;
}
template<typename _NodePtr>
void disconnect_node_from_parent(_NodePtr p)
{
if (!p || !p->parent)
// Nothing to do.
return;
_NodePtr& parent = p->parent;
if (parent->northeast && parent->northeast == p)
{
parent->northeast.reset();
}
else if (parent->northwest && parent->northwest == p)
{
parent->northwest.reset();
}
else if (parent->southwest && parent->southwest == p)
{
parent->southwest.reset();
}
else if (parent->southeast && parent->southeast == p)
{
parent->southeast.reset();
}
else
throw general_error("parent node doesn't lead to the deleted node.");
}
template<typename _NodePtr>
void disconnect_all_nodes(_NodePtr p)
{
if (!p)
return;
if (p->northeast)
{
disconnect_all_nodes(p->northeast);
p->northeast.reset();
}
if (p->northwest)
{
disconnect_all_nodes(p->northwest);
p->northwest.reset();
}
if (p->southeast)
{
disconnect_all_nodes(p->southeast);
p->southeast.reset();
}
if (p->southwest)
{
disconnect_all_nodes(p->southwest);
p->southwest.reset();
}
p->parent.reset();
}
template<typename _NodeType, typename _Key>
search_region_space_t get_search_region_space(
_NodeType* p, _Key x1, _Key y1, _Key x2, _Key y2)
{
typedef _Key key_type;
key_type x = p->x, y = p->y;
if (x < x1)
{
// western region
if (y < y1)
{
return region_northwest;
}
else if (y1 <= y && y <= y2)
{
return region_west;
}
assert(y2 < y);
return region_southwest;
}
else if (x1 <= x && x <= x2)
{
// central region
if (y < y1)
{
return region_north;
}
else if (y1 <= y && y <= y2)
{
return region_center;
}
assert(y2 < y);
return region_south;
}
// eastern region
assert(x2 < x);
if (y < y1)
{
return region_northeast;
}
else if (y1 <= y && y <= y2)
{
return region_east;
}
assert(y2 < y);
return region_southeast;
}
}
#endif
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