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eqemu-server/luabind/src/inheritance.cpp
KimLS d1f7935ee2 ...trying out boost with luabind
2013-05-11 01:29:58 -07:00

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// Copyright Daniel Wallin 2009. 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)
#define LUABIND_BUILDING
#include <limits>
#include <map>
#include <vector>
#include <queue>
#include <boost/dynamic_bitset.hpp>
#include <boost/foreach.hpp>
#include <boost/tuple/tuple.hpp>
#include <boost/tuple/tuple_comparison.hpp>
#include <luabind/typeid.hpp>
#include <luabind/detail/inheritance.hpp>
namespace luabind { namespace detail {
class_id const class_id_map::local_id_base =
std::numeric_limits<class_id>::max() / 2;
namespace
{
struct edge
{
edge(class_id target, cast_function cast)
: target(target)
, cast(cast)
{}
class_id target;
cast_function cast;
};
bool operator<(edge const& x, edge const& y)
{
return x.target < y.target;
}
struct vertex
{
vertex(class_id id)
: id(id)
{}
class_id id;
std::vector<edge> edges;
};
typedef std::pair<std::ptrdiff_t, int> cache_entry;
class cache
{
public:
static std::ptrdiff_t const unknown;
static std::ptrdiff_t const invalid;
cache_entry get(
class_id src, class_id target, class_id dynamic_id
, std::ptrdiff_t object_offset) const;
void put(
class_id src, class_id target, class_id dynamic_id
, std::ptrdiff_t object_offset
, std::size_t distance, std::ptrdiff_t offset);
void invalidate();
private:
typedef boost::tuple<
class_id, class_id, class_id, std::ptrdiff_t> key_type;
typedef std::map<key_type, cache_entry> map_type;
map_type m_cache;
};
std::ptrdiff_t const cache::unknown =
std::numeric_limits<std::ptrdiff_t>::max();
std::ptrdiff_t const cache::invalid = cache::unknown - 1;
cache_entry cache::get(
class_id src, class_id target, class_id dynamic_id
, std::ptrdiff_t object_offset) const
{
map_type::const_iterator i = m_cache.find(
key_type(src, target, dynamic_id, object_offset));
return i != m_cache.end() ? i->second : cache_entry(unknown, -1);
}
void cache::put(
class_id src, class_id target, class_id dynamic_id
, std::ptrdiff_t object_offset, std::size_t distance, std::ptrdiff_t offset)
{
m_cache.insert(std::make_pair(
key_type(src, target, dynamic_id, object_offset)
, cache_entry(offset, distance)
));
}
void cache::invalidate()
{
m_cache.clear();
}
} // namespace unnamed
class cast_graph::impl
{
public:
std::pair<void*, int> cast(
void* p, class_id src, class_id target
, class_id dynamic_id, void const* dynamic_ptr) const;
void insert(class_id src, class_id target, cast_function cast);
private:
std::vector<vertex> m_vertices;
mutable cache m_cache;
};
namespace
{
struct queue_entry
{
queue_entry(void* p, class_id vertex_id, int distance)
: p(p)
, vertex_id(vertex_id)
, distance(distance)
{}
void* p;
class_id vertex_id;
int distance;
};
} // namespace unnamed
std::pair<void*, int> cast_graph::impl::cast(
void* const p, class_id src, class_id target
, class_id dynamic_id, void const* dynamic_ptr) const
{
if (src == target)
return std::make_pair(p, 0);
if (src >= m_vertices.size() || target >= m_vertices.size())
return std::pair<void*, int>((void*)0, -1);
std::ptrdiff_t const object_offset =
(char const*)dynamic_ptr - (char const*)p;
cache_entry cached = m_cache.get(src, target, dynamic_id, object_offset);
if (cached.first != cache::unknown)
{
if (cached.first == cache::invalid)
return std::pair<void*, int>((void*)0, -1);
return std::make_pair((char*)p + cached.first, cached.second);
}
std::queue<queue_entry> q;
q.push(queue_entry(p, src, 0));
boost::dynamic_bitset<> visited(m_vertices.size());
while (!q.empty())
{
queue_entry const qe = q.front();
q.pop();
visited[qe.vertex_id] = true;
vertex const& v = m_vertices[qe.vertex_id];
if (v.id == target)
{
m_cache.put(
src, target, dynamic_id, object_offset
, qe.distance, (char*)qe.p - (char*)p
);
return std::make_pair(qe.p, qe.distance);
}
BOOST_FOREACH(edge const& e, v.edges)
{
if (visited[e.target])
continue;
if (void* casted = e.cast(qe.p))
q.push(queue_entry(casted, e.target, qe.distance + 1));
}
}
m_cache.put(src, target, dynamic_id, object_offset, cache::invalid, -1);
return std::pair<void*, int>((void*)0, -1);
}
void cast_graph::impl::insert(
class_id src, class_id target, cast_function cast)
{
class_id const max_id = std::max(src, target);
if (max_id >= m_vertices.size())
{
m_vertices.reserve(max_id + 1);
for (class_id i = m_vertices.size(); i < max_id + 1; ++i)
m_vertices.push_back(vertex(i));
}
std::vector<edge>& edges = m_vertices[src].edges;
std::vector<edge>::iterator i = std::lower_bound(
edges.begin(), edges.end(), edge(target, 0)
);
if (i == edges.end() || i->target != target)
{
edges.insert(i, edge(target, cast));
m_cache.invalidate();
}
}
std::pair<void*, int> cast_graph::cast(
void* p, class_id src, class_id target
, class_id dynamic_id, void const* dynamic_ptr) const
{
return m_impl->cast(p, src, target, dynamic_id, dynamic_ptr);
}
void cast_graph::insert(class_id src, class_id target, cast_function cast)
{
m_impl->insert(src, target, cast);
}
cast_graph::cast_graph()
: m_impl(new impl)
{}
cast_graph::~cast_graph()
{}
LUABIND_API class_id allocate_class_id(type_id const& cls)
{
typedef std::map<type_id, class_id> map_type;
static map_type registered;
static class_id id = 0;
std::pair<map_type::iterator, bool> inserted = registered.insert(
std::make_pair(cls, id));
if (inserted.second)
++id;
return inserted.first->second;
}
}} // namespace luabind::detail
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