source: NonGTP/Boost/boost/regex/pending/object_cache.hpp @ 857

Revision 857, 5.1 KB checked in by igarcia, 19 years ago (diff)
RevLine 
[857]1/*
2 *
3 * Copyright (c) 2004
4 * John Maddock
5 *
6 * Use, modification and distribution are subject to the
7 * Boost Software License, Version 1.0. (See accompanying file
8 * LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
9 *
10 */
11
12 /*
13  *   LOCATION:    see http://www.boost.org for most recent version.
14  *   FILE         object_cache.hpp
15  *   VERSION      see <boost/version.hpp>
16  *   DESCRIPTION: Implements a generic object cache.
17  */
18
19#ifndef BOOST_REGEX_OBJECT_CACHE_HPP
20#define BOOST_REGEX_OBJECT_CACHE_HPP
21
22#include <map>
23#include <list>
24#include <stdexcept>
25#include <string>
26#include <boost/config.hpp>
27#include <boost/shared_ptr.hpp>
28#ifdef BOOST_HAS_THREADS
29#include <boost/regex/pending/static_mutex.hpp>
30#endif
31
32namespace boost{
33
34template <class Key, class Object>
35class object_cache
36{
37public:
38   typedef std::pair< ::boost::shared_ptr<Object>, Key const*> value_type;
39   typedef std::list<value_type> list_type;
40   typedef typename list_type::iterator list_iterator;
41   typedef std::map<Key, list_iterator> map_type;
42   typedef typename map_type::iterator map_iterator;
43   typedef typename list_type::size_type size_type;
44   static boost::shared_ptr<Object> get(const Key& k, size_type max_cache_size);
45
46private:
47   static boost::shared_ptr<Object> do_get(const Key& k, size_type max_cache_size);
48
49   struct data
50   {
51      list_type   cont;
52      map_type    index;
53   };
54
55   // Needed by compilers not implementing the resolution to DR45. For reference,
56   // see http://www.open-std.org/JTC1/SC22/WG21/docs/cwg_defects.html#45.
57   friend struct data;
58};
59
60template <class Key, class Object>
61boost::shared_ptr<Object> object_cache<Key, Object>::get(const Key& k, size_type max_cache_size)
62{
63#ifdef BOOST_HAS_THREADS
64   static boost::static_mutex mut = BOOST_STATIC_MUTEX_INIT;
65
66   boost::static_mutex::scoped_lock l(mut);
67   if(l)
68   {
69      return do_get(k, max_cache_size);
70   }
71   //
72   // what do we do if the lock fails?
73   // for now just throw, but we should never really get here...
74   //
75   ::boost::throw_exception(std::runtime_error("Error in thread safety code: could not acquire a lock"));
76   return boost::shared_ptr<Object>();
77#else
78   return do_get(k, max_cache_size);
79#endif
80}
81
82template <class Key, class Object>
83boost::shared_ptr<Object> object_cache<Key, Object>::do_get(const Key& k, size_type max_cache_size)
84{
85   typedef typename object_cache<Key, Object>::data object_data;
86   typedef typename list_type::size_type list_size_type;
87   static object_data s_data;
88
89   //
90   // see if the object is already in the cache:
91   //
92   map_iterator mpos = s_data.index.find(k);
93   if(mpos != s_data.index.end())
94   {
95      //
96      // Eureka!
97      // We have a cached item, bump it up the list and return it:
98      //
99      if(--(s_data.cont.end()) != mpos->second)
100      {
101         // splice out the item we want to move:
102         list_type temp;
103         temp.splice(temp.end(), s_data.cont, mpos->second);
104         // and now place it at the end of the list:
105         s_data.cont.splice(s_data.cont.end(), temp, temp.begin());
106         BOOST_ASSERT(*(s_data.cont.back().second) == k);
107         // update index with new position:
108         mpos->second = --(s_data.cont.end());
109         BOOST_ASSERT(&(mpos->first) == mpos->second->second);
110         BOOST_ASSERT(&(mpos->first) == s_data.cont.back().second);
111      }
112      return s_data.cont.back().first;
113   }
114   //
115   // if we get here then the item is not in the cache,
116   // so create it:
117   //
118   boost::shared_ptr<Object> result(new Object(k));
119   //
120   // Add it to the list, and index it:
121   //
122   s_data.cont.push_back(value_type(result, 0));
123   s_data.index.insert(std::make_pair(k, --(s_data.cont.end())));
124   s_data.cont.back().second = &(s_data.index.find(k)->first);
125   list_size_type s = s_data.cont.size();
126   BOOST_ASSERT(s_data.index[k]->first.get() == result.get());
127   BOOST_ASSERT(&(s_data.index.find(k)->first) == s_data.cont.back().second);
128   BOOST_ASSERT(s_data.index.find(k)->first == k);
129   if(s > max_cache_size)
130   {
131      //
132      // We have too many items in the list, so we need to start
133      // popping them off the back of the list, but only if they're
134      // being held uniquely by us:
135      //
136      list_iterator pos = s_data.cont.begin();
137      list_iterator last = s_data.cont.end();
138      while((pos != last) && (s > max_cache_size))
139      {
140         if(pos->first.unique())
141         {
142            list_iterator condemmed(pos);
143            ++pos;
144            // now remove the items from our containers,
145            // then order has to be as follows:
146            BOOST_ASSERT(s_data.index.find(*(condemmed->second)) != s_data.index.end());
147            s_data.index.erase(*(condemmed->second));
148            s_data.cont.erase(condemmed);
149            --s;
150         }
151         else
152            --pos;
153      }
154      BOOST_ASSERT(s_data.index[k]->first.get() == result.get());
155      BOOST_ASSERT(&(s_data.index.find(k)->first) == s_data.cont.back().second);
156      BOOST_ASSERT(s_data.index.find(k)->first == k);
157   }
158   return result;
159}
160
161}
162
163#endif
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