source: NonGTP/Boost/boost/regex/v4/regex_stack.hpp @ 857

Revision 857, 5.3 KB checked in by igarcia, 19 years ago (diff)
Line 
1/*
2 *
3 * Copyright (c) 1998-2002
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         regex_stack.hpp
15  *   VERSION      see <boost/version.hpp>
16  *   DESCRIPTION: Implements customised internal regex stacks.
17  *                Note this is an internal header file included
18  *                by regex.hpp, do not include on its own.
19  */
20
21#ifndef BOOST_REGEX_STACK_HPP
22#define BOOST_REGEX_STACK_HPP
23
24#ifndef BOOST_REGEX_CONFIG_HPP
25#include <boost/regex/config.hpp>
26#endif
27#ifndef BOOST_REGEX_RAW_BUFFER_HPP
28#include <boost/regex/v4/regex_raw_buffer.hpp>
29#endif
30
31namespace boost{
32   namespace re_detail{
33
34#ifdef BOOST_HAS_ABI_HEADERS
35#  include BOOST_ABI_PREFIX
36#endif
37
38//
39// class jstack
40// simplified stack optimised for push/peek/pop
41// operations, we could use std::stack<std::vector<T>> instead...
42//
43template <class T, class Allocator = BOOST_DEFAULT_ALLOCATOR(T) >
44class jstack
45{
46public:
47   typedef typename boost::detail::rebind_allocator<unsigned char, Allocator>::type allocator_type;
48private:
49   typedef typename boost::detail::rebind_allocator<T, Allocator>::type             T_alloc_type;
50   typedef typename T_alloc_type::size_type                              size_type;
51   typedef T value_type;
52   struct node
53   {
54      node* next;
55      T* start;  // first item
56      T* end;    // last item
57      T* last;   // end of storage
58   };
59
60   //
61   // empty base member optimisation:
62   struct data : public allocator_type
63   {
64      padding buf[(sizeof(T) * 16 + sizeof(padding) - 1) / sizeof(padding)];
65      data(const Allocator& a) : allocator_type(a){}
66   };
67
68   data alloc_inst;
69   mutable node* m_stack;
70   mutable node* unused;
71   node base;
72   size_type block_size;
73
74   void BOOST_REGEX_CALL pop_aux()const;
75   void BOOST_REGEX_CALL push_aux();
76
77public:
78   jstack(size_type n = 64, const Allocator& a = Allocator());
79
80   ~jstack();
81
82   node* BOOST_REGEX_CALL get_node()
83   {
84      node* new_stack = reinterpret_cast<node*>(alloc_inst.allocate(sizeof(node) + sizeof(T) * block_size));
85      BOOST_REGEX_NOEH_ASSERT(new_stack)
86      new_stack->last = reinterpret_cast<T*>(new_stack+1);
87      new_stack->start = new_stack->end = new_stack->last + block_size;
88      new_stack->next = 0;
89      return new_stack;
90   }
91
92   bool BOOST_REGEX_CALL empty()
93   {
94      return (m_stack->start == m_stack->end) && (m_stack->next == 0);
95   }
96
97   bool BOOST_REGEX_CALL good()
98   {
99      return (m_stack->start != m_stack->end) || (m_stack->next != 0);
100   }
101
102   T& BOOST_REGEX_CALL peek()
103   {
104      if(m_stack->start == m_stack->end)
105         pop_aux();
106      return *m_stack->end;
107   }
108
109   const T& BOOST_REGEX_CALL peek()const
110   {
111      if(m_stack->start == m_stack->end)
112         pop_aux();
113      return *m_stack->end;
114   }
115
116   void BOOST_REGEX_CALL pop()
117   {
118      if(m_stack->start == m_stack->end)
119         pop_aux();
120      ::boost::re_detail::pointer_destroy(m_stack->end);
121      ++(m_stack->end);
122   }
123
124   void BOOST_REGEX_CALL pop(T& t)
125   {
126      if(m_stack->start == m_stack->end)
127         pop_aux();
128      t = *m_stack->end;
129      ::boost::re_detail::pointer_destroy(m_stack->end);
130      ++(m_stack->end);
131   }
132
133   void BOOST_REGEX_CALL push(const T& t)
134   {
135      if(m_stack->end == m_stack->last)
136         push_aux();
137      --(m_stack->end);
138      pointer_construct(m_stack->end, t);
139   }
140
141};
142
143template <class T, class Allocator>
144jstack<T, Allocator>::jstack(size_type n, const Allocator& a)
145    : alloc_inst(a)
146{
147  unused = 0;
148  block_size = n;
149  m_stack = &base;
150  base.last = reinterpret_cast<T*>(alloc_inst.buf);
151  base.end = base.start = base.last + 16;
152  base.next = 0;
153}
154
155template <class T, class Allocator>
156void BOOST_REGEX_CALL jstack<T, Allocator>::push_aux()
157{
158   // make sure we have spare space on TOS:
159   register node* new_node;
160   if(unused)
161   {
162      new_node = unused;
163      unused = new_node->next;
164      new_node->next = m_stack;
165      m_stack = new_node;
166   }
167   else
168   {
169      new_node = get_node();
170      new_node->next = m_stack;
171      m_stack = new_node;
172   }
173}
174
175template <class T, class Allocator>
176void BOOST_REGEX_CALL jstack<T, Allocator>::pop_aux()const
177{
178   // make sure that we have a valid item
179   // on TOS:
180   BOOST_ASSERT(m_stack->next);
181   register node* p = m_stack;
182   m_stack = p->next;
183   p->next = unused;
184   unused = p;
185}
186
187template <class T, class Allocator>
188jstack<T, Allocator>::~jstack()
189{
190   node* condemned;
191   while(good())
192      pop();
193   while(unused)
194   {
195      condemned = unused;
196      unused = unused->next;
197      alloc_inst.deallocate(reinterpret_cast<unsigned char*>(condemned), sizeof(node) + sizeof(T) * block_size);
198   }
199   while(m_stack != &base)
200   {
201      condemned = m_stack;
202      m_stack = m_stack->next;
203      alloc_inst.deallocate(reinterpret_cast<unsigned char*>(condemned), sizeof(node) + sizeof(T) * block_size);
204   }
205}
206
207#ifdef BOOST_HAS_ABI_HEADERS
208#  include BOOST_ABI_SUFFIX
209#endif
210
211} // namespace re_detail
212} // namespace boost
213
214#endif
215
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