source: releases/0.10.0/include/void_stack.h @ 289

Last change on this file since 289 was 111, checked in by tim, 17 years ago

Switched license to GPLv3

Added early version of new tool, reglookup-recover

Many library changes made to support this new tool

  • Property svn:keywords set to Id
File size: 4.8 KB
Line 
1/*
2 * Copyright (C) 2005,2007 Timothy D. Morgan
3 *
4 * This program is free software; you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License as published by
6 * the Free Software Foundation; version 3 of the License.
7 *
8 * This program is distributed in the hope that it will be useful,
9 * but WITHOUT ANY WARRANTY; without even the implied warranty of
10 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
11 * GNU General Public License for more details.
12 *
13 * You should have received a copy of the GNU General Public License
14 * along with this program; if not, write to the Free Software
15 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. 
16 *
17 * $Id: void_stack.h 111 2008-05-01 04:06:22Z tim $
18 */
19
20#include <stdlib.h>
21#include <stdbool.h>
22#include <string.h>
23
24#ifndef _VOID_STACK_H
25#define _VOID_STACK_H
26
27typedef struct _void_stack
28{
29  void** elements;
30  unsigned short max_size;
31  unsigned short top;
32} void_stack;
33
34typedef struct _void_stack_iterator
35{
36  const void_stack* stack;
37  unsigned short cur;
38} void_stack_iterator;
39
40
41/* void_stack_new():
42 *  Allocates a new void_stack.
43 *
44 * Arguments:
45 *  max_size -- the maxiumum number of elements
46 *              which may be pushed onto the stack.
47 *
48 * Returns:
49 *  a pointer to the newly allocated void_stack, or NULL if an error occurred.
50 */
51void_stack* void_stack_new(unsigned short max_size);
52
53
54/* void_stack_copy():
55 *  Makes a shallow copy of void_stack.
56 *
57 * Arguments:
58 *  v -- the stack to make a copy of.
59 *
60 * Returns:
61 *  a pointer to the duplicate void_stack, or NULL If an error occurred.
62 */
63void_stack* void_stack_copy(const void_stack* v);
64
65
66/* void_stack_copy_reverse():
67 *  Makes a shallow copy of void_stack in reverse order.
68 *
69 * Arguments:
70 *  v -- the stack to make a copy of.
71 *
72 * Returns:
73 *  a pointer to the duplicate void_stack (which will be in reverse order),
74 *  or NULL If an error occurred.
75 */
76void_stack* void_stack_copy_reverse(const void_stack* v);
77
78
79/* void_stack_free():
80 *  Frees the memory associated with a void_stack, but not the elements held
81 *  on the stack.
82 *
83 * Arguments:
84 *  stack -- the stack to be free()d.
85 */
86void void_stack_free(void_stack* stack);
87
88
89/* void_stack_free_deep():
90 *  Frees the memory associated with a void_stack and the elements referenced
91 *  by the stack.  Do not use this function if the elements of the stack
92 *  are also free()d elsewhere, or contain pointers to other memory which
93 *  cannot be otherwise free()d.
94 *
95 * Arguments:
96 *  stack -- the stack to be free()d.
97 */
98void void_stack_free_deep(void_stack* stack);
99
100
101/* void_stack_size():
102 *  Query the current number of elements on a void_stack()
103 *
104 * Arguments:
105 *  stack -- the void_stack to query
106 *
107 * Returns:
108 *  the number of elements currently on the stack.
109 */
110unsigned short void_stack_size(const void_stack* stack);
111
112
113/* void_stack_pop():
114 *  Removes the top element on a void_stack and returns a reference to it.
115 *
116 * Arguments:
117 *  stack -- the void_stack to pop
118 *
119 * Returns:
120 *  a pointer to the popped stack element, or NULL if no elements exist on
121 *  the stack.
122 */
123void* void_stack_pop(void_stack* stack);
124
125
126/* void_stack_push():
127 *  Puts a new element on the top of a void_stack.
128 *
129 * Arguments:
130 *  stack -- the void_stack being modified.
131 *
132 *  e     -- the element to be added
133 *
134 * Returns:
135 *  true if the element was successfully added, false otherwise.
136 */
137bool void_stack_push(void_stack* stack, void* e);
138
139
140/* void_stack_cur():
141 *  Returns a pointer to the current element on the top of the stack.
142 *
143 * Arguments:
144 *  stack -- the void_stack being queried.
145 *
146 * Returns:
147 *  a pointer to the current element on the top of the stack, or NULL if no
148 *  elements exist in the stack.
149 */
150const void* void_stack_cur(const void_stack* stack);
151
152
153/* void_stack_iterator_new():
154 *  Creates a new iterator for the specified void_stack.
155 *
156 * Arguments:
157 *  stack -- the void_stack to be referenced by the new iterator
158 *
159 * Returns:
160 *  a new void_stack_iterator, or NULL if an error occurred.
161 */
162void_stack_iterator* void_stack_iterator_new(const void_stack* stack);
163
164
165/* void_stack_iterator_free():
166 *  Frees a void_stack_iterator.  Does not affect the void_stack referenced
167 *  by the iterator.
168 *
169 * Arguments:
170 *  iter -- the void_stack_iterator to be free()d.
171 */
172void void_stack_iterator_free(void_stack_iterator* iter);
173
174
175/* void_stack_iterator_next():
176 *  Returns a pointer to the the next element in the stack.  Iterates over
177 *  elements starting in order from the oldest element (bottom of the stack).
178 *
179 * Arguments:
180 *  iter -- the void_stack_iterator used to lookup the next element.
181 *
182 * Returns:
183 *  a pointer to the next element.
184 */
185const void* void_stack_iterator_next(void_stack_iterator* iter);
186
187
188/* XXX: for completeness, might want to add a void_stack_iterator_first()
189 *      function, to return iterator to first element
190 */
191#endif
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