source: trunk/include/void_stack.h @ 173

Last change on this file since 173 was 169, checked in by tim, 15 years ago

filled in additional, minimal documentation

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[169]1/*
2 * Copyright (C) 2005,2007,2009-2010 Timothy D. Morgan
[168]3 *
[31]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
[111]6 * the Free Software Foundation; version 3 of the License.
[31]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 169 2010-03-03 19:24:58Z tim $
18 */
19
[169]20/**
21 *@file
22 *
23 * This is a very simple implementation of a stack which stores chunks of
24 * memory of any type.
25 */
26
27
[150]28#ifndef _VOID_STACK_H
29#define _VOID_STACK_H
30
[31]31#include <stdlib.h>
32#include <stdbool.h>
33#include <string.h>
[150]34#include "talloc.h"
[31]35
[169]36/** XXX: document this. */
[31]37typedef struct _void_stack
38{
39  void** elements;
40  unsigned short max_size;
41  unsigned short top;
42} void_stack;
43
[169]44
45/** XXX: document this. */
[31]46typedef struct _void_stack_iterator
47{
[89]48  const void_stack* stack;
[31]49  unsigned short cur;
50} void_stack_iterator;
51
52
[169]53/** Allocates a new void_stack.
[89]54 *
[169]55 * @param max_size the maxiumum number of elements
56 *                 which may be pushed onto the stack.
[89]57 *
[169]58 * @return a pointer to the newly allocated void_stack,
59 *         or NULL if an error occurred.
[89]60 */
[31]61void_stack* void_stack_new(unsigned short max_size);
[89]62
63
[169]64/** Makes a shallow copy of void_stack.
[89]65 *
[169]66 * @param v the stack to make a copy of.
[89]67 *
[169]68 * @return a pointer to the duplicate void_stack, or NULL if an error occurred.
[89]69 */
[38]70void_stack* void_stack_copy(const void_stack* v);
[89]71
72
[169]73/** Makes a shallow copy of void_stack in reverse order.
[89]74 *
[169]75 * @param v the stack to make a copy of.
[89]76 *
[169]77 * @return a pointer to the duplicate void_stack
78 *         (which will be in reverse order), or NULL if an error occurred.
[89]79 */
[38]80void_stack* void_stack_copy_reverse(const void_stack* v);
[89]81
82
[169]83/** Frees the memory associated with a void_stack, but not the elements held
[89]84 *  on the stack.
85 *
[169]86 * @param stack the stack to be free()d.
[89]87 */
[80]88void void_stack_free(void_stack* stack);
[89]89
90
[169]91/** Frees the memory associated with a void_stack and the elements referenced
92 *  by the stack. 
[89]93 *
[169]94 * Do not use this function if the elements of the stack
95 * are also free()d elsewhere, or contain pointers to other memory which
96 * cannot be otherwise free()d.
97 *
98 * @param stack the stack to be free()d.
[89]99 */
[80]100void void_stack_free_deep(void_stack* stack);
[89]101
102
[169]103/** Query the current number of elements on a void_stack()
[89]104 *
[169]105 * @param stack the void_stack to query
[89]106 *
[169]107 * @return the number of elements currently on the stack.
[89]108 */
109unsigned short void_stack_size(const void_stack* stack);
110
111
[169]112/** Removes the top element on a void_stack and returns a reference to it.
[89]113 *
[169]114 * @param stack the void_stack to pop
[89]115 *
[169]116 * @return a pointer to the popped stack element, or NULL if no elements exist
117 *         on the stack.
[89]118 */
[31]119void* void_stack_pop(void_stack* stack);
[89]120
121
[169]122/** Puts a new element on the top of a void_stack.
[89]123 *
[169]124 * @param stack the void_stack being modified.
125 * @param e the element to be added
[89]126 *
[169]127 * @return true if the element was successfully added, false otherwise.
[89]128 */
[31]129bool void_stack_push(void_stack* stack, void* e);
[89]130
131
[169]132/** Returns a pointer to the current element on the top of the stack.
[89]133 *
[169]134 * @param stack the void_stack being queried.
[89]135 *
[169]136 * @return a pointer to the current element on the top of the stack, or NULL if
137 *         no elements exist in the stack.
[89]138 */
139const void* void_stack_cur(const void_stack* stack);
140
141
[169]142/** Creates a new iterator for the specified void_stack.
[89]143 *
[169]144 * @param stack the void_stack to be referenced by the new iterator
[89]145 *
[169]146 * @return a new void_stack_iterator, or NULL if an error occurred.
[89]147 */
148void_stack_iterator* void_stack_iterator_new(const void_stack* stack);
149
150
[169]151/** Frees a void_stack_iterator.
[89]152 *
[169]153 * Does not affect the void_stack referenced by the iterator.
154 *
155 * @param iter the void_stack_iterator to be free()d.
[89]156 */
[80]157void void_stack_iterator_free(void_stack_iterator* iter);
[89]158
159
[169]160/** Returns a pointer to the the next element in the stack.
[89]161 *
[169]162 * Iterates over elements starting in order from the oldest element (bottom of the stack).
[89]163 *
[169]164 * @param iter the void_stack_iterator used to lookup the next element.
165 *
166 * @return a pointer to the next element.
[89]167 */
[33]168const void* void_stack_iterator_next(void_stack_iterator* iter);
[79]169
[89]170
171/* XXX: for completeness, might want to add a void_stack_iterator_first()
172 *      function, to return iterator to first element
173 */
[79]174#endif
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