💾 Archived View for gemini.rmf-dev.com › repo › Vaati › Menkar › files › bfd287458f895883e1ee1b41e44… captured on 2023-05-24 at 18:30:55. Gemini links have been rewritten to link to archived content

View Raw

More Information

⬅️ Previous capture (2023-03-20)

➡️ Next capture (2023-09-08)

-=-=-=-=-=-=-

0 #if !defined(LIST_H)

1 #define LIST_H

2

3 /*

4 * Doubly-linked list macros

5 */

6

7 /*

8 * Copyright 2006 Johan Veenhuizen

9 *

10 * Permission is hereby granted, free of charge, to any person obtaining a

11 * copy of this software and associated documentation files (the "Software"),

12 * to deal in the Software without restriction, including without limitation

13 * the rights to use, copy, modify, merge, publish, distribute, sublicense,

14 * and/or sell copies of the Software, and to permit persons to whom the

15 * Software is furnished to do so, subject to the following conditions:

16 *

17 * The above copyright notice and this permission notice shall be included

18 * in all copies or substantial portions of the Software.

19 *

20 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR

21 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,

22 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL

23 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER

24 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING

25 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER

26 * DEALINGS IN THE SOFTWARE.

27 */

28

29 /*

30 * Doubly-linked list type

31 *

32 * Both lists and nodes of lists are of type LIST.

33 *

34 * Doubly-linked list macros

35 *

36 * LIST_DEFINE(listname)

37 * Define and initialize an empty list at load time.

38 *

39 * LIST_INIT([list | node])

40 * Initialize a list or node at run time.

41 *

42 * LIST_EMPTY(list)

43 * Test if list is empty.

44 *

45 * LIST_HEAD(list)

46 * Return the first element of list, or NULL if empty.

47 *

48 * LIST_TAIL(list)

49 * Return the last element of list, or NULL if empty.

50 *

51 * LIST_INSERT(list, node)

52 * Insert node somewhere in list (order not important).

53 *

54 * LIST_INSERT_HEAD(list, node)

55 * Insert node at the head of list.

56 *

57 * LIST_INSERT_TAIL(list, node)

58 * Insert node at the tail of list.

59 *

60 * LIST_INSERT_BEFORE(elem, node)

61 * Insert node before elem.

62 *

63 * LIST_INSERT_AFTER(elem, node)

64 * Insert node after elem.

65 *

66 * LIST_REMOVE(node)

67 * Remove node from its list.

68 *

69 * LIST_MEMBER(node)

70 * Test if node is a member of a list.

71 *

72 * LIST_ITEM(node, type, memb)

73 * Return the structure of the given type, containing

74 * node as member memb.

75 *

76 * LIST_FOREACH(node, list)

77 * Iterate over the nodes of list (for loop).

78 */

79

80 #include <stdio.h>

81

82 /* The exported LIST type. */

83 typedef struct listnode LIST;

84

85 /* The internal list type. Don't use this in code. */

86 struct listnode {

87 struct listnode *ln_prev, *ln_next;

88 };

89

90 /* Define and initialize an empty list at load time. */

91 #define LIST_DEFINE(name) LIST name = { &name, &name }

92

93 /* Initialize a list or list node at run time. */

94 #define LIST_INIT(lp) ((lp)->ln_prev = (lp)->ln_next = (lp))

95

96 /* Return the first node of list, or NULL if empty. */

97 #define LIST_HEAD(list) ((list)->ln_next == (list) ? NULL : (list)->ln_next)

98

99 /* Return the last node of list, or NULL if empty. */

100 #define LIST_TAIL(list) ((list)->ln_prev == (list) ? NULL : (list)->ln_prev)

101

102 /* Insert node before elem. */

103 #define LIST_INSERT_BEFORE(elem, node) do { \

104 (node)->ln_next = (elem); \

105 (node)->ln_prev = (elem)->ln_prev; \

106 (elem)->ln_prev->ln_next = (node); \

107 (elem)->ln_prev = (node); \

108 } while (0)

109

110 /* Insert node after elem. */

111 #define LIST_INSERT_AFTER(elem, node) do { \

112 (node)->ln_prev = (elem); \

113 (node)->ln_next = (elem)->ln_next; \

114 (elem)->ln_next->ln_prev = (node); \

115 (elem)->ln_next = (node); \

116 } while (0)

117

118 /* Insert node at the head of list. */

119 #define LIST_INSERT_HEAD(list, node) LIST_INSERT_AFTER((list), (node))

120

121 /* Insert node at the tail of list. */

122 #define LIST_INSERT_TAIL(list, node) LIST_INSERT_BEFORE((list), (node))

123

124 /* Use this when order is not important. */

125 #define LIST_INSERT(list, node) LIST_INSERT_TAIL((list), (node))

126

127 /* Delete node from its list. */

128 #define LIST_REMOVE(node) do { \

129 (node)->ln_prev->ln_next = (node)->ln_next; \

130 (node)->ln_next->ln_prev = (node)->ln_prev; \

131 LIST_INIT(node); \

132 } while (0)

133

134 /* Test if list if empty. */

135 #define LIST_EMPTY(list) ((list)->ln_next == (list))

136

137 /* Test if node is a member of a list. */

138 #define LIST_MEMBER(node) ((node)->ln_next != (node))

139

140 #define LIST_ITEM(node, type, memb) \

141 ((type *)((char *)(node) - (char *)&(((type *)0)->memb)))

142

143 #define LIST_FOREACH(node, list) \

144 for ((node) = (list)->ln_next; \

145 (node) != (list); \

146 (node) = (node)->ln_next)

147

148 #endif /* defined(LIST_H) */

149