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1 
2 /* Author : Stephen Smalley, <sds@epoch.ncsc.mil> */
3 
4 /* FLASK */
5 
6 /*
7  * A double-ended queue is a singly linked list of
8  * elements of arbitrary type that may be accessed
9  * at either end.
10  */
11 
12 #ifndef _QUEUE_H_
13 #define _QUEUE_H_
14 
15 typedef void *queue_element_t;
16 
17 typedef struct queue_node *queue_node_ptr_t;
18 
19 typedef struct queue_node {
20 	queue_element_t element;
21 	queue_node_ptr_t next;
22 } queue_node_t;
23 
24 typedef struct queue_info {
25 	queue_node_ptr_t head;
26 	queue_node_ptr_t tail;
27 } queue_info_t;
28 
29 typedef queue_info_t *queue_t;
30 
31 queue_t queue_create(void);
32 int queue_insert(queue_t, queue_element_t);
33 int queue_push(queue_t, queue_element_t);
34 queue_element_t queue_remove(queue_t);
35 queue_element_t queue_head(queue_t);
36 void queue_destroy(queue_t);
37 
38 /*
39    Applies the specified function f to each element in the
40    specified queue.
41 
42    In addition to passing the element to f, queue_map
43    passes the specified void* pointer to f on each invocation.
44 
45    If f returns a non-zero status, then queue_map will cease
46    iterating through the hash table and will propagate the error
47    return to its caller.
48  */
49 int queue_map(queue_t, int (*f) (queue_element_t, void *), void *);
50 
51 /*
52    Same as queue_map, except that if f returns a non-zero status,
53    then the element will be removed from the queue and the g
54    function will be applied to the element.
55  */
56 void queue_map_remove_on_error(queue_t,
57 			       int (*f) (queue_element_t, void *),
58 			       void (*g) (queue_element_t, void *), void *);
59 
60 #endif
61 
62 /* FLASK */
63