/*#*
*#* $Log$
+ *#* Revision 1.19 2006/03/20 17:50:29 bernie
+ *#* Fix typo.
+ *#*
+ *#* Revision 1.18 2006/02/27 22:40:21 bernie
+ *#* Add support for poor pre-C99 compilers.
+ *#*
+ *#* Revision 1.17 2006/02/24 01:18:34 bernie
+ *#* LIST_ENQUEUE(): New macro; Remove obsolete names.
+ *#*
+ *#* Revision 1.16 2006/01/23 23:10:38 bernie
+ *#* REVERSE_FOREACH_NODE(): New macro; FOREACHNODE(): Rename to FOREACH_NODE.
+ *#*
*#* Revision 1.15 2005/11/04 16:20:02 bernie
*#* Fix reference to README.devlib in header.
*#*
*
* Nodes can be added and removed from either end of the list
* with O(1) performance. Iterating over these lists can be
- * tricky: use the FOREACHNODE() macro instead.
+ * tricky: use the FOREACH_NODE() macro instead.
*/
typedef struct _List
{
Node tail;
} List;
+/**
+ * Extended node for priority queues.
+ */
+typedef struct _PriNode
+{
+ Node link;
+ int pri;
+} PriNode;
+
/*!
* Template for a naked node in a list of \a T structures.
* Foo *fp;
*
* LIST_INIT(&foo_list);
- * LIST_ADDHEAD(&foo_list, &foo1);
- * INSERTBEFORE(&foo_list, &foo2);
- * FOREACHNODE(fp, &foo_list)
+ * ADDHEAD(&foo_list, &foo1);
+ * INSERT_BEFORE(&foo_list, &foo2);
+ * FOREACH_NODE(fp, &foo_list)
* fp->a = 10;
* }
*
*/
#define LIST_TAIL(l) ((l)->tail.pred)
+// TODO: move in compiler.h
+#if COMPILER_TYPEOF
+ #define TYPEOF_OR_VOIDPTR(type) typeof(type)
+#else
+ #define TYPEOF_OR_VOIDPTR(type) void *
+#endif
+
/*!
* Iterate over all nodes in a list.
*
* \param n Node pointer to be used in each iteration.
* \param l Pointer to list.
*/
-#define FOREACHNODE(n, l) \
+#define FOREACH_NODE(n, l) \
for( \
- (n) = (typeof(n))LIST_HEAD(l); \
+ (n) = (TYPEOF_OR_VOIDPTR(n))LIST_HEAD(l); \
((Node *)(n))->succ; \
- (n) = (typeof(n))(((Node *)(n))->succ) \
+ (n) = (TYPEOF_OR_VOIDPTR(n))(((Node *)(n))->succ) \
+ )
+
+/*!
+ * Iterate backwards over all nodes in a list.
+ *
+ * This macro generates a "for" statement using the following parameters:
+ * \param n Node pointer to be used in each iteration.
+ * \param l Pointer to list.
+ */
+#define REVERSE_FOREACH_NODE(n, l) \
+ for( \
+ (n) = (TYPEOF_OR_VOIDPTR(n))LIST_TAIL(l); \
+ ((Node *)(n))->pred; \
+ (n) = (TYPEOF_OR_VOIDPTR(n))(((Node *)(n))->pred) \
)
/*! Initialize a list. */
#define LIST_INIT(l) \
do { \
- (l)->head.succ = (typeof((l)->head.succ)) &(l)->tail; \
+ (l)->head.succ = (TYPEOF_OR_VOIDPTR((l)->head.succ)) &(l)->tail; \
(l)->head.pred = NULL; \
(l)->tail.succ = NULL; \
- (l)->tail.pred = (typeof((l)->tail.pred)) &(l)->head; \
+ (l)->tail.pred = (TYPEOF_OR_VOIDPTR((l)->tail.pred)) &(l)->head; \
} while (0)
#ifdef _DEBUG
ASSERT((l)->tail.succ == NULL); \
ASSERT((l)->tail.pred != NULL); \
pred = &(l)->head; \
- FOREACHNODE(n, l) \
+ FOREACH_NODE(n, l) \
{ \
ASSERT(n->pred == pred); \
pred = n; \
/*! Tell whether a list is empty. */
#define LIST_EMPTY(l) ( (void *)((l)->head.succ) == (void *)(&(l)->tail) )
+/**
+ * Insert a priority node in a priority queue.
+ *
+ * The new node is inserted immediately before the
+ * first node with lower priority or appended to
+ * the tail if no such node exists.
+ */
+#define LIST_ENQUEUE(list, node) \
+ do { \
+ PriNode *ln; \
+ FOREACH_NODE(ln, (list)) \
+ if (ln->pri < (node)->pri) \
+ break; \
+ INSERT_BEFORE(&(node)->link, &ln->link); \
+ } while (0)
+
+
/*!
* Unlink a node from the head of the list \a l.
*
return n;
}
-/* OBSOLETE names */
-#define REMHEAD list_remHead
-#define REMTAIL list_remTail
-#define INSERTBEFORE INSERT_BEFORE
-#define ISLISTEMPTY LIST_EMPTY
-
-
#endif /* MWARE_LIST_H */