/*
 * Copyright (c) 1988, 1989 Regents of the University of California.
 * All rights reserved.
 *
 * %sccs.include.redist.c%
 *
 *	@(#)radix.h	7.7 (Berkeley) 07/13/92
 */

#ifndef _RADIX_H_
#define	_RADIX_H_

/*
 * Radix search tree node layout.
 */

struct radix_node {
	struct	radix_mask *rn_mklist;	/* list of masks contained in subtree */
	struct	radix_node *rn_p;	/* parent */
	short	rn_b;			/* bit offset; -1-index(netmask) */
	char	rn_bmask;		/* node: mask for bit test*/
	u_char	rn_flags;		/* enumerated next */
#define RNF_NORMAL	1		/* leaf contains normal route */
#define RNF_ROOT	2		/* leaf is root leaf for tree */
#define RNF_ACTIVE	4		/* This node is alive (for rtfree) */
	union {
		struct {			/* leaf only data: */
			caddr_t	rn_Key;	/* object of search */
			caddr_t	rn_Mask;	/* netmask, if present */
			struct	radix_node *rn_Dupedkey;
		} rn_leaf;
		struct {			/* node only data: */
			int	rn_Off;		/* where to start compare */
			struct	radix_node *rn_L;/* progeny */
			struct	radix_node *rn_R;/* progeny */
		}rn_node;
	}		rn_u;
#ifdef RN_DEBUG
	int rn_info;
	struct radix_node *rn_twin;
	struct radix_node *rn_ybro;
#endif
};

#define rn_dupedkey rn_u.rn_leaf.rn_Dupedkey
#define rn_key rn_u.rn_leaf.rn_Key
#define rn_mask rn_u.rn_leaf.rn_Mask
#define rn_off rn_u.rn_node.rn_Off
#define rn_l rn_u.rn_node.rn_L
#define rn_r rn_u.rn_node.rn_R

/*
 * Annotations to tree concerning potential routes applying to subtrees.
 */

extern struct radix_mask {
	short	rm_b;			/* bit offset; -1-index(netmask) */
	char	rm_unused;		/* cf. rn_bmask */
	u_char	rm_flags;		/* cf. rn_flags */
	struct	radix_mask *rm_mklist;	/* more masks to try */
	caddr_t	rm_mask;		/* the mask */
	int	rm_refs;		/* # of references to this struct */
} *rn_mkfreelist;

#define MKGet(m) {\
	if (rn_mkfreelist) {\
		m = rn_mkfreelist; \
		rn_mkfreelist = (m)->rm_mklist; \
	} else \
		R_Malloc(m, struct radix_mask *, sizeof (*(m))); }\

#define MKFree(m) { (m)->rm_mklist = rn_mkfreelist; rn_mkfreelist = (m);}

struct radix_node_head {
	struct	radix_node *rnh_treetop;
	struct	radix_node *(*rnh_add) __P((caddr_t v, caddr_t netmask,
		struct radix_node *head, struct radix_node treenodes[]));
	struct	radix_node *(*rnh_delete) __P((caddr_t v, caddr_t netmask,
		struct radix_node *head));
	struct	radix_node *(*rnh_match) __P((caddr_t v,
		struct radix_node *head));
	int	(*rnh_walk) __P((struct radix_node *rn, int (*f)(), void *w));
	struct	radix_node rnh_nodes[3];
};


#ifndef KERNEL
#define Bcmp(a, b, n) bcmp(((char *)(a)), ((char *)(b)), (n))
#define Bzero(p, n) bzero((char *)(p), (int)(n));
#define R_Malloc(p, t, n) (p = (t) malloc((unsigned int)(n)))
#define Free(p) free((char *)p);
#else
#define Bcmp(a, b, n) bcmp(((caddr_t)(a)), ((caddr_t)(b)), (unsigned)(n))
#define Bcopy(a, b, n) bcopy(((caddr_t)(a)), ((caddr_t)(b)), (unsigned)(n))
#define Bzero(p, n) bzero((caddr_t)(p), (unsigned)(n));
#define R_Malloc(p, t, n) (p = (t) malloc((unsigned long)(n), M_RTABLE, M_DONTWAIT))
#define Free(p) free((caddr_t)p, M_RTABLE);

int	rn_inithead __P((void **, int));
#endif /*KERNEL*/
#endif /* _RADIX_H_ */