/* avl.h - avl tree definitions */ /* $OpenLDAP$ */ /* This work is part of OpenLDAP Software . * * Copyright 1998-2018 The OpenLDAP Foundation. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted only as authorized by the OpenLDAP * Public License. * * A copy of this license is available in file LICENSE in the * top-level directory of the distribution or, alternatively, at * . */ /* Portions Copyright (c) 1993 Regents of the University of Michigan. * All rights reserved. * * Redistribution and use in source and binary forms are permitted * provided that this notice is preserved and that due credit is given * to the University of Michigan at Ann Arbor. The name of the University * may not be used to endorse or promote products derived from this * software without specific prior written permission. This software * is provided ``as is'' without express or implied warranty. */ #ifndef _AVL #define _AVL #include /* * this structure represents a generic avl tree node. */ LDAP_BEGIN_DECL typedef struct avlnode Avlnode; struct avlnode { void* avl_data; struct avlnode *avl_link[2]; char avl_bits[2]; signed char avl_bf; }; #define avl_left avl_link[0] #define avl_right avl_link[1] #define avl_lbit avl_bits[0] #define avl_rbit avl_bits[1] #ifdef AVL_INTERNAL #define NULLAVL ((Avlnode *) NULL) /* balance factor values */ #define LH (-1) #define EH 0 #define RH 1 #define avl_bf2str(bf) ((bf) == -1 ? "LH" : (bf) == 0 ? "EH" : (bf) == 1 ? "RH" : "(unknown)" ) /* thread bits */ #define AVL_THREAD 0 #define AVL_CHILD 1 /* avl routines */ #define avl_getone(x) ((x) == 0 ? 0 : (x)->avl_data) #define avl_onenode(x) ((x) == 0 || ((x)->avl_left == 0 && (x)->avl_right == 0)) #endif /* AVL_INTERNALS */ #define avl_child(x,dir) ((x)->avl_bits[dir]) == AVL_CHILD ? \ (x)->avl_link[dir] : NULL #define avl_lchild(x) avl_child(x,0) #define avl_rchild(x) avl_child(x,1) typedef int (*AVL_APPLY) LDAP_P((void *, void*)); typedef int (*AVL_CMP) LDAP_P((const void*, const void*)); typedef int (*AVL_DUP) LDAP_P((void*, void*)); typedef void (*AVL_FREE) LDAP_P((void*)); LDAP_AVL_F( int ) avl_free LDAP_P(( Avlnode *root, AVL_FREE dfree )); LDAP_AVL_F( int ) avl_insert LDAP_P((Avlnode **, void*, AVL_CMP, AVL_DUP)); LDAP_AVL_F( void* ) avl_delete LDAP_P((Avlnode **, void*, AVL_CMP)); LDAP_AVL_F( void* ) avl_find LDAP_P((Avlnode *, const void*, AVL_CMP)); LDAP_AVL_F( Avlnode* ) avl_find2 LDAP_P((Avlnode *, const void*, AVL_CMP)); LDAP_AVL_F( void* ) avl_find_lin LDAP_P((Avlnode *, const void*, AVL_CMP)); #ifdef AVL_NONREENTRANT LDAP_AVL_F( void* ) avl_getfirst LDAP_P((Avlnode *)); LDAP_AVL_F( void* ) avl_getnext LDAP_P((void)); #endif LDAP_AVL_F( int ) avl_dup_error LDAP_P((void*, void*)); LDAP_AVL_F( int ) avl_dup_ok LDAP_P((void*, void*)); LDAP_AVL_F( int ) avl_apply LDAP_P((Avlnode *, AVL_APPLY, void*, int, int)); LDAP_AVL_F( int ) avl_prefixapply LDAP_P((Avlnode *, void*, AVL_CMP, void*, AVL_CMP, void*, int)); LDAP_AVL_F( int ) tavl_free LDAP_P(( Avlnode *root, AVL_FREE dfree )); LDAP_AVL_F( int ) tavl_insert LDAP_P((Avlnode **, void*, AVL_CMP, AVL_DUP)); LDAP_AVL_F( void* ) tavl_delete LDAP_P((Avlnode **, void*, AVL_CMP)); LDAP_AVL_F( void* ) tavl_find LDAP_P((Avlnode *, const void*, AVL_CMP)); LDAP_AVL_F( Avlnode* ) tavl_find2 LDAP_P((Avlnode *, const void*, AVL_CMP)); LDAP_AVL_F( Avlnode* ) tavl_find3 LDAP_P((Avlnode *, const void*, AVL_CMP, int *ret)); #define TAVL_DIR_LEFT 0 #define TAVL_DIR_RIGHT 1 LDAP_AVL_F( Avlnode* ) tavl_end LDAP_P((Avlnode *, int direction )); LDAP_AVL_F( Avlnode* ) tavl_next LDAP_P((Avlnode *, int direction )); /* apply traversal types */ #define AVL_PREORDER 1 #define AVL_INORDER 2 #define AVL_POSTORDER 3 /* what apply returns if it ran out of nodes */ #define AVL_NOMORE (-6) LDAP_END_DECL #endif /* _AVL */