/usr/include/hdf/tbbt.h is in libhdf4-dev 4.2.10-3.2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 315 316 317 318 319 320 321 322 323 324 325 326 | /* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* Copyright by the Board of Trustees of the University of Illinois. *
* All rights reserved. *
* *
* This file is part of HDF. The full HDF copyright notice, including *
* terms governing use, modification, and redistribution, is contained in *
* the files COPYING and Copyright.html. COPYING can be found at the root *
* of the source code distribution tree; Copyright.html can be found at *
* http://hdfgroup.org/products/hdf4/doc/Copyright.html. If you do not have *
* access to either file, you may request a copy from help@hdfgroup.org. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/* $Id: tbbt.h 6043 2014-01-21 21:09:03Z acheng $ */
/* "tbbt.h" -- Data types/routines for threaded, balanced, binary trees. */
/* Extended from Knuth 6.2.3, Algorithm A */
#ifndef TBBT_H
#define TBBT_H
#include "H4api_adpt.h"
#ifdef lint /* lint always complains but may complain more if... */
# define TBBT_INTERNALS /* TBBT_INTERNALS not always defined */
#endif /* lint */
typedef struct tbbt_node TBBT_NODE;
/* Threaded node structure */
struct tbbt_node
{
VOIDP data; /* Pointer to user data to be associated with node */
VOIDP key; /* Field to sort nodes on */
#ifdef TBBT_INTERNALS
# define PARENT 0
# define LEFT 1
# define RIGHT 2
TBBT_NODE *link[3]; /* Pointers to parent, left child, and right child */
# define Parent link[PARENT]
# define Lchild link[LEFT]
# define Rchild link[RIGHT]
# define TBBT_FLAG unsigned long
# define TBBT_LEAF unsigned long
TBBT_FLAG flags; /* Combination of the following bit fields: */
# define TBBT_HEAVY(s) s /* If the `s' sub-tree is deeper than the other */
# define TBBT_DOUBLE 4 /* If "heavy" sub-tree is two levels deeper */
# define TBBT_INTERN 8 /* If node is internal (has two children) */
# define TBBT_UNBAL ( TBBT_HEAVY(LEFT) | TBBT_HEAVY(RIGHT) )
# define TBBT_FLAGS ( TBBT_UNBAL | TBBT_INTERN | TBBT_DOUBLE )
# define TBBT_CHILD(s) ( TBBT_INTERN | TBBT_HEAVY(s) )
TBBT_LEAF lcnt; /* count of left children */
TBBT_LEAF rcnt; /* count of right children */
# define LeftCnt(node) ( (node)->lcnt ) /* Left descendants */
# define RightCnt(node) ( (node)->rcnt ) /* Left descendants */
# define Cnt(node,s) ( LEFT==(s) ? LeftCnt(node) : RightCnt(node) )
# define HasChild(n,s) ( Cnt(n,s)>0 )
# define Heavy(n,s) ( (s) & (LeftCnt(n)>RightCnt(n) ? LEFT : \
LeftCnt(n)==RightCnt(n) ? 0 : RIGHT))
# define Intern(n) ( LeftCnt(n) && RightCnt(n) )
# define UnBal(n) ( LeftCnt(n)>RightCnt(n) ? LEFT : \
LeftCnt(n)==RightCnt(n) ? 0 : RIGHT)
# define Double(n) ( TBBT_DOUBLE & (n)->flags )
# define Other(side) ( LEFT + RIGHT - (side) )
# define Delta(n,s) ( ( Heavy(n,s) ? 1 : -1 ) \
* ( Double(n) ? 2 : UnBal(n) ? 1 : 0 ) )
# define SetFlags(n,s,b,i) ( ( -2<(b) && (b)<2 ? 0 : TBBT_DOUBLE ) \
| ( 0>(b) ? TBBT_HEAVY(s) : (b)>0 ? TBBT_HEAVY(Other(s)) : 0 ) \
| ( (i) ? TBBT_INTERN : 0 ) )
};
/* Pointer to the tbbt node free list */
static TBBT_NODE *tbbt_free_list=NULL;
typedef struct tbbt_tree TBBT_TREE;
/* Threaded tree structure */
struct tbbt_tree
{
TBBT_NODE *root;
unsigned long count; /* The number of nodes in the tree currently */
uintn fast_compare; /* use a faster in-line compare (with casts) instead of function call */
intn (*compar) (VOIDP k1, VOIDP k2, intn cmparg);
intn cmparg;
#endif /* TBBT_INTERNALS */
};
/* Define the "fast compare" values */
#define TBBT_FAST_UINT16_COMPARE 1
#define TBBT_FAST_INT32_COMPARE 2
#ifndef TBBT_INTERNALS
typedef TBBT_NODE **TBBT_TREE;
#endif /* TBBT_INTERNALS */
/* Return maximum of two scalar values (use arguments w/o side effects): */
#define Max(a,b) ( (a) > (b) ? (a) : (b) )
/* These routines are designed to allow use of a general-purpose balanced tree
* implimentation. These trees are appropriate for maintaining in memory one
* or more lists of items, each list sorted according to key values (key values
* must form a "completely ordered set") where no two items in a single list
* can have the same key value. The following operations are supported:
* Create an empty list
* Add an item to a list
* Look up an item in a list by key value
* Look up the Nth item in a list
* Delete an item from a list
* Find the first/last/next/previous item in a list
* Destroy a list
* Each of the above operations requires Order(log(N)) time where N is the
* number of items in the list (except for list creation which requires
* constant time and list destruction which requires Order(N) time if the user-
* supplied free-data-item or free-key-value routines require constant time).
* Each of the above operations (except create and destroy) can be performed
* on a subtree.
*
* Each node of a tree has associated with it a generic pointer (void *) which
* is set to point to one such "item" and a generic pointer to point to that
* item's "key value". The structure of the items and key values is up to the
* user to define. The user must specify a method for comparing key values.
* This routine takes three arguments, two pointers to key values and a third
* integer argument. You can specify a routine that expects pointers to "data
* items" rather than key values in which case the pointer to the key value in
* each node will be set equal to the pointer to the data item.
*
* Since the "data item" pointer is the first field of each tree node, these
* routines may be used without this "tbbt.h" file. For example, assume "ITM"
* is the structre definition for the data items you want to store in lists:
* ITM ***tbbtdmake( int (*cmp)(void *,void *,int), int arg );
* ITM **root= NULL; (* How to create an empty tree w/o tbbtdmake() *)
* ITM **tbbtdfind( ITM ***tree, void *key, ITM ***pp );
* ITM **tbbtfind( ITM **root, void *key, int (*cmp)(), int arg, ITM ***pp );
* ITM **tbbtdless( ITM ***tree, void *key, ITM ***pp );
* ITM **tbbtless( ITM **root, void *key, int (*cmp)(), int arg, ITM ***pp );
* ITM **tbbtindx( ITM **root, long indx );
* ITM **tbbtdins( ITM ***tree, ITM *item, void *key );
* ITM **tbbtins( ITM ***root, ITM *item, void *key, int (*cmp)(), int arg );
* ITM *tbbtrem( ITM ***root, ITM **node, void **kp );
* ITM **tbbtfirst( ITM **root ), **tbbtlast( ITM **root );
* ITM **tbbtnext( ITM **node ), **tbbtprev( ITM **node );
* ITM ***tbbtdfree( ITM ***tree, void (*df)(ITM *), void (*kf)(void *) );
* void tbbtfree( ITM ***root, void (*df)(ITM *), void (*kf)(void *) );
*/
#if defined c_plusplus || defined __cplusplus
extern "C"
{
#endif /* c_plusplus || __cplusplus */
HDFLIBAPI TBBT_TREE *tbbtdmake
(intn (*compar) (VOIDP, VOIDP, intn), intn arg, uintn fast_compare);
/* Allocates and initializes an empty threaded, balanced, binary tree and
* returns a pointer to the control structure for it. You can also create
* empty trees without this function as long as you never use tbbtd* routines
* (tbbtdfind, tbbtdins, tbbtdfree) on them.
* Examples:
* int keycmp();
* TBBT_ROOT *root= tbbtdmake( keycmp, (int)keysiz , 0);
* or
* void *root= tbbtdmake( strcmp, 0 , 0);
* or
* void *root= tbbtdmake( keycmp, (int)keysiz , TBBT_FAST_UINT16_COMPARE);
* or
* TBBT_NODE *root= NULL; (* Don't use tbbtd* routines *)
* `cmp' is the routine to be used to compare two key values [in tbbtdfind()
* and tbbtdins()]. The arguments to `cmp' are the two keys to compare
* and `arg': (*cmp)(k1,k2,arg). `cmp' is expected to return 0 if its first
* two arguments point to identical key values, -1 (or any integer less than 0)
* if k1 points to a key value lower than that pointed to by k2, and 1 (or any
* integer greater than 0) otherwise. If `cmp' is NULL, memcmp is used. If
* `cmp' is NULL and `arg' is not greater than 0L, `1+strlen(key1)' is used in
* place of `arg' to emulate strcmp(): memcmp( k1, k2, 1+strlen(k1) ). You
* can use strcmp() directly (as in the second example above) as long as your C
* compiler does not assume strcmp() will always be passed exactly 2 arguments
* (only newer, ANSI-influenced C compilers are likely to be able to make this
* kind of assumption). You can also use a key comparison routine that expects
* pointers to data items rather than key values.
* The "fast compare" option is for keys of simple numeric types (currently
* uint16 and int32) and avoids the function call for faster searches in
* some cases. The key comparison routine is still required for some
* insertion routines which use it.
*
* Most of the other routines expect a pointer to a root node of a tree, not
* a pointer to the tree's control structure (only tbbtdfind(), tbbtdins(),
* and tbbtdfree() expect pointers to control structures). However TBBT_TREE
* is just defined as "**TBBT_NODE" (unless you have defined TBBT_INTERNALS so
* you have access to the internal structure of the nodes) so
* TBBT_TREE *tree1= tbbtdmake( NULL, 0 );
* is equivalent to
* TBBT_NODE **tree1= tbbtdmake( NULL, 0 );
* So could be used as:
* node= tbbtdfind( tree1, key, NULL );
* node= tbbtfind( *tree1, key, compar, arg, NULL );
* node= tbbtdless( tree1, key, NULL );
* node= tbbtless( *tree1, key, compar, arg, NULL );
* node= tbbtdins( tree1, item, key );
* node= tbbtins( tree1, item, key, compar, arg );
* item= tbbtrem( tree1, tbbtdfind(tree1,key,NULL), NULL );
* item= tbbtrem( tree1, tbbtfind(*tree1,key,compar,arg,NULL), NULL );
* tree1= tbbtdfree( tree1, free, NULL ); (* or whatever *)
* while
* TBBT_NODE *root= NULL;
* would be used like:
* node= tbbtfind( root, key );
* node= tbbtins( &root, item, key );
* node= tbbtrem( &root, tbbtfind(root,key), NULL );
* tbbtfree( &root, free, NULL ); (* or whatever *)
* Never use tbbtfree() on a tree allocated with tbbtdmake() or on a sub-tree
* of ANY tree. Never use tbbtdfree() except on a tbbtdmake()d tree.
*/
HDFLIBAPI TBBT_NODE *tbbtdfind
(TBBT_TREE * tree, VOIDP key, TBBT_NODE ** pp);
HDFLIBAPI TBBT_NODE *tbbtfind
(TBBT_NODE * root, VOIDP key, intn (*cmp) (VOIDP, VOIDP, intn),
intn arg, TBBT_NODE ** pp);
HDFLIBAPI TBBT_NODE *tbbtdless
(TBBT_TREE * tree, VOIDP key, TBBT_NODE ** pp);
HDFLIBAPI TBBT_NODE *tbbtless
(TBBT_NODE * root, VOIDP key, intn (*cmp) (VOIDP, VOIDP, intn),
intn arg, TBBT_NODE ** pp);
/* Locate a node based on the key given. A pointer to the node in the tree
* with a key value matching `key' is returned. If no such node exists, NULL
* is returned. Whether a node is found or not, if `pp' is not NULL, `*pp'
* will be set to point to the parent of the node we are looking for (or that
* node that would be the parent if the node is not found). tbbtdfind() is
* used on trees created using tbbtdmake() (so that `cmp' and `arg' don't have
* to be passed). tbbtfind() can be used on the root or any subtree of a tree
* create using tbbtdmake() and is used on any tree (or subtree) created with-
* out using tbbtdmake(). tbbtless() & tbbtdless() work exactly like tbbtfind()
* and tbbtdfind() except that they find the node with a key which is less than
* or equal to the key given to them.
*/
HDFLIBAPI TBBT_NODE *tbbtindx
(TBBT_NODE * root, int32 indx);
/* Locate the node that has `indx' nodes with lesser key values. This is like
* an array lookup with the first item in the list having index 0. For large
* values of `indx', this call is much faster than tbbtfirst() followed by
* `indx' tbbtnext()s. Thus `tbbtindx(&root,0L)' is equivalent to (and almost
* as fast as) `tbbtfirst(root)'.
*/
HDFLIBAPI TBBT_NODE *tbbtdins
(TBBT_TREE * tree, VOIDP item, VOIDP key);
HDFLIBAPI TBBT_NODE *tbbtins
(TBBT_NODE ** root, VOIDP item, VOIDP key, intn (*cmp) (VOIDP, VOIDP, intn), intn arg);
/* Insert a new node to the tree having a key value of `key' and a data pointer
* of `item'. If a node already exists in the tree with key value `key' or if
* malloc() fails, NULL is returned (no node is inserted), otherwise a pointer
* to the inserted node is returned. `cmp' and `arg' are as for tbbtfind().
*/
HDFLIBAPI VOIDP tbbtrem
(TBBT_NODE ** root, TBBT_NODE * node, VOIDP *kp);
/* Remove the node pointed to by `node' from the tree with root `root'. The
* data pointer for the deleted node is returned. If the second argument is
* NULL, NULL is returned. If `kp' is not NULL, `*kp' is set to point to the
* key value for the deleted node. Examples:
* data= tbbtrem( tree, tbbtdfind(tree,key), &kp ); free(data); free(kp);
* data= tbbtrem( &root, tbbtfind(root,key,compar,arg), NULL );
* data= tbbtrem( &tree->root, tbbtdfind(tree,key), NULL );
*/
HDFLIBAPI TBBT_NODE *tbbtfirst
(TBBT_NODE * root);
HDFLIBAPI TBBT_NODE *tbbtlast
(TBBT_NODE * root);
/* Returns a pointer to node from the tree with the lowest(first)/highest(last)
* key value. If the tree is empy NULL is returned. Examples:
* node= tbbtfirst(*tree);
* node= tbbtfirst(root);
* node= tbbtlast(tree->root);
* node= tbbtlast(node); (* Last node in a sub-tree *)
*/
HDFLIBAPI TBBT_NODE *tbbtnext
(TBBT_NODE * node);
HDFLIBAPI TBBT_NODE *tbbtprev
(TBBT_NODE * node);
/* Returns a pointer the node from the tree with the next highest (previous
* lowest) key value relative to the node pointed to by `node'. If `node'
* points the last (first) node of the tree, NULL is returned.
*/
HDFLIBAPI TBBT_TREE *tbbtdfree
(TBBT_TREE * tree, VOID(*fd) (VOIDP), VOID(*fk) (VOIDP));
HDFLIBAPI VOID tbbtfree
(TBBT_NODE ** root, VOID(*fd) (VOIDP), VOID(*fk) (VOIDP));
/* Frees up an entire tree. `fd' is a pointer to a function that frees/
* destroys data items, and `fk' is the same for key values.
* void free();
* tree= tbbtdfree( tree, free, free );
* tbbtfree( &root, free, free );
* is a typical usage, where keys and data are individually malloc()d. If `fk'
* is NULL, no action is done for the key values (they were allocated on the
* stack, as a part of each data item, or together with one malloc() call, for
* example) and likewise for `fd'. tbbtdfree() always returns NULL and
* tbbtfree() always sets `root' to be NULL.
*/
HDFLIBAPI VOID tbbtprint
(TBBT_NODE * node);
/* Prints out the data in a node */
HDFLIBAPI VOID tbbtdump
(TBBT_TREE * tree, intn method);
/* Prints an entire tree. The method variable determines which sort of
* traversal is used:
* -1 : Pre-Order Traversal
* 1 : Post-Order Traversal
* 0 : In-Order Traversal
*/
HDFLIBAPI long tbbtcount
(TBBT_TREE * tree);
/* Terminate the buffers used in the tbbt*() interface */
HDFPUBLIC intn tbbt_shutdown(void);
#if defined c_plusplus || defined __cplusplus
}
#endif /* c_plusplus || __cplusplus */
#endif /* TBBT_H */
|