2 * tree234.h: header defining functions in tree234.c.
4 * This file is copyright 1999-2001 Simon Tatham.
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32 * This typedef is opaque outside tree234.c itself.
34 typedef struct tree234_Tag tree234
;
36 typedef int (*cmpfn234
)(void *, void *);
38 typedef void *(*copyfn234
)(void *state
, void *element
);
41 * Create a 2-3-4 tree. If `cmp' is NULL, the tree is unsorted, and
42 * lookups by key will fail: you can only look things up by numeric
43 * index, and you have to use addpos234() and delpos234().
45 tree234
*newtree234(cmpfn234 cmp
);
48 * Free a 2-3-4 tree (not including freeing the elements).
50 void freetree234(tree234
*t
);
53 * Add an element e to a sorted 2-3-4 tree t. Returns e on success,
54 * or if an existing element compares equal, returns that.
56 void *add234(tree234
*t
, void *e
);
59 * Add an element e to an unsorted 2-3-4 tree t. Returns e on
60 * success, NULL on failure. (Failure should only occur if the
61 * index is out of range or the tree is sorted.)
63 * Index range can be from 0 to the tree's current element count,
66 void *addpos234(tree234
*t
, void *e
, int index
);
69 * Look up the element at a given numeric index in a 2-3-4 tree.
70 * Returns NULL if the index is out of range.
72 * One obvious use for this function is in iterating over the whole
73 * of a tree (sorted or unsorted):
75 * for (i = 0; (p = index234(tree, i)) != NULL; i++) consume(p);
79 * int maxcount = count234(tree);
80 * for (i = 0; i < maxcount; i++) {
81 * p = index234(tree, i);
86 void *index234(tree234
*t
, int index
);
89 * Find an element e in a sorted 2-3-4 tree t. Returns NULL if not
90 * found. e is always passed as the first argument to cmp, so cmp
91 * can be an asymmetric function if desired. cmp can also be passed
92 * as NULL, in which case the compare function from the tree proper
95 * Three of these functions are special cases of findrelpos234. The
96 * non-`pos' variants lack the `index' parameter: if the parameter
97 * is present and non-NULL, it must point to an integer variable
98 * which will be filled with the numeric index of the returned
101 * The non-`rel' variants lack the `relation' parameter. This
102 * parameter allows you to specify what relation the element you
103 * provide has to the element you're looking for. This parameter
106 * REL234_EQ - find only an element that compares equal to e
107 * REL234_LT - find the greatest element that compares < e
108 * REL234_LE - find the greatest element that compares <= e
109 * REL234_GT - find the smallest element that compares > e
110 * REL234_GE - find the smallest element that compares >= e
112 * Non-`rel' variants assume REL234_EQ.
114 * If `rel' is REL234_GT or REL234_LT, the `e' parameter may be
115 * NULL. In this case, REL234_GT will return the smallest element
116 * in the tree, and REL234_LT will return the greatest. This gives
117 * an alternative means of iterating over a sorted tree, instead of
120 * // to loop forwards
121 * for (p = NULL; (p = findrel234(tree, p, NULL, REL234_GT)) != NULL ;)
124 * // to loop backwards
125 * for (p = NULL; (p = findrel234(tree, p, NULL, REL234_LT)) != NULL ;)
129 REL234_EQ
, REL234_LT
, REL234_LE
, REL234_GT
, REL234_GE
131 void *find234(tree234
*t
, void *e
, cmpfn234 cmp
);
132 void *findrel234(tree234
*t
, void *e
, cmpfn234 cmp
, int relation
);
133 void *findpos234(tree234
*t
, void *e
, cmpfn234 cmp
, int *index
);
134 void *findrelpos234(tree234
*t
, void *e
, cmpfn234 cmp
, int relation
,
138 * Delete an element e in a 2-3-4 tree. Does not free the element,
139 * merely removes all links to it from the tree nodes.
141 * delpos234 deletes the element at a particular tree index: it
142 * works on both sorted and unsorted trees.
144 * del234 deletes the element passed to it, so it only works on
145 * sorted trees. (It's equivalent to using findpos234 to determine
146 * the index of an element, and then passing that index to
149 * Both functions return a pointer to the element they delete, for
150 * the user to free or pass on elsewhere or whatever. If the index
151 * is out of range (delpos234) or the element is already not in the
152 * tree (del234) then they return NULL.
154 void *del234(tree234
*t
, void *e
);
155 void *delpos234(tree234
*t
, int index
);
158 * Return the total element count of a tree234.
160 int count234(tree234
*t
);
163 * Split a tree234 into two valid tree234s.
165 * splitpos234 splits at a given index. If `before' is TRUE, the
166 * items at and after that index are left in t and the ones before
167 * are returned; if `before' is FALSE, the items before that index
168 * are left in t and the rest are returned.
170 * split234 splits at a given key. You can pass any of the
171 * relations used with findrel234, except for REL234_EQ. The items
172 * in the tree that satisfy the relation are returned; the
173 * remainder are left.
175 tree234
*splitpos234(tree234
*t
, int index
, int before
);
176 tree234
*split234(tree234
*t
, void *e
, cmpfn234 cmp
, int rel
);
179 * Join two tree234s together into a single one.
181 * All the elements in t1 are placed to the left of all the
182 * elements in t2. If the trees are sorted, there will be a test to
183 * ensure that this satisfies the ordering criterion, and NULL will
184 * be returned otherwise. If the trees are unsorted, there is no
185 * restriction on the use of join234.
187 * The tree returned is t1 (join234) or t2 (join234r), if the
188 * operation is successful.
190 tree234
*join234(tree234
*t1
, tree234
*t2
);
191 tree234
*join234r(tree234
*t1
, tree234
*t2
);
194 * Make a complete copy of a tree234. Element pointers will be
195 * reused unless copyfn is non-NULL, in which case it will be used
196 * to copy each element. (copyfn takes two `void *' parameters; the
197 * first is private state and the second is the element. A simple
198 * copy routine probably won't need private state.)
200 tree234
*copytree234(tree234
*t
, copyfn234 copyfn
, void *copyfnstate
);
202 #endif /* TREE234_H */