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Linux/lib/interval_tree.c

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  1 // SPDX-License-Identifier: GPL-2.0-only
  2 #include <linux/interval_tree.h>
  3 #include <linux/interval_tree_generic.h>
  4 #include <linux/compiler.h>
  5 #include <linux/export.h>
  6 
  7 #define START(node) ((node)->start)
  8 #define LAST(node)  ((node)->last)
  9 
 10 INTERVAL_TREE_DEFINE(struct interval_tree_node, rb,
 11                      unsigned long, __subtree_last,
 12                      START, LAST,, interval_tree)
 13 
 14 EXPORT_SYMBOL_GPL(interval_tree_insert);
 15 EXPORT_SYMBOL_GPL(interval_tree_remove);
 16 EXPORT_SYMBOL_GPL(interval_tree_iter_first);
 17 EXPORT_SYMBOL_GPL(interval_tree_iter_next);
 18 
 19 #ifdef CONFIG_INTERVAL_TREE_SPAN_ITER
 20 /*
 21  * Roll nodes[1] into nodes[0] by advancing nodes[1] to the end of a contiguous
 22  * span of nodes. This makes nodes[0]->last the end of that contiguous used span
 23  * indexes that started at the original nodes[1]->start. nodes[1] is now the
 24  * first node starting the next used span. A hole span is between nodes[0]->last
 25  * and nodes[1]->start. nodes[1] must be !NULL.
 26  */
 27 static void
 28 interval_tree_span_iter_next_gap(struct interval_tree_span_iter *state)
 29 {
 30         struct interval_tree_node *cur = state->nodes[1];
 31 
 32         state->nodes[0] = cur;
 33         do {
 34                 if (cur->last > state->nodes[0]->last)
 35                         state->nodes[0] = cur;
 36                 cur = interval_tree_iter_next(cur, state->first_index,
 37                                               state->last_index);
 38         } while (cur && (state->nodes[0]->last >= cur->start ||
 39                          state->nodes[0]->last + 1 == cur->start));
 40         state->nodes[1] = cur;
 41 }
 42 
 43 void interval_tree_span_iter_first(struct interval_tree_span_iter *iter,
 44                                    struct rb_root_cached *itree,
 45                                    unsigned long first_index,
 46                                    unsigned long last_index)
 47 {
 48         iter->first_index = first_index;
 49         iter->last_index = last_index;
 50         iter->nodes[0] = NULL;
 51         iter->nodes[1] =
 52                 interval_tree_iter_first(itree, first_index, last_index);
 53         if (!iter->nodes[1]) {
 54                 /* No nodes intersect the span, whole span is hole */
 55                 iter->start_hole = first_index;
 56                 iter->last_hole = last_index;
 57                 iter->is_hole = 1;
 58                 return;
 59         }
 60         if (iter->nodes[1]->start > first_index) {
 61                 /* Leading hole on first iteration */
 62                 iter->start_hole = first_index;
 63                 iter->last_hole = iter->nodes[1]->start - 1;
 64                 iter->is_hole = 1;
 65                 interval_tree_span_iter_next_gap(iter);
 66                 return;
 67         }
 68 
 69         /* Starting inside a used */
 70         iter->start_used = first_index;
 71         iter->is_hole = 0;
 72         interval_tree_span_iter_next_gap(iter);
 73         iter->last_used = iter->nodes[0]->last;
 74         if (iter->last_used >= last_index) {
 75                 iter->last_used = last_index;
 76                 iter->nodes[0] = NULL;
 77                 iter->nodes[1] = NULL;
 78         }
 79 }
 80 EXPORT_SYMBOL_GPL(interval_tree_span_iter_first);
 81 
 82 void interval_tree_span_iter_next(struct interval_tree_span_iter *iter)
 83 {
 84         if (!iter->nodes[0] && !iter->nodes[1]) {
 85                 iter->is_hole = -1;
 86                 return;
 87         }
 88 
 89         if (iter->is_hole) {
 90                 iter->start_used = iter->last_hole + 1;
 91                 iter->last_used = iter->nodes[0]->last;
 92                 if (iter->last_used >= iter->last_index) {
 93                         iter->last_used = iter->last_index;
 94                         iter->nodes[0] = NULL;
 95                         iter->nodes[1] = NULL;
 96                 }
 97                 iter->is_hole = 0;
 98                 return;
 99         }
100 
101         if (!iter->nodes[1]) {
102                 /* Trailing hole */
103                 iter->start_hole = iter->nodes[0]->last + 1;
104                 iter->last_hole = iter->last_index;
105                 iter->nodes[0] = NULL;
106                 iter->is_hole = 1;
107                 return;
108         }
109 
110         /* must have both nodes[0] and [1], interior hole */
111         iter->start_hole = iter->nodes[0]->last + 1;
112         iter->last_hole = iter->nodes[1]->start - 1;
113         iter->is_hole = 1;
114         interval_tree_span_iter_next_gap(iter);
115 }
116 EXPORT_SYMBOL_GPL(interval_tree_span_iter_next);
117 
118 /*
119  * Advance the iterator index to a specific position. The returned used/hole is
120  * updated to start at new_index. This is faster than calling
121  * interval_tree_span_iter_first() as it can avoid full searches in several
122  * cases where the iterator is already set.
123  */
124 void interval_tree_span_iter_advance(struct interval_tree_span_iter *iter,
125                                      struct rb_root_cached *itree,
126                                      unsigned long new_index)
127 {
128         if (iter->is_hole == -1)
129                 return;
130 
131         iter->first_index = new_index;
132         if (new_index > iter->last_index) {
133                 iter->is_hole = -1;
134                 return;
135         }
136 
137         /* Rely on the union aliasing hole/used */
138         if (iter->start_hole <= new_index && new_index <= iter->last_hole) {
139                 iter->start_hole = new_index;
140                 return;
141         }
142         if (new_index == iter->last_hole + 1)
143                 interval_tree_span_iter_next(iter);
144         else
145                 interval_tree_span_iter_first(iter, itree, new_index,
146                                               iter->last_index);
147 }
148 EXPORT_SYMBOL_GPL(interval_tree_span_iter_advance);
149 #endif
150 

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