1 /* PSPP - a program for statistical analysis.
2 Copyright (C) 2007, 2011 Free Software Foundation, Inc.
4 This program is free software: you can redistribute it and/or modify
5 it under the terms of the GNU General Public License as published by
6 the Free Software Foundation, either version 3 of the License, or
7 (at your option) any later version.
9 This program is distributed in the hope that it will be useful,
10 but WITHOUT ANY WARRANTY; without even the implied warranty of
11 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 GNU General Public License for more details.
14 You should have received a copy of the GNU General Public License
15 along with this program. If not, see <http://www.gnu.org/licenses/>. */
19 #include "libpspp/range-map.h"
21 #include "libpspp/assertion.h"
22 #include "libpspp/compiler.h"
24 static struct range_map_node *bt_to_range_map_node (const struct bt_node *);
25 static int compare_range_map_nodes (const struct bt_node *,
26 const struct bt_node *,
28 static struct range_map_node *first_node (const struct range_map *);
29 static struct range_map_node *next_node (const struct range_map *,
30 const struct range_map_node *);
31 static struct range_map_node *prev_node (const struct range_map *,
32 const struct range_map_node *) UNUSED;
34 /* Initializes RM as an empty range map. */
36 range_map_init (struct range_map *rm)
38 bt_init (&rm->bt, compare_range_map_nodes, NULL);
41 /* Returns true if RM contains no mappings,
42 false if it contains at least one. */
44 range_map_is_empty (const struct range_map *rm)
46 return bt_count (&rm->bt) == 0;
49 /* Inserts node NEW into RM, covering the range beginning at
50 START and ending at START + WIDTH (exclusive). WIDTH must be
51 at least 1. The new range must not overlap any existing range
54 range_map_insert (struct range_map *rm,
55 unsigned long int start, unsigned long int width,
56 struct range_map_node *new)
58 unsigned long int end = start + width;
59 struct range_map_node *dup;
62 assert (end - 1 >= start);
66 dup = bt_to_range_map_node (bt_insert (&rm->bt, &new->bt_node));
68 /* Make sure NEW doesn't overlap any other node. */
70 assert (prev_node (rm, new) == NULL || start >= prev_node (rm, new)->end);
71 assert (next_node (rm, new) == NULL || next_node (rm, new)->start >= end);
74 /* Deletes NODE from RM. */
76 range_map_delete (struct range_map *rm, struct range_map_node *node)
78 bt_delete (&rm->bt, &node->bt_node);
81 /* Returns the node in RM that contains the given POSITION, or a
82 null pointer if no node contains POSITION. */
83 struct range_map_node *
84 range_map_lookup (const struct range_map *rm,
85 unsigned long int position)
87 struct range_map_node tmp, *node;
90 node = bt_to_range_map_node (bt_find_le (&rm->bt, &tmp.bt_node));
91 return node != NULL && position < node->end ? node : NULL;
94 /* Returns the first node in RM, or a null pointer if RM is
96 struct range_map_node *
97 range_map_first (const struct range_map *rm)
99 return first_node (rm);
102 /* If NODE is nonnull, returns the node in RM following NODE, or
103 a null pointer if NODE is the last node in RM.
104 If NODE is null, behaves like range_map_first. */
105 struct range_map_node *
106 range_map_next (const struct range_map *rm,
107 const struct range_map_node *node)
109 return node != NULL ? next_node (rm, node) : first_node (rm);
112 /* Returns the range_map_node containing BT_NODE. */
113 static struct range_map_node *
114 bt_to_range_map_node (const struct bt_node *bt_node)
116 return (bt_node != NULL
117 ? bt_data (bt_node, struct range_map_node, bt_node)
121 /* Compares range map nodes A and B and returns a strcmp()-type
124 compare_range_map_nodes (const struct bt_node *a_,
125 const struct bt_node *b_,
126 const void *aux UNUSED)
128 const struct range_map_node *a = bt_to_range_map_node (a_);
129 const struct range_map_node *b = bt_to_range_map_node (b_);
130 return a->start < b->start ? -1 : a->start > b->start;
133 /* Returns the first range map node in RM, or a null pointer if
135 static struct range_map_node *
136 first_node (const struct range_map *rm)
138 return bt_to_range_map_node (bt_first (&rm->bt));
141 /* Returns the next range map node in RM following NODE, or a
142 null pointer if NODE is the last node in RM. */
143 static struct range_map_node *
144 next_node (const struct range_map *rm, const struct range_map_node *node)
146 return bt_to_range_map_node (bt_next (&rm->bt, &node->bt_node));
149 /* Returns the previous range map node in RM preceding NODE, or a
150 null pointer if NODE is the first node in RM. */
151 static struct range_map_node *
152 prev_node (const struct range_map *rm, const struct range_map_node *node)
154 return bt_to_range_map_node (bt_prev (&rm->bt, &node->bt_node));