blob: 119817a0194d83a7eb164bfd96837ab63c8172c1 [file] [log] [blame]
/*
* Test interval trees
*
* This work is licensed under the terms of the GNU LGPL, version 2 or later.
* See the COPYING.LIB file in the top-level directory.
*
*/
#include "qemu/osdep.h"
#include "qemu/interval-tree.h"
static IntervalTreeNode nodes[20];
static IntervalTreeRoot root;
static void rand_interval(IntervalTreeNode *n, uint64_t start, uint64_t last)
{
gint32 s_ofs, l_ofs, l_max;
if (last - start > INT32_MAX) {
l_max = INT32_MAX;
} else {
l_max = last - start;
}
s_ofs = g_test_rand_int_range(0, l_max);
l_ofs = g_test_rand_int_range(s_ofs, l_max);
n->start = start + s_ofs;
n->last = start + l_ofs;
}
static void test_empty(void)
{
g_assert(root.rb_root.rb_node == NULL);
g_assert(root.rb_leftmost == NULL);
g_assert(interval_tree_iter_first(&root, 0, UINT64_MAX) == NULL);
}
static void test_find_one_point(void)
{
/* Create a tree of a single node, which is the point [1,1]. */
nodes[0].start = 1;
nodes[0].last = 1;
interval_tree_insert(&nodes[0], &root);
g_assert(interval_tree_iter_first(&root, 0, 9) == &nodes[0]);
g_assert(interval_tree_iter_next(&nodes[0], 0, 9) == NULL);
g_assert(interval_tree_iter_first(&root, 0, 0) == NULL);
g_assert(interval_tree_iter_next(&nodes[0], 0, 0) == NULL);
g_assert(interval_tree_iter_first(&root, 0, 1) == &nodes[0]);
g_assert(interval_tree_iter_first(&root, 1, 1) == &nodes[0]);
g_assert(interval_tree_iter_first(&root, 1, 2) == &nodes[0]);
g_assert(interval_tree_iter_first(&root, 2, 2) == NULL);
interval_tree_remove(&nodes[0], &root);
g_assert(root.rb_root.rb_node == NULL);
g_assert(root.rb_leftmost == NULL);
}
static void test_find_two_point(void)
{
IntervalTreeNode *find0, *find1;
/* Create a tree of a two nodes, which are both the point [1,1]. */
nodes[0].start = 1;
nodes[0].last = 1;
nodes[1] = nodes[0];
interval_tree_insert(&nodes[0], &root);
interval_tree_insert(&nodes[1], &root);
find0 = interval_tree_iter_first(&root, 0, 9);
g_assert(find0 == &nodes[0] || find0 == &nodes[1]);
find1 = interval_tree_iter_next(find0, 0, 9);
g_assert(find1 == &nodes[0] || find1 == &nodes[1]);
g_assert(find0 != find1);
interval_tree_remove(&nodes[1], &root);
g_assert(interval_tree_iter_first(&root, 0, 9) == &nodes[0]);
g_assert(interval_tree_iter_next(&nodes[0], 0, 9) == NULL);
interval_tree_remove(&nodes[0], &root);
}
static void test_find_one_range(void)
{
/* Create a tree of a single node, which is the range [1,8]. */
nodes[0].start = 1;
nodes[0].last = 8;
interval_tree_insert(&nodes[0], &root);
g_assert(interval_tree_iter_first(&root, 0, 9) == &nodes[0]);
g_assert(interval_tree_iter_next(&nodes[0], 0, 9) == NULL);
g_assert(interval_tree_iter_first(&root, 0, 0) == NULL);
g_assert(interval_tree_iter_first(&root, 0, 1) == &nodes[0]);
g_assert(interval_tree_iter_first(&root, 1, 1) == &nodes[0]);
g_assert(interval_tree_iter_first(&root, 4, 6) == &nodes[0]);
g_assert(interval_tree_iter_first(&root, 8, 8) == &nodes[0]);
g_assert(interval_tree_iter_first(&root, 9, 9) == NULL);
interval_tree_remove(&nodes[0], &root);
}
static void test_find_one_range_many(void)
{
int i;
/*
* Create a tree of many nodes in [0,99] and [200,299],
* but only one node with exactly [110,190].
*/
nodes[0].start = 110;
nodes[0].last = 190;
for (i = 1; i < ARRAY_SIZE(nodes) / 2; ++i) {
rand_interval(&nodes[i], 0, 99);
}
for (; i < ARRAY_SIZE(nodes); ++i) {
rand_interval(&nodes[i], 200, 299);
}
for (i = 0; i < ARRAY_SIZE(nodes); ++i) {
interval_tree_insert(&nodes[i], &root);
}
/* Test that we find exactly the one node. */
g_assert(interval_tree_iter_first(&root, 100, 199) == &nodes[0]);
g_assert(interval_tree_iter_next(&nodes[0], 100, 199) == NULL);
g_assert(interval_tree_iter_first(&root, 100, 109) == NULL);
g_assert(interval_tree_iter_first(&root, 100, 110) == &nodes[0]);
g_assert(interval_tree_iter_first(&root, 111, 120) == &nodes[0]);
g_assert(interval_tree_iter_first(&root, 111, 199) == &nodes[0]);
g_assert(interval_tree_iter_first(&root, 190, 199) == &nodes[0]);
g_assert(interval_tree_iter_first(&root, 192, 199) == NULL);
/*
* Test that if there are multiple matches, we return the one
* with the minimal start.
*/
g_assert(interval_tree_iter_first(&root, 100, 300) == &nodes[0]);
/* Test that we don't find it after it is removed. */
interval_tree_remove(&nodes[0], &root);
g_assert(interval_tree_iter_first(&root, 100, 199) == NULL);
for (i = 1; i < ARRAY_SIZE(nodes); ++i) {
interval_tree_remove(&nodes[i], &root);
}
}
static void test_find_many_range(void)
{
IntervalTreeNode *find;
int i, n;
n = g_test_rand_int_range(ARRAY_SIZE(nodes) / 3, ARRAY_SIZE(nodes) / 2);
/*
* Create a fair few nodes in [2000,2999], with the others
* distributed around.
*/
for (i = 0; i < n; ++i) {
rand_interval(&nodes[i], 2000, 2999);
}
for (; i < ARRAY_SIZE(nodes) * 2 / 3; ++i) {
rand_interval(&nodes[i], 1000, 1899);
}
for (; i < ARRAY_SIZE(nodes); ++i) {
rand_interval(&nodes[i], 3100, 3999);
}
for (i = 0; i < ARRAY_SIZE(nodes); ++i) {
interval_tree_insert(&nodes[i], &root);
}
/* Test that we find all of the nodes. */
find = interval_tree_iter_first(&root, 2000, 2999);
for (i = 0; find != NULL; i++) {
find = interval_tree_iter_next(find, 2000, 2999);
}
g_assert_cmpint(i, ==, n);
g_assert(interval_tree_iter_first(&root, 0, 999) == NULL);
g_assert(interval_tree_iter_first(&root, 1900, 1999) == NULL);
g_assert(interval_tree_iter_first(&root, 3000, 3099) == NULL);
g_assert(interval_tree_iter_first(&root, 4000, UINT64_MAX) == NULL);
for (i = 0; i < ARRAY_SIZE(nodes); ++i) {
interval_tree_remove(&nodes[i], &root);
}
}
int main(int argc, char **argv)
{
g_test_init(&argc, &argv, NULL);
g_test_add_func("/interval-tree/empty", test_empty);
g_test_add_func("/interval-tree/find-one-point", test_find_one_point);
g_test_add_func("/interval-tree/find-two-point", test_find_two_point);
g_test_add_func("/interval-tree/find-one-range", test_find_one_range);
g_test_add_func("/interval-tree/find-one-range-many",
test_find_one_range_many);
g_test_add_func("/interval-tree/find-many-range", test_find_many_range);
return g_test_run();
}