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/*
* Copyright (C) Igor Sysoev
* Copyright (C) NGINX, Inc.
*/
#include <nxt_main.h>
#include "nxt_tests.h"
typedef struct {
NXT_RBTREE_NODE (node);
uint32_t key;
} nxt_rbtree_test_t;
static intptr_t nxt_rbtree_test_comparison(nxt_rbtree_node_t *node1,
nxt_rbtree_node_t *node2);
static nxt_int_t nxt_rbtree_test_compare(uint32_t key1, uint32_t key2);
static int nxt_cdecl nxt_rbtree_test_sort_cmp(const void *one, const void *two);
nxt_int_t
nxt_rbtree_test(nxt_thread_t *thr, nxt_uint_t n)
{
void *mark;
uint32_t key, *keys;
nxt_uint_t i;
nxt_nsec_t start, end;
nxt_rbtree_t tree;
nxt_rbtree_node_t *node;
nxt_rbtree_test_t *items, *item;
nxt_thread_time_update(thr);
nxt_log_error(NXT_LOG_NOTICE, thr->log, "rbtree test started: %ui", n);
nxt_rbtree_init(&tree, nxt_rbtree_test_comparison);
mark = tree.sentinel.right;
items = nxt_malloc(n * sizeof(nxt_rbtree_test_t));
if (items == NULL) {
return NXT_ERROR;
}
keys = nxt_malloc(n * sizeof(uint32_t));
if (keys == NULL) {
nxt_free(keys);
return NXT_ERROR;
}
key = 0;
for (i = 0; i < n; i++) {
key = nxt_murmur_hash2(&key, sizeof(uint32_t));
keys[i] = key;
items[i].key = key;
}
nxt_qsort(keys, n, sizeof(uint32_t), nxt_rbtree_test_sort_cmp);
nxt_thread_time_update(thr);
start = nxt_thread_monotonic_time(thr);
for (i = 0; i < n; i++) {
nxt_rbtree_insert(&tree, &items[i].node);
}
for (i = 0; i < n; i++) {
node = nxt_rbtree_find(&tree, &items[i].node);
if (node != (nxt_rbtree_node_t *) &items[i].node) {
nxt_log_alert(thr->log, "rbtree test failed: %08XD not found",
items[i].key);
goto fail;
}
}
i = 0;
node = nxt_rbtree_min(&tree);
while (nxt_rbtree_is_there_successor(&tree, node)) {
item = (nxt_rbtree_test_t *) node;
if (keys[i] != item->key) {
nxt_log_alert(thr->log, "rbtree test failed: %i: %08XD %08XD",
i, keys[i], item->key);
goto fail;
}
i++;
node = nxt_rbtree_node_successor(&tree, node);
}
if (i != n) {
nxt_log_alert(thr->log, "rbtree test failed: %ui", i);
goto fail;
}
for (i = 0; i < n; i++) {
nxt_rbtree_delete(&tree, &items[i].node);
nxt_memset(&items[i], 0xA5, sizeof(nxt_rbtree_test_t));
}
nxt_thread_time_update(thr);
end = nxt_thread_monotonic_time(thr);
if (!nxt_rbtree_is_empty(&tree)) {
nxt_log_alert(thr->log, "rbtree test failed: tree is not empty");
goto fail;
}
/* Check that the sentinel callback was not modified. */
if (mark != tree.sentinel.right) {
nxt_log_alert(thr->log, "rbtree sentinel test failed");
goto fail;
}
nxt_free(keys);
nxt_free(items);
nxt_log_error(NXT_LOG_NOTICE, thr->log, "rbtree test passed %0.3fs",
(end - start) / 1000000000.0);
return NXT_OK;
fail:
nxt_free(keys);
nxt_free(items);
return NXT_ERROR;
}
static intptr_t
nxt_rbtree_test_comparison(nxt_rbtree_node_t *node1,
nxt_rbtree_node_t *node2)
{
nxt_rbtree_test_t *item1, *item2;
item1 = (nxt_rbtree_test_t *) node1;
item2 = (nxt_rbtree_test_t *) node2;
return nxt_rbtree_test_compare(item1->key, item2->key);
}
/*
* Subtraction cannot be used in these comparison functions because
* the key values are spread uniform in whole 0 .. 2^32 range but are
* not grouped around some value as timeout values are.
*/
static nxt_int_t
nxt_rbtree_test_compare(uint32_t key1, uint32_t key2)
{
if (key1 < key2) {
return -1;
}
if (key1 == key2) {
return 0;
}
return 1;
}
static int nxt_cdecl
nxt_rbtree_test_sort_cmp(const void *one, const void *two)
{
const uint32_t *first, *second;
first = one;
second = two;
if (*first < *second) {
return -1;
}
if (*first == *second) {
return 0;
}
return 1;
}
#if (NXT_TEST_RTDTSC)
#define NXT_RBT_STEP (21 * nxt_pagesize / 10 / sizeof(nxt_rbtree_test_t))
static nxt_rbtree_t mb_tree;
static nxt_rbtree_test_t *mb_nodes;
nxt_int_t
nxt_rbtree_mb_start(nxt_thread_t *thr)
{
uint32_t key;
uint64_t start, end;
nxt_uint_t i, n;
n = NXT_RBT_STEP;
mb_nodes = nxt_malloc(NXT_RBT_NODES * n * sizeof(nxt_rbtree_test_t));
if (mb_nodes == NULL) {
return NXT_ERROR;
}
nxt_rbtree_init(&mb_tree, nxt_rbtree_test_comparison);
key = 0;
for (i = 0; i < NXT_RBT_NODES; i++) {
key = nxt_murmur_hash2(&key, sizeof(uint32_t));
mb_nodes[n * i].key = key;
}
for (i = 0; i < NXT_RBT_NODES - 2; i++) {
nxt_rbtree_insert(&mb_tree, &mb_nodes[n * i].node);
}
n *= (NXT_RBT_NODES - 2);
start = nxt_rdtsc();
nxt_rbtree_insert(&mb_tree, &mb_nodes[n].node);
end = nxt_rdtsc();
nxt_log_error(NXT_LOG_NOTICE, thr->log,
"rbtree mb cached insert: %L cycles", end - start);
return NXT_OK;
}
void
nxt_rbtree_mb_insert(nxt_thread_t *thr)
{
uint64_t start, end;
nxt_uint_t n;
n = NXT_RBT_STEP;
n *= (NXT_RBT_NODES - 1);
start = nxt_rdtsc();
nxt_rbtree_insert(&mb_tree, &mb_nodes[n].node);
end = nxt_rdtsc();
nxt_log_error(NXT_LOG_NOTICE, thr->log,
"rbtree mb insert: %L cycles", end - start);
}
void
nxt_rbtree_mb_delete(nxt_thread_t *thr)
{
uint64_t start, end;
nxt_uint_t n;
n = NXT_RBT_STEP;
n *= (NXT_RBT_NODES / 4 + 1);
start = nxt_rdtsc();
nxt_rbtree_delete(&mb_tree, &mb_nodes[n].node);
end = nxt_rdtsc();
nxt_log_error(NXT_LOG_NOTICE, thr->log,
"rbtree mb delete: %L cycles", end - start);
nxt_free(mb_nodes);
}
#endif
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