#include "skiplist.h"
#include "hashtable.h"
#include "lwt.h"
+#include "mem.h"
+#include "rcu.h"
#define ASSERT_EQUAL(x, y) CuAssertIntEquals(tc, x, y)
#ifdef TEST_STRING_KEYS
map_t *map = map_alloc(map_type_, &DATATYPE_NSTRING);
- nstring_t *k1 = ns_alloc(3); strcpy(k1->data, "k1");
- nstring_t *k2 = ns_alloc(3); strcpy(k1->data, "k2");
- nstring_t *k3 = ns_alloc(3); strcpy(k1->data, "k3");
- nstring_t *k4 = ns_alloc(3); strcpy(k1->data, "k4");
+ nstring_t *s1 = ns_alloc(3); strcpy(s1->data, "k1");
+ nstring_t *s2 = ns_alloc(3); strcpy(s2->data, "k2");
+ nstring_t *s3 = ns_alloc(3); strcpy(s3->data, "k3");
+ nstring_t *s4 = ns_alloc(3); strcpy(s4->data, "k4");
+ map_key_t k1 = (map_key_t)s1;
+ map_key_t k2 = (map_key_t)s2;
+ map_key_t k3 = (map_key_t)s3;
+ map_key_t k4 = (map_key_t)s4;
#else
map_t *map = map_alloc(map_type_, NULL);
map_key_t k1 = (map_key_t)1;
rcu_update(); // In a quiecent state.
#ifdef TEST_STRING_KEYS
- nbd_free(k1); nbd_free(k2); nbd_free(k3); nbd_free(k4);
+ nbd_free(s1); nbd_free(s2); nbd_free(s3); nbd_free(s4);
#endif
}
void *add_remove_worker (void *arg) {
+ nbd_thread_init();
+
worker_data_t *wd = (worker_data_t *)arg;
map_t *map = wd->map;
CuTest* tc = wd->tc;
int d = wd->id;
- int iters = 10000;
+ int iters = (map_type_ == &MAP_IMPL_LL ? 10000 : 100000);
- SYNC_ADD(wd->wait, -1);
+ (void)SYNC_ADD(wd->wait, -1);
do { } while (*wd->wait); // wait for all workers to be ready
-#ifdef TEST_STRING_KEYS
- nstring_t *key = ns_alloc(9);
-#else
map_key_t key;
+#ifdef TEST_STRING_KEYS
+ nstring_t *s = ns_alloc(9);
+ key = (map_key_t)s;
#endif
for (int j = 0; j < 10; ++j) {
for (int i = d+1; i < iters; i+=2) {
#ifdef TEST_STRING_KEYS
- memset(key->data, 0, key->len);
- snprintf(key->data, key->len, "%llu", i);
+ s->len = 1 + snprintf(s->data, 9, "%u", i);
#else
key = (map_key_t)i;
#endif
}
for (int i = d+1; i < iters; i+=2) {
#ifdef TEST_STRING_KEYS
- memset(key->data, 0, key->len);
- snprintf(key->data, key->len, "%u", i);
+ s->len = 1 + snprintf(s->data, 9, "%u", i);
#else
key = (map_key_t)i;
#endif
rcu_update(); // In a quiecent state.
}
}
+#ifdef TEST_STRING_KEYS
+ nbd_free(s);
+#endif
return NULL;
}
pthread_t thread[2];
worker_data_t wd[2];
- static const int num_threads = 2;
- volatile int wait = num_threads;
+ volatile int wait = 2;
#ifdef TEST_STRING_KEYS
map_t *map = map_alloc(map_type_, &DATATYPE_NSTRING);
#else
// In 2 threads, add & remove even & odd elements concurrently
int i;
- for (i = 0; i < num_threads; ++i) {
+ for (i = 0; i < 2; ++i) {
wd[i].id = i;
wd[i].tc = tc;
wd[i].map = map;
wd[i].wait = &wait;
- int rc = nbd_thread_create(thread + i, i, add_remove_worker, wd + i);
+ int rc = pthread_create(thread + i, NULL, add_remove_worker, wd + i);
if (rc != 0) { perror("nbd_thread_create"); return; }
}
- for (i = 0; i < num_threads; ++i) {
+ for (i = 0; i < 2; ++i) {
pthread_join(thread[i], NULL);
}
gettimeofday(&tv2, NULL);
int ms = (int)(1000000*(tv2.tv_sec - tv1.tv_sec) + tv2.tv_usec - tv1.tv_usec) / 1000;
- map_print(map);
- printf("Th:%d Time:%dms\n", num_threads, ms);
+ map_print(map, FALSE);
+ printf("Time:%dms\n", ms);
fflush(stdout);
// In the end, all members should be removed
void basic_iteration_test (CuTest* tc) {
#ifdef TEST_STRING_KEYS
map_t *map = map_alloc(map_type_, &DATATYPE_NSTRING);
- nstring_t *k1 = ns_alloc(3); strcpy(k1->data, "k1");
- nstring_t *k2 = ns_alloc(3); strcpy(k1->data, "k2");
+ nstring_t *s1 = ns_alloc(3); strcpy(s1->data, "k1");
+ nstring_t *s2 = ns_alloc(3); strcpy(s2->data, "k2");
+ map_key_t k1 = (map_key_t)s1;
+ map_key_t k2 = (map_key_t)s2;
nstring_t *x_k;
nstring_t *y_k;
#else
map_val_t x_v, y_v;
map_iter_t *iter = map_iter_begin(map, 0);
- x_v = map_iter_next(iter, &x_k);
- y_v = map_iter_next(iter, &y_k);
+ x_v = map_iter_next(iter, (map_key_t *)&x_k);
+ y_v = map_iter_next(iter, (map_key_t *)&y_k);
ASSERT_EQUAL( DOES_NOT_EXIST, map_iter_next(iter, NULL) );
map_iter_free(iter);
#ifdef TEST_STRING_KEYS
- ASSERT_EQUAL( TRUE, (ns_cmp(x_k, k1) == 0 && x_v == 1) || (ns_cmp(y_k, k1) == 0 && y_v == 1) );
- ASSERT_EQUAL( TRUE, (ns_cmp(x_k, k2) == 0 && x_v == 2) || (ns_cmp(y_k, k2) == 0 && y_v == 2) );
- nbd_free(k1);
- nbd_free(k2);
+ ASSERT_EQUAL( TRUE, (ns_cmp(x_k, s1) == 0 && x_v == 1) || (ns_cmp(y_k, s1) == 0 && y_v == 1) );
+ ASSERT_EQUAL( TRUE, (ns_cmp(x_k, s2) == 0 && x_v == 2) || (ns_cmp(y_k, s2) == 0 && y_v == 2) );
+ nbd_free(s1);
+ nbd_free(s2);
#else
ASSERT_EQUAL( TRUE, (x_k == k1 && x_v == 1) || (y_k == k1 && y_v == 1) );
ASSERT_EQUAL( TRUE, (x_k == k2 && x_v == 2) || (y_k == k2 && y_v == 2) );
#ifdef TEST_STRING_KEYS
map_t *map = map_alloc(map_type_, &DATATYPE_NSTRING);
- nstring_t *key = ns_alloc(9);
- nstring_t *k3 = ns_alloc(3); strcpy(k1->data, "k3");
- nstring_t *k4 = ns_alloc(3); strcpy(k1->data, "k4");
+ nstring_t *s = ns_alloc(9);
+ nstring_t *s3 = ns_alloc(3); strcpy(s3->data, "k3");
+ nstring_t *s4 = ns_alloc(3); strcpy(s4->data, "k4");
+ map_key_t k3 = (map_key_t)s3;
+ map_key_t k4 = (map_key_t)s4;
+ map_key_t key = (map_key_t)s;
#else
map_t *map = map_alloc(map_type_, NULL);
map_key_t k3 = (map_key_t)3;
map_key_t key;
#endif
- for (size_t i = 1; i <= n; ++i) {
+ for (int i = 1; i <= n; ++i) {
#ifdef TEST_STRING_KEYS
- memset(key->data, 0, key->len);
- snprintf(key->data, key->len, "k%llu", i);
+ s->len = 1 + snprintf(s->data, 9, "k%d", i);
#else
key = (map_key_t)i;
#endif
ASSERT_EQUAL(n*(n+1)/2 - (3+4), sum);
#ifdef TEST_STRING_KEYS
- nbd_free(key);
+ nbd_free(s);
#endif
}
int main (void) {
+ nbd_thread_init();
+ lwt_set_trace_level("r0m3l2t0");
- nbd_init();
- lwt_set_trace_level("h3");
-
- static const map_impl_t *map_types[] = { &ll_map_impl, &sl_map_impl, &ht_map_impl };
+ static const map_impl_t *map_types[] = { &MAP_IMPL_LL, &MAP_IMPL_SL, &MAP_IMPL_HT };
for (int i = 0; i < sizeof(map_types)/sizeof(*map_types); ++i) {
map_type_ = map_types[i];
CuString *output = CuStringNew();
CuSuite* suite = CuSuiteNew();
- SUITE_ADD_TEST(suite, basic_test);
- SUITE_ADD_TEST(suite, basic_iteration_test);
- SUITE_ADD_TEST(suite, big_iteration_test);
SUITE_ADD_TEST(suite, concurrent_add_remove_test);
+// SUITE_ADD_TEST(suite, basic_test);
+// SUITE_ADD_TEST(suite, basic_iteration_test);
+// SUITE_ADD_TEST(suite, big_iteration_test);
CuSuiteRun(suite);
CuSuiteDetails(suite, output);