305 lines
7.7 KiB
C
305 lines
7.7 KiB
C
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#include "test/jemalloc_test.h"
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#include "jemalloc/internal/mpsc_queue.h"
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typedef struct elem_s elem_t;
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typedef ql_head(elem_t) elem_list_t;
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typedef mpsc_queue(elem_t) elem_mpsc_queue_t;
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struct elem_s {
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int thread;
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int idx;
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ql_elm(elem_t) link;
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};
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/* Include both proto and gen to make sure they match up. */
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mpsc_queue_proto(static, elem_mpsc_queue_, elem_mpsc_queue_t, elem_t,
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elem_list_t);
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mpsc_queue_gen(static, elem_mpsc_queue_, elem_mpsc_queue_t, elem_t,
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elem_list_t, link);
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static void
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init_elems_simple(elem_t *elems, int nelems, int thread) {
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for (int i = 0; i < nelems; i++) {
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elems[i].thread = thread;
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elems[i].idx = i;
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ql_elm_new(&elems[i], link);
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}
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}
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static void
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check_elems_simple(elem_list_t *list, int nelems, int thread) {
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elem_t *elem;
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int next_idx = 0;
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ql_foreach(elem, list, link) {
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expect_d_lt(next_idx, nelems, "Too many list items");
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expect_d_eq(thread, elem->thread, "");
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expect_d_eq(next_idx, elem->idx, "List out of order");
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next_idx++;
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}
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}
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TEST_BEGIN(test_simple) {
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enum {NELEMS = 10};
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elem_t elems[NELEMS];
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elem_list_t list;
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elem_mpsc_queue_t queue;
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/* Pop empty queue onto empty list -> empty list */
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ql_new(&list);
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elem_mpsc_queue_new(&queue);
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elem_mpsc_queue_pop_batch(&queue, &list);
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expect_true(ql_empty(&list), "");
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/* Pop empty queue onto nonempty list -> list unchanged */
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ql_new(&list);
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elem_mpsc_queue_new(&queue);
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init_elems_simple(elems, NELEMS, 0);
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for (int i = 0; i < NELEMS; i++) {
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ql_tail_insert(&list, &elems[i], link);
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}
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elem_mpsc_queue_pop_batch(&queue, &list);
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check_elems_simple(&list, NELEMS, 0);
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/* Pop nonempty queue onto empty list -> list takes queue contents */
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ql_new(&list);
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elem_mpsc_queue_new(&queue);
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init_elems_simple(elems, NELEMS, 0);
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for (int i = 0; i < NELEMS; i++) {
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elem_mpsc_queue_push(&queue, &elems[i]);
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}
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elem_mpsc_queue_pop_batch(&queue, &list);
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check_elems_simple(&list, NELEMS, 0);
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/* Pop nonempty queue onto nonempty list -> list gains queue contents */
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ql_new(&list);
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elem_mpsc_queue_new(&queue);
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init_elems_simple(elems, NELEMS, 0);
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for (int i = 0; i < NELEMS / 2; i++) {
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ql_tail_insert(&list, &elems[i], link);
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}
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for (int i = NELEMS / 2; i < NELEMS; i++) {
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elem_mpsc_queue_push(&queue, &elems[i]);
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}
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elem_mpsc_queue_pop_batch(&queue, &list);
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check_elems_simple(&list, NELEMS, 0);
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}
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TEST_END
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TEST_BEGIN(test_push_single_or_batch) {
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enum {
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BATCH_MAX = 10,
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/*
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* We'll push i items one-at-a-time, then i items as a batch,
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* then i items as a batch again, as i ranges from 1 to
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* BATCH_MAX. So we need 3 times the sum of the numbers from 1
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* to BATCH_MAX elements total.
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*/
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NELEMS = 3 * BATCH_MAX * (BATCH_MAX - 1) / 2
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};
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elem_t elems[NELEMS];
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init_elems_simple(elems, NELEMS, 0);
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elem_list_t list;
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ql_new(&list);
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elem_mpsc_queue_t queue;
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elem_mpsc_queue_new(&queue);
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int next_idx = 0;
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for (int i = 1; i < 10; i++) {
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/* Push i items 1 at a time. */
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for (int j = 0; j < i; j++) {
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elem_mpsc_queue_push(&queue, &elems[next_idx]);
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next_idx++;
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}
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/* Push i items in batch. */
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for (int j = 0; j < i; j++) {
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ql_tail_insert(&list, &elems[next_idx], link);
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next_idx++;
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}
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elem_mpsc_queue_push_batch(&queue, &list);
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expect_true(ql_empty(&list), "Batch push should empty source");
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/*
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* Push i items in batch, again. This tests two batches
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* proceeding one after the other.
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*/
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for (int j = 0; j < i; j++) {
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ql_tail_insert(&list, &elems[next_idx], link);
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next_idx++;
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}
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elem_mpsc_queue_push_batch(&queue, &list);
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expect_true(ql_empty(&list), "Batch push should empty source");
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}
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expect_d_eq(NELEMS, next_idx, "Miscomputed number of elems to push.");
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expect_true(ql_empty(&list), "");
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elem_mpsc_queue_pop_batch(&queue, &list);
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check_elems_simple(&list, NELEMS, 0);
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}
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TEST_END
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TEST_BEGIN(test_multi_op) {
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enum {NELEMS = 20};
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elem_t elems[NELEMS];
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init_elems_simple(elems, NELEMS, 0);
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elem_list_t push_list;
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ql_new(&push_list);
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elem_list_t result_list;
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ql_new(&result_list);
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elem_mpsc_queue_t queue;
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elem_mpsc_queue_new(&queue);
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int next_idx = 0;
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/* Push first quarter 1-at-a-time. */
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for (int i = 0; i < NELEMS / 4; i++) {
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elem_mpsc_queue_push(&queue, &elems[next_idx]);
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next_idx++;
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}
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/* Push second quarter in batch. */
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for (int i = NELEMS / 4; i < NELEMS / 2; i++) {
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ql_tail_insert(&push_list, &elems[next_idx], link);
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next_idx++;
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}
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elem_mpsc_queue_push_batch(&queue, &push_list);
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/* Batch pop all pushed elements. */
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elem_mpsc_queue_pop_batch(&queue, &result_list);
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/* Push third quarter in batch. */
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for (int i = NELEMS / 2; i < 3 * NELEMS / 4; i++) {
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ql_tail_insert(&push_list, &elems[next_idx], link);
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next_idx++;
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}
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elem_mpsc_queue_push_batch(&queue, &push_list);
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/* Push last quarter one-at-a-time. */
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for (int i = 3 * NELEMS / 4; i < NELEMS; i++) {
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elem_mpsc_queue_push(&queue, &elems[next_idx]);
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next_idx++;
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}
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/* Pop them again. Order of existing list should be preserved. */
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elem_mpsc_queue_pop_batch(&queue, &result_list);
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check_elems_simple(&result_list, NELEMS, 0);
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}
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TEST_END
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typedef struct pusher_arg_s pusher_arg_t;
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struct pusher_arg_s {
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elem_mpsc_queue_t *queue;
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int thread;
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elem_t *elems;
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int nelems;
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};
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typedef struct popper_arg_s popper_arg_t;
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struct popper_arg_s {
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elem_mpsc_queue_t *queue;
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int npushers;
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int nelems_per_pusher;
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int *pusher_counts;
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};
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static void *
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thd_pusher(void *void_arg) {
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pusher_arg_t *arg = (pusher_arg_t *)void_arg;
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int next_idx = 0;
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while (next_idx < arg->nelems) {
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/* Push 10 items in batch. */
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elem_list_t list;
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ql_new(&list);
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int limit = next_idx + 10;
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while (next_idx < arg->nelems && next_idx < limit) {
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ql_tail_insert(&list, &arg->elems[next_idx], link);
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next_idx++;
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}
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elem_mpsc_queue_push_batch(arg->queue, &list);
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/* Push 10 items one-at-a-time. */
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limit = next_idx + 10;
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while (next_idx < arg->nelems && next_idx < limit) {
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elem_mpsc_queue_push(arg->queue, &arg->elems[next_idx]);
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next_idx++;
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}
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}
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return NULL;
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}
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static void *
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thd_popper(void *void_arg) {
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popper_arg_t *arg = (popper_arg_t *)void_arg;
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int done_pushers = 0;
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while (done_pushers < arg->npushers) {
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elem_list_t list;
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ql_new(&list);
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elem_mpsc_queue_pop_batch(arg->queue, &list);
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elem_t *elem;
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ql_foreach(elem, &list, link) {
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int thread = elem->thread;
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int idx = elem->idx;
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expect_d_eq(arg->pusher_counts[thread], idx,
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"Thread's pushes reordered");
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arg->pusher_counts[thread]++;
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if (arg->pusher_counts[thread]
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== arg->nelems_per_pusher) {
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done_pushers++;
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}
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}
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}
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return NULL;
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}
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TEST_BEGIN(test_multiple_threads) {
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enum {
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NPUSHERS = 4,
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NELEMS_PER_PUSHER = 1000*1000,
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};
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thd_t pushers[NPUSHERS];
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pusher_arg_t pusher_arg[NPUSHERS];
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thd_t popper;
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popper_arg_t popper_arg;
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elem_mpsc_queue_t queue;
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elem_mpsc_queue_new(&queue);
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elem_t *elems = calloc(NPUSHERS * NELEMS_PER_PUSHER, sizeof(elem_t));
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elem_t *elem_iter = elems;
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for (int i = 0; i < NPUSHERS; i++) {
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pusher_arg[i].queue = &queue;
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pusher_arg[i].thread = i;
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pusher_arg[i].elems = elem_iter;
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pusher_arg[i].nelems = NELEMS_PER_PUSHER;
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init_elems_simple(elem_iter, NELEMS_PER_PUSHER, i);
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elem_iter += NELEMS_PER_PUSHER;
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}
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popper_arg.queue = &queue;
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popper_arg.npushers = NPUSHERS;
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popper_arg.nelems_per_pusher = NELEMS_PER_PUSHER;
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int pusher_counts[NPUSHERS] = {0};
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popper_arg.pusher_counts = pusher_counts;
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thd_create(&popper, thd_popper, (void *)&popper_arg);
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for (int i = 0; i < NPUSHERS; i++) {
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thd_create(&pushers[i], thd_pusher, &pusher_arg[i]);
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}
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thd_join(popper, NULL);
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for (int i = 0; i < NPUSHERS; i++) {
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thd_join(pushers[i], NULL);
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}
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for (int i = 0; i < NPUSHERS; i++) {
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expect_d_eq(NELEMS_PER_PUSHER, pusher_counts[i], "");
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}
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free(elems);
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}
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TEST_END
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int
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main(void) {
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return test_no_reentrancy(
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test_simple,
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test_push_single_or_batch,
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test_multi_op,
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test_multiple_threads);
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}
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