Added Classic UI test cases. Fixes to other existing test cases.
/*
* Copyright (c) 2010 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description:
*
*/
#undef G_DISABLE_ASSERT
#undef G_LOG_DOMAIN
#include <config.h>
#include <glib.h>
#include <stdio.h>
#ifdef SYMBIAN
#include <glib_global.h>
#include "mrt2_glib2_test.h"
#endif /*SYMBIAN*/
#define DEBUG_MSG(x)
/* #define DEBUG_MSG(args) g_printerr args ; g_printerr ("\n"); */
#define WAIT 5 /* seconds */
#define MAX_THREADS 10
/* if > 0 the test will run continously (since the test ends when
* thread count is 0), if -1 it means no limit to unused threads
* if 0 then no unused threads are possible */
#define MAX_UNUSED_THREADS -1
G_LOCK_DEFINE_STATIC (thread_counter_pools);
static gulong abs_thread_counter = 0;
static gulong running_thread_counter = 0;
static gulong leftover_task_counter = 0;
G_LOCK_DEFINE_STATIC (last_thread);
static guint last_thread_id = 0;
G_LOCK_DEFINE_STATIC (thread_counter_sort);
static gulong sort_thread_counter = 0;
static GThreadPool *idle_pool = NULL;
static GMainLoop *main_loop = NULL;
static void
test_thread_functions (void)
{
gint max_unused_threads;
guint max_idle_time;
/* This function attempts to call functions which don't need a
* threadpool to operate to make sure no uninitialised pointers
* accessed and no errors occur.
*/
max_unused_threads = 3;
DEBUG_MSG (("[funcs] Setting max unused threads to %d",
max_unused_threads));
g_thread_pool_set_max_unused_threads (max_unused_threads);
DEBUG_MSG (("[funcs] Getting max unused threads = %d",
g_thread_pool_get_max_unused_threads ()));
g_assert (g_thread_pool_get_max_unused_threads() == max_unused_threads);
DEBUG_MSG (("[funcs] Getting num unused threads = %d",
g_thread_pool_get_num_unused_threads ()));
g_assert (g_thread_pool_get_num_unused_threads () == 0);
DEBUG_MSG (("[funcs] Stopping unused threads"));
g_thread_pool_stop_unused_threads ();
max_idle_time = 10 * G_USEC_PER_SEC;
DEBUG_MSG (("[funcs] Setting max idle time to %d",
max_idle_time));
g_thread_pool_set_max_idle_time (max_idle_time);
DEBUG_MSG (("[funcs] Getting max idle time = %d",
g_thread_pool_get_max_idle_time ()));
g_assert (g_thread_pool_get_max_idle_time () == max_idle_time);
DEBUG_MSG (("[funcs] Setting max idle time to 0"));
g_thread_pool_set_max_idle_time (0);
DEBUG_MSG (("[funcs] Getting max idle time = %d",
g_thread_pool_get_max_idle_time ()));
g_assert (g_thread_pool_get_max_idle_time () == 0);
}
static void
test_count_threads_foreach (GThread *thread,
guint *count)
{
++*count;
}
static guint
test_count_threads (void)
{
guint count = 0;
g_thread_foreach ((GFunc) test_count_threads_foreach, &count);
/* Exclude main thread */
return count - 1;
}
static void
test_thread_stop_unused (void)
{
GThreadPool *pool;
guint i;
guint limit = 100;
/* Spawn a few threads. */
g_thread_pool_set_max_unused_threads (-1);
pool = g_thread_pool_new ((GFunc) g_usleep, NULL, -1, FALSE, NULL);
for (i = 0; i < limit; i++)
g_thread_pool_push (pool, GUINT_TO_POINTER (1000), NULL);
DEBUG_MSG (("[unused] ===> pushed %d threads onto the idle pool",
limit));
/* Wait for the threads to migrate. */
g_usleep (G_USEC_PER_SEC);
DEBUG_MSG (("[unused] current threads %d",
test_count_threads()));
DEBUG_MSG (("[unused] stopping unused threads"));
g_thread_pool_stop_unused_threads ();
DEBUG_MSG (("[unused] waiting ONE second for threads to die"));
/* Some time for threads to die. */
g_usleep (G_USEC_PER_SEC);
DEBUG_MSG (("[unused] stopped idle threads, %d remain, %d threads still exist",
g_thread_pool_get_num_unused_threads (),
test_count_threads ()));
g_assert (g_thread_pool_get_num_unused_threads () == test_count_threads ());
g_assert (g_thread_pool_get_num_unused_threads () == 0);
g_thread_pool_set_max_unused_threads (MAX_THREADS);
DEBUG_MSG (("[unused] cleaning up thread pool"));
g_thread_pool_free (pool, FALSE, TRUE);
}
static void
test_thread_pools_entry_func (gpointer data, gpointer user_data)
{
guint id = 0;
id = GPOINTER_TO_UINT (data);
DEBUG_MSG (("[pool] ---> [%3.3d] entered thread.", id));
G_LOCK (thread_counter_pools);
abs_thread_counter++;
running_thread_counter++;
G_UNLOCK (thread_counter_pools);
g_usleep (g_random_int_range (0, 4000));
G_LOCK (thread_counter_pools);
running_thread_counter--;
leftover_task_counter--;
DEBUG_MSG (("[pool] ---> [%3.3d] exiting thread (abs count:%ld, "
"running count:%ld, left over:%ld)",
id, abs_thread_counter,
running_thread_counter, leftover_task_counter));
G_UNLOCK (thread_counter_pools);
}
static void
test_thread_pools (void)
{
GThreadPool *pool1, *pool2, *pool3;
guint runs;
guint i;
pool1 = g_thread_pool_new ((GFunc)test_thread_pools_entry_func, NULL, 3, FALSE, NULL);
pool2 = g_thread_pool_new ((GFunc)test_thread_pools_entry_func, NULL, 5, TRUE, NULL);
pool3 = g_thread_pool_new ((GFunc)test_thread_pools_entry_func, NULL, 7, TRUE, NULL);
runs = 300;
for (i = 0; i < runs; i++)
{
g_thread_pool_push (pool1, GUINT_TO_POINTER (i + 1), NULL);
g_thread_pool_push (pool2, GUINT_TO_POINTER (i + 1), NULL);
g_thread_pool_push (pool3, GUINT_TO_POINTER (i + 1), NULL);
leftover_task_counter += 3;
}
g_thread_pool_free (pool1, TRUE, TRUE);
g_thread_pool_free (pool2, FALSE, TRUE);
g_thread_pool_free (pool3, FALSE, TRUE);
g_assert (runs * 3 == abs_thread_counter + leftover_task_counter);
g_assert (running_thread_counter == 0);
}
static gint
test_thread_sort_compare_func (gconstpointer a, gconstpointer b, gpointer user_data)
{
guint32 id1, id2;
id1 = GPOINTER_TO_UINT (a);
id2 = GPOINTER_TO_UINT (b);
return (id1 > id2 ? +1 : id1 == id2 ? 0 : -1);
}
static void
test_thread_sort_entry_func (gpointer data, gpointer user_data)
{
guint thread_id;
gboolean is_sorted;
G_LOCK (last_thread);
thread_id = GPOINTER_TO_UINT (data);
is_sorted = GPOINTER_TO_INT (user_data);
DEBUG_MSG (("%s ---> entered thread:%2.2d, last thread:%2.2d",
is_sorted ? "[ sorted]" : "[unsorted]",
thread_id, last_thread_id));
if (is_sorted) {
static gboolean last_failed = FALSE;
if (last_thread_id > thread_id) {
if (last_failed) {
g_assert (last_thread_id <= thread_id);
}
/* Here we remember one fail and if it concurrently fails, it
* can not be sorted. the last thread id might be < this thread
* id if something is added to the queue since threads were
* created
*/
last_failed = TRUE;
} else {
last_failed = FALSE;
}
last_thread_id = thread_id;
}
G_UNLOCK (last_thread);
g_usleep (WAIT * 1000);
}
static void
test_thread_sort (gboolean sort)
{
GThreadPool *pool;
guint limit;
guint max_threads;
gint i;
limit = MAX_THREADS * 10;
if (sort) {
max_threads = 1;
} else {
max_threads = MAX_THREADS;
}
/* It is important that we only have a maximum of 1 thread for this
* test since the results can not be guranteed to be sorted if > 1.
*
* Threads are scheduled by the operating system and are executed at
* random. It cannot be assumed that threads are executed in the
* order they are created. This was discussed in bug #334943.
*/
pool = g_thread_pool_new (test_thread_sort_entry_func,
GINT_TO_POINTER (sort),
max_threads,
FALSE,
NULL);
g_thread_pool_set_max_unused_threads (MAX_UNUSED_THREADS);
if (sort) {
g_thread_pool_set_sort_function (pool,
test_thread_sort_compare_func,
GUINT_TO_POINTER (69));
}
for (i = 0; i < limit; i++) {
guint id;
id = g_random_int_range (1, limit) + 1;
g_thread_pool_push (pool, GUINT_TO_POINTER (id), NULL);
DEBUG_MSG (("%s ===> pushed new thread with id:%d, number "
"of threads:%d, unprocessed:%d",
sort ? "[ sorted]" : "[unsorted]",
id,
g_thread_pool_get_num_threads (pool),
g_thread_pool_unprocessed (pool)));
}
g_assert (g_thread_pool_get_max_threads (pool) == max_threads);
g_assert (g_thread_pool_get_num_threads (pool) == g_thread_pool_get_max_threads (pool));
}
static void
test_thread_idle_time_entry_func (gpointer data, gpointer user_data)
{
guint thread_id;
thread_id = GPOINTER_TO_UINT (data);
DEBUG_MSG (("[idle] ---> entered thread:%2.2d", thread_id));
g_usleep (WAIT * 1000);
DEBUG_MSG (("[idle] <--- exiting thread:%2.2d", thread_id));
}
static gboolean
test_thread_idle_timeout (gpointer data)
{
guint interval;
gint i;
interval = GPOINTER_TO_UINT (data);
for (i = 0; i < 2; i++) {
g_thread_pool_push (idle_pool, GUINT_TO_POINTER (100 + i), NULL);
DEBUG_MSG (("[idle] ===> pushed new thread with id:%d, number "
"of threads:%d, unprocessed:%d",
100 + i,
g_thread_pool_get_num_threads (idle_pool),
g_thread_pool_unprocessed (idle_pool)));
}
return FALSE;
}
static void
test_thread_idle_time ()
{
guint limit = 50;
guint interval = 10000;
gint i;
idle_pool = g_thread_pool_new (test_thread_idle_time_entry_func,
NULL,
MAX_THREADS,
FALSE,
NULL);
g_thread_pool_set_max_unused_threads (MAX_UNUSED_THREADS);
g_thread_pool_set_max_idle_time (interval);
g_assert (g_thread_pool_get_max_unused_threads () == MAX_UNUSED_THREADS);
g_assert (g_thread_pool_get_max_idle_time () == interval);
for (i = 0; i < limit; i++) {
g_thread_pool_push (idle_pool, GUINT_TO_POINTER (i + 1), NULL);
DEBUG_MSG (("[idle] ===> pushed new thread with id:%d, "
"number of threads:%d, unprocessed:%d",
i,
g_thread_pool_get_num_threads (idle_pool),
g_thread_pool_unprocessed (idle_pool)));
}
g_timeout_add ((interval - 1000),
test_thread_idle_timeout,
GUINT_TO_POINTER (interval));
}
static gboolean
test_check_start_and_stop (gpointer user_data)
{
static guint test_number = 0;
static gboolean run_next = FALSE;
gboolean continue_timeout = TRUE;
gboolean quit = TRUE;
if (test_number == 0) {
run_next = TRUE;
DEBUG_MSG (("***** RUNNING TEST %2.2d *****", test_number));
}
if (run_next) {
test_number++;
switch (test_number) {
case 1:
test_thread_functions ();
break;
case 2:
test_thread_stop_unused ();
break;
case 3:
test_thread_pools ();
break;
case 4:
test_thread_sort (FALSE);
break;
case 5:
test_thread_sort (TRUE);
break;
case 6:
test_thread_idle_time ();
break;
default:
DEBUG_MSG (("***** END OF TESTS *****"));
g_main_loop_quit (main_loop);
continue_timeout = FALSE;
break;
}
run_next = FALSE;
return TRUE;
}
if (test_number == 3) {
G_LOCK (thread_counter_pools);
quit &= running_thread_counter <= 0;
DEBUG_MSG (("***** POOL RUNNING THREAD COUNT:%ld",
running_thread_counter));
G_UNLOCK (thread_counter_pools);
}
if (test_number == 4 || test_number == 5) {
G_LOCK (thread_counter_sort);
quit &= sort_thread_counter <= 0;
DEBUG_MSG (("***** POOL SORT THREAD COUNT:%ld",
sort_thread_counter));
G_UNLOCK (thread_counter_sort);
}
if (test_number == 6) {
guint idle;
idle = g_thread_pool_get_num_unused_threads ();
quit &= idle < 1;
DEBUG_MSG (("***** POOL IDLE THREAD COUNT:%d, UNPROCESSED JOBS:%d",
idle, g_thread_pool_unprocessed (idle_pool)));
}
if (quit) {
run_next = TRUE;
}
return continue_timeout;
}
int
main (int argc, char *argv[])
{
/* Only run the test, if threads are enabled and a default thread
implementation is available */
#ifdef SYMBIAN
guint g_thread_pool_unprocessed_op = -1;
guint res;
#endif //SYMBIAN
#if defined(G_THREADS_ENABLED) && ! defined(G_THREADS_IMPL_NONE)
g_thread_init (NULL);
DEBUG_MSG (("Starting... (in one second)"));
g_timeout_add (1000, test_check_start_and_stop, NULL);
main_loop = g_main_loop_new (NULL, FALSE);
g_main_loop_run (main_loop);
#endif
#ifdef SYMBIAN
testResultXml("threadpool-test");
#endif /* EMULATOR */
return 0;
}