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// $Id$
// ============================================================================
//
// = LIBRARY
// tests
//
// = FILENAME
// Timer_Queue_Test.cpp
//
// = DESCRIPTION
// This is a simple test of <ACE_Timer_Queue> and four of its
// subclasses (<ACE_Timer_List>, <ACE_Timer_Heap>, <ACE_Timer_Wheel>, and
// <ACE_Timer_Hash>). The test sets up a bunch of timers and then adds
// them to a timer queue. The functionality of the timer queue is then
// tested. No command line arguments are needed to run the test.
//
// = AUTHORS
// Douglas C. Schmidt, Prashant Jain, and Darrell Brunsch
//
// ============================================================================
#include "test_config.h"
#include "ace/Profile_Timer.h"
#include "ace/Timer_Queue.h"
#include "ace/Timer_List.h"
#include "ace/Timer_Heap.h"
#include "ace/Timer_Wheel.h"
#include "ace/Timer_Hash.h"
#include "ace/Timer_Queue.h"
ACE_RCSID(tests, Timer_Queue_Test, "$Id$")
#if defined(__BORLANDC__) && __BORLANDC__ >= 0x0530
USELIB("..\ace\aced.lib");
//---------------------------------------------------------------------------
#endif /* defined(__BORLANDC__) && __BORLANDC__ >= 0x0530 */
template <class T> void
randomize_array (T array[], size_t size)
{
size_t i;
// Randomize the array.
for (i = 0; i < size; i++)
{
int index = ACE_OS::rand() % size--;
T temp = array [index];
array [index] = array [size];
array [size] = temp;
}
}
// Number of iterations for the performance tests. Some platforms have a very
// high ACE_DEFAULT_TIMERS (HP-UX is 400), so limit this to a reasonable run
// time.
#if (ACE_DEFAULT_TIMERS > 20)
static int max_iterations = 2000;
#else
static int max_iterations = ACE_DEFAULT_TIMERS * 100;
#endif
// Keep track of the timer ids that were assigned to us.
static long *timer_ids = 0;
class Example_Handler : public ACE_Event_Handler
{
public:
Example_Handler (void): close_count_ (0) {}
virtual int handle_close (ACE_HANDLE, ACE_Reactor_Mask mask)
{
ACE_ASSERT (mask == ACE_Event_Handler::TIMER_MASK);
this->close_count_++;
return 0;
}
virtual int handle_timeout (const ACE_Time_Value &,
const void *arg)
{
ACE_ASSERT (arg == (const void *) 42 || arg == (const void *)007);
if (arg != (const void *)42)
return -1;
else
return 0;
}
int close_count_;
// Keeps track of the number of times that <handle_close> is called.
};
static void
test_functionality (ACE_Timer_Queue *tq)
{
Example_Handler eh;
ACE_ASSERT (tq->is_empty ());
ACE_ASSERT (ACE_Time_Value::zero == ACE_Time_Value (0));
long timer_id, timer_id2;
// Do a test on earliest_time
ACE_Time_Value earliest_time = tq->gettimeofday ();
timer_id = tq->schedule (&eh, (const void *) 1,
earliest_time);
ACE_OS::sleep (ACE_Time_Value (0, 10));
timer_id2 = tq->schedule (&eh, (const void *) 1,
tq->gettimeofday ());
ACE_ASSERT (tq->earliest_time () == earliest_time);
tq->cancel (timer_id);
tq->cancel (timer_id2);
timer_id = tq->schedule (&eh, (const void *) 1,
tq->gettimeofday ());
ACE_ASSERT (timer_id != -1);
ACE_ASSERT (tq->is_empty () == 0); //==
ACE_ASSERT (tq->schedule (&eh, (const void *) 42,
tq->gettimeofday ()) != -1);
ACE_ASSERT (tq->is_empty () == 0); //==
ACE_ASSERT (tq->schedule (&eh, (const void *) 42,
tq->gettimeofday ()) != -1);
ACE_ASSERT (tq->is_empty () == 0); //==
// The following method will trigger a call to <handle_close>.
ACE_ASSERT (tq->cancel (timer_id, 0, 0) == 1);
ACE_ASSERT (tq->is_empty () == 0);
ACE_ASSERT (tq->expire () == 2);
ACE_ASSERT (tq->schedule (&eh, (const void *) 007,
tq->gettimeofday ()) != -1);
ACE_ASSERT (tq->schedule (&eh, (const void *) 42,
tq->gettimeofday () + ACE_Time_Value (100)) != -1);
ACE_ASSERT (tq->schedule (&eh, (const void *) 42,
tq->gettimeofday () + ACE_Time_Value (100)) != -1);
// The following will trigger a call to <handle_close> when
// it cancels the second timer. This happens because the first
// timer has an <act> of 007, which causes eh.handle_timeout () to
// return -1. Since -1 is returned, all timers that use <eh> will
// be cancelled (and <handle_close> will only be called on the first
// timer that is cancelled).
ACE_ASSERT (tq->expire () == 1);
ACE_ASSERT (tq->is_empty () != 0);
ACE_ASSERT (tq->schedule (&eh, (const void *) 4,
tq->gettimeofday ()) != -1);
ACE_ASSERT (tq->schedule (&eh, (const void *) 5,
tq->gettimeofday ()) != -1);
// The following method will trigger a call to <handle_close>.
ACE_ASSERT (tq->cancel (&eh, 0) == 2);
ACE_ASSERT (tq->is_empty ());
ACE_ASSERT (tq->expire () == 0);
// This tests to make sure that <handle_close> is called when there
// is only one timer of the type in the queue
ACE_ASSERT (tq->schedule (&eh, (const void *) 007,
tq->gettimeofday ()) != -1);
ACE_ASSERT (tq->expire () == 1);
timer_id = tq->schedule (&eh, (const void *) 6,
tq->gettimeofday ());
ACE_ASSERT (timer_id != -1);
ACE_ASSERT (tq->schedule (&eh, (const void *) 7,
tq->gettimeofday ()) != -1);
// The following method will *not* trigger a call to <handle_close>.
ACE_ASSERT (tq->cancel (timer_id) == 1);
ACE_ASSERT (tq->cancel (&eh) == 1);
ACE_ASSERT (tq->expire () == 0);
ACE_ASSERT (eh.close_count_ == 4);
}
static void
test_performance (ACE_Timer_Queue *tq,
const ASYS_TCHAR *test_name)
{
Example_Handler eh;
ACE_Profile_Timer timer;
int i;
ACE_ASSERT (tq->is_empty ());
ACE_ASSERT (ACE_Time_Value::zero == ACE_Time_Value (0));
// Test the amount of time required to schedule all the timers.
ACE_Time_Value *times;
ACE_NEW (times, ACE_Time_Value[max_iterations]);
for (i = 0; i < max_iterations; i++)
times[i] = tq->gettimeofday ();
timer.start ();
for (i = 0; i < max_iterations; i++)
{
timer_ids[i] = tq->schedule (&eh,
(const void *) 42,
times[i]);
ACE_ASSERT (timer_ids[i] != -1);
}
ACE_ASSERT (tq->is_empty () == 0);
timer.stop ();
ACE_Profile_Timer::ACE_Elapsed_Time et;
timer.elapsed_time (et);
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("time to schedule %d timers for %s\n"),
max_iterations, test_name));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("real time = %f secs, user time = %f secs, system time = %f secs\n"),
et.real_time, et.user_time, et.system_time));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("time per call = %f usecs\n"),
(et.user_time / ACE_timer_t (max_iterations)) * 1000000));
// Test the amount of time required to cancel all the timers.
timer.start ();
for (i = max_iterations - 1; i >= 0; i--)
tq->cancel (timer_ids[i]);
timer.stop ();
ACE_ASSERT (tq->is_empty ());
timer.elapsed_time (et);
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("time to cancel %d timers for %s\n"),
max_iterations, test_name));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("real time = %f secs, user time = %f secs, system time = %f secs\n"),
et.real_time, et.user_time, et.system_time));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("time per call = %f usecs\n"),
(et.user_time / ACE_timer_t (max_iterations)) * 1000000));
// Test the amount of time required to schedule and expire all the
// timers.
timer.start ();
for (i = 0; i < max_iterations; i++)
ACE_ASSERT (tq->schedule (&eh,
(const void *) 42,
tq->gettimeofday ()) != -1);
ACE_ASSERT (tq->is_empty () == 0);
// Expire all the timers.
tq->expire ();
timer.stop ();
if (!tq->is_empty ())
{
ACE_OS::sleep (ACE_Time_Value (1));
tq->expire ();
}
ACE_ASSERT (tq->is_empty ());
timer.elapsed_time (et);
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("time to schedule and expire %d timers for %s\n"),
max_iterations, test_name));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("real time = %f secs, user time = %f secs, system time = %f secs\n"),
et.real_time, et.user_time, et.system_time));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("time per call = %f usecs\n"),
(et.user_time / ACE_timer_t (max_iterations)) * 1000000));
// Test the amount of time required to randomly cancel all the
// timers.
for (i = 0; i < max_iterations; i++)
{
timer_ids[i] = tq->schedule (&eh,
(const void *) 42,
tq->gettimeofday ());
ACE_ASSERT (timer_ids[i] != -1);
}
ACE_ASSERT (tq->is_empty () == 0);
timer.start ();
for (i = max_iterations - 1; i >= 0; i--)
tq->cancel (timer_ids[i]);
if (!tq->is_empty ())
{
ACE_OS::sleep (ACE_Time_Value (1));
tq->expire ();
}
ACE_ASSERT (tq->is_empty ());
timer.stop ();
timer.elapsed_time (et);
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("time to randomly cancel %d timers for %s\n"),
max_iterations, test_name));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("real time = %f secs, user time = %f secs, system time = %f secs\n"),
et.real_time, et.user_time, et.system_time));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("time per call = %f usecs\n"),
(et.user_time / ACE_timer_t (max_iterations)) * 1000000));
// Test the amount of time required to randomly schedule all the timers.
ACE_Time_Value now = tq->gettimeofday ();
for (i = 0; i < max_iterations; i++)
times[i] = now - ACE_Time_Value (0, ACE_OS::rand () % 1000000);
timer.start ();
for (i = 0; i < max_iterations; i++)
{
timer_ids[i] = tq->schedule (&eh,
(const void *) 42,
times[i]);
ACE_ASSERT (timer_ids[i] != -1);
}
timer.stop ();
ACE_ASSERT (tq->is_empty () == 0);
timer.elapsed_time (et);
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("time to randomly schedule %d timers for %s\n"),
max_iterations, test_name));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("real time = %f secs, user time = %f secs, system time = %f secs\n"),
et.real_time, et.user_time, et.system_time));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("time per call = %f usecs\n"),
(et.user_time / ACE_timer_t (max_iterations)) * 1000000));
// Test the amount of time required to cancel all the timers.
timer.start ();
tq->expire ();
if (!tq->is_empty ())
{
ACE_OS::sleep (ACE_Time_Value (1));
tq->expire ();
}
ACE_ASSERT (tq->is_empty ());
timer.stop ();
timer.elapsed_time (et);
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("time to expire %d randomly scheduled timers for %s\n"),
max_iterations, test_name));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("real time = %f secs, user time = %f secs, system time = %f secs\n"),
et.real_time, et.user_time, et.system_time));
ACE_DEBUG ((LM_DEBUG,
ASYS_TEXT ("time per call = %f usecs\n"),
(et.user_time / ACE_timer_t (max_iterations)) * 1000000));
delete [] times;
}
struct Timer_Queue_List
{
Timer_Queue_List (ACE_Timer_Queue *queue, const ASYS_TCHAR *name, Timer_Queue_List *next = NULL)
: queue_ (queue),
name_ (name),
next_ (next)
{}
ACE_Timer_Queue *queue_;
// Pointer to the subclass of <ACE_Timer_Queue> that we're testing.
const ASYS_TCHAR *name_;
// Name of the Queue that we're testing.
Timer_Queue_List *next_;
// Pointer to the next <Timer_Queues> structure
};
int
main (int argc, ASYS_TCHAR *argv[])
{
ACE_START_TEST (ASYS_TEXT ("Timer_Queue_Test"));
ACE_OS::srand (ACE_OS::time (0L));
if (argc > 1)
max_iterations = ACE_OS::atoi (argv[1]);
// = Perform initializations.
Timer_Queue_List *tq_list = NULL;
// Add new Timer_Queue implementations here.
// Timer_Hash (Heap)
ACE_NEW_RETURN (tq_list,
Timer_Queue_List (new ACE_Timer_Hash_Heap,
ASYS_TEXT ("ACE_Timer_Hash (Heap)"),
tq_list),
-1);
// Timer_Hash
ACE_NEW_RETURN (tq_list,
Timer_Queue_List (new ACE_Timer_Hash,
ASYS_TEXT ("ACE_Timer_Hash"),
tq_list),
-1);
// Timer_List
ACE_NEW_RETURN (tq_list,
Timer_Queue_List (new ACE_Timer_List,
ASYS_TEXT ("ACE_Timer_List"),
tq_list),
-1);
// Timer_Wheel without preallocated memory
ACE_NEW_RETURN (tq_list,
Timer_Queue_List (new ACE_Timer_Wheel,
ASYS_TEXT ("ACE_Timer_Wheel (non-preallocated)"),
tq_list),
-1);
// Timer_Wheel with preallocated memory.
ACE_NEW_RETURN (tq_list,
Timer_Queue_List (new ACE_Timer_Wheel (ACE_DEFAULT_TIMER_WHEEL_SIZE,
ACE_DEFAULT_TIMER_WHEEL_RESOLUTION,
max_iterations),
ASYS_TEXT ("ACE_Timer_Wheel (preallocated)"),
tq_list),
-1);
// Timer_Heap without preallocated memory.
ACE_NEW_RETURN (tq_list,
Timer_Queue_List (new ACE_Timer_Heap,
ASYS_TEXT ("ACE_Timer_Heap (non-preallocated)"),
tq_list),
-1);
// Timer_Heap with preallocate memory.
ACE_NEW_RETURN (tq_list,
Timer_Queue_List (new ACE_Timer_Heap (max_iterations, 1),
ASYS_TEXT ("ACE_Timer_Heap (preallocated)"),
tq_list),
-1);
// Create the Timer ID array
ACE_NEW_RETURN (timer_ids,
long[max_iterations],
-1);
Timer_Queue_List *tq_ptr = tq_list;
while (tq_ptr != NULL)
{
ACE_DEBUG ((LM_DEBUG, ASYS_TEXT ("**** starting test of %s\n"),
tq_ptr->name_));
test_functionality (tq_ptr->queue_);
test_performance (tq_ptr->queue_,
tq_ptr->name_);
delete tq_ptr->queue_;
Timer_Queue_List *temp = tq_ptr;
tq_ptr = tq_ptr->next_;
delete temp;
}
delete [] timer_ids;
ACE_END_TEST;
return 0;
}
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