lib-python.2.5.test.test_dummy_thread.py Maven / Gradle / Ivy
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Jython is an implementation of the high-level, dynamic, object-oriented
language Python written in 100% Pure Java, and seamlessly integrated with
the Java platform. It thus allows you to run Python on any Java platform.
"""Generic thread tests.
Meant to be used by dummy_thread and thread. To allow for different modules
to be used, test_main() can be called with the module to use as the thread
implementation as its sole argument.
"""
import dummy_thread as _thread
import time
import Queue
import random
import unittest
from test import test_support
DELAY = 0 # Set > 0 when testing a module other than dummy_thread, such as
# the 'thread' module.
class LockTests(unittest.TestCase):
"""Test lock objects."""
def setUp(self):
# Create a lock
self.lock = _thread.allocate_lock()
def test_initlock(self):
#Make sure locks start locked
self.failUnless(not self.lock.locked(),
"Lock object is not initialized unlocked.")
def test_release(self):
# Test self.lock.release()
self.lock.acquire()
self.lock.release()
self.failUnless(not self.lock.locked(),
"Lock object did not release properly.")
def test_improper_release(self):
#Make sure release of an unlocked thread raises _thread.error
self.failUnlessRaises(_thread.error, self.lock.release)
def test_cond_acquire_success(self):
#Make sure the conditional acquiring of the lock works.
self.failUnless(self.lock.acquire(0),
"Conditional acquiring of the lock failed.")
def test_cond_acquire_fail(self):
#Test acquiring locked lock returns False
self.lock.acquire(0)
self.failUnless(not self.lock.acquire(0),
"Conditional acquiring of a locked lock incorrectly "
"succeeded.")
def test_uncond_acquire_success(self):
#Make sure unconditional acquiring of a lock works.
self.lock.acquire()
self.failUnless(self.lock.locked(),
"Uncondional locking failed.")
def test_uncond_acquire_return_val(self):
#Make sure that an unconditional locking returns True.
self.failUnless(self.lock.acquire(1) is True,
"Unconditional locking did not return True.")
self.failUnless(self.lock.acquire() is True)
def test_uncond_acquire_blocking(self):
#Make sure that unconditional acquiring of a locked lock blocks.
def delay_unlock(to_unlock, delay):
"""Hold on to lock for a set amount of time before unlocking."""
time.sleep(delay)
to_unlock.release()
self.lock.acquire()
start_time = int(time.time())
_thread.start_new_thread(delay_unlock,(self.lock, DELAY))
if test_support.verbose:
print
print "*** Waiting for thread to release the lock "\
"(approx. %s sec.) ***" % DELAY
self.lock.acquire()
end_time = int(time.time())
if test_support.verbose:
print "done"
self.failUnless((end_time - start_time) >= DELAY,
"Blocking by unconditional acquiring failed.")
class MiscTests(unittest.TestCase):
"""Miscellaneous tests."""
def test_exit(self):
#Make sure _thread.exit() raises SystemExit
self.failUnlessRaises(SystemExit, _thread.exit)
def test_ident(self):
#Test sanity of _thread.get_ident()
self.failUnless(isinstance(_thread.get_ident(), int),
"_thread.get_ident() returned a non-integer")
self.failUnless(_thread.get_ident() != 0,
"_thread.get_ident() returned 0")
def test_LockType(self):
#Make sure _thread.LockType is the same type as _thread.allocate_locke()
self.failUnless(isinstance(_thread.allocate_lock(), _thread.LockType),
"_thread.LockType is not an instance of what is "
"returned by _thread.allocate_lock()")
def test_interrupt_main(self):
#Calling start_new_thread with a function that executes interrupt_main
# should raise KeyboardInterrupt upon completion.
def call_interrupt():
_thread.interrupt_main()
self.failUnlessRaises(KeyboardInterrupt, _thread.start_new_thread,
call_interrupt, tuple())
def test_interrupt_in_main(self):
# Make sure that if interrupt_main is called in main threat that
# KeyboardInterrupt is raised instantly.
self.failUnlessRaises(KeyboardInterrupt, _thread.interrupt_main)
class ThreadTests(unittest.TestCase):
"""Test thread creation."""
def test_arg_passing(self):
#Make sure that parameter passing works.
def arg_tester(queue, arg1=False, arg2=False):
"""Use to test _thread.start_new_thread() passes args properly."""
queue.put((arg1, arg2))
testing_queue = Queue.Queue(1)
_thread.start_new_thread(arg_tester, (testing_queue, True, True))
result = testing_queue.get()
self.failUnless(result[0] and result[1],
"Argument passing for thread creation using tuple failed")
_thread.start_new_thread(arg_tester, tuple(), {'queue':testing_queue,
'arg1':True, 'arg2':True})
result = testing_queue.get()
self.failUnless(result[0] and result[1],
"Argument passing for thread creation using kwargs failed")
_thread.start_new_thread(arg_tester, (testing_queue, True), {'arg2':True})
result = testing_queue.get()
self.failUnless(result[0] and result[1],
"Argument passing for thread creation using both tuple"
" and kwargs failed")
def test_multi_creation(self):
#Make sure multiple threads can be created.
def queue_mark(queue, delay):
"""Wait for ``delay`` seconds and then put something into ``queue``"""
time.sleep(delay)
queue.put(_thread.get_ident())
thread_count = 5
testing_queue = Queue.Queue(thread_count)
if test_support.verbose:
print
print "*** Testing multiple thread creation "\
"(will take approx. %s to %s sec.) ***" % (DELAY, thread_count)
for count in xrange(thread_count):
if DELAY:
local_delay = round(random.random(), 1)
else:
local_delay = 0
_thread.start_new_thread(queue_mark,
(testing_queue, local_delay))
time.sleep(DELAY)
if test_support.verbose:
print 'done'
self.failUnless(testing_queue.qsize() == thread_count,
"Not all %s threads executed properly after %s sec." %
(thread_count, DELAY))
def test_main(imported_module=None):
global _thread, DELAY
if imported_module:
_thread = imported_module
DELAY = 2
if test_support.verbose:
print
print "*** Using %s as _thread module ***" % _thread
test_support.run_unittest(LockTests, MiscTests, ThreadTests)
if __name__ == '__main__':
test_main()