def test_queue(self):
q = Queue()
self.assertEqual(True, q.is_empty())
self.assertEqual(0, q.size())
q.enqueue(1)
self.assertEqual(False, q.is_empty())
self.assertEqual(1, q.size())
q.enqueue(True)
q.enqueue("Hello, World")
self.assertEqual(3, q.size())
self.assertEqual(1, q.dequeue())
self.assertEqual(True, q.dequeue())
self.assertEqual(1, q.size())
q.dequeue()
self.assertEqual(True, q.is_empty())
def test_queue(self):
q = Queue()
self.assertEqual(True, q.is_empty())
self.assertEqual(0, q.size())
q.enqueue(1)
self.assertEqual(False, q.is_empty())
self.assertEqual(1, q.size())
q.enqueue(True)
q.enqueue("Hello, World")
self.assertEqual(3, q.size())
self.assertEqual(1, q.dequeue())
self.assertEqual(True, q.dequeue())
self.assertEqual(1, q.size())
q.dequeue()
self.assertEqual(True, q.is_empty())
def find_escape_position(total, count):
q = Queue()
for i in xrange(total):
q.enqueue(i + 1)
while q.size() > 1:
for i in xrange(count - 1):
item = q.dequeue()
q.enqueue(item)
q.dequeue()
return q.dequeue()
def find_escape_position(total, count):
q = Queue()
for i in xrange(total):
q.enqueue(i+1)
while q.size() > 1:
for i in xrange(count-1):
item = q.dequeue()
q.enqueue(item)
q.dequeue()
return q.dequeue()
def simulation(numSeconds, pagesPerMinute):
labprinter = Printer(pagesPerMinute)
printQueue = Queue()
waitingtimes = []
for currentSecond in range(numSeconds):
if newPrintTask():
task = Task(currentSecond)
printQueue.enqueue(task)
if (not labprinter.busy()) and (not printQueue.is_empty()):
nexttask = printQueue.dequeue()
waitingtimes.append(nexttask.waitTime(currentSecond))
labprinter.startNext(nexttask)
labprinter.tick()
averageWait = sum(waitingtimes) / len(waitingtimes)
print("Finished tasks %3d Average Wait %6.2f secs %3d tasks remaining." %
(len(waitingtimes), averageWait, printQueue.size()))
