import multiprocessing, threading import time import random ARROW_NUMBER = 150 MAX_CYCLES = 20000 SPACE_SIZE = 10000 PREEMPTION_GLOBAL_SPACE = [True] * SPACE_SIZE ARROW_LIST = [(random.randint(0,SPACE_SIZE - 1),0) for x in range(ARROW_NUMBER)] TRANSITIONS_TREE = None MAX_THREAD = 10 class CurrentlyComputing(Exception): pass class SuccessfulOperation(Exception): pass class FailedOperation(Exception): pass ## Local Threads class LocalThread(multiprocessing.Process): def __init__(self, id, shared_memory, address, orientation, transitions): multiprocessing.Process.__init__(self) self.id = id self.address = address self.orientation = orientation self.transitions = transitions self.namespace = shared_memory.Namespace() self.namespace.returncode = CurrentlyComputing() def run(self): try: # Actual code print("Thread local n°{} parle depuis {} !".format(self.id, self.address)) L = [random.randint(0,3000) for x in range(random.randint(0, 300))] for i in xrange(10000000): sum(range(100)) self.namespace.returncode = SuccessfulOperation() except Exception as exception: self.namespace.returncode = exception ## Master Thread class GreatScheduler(threading.Thread): def __init__(self, preemption_space, arrow_list, n_thread, nmax_cycles): threading.Thread.__init__(self) self.preemption_space = preemption_space self.arrow_list = arrow_list self.n_thread = n_thread self.cur_id = -1 self.n_cycle = -1 self.nmax_cycles = nmax_cycles self.stopped = False def run(self): thread_list = [] shared_memory = multiprocessing.Manager() while not self.stopped and self.n_cycle != self.nmax_cycles: self.n_cycle += 1 #print("--- Mesures et écoute ---") #print("Espace global de préemption :\t {}".format(self.preemption_space)) #print("Liste des flèches :\t {}".format(self.arrow_list)) ## Tirer une flêche au hasard n = int(random.random()*len(self.arrow_list)) elected_arrow = self.arrow_list[n] ## Vérification de l'espace global de préemption autour de la flêche if not(len(thread_list) >= self.n_thread) and self.preemption_space[elected_arrow[0]]: print("Espace local libre à {}".format(elected_arrow[0])) self.preemption_space[elected_arrow[0]] = False ## Création du thread local self.cur_id += 1 thread_list.append( LocalThread(self.cur_id, shared_memory, elected_arrow[0], elected_arrow[1], TRANSITIONS_TREE ) ) ## Lancer le thread local thread_list[-1].start() for thread in thread_list: if not thread.is_alive(): if not thread.namespace.returncode.__class__ is SuccessfulOperation: if thread.namespace.returncode.__class__ is FailedOperation: print("A optimiser : créer une règle") else: raise thread.namespace.returncode print("Thread local n°{} est terminé".format(thread.id)) self.preemption_space[thread.address] = True thread_list.pop(thread_list.index(thread)) ## Sortie du scheduler print("Attente de la fin des thread locaux") for thread in thread_list: thread.join() if not thread.namespace.returncode.__class__ is SuccessfulOperation: if thread.namespace.returncode.__class__ is FailedOperation: print("A optimiser : créer une règle") else: raise thread.namespace.returncode print("Thread local n°{} est terminé".format(thread.id)) class ServerCLI: def start(): stopped = False while not stopped: stopped = input() return #multiprocessing.set_start_method('fork') scheduler = GreatScheduler(PREEMPTION_GLOBAL_SPACE, ARROW_LIST, MAX_THREAD, MAX_CYCLES) scheduler.start() ServerCLI.start() scheduler.stopped = True