Exemplo n.º 1
0
    def __init__(self, priority=False, monitorQ=False, \
                 unitName="packet", capacity="unbounded", \
                 initialBuffered=None, **kwargs):
        """Constructor.

        :param priority:  Boolean; if True, use priority queueing.
        :param monitorQ:  Boolean; if True, support `enQ`, `deQ`, and `drp`.
        :param unitName:  Description of units stored in `Queue`.
        :param capacity:  Capacity of underlying Store [default='unbounded'].
        :param initialBuffered: Initialize list of buffered objects.
        :param kwargs:    Keywords passed to `Traceable` constructors.
        """
        # check that initialBuffered is properly formatted
        if initialBuffered and priority:
            isPrio = all([isinstance(s,tuple) for s in initialBuffered] )
            if not isPrio: initialBuffered = [(p, 0) for p in initialBuffered]
        # call constructors
        Store.__init__(self, unitName=unitName, capacity=capacity, \
                       initialBuffered=initialBuffered, \
                       putQType=PriorityQ, getQType=PriorityQ)
        Traceable.__init__(self, **kwargs)
        # set other parameters
        self.tracename = self.tracename + "%d"%(self.uid)
        self.__priority = priority
        self.monitorQ = monitorQ
        self.enQ = SimEvent(name=self.name+".enQ")
        self.deQ = SimEvent(name=self.name+".deQ")
        self.drp = SimEvent(name=self.name+".drp")
        self.__dummy = SimEvent(name=self.name+".dummy")
        # set up Queue for priority
        if self.priority:
            self.theBuffer = _PriorityList(self.theBuffer)
        self.addSort(None) # setup addSort for priority queueing
Exemplo n.º 2
0
 def _put(self, arg):
     """Overload `SimPy` `Store._put()` method."""
     nevents = len(self.sim._timestamps)
     if self.verbose>QUEUE_HIGH_VERBOSE or self.monitorQ:
         # get objects to request
         reqput = []
         reqput += [self._buffer_object(p) for p in arg[0][3] ]
         # run _put
         prethebuff  = self.__copy_theBuffer()
         preget      = self.__copy_getQ()
         preputbuff  = self.__copy_putQ(True)
         reqput += [p for p in preputbuff]
         rval = Store._put(self, arg)
         postthebuff = self.__copy_theBuffer()
         postget     = self.__copy_getQ()
         postputbuff = self.__copy_putQ(True)
         # perform checks
         getbuff = []
         for proc in [p for p in preget if (p not in postget)]:
             getbuff += [a for a in proc.got]
         putbuff = [a for a in reqput if \
                     ((a in postthebuff) or (a in getbuff) ) ]
         drpbuff = [a for a in reqput if \
                     ((a not in putbuff) and (a not in postputbuff) ) ]
         #self.log("logput")
         self.__log_all({'get': getbuff, \
                         'put': putbuff, \
                         'drp': drpbuff} )
     else:
         rval = Store._put(self, arg)
     # fudge event queue to "de-prior" put event
     numnew = len(self.sim._timestamps) - nevents
     if (0<numnew):
         # process put
         p = heapq.nsmallest(1, [x for x in self.sim._timestamps if (x[0]==self.sim._t)])
         putevt = p[0]
         pt = putevt[0]
         psortpr = putevt[1]
         assert (pt==self.sim._t), "[QUEUE]: _put(), put(at, sim._t) = (%s, %s)"%(pt, self.sim._t)
         assert (psortpr==self.sim._sortpr)
         if 1<numnew:
             glargest = heapq.nlargest(numnew-1, [x for x in self.sim._timestamps if (x[0]==self.sim._t)])
             for k in range(numnew-1):
                 g, krev = glargest[k], (numnew-2-k)
                 # process put with get commands
                 getevt, gt, gsortpr = g, g[0], g[1]
                 assert (gt==self.sim._t), "[QUEUE]: _put(), get(at, sim._t) = (%s, %s)"%(gt, self.sim._t)
                 assert (abs(psortpr+krev+1)==abs(gsortpr)), "getpr = %s, putpr = %s"%(p, g)
                 # set new get pointer and make non-prior
                 getevt[0] = gt + const.EPSILON
                 getevt[1] = abs(gsortpr) + 1
         putevt[1] = abs(psortpr) - (numnew - 1)
     else:
         assert False, "[QUEUE]: _put found unexpected number of events!"
     return rval
Exemplo n.º 3
0
 def addSort(self, sortFunc):
     """
     Overload `Store.addSort()` for priority queueing.
     
     :param sortFunc: Sort method to reorder objects.
     
     `sortFunc` should take two arguments, namely `Queue` and a list
     containing the objects currently buffered by the `Queue`. When operating
     in `priority` mode, `sortFunc` will receive a priority buffer. That is a
     list containing 2-tuples of (*object*, *prioritylevel*).
     """
     return Store.addSort(self, \
             lambda me, buff: me.__callsort(sortFunc, buff) )
Exemplo n.º 4
0
 def _get(self, arg):
     """Overload `SimPy` `Store._get()` method."""
     if self.verbose>QUEUE_HIGH_VERBOSE or self.monitorQ:
         # run _get
         prethebuff  = self.__copy_theBuffer()
         preputbuff  = self.__copy_putQ(True)
         rval = Store._get(self, arg)
         postthebuff = self.__copy_theBuffer()
         postputbuff = self.__copy_putQ(True)
         # perform checks
         obj = arg[1]
         getbuff = obj.got
         putbuff = [a for a in preputbuff if \
                     ((a in postthebuff) or (a in getbuff)) ]
         drpbuff = [a for a in preputbuff if \
                     ((a not in postputbuff) and (a not in postthebuff) ) ]
         #self.log("logget")
         self.__log_all({'get': getbuff, \
                         'put': putbuff, \
                         'drp': drpbuff} )
     else:
         rval = Store._get(self, arg)
     return rval
Exemplo n.º 5
0
                  (now(), [x.weight for x in self.got]))
            yield hold, self, 11


class Widget(Lister):
    def __init__(self, weight=0):
        self.weight = weight


widgbuf = []
for i in range(10):
    widgbuf.append(Widget(5))

initialize()

buf = Store(capacity=11, initialBuffered=widgbuf, monitored=True)

for i in range(3):  # define and activate 3 producer objects
    p = ProducerD()
    activate(p, p.produce())

for i in range(3):  # define and activate 3 consumer objects
    c = ConsumerD()
    activate(c, c.consume())

simulate(until=50)

print('LenBuffer: %s' % buf.bufferMon)  # length of buffer
print('getQ: %s' % buf.getQMon)  # length of getQ
print('putQ %s' % buf.putQMon)  # length of putQ
Exemplo n.º 6
0
        print('%s car %s done by %s' % (now(), self.name, whichWash))


class CarGenerator(Process):
    def generate(self):
        i = 0
        while True:
            yield hold, self, 2
            c = Car('%d' % i)
            activate(c, c.lifecycle())
            i += 1


washtime = 5
initialize()

# put four cars into the queue of waiting cars
for j in range(1, 5):
    c = Car(name='%d' % -j)
    activate(c, c.lifecycle())

waitingCars = Store(capacity=40)
for i in range(2):
    cw = Carwash('Carwash %s' % i)
    activate(cw, cw.lifecycle())

cg = CarGenerator()
activate(cg, cg.generate())
simulate(until=30)
print('waitingCars %s' % [x.name for x in waitingCars.theBuffer])