""" bank10: Several Counters with individual queues""" from SimPy.Simulation import * from random import expovariate, seed ## Model components ------------------------ class Source(Process): """ Source generates customers randomly""" def generate(self, number, interval, counters): for i in range(number): c = Customer(name="Customer%02d" % (i)) activate(c, c.visit(counters)) t = expovariate(1.0 / interval) yield hold, self, t def NoInSystem(R): # (1) """ Total number of customers in the resource R""" return (len(R.waitQ) + len(R.activeQ)) # (2) class Customer(Process): """ Customer arrives, chooses the shortest queue is served and leaves """ def visit(self, counters): arrive = now() Qlength = [NoInSystem(counters[i]) for i in range(Nc)] # (3) print("%7.4f %s: Here I am. %s" % (now(), self.name, Qlength)) # (4) for i in range(Nc): # (5) if Qlength[i] == 0 or Qlength[i] == min(Qlength): choice = i # the index of the shortest line break # (6) yield request, self, counters[choice] wait = now() - arrive print("%7.4f %s: Waited %6.3f" % (now(), self.name, wait)) tib = expovariate(1.0 / timeInBank) yield hold, self, tib yield release, self, counters[choice] print("%7.4f %s: Finished" % (now(), self.name)) ## Experiment data ------------------------- maxNumber = 5 maxTime = 400.0 # minutes timeInBank = 12.0 # mean, minutes ARRint = 10.0 # mean, minutes Nc = 2 # number of counters theseed = 787878 ## Model/Experiment ------------------------------ seed(theseed) kk = [Resource(name="Clerk0"), Resource(name="Clerk1")] # (7) initialize() s = Source('Source') activate(s, s.generate(number=maxNumber, interval=ARRint, counters=kk), at=0.0) simulate(until=maxTime)