# Generator implementation using threads import _thread as thread Killed = 'Generator.Killed' class Generator: # Constructor def __init__(self, func, args): self.getlock = thread.allocate_lock() self.putlock = thread.allocate_lock() self.getlock.acquire() self.putlock.acquire() self.func = func self.args = args self.done = 0 self.killed = 0 thread.start_new_thread(self._start, ()) # Internal routine def _start(self): try: self.putlock.acquire() if not self.killed: try: self.func(self, *self.args) except Killed: pass finally: if not self.killed: self.done = 1 self.getlock.release() # Called by producer for each value; raise Killed if no more needed def put(self, value): if self.killed: raise TypeError('put() called on killed generator') self.value = value self.getlock.release() # Resume consumer thread self.putlock.acquire() # Wait for next get() call if self.killed: raise Killed # Called by producer to get next value; raise EOFError if no more def get(self): if self.killed: raise TypeError('get() called on killed generator') self.putlock.release() # Resume producer thread self.getlock.acquire() # Wait for value to appear if self.done: raise EOFError # Say there are no more values return self.value # Called by consumer if no more values wanted def kill(self): if self.killed: raise TypeError('kill() called on killed generator') self.killed = 1 self.putlock.release() # Clone constructor def clone(self): return Generator(self.func, self.args) def pi(g): k, a, b, a1, b1 = 2, 4, 1, 12, 4 while 1: # Next approximation p, q, k = k*k, 2*k+1, k+1 a, b, a1, b1 = a1, b1, p*a+q*a1, p*b+q*b1 # Print common digits d, d1 = a/b, a1/b1 while d == d1: g.put(int(d)) a, a1 = 10*(a%b), 10*(a1%b1) d, d1 = a/b, a1/b1 def test(): g = Generator(pi, ()) g.kill() g = Generator(pi, ()) for i in range(10): print(g.get(), end=' ') print() h = g.clone() g.kill() while 1: print(h.get(), end=' ') test()