You have two synchronization problems here.
Let's deal with the easier one first, the fact that you're sharing a global
buff_list that the two threads fight over. There's nothing stopping one thread from trying to
append at the same time the other thread
pops, which is illegal. And, even if you get lucky and that doesn't happen, the
pop could come before the
The simplest way to solve this is to use a
Queue, which is automatically-synchronizing:
buff_list = Queue.Queue()
Then just use
put instead of
get instead of
However, if you want to learn how to this stuff yourself, there are two possible ways to go.
First, you can use a
Lock. (You can also use an
RLock, but let's forget that for now.) This makes sure that only one thread is accessing
buff_list at a time.
buff_lock = threading.Lock()
buff_list = 
Now, whenever you append or pop, just grab the lock:
val = buff_list.pop()
But this won't make sure the popping code waits until there's something to pop. If you want to do that, use a
buff_cond = threading.Condition()
while not buff_list:
value = buff_list.pop()
The second problem is that you're implicitly sharing
sys.stdin, because both threads are calling
raw_input. Unless you have some way to synchronize things so that each thread knows when it's supposed to get the next input (and that may be hard to even describe, and you can't turn it into code if you can't describe it), that can't possibly work—every time you type
C there's a 50/50 chance that the wrong thread will get it.
So, as kirelagin suggests, you need to make exactly one thread responsible for the I/O. The easiest way to do this is again to use a
Queue, and have one thread
put any inputs it doesn't use, and the other thread can
get from the queue.