def __init__(self, buf_or_n = None):
if buf_or_n == 0:
buf_or_n = None
if isinstance(buf_or_n, int):
self.buf = FixedBuffer(buf_or_n)
else:
self.buf = buf_or_n
self.closed = False
self.takes = RingBuffer(32)
self.puts = RingBuffer(32)
# Counters towards next "garbage collections"
self.dirty_takes = 0
self.dirty_puts = 0
class TwistedDispatcher:
TASK_BATCH_SIZE = 1024
def __init__(self):
self.tasks = RingBuffer(32)
self.running = False
self.queued = False
def run(self, f):
# TODO: Should there be some sort of limit?
self.tasks.unbounded_unshift(f)
self.queue()
def queue_delay(self, f, seconds):
reactor.callLater(seconds, f)
def process_messages(self):
self.running = True
self.queued = False
count = 0
while True:
try:
task = self.tasks.pop()
except IndexError:
break
task()
# TODO: Maybe stop after a max amount of time rather than
# a max number of tasks.
count += 1
if count >= self.TASK_BATCH_SIZE:
break
self.running = False
if len(self.tasks) > 0:
self.queue()
def queue(self):
if self.queued and self.running:
return
self.queued = True
reactor.callLater(0, self.process_messages)
class ManyToManyChannel:
"""Creates a channel with an optional buffer. If buf_or_n is a number,
a fixed buffer of that size is created and used.
"""
implements(IChannel)
def __init__(self, buf_or_n = None):
if buf_or_n == 0:
buf_or_n = None
if isinstance(buf_or_n, int):
self.buf = FixedBuffer(buf_or_n)
else:
self.buf = buf_or_n
self.closed = False
self.takes = RingBuffer(32)
self.puts = RingBuffer(32)
# Counters towards next "garbage collections"
self.dirty_takes = 0
self.dirty_puts = 0
def is_closed(self):
return self.closed
def put(self, value, handler):
if value == CLOSED:
raise Exception("Cannot put csp.CLOSED on a channel.")
if self.closed or not handler.is_active():
return Box(not self.closed)
while True:
try:
taker = self.takes.pop()
except IndexError:
taker = None
# There's a pending take...
if taker is not None:
# ... that is still interested
if taker.is_active():
# Done, shake hand, here it is
callback, _ = taker.commit(), handler.commit()
# FIX
dispatch.run(lambda: callback(value))
return Box(True)
else:
continue
# No pending takes
else:
# Throw the value on the queue and be done with it
if self.buf is not None and not self.buf.is_full():
handler.commit()
self.buf.add(value)
return Box(True)
# No more room for waiting
else:
# Periodically remove stale puts
if self.dirty_puts > MAX_DIRTY:
self.puts.cleanup(keep = lambda putter: putter.handler.is_active())
self.dirty_puts = 0
else:
self.dirty_puts += 1
# TODO: Do a last-chance "garbage collection" to
# be sure?
if len(self.puts) >= MAX_QUEUE_SIZE:
raise Exception("No more than %d pending puts are allowed on a single channel." % MAX_QUEUE_SIZE)
# Queue this put
self.puts.unbounded_unshift(PutBox(handler, value))
break
def take(self, handler):
if not handler.is_active():
return
# Waiting values go first
if self.buf is not None and len(self.buf) > 0:
handler.commit()
# We need to check pending puts here, otherwise they won't
# be able to proceed until their number reaches MAX_DIRTY
value = self.buf.remove()
while True:
try:
putter = self.puts.pop()
except IndexError:
break
else:
put_handler = putter.handler
if put_handler.is_active():
callback = put_handler.commit()
dispatch.run(lambda: callback(True))
self.buf.add(putter.value)
break
else:
continue
return Box(value)
while True:
try:
putter = self.puts.pop()
except IndexError:
putter = None
# There's a pending put...
if putter is not None:
put_handler = putter.handler
# ... that is still interested
if put_handler.is_active():
# Done, shake hand, take it
callback, _ = put_handler.commit(), handler.commit()
dispatch.run(lambda: callback(True))
return Box(putter.value)
else:
continue
# No pending puts
else:
if self.closed:
handler.commit()
return Box(CLOSED)
else:
# Periodically remove stale takes
if self.dirty_takes > MAX_DIRTY:
self.takes.cleanup(keep = lambda handler: handler.is_active())
self.dirty_takes = 0
else:
self.dirty_takes += 1
# TODO: Do a last-chance "garbage collection" to
# be sure?
if len(self.takes) >= MAX_QUEUE_SIZE:
raise Exception("No more than %d pending takes are allowed on a single channel." % MAX_QUEUE_SIZE)
# Queue this take
self.takes.unbounded_unshift(handler)
break
def close(self):
if self.closed:
return
self.closed = True
# Pending takes get "channel closed"
while True:
try:
taker = self.takes.pop()
except IndexError:
break
if taker.is_active():
callback = taker.commit()
dispatch.run(lambda: callback(CLOSED))
# Pending puts get "channel closed"
while True:
try:
putter = self.puts.pop()
except IndexError:
break
handler = putter.handler
if handler.is_active():
callback = handler.commit()
dispatch.run(lambda: callback(False))
def __init__(self):
self.tasks = RingBuffer(32)
self.running = False
self.queued = False