Lib/mutex.py - platform/external/python/cpython3 - Gitiles

 # Mutual exclusion -- for use with module sched

 # A mutex has two pieces of state -- a 'locked' bit and a queue.
 # When the mutex is not locked, the queue is empty.
 # Otherwise, the queue contains 0 or more (function, argument) pairs
 # representing functions (or methods) waiting to acquire the lock.
 # When the mutex is unlocked while the queue is not empty,
 # the first queue entry is removed and its function(argument) pair called,
 # implying it now has the lock.
 #
 # Of course, no multi-threading is implied -- hence the funny interface
 # for lock, where a function is called once the lock is aquired.
 #
 class mutex:
 	#
 	# Create a new mutex -- initially unlocked
 	#
 	def __init__(self):
 		self.locked = 0
 		self.queue = []
 	#
 	# Test the locked bit of the mutex
 	#
 	def test(self):
 		return self.locked
 	#
 	# Atomic test-and-set -- grab the lock if it is not set,
 	# return true if it succeeded
 	#
 	def testandset(self):
 		if not self.locked:
 			self.locked = 1
 			return 1
 		else:
 			return 0
 	#
 	# Lock a mutex, call the function with supplied argument
 	# when it is acquired.
 	# If the mutex is already locked, place function and argument
 	# in the queue.
 	#
 	def lock(self, function, argument):
 		if self.testandset():
 			function(argument)
 		else:
 			self.queue.append((function, argument))
 	#
 	# Unlock a mutex.  If the queue is not empty, call the next
 	# function with its argument.
 	#
 	def unlock(self):
 		if self.queue:
 			function, argument = self.queue[0]
 			del self.queue[0]
 			function(argument)
 		else:
 			self.locked = 0
 	#
	# Mutual exclusion -- for use with module sched

	# A mutex has two pieces of state -- a 'locked' bit and a queue.
	# When the mutex is not locked, the queue is empty.
	# Otherwise, the queue contains 0 or more (function, argument) pairs
	# representing functions (or methods) waiting to acquire the lock.
	# When the mutex is unlocked while the queue is not empty,
	# the first queue entry is removed and its function(argument) pair called,
	# implying it now has the lock.
	#
	# Of course, no multi-threading is implied -- hence the funny interface
	# for lock, where a function is called once the lock is aquired.
	#
	class mutex:
	#
	# Create a new mutex -- initially unlocked
	#
	def __init__(self):
	self.locked = 0
	self.queue = []
	#
	# Test the locked bit of the mutex
	#
	def test(self):
	return self.locked
	#
	# Atomic test-and-set -- grab the lock if it is not set,
	# return true if it succeeded
	#
	def testandset(self):
	if not self.locked:
	self.locked = 1
	return 1
	else:
	return 0
	#
	# Lock a mutex, call the function with supplied argument
	# when it is acquired.
	# If the mutex is already locked, place function and argument
	# in the queue.
	#
	def lock(self, function, argument):
	if self.testandset():
	function(argument)
	else:
	self.queue.append((function, argument))
	#
	# Unlock a mutex. If the queue is not empty, call the next
	# function with its argument.
	#
	def unlock(self):
	if self.queue:
	function, argument = self.queue[0]
	del self.queue[0]
	function(argument)
	else:
	self.locked = 0
	#