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#
# thread.rb - thread support classes
# $Date$
# by Yukihiro Matsumoto <matz@netlab.co.jp>
#
# Copyright (C) 2001 Yukihiro Matsumoto
# Copyright (C) 2000 Network Applied Communication Laboratory, Inc.
# Copyright (C) 2000 Information-technology Promotion Agency, Japan
#
unless defined? Thread
fail "Thread not available for this ruby interpreter"
end
unless defined? ThreadError
class ThreadError<StandardError
end
end
if $DEBUG
Thread.abort_on_exception = true
end
class Thread
#
# Wraps a block in Thread.critical, restoring the original value upon exit
# from the critical section.
#
def Thread.exclusive
_old = Thread.critical
begin
Thread.critical = true
return yield
ensure
Thread.critical = _old
end
end
end
#
# Mutex implements a simple semaphore that can be used to coordinate access to
# shared data from multiple concurrent threads.
#
# Example:
#
# require 'thread'
# semaphore = Mutex.new
#
# a = Thread.new {
# semaphore.synchronize {
# # access shared resource
# }
# }
#
# b = Thread.new {
# semaphore.synchronize {
# # access shared resource
# }
# }
#
class Mutex
#
# Creates a new Mutex
#
def initialize
@waiting = []
@locked = false;
@waiting.taint # enable tainted comunication
self.taint
end
#
# Returns +true+ if this lock is currently held by some thread.
#
def locked?
@locked
end
#
# Attempts to obtain the lock and returns immediately. Returns +true+ if the
# lock was granted.
#
def try_lock
result = false
Thread.critical = true
unless @locked
@locked = true
result = true
end
Thread.critical = false
result
end
#
# Attempts to grab the lock and waits if it isn't available.
#
def lock
while (Thread.critical = true; @locked)
@waiting.push Thread.current
Thread.stop
end
@locked = true
Thread.critical = false
self
end
#
# Releases the lock. Returns +nil+ if ref wasn't locked.
#
def unlock
return unless @locked
Thread.critical = true
@locked = false
begin
t = @waiting.shift
t.wakeup if t
rescue ThreadError
retry
end
Thread.critical = false
begin
t.run if t
rescue ThreadError
end
self
end
#
# Obtains a lock, runs the block, and releases the lock when the block
# completes. See the example under Mutex.
#
def synchronize
lock
begin
yield
ensure
unlock
end
end
#
# If the mutex is locked, unlocks the mutex, wakes one waiting thread, and
# yields in a critical section.
#
def exclusive_unlock
return unless @locked
Thread.exclusive do
@locked = false
begin
t = @waiting.shift
t.wakeup if t
rescue ThreadError
retry
end
yield
end
self
end
end
#
# ConditionVariable objects augment class Mutex. Using condition variables,
# it is possible to suspend while in the middle of a critical section until a
# resource becomes available.
#
# Example:
#
# require 'thread'
#
# mutex = Mutex.new
# resource = ConditionVariable.new
#
# a = Thread.new {
# mutex.synchronize {
# # Thread 'a' now needs the resource
# resource.wait(mutex)
# # 'a' can now have the resource
# }
# }
#
# b = Thread.new {
# mutex.synchronize {
# # Thread 'b' has finished using the resource
# resource.signal
# }
# }
#
class ConditionVariable
#
# Creates a new ConditionVariable
#
def initialize
@waiters = []
end
#
# Releases the lock held in +mutex+ and waits; reacquires the lock on wakeup.
#
def wait(mutex)
begin
mutex.exclusive_unlock do
@waiters.push(Thread.current)
Thread.stop
end
ensure
mutex.lock
end
end
#
# Wakes up the first thread in line waiting for this lock.
#
def signal
begin
t = @waiters.shift
t.run if t
rescue ThreadError
retry
end
end
#
# Wakes up all threads waiting for this lock.
#
def broadcast
waiters0 = nil
Thread.exclusive do
waiters0 = @waiters.dup
@waiters.clear
end
for t in waiters0
begin
t.run
rescue ThreadError
end
end
end
end
#
# This class provides a way to synchronize communication between threads.
#
# Example:
#
# require 'thread'
#
# queue = Queue.new
#
# producer = Thread.new do
# 5.times do |i|
# sleep rand(i) # simulate expense
# queue << i
# puts "#{i} produced"
# end
# end
#
# consumer = Thread.new do
# 5.times do |i|
# value = queue.pop
# sleep rand(i/2) # simulate expense
# puts "consumed #{value}"
# end
# end
#
# consumer.join
#
class Queue
#
# Creates a new queue.
#
def initialize
@que = []
@waiting = []
@que.taint # enable tainted comunication
@waiting.taint
self.taint
end
#
# Pushes +obj+ to the queue.
#
def push(obj)
Thread.critical = true
@que.push obj
begin
t = @waiting.shift
t.wakeup if t
rescue ThreadError
retry
ensure
Thread.critical = false
end
begin
t.run if t
rescue ThreadError
end
end
#
# Alias of push
#
alias << push
#
# Alias of push
#
alias enq push
#
# Retrieves data from the queue. If the queue is empty, the calling thread is
# suspended until data is pushed onto the queue. If +non_block+ is true, the
# thread isn't suspended, and an exception is raised.
#
def pop(non_block=false)
while (Thread.critical = true; @que.empty?)
raise ThreadError, "queue empty" if non_block
@waiting.push Thread.current
Thread.stop
end
@que.shift
ensure
Thread.critical = false
end
#
# Alias of pop
#
alias shift pop
#
# Alias of pop
#
alias deq pop
#
# Returns +true+ is the queue is empty.
#
def empty?
@que.empty?
end
#
# Removes all objects from the queue.
#
def clear
@que.clear
end
#
# Returns the length of the queue.
#
def length
@que.length
end
#
# Alias of length.
#
alias size length
#
# Returns the number of threads waiting on the queue.
#
def num_waiting
@waiting.size
end
end
#
# This class represents queues of specified size capacity. The push operation
# may be blocked if the capacity is full.
#
# See Queue for an example of how a SizedQueue works.
#
class SizedQueue<Queue
#
# Creates a fixed-length queue with a maximum size of +max+.
#
def initialize(max)
raise ArgumentError, "queue size must be positive" unless max > 0
@max = max
@queue_wait = []
@queue_wait.taint # enable tainted comunication
super()
end
#
# Returns the maximum size of the queue.
#
def max
@max
end
#
# Sets the maximum size of the queue.
#
def max=(max)
Thread.critical = true
if max <= @max
@max = max
Thread.critical = false
else
diff = max - @max
@max = max
Thread.critical = false
diff.times do
begin
t = @queue_wait.shift
t.run if t
rescue ThreadError
retry
end
end
end
max
end
#
# Pushes +obj+ to the queue. If there is no space left in the queue, waits
# until space becomes available.
#
def push(obj)
Thread.critical = true
while @que.length >= @max
@queue_wait.push Thread.current
Thread.stop
Thread.critical = true
end
super
end
#
# Alias of push
#
alias << push
#
# Alias of push
#
alias enq push
#
# Retrieves data from the queue and runs a waiting thread, if any.
#
def pop(*args)
retval = super
Thread.critical = true
if @que.length < @max
begin
t = @queue_wait.shift
t.wakeup if t
rescue ThreadError
retry
ensure
Thread.critical = false
end
begin
t.run if t
rescue ThreadError
end
end
retval
end
#
# Alias of pop
#
alias shift pop
#
# Alias of pop
#
alias deq pop
#
# Returns the number of threads waiting on the queue.
#
def num_waiting
@waiting.size + @queue_wait.size
end
end
# Documentation comments:
# - How do you make RDoc inherit documentation from superclass?
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