subelsky/threading_and_forking.rb

## threading_and_forking.rb
#!/usr/bin/env ruby
# STAQ threading & forking training 4/26/16
#
# Invoke like so:
#
# ruby forking_and_threading.rb
# ruby forking_and_threading.rb thread
# ruby forking_and_threading.rb naive # seems to work OK
# env RBENV_VERSION=jruby-9.0.4.0 ruby ./forking_and_threading.rb naive # why does this give different results?
#
# Can monitor the processes being created with this command:
# watch -n 0.2 'ps -o command,pid,ppid,rss  | grep ruby | grep -v grep'

flag = ARGV[0]

case flag
when nil
  puts "Watch processes with this command:\nwatch -n 0.2 'ps -o pid,ppid,command  | grep ruby | grep -v grep'"
  puts "*" * 30

  puts "I'm the parent process, and my process ID is #{Process.pid}"

  pid = Process.fork {
    puts "\tI'm a child process, and my process ID is #{Process.pid}"
    sleep 20
  }

  puts "I'm the parent process, and my process ID is #{Process.pid}. I'm aware of the fact that I have a child process #{pid}"

  Process.wait # Registers interest in the subprocess' state, so as to avoid a zombie process; will block
when "spawn"
  pid = spawn({ "STAQ_VAL" => "100" }, RbConfig.ruby,%q|-e puts "\tHello from spawned process #{Process.pid} with STAQ_VAL of #{ENV.fetch("STAQ_VAL")}"; sleep 30|)
  puts "I'm parent process #{Process.pid} and I just spawned process #{pid}. Now I am detaching."
  Process.detach(pid) # Creates a thread responsible for reaping the identified process; see http://ruby-doc.org/core-2.2.0/Process.html#method-c-detach
when "thread"
  require "thread"

  queue = Queue.new # this is a thread-safe object to share between threads

  threads = 5.times.map do |time|
    Thread.new do
      val = queue.pop
      sleep rand(1..3)
      puts "I'm in process #{Process.pid} and my thread number is #{time}. My thread ID is #{Thread.current.object_id}. I just received queue item #{val}"
    end
  end

  (100..500).step(100).each do |work|
    queue.push(work)
  end

  threads.each(&:join) # wait for all threads to finish
when "naive"
  # This is not a great example, because MRI will actually produce consistent results, because we're relying on the GIL.
  # But when you run this in an interpreter without GIL (like JRuby or Rubinius) you can see the problem. It's hard to
  # create a simple scenario in MRI to clearly show the issue. Usually threading problems in MRI are more pernicious for
  # this reason!
  $bank_account_a = 0
  $bank_account_b = 0

  threads = 2000.times.map do
    Thread.new do
      # NEVER DO THIS
      $bank_account_a += 1
      $bank_account_b += 1
    end
  end

  threads.each(&:join)

  # Will get inconsistent answers for these
  puts $bank_account_a
  puts $bank_account_b
when "mutex"
  # Will produce consistent results under any interpreter

  require "thread"

  mutex = Mutex.new

  $bank_account_a = 0
  $bank_account_b = 0

  threads = 2000.times.map do
    Thread.new do
      mutex.synchronize do
        $bank_account_a += 1
        $bank_account_b += 1
      end
    end
  end

  threads.each(&:join)

  # Will get inconsistent answers for these
  puts $bank_account_a
  puts $bank_account_b
end
	#!/usr/bin/env ruby
	# STAQ threading & forking training 4/26/16
	#
	# Invoke like so:
	#
	# ruby forking_and_threading.rb
	# ruby forking_and_threading.rb thread
	# ruby forking_and_threading.rb naive # seems to work OK
	# env RBENV_VERSION=jruby-9.0.4.0 ruby ./forking_and_threading.rb naive # why does this give different results?
	#
	# Can monitor the processes being created with this command:
	# watch -n 0.2 'ps -o command,pid,ppid,rss \| grep ruby \| grep -v grep'

	flag = ARGV[0]

	case flag
	when nil
	puts "Watch processes with this command:\nwatch -n 0.2 'ps -o pid,ppid,command \| grep ruby \| grep -v grep'"
	puts "" 30

	puts "I'm the parent process, and my process ID is #{Process.pid}"

	pid = Process.fork {
	puts "\tI'm a child process, and my process ID is #{Process.pid}"
	sleep 20
	}

	puts "I'm the parent process, and my process ID is #{Process.pid}. I'm aware of the fact that I have a child process #{pid}"

	Process.wait # Registers interest in the subprocess' state, so as to avoid a zombie process; will block
	when "spawn"
	pid = spawn({ "STAQ_VAL" => "100" }, RbConfig.ruby,%q\|-e puts "\tHello from spawned process #{Process.pid} with STAQ_VAL of #{ENV.fetch("STAQ_VAL")}"; sleep 30\|)
	puts "I'm parent process #{Process.pid} and I just spawned process #{pid}. Now I am detaching."
	Process.detach(pid) # Creates a thread responsible for reaping the identified process; see http://ruby-doc.org/core-2.2.0/Process.html#method-c-detach
	when "thread"
	require "thread"

	queue = Queue.new # this is a thread-safe object to share between threads

	threads = 5.times.map do \|time\|
	Thread.new do
	val = queue.pop
	sleep rand(1..3)
	puts "I'm in process #{Process.pid} and my thread number is #{time}. My thread ID is #{Thread.current.object_id}. I just received queue item #{val}"
	end
	end

	(100..500).step(100).each do \|work\|
	queue.push(work)
	end

	threads.each(&:join) # wait for all threads to finish
	when "naive"
	# This is not a great example, because MRI will actually produce consistent results, because we're relying on the GIL.
	# But when you run this in an interpreter without GIL (like JRuby or Rubinius) you can see the problem. It's hard to
	# create a simple scenario in MRI to clearly show the issue. Usually threading problems in MRI are more pernicious for
	# this reason!
	$bank_account_a = 0
	$bank_account_b = 0

	threads = 2000.times.map do
	Thread.new do
	# NEVER DO THIS
	$bank_account_a += 1
	$bank_account_b += 1
	end
	end

	threads.each(&:join)

	# Will get inconsistent answers for these
	puts $bank_account_a
	puts $bank_account_b
	when "mutex"
	# Will produce consistent results under any interpreter

	require "thread"

	mutex = Mutex.new

	$bank_account_a = 0
	$bank_account_b = 0

	threads = 2000.times.map do
	Thread.new do
	mutex.synchronize do
	$bank_account_a += 1
	$bank_account_b += 1
	end
	end
	end

	threads.each(&:join)

	# Will get inconsistent answers for these
	puts $bank_account_a
	puts $bank_account_b
	end