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Calling join on a thread will block the parent thread while the thread to be joined has not finished. To check this, I created this code:

threads = []
3.times do |i|
  threads << Thread.new do
    3.times do |j|
      puts "Thread #{i} says #{j} (#{Thread.current})"
      sleep 0.1

puts "After first join"
puts "After second join"
puts "Last line of main thread"

Running such code gives this output:

Thread 0 says 0 (#<Thread:0x007fdceb0b8568>)
Thread 2 says 0 (#<Thread:0x007fdce982bb08>)
Thread 1 says 0 (#<Thread:0x007fdceb0b8450>)
Thread 0 says 1 (#<Thread:0x007fdceb0b8568>)
Thread 1 says 1 (#<Thread:0x007fdceb0b8450>)
Thread 2 says 1 (#<Thread:0x007fdce982bb08>)
Thread 1 says 2 (#<Thread:0x007fdceb0b8450>)
Thread 2 says 2 (#<Thread:0x007fdce982bb08>)
Thread 0 says 2 (#<Thread:0x007fdceb0b8568>)
After first join
After second join
Last line of main thread

Why did ruby print After first join after threads' instructions although the instruction threads[1].join was executed after this print instruction?

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1 Answer 1

up vote 2 down vote accepted

Because the puts "Thread #{i} says #{j} (#{Thread.current})" part (or perhaps all) of threads[1] finished before puts "After first join". The fact that threads[1].join was executed after puts "After first join" does not affect the result.

You seem to have two points of logic flaw. They should be corrected as follows:

  • If puts "Thread #{i} says #{j} (#{Thread.current})" of threads[1] was done before puts "After first join" of the main thread, then whether the entire threads[1] was done before puts "After first join" started is irrelevant.
  • threads[1] has chance to be done before puts "After first join" of the main thread was executed. threads[1].join shows effect only otherwise.

And what is likely to happen (which actually did happen) is that, since you have threads[0].join before any puts method calls, the main thread was sleeping until threads[0] finished. And since threads[1], and threads[2] started immediately after threads[0], the three sub-threads finished roughly at almost the same time. In other words, if you wait enough time for threads[0] to finish, then it is likely that the other two threads would also be finished.

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Ok, got it, thanks! This code helped me: gist.github.com/slawosz/6045206 –  Sławosz Jul 20 '13 at 14:17
Correct. Threads doing the same thing to calculate something, should take the same time to do it. Only if there is an external influence that varies would there be a difference, like waiting for inputs on ports or accessing separate databases. Then, over time, we'd probably see drift. (We can simulate that uneven load using randomized sleep times in the threads if necessary.) –  the Tin Man Jul 20 '13 at 14:20

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