Continuously read from STDOUT of external process in Ruby

I want to run blender from the command line through a ruby script, which will then process the output given by blender line by line to update a progress bar in a GUI. It's not really important that blender is the external process whose stdout I need to read.

I can't seem to be able to catch the progress messages blender normally prints to the shell when the blender process is still running, and I've tried a few ways. I always seem to access the stdout of blender after blender has quit, not while it's still running.

Here's an example of a failed attempt. It does get and print the first 25 lines of the output of blender, but only after the blender process has exited:

blender = nil
t = Thread.new do
  blender = open "| blender -b mball.blend -o //renders/ -F JPEG -x 1 -f 1"
end
puts "Blender is doing its job now..."
25.times { puts blender.gets}

Edit:

To make it a little clearer, the command invoking blender gives back a stream of output in the shell, indicating progress (part 1-16 completed etc). It seems that any call to "gets" the output is blocked until blender quits. The issue is how to get access to this output while blender is still running, as blender prints it's output to shell.

I've had some success in solving this problem of mine. Here are the details, with some explanations, in case anyone having a similar problem finds this page. But if you don't care for details, here's the short answer:

Use PTY.spawn in the following manner (with your own command of course):

require 'pty'
cmd = "blender -b mball.blend -o //renders/ -F JPEG -x 1 -f 1" 
begin
  PTY.spawn( cmd ) do |stdout, stdin, pid|
    begin
      # Do stuff with the output here. Just printing to show it works
      stdout.each { |line| print line }
    rescue Errno::EIO
      puts "Errno:EIO error, but this probably just means " +
            "that the process has finished giving output"
    end
  end
rescue PTY::ChildExited
  puts "The child process exited!"
end

And here's the long answer, with way too many details:

The real issue seems to be that if a process doesn't explicitly flush its stdout, then anything written to stdout is buffered rather than actually sent, until the process is done, so as to minimize IO (this is apparently an implementation detail of many C libraries, made so that throughput is maximized through less frequent IO). If you can easily modify the process so that it flushes stdout regularly, then that would be your solution. In my case, it was blender, so a bit intimidating for a complete noob such as myself to modify the source.

But when you run these processes from the shell, they display stdout to the shell in real-time, and the stdout doesn't seem to be buffered. It's only buffered when called from another process I believe, but if a shell is being dealt with, the stdout is seen in real time, unbuffered.

This behavior can even be observed with a ruby process as the child process whose output must be collected in real time. Just create a script, random.rb, with the following line:

5.times { |i| sleep( 3*rand ); puts "#{i}" }

Then a ruby script to call it and return its output:

IO.popen( "ruby random.rb") do |random|
  random.each { |line| puts line }
end

You'll see that you don't get the result in real-time as you might expect, but all at once afterwards. STDOUT is being buffered, even though if you run random.rb yourself, it isn't buffered. This can be solved by adding a STDOUT.flush statement inside the block in random.rb. But if you can't change the source, you have to work around this. You can't flush it from outside the process.

If the subprocess can print to shell in real-time, then there must be a way to capture this with Ruby in real-time as well. And there is. You have to use the PTY module, included in ruby core I believe (1.8.6 anyways). Sad thing is that it's not documented. But I found some examples of use fortunately.

First, to explain what PTY is, it stands for pseudo terminal. Basically, it allows the ruby script to present itself to the subprocess as if it's a real user who has just typed the command into a shell. So any altered behavior that occurs only when a user has started the process through a shell (such as the STDOUT not being buffered, in this case) will occur. Concealing the fact that another process has started this process allows you to collect the STDOUT in real-time, as it isn't being buffered.

To make this work with the random.rb script as the child, try the following code:

require 'pty'
begin
  PTY.spawn( "ruby random.rb" ) do |stdout, stdin, pid|
    begin
      stdout.each { |line| print line }
    rescue Errno::EIO
    end
  end
rescue PTY::ChildExited
  puts "The child process exited!"
end

use IO.popen. This is a good example.

Your code would become something like:

blender = nil
t = Thread.new do
  IO.popen("blender -b mball.blend -o //renders/ -F JPEG -x 1 -f 1") do |blender|
    blender.each do |line|
      puts line
    end
  end
end

STDOUT.flush or STDOUT.sync = true

Blender probably doesn't print line-breaks until it is ending the program. Instead, it is printing the carriage return character (\r). The easiest solution is probably searching for the magic option which prints line-breaks with the progress indicator.

The problem is that IO#gets (and various other IO methods) use the line break as a delimiter. They will read the stream until they hit the "\n" character (which blender isn't sending).

Try setting the input separator $/ = "\r" or using blender.gets("\r") instead.

BTW, for problems such as these, you should always check puts someobj.inspect or p someobj (both of which do the same thing) to see any hidden characters within the string.

I don't know whether at the time ehsanul answered the question, there was Open3::pipeline_rw() available yet, but it really makes things simpler.

I don't understand ehsanul's job with Blender, so I made another example with tar and xz. tar will add input file(s) to stdout stream, then xz take that stdout and compress it, again, to another stdout. Our job is to take the last stdout and write it to our final file:

require 'open3'

if __FILE__ == $0
    cmd_tar = ['tar', '-cf', '-', '-T', '-']
    cmd_xz = ['xz', '-z', '-9e']
    list_of_files = [...]

    Open3.pipeline_rw(cmd_tar, cmd_xz) do |first_stdin, last_stdout, wait_threads|
        list_of_files.each { |f| first_stdin.puts f }
        first_stdin.close

        # Now start writing to target file
        open(target_file, 'wb') do |target_file_io|
            while (data = last_stdout.read(1024)) do
                target_file_io.write data
            end
        end # open
    end # pipeline_rw
end

Old question, but had similar problems.

Without really changing my Ruby code, one thing that helped was wrapping my pipe with stdbuf, like so:

cmd = "stdbuf -oL -eL -i0  openssl s_client -connect #{xAPI_ADDRESS}:#{xAPI_PORT}"

@xSess = IO.popen(cmd.split " ", mode = "w+")  

In my example, the actual command I want to interact with as if it were a shell, is openssl.

-oL -eL tell it to buffer STDOUT and STDERR only upto a newline. Replace L with 0 to unbuffer completely.

This doesn't always work, though: sometimes the target process enforces its own stream buffer type, like another answer pointed out.