Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Coding in Lua, I have a triply nested loop that goes through 6000 iterations. All 6000 iterations are independent and can easily be parallelized. What threads package for Lua compiles out of the box and gets decent parallel speedups on four or more cores?

Here's what I know so far:

  • luaproc comes from the core Lua team, but the software bundle on luaforge is old, and the mailing list has reports of it segfaulting. Also, it's not obvious to me how to use the scalar message-passing model to get results ultimately into a parent thread.

  • Lua Lanes makes interesting claims but seems to be a heavyweight, complex solution. Many messages on the mailing list report trouble getting Lua Lanes to build or work for them. I myself have had trouble getting the underlying "Lua rocks" distribution mechanism to work for me.

  • LuaThread requires explicit locking and requires that communication between threads be mediated by global variables that are protected by locks. I could imagine worse, but I'd be happier with a higher level of abstraction.

  • Concurrent Lua provides an attractive message-passing model similar to Erlang, but it says that processes do not share memory. It is not clear whether spawn actually works with any Lua function or whether there are restrictions.

  • Russ Cox proposed an occasional threading model that works only for C threads. Not useful for me.

I will upvote all answers that report on actual experience with these or any other multithreading package, or any answer that provides new information.


For reference, here is the loop I would like to parallelize:

for tid, tests in pairs(tests) do
  local results = { }
  matrix[tid] = results
  for i, test in pairs(tests) do
    if test.valid then
      results[i] = { }
      local results = results[i]
      for sid, bin in pairs(binaries) do
        local outcome, witness = run_test(test, bin)
        results[sid] = { outcome = outcome, witness = witness }
      end
    end
  end
end

The run_test function is passed in as an argument, so a package can be useful to me only if it can run arbitrary functions in parallel. My goal is enough parallelism to get 100% CPU utilization on 6 to 8 cores.

share|improve this question
    
I think that most of packages you've listed are concurrent programming ones, not specifically multithreaded. I suggest changing a title (as multithreading in Lua is a red flag for some of us). –  Alexander Gladysh Apr 16 '11 at 23:16
    
May be also worth listing: github.com/Neopallium/lua-llthreads –  Alexander Gladysh Apr 16 '11 at 23:16
    
May be also worth listing: luaforge.net/projects/helper-threads –  Alexander Gladysh Apr 16 '11 at 23:19
    
May be also worth listing: luaforge.net/projects/alua (though seems outdated) –  Alexander Gladysh Apr 16 '11 at 23:20
    
Is one of the tests a typo in the first for loop? for tid, tests in pairs(tests) do –  BMitch Apr 17 '11 at 0:04
show 4 more comments

4 Answers

Concurrent Lua might seem like the way to go, but as I note in my updates below, it doesn't run things in parallel. The approach I tried was to spawn several processes that execute pickled closures received through the message queue.

Update

Concurrent Lua seems to handle first-class functions and closures without a hitch. See the following example program.

require 'concurrent'

local NUM_WORKERS = 4       -- number of worker threads to use
local NUM_WORKITEMS = 100   -- number of work items for processing

-- calls the received function in the local thread context
function worker(pid)
    while true do
        -- request new work
        concurrent.send(pid, { pid = concurrent.self() })
        local msg = concurrent.receive()

        -- exit when instructed
        if msg.exit then return end

        -- otherwise, run the provided function
        msg.work()
    end
end

-- creates workers, produces all the work and performs shutdown
function tasker()
    local pid = concurrent.self()

    -- create the worker threads
    for i = 1, NUM_WORKERS do concurrent.spawn(worker, pid) end

    -- provide work to threads as requests are received
    for i = 1, NUM_WORKITEMS do
        local msg = concurrent.receive()

        -- send the work as a closure
        concurrent.send(msg.pid, { work = function() print(i) end, pid = pid })
    end

    -- shutdown the threads as they complete
    for i = 1, NUM_WORKERS do
        local msg = concurrent.receive()
        concurrent.send(msg.pid, { exit = true })
    end
end

-- create the task process
local pid = concurrent.spawn(tasker)

-- run the event loop until all threads terminate
concurrent.loop()

Update 2

Scratch all of that stuff above. Something didn't look right when I was testing this. It turns out that Concurrent Lua isn't concurrent at all. The "processes" are implemented with coroutines and all run cooperatively in the same thread context. That's what we get for not reading carefully!

So, at least I eliminated one of the options I guess. :(

share|improve this answer
    
+1 for elimination –  Norman Ramsey May 23 '11 at 22:11
add comment

Norman wrote concerning luaproc:

"it's not obvious to me how to use the scalar message-passing model to get results ultimately into a parent thread"

I had the same problem with a use case I was dealing with. I liked lua proc due to its simple and light implementation, but my use case had C code that was calling lua, which was triggering a co-routine that needed to send/receive messages to interact with other luaproc threads.

To achieve my desired functionality I had to add features to luaproc to allow sending and receiving messages from the parent thread or any other thread not running from the luaproc scheduler. Additionally, my changes allow using luaproc send/receive from coroutines created from luaproc.newproc() created lua states.

I added an additional luaproc.addproc() function to the api which is to be called from any lua state running from a context not controlled by the luaproc scheduler in order to set itself up with luaproc for sending/receiving messages.

I am considering posting the source as a new github project or contacting the developers and seeing if they would like to pull my additions. Suggestions as to how I should make it available to others are welcome.

share|improve this answer
1  
If you have a new question, you should post it a separate question: stackoverflow.com/questions/ask –  Mysticial Sep 22 '12 at 10:18
add comment

I realize that this is not a works-out-of-the-box solution, but, maybe go old-school and play with forks? (Assuming you're on a POSIX system.)

What I would have done:

  • Right before your loop, put all tests in a queue, accessible between processes. (A file, a Redis LIST or anything else you like most.)

  • Also before the loop, spawn several forks with lua-posix (same as the number of cores or even more depending on the nature of tests). In parent fork wait until all children will quit.

  • In each fork in a loop, get a test from the queue, execute it, put results somewhere. (To a file, to a Redis LIST, anywhere else you like.) If there are no more tests in queue, quit.

  • In the parent fetch and process all test results as you do now.

This assumes that test parameters and results are serializable. But even if they are not, I think that it should be rather easy to cheat around that.

share|improve this answer
    
Dunno how I'm going to serialize that first-class function... –  Norman Ramsey Apr 17 '11 at 0:13
    
Don't see any first-class functions in need of serialization in your code (also, if it is created before tests is run, no serialization is needed — it will be available in the fork). :-) Anyway, try Pluto for that. –  Alexander Gladysh Apr 17 '11 at 0:31
    
The first-class function is passed in as a parameter. –  JUST MY correct OPINION Apr 17 '11 at 1:26
1  
Then it pre-exists at fork time and does not need to be serialized — it would already be available in the fork. –  Alexander Gladysh Apr 17 '11 at 1:52
    
@Norman: Of course, if you go the suggested way, you need to make sure that your code is fork-friendly, as usual. –  Alexander Gladysh Apr 17 '11 at 1:53
add comment

This is a perfect example of MapReduce

You can use LuaRings to accomplish your parallelization needs.

share|improve this answer
    
Your answer leaves out the parallel execution part. LuaRings alone does not create new threads or processes. –  Judge Maygarden May 23 '11 at 3:22
    
For more information on different threading approaches for Lua -> lua-users.org/lists/lua-l/2008-05/msg00490.html –  frooyo May 23 '11 at 3:44
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.