Pure-Ruby concurrent Hash

Okay, now that you specified the actually meaning of ‘threadsafe’, here are two potential implementations. The following code will run forever in MRI and JRuby. The lockless implementation follows an eventual consistency model where each thread uses it’s own view of the hash if the master is in flux. There is a little trickery required to make sure storing all the information in the thread doesn’t leak memory, but that is handled and tested ― process size does not grow running this code. Both implementations would need more work to be ‘complete’, meaning delete, update, etc. would need some thinking, but either of the two concepts below will meet your requirements.

It’s very important for people reading this thread to realize the whole issue is exclusive to JRuby ― in MRI the built-in Hash is sufficient.

module Cash
  def Cash.new(*args, &block)
    env = ENV['CASH_IMPL']
    impl = env ? Cash.const_get(env) : LocklessImpl
    klass = defined?(JRUBY_VERSION) ? impl : ::Hash
    klass.new(*args)
  end

  class LocklessImpl
    def initialize
      @hash = {}
    end

    def thread_hash
      thread = Thread.current
      thread[:cash] ||= {}
      hash = thread[:cash][thread_key]
      if hash
        hash
      else
        hash = thread[:cash][thread_key] = {}
        ObjectSpace.define_finalizer(self){ thread[:cash].delete(thread_key) }
        hash
      end
    end

    def thread_key
      [Thread.current.object_id, object_id]
    end

    def []=(key, val)
      time = Time.now.to_f
      tuple = [time, val]
      @hash[key] = tuple
      thread_hash[key] = tuple
      val
    end

    def [](key)
    # check the master value
    #
      val = @hash[key]

    # someone else is either writing the key or it has never been set.  we
    # need to invalidate our own copy in either case
    #
      if val.nil?
        thread_val = thread_hash.delete(key)
        return(thread_val ? thread_val.last : nil)
      end

    # check our own thread local value
    #
      thread_val = thread_hash[key]

    # in this case someone else has written a value that we have never seen so
    # simply return it
    #
      if thread_val.nil?
        return(val.last)
      end

    # in this case there is a master *and* a thread local value, if the master
    # is newer juke our own cached copy
    #
      if val.first > thread_val.first
        thread_hash.delete(key)
        return val.last
      else
        return thread_val.last
      end
    end
  end

  class LockingImpl < ::Hash
    require 'sync'

    def initialize(*args, &block)
      super
    ensure
      extend Sync_m
    end

    def sync(*args, &block)
      sync_synchronize(*args, &block)
    end

    def [](key)
      sync(:SH){ super }
    end

    def []=(key, val)
      sync(:EX){ super }
    end
  end
end



if $0 == __FILE__
  iteration = 0

  loop do
    n = 42
    hash = Cash.new

    threads =
      Array.new(10) {
        Thread.new do
          Thread.current.abort_on_exception = true
          n.times do |key|
            hash[key] = key
            raise "#{ key }=nil" if hash[key].nil?
          end
        end
      }

    threads.map{|thread| thread.join}

    puts "THREADSAFE: #{ iteration += 1 }"
  end
end

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