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faq.md

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@title FAQ

Frequently Asked Questions

Why not just use callbacks instead of fibers?

It is true that reactor engines such as libev use callbacks to handle events. There's also programming platforms such as node.js that base their entire API on the callback pattern. EventMachine is a popular reactor library for Ruby that uses callbacks for handling events.

Using callbacks means splitting your application logic into disjunct pieces of code. It also often means having to write elaborate state machines to keep track of events happening at different points in time. Using fibers allows you to keep state in local variables. Consider the following implementation of an echo server using EventMachine:

require 'eventmachine'

module EchoServer
  def post_init
    puts '-- someone connected to the echo server!'
  end

  def receive_data data
    send_data ">>>you sent: #{data}"
    close_connection if data =~ /quit/i
  end

  def unbind
    puts '-- someone disconnected from the echo server!'
  end
end

# Note that this will block the current thread.
EventMachine.run {
  EventMachine.start_server '127.0.0.1', 8081, EchoServer
}

The client-handling code is split across three different callback methods. Compare this to the following equivalent using Polyphony:

require 'polyphony'

server = TCPServer.open('127.0.0.1', 8081)
while (client = server.accept)
  spin do
    puts '-- someone connected to the echo server!'
    while (data = client.gets)
      client << ">>>you sent: #{data}"
      break if data =~ /quit/i
    end
  ensure
    client.close
    puts '-- someone disconnected from the echo server!'
  end
end

The Polyphony version is both more terse and explicit at the same time. It explicitly accepts connections on the server port, and the entire logic handling each client connection is contained in a single block. The order of the different actions - printing to the console, then echoing client messages, then finally closing the client connection and printing again to the console - is easy to grok. The echoing of client messages is also explicit: a simple loop waiting for a message, then responding to the client. In addition, we can use an ensure block to correctly cleanup even if exceptions are raised while handling the client.

Using callbacks also makes it much more difficult to debug your program. when callbacks are used to handle events, the stack trace will necessarily start at the reactor, and thus lack any information about how the event came to be in the first place. Contrast this with Polyphony, where stack traces show the entire sequence of events leading up to the present point in the code.

In conclusion:

  • Callbacks cause the splitting of logic into disjunct chunks.
  • Callbacks do not provide a good error handling solution.
  • Callbacks often lead to code bloat.
  • Callbacks are harder to debug.

If callbacks suck, why not use promises?

Promises have gained a lot of traction during the last few years as an alternative to callbacks, above all in the Javascript community. While promises have been at a certain point considered for use in Polyphony, they were not found to offer enough of a benefit. Promises still cause split logic, are quite verbose and provide a non-native exception handling mechanism. In addition, they do not make it easier to debug your code.

Why is awaiting implicit? Why not use explicit async/await?

Actually, async/await was contemplated while developing Polyphony, but at a certain point it was decided to abandon these methods / decorators in favor of a more implicit approach. The most crucial issue with async/await is that it prevents the use of anything from Ruby's stdlib. Any operation involving stdlib classes needs to be wrapped in boilerplate.

Instead, we have decided to make blocking operations implicit and thus allow the use of common APIs such as Kernel#sleep or IO.popen in a transparent manner. After all, these APIs in their stock form block execution just as well.

Why use Fiber#transfer and not Fiber#resume?

The API for Fiber.yield/Fiber#resume is stateful and is intended for the asymmetric execution of coroutines. This is useful when using generators, or other cases where one coroutine acts as a "server" and another as a "client". In Polyphony's case, all fibers are equal, and control can be transferred freely between them, which is much easier to achieve using Fiber#transfer. In addition, using Fiber#transfer allows us to perform blocking operations from the main fiber, which is not possible when using Fiber#resume.

Why does Polyphony reimplement core APIs such as IO#read and Kernel#sleep?

Polyphony "patches" some Ruby core and stdlib APIs, providing behavioraly compatible fiber-aware implementations. We believe Polyphony has the potential to profoundly change the way concurrent Ruby apps are written. Polyphony is therefore designed to feel as much as possible like an integral part of the Ruby runtime.

Does Polyphony implement the FiberScheduler API?

FiberScheduler is an API that was added to Ruby 3.0. It's not an implementation, only an interface. There are several implementations of the FiberScheduler API, with varying levels of maturity. Polyphony has a very opinionated design that does not really parallel the FiberScheduler API. It might be possible, though, to develop a compatibility layer on top of Polyphony that implements the FiberScheduler API at some point in the future.

Can I use Polyphony in a multithreaded program?

Yes. Polyphony fully supports multi-threaded programs, and implements per-thread fiber-scheduling. It is however important to note that Polyphony places the emphasis on a multi-fiber concurrency model, which is highly beneficial for I/O-bound workloads, such as web servers and web apps.

Because of Ruby's global interpreter lock, multiple threads can not in fact run in parallel, and this is actually one of the reasons fibers are such a better fit for I/O bound Ruby programs. Threads should really be used when performing synchronous operations that are not fiber-aware, such as running an expensive SQLite query, or some other expensive system call.

Can I run Rails using Polyphony?

We haven't yet tested Rails with Polyphony, but most probably not. We do plan to support running Rails in an eventual release.

How can I contribute to Polyphony?

The Polyphony repository is at https://github.com/digital-fabric/polyphony. Feel free to create issues and contribute pull requests.

Who is behind this project?

I'm Sharon Rosner, an independent software developer living in France. Here's my github profile. You can sponsor my open source work here. You can contact me by writing to [email protected].