36

Are there some tutorials or practical lessons on how to write an extension for Ruby in Go?

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    I don't think this should have been closed, but writing a ruby extension in Go is impossible. There has been some work on making python extensions when embedding the python interpreter in a Go program. The same can most likely be done for Ruby. But at the moment you can't embed Go in another language. – Stephen Weinberg Apr 8 '13 at 16:55
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    Go code compiled with gccgo is callable from C, so at the very least, it's possible to write glue in C such that the bulk of the Ruby extension is written in Go. Whether or not it's possible to skip the C glue layer, I'm not sure. – Darshan Rivka Whittle Apr 8 '13 at 19:06
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    This is not a ridiculous question as such binding do exist for Python (gopy.qur.me/extensions/examples.html). It is not unreasonable for the OP to think they might exist for Ruby. – voidlogic Apr 9 '13 at 15:19
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    Ruby is bad on performance. With Go it's possible to optimize just a few methods without any time expense, rather than using a C. – Dmitry Polushkin Apr 16 '13 at 16:41
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    I think the major problem here is that Go requires the entry point (aka main function) to be on the Go side as Go needs to initialize its own runtime. As of now, there is no way to do this initialization from elsewhere. – fuz Apr 17 '13 at 12:44
69
+200

Go 1.5 added support for building shared libraries that are callable from C (and thus from Ruby via FFI). This makes the process easier than in pre-1.5 releases (when it was necessary to write the C glue layer), and the Go runtime is now usable, making this actually useful in real life (goroutines and memory allocations were not possible before, as they require the Go runtime, which was not useable if Go was not the main entry point).

goFuncs.go:

package main

import "C"

//export GoAdd
func GoAdd(a, b C.int) C.int {
    return a + b
}

func main() {} // Required but ignored

Note that the //export GoAdd comment is required for each exported function; the symbol after export is how the function will be exported.

goFromRuby.rb:

require 'ffi'

module GoFuncs
  extend FFI::Library
  ffi_lib './goFuncs.so'
  attach_function :GoAdd, [:int, :int], :int
end

puts GoFuncs.GoAdd(41, 1)

The library is built with:

go build -buildmode=c-shared -o goFuncs.so goFuncs.go

Running the Ruby script produces:

42
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    Does this still work if you do allocations or Goroutines in the Go code? – fuz Apr 22 '13 at 10:08
  • @FUZxxl Ah, I see the issue now. Thanks for clarifying. – Darshan Rivka Whittle Apr 22 '13 at 15:13
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    I followed your example for Go 1.5 exactly and it worked like a charm, no segfaults for me. – AndrewH Oct 24 '15 at 18:12
  • @AndrewH Huh, I wonder why I'm getting them and you aren't. I just upgraded to current Ruby (2.2.3p173) and FFI gem (1.9.10), and verified that I'm running current Go (1.5.1), and I'm still getting them. I'm on 64-bit Arch Linux. – Darshan Rivka Whittle Oct 24 '15 at 21:01
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    I no longer get segfaults, and the old (pre-1.5) answer no longer seems relevant, so I just updated the answer to more directly answer the question for modern Go. (Currently using Go 1.7 and Ruby 2.3.1p112.) – Darshan Rivka Whittle Aug 17 '16 at 9:50
11

Normally I'd try to give you a straight answer but the comments so far show there might not be one. So, hopefully this answer with a generic solution and some other possibilities will be acceptable.

One generic solution: compile high level language program into library callable from C. Wrap that for Ruby. One has to be extremely careful about integration at this point. This trick was a nice kludge to integrate many languages in the past, usually for legacy reasons. Thing is, I'm not a Go developer and I don't know that you can compile Go into something callable from C. Moving on.

Create two standalone programs: Ruby and Go program. In the programs, use a very efficient way of passing data back and forth. The extension will simply establish a connection to the Go program, send the data, wait for the result, and pass the result back into Ruby. The communication channel might be OS IPC, sockets, etc. Whatever each supports. The data format can be extremely simple if there's no security issues and you're using predefined message formats. That further boosts speed. Some of my older programs used XDR for binary format. These days, people seem to use things like JSON, Protocol Buffers and ZeroMQ style wire protocols.

Variation of second suggestion: use ZeroMQ! Or something similar. ZeroMQ is fast, robust and has bindings for both languages. It manages the whole above paragraph for you. Drawbacks are that it's less flexible wrt performance tuning and has extra stuff you don't need.

The tricky part of using two processes and passing data between them is a speed penalty. The overhead might not justify leaving Ruby. However, Go has great native performance and concurrency features that might justify coding part of an application in it versus a scripting language like Ruby. (Probably one of your justifications for your question.) So, try each of these strategies. If you get a working program that's also faster, use it. Otherwise, stick with Ruby.

Maybe less appealing option: use something other than Go that has similar advantages, allows call from C, and can be integrated. Althought it's not very popular, Ada is a possibility. It's long been strong in native code, (restricted) concurrency, reliability, low-level support, cross-language development and IDE (GNAT). Also, Julia is a new language for high performance technical and parallel programming that can be compiled into a library callable from C. It has a JIT too. Maybe changing problem statement from Ruby+Go to Ruby+(more suitable language) will solve the problem?

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    You can indeed compile Go into something callable from C. See this article: golang.org/cmd/cgo – TSL Apr 18 '13 at 9:55
  • Sweet! So the asker has plenty of options to work with now. :) – Nick P Apr 18 '13 at 18:57
4

As of Go 1.5, there's a new build mode that tells the Go compiler to output a shared library and a C header file:

-buildmode c-shared

(This is explained in more detail in this helpful tutorial: http://blog.ralch.com/tutorial/golang-sharing-libraries/)

With the new build mode, you no longer have to write a C glue layer yourself (as previously suggested in earlier responses). Once you have the shared-library and the header file, you can proceed to use FFI to call the Go-created shared library (example here: https://www.amberbit.com/blog/2014/6/12/calling-c-cpp-from-ruby/)

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