Raix (pronounced "ray" because the x is silent) is a library that gives you everything you need to add discrete large-language model (LLM) AI components to your Rails applications. Raix consists of proven code that has been extracted from Olympia, the world's leading virtual AI team platform, and probably one of the biggest and most successful AI chat projects written completely in Ruby.
Understanding the how to use discrete AI components in otherwise normal code is key to productively leveraging Raix, and the subject of a book written by Raix's author Obie Fernandez, titled Patterns of Application Development Using AI. You can easily support the ongoing development of this project by buying the book at Leanpub.
At the moment, Raix natively supports use of either OpenAI or OpenRouter as its underlying AI provider. Eventually you will be able to specify your AI provider via an adapter, kind of like ActiveRecord maps to databases. Note that you can also use Raix to add AI capabilities to non-Rails applications as long as you include ActiveSupport as a dependency. Extracting the base code to its own standalone library without Rails dependencies is on the roadmap, but not a high priority.
Raix consists of three modules that can be mixed in to Ruby classes to give them AI powers. The first (and mandatory) module is ChatCompletion
, which provides transcript
and chat_completion
methods.
class MeaningOfLife
include Raix::ChatCompletion
end
>> ai = MeaningOfLife.new
>> ai.transcript << { user: "What is the meaning of life?" }
>> ai.chat_completion
=> "The question of the meaning of life is one of the most profound and enduring inquiries in philosophy, religion, and science.
Different perspectives offer various answers..."
The transcript accepts both abbreviated and standard OpenAI message hash formats. The abbreviated format, suitable for system, assistant, and user messages is simply a mapping of role => content
, as show in the example above.
transcript << { user: "What is the meaning of life?" }
As mentioned, Raix also understands standard OpenAI messages hashes. The previous example could be written as:
transcript << { role: "user", content: "What is the meaning of life?" }
One of the advantages of OpenRouter and the reason that it is used by default by this library is that it handles mapping message formats from the OpenAI standard to whatever other model you're wanting to use (Anthropic, Cohere, etc.)
The second (optional) module that you can add to your Ruby classes after ChatCompletion
is FunctionDispatch
. It lets you declare and implement functions to be called at the AI's discretion as part of a chat completion "loop" in a declarative, Rails-like "DSL" fashion.
Most end-user facing AI components that include functions should be invoked using chat_completion(loop: true)
, so that the results of each function call are added to the transcript and chat completion is triggered again. The looping will continue until the AI generates a plain text response.
class WhatIsTheWeather
include Raix::ChatCompletion
include Raix::FunctionDispatch
function :check_weather, "Check the weather for a location", location: { type: "string" } do |arguments|
"The weather in #{arguments[:location]} is hot and sunny"
end
end
RSpec.describe WhatIsTheWeather do
subject { described_class.new }
it "can call a function and loop to provide text response" do
subject.transcript << { user: "What is the weather in Zipolite, Oaxaca?" }
response = subject.chat_completion(openai: "gpt-4o", loop: true)
expect(response).to include("hot and sunny")
end
end
To loop AI components that don't interact with end users, at least one function block should invoke stop_looping!
whenever you're ready to stop processing.
class OrderProcessor
include Raix::ChatCompletion
include Raix::FunctionDispatch
SYSTEM_DIRECTIVE = "You are an order processor, tasked with order validation, inventory check,
payment processing, and shipping."
attr_accessor :order
def initialize(order)
self.order = order
transcript << { system: SYSTEM_DIRECTIVE }
transcript << { user: order.to_json }
end
def perform
# will continue looping until `stop_looping!` is called
chat_completion(loop: true)
end
# implementation of functions that can be called by the AI
# entirely at its discretion, depending on the needs of the order.
# The return value of each `perform` method will be added to the
# transcript of the conversation as a function result.
function :validate_order do
OrderValidationWorker.perform(@order)
end
function :check_inventory do
InventoryCheckWorker.perform(@order)
end
function :process_payment do
PaymentProcessingWorker.perform(@order)
end
function :schedule_shipping do
ShippingSchedulerWorker.perform(@order)
end
function :send_confirmation do
OrderConfirmationWorker.perform(@order)
end
function :finished_processing do
order.update!(transcript:, processed_at: Time.current)
stop_looping!
end
end
The third (also optional) module that you can add mix in along with ChatCompletion
is PromptDeclarations
. It provides the ability to declare a "Prompt Chain" (series of prompts to be called in a sequence), and also features a declarative, Rails-like "DSL" of its own. Prompts can be defined inline or delegate to callable prompt objects, which themselves implement ChatCompletion
.
The following example is a rough excerpt of the main "Conversation Loop" in Olympia, which pre-processes user messages to check for
the presence of URLs and scan memory before submitting as a prompt to GPT-4. Note that prompt declarations are executed in the order
that they are declared. The FetchUrlCheck
callable prompt class is included for instructional purposes. Note that it is passed the
an instance of the object that is calling it in its initializer as its context
. The passing of context means that you can assemble
composite prompt structures of arbitrary depth.
class PromptSubscriber
include Raix::ChatCompletion
include Raix::PromptDeclarations
attr_accessor :conversation, :bot_message, :user_message
# many other declarations ommitted...
prompt call: FetchUrlCheck
prompt call: MemoryScan
prompt text: -> { user_message.content }, stream: -> { ReplyStream.new(self) }, until: -> { bot_message.complete? }
def initialize(conversation)
self.conversation = conversation
end
def message_created(user_message)
self.user_message = user_message
self.bot_message = conversation.bot_message!(responding_to: user_message)
chat_completion(loop: true, openai: "gpt-4o")
end
...
end
class FetchUrlCheck
include ChatCompletion
include FunctionDispatch
REGEX = %r{\b(?:http(s)?://)?(?:www\.)?[a-zA-Z0-9-]+(\.[a-zA-Z]{2,})+(/[^\s]*)?\b}
attr_accessor :context, :conversation
delegate :user_message, to: :context
delegate :content, to: :user_message
def initialize(context)
self.context = context
self.conversation = context.conversation
self.model = "anthropic/claude-3-haiku"
end
def call
return unless content&.match?(REGEX)
transcript << { system: "Call the `fetch` function if the user mentions a website, otherwise say nil" }
transcript << { user: content }
chat_completion # TODO: consider looping to fetch more than one URL per user message
end
function :fetch, "Gets the plain text contents of a web page", url: { type: "string" } do |arguments|
Tools::FetchUrl.fetch(arguments[:url]).tap do |result|
parent = conversation.function_call!("fetch_url", arguments, parent: user_message)
conversation.function_result!("fetch_url", result, parent:)
end
end
Notably, Olympia does not use the FunctionDispatch
module in its primary conversation loop because it does not have a fixed set of tools that are included in every single prompt. Functions are made available dynamically based on a number of factors including the user's plan tier and capabilities of the assistant with whom the user is conversing.
Streaming of the AI's response to the end user is handled by the ReplyStream
class, passed to the final prompt declaration as its stream
parameter. Patterns of Application Development Using AI devotes a whole chapter to describing how to write your own ReplyStream
class.
Install the gem and add to the application's Gemfile by executing:
$ bundle add raix-rails
If bundler is not being used to manage dependencies, install the gem by executing:
$ gem install raix-rails
After checking out the repo, run bin/setup
to install dependencies. Then, run rake spec
to run the tests. You can also run bin/console
for an interactive prompt that will allow you to experiment.
Specs require OR_ACCESS_TOKEN
and OAI_ACCESS_TOKEN
environment variables, for access to OpenRouter and OpenAI, respectively. You can add those keys to a local unversionsed .env
file and they will be picked up by the dotenv
gem.
To install this gem onto your local machine, run bundle exec rake install
. To release a new version, update the version number in version.rb
, and then run bundle exec rake release
, which will create a git tag for the version, push git commits and the created tag, and push the .gem
file to rubygems.org.
Bug reports and pull requests are welcome on GitHub at https://github.com/[OlympiaAI]/raix-rails. This project is intended to be a safe, welcoming space for collaboration, and contributors are expected to adhere to the code of conduct.
The gem is available as open source under the terms of the MIT License.
Everyone interacting in the Raix::Rails project's codebases, issue trackers, chat rooms and mailing lists is expected to follow the code of conduct.