QuacksLike is a module for RSpec to add matchers that test if an object is fully duck-typed to pretend to be another class. This kind of thing is really only necessary when passing such an object as the return value in an API where you don't know exactly how it will be consumed, but it needs to "quack like an Array" or something. It does its job by checking every instance method in the class that the target object needs to "quack like" and makes sure the target both responds to that method name and that the arity of the method is appropriate.

This is an experimental branch that implements a connection pool of Net::HTTP objects instead of a connection/thread. C/T is fine if you're only using your http threads to make connections but if you use them in child threads then I suspect you will have a thread memory leak. Also, I want to see if I get less connection resets if the most recently used connection is always returned. Also added a :force_retry option that if set to true will retry POST requests as well as idempotent requests. This branch is currently incompatible with the master branch in the following ways: * It doesn't allow you to recreate the Net::HTTP::Persistent object on the fly. This is possible in the master version since all the data is kept in thread local storage. For this version, you should probably create a class instance of the object and use that in your instance methods. * It uses a hash in the initialize method. This was easier for me as I use a HashWithIndifferentAccess created from a YAML file to define my options. This should probably be modified to check the arguments to achieve backwards compatibility. * The method shutdown is unimplemented as I wasn't sure how I should implement it and I don't need it as I do a graceful shutdown from nginx to finish up my connections. For connection issues, I completely recreate a new Net::HTTP instance. I was running into an issue which I suspect is a JRuby bug where an SSL connection that times out would leave the ssl context in a frozen state which would then make that connection unusable so each time that thread handled a connection a 500 error with the exception "TypeError: can't modify frozen". I think Joseph West's fork resolves this issue but I'm paranoid so I recreate the object. Compatibility with the master version could probably be achieved by creating a Strategy wrapper class for GenePool and a separate strategy class with the connection/thread implementation.

== PintosCheck -- Auto Pintos Checker to Save the Day == == Functionalities == The functionality of this simple script is to download pintos homework assignments from the mail inbox and then run through all the desired tests and finally generate reports in plain text or html formats, all automatically. == Requirements For Running PintosCheck == Since all the scripts are written in ruby, PintosCheck require ruby installed on the system. I use ruby 1.8.7 for development, but ruby 1.9.* versions are expected to function as well. However, ruby 1.8.6 and lower versions are not supported. For information of downloading and installing ruby, see http://www.ruby-lang.org/en/downloads/. In addition to ruby itself, RubyGems 1.3.* is also required because it hosts the installation source for this project and almost all other ruby projects as well. To download or update RubyGems, please go to http://gemcutter.org/pages/download for more information. == Installation == Once you have all the requirements on your system, it's really easy to install PintosCheck. In the UNIX shell or Windows command line environment, type the following command(sudo if needed): gem install pintoscheck --include-dependencies Go grab a cup of coffee, and PintosCheck will automatically download and install itself onto the system. To check the installation, type 'ptschk --version', and if something like 'PintosCheck 0.1.0' pops up then you're green to go! == Finally, how do I check my students' pintos homework? == This project ships with a 'ptschk' command tool. This tool needs a task configuration file to actually do everything. The configuration file is in YAML format, which is basically a recursive key-value pair representation. If you're using PintosCheck for the first time, there's a very nice command line option to generate the skeleton for you. Just run 'ptschk init my_first_task.config' and a file named 'my_first_task.config' will be generated for you. Inside this file there is a set of the minimal options for the task to run properly, and you just have to fill in what you need. After you set up your configuration file, run 'ptschk run my_first_task.config' and the tasks will kick off immediately, and after a while the report will be generated. A detailed configuration options for advanced task setup will be available in production release of this project.

Property types that add CHECK constraints to your DB and validations to your model. Data integrity FTW.

ALPHA Alert -- just uploaded initial release. Linux inotify is a means to receive events describing file system activity (create, modify, delete, close, etc). Sinotify was derived from aredridel's package (http://raa.ruby-lang.org/project/ruby-inotify/), with the addition of Paul Boon's tweak for making the event_check thread more polite (see http://www.mindbucket.com/2009/02/24/ruby-daemons-verifying-good-behavior/) In sinotify, the classes Sinotify::PrimNotifier and Sinotify::PrimEvent provide a low level wrapper to inotify, with the ability to establish 'watches' and then listen for inotify events using one of inotify's synchronous event loops, and providing access to the events' masks (see 'man inotify' for details). Sinotify::PrimEvent class adds a little semantic sugar to the event in to the form of 'etypes', which are just ruby symbols that describe the event mask. If the event has a raw mask of (DELETE_SELF & IS_DIR), then the etypes array would be [:delete_self, :is_dir]. In addition to the 'straight' wrapper in inotify, sinotify provides an asynchronous implementation of the 'observer pattern' for notification. In other words, Sinotify::Notifier listens in the background for inotify events, adapting them into instances of Sinotify::Event as they come in and immediately placing them in a concurrent queue, from which they are 'announced' to 'subscribers' of the event. [Sinotify uses the 'cosell' implementation of the Announcements event notification framework, hence the terminology 'subscribe' and 'announce' rather then 'listen' and 'trigger' used in the standard event observer pattern. See the 'cosell' package on github for details.] A variety of 'knobs' are provided for controlling the behavior of the notifier: whether a watch should apply to a single directory or should recurse into subdirectores, how fast it should broadcast queued events, etc (see Sinotify::Notifier, and the example in the synopsis section below). An event 'spy' can also be setup to log all Sinotify::PrimEvents and Sinotify::Events. Sinotify::Event simplifies inotify's muddled event model, sending events only for those files/directories that have changed. That's not to say you can't setup a notifier that recurses into subdirectories, just that any individual event will apply to a single file, and not to its children. Also, event types are identified using words (in the form of ruby :symbols) instead of inotify's event masks. See Sinotify::Event for more explanation. The README for inotify: http://www.kernel.org/pub/linux/kernel/people/rml/inotify/README Selected quotes from the README for inotify: * "Rumor is that the 'd' in 'dnotify' does not stand for 'directory' but for 'suck.'" * "The 'i' in inotify does not stand for 'suck' but for 'inode' -- the logical choice since inotify is inode-based." (The 's' in 'sinotify' does in fact stand for 'suck.')

ALPHA Alert -- just uploaded initial release. Linux inotify is a means to receive events describing file system activity (create, modify, delete, close, etc). Sinotify was derived from aredridel's package (http://raa.ruby-lang.org/project/ruby-inotify/), with the addition of Paul Boon's tweak for making the event_check thread more polite (see http://www.mindbucket.com/2009/02/24/ruby-daemons-verifying-good-behavior/) In sinotify, the classes Sinotify::PrimNotifier and Sinotify::PrimEvent provide a low level wrapper to inotify, with the ability to establish 'watches' and then listen for inotify events using one of inotify's synchronous event loops, and providing access to the events' masks (see 'man inotify' for details). Sinotify::PrimEvent class adds a little semantic sugar to the event in to the form of 'etypes', which are just ruby symbols that describe the event mask. If the event has a raw mask of (DELETE_SELF & IS_DIR), then the etypes array would be [:delete_self, :is_dir]. In addition to the 'straight' wrapper in inotify, sinotify provides an asynchronous implementation of the 'observer pattern' for notification. In other words, Sinotify::Notifier listens in the background for inotify events, adapting them into instances of Sinotify::Event as they come in and immediately placing them in a concurrent queue, from which they are 'announced' to 'subscribers' of the event. [Sinotify uses the 'cosell' implementation of the Announcements event notification framework, hence the terminology 'subscribe' and 'announce' rather then 'listen' and 'trigger' used in the standard event observer pattern. See the 'cosell' package on github for details.] A variety of 'knobs' are provided for controlling the behavior of the notifier: whether a watch should apply to a single directory or should recurse into subdirectores, how fast it should broadcast queued events, etc (see Sinotify::Notifier, and the example in the synopsis section below). An event 'spy' can also be setup to log all Sinotify::PrimEvents and Sinotify::Events. Sinotify::Event simplifies inotify's muddled event model, sending events only for those files/directories that have changed. That's not to say you can't setup a notifier that recurses into subdirectories, just that any individual event will apply to a single file, and not to its children. Also, event types are identified using words (in the form of ruby :symbols) instead of inotify's event masks. See Sinotify::Event for more explanation. The README for inotify: http://www.kernel.org/pub/linux/kernel/people/rml/inotify/README Selected quotes from the README for inotify: * "Rumor is that the 'd' in 'dnotify' does not stand for 'directory' but for 'suck.'" * "The 'i' in inotify does not stand for 'suck' but for 'inode' -- the logical choice since inotify is inode-based." (The 's' in 'sinotify' does in fact stand for 'suck.')

Allows checking of reply content type with request accept types. Also allows contracting of downstream apps to supplying a single type.

QuacksLike is a module for RSpec to add matchers that test if an object is fully duck-typed to pretend to be another class. This kind of thing is really only necessary when passing such an object as the return value in an API where you don't know exactly how it will be consumed, but it needs to "quack like an Array" or something. It does its job by checking every instance method in the class that the target object needs to "quack like" and makes sure the target both responds to that method name and that the arity of the method is appropriate.

The code to check for the iPhone user agent is from http://developer.apple.com. This doesn't have any dependencies. - in app/controllers/application.rb require 'is_it_iphone' class ApplicationController < ActionController::Base include IsItIPhone before_filter :adjust_format_for_iphone # Always show iPhone views end You will have these functions: iphone_user_agent? Returns true if the user agent is an iPhone. (as spec'ed on http://developer.apple.com) iphone_request? Returns true if the request came from an iPhone. Override being an iPhone with ?format=xxxx in the URL. adjust_format_for_iphone Call when you want to show iPhone views to iPhone users. Note: It is recommended by Apple that you default to showing your "normal" html page to iPhone users and allow them to choose if they want an iPhone version. With Rails 2.0, you can use its multiview capabilities by simply adding this to your app: - in config/initializers/mime_types.rb Mime::Type.register_alias "text/html", :iphone Then, just create your views using suffices of iphone.erb instead of html.erb: index.iphone.erb show.iphone.erb etc. Note: you will probably want to use a Web library specific for iPhone applications. FWIW, I use Da shcode (in the iPhone SDK) to write and debug the iPhone application and then integrate it with my Rails project.

Methods for defining type-checked arrays and attributes

ruby-contract provides support for describing and using types via unit-tests. It offers support for specifying contracts (Contract), method signature checks (Module#signature), automatic adaption between types (Kernel#adaption) and integration with the classic message- and class-based typing.

EnvCheck is a lightweight Ruby gem that ensures your required and optional environment variables are present and valid before your app boots. Features smart config discovery (.env_check.yml or config/env_check.yml), comprehensive type validation with 9 built-in validators, .env loading with dotenv, and professional CLI tools. Framework-agnostic design works with Rails 7.1+ through Rails 8.0+, Ruby 3.0+.

TypedAttrs integrates Sorbet's T::Struct with ActiveRecord's JSON/JSONB columns, providing type-safe structured data storage with runtime and static type checking. Supports nested structs, arrays, hashes, union types, and automatic validation.

A lightweight gem that validates required environment variables at application boot time, providing type checking, format validation, and helpful error messages to prevent production disasters caused by missing or invalid configuration.

A tiny pre-processor for ruby that adds runtime type checking to methods.

Type checking tasks for Bake.

Reads .trb files, checks type annotations, and generates pure Ruby.

Method-Ray is a static analysis tool that checks the callability of methods in Ruby code. It uses graph-based type inference to detect undefined method calls at analysis time.

LCN (Location Condition Notation) provides a rule-agnostic format for describing location conditions in abstract strategy board games. This gem implements the LCN Specification v1.0.0 with a modern Ruby interface featuring immutable condition objects and functional programming principles. LCN enables standardized representation of environmental constraints on board locations using reserved keywords ("empty", "enemy") and QPI piece identifiers with CELL coordinate system integration. Perfect for movement validation, pre-condition checking, constraint evaluation, and rule-agnostic game logic requiring precise location state requirements across multiple game types and traditions.

A puppet-lint plugin to check for class parameters with undef as value but not Optional type