Easy test setup without side effects
Provides "ui" for testing frameworks such as mocha/jasmine which allows to define lazy variables and subjects
Jest plugins to emulate RSpec syntax and structure.
[](https://www.npmjs.com/package/jsdoc-type-pratt-parser) []
PDF Document creation from JavaScript
Spectrum UI components in React
Adds context as an alternative to describe to jest.
Adds a Given-When-Then DSL to jasmine as an alternative style for specs
Implementing live region for screen readers
A production-focused playground for live editing React code
Resizable component for React.
Super simple DI for JavaScript, targetted mainly at spec test setup
Distributed test runner using Redis as a work queue. Push file paths to a Redis list, then multiple CI runners atomically steal batches and execute them via a configurable command.
Minimalistic but perfect custom scrollbar plugin
Simple development http server with live reload capability
Base SDK for building Content Source Maps with Contentful
Ledger Live main types.
React lifecycle controlled motion library
JavaScript HLS client using MediaSourceExtension
[](https://www.npmjs.com/package/@n1ru4l/graphql-live-query) [](https://www.npmjs.com/package/@n1ru4l/
Aria live region for React components
ProseMirror's rowspan/colspan tables component
A draggable and resizable React Component
React resize detector
Continually updating console output for RSpec 3+
RSpec matchers for live controller response
LiveResource RSpec integration
RSpec formatter designed to live in a small terminal of ~6 lines
CommandSet is a user interface framework. Its focus is a DSL for defining commands, much like Rake or RSpec. A default readline based terminal interpreter (complete with context sensitive tab completion, and the amenities of readline: history editing, etc) is included. It could very well be adapted to interact with CGI or a GUI - both are planned. CommandSet has a lot of very nice features. First is the domain-specific language for defining commands and sets of commands. Those sets can further be neatly composed into larger interfaces, so that useful or standard commands can be resued. Optional application modes, much like Cisco's IOS, with a little bit more flexibility. Arguments have their own sub-language, that allows them to provide interface hints (like tab completion) as well as input validation. On the output side of things, CommandSet has a very flexible output capturing mechanism, which generates a tree of data as it's generated, even capturing writes to multiple places at once (even from multiple threads) and keeping everything straight. Methods that normally write to stdout are interposed and fed into the tree, so you can hack in existing scripts with minimal adjustment. The final output can be presented to the user in a number of formats, including contextual coloring and indentation, or even progress hashes. XML is also provided, although it needs some work. Templates are on the way. While you're developing your application, you might find the record and playback utilities useful. cmdset-record will start up with your defaults for your command set, and spit out an interaction script. Then you can replay the script against the live set with cmdset-playback. Great for ad hoc testing, usability surveys and general demos.
# holepunch [](http://badge.fury.io/rb/holepunch) [](https://travis-ci.org/undeadlabs/holepunch) Holepunch manages AWS EC2 security groups in a declarative way through a DSL. ## Requirements - Ruby 1.9.3 or newer. ## Installation ```bash gem install holepunch ``` or in your Gemfile ```ruby gem 'holepunch' ``` ## Basic Configuration You need to provide your AWS security credentials and a region. These can be provided via the command-line options, or you can use the standard AWS environment variables: ```bash export AWS_ACCESS_KEY_ID='...' export AWS_SECRET_ACCESS_KEY='...' export AWS_REGION='us-west-2' ``` ## The SecurityGroups file Specify your security groups in a `SecurityGroups` file in your project's root. Declare security groups that you need and the ingresses you want to expose. You can add ingresses using `tcp`, `udp`, and `ping`. For each ingress you can list allowed hosts using group names or CIDR notation. ```ruby group 'web' do desc 'Web servers' tcp 80 end group 'db' do desc 'database servers' tcp 5432, 'web' end group 'log' do desc 'log server' tcp 9999, 'web', 'db', '10.1.0.0/16' end ``` An environment can be specified which is available through the `env` variable. This allows you to have custom security groups per server environment. ```ruby group "#{env}-web" group "#{env}-db" do tcp 5432, "#{env}-web" end ``` Your application may depend on security groups defined by other services. Ensure they exist using the `depends` method. ```ruby depends 'my-other-service' group 'my-service' do udp 9999, 'my-other-service' end ``` You may specify port ranges for `tcp` and `udp` using the range operator. ```ruby group 'my-service' do udp 5000..9999, '0.0.0.0/0' end ``` You can specify ping/icmp rules with `icmp` (alias: `ping`). ```ruby group 'my-service' do ping '10.0.0.0/16' end ``` It can be useful to describe groups of security groups you plan to launch instances with by using the `service` declaration. ```ruby service "#{env}-web" do groups %W( admin #{env}-log-producer #{env}-web ) end ``` ## Usage Simply navigate to the directory containing your `SecurityGroups` file and run `holepunch`. ``` $ holepunch ``` If you need to specify an environment: ``` $ holepunch -e live ``` You can get a list of security groups for a service using the `service` subcommand. ``` $ holepunch service -e prod prod-web admin,prod-log-producer,prod-web ``` You can also get a list of all defined services. ``` $ holepunch service --list ``` ## Testing You can run the unit tests by simply running rspec. ``` $ rspec ``` By default the integration tests with EC2 are not run. You may run them with: ``` $ rspec -t integration ``` ## Authors - Ben Scott (gamepoet@gmail.com) - Pat Wyatt (pat@codeofhonor.com) ## License Copyright 2014 Undead Labs, LLC. Licensed under the MIT License: http://opensource.org/licenses/MIT
go (to project) do (stuffs) godo provides a smart way of opening a project folder in multiple terminal tabs and, in each tab, invoking a commands appropriate to that project. For example if the folder contains a Rails project the actions might include: starting mongrel, tailing one or more logs, starting consoles or IRB sessions, tailing production logs, opening an editor, running autospec, or gitk. godo works by searching your project paths for a given search string and trying to match it against paths found in one or more configured project roots. It will make some straightforward efforts to disambiguate among multiple matches to find the one you want. godo then uses configurable heuristics to figure out what type of project it is, for example "a RoR project using RSpec and Subversion". From that it will invokes a series of action appropriate to the type of project detected with each action being run, from the project folder, in its own terminal session. godo is entirely configured by a YAML file (~/.godo) that contains project types, heuristics, actions, project paths, and a session controller. A sample configuration file is provided that can be installed using godo --install. godo comes with an iTerm session controller for MacOSX that uses the rb-appscript gem to control iTerm (see lib/session.rb and lib/sessions/iterm_session.rb). It should be relatively straightforward to add new controller (e.g. for Leopard Terminal.app), or a controller that works in a different way (e.g. by creating new windows instead of new tabs). There is nothing MacOSX specific about the rest of godo so creating controllers for other unixen should be straightforward if they can be controlled from ruby. godo is a rewrite of my original 'gp' script (http://matt.blogs.it/entries/00002674.html) which fixes a number of the deficiencies of that script, turns it into a gem, has a better name, and steals the idea of using heuristics to detect project types from Solomon White's gp variant (http://onrails.org/articles/2007/11/28/scripting-the-leopard-terminal). godo now includes contributions from Lee Marlow <lee.marlow@gmail.com> including support for project level .godo files to override the global configuration, support for Terminal.app, and maximum depth support to speed up the finder. godo lives at the excellent GitHub: http://github.com/mmower/godo/ and accepts patches and forks.