Results for bundle-try

bundle and require a file

Convert Oniguruma patterns to native JavaScript RegExp

Markdown-ish syntax for generating flowcharts, mindmaps, sequence diagrams, class diagrams, gantt charts, git graphs and more.

A 373-byte Spec-Compliant Runtime-Only Implementation of the ECMAScript Try Operator Proposal Result class

Build tool and bindings loader for node-gyp that supports prebuilds

Get bundle name from a bundle identifier (macOS): `com.apple.Safari` → `Safari`

A fork of `import-meta-resolve` with commonjs + ESM support at the same time, AKA dual package.

Build tool and bindings loader for node-gyp that supports prebuilds

`Start a promise chain

Web-based terminal emulator using Ghostty's VT100 parser via WebAssembly

Keep require and import consistent after bundling or transpiling

Tries to execute a function and discards any error that occurs

ECMAScript code generator

🐻 Bear necessities for state management in React

Webpack plugin and CLI utility that represents bundle content as convenient interactive zoomable treemap

ReDoc

Emscripten distribution of libheif for Node.JS and the browser

Sigstore bundle type

It is a trap! (for a focus)

Generate massive amounts of fake contextual data

Universal bundle analyzer and visualizer that works with most popular bundlers and frameworks.

Use `webpack-bundle-analyzer` in your Next.js project

Super-fast alternative to Babel for when you can target modern JS runtimes

Bundle your TypeScript library with no config, powered by esbuild

Start a REPL with the gems you want to try

Integrate the jQuery Validation plugin into the Rails asset pipeline

# DECC 2050 CALCULATOR TOOL A C version and ruby wrapper for the www.decc.gov.uk 2050 energy and climate change excel calculator Further detail on the project: http://www.decc.gov.uk/2050 Canonical source: http://github.com/decc/decc_2050_model ## DEPENDENCIES 1. ruby 1.9.2 (including development headers) 2. basic c development headers This has ONLY been tested on OSX and on Ubuntu 64 bit EC2 ami. Grateful for reports from other platforms. In the util folder there is an example script that creates a new EC2 EMI, installs all the dependencies and then compiles the gem. It may be useful if you are trying to figure out the complete set of dependencies. ## INSTALLATION Note that this compiles the underlying c code, which might take 10-20 minutes or so gem install decc_2050_model ## UPDATING TO NEWER VERSIONS OF EXCEL MODEL First of all, you need to be working on the github version of the code, not the rubygem: git clone http://github.com/decc/decc_2050_model Then put the new spreadsheet in spreadsheet/model.xlsx Then, from the top directory of the gem: bundle bundle exec rake The next step is to check whether Rakefile, lib/model/_model_result.rb and lib/model/model_structure.rb need to be altered so that they pick up the correct places in the underlying excel. The final stage is to build and install the new gem: gem build model.gemspec gem install decc_2050_model-<version>.gem ... where <version> is the version number of the gem file that was created in the folder. Now follow the instructions in the twenty-fifty server directory in order to ensure that it is using this new version of the gem.

# BELGIAN 2050 CALCULATOR TOOL A C version and ruby wrapper for the Belgian 2050 calcualtor ## GOTCHAS Some versions have a special formula in 2050!B2 that the translator doesn't recognise. Just write 2050 in that cell and recompile. Some tests fail for columns AN and AM on OUTPUT. I think this is due to rounding differences between excel and C. ## DEPENDENCIES 1. ruby 1.9.2 (including development headers) 2. basic c development headers This has ONLY been tested on OSX and on Ubuntu 64 bit EC2 ami. Grateful for reports from other platforms. In the util folder there is an example script that creates a new EC2 EMI, installs all the dependencies and then compiles the gem. It may be useful if you are trying to figure out the complete set of dependencies. ## INSTALLATION Note that this compiles the underlying c code, which might take 10-20 minutes or so gem install belgium_2050_model ## UPDATING TO NEWER VERSIONS OF EXCEL MODEL First of all, you need to be working on the github version of the code, not the rubygem: git clone http://github.com/decc/belgium_2050_model Then put the new spreadsheet in spreadsheet/2050Model.xlsx Then, from the top directory of the gem: bundle bundle exec rake The next step is to check whether lib/belgium_2050_model/belgium_2050_model_result.rb and lib/belgium_2050_model/model_structure.rb need to be altered so that they pick up the correct places in the underlying excel. The final stage is to build and install the new gem: gem build belgium_2050_model.gemspec gem install belgium_2050_model-<version>.gem ... where <version> is the version number of the gem file that was created in the folder. Now follow the instructions in the twenty-fifty server directory in order to ensure that it is using this new version of the gem.

## DESCRIPTION: Ruby interface to a C++ implemention of the A\* search algorithm. The C++ implementaion is found here <http://code.google.com/p/a-star-algorithm-implementation/> ## FEATURES: ## SYNOPSIS: See `spec\castar_spec.rb` for usage examples. Create an empty map and plan a path across it: require 'castar' include Castar map = init_map(:width => 4, :height => 3) astar = HeyesDriver.new(map, HeyesDriver::EIGHT_NEIGHBORS) astar.run(0,0,3,2) puts get_map_with_path(astar) |S|1|1|1| |1|*|1|1| |1|1|*|G| Load a map from a text file and plan a path: map = load_map('./spec/map_20.txt') astar = HeyesDriver.new(map, HeyesDriver::EIGHT_NEIGHBORS) astar.run(0,0,19,19) puts get_map_with_path(astar) |S|1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|1| |1|*|*|*|*|*|1|1|1|1|1|1|1|1|1|1|1|1|1|1| |1|1|9|9|9|9|*|1|1|1|1|9|9|9|9|9|9|9|9|9| |1|1|9|9|9|9|1|*|1|1|1|9|9|9|9|9|9|9|9|9| |1|1|9|9|9|9|1|1|*|1|1|9|9|9|9|9|9|9|9|9| |1|1|9|9|9|9|1|1|1|*|1|9|9|9|9|9|9|9|9|9| |1|1|9|9|9|9|1|1|1|1|*|9|9|9|9|9|9|9|9|9| |1|1|9|9|9|9|1|1|1|1|*|9|9|9|9|9|9|9|9|9| |1|1|1|1|1|1|1|1|1|1|*|9|9|9|9|9|9|9|9|9| |1|1|1|1|1|1|1|1|1|1|*|9|9|9|9|9|9|9|9|9| |1|1|1|1|1|1|1|1|1|1|1|*|1|1|1|1|1|1|1|1| |1|1|1|1|1|1|1|1|1|1|1|1|*|*|*|*|*|1|1|1| |1|1|1|1|1|9|9|9|9|9|9|9|9|9|9|9|9|*|1|1| |1|1|1|1|1|9|9|9|9|9|9|9|9|9|9|9|9|1|*|1| |1|1|1|1|1|9|9|9|9|9|9|9|9|9|9|9|9|1|1|*| |1|1|1|1|1|9|9|9|9|9|9|9|9|9|9|9|9|1|1|*| |1|1|1|1|1|9|9|9|9|9|9|9|9|9|9|9|9|1|1|*| |1|1|1|1|1|9|9|9|9|9|9|9|9|9|9|9|9|1|1|*| |1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|*| |1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|1|G| ## REQUIREMENTS: * Ruby 1.9 * C compiler for C extensions ## DEVELOPMENT To modify the gem in a cloned repo this is what I'm doing (from root of gem): bundle install cd ext/ ruby extconf.rb make These steps will install the development dependencies, build the Makefile and compile the C++ code. Running bundle exec rspec ./spec should show all tests passing. To clean up the autogenerated Makefile and the compiled objects: cd ext/ make realclean If you need to regenerate the ruby interface functions `heyes_wrap.cxx`, run: cd swig/ swig -c++ -ruby heyes.i mv heyes_wrap.cxx ../ext If you are just trying to run the tests: rake build gem install pkg/castar-0.0.1.gem builds the gem and installs it to your local machine. gem which castar tells you where it is. You can then cd to that directory and run the tests as above (but since you're not in a git repo you can't commit them). I followed the instructions [here](https://github.com/radar/guides/blob/master/gem-development.md) for using Bundler to create the gem. ## INSTALL: * gem install castar ## LICENSE: (The MIT License)

Send SMS messages using the OpenMarket API

# Fresh::Auth This gem makes it really, REALLY easy to use the Freshbooks API. It couldn't be easier. With only 3 functions you'll ever need to use, and only 2 required configuration values, it can't get any easier. ## Installation Add this line to your application's Gemfile: gem 'fresh-auth' And then execute: $ bundle Or install it yourself as: $ gem install fresh-auth ## Usage ### Configuration: You must define your Freshbooks subdomain and your OAuth Secret in your application code before using Fresh::Auth. For Ruby on Rails apps, a new file at config/initializers/fresh-auth.rb would be appropriate. Your configuration file should look like this (you fill in the three empty strings): Fresh::Auth.configure do |config| # The part of your login url between 'http://' and '.freshbooks.com' config.url.subdomain = "" # Under 'My Account' (on the top right when you're logged into Freshbooks) # -> 'Freshbooks API' -> 'OAuth Developer Access' -> 'OAuth Secret' # You'll need to request this from Freshbooks initially. config.oauth_secret = "" # Optional. Any string of your choice. Be creative or check out http://www.thebitmill.com/tools/password.html config.nonce_salt = "" end Fear not: If you try to use Fresh::Auth without configuring it first, an exception will be thrown that clearly describes the problem. ### Public API: There are two modules in this API: Fresh::Auth::Authentication and Fresh::Auth::Api #### Fresh::Auth::Authentication This module authenticates you with Freshbooks, storing the authentication in an array called `session`. This integrates seamlessly with Ruby on Rails' controller environment. If you're using some framework other than Ruby on Rails, make sure to define session in your class before including the Authentication module. This isn't recommended because your class will also need to define other objects called `params` and `request` and implement a `redirect_to` method. It gets complicated. Better leave it to Rails to handle this for you. The only public function of this module is AuthenticateWithFreshbooks. To use it, just add the following line of code to your controller: ` include Fresh::Auth::Authentication ` Then, the following line of code authenticates with Freshbooks from any method in your controller: ` AuthenticateWithFreshbooks() ` Note that, after authenticating with Freshbooks, the user will be redirected back to the same path using HTTP GET, so make sure the resource supports HTTP GET and that in the business logic executed on GET, AuthenticateWihFreshbooks() is called. #### Fresh::Auth::Api Once you've authenticated, you want to send XML requests to Freshbooks. The first step is preparing the XML with Fresh::Auth::Api.GenerateXml, which you'll supply with a block that defines all the nested XML that you want in your request. GenerateXml also takes two arguments before the block: the class and method that you want to call. First, in your controller: `include Fresh::Auth::Api` Then, in some method in that controller: my_xml = GenerateXml :invoice, :update do |xml| xml.client_id 20 xml.status 'sent' xml.notes 'Pick up the car by 5' xml.terms 'Cash only' xml.lines { xml.line { xml.name 'catalytic converter' xml.quantity 1 xml.unit_cost 450 xml.type 'Item' } xml.line { xml.name 'labor' xml.quantity 1 xml.unit_cost 60 xml.type 'Time' } } end Ok, you created the XML. Now you want to send it. Sounds pretty complicated, right? Not at all! Ready? Let's go! `_response = PostToFreshbooksApi my_xml` Now, are you wondering what's in `_response`? I'll tell you shortly, but before we discuss that, we have to know about the exception that PostToFreshbooksApi might raise. It raises a detailed error message if the response status is not 'ok'. Makes sense, right? Now, you still want to know what's in `_response`? Oh, nothing fancy. Just a Nokogiri XML object, representing the root element of the xml response. Could this get any easier? ## Contributing 1. Fork it 2. Create your feature branch (`git checkout -b my-new-feature`) 3. Commit your changes (`git commit -am 'Added some feature'`) 4. Push to the branch (`git push origin my-new-feature`) 5. Create new Pull Request

Contentful API wrapper library exposing an ActiveRecord-like interface