Results for modules-words

A get modules api words library

Ensure that no reserved words are used.

Transform a string between `camelCase`, `PascalCase`, `Capital Case`, `snake_case`, `kebab-case`, `CONSTANT_CASE` and others

Encode and decode quoted printable and base64 strings

Tiny Casing utils

Convert a string of words to a JavaScript identifier

This plugin transforms ES2015 modules to CommonJS

Split a double-precision floating-point number into a higher order word and a lower order word.

Create a double-precision floating-point number from a higher order word and a lower order word.

TypeScript definitions for react-highlight-words

This plugin transforms ES2015 modules to UMD

This plugin transforms ES2015 modules to AMD

This plugin transforms ES2015 modules to SystemJS

Webpack Virtual Modules

capitalize the first character of a string

Convert numbers to words in 132 locales with currency, ordinal, and BigInt support (TypeScript, ESM/CJS/UMD).

A CSS Modules transform to extract local aliases for inline imports

ECMAScript reserved words checker

Bech32 encoding / decoding

AFINN 165 (list of English words rated for valence) in JSON

A CSS Modules transform to make local scope the default

TypeScript definitions for number-to-words

Ensure that reserved words are quoted in object property keys

Generate word clouds in JavaScript.

test

A bunch of useful classes for bioinformatics

Wordfilter is a small library that can check a string for blacklisted words. It comes with a pre-defined list of words, but you can add your own.

The Keypad module provides methods to determine all sequences of letters associated to a given number according to standard phone keypad. The "inverse" function, i.e., find the digits corresponding to a certain word, is also provided.

Rich-pluralization is a module of E9s (http://github.com/archan937/e9s) which provides localized pluralization in combination with i18n. Doing this enables you to only translate words in singular form as the module pluralizes the translation for you.

Allows to use alternative words endings: -ise instead of -ize etc. Defines `is_an?` as an alias of the is_a? method. Provides a module to use `initialise` in your classes.

Text readability indexes and stats calibrated on Italian language. Inspired by Lingua::EN::Readability and the original Perl module Lingua::EN::Fathom. It prints some usefull readability stats including sentences, words, syllables and average values for words and sentences. Gulpease and Flesch for italian text is calculated.

Heavily based on Forgery it uses the same word sources. It's built to be a bit more customisable and allows you to define new strategies and styles both using ruby modules or big text lists.

Unextendable originated from the thought of being able to implement the State pattern within object instances using modules. In other words: I wanted object instances to behave dependent on their state using modules. I really want to use modules because they are commonly used to define a set of methods which you can extend within an object instance. Unfortunately, you cannot just unexclude a module. So after searching the web for solutions, I came across Mixology, evil-ruby and StatePattern. But they slightly did not fit the picture. So after doing some research, I came up with Unextendable.

Bond is on a mission to improve autocompletion in ruby, especially for irb/ripl. Aside from doing everything irb's can do and fixing its quirks, Bond can autocomplete argument(s) to methods, uniquely completing per module, per method and per argument. Bond brings ruby autocompletion closer to bash/zsh as it provides a configuration system and a DSL for creating custom completions and completion rules. With this configuration system, users can customize their autocompletions and share it with others. Bond can also load completions that ship with gems. Bond is able to offer more than irb's completion since it uses the full line of input when completing as opposed to irb's last-word approach.

# COM # COM is an object-oriented wrapper around WIN32OLE. COM makes it easy to add behavior to WIN32OLE objects, making them easier to work with from Ruby. ## Usage ## Using COM is rather straightforward. There’s basically four concepts to keep track of: 1. COM objects 2. Instantiable COM objects 3. COM events 4. COM errors Let’s look at each concept separately, using the following example as a base. module Word end class Word::Application < COM::Instantiable def without_interaction with_properties('displayalerts' => Word::WdAlertsNone){ yield } end def documents Word::Documents.new(com.documents) end def quit(saving = Word::WdDoNotSaveChanges, *args) com.quit saving, *args end end ### COM Objects ### A COM::Object is a wrapper around a COM object. It provides error specialization, which is discussed later and a few utility methods. You typically use it to wrap COM objects that are returned by COM methods. If we take the example given in the introduction, Word::Documents is a good candidate: class Word::Documents < COM::Object DefaultOpenOptions = { 'confirmconversions' => false, 'readonly' => true, 'addtorecentfiles' => false, 'visible' => false }.freeze def open(path, options = {}) options = DefaultOpenOptions.merge(options) options['filename'] = Pathname(path).to_com Word::Document.new(com.open(options)) end end Here we override the #open method to be a bit easier to use, providing sane defaults for COM interaction. Worth noting is the use of the #com method to access the actual COM object to invoke the #open method on it. Also note that Word::Document is also a COM::Object. COM::Object provides a convenience method called #with_properties, which is used in the #without_interaction method above. It lets you set properties on the COM::Object during the duration of a block, restoring them after it exits (successfully or with an error). ### Instantiable COM Objects ### Instantiable COM objects are COM objects that we can connect to and that can be created. The Word::Application object can, for example, be created. Instantiable COM objects should inherit from COM::Instantiable. Instantiable COM objects can be told what program ID to use, whether or not to allow connecting to an already running object, and to load its associated constants upon creation. The program ID is used to determine what instantiable COM object to connect to. By default the name of the COM::Instantiable class’ name is used, taking the last two double-colon-separated components and joining them with a dot. For Word::Application, the program ID is “Word.Application”. The program ID can be set by using the .program_id method: class IDontCare::ForConventions < COM::Instantiable program_id 'Word.Application' end The program ID can be accessed with the same method: Word::Application.program_id # ⇒ 'Word.Application' Connecting to an already running COM object is not done by default, but is sometimes desirable: the COM object might take a long time to create, or some common state needs to be accessed. If the default for a certain instantiable COM object should be to connect, this can be done using the .connect method: class Word::Application < COM::Instantiable connect end If no running COM object is available, then a new COM object will be created in its stead. Whether or not a class uses the connection method can be queried with the .connect? method: Word::Application.connect? # ⇒ true Whether or not to load constants associated with an instantiable COM object is set with the .constants method: class Word::Application < COM::Instantiable constants true end and can similarly be checked: Word::Application.constants? # ⇒ true Constants are loaded by default. When an instance of the instantiable COM object is created, a check is run to see if constants should be loaded and whether or not they already have been loaded. If they should be loaded and they haven’t already been loaded, they’re, you guessed it, loaded. The constants are added to the module containing the COM::Instantiable. Thus, for Word::Application, the Word module will contain all the constants. Whether or not the constants have already been loaded can be checked with .constants_loaded?: Word::Application.constants_loaded # ⇒ false That concludes the class-level methods. Let’s begin with the #connected? method among the instance-level methods. This method queries whether or not this instance connected to an already running COM object: Word::Application.new.connected? # ⇒ false This can be very important in determining how shutdown of a COM object should be done. If you connected to an already COM object it might be foolish to shut it down if someone else is using it. The #initialize method takes a couple of options: * connect: whether or not to connect to a running instance * constants: whether or not to load constants These options will, when given, override the class-level defaults. ### Events ### COM events are easily dealt with: class Word::Application < COM::Instantiable def initialize(options = {}) super @events = COM::Events.new(com, 'ApplicationEvents', 'OnQuit') end def quit(saving = Word::WdDoNotSaveChanges, *args) @events.observe('OnQuit', proc{ com.quit saving, *args }) do yield if block_given? end end end To tell you the truth this API sucks and will most likely be rewritten. The reason that it is the way it is is that WIN32OLE, which COM wraps, sucks. It’s event API is horrid and the implementation is buggy. It will keep every registered event block in memory for ever, freeing neither the blocks nor the COM objects that yield the events. ### Errors ### All errors generated by COM methods descend from COM::Error, except for those cases where a Ruby error already exists. The following HRESULT error codes are turned into Ruby errors: HRESULT Error Code | Error Class -------------------|------------ 0x80004001 | NotImplementedError 0x80020005 | TypeError 0x80020006 | NoMethodError 0x8002000e | ArgumentError 0x800401e4 | ArgumentError There are also a couple of other HRESULT error codes that are turned into more specific errors than COM::Error: HRESULT Error Code | Error Class -------------------|------------ 0x80020003 | MemberNotFoundError 0x800401e3 | OperationUnavailableError Finally, when a method results in any other error, a COM::MethodInvocationError will be raised, which can be queried for the specifics, specifically #message, #method, #server, #code, #hresult_code, and #hresult_message. ### Pathname ### The Pathname object receives an additional method, #to_com. This method is useful for when you want to pass a Pathname object to a COM method. Simply call #to_com to turn it into a String of the right encoding for COM: Word::Application.new.documents.open(Pathname('a.docx').to_com) # ⇒ Word::Document ## Installation ## Install COM with % gem install com ## License ## You may use, copy and redistribute this library under the same [terms][1] as Ruby itself. [1]: http://www.ruby-lang.org/en/LICENSE.txt ## Contributors ## * Nikolai Weibull

==== subj3ct - The DNS for the Semantic Web This is a Ruby adapter for the subj3ct.com webservice. Subj3ct is an infrastructure technology for Web 3.0 applications. These are applications that are organised around subjects and semantics rather than documents and links. Subj3ct provides the technology and services to enable Web 3.0 applications to define and exchange subject definitions. Or in other words: Subj3ct.com is for the Semantic Web what DNS is for the internet. ==== Installing Install the gem: gem install subj3ct ==== Usage Query a specific subject - to be specific: its subject identity record - using it's identifier: Subj3ct.identifier("http://www.topicmapslab.de/publications/TMRA_2009_subj3ct_a_subject_identity_resolution_service") See the README or the github page for more examples. ==== Subj3ct vs. Subject The official name is "Subj3ct", however in this API, you can also use "Subject" which may be easier to remember or to type for normal, n0n-1337 people. It should work for the gem, for the require and for the main module. ==== Contribute! Subj3ct is a young and ambitious service. It's free, will stay free and needs your help. Contribute to this library! Create bindings for other languages! Publish your data as linked data to the web and register it with subj3ct.com. ==== Note on Patches/Pull Requests * Fork the project on http://github.bb/subj3ct * Make your feature addition or bug fix. * Add tests for it. This is important so I don't break it in a future version unintentionally. * Commit, do not mess with rakefile, version, or history. (if you want to have your own version, that is fine but bump version in a commit by itself I can ignore when I pull) * Send me a pull request. Bonus points for topic branches. ==== Copyright Copyright (c) 2010 Benjamin Bock, Topic Maps Lab. See LICENSE for details.