TypeScript typings for the core net library
typed-net-snmp
Strongly typed .NET interop with Node.js
Which kind of Typed Array is this JavaScript value? Works cross-realm, without `instanceof`, and despite Symbol.toStringTag.
Returns an array of Typed Array names that are available in the current environment
Robustly get the byte length of a Typed Array
Robustly get the byte offset of a Typed Array
Is this value a JS Typed Array? This module works cross-realm/iframe, does not depend on `instanceof` or mutable properties, and despite ES6 Symbol.toStringTag.
Get the ArrayBuffer out of a TypedArray, robustly.
A simple list of possible Typed Array names.
Robustly get the length of a Typed Array
OpenTelemetry instrumentation for `node:net` network API module
Web3 module to interact with the Ethereum nodes networking properties.
Add the power of Events to your projects. They are styled after .Net using a sender and arguments. Handlers can be promises.
Core files for the Strongly Typed Events project.
JSON Schema TypeScript definitions with complete inline documentation.
.Net dictionary for cspell.
The `@minecraft/server-net` module contains types for executing HTTP-based requests. This module can only be used on Bedrock Dedicated Server.
A Pulumi package for interacting with Docker in Pulumi programs
Node Rest and Http Clients for use with TypeScript
React Native TCP socket API for Android & iOS with SSL/TLS support
Observe when something in your node app starts listening on a TCP port
Better typed `querySelector` and `querySelectorAll`.
The Swagger API toolchain for .NET, Web API and TypeScript.
Implementation of fundamental types of neural networks which includes multilayer perceptron, Kohonen net and Hopfield net.
A .Net dynamic fake framework for creating all types of fake objects, mocks, stubs etc, that works well with machine specifications
YPetri is a DSL (domain-specific language) for modelling of dynamical systems. It is biologically inspired, but concerns of biology and chemistry have been purposely separated away from it. YPetri caters solely to the two main concerns of modelling, model specification and simulation, and it excels in the first one. Dynamical systems are described under a Petri net paradigm. YPetri implements a universal Petri net abstraction that integrates discrete/continous, timed/timeless and stoichiometric/nonstoichiometric dichotomies of the extended Petri nets, and allows efficient specification of any kind of dynamical system. Like Petri nets themselves, YPetri was inspired by problems from the domain of chemistry (biochemical pathway modelling), but is not specific to it. Other gems, YChem and YCell are planned to cater to the concerns specific to chemistry and cell biochemistry. A lower-level extension of YPetri is currently under development under the name YNelson. Its usage is practically identical to YPetri, so any YPetri user can now consider using YNelson instead. YNelson covers additional concerns: it allows relations among nodes and parameters to be specified under a zz structure paradigm (developed by Ted Nelson) and it is also aimed towards providing a higher level of abstraction in Petri net specification by providing commands that create more than one Petri net node per command. YPetri documentation is avalable online, but due to formatting issues, you may prefer to generate the documentation on your own by running rdoc in the gem directory. As for the user manuals, there are currently 3 documents applicable for both YPetri and YNelson, whose master copies are stored in the YNelson source directory: 1. Introduction to YNelson and YPetri (hands-on tutorial), 2. Object model of YNelson and YPetri, 3. Introduction to Ruby for YNelson users. These manuals are written to allow beginners, including those unfamiliar with Ruby, to start working with YPetri and/or YNelson. For an example of how YPetri can be used to model complex dynamical systems, see the eukaryotic cell cycle model which I released as "cell_cycle" gem.
The official IP2Location Ruby library to geolocate an IP address. You can lookup for country, region, district, city, latitude and longitude, ZIP/Postal code, time zone, Internet Service Provider (ISP) or company name, domain name, net speed, area code, weather station code, weather station name, mobile country code (MCC), mobile network code (MNC) and carrier brand, elevation, usage type, address type, IAB category and ASN from an IP address. Supported both IPv4 and IPv6 lookup.
Through a fluent, extensible interface, NBuilder allows you to rapidly create test data, automatically assigning values to properties and public fields that are of type of the built in .NET data types (e.g. ints and strings). NBuilder allows you to override for properties you are interested in using lambda expressions.
Wraps Net::HTTP with JSON handling, exponential backoff on 503 errors, optional proxy support, and typed error classes.
== FEATURES: * Real-Time OpenGL view * Multiple logfiles on multiple servers * Configurable layout * Multiple logfile parsers (Apache Combined, Rails, IIS, Postfix/spamd/clamd, Nginx, Squid, PostgreSQL, PureFTPD, MySQL, TShark, qmail/vmpop3d) * Custom events * Show rate, total or average * If you can 'tail' it, you can visualize it * Written in Ruby using net-ssh & libopengl-ruby * Free! == RUNNING: gl_tail --help gl_tail --new gl_tail.yaml gl_tail You can press 'f' while running to toggle the attempted frames per second. Or 'b' to change default blob type, and space to toggle bouncing. == REQUIREMENTS: * rubygems 0.9.4 * ruby-opengl 0.40.1 * net-ssh 1.1.2 * opengl/ruby development packages (ruby1.8-dev libgl1-mesa-dev libglu1-mesa-dev libglut3-dev)
This IP2Location.io Ruby on Rails library allows user to query for an enriched data set based on IP address. It enables user to query for an enriched data set, such as country, region, district, city, latitude & longitude, ZIP code, time zone, ASN, ISP, domain, net speed, IDD code, area code, weather station data, MNC, MCC, mobile brand, elevation, usage type, address type, advertisement category and proxy data with an IP address. It supports both IPv4 and IPv6 address lookup. This module requires API key to function. You may sign up for a free API key at https://www.ip2location.io/pricing.
== Ocean Ocean is an application template and an architecture for creating server-oriented architectures (SOAs) in the cloud. Ocean is a complete and extremely scalable back end solution for RESTful JSON web services and web applications, featuring aggressive caching and full HTTP client abstraction. Ocean fully implements HATEOAS principles, allowing the programming object model to move fully out onto the net, while maintaining a very high degree of decoupling. Ocean is also a development, staging and deployment pipeline featuring continuous integration and testing in a TDD and/or BDD environment. Ocean can be used for continuous deployment or for scheduled releases. Front end tests are run in parallel using a matrix of operating systems and browser types. The pipeline can very easily be extended with new development branches and quality assurance environments with automatic testing and deployment. Together, Ocean allows you to code front end clients completely independently of browser type and OS, and back end code completely agnostic of whether it is called by a client browser or another server system.
Ruby client for the Cryptohopper trading-bot platform API. OAuth2 bearer auth, auto-retry on 429, typed errors, stdlib-only transport (Net::HTTP). Covers all 18 public API domains.
The official IP2Location Ruby on Rails library to geolocate an IP address. You can lookup for country, region, district, city, latitude and longitude, ZIP/Postal code, time zone, Internet Service Provider (ISP) or company name, domain name, net speed, area code, weather station code, weather station name, mobile country code (MCC), mobile network code (MNC) and carrier brand, elevation, usage type, address type, IAB category and ASN from an IP address. Supported both IPv4 and IPv6 lookup.
STN (State Transition Notation) provides a rule-agnostic format for describing state transitions in abstract strategy board games. This gem implements the STN Specification v1.0.0 with a modern Ruby interface featuring immutable transition objects and functional programming principles. STN captures net changes between game positions by recording modifications in piece locations, hand/reserve contents, and active player status using standardized CELL coordinates and QPI piece identification. Perfect for game engines, position diff tracking, undo/redo systems, and network synchronization requiring efficient state delta representation across multiple game types and traditions.
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