Simple and familiar. Build apps out of composable, easy-to-write blocks using languages you already know.
Super fast, rock solid. Compile-time static analysis ensures the browser does no more work than it needs to.
In Svelte, an application is composed from one or more components. A component is a reusable self-contained block of code that encapsulates markup, styles and behaviours that belong together.
Like Ractive and Vue, Svelte promotes the concept of single-file components: a component is just an .html file. Here's a simple example:
Axios is a promise-based HTTP client that works both in the browser and in a node.js environment. It basically provides a single API for dealing with XMLHttpRequest s and node's http interface. Besides that, it wraps the requests using a polyfill for ES6 new's promise syntax
npm install axios
bower install axios
Make XMLHttpRequests from the browser
Make http requests from node.js
Supports the Promise API
Intercept request and response
Transform request and response data
Automatic transforms for JSON data
Client-side support for protecting against XSRF
The user interface is split up into three sections:
GET Request with Parameters
With each of these three sections the user is able to try out a specific use case for Axios.
What is KeyStone.Js? KeystoneJS is a powerful Node.js content management system and web app framework built on express and mongoose. Keystone makes it easy to create sophisticated web sites and apps, and comes with a beautiful auto-generated Admin UI.
KeystoneJS is the easiest way to build database-driven websites, applications and APIs in Node.js.
Express.js and MongoDB
Auto-generated Admin UI
Keystone uses Mongoose, the leading ODM for node.js and MongoDB, and gives you a single place for your schema, validation rules and logic.
Keystone can configure Express for you, or you can take over and treat Keystone like any other Express middleware.
You can also easily integrate it into an existing Express app.
This library includes a few built-in architectures like multilayer perceptrons, multilayer long-short term memory networks (LSTM), liquid state machines or Hopfield networks, and a trainer capable of training any given network, which includes built-in training tasks/tests like solving an XOR, completing a Distracted Sequence Recall task or an Embedded Reber Grammar test, so you can easily test and compare the performance of different architectures.
Mercury leverages virtual-dom which uses an immutable vdom structure
Mercury comes with observ-struct which uses immutable data for your state atom
Mercury is truly modular, you can trivially swap out subsets of it for other modules
Mercury source code itself is maintainable, the modules it uses are all small, well tested and well documented. you should not be afraid to use mercury in production as it's easy to maintain & fix.
Mercury encourages zero dom manipulation in your application code. As far as your application is concerned elements do not exist. This means you don't need to reference DOM elements when rendering or when handling events
Mercury is a small glue layer that composes a set of modules that solves a subset of the frontend problem.