Meteor is a modular platform for developing web and mobile applications in JavaScript based on the NodeJS platform.

Meteor is a modular platform for developing web and mobile applications in pure JavaScript (though other languages can be used as well). Meteor is built on one unifying idea: Servers should serve data, not HTML, to clients, and should push updates to clients whenever data changes. It should then be up to the client to decide how to render the data.

Meteor has two parts:

  • A set of packages from which the developer may pick and choose. A set of core packages are available that handle common tasks, such as watching a database for changes, or rerendering a HTML template as data changes. Templating systems such as (based on Handlebars and released with Meteor 0.8), databases such as , languages such as , and client frameworks such as are available as packages.

  • A command-line tool meteor, which reads in an application's source tree and any packages used by the application, and writes out a tarball that's ready to deploy. The tarball can be unpacked and run anywhere there's .

Core Meteor technologies include:

  • Hot Code Push. When an application is redeployed, Meteor can transparently inject the update into each browser tab that has the application open, without losing the user's place in the application.

  • DDP. A simple protocol for publishing a set of JSON records (say, the current stories in user X's news feed, together with all comments on those stories), and then keeping that set up to date with create, update, and delete messages. DDP can run over Websockets or AJAX long polling, and supports transparent reconnection. Anything that speaks DDP can connect to a Meteor server (not just Meteor clients); Meteor clients can connect to any DDP server (not just their own Meteor server.)

  • Live page update engine. This is a layer that fits underneath any templating system (such as Handlebars or Jade) to make the rendered template automatically update in-place, no matter where it is inserted in the DOM. This is done by rendering a template in a context where its data accesses are recorded, then wiring up callbacks to track the location of the rendered DOM nodes and re-render the template if the data changes.

  • Latency compensation. When a user makes a change, their own screen can update immediately without waiting for the server. This is done by (optionally) executing the model update code on both the client and the server. Once the server has responded to the request, then if it executed differently there, the client state is patched up to match the server.

  • Smart Packages. Meteor packages are actually small JavaScript programs that are loaded at deploy time. By setting up callbacks using the bundler API, they can inject code into the client or the server, register new file extensions, precompile templates, preprocess source code, etc, allowing the package author to deliver a smoothly integrated experience.


Additional Resources (Privately Maintained / Unofficial):

history | excerpt history