- enhance communication and collaborative debugging by providing extensive insight in pasted code
- fast and easy to use, no ads, no registration
- highlighting with Scala X-Ray
- reusing sbt instances for fast compilation
- running in sandbox with sbt
- apply scalariform and linter to paste
- building with sbt, with support for inline dependency specification (see http://www.scala-sbt.org/release/docs/Scripts.html, only libraryDependencies, scalaVersion, resolvers, scalacOptions, sbtPlugin settings are allowed)
- distributes workload amongst multiple sbt instances (including remote)
- realtime update of paste compilation/running progress
- timeout long-running pastes
- allow deleting and cloning pastes
- allow specifying scala version
- provide several useful templates (e.g. scalaz, akka, play, scala 2.10)
- detect pastes to gist.github.com pastie.net pastebin.com etc with multibot and copy to scastie
- interface for uploading pre-sxred libraries
- linking with lots of sxr-processed libraries
- support execution of tests
- link stacktraces and compilation errors to source
- optionally load linked sources side-by-side with paste
- evaluate pastes with no dependencies in multibot
- generate seo friendly names from paste content
- support repl mode (one paste can depend on another)
- cloning pastes akin to github gists
Scastie relies on existing scala infrastructure to provide close to real world experience inside a pastebin-like sandbox. This minimizes the effort to create meaningful paste but might require some prior experience to fully unleash its (and scala) power.
It is not meant to be an online IDE, but rather a collaborative debugging tool. Some features for better collaboration are outlined in Plans section.
One drawback of such approach is that it makes it hardly useful for languages not currently supported by sbt. This of course can be improved using language-specific sbt plugins, but at this time is not in scope.
The application consists of two modules:
- scastie - standard play2 web application module
- renderer - encapsulates pastes storage and processing
For each paste create/read request Pastes controller in scastie module creates a message and sends it to PastesActor in renderer module. The PastesActor creates a few worker RendererActors via akka router and delegates the actual paste processing to them. But before handing off the work to delegatee, PastesActor stores unprocessed paste and replies to Pastes controller so that it could be displayed to user immediately.
RendererActor interacts with locally running sbt instance via process IO streams, which is quite hacky, but works good enough. If the sbt instance terminates or otherwise encounters an error while processing a paste, the actor will be restarted.
Currently the pastes are stored directly on file system on master node (the one which is running web application and PastesActor). This works well on free hosting like OpenShift, but obviously will not scale. Migrating to another storage will be relatively painless because all operations are encapsulated within PastesContainer.
As this is a regular Play2 application all standard techniques apply. For convenience sbt launch scripts for cygwin (xsbt.cmd) and *nix (xsbt.sh) are included in repository.
To start application in dev mode just execute './xsbt.sh run' and go to http://localhost:9000
To start application in debug mode in intellij use the included 'scastie-play' run configuration. Use JRebel to emulate play reloading.
It is also possible to use sbt-revolver like this: `` ./xsbt.sh ~scastie/reStart `` or if you want to take advantage of JRebel and avoid full restart on every code change: `` ./xsbt.sh scastie/reStart ~products ``
Currently the application contains separate configuration tailored for deployment on single AWS t1.micro instance. The configs and launch scripts were initially created for deployment on OpenShift, but later adapted for AWS as it was somewhat faster and allowed supporting WebSockets. .openshift directory contains hooks to build and start app on git receive. Production specific configs are stored in openshift*.conf files and are applied when starting application via openshift hooks.
To test how application will behave when deployed on production, use test-openshift.sh -Dconfig.resource=<resource_name> script which mocks OpenShift environment and starts the post-receive hook.
The remote workers can be started via RendererMain class in renderer module. This can be done via sbt or via intellij, or via the same post-receive hook which starts main application if OPENSHIFT_APP_NAME env property matches "renderer". The urls of remote worker should be specified when running main application in *actors.conf.