Here's an example build.sbt:
import AssemblyKeys._ assemblySettings buildInfoSettings net.virtualvoid.sbt.graph.Plugin.graphSettings name := "scala-app-template" version := "0.1" scalaVersion := "2.9.3" val FunnyRuntime = config("funnyruntime") extend(Compile) libraryDependencies += "org.spark-project" %% "spark-core" % "0.7.3" % "provided" sourceGenerators in Compile <+= buildInfo buildInfoPackage := "com.psnively" buildInfoKeys := Seq[BuildInfoKey](name, version, scalaVersion, target) assembleArtifact in packageScala := false val root = project.in(file(".")). configs(FunnyRuntime). settings(inConfig(FunnyRuntime)(Classpaths.configSettings ++ baseAssemblySettings ++ Seq( libraryDependencies += "org.spark-project" %% "spark-core" % "0.7.3" % "funnyruntime" )): _*)
The goal is to have spark-core "provided" so it and its dependencies are not included in the assembly artifact, but to reinclude them on the runtime classpath for the run- and test-related tasks. It seems that using a custom scope will ultimately be helpful, but I'm stymied on how to actually cause the default/global run/test tasks to use the custom libraryDependencies and hopefully override the default. I've tried things including:
(run in Global) := (run in FunnyRuntime)
and the like to no avail.
To summarize: this feels essentially a generalization of the web case, where the servlet-api is in "provided" scope, and run/test tasks generally fork a servlet container that really does provide the servlet-api to the running code. The only difference here is that I'm not forking off a separate JVM/environment; I just want to manually augment those tasks' classpaths, effectively "undoing" the "provided" scope, but in a way that continues to exclude the dependency from the assembly artifact.