The execution of a Specification depends on various parts, among which:
ExecutorService
for concurrent executionAll of this is bundled into one object org.specs2.specification.core.Env
. The Env
is accessible to your Specification by either:
The following objects can be injected in your specification if you declare a 1-parameter constructor:
Env
itselfArguments
objectCommandLine
objectExecutionEnv
object (can be implicit)ExecutionContext
object (can be implicit)For example:
class MySpec(env: Env) extends Specification { def is = s2"""
Use the environment fileSystem
${ env.fileSystem.mkdirs("tmp" / "test").runOption; ok }
"""
}
Or if you want to access an ExecutionContext
:
class MySpec(implicit ec: ExecutionContext) extends Specification { def is = s2"""
Use a future
${ Await.result(Future(1), 1.seconds) must_== 1 }
"""
}
The ExecutionEnv
which is injected in a specification will be shared with all specifications. If you want to provide some isolation between your specifications and get a specific thread pool being dedicated to your specification you use the org.specs2.specification.core.OwnEnv
or org.specs2.specification.core.OwnExecutionEnv
traits:
class MySpec(val env: Env) extends Specification with OwnExecutionEnv { def is = s2"""
Use a future
${ Await.result(Future(1), 1.seconds) must_== 1 }
"""
}
You need to inject a public env
which will be duplicated to create an implicit ExecutionEnv
for the sole use of your specification (and shutdown when your specification has been executed). Doing so ensures that command line arguments influencing the execution of your specification, like threadsnb
or timefactor
will be used.