clarified signature: function_thread is determined in Isabelle/Scala, not Isabelle/ML;
/* Title: Pure/System/scala.scala
Author: Makarius
Support for Scala at runtime.
*/
package isabelle
import java.io.{File => JFile, StringWriter, PrintWriter}
import scala.tools.nsc.{GenericRunnerSettings, ConsoleWriter, NewLinePrintWriter}
import scala.tools.nsc.interpreter.{IMain, Results}
import scala.tools.nsc.interpreter.shell.ReplReporterImpl
object Scala
{
/** registered functions **/
abstract class Fun(val name: String, val thread: Boolean = false)
extends Function[String, String]
{
override def toString: String = name
def position: Properties.T = here.position
def here: Scala_Project.Here
def apply(arg: String): String
}
class Functions(val functions: Fun*) extends Isabelle_System.Service
lazy val functions: List[Fun] =
Isabelle_System.make_services(classOf[Functions]).flatMap(_.functions)
/** demo functions **/
object Echo extends Fun("echo")
{
val here = Scala_Project.here
def apply(arg: String): String = arg
}
object Sleep extends Fun("sleep")
{
val here = Scala_Project.here
def apply(seconds: String): String =
{
val t =
seconds match {
case Value.Double(s) => Time.seconds(s)
case _ => error("Malformed argument: " + quote(seconds))
}
val t0 = Time.now()
t.sleep
val t1 = Time.now()
(t1 - t0).toString
}
}
/** compiler **/
object Compiler
{
def context(
error: String => Unit = Exn.error,
jar_dirs: List[JFile] = Nil): Context =
{
def find_jars(dir: JFile): List[String] =
File.find_files(dir, file => file.getName.endsWith(".jar")).
map(File.absolute_name)
val class_path =
for {
prop <- List("isabelle.scala.classpath", "java.class.path")
path = System.getProperty(prop, "") if path != "\"\""
elem <- space_explode(JFile.pathSeparatorChar, path)
} yield elem
val settings = new GenericRunnerSettings(error)
settings.classpath.value =
(class_path ::: jar_dirs.flatMap(find_jars)).mkString(JFile.pathSeparator)
new Context(settings)
}
def default_print_writer: PrintWriter =
new NewLinePrintWriter(new ConsoleWriter, true)
class Context private [Compiler](val settings: GenericRunnerSettings)
{
override def toString: String = settings.toString
def interpreter(
print_writer: PrintWriter = default_print_writer,
class_loader: ClassLoader = null): IMain =
{
new IMain(settings, new ReplReporterImpl(settings, print_writer))
{
override def parentClassLoader: ClassLoader =
if (class_loader == null) super.parentClassLoader
else class_loader
}
}
def toplevel(interpret: Boolean, source: String): List[String] =
{
val out = new StringWriter
val interp = interpreter(new PrintWriter(out))
val marker = '\u000b'
val ok =
interp.withLabel(marker.toString) {
if (interpret) interp.interpret(source) == Results.Success
else (new interp.ReadEvalPrint).compile(source)
}
out.close()
val Error = """(?s)^\S* error: (.*)$""".r
val errors =
space_explode(marker, Library.strip_ansi_color(out.toString)).
collect({ case Error(msg) => "Scala error: " + Library.trim_line(msg) })
if (!ok && errors.isEmpty) List("Error") else errors
}
}
}
object Toplevel extends Fun("scala_toplevel")
{
val here = Scala_Project.here
def apply(arg: String): String =
{
val (interpret, source) =
YXML.parse_body(arg) match {
case Nil => (false, "")
case List(XML.Text(source)) => (false, source)
case body => import XML.Decode._; pair(bool, string)(body)
}
val errors =
try { Compiler.context().toplevel(interpret, source) }
catch { case ERROR(msg) => List(msg) }
locally { import XML.Encode._; YXML.string_of_body(list(string)(errors)) }
}
}
/** invoke Scala functions from ML **/
/* invoke function */
object Tag extends Enumeration
{
val NULL, OK, ERROR, FAIL, INTERRUPT = Value
}
def function_thread(name: String): Boolean =
functions.find(fun => fun.name == name) match {
case Some(fun) => fun.thread
case None => false
}
def function_body(name: String, arg: String): (Tag.Value, String) =
functions.find(fun => fun.name == name) match {
case Some(fun) =>
Exn.capture { fun(arg) } match {
case Exn.Res(null) => (Tag.NULL, "")
case Exn.Res(res) => (Tag.OK, res)
case Exn.Exn(Exn.Interrupt()) => (Tag.INTERRUPT, "")
case Exn.Exn(e) => (Tag.ERROR, Exn.message(e))
}
case None => (Tag.FAIL, "Unknown Isabelle/Scala function: " + quote(name))
}
/* protocol handler */
class Handler extends Session.Protocol_Handler
{
private var session: Session = null
private var futures = Map.empty[String, Future[Unit]]
override def init(session: Session): Unit =
synchronized { this.session = session }
override def exit(): Unit = synchronized
{
for ((id, future) <- futures) cancel(id, future)
futures = Map.empty
}
private def result(id: String, tag: Scala.Tag.Value, res: String): Unit =
synchronized
{
if (futures.isDefinedAt(id)) {
session.protocol_command("Scala.result", id, tag.id.toString, res)
futures -= id
}
}
private def cancel(id: String, future: Future[Unit]): Unit =
{
future.cancel()
result(id, Scala.Tag.INTERRUPT, "")
}
private def invoke_scala(msg: Prover.Protocol_Output): Boolean = synchronized
{
msg.properties match {
case Markup.Invoke_Scala(name, id) =>
def body: Unit =
{
val (tag, res) = Scala.function_body(name, msg.text)
result(id, tag, res)
}
val future =
if (Scala.function_thread(name)) {
Future.thread(name = Isabelle_Thread.make_name(base = "invoke_scala"))(body)
}
else Future.fork(body)
futures += (id -> future)
true
case _ => false
}
}
private def cancel_scala(msg: Prover.Protocol_Output): Boolean = synchronized
{
msg.properties match {
case Markup.Cancel_Scala(id) =>
futures.get(id) match {
case Some(future) => cancel(id, future)
case None =>
}
true
case _ => false
}
}
override val functions =
List(
Markup.Invoke_Scala.name -> invoke_scala,
Markup.Cancel_Scala.name -> cancel_scala)
}
}
class Scala_Functions extends Scala.Functions(
Scala.Echo,
Scala.Sleep,
Scala.Toplevel,
Doc.Doc_Names,
Bash.Process,
Bibtex.Check_Database,
Isabelle_System.Make_Directory,
Isabelle_System.Copy_Dir,
Isabelle_System.Copy_File,
Isabelle_System.Copy_File_Base,
Isabelle_System.Rm_Tree,
Isabelle_System.Download,
Isabelle_Tool.Isabelle_Tools,
isabelle.atp.SystemOnTPTP.List_Systems)