PIDE.session.scala Maven / Gradle / Ivy
/* Title: Pure/PIDE/session.scala
Author: Makarius
Options: :folding=explicit:
PIDE editor session, potentially with running prover process.
*/
package isabelle
import scala.collection.immutable.Queue
import scala.util.control.NonFatal
object Session
{
/* outlets */
object Consumer
{
def apply[A](name: String)(consume: A => Unit): Consumer[A] =
new Consumer[A](name, consume)
}
final class Consumer[-A] private(val name: String, val consume: A => Unit)
class Outlet[A](dispatcher: Consumer_Thread[() => Unit])
{
private val consumers = Synchronized[List[Consumer[A]]](Nil)
def += (c: Consumer[A]) { consumers.change(Library.update(c)) }
def -= (c: Consumer[A]) { consumers.change(Library.remove(c)) }
def post(a: A)
{
for (c <- consumers.value.iterator) {
dispatcher.send(() =>
try { c.consume(a) }
catch {
case exn: Throwable =>
Output.error_message("Consumer failed: " + quote(c.name) + "\n" + Exn.message(exn))
})
}
}
}
/* change */
sealed case class Change(
previous: Document.Version,
syntax_changed: List[Document.Node.Name],
deps_changed: Boolean,
doc_edits: List[Document.Edit_Command],
version: Document.Version)
case object Change_Flush
/* events */
//{{{
case class Statistics(props: Properties.T)
case class Global_Options(options: Options)
case object Caret_Focus
case class Raw_Edits(doc_blobs: Document.Blobs, edits: List[Document.Edit_Text])
case class Dialog_Result(id: Document_ID.Generic, serial: Long, result: String)
case class Build_Theories(id: String, master_dir: Path, theories: List[(Options, List[Path])])
case class Commands_Changed(
assignment: Boolean, nodes: Set[Document.Node.Name], commands: Set[Command])
sealed abstract class Phase
case object Inactive extends Phase
case object Startup extends Phase // transient
case object Failed extends Phase
case object Ready extends Phase
case object Shutdown extends Phase // transient
//}}}
/* syslog */
private[Session] class Syslog(limit: Int)
{
private var queue = Queue.empty[XML.Elem]
private var length = 0
def += (msg: XML.Elem): Unit = synchronized {
queue = queue.enqueue(msg)
length += 1
if (length > limit) queue = queue.dequeue._2
}
def content: String = synchronized {
cat_lines(queue.iterator.map(XML.content)) +
(if (length > limit) "\n(A total of " + length + " messages...)" else "")
}
}
/* protocol handlers */
abstract class Protocol_Handler
{
def start(prover: Prover): Unit = {}
def stop(prover: Prover): Unit = {}
val functions: Map[String, (Prover, Prover.Protocol_Output) => Boolean]
}
def bad_protocol_handler(exn: Throwable, name: String): Unit =
Output.error_message(
"Failed to initialize protocol handler: " + quote(name) + "\n" + Exn.message(exn))
private class Protocol_Handlers(
handlers: Map[String, Session.Protocol_Handler] = Map.empty,
functions: Map[String, Prover.Protocol_Output => Boolean] = Map.empty)
{
def get(name: String): Option[Protocol_Handler] = handlers.get(name)
def add(prover: Prover, handler: Protocol_Handler): Protocol_Handlers =
{
val name = handler.getClass.getName
val (handlers1, functions1) =
handlers.get(name) match {
case Some(old_handler) =>
Output.warning("Redefining protocol handler: " + name)
old_handler.stop(prover)
(handlers - name, functions -- old_handler.functions.keys)
case None => (handlers, functions)
}
val (handlers2, functions2) =
try {
handler.start(prover)
val new_functions =
for ((a, f) <- handler.functions.toList) yield
(a, (msg: Prover.Protocol_Output) => f(prover, msg))
val dups = for ((a, _) <- new_functions if functions1.isDefinedAt(a)) yield a
if (dups.nonEmpty) error("Duplicate protocol functions: " + commas_quote(dups))
(handlers1 + (name -> handler), functions1 ++ new_functions)
}
catch {
case exn: Throwable =>
Session.bad_protocol_handler(exn, name)
(handlers1, functions1)
}
new Protocol_Handlers(handlers2, functions2)
}
def invoke(msg: Prover.Protocol_Output): Boolean =
msg.properties match {
case Markup.Function(a) if functions.isDefinedAt(a) =>
try { functions(a)(msg) }
catch {
case exn: Throwable =>
Output.error_message(
"Failed invocation of protocol function: " + quote(a) + "\n" + Exn.message(exn))
false
}
case _ => false
}
def stop(prover: Prover): Protocol_Handlers =
{
for ((_, handler) <- handlers) handler.stop(prover)
new Protocol_Handlers()
}
}
}
class Session(val resources: Resources)
{
/* global flags */
@volatile var timing: Boolean = false
@volatile var verbose: Boolean = false
/* tuning parameters */
def output_delay: Time = Time.seconds(0.1) // prover output (markup, common messages)
def prune_delay: Time = Time.seconds(15.0) // prune history (delete old versions)
def prune_size: Int = 0 // size of retained history
def syslog_limit: Int = 100
def reparse_limit: Int = 0
/* outlets */
private val dispatcher =
Consumer_Thread.fork[() => Unit]("Session.dispatcher", daemon = true) { case e => e(); true }
val statistics = new Session.Outlet[Session.Statistics](dispatcher)
val global_options = new Session.Outlet[Session.Global_Options](dispatcher)
val caret_focus = new Session.Outlet[Session.Caret_Focus.type](dispatcher)
val raw_edits = new Session.Outlet[Session.Raw_Edits](dispatcher)
val commands_changed = new Session.Outlet[Session.Commands_Changed](dispatcher)
val phase_changed = new Session.Outlet[Session.Phase](dispatcher)
val syslog_messages = new Session.Outlet[Prover.Output](dispatcher)
val raw_output_messages = new Session.Outlet[Prover.Output](dispatcher)
val trace_events = new Session.Outlet[Simplifier_Trace.Event.type](dispatcher)
val debugger_updates = new Session.Outlet[Debugger.Update.type](dispatcher)
val all_messages = new Session.Outlet[Prover.Message](dispatcher) // potential bottle-neck!
/** main protocol manager **/
/* internal messages */
private case class Start(start_prover: Prover.Receiver => Prover)
private case object Stop
private case class Cancel_Exec(exec_id: Document_ID.Exec)
private case class Protocol_Command(name: String, args: List[String])
private case class Update_Options(options: Options)
private case object Prune_History
/* global state */
private val syslog = new Session.Syslog(syslog_limit)
def syslog_content(): String = syslog.content
@volatile private var _phase: Session.Phase = Session.Inactive
private def phase_=(new_phase: Session.Phase)
{
_phase = new_phase
phase_changed.post(new_phase)
}
def phase = _phase
def is_ready: Boolean = phase == Session.Ready
private val global_state = Synchronized(Document.State.init)
def current_state(): Document.State = global_state.value
def recent_syntax(name: Document.Node.Name): Outer_Syntax =
global_state.value.recent_finished.version.get_finished.nodes(name).syntax getOrElse
resources.base_syntax
/* theory files */
def header_edit(name: Document.Node.Name, header: Document.Node.Header): Document.Edit_Text =
{
val header1 =
if (resources.loaded_theories(name.theory))
header.error("Cannot update finished theory " + quote(name.theory))
else header
(name, Document.Node.Deps(header1))
}
/* pipelined change parsing */
private case class Text_Edits(
previous: Future[Document.Version],
doc_blobs: Document.Blobs,
text_edits: List[Document.Edit_Text],
version_result: Promise[Document.Version])
private val change_parser = Consumer_Thread.fork[Text_Edits]("change_parser", daemon = true)
{
case Text_Edits(previous, doc_blobs, text_edits, version_result) =>
val prev = previous.get_finished
val change =
Timing.timeit("parse_change", timing) {
resources.parse_change(reparse_limit, prev, doc_blobs, text_edits)
}
version_result.fulfill(change.version)
manager.send(change)
true
}
/* buffered changes */
private object change_buffer
{
private var assignment: Boolean = false
private var nodes: Set[Document.Node.Name] = Set.empty
private var commands: Set[Command] = Set.empty
def flush(): Unit = synchronized {
if (assignment || nodes.nonEmpty || commands.nonEmpty)
commands_changed.post(Session.Commands_Changed(assignment, nodes, commands))
assignment = false
nodes = Set.empty
commands = Set.empty
}
private val delay_flush = Standard_Thread.delay_first(output_delay) { flush() }
def invoke(assign: Boolean, cmds: List[Command]): Unit = synchronized {
assignment |= assign
for (command <- cmds) {
nodes += command.node_name
commands += command
}
delay_flush.invoke()
}
def shutdown()
{
delay_flush.revoke()
flush()
}
}
/* postponed changes */
private object postponed_changes
{
private var postponed: List[Session.Change] = Nil
def store(change: Session.Change): Unit = synchronized { postponed ::= change }
def flush(state: Document.State): List[Session.Change] = synchronized {
val (assigned, unassigned) = postponed.partition(change => state.is_assigned(change.previous))
postponed = unassigned
assigned.reverse
}
}
/* prover process */
private object prover
{
private val variable = Synchronized[Option[Prover]](None)
def defined: Boolean = variable.value.isDefined
def get: Prover = variable.value.get
def set(p: Prover) { variable.change(_ => Some(p)) }
def reset { variable.change(_ => None) }
def await_reset() { variable.guarded_access({ case None => Some((), None) case _ => None }) }
}
/* protocol handlers */
private val _protocol_handlers = Synchronized(new Session.Protocol_Handlers)
def get_protocol_handler(name: String): Option[Session.Protocol_Handler] =
_protocol_handlers.value.get(name)
def add_protocol_handler(handler: Session.Protocol_Handler): Unit =
_protocol_handlers.change(_.add(prover.get, handler))
/* manager thread */
private val delay_prune =
Standard_Thread.delay_first(prune_delay) { manager.send(Prune_History) }
private val manager: Consumer_Thread[Any] =
{
/* raw edits */
def handle_raw_edits(doc_blobs: Document.Blobs, edits: List[Document.Edit_Text])
//{{{
{
require(prover.defined)
prover.get.discontinue_execution()
val previous = global_state.value.history.tip.version
val version = Future.promise[Document.Version]
global_state.change(_.continue_history(previous, edits, version))
raw_edits.post(Session.Raw_Edits(doc_blobs, edits))
change_parser.send(Text_Edits(previous, doc_blobs, edits, version))
}
//}}}
/* resulting changes */
def handle_change(change: Session.Change)
//{{{
{
require(prover.defined)
def id_command(command: Command)
{
for {
(name, digest) <- command.blobs_defined
if !global_state.value.defined_blob(digest)
} {
change.version.nodes(name).get_blob match {
case Some(blob) =>
global_state.change(_.define_blob(digest))
prover.get.define_blob(digest, blob.bytes)
case None =>
Output.error_message("Missing blob " + quote(name.toString))
}
}
if (!global_state.value.defined_command(command.id)) {
global_state.change(_.define_command(command))
prover.get.define_command(command)
}
}
change.doc_edits foreach {
case (_, edit) =>
edit foreach { case (c1, c2) => c1 foreach id_command; c2 foreach id_command }
}
val assignment = global_state.value.the_assignment(change.previous).check_finished
global_state.change(_.define_version(change.version, assignment))
prover.get.update(change.previous.id, change.version.id, change.doc_edits)
resources.commit(change)
}
//}}}
/* prover output */
def handle_output(output: Prover.Output)
//{{{
{
def bad_output()
{
if (verbose)
Output.warning("Ignoring bad prover output: " + output.message.toString)
}
def accumulate(state_id: Document_ID.Generic, message: XML.Elem)
{
try {
val st = global_state.change_result(_.accumulate(state_id, message))
change_buffer.invoke(false, List(st.command))
}
catch {
case _: Document.State.Fail => bad_output()
}
}
output match {
case msg: Prover.Protocol_Output =>
val handled = _protocol_handlers.value.invoke(msg)
if (!handled) {
msg.properties match {
case Markup.Protocol_Handler(name) if prover.defined =>
try {
val handler =
Class.forName(name).newInstance.asInstanceOf[Session.Protocol_Handler]
add_protocol_handler(handler)
}
catch { case exn: Throwable => Session.bad_protocol_handler(exn, name) }
case Protocol.Command_Timing(state_id, timing) if prover.defined =>
val message = XML.elem(Markup.STATUS, List(XML.Elem(Markup.Timing(timing), Nil)))
accumulate(state_id, prover.get.xml_cache.elem(message))
case Markup.Assign_Update =>
msg.text match {
case Protocol.Assign_Update(id, update) =>
try {
val cmds = global_state.change_result(_.assign(id, update))
change_buffer.invoke(true, cmds)
manager.send(Session.Change_Flush)
}
catch { case _: Document.State.Fail => bad_output() }
case _ => bad_output()
}
delay_prune.invoke()
case Markup.Removed_Versions =>
msg.text match {
case Protocol.Removed(removed) =>
try {
global_state.change(_.removed_versions(removed))
manager.send(Session.Change_Flush)
}
catch { case _: Document.State.Fail => bad_output() }
case _ => bad_output()
}
case Markup.ML_Statistics(props) =>
statistics.post(Session.Statistics(props))
case Markup.Task_Statistics(props) =>
// FIXME
case _ => bad_output()
}
}
case _ =>
output.properties match {
case Position.Id(state_id) =>
accumulate(state_id, output.message)
case _ if output.is_init =>
phase = Session.Ready
case Markup.Return_Code(rc) if output.is_exit =>
if (rc == 0) phase = Session.Inactive
else phase = Session.Failed
prover.reset
case _ =>
raw_output_messages.post(output)
}
}
}
//}}}
/* main thread */
Consumer_Thread.fork[Any]("Session.manager", daemon = true)
{
case arg: Any =>
//{{{
arg match {
case output: Prover.Output =>
if (output.is_stdout || output.is_stderr)
raw_output_messages.post(output)
else handle_output(output)
if (output.is_syslog) {
syslog += output.message
syslog_messages.post(output)
}
all_messages.post(output)
case input: Prover.Input =>
all_messages.post(input)
case Start(start_prover) if !prover.defined =>
if (phase == Session.Inactive || phase == Session.Failed) {
phase = Session.Startup
try {
prover.set(start_prover(manager.send(_)))
}
catch {
case NonFatal(e) =>
// hack: up to 2016, the manager was informed about startup failures
// we emulate this behaviour here
manager.send(new Prover.Output(XML.Elem(Markup(Markup.EXIT, List()), Nil)))
}
}
case Stop =>
if (prover.defined && is_ready) {
_protocol_handlers.change(_.stop(prover.get))
global_state.change(_ => Document.State.init)
phase = Session.Shutdown
prover.get.terminate
}
case Prune_History =>
if (prover.defined) {
val old_versions = global_state.change_result(_.remove_versions(prune_size))
if (old_versions.nonEmpty) prover.get.remove_versions(old_versions)
}
case Update_Options(options) =>
if (prover.defined && is_ready) {
prover.get.options(options)
handle_raw_edits(Document.Blobs.empty, Nil)
}
global_options.post(Session.Global_Options(options))
case Cancel_Exec(exec_id) if prover.defined =>
prover.get.cancel_exec(exec_id)
case Session.Raw_Edits(doc_blobs, edits) if prover.defined =>
handle_raw_edits(doc_blobs, edits)
case Session.Dialog_Result(id, serial, result) if prover.defined =>
prover.get.dialog_result(serial, result)
handle_output(new Prover.Output(Protocol.Dialog_Result(id, serial, result)))
case Session.Build_Theories(id, master_dir, theories) if prover.defined =>
prover.get.build_theories(id, master_dir, theories)
case Protocol_Command(name, args) if prover.defined =>
prover.get.protocol_command(name, args:_*)
case change: Session.Change if prover.defined =>
val state = global_state.value
if (!state.removing_versions && state.is_assigned(change.previous))
handle_change(change)
else postponed_changes.store(change)
case Session.Change_Flush if prover.defined =>
val state = global_state.value
if (!state.removing_versions)
postponed_changes.flush(state).foreach(handle_change(_))
case bad =>
if (verbose) Output.warning("Ignoring bad message: " + bad.toString)
}
true
//}}}
}
}
/* main operations */
def snapshot(name: Document.Node.Name = Document.Node.Name.empty,
pending_edits: List[Text.Edit] = Nil): Document.Snapshot =
global_state.value.snapshot(name, pending_edits)
def start(start_prover: Prover.Receiver => Prover)
{ manager.send(Start(start_prover)) }
def stop()
{
delay_prune.revoke()
manager.send_wait(Stop)
prover.await_reset()
change_parser.shutdown()
change_buffer.shutdown()
manager.shutdown()
dispatcher.shutdown()
}
def protocol_command(name: String, args: String*)
{ manager.send(Protocol_Command(name, args.toList)) }
def cancel_exec(exec_id: Document_ID.Exec)
{ manager.send(Cancel_Exec(exec_id)) }
def update(doc_blobs: Document.Blobs, edits: List[Document.Edit_Text])
{ if (edits.nonEmpty) manager.send_wait(Session.Raw_Edits(doc_blobs, edits)) }
def update_options(options: Options)
{ manager.send_wait(Update_Options(options)) }
def dialog_result(id: Document_ID.Generic, serial: Long, result: String)
{ manager.send(Session.Dialog_Result(id, serial, result)) }
def build_theories(id: String, master_dir: Path, theories: List[(Options, List[Path])])
{ manager.send(Session.Build_Theories(id, master_dir, theories)) }
}
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