diff --git a/src/Pure/Tools/build.scala b/src/Pure/Tools/build.scala --- a/src/Pure/Tools/build.scala +++ b/src/Pure/Tools/build.scala @@ -1,967 +1,977 @@ /* Title: Pure/Tools/build.scala Author: Makarius Options: :folding=explicit: Build and manage Isabelle sessions. */ package isabelle import scala.collection.{SortedSet, mutable} import scala.annotation.tailrec object Build { /** auxiliary **/ /* persistent build info */ sealed case class Session_Info( sources: String, input_heaps: List[String], output_heap: Option[String], return_code: Int) { def ok: Boolean = return_code == 0 } /* queue with scheduling information */ private object Queue { type Timings = (List[Properties.T], Double) def load_timings(progress: Progress, store: Sessions.Store, session_name: String): Timings = { val no_timings: Timings = (Nil, 0.0) store.access_database(session_name) match { case None => no_timings case Some(db) => def ignore_error(msg: String) = { progress.echo_warning("Ignoring bad database " + db + (if (msg == "") "" else "\n" + msg)) no_timings } try { val command_timings = store.read_command_timings(db, session_name) val session_timing = store.read_session_timing(db, session_name) match { case Markup.Elapsed(t) => t case _ => 0.0 } (command_timings, session_timing) } catch { case ERROR(msg) => ignore_error(msg) case exn: java.lang.Error => ignore_error(Exn.message(exn)) case _: XML.Error => ignore_error("") } finally { db.close } } } def make_session_timing(sessions_structure: Sessions.Structure, timing: Map[String, Double]) : Map[String, Double] = { val maximals = sessions_structure.build_graph.maximals.toSet def desc_timing(session_name: String): Double = { if (maximals.contains(session_name)) timing(session_name) else { val descendants = sessions_structure.build_descendants(List(session_name)).toSet val g = sessions_structure.build_graph.restrict(descendants) (0.0 :: g.maximals.flatMap(desc => { val ps = g.all_preds(List(desc)) if (ps.exists(p => !timing.isDefinedAt(p))) None else Some(ps.map(timing(_)).sum) })).max } } timing.keySet.iterator.map(name => (name -> desc_timing(name))).toMap.withDefaultValue(0.0) } def apply(progress: Progress, sessions_structure: Sessions.Structure, store: Sessions.Store) : Queue = { val graph = sessions_structure.build_graph val names = graph.keys val timings = names.map(name => (name, load_timings(progress, store, name))) val command_timings = timings.map({ case (name, (ts, _)) => (name, ts) }).toMap.withDefaultValue(Nil) val session_timing = make_session_timing(sessions_structure, timings.map({ case (name, (_, t)) => (name, t) }).toMap) object Ordering extends scala.math.Ordering[String] { def compare_timing(name1: String, name2: String): Int = { val t1 = session_timing(name1) val t2 = session_timing(name2) if (t1 == 0.0 || t2 == 0.0) 0 else t1 compare t2 } def compare(name1: String, name2: String): Int = compare_timing(name2, name1) match { case 0 => sessions_structure(name2).timeout compare sessions_structure(name1).timeout match { case 0 => name1 compare name2 case ord => ord } case ord => ord } } new Queue(graph, SortedSet(names: _*)(Ordering), command_timings) } } private class Queue( graph: Graph[String, Sessions.Info], order: SortedSet[String], val command_timings: String => List[Properties.T]) { def is_inner(name: String): Boolean = !graph.is_maximal(name) def is_empty: Boolean = graph.is_empty def - (name: String): Queue = new Queue(graph.del_node(name), order - name, // FIXME scala-2.10.0 .. 2.12.4 TreeSet problem!? command_timings) def dequeue(skip: String => Boolean): Option[(String, Sessions.Info)] = { val it = order.iterator.dropWhile(name => skip(name) || !graph.defined(name) // FIXME scala-2.10.0 .. 2.12.4 TreeSet problem!? || !graph.is_minimal(name)) if (it.hasNext) { val name = it.next; Some((name, graph.get_node(name))) } else None } } /* PIDE protocol handler */ /* job: running prover process */ private class Job(progress: Progress, session_name: String, val info: Sessions.Info, deps: Sessions.Deps, store: Sessions.Store, do_store: Boolean, verbose: Boolean, val numa_node: Option[Int], command_timings: List[Properties.T]) { val options: Options = NUMA.policy_options(info.options, numa_node) private val sessions_structure = deps.sessions_structure private val graph_file = Isabelle_System.tmp_file("session_graph", "pdf") graphview.Graph_File.write(options, graph_file, deps(session_name).session_graph_display) private val export_tmp_dir = Isabelle_System.tmp_dir("export") private val export_consumer = Export.consumer(store.open_database(session_name, output = true), cache = store.xz_cache) private val future_result: Future[Process_Result] = Future.thread("build", uninterruptible = true) { val parent = info.parent.getOrElse("") val base = deps(parent) val args_yxml = YXML.string_of_body( { import XML.Encode._ pair(list(pair(string, int)), pair(list(properties), pair(bool, pair(Path.encode, pair(list(pair(Path.encode, Path.encode)), pair(string, pair(string, pair(string, pair(string, pair(Path.encode, pair(list(pair(Options.encode, list(pair(string, properties)))), pair(list(pair(string, properties)), pair(list(pair(string, string)), pair(list(string), pair(list(pair(string, string)), pair(list(string), list(string)))))))))))))))))( (Symbol.codes, (command_timings, (verbose, (store.browser_info, (info.document_files, (File.standard_path(graph_file), (parent, (info.chapter, (session_name, (Path.current, (info.theories, (sessions_structure.session_positions, (sessions_structure.dest_session_directories, (base.doc_names, (base.global_theories.toList, (base.loaded_theories.keys, info.bibtex_entries.map(_.info)))))))))))))))))) }) val env = Isabelle_System.settings() + ("ISABELLE_EXPORT_TMP" -> File.standard_path(export_tmp_dir)) + ("ISABELLE_ML_DEBUGGER" -> options.bool("ML_debugger").toString) val is_pure = Sessions.is_pure(session_name) val use_prelude = if (is_pure) Thy_Header.ml_roots.map(_._1) else Nil val eval_store = if (do_store) { (if (info.theories.nonEmpty) List("ML_Heap.share_common_data ()") else Nil) ::: List("ML_Heap.save_child " + ML_Syntax.print_string_bytes(File.platform_path(store.output_heap(session_name)))) } else Nil if (options.bool("pide_session")) { val resources = new Resources(sessions_structure, deps(parent)) val session = new Session(options, resources) { override val xml_cache: XML.Cache = store.xml_cache override val xz_cache: XZ.Cache = store.xz_cache } - val build_session_errors: Promise[List[String]] = Future.promise + object Build_Session_Errors + { + private val promise: Promise[List[String]] = Future.promise + + def result: Exn.Result[List[String]] = promise.join_result + def cancel: Unit = promise.cancel + def apply(errs: List[String]) + { + try { promise.fulfill(errs) } + catch { case _: IllegalStateException => } + } + } + val stdout = new StringBuilder(1000) val stderr = new StringBuilder(1000) val messages = new mutable.ListBuffer[XML.Elem] val command_timings = new mutable.ListBuffer[Properties.T] val theory_timings = new mutable.ListBuffer[Properties.T] val session_timings = new mutable.ListBuffer[Properties.T] val runtime_statistics = new mutable.ListBuffer[Properties.T] val task_statistics = new mutable.ListBuffer[Properties.T] def fun( name: String, acc: mutable.ListBuffer[Properties.T], unapply: Properties.T => Option[Properties.T]): (String, Session.Protocol_Function) = { name -> ((msg: Prover.Protocol_Output) => unapply(msg.properties) match { case Some(props) => acc += props; true case _ => false }) } session.init_protocol_handler(new Session.Protocol_Handler { - override def exit() { build_session_errors.cancel } + override def exit() { Build_Session_Errors.cancel } private def build_session_finished(msg: Prover.Protocol_Output): Boolean = { val (rc, errors) = try { val (rc, errs) = { import XML.Decode._ pair(int, list(x => x))(Symbol.decode_yxml(msg.text)) } val errors = for (err <- errs) yield { val prt = Protocol_Message.expose_no_reports(err) Pretty.string_of(prt, metric = Symbol.Metric) } (rc, errors) } catch { case ERROR(err) => (2, List(err)) } session.protocol_command("Prover.stop", rc.toString) - try { build_session_errors.fulfill(errors) } - catch { case _ : IllegalStateException => } + Build_Session_Errors(errors) true } private def loading_theory(msg: Prover.Protocol_Output): Boolean = msg.properties match { case Markup.Loading_Theory(name) => progress.theory(Progress.Theory(name, session = session_name)) true case _ => false } private def export(msg: Prover.Protocol_Output): Boolean = msg.properties match { case Protocol.Export(args) => export_consumer(session_name, args, msg.bytes) true case _ => false } val functions = List( Markup.Build_Session_Finished.name -> build_session_finished, Markup.Loading_Theory.name -> loading_theory, Markup.EXPORT -> export, fun(Markup.Command_Timing.name, command_timings, Markup.Command_Timing.unapply), fun(Markup.Theory_Timing.name, theory_timings, Markup.Theory_Timing.unapply), fun(Markup.Session_Timing.name, session_timings, Markup.Session_Timing.unapply), fun(Markup.ML_Statistics.name, runtime_statistics, Markup.ML_Statistics.unapply), fun(Markup.Task_Statistics.name, task_statistics, Markup.Task_Statistics.unapply)) }) session.all_messages += Session.Consumer[Any]("build_session_output") { case msg: Prover.Output => val message = msg.message if (msg.is_stdout) { stdout ++= Symbol.encode(XML.content(message)) } else if (msg.is_stderr) { stderr ++= Symbol.encode(XML.content(message)) } else if (Protocol.is_exported(message)) { messages += message } else if (msg.is_exit) { val err = "Prover terminated" + (msg.properties match { case Markup.Process_Result(result) => ": " + result.print_rc case _ => "" }) - try { build_session_errors.fulfill(List(err)) } - catch { case _ : IllegalStateException => } + Build_Session_Errors(List(err)) } case _ => } val eval_main = Command_Line.ML_tool("Isabelle_Process.init_build ()" :: eval_store) val process = Isabelle_Process(session, options, sessions_structure, store, logic = parent, raw_ml_system = is_pure, use_prelude = use_prelude, eval_main = eval_main, cwd = info.dir.file, env = env) val errors = Isabelle_Thread.interrupt_handler(_ => process.terminate) { Exn.capture { process.await_startup } match { case Exn.Res(_) => session.protocol_command("build_session", args_yxml) - build_session_errors.join_result + Build_Session_Errors.result case Exn.Exn(exn) => Exn.Res(List(Exn.message(exn))) } } val process_result = Isabelle_Thread.interrupt_handler(_ => process.terminate) { process.await_shutdown } val process_output = stdout.toString :: messages.toList.map(message => Symbol.encode(Protocol.message_text(List(message), metric = Symbol.Metric))) ::: command_timings.toList.map(Protocol.Command_Timing_Marker.apply) ::: theory_timings.toList.map(Protocol.Theory_Timing_Marker.apply) ::: session_timings.toList.map(Protocol.Timing_Marker.apply) ::: runtime_statistics.toList.map(Protocol.ML_Statistics_Marker.apply) ::: task_statistics.toList.map(Protocol.Task_Statistics_Marker.apply) val result = process_result.output(process_output).error(Library.trim_line(stderr.toString)) errors match { case Exn.Res(Nil) => result case Exn.Res(errs) => result.error_rc.output( errs.flatMap(s => split_lines(Output.error_message_text(s))) ::: errs.map(Protocol.Error_Message_Marker.apply)) case Exn.Exn(Exn.Interrupt()) => if (result.ok) result.copy(rc = Exn.Interrupt.return_code) else result case Exn.Exn(exn) => throw exn } } else { val args_file = Isabelle_System.tmp_file("build") File.write(args_file, args_yxml) val eval_build = "Build.build " + ML_Syntax.print_string_bytes(File.standard_path(args_file)) val eval_main = Command_Line.ML_tool(eval_build :: eval_store) val process = ML_Process(options, deps.sessions_structure, store, logic = parent, raw_ml_system = is_pure, use_prelude = use_prelude, eval_main = eval_main, cwd = info.dir.file, env = env, cleanup = () => args_file.delete) Isabelle_Thread.interrupt_handler(_ => process.terminate) { process.result( progress_stdout = { case Protocol.Loading_Theory_Marker(theory) => progress.theory(Progress.Theory(theory, session = session_name)) case Protocol.Export.Marker((args, path)) => val body = try { Bytes.read(path) } catch { case ERROR(msg) => error("Failed to read export " + quote(args.compound_name) + "\n" + msg) } path.file.delete export_consumer(session_name, args, body) case _ => }, progress_limit = options.int("process_output_limit") match { case 0 => None case m => Some(m * 1000000L) }, strict = false) } } } def terminate: Unit = future_result.cancel def is_finished: Boolean = future_result.is_finished private val timeout_request: Option[Event_Timer.Request] = { if (info.timeout > Time.zero) Some(Event_Timer.request(Time.now() + info.timeout) { terminate }) else None } def join: (Process_Result, Option[String]) = { val result0 = future_result.join val result1 = export_consumer.shutdown(close = true).map(Output.error_message_text) match { case Nil => result0 case errs => result0.errors(errs).error_rc } Isabelle_System.rm_tree(export_tmp_dir) if (result1.ok) Present.finish(progress, store.browser_info, graph_file, info, session_name) graph_file.delete val was_timeout = timeout_request match { case None => false case Some(request) => !request.cancel } val result2 = if (result1.interrupted) { if (was_timeout) result1.error(Output.error_message_text("Timeout")).was_timeout else result1.error(Output.error_message_text("Interrupt")) } else result1 val heap_digest = if (result2.ok && do_store && store.output_heap(session_name).is_file) Some(Sessions.write_heap_digest(store.output_heap(session_name))) else None (result2, heap_digest) } } /** build with results **/ class Results private[Build](results: Map[String, (Option[Process_Result], Sessions.Info)]) { def sessions: Set[String] = results.keySet def cancelled(name: String): Boolean = results(name)._1.isEmpty def apply(name: String): Process_Result = results(name)._1.getOrElse(Process_Result(1)) def info(name: String): Sessions.Info = results(name)._2 val rc: Int = (0 /: results.iterator.map( { case (_, (Some(r), _)) => r.rc case (_, (None, _)) => 1 }))(_ max _) def ok: Boolean = rc == 0 override def toString: String = rc.toString } def build( options: Options, selection: Sessions.Selection = Sessions.Selection.empty, progress: Progress = new Progress, check_unknown_files: Boolean = false, build_heap: Boolean = false, clean_build: Boolean = false, dirs: List[Path] = Nil, select_dirs: List[Path] = Nil, infos: List[Sessions.Info] = Nil, numa_shuffling: Boolean = false, max_jobs: Int = 1, list_files: Boolean = false, check_keywords: Set[String] = Set.empty, fresh_build: Boolean = false, no_build: Boolean = false, soft_build: Boolean = false, verbose: Boolean = false, export_files: Boolean = false): Results = { val build_options = options + "ML_statistics" + "completion_limit=0" + "editor_tracing_messages=0" + "pide_reports=false" val store = Sessions.store(build_options) Isabelle_Fonts.init() /* session selection and dependencies */ val full_sessions = Sessions.load_structure(build_options, dirs = dirs, select_dirs = select_dirs, infos = infos) def sources_stamp(deps: Sessions.Deps, session_name: String): String = { val digests = full_sessions(session_name).meta_digest :: deps.sources(session_name) ::: deps.imported_sources(session_name) SHA1.digest(cat_lines(digests.map(_.toString).sorted)).toString } val deps = { val deps0 = Sessions.deps(full_sessions.selection(selection), progress = progress, inlined_files = true, verbose = verbose, list_files = list_files, check_keywords = check_keywords).check_errors if (soft_build && !fresh_build) { val outdated = deps0.sessions_structure.build_topological_order.flatMap(name => store.access_database(name) match { case Some(db) => using(db)(store.read_build(_, name)) match { case Some(build) if build.ok && build.sources == sources_stamp(deps0, name) => None case _ => Some(name) } case None => Some(name) }) Sessions.deps(full_sessions.selection(Sessions.Selection(sessions = outdated)), progress = progress, inlined_files = true).check_errors } else deps0 } /* check unknown files */ if (check_unknown_files) { val source_files = (for { (_, base) <- deps.session_bases.iterator (path, _) <- base.sources.iterator } yield path).toList val exclude_files = List(Path.explode("$POLYML_EXE")).map(_.canonical_file) val unknown_files = Mercurial.check_files(source_files)._2. filterNot(path => exclude_files.contains(path.canonical_file)) if (unknown_files.nonEmpty) { progress.echo_warning("Unknown files (not part of the underlying Mercurial repository):" + unknown_files.map(path => path.expand.implode).sorted.mkString("\n ", "\n ", "")) } } /* main build process */ val queue = Queue(progress, deps.sessions_structure, store) store.prepare_output_dir() if (clean_build) { for (name <- full_sessions.imports_descendants(full_sessions.imports_selection(selection))) { val (relevant, ok) = store.clean_output(name) if (relevant) { if (ok) progress.echo("Cleaned " + name) else progress.echo(name + " FAILED to clean") } } } // scheduler loop case class Result( current: Boolean, heap_digest: Option[String], process: Option[Process_Result], info: Sessions.Info) { def ok: Boolean = process match { case None => false case Some(res) => res.rc == 0 } } def sleep() { Isabelle_Thread.interrupt_handler(_ => progress.stop) { Time.seconds(0.5).sleep } } val numa_nodes = new NUMA.Nodes(numa_shuffling) @tailrec def loop( pending: Queue, running: Map[String, (List[String], Job)], results: Map[String, Result]): Map[String, Result] = { def used_node(i: Int): Boolean = running.iterator.exists( { case (_, (_, job)) => job.numa_node.isDefined && job.numa_node.get == i }) if (pending.is_empty) results else { if (progress.stopped) { for ((_, (_, job)) <- running) job.terminate } running.find({ case (_, (_, job)) => job.is_finished }) match { case Some((session_name, (input_heaps, job))) => //{{{ finish job val (process_result, heap_digest) = job.join val log_lines = process_result.out_lines.filterNot(Protocol_Message.Marker.test) val process_result_tail = { val tail = job.info.options.int("process_output_tail") process_result.copy( out_lines = "(see also " + store.output_log(session_name).file.toString + ")" :: (if (tail == 0) log_lines else log_lines.drop(log_lines.length - tail max 0))) } // write log file if (process_result.ok) { File.write_gzip(store.output_log_gz(session_name), terminate_lines(log_lines)) } else File.write(store.output_log(session_name), terminate_lines(log_lines)) // write database { val build_log = Build_Log.Log_File(session_name, process_result.out_lines). parse_session_info( command_timings = true, theory_timings = true, ml_statistics = true, task_statistics = true) using(store.open_database(session_name, output = true))(db => store.write_session_info(db, session_name, build_log = if (process_result.timeout) build_log.error("Timeout") else build_log, build = Session_Info(sources_stamp(deps, session_name), input_heaps, heap_digest, process_result.rc))) } // messages process_result.err_lines.foreach(progress.echo) if (process_result.ok) progress.echo( "Finished " + session_name + " (" + process_result.timing.message_resources + ")") else { progress.echo(session_name + " FAILED") if (!process_result.interrupted) progress.echo(process_result_tail.out) } loop(pending - session_name, running - session_name, results + (session_name -> Result(false, heap_digest, Some(process_result_tail), job.info))) //}}} case None if running.size < (max_jobs max 1) => //{{{ check/start next job pending.dequeue(running.isDefinedAt) match { case Some((session_name, info)) => val ancestor_results = deps.sessions_structure.build_requirements(List(session_name)). filterNot(_ == session_name).map(results(_)) val ancestor_heaps = ancestor_results.flatMap(_.heap_digest) val do_store = build_heap || Sessions.is_pure(session_name) || queue.is_inner(session_name) val (current, heap_digest) = { store.access_database(session_name) match { case Some(db) => using(db)(store.read_build(_, session_name)) match { case Some(build) => val heap_digest = store.find_heap_digest(session_name) val current = !fresh_build && build.ok && build.sources == sources_stamp(deps, session_name) && build.input_heaps == ancestor_heaps && build.output_heap == heap_digest && !(do_store && heap_digest.isEmpty) (current, heap_digest) case None => (false, None) } case None => (false, None) } } val all_current = current && ancestor_results.forall(_.current) if (all_current) loop(pending - session_name, running, results + (session_name -> Result(true, heap_digest, Some(Process_Result(0)), info))) else if (no_build) { progress.echo_if(verbose, "Skipping " + session_name + " ...") loop(pending - session_name, running, results + (session_name -> Result(false, heap_digest, Some(Process_Result(1)), info))) } else if (ancestor_results.forall(_.ok) && !progress.stopped) { progress.echo((if (do_store) "Building " else "Running ") + session_name + " ...") store.clean_output(session_name) using(store.open_database(session_name, output = true))( store.init_session_info(_, session_name)) val numa_node = numa_nodes.next(used_node) val job = new Job(progress, session_name, info, deps, store, do_store, verbose, numa_node, queue.command_timings(session_name)) loop(pending, running + (session_name -> (ancestor_heaps, job)), results) } else { progress.echo(session_name + " CANCELLED") loop(pending - session_name, running, results + (session_name -> Result(false, heap_digest, None, info))) } case None => sleep(); loop(pending, running, results) } ///}}} case None => sleep(); loop(pending, running, results) } } } /* build results */ val results0 = if (deps.is_empty) { progress.echo_warning("Nothing to build") Map.empty[String, Result] } else Isabelle_Thread.uninterruptible { loop(queue, Map.empty, Map.empty) } val results = new Results( (for ((name, result) <- results0.iterator) yield (name, (result.process, result.info))).toMap) if (export_files) { for (name <- full_sessions.imports_selection(selection).iterator if results(name).ok) { val info = results.info(name) if (info.export_files.nonEmpty) { progress.echo("Exporting " + info.name + " ...") for ((dir, prune, pats) <- info.export_files) { Export.export_files(store, name, info.dir + dir, progress = if (verbose) progress else new Progress, export_prune = prune, export_patterns = pats) } } } } if (results.rc != 0 && (verbose || !no_build)) { val unfinished = (for { name <- results.sessions.iterator if !results(name).ok } yield name).toList.sorted progress.echo("Unfinished session(s): " + commas(unfinished)) } /* global browser info */ if (!no_build) { val browser_chapters = (for { (name, result) <- results0.iterator if result.ok info = full_sessions(name) if info.options.bool("browser_info") } yield (info.chapter, (name, info.description))).toList.groupBy(_._1). map({ case (chapter, es) => (chapter, es.map(_._2)) }).filterNot(_._2.isEmpty) for ((chapter, entries) <- browser_chapters) Present.update_chapter_index(store.browser_info, chapter, entries) if (browser_chapters.nonEmpty) Present.make_global_index(store.browser_info) } results } /* Isabelle tool wrapper */ val isabelle_tool = Isabelle_Tool("build", "build and manage Isabelle sessions", args => { val build_options = Word.explode(Isabelle_System.getenv("ISABELLE_BUILD_OPTIONS")) var base_sessions: List[String] = Nil var select_dirs: List[Path] = Nil var numa_shuffling = false var requirements = false var soft_build = false var exclude_session_groups: List[String] = Nil var all_sessions = false var build_heap = false var clean_build = false var dirs: List[Path] = Nil var export_files = false var fresh_build = false var session_groups: List[String] = Nil var max_jobs = 1 var check_keywords: Set[String] = Set.empty var list_files = false var no_build = false var options = Options.init(opts = build_options) var verbose = false var exclude_sessions: List[String] = Nil val getopts = Getopts(""" Usage: isabelle build [OPTIONS] [SESSIONS ...] Options are: -B NAME include session NAME and all descendants -D DIR include session directory and select its sessions -N cyclic shuffling of NUMA CPU nodes (performance tuning) -R refer to requirements of selected sessions -S soft build: only observe changes of sources, not heap images -X NAME exclude sessions from group NAME and all descendants -a select all sessions -b build heap images -c clean build -d DIR include session directory -e export files from session specification into file-system -f fresh build -g NAME select session group NAME -j INT maximum number of parallel jobs (default 1) -k KEYWORD check theory sources for conflicts with proposed keywords -l list session source files -n no build -- test dependencies only -o OPTION override Isabelle system OPTION (via NAME=VAL or NAME) -v verbose -x NAME exclude session NAME and all descendants Build and manage Isabelle sessions, depending on implicit settings: """ + Library.prefix_lines(" ", Build_Log.Settings.show()) + "\n", "B:" -> (arg => base_sessions = base_sessions ::: List(arg)), "D:" -> (arg => select_dirs = select_dirs ::: List(Path.explode(arg))), "N" -> (_ => numa_shuffling = true), "R" -> (_ => requirements = true), "S" -> (_ => soft_build = true), "X:" -> (arg => exclude_session_groups = exclude_session_groups ::: List(arg)), "a" -> (_ => all_sessions = true), "b" -> (_ => build_heap = true), "c" -> (_ => clean_build = true), "d:" -> (arg => dirs = dirs ::: List(Path.explode(arg))), "e" -> (_ => export_files = true), "f" -> (_ => fresh_build = true), "g:" -> (arg => session_groups = session_groups ::: List(arg)), "j:" -> (arg => max_jobs = Value.Int.parse(arg)), "k:" -> (arg => check_keywords = check_keywords + arg), "l" -> (_ => list_files = true), "n" -> (_ => no_build = true), "o:" -> (arg => options = options + arg), "v" -> (_ => verbose = true), "x:" -> (arg => exclude_sessions = exclude_sessions ::: List(arg))) val sessions = getopts(args) val progress = new Console_Progress(verbose = verbose) val start_date = Date.now() if (verbose) { progress.echo( "Started at " + Build_Log.print_date(start_date) + " (" + Isabelle_System.getenv("ML_IDENTIFIER") + " on " + Isabelle_System.hostname() +")") progress.echo(Build_Log.Settings.show() + "\n") } val results = progress.interrupt_handler { build(options, selection = Sessions.Selection( requirements = requirements, all_sessions = all_sessions, base_sessions = base_sessions, exclude_session_groups = exclude_session_groups, exclude_sessions = exclude_sessions, session_groups = session_groups, sessions = sessions), progress = progress, check_unknown_files = Mercurial.is_repository(Path.explode("~~")), build_heap = build_heap, clean_build = clean_build, dirs = dirs, select_dirs = select_dirs, numa_shuffling = NUMA.enabled_warning(progress, numa_shuffling), max_jobs = max_jobs, list_files = list_files, check_keywords = check_keywords, fresh_build = fresh_build, no_build = no_build, soft_build = soft_build, verbose = verbose, export_files = export_files) } val end_date = Date.now() val elapsed_time = end_date.time - start_date.time if (verbose) { progress.echo("\nFinished at " + Build_Log.print_date(end_date)) } val total_timing = (Timing.zero /: results.sessions.iterator.map(a => results(a).timing))(_ + _). copy(elapsed = elapsed_time) progress.echo(total_timing.message_resources) sys.exit(results.rc) }) /* build logic image */ def build_logic(options: Options, logic: String, progress: Progress = new Progress, build_heap: Boolean = false, dirs: List[Path] = Nil, fresh: Boolean = false, strict: Boolean = false): Int = { val selection = Sessions.Selection.session(logic) val rc = if (!fresh && build(options, selection = selection, build_heap = build_heap, no_build = true, dirs = dirs).ok) 0 else { progress.echo("Build started for Isabelle/" + logic + " ...") Build.build(options, selection = selection, progress = progress, build_heap = build_heap, fresh_build = fresh, dirs = dirs).rc } if (strict && rc != 0) error("Failed to build Isabelle/" + logic) else rc } }