diff --git a/src/Pure/Admin/build_log.scala b/src/Pure/Admin/build_log.scala --- a/src/Pure/Admin/build_log.scala +++ b/src/Pure/Admin/build_log.scala @@ -1,1167 +1,1167 @@ /* Title: Pure/Admin/build_log.scala Author: Makarius Management of build log files and database storage. */ package isabelle import java.io.{File => JFile} import java.time.format.{DateTimeFormatter, DateTimeParseException} import java.util.Locale import scala.collection.immutable.SortedMap import scala.collection.mutable import scala.util.matching.Regex object Build_Log { /** content **/ /* properties */ object Prop { val build_tags = SQL.Column.string("build_tags") // lines val build_args = SQL.Column.string("build_args") // lines val build_group_id = SQL.Column.string("build_group_id") val build_id = SQL.Column.string("build_id") val build_engine = SQL.Column.string("build_engine") val build_host = SQL.Column.string("build_host") val build_start = SQL.Column.date("build_start") val build_end = SQL.Column.date("build_end") val isabelle_version = SQL.Column.string("isabelle_version") val afp_version = SQL.Column.string("afp_version") val all_props: List[SQL.Column] = List(build_tags, build_args, build_group_id, build_id, build_engine, build_host, build_start, build_end, isabelle_version, afp_version) } /* settings */ object Settings { val ISABELLE_BUILD_OPTIONS = SQL.Column.string("ISABELLE_BUILD_OPTIONS") val ML_PLATFORM = SQL.Column.string("ML_PLATFORM") val ML_HOME = SQL.Column.string("ML_HOME") val ML_SYSTEM = SQL.Column.string("ML_SYSTEM") val ML_OPTIONS = SQL.Column.string("ML_OPTIONS") val ml_settings = List(ML_PLATFORM, ML_HOME, ML_SYSTEM, ML_OPTIONS) val all_settings = ISABELLE_BUILD_OPTIONS :: ml_settings type Entry = (String, String) type T = List[Entry] object Entry { def unapply(s: String): Option[Entry] = for { (a, b) <- Properties.Eq.unapply(s) } yield (a, Library.perhaps_unquote(b)) def getenv(a: String): String = - Properties.Eq(a -> quote(Isabelle_System.getenv(a))) + Properties.Eq(a, quote(Isabelle_System.getenv(a))) } def show(): String = cat_lines( List(Entry.getenv("ISABELLE_TOOL_JAVA_OPTIONS"), Entry.getenv(ISABELLE_BUILD_OPTIONS.name), "") ::: ml_settings.map(c => Entry.getenv(c.name))) } /* file names */ def log_date(date: Date): String = String.format(Locale.ROOT, "%s.%05d", DateTimeFormatter.ofPattern("yyyy-MM-dd").format(date.rep), java.lang.Long.valueOf((date.time - date.midnight.time).ms / 1000)) def log_subdir(date: Date): Path = Path.explode("log") + Path.explode(date.rep.getYear.toString) def log_filename(engine: String, date: Date, more: List[String] = Nil): Path = Path.explode((engine :: log_date(date) :: more).mkString("", "_", ".log")) /** log file **/ def print_date(date: Date): String = Log_File.Date_Format(date) object Log_File { /* log file */ def plain_name(name: String): String = { List(".log", ".log.gz", ".log.xz", ".gz", ".xz").find(name.endsWith) match { case Some(s) => Library.try_unsuffix(s, name).get case None => name } } def apply(name: String, lines: List[String]): Log_File = new Log_File(plain_name(name), lines.map(Library.trim_line)) def apply(name: String, text: String): Log_File = new Log_File(plain_name(name), Library.trim_split_lines(text)) def apply(file: JFile): Log_File = { val name = file.getName val text = if (name.endsWith(".gz")) File.read_gzip(file) else if (name.endsWith(".xz")) File.read_xz(file) else File.read(file) apply(name, text) } def apply(path: Path): Log_File = apply(path.file) /* log file collections */ def is_log(file: JFile, prefixes: List[String] = List(Build_History.log_prefix, Identify.log_prefix, Identify.log_prefix2, Isatest.log_prefix, AFP_Test.log_prefix, Jenkins.log_prefix), suffixes: List[String] = List(".log", ".log.gz", ".log.xz")): Boolean = { val name = file.getName prefixes.exists(name.startsWith) && suffixes.exists(name.endsWith) && name != "isatest.log" && name != "afp-test.log" && name != "main.log" } /* date format */ val Date_Format = { val fmts = Date.Formatter.variants( List("EEE MMM d HH:mm:ss O yyyy", "EEE MMM d HH:mm:ss VV yyyy"), List(Locale.ENGLISH, Locale.GERMAN)) ::: List( DateTimeFormatter.RFC_1123_DATE_TIME, Date.Formatter.pattern("EEE MMM d HH:mm:ss yyyy").withZone(Date.timezone_berlin)) def tune_timezone(s: String): String = s match { case "CET" | "MET" => "GMT+1" case "CEST" | "MEST" => "GMT+2" case "EST" => "Europe/Berlin" case _ => s } def tune_weekday(s: String): String = s match { case "Die" => "Di" case "Mit" => "Mi" case "Don" => "Do" case "Fre" => "Fr" case "Sam" => "Sa" case "Son" => "So" case _ => s } def tune(s: String): String = Word.implode( Word.explode(s) match { case a :: "M\uFFFDr" :: bs => tune_weekday(a) :: "Mär" :: bs.map(tune_timezone) case a :: bs => tune_weekday(a) :: bs.map(tune_timezone) case Nil => Nil } ) Date.Format.make(fmts, tune) } } class Log_File private(val name: String, val lines: List[String]) { log_file => override def toString: String = name def text: String = cat_lines(lines) def err(msg: String): Nothing = error("Error in log file " + quote(name) + ": " + msg) /* date format */ object Strict_Date { def unapply(s: String): Some[Date] = try { Some(Log_File.Date_Format.parse(s)) } catch { case exn: DateTimeParseException => log_file.err(exn.getMessage) } } /* inlined text */ def filter(Marker: Protocol_Message.Marker): List[String] = for (Marker(text) <- lines) yield text def find(Marker: Protocol_Message.Marker): Option[String] = lines.collectFirst({ case Marker(text) => text }) def find_match(regexes: List[Regex]): Option[String] = regexes match { case Nil => None case regex :: rest => lines.iterator.map(regex.unapplySeq(_)).find(res => res.isDefined && res.get.length == 1). map(res => res.get.head) orElse find_match(rest) } /* settings */ - def get_setting(a: String): Option[Settings.Entry] = - lines.collectFirst({ case Settings.Entry(entry) if entry._1 == a => entry }) + def get_setting(name: String): Option[Settings.Entry] = + lines.collectFirst({ case Settings.Entry(a, b) if a == name => a -> b }) def get_all_settings: Settings.T = for { c <- Settings.all_settings; entry <- get_setting(c.name) } yield entry /* properties (YXML) */ val cache: XML.Cache = XML.Cache.make() def parse_props(text: String): Properties.T = try { cache.props(XML.Decode.properties(YXML.parse_body(text))) } catch { case _: XML.Error => log_file.err("malformed properties") } def filter_props(marker: Protocol_Message.Marker): List[Properties.T] = for (text <- filter(marker) if YXML.detect(text)) yield parse_props(text) def find_props(marker: Protocol_Message.Marker): Option[Properties.T] = for (text <- find(marker) if YXML.detect(text)) yield parse_props(text) /* parse various formats */ def parse_meta_info(): Meta_Info = Build_Log.parse_meta_info(log_file) def parse_build_info(ml_statistics: Boolean = false): Build_Info = Build_Log.parse_build_info(log_file, ml_statistics) def parse_session_info( command_timings: Boolean = false, theory_timings: Boolean = false, ml_statistics: Boolean = false, task_statistics: Boolean = false): Session_Info = Build_Log.parse_session_info( log_file, command_timings, theory_timings, ml_statistics, task_statistics) } /** digested meta info: produced by Admin/build_history in log.xz file **/ object Meta_Info { val empty: Meta_Info = Meta_Info(Nil, Nil) } sealed case class Meta_Info(props: Properties.T, settings: Settings.T) { def is_empty: Boolean = props.isEmpty && settings.isEmpty def get(c: SQL.Column): Option[String] = Properties.get(props, c.name) orElse Properties.get(settings, c.name) def get_date(c: SQL.Column): Option[Date] = get(c).map(Log_File.Date_Format.parse) } object Identify { val log_prefix = "isabelle_identify_" val log_prefix2 = "plain_identify_" def engine(log_file: Log_File): String = if (log_file.name.startsWith(Jenkins.log_prefix)) "jenkins_identify" else if (log_file.name.startsWith(log_prefix2)) "plain_identify" else "identify" def content(date: Date, isabelle_version: Option[String], afp_version: Option[String]): String = terminate_lines( List("isabelle_identify: " + Build_Log.print_date(date), "") ::: isabelle_version.map("Isabelle version: " + _).toList ::: afp_version.map("AFP version: " + _).toList) val Start = new Regex("""^isabelle_identify: (.+)$""") val No_End = new Regex("""$.""") val Isabelle_Version = List(new Regex("""^Isabelle version: (\S+)$""")) val AFP_Version = List(new Regex("""^AFP version: (\S+)$""")) } object Isatest { val log_prefix = "isatest-makeall-" val engine = "isatest" val Start = new Regex("""^------------------- starting test --- (.+) --- (.+)$""") val End = new Regex("""^------------------- test (?:successful|FAILED) --- (.+) --- .*$""") val Isabelle_Version = List(new Regex("""^Isabelle version: (\S+)$""")) } object AFP_Test { val log_prefix = "afp-test-devel-" val engine = "afp-test" val Start = new Regex("""^Start test(?: for .+)? at ([^,]+), (.*)$""") val Start_Old = new Regex("""^Start test(?: for .+)? at ([^,]+)$""") val End = new Regex("""^End test on (.+), .+, elapsed time:.*$""") val Isabelle_Version = List(new Regex("""^Isabelle version: .* -- hg id (\S+)$""")) val AFP_Version = List(new Regex("""^AFP version: .* -- hg id (\S+)$""")) val Bad_Init = new Regex("""^cp:.*: Disc quota exceeded$""") } object Jenkins { val log_prefix = "jenkins_" val engine = "jenkins" val Host = new Regex("""^Building remotely on (\S+) \((\S+)\).*$""") val Start = new Regex("""^(?:Started by an SCM change|Started from command line by admin|).*$""") val Start_Date = new Regex("""^Build started at (.+)$""") val No_End = new Regex("""$.""") val Isabelle_Version = List(new Regex("""^(?:Build for Isabelle id|Isabelle id) (\w+).*$"""), new Regex("""^ISABELLE_CI_REPO_ID="(\w+)".*$"""), new Regex("""^(\w{12}) tip.*$""")) val AFP_Version = List(new Regex("""^(?:Build for AFP id|AFP id) (\w+).*$"""), new Regex("""^ISABELLE_CI_AFP_ID="(\w+)".*$""")) val CONFIGURATION = "=== CONFIGURATION ===" val BUILD = "=== BUILD ===" } private def parse_meta_info(log_file: Log_File): Meta_Info = { def parse(engine: String, host: String, start: Date, End: Regex, Isabelle_Version: List[Regex], AFP_Version: List[Regex]): Meta_Info = { val build_id = { val prefix = proper_string(host) orElse proper_string(engine) getOrElse "build" prefix + ":" + start.time.ms } val build_engine = if (engine == "") Nil else List(Prop.build_engine.name -> engine) val build_host = if (host == "") Nil else List(Prop.build_host.name -> host) val start_date = List(Prop.build_start.name -> print_date(start)) val end_date = log_file.lines.last match { case End(log_file.Strict_Date(end_date)) => List(Prop.build_end.name -> print_date(end_date)) case _ => Nil } val isabelle_version = log_file.find_match(Isabelle_Version).map(Prop.isabelle_version.name -> _) val afp_version = log_file.find_match(AFP_Version).map(Prop.afp_version.name -> _) Meta_Info((Prop.build_id.name -> build_id) :: build_engine ::: build_host ::: start_date ::: end_date ::: isabelle_version.toList ::: afp_version.toList, log_file.get_all_settings) } log_file.lines match { case line :: _ if Protocol.Meta_Info_Marker.test_yxml(line) => Meta_Info(log_file.find_props(Protocol.Meta_Info_Marker).get, log_file.get_all_settings) case Identify.Start(log_file.Strict_Date(start)) :: _ => parse(Identify.engine(log_file), "", start, Identify.No_End, Identify.Isabelle_Version, Identify.AFP_Version) case Isatest.Start(log_file.Strict_Date(start), host) :: _ => parse(Isatest.engine, host, start, Isatest.End, Isatest.Isabelle_Version, Nil) case AFP_Test.Start(log_file.Strict_Date(start), host) :: _ => parse(AFP_Test.engine, host, start, AFP_Test.End, AFP_Test.Isabelle_Version, AFP_Test.AFP_Version) case AFP_Test.Start_Old(log_file.Strict_Date(start)) :: _ => parse(AFP_Test.engine, "", start, AFP_Test.End, AFP_Test.Isabelle_Version, AFP_Test.AFP_Version) case Jenkins.Start() :: _ => log_file.lines.dropWhile(_ != Jenkins.BUILD) match { case Jenkins.BUILD :: _ :: Jenkins.Start_Date(log_file.Strict_Date(start)) :: _ => val host = log_file.lines.takeWhile(_ != Jenkins.CONFIGURATION).collectFirst({ case Jenkins.Host(a, b) => a + "." + b }).getOrElse("") parse(Jenkins.engine, host, start.to(Date.timezone_berlin), Jenkins.No_End, Jenkins.Isabelle_Version, Jenkins.AFP_Version) case _ => Meta_Info.empty } case line :: _ if line.startsWith("\u0000") => Meta_Info.empty case List(Isatest.End(_)) => Meta_Info.empty case _ :: AFP_Test.Bad_Init() :: _ => Meta_Info.empty case Nil => Meta_Info.empty case _ => log_file.err("cannot detect log file format") } } /** build info: toplevel output of isabelle build or Admin/build_history **/ val SESSION_NAME = "session_name" object Session_Status extends Enumeration { val existing, finished, failed, cancelled = Value } sealed case class Session_Entry( chapter: String = "", groups: List[String] = Nil, threads: Option[Int] = None, timing: Timing = Timing.zero, ml_timing: Timing = Timing.zero, sources: Option[String] = None, heap_size: Option[Long] = None, status: Option[Session_Status.Value] = None, errors: List[String] = Nil, theory_timings: Map[String, Timing] = Map.empty, ml_statistics: List[Properties.T] = Nil) { def proper_groups: Option[String] = if (groups.isEmpty) None else Some(cat_lines(groups)) def finished: Boolean = status == Some(Session_Status.finished) def failed: Boolean = status == Some(Session_Status.failed) } object Build_Info { val sessions_dummy: Map[String, Session_Entry] = Map("" -> Session_Entry(theory_timings = Map("" -> Timing.zero))) } sealed case class Build_Info(sessions: Map[String, Session_Entry]) { def finished_sessions: List[String] = for ((a, b) <- sessions.toList if b.finished) yield a def failed_sessions: List[String] = for ((a, b) <- sessions.toList if b.failed) yield a } private def parse_build_info(log_file: Log_File, parse_ml_statistics: Boolean): Build_Info = { object Chapter_Name { def unapply(s: String): Some[(String, String)] = space_explode('/', s) match { case List(chapter, name) => Some((chapter, name)) case _ => Some(("", s)) } } val Session_No_Groups = new Regex("""^Session (\S+)$""") val Session_Groups = new Regex("""^Session (\S+) \((.*)\)$""") val Session_Finished1 = new Regex("""^Finished (\S+) \((\d+):(\d+):(\d+) elapsed time, (\d+):(\d+):(\d+) cpu time.*$""") val Session_Finished2 = new Regex("""^Finished ([^\s/]+) \((\d+):(\d+):(\d+) elapsed time.*$""") val Session_Timing = new Regex("""^Timing (\S+) \((\d+) threads, (\d+\.\d+)s elapsed time, (\d+\.\d+)s cpu time, (\d+\.\d+)s GC time.*$""") val Session_Started = new Regex("""^(?:Running|Building) (\S+) \.\.\.$""") val Sources = new Regex("""^Sources (\S+) (\S{""" + SHA1.digest_length + """})$""") val Heap = new Regex("""^Heap (\S+) \((\d+) bytes\)$""") object Theory_Timing { def unapply(line: String): Option[(String, (String, Timing))] = Protocol.Theory_Timing_Marker.unapply(line.replace('~', '-')).map(log_file.parse_props) match { case Some((SESSION_NAME, session) :: props) => for (theory <- Markup.Name.unapply(props)) yield (session, theory -> Markup.Timing_Properties.parse(props)) case _ => None } } var chapter = Map.empty[String, String] var groups = Map.empty[String, List[String]] var threads = Map.empty[String, Int] var timing = Map.empty[String, Timing] var ml_timing = Map.empty[String, Timing] var started = Set.empty[String] var sources = Map.empty[String, String] var heap_sizes = Map.empty[String, Long] var theory_timings = Map.empty[String, Map[String, Timing]] var ml_statistics = Map.empty[String, List[Properties.T]] var errors = Map.empty[String, List[String]] def all_sessions: Set[String] = chapter.keySet ++ groups.keySet ++ threads.keySet ++ timing.keySet ++ ml_timing.keySet ++ started ++ sources.keySet ++ heap_sizes.keySet ++ theory_timings.keySet ++ ml_statistics.keySet for (line <- log_file.lines) { line match { case Session_No_Groups(Chapter_Name(chapt, name)) => chapter += (name -> chapt) groups += (name -> Nil) case Session_Groups(Chapter_Name(chapt, name), grps) => chapter += (name -> chapt) groups += (name -> Word.explode(grps)) case Session_Started(name) => started += name case Session_Finished1(name, Value.Int(e1), Value.Int(e2), Value.Int(e3), Value.Int(c1), Value.Int(c2), Value.Int(c3)) => val elapsed = Time.hms(e1, e2, e3) val cpu = Time.hms(c1, c2, c3) timing += (name -> Timing(elapsed, cpu, Time.zero)) case Session_Finished2(name, Value.Int(e1), Value.Int(e2), Value.Int(e3)) => val elapsed = Time.hms(e1, e2, e3) timing += (name -> Timing(elapsed, Time.zero, Time.zero)) case Session_Timing(name, Value.Int(t), Value.Double(e), Value.Double(c), Value.Double(g)) => val elapsed = Time.seconds(e) val cpu = Time.seconds(c) val gc = Time.seconds(g) ml_timing += (name -> Timing(elapsed, cpu, gc)) threads += (name -> t) case Sources(name, s) => sources += (name -> s) case Heap(name, Value.Long(size)) => heap_sizes += (name -> size) case _ if Protocol.Theory_Timing_Marker.test_yxml(line) => line match { case Theory_Timing(name, theory_timing) => theory_timings += (name -> (theory_timings.getOrElse(name, Map.empty) + theory_timing)) case _ => log_file.err("malformed theory_timing " + quote(line)) } case _ if parse_ml_statistics && Protocol.ML_Statistics_Marker.test_yxml(line) => Protocol.ML_Statistics_Marker.unapply(line).map(log_file.parse_props) match { case Some((SESSION_NAME, name) :: props) => ml_statistics += (name -> (props :: ml_statistics.getOrElse(name, Nil))) case _ => log_file.err("malformed ML_statistics " + quote(line)) } case _ if Protocol.Error_Message_Marker.test_yxml(line) => Protocol.Error_Message_Marker.unapply(line).map(log_file.parse_props) match { case Some(List((SESSION_NAME, name), (Markup.CONTENT, msg))) => errors += (name -> (msg :: errors.getOrElse(name, Nil))) case _ => log_file.err("malformed error message " + quote(line)) } case _ => } } val sessions = Map( (for (name <- all_sessions.toList) yield { val status = if (timing.isDefinedAt(name) || ml_timing.isDefinedAt(name)) Session_Status.finished else if (started(name)) Session_Status.failed else Session_Status.existing val entry = Session_Entry( chapter = chapter.getOrElse(name, ""), groups = groups.getOrElse(name, Nil), threads = threads.get(name), timing = timing.getOrElse(name, Timing.zero), ml_timing = ml_timing.getOrElse(name, Timing.zero), sources = sources.get(name), heap_size = heap_sizes.get(name), status = Some(status), errors = errors.getOrElse(name, Nil).reverse, theory_timings = theory_timings.getOrElse(name, Map.empty), ml_statistics = ml_statistics.getOrElse(name, Nil).reverse) (name -> entry) }):_*) Build_Info(sessions) } /** session info: produced by isabelle build as session database **/ sealed case class Session_Info( session_timing: Properties.T, command_timings: List[Properties.T], theory_timings: List[Properties.T], ml_statistics: List[Properties.T], task_statistics: List[Properties.T], errors: List[String]) { def error(s: String): Session_Info = copy(errors = errors ::: List(s)) } private def parse_session_info( log_file: Log_File, command_timings: Boolean, theory_timings: Boolean, ml_statistics: Boolean, task_statistics: Boolean): Session_Info = { Session_Info( session_timing = log_file.find_props(Protocol.Session_Timing_Marker) getOrElse Nil, command_timings = if (command_timings) log_file.filter_props(Protocol.Command_Timing_Marker) else Nil, theory_timings = if (theory_timings) log_file.filter_props(Protocol.Theory_Timing_Marker) else Nil, ml_statistics = if (ml_statistics) log_file.filter_props(Protocol.ML_Statistics_Marker) else Nil, task_statistics = if (task_statistics) log_file.filter_props(Protocol.Task_Statistics_Marker) else Nil, errors = log_file.filter(Protocol.Error_Message_Marker)) } def compress_errors(errors: List[String], cache: XZ.Cache = XZ.Cache()): Option[Bytes] = if (errors.isEmpty) None else { Some(Bytes(YXML.string_of_body(XML.Encode.list(XML.Encode.string)(errors))). compress(cache = cache)) } def uncompress_errors(bytes: Bytes, cache: XML.Cache = XML.Cache.make()): List[String] = if (bytes.is_empty) Nil else { XML.Decode.list(YXML.string_of_body)( YXML.parse_body(bytes.uncompress(cache = cache.xz).text, cache = cache)) } /** persistent store **/ /* SQL data model */ object Data { def build_log_table(name: String, columns: List[SQL.Column], body: String = ""): SQL.Table = SQL.Table("isabelle_build_log_" + name, columns, body) /* main content */ val log_name = SQL.Column.string("log_name").make_primary_key val session_name = SQL.Column.string("session_name").make_primary_key val theory_name = SQL.Column.string("theory_name").make_primary_key val chapter = SQL.Column.string("chapter") val groups = SQL.Column.string("groups") val threads = SQL.Column.int("threads") val timing_elapsed = SQL.Column.long("timing_elapsed") val timing_cpu = SQL.Column.long("timing_cpu") val timing_gc = SQL.Column.long("timing_gc") val timing_factor = SQL.Column.double("timing_factor") val ml_timing_elapsed = SQL.Column.long("ml_timing_elapsed") val ml_timing_cpu = SQL.Column.long("ml_timing_cpu") val ml_timing_gc = SQL.Column.long("ml_timing_gc") val ml_timing_factor = SQL.Column.double("ml_timing_factor") val theory_timing_elapsed = SQL.Column.long("theory_timing_elapsed") val theory_timing_cpu = SQL.Column.long("theory_timing_cpu") val theory_timing_gc = SQL.Column.long("theory_timing_gc") val heap_size = SQL.Column.long("heap_size") val status = SQL.Column.string("status") val errors = SQL.Column.bytes("errors") val sources = SQL.Column.string("sources") val ml_statistics = SQL.Column.bytes("ml_statistics") val known = SQL.Column.bool("known") val meta_info_table = build_log_table("meta_info", log_name :: Prop.all_props ::: Settings.all_settings) val sessions_table = build_log_table("sessions", List(log_name, session_name, chapter, groups, threads, timing_elapsed, timing_cpu, timing_gc, timing_factor, ml_timing_elapsed, ml_timing_cpu, ml_timing_gc, ml_timing_factor, heap_size, status, errors, sources)) val theories_table = build_log_table("theories", List(log_name, session_name, theory_name, theory_timing_elapsed, theory_timing_cpu, theory_timing_gc)) val ml_statistics_table = build_log_table("ml_statistics", List(log_name, session_name, ml_statistics)) /* AFP versions */ val isabelle_afp_versions_table: SQL.Table = { val version1 = Prop.isabelle_version val version2 = Prop.afp_version build_log_table("isabelle_afp_versions", List(version1.make_primary_key, version2), SQL.select(List(version1, version2), distinct = true) + meta_info_table + " WHERE " + version1.defined + " AND " + version2.defined) } /* earliest pull date for repository version (PostgreSQL queries) */ def pull_date(afp: Boolean = false): SQL.Column = if (afp) SQL.Column.date("afp_pull_date") else SQL.Column.date("pull_date") def pull_date_table(afp: Boolean = false): SQL.Table = { val (name, versions) = if (afp) ("afp_pull_date", List(Prop.isabelle_version, Prop.afp_version)) else ("pull_date", List(Prop.isabelle_version)) build_log_table(name, versions.map(_.make_primary_key) ::: List(pull_date(afp)), "SELECT " + versions.mkString(", ") + ", min(" + Prop.build_start + ") AS " + pull_date(afp) + " FROM " + meta_info_table + " WHERE " + (versions ::: List(Prop.build_start)).map(_.defined).mkString(" AND ") + " GROUP BY " + versions.mkString(", ")) } /* recent entries */ def recent_time(days: Int): SQL.Source = "now() - INTERVAL '" + days.max(0) + " days'" def recent_pull_date_table( days: Int, rev: String = "", afp_rev: Option[String] = None): SQL.Table = { val afp = afp_rev.isDefined val rev2 = afp_rev.getOrElse("") val table = pull_date_table(afp) val version1 = Prop.isabelle_version val version2 = Prop.afp_version val eq1 = version1(table).toString + " = " + SQL.string(rev) val eq2 = version2(table).toString + " = " + SQL.string(rev2) SQL.Table("recent_pull_date", table.columns, table.select(table.columns, "WHERE " + pull_date(afp)(table) + " > " + recent_time(days) + (if (rev != "" && rev2 == "") " OR " + eq1 else if (rev == "" && rev2 != "") " OR " + eq2 else if (rev != "" && rev2 != "") " OR (" + eq1 + " AND " + eq2 + ")" else ""))) } def select_recent_log_names(days: Int): SQL.Source = { val table1 = meta_info_table val table2 = recent_pull_date_table(days) table1.select(List(log_name), distinct = true) + SQL.join_inner + table2.query_named + " ON " + Prop.isabelle_version(table1) + " = " + Prop.isabelle_version(table2) } def select_recent_versions(days: Int, rev: String = "", afp_rev: Option[String] = None, sql: SQL.Source = ""): SQL.Source = { val afp = afp_rev.isDefined val version = Prop.isabelle_version val table1 = recent_pull_date_table(days, rev = rev, afp_rev = afp_rev) val table2 = meta_info_table val aux_table = SQL.Table("aux", table2.columns, table2.select(sql = sql)) val columns = table1.columns.map(c => c(table1)) ::: List(known.copy(expr = log_name(aux_table).defined)) SQL.select(columns, distinct = true) + table1.query_named + SQL.join_outer + aux_table.query_named + " ON " + version(table1) + " = " + version(aux_table) + " ORDER BY " + pull_date(afp)(table1) + " DESC" } /* universal view on main data */ val universal_table: SQL.Table = { val afp_pull_date = pull_date(afp = true) val version1 = Prop.isabelle_version val version2 = Prop.afp_version val table1 = meta_info_table val table2 = pull_date_table(afp = true) val table3 = pull_date_table() val a_columns = log_name :: afp_pull_date :: table1.columns.tail val a_table = SQL.Table("a", a_columns, SQL.select(List(log_name, afp_pull_date) ::: table1.columns.tail.map(_.apply(table1))) + table1 + SQL.join_outer + table2 + " ON " + version1(table1) + " = " + version1(table2) + " AND " + version2(table1) + " = " + version2(table2)) val b_columns = log_name :: pull_date() :: a_columns.tail val b_table = SQL.Table("b", b_columns, SQL.select( List(log_name(a_table), pull_date()(table3)) ::: a_columns.tail.map(_.apply(a_table))) + a_table.query_named + SQL.join_outer + table3 + " ON " + version1(a_table) + " = " + version1(table3)) val c_columns = b_columns ::: sessions_table.columns.tail val c_table = SQL.Table("c", c_columns, SQL.select(log_name(b_table) :: c_columns.tail) + b_table.query_named + SQL.join_inner + sessions_table + " ON " + log_name(b_table) + " = " + log_name(sessions_table)) SQL.Table("isabelle_build_log", c_columns ::: List(ml_statistics), { SQL.select(c_columns.map(_.apply(c_table)) ::: List(ml_statistics)) + c_table.query_named + SQL.join_outer + ml_statistics_table + " ON " + log_name(c_table) + " = " + log_name(ml_statistics_table) + " AND " + session_name(c_table) + " = " + session_name(ml_statistics_table) }) } } /* database access */ def store(options: Options, cache: XML.Cache = XML.Cache.make()): Store = new Store(options, cache) class Store private[Build_Log](options: Options, val cache: XML.Cache) { def open_database( user: String = options.string("build_log_database_user"), password: String = options.string("build_log_database_password"), database: String = options.string("build_log_database_name"), host: String = options.string("build_log_database_host"), port: Int = options.int("build_log_database_port"), ssh_host: String = options.string("build_log_ssh_host"), ssh_user: String = options.string("build_log_ssh_user"), ssh_port: Int = options.int("build_log_ssh_port")): PostgreSQL.Database = { PostgreSQL.open_database( user = user, password = password, database = database, host = host, port = port, ssh = if (ssh_host == "") None else Some(SSH.open_session(options, host = ssh_host, user = ssh_user, port = ssh_port)), ssh_close = true) } def update_database( db: PostgreSQL.Database, dirs: List[Path], ml_statistics: Boolean = false): Unit = { val log_files = dirs.flatMap(dir => File.find_files(dir.file, pred = Log_File.is_log(_), follow_links = true)) write_info(db, log_files, ml_statistics = ml_statistics) db.create_view(Data.pull_date_table()) db.create_view(Data.pull_date_table(afp = true)) db.create_view(Data.universal_table) } def snapshot_database(db: PostgreSQL.Database, sqlite_database: Path, days: Int = 100, ml_statistics: Boolean = false): Unit = { Isabelle_System.make_directory(sqlite_database.dir) sqlite_database.file.delete using(SQLite.open_database(sqlite_database))(db2 => { db.transaction { db2.transaction { // main content db2.create_table(Data.meta_info_table) db2.create_table(Data.sessions_table) db2.create_table(Data.theories_table) db2.create_table(Data.ml_statistics_table) val recent_log_names = db.using_statement(Data.select_recent_log_names(days))(stmt => stmt.execute_query().iterator(_.string(Data.log_name)).toList) for (log_name <- recent_log_names) { read_meta_info(db, log_name).foreach(meta_info => update_meta_info(db2, log_name, meta_info)) update_sessions(db2, log_name, read_build_info(db, log_name)) if (ml_statistics) { update_ml_statistics(db2, log_name, read_build_info(db, log_name, ml_statistics = true)) } } // pull_date for (afp <- List(false, true)) { val afp_rev = if (afp) Some("") else None val table = Data.pull_date_table(afp) db2.create_table(table) db2.using_statement(table.insert())(stmt2 => { db.using_statement( Data.recent_pull_date_table(days, afp_rev = afp_rev).query)(stmt => { val res = stmt.execute_query() while (res.next()) { for ((c, i) <- table.columns.zipWithIndex) { stmt2.string(i + 1) = res.get_string(c) } stmt2.execute() } }) }) } // full view db2.create_view(Data.universal_table) } } db2.rebuild }) } def domain(db: SQL.Database, table: SQL.Table, column: SQL.Column): Set[String] = db.using_statement(table.select(List(column), distinct = true))(stmt => stmt.execute_query().iterator(_.string(column)).toSet) def update_meta_info(db: SQL.Database, log_name: String, meta_info: Meta_Info): Unit = { val table = Data.meta_info_table db.using_statement(db.insert_permissive(table))(stmt => { stmt.string(1) = log_name for ((c, i) <- table.columns.tail.zipWithIndex) { if (c.T == SQL.Type.Date) stmt.date(i + 2) = meta_info.get_date(c) else stmt.string(i + 2) = meta_info.get(c) } stmt.execute() }) } def update_sessions(db: SQL.Database, log_name: String, build_info: Build_Info): Unit = { val table = Data.sessions_table db.using_statement(db.insert_permissive(table))(stmt => { val sessions = if (build_info.sessions.isEmpty) Build_Info.sessions_dummy else build_info.sessions for ((session_name, session) <- sessions) { stmt.string(1) = log_name stmt.string(2) = session_name stmt.string(3) = proper_string(session.chapter) stmt.string(4) = session.proper_groups stmt.int(5) = session.threads stmt.long(6) = session.timing.elapsed.proper_ms stmt.long(7) = session.timing.cpu.proper_ms stmt.long(8) = session.timing.gc.proper_ms stmt.double(9) = session.timing.factor stmt.long(10) = session.ml_timing.elapsed.proper_ms stmt.long(11) = session.ml_timing.cpu.proper_ms stmt.long(12) = session.ml_timing.gc.proper_ms stmt.double(13) = session.ml_timing.factor stmt.long(14) = session.heap_size stmt.string(15) = session.status.map(_.toString) stmt.bytes(16) = compress_errors(session.errors, cache = cache.xz) stmt.string(17) = session.sources stmt.execute() } }) } def update_theories(db: SQL.Database, log_name: String, build_info: Build_Info): Unit = { val table = Data.theories_table db.using_statement(db.insert_permissive(table))(stmt => { val sessions = if (build_info.sessions.forall({ case (_, session) => session.theory_timings.isEmpty })) Build_Info.sessions_dummy else build_info.sessions for { (session_name, session) <- sessions (theory_name, timing) <- session.theory_timings } { stmt.string(1) = log_name stmt.string(2) = session_name stmt.string(3) = theory_name stmt.long(4) = timing.elapsed.ms stmt.long(5) = timing.cpu.ms stmt.long(6) = timing.gc.ms stmt.execute() } }) } def update_ml_statistics(db: SQL.Database, log_name: String, build_info: Build_Info): Unit = { val table = Data.ml_statistics_table db.using_statement(db.insert_permissive(table))(stmt => { val ml_stats: List[(String, Option[Bytes])] = Par_List.map[(String, Session_Entry), (String, Option[Bytes])]( { case (a, b) => (a, Properties.compress(b.ml_statistics, cache = cache.xz).proper) }, build_info.sessions.iterator.filter(p => p._2.ml_statistics.nonEmpty).toList) val entries = if (ml_stats.nonEmpty) ml_stats else List("" -> None) for ((session_name, ml_statistics) <- entries) { stmt.string(1) = log_name stmt.string(2) = session_name stmt.bytes(3) = ml_statistics stmt.execute() } }) } def write_info(db: SQL.Database, files: List[JFile], ml_statistics: Boolean = false): Unit = { abstract class Table_Status(table: SQL.Table) { db.create_table(table) private var known: Set[String] = domain(db, table, Data.log_name) def required(file: JFile): Boolean = !known(Log_File.plain_name(file.getName)) def update_db(db: SQL.Database, log_file: Log_File): Unit def update(log_file: Log_File): Unit = { if (!known(log_file.name)) { update_db(db, log_file) known += log_file.name } } } val status = List( new Table_Status(Data.meta_info_table) { override def update_db(db: SQL.Database, log_file: Log_File): Unit = update_meta_info(db, log_file.name, log_file.parse_meta_info()) }, new Table_Status(Data.sessions_table) { override def update_db(db: SQL.Database, log_file: Log_File): Unit = update_sessions(db, log_file.name, log_file.parse_build_info()) }, new Table_Status(Data.theories_table) { override def update_db(db: SQL.Database, log_file: Log_File): Unit = update_theories(db, log_file.name, log_file.parse_build_info()) }, new Table_Status(Data.ml_statistics_table) { override def update_db(db: SQL.Database, log_file: Log_File): Unit = if (ml_statistics) { update_ml_statistics(db, log_file.name, log_file.parse_build_info(ml_statistics = true)) } }) for (file_group <- files.filter(file => status.exists(_.required(file))). grouped(options.int("build_log_transaction_size") max 1)) { val log_files = Par_List.map[JFile, Log_File](Log_File.apply, file_group) db.transaction { log_files.foreach(log_file => status.foreach(_.update(log_file))) } } } def read_meta_info(db: SQL.Database, log_name: String): Option[Meta_Info] = { val table = Data.meta_info_table val columns = table.columns.tail db.using_statement(table.select(columns, Data.log_name.where_equal(log_name)))(stmt => { val res = stmt.execute_query() if (!res.next()) None else { val results = columns.map(c => c.name -> (if (c.T == SQL.Type.Date) res.get_date(c).map(Log_File.Date_Format(_)) else res.get_string(c))) val n = Prop.all_props.length val props = for ((x, Some(y)) <- results.take(n)) yield (x, y) val settings = for ((x, Some(y)) <- results.drop(n)) yield (x, y) Some(Meta_Info(props, settings)) } }) } def read_build_info( db: SQL.Database, log_name: String, session_names: List[String] = Nil, ml_statistics: Boolean = false): Build_Info = { val table1 = Data.sessions_table val table2 = Data.ml_statistics_table val where_log_name = Data.log_name(table1).where_equal(log_name) + " AND " + Data.session_name(table1) + " <> ''" val where = if (session_names.isEmpty) where_log_name else where_log_name + " AND " + SQL.member(Data.session_name(table1).ident, session_names) val columns1 = table1.columns.tail.map(_.apply(table1)) val (columns, from) = if (ml_statistics) { val columns = columns1 ::: List(Data.ml_statistics(table2)) val join = table1.toString + SQL.join_outer + table2 + " ON " + Data.log_name(table1) + " = " + Data.log_name(table2) + " AND " + Data.session_name(table1) + " = " + Data.session_name(table2) (columns, SQL.enclose(join)) } else (columns1, table1.ident) val sessions = db.using_statement(SQL.select(columns) + from + " " + where)(stmt => { stmt.execute_query().iterator(res => { val session_name = res.string(Data.session_name) val session_entry = Session_Entry( chapter = res.string(Data.chapter), groups = split_lines(res.string(Data.groups)), threads = res.get_int(Data.threads), timing = res.timing(Data.timing_elapsed, Data.timing_cpu, Data.timing_gc), ml_timing = res.timing(Data.ml_timing_elapsed, Data.ml_timing_cpu, Data.ml_timing_gc), sources = res.get_string(Data.sources), heap_size = res.get_long(Data.heap_size), status = res.get_string(Data.status).map(Session_Status.withName), errors = uncompress_errors(res.bytes(Data.errors), cache = cache), ml_statistics = if (ml_statistics) { Properties.uncompress(res.bytes(Data.ml_statistics), cache = cache) } else Nil) session_name -> session_entry }).toMap }) Build_Info(sessions) } } } diff --git a/src/Pure/General/path.scala b/src/Pure/General/path.scala --- a/src/Pure/General/path.scala +++ b/src/Pure/General/path.scala @@ -1,313 +1,313 @@ /* Title: Pure/General/path.scala Author: Makarius Algebra of file-system paths: basic POSIX notation, extended by named roots (e.g. //foo) and variables (e.g. $BAR). */ package isabelle import java.io.{File => JFile} import scala.util.matching.Regex object Path { /* path elements */ sealed abstract class Elem private case class Root(name: String) extends Elem private case class Basic(name: String) extends Elem private case class Variable(name: String) extends Elem private case object Parent extends Elem private def err_elem(msg: String, s: String): Nothing = error(msg + " path element " + quote(s)) private val illegal_elem = Set("", "~", "~~", ".", "..") private val illegal_char = "/\\$:\"'<>|?*" private def check_elem(s: String): String = if (illegal_elem.contains(s)) err_elem("Illegal", s) else { for (c <- s) { if (c.toInt < 32) err_elem("Illegal control character " + c.toInt + " in", s) if (illegal_char.contains(c)) err_elem("Illegal character " + quote(c.toString) + " in", s) } s } private def root_elem(s: String): Elem = Root(check_elem(s)) private def basic_elem(s: String): Elem = Basic(check_elem(s)) private def variable_elem(s: String): Elem = Variable(check_elem(s)) private def apply_elem(y: Elem, xs: List[Elem]): List[Elem] = (y, xs) match { case (Root(_), _) => List(y) case (Parent, Root(_) :: _) => xs case (Parent, Basic(_) :: rest) => rest case _ => y :: xs } private def norm_elems(elems: List[Elem]): List[Elem] = elems.foldRight(List.empty[Elem])(apply_elem) private def implode_elem(elem: Elem, short: Boolean): String = elem match { case Root("") => "" case Root(s) => "//" + s case Basic(s) => s case Variable("USER_HOME") if short => "~" case Variable("ISABELLE_HOME") if short => "~~" case Variable(s) => "$" + s case Parent => ".." } private def squash_elem(elem: Elem): String = elem match { case Root("") => "ROOT" case Root(s) => "SERVER_" + s case Basic(s) => s case Variable(s) => s case Parent => "PARENT" } /* path constructors */ val current: Path = new Path(Nil) val root: Path = new Path(List(Root(""))) def named_root(s: String): Path = new Path(List(root_elem(s))) def make(elems: List[String]): Path = new Path(elems.reverse.map(basic_elem)) def basic(s: String): Path = new Path(List(basic_elem(s))) def variable(s: String): Path = new Path(List(variable_elem(s))) val parent: Path = new Path(List(Parent)) val USER_HOME: Path = variable("USER_HOME") val ISABELLE_HOME: Path = variable("ISABELLE_HOME") /* explode */ def explode(str: String): Path = { def explode_elem(s: String): Elem = try { if (s == "..") Parent else if (s == "~") Variable("USER_HOME") else if (s == "~~") Variable("ISABELLE_HOME") else if (s.startsWith("$")) variable_elem(s.substring(1)) else basic_elem(s) } catch { case ERROR(msg) => cat_error(msg, "The error(s) above occurred in " + quote(str)) } val ss = space_explode('/', str) val r = ss.takeWhile(_.isEmpty).length val es = ss.dropWhile(_.isEmpty) val (roots, raw_elems) = if (r == 0) (Nil, es) else if (r == 1) (List(Root("")), es) else if (es.isEmpty) (List(Root("")), Nil) else (List(root_elem(es.head)), es.tail) val elems = raw_elems.filterNot(s => s.isEmpty || s == ".").map(explode_elem) new Path(norm_elems(elems reverse_::: roots)) } def is_wellformed(str: String): Boolean = try { explode(str); true } catch { case ERROR(_) => false } def is_valid(str: String): Boolean = try { explode(str).expand; true } catch { case ERROR(_) => false } def split(str: String): List[Path] = space_explode(':', str).filterNot(_.isEmpty).map(explode) /* encode */ val encode: XML.Encode.T[Path] = (path => XML.Encode.string(path.implode)) /* reserved names */ private val reserved_windows: Set[String] = Set("CON", "PRN", "AUX", "NUL", "COM1", "COM2", "COM3", "COM4", "COM5", "COM6", "COM7", "COM8", "COM9", "LPT1", "LPT2", "LPT3", "LPT4", "LPT5", "LPT6", "LPT7", "LPT8", "LPT9") def is_reserved(name: String): Boolean = Long_Name.explode(name).exists(a => reserved_windows.contains(Word.uppercase(a))) /* case-insensitive names */ def check_case_insensitive(paths: List[Path]): Unit = { val table = paths.foldLeft(Multi_Map.empty[String, String]) { case (tab, path) => val name = path.expand.implode tab.insert(Word.lowercase(name), name) } val collisions = (for { (_, coll) <- table.iterator_list if coll.length > 1 } yield coll).toList.flatten if (collisions.nonEmpty) { error(("Collision of file names due case-insensitivity:" :: collisions).mkString("\n ")) } } } final class Path private(protected val elems: List[Path.Elem]) // reversed elements { override def hashCode: Int = elems.hashCode override def equals(that: Any): Boolean = that match { case other: Path => elems == other.elems case _ => false } def is_current: Boolean = elems.isEmpty def is_absolute: Boolean = elems.nonEmpty && elems.last.isInstanceOf[Path.Root] def is_root: Boolean = elems match { case List(Path.Root(_)) => true case _ => false } def is_basic: Boolean = elems match { case List(Path.Basic(_)) => true case _ => false } def starts_basic: Boolean = elems.nonEmpty && elems.last.isInstanceOf[Path.Basic] def +(other: Path): Path = new Path(other.elems.foldRight(elems)(Path.apply_elem)) /* implode */ private def gen_implode(short: Boolean): String = elems match { case Nil => "." case List(Path.Root("")) => "/" case _ => elems.map(Path.implode_elem(_, short)).reverse.mkString("/") } def implode: String = gen_implode(false) def implode_short: String = gen_implode(true) override def toString: String = quote(implode) /* base element */ private def split_path: (Path, String) = elems match { case Path.Basic(s) :: xs => (new Path(xs), s) case _ => error("Cannot split path into dir/base: " + toString) } def dir: Path = split_path._1 def base: Path = new Path(List(Path.Basic(split_path._2))) def ext(e: String): Path = if (e == "") this else { val (prfx, s) = split_path prfx + Path.basic(s + "." + e) } def xz: Path = ext("xz") def xml: Path = ext("xml") def html: Path = ext("html") def tex: Path = ext("tex") def pdf: Path = ext("pdf") def thy: Path = ext("thy") def tar: Path = ext("tar") def gz: Path = ext("gz") def log: Path = ext("log") def backup: Path = { val (prfx, s) = split_path prfx + Path.basic(s + "~") } def backup2: Path = { val (prfx, s) = split_path prfx + Path.basic(s + "~~") } def platform_exe: Path = if (Platform.is_windows) ext("exe") else this private val Ext = new Regex("(.*)\\.([^.]*)") def split_ext: (Path, String) = { val (prefix, base) = split_path base match { case Ext(b, e) => (prefix + Path.basic(b), e) case _ => (prefix + Path.basic(base), "") } } def drop_ext: Path = split_ext._1 def get_ext: String = split_ext._2 def squash: Path = new Path(elems.map(elem => Path.Basic(Path.squash_elem(elem)))) /* expand */ def expand_env(env: Map[String, String]): Path = { def eval(elem: Path.Elem): List[Path.Elem] = elem match { case Path.Variable(s) => val path = Path.explode(Isabelle_System.getenv_strict(s, env)) if (path.elems.exists(_.isInstanceOf[Path.Variable])) - error("Illegal path variable nesting: " + Properties.Eq(s -> path.toString)) + error("Illegal path variable nesting: " + Properties.Eq(s, path.toString)) else path.elems case x => List(x) } new Path(Path.norm_elems(elems.flatMap(eval))) } def expand: Path = expand_env(Isabelle_System.settings()) def file_name: String = expand.base.implode /* implode wrt. given directories */ def implode_symbolic: String = { val directories = Library.space_explode(':', Isabelle_System.getenv("ISABELLE_DIRECTORIES")).reverse val full_name = expand.implode directories.view.flatMap(a => try { val b = Path.explode(a).expand.implode if (full_name == b) Some(a) else { Library.try_unprefix(b + "/", full_name) match { case Some(name) => Some(a + "/" + name) case None => None } } } catch { case ERROR(_) => None }).headOption.getOrElse(implode) } def position: Position.T = Position.File(implode_symbolic) /* platform files */ def file: JFile = File.platform_file(this) def is_file: Boolean = file.isFile def is_dir: Boolean = file.isDirectory def absolute_file: JFile = File.absolute(file) def canonical_file: JFile = File.canonical(file) def absolute: Path = File.path(absolute_file) def canonical: Path = File.path(canonical_file) } diff --git a/src/Pure/General/properties.scala b/src/Pure/General/properties.scala --- a/src/Pure/General/properties.scala +++ b/src/Pure/General/properties.scala @@ -1,139 +1,140 @@ /* Title: Pure/General/properties.scala Author: Makarius Property lists. */ package isabelle object Properties { /* entries */ type Entry = (java.lang.String, java.lang.String) type T = List[Entry] object Eq { - def apply(entry: Entry): java.lang.String = entry._1 + "=" + entry._2 + def apply(a: java.lang.String, b: java.lang.String): java.lang.String = a + "=" + b + def apply(entry: Entry): java.lang.String = apply(entry._1, entry._2) def unapply(str: java.lang.String): Option[Entry] = { val i = str.indexOf('=') if (i <= 0) None else Some((str.substring(0, i), str.substring(i + 1))) } } def defined(props: T, name: java.lang.String): java.lang.Boolean = props.exists({ case (x, _) => x == name }) def get(props: T, name: java.lang.String): Option[java.lang.String] = props.collectFirst({ case (x, y) if x == name => y }) def put(props: T, entry: Entry): T = { val (x, y) = entry def update(ps: T): T = ps match { case (p @ (x1, _)) :: rest => if (x1 == x) (x1, y) :: rest else p :: update(rest) case Nil => Nil } if (defined(props, x)) update(props) else entry :: props } /* external storage */ def encode(ps: T): Bytes = Bytes(YXML.string_of_body(XML.Encode.properties(ps))) def decode(bs: Bytes, cache: XML.Cache = XML.Cache.none): T = cache.props(XML.Decode.properties(YXML.parse_body(bs.text))) def compress(ps: List[T], options: XZ.Options = XZ.options(), cache: XZ.Cache = XZ.Cache()): Bytes = { if (ps.isEmpty) Bytes.empty else { Bytes(YXML.string_of_body(XML.Encode.list(XML.Encode.properties)(ps))). compress(options = options, cache = cache) } } def uncompress(bs: Bytes, cache: XML.Cache = XML.Cache.none): List[T] = { if (bs.is_empty) Nil else { val ps = XML.Decode.list(XML.Decode.properties)( YXML.parse_body(bs.uncompress(cache = cache.xz).text)) if (cache.no_cache) ps else ps.map(cache.props) } } /* multi-line entries */ def encode_lines(props: T): T = props.map({ case (a, b) => (a, Library.encode_lines(b)) }) def decode_lines(props: T): T = props.map({ case (a, b) => (a, Library.decode_lines(b)) }) def lines_nonempty(x: java.lang.String, ys: List[java.lang.String]): Properties.T = if (ys.isEmpty) Nil else List((x, cat_lines(ys))) /* entry types */ class String(val name: java.lang.String) { def apply(value: java.lang.String): T = List((name, value)) def unapply(props: T): Option[java.lang.String] = props.find(_._1 == name).map(_._2) def get(props: T): java.lang.String = unapply(props).getOrElse("") } class Boolean(val name: java.lang.String) { def apply(value: scala.Boolean): T = List((name, Value.Boolean(value))) def unapply(props: T): Option[scala.Boolean] = props.find(_._1 == name) match { case None => None case Some((_, value)) => Value.Boolean.unapply(value) } def get(props: T): scala.Boolean = unapply(props).getOrElse(false) } class Int(val name: java.lang.String) { def apply(value: scala.Int): T = List((name, Value.Int(value))) def unapply(props: T): Option[scala.Int] = props.find(_._1 == name) match { case None => None case Some((_, value)) => Value.Int.unapply(value) } def get(props: T): scala.Int = unapply(props).getOrElse(0) } class Long(val name: java.lang.String) { def apply(value: scala.Long): T = List((name, Value.Long(value))) def unapply(props: T): Option[scala.Long] = props.find(_._1 == name) match { case None => None case Some((_, value)) => Value.Long.unapply(value) } def get(props: T): scala.Long = unapply(props).getOrElse(0) } class Double(val name: java.lang.String) { def apply(value: scala.Double): T = List((name, Value.Double(value))) def unapply(props: T): Option[scala.Double] = props.find(_._1 == name) match { case None => None case Some((_, value)) => Value.Double.unapply(value) } def get(props: T): scala.Double = unapply(props).getOrElse(0.0) } } diff --git a/src/Pure/System/options.scala b/src/Pure/System/options.scala --- a/src/Pure/System/options.scala +++ b/src/Pure/System/options.scala @@ -1,452 +1,452 @@ /* Title: Pure/System/options.scala Author: Makarius System options with external string representation. */ package isabelle object Options { type Spec = (String, Option[String]) val empty: Options = new Options() /* representation */ sealed abstract class Type { def print: String = Word.lowercase(toString) } case object Bool extends Type case object Int extends Type case object Real extends Type case object String extends Type case object Unknown extends Type case class Opt( public: Boolean, pos: Position.T, name: String, typ: Type, value: String, default_value: String, description: String, section: String) { private def print(default: Boolean): String = { val x = if (default) default_value else value "option " + name + " : " + typ.print + " = " + (if (typ == Options.String) quote(x) else x) + (if (description == "") "" else "\n -- " + quote(description)) } def print: String = print(false) def print_default: String = print(true) def title(strip: String = ""): String = { val words = Word.explode('_', name) val words1 = words match { case word :: rest if word == strip => rest case _ => words } Word.implode(words1.map(Word.perhaps_capitalize)) } def unknown: Boolean = typ == Unknown } /* parsing */ private val SECTION = "section" private val PUBLIC = "public" private val OPTION = "option" private val OPTIONS = Path.explode("etc/options") private val PREFS = Path.explode("$ISABELLE_HOME_USER/etc/preferences") val options_syntax: Outer_Syntax = Outer_Syntax.empty + ":" + "=" + "--" + Symbol.comment + Symbol.comment_decoded + (SECTION, Keyword.DOCUMENT_HEADING) + (PUBLIC, Keyword.BEFORE_COMMAND) + (OPTION, Keyword.THY_DECL) val prefs_syntax: Outer_Syntax = Outer_Syntax.empty + "=" trait Parser extends Parse.Parser { val option_name: Parser[String] = atom("option name", _.is_name) val option_type: Parser[String] = atom("option type", _.is_name) val option_value: Parser[String] = opt(token("-", tok => tok.is_sym_ident && tok.content == "-")) ~ atom("nat", _.is_nat) ^^ { case s ~ n => if (s.isDefined) "-" + n else n } | atom("option value", tok => tok.is_name || tok.is_float) } private object Parser extends Parser { def comment_marker: Parser[String] = $$$("--") | $$$(Symbol.comment) | $$$(Symbol.comment_decoded) val option_entry: Parser[Options => Options] = { command(SECTION) ~! text ^^ { case _ ~ a => (options: Options) => options.set_section(a) } | opt($$$(PUBLIC)) ~ command(OPTION) ~! (position(option_name) ~ $$$(":") ~ option_type ~ $$$("=") ~ option_value ~ (comment_marker ~! text ^^ { case _ ~ x => x } | success(""))) ^^ { case a ~ _ ~ ((b, pos) ~ _ ~ c ~ _ ~ d ~ e) => (options: Options) => options.declare(a.isDefined, pos, b, c, d, e) } } val prefs_entry: Parser[Options => Options] = { option_name ~ ($$$("=") ~! option_value) ^^ { case a ~ (_ ~ b) => (options: Options) => options.add_permissive(a, b) } } def parse_file(options: Options, file_name: String, content: String, syntax: Outer_Syntax = options_syntax, parser: Parser[Options => Options] = option_entry): Options = { val toks = Token.explode(syntax.keywords, content) val ops = parse_all(rep(parser), Token.reader(toks, Token.Pos.file(file_name))) match { case Success(result, _) => result case bad => error(bad.toString) } try { ops.foldLeft(options.set_section("")) { case (opts, op) => op(opts) } } catch { case ERROR(msg) => error(msg + Position.here(Position.File(file_name))) } } def parse_prefs(options: Options, content: String): Options = parse_file(options, PREFS.file_name, content, syntax = prefs_syntax, parser = prefs_entry) } def read_prefs(file: Path = PREFS): String = if (file.is_file) File.read(file) else "" def init(prefs: String = read_prefs(PREFS), opts: List[String] = Nil): Options = { var options = empty for { dir <- Isabelle_System.components() file = dir + OPTIONS if file.is_file } { options = Parser.parse_file(options, file.implode, File.read(file)) } opts.foldLeft(Options.Parser.parse_prefs(options, prefs))(_ + _) } /* encode */ val encode: XML.Encode.T[Options] = (options => options.encode) /* Isabelle tool wrapper */ val isabelle_tool = Isabelle_Tool("options", "print Isabelle system options", Scala_Project.here, args => { var build_options = false var get_option = "" var list_options = false var export_file = "" val getopts = Getopts(""" Usage: isabelle options [OPTIONS] [MORE_OPTIONS ...] Options are: -b include $ISABELLE_BUILD_OPTIONS -g OPTION get value of OPTION -l list options -x FILE export options to FILE in YXML format Report Isabelle system options, augmented by MORE_OPTIONS given as arguments NAME=VAL or NAME. """, "b" -> (_ => build_options = true), "g:" -> (arg => get_option = arg), "l" -> (_ => list_options = true), "x:" -> (arg => export_file = arg)) val more_options = getopts(args) if (get_option == "" && !list_options && export_file == "") getopts.usage() val options = { val options0 = Options.init() val options1 = if (build_options) Word.explode(Isabelle_System.getenv("ISABELLE_BUILD_OPTIONS")).foldLeft(options0)(_ + _) else options0 more_options.foldLeft(options1)(_ + _) } if (get_option != "") Output.writeln(options.check_name(get_option).value, stdout = true) if (export_file != "") File.write(Path.explode(export_file), YXML.string_of_body(options.encode)) if (get_option == "" && export_file == "") Output.writeln(options.print, stdout = true) }) } final class Options private( val options: Map[String, Options.Opt] = Map.empty, val section: String = "") { override def toString: String = options.iterator.mkString("Options(", ",", ")") private def print_opt(opt: Options.Opt): String = if (opt.public) "public " + opt.print else opt.print def print: String = cat_lines(options.toList.sortBy(_._1).map(p => print_opt(p._2))) def description(name: String): String = check_name(name).description /* check */ def check_name(name: String): Options.Opt = options.get(name) match { case Some(opt) if !opt.unknown => opt case _ => error("Unknown option " + quote(name)) } private def check_type(name: String, typ: Options.Type): Options.Opt = { val opt = check_name(name) if (opt.typ == typ) opt else error("Ill-typed option " + quote(name) + " : " + opt.typ.print + " vs. " + typ.print) } /* basic operations */ private def put[A](name: String, typ: Options.Type, value: String): Options = { val opt = check_type(name, typ) new Options(options + (name -> opt.copy(value = value)), section) } private def get[A](name: String, typ: Options.Type, parse: String => Option[A]): A = { val opt = check_type(name, typ) parse(opt.value) match { case Some(x) => x case None => error("Malformed value for option " + quote(name) + " : " + typ.print + " =\n" + quote(opt.value)) } } /* internal lookup and update */ class Bool_Access { def apply(name: String): Boolean = get(name, Options.Bool, Value.Boolean.unapply) def update(name: String, x: Boolean): Options = put(name, Options.Bool, Value.Boolean(x)) } val bool = new Bool_Access class Int_Access { def apply(name: String): Int = get(name, Options.Int, Value.Int.unapply) def update(name: String, x: Int): Options = put(name, Options.Int, Value.Int(x)) } val int = new Int_Access class Real_Access { def apply(name: String): Double = get(name, Options.Real, Value.Double.unapply) def update(name: String, x: Double): Options = put(name, Options.Real, Value.Double(x)) } val real = new Real_Access class String_Access { def apply(name: String): String = get(name, Options.String, s => Some(s)) def update(name: String, x: String): Options = put(name, Options.String, x) } val string = new String_Access def proper_string(name: String): Option[String] = Library.proper_string(string(name)) def seconds(name: String): Time = Time.seconds(real(name)) /* external updates */ private def check_value(name: String): Options = { val opt = check_name(name) opt.typ match { case Options.Bool => bool(name); this case Options.Int => int(name); this case Options.Real => real(name); this case Options.String => string(name); this case Options.Unknown => this } } def declare( public: Boolean, pos: Position.T, name: String, typ_name: String, value: String, description: String): Options = { options.get(name) match { case Some(other) => error("Duplicate declaration of option " + quote(name) + Position.here(pos) + Position.here(other.pos)) case None => val typ = typ_name match { case "bool" => Options.Bool case "int" => Options.Int case "real" => Options.Real case "string" => Options.String case _ => error("Unknown type for option " + quote(name) + " : " + quote(typ_name) + Position.here(pos)) } val opt = Options.Opt(public, pos, name, typ, value, value, description, section) (new Options(options + (name -> opt), section)).check_value(name) } } def add_permissive(name: String, value: String): Options = { if (options.isDefinedAt(name)) this + (name, value) else { val opt = Options.Opt(false, Position.none, name, Options.Unknown, value, value, "", "") new Options(options + (name -> opt), section) } } def + (name: String, value: String): Options = { val opt = check_name(name) (new Options(options + (name -> opt.copy(value = value)), section)).check_value(name) } def + (name: String, opt_value: Option[String]): Options = { val opt = check_name(name) opt_value match { case Some(value) => this + (name, value) case None if opt.typ == Options.Bool => this + (name, "true") case None => error("Missing value for option " + quote(name) + " : " + opt.typ.print) } } def + (str: String): Options = str match { - case Properties.Eq((a, b)) => this + (a, b) + case Properties.Eq(a, b) => this + (a, b) case _ => this + (str, None) } def ++ (specs: List[Options.Spec]): Options = specs.foldLeft(this) { case (x, (y, z)) => x + (y, z) } /* sections */ def set_section(new_section: String): Options = new Options(options, new_section) def sections: List[(String, List[Options.Opt])] = options.groupBy(_._2.section).toList.map({ case (a, opts) => (a, opts.toList.map(_._2)) }) /* encode */ def encode: XML.Body = { val opts = for ((_, opt) <- options.toList; if !opt.unknown) yield (opt.pos, (opt.name, (opt.typ.print, opt.value))) import XML.Encode.{string => string_, _} list(pair(properties, pair(string_, pair(string_, string_))))(opts) } /* save preferences */ def save_prefs(file: Path = Options.PREFS): Unit = { val defaults: Options = Options.init(prefs = "") val changed = (for { (name, opt2) <- options.iterator opt1 = defaults.options.get(name) if opt1.isEmpty || opt1.get.value != opt2.value } yield (name, opt2.value, if (opt1.isEmpty) " (* unknown *)" else "")).toList val prefs = changed.sortBy(_._1) .map({ case (x, y, z) => x + " = " + Outer_Syntax.quote_string(y) + z + "\n" }).mkString Isabelle_System.make_directory(file.dir) File.write_backup(file, "(* generated by Isabelle " + Date.now() + " *)\n\n" + prefs) } } class Options_Variable(init_options: Options) { private var options = init_options def value: Options = synchronized { options } private def upd(f: Options => Options): Unit = synchronized { options = f(options) } def += (name: String, x: String): Unit = upd(opts => opts + (name, x)) class Bool_Access { def apply(name: String): Boolean = value.bool(name) def update(name: String, x: Boolean): Unit = upd(opts => opts.bool.update(name, x)) } val bool = new Bool_Access class Int_Access { def apply(name: String): Int = value.int(name) def update(name: String, x: Int): Unit = upd(opts => opts.int.update(name, x)) } val int = new Int_Access class Real_Access { def apply(name: String): Double = value.real(name) def update(name: String, x: Double): Unit = upd(opts => opts.real.update(name, x)) } val real = new Real_Access class String_Access { def apply(name: String): String = value.string(name) def update(name: String, x: String): Unit = upd(opts => opts.string.update(name, x)) } val string = new String_Access def proper_string(name: String): Option[String] = Library.proper_string(string(name)) def seconds(name: String): Time = value.seconds(name) } diff --git a/src/Tools/jEdit/src/keymap_merge.scala b/src/Tools/jEdit/src/keymap_merge.scala --- a/src/Tools/jEdit/src/keymap_merge.scala +++ b/src/Tools/jEdit/src/keymap_merge.scala @@ -1,259 +1,259 @@ /* Title: Tools/jEdit/src/keymap_merge.scala Author: Makarius Merge of Isabelle shortcuts vs. jEdit keymap. */ package isabelle.jedit import isabelle._ import java.awt.{Color, Dimension, BorderLayout} import javax.swing.{JPanel, JTable, JScrollPane, JOptionPane} import javax.swing.table.AbstractTableModel import scala.jdk.CollectionConverters._ import org.gjt.sp.jedit.{jEdit, View} import org.gjt.sp.util.GenericGUIUtilities import org.jedit.keymap.{KeymapManager, Keymap} object Keymap_Merge { /** shortcuts **/ private def is_shortcut(property: String): Boolean = (property.endsWith(".shortcut") || property.endsWith(".shortcut2")) && !property.startsWith("options.shortcuts.") class Shortcut(val property: String, val binding: String) { - override def toString: String = Properties.Eq(property -> binding) + override def toString: String = Properties.Eq(property, binding) def primary: Boolean = property.endsWith(".shortcut") val action: String = Library.try_unsuffix(".shortcut", property) orElse Library.try_unsuffix(".shortcut2", property) getOrElse error("Bad shortcut property: " + quote(property)) val label: String = GenericGUIUtilities.prettifyMenuLabel(jEdit.getProperty(action + ".label", "")) /* ignore wrt. keymap */ private def prop_ignore: String = property + ".ignore" def ignored_keymaps(): List[String] = space_explode(',', jEdit.getProperty(prop_ignore, "")) def is_ignored(keymap_name: String): Boolean = ignored_keymaps().contains(keymap_name) def ignore(keymap_name: String): Unit = jEdit.setProperty(prop_ignore, Library.insert(keymap_name)(ignored_keymaps()).sorted.mkString(",")) def set(keymap: Keymap): Unit = keymap.setShortcut(property, binding) def reset(keymap: Keymap): Unit = keymap.setShortcut(property, null) } /* content wrt. keymap */ def convert_properties(props: java.util.Properties): List[Shortcut] = if (props == null) Nil else { var result = List.empty[Shortcut] for (entry <- props.asScala) { entry match { case (a: String, b: String) if is_shortcut(a) => result ::= new Shortcut(a, b) case _ => } } result.sortBy(_.property) } def get_shortcut_conflicts(keymap_name: String, keymap: Keymap): List[(Shortcut, List[Shortcut])] = { val keymap_shortcuts = if (keymap == null) Nil else convert_properties(Untyped.get[java.util.Properties](keymap, "props")) for (s <- convert_properties(jEdit.getProperties) if !s.is_ignored(keymap_name)) yield { val conflicts = keymap_shortcuts.filter(s1 => s.property == s1.property && s.binding != s1.binding || s.property != s1.property && s.binding == s1.binding && s1.binding != "") (s, conflicts) } } /** table **/ private def conflict_color: Color = PIDE.options.color_value("error_color") private sealed case class Table_Entry(shortcut: Shortcut, head: Option[Int], tail: List[Int]) { override def toString: String = if (head.isEmpty) "" + HTML.output(shortcut.toString) + "" else "" + HTML.output("--- " + shortcut.toString) + "" } private class Table_Model(entries: List[Table_Entry]) extends AbstractTableModel { private val entries_count = entries.length private def has_entry(row: Int): Boolean = 0 <= row && row <= entries_count private def get_entry(row: Int): Option[Table_Entry] = if (has_entry(row)) Some(entries(row)) else None private val selected = Synchronized[Set[Int]]( (for ((e, i) <- entries.iterator.zipWithIndex if e.head.isEmpty) yield i).toSet) private def is_selected(row: Int): Boolean = selected.value.contains(row) private def select(head: Int, tail: List[Int], b: Boolean): Unit = selected.change(set => if (b) set + head -- tail else set - head ++ tail) def apply(keymap_name: String, keymap: Keymap): Unit = { GUI_Thread.require {} for ((entry, row) <- entries.iterator.zipWithIndex if entry.head.isEmpty) { val b = is_selected(row) if (b) { entry.tail.foreach(i => entries(i).shortcut.reset(keymap)) entry.shortcut.set(keymap) } else entry.shortcut.ignore(keymap_name) } } override def getColumnCount: Int = 2 override def getColumnClass(i: Int): Class[_ <: Object] = if (i == 0) classOf[java.lang.Boolean] else classOf[Object] override def getColumnName(i: Int): String = if (i == 0) " " else if (i == 1) "Keyboard shortcut" else "???" override def getRowCount: Int = entries_count override def getValueAt(row: Int, column: Int): AnyRef = { get_entry(row) match { case Some(entry) if column == 0 => java.lang.Boolean.valueOf(is_selected(row)) case Some(entry) if column == 1 => entry case _ => null } } override def isCellEditable(row: Int, column: Int): Boolean = has_entry(row) && column == 0 override def setValueAt(value: AnyRef, row: Int, column: Int): Unit = { value match { case obj: java.lang.Boolean if has_entry(row) && column == 0 => val b = obj.booleanValue val entry = entries(row) entry.head match { case None => select(row, entry.tail, b) case Some(head_row) => val head_entry = entries(head_row) select(head_row, head_entry.tail, !b) } GUI_Thread.later { fireTableDataChanged() } case _ => } } } private class Table(table_model: Table_Model) extends JPanel(new BorderLayout) { private val cell_size = GenericGUIUtilities.defaultTableCellSize() private val table_size = new Dimension(cell_size.width * 2, cell_size.height * 15) val table = new JTable(table_model) table.setShowGrid(false) table.setIntercellSpacing(new Dimension(0, 0)) table.setRowHeight(cell_size.height + 2) table.setPreferredScrollableViewportSize(table_size) table.setFillsViewportHeight(true) table.getTableHeader.setReorderingAllowed(false) table.getColumnModel.getColumn(0).setPreferredWidth(30) table.getColumnModel.getColumn(0).setMinWidth(30) table.getColumnModel.getColumn(0).setMaxWidth(30) table.getColumnModel.getColumn(0).setResizable(false) table.getColumnModel.getColumn(1).setPreferredWidth(table_size.width - 30) val scroller = new JScrollPane(table) scroller.getViewport.setBackground(table.getBackground) scroller.setPreferredSize(table_size) add(scroller, BorderLayout.CENTER) } /** check with optional dialog **/ def check_dialog(view: View): Unit = { GUI_Thread.require {} val keymap_manager = jEdit.getKeymapManager val keymap_name = jEdit.getProperty("keymap.current", KeymapManager.DEFAULT_KEYMAP_NAME) val keymap = keymap_manager.getKeymap(keymap_name) match { case null => keymap_manager.getKeymap(KeymapManager.DEFAULT_KEYMAP_NAME) case keymap => keymap } val all_shortcut_conflicts = get_shortcut_conflicts(keymap_name, keymap) val no_shortcut_conflicts = for ((s, cs) <- all_shortcut_conflicts if cs.isEmpty) yield s val shortcut_conflicts = all_shortcut_conflicts.filter(_._2.nonEmpty) val table_entries = for { ((shortcut, conflicts), i) <- shortcut_conflicts zip shortcut_conflicts.scanLeft(0)({ case (i, (_, cs)) => i + 1 + cs.length }) entry <- Table_Entry(shortcut, None, ((i + 1) to (i + conflicts.length)).toList) :: conflicts.map(Table_Entry(_, Some(i), Nil)) } yield entry val table_model = new Table_Model(table_entries) if (table_entries.nonEmpty && GUI.confirm_dialog(view, "Pending Isabelle/jEdit keymap changes", JOptionPane.OK_CANCEL_OPTION, "The following Isabelle keymap changes are in conflict with the current", "jEdit keymap " + quote(keymap_name) + ":", new Table(table_model), "Selected shortcuts will be applied, unselected changes will be ignored.", "Results are stored in $JEDIT_SETTINGS/properties and $JEDIT_SETTINGS/keymaps/.") == 0) { table_model.apply(keymap_name, keymap) } no_shortcut_conflicts.foreach(_.set(keymap)) keymap.save() jEdit.saveSettings() jEdit.propertiesChanged() } }