diff --git a/src/Pure/Thy/sessions.scala b/src/Pure/Thy/sessions.scala --- a/src/Pure/Thy/sessions.scala +++ b/src/Pure/Thy/sessions.scala @@ -1,1649 +1,1649 @@ /* Title: Pure/Thy/sessions.scala Author: Makarius Cumulative session information. */ package isabelle import java.io.{File => JFile} import java.sql.SQLException import scala.collection.immutable.{SortedSet, SortedMap} import scala.collection.mutable object Sessions { /* session and theory names */ val ROOTS: Path = Path.explode("ROOTS") val ROOT: Path = Path.explode("ROOT") val roots_name: String = "ROOTS" val root_name: String = "ROOT" val theory_import: String = "Pure.Sessions" val UNSORTED = "Unsorted" val DRAFT = "Draft" def is_pure(name: String): Boolean = name == Thy_Header.PURE def illegal_session(name: String): Boolean = name == "" || name == DRAFT def illegal_theory(name: String): Boolean = name == root_name || File_Format.registry.theory_excluded(name) /* ROOTS file format */ class ROOTS_File_Format extends File_Format { val format_name: String = roots_name val file_ext = "" override def detect(name: String): Boolean = Url.get_base_name(name) match { case Some(base_name) => base_name == roots_name case None => false } override def theory_suffix: String = "ROOTS_file" override def theory_content(name: String): String = """theory "ROOTS" imports Pure begin ROOTS_file "." end""" override def theory_excluded(name: String): Boolean = name == "ROOTS" } /* source files */ sealed case class Source_File( name: String, digest: SHA1.Digest, compressed: Boolean, body: Bytes, cache: Compress.Cache ) { override def toString: String = name def bytes: Bytes = if (compressed) body.uncompress(cache = cache) else body } object Sources { val session_name = SQL.Column.string("session_name").make_primary_key val name = SQL.Column.string("name").make_primary_key val digest = SQL.Column.string("digest") val compressed = SQL.Column.bool("compressed") val body = SQL.Column.bytes("body") val table = SQL.Table("isabelle_sources", List(session_name, name, digest, compressed, body)) def where_equal(session_name: String, name: String = ""): SQL.Source = "WHERE " + Sources.session_name.equal(session_name) + (if (name == "") "" else " AND " + Sources.name.equal(name)) def load(session_base: Base, cache: Compress.Cache = Compress.Cache.none): Sources = new Sources( session_base.session_sources.foldLeft(Map.empty) { case (sources, (path, digest)) => def err(): Nothing = error("Incoherent digest for source file: " + path) val name = File.symbolic_path(path) sources.get(name) match { case Some(source_file) => if (source_file.digest == digest) sources else err() case None => val bytes = Bytes.read(path) if (bytes.sha1_digest == digest) { val (compressed, body) = bytes.maybe_compress(Compress.Options_Zstd(), cache = cache) val file = Source_File(name, digest, compressed, body, cache) sources + (name -> file) } else err() } }) } class Sources private(rep: Map[String, Source_File]) extends Iterable[Source_File] { override def toString: String = rep.values.toList.sortBy(_.name).mkString("Sources(", ", ", ")") override def iterator: Iterator[Source_File] = rep.valuesIterator def get(name: String): Option[Source_File] = rep.get(name) def apply(name: String): Source_File = get(name).getOrElse(error("Missing session sources entry " + quote(name))) } /* base info */ object Base { val bootstrap: Base = Base(overall_syntax = Thy_Header.bootstrap_syntax) } sealed case class Base( session_name: String = "", session_pos: Position.T = Position.none, proper_session_theories: List[Document.Node.Name] = Nil, document_theories: List[Document.Node.Name] = Nil, loaded_theories: Graph[String, Outer_Syntax] = Graph.string, // cumulative imports used_theories: List[(Document.Node.Name, Options)] = Nil, // new imports theory_load_commands: Map[String, List[Command_Span.Span]] = Map.empty, known_theories: Map[String, Document.Node.Entry] = Map.empty, known_loaded_files: Map[String, List[Path]] = Map.empty, overall_syntax: Outer_Syntax = Outer_Syntax.empty, imported_sources: List[(Path, SHA1.Digest)] = Nil, session_sources: List[(Path, SHA1.Digest)] = Nil, session_graph_display: Graph_Display.Graph = Graph_Display.empty_graph, errors: List[String] = Nil ) { def session_entry: (String, Base) = session_name -> this override def toString: String = "Sessions.Base(" + print_body + ")" def print_body: String = "session_name = " + quote(session_name) + ", loaded_theories = " + loaded_theories.size + ", used_theories = " + used_theories.length def all_document_theories: List[Document.Node.Name] = proper_session_theories ::: document_theories def loaded_theory(name: String): Boolean = loaded_theories.defined(name) def loaded_theory(name: Document.Node.Name): Boolean = loaded_theory(name.theory) def loaded_theory_syntax(name: String): Option[Outer_Syntax] = if (loaded_theory(name)) Some(loaded_theories.get_node(name)) else None def loaded_theory_syntax(name: Document.Node.Name): Option[Outer_Syntax] = loaded_theory_syntax(name.theory) def theory_syntax(name: Document.Node.Name): Outer_Syntax = loaded_theory_syntax(name) getOrElse overall_syntax def node_syntax(nodes: Document.Nodes, name: Document.Node.Name): Outer_Syntax = nodes(name).syntax orElse loaded_theory_syntax(name) getOrElse overall_syntax } /* background context */ sealed case class Background( base: Base, sessions_structure: Structure = Structure.empty, errors: List[String] = Nil, infos: List[Info] = Nil ) { def session_name: String = base.session_name def info: Info = sessions_structure(session_name) def check_errors: Background = if (errors.isEmpty) this else error(cat_lines(errors)) } def background0(session: String): Background = Background(Base(session_name = session)) def background(options: Options, session: String, progress: Progress = new Progress, dirs: List[Path] = Nil, include_sessions: List[String] = Nil, session_ancestor: Option[String] = None, session_requirements: Boolean = false ): Background = { val full_sessions = load_structure(options, dirs = dirs) val selected_sessions = full_sessions.selection(Selection(sessions = session :: session_ancestor.toList)) val info = selected_sessions(session) val ancestor = session_ancestor orElse info.parent val (session1, infos1) = if (session_requirements && ancestor.isDefined) { val deps = Sessions.deps(selected_sessions, progress = progress) val base = deps(session) val ancestor_loaded = deps.get(ancestor.get) match { case Some(ancestor_base) if !selected_sessions.imports_requirements(List(ancestor.get)).contains(session) => ancestor_base.loaded_theories.defined _ case _ => error("Bad ancestor " + quote(ancestor.get) + " for session " + quote(session)) } val required_theories = for { thy <- base.loaded_theories.keys if !ancestor_loaded(thy) && selected_sessions.theory_qualifier(thy) != session } yield thy if (required_theories.isEmpty) (ancestor.get, Nil) else { val other_name = info.name + "_requirements(" + ancestor.get + ")" Isabelle_System.isabelle_tmp_prefix() (other_name, List( Info.make( Chapter_Defs.empty, info.options, augment_options = _ => Nil, dir_selected = false, dir = Path.explode("$ISABELLE_TMP_PREFIX"), chapter = info.chapter, Session_Entry( pos = info.pos, name = other_name, groups = info.groups, path = ".", parent = ancestor, description = "Required theory imports from other sessions", options = Nil, imports = info.deps, directories = Nil, theories = List((Nil, required_theories.map(thy => ((thy, Position.none), false)))), document_theories = Nil, document_files = Nil, export_files = Nil, export_classpath = Nil)))) } } else (session, Nil) val full_sessions1 = if (infos1.isEmpty) full_sessions else load_structure(options, dirs = dirs, infos = infos1) val selected_sessions1 = full_sessions1.selection(Selection(sessions = session1 :: session :: include_sessions)) val deps1 = Sessions.deps(selected_sessions1, progress = progress) Background(deps1(session1), sessions_structure = full_sessions1, errors = deps1.errors, infos = infos1) } /* source dependencies */ sealed case class Deps(sessions_structure: Structure, session_bases: Map[String, Base]) { def background(session: String): Background = Background(base = apply(session), sessions_structure = sessions_structure, errors = errors) def is_empty: Boolean = session_bases.keysIterator.forall(_.isEmpty) def apply(name: String): Base = session_bases(name) def get(name: String): Option[Base] = session_bases.get(name) def imported_sources(name: String): List[SHA1.Digest] = session_bases(name).imported_sources.map(_._2) def session_sources(name: String): List[SHA1.Digest] = session_bases(name).session_sources.map(_._2) def errors: List[String] = (for { (name, base) <- session_bases.iterator if base.errors.nonEmpty } yield cat_lines(base.errors) + "\nThe error(s) above occurred in session " + quote(name) + Position.here(base.session_pos) ).toList def check_errors: Deps = errors match { case Nil => this case errs => error(cat_lines(errs)) } override def toString: String = "Sessions.Deps(" + sessions_structure + ")" } def deps(sessions_structure: Structure, progress: Progress = new Progress, inlined_files: Boolean = false, verbose: Boolean = false, list_files: Boolean = false, check_keywords: Set[String] = Set.empty ): Deps = { var cache_sources = Map.empty[JFile, SHA1.Digest] def check_sources(paths: List[Path]): List[(Path, SHA1.Digest)] = { for { path <- paths file = path.file if cache_sources.isDefinedAt(file) || file.isFile } yield { cache_sources.get(file) match { case Some(digest) => (path, digest) case None => val digest = SHA1.digest(file) cache_sources = cache_sources + (file -> digest) (path, digest) } } } val session_bases = sessions_structure.imports_topological_order.foldLeft(Map(Base.bootstrap.session_entry)) { case (session_bases, session_name) => progress.expose_interrupt() val info = sessions_structure(session_name) try { val deps_base = info.deps_base(session_bases) val session_background = Background(base = deps_base, sessions_structure = sessions_structure) val resources = new Resources(session_background) if (verbose || list_files) { val groups = if (info.groups.isEmpty) "" else info.groups.mkString(" (", " ", ")") progress.echo("Session " + info.chapter + "/" + session_name + groups) } val dependencies = resources.session_dependencies(info) val overall_syntax = dependencies.overall_syntax val proper_session_theories = dependencies.theories.filter(name => sessions_structure.theory_qualifier(name) == session_name) val theory_files = dependencies.theories.map(_.path) val (load_commands, load_commands_errors) = try { if (inlined_files) (dependencies.load_commands, Nil) else (Nil, Nil) } catch { case ERROR(msg) => (Nil, List(msg)) } val theory_load_commands = (for ((name, span) <- load_commands.iterator) yield name.theory -> span).toMap val loaded_files: List[(String, List[Path])] = for ((name, spans) <- load_commands) yield { val (theory, files) = dependencies.loaded_files(name, spans) theory -> files.map(file => Path.explode(file.node)) } val document_files = for ((path1, path2) <- info.document_files) yield info.dir + path1 + path2 val session_files = (theory_files ::: loaded_files.flatMap(_._2) ::: document_files).map(_.expand) val imported_files = if (inlined_files) dependencies.imported_files else Nil if (list_files) { progress.echo(cat_lines(session_files.map(_.implode).sorted.map(" " + _))) } if (check_keywords.nonEmpty) { Check_Keywords.check_keywords( progress, overall_syntax.keywords, check_keywords, theory_files) } val session_graph_display: Graph_Display.Graph = { def session_node(name: String): Graph_Display.Node = Graph_Display.Node("[" + name + "]", "session." + name) def node(name: Document.Node.Name): Graph_Display.Node = { val qualifier = sessions_structure.theory_qualifier(name) if (qualifier == info.name) { Graph_Display.Node(name.theory_base_name, "theory." + name.theory) } else session_node(qualifier) } val required_sessions = dependencies.loaded_theories.all_preds(dependencies.theories.map(_.theory)) .map(theory => sessions_structure.theory_qualifier(theory)) .filter(name => name != info.name && sessions_structure.defined(name)) val required_subgraph = sessions_structure.imports_graph .restrict(sessions_structure.imports_graph.all_preds(required_sessions).toSet) .transitive_closure .restrict(required_sessions.toSet) .transitive_reduction_acyclic val graph0 = required_subgraph.topological_order.foldLeft(Graph_Display.empty_graph) { case (g, session) => val a = session_node(session) val bs = required_subgraph.imm_preds(session).toList.map(session_node) bs.foldLeft((a :: bs).foldLeft(g)(_.default_node(_, Nil)))(_.add_edge(_, a)) } dependencies.entries.foldLeft(graph0) { case (g, entry) => val a = node(entry.name) val bs = entry.header.imports.map(node).filterNot(_ == a) bs.foldLeft((a :: bs).foldLeft(g)(_.default_node(_, Nil)))(_.add_edge(_, a)) } } val known_theories = dependencies.entries.iterator.map(entry => entry.name.theory -> entry). foldLeft(deps_base.known_theories)(_ + _) val known_loaded_files = deps_base.known_loaded_files ++ loaded_files val import_errors = { val known_sessions = sessions_structure.imports_requirements(List(session_name)).toSet for { name <- dependencies.theories qualifier = sessions_structure.theory_qualifier(name) if !known_sessions(qualifier) } yield "Bad import of theory " + quote(name.toString) + ": need to include sessions " + quote(qualifier) + " in ROOT" } val document_errors = info.document_theories.flatMap( { case (thy, pos) => val build_hierarchy = if (sessions_structure.build_graph.defined(session_name)) { sessions_structure.build_hierarchy(session_name) } else Nil def err(msg: String): Option[String] = Some(msg + " " + quote(thy) + Position.here(pos)) known_theories.get(thy).map(_.name) match { case None => err("Unknown document theory") case Some(name) => val qualifier = sessions_structure.theory_qualifier(name) if (proper_session_theories.contains(name)) { err("Redundant document theory from this session:") } else if ( !build_hierarchy.contains(qualifier) && !dependencies.theories.contains(name) ) { err("Document theory from other session not imported properly:") } else None } }) val document_theories = info.document_theories.map({ case (thy, _) => known_theories(thy).name }) val dir_errors = { val ok = info.dirs.map(_.canonical_file).toSet val bad = (for { name <- proper_session_theories.iterator path = Path.explode(name.master_dir) if !ok(path.canonical_file) path1 = File.relative_path(info.dir.canonical, path).getOrElse(path) } yield (path1, name)).toList val bad_dirs = (for { (path1, _) <- bad } yield path1.toString).distinct.sorted val errs1 = for { (path1, name) <- bad } yield "Implicit use of directory " + path1 + " for theory " + quote(name.toString) val errs2 = if (bad_dirs.isEmpty) Nil else List("Implicit use of session directories: " + commas(bad_dirs)) val errs3 = for (p <- info.dirs if !p.is_dir) yield "No such directory: " + p val errs4 = (for { name <- proper_session_theories.iterator name1 <- resources.find_theory_node(name.theory) if name.node != name1.node } yield { "Incoherent theory file import:\n " + quote(name.node) + " vs. \n " + quote(name1.node) }).toList errs1 ::: errs2 ::: errs3 ::: errs4 } val sources_errors = for (p <- session_files if !p.is_file) yield "No such file: " + p val path_errors = try { Path.check_case_insensitive(session_files ::: imported_files); Nil } catch { case ERROR(msg) => List(msg) } val bibtex_errors = info.bibtex_entries.errors val base = Base( session_name = info.name, session_pos = info.pos, proper_session_theories = proper_session_theories, document_theories = document_theories, loaded_theories = dependencies.loaded_theories, used_theories = dependencies.theories_adjunct, theory_load_commands = theory_load_commands, known_theories = known_theories, known_loaded_files = known_loaded_files, overall_syntax = overall_syntax, imported_sources = check_sources(imported_files), session_sources = check_sources(session_files), session_graph_display = session_graph_display, errors = dependencies.errors ::: load_commands_errors ::: import_errors ::: document_errors ::: dir_errors ::: sources_errors ::: path_errors ::: bibtex_errors) session_bases + base.session_entry } catch { case ERROR(msg) => cat_error(msg, "The error(s) above occurred in session " + quote(info.name) + Position.here(info.pos)) } } Deps(sessions_structure, session_bases) } /* cumulative session info */ sealed case class Chapter_Info( name: String, pos: Position.T, groups: List[String], description: String, sessions: List[String] ) object Info { def make( chapter_defs: Chapter_Defs, options: Options, augment_options: String => List[Options.Spec], dir_selected: Boolean, dir: Path, chapter: String, entry: Session_Entry ): Info = { try { val name = entry.name if (illegal_session(name)) error("Illegal session name " + quote(name)) if (is_pure(name) && entry.parent.isDefined) error("Illegal parent session") if (!is_pure(name) && !entry.parent.isDefined) error("Missing parent session") val session_path = dir + Path.explode(entry.path) val directories = entry.directories.map(dir => session_path + Path.explode(dir)) val entry_options = entry.options ::: augment_options(name) val session_options = options ++ entry_options val theories = entry.theories.map({ case (opts, thys) => (session_options ++ opts, thys.map({ case ((thy, pos), _) => val thy_name = Thy_Header.import_name(thy) if (illegal_theory(thy_name)) { error("Illegal theory name " + quote(thy_name) + Position.here(pos)) } else (thy, pos) })) }) val global_theories = for { (_, thys) <- entry.theories; ((thy, pos), global) <- thys if global } yield { val thy_name = Path.explode(thy).file_name if (Long_Name.is_qualified(thy_name)) { error("Bad qualified name for global theory " + quote(thy_name) + Position.here(pos)) } else thy_name } val conditions = theories.flatMap(thys => space_explode(',', thys._1.string("condition"))).distinct.sorted. map(x => (x, Isabelle_System.getenv(x) != "")) val document_files = entry.document_files.map({ case (s1, s2) => (Path.explode(s1), Path.explode(s2)) }) val export_files = entry.export_files.map({ case (dir, prune, pats) => (Path.explode(dir), prune, pats) }) val meta_digest = SHA1.digest( (name, chapter, entry.parent, entry.directories, entry_options, entry.imports, entry.theories_no_position, conditions, entry.document_theories_no_position, entry.document_files) .toString) val chapter_groups = chapter_defs(chapter).groups val groups = chapter_groups ::: entry.groups.filterNot(chapter_groups.contains) Info(name, chapter, dir_selected, entry.pos, groups, session_path, entry.parent, entry.description, directories, session_options, entry.imports, theories, global_theories, entry.document_theories, document_files, export_files, entry.export_classpath, meta_digest) } catch { case ERROR(msg) => error(msg + "\nThe error(s) above occurred in session entry " + quote(entry.name) + Position.here(entry.pos)) } } } sealed case class Info( name: String, chapter: String, dir_selected: Boolean, pos: Position.T, groups: List[String], dir: Path, parent: Option[String], description: String, directories: List[Path], options: Options, imports: List[String], theories: List[(Options, List[(String, Position.T)])], global_theories: List[String], document_theories: List[(String, Position.T)], document_files: List[(Path, Path)], export_files: List[(Path, Int, List[String])], export_classpath: List[String], meta_digest: SHA1.Digest ) { def deps: List[String] = parent.toList ::: imports def deps_base(session_bases: String => Base): Base = { val parent_base = session_bases(parent.getOrElse("")) val imports_bases = imports.map(session_bases) parent_base.copy( known_theories = (for { base <- imports_bases.iterator (_, entry) <- base.known_theories.iterator } yield (entry.name.theory -> entry)).foldLeft(parent_base.known_theories)(_ + _), known_loaded_files = imports_bases.iterator.map(_.known_loaded_files). foldLeft(parent_base.known_loaded_files)(_ ++ _)) } def dirs: List[Path] = dir :: directories def main_group: Boolean = groups.contains("main") def doc_group: Boolean = groups.contains("doc") def timeout_ignored: Boolean = !options.bool("timeout_build") || Time.seconds(options.real("timeout")) < Time.ms(1) def timeout: Time = Time.seconds(options.real("timeout") * options.real("timeout_scale")) def document_enabled: Boolean = options.string("document") match { case "" | "false" => false case "pdf" | "true" => true case doc => error("Bad document specification " + quote(doc)) } def document_variants: List[Document_Build.Document_Variant] = { val variants = Library.space_explode(':', options.string("document_variants")). map(Document_Build.Document_Variant.parse) val dups = Library.duplicates(variants.map(_.name)) if (dups.nonEmpty) error("Duplicate document variants: " + commas_quote(dups)) variants } def document_echo: Boolean = options.bool("document_echo") def documents: List[Document_Build.Document_Variant] = { val variants = document_variants if (!document_enabled || document_files.isEmpty) Nil else variants } def document_output: Option[Path] = options.string("document_output") match { case "" => None case s => Some(dir + Path.explode(s)) } def browser_info: Boolean = options.bool("browser_info") lazy val bibtex_entries: Bibtex.Entries = (for { (document_dir, file) <- document_files.iterator if File.is_bib(file.file_name) } yield { val path = dir + document_dir + file Bibtex.Entries.parse(File.read(path), start = Token.Pos.file(File.standard_path(path))) }).foldRight(Bibtex.Entries.empty)(_ ::: _) def record_proofs: Boolean = options.int("record_proofs") >= 2 def is_afp: Boolean = chapter == AFP.chapter def is_afp_bulky: Boolean = is_afp && groups.exists(AFP.groups_bulky.contains) } object Selection { val empty: Selection = Selection() val all: Selection = Selection(all_sessions = true) def session(session: String): Selection = Selection(sessions = List(session)) } sealed case class Selection( requirements: Boolean = false, all_sessions: Boolean = false, base_sessions: List[String] = Nil, exclude_session_groups: List[String] = Nil, exclude_sessions: List[String] = Nil, session_groups: List[String] = Nil, sessions: List[String] = Nil ) { def ++ (other: Selection): Selection = Selection( requirements = requirements || other.requirements, all_sessions = all_sessions || other.all_sessions, base_sessions = Library.merge(base_sessions, other.base_sessions), exclude_session_groups = Library.merge(exclude_session_groups, other.exclude_session_groups), exclude_sessions = Library.merge(exclude_sessions, other.exclude_sessions), session_groups = Library.merge(session_groups, other.session_groups), sessions = Library.merge(sessions, other.sessions)) } object Structure { val empty: Structure = make(Options.empty) def make( options: Options, augment_options: String => List[Options.Spec] = _ => Nil, roots: List[Root_File] = Nil, infos: List[Info] = Nil ): Structure = { val chapter_defs: Chapter_Defs = roots.foldLeft(Chapter_Defs.empty) { case (defs1, root) => root.entries.foldLeft(defs1) { case (defs2, entry: Chapter_Def) => defs2 + entry case (defs2, _) => defs2 } } val root_infos = { var chapter = UNSORTED val root_infos = new mutable.ListBuffer[Info] for (root <- roots) { root.entries.foreach { case entry: Chapter_Entry => chapter = entry.name case entry: Session_Entry => root_infos += Info.make(chapter_defs, options, augment_options, root.select, root.dir, chapter, entry) case _ => } chapter = UNSORTED } root_infos.toList } val info_graph = (root_infos ::: infos).foldLeft(Graph.string[Info]) { case (graph, info) => if (graph.defined(info.name)) { error("Duplicate session " + quote(info.name) + Position.here(info.pos) + Position.here(graph.get_node(info.name).pos)) } else graph.new_node(info.name, info) } def augment_graph( graph: Graph[String, Info], kind: String, edges: Info => Iterable[String] ) : Graph[String, Info] = { def add_edge(pos: Position.T, name: String, g: Graph[String, Info], parent: String) = { if (!g.defined(parent)) { error("Bad " + kind + " session " + quote(parent) + " for " + quote(name) + Position.here(pos)) } try { g.add_edge_acyclic(parent, name) } catch { case exn: Graph.Cycles[_] => error(cat_lines(exn.cycles.map(cycle => "Cyclic session dependency of " + cycle.map(c => quote(c.toString)).mkString(" via "))) + Position.here(pos)) } } graph.iterator.foldLeft(graph) { case (g, (name, (info, _))) => edges(info).foldLeft(g)(add_edge(info.pos, name, _, _)) } } val build_graph = augment_graph(info_graph, "parent", _.parent) val imports_graph = augment_graph(build_graph, "imports", _.imports) val session_positions: List[(String, Position.T)] = (for ((name, (info, _)) <- info_graph.iterator) yield (name, info.pos)).toList val session_directories: Map[JFile, String] = (for { session <- imports_graph.topological_order.iterator info = info_graph.get_node(session) dir <- info.dirs.iterator } yield (info, dir)).foldLeft(Map.empty[JFile, String]) { case (dirs, (info, dir)) => val session = info.name val canonical_dir = dir.canonical_file dirs.get(canonical_dir) match { case Some(session1) => val info1 = info_graph.get_node(session1) error("Duplicate use of directory " + dir + "\n for session " + quote(session1) + Position.here(info1.pos) + "\n vs. session " + quote(session) + Position.here(info.pos)) case None => dirs + (canonical_dir -> session) } } val global_theories: Map[String, String] = (for { session <- imports_graph.topological_order.iterator info = info_graph.get_node(session) thy <- info.global_theories.iterator } yield (info, thy) ).foldLeft(Thy_Header.bootstrap_global_theories.toMap) { case (global, (info, thy)) => val qualifier = info.name global.get(thy) match { case Some(qualifier1) if qualifier != qualifier1 => error("Duplicate global theory " + quote(thy) + Position.here(info.pos)) case _ => global + (thy -> qualifier) } } new Structure(chapter_defs, session_positions, session_directories, global_theories, build_graph, imports_graph) } } final class Structure private[Sessions]( chapter_defs: Chapter_Defs, val session_positions: List[(String, Position.T)], val session_directories: Map[JFile, String], val global_theories: Map[String, String], val build_graph: Graph[String, Info], val imports_graph: Graph[String, Info] ) { sessions_structure => def dest_session_directories: List[(String, String)] = for ((file, session) <- session_directories.toList) yield (File.standard_path(file), session) lazy val known_chapters: List[Chapter_Info] = { val chapter_sessions = Multi_Map.from( for ((_, (info, _)) <- build_graph.iterator) yield info.chapter -> info.name) val chapters1 = (for (entry <- chapter_defs.list.iterator) yield { val sessions = chapter_sessions.get_list(entry.name) Chapter_Info(entry.name, entry.pos, entry.groups, entry.description, sessions.sorted) }).toList val chapters2 = (for { (name, sessions) <- chapter_sessions.iterator_list if !chapters1.exists(_.name == name) } yield Chapter_Info(name, Position.none, Nil, "", sessions.sorted)).toList.sortBy(_.name) chapters1 ::: chapters2 } def relevant_chapters: List[Chapter_Info] = known_chapters.filter(_.sessions.nonEmpty) def build_graph_display: Graph_Display.Graph = Graph_Display.make_graph(build_graph) def imports_graph_display: Graph_Display.Graph = Graph_Display.make_graph(imports_graph) def defined(name: String): Boolean = imports_graph.defined(name) def apply(name: String): Info = imports_graph.get_node(name) def get(name: String): Option[Info] = if (defined(name)) Some(apply(name)) else None def theory_qualifier(name: String): String = global_theories.getOrElse(name, Long_Name.qualifier(name)) def theory_qualifier(name: Document.Node.Name): String = theory_qualifier(name.theory) def check_sessions(names: List[String]): Unit = { val bad_sessions = SortedSet(names.filterNot(defined): _*).toList if (bad_sessions.nonEmpty) { error("Undefined session(s): " + commas_quote(bad_sessions)) } } def check_sessions(sel: Selection): Unit = check_sessions(sel.base_sessions ::: sel.exclude_sessions ::: sel.sessions) private def selected(graph: Graph[String, Info], sel: Selection): List[String] = { check_sessions(sel) val select_group = sel.session_groups.toSet val select_session = sel.sessions.toSet ++ imports_graph.all_succs(sel.base_sessions) val selected0 = if (sel.all_sessions) graph.keys else { (for { (name, (info, _)) <- graph.iterator if info.dir_selected || select_session(name) || info.groups.exists(select_group) } yield name).toList } if (sel.requirements) (graph.all_preds(selected0).toSet -- selected0).toList else selected0 } def selection(sel: Selection): Structure = { check_sessions(sel) val excluded = { val exclude_group = sel.exclude_session_groups.toSet val exclude_group_sessions = (for { (name, (info, _)) <- imports_graph.iterator if info.groups.exists(exclude_group) } yield name).toList imports_graph.all_succs(exclude_group_sessions ::: sel.exclude_sessions).toSet } def restrict(graph: Graph[String, Info]): Graph[String, Info] = { val sessions = graph.all_preds(selected(graph, sel)).filterNot(excluded) graph.restrict(graph.all_preds(sessions).toSet) } new Structure(chapter_defs, session_positions, session_directories, global_theories, restrict(build_graph), restrict(imports_graph)) } def selection(session: String): Structure = selection(Selection.session(session)) def selection_deps( selection: Selection, progress: Progress = new Progress, loading_sessions: Boolean = false, inlined_files: Boolean = false, verbose: Boolean = false ): Deps = { val deps = Sessions.deps(sessions_structure.selection(selection), progress = progress, inlined_files = inlined_files, verbose = verbose) if (loading_sessions) { val selection_size = deps.sessions_structure.build_graph.size if (selection_size > 1) progress.echo("Loading " + selection_size + " sessions ...") } deps } def build_hierarchy(session: String): List[String] = if (build_graph.defined(session)) build_graph.all_preds(List(session)) else List(session) def build_selection(sel: Selection): List[String] = selected(build_graph, sel) def build_descendants(ss: List[String]): List[String] = build_graph.all_succs(ss) def build_requirements(ss: List[String]): List[String] = build_graph.all_preds_rev(ss) def build_topological_order: List[String] = build_graph.topological_order def imports_selection(sel: Selection): List[String] = selected(imports_graph, sel) def imports_descendants(ss: List[String]): List[String] = imports_graph.all_succs(ss) def imports_requirements(ss: List[String]): List[String] = imports_graph.all_preds_rev(ss) def imports_topological_order: List[String] = imports_graph.topological_order override def toString: String = imports_graph.keys_iterator.mkString("Sessions.Structure(", ", ", ")") } /* parser */ private val CHAPTER_DEFINITION = "chapter_definition" private val CHAPTER = "chapter" private val SESSION = "session" private val DESCRIPTION = "description" private val DIRECTORIES = "directories" private val OPTIONS = "options" private val SESSIONS = "sessions" private val THEORIES = "theories" private val GLOBAL = "global" private val DOCUMENT_THEORIES = "document_theories" private val DOCUMENT_FILES = "document_files" private val EXPORT_FILES = "export_files" private val EXPORT_CLASSPATH = "export_classpath" val root_syntax: Outer_Syntax = Outer_Syntax.empty + "(" + ")" + "+" + "," + "=" + "[" + "]" + "in" + GLOBAL + (CHAPTER_DEFINITION, Keyword.THY_DECL) + (CHAPTER, Keyword.THY_DECL) + (SESSION, Keyword.THY_DECL) + (DESCRIPTION, Keyword.QUASI_COMMAND) + (DIRECTORIES, Keyword.QUASI_COMMAND) + (OPTIONS, Keyword.QUASI_COMMAND) + (SESSIONS, Keyword.QUASI_COMMAND) + (THEORIES, Keyword.QUASI_COMMAND) + (DOCUMENT_THEORIES, Keyword.QUASI_COMMAND) + (DOCUMENT_FILES, Keyword.QUASI_COMMAND) + (EXPORT_FILES, Keyword.QUASI_COMMAND) + (EXPORT_CLASSPATH, Keyword.QUASI_COMMAND) abstract class Entry object Chapter_Def { def empty(chapter: String): Chapter_Def = Chapter_Def(Position.none, chapter, Nil, "") } sealed case class Chapter_Def( pos: Position.T, name: String, groups: List[String], description: String ) extends Entry sealed case class Chapter_Entry(name: String) extends Entry sealed case class Session_Entry( pos: Position.T, name: String, groups: List[String], path: String, parent: Option[String], description: String, options: List[Options.Spec], imports: List[String], directories: List[String], theories: List[(List[Options.Spec], List[((String, Position.T), Boolean)])], document_theories: List[(String, Position.T)], document_files: List[(String, String)], export_files: List[(String, Int, List[String])], export_classpath: List[String] ) extends Entry { def theories_no_position: List[(List[Options.Spec], List[(String, Boolean)])] = theories.map({ case (a, b) => (a, b.map({ case ((c, _), d) => (c, d) })) }) def document_theories_no_position: List[String] = document_theories.map(_._1) } object Chapter_Defs { val empty: Chapter_Defs = new Chapter_Defs(Nil) } class Chapter_Defs private(rev_list: List[Chapter_Def]) { def list: List[Chapter_Def] = rev_list.reverse override def toString: String = list.map(_.name).mkString("Chapter_Defs(", ", ", ")") def get(chapter: String): Option[Chapter_Def] = rev_list.find(_.name == chapter) def apply(chapter: String): Chapter_Def = get(chapter) getOrElse Chapter_Def.empty(chapter) def + (entry: Chapter_Def): Chapter_Defs = get(entry.name) match { case None => new Chapter_Defs(entry :: rev_list) case Some(old_entry) => error("Duplicate chapter definition " + quote(entry.name) + Position.here(old_entry.pos) + Position.here(entry.pos)) } } private object Parsers extends Options.Parsers { private val groups: Parser[List[String]] = ($$$("(") ~! (rep1(name) <~ $$$(")")) ^^ { case _ ~ x => x }) | success(Nil) private val description: Parser[String] = ($$$(DESCRIPTION) ~! text ^^ { case _ ~ x => x }) | success("") private val chapter_def: Parser[Chapter_Def] = command(CHAPTER_DEFINITION) ~! (position(chapter_name) ~ groups ~ description) ^^ { case _ ~ ((a, pos) ~ b ~ c) => Chapter_Def(pos, a, b, c) } private val chapter_entry: Parser[Chapter_Entry] = command(CHAPTER) ~! chapter_name ^^ { case _ ~ a => Chapter_Entry(a) } private val session_entry: Parser[Session_Entry] = { val option = option_name ~ opt($$$("=") ~! option_value ^^ { case _ ~ x => x }) ^^ { case x ~ y => (x, y) } val options = $$$("[") ~> rep1sep(option, $$$(",")) <~ $$$("]") val theory_entry = position(theory_name) ~ opt_keyword(GLOBAL) ^^ { case x ~ y => (x, y) } val theories = $$$(THEORIES) ~! ((options | success(Nil)) ~ rep1(theory_entry)) ^^ { case _ ~ (x ~ y) => (x, y) } val document_theories = $$$(DOCUMENT_THEORIES) ~! rep1(position(name)) ^^ { case _ ~ x => x } val document_files = $$$(DOCUMENT_FILES) ~! (in_path_parens("document") ~ rep1(path)) ^^ { case _ ~ (x ~ y) => y.map((x, _)) } val prune = $$$("[") ~! (nat ~ $$$("]")) ^^ { case _ ~ (x ~ _) => x } | success(0) val export_files = $$$(EXPORT_FILES) ~! (in_path_parens("export") ~ prune ~ rep1(embedded)) ^^ { case _ ~ (x ~ y ~ z) => (x, y, z) } val export_classpath = $$$(EXPORT_CLASSPATH) ~! (rep1(embedded) | success(List("*:classpath/*.jar"))) ^^ { case _ ~ x => x } command(SESSION) ~! (position(session_name) ~ groups ~ in_path(".") ~ ($$$("=") ~! (opt(session_name ~! $$$("+") ^^ { case x ~ _ => x }) ~ description ~ (($$$(OPTIONS) ~! options ^^ { case _ ~ x => x }) | success(Nil)) ~ (($$$(SESSIONS) ~! rep1(session_name) ^^ { case _ ~ x => x }) | success(Nil)) ~ (($$$(DIRECTORIES) ~! rep1(path) ^^ { case _ ~ x => x }) | success(Nil)) ~ rep(theories) ~ (opt(document_theories) ^^ (x => x.getOrElse(Nil))) ~ (rep(document_files) ^^ (x => x.flatten)) ~ rep(export_files) ~ opt(export_classpath)))) ^^ { case _ ~ ((a, pos) ~ b ~ c ~ (_ ~ (d ~ e ~ f ~ g ~ h ~ i ~ j ~ k ~ l ~ m))) => Session_Entry(pos, a, b, c, d, e, f, g, h, i, j, k, l, m.getOrElse(Nil)) } } def parse_root(path: Path): List[Entry] = { val toks = Token.explode(root_syntax.keywords, File.read(path)) val start = Token.Pos.file(path.implode) val parser: Parser[Entry] = chapter_def | chapter_entry | session_entry parse_all(rep(parser), Token.reader(toks, start)) match { case Success(result, _) => result case bad => error(bad.toString) } } } def parse_root(path: Path): List[Entry] = Parsers.parse_root(path) def parse_root_entries(path: Path): List[Session_Entry] = Parsers.parse_root(path).flatMap(Library.as_subclass(classOf[Session_Entry])) def parse_roots(roots: Path): List[String] = { for { line <- split_lines(File.read(roots)) if !(line == "" || line.startsWith("#")) } yield line } /* load sessions from certain directories */ def is_session_dir(dir: Path): Boolean = (dir + ROOT).is_file || (dir + ROOTS).is_file def check_session_dir(dir: Path): Path = if (is_session_dir(dir)) File.pwd() + dir.expand else { error("Bad session root directory: " + dir.expand.toString + "\n (missing \"ROOT\" or \"ROOTS\")") } def directories(dirs: List[Path], select_dirs: List[Path]): List[(Boolean, Path)] = { val default_dirs = Components.directories().filter(is_session_dir) for { (select, dir) <- (default_dirs ::: dirs).map((false, _)) ::: select_dirs.map((true, _)) } yield (select, dir.canonical) } sealed case class Root_File(path: Path, select: Boolean) { val key: JFile = path.canonical_file def dir: Path = path.dir lazy val entries: List[Entry] = Parsers.parse_root(path) } def load_root_files( dirs: List[Path] = Nil, select_dirs: List[Path] = Nil ): List[Root_File] = { def load_dir(select: Boolean, dir: Path): List[Root_File] = load_root(select, dir) ::: load_roots(select, dir) def load_root(select: Boolean, dir: Path): List[Root_File] = { val root = dir + ROOT if (root.is_file) List(Root_File(root, select)) else Nil } def load_roots(select: Boolean, dir: Path): List[Root_File] = { val roots = dir + ROOTS if (roots.is_file) { for { entry <- parse_roots(roots) dir1 = try { check_session_dir(dir + Path.explode(entry)) } catch { case ERROR(msg) => error(msg + "\nThe error(s) above occurred in session catalog " + roots.toString) } res <- load_dir(select, dir1) } yield res } else Nil } val raw_roots: List[Root_File] = for { (select, dir) <- directories(dirs, select_dirs) root <- load_dir(select, check_session_dir(dir)) } yield root var next_root = 0 var seen_roots = Map.empty[JFile, (Root_File, Int)] for (root <- raw_roots) { seen_roots.get(root.key) match { case None => seen_roots += (root.key -> (root, next_root)) next_root += 1 case Some((root0, next0)) => val root1 = root0.copy(select = root0.select || root.select) seen_roots += (root0.key -> (root1, next0)) } } seen_roots.valuesIterator.toList.sortBy(_._2).map(_._1) } def load_structure( options: Options, dirs: List[Path] = Nil, select_dirs: List[Path] = Nil, infos: List[Info] = Nil, augment_options: String => List[Options.Spec] = _ => Nil ): Structure = { val roots = load_root_files(dirs = dirs, select_dirs = select_dirs) Structure.make(options, augment_options, roots = roots, infos = infos) } /* Isabelle tool wrapper */ val isabelle_tool = Isabelle_Tool("sessions", "explore structure of Isabelle sessions", Scala_Project.here, { args => var base_sessions: List[String] = Nil var select_dirs: List[Path] = Nil var requirements = false var exclude_session_groups: List[String] = Nil var all_sessions = false var build_graph = false var dirs: List[Path] = Nil var session_groups: List[String] = Nil var exclude_sessions: List[String] = Nil val getopts = Getopts(""" Usage: isabelle sessions [OPTIONS] [SESSIONS ...] Options are: -B NAME include session NAME and all descendants -D DIR include session directory and select its sessions -R refer to requirements of selected sessions -X NAME exclude sessions from group NAME and all descendants -a select all sessions -b follow session build dependencies (default: source imports) -d DIR include session directory -g NAME select session group NAME -x NAME exclude session NAME and all descendants Explore the structure of Isabelle sessions and print result names in topological order (on stdout). """, "B:" -> (arg => base_sessions = base_sessions ::: List(arg)), "D:" -> (arg => select_dirs = select_dirs ::: List(Path.explode(arg))), "R" -> (_ => requirements = true), "X:" -> (arg => exclude_session_groups = exclude_session_groups ::: List(arg)), "a" -> (_ => all_sessions = true), "b" -> (_ => build_graph = true), "d:" -> (arg => dirs = dirs ::: List(Path.explode(arg))), "g:" -> (arg => session_groups = session_groups ::: List(arg)), "x:" -> (arg => exclude_sessions = exclude_sessions ::: List(arg))) val sessions = getopts(args) val options = Options.init() val selection = 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) val sessions_structure = load_structure(options, dirs = dirs, select_dirs = select_dirs).selection(selection) val order = if (build_graph) sessions_structure.build_topological_order else sessions_structure.imports_topological_order for (name <- order) Output.writeln(name, stdout = true) }) /** persistent store **/ object Session_Info { val session_name = SQL.Column.string("session_name").make_primary_key // Build_Log.Session_Info val session_timing = SQL.Column.bytes("session_timing") val command_timings = SQL.Column.bytes("command_timings") val theory_timings = SQL.Column.bytes("theory_timings") val ml_statistics = SQL.Column.bytes("ml_statistics") val task_statistics = SQL.Column.bytes("task_statistics") val errors = SQL.Column.bytes("errors") val build_log_columns = List(session_name, session_timing, command_timings, theory_timings, ml_statistics, task_statistics, errors) // Build.Session_Info val sources = SQL.Column.string("sources") val input_heaps = SQL.Column.string("input_heaps") val output_heap = SQL.Column.string("output_heap") val return_code = SQL.Column.int("return_code") val uuid = SQL.Column.string("uuid") val build_columns = List(sources, input_heaps, output_heap, return_code, uuid) val table = SQL.Table("isabelle_session_info", build_log_columns ::: build_columns) val augment_table: PostgreSQL.Source = "ALTER TABLE IF EXISTS " + table.ident + " ADD COLUMN IF NOT EXISTS " + uuid.decl(SQL.sql_type_postgresql) } def store(options: Options, cache: Term.Cache = Term.Cache.make()): Store = new Store(options, cache) class Store private[Sessions](val options: Options, val cache: Term.Cache) { store => override def toString: String = "Store(output_dir = " + output_dir.absolute + ")" /* directories */ val system_output_dir: Path = Path.explode("$ISABELLE_HEAPS_SYSTEM/$ML_IDENTIFIER") val user_output_dir: Path = Path.explode("$ISABELLE_HEAPS/$ML_IDENTIFIER") def system_heaps: Boolean = options.bool("system_heaps") val output_dir: Path = if (system_heaps) system_output_dir else user_output_dir val input_dirs: List[Path] = if (system_heaps) List(system_output_dir) else List(user_output_dir, system_output_dir) def presentation_dir: Path = if (system_heaps) Path.explode("$ISABELLE_BROWSER_INFO_SYSTEM") else Path.explode("$ISABELLE_BROWSER_INFO") /* file names */ def heap(name: String): Path = Path.basic(name) def database(name: String): Path = Path.basic("log") + Path.basic(name).db def log(name: String): Path = Path.basic("log") + Path.basic(name) def log_gz(name: String): Path = log(name).gz def output_heap(name: String): Path = output_dir + heap(name) def output_database(name: String): Path = output_dir + database(name) def output_log(name: String): Path = output_dir + log(name) def output_log_gz(name: String): Path = output_dir + log_gz(name) def prepare_output_dir(): Unit = Isabelle_System.make_directory(output_dir + Path.basic("log")) /* heap */ def find_heap(name: String): Option[Path] = input_dirs.map(_ + heap(name)).find(_.is_file) def find_heap_digest(name: String): Option[String] = find_heap(name).flatMap(ML_Heap.read_digest) def the_heap(name: String): Path = find_heap(name) getOrElse error("Missing heap image for session " + quote(name) + " -- expected in:\n" + cat_lines(input_dirs.map(dir => " " + File.standard_path(dir)))) /* database */ def find_database(name: String): Option[Path] = input_dirs.map(_ + database(name)).find(_.is_file) def database_server: Boolean = options.bool("build_database_server") - def open_database_server(): SQL.Database = + def open_database_server(): PostgreSQL.Database = PostgreSQL.open_database( user = options.string("build_database_user"), password = options.string("build_database_password"), database = options.string("build_database_name"), host = options.string("build_database_host"), port = options.int("build_database_port"), ssh = options.proper_string("build_database_ssh_host").map(ssh_host => SSH.open_session(options, host = ssh_host, user = options.string("build_database_ssh_user"), port = options.int("build_database_ssh_port"))), ssh_close = true) def try_open_database( name: String, output: Boolean = false, server: Boolean = database_server ): Option[SQL.Database] = { def check(db: SQL.Database): Option[SQL.Database] = if (output || session_info_exists(db)) Some(db) else { db.close(); None } if (server) check(open_database_server()) else if (output) Some(SQLite.open_database(output_database(name))) else { (for { dir <- input_dirs.view path = dir + database(name) if path.is_file db <- check(SQLite.open_database(path)) } yield db).headOption } } def error_database(name: String): Nothing = error("Missing build database for session " + quote(name)) def open_database(name: String, output: Boolean = false): SQL.Database = try_open_database(name, output = output) getOrElse error_database(name) def clean_output(name: String): (Boolean, Boolean) = { val relevant_db = database_server && { try_open_database(name) match { case Some(db) => try { db.transaction { val relevant_db = session_info_defined(db, name) init_session_info(db, name) relevant_db } } finally { db.close() } case None => false } } val del = for { dir <- (if (system_heaps) List(user_output_dir, system_output_dir) else List(user_output_dir)) file <- List(heap(name), database(name), log(name), log_gz(name)) path = dir + file if path.is_file } yield path.file.delete val relevant = relevant_db || del.nonEmpty val ok = del.forall(b => b) (relevant, ok) } /* SQL database content */ def read_bytes(db: SQL.Database, name: String, column: SQL.Column): Bytes = db.using_statement(Session_Info.table.select(List(column), Session_Info.session_name.where_equal(name))) { stmt => val res = stmt.execute_query() if (!res.next()) Bytes.empty else res.bytes(column) } def read_properties(db: SQL.Database, name: String, column: SQL.Column): List[Properties.T] = Properties.uncompress(read_bytes(db, name, column), cache = cache) /* session info */ def init_session_info(db: SQL.Database, name: String): Unit = { db.transaction { db.create_table(Session_Info.table) db.using_statement( Session_Info.table.delete(Session_Info.session_name.where_equal(name)))(_.execute()) if (db.isInstanceOf[PostgreSQL.Database]) { db.using_statement(Session_Info.augment_table)(_.execute()) } db.create_table(Sources.table) db.using_statement(Sources.table.delete(Sources.where_equal(name)))(_.execute()) db.create_table(Export.Data.table) db.using_statement( Export.Data.table.delete(Export.Data.session_name.where_equal(name)))(_.execute()) db.create_table(Document_Build.Data.table) db.using_statement( Document_Build.Data.table.delete( Document_Build.Data.session_name.where_equal(name)))(_.execute()) } } def session_info_exists(db: SQL.Database): Boolean = { val tables = db.tables tables.contains(Session_Info.table.name) && tables.contains(Export.Data.table.name) } def session_info_defined(db: SQL.Database, name: String): Boolean = session_info_exists(db) && { db.using_statement( Session_Info.table.select(List(Session_Info.session_name), Session_Info.session_name.where_equal(name)))(stmt => stmt.execute_query().next()) } def write_session_info( db: SQL.Database, session_name: String, sources: Sources, build_log: Build_Log.Session_Info, build: Build.Session_Info ): Unit = { db.transaction { write_sources(db, session_name, sources) db.using_statement(Session_Info.table.insert()) { stmt => stmt.string(1) = session_name stmt.bytes(2) = Properties.encode(build_log.session_timing) stmt.bytes(3) = Properties.compress(build_log.command_timings, cache = cache.compress) stmt.bytes(4) = Properties.compress(build_log.theory_timings, cache = cache.compress) stmt.bytes(5) = Properties.compress(build_log.ml_statistics, cache = cache.compress) stmt.bytes(6) = Properties.compress(build_log.task_statistics, cache = cache.compress) stmt.bytes(7) = Build_Log.compress_errors(build_log.errors, cache = cache.compress) stmt.string(8) = build.sources stmt.string(9) = cat_lines(build.input_heaps) stmt.string(10) = build.output_heap getOrElse "" stmt.int(11) = build.return_code stmt.string(12) = build.uuid stmt.execute() } } } def read_session_timing(db: SQL.Database, name: String): Properties.T = Properties.decode(read_bytes(db, name, Session_Info.session_timing), cache = cache) def read_command_timings(db: SQL.Database, name: String): List[Properties.T] = read_properties(db, name, Session_Info.command_timings) def read_theory_timings(db: SQL.Database, name: String): List[Properties.T] = read_properties(db, name, Session_Info.theory_timings) def read_ml_statistics(db: SQL.Database, name: String): List[Properties.T] = read_properties(db, name, Session_Info.ml_statistics) def read_task_statistics(db: SQL.Database, name: String): List[Properties.T] = read_properties(db, name, Session_Info.task_statistics) def read_theories(db: SQL.Database, name: String): List[String] = read_theory_timings(db, name).flatMap(Markup.Name.unapply) def read_errors(db: SQL.Database, name: String): List[String] = Build_Log.uncompress_errors(read_bytes(db, name, Session_Info.errors), cache = cache) def read_build(db: SQL.Database, name: String): Option[Build.Session_Info] = { if (db.tables.contains(Session_Info.table.name)) { db.using_statement(Session_Info.table.select(Nil, Session_Info.session_name.where_equal(name))) { stmt => val res = stmt.execute_query() if (!res.next()) None else { val uuid = try { Option(res.string(Session_Info.uuid)).getOrElse("") } catch { case _: SQLException => "" } Some( Build.Session_Info( res.string(Session_Info.sources), split_lines(res.string(Session_Info.input_heaps)), res.string(Session_Info.output_heap) match { case "" => None case s => Some(s) }, res.int(Session_Info.return_code), uuid)) } } } else None } /* session sources */ def write_sources(db: SQL.Database, session_name: String, sources: Sources): Unit = { for (source_file <- sources) { db.using_statement(Sources.table.insert()) { stmt => stmt.string(1) = session_name stmt.string(2) = source_file.name stmt.string(3) = source_file.digest.toString stmt.bool(4) = source_file.compressed stmt.bytes(5) = source_file.body stmt.execute() } } } def read_sources( db: SQL.Database, session_name: String, name: String = "" ): List[Source_File] = { val select = Sources.table.select(Nil, Sources.where_equal(session_name, name = name) + SQL.order_by(List(Sources.name))) db.using_statement(select) { stmt => (stmt.execute_query().iterator { res => val res_name = res.string(Sources.name) val digest = SHA1.fake_digest(res.string(Sources.digest)) val compressed = res.bool(Sources.compressed) val body = res.bytes(Sources.body) Source_File(res_name, digest, compressed, body, cache.compress) }).toList } } } }