diff --git a/src/Pure/Tools/build.ML b/src/Pure/Tools/build.ML --- a/src/Pure/Tools/build.ML +++ b/src/Pure/Tools/build.ML @@ -1,273 +1,272 @@ (* Title: Pure/Tools/build.ML Author: Makarius Build Isabelle sessions. *) signature BUILD = sig val build: string -> unit end; structure Build: BUILD = struct (* command timings *) type timings = ((string * Time.time) Inttab.table) Symtab.table; (*file -> offset -> name, time*) val empty_timings: timings = Symtab.empty; fun update_timings props = (case Markup.parse_command_timing_properties props of SOME ({file, offset, name}, time) => Symtab.map_default (file, Inttab.empty) (Inttab.map_default (offset, (name, time)) (fn (_, t) => (name, t + time))) | NONE => I); fun approximative_id name pos = (case (Position.file_of pos, Position.offset_of pos) of (SOME file, SOME offset) => if name = "" then NONE else SOME {file = file, offset = offset, name = name} | _ => NONE); fun get_timings timings tr = (case approximative_id (Toplevel.name_of tr) (Toplevel.pos_of tr) of SOME {file, offset, name} => (case Symtab.lookup timings file of SOME offsets => (case Inttab.lookup offsets offset of SOME (name', time) => if name = name' then SOME time else NONE | NONE => NONE) | NONE => NONE) | NONE => NONE) |> the_default Time.zeroTime; (* session timing *) fun session_timing session_name verbose f x = let val start = Timing.start (); val y = f x; val timing = Timing.result start; val threads = string_of_int (Multithreading.max_threads ()); val factor = Time.toReal (#cpu timing) / Time.toReal (#elapsed timing) |> Real.fmt (StringCvt.FIX (SOME 2)); - val timing_props = - [("threads", threads)] @ Markup.timing_properties timing @ [("factor", factor)]; + val timing_props = [("threads", threads)] @ Markup.timing_properties timing; val _ = Output.protocol_message (Markup.session_timing :: timing_props) []; val _ = if verbose then Output.physical_stderr ("Timing " ^ session_name ^ " (" ^ threads ^ " threads, " ^ Timing.message timing ^ ", factor " ^ factor ^ ")\n") else (); in y end; (* protocol messages *) fun protocol_message props output = (case props of function :: args => if function = Markup.ML_statistics orelse function = Markup.task_statistics then Protocol_Message.marker (#2 function) args else if function = Markup.command_timing then let val name = the_default "" (Properties.get args Markup.nameN); val pos = Position.of_properties args; val {elapsed, ...} = Markup.parse_timing_properties args; val is_significant = Timing.is_relevant_time elapsed andalso elapsed >= Options.default_seconds "command_timing_threshold"; in if is_significant then (case approximative_id name pos of SOME id => Protocol_Message.marker (#2 function) (Markup.command_timing_properties id elapsed) | NONE => ()) else () end else if function = Markup.theory_timing then Protocol_Message.marker (#2 function) args else if function = Markup.session_timing then Protocol_Message.marker "Timing" args else (case Markup.dest_loading_theory props of SOME name => Protocol_Message.marker_text "loading_theory" name | NONE => Export.protocol_message props output) | [] => raise Output.Protocol_Message props); (* build theories *) fun build_theories symbols bibtex_entries last_timing qualifier master_dir (options, thys) = let val context = {options = options, symbols = symbols, bibtex_entries = bibtex_entries, last_timing = last_timing}; val condition = space_explode "," (Options.string options "condition"); val conds = filter_out (can getenv_strict) condition; in if null conds then (Options.set_default options; Isabelle_Process.init_options (); Future.fork I; (Thy_Info.use_theories context qualifier master_dir |> (case Options.string options "profiling" of "" => I | "time" => profile_time | "allocations" => profile_allocations | bad => error ("Bad profiling option: " ^ quote bad)) |> Unsynchronized.setmp print_mode (space_explode "," (Options.string options "print_mode") @ print_mode_value ())) thys) else Output.physical_stderr ("Skipping theories " ^ commas_quote (map #1 thys) ^ " (undefined " ^ commas conds ^ ")\n") end; (* build session *) datatype args = Args of {pide: bool, symbol_codes: (string * int) list, command_timings: Properties.T list, verbose: bool, browser_info: Path.T, document_files: (Path.T * Path.T) list, graph_file: Path.T, parent_name: string, chapter: string, session_name: string, master_dir: Path.T, theories: (Options.T * (string * Position.T) list) list, session_positions: (string * Properties.T) list, session_directories: (string * string) list, doc_names: string list, global_theories: (string * string) list, loaded_theories: string list, bibtex_entries: string list}; fun decode_args pide yxml = let open XML.Decode; val position = Position.of_properties o properties; val (symbol_codes, (command_timings, (verbose, (browser_info, (document_files, (graph_file, (parent_name, (chapter, (session_name, (master_dir, (theories, (session_positions, (session_directories, (doc_names, (global_theories, (loaded_theories, bibtex_entries)))))))))))))))) = pair (list (pair string int)) (pair (list properties) (pair bool (pair string (pair (list (pair string string)) (pair string (pair string (pair string (pair string (pair string (pair (((list (pair Options.decode (list (pair string position)))))) (pair (list (pair string properties)) (pair (list (pair string string)) (pair (list string) (pair (list (pair string string)) (pair (list string) (list string)))))))))))))))) (YXML.parse_body yxml); in Args {pide = pide, symbol_codes = symbol_codes, command_timings = command_timings, verbose = verbose, browser_info = Path.explode browser_info, document_files = map (apply2 Path.explode) document_files, graph_file = Path.explode graph_file, parent_name = parent_name, chapter = chapter, session_name = session_name, master_dir = Path.explode master_dir, theories = theories, session_positions = session_positions, session_directories = session_directories, doc_names = doc_names, global_theories = global_theories, loaded_theories = loaded_theories, bibtex_entries = bibtex_entries} end; fun build_session (Args {pide, symbol_codes, command_timings, verbose, browser_info, document_files, graph_file, parent_name, chapter, session_name, master_dir, theories, session_positions, session_directories, doc_names, global_theories, loaded_theories, bibtex_entries}) = let val symbols = HTML.make_symbols symbol_codes; val _ = Resources.init_session {pide = pide, session_positions = session_positions, session_directories = session_directories, docs = doc_names, global_theories = global_theories, loaded_theories = loaded_theories}; val _ = Session.init symbols (Options.default_bool "browser_info") browser_info (Options.default_string "document") (Options.default_string "document_output") (Present.document_variants (Options.default ())) document_files graph_file parent_name (chapter, session_name) verbose; val last_timing = get_timings (fold update_timings command_timings empty_timings); val res1 = theories |> (List.app (build_theories symbols bibtex_entries last_timing session_name master_dir) |> session_timing session_name verbose |> Exn.capture); val res2 = Exn.capture Session.finish (); val _ = Resources.finish_session_base (); val _ = Par_Exn.release_all [res1, res2]; val _ = if session_name = Context.PureN then Theory.install_pure (Thy_Info.get_theory Context.PureN) else (); in () end; (* command-line tool *) fun inline_errors exn = Runtime.exn_message_list exn |> List.app (fn msg => Protocol_Message.marker_text "error_message" (YXML.content_of msg)); fun build args_file = let val _ = SHA1.test_samples (); val _ = Options.load_default (); val _ = Isabelle_Process.init_options (); val args = decode_args false (File.read (Path.explode args_file)); val _ = Unsynchronized.setmp Private_Output.protocol_message_fn protocol_message build_session args handle exn => (inline_errors exn; Exn.reraise exn); val _ = Private_Output.protocol_message_fn := Output.protocol_message_undefined; val _ = Options.reset_default (); in () end; (* PIDE version *) val _ = Isabelle_Process.protocol_command "build_session" (fn [args_yxml] => let val args = decode_args true args_yxml; fun exec e = if can Theory.get_pure () then Isabelle_Thread.fork {name = "build_session", stack_limit = Isabelle_Thread.stack_limit (), interrupts = false} e |> ignore else e (); in exec (fn () => (Future.interruptible_task (fn () => (build_session args; (0, []))) () handle exn => ((1, Runtime.exn_message_list exn) handle _ (*sic!*) => (2, ["CRASHED"]))) |> let open XML.Encode in pair int (list string) end |> Output.protocol_message Markup.build_session_finished) end | _ => raise Match); end;