(* Title: Pure/Thy/thy_info.ML ID: $Id: thy_info.ML,v 1.65 2005/09/13 20:19:50 wenzelm Exp $ Author: Markus Wenzel, TU Muenchen Main part of theory loader database, including handling of theory and file dependencies. *) signature BASIC_THY_INFO = sig val theory: string -> theory (*val use: string -> unit*) (*exported later*) val time_use: string -> unit val touch_thy: string -> unit val use_thy: string -> unit val update_thy: string -> unit val remove_thy: string -> unit val time_use_thy: string -> unit val use_thy_only: string -> unit val update_thy_only: string -> unit end; signature THY_INFO = sig include BASIC_THY_INFO datatype action = Update | Outdate | Remove val str_of_action: action -> string val add_hook: (action -> string -> unit) -> unit val names: unit -> string list val known_thy: string -> bool val check_known_thy: string -> bool val if_known_thy: (string -> unit) -> string -> unit val lookup_theory: string -> theory option val get_theory: string -> theory val get_preds: string -> string list val loaded_files: string -> Path.T list val touch_child_thys: string -> unit val touch_all_thys: unit -> unit val load_file: bool -> Path.T -> unit val use: string -> unit val quiet_update_thy: bool -> string -> unit val pretend_use_thy_only: string -> unit val begin_theory: (Path.T option -> string -> string list -> (Path.T * bool) list -> theory -> theory) -> string -> string list -> (Path.T * bool) list -> bool -> theory val end_theory: theory -> theory val finish: unit -> unit val register_theory: theory -> unit val pretty_theory: theory -> Pretty.T end; structure ThyInfo: THY_INFO = struct (** theory loader actions and hooks **) datatype action = Update | Outdate | Remove; val str_of_action = fn Update => "Update" | Outdate => "Outdate" | Remove => "Remove"; local val hooks = ref ([]: (action -> string -> unit) list); in fun add_hook f = hooks := f :: ! hooks; fun perform action name = List.app (fn f => (try (fn () => f action name) (); ())) (! hooks); end; (** thy database **) (* messages *) fun gen_msg txt [] = txt | gen_msg txt names = txt ^ " " ^ commas_quote names; fun loader_msg txt names = gen_msg ("Theory loader: " ^ txt) names; val show_path = space_implode " via " o map quote; fun cycle_msg names = loader_msg ("cyclic dependency of " ^ show_path names) []; (* derived graph operations *) fun add_deps name parents G = Graph.add_deps_acyclic (name, parents) G handle Graph.CYCLES namess => error (cat_lines (map cycle_msg namess)); fun upd_deps name entry G = Library.foldl (fn (H, parent) => Graph.del_edge (parent, name) H) (G, Graph.imm_preds G name) |> Graph.map_node name (K entry); fun update_node name parents entry G = (if can (Graph.get_node G) name then upd_deps name entry G else Graph.new_node (name, entry) G) |> add_deps name parents; (* thy database *) type deps = {present: bool, outdated: bool, master: ThyLoad.master option, files: (Path.T * (Path.T * File.info) option) list}; fun make_deps present outdated master files = {present = present, outdated = outdated, master = master, files = files}: deps; fun init_deps master files = SOME (make_deps false true master (map (rpair NONE) files)); type thy = deps option * theory option; local val database = ref (Graph.empty: thy Graph.T); in fun get_thys () = ! database; val change_thys = Library.change database; end; (* access thy graph *) fun thy_graph f x = f (get_thys ()) x; (*theory names in topological order*) fun get_names () = let val G = get_thys () in Graph.all_succs G (Graph.minimals G) end; (* access thy *) fun lookup_thy name = SOME (thy_graph Graph.get_node name) handle Graph.UNDEF _ => NONE; val known_thy = is_some o lookup_thy; fun check_known_thy name = known_thy name orelse (warning ("Unknown theory " ^ quote name); false); fun if_known_thy f name = if check_known_thy name then f name else (); fun get_thy name = (case lookup_thy name of SOME thy => thy | NONE => error (loader_msg "nothing known about theory" [name])); fun change_thy name f = (get_thy name; change_thys (Graph.map_node name f)); (* access deps *) val lookup_deps = Option.map #1 o lookup_thy; val get_deps = #1 o get_thy; fun change_deps name f = change_thy name (fn (deps, x) => (f deps, x)); fun is_finished name = is_none (get_deps name); fun get_files name = (case get_deps name of SOME {files, ...} => files | _ => []); fun loaded_files name = (case get_deps name of NONE => [] | SOME {master, files, ...} => (case master of SOME m => [#1 (ThyLoad.get_thy m)] | NONE => []) @ (List.mapPartial (Option.map #1 o #2) files)); fun get_preds name = (thy_graph Graph.imm_preds name) handle Graph.UNDEF _ => error (loader_msg "nothing known about theory" [name]); (* pretty printing a theory *) local fun relevant_names names = let val (finished, unfinished) = List.filter (equal Context.draftN orf known_thy) names |> List.partition (not_equal Context.draftN andf is_finished); in (if not (null finished) then [List.last finished] else []) @ unfinished end; in fun pretty_theory thy = Pretty.str_list "{" "}" (relevant_names (Context.names_of thy)); end; (* access theory *) fun lookup_theory name = (case lookup_thy name of SOME (_, SOME thy) => SOME thy | _ => NONE); fun get_theory name = (case lookup_theory name of (SOME theory) => theory | _ => error (loader_msg "undefined theory entry for" [name])); fun put_theory name theory = change_thy name (fn (deps, _) => (deps, SOME theory)); (** thy operations **) (* maintain 'outdated' flag *) local fun is_outdated name = (case lookup_deps name of SOME (SOME {outdated, ...}) => outdated | _ => false); fun outdate_thy name = if is_finished name orelse is_outdated name then () else (change_deps name (Option.map (fn {present, outdated = _, master, files} => make_deps present true master files)); perform Outdate name); fun check_unfinished name = if is_finished name then (warning (loader_msg "tried to touch finished theory" [name]); NONE) else SOME name; in fun touch_thys names = List.app outdate_thy (thy_graph Graph.all_succs (List.mapPartial check_unfinished names)); fun touch_thy name = touch_thys [name]; fun touch_child_thys name = touch_thys (thy_graph Graph.imm_succs name); fun touch_all_thys () = List.app outdate_thy (get_names ()); end; (* check 'finished' state *) fun check_unfinished fail name = if known_thy name andalso is_finished name then fail (loader_msg "cannot update finished theory" [name]) else (); (* load_file *) val opt_path = Option.map (Path.dir o fst o ThyLoad.get_thy); fun opt_path' (d: deps option) = if_none (Option.map (opt_path o #master) d) NONE; fun opt_path'' d = if_none (Option.map opt_path' d) NONE; local fun provide path name info (deps as SOME {present, outdated, master, files}) = (if exists (equal path o #1) files then () else warning (loader_msg "undeclared dependency of theory" [name] ^ " on file: " ^ quote (Path.pack path)); SOME (make_deps present outdated master (AList.update (op =) (path, SOME info) files))) | provide _ _ _ NONE = NONE; fun run_file path = (case Option.map Context.theory_name (Context.get_context ()) of NONE => (ThyLoad.load_file NONE path; ()) | SOME name => (case lookup_deps name of SOME deps => change_deps name (provide path name (ThyLoad.load_file (opt_path' deps) path)) | NONE => (ThyLoad.load_file NONE path; ()))); in fun load_file time path = if time then let val name = Path.pack path in timeit (fn () => (priority ("\n**** Starting file " ^ quote name ^ " ****"); run_file path; priority ("**** Finished file " ^ quote name ^ " ****\n"))) end else run_file path; val use = load_file false o Path.unpack; val time_use = load_file true o Path.unpack; end; (* load_thy *) fun required_by _ [] = "" | required_by s initiators = s ^ "(required by " ^ show_path (rev initiators) ^ ")"; fun load_thy really ml time initiators dir name = let val _ = if really then priority ("Loading theory " ^ quote name ^ required_by " " initiators) else priority ("Registering theory " ^ quote name); val _ = touch_thy name; val master = if really then ThyLoad.load_thy dir name ml time else #1 (ThyLoad.deps_thy dir name ml); val files = get_files name; val missing_files = List.mapPartial (fn (path, NONE) => SOME (Path.pack path) | _ => NONE) files; in if null missing_files then () else warning (loader_msg "unresolved dependencies of theory" [name] ^ " on file(s): " ^ commas_quote missing_files); change_deps name (fn _ => SOME (make_deps true false (SOME master) files)); perform Update name end; (* require_thy *) fun base_of_path s = Path.pack (Path.base (Path.unpack s)); local fun load_deps ml dir name = let val (master, (parents, files)) = ThyLoad.deps_thy dir name ml in (SOME (init_deps (SOME master) files), parents) end; fun file_current master (_, NONE) = false | file_current master (path, info) = (info = ThyLoad.check_file (opt_path master) path); fun current_deps ml strict dir name = (case lookup_deps name of NONE => (false, load_deps ml dir name) | SOME deps => let fun get_name s = (case opt_path'' (lookup_deps s) of NONE => s | SOME p => Path.pack (Path.append p (Path.basic s))); val same_deps = (NONE, map get_name (thy_graph Graph.imm_preds name)) in (case deps of NONE => (true, same_deps) | SOME {present, outdated, master, files} => if present andalso not strict then (true, same_deps) else let val master' = SOME (ThyLoad.check_thy dir name ml) in if master <> master' then (false, load_deps ml dir name) else (not outdated andalso forall (file_current master') files, same_deps) end) end); fun require_thy really ml time strict keep_strict initiators prfx (visited, str) = let val path = Path.expand (Path.unpack str); val name = Path.pack (Path.base path); in if name mem_string initiators then error (cycle_msg initiators) else (); if known_thy name andalso is_finished name orelse name mem_string visited then (visited, (true, name)) else let val dir = Path.append prfx (Path.dir path); val req_parent = require_thy true true time (strict andalso keep_strict) keep_strict (name :: initiators); val (current, (new_deps, parents)) = current_deps ml strict dir name handle ERROR => error (loader_msg "the error(s) above occurred while examining theory" [name] ^ (if null initiators then "" else required_by "\n" initiators)); val dir' = if_none (opt_path'' new_deps) dir; val (visited', parent_results) = foldl_map (req_parent dir') (name :: visited, parents); val thy = if not really then SOME (get_theory name) else NONE; val result = if current andalso forall #1 parent_results then true else ((case new_deps of SOME deps => change_thys (update_node name (map base_of_path parents) (deps, thy)) | NONE => ()); load_thy really ml (time orelse ! Output.timing) initiators dir name; false); in (visited', (result, name)) end end; fun gen_use_thy' req prfx s = let val (_, (_, name)) = req [] prfx ([], s) in Context.context (get_theory name) end; fun gen_use_thy req = gen_use_thy' req Path.current; fun warn_finished f name = (check_unfinished warning name; f name); in val weak_use_thy = gen_use_thy' (require_thy true true false false false); fun quiet_update_thy' ml = gen_use_thy' (require_thy true ml false true true); fun quiet_update_thy ml = gen_use_thy (require_thy true ml false true true); val use_thy = warn_finished (gen_use_thy (require_thy true true false true false)); val time_use_thy = warn_finished (gen_use_thy (require_thy true true true true false)); val use_thy_only = warn_finished (gen_use_thy (require_thy true false false true false)); val update_thy = warn_finished (gen_use_thy (require_thy true true false true true)); val update_thy_only = warn_finished (gen_use_thy (require_thy true false false true true)); val pretend_use_thy_only = warn_finished (gen_use_thy (require_thy false false false true false)); end; (* remove_thy *) fun remove_thy name = if is_finished name then error (loader_msg "cannot remove finished theory" [name]) else let val succs = thy_graph Graph.all_succs [name] in priority (loader_msg "removing" succs); List.app (perform Remove) succs; change_thys (Graph.del_nodes succs) end; (* begin / end theory *) fun check_uses name uses = let val illegal = map (fn ext => Path.ext ext (Path.basic name)) ThyLoad.ml_exts in (case find_first (member (op =) illegal o Path.base o Path.expand o #1) uses of NONE => () | SOME (path, _) => error ("Illegal use of theory ML file: " ^ quote (Path.pack path))) end; fun begin_theory present name parents uses int = let val bparents = map base_of_path parents; val dir' = opt_path'' (lookup_deps name); val dir = if_none dir' Path.current; val assert_thy = if int then quiet_update_thy' true dir else weak_use_thy dir; val _ = check_unfinished error name; val _ = List.app assert_thy parents; val _ = check_uses name uses; val theory = Theory.begin_theory name (map get_theory bparents); val deps = if known_thy name then get_deps name else (init_deps NONE (map #1 uses)); (*records additional ML files only!*) val uses_now = List.mapPartial (fn (x, true) => SOME x | _ => NONE) uses; val _ = change_thys (update_node name bparents (deps, SOME (Theory.copy theory))); val theory' = theory |> present dir' name bparents uses; val _ = put_theory name (Theory.copy theory'); val ((), theory'') = Context.pass_theory theory' (List.app (load_file false)) uses_now; val _ = put_theory name (Theory.copy theory''); in theory'' end; fun end_theory theory = let val name = Context.theory_name theory; val theory' = Theory.end_theory theory; in put_theory name theory'; theory' end; (* finish all theories *) fun finish () = change_thys (Graph.map_nodes (fn (_, entry) => (NONE, entry))); (* register existing theories *) fun register_theory theory = let val name = Context.theory_name theory; val parents = Theory.parents_of theory; val parent_names = map Context.theory_name parents; fun err txt bads = error (loader_msg txt bads ^ "\n" ^ gen_msg "cannot register theory" [name]); val nonfinished = filter_out is_finished parent_names; fun get_variant (x, y_name) = if Theory.eq_thy (x, get_theory y_name) then NONE else SOME y_name; val variants = List.mapPartial get_variant (parents ~~ parent_names); fun register G = (Graph.new_node (name, (NONE, SOME theory)) G handle Graph.DUP _ => err "duplicate theory entry" []) |> add_deps name parent_names; in if not (null nonfinished) then err "non-finished parent theories" nonfinished else if not (null variants) then err "different versions of parent theories" variants else (change_thys register; perform Update name) end; val _ = register_theory ProtoPure.thy; (*final declarations of this structure*) val theory = get_theory; val names = get_names; end; structure BasicThyInfo: BASIC_THY_INFO = ThyInfo; open BasicThyInfo;