src/Pure/Isar/toplevel.ML
author wenzelm
Fri Jun 17 18:33:37 2005 +0200 (2005-06-17)
changeset 16452 71f3e0041f14
parent 16197 f58a4ff5d6de
child 16490 e10b0d5fa33a
permissions -rw-r--r--
Context.DATA_FAIL;
accomodate identification of type Sign.sg and theory;
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(*  Title:      Pure/Isar/toplevel.ML
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    ID:         $Id$
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    Author:     Markus Wenzel, TU Muenchen
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The Isabelle/Isar toplevel.
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*)
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signature TOPLEVEL =
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sig
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  datatype node = Theory of theory | Proof of ProofHistory.T
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    | SkipProof of int History.T * theory
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  type state
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  val toplevel: state
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  val is_toplevel: state -> bool
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  val prompt_state_default: state -> string
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  val prompt_state_fn: (state -> string) ref
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  val print_state_context: state -> unit
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  val print_state_default: bool -> state -> unit
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  val print_state_fn: (bool -> state -> unit) ref
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  val print_state: bool -> state -> unit
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  val pretty_state: bool -> state -> Pretty.T list
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  exception UNDEF
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  val node_history_of: state -> node History.T
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  val node_of: state -> node
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  val node_case: (theory -> 'a) -> (Proof.state -> 'a) -> state -> 'a
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  val theory_of: state -> theory
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  val sign_of: state -> theory    (*obsolete*)
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  val context_of: state -> Proof.context
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  val proof_of: state -> Proof.state
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  val enter_forward_proof: state -> Proof.state
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  type transition
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  exception TERMINATE
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  exception RESTART
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  val undo_limit: bool -> int option
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  val empty: transition
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  val name_of: transition -> string
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  val source_of: transition -> OuterLex.token list option
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  val name: string -> transition -> transition
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  val position: Position.T -> transition -> transition
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  val source: OuterLex.token list -> transition -> transition
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  val interactive: bool -> transition -> transition
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  val print: transition -> transition
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  val no_timing: transition -> transition
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  val reset: transition -> transition
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  val init: (bool -> node) -> (node -> unit) -> (node -> unit) -> transition -> transition
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  val exit: transition -> transition
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  val kill: transition -> transition
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  val keep: (state -> unit) -> transition -> transition
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  val keep': (bool -> state -> unit) -> transition -> transition
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  val history: (node History.T -> node History.T) -> transition -> transition
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  val imperative: (unit -> unit) -> transition -> transition
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  val init_theory: (bool -> theory) -> (theory -> unit) -> (theory -> unit)
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    -> transition -> transition
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  val skip_proofs: bool ref
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  val theory: (theory -> theory) -> transition -> transition
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  val theory': (bool -> theory -> theory) -> transition -> transition
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  val theory_to_proof: (bool -> theory -> ProofHistory.T) -> transition -> transition
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  val proof: (ProofHistory.T -> ProofHistory.T) -> transition -> transition
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  val proof': (bool -> ProofHistory.T -> ProofHistory.T) -> transition -> transition
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  val proof'': (ProofHistory.T -> ProofHistory.T) -> transition -> transition
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  val proof_to_theory: (ProofHistory.T -> theory) -> transition -> transition
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  val proof_to_theory': (bool -> ProofHistory.T -> theory) -> transition -> transition
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  val skip_proof: (int History.T -> int History.T) -> transition -> transition
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  val skip_proof_to_theory: (int History.T -> bool) -> transition -> transition
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  val unknown_theory: transition -> transition
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  val unknown_proof: transition -> transition
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  val unknown_context: transition -> transition
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  val quiet: bool ref
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  val debug: bool ref
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  val exn_message: exn -> string
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  val apply: bool -> transition -> state -> (state * (exn * string) option) option
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  val excursion_result: ((transition * (state -> state -> 'a -> 'a)) list * 'a) -> 'a
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  val excursion: transition list -> unit
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  val set_state: state -> unit
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  val get_state: unit -> state
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  val exn: unit -> (exn * string) option
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  val >> : transition -> bool
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  val >>> : transition list -> unit
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  type 'a isar
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  val loop: 'a isar -> unit
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end;
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structure Toplevel: TOPLEVEL =
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struct
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(** toplevel state **)
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(* datatype node *)
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datatype node =
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  Theory of theory |
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  Proof of ProofHistory.T |
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  SkipProof of int History.T * theory;
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fun str_of_node (Theory _) = "in theory mode"
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  | str_of_node _ = "in proof mode";
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fun pretty_context thy = [Pretty.block
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  [Pretty.str "theory", Pretty.brk 1, Pretty.str (Context.theory_name thy),
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    Pretty.str " =", Pretty.brk 1, ThyInfo.pretty_theory thy]];
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fun pretty_prf prf = Proof.pretty_state (ProofHistory.position prf) (ProofHistory.current prf);
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fun pretty_node_context (Theory thy) = pretty_context thy
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  | pretty_node_context (Proof prf) = pretty_context (Proof.theory_of (ProofHistory.current prf))
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  | pretty_node_context _ = [];
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fun pretty_node prf_only (Theory thy) = if prf_only then [] else pretty_context thy
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  | pretty_node _ (Proof prf) = pretty_prf prf
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  | pretty_node _ _ = [];
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(* datatype state *)
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datatype state = State of (node History.T * ((node -> unit) * (node -> unit))) option;
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val toplevel = State NONE;
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fun is_toplevel (State NONE) = true
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  | is_toplevel _ = false;
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fun str_of_state (State NONE) = "at top level"
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  | str_of_state (State (SOME (node, _))) = str_of_node (History.current node);
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(* prompt_state hook *)
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fun prompt_state_default (State _) = Source.default_prompt;
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val prompt_state_fn = ref prompt_state_default;
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fun prompt_state state = ! prompt_state_fn state;
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(* print state *)
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fun pretty_current_node _ (State NONE) = []
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  | pretty_current_node prt (State (SOME (node, _))) = prt (History.current node);
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val print_state_context =
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  Pretty.writeln o Pretty.chunks o pretty_current_node pretty_node_context;
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fun pretty_state prf_only state =
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  let val ref (begin_state, end_state, _) = Display.current_goals_markers in
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    (case pretty_current_node (pretty_node prf_only) state of [] => []
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    | prts =>
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        (if begin_state = "" then [] else [Pretty.str begin_state]) @ prts @
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        (if end_state = "" then [] else [Pretty.str end_state]))
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  end;
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fun print_state_default prf_only state = Pretty.writelns (pretty_state prf_only state);
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val print_state_fn = ref print_state_default;
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fun print_state state = ! print_state_fn state;
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(* top node *)
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exception UNDEF;
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fun node_history_of (State NONE) = raise UNDEF
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  | node_history_of (State (SOME (node, _))) = node;
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val node_of = History.current o node_history_of;
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fun node_case f g state =
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  (case node_of state of
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    Theory thy => f thy
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  | SkipProof (i, thy) => f thy
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  | Proof prf => g (ProofHistory.current prf));
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val theory_of = node_case I Proof.theory_of;
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val sign_of = theory_of;
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val context_of = node_case ProofContext.init Proof.context_of;
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val proof_of = node_case (fn _ => raise UNDEF) I;
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val enter_forward_proof = node_case Proof.init_state Proof.enter_forward;
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(** toplevel transitions **)
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exception TERMINATE;
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exception RESTART;
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exception EXCURSION_FAIL of exn * string;
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exception FAILURE of state * exn;
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(* recovery from stale theories *)
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(*note: proof commands should be non-destructive!*)
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local
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fun is_stale state = Context.is_stale (theory_of state) handle UNDEF => false;
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fun checkpoint_node true (Theory thy) = Theory (Theory.checkpoint thy)
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  | checkpoint_node _ node = node;
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fun copy_node true (Theory thy) = Theory (Theory.copy thy)
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  | copy_node _ node = node;
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fun interruptible f x =
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  let val y = ref (NONE: node History.T option);
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  in raise_interrupt (fn () => y := SOME (f x)) (); the (! y) end;
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val rollback = ERROR_MESSAGE "Stale theory encountered after succesful execution!";
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fun return (result, NONE) = result
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  | return (result, SOME exn) = raise FAILURE (result, exn);
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in
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fun node_trans _ _ _ (State NONE) = raise UNDEF
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  | node_trans int hist f (State (SOME (node, term))) =
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      let
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        fun mk_state nd = State (SOME (nd, term));
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        val cont_node = History.map (checkpoint_node int) node;
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        val back_node = History.map (copy_node int) cont_node;
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        val trans = if hist then History.apply_copy (copy_node int) else History.map;
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        val (result, opt_exn) =
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          (mk_state (transform_error (interruptible (trans (f int))) cont_node), NONE)
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            handle exn => (mk_state cont_node, SOME exn);
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      in
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        if is_stale result then return (mk_state back_node, SOME (if_none opt_exn rollback))
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        else return (result, opt_exn)
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      end;
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fun check_stale state =
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  if not (is_stale state) then ()
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  else warning "Stale theory encountered!";
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end;
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(* primitive transitions *)
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(*Important note: recovery from stale theories is provided only for
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  theory-level operations via MapCurrent and AppCurrent.  Other node
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  or state operations should not touch theories at all.
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  Also note that interrupts are enabled for Keep, MapCurrent, and
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  AppCurrent only.*)
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datatype trans =
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  Reset |                                       (*empty toplevel*)
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  Init of (bool -> node) * ((node -> unit) * (node -> unit)) |
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    (*init node; provide exit/kill operation*)
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  Exit |                                        (*conclude node*)
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  Kill |                                        (*abort node*)
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  Keep of bool -> state -> unit |               (*peek at state*)
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  History of node History.T -> node History.T | (*history operation (undo etc.)*)
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  MapCurrent of bool -> node -> node |          (*change node, bypassing history*)
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  AppCurrent of bool -> node -> node;           (*change node, recording history*)
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fun undo_limit int = if int then NONE else SOME 0;
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local
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fun apply_tr _ Reset _ = toplevel
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  | apply_tr int (Init (f, term)) (State NONE) =
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      State (SOME (History.init (undo_limit int) (f int), term))
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  | apply_tr _ (Init _ ) (State (SOME _)) = raise UNDEF
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  | apply_tr _ Exit (State NONE) = raise UNDEF
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  | apply_tr _ Exit (State (SOME (node, (exit, _)))) =
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      (exit (History.current node); State NONE)
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  | apply_tr _ Kill (State NONE) = raise UNDEF
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  | apply_tr _ Kill (State (SOME (node, (_, kill)))) =
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      (kill (History.current node); State NONE)
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  | apply_tr int (Keep f) state = (raise_interrupt (f int) state; state)
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  | apply_tr _ (History _) (State NONE) = raise UNDEF
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  | apply_tr _ (History f) (State (SOME (node, term))) = State (SOME (f node, term))
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  | apply_tr int (MapCurrent f) state = node_trans int false f state
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  | apply_tr int (AppCurrent f) state = node_trans int true f state;
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fun apply_union _ [] state = raise FAILURE (state, UNDEF)
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  | apply_union int (tr :: trs) state =
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      transform_error (apply_tr int tr) state
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        handle UNDEF => apply_union int trs state
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          | FAILURE (alt_state, UNDEF) => apply_union int trs alt_state
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          | exn as FAILURE _ => raise exn
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          | exn => raise FAILURE (state, exn);
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in
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fun apply_trans int trs state = (apply_union int trs state, NONE)
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  handle FAILURE (alt_state, exn) => (alt_state, SOME exn) | exn => (state, SOME exn);
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end;
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(* datatype transition *)
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datatype transition = Transition of
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 {name: string,
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  pos: Position.T,
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  source: OuterLex.token list option,
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  int_only: bool,
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  print: bool,
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  no_timing: bool,
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  trans: trans list};
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fun make_transition (name, pos, source, int_only, print, no_timing, trans) =
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  Transition {name = name, pos = pos, source = source,
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    int_only = int_only, print = print, no_timing = no_timing, trans = trans};
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fun map_transition f (Transition {name, pos, source, int_only, print, no_timing, trans}) =
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  make_transition (f (name, pos, source, int_only, print, no_timing, trans));
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val empty = make_transition ("<unknown>", Position.none, NONE, false, false, false, []);
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fun name_of (Transition {name, ...}) = name;
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fun source_of (Transition {source, ...}) = source;
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(* diagnostics *)
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fun str_of_transition (Transition {name, pos, ...}) = quote name ^ Position.str_of pos;
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fun command_msg msg tr = msg ^ "command " ^ str_of_transition tr;
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fun at_command tr = command_msg "At " tr ^ ".";
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fun type_error tr state =
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  ERROR_MESSAGE (command_msg "Illegal application of " tr ^ " " ^ str_of_state state);
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(* modify transitions *)
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fun name nm = map_transition (fn (_, pos, source, int_only, print, no_timing, trans) =>
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  (nm, pos, source, int_only, print, no_timing, trans));
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fun position pos = map_transition (fn (name, _, source, int_only, print, no_timing, trans) =>
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  (name, pos, source, int_only, print, no_timing, trans));
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fun source src = map_transition (fn (name, pos, _, int_only, print, no_timing, trans) =>
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  (name, pos, SOME src, int_only, print, no_timing, trans));
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fun interactive int_only = map_transition (fn (name, pos, source, _, print, no_timing, trans) =>
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  (name, pos, source, int_only, print, no_timing, trans));
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wenzelm@14923
   342
val print = map_transition (fn (name, pos, source, int_only, _, no_timing, trans) =>
wenzelm@14923
   343
  (name, pos, source, int_only, true, no_timing, trans));
wenzelm@5828
   344
wenzelm@14923
   345
val no_timing = map_transition (fn (name, pos, source, int_only, print, _, trans) =>
wenzelm@14923
   346
  (name, pos, source, int_only, print, true, trans));
wenzelm@5828
   347
wenzelm@14923
   348
fun add_trans tr = map_transition (fn (name, pos, source, int_only, print, no_timing, trans) =>
wenzelm@14923
   349
  (name, pos, source, int_only, print, no_timing, trans @ [tr]));
wenzelm@5828
   350
wenzelm@5828
   351
wenzelm@5828
   352
(* build transitions *)
wenzelm@5828
   353
wenzelm@5828
   354
val reset = add_trans Reset;
wenzelm@6689
   355
fun init f exit kill = add_trans (Init (f, (exit, kill)));
wenzelm@6689
   356
val exit = add_trans Exit;
wenzelm@6689
   357
val kill = add_trans Kill;
wenzelm@7612
   358
val keep' = add_trans o Keep;
wenzelm@6689
   359
val history = add_trans o History;
wenzelm@5828
   360
val map_current = add_trans o MapCurrent;
wenzelm@6689
   361
val app_current = add_trans o AppCurrent;
wenzelm@5828
   362
wenzelm@7612
   363
fun keep f = add_trans (Keep (fn _ => f));
wenzelm@5828
   364
fun imperative f = keep (fn _ => f ());
wenzelm@5828
   365
wenzelm@6689
   366
fun init_theory f exit kill =
wenzelm@8465
   367
  init (fn int => Theory (f int))
wenzelm@6689
   368
    (fn Theory thy => exit thy | _ => raise UNDEF)
wenzelm@6689
   369
    (fn Theory thy => kill thy | _ => raise UNDEF);
wenzelm@5828
   370
wenzelm@15668
   371
wenzelm@15668
   372
(* typed transitions *)
wenzelm@15668
   373
wenzelm@15668
   374
(*The skip_proofs flag allows proof scripts to be skipped during
wenzelm@15668
   375
  interactive proof in order to speed up processing of large
wenzelm@15668
   376
  theories. While in skipping mode, states are represented as
wenzelm@15668
   377
  SkipProof (h, thy), where h contains a counter for the number of
wenzelm@15668
   378
  open proof blocks.*)
berghofe@15237
   379
berghofe@15237
   380
val skip_proofs = ref false;
berghofe@15237
   381
wenzelm@6689
   382
fun theory f = app_current (fn _ => (fn Theory thy => Theory (f thy) | _ => raise UNDEF));
wenzelm@7612
   383
fun theory' f = app_current (fn int => (fn Theory thy => Theory (f int thy) | _ => raise UNDEF));
wenzelm@15668
   384
berghofe@15237
   385
fun theory_to_proof f = app_current (fn int =>
berghofe@15237
   386
  (fn Theory thy =>
wenzelm@15668
   387
        if ! skip_proofs then SkipProof (History.init (undo_limit int) 0,
berghofe@15237
   388
          fst (SkipProof.global_skip_proof int (ProofHistory.current (f int thy))))
berghofe@15237
   389
        else Proof (f int thy)
berghofe@15237
   390
    | _ => raise UNDEF));
wenzelm@15668
   391
berghofe@15237
   392
fun proof''' b f = map_current (fn int => (fn Proof prf => Proof (f int prf)
berghofe@15237
   393
  | SkipProof (h, thy) => if b then SkipProof (History.apply I h, thy) else raise UNDEF
berghofe@15237
   394
  | _ => raise UNDEF));
wenzelm@15668
   395
berghofe@15237
   396
val proof' = proof''' true;
wenzelm@6689
   397
val proof = proof' o K;
berghofe@15237
   398
val proof'' = proof''' false o K;
wenzelm@15668
   399
wenzelm@12315
   400
fun proof_to_theory' f =
berghofe@15237
   401
  map_current (fn int => (fn Proof prf => Theory (f int prf)
berghofe@15237
   402
    | SkipProof (h, thy) => if History.current h = 0 then Theory thy else raise UNDEF
berghofe@15237
   403
    | _ => raise UNDEF));
wenzelm@15668
   404
wenzelm@12315
   405
val proof_to_theory = proof_to_theory' o K;
wenzelm@15668
   406
berghofe@15237
   407
fun skip_proof f = map_current (fn int =>
berghofe@15237
   408
  (fn SkipProof (h, thy) => SkipProof (f h, thy) | _ => raise UNDEF));
wenzelm@15668
   409
berghofe@15237
   410
fun skip_proof_to_theory p = map_current (fn int =>
berghofe@15237
   411
  (fn SkipProof (h, thy) => if p h then Theory thy else raise UNDEF | _ => raise UNDEF));
wenzelm@5828
   412
wenzelm@9512
   413
val unknown_theory = imperative (fn () => warning "Unknown theory context");
wenzelm@9512
   414
val unknown_proof = imperative (fn () => warning "Unknown proof context");
wenzelm@9512
   415
val unknown_context = imperative (fn () => warning "Unknown context");
wenzelm@9512
   416
wenzelm@5828
   417
wenzelm@5828
   418
wenzelm@5828
   419
(** toplevel transactions **)
wenzelm@5828
   420
wenzelm@7198
   421
val quiet = ref false;
wenzelm@15668
   422
val debug = ref false;
wenzelm@15668
   423
wenzelm@5828
   424
wenzelm@5828
   425
(* print exceptions *)
wenzelm@5828
   426
wenzelm@15668
   427
local
wenzelm@15668
   428
wenzelm@15668
   429
fun with_context f xs =
wenzelm@15668
   430
  (case Context.get_context () of NONE => []
wenzelm@16452
   431
  | SOME thy => map (f thy) xs);
wenzelm@15668
   432
wenzelm@15668
   433
fun raised name [] = "exception " ^ name ^ " raised"
wenzelm@15668
   434
  | raised name [msg] = "exception " ^ name ^ " raised: " ^ msg
wenzelm@15668
   435
  | raised name msgs = cat_lines (("exception " ^ name ^ " raised:") :: msgs);
wenzelm@5828
   436
wenzelm@15668
   437
fun exn_msg _ TERMINATE = "Exit."
wenzelm@15668
   438
  | exn_msg _ RESTART = "Restart."
wenzelm@15668
   439
  | exn_msg _ Interrupt = "Interrupt."
wenzelm@15668
   440
  | exn_msg _ ERROR = "ERROR."
wenzelm@15668
   441
  | exn_msg _ (ERROR_MESSAGE msg) = msg
wenzelm@16452
   442
  | exn_msg detailed (EXCURSION_FAIL (exn, msg)) = cat_lines [exn_msg detailed exn, msg]
wenzelm@16452
   443
  | exn_msg detailed (Context.DATA_FAIL (exn, msg)) = cat_lines [exn_msg detailed exn, msg]
wenzelm@15668
   444
  | exn_msg false (THEORY (msg, _)) = msg
wenzelm@16452
   445
  | exn_msg true (THEORY (msg, thys)) = raised "THEORY" (msg :: map Context.str_of_thy thys)
wenzelm@15668
   446
  | exn_msg _ (ProofContext.CONTEXT (msg, _)) = msg
wenzelm@15668
   447
  | exn_msg _ (Proof.STATE (msg, _)) = msg
wenzelm@15668
   448
  | exn_msg _ (ProofHistory.FAIL msg) = msg
wenzelm@15668
   449
  | exn_msg detailed (MetaSimplifier.SIMPROC_FAIL (name, exn)) =
wenzelm@15668
   450
      fail_msg detailed "simproc" ((name, Position.none), exn)
wenzelm@15668
   451
  | exn_msg detailed (Attrib.ATTRIB_FAIL info) = fail_msg detailed "attribute" info
wenzelm@15668
   452
  | exn_msg detailed (Method.METHOD_FAIL info) = fail_msg detailed "method" info
wenzelm@15668
   453
  | exn_msg detailed (Antiquote.ANTIQUOTE_FAIL info) = fail_msg detailed "antiquotation" info
wenzelm@15668
   454
  | exn_msg false (Syntax.AST (msg, _)) = raised "AST" [msg]
wenzelm@15668
   455
  | exn_msg true (Syntax.AST (msg, asts)) =
wenzelm@15668
   456
      raised "AST" (msg :: map (Pretty.string_of o Syntax.pretty_ast) asts)
wenzelm@15668
   457
  | exn_msg false (TYPE (msg, _, _)) = raised "TYPE" [msg]
wenzelm@15668
   458
  | exn_msg true (TYPE (msg, Ts, ts)) = raised "TYPE" (msg ::
wenzelm@15668
   459
        with_context Sign.string_of_typ Ts @ with_context Sign.string_of_term ts)
wenzelm@15668
   460
  | exn_msg false (TERM (msg, _)) = raised "TERM" [msg]
wenzelm@15668
   461
  | exn_msg true (TERM (msg, ts)) = raised "TERM" (msg :: with_context Sign.string_of_term ts)
wenzelm@15668
   462
  | exn_msg false (THM (msg, _, _)) = raised "THM" [msg]
wenzelm@15668
   463
  | exn_msg true (THM (msg, i, thms)) =
wenzelm@15668
   464
      raised ("THM " ^ string_of_int i) (msg :: map Display.string_of_thm thms)
wenzelm@15668
   465
  | exn_msg _ Option = raised "Option" []
wenzelm@15668
   466
  | exn_msg _ UnequalLengths = raised "UnequalLengths" []
wenzelm@15668
   467
  | exn_msg _ Empty = raised "Empty" []
wenzelm@15668
   468
  | exn_msg _ Subscript = raised "Subscript" []
wenzelm@16197
   469
  | exn_msg _ (Fail msg) = raised "Fail" [msg]
wenzelm@15668
   470
  | exn_msg _ exn = General.exnMessage exn
wenzelm@15668
   471
and fail_msg detailed kind ((name, pos), exn) =
wenzelm@15668
   472
  "Error in " ^ kind ^ " " ^ quote name ^ Position.str_of pos ^ ":\n" ^ exn_msg detailed exn;
ballarin@15519
   473
wenzelm@15668
   474
in
wenzelm@15668
   475
wenzelm@15668
   476
val debug = ref false;
wenzelm@15668
   477
wenzelm@15668
   478
fun exn_message exn = exn_msg (! debug) exn;
wenzelm@5828
   479
skalberg@15531
   480
fun print_exn NONE = ()
skalberg@15531
   481
  | print_exn (SOME (exn, s)) = error_msg (cat_lines [exn_message exn, s]);
wenzelm@5828
   482
wenzelm@15668
   483
end;
wenzelm@15668
   484
wenzelm@5828
   485
wenzelm@5828
   486
(* apply transitions *)
wenzelm@5828
   487
wenzelm@15668
   488
val quiet = ref false;
wenzelm@15668
   489
wenzelm@6664
   490
local
wenzelm@6664
   491
wenzelm@9010
   492
fun app int (tr as Transition {trans, int_only, print, no_timing, ...}) state =
wenzelm@5828
   493
  let
wenzelm@5828
   494
    val _ =
wenzelm@5828
   495
      if int orelse not int_only then ()
wenzelm@8722
   496
      else warning (command_msg "Interactive-only " tr);
wenzelm@6689
   497
    val (result, opt_exn) =
wenzelm@16197
   498
      (if ! Output.timing andalso not no_timing then (info (command_msg "" tr); timeap) else I)
wenzelm@9010
   499
        (apply_trans int trans) state;
wenzelm@8886
   500
    val _ = if int andalso print andalso not (! quiet) then print_state false result else ();
skalberg@15570
   501
  in (result, Option.map (fn UNDEF => type_error tr state | exn => exn) opt_exn) end;
wenzelm@6664
   502
wenzelm@6664
   503
in
wenzelm@5828
   504
wenzelm@6689
   505
fun apply int tr st =
wenzelm@6965
   506
  (case app int tr st of
skalberg@15531
   507
    (_, SOME TERMINATE) => NONE
skalberg@15531
   508
  | (_, SOME RESTART) => SOME (toplevel, NONE)
skalberg@15531
   509
  | (state', SOME (EXCURSION_FAIL exn_info)) => SOME (state', SOME exn_info)
skalberg@15531
   510
  | (state', SOME exn) => SOME (state', SOME (exn, at_command tr))
skalberg@15531
   511
  | (state', NONE) => SOME (state', NONE));
wenzelm@6664
   512
wenzelm@6664
   513
end;
wenzelm@5828
   514
wenzelm@5828
   515
wenzelm@5828
   516
(* excursion: toplevel -- apply transformers -- toplevel *)
wenzelm@5828
   517
wenzelm@6664
   518
local
wenzelm@6664
   519
wenzelm@5828
   520
fun excur [] x = x
wenzelm@9134
   521
  | excur ((tr, f) :: trs) (st, res) =
wenzelm@9134
   522
      (case apply false tr st of
skalberg@15531
   523
        SOME (st', NONE) =>
berghofe@15431
   524
          excur trs (st', transform_error (fn () => f st st' res) () handle exn =>
wenzelm@10324
   525
            raise EXCURSION_FAIL (exn, "Presentation failed\n" ^ at_command tr))
skalberg@15531
   526
      | SOME (st', SOME exn_info) => raise EXCURSION_FAIL exn_info
skalberg@15531
   527
      | NONE => raise EXCURSION_FAIL (TERMINATE, at_command tr));
wenzelm@5828
   528
wenzelm@6664
   529
in
wenzelm@6664
   530
wenzelm@9134
   531
fun excursion_result (trs, res) =
skalberg@15531
   532
  (case excur trs (State NONE, res) of
skalberg@15531
   533
    (State NONE, res') => res'
wenzelm@9134
   534
  | _ => raise ERROR_MESSAGE "Unfinished development at end of input")
wenzelm@9134
   535
  handle exn => error (exn_message exn);
wenzelm@9134
   536
wenzelm@5828
   537
fun excursion trs =
berghofe@15431
   538
  excursion_result (map (fn tr => (tr, fn _ => fn _ => fn _ => ())) trs, ());
wenzelm@7062
   539
wenzelm@6664
   540
end;
wenzelm@6664
   541
wenzelm@5828
   542
wenzelm@5828
   543
wenzelm@5828
   544
(** interactive transformations **)
wenzelm@5828
   545
wenzelm@5828
   546
(* the global state reference *)
wenzelm@5828
   547
skalberg@15531
   548
val global_state = ref (toplevel, NONE: (exn * string) option);
wenzelm@5828
   549
skalberg@15531
   550
fun set_state state = global_state := (state, NONE);
wenzelm@5828
   551
fun get_state () = fst (! global_state);
wenzelm@5828
   552
fun exn () = snd (! global_state);
wenzelm@5828
   553
wenzelm@5828
   554
wenzelm@6965
   555
(* the Isar source of transitions *)
wenzelm@6965
   556
nipkow@14091
   557
type 'a isar =
wenzelm@6965
   558
  (transition, (transition option,
wenzelm@12881
   559
    (OuterLex.token, (OuterLex.token option, (OuterLex.token, (OuterLex.token,
nipkow@14091
   560
      Position.T * (Symbol.symbol, (string, 'a) Source.source) Source.source)
wenzelm@12881
   561
          Source.source) Source.source) Source.source) Source.source) Source.source) Source.source;
wenzelm@6965
   562
wenzelm@6965
   563
wenzelm@5828
   564
(* apply transformers to global state *)
wenzelm@5828
   565
wenzelm@14985
   566
nonfix >> >>>;
wenzelm@5828
   567
wenzelm@5828
   568
fun >> tr =
wenzelm@5828
   569
  (case apply true tr (get_state ()) of
skalberg@15531
   570
    NONE => false
skalberg@15531
   571
  | SOME (state', exn_info) =>
wenzelm@5828
   572
      (global_state := (state', exn_info);
wenzelm@5828
   573
        check_stale state'; print_exn exn_info;
wenzelm@5828
   574
        true));
wenzelm@5828
   575
wenzelm@14985
   576
fun >>> [] = ()
wenzelm@14985
   577
  | >>> (tr :: trs) = if >> tr then >>> trs else ();
wenzelm@14985
   578
wenzelm@7602
   579
(*Note: this is for Poly/ML only, we really do not intend to exhibit
wenzelm@7602
   580
  interrupts here*)
skalberg@15531
   581
fun get_interrupt src = SOME (Source.get_single src) handle Interrupt => NONE;
wenzelm@7602
   582
wenzelm@5828
   583
fun raw_loop src =
wenzelm@7602
   584
  (case get_interrupt (Source.set_prompt (prompt_state (get_state ())) src) of
skalberg@15531
   585
    NONE => (writeln "\nInterrupt."; raw_loop src)
skalberg@15531
   586
  | SOME NONE => ()
skalberg@15531
   587
  | SOME (SOME (tr, src')) => if >> tr then raw_loop src' else ());
wenzelm@5828
   588
wenzelm@5828
   589
wenzelm@12987
   590
fun loop src = ignore_interrupt raw_loop src;
wenzelm@5828
   591
wenzelm@5828
   592
wenzelm@5828
   593
end;