src/Pure/Isar/toplevel.ML
author wenzelm
Sun May 03 17:52:27 2015 +0200 (2015-05-03 ago)
changeset 60245 79ad597fe699
parent 60190 906de96ba68a
child 60403 9be917b2f376
permissions -rw-r--r--
tuned output;
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(*  Title:      Pure/Isar/toplevel.ML
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    Author:     Markus Wenzel, TU Muenchen
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Isabelle/Isar toplevel transactions.
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*)
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signature TOPLEVEL =
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sig
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  exception UNDEF
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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 is_theory: state -> bool
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  val is_proof: state -> bool
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  val is_skipped_proof: state -> bool
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  val level: state -> int
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  val presentation_context_of: state -> Proof.context
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  val previous_context_of: state -> Proof.context option
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  val context_of: state -> Proof.context
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  val generic_theory_of: state -> generic_theory
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  val theory_of: state -> theory
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  val proof_of: state -> Proof.state
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  val proof_position_of: state -> int
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  val end_theory: Position.T -> state -> theory
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  val pretty_context: state -> Pretty.T list
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  val pretty_state: state -> Pretty.T list
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  val print_state: state -> unit
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  val pretty_abstract: state -> Pretty.T
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  val profiling: int Unsynchronized.ref
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  type transition
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  val empty: transition
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  val name_of: transition -> string
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  val pos_of: transition -> Position.T
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  val type_error: transition -> string
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  val name: string -> transition -> transition
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  val position: Position.T -> transition -> transition
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  val init_theory: (unit -> theory) -> transition -> transition
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  val is_init: transition -> bool
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  val modify_init: (unit -> theory) -> transition -> transition
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  val exit: 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 keep_proof: (state -> unit) -> transition -> transition
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  val ignored: Position.T -> transition
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  val is_ignored: transition -> bool
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  val malformed: Position.T -> string -> transition
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  val generic_theory: (generic_theory -> generic_theory) -> transition -> transition
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  val theory': (bool -> theory -> theory) -> transition -> transition
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  val theory: (theory -> theory) -> transition -> transition
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  val begin_local_theory: bool -> (theory -> local_theory) -> transition -> transition
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  val end_local_theory: transition -> transition
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  val open_target: (generic_theory -> local_theory) -> transition -> transition
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  val close_target: transition -> transition
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  val local_theory': (bool * Position.T) option -> (xstring * Position.T) option ->
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    (bool -> local_theory -> local_theory) -> transition -> transition
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  val local_theory: (bool * Position.T) option -> (xstring * Position.T) option ->
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    (local_theory -> local_theory) -> transition -> transition
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  val present_local_theory: (xstring * Position.T) option -> (state -> unit) ->
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    transition -> transition
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  val local_theory_to_proof': (bool * Position.T) option -> (xstring * Position.T) option ->
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    (bool -> local_theory -> Proof.state) -> transition -> transition
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  val local_theory_to_proof: (bool * Position.T) option -> (xstring * Position.T) option ->
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    (local_theory -> Proof.state) -> transition -> transition
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  val theory_to_proof: (theory -> Proof.state) -> transition -> transition
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  val end_proof: (bool -> Proof.state -> Proof.context) -> transition -> transition
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  val forget_proof: bool -> transition -> transition
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  val proofs': (bool -> Proof.state -> Proof.state Seq.result Seq.seq) -> transition -> transition
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  val proof': (bool -> Proof.state -> Proof.state) -> transition -> transition
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  val proofs: (Proof.state -> Proof.state Seq.result Seq.seq) -> transition -> transition
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  val proof: (Proof.state -> Proof.state) -> transition -> transition
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  val actual_proof: (Proof_Node.T -> Proof_Node.T) -> transition -> transition
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  val skip_proof: (int -> int) -> transition -> transition
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  val skip_proof_to_theory: (int -> bool) -> transition -> transition
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  val exec_id: Document_ID.exec -> transition -> transition
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  val setmp_thread_position: transition -> ('a -> 'b) -> 'a -> 'b
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  val add_hook: (transition -> state -> state -> unit) -> unit
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  val get_timing: transition -> Time.time option
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  val put_timing: Time.time option -> transition -> transition
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  val transition: bool -> transition -> state -> state * (exn * string) option
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  val command_errors: bool -> transition -> state -> Runtime.error list * state option
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  val command_exception: bool -> transition -> state -> state
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  val reset_theory: state -> state option
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  val reset_proof: state -> state option
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  type result
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  val join_results: result -> (transition * state) list
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  val element_result: Keyword.keywords -> transition Thy_Syntax.element -> state -> result * state
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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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exception UNDEF = Runtime.UNDEF;
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(* datatype node *)
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datatype node =
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  Theory of generic_theory * Proof.context option
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    (*theory with presentation context*) |
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  Proof of Proof_Node.T * ((Proof.context -> generic_theory) * generic_theory)
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    (*proof node, finish, original theory*) |
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  Skipped_Proof of int * (generic_theory * generic_theory);
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    (*proof depth, resulting theory, original theory*)
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val theory_node = fn Theory (gthy, _) => SOME gthy | _ => NONE;
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val proof_node = fn Proof (prf, _) => SOME prf | _ => NONE;
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val skipped_proof_node = fn Skipped_Proof _ => true | _ => false;
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fun cases_node f _ (Theory (gthy, _)) = f gthy
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  | cases_node _ g (Proof (prf, _)) = g (Proof_Node.current prf)
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  | cases_node f _ (Skipped_Proof (_, (gthy, _))) = f gthy;
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val context_node = cases_node Context.proof_of Proof.context_of;
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(* datatype state *)
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datatype state = State of node option * node option;  (*current, previous*)
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val toplevel = State (NONE, NONE);
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fun is_toplevel (State (NONE, _)) = true
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  | is_toplevel _ = false;
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fun level (State (NONE, _)) = 0
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  | level (State (SOME (Theory _), _)) = 0
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  | level (State (SOME (Proof (prf, _)), _)) = Proof.level (Proof_Node.current prf)
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  | level (State (SOME (Skipped_Proof (d, _)), _)) = d + 1;   (*different notion of proof depth!*)
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fun str_of_state (State (NONE, SOME (Theory (Context.Theory thy, _)))) =
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      "at top level, result theory " ^ quote (Context.theory_name thy)
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  | str_of_state (State (NONE, _)) = "at top level"
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  | str_of_state (State (SOME (Theory (Context.Theory _, _)), _)) = "in theory mode"
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  | str_of_state (State (SOME (Theory (Context.Proof _, _)), _)) = "in local theory mode"
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  | str_of_state (State (SOME (Proof _), _)) = "in proof mode"
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  | str_of_state (State (SOME (Skipped_Proof _), _)) = "in skipped proof mode";
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(* current node *)
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fun node_of (State (NONE, _)) = raise UNDEF
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  | node_of (State (SOME node, _)) = node;
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fun is_theory state = not (is_toplevel state) andalso is_some (theory_node (node_of state));
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fun is_proof state = not (is_toplevel state) andalso is_some (proof_node (node_of state));
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fun is_skipped_proof state = not (is_toplevel state) andalso skipped_proof_node (node_of state);
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fun node_case f g state = cases_node f g (node_of state);
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fun presentation_context_of state =
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  (case try node_of state of
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    SOME (Theory (_, SOME ctxt)) => ctxt
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  | SOME node => context_node node
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  | NONE => raise UNDEF);
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fun previous_context_of (State (_, NONE)) = NONE
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  | previous_context_of (State (_, SOME prev)) = SOME (context_node prev);
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val context_of = node_case Context.proof_of Proof.context_of;
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val generic_theory_of = node_case I (Context.Proof o Proof.context_of);
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val theory_of = node_case Context.theory_of Proof.theory_of;
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val proof_of = node_case (fn _ => error "No proof state") I;
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fun proof_position_of state =
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  (case node_of state of
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    Proof (prf, _) => Proof_Node.position prf
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  | _ => ~1);
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fun end_theory _ (State (NONE, SOME (Theory (Context.Theory thy, _)))) = thy
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  | end_theory pos (State (NONE, _)) = error ("Bad theory" ^ Position.here pos)
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  | end_theory pos (State (SOME _, _)) = error ("Unfinished theory" ^ Position.here pos);
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(* print state *)
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fun pretty_context state =
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  (case try node_of state of
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    NONE => []
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  | SOME node =>
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      let
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        val gthy =
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          (case node of
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            Theory (gthy, _) => gthy
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          | Proof (_, (_, gthy)) => gthy
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          | Skipped_Proof (_, (gthy, _)) => gthy);
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        val lthy = Context.cases (Named_Target.theory_init) I gthy;
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      in Local_Theory.pretty lthy end);
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fun pretty_state state =
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  (case try node_of state of
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    NONE => []
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  | SOME (Theory _) => []
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  | SOME (Proof (prf, _)) =>
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      Proof.pretty_state (Proof_Node.position prf) (Proof_Node.current prf)
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  | SOME (Skipped_Proof (d, _)) => [Pretty.str ("skipped proof: depth " ^ string_of_int d)]);
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val print_state = pretty_state #> Pretty.chunks #> Pretty.string_of #> Output.state;
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fun pretty_abstract state = Pretty.str ("<Isar " ^ str_of_state state ^ ">");
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(** toplevel transitions **)
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val profiling = Unsynchronized.ref 0;
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(* node transactions -- maintaining stable checkpoints *)
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exception FAILURE of state * exn;
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local
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fun reset_presentation (Theory (gthy, _)) = Theory (gthy, NONE)
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  | reset_presentation node = node;
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fun map_theory f (Theory (gthy, ctxt)) =
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      Theory (Context.mapping f (Local_Theory.raw_theory f) gthy, ctxt)
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  | map_theory _ node = node;
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in
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fun apply_transaction f g node =
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  let
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    val cont_node = reset_presentation node;
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    val context = cases_node I (Context.Proof o Proof.context_of) cont_node;
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    fun state_error e nd = (State (SOME nd, SOME node), e);
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    val (result, err) =
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      cont_node
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      |> Runtime.controlled_execution (SOME context) f
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      |> state_error NONE
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      handle exn => state_error (SOME exn) cont_node;
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  in
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    (case err of
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      NONE => tap g result
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    | SOME exn => raise FAILURE (result, exn))
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  end;
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val exit_transaction =
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  apply_transaction
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    (fn Theory (Context.Theory thy, _) => Theory (Context.Theory (Theory.end_theory thy), NONE)
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      | node => node) (K ())
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  #> (fn State (node', _) => State (NONE, node'));
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end;
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(* primitive transitions *)
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datatype trans =
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  Init of unit -> theory |               (*init theory*)
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  Exit |                                 (*formal exit of theory*)
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  Keep of bool -> state -> unit |        (*peek at state*)
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  Transaction of (bool -> node -> node) * (state -> unit);  (*node transaction and presentation*)
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local
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fun apply_tr _ (Init f) (State (NONE, _)) =
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      State (SOME (Theory (Context.Theory (Runtime.controlled_execution NONE f ()), NONE)), NONE)
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  | apply_tr _ Exit (State (SOME (state as Theory (Context.Theory _, _)), _)) =
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      exit_transaction state
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  | apply_tr int (Keep f) state =
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      Runtime.controlled_execution (try generic_theory_of state) (fn x => tap (f int) x) state
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  | apply_tr int (Transaction (f, g)) (State (SOME state, _)) =
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      apply_transaction (fn x => f int x) g state
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  | apply_tr _ _ _ = raise UNDEF;
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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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      apply_union int trs state
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        handle Runtime.UNDEF => apply_tr int tr state
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          | FAILURE (alt_state, UNDEF) => apply_tr int tr 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,              (*command name*)
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  pos: Position.T,           (*source position*)
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  timing: Time.time option,  (*prescient timing information*)
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  trans: trans list};        (*primitive transitions (union)*)
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fun make_transition (name, pos, timing, trans) =
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  Transition {name = name, pos = pos, timing = timing, trans = trans};
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fun map_transition f (Transition {name, pos, timing, trans}) =
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  make_transition (f (name, pos, timing, trans));
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val empty = make_transition ("", Position.none, NONE, []);
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(* diagnostics *)
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fun name_of (Transition {name, ...}) = name;
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fun pos_of (Transition {pos, ...}) = pos;
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fun command_msg msg tr =
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  msg ^ "command " ^ quote (Markup.markup Markup.keyword1 (name_of tr)) ^
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    Position.here (pos_of tr);
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fun at_command tr = command_msg "At " tr;
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fun type_error tr = command_msg "Bad context for " tr;
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(* modify transitions *)
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fun name name = map_transition (fn (_, pos, timing, trans) =>
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  (name, pos, timing, trans));
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fun position pos = map_transition (fn (name, _, timing, trans) =>
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  (name, pos, timing, trans));
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fun add_trans tr = map_transition (fn (name, pos, timing, trans) =>
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  (name, pos, timing, tr :: trans));
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val reset_trans = map_transition (fn (name, pos, timing, _) =>
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  (name, pos, timing, []));
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(* basic transitions *)
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fun init_theory f = add_trans (Init f);
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wenzelm@44187
   336
fun is_init (Transition {trans = [Init _], ...}) = true
wenzelm@44187
   337
  | is_init _ = false;
wenzelm@44187
   338
wenzelm@44187
   339
fun modify_init f tr = if is_init tr then init_theory f (reset_trans tr) else tr;
wenzelm@37977
   340
wenzelm@6689
   341
val exit = add_trans Exit;
wenzelm@7612
   342
val keep' = add_trans o Keep;
wenzelm@30366
   343
wenzelm@30366
   344
fun present_transaction f g = add_trans (Transaction (f, g));
wenzelm@30366
   345
fun transaction f = present_transaction f (K ());
wenzelm@5828
   346
wenzelm@7612
   347
fun keep f = add_trans (Keep (fn _ => f));
wenzelm@5828
   348
wenzelm@60190
   349
fun keep_proof f =
wenzelm@60190
   350
  keep (fn st =>
wenzelm@60190
   351
    if is_proof st then f st
wenzelm@60190
   352
    else if is_skipped_proof st then ()
wenzelm@60190
   353
    else warning "No proof state");
wenzelm@60190
   354
wenzelm@60189
   355
fun ignored pos = empty |> name "<ignored>" |> position pos |> keep (fn _ => ());
wenzelm@51268
   356
fun is_ignored tr = name_of tr = "<ignored>";
wenzelm@48772
   357
wenzelm@27840
   358
fun malformed pos msg =
wenzelm@60189
   359
  empty |> name "<malformed>" |> position pos |> keep (fn _ => error msg);
wenzelm@27840
   360
wenzelm@21007
   361
wenzelm@49012
   362
(* theory transitions *)
wenzelm@44304
   363
wenzelm@27601
   364
fun generic_theory f = transaction (fn _ =>
wenzelm@26491
   365
  (fn Theory (gthy, _) => Theory (f gthy, NONE)
wenzelm@26491
   366
    | _ => raise UNDEF));
wenzelm@26491
   367
wenzelm@27601
   368
fun theory' f = transaction (fn int =>
wenzelm@33725
   369
  (fn Theory (Context.Theory thy, _) =>
wenzelm@33725
   370
      let val thy' = thy
wenzelm@49012
   371
        |> Sign.new_group
wenzelm@33725
   372
        |> f int
wenzelm@33725
   373
        |> Sign.reset_group;
wenzelm@33725
   374
      in Theory (Context.Theory thy', NONE) end
wenzelm@20963
   375
    | _ => raise UNDEF));
wenzelm@20963
   376
wenzelm@20963
   377
fun theory f = theory' (K f);
wenzelm@20963
   378
wenzelm@27601
   379
fun begin_local_theory begin f = transaction (fn _ =>
wenzelm@20963
   380
  (fn Theory (Context.Theory thy, _) =>
wenzelm@20963
   381
        let
wenzelm@20985
   382
          val lthy = f thy;
haftmann@57483
   383
          val gthy = if begin then Context.Proof lthy else Context.Theory (Named_Target.exit lthy);
wenzelm@56897
   384
          val _ =
wenzelm@60245
   385
            (case Local_Theory.pretty lthy of
wenzelm@60245
   386
              [] => ()
wenzelm@60245
   387
            | prts => Output.state (Pretty.string_of (Pretty.chunks prts)));
wenzelm@21294
   388
        in Theory (gthy, SOME lthy) end
wenzelm@20963
   389
    | _ => raise UNDEF));
wenzelm@17076
   390
wenzelm@27601
   391
val end_local_theory = transaction (fn _ =>
haftmann@57483
   392
  (fn Theory (Context.Proof lthy, _) => Theory (Context.Theory (Named_Target.exit lthy), SOME lthy)
wenzelm@21007
   393
    | _ => raise UNDEF));
wenzelm@21007
   394
wenzelm@47069
   395
fun open_target f = transaction (fn _ =>
wenzelm@47069
   396
  (fn Theory (gthy, _) =>
wenzelm@47069
   397
        let val lthy = f gthy
wenzelm@47069
   398
        in Theory (Context.Proof lthy, SOME lthy) end
wenzelm@47069
   399
    | _ => raise UNDEF));
wenzelm@47069
   400
wenzelm@47069
   401
val close_target = transaction (fn _ =>
wenzelm@47069
   402
  (fn Theory (Context.Proof lthy, _) =>
wenzelm@47069
   403
        (case try Local_Theory.close_target lthy of
wenzelm@50739
   404
          SOME ctxt' =>
wenzelm@50739
   405
            let
wenzelm@50739
   406
              val gthy' =
wenzelm@50739
   407
                if can Local_Theory.assert ctxt'
wenzelm@50739
   408
                then Context.Proof ctxt'
wenzelm@50739
   409
                else Context.Theory (Proof_Context.theory_of ctxt');
wenzelm@50739
   410
            in Theory (gthy', SOME lthy) end
wenzelm@47069
   411
        | NONE => raise UNDEF)
wenzelm@47069
   412
    | _ => raise UNDEF));
wenzelm@47069
   413
wenzelm@59990
   414
fun restricted_context (SOME (strict, scope)) =
wenzelm@59990
   415
      Proof_Context.map_naming (Name_Space.restricted strict scope)
wenzelm@59990
   416
  | restricted_context NONE = I;
wenzelm@59939
   417
wenzelm@59990
   418
fun local_theory' restricted target f = present_transaction (fn int =>
wenzelm@21294
   419
  (fn Theory (gthy, _) =>
wenzelm@21294
   420
        let
wenzelm@59923
   421
          val (finish, lthy) = Named_Target.switch target gthy;
wenzelm@47274
   422
          val lthy' = lthy
wenzelm@59990
   423
            |> restricted_context restricted
wenzelm@49012
   424
            |> Local_Theory.new_group
wenzelm@33725
   425
            |> f int
wenzelm@33725
   426
            |> Local_Theory.reset_group;
wenzelm@21294
   427
        in Theory (finish lthy', SOME lthy') end
wenzelm@59032
   428
    | _ => raise UNDEF))
wenzelm@59032
   429
  (K ());
wenzelm@15668
   430
wenzelm@59990
   431
fun local_theory restricted target f = local_theory' restricted target (K f);
wenzelm@21007
   432
wenzelm@59923
   433
fun present_local_theory target = present_transaction (fn int =>
wenzelm@59032
   434
  (fn Theory (gthy, _) =>
wenzelm@59923
   435
        let val (finish, lthy) = Named_Target.switch target gthy;
wenzelm@59032
   436
        in Theory (finish lthy, SOME lthy) end
wenzelm@59032
   437
    | _ => raise UNDEF));
wenzelm@21007
   438
wenzelm@21007
   439
wenzelm@21007
   440
(* proof transitions *)
wenzelm@21007
   441
wenzelm@27601
   442
fun end_proof f = transaction (fn int =>
wenzelm@24795
   443
  (fn Proof (prf, (finish, _)) =>
wenzelm@33390
   444
        let val state = Proof_Node.current prf in
wenzelm@21007
   445
          if can (Proof.assert_bottom true) state then
wenzelm@21007
   446
            let
wenzelm@21007
   447
              val ctxt' = f int state;
wenzelm@21007
   448
              val gthy' = finish ctxt';
wenzelm@21007
   449
            in Theory (gthy', SOME ctxt') end
wenzelm@21007
   450
          else raise UNDEF
wenzelm@21007
   451
        end
wenzelm@51555
   452
    | Skipped_Proof (0, (gthy, _)) => Theory (gthy, NONE)
wenzelm@21007
   453
    | _ => raise UNDEF));
wenzelm@21007
   454
wenzelm@21294
   455
local
wenzelm@21294
   456
wenzelm@47274
   457
fun begin_proof init = transaction (fn int =>
wenzelm@21294
   458
  (fn Theory (gthy, _) =>
wenzelm@21294
   459
    let
wenzelm@47274
   460
      val (finish, prf) = init int gthy;
wenzelm@52499
   461
      val skip = Goal.skip_proofs_enabled ();
wenzelm@58795
   462
      val schematic_goal = try Proof.schematic_goal prf;
wenzelm@47274
   463
      val _ =
wenzelm@58795
   464
        if skip andalso schematic_goal = SOME true then
wenzelm@47274
   465
          warning "Cannot skip proof of schematic goal statement"
wenzelm@47274
   466
        else ();
wenzelm@21294
   467
    in
wenzelm@58795
   468
      if skip andalso schematic_goal = SOME false then
wenzelm@51555
   469
        Skipped_Proof (0, (finish (Proof.global_skip_proof true prf), gthy))
wenzelm@47274
   470
      else Proof (Proof_Node.init prf, (finish, gthy))
wenzelm@21294
   471
    end
wenzelm@21294
   472
  | _ => raise UNDEF));
wenzelm@21294
   473
wenzelm@21294
   474
in
wenzelm@21294
   475
wenzelm@59990
   476
fun local_theory_to_proof' restricted target f = begin_proof
wenzelm@47274
   477
  (fn int => fn gthy =>
wenzelm@59923
   478
    let
wenzelm@59923
   479
      val (finish, lthy) = Named_Target.switch target gthy;
wenzelm@59923
   480
      val prf = lthy
wenzelm@59990
   481
        |> restricted_context restricted
wenzelm@59923
   482
        |> Local_Theory.new_group
wenzelm@59923
   483
        |> f int;
wenzelm@59923
   484
    in (finish o Local_Theory.reset_group, prf) end);
wenzelm@24780
   485
wenzelm@59990
   486
fun local_theory_to_proof restricted target f =
wenzelm@59990
   487
  local_theory_to_proof' restricted target (K f);
wenzelm@21294
   488
wenzelm@21294
   489
fun theory_to_proof f = begin_proof
wenzelm@47274
   490
  (fn _ => fn gthy =>
wenzelm@56057
   491
    (Context.Theory o Sign.reset_group o Sign.change_check o Proof_Context.theory_of,
wenzelm@49062
   492
      (case gthy of
wenzelm@52788
   493
        Context.Theory thy => f (Sign.new_group thy)
wenzelm@49012
   494
      | _ => raise UNDEF)));
wenzelm@21294
   495
wenzelm@21294
   496
end;
wenzelm@21294
   497
wenzelm@58798
   498
fun forget_proof strict = transaction (fn _ =>
wenzelm@58798
   499
  (fn Proof (prf, (_, orig_gthy)) =>
wenzelm@58798
   500
        if strict andalso not (Proof.has_bottom_goal (Proof_Node.current prf))
wenzelm@58798
   501
        then raise UNDEF else Theory (orig_gthy, NONE)
wenzelm@51555
   502
    | Skipped_Proof (_, (_, orig_gthy)) => Theory (orig_gthy, NONE)
wenzelm@21007
   503
    | _ => raise UNDEF));
wenzelm@21007
   504
wenzelm@27601
   505
fun proofs' f = transaction (fn int =>
wenzelm@49062
   506
  (fn Proof (prf, x) => Proof (Proof_Node.applys (f int) prf, x)
wenzelm@51555
   507
    | skip as Skipped_Proof _ => skip
wenzelm@16815
   508
    | _ => raise UNDEF));
wenzelm@15668
   509
wenzelm@49863
   510
fun proof' f = proofs' ((Seq.single o Seq.Result) oo f);
wenzelm@17904
   511
val proofs = proofs' o K;
wenzelm@6689
   512
val proof = proof' o K;
wenzelm@16815
   513
wenzelm@27601
   514
fun actual_proof f = transaction (fn _ =>
wenzelm@21007
   515
  (fn Proof (prf, x) => Proof (f prf, x)
wenzelm@20963
   516
    | _ => raise UNDEF));
wenzelm@16815
   517
wenzelm@27601
   518
fun skip_proof f = transaction (fn _ =>
wenzelm@51555
   519
  (fn Skipped_Proof (h, x) => Skipped_Proof (f h, x)
wenzelm@18563
   520
    | _ => raise UNDEF));
wenzelm@18563
   521
wenzelm@27601
   522
fun skip_proof_to_theory pred = transaction (fn _ =>
wenzelm@51555
   523
  (fn Skipped_Proof (d, (gthy, _)) => if pred d then Theory (gthy, NONE) else raise UNDEF
wenzelm@33725
   524
    | _ => raise UNDEF));
wenzelm@5828
   525
wenzelm@5828
   526
wenzelm@5828
   527
wenzelm@5828
   528
(** toplevel transactions **)
wenzelm@5828
   529
wenzelm@52527
   530
(* runtime position *)
wenzelm@27427
   531
wenzelm@52536
   532
fun exec_id id (tr as Transition {pos, ...}) =
wenzelm@52536
   533
  position (Position.put_id (Document_ID.print id) pos) tr;
wenzelm@25799
   534
wenzelm@25960
   535
fun setmp_thread_position (Transition {pos, ...}) f x =
wenzelm@25819
   536
  Position.setmp_thread_data pos f x;
wenzelm@25799
   537
wenzelm@25799
   538
wenzelm@28095
   539
(* post-transition hooks *)
wenzelm@28095
   540
wenzelm@37905
   541
local
wenzelm@56147
   542
  val hooks =
wenzelm@56147
   543
    Synchronized.var "Toplevel.hooks" ([]: (transition -> state -> state -> unit) list);
wenzelm@37905
   544
in
wenzelm@28095
   545
wenzelm@56147
   546
fun add_hook hook = Synchronized.change hooks (cons hook);
wenzelm@56147
   547
fun get_hooks () = Synchronized.value hooks;
wenzelm@28095
   548
wenzelm@28095
   549
end;
wenzelm@28095
   550
wenzelm@28095
   551
wenzelm@5828
   552
(* apply transitions *)
wenzelm@5828
   553
wenzelm@51217
   554
fun get_timing (Transition {timing, ...}) = timing;
wenzelm@58893
   555
fun put_timing timing = map_transition (fn (name, pos, _, trans) => (name, pos, timing, trans));
wenzelm@51217
   556
wenzelm@6664
   557
local
wenzelm@6664
   558
wenzelm@56895
   559
fun app int (tr as Transition {name, trans, ...}) =
wenzelm@25819
   560
  setmp_thread_position tr (fn state =>
wenzelm@25799
   561
    let
wenzelm@51595
   562
      val timing_start = Timing.start ();
wenzelm@25799
   563
wenzelm@51595
   564
      val (result, opt_err) =
wenzelm@51658
   565
         state |> (apply_trans int trans |> ! profiling > 0 ? profile (! profiling));
wenzelm@56895
   566
wenzelm@51595
   567
      val timing_result = Timing.result timing_start;
wenzelm@51662
   568
      val timing_props =
wenzelm@51662
   569
        Markup.command_timing :: (Markup.nameN, name_of tr) :: Position.properties_of (pos_of tr);
wenzelm@51662
   570
      val _ = Timing.protocol_message timing_props timing_result;
wenzelm@60076
   571
    in (result, Option.map (fn UNDEF => ERROR (type_error tr) | exn => exn) opt_err) end);
wenzelm@6664
   572
wenzelm@6664
   573
in
wenzelm@5828
   574
wenzelm@26602
   575
fun transition int tr st =
wenzelm@28095
   576
  let
wenzelm@59055
   577
    val (st', opt_err) = app int tr st;
wenzelm@59055
   578
    val opt_err' = opt_err |> Option.map
wenzelm@59055
   579
      (fn Runtime.EXCURSION_FAIL exn_info => exn_info
wenzelm@59055
   580
        | exn => (Runtime.exn_context (try context_of st) exn, at_command tr));
wenzelm@59055
   581
    val _ = get_hooks () |> List.app (fn f => (try (fn () => f tr st st') (); ()));
wenzelm@59055
   582
  in (st', opt_err') end;
wenzelm@6664
   583
wenzelm@6664
   584
end;
wenzelm@5828
   585
wenzelm@5828
   586
wenzelm@51284
   587
(* managed commands *)
wenzelm@5828
   588
wenzelm@51323
   589
fun command_errors int tr st =
wenzelm@51323
   590
  (case transition int tr st of
wenzelm@59055
   591
    (st', NONE) => ([], SOME st')
wenzelm@59055
   592
  | (_, SOME (exn, _)) => (Runtime.exn_messages_ids exn, NONE));
wenzelm@51323
   593
wenzelm@51284
   594
fun command_exception int tr st =
wenzelm@51284
   595
  (case transition int tr st of
wenzelm@59055
   596
    (st', NONE) => st'
wenzelm@59055
   597
  | (_, SOME (exn, info)) =>
wenzelm@59055
   598
      if Exn.is_interrupt exn then reraise exn
wenzelm@59055
   599
      else raise Runtime.EXCURSION_FAIL (exn, info));
wenzelm@27576
   600
wenzelm@58848
   601
val command = command_exception false;
wenzelm@51284
   602
wenzelm@28433
   603
wenzelm@56937
   604
(* reset state *)
wenzelm@56937
   605
wenzelm@56937
   606
local
wenzelm@56937
   607
wenzelm@56937
   608
fun reset_state check trans st =
wenzelm@56937
   609
  if check st then NONE
wenzelm@56937
   610
  else #2 (command_errors false (trans empty) st);
wenzelm@56937
   611
wenzelm@56937
   612
in
wenzelm@56937
   613
wenzelm@58798
   614
val reset_theory = reset_state is_theory (forget_proof false);
wenzelm@56937
   615
wenzelm@56937
   616
val reset_proof =
wenzelm@56937
   617
  reset_state is_proof
wenzelm@56937
   618
    (transaction (fn _ =>
wenzelm@56937
   619
      (fn Theory (gthy, _) => Skipped_Proof (0, (gthy, gthy))
wenzelm@56937
   620
        | _ => raise UNDEF)));
wenzelm@56937
   621
wenzelm@56937
   622
end;
wenzelm@56937
   623
wenzelm@56937
   624
wenzelm@46959
   625
(* scheduled proof result *)
wenzelm@28433
   626
wenzelm@51332
   627
datatype result =
wenzelm@51332
   628
  Result of transition * state |
wenzelm@51332
   629
  Result_List of result list |
wenzelm@51332
   630
  Result_Future of result future;
wenzelm@51332
   631
wenzelm@51332
   632
fun join_results (Result x) = [x]
wenzelm@51332
   633
  | join_results (Result_List xs) = maps join_results xs
wenzelm@51332
   634
  | join_results (Result_Future x) = join_results (Future.join x);
wenzelm@51332
   635
wenzelm@51323
   636
local
wenzelm@51323
   637
wenzelm@47417
   638
structure Result = Proof_Data
wenzelm@28974
   639
(
wenzelm@51332
   640
  type T = result;
wenzelm@59150
   641
  fun init _ = Result_List [];
wenzelm@28974
   642
);
wenzelm@28974
   643
wenzelm@51332
   644
val get_result = Result.get o Proof.context_of;
wenzelm@51332
   645
val put_result = Proof.map_context o Result.put;
wenzelm@51324
   646
wenzelm@51423
   647
fun timing_estimate include_head elem =
wenzelm@51423
   648
  let
wenzelm@51423
   649
    val trs = Thy_Syntax.flat_element elem |> not include_head ? tl;
wenzelm@51423
   650
    val timings = map get_timing trs;
wenzelm@51423
   651
  in
wenzelm@51423
   652
    if forall is_some timings then
wenzelm@51423
   653
      SOME (fold (curry Time.+ o the) timings Time.zeroTime)
wenzelm@51423
   654
    else NONE
wenzelm@51423
   655
  end;
wenzelm@51423
   656
wenzelm@51423
   657
fun priority NONE = ~1
wenzelm@51423
   658
  | priority (SOME estimate) =
wenzelm@51423
   659
      Int.min (Real.floor (Real.max (Math.log10 (Time.toReal estimate), ~3.0)) - 3, ~1);
wenzelm@51423
   660
wenzelm@51423
   661
fun proof_future_enabled estimate st =
wenzelm@51324
   662
  (case try proof_of st of
wenzelm@51324
   663
    NONE => false
wenzelm@51324
   664
  | SOME state =>
wenzelm@51324
   665
      not (Proof.is_relevant state) andalso
wenzelm@51324
   666
       (if can (Proof.assert_bottom true) state
wenzelm@53189
   667
        then Goal.future_enabled 1
wenzelm@51423
   668
        else
wenzelm@51423
   669
          (case estimate of
wenzelm@53189
   670
            NONE => Goal.future_enabled 2
wenzelm@51423
   671
          | SOME t => Goal.future_enabled_timing t)));
wenzelm@51278
   672
wenzelm@58923
   673
fun atom_result keywords tr st =
wenzelm@51323
   674
  let
wenzelm@51323
   675
    val st' =
wenzelm@58923
   676
      if Goal.future_enabled 1 andalso Keyword.is_diag keywords (name_of tr) then
wenzelm@53192
   677
        (Execution.fork
wenzelm@51605
   678
          {name = "Toplevel.diag", pos = pos_of tr,
wenzelm@51605
   679
            pri = priority (timing_estimate true (Thy_Syntax.atom tr))}
wenzelm@51605
   680
          (fn () => command tr st); st)
wenzelm@51323
   681
      else command tr st;
wenzelm@51332
   682
  in (Result (tr, st'), st') end;
wenzelm@51323
   683
wenzelm@51323
   684
in
wenzelm@51323
   685
wenzelm@58923
   686
fun element_result keywords (Thy_Syntax.Element (tr, NONE)) st = atom_result keywords tr st
wenzelm@58923
   687
  | element_result keywords (elem as Thy_Syntax.Element (head_tr, SOME element_rest)) st =
wenzelm@48633
   688
      let
wenzelm@58923
   689
        val (head_result, st') = atom_result keywords head_tr st;
wenzelm@51332
   690
        val (body_elems, end_tr) = element_rest;
wenzelm@51423
   691
        val estimate = timing_estimate false elem;
wenzelm@51324
   692
      in
wenzelm@51423
   693
        if not (proof_future_enabled estimate st')
wenzelm@51324
   694
        then
wenzelm@51332
   695
          let
wenzelm@51332
   696
            val proof_trs = maps Thy_Syntax.flat_element body_elems @ [end_tr];
wenzelm@58923
   697
            val (proof_results, st'') = fold_map (atom_result keywords) proof_trs st';
wenzelm@51332
   698
          in (Result_List (head_result :: proof_results), st'') end
wenzelm@51324
   699
        else
wenzelm@51324
   700
          let
wenzelm@51324
   701
            val finish = Context.Theory o Proof_Context.theory_of;
wenzelm@28974
   702
wenzelm@51605
   703
            val future_proof =
wenzelm@51605
   704
              Proof.future_proof (fn state =>
wenzelm@53192
   705
                Execution.fork
wenzelm@51605
   706
                  {name = "Toplevel.future_proof", pos = pos_of head_tr, pri = priority estimate}
wenzelm@51605
   707
                  (fn () =>
wenzelm@51605
   708
                    let
wenzelm@51605
   709
                      val State (SOME (Proof (prf, (_, orig_gthy))), prev) = st';
wenzelm@51605
   710
                      val prf' = Proof_Node.apply (K state) prf;
wenzelm@51605
   711
                      val (result, result_state) =
wenzelm@51605
   712
                        State (SOME (Proof (prf', (finish, orig_gthy))), prev)
wenzelm@58923
   713
                        |> fold_map (element_result keywords) body_elems ||> command end_tr;
wenzelm@51605
   714
                    in (Result_List result, presentation_context_of result_state) end))
wenzelm@51332
   715
              #> (fn (res, state') => state' |> put_result (Result_Future res));
wenzelm@51332
   716
wenzelm@51332
   717
            val forked_proof =
wenzelm@51332
   718
              proof (future_proof #>
wenzelm@51332
   719
                (fn state => state |> Proof.local_done_proof |> put_result (get_result state))) o
wenzelm@51332
   720
              end_proof (fn _ => future_proof #>
wenzelm@51332
   721
                (fn state => state |> Proof.global_done_proof |> Result.put (get_result state)));
wenzelm@28974
   722
wenzelm@51324
   723
            val st'' = st'
wenzelm@56895
   724
              |> command (head_tr |> reset_trans |> forked_proof);
wenzelm@51332
   725
            val end_result = Result (end_tr, st'');
wenzelm@51324
   726
            val result =
wenzelm@51332
   727
              Result_List [head_result, Result.get (presentation_context_of st''), end_result];
wenzelm@51324
   728
          in (result, st'') end
wenzelm@51324
   729
      end;
wenzelm@28433
   730
wenzelm@6664
   731
end;
wenzelm@51323
   732
wenzelm@51323
   733
end;