--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/src/Pure/Isar/toplevel.ML Mon Nov 09 15:33:48 1998 +0100
@@ -0,0 +1,357 @@
+(* Title: Pure/Isar/toplevel.ML
+ ID: $Id$
+ Author: Markus Wenzel, TU Muenchen
+
+The Isabelle/Isar toplevel.
+
+TODO:
+ - cleanup this file:
+ . more internal locality;
+ . clearer structure of control flow (exceptions, interrupts);
+ . clear division with outer_syntax.ML (!?);
+ - improve transactions; only in interactive mode!
+ - init / exit proof;
+ - display stack size in prompt;
+*)
+
+signature TOPLEVEL =
+sig
+ datatype node = Theory of theory | Proof of ProofHistory.T
+ type state
+ exception UNDEF
+ val toplevel: state
+ val print_state: state -> unit
+ val node_of: state -> node
+ val node_cases: (theory -> 'a) -> (Proof.state -> 'a) -> state -> 'a
+ val theory_of: state -> theory
+ val sign_of: state -> Sign.sg
+ val proof_of: state -> Proof.state
+ type transition
+ exception TERMINATE
+ exception BREAK
+ val empty: transition
+ val name: string -> transition -> transition
+ val position: Position.T -> transition -> transition
+ val interactive: bool -> transition -> transition
+ val print: transition -> transition
+ val reset: transition -> transition
+ val init: (state -> node) -> (node -> unit) -> transition -> transition
+ val keep: (state -> unit) -> transition -> transition
+ val exit: transition -> transition
+ val imperative: (unit -> unit) -> transition -> transition
+ val init_theory: (unit -> theory) -> (theory -> unit) -> transition -> transition
+(* FIXME
+ val init_proof: (theory -> ProofHistory.T) -> transition -> transition
+ val exit_proof: (ProofHistory.T -> unit) -> transition -> transition
+*)
+ val theory: (theory -> theory) -> transition -> transition
+ val proof: (ProofHistory.T -> ProofHistory.T) -> transition -> transition
+ val theory_to_proof: (theory -> ProofHistory.T) -> transition -> transition
+ val proof_to_theory: (ProofHistory.T -> theory) -> transition -> transition
+ type isar
+ val trace: bool ref
+ val apply: bool -> transition -> state -> (state * (exn * string) option) option
+ val excursion: transition list -> unit
+ val set_state: state -> unit
+ val get_state: unit -> state
+ val exn: unit -> (exn * string) option
+ val >> : transition -> bool
+ val loop: isar -> unit
+end;
+
+structure Toplevel: TOPLEVEL =
+struct
+
+
+(** toplevel state **)
+
+(* datatype node *)
+
+datatype node =
+ Theory of theory |
+ Proof of ProofHistory.T;
+
+fun print_node (Theory thy) = Pretty.writeln (Pretty.block
+ [Pretty.str "Theory:", Pretty.brk 1, Pretty.str (PureThy.get_name thy),
+ Pretty.str " =", Pretty.brk 1, Display.pretty_theory thy])
+ | print_node (Proof prf) =
+ (writeln "Proof:"; writeln ("Step #" ^ string_of_int (ProofHistory.position prf));
+ Proof.print_state (ProofHistory.current prf); writeln "Proof.");
+
+
+(* datatype state *)
+
+datatype state = State of (node * (node -> unit)) list;
+
+exception UNDEF;
+
+val toplevel = State [];
+
+fun print_state (State []) = ()
+ | print_state (State [(node, _)]) = print_node node
+ | print_state (State ((node, _) :: nodes)) =
+ (writeln ("Stack size: " ^ string_of_int (length nodes)); print_node node);
+
+fun str_of_state (State []) = "at top level"
+ | str_of_state (State ((Theory _, _) :: _)) = "in theory mode"
+ | str_of_state (State ((Proof _, _) :: _)) = "in proof mode";
+
+
+(* top node *)
+
+fun node_of (State []) = raise UNDEF
+ | node_of (State ((node, _) :: _)) = node;
+
+fun node_cases f g state =
+ (case node_of state of
+ Theory thy => f thy
+ | Proof prf => g (ProofHistory.current prf));
+
+val theory_of = node_cases I Proof.theory_of;
+val sign_of = Theory.sign_of o theory_of;
+val proof_of = node_cases (fn _ => raise UNDEF) I;
+
+
+
+(** toplevel transitions **)
+
+exception TERMINATE;
+exception BREAK;
+exception FAIL of exn * string;
+
+
+(* datatype trans *)
+
+datatype trans =
+ Reset |
+ Init of (state -> node) * (node -> unit) |
+ Keep of (state -> unit) |
+ Exit |
+ MapCurrent of node -> node;
+
+fun apply_trans Reset _ = State []
+ | apply_trans (Init (f, g)) (state as State nodes) = State ((f state, g) :: nodes)
+ | apply_trans (Keep f) state = (f state; state)
+ | apply_trans Exit (State []) = raise UNDEF
+ | apply_trans Exit (State ((node, g) :: nodes)) = (g node; State nodes)
+ | apply_trans (MapCurrent _) (State []) = raise UNDEF
+ | apply_trans (MapCurrent f) (State ((node, g) :: nodes)) = State ((f node, g) :: nodes);
+
+fun apply_union [] _ = raise UNDEF
+ | apply_union (tr :: trs) state =
+ apply_trans tr state handle UNDEF => apply_union trs state;
+
+
+(* datatype transition *)
+
+datatype transition = Transition of
+ {name: string,
+ pos: Position.T,
+ int_only: bool,
+ print: bool,
+ trans: trans list};
+
+fun make_transition (name, pos, int_only, print, trans) =
+ Transition {name = name, pos = pos, int_only = int_only, print = print, trans = trans};
+
+fun map_transition f (Transition {name, pos, int_only, print, trans}) =
+ make_transition (f (name, pos, int_only, print, trans));
+
+val empty = make_transition ("<unknown>", Position.none, false, false, []);
+
+
+(* diagnostics *)
+
+fun str_of_transition (Transition {name, pos, ...}) = quote name ^ Position.str_of pos;
+
+fun command_msg msg tr = msg ^ "command " ^ str_of_transition tr;
+fun at_command tr = command_msg "At " tr ^ ".";
+
+fun type_error tr state =
+ error (command_msg "Illegal application of " tr ^ " " ^ str_of_state state);
+
+
+(* modify transitions *)
+
+fun name nm = map_transition
+ (fn (_, pos, int_only, print, trans) => (nm, pos, int_only, print, trans));
+
+fun position pos = map_transition
+ (fn (name, _, int_only, print, trans) => (name, pos, int_only, print, trans));
+
+fun interactive int_only = map_transition
+ (fn (name, pos, _, print, trans) => (name, pos, int_only, print, trans));
+
+val print = map_transition
+ (fn (name, pos, int_only, _, trans) => (name, pos, int_only, true, trans));
+
+fun add_trans tr = map_transition
+ (fn (name, pos, int_only, print, trans) => (name, pos, int_only, print, trans @ [tr]));
+
+
+(* build transitions *)
+
+val reset = add_trans Reset;
+fun init f g = add_trans (Init (f, g));
+val keep = add_trans o Keep;
+val exit = add_trans Exit;
+val map_current = add_trans o MapCurrent;
+
+fun imperative f = keep (fn _ => f ());
+
+fun init_theory f g =
+ init (fn _ => Theory (f ())) (fn Theory thy => g thy | _ => raise UNDEF);
+
+fun theory f = map_current
+ (fn Theory thy => Theory (PureThy.transaction f thy) | _ => raise UNDEF);
+fun proof f = map_current (fn Proof prf => Proof (f prf) | _ => raise UNDEF);
+
+fun theory_to_proof f = map_current (fn Theory thy => Proof (f thy) | _ => raise UNDEF);
+fun proof_to_theory f = map_current (fn Proof prf => Theory (f prf) | _ => raise UNDEF);
+
+
+(* the Isar source of transitions *)
+
+type isar =
+ (transition, (transition option,
+ (OuterLex.token, (OuterLex.token,
+ Position.T * (Symbol.symbol, (string, unit) Source.source) Source.source)
+ Source.source) Source.source) Source.source) Source.source;
+
+
+
+(** toplevel transactions **)
+
+val trace = ref false;
+
+
+(* print exceptions *)
+
+fun raised name = "exception " ^ name ^ " raised";
+fun raised_msg name msg = raised name ^ ": " ^ msg;
+
+fun exn_message TERMINATE = "Exit."
+ | exn_message BREAK = "Break."
+ | exn_message Interrupt = "Interrupt (exec)"
+ | exn_message (ERROR_MESSAGE msg) = msg
+ | exn_message (THEORY (msg, _)) = msg
+ | exn_message (ProofContext.CONTEXT (msg, _)) = msg
+ | exn_message (Proof.STATE (msg, _)) = msg
+ | exn_message (ProofHistory.FAIL msg) = msg
+ | exn_message (Syntax.AST (msg, _)) = raised_msg "AST" msg
+ | exn_message (TYPE (msg, _, _)) = raised_msg "TYPE" msg
+ | exn_message (TERM (msg, _)) = raised_msg "TERM" msg
+ | exn_message (THM (msg, _, _)) = raised_msg "THM" msg
+ | exn_message Library.OPTION = raised "Library.OPTION"
+ | exn_message (Library.LIST msg) = raised_msg "Library.LIST" msg
+ | exn_message exn = General.exnMessage exn;
+
+fun print_exn None = ()
+ | print_exn (Some (exn, s)) = error_msg (cat_lines [exn_message exn, s]);
+
+
+(* transform interrupt (non-polymorphic) *)
+
+fun transform_interrupt_state f x =
+ let val y = ref (None: state option);
+ in exhibit_interrupt (fn () => y := Some (f x)) (); the (! y) end;
+
+fun transform_interrupt_isar f x =
+ let val y = ref (None: (transition * isar) option option);
+ in exhibit_interrupt (fn () => y := Some (f x)) (); the (! y) end;
+
+
+(* the dreaded stale signatures *)
+
+fun check_stale state =
+ (case try theory_of state of
+ None => ()
+ | Some thy =>
+ if Sign.is_stale (Theory.sign_of thy) then
+ warning "Stale signature encountered! Should redo current theory from start."
+ else ());
+
+
+(* apply transitions *)
+
+fun app int (tr as Transition {trans, int_only, print, ...}) state =
+ let
+ val _ =
+ if int orelse not int_only then ()
+ else warning (command_msg "Executing interactive-only " tr);
+ val state' =
+ (if ! trace then (writeln (command_msg "" tr); timeap (apply_union trans) state)
+ else apply_union trans state)
+ handle UNDEF => type_error tr state;
+ val _ = if int andalso print then print_state state' else ();
+ in state' end;
+
+fun rollback tr copy_thy (State ((Theory _, g) :: nodes)) =
+ (warning (command_msg "Rollback after " tr); State ((Theory copy_thy, g) :: nodes))
+ | rollback tr _ state =
+ (warning (command_msg "Ignoring rollback theory copy from " tr); state);
+
+fun apply int tr state =
+ Some (transform_interrupt_state (transform_error (app int tr)) state, None)
+ handle
+ TERMINATE => None
+ | FAIL exn_info => Some (state, Some exn_info)
+ | PureThy.ROLLBACK (copy_thy, opt_exn) =>
+ Some (rollback tr copy_thy state, apsome (fn exn => (exn, at_command tr)) opt_exn)
+ | exn => Some (state, Some (exn, at_command tr));
+
+
+(* excursion: toplevel -- apply transformers -- toplevel *)
+
+fun excur [] x = x
+ | excur (tr :: trs) x =
+ (case apply false tr x of
+ Some (x', None) => excur trs x'
+ | Some (x', Some exn_info) => raise FAIL exn_info
+ | None => raise FAIL (TERMINATE, at_command tr));
+
+fun excursion trs =
+ (case excur trs (State []) of
+ State [] => ()
+ | _ => error "Pending blocks at end of excursion");
+
+
+
+(** interactive transformations **)
+
+(* the global state reference *)
+
+val global_state = ref (State [], None: (exn * string) option);
+
+fun set_state state = global_state := (state, None);
+fun get_state () = fst (! global_state);
+fun exn () = snd (! global_state);
+
+
+(* apply transformers to global state *)
+
+nonfix >>;
+
+fun >> tr =
+ (case apply true tr (get_state ()) of
+ None => false
+ | Some (state', exn_info) =>
+ (global_state := (state', exn_info);
+ check_stale state'; print_exn exn_info;
+ true));
+
+fun get_interruptible src =
+ Some (transform_interrupt_isar Source.get_single src)
+ handle Interrupt => None;
+
+fun raw_loop src =
+ (case get_interruptible src of
+ None => (writeln "\nInterrupt (read)"; raw_loop src)
+ | Some None => ()
+ | Some (Some (tr, src')) => if >> tr then raw_loop src' else ());
+
+
+fun loop src = mask_interrupt raw_loop src;
+
+
+end;