-module type T =
-sig
- type tactic
- val first: tactics: (string * tactic) list -> tactic
- val thens: start: tactic -> continuations: tactic list -> tactic
- val then_: start: tactic -> continuation: tactic -> tactic
- val seq: tactics: tactic list -> tactic
- val repeat_tactic: tactic: tactic -> tactic
- val do_tactic: n: int -> tactic: tactic -> tactic
- val try_tactic: tactic: tactic -> tactic
- val solve_tactics: tactics: (string * tactic) list -> tactic
-
- val tactic: tactic -> tactic
- val skip: tactic
- val dot: tactic
- val semicolon: tactic
- val branch: tactic
- val shift: tactic
- val pos: int -> tactic
- val merge: tactic
- val focus: int list -> tactic
- val unfocus: tactic
-end
-
-module Make (S: Continuationals.Status) : T with type tactic = S.tactic =
-struct
- module C = Continuationals.Make (S)
-
- type tactic = S.tactic
-
- let fold_eval status ts =
- let istatus =
- List.fold_left (fun istatus t -> S.focus ~-1 (C.eval t istatus)) status ts
- in
- S.inject istatus
-
- (**
- naive implementation of ORELSE tactical, try a sequence of tactics in turn:
- if one fails pass to the next one and so on, eventually raises (failure "no
- tactics left")
- *)
- let first ~tactics =
- let rec first ~(tactics: (string * tactic) list) istatus =
- info (lazy "in Tacticals.first");
- match tactics with
- | (descr, tac)::tactics ->
- info (lazy ("Tacticals.first IS TRYING " ^ descr));
- (try
- let res = S.apply_tactic tac istatus in
- info (lazy ("Tacticals.first: " ^ descr ^ " succedeed!!!"));
- res
- with
- e ->
- match e with
- | (ProofEngineTypes.Fail _)
- | (CicTypeChecker.TypeCheckerFailure _)
- | (CicUnification.UnificationFailure _) ->
- info (lazy (
- "Tacticals.first failed with exn: " ^
- Printexc.to_string e));
- first ~tactics istatus
- | _ -> raise e) (* [e] must not be caught ; let's re-raise it *)
- | [] -> raise (ProofEngineTypes.Fail (lazy "first: no tactics left"))
- in
- S.mk_tactic (first ~tactics)
-
- let thens ~start ~continuations =
- S.mk_tactic
- (fun istatus ->
- fold_eval istatus
- ([ C.Tactical (C.Tactic start); C.Branch ]
- @ (HExtlib.list_concat ~sep:[ C.Shift ]
- (List.map (fun t -> [ C.Tactical (C.Tactic t) ]) continuations))
- @ [ C.Merge ]))
-
- let then_ ~start ~continuation =
- S.mk_tactic
- (fun istatus ->
- let ostatus = C.eval (C.Tactical (C.Tactic start)) istatus in
- let opened,closed = S.goals ostatus in
- match opened with
- [] -> ostatus
- | _ ->
- fold_eval (S.focus ~-1 ostatus)
- [ C.Semicolon;
- C.Tactical (C.Tactic continuation) ])
-
- let seq ~tactics =
- S.mk_tactic
- (fun istatus ->
- fold_eval istatus
- (HExtlib.list_concat ~sep:[ C.Semicolon ]
- (List.map (fun t -> [ C.Tactical (C.Tactic t) ]) tactics)))
-
- (* TODO: x debug: i due tatticali seguenti non contano quante volte hanno
- * applicato la tattica *)
-
- let rec step f output_status opened closed =
- match opened with
- | [] -> output_status, [], closed
- | head :: tail ->
- let status = S.focus head output_status in
- let output_status' = f status in
- let opened', closed' = S.goals output_status' in
- let output_status'', opened'', closed'' =
- step f output_status' tail []
- in
- output_status'', opened' @ opened'', closed' @ closed''
-
- (* This keep on appling tactic until it fails. When <tactic> generates more
- * than one goal, you have a tree of application on the tactic, repeat_tactic
- * works in depth on this tree *)
- let repeat_tactic ~tactic =
- let rec repeat_tactic ~tactic status =
- info (lazy "in repeat_tactic");
- try
- let output_status = S.apply_tactic tactic status in
- let opened, closed = S.goals output_status in
- let output_status, opened', closed' =
- step (repeat_tactic ~tactic) output_status opened closed
- in
- S.set_goals (opened', closed') output_status
- with
- (ProofEngineTypes.Fail _) as e ->
- info (lazy
- ("Tacticals.repeat_tactic failed after nth time with exception: "
- ^ Printexc.to_string e));
- S.apply_tactic S.id_tactic status
- in
- S.mk_tactic (repeat_tactic ~tactic)
-
- (* This tries to apply tactic n times *)
- let do_tactic ~n ~tactic =
- let rec do_tactic ~n ~tactic status =
- if n = 0 then
- S.apply_tactic S.id_tactic status
- else
- try
- let output_status = S.apply_tactic tactic status in
- let opened, closed = S.goals output_status in
- let output_status, opened', closed' =
- step (do_tactic ~n:(n-1) ~tactic) output_status opened closed
- in
- S.set_goals (opened', closed') output_status
- with
- (ProofEngineTypes.Fail _) as e ->
- info (lazy
- ("Tacticals.do_tactic failed after nth time with exception: "
- ^ Printexc.to_string e)) ;
- S.apply_tactic S.id_tactic status
- in
- S.mk_tactic (do_tactic ~n ~tactic)
-
- (* This applies tactic and catches its possible failure *)
- let try_tactic ~tactic =
- let rec try_tactic ~tactic status =
- info (lazy "in Tacticals.try_tactic");
- try
- S.apply_tactic tactic status
- with
- (ProofEngineTypes.Fail _) as e ->
- info (lazy (
- "Tacticals.try_tactic failed with exn: " ^ Printexc.to_string e));
- S.apply_tactic S.id_tactic status
- in
- S.mk_tactic (try_tactic ~tactic)
-
- (* This tries tactics until one of them doesn't _solve_ the goal *)
- (* TODO: si puo' unificare le 2(due) chiamate ricorsive? *)
- let solve_tactics ~tactics =
- let rec solve_tactics ~(tactics: (string * tactic) list) status =
- info (lazy "in Tacticals.solve_tactics");
- match tactics with
- | (descr, currenttactic)::moretactics ->
- info (lazy ("Tacticals.solve_tactics is trying " ^ descr));
- (try
- let output_status = S.apply_tactic currenttactic status in
- let opened, closed = S.goals output_status in
- match opened with
- | [] -> info (lazy ("Tacticals.solve_tactics: " ^ descr ^
- " solved the goal!!!"));
- (* questo significa che non ci sono piu' goal, o che current_tactic non ne ha
- * aperti di nuovi? (la 2a!) ##### nel secondo caso basta per dire che
- * solve_tactics has solved the goal? (si!) *)
- output_status
- | _ -> info (lazy ("Tacticals.solve_tactics: try the next tactic"));
- solve_tactics ~tactics:(moretactics) status
- with
- (ProofEngineTypes.Fail _) as e ->
- info (lazy (
- "Tacticals.solve_tactics: current tactic failed with exn: "
- ^ Printexc.to_string e));
- solve_tactics ~tactics status
- )
- | [] ->
- raise (ProofEngineTypes.Fail
- (lazy "solve_tactics cannot solve the goal"))
- in
- S.mk_tactic (solve_tactics ~tactics)
-
- let cont_proxy cont = S.mk_tactic (C.eval cont)
-
- let tactic t = cont_proxy (C.Tactical (C.Tactic t))
- let skip = cont_proxy (C.Tactical C.Skip)
- let dot = cont_proxy C.Dot
- let semicolon = cont_proxy C.Semicolon
- let branch = cont_proxy C.Branch
- let shift = cont_proxy C.Shift
- let pos i = cont_proxy (C.Pos i)
- let merge = cont_proxy C.Merge
- let focus goals = cont_proxy (C.Focus goals)
- let unfocus = cont_proxy C.Unfocus
-end
-