(* Title: Pure/more_pattern.ML Author: Tobias Nipkow, TU Muenchen Author: Stefan Berghofer, TU Muenchen Add-ons to Higher-Order Patterns, outside the inference kernel. *) signature PATTERN = sig include PATTERN val matches: theory -> term * term -> bool val matchess: theory -> term list * term list -> bool val equiv: theory -> term * term -> bool val first_order: term -> bool val match_rew: theory -> term -> term * term -> (term * term) option val rewrite_term: theory -> (term * term) list -> (term -> term option) list -> term -> term val rewrite_term_top: theory -> (term * term) list -> (term -> term option) list -> term -> term end; structure Pattern: PATTERN = struct fun matches thy po = (Pattern.match thy po (Vartab.empty, Vartab.empty); true) handle Pattern.MATCH => false; fun matchess thy (ps, os) = length ps = length os andalso ((fold (Pattern.match thy) (ps ~~ os) (Vartab.empty, Vartab.empty); true) handle Pattern.MATCH => false); fun equiv thy (t, u) = matches thy (t, u) andalso matches thy (u, t); fun first_order (Abs (_, _, t)) = first_order t | first_order (Var _ $ _) = false | first_order (t $ u) = first_order t andalso first_order u | first_order _ = true; (* rewriting -- simple but fast *) fun match_rew thy tm (tm1, tm2) = let val rtm = the_default tm2 (Term.rename_abs tm1 tm tm2) in SOME (Envir.subst_term (Pattern.match thy (tm1, tm) (Vartab.empty, Vartab.empty)) rtm, rtm) handle Pattern.MATCH => NONE end; fun gen_rewrite_term bot thy rules procs tm = let val skel0 = Bound 0; fun variant_absfree bounds (x, T, t) = let val (x', t') = Term.dest_abs (Name.bound bounds, T, t); fun abs u = Abs (x, T, abstract_over (Free (x', T), u)); in (abs, t') end; fun rew (Abs (_, _, body) $ t) = SOME (subst_bound (t, body), skel0) | rew tm = (case get_first (match_rew thy tm) rules of NONE => Option.map (rpair skel0) (get_first (fn p => p tm) procs) | x => x); fun rew_sub r bounds skel (tm1 $ tm2) = (case tm1 of Abs (_, _, body) => let val tm' = subst_bound (tm2, body) in SOME (the_default tm' (rew_sub r bounds skel0 tm')) end | _ => let val (skel1, skel2) = (case skel of skel1 $ skel2 => (skel1, skel2) | _ => (skel0, skel0)) in case r bounds skel1 tm1 of SOME tm1' => (case r bounds skel2 tm2 of SOME tm2' => SOME (tm1' $ tm2') | NONE => SOME (tm1' $ tm2)) | NONE => (case r bounds skel2 tm2 of SOME tm2' => SOME (tm1 $ tm2') | NONE => NONE) end) | rew_sub r bounds skel (Abs body) = let val (abs, tm') = variant_absfree bounds body; val skel' = (case skel of Abs (_, _, skel') => skel' | _ => skel0) in case r (bounds + 1) skel' tm' of SOME tm'' => SOME (abs tm'') | NONE => NONE end | rew_sub _ _ _ _ = NONE; fun rew_bot bounds (Var _) _ = NONE | rew_bot bounds skel tm = (case rew_sub rew_bot bounds skel tm of SOME tm1 => (case rew tm1 of SOME (tm2, skel') => SOME (the_default tm2 (rew_bot bounds skel' tm2)) | NONE => SOME tm1) | NONE => (case rew tm of SOME (tm1, skel') => SOME (the_default tm1 (rew_bot bounds skel' tm1)) | NONE => NONE)); fun rew_top bounds _ tm = (case rew tm of SOME (tm1, _) => (case rew_sub rew_top bounds skel0 tm1 of SOME tm2 => SOME (the_default tm2 (rew_top bounds skel0 tm2)) | NONE => SOME tm1) | NONE => (case rew_sub rew_top bounds skel0 tm of SOME tm1 => SOME (the_default tm1 (rew_top bounds skel0 tm1)) | NONE => NONE)); in the_default tm ((if bot then rew_bot else rew_top) 0 skel0 tm) end; val rewrite_term = gen_rewrite_term true; val rewrite_term_top = gen_rewrite_term false; open Pattern; end;