src/HOL/Codatatype/Tools/bnf_wrap.ML
author traytel
Tue Sep 18 09:15:53 2012 +0200 (2012-09-18)
changeset 49434 433dc7e028c8
parent 49364 838b5e8ede73
child 49437 c139da00fb4a
permissions -rw-r--r--
separated registration of BNFs from bnf_def (BNFs are now stored only for bnf_def and (co)data commands)
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(*  Title:      HOL/Codatatype/Tools/bnf_wrap.ML
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    Author:     Jasmin Blanchette, TU Muenchen
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    Copyright   2012
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Wrapping existing datatypes.
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*)
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signature BNF_WRAP =
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sig
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  val mk_half_pairss: 'a list -> ('a * 'a) list list
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  val mk_ctr: typ list -> term -> term
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  val wrap_datatype: ({prems: thm list, context: Proof.context} -> tactic) list list ->
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    ((bool * term list) * term) *
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      (binding list * (binding list list * (binding * term) list list)) -> local_theory ->
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    (term list list * thm list * thm list list) * local_theory
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  val parse_wrap_options: bool parser
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  val parse_bound_term: (binding * string) parser
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end;
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structure BNF_Wrap : BNF_WRAP =
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struct
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open BNF_Util
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open BNF_Wrap_Tactics
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val isN = "is_";
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val unN = "un_";
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fun mk_unN 1 1 suf = unN ^ suf
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  | mk_unN _ l suf = unN ^ suf ^ string_of_int l;
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val case_congN = "case_cong";
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val case_eqN = "case_eq";
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val casesN = "cases";
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val collapseN = "collapse";
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val disc_excludeN = "disc_exclude";
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val disc_exhaustN = "disc_exhaust";
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val discsN = "discs";
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val distinctN = "distinct";
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val exhaustN = "exhaust";
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val injectN = "inject";
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val nchotomyN = "nchotomy";
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val selsN = "sels";
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val splitN = "split";
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val split_asmN = "split_asm";
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val weak_case_cong_thmsN = "weak_case_cong";
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val std_binding = @{binding _};
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val induct_simp_attrs = @{attributes [induct_simp]};
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val cong_attrs = @{attributes [cong]};
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val iff_attrs = @{attributes [iff]};
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val safe_elim_attrs = @{attributes [elim!]};
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val simp_attrs = @{attributes [simp]};
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fun pad_list x n xs = xs @ replicate (n - length xs) x;
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fun unflat_lookup eq ys zs = map (map (fn x => nth zs (find_index (curry eq x) ys)));
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fun mk_half_pairss' _ [] = []
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  | mk_half_pairss' indent (y :: ys) =
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    indent @ fold_rev (cons o single o pair y) ys (mk_half_pairss' ([] :: indent) ys);
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fun mk_half_pairss ys = mk_half_pairss' [[]] ys;
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fun mk_undefined T = Const (@{const_name undefined}, T);
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fun mk_ctr Ts ctr =
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  let val Type (_, Ts0) = body_type (fastype_of ctr) in
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    Term.subst_atomic_types (Ts0 ~~ Ts) ctr
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  end;
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fun eta_expand_case_arg xs f_xs = fold_rev Term.lambda xs f_xs;
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fun base_name_of_ctr c =
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  Long_Name.base_name (case head_of c of
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      Const (s, _) => s
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    | Free (s, _) => s
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    | _ => error "Cannot extract name of constructor");
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fun prepare_wrap_datatype prep_term (((no_dests, raw_ctrs), raw_case),
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    (raw_disc_bindings, (raw_sel_bindingss, raw_sel_defaultss))) no_defs_lthy =
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  let
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    (* TODO: sanity checks on arguments *)
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    (* TODO: attributes (simp, case_names, etc.) *)
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    (* TODO: case syntax *)
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    (* TODO: integration with function package ("size") *)
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    val n = length raw_ctrs;
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    val ks = 1 upto n;
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    val _ = if n > 0 then () else error "No constructors specified";
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    val ctrs0 = map (prep_term no_defs_lthy) raw_ctrs;
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    val case0 = prep_term no_defs_lthy raw_case;
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    val sel_defaultss =
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      pad_list [] n (map (map (apsnd (prep_term no_defs_lthy))) raw_sel_defaultss);
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    val Type (dataT_name, As0) = body_type (fastype_of (hd ctrs0));
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    val data_b = Binding.qualified_name dataT_name;
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    val (As, B) =
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      no_defs_lthy
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      |> mk_TFrees' (map Type.sort_of_atyp As0)
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      ||> the_single o fst o mk_TFrees 1;
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    val dataT = Type (dataT_name, As);
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    val ctrs = map (mk_ctr As) ctrs0;
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    val ctr_Tss = map (binder_types o fastype_of) ctrs;
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    val ms = map length ctr_Tss;
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    val raw_disc_bindings' = pad_list Binding.empty n raw_disc_bindings;
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    fun can_really_rely_on_disc k =
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      not (Binding.eq_name (nth raw_disc_bindings' (k - 1), Binding.empty)) orelse
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      nth ms (k - 1) = 0;
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    fun can_rely_on_disc k =
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      can_really_rely_on_disc k orelse (k = 1 andalso not (can_really_rely_on_disc 2));
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    fun can_omit_disc_binding k m =
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      n = 1 orelse m = 0 orelse (n = 2 andalso can_rely_on_disc (3 - k));
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    val std_disc_binding =
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      Binding.qualify false (Binding.name_of data_b) o Binding.name o prefix isN o base_name_of_ctr;
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    val disc_bindings =
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      raw_disc_bindings'
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      |> map4 (fn k => fn m => fn ctr => fn disc =>
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        Option.map (Binding.qualify false (Binding.name_of data_b))
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          (if Binding.eq_name (disc, Binding.empty) then
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             if can_omit_disc_binding k m then NONE else SOME (std_disc_binding ctr)
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           else if Binding.eq_name (disc, std_binding) then
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             SOME (std_disc_binding ctr)
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           else
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             SOME disc)) ks ms ctrs0;
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    val no_discs = map is_none disc_bindings;
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    val no_discs_at_all = forall I no_discs;
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    fun std_sel_binding m l = Binding.name o mk_unN m l o base_name_of_ctr;
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    val sel_bindingss =
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      pad_list [] n raw_sel_bindingss
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      |> map3 (fn ctr => fn m => map2 (fn l => fn sel =>
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        Binding.qualify false (Binding.name_of data_b)
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          (if Binding.eq_name (sel, Binding.empty) orelse Binding.eq_name (sel, std_binding) then
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            std_sel_binding m l ctr
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          else
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            sel)) (1 upto m) o pad_list Binding.empty m) ctrs0 ms;
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    fun mk_case Ts T =
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      let
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        val (bindings, body) = strip_type (fastype_of case0)
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        val Type (_, Ts0) = List.last bindings
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      in Term.subst_atomic_types ((body, T) :: (Ts0 ~~ Ts)) case0 end;
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    val casex = mk_case As B;
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    val case_Ts = map (fn Ts => Ts ---> B) ctr_Tss;
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    val ((((((((xss, xss'), yss), fs), gs), (v, v')), w), (p, p')), names_lthy) = no_defs_lthy |>
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      mk_Freess' "x" ctr_Tss
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      ||>> mk_Freess "y" ctr_Tss
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      ||>> mk_Frees "f" case_Ts
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      ||>> mk_Frees "g" case_Ts
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      ||>> yield_singleton (apfst (op ~~) oo mk_Frees' "v") dataT
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      ||>> yield_singleton (mk_Frees "w") dataT
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      ||>> yield_singleton (apfst (op ~~) oo mk_Frees' "P") HOLogic.boolT;
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    val q = Free (fst p', B --> HOLogic.boolT);
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    fun ap_v t = t $ v;
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    fun mk_v_eq_v () = HOLogic.mk_eq (v, v);
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    val xctrs = map2 (curry Term.list_comb) ctrs xss;
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    val yctrs = map2 (curry Term.list_comb) ctrs yss;
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    val xfs = map2 (curry Term.list_comb) fs xss;
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    val xgs = map2 (curry Term.list_comb) gs xss;
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    val eta_fs = map2 eta_expand_case_arg xss xfs;
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    val eta_gs = map2 eta_expand_case_arg xss xgs;
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    val fcase = Term.list_comb (casex, eta_fs);
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    val gcase = Term.list_comb (casex, eta_gs);
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    val exist_xs_v_eq_ctrs =
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      map2 (fn xctr => fn xs => list_exists_free xs (HOLogic.mk_eq (v, xctr))) xctrs xss;
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    val unique_disc_no_def = TrueI; (*arbitrary marker*)
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    val alternate_disc_no_def = FalseE; (*arbitrary marker*)
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    fun alternate_disc_lhs get_disc k =
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      HOLogic.mk_not
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        (case nth disc_bindings (k - 1) of
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          NONE => nth exist_xs_v_eq_ctrs (k - 1)
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        | SOME b => get_disc b (k - 1) $ v);
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    val (all_sels_distinct, discs, selss, disc_defs, sel_defs, sel_defss, lthy') =
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      if no_dests then
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        (true, [], [], [], [], [], no_defs_lthy)
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      else
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        let
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          fun disc_free b = Free (Binding.name_of b, dataT --> HOLogic.boolT);
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          fun disc_spec b exist_xs_v_eq_ctr = mk_Trueprop_eq (disc_free b $ v, exist_xs_v_eq_ctr);
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          fun alternate_disc k = Term.lambda v (alternate_disc_lhs (K o disc_free) (3 - k));
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          fun mk_default T t =
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            let
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              val Ts0 = map TFree (Term.add_tfreesT (fastype_of t) []);
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              val Ts = map TFree (Term.add_tfreesT T []);
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            in Term.subst_atomic_types (Ts0 ~~ Ts) t end;
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          fun mk_sel_case_args b proto_sels T =
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            map2 (fn Ts => fn k =>
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              (case AList.lookup (op =) proto_sels k of
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                NONE =>
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                (case AList.lookup Binding.eq_name (rev (nth sel_defaultss (k - 1))) b of
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                  NONE => fold_rev (Term.lambda o curry Free Name.uu) Ts (mk_undefined T)
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                | SOME t => mk_default (Ts ---> T) t)
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              | SOME (xs, x) => fold_rev Term.lambda xs x)) ctr_Tss ks;
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          fun sel_spec b proto_sels =
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            let
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              val _ =
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                (case duplicates (op =) (map fst proto_sels) of
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                   k :: _ => error ("Duplicate selector name " ^ quote (Binding.name_of b) ^
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                     " for constructor " ^
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                     quote (Syntax.string_of_term no_defs_lthy (nth ctrs (k - 1))))
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                 | [] => ())
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              val T =
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                (case distinct (op =) (map (fastype_of o snd o snd) proto_sels) of
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                  [T] => T
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                | T :: T' :: _ => error ("Inconsistent range type for selector " ^
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                    quote (Binding.name_of b) ^ ": " ^ quote (Syntax.string_of_typ no_defs_lthy T) ^
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                    " vs. " ^ quote (Syntax.string_of_typ no_defs_lthy T')));
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            in
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              mk_Trueprop_eq (Free (Binding.name_of b, dataT --> T) $ v,
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                Term.list_comb (mk_case As T, mk_sel_case_args b proto_sels T) $ v)
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            end;
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          val sel_bindings = flat sel_bindingss;
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          val uniq_sel_bindings = distinct Binding.eq_name sel_bindings;
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          val all_sels_distinct = (length uniq_sel_bindings = length sel_bindings);
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          val sel_binding_index =
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            if all_sels_distinct then 1 upto length sel_bindings
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            else map (fn b => find_index (curry Binding.eq_name b) uniq_sel_bindings) sel_bindings;
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          val proto_sels = flat (map3 (fn k => fn xs => map (fn x => (k, (xs, x)))) ks xss xss);
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          val sel_infos =
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            AList.group (op =) (sel_binding_index ~~ proto_sels)
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            |> sort (int_ord o pairself fst)
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            |> map snd |> curry (op ~~) uniq_sel_bindings;
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          val sel_bindings = map fst sel_infos;
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          fun unflat_selss xs = unflat_lookup Binding.eq_name sel_bindings xs sel_bindingss;
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          val (((raw_discs, raw_disc_defs), (raw_sels, raw_sel_defs)), (lthy', lthy)) =
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            no_defs_lthy
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            |> apfst split_list o fold_map4 (fn k => fn m => fn exist_xs_v_eq_ctr =>
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              fn NONE =>
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                 if n = 1 then pair (Term.lambda v (mk_v_eq_v ()), unique_disc_no_def)
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                 else if m = 0 then pair (Term.lambda v exist_xs_v_eq_ctr, refl)
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                 else pair (alternate_disc k, alternate_disc_no_def)
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               | SOME b => Specification.definition (SOME (b, NONE, NoSyn),
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                   ((Thm.def_binding b, []), disc_spec b exist_xs_v_eq_ctr)) #>> apsnd snd)
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              ks ms exist_xs_v_eq_ctrs disc_bindings
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            ||>> apfst split_list o fold_map (fn (b, proto_sels) =>
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              Specification.definition (SOME (b, NONE, NoSyn),
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                ((Thm.def_binding b, []), sel_spec b proto_sels)) #>> apsnd snd) sel_infos
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            ||> `Local_Theory.restore;
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          val phi = Proof_Context.export_morphism lthy lthy';
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          val disc_defs = map (Morphism.thm phi) raw_disc_defs;
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          val sel_defs = map (Morphism.thm phi) raw_sel_defs;
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          val sel_defss = unflat_selss sel_defs;
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          val discs0 = map (Morphism.term phi) raw_discs;
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          val selss0 = unflat_selss (map (Morphism.term phi) raw_sels);
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          fun mk_disc_or_sel Ts c =
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            Term.subst_atomic_types (snd (Term.dest_Type (domain_type (fastype_of c))) ~~ Ts) c;
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          val discs = map (mk_disc_or_sel As) discs0;
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          val selss = map (map (mk_disc_or_sel As)) selss0;
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        in
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          (all_sels_distinct, discs, selss, disc_defs, sel_defs, sel_defss, lthy')
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        end;
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    fun mk_imp_p Qs = Logic.list_implies (Qs, HOLogic.mk_Trueprop p);
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    val goal_exhaust =
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      let fun mk_prem xctr xs = fold_rev Logic.all xs (mk_imp_p [mk_Trueprop_eq (v, xctr)]) in
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        fold_rev Logic.all [p, v] (mk_imp_p (map2 mk_prem xctrs xss))
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      end;
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    val goal_injectss =
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   300
      let
blanchet@49034
   301
        fun mk_goal _ _ [] [] = []
blanchet@49025
   302
          | mk_goal xctr yctr xs ys =
blanchet@49121
   303
            [fold_rev Logic.all (xs @ ys) (mk_Trueprop_eq (HOLogic.mk_eq (xctr, yctr),
blanchet@49121
   304
              Library.foldr1 HOLogic.mk_conj (map2 (curry HOLogic.mk_eq) xs ys)))];
blanchet@49017
   305
      in
blanchet@49034
   306
        map4 mk_goal xctrs yctrs xss yss
blanchet@49017
   307
      end;
blanchet@49017
   308
blanchet@49048
   309
    val goal_half_distinctss =
blanchet@49121
   310
      let
blanchet@49203
   311
        fun mk_goal ((xs, xc), (xs', xc')) =
blanchet@49121
   312
          fold_rev Logic.all (xs @ xs')
blanchet@49203
   313
            (HOLogic.mk_Trueprop (HOLogic.mk_not (HOLogic.mk_eq (xc, xc'))));
blanchet@49121
   314
      in
blanchet@49121
   315
        map (map mk_goal) (mk_half_pairss (xss ~~ xctrs))
blanchet@49121
   316
      end;
blanchet@49019
   317
blanchet@49121
   318
    val goal_cases =
blanchet@49121
   319
      map3 (fn xs => fn xctr => fn xf =>
blanchet@49201
   320
        fold_rev Logic.all (fs @ xs) (mk_Trueprop_eq (fcase $ xctr, xf))) xss xctrs xfs;
blanchet@49025
   321
blanchet@49121
   322
    val goalss = [goal_exhaust] :: goal_injectss @ goal_half_distinctss @ [goal_cases];
blanchet@49019
   323
blanchet@49019
   324
    fun after_qed thmss lthy =
blanchet@49019
   325
      let
blanchet@49048
   326
        val ([exhaust_thm], (inject_thmss, (half_distinct_thmss, [case_thms]))) =
blanchet@49048
   327
          (hd thmss, apsnd (chop (n * n)) (chop n (tl thmss)));
blanchet@49019
   328
blanchet@49032
   329
        val exhaust_thm' =
blanchet@49032
   330
          let val Tinst = map (pairself (certifyT lthy)) (map Logic.varifyT_global As ~~ As) in
blanchet@49032
   331
            Drule.instantiate' [] [SOME (certify lthy v)]
blanchet@49032
   332
              (Thm.instantiate (Tinst, []) (Drule.zero_var_indexes exhaust_thm))
blanchet@49032
   333
          end;
blanchet@49032
   334
blanchet@49300
   335
        val exhaust_cases = map base_name_of_ctr ctrs;
blanchet@49300
   336
blanchet@49048
   337
        val other_half_distinct_thmss = map (map (fn thm => thm RS not_sym)) half_distinct_thmss;
blanchet@49048
   338
blanchet@49052
   339
        val (distinct_thmsss', distinct_thmsss) =
blanchet@49048
   340
          map2 (map2 append) (Library.chop_groups n half_distinct_thmss)
blanchet@49052
   341
            (transpose (Library.chop_groups n other_half_distinct_thmss))
blanchet@49052
   342
          |> `transpose;
blanchet@49048
   343
        val distinct_thms = interleave (flat half_distinct_thmss) (flat other_half_distinct_thmss);
blanchet@49019
   344
blanchet@49020
   345
        val nchotomy_thm =
blanchet@49020
   346
          let
blanchet@49020
   347
            val goal =
blanchet@49022
   348
              HOLogic.mk_Trueprop (HOLogic.mk_all (fst v', snd v',
blanchet@49029
   349
                Library.foldr1 HOLogic.mk_disj exist_xs_v_eq_ctrs));
blanchet@49020
   350
          in
blanchet@49020
   351
            Skip_Proof.prove lthy [] [] goal (fn _ => mk_nchotomy_tac n exhaust_thm)
blanchet@49020
   352
          end;
blanchet@49020
   353
blanchet@49281
   354
        val (all_sel_thms, sel_thmss, disc_thms, discI_thms, disc_exclude_thms, disc_exhaust_thms,
blanchet@49281
   355
             collapse_thms, case_eq_thms) =
blanchet@49278
   356
          if no_dests then
blanchet@49281
   357
            ([], [], [], [], [], [], [], [])
blanchet@49116
   358
          else
blanchet@49116
   359
            let
blanchet@49364
   360
              fun make_sel_thm xs' case_thm sel_def =
blanchet@49364
   361
                zero_var_indexes (Drule.gen_all (Drule.rename_bvars' (map (SOME o fst) xs')
blanchet@49364
   362
                    (Drule.forall_intr_vars (case_thm RS (sel_def RS trans)))));
blanchet@49281
   363
blanchet@49281
   364
              fun has_undefined_rhs thm =
blanchet@49281
   365
                (case snd (HOLogic.dest_eq (HOLogic.dest_Trueprop (prop_of thm))) of
blanchet@49281
   366
                  Const (@{const_name undefined}, _) => true
blanchet@49281
   367
                | _ => false);
blanchet@49281
   368
blanchet@49364
   369
              val sel_thmss = map3 (map oo make_sel_thm) xss' case_thms sel_defss;
blanchet@49281
   370
blanchet@49281
   371
              val all_sel_thms =
blanchet@49285
   372
                (if all_sels_distinct andalso forall null sel_defaultss then
blanchet@49285
   373
                   flat sel_thmss
blanchet@49285
   374
                 else
blanchet@49364
   375
                   map_product (fn s => fn (xs', c) => make_sel_thm xs' c s) sel_defs
blanchet@49364
   376
                     (xss' ~~ case_thms))
blanchet@49285
   377
                |> filter_out has_undefined_rhs;
blanchet@49278
   378
blanchet@49278
   379
              fun mk_unique_disc_def () =
blanchet@49278
   380
                let
blanchet@49278
   381
                  val m = the_single ms;
blanchet@49278
   382
                  val goal = mk_Trueprop_eq (mk_v_eq_v (), the_single exist_xs_v_eq_ctrs);
blanchet@49278
   383
                in
blanchet@49278
   384
                  Skip_Proof.prove lthy [] [] goal (fn _ => mk_unique_disc_def_tac m exhaust_thm')
blanchet@49278
   385
                  |> singleton (Proof_Context.export names_lthy lthy)
blanchet@49278
   386
                  |> Thm.close_derivation
blanchet@49278
   387
                end;
blanchet@49278
   388
blanchet@49278
   389
              fun mk_alternate_disc_def k =
blanchet@49278
   390
                let
blanchet@49278
   391
                  val goal =
blanchet@49278
   392
                    mk_Trueprop_eq (alternate_disc_lhs (K (nth discs)) (3 - k),
blanchet@49278
   393
                      nth exist_xs_v_eq_ctrs (k - 1));
blanchet@49278
   394
                in
blanchet@49278
   395
                  Skip_Proof.prove lthy [] [] goal (fn {context = ctxt, ...} =>
blanchet@49278
   396
                    mk_alternate_disc_def_tac ctxt k (nth disc_defs (2 - k))
blanchet@49278
   397
                      (nth distinct_thms (2 - k)) exhaust_thm')
blanchet@49278
   398
                  |> singleton (Proof_Context.export names_lthy lthy)
blanchet@49278
   399
                  |> Thm.close_derivation
blanchet@49278
   400
                end;
blanchet@49028
   401
blanchet@49278
   402
              val has_alternate_disc_def =
blanchet@49278
   403
                exists (fn def => Thm.eq_thm_prop (def, alternate_disc_no_def)) disc_defs;
blanchet@49278
   404
blanchet@49278
   405
              val disc_defs' =
blanchet@49278
   406
                map2 (fn k => fn def =>
blanchet@49278
   407
                  if Thm.eq_thm_prop (def, unique_disc_no_def) then mk_unique_disc_def ()
blanchet@49278
   408
                  else if Thm.eq_thm_prop (def, alternate_disc_no_def) then mk_alternate_disc_def k
blanchet@49278
   409
                  else def) ks disc_defs;
blanchet@49278
   410
blanchet@49278
   411
              val discD_thms = map (fn def => def RS iffD1) disc_defs';
blanchet@49278
   412
              val discI_thms =
blanchet@49278
   413
                map2 (fn m => fn def => funpow m (fn thm => exI RS thm) (def RS iffD2)) ms
blanchet@49278
   414
                  disc_defs';
blanchet@49278
   415
              val not_discI_thms =
blanchet@49278
   416
                map2 (fn m => fn def => funpow m (fn thm => allI RS thm)
blanchet@49278
   417
                    (Local_Defs.unfold lthy @{thms not_ex} (def RS @{thm ssubst[of _ _ Not]})))
blanchet@49278
   418
                  ms disc_defs';
blanchet@49278
   419
blanchet@49278
   420
              val (disc_thmss', disc_thmss) =
blanchet@49278
   421
                let
blanchet@49278
   422
                  fun mk_thm discI _ [] = refl RS discI
blanchet@49278
   423
                    | mk_thm _ not_discI [distinct] = distinct RS not_discI;
blanchet@49278
   424
                  fun mk_thms discI not_discI distinctss = map (mk_thm discI not_discI) distinctss;
blanchet@49278
   425
                in
blanchet@49278
   426
                  map3 mk_thms discI_thms not_discI_thms distinct_thmsss' |> `transpose
blanchet@49278
   427
                end;
blanchet@49278
   428
blanchet@49278
   429
              val disc_thms = flat (map2 (fn true => K [] | false => I) no_discs disc_thmss);
blanchet@49028
   430
blanchet@49278
   431
              val disc_exclude_thms =
blanchet@49278
   432
                if has_alternate_disc_def then
blanchet@49278
   433
                  []
blanchet@49278
   434
                else
blanchet@49278
   435
                  let
blanchet@49278
   436
                    fun mk_goal [] = []
blanchet@49278
   437
                      | mk_goal [((_, true), (_, true))] = []
blanchet@49278
   438
                      | mk_goal [(((_, disc), _), ((_, disc'), _))] =
blanchet@49278
   439
                        [Logic.all v (Logic.mk_implies (HOLogic.mk_Trueprop (betapply (disc, v)),
blanchet@49278
   440
                           HOLogic.mk_Trueprop (HOLogic.mk_not (betapply (disc', v)))))];
blanchet@49278
   441
                    fun prove tac goal = Skip_Proof.prove lthy [] [] goal (K tac);
blanchet@49278
   442
blanchet@49300
   443
                    val infos = ms ~~ discD_thms ~~ discs ~~ no_discs;
blanchet@49300
   444
                    val half_pairss = mk_half_pairss infos;
blanchet@49278
   445
blanchet@49278
   446
                    val goal_halvess = map mk_goal half_pairss;
blanchet@49278
   447
                    val half_thmss =
blanchet@49278
   448
                      map3 (fn [] => K (K []) | [goal] => fn [((((m, discD), _), _), _)] =>
blanchet@49278
   449
                          fn disc_thm => [prove (mk_half_disc_exclude_tac m discD disc_thm) goal])
blanchet@49278
   450
                        goal_halvess half_pairss (flat disc_thmss');
blanchet@49278
   451
blanchet@49278
   452
                    val goal_other_halvess = map (mk_goal o map swap) half_pairss;
blanchet@49278
   453
                    val other_half_thmss =
blanchet@49278
   454
                      map2 (map2 (prove o mk_other_half_disc_exclude_tac)) half_thmss
blanchet@49278
   455
                        goal_other_halvess;
blanchet@49278
   456
                  in
blanchet@49278
   457
                    interleave (flat half_thmss) (flat other_half_thmss)
blanchet@49278
   458
                  end;
blanchet@49028
   459
blanchet@49278
   460
              val disc_exhaust_thms =
blanchet@49278
   461
                if has_alternate_disc_def orelse no_discs_at_all then
blanchet@49278
   462
                  []
blanchet@49278
   463
                else
blanchet@49278
   464
                  let
blanchet@49278
   465
                    fun mk_prem disc = mk_imp_p [HOLogic.mk_Trueprop (betapply (disc, v))];
blanchet@49278
   466
                    val goal = fold_rev Logic.all [p, v] (mk_imp_p (map mk_prem discs));
blanchet@49278
   467
                  in
blanchet@49278
   468
                    [Skip_Proof.prove lthy [] [] goal (fn _ =>
blanchet@49278
   469
                       mk_disc_exhaust_tac n exhaust_thm discI_thms)]
blanchet@49278
   470
                  end;
blanchet@49025
   471
blanchet@49278
   472
              val collapse_thms =
blanchet@49278
   473
                if no_dests then
blanchet@49278
   474
                  []
blanchet@49278
   475
                else
blanchet@49278
   476
                  let
blanchet@49278
   477
                    fun mk_goal ctr disc sels =
blanchet@49278
   478
                      let
blanchet@49278
   479
                        val prem = HOLogic.mk_Trueprop (betapply (disc, v));
blanchet@49278
   480
                        val concl =
blanchet@49278
   481
                          mk_Trueprop_eq ((null sels ? swap)
blanchet@49278
   482
                            (Term.list_comb (ctr, map ap_v sels), v));
blanchet@49278
   483
                      in
blanchet@49278
   484
                        if prem aconv concl then NONE
blanchet@49278
   485
                        else SOME (Logic.all v (Logic.mk_implies (prem, concl)))
blanchet@49278
   486
                      end;
blanchet@49278
   487
                    val goals = map3 mk_goal ctrs discs selss;
blanchet@49278
   488
                  in
blanchet@49278
   489
                    map4 (fn m => fn discD => fn sel_thms => Option.map (fn goal =>
blanchet@49278
   490
                      Skip_Proof.prove lthy [] [] goal (fn {context = ctxt, ...} =>
blanchet@49278
   491
                        mk_collapse_tac ctxt m discD sel_thms)
blanchet@49278
   492
                      |> perhaps (try (fn thm => refl RS thm)))) ms discD_thms sel_thmss goals
blanchet@49278
   493
                    |> map_filter I
blanchet@49278
   494
                  end;
blanchet@49278
   495
blanchet@49278
   496
              val case_eq_thms =
blanchet@49278
   497
                if no_dests then
blanchet@49278
   498
                  []
blanchet@49278
   499
                else
blanchet@49278
   500
                  let
blanchet@49278
   501
                    fun mk_body f sels = Term.list_comb (f, map ap_v sels);
blanchet@49278
   502
                    val goal =
blanchet@49278
   503
                      mk_Trueprop_eq (fcase $ v, mk_IfN B (map ap_v discs) (map2 mk_body fs selss));
blanchet@49278
   504
                  in
blanchet@49278
   505
                    [Skip_Proof.prove lthy [] [] goal (fn {context = ctxt, ...} =>
blanchet@49278
   506
                      mk_case_eq_tac ctxt n exhaust_thm' case_thms disc_thmss' sel_thmss)]
blanchet@49278
   507
                    |> Proof_Context.export names_lthy lthy
blanchet@49278
   508
                  end;
blanchet@49116
   509
            in
blanchet@49281
   510
              (all_sel_thms, sel_thmss, disc_thms, discI_thms, disc_exclude_thms, disc_exhaust_thms,
blanchet@49278
   511
               collapse_thms, case_eq_thms)
blanchet@49116
   512
            end;
blanchet@49025
   513
blanchet@49033
   514
        val (case_cong_thm, weak_case_cong_thm) =
blanchet@49032
   515
          let
blanchet@49032
   516
            fun mk_prem xctr xs f g =
blanchet@49045
   517
              fold_rev Logic.all xs (Logic.mk_implies (mk_Trueprop_eq (w, xctr),
blanchet@49032
   518
                mk_Trueprop_eq (f, g)));
blanchet@49033
   519
blanchet@49033
   520
            val v_eq_w = mk_Trueprop_eq (v, w);
blanchet@49032
   521
blanchet@49032
   522
            val goal =
blanchet@49033
   523
              Logic.list_implies (v_eq_w :: map4 mk_prem xctrs xss fs gs,
blanchet@49201
   524
                 mk_Trueprop_eq (fcase $ v, gcase $ w));
blanchet@49201
   525
            val goal_weak = Logic.mk_implies (v_eq_w, mk_Trueprop_eq (fcase $ v, fcase $ w));
blanchet@49032
   526
          in
blanchet@49049
   527
            (Skip_Proof.prove lthy [] [] goal (fn _ => mk_case_cong_tac exhaust_thm' case_thms),
blanchet@49033
   528
             Skip_Proof.prove lthy [] [] goal_weak (K (etac arg_cong 1)))
blanchet@49033
   529
            |> pairself (singleton (Proof_Context.export names_lthy lthy))
blanchet@49032
   530
          end;
blanchet@49025
   531
blanchet@49044
   532
        val (split_thm, split_asm_thm) =
blanchet@49043
   533
          let
blanchet@49044
   534
            fun mk_conjunct xctr xs f_xs =
blanchet@49043
   535
              list_all_free xs (HOLogic.mk_imp (HOLogic.mk_eq (v, xctr), q $ f_xs));
blanchet@49044
   536
            fun mk_disjunct xctr xs f_xs =
blanchet@49044
   537
              list_exists_free xs (HOLogic.mk_conj (HOLogic.mk_eq (v, xctr),
blanchet@49044
   538
                HOLogic.mk_not (q $ f_xs)));
blanchet@49044
   539
blanchet@49201
   540
            val lhs = q $ (fcase $ v);
blanchet@49044
   541
blanchet@49043
   542
            val goal =
blanchet@49044
   543
              mk_Trueprop_eq (lhs, Library.foldr1 HOLogic.mk_conj (map3 mk_conjunct xctrs xss xfs));
blanchet@49044
   544
            val goal_asm =
blanchet@49044
   545
              mk_Trueprop_eq (lhs, HOLogic.mk_not (Library.foldr1 HOLogic.mk_disj
blanchet@49044
   546
                (map3 mk_disjunct xctrs xss xfs)));
blanchet@49044
   547
blanchet@49044
   548
            val split_thm =
blanchet@49049
   549
              Skip_Proof.prove lthy [] [] goal
blanchet@49052
   550
                (fn _ => mk_split_tac exhaust_thm' case_thms inject_thmss distinct_thmsss)
blanchet@49044
   551
              |> singleton (Proof_Context.export names_lthy lthy)
blanchet@49044
   552
            val split_asm_thm =
blanchet@49044
   553
              Skip_Proof.prove lthy [] [] goal_asm (fn {context = ctxt, ...} =>
blanchet@49044
   554
                mk_split_asm_tac ctxt split_thm)
blanchet@49044
   555
              |> singleton (Proof_Context.export names_lthy lthy)
blanchet@49043
   556
          in
blanchet@49044
   557
            (split_thm, split_asm_thm)
blanchet@49043
   558
          end;
blanchet@49025
   559
blanchet@49300
   560
        val cases_type_attr = Attrib.internal (K (Induct.cases_type dataT_name));
blanchet@49300
   561
        val exhaust_case_names_attr = Attrib.internal (K (Rule_Cases.case_names exhaust_cases));
blanchet@49300
   562
blanchet@49052
   563
        val notes =
blanchet@49300
   564
          [(case_congN, [case_cong_thm], []),
blanchet@49300
   565
           (case_eqN, case_eq_thms, []),
blanchet@49300
   566
           (casesN, case_thms, simp_attrs),
blanchet@49300
   567
           (collapseN, collapse_thms, simp_attrs),
blanchet@49300
   568
           (discsN, disc_thms, simp_attrs),
blanchet@49300
   569
           (disc_excludeN, disc_exclude_thms, []),
blanchet@49300
   570
           (disc_exhaustN, disc_exhaust_thms, [exhaust_case_names_attr]),
blanchet@49300
   571
           (distinctN, distinct_thms, simp_attrs @ induct_simp_attrs),
blanchet@49300
   572
           (exhaustN, [exhaust_thm], [exhaust_case_names_attr, cases_type_attr]),
blanchet@49300
   573
           (injectN, flat inject_thmss, iff_attrs @ induct_simp_attrs),
blanchet@49300
   574
           (nchotomyN, [nchotomy_thm], []),
blanchet@49300
   575
           (selsN, all_sel_thms, simp_attrs),
blanchet@49300
   576
           (splitN, [split_thm], []),
blanchet@49300
   577
           (split_asmN, [split_asm_thm], []),
blanchet@49300
   578
           (weak_case_cong_thmsN, [weak_case_cong_thm], cong_attrs)]
blanchet@49300
   579
          |> filter_out (null o #2)
blanchet@49300
   580
          |> map (fn (thmN, thms, attrs) =>
blanchet@49302
   581
            ((Binding.qualify true (Binding.name_of data_b) (Binding.name thmN), attrs),
blanchet@49302
   582
             [(thms, [])]));
blanchet@49300
   583
blanchet@49300
   584
        val notes' =
blanchet@49300
   585
          [(map (fn th => th RS notE) distinct_thms, safe_elim_attrs)]
blanchet@49300
   586
          |> map (fn (thms, attrs) => ((Binding.empty, attrs), [(thms, [])]));
blanchet@49019
   587
      in
blanchet@49300
   588
        ((selss, discI_thms, sel_thmss), lthy |> Local_Theory.notes (notes' @ notes) |> snd)
blanchet@49019
   589
      end;
blanchet@49017
   590
  in
blanchet@49121
   591
    (goalss, after_qed, lthy')
blanchet@49017
   592
  end;
blanchet@49017
   593
blanchet@49199
   594
fun wrap_datatype tacss = (fn (goalss, after_qed, lthy) =>
blanchet@49111
   595
  map2 (map2 (Skip_Proof.prove lthy [] [])) goalss tacss
blanchet@49280
   596
  |> (fn thms => after_qed thms lthy)) oo prepare_wrap_datatype (K I);
blanchet@49280
   597
blanchet@49297
   598
val wrap_datatype_cmd = (fn (goalss, after_qed, lthy) =>
blanchet@49297
   599
  Proof.theorem NONE (snd oo after_qed) (map (map (rpair [])) goalss) lthy) oo
blanchet@49297
   600
  prepare_wrap_datatype Syntax.read_term;
blanchet@49297
   601
blanchet@49280
   602
fun parse_bracket_list parser = @{keyword "["} |-- Parse.list parser --|  @{keyword "]"};
blanchet@49111
   603
blanchet@49280
   604
val parse_bindings = parse_bracket_list Parse.binding;
blanchet@49280
   605
val parse_bindingss = parse_bracket_list parse_bindings;
blanchet@49280
   606
blanchet@49280
   607
val parse_bound_term = (Parse.binding --| @{keyword ":"}) -- Parse.term;
blanchet@49280
   608
val parse_bound_terms = parse_bracket_list parse_bound_term;
blanchet@49280
   609
val parse_bound_termss = parse_bracket_list parse_bound_terms;
blanchet@49017
   610
blanchet@49278
   611
val parse_wrap_options =
blanchet@49278
   612
  Scan.optional (@{keyword "("} |-- (@{keyword "no_dests"} >> K true) --| @{keyword ")"}) false;
blanchet@49278
   613
blanchet@49017
   614
val _ =
blanchet@49074
   615
  Outer_Syntax.local_theory_to_proof @{command_spec "wrap_data"} "wraps an existing datatype"
blanchet@49278
   616
    ((parse_wrap_options -- (@{keyword "["} |-- Parse.list Parse.term --| @{keyword "]"}) --
blanchet@49280
   617
      Parse.term -- Scan.optional (parse_bindings -- Scan.optional (parse_bindingss --
blanchet@49280
   618
        Scan.optional parse_bound_termss []) ([], [])) ([], ([], [])))
blanchet@49199
   619
     >> wrap_datatype_cmd);
blanchet@49017
   620
blanchet@49017
   621
end;