src/HOLCF/Tools/Domain/domain_theorems.ML
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Mon, 08 Mar 2010 12:36:26 -0800
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include take_info within take_induct_info type
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(*  Title:      HOLCF/Tools/Domain/domain_theorems.ML
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    Author:     David von Oheimb
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    Author:     Brian Huffman
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Proof generator for domain command.
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*)
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val HOLCF_ss = @{simpset};
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signature DOMAIN_THEOREMS =
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sig
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  val theorems:
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    Domain_Library.eq * Domain_Library.eq list
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    -> typ * (binding * (bool * binding option * typ) list * mixfix) list
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    -> Domain_Take_Proofs.iso_info
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    -> theory -> thm list * theory;
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  val comp_theorems :
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      bstring * Domain_Library.eq list ->
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      Domain_Take_Proofs.take_induct_info ->
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      theory -> thm list * theory
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  val quiet_mode: bool Unsynchronized.ref;
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  val trace_domain: bool Unsynchronized.ref;
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end;
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structure Domain_Theorems :> DOMAIN_THEOREMS =
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struct
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val quiet_mode = Unsynchronized.ref false;
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val trace_domain = Unsynchronized.ref false;
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fun message s = if !quiet_mode then () else writeln s;
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fun trace s = if !trace_domain then tracing s else ();
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open Domain_Library;
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infixr 0 ===>;
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infixr 0 ==>;
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infix 0 == ; 
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infix 1 ===;
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infix 1 ~= ;
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infix 1 <<;
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infix 1 ~<<;
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infix 9 `   ;
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infix 9 `% ;
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infix 9 `%%;
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infixr 9 oo;
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(* ----- general proof facilities ------------------------------------------- *)
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fun legacy_infer_term thy t =
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  let val ctxt = ProofContext.set_mode ProofContext.mode_schematic (ProofContext.init thy)
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  in singleton (Syntax.check_terms ctxt) (Sign.intern_term thy t) end;
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fun pg'' thy defs t tacs =
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  let
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    val t' = legacy_infer_term thy t;
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    val asms = Logic.strip_imp_prems t';
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    val prop = Logic.strip_imp_concl t';
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    fun tac {prems, context} =
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      rewrite_goals_tac defs THEN
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      EVERY (tacs {prems = map (rewrite_rule defs) prems, context = context})
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  in Goal.prove_global thy [] asms prop tac end;
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fun pg' thy defs t tacsf =
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  let
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    fun tacs {prems, context} =
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      if null prems then tacsf context
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      else cut_facts_tac prems 1 :: tacsf context;
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  in pg'' thy defs t tacs end;
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(* FIXME!!!!!!!!! *)
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(* We should NEVER re-parse variable names as strings! *)
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(* The names can conflict with existing constants or other syntax! *)
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fun case_UU_tac ctxt rews i v =
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  InductTacs.case_tac ctxt (v^"=UU") i THEN
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  asm_simp_tac (HOLCF_ss addsimps rews) i;
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(* ----- general proofs ----------------------------------------------------- *)
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val all2E = @{lemma "!x y . P x y ==> (P x y ==> R) ==> R" by simp}
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fun theorems
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    (((dname, _), cons) : eq, eqs : eq list)
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    (dom_eqn : typ * (binding * (bool * binding option * typ) list * mixfix) list)
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    (iso_info : Domain_Take_Proofs.iso_info)
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    (thy : theory) =
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let
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val _ = message ("Proving isomorphism properties of domain "^dname^" ...");
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val map_tab = Domain_Take_Proofs.get_map_tab thy;
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(* ----- getting the axioms and definitions --------------------------------- *)
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val ax_abs_iso = #abs_inverse iso_info;
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val ax_rep_iso = #rep_inverse iso_info;
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val abs_const = #abs_const iso_info;
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val rep_const = #rep_const iso_info;
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local
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  fun ga s dn = PureThy.get_thm thy (dn ^ "." ^ s);
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in
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  val ax_take_0      = ga "take_0" dname;
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  val ax_take_Suc    = ga "take_Suc" dname;
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  val ax_take_strict = ga "take_strict" dname;
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end; (* local *)
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(* ----- define constructors ------------------------------------------------ *)
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val (result, thy) =
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  Domain_Constructors.add_domain_constructors
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    (Long_Name.base_name dname) (snd dom_eqn) iso_info thy;
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val con_appls = #con_betas result;
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val {exhaust, casedist, ...} = result;
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val {con_compacts, con_rews, inverts, injects, dist_les, dist_eqs, ...} = result;
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val {sel_rews, ...} = result;
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val when_rews = #cases result;
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val when_strict = hd when_rews;
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val dis_rews = #dis_rews result;
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val mat_rews = #match_rews result;
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val pat_rews = #pat_rews result;
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(* ----- theorems concerning the isomorphism -------------------------------- *)
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val pg = pg' thy;
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val retraction_strict = @{thm retraction_strict};
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val abs_strict = ax_rep_iso RS (allI RS retraction_strict);
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val rep_strict = ax_abs_iso RS (allI RS retraction_strict);
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val iso_rews = map Drule.export_without_context [ax_abs_iso, ax_rep_iso, abs_strict, rep_strict];
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(* ----- theorems concerning one induction step ----------------------------- *)
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local
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  fun dc_take dn = %%:(dn^"_take");
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  val dnames = map (fst o fst) eqs;
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  val deflation_thms = Domain_Take_Proofs.get_deflation_thms thy;
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  fun get_deflation_take dn = PureThy.get_thm thy (dn ^ ".deflation_take");
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  val axs_deflation_take = map get_deflation_take dnames;
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  fun copy_of_dtyp tab r dt =
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      if Datatype_Aux.is_rec_type dt then copy tab r dt else ID
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  and copy tab r (Datatype_Aux.DtRec i) = r i
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    | copy tab r (Datatype_Aux.DtTFree a) = ID
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    | copy tab r (Datatype_Aux.DtType (c, ds)) =
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      case Symtab.lookup tab c of
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        SOME f => list_ccomb (%%:f, map (copy_of_dtyp tab r) ds)
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      | NONE => (warning ("copy_of_dtyp: unknown type constructor " ^ c); ID);
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  fun one_take_app (con, args) =
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    let
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      fun mk_take n = dc_take (List.nth (dnames, n)) $ %:"n";
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      fun one_rhs arg =
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          if Datatype_Aux.is_rec_type (dtyp_of arg)
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          then copy_of_dtyp map_tab
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                 mk_take (dtyp_of arg) ` (%# arg)
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          else (%# arg);
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      val lhs = (dc_take dname $ (%%:"Suc" $ %:"n"))`(con_app con args);
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      val rhs = con_app2 con one_rhs args;
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      val goal = mk_trp (lhs === rhs);
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      val rules =
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          [ax_take_Suc, ax_abs_iso, @{thm cfcomp2}]
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          @ @{thms take_con_rules ID1 deflation_strict}
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          @ deflation_thms @ axs_deflation_take;
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      val tacs = [simp_tac (HOL_basic_ss addsimps rules) 1];
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    in pg con_appls goal (K tacs) end;
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  val take_apps = map one_take_app cons;
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in
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  val take_rews = ax_take_0 :: ax_take_strict :: take_apps;
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end;
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val case_ns =
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    "bottom" :: map (fn (b,_,_) => Binding.name_of b) (snd dom_eqn);
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in
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  thy
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    |> Sign.add_path (Long_Name.base_name dname)
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    |> snd o PureThy.add_thmss [
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        ((Binding.name "iso_rews"  , iso_rews    ), [Simplifier.simp_add]),
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        ((Binding.name "exhaust"   , [exhaust]   ), []),
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        ((Binding.name "casedist"  , [casedist]  ),
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         [Rule_Cases.case_names case_ns, Induct.cases_type dname]),
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        ((Binding.name "when_rews" , when_rews   ), [Simplifier.simp_add]),
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        ((Binding.name "compacts"  , con_compacts), [Simplifier.simp_add]),
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        ((Binding.name "con_rews"  , con_rews    ),
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         [Simplifier.simp_add, Fixrec.fixrec_simp_add]),
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        ((Binding.name "sel_rews"  , sel_rews    ), [Simplifier.simp_add]),
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        ((Binding.name "dis_rews"  , dis_rews    ), [Simplifier.simp_add]),
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        ((Binding.name "pat_rews"  , pat_rews    ), [Simplifier.simp_add]),
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        ((Binding.name "dist_les"  , dist_les    ), [Simplifier.simp_add]),
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        ((Binding.name "dist_eqs"  , dist_eqs    ), [Simplifier.simp_add]),
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        ((Binding.name "inverts"   , inverts     ), [Simplifier.simp_add]),
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        ((Binding.name "injects"   , injects     ), [Simplifier.simp_add]),
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        ((Binding.name "take_rews" , take_rews   ), [Simplifier.simp_add]),
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        ((Binding.name "match_rews", mat_rews    ),
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         [Simplifier.simp_add, Fixrec.fixrec_simp_add])]
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    |> Sign.parent_path
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    |> pair (iso_rews @ when_rews @ con_rews @ sel_rews @ dis_rews @
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        pat_rews @ dist_les @ dist_eqs)
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end; (* let *)
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(******************************************************************************)
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(****************************** induction rules *******************************)
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(******************************************************************************)
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fun prove_induction
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    (comp_dnam, eqs : eq list)
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    (take_lemmas : thm list)
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    (axs_reach : thm list)
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    (take_rews : thm list)
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    (take_info : Domain_Take_Proofs.take_induct_info)
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    (thy : theory) =
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let
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  val dnames = map (fst o fst) eqs;
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  val conss  = map  snd        eqs;
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  fun dc_take dn = %%:(dn^"_take");
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  val x_name = idx_name dnames "x"; 
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  val P_name = idx_name dnames "P";
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  val pg = pg' thy;
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  local
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    fun ga s dn = PureThy.get_thm thy (dn ^ "." ^ s);
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    fun gts s dn = PureThy.get_thms thy (dn ^ "." ^ s);
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  in
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    val axs_rep_iso = map (ga "rep_iso") dnames;
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    val axs_abs_iso = map (ga "abs_iso") dnames;
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    val cases = map (ga  "casedist" ) dnames;
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    val con_rews  = maps (gts "con_rews" ) dnames;
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  end;
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  val {take_0_thms, take_Suc_thms, chain_take_thms, ...} = take_info;
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  val {lub_take_thms, finite_defs, ...} = take_info;
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  fun one_con p (con, args) =
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    let
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      val P_names = map P_name (1 upto (length dnames));
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      val vns = Name.variant_list P_names (map vname args);
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      val nonlazy_vns = map snd (filter_out (is_lazy o fst) (args ~~ vns));
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      fun ind_hyp arg = %:(P_name (1 + rec_of arg)) $ bound_arg args arg;
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      val t1 = mk_trp (%:p $ con_app2 con (bound_arg args) args);
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      val t2 = lift ind_hyp (filter is_rec args, t1);
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      val t3 = lift_defined (bound_arg vns) (nonlazy_vns, t2);
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    in Library.foldr mk_All (vns, t3) end;
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  fun one_eq ((p, cons), concl) =
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    mk_trp (%:p $ UU) ===> Logic.list_implies (map (one_con p) cons, concl);
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  fun ind_term concf = Library.foldr one_eq
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    (mapn (fn n => fn x => (P_name n, x)) 1 conss,
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     mk_trp (foldr1 mk_conj (mapn concf 1 dnames)));
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  val take_ss = HOL_ss addsimps (@{thm Rep_CFun_strict1} :: take_rews);
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  fun quant_tac ctxt i = EVERY
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    (mapn (fn n => fn _ => res_inst_tac ctxt [(("x", 0), x_name n)] spec i) 1 dnames);
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  fun ind_prems_tac prems = EVERY
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    (maps (fn cons =>
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      (resolve_tac prems 1 ::
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        maps (fn (_,args) => 
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          resolve_tac prems 1 ::
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          map (K(atac 1)) (nonlazy args) @
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          map (K(atac 1)) (filter is_rec args))
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        cons))
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      conss);
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  local 
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    (* check whether every/exists constructor of the n-th part of the equation:
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       it has a possibly indirectly recursive argument that isn't/is possibly 
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       indirectly lazy *)
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    fun rec_to quant nfn rfn ns lazy_rec (n,cons) = quant (exists (fn arg => 
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          is_rec arg andalso not(rec_of arg mem ns) andalso
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          ((rec_of arg =  n andalso nfn(lazy_rec orelse is_lazy arg)) orelse 
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            rec_of arg <> n andalso rec_to quant nfn rfn (rec_of arg::ns) 
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              (lazy_rec orelse is_lazy arg) (n, (List.nth(conss,rec_of arg))))
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          ) o snd) cons;
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    fun all_rec_to ns  = rec_to forall not all_rec_to  ns;
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    fun warn (n,cons) =
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      if all_rec_to [] false (n,cons)
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      then (warning ("domain "^List.nth(dnames,n)^" is empty!"); true)
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      else false;
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    fun lazy_rec_to ns = rec_to exists I  lazy_rec_to ns;
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  in
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    val n__eqs = mapn (fn n => fn (_,cons) => (n,cons)) 0 eqs;
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    val is_emptys = map warn n__eqs;
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    val is_finite = forall (not o lazy_rec_to [] false) n__eqs;
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    val _ = if is_finite
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            then message ("Proving finiteness rule for domain "^comp_dnam^" ...")
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            else ();
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  end;
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  val _ = trace " Proving finite_ind...";
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  val finite_ind =
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    let
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      fun concf n dn = %:(P_name n) $ (dc_take dn $ %:"n" `%(x_name n));
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      val goal = ind_term concf;
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      fun tacf {prems, context} =
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        let
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          val tacs1 = [
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            quant_tac context 1,
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            simp_tac HOL_ss 1,
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            InductTacs.induct_tac context [[SOME "n"]] 1,
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            simp_tac (take_ss addsimps prems) 1,
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            TRY (safe_tac HOL_cs)];
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          fun arg_tac arg =
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                        (* FIXME! case_UU_tac *)
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            case_UU_tac context (prems @ con_rews) 1
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              (List.nth (dnames, rec_of arg) ^ "_take n$" ^ vname arg);
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          fun con_tacs (con, args) = 
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            asm_simp_tac take_ss 1 ::
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            map arg_tac (filter is_nonlazy_rec args) @
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            [resolve_tac prems 1] @
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            map (K (atac 1)) (nonlazy args) @
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            map (K (etac spec 1)) (filter is_rec args);
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          fun cases_tacs (cons, cases) =
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            res_inst_tac context [(("y", 0), "x")] cases 1 ::
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            asm_simp_tac (take_ss addsimps prems) 1 ::
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            maps con_tacs cons;
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        in
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          tacs1 @ maps cases_tacs (conss ~~ cases)
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        end;
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    in pg'' thy [] goal tacf
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       handle ERROR _ => (warning "Proof of finite_ind failed."; TrueI)
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    end;
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(* ----- theorems concerning finiteness and induction ----------------------- *)
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  val global_ctxt = ProofContext.init thy;
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  val _ = trace " Proving finites, ind...";
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  val (finites, ind) =
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  (
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    if is_finite
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    then (* finite case *)
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      let
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        val decisive_lemma =
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          let
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            val iso_locale_thms =
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                map2 (fn x => fn y => @{thm iso.intro} OF [x, y])
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                axs_abs_iso axs_rep_iso;
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            val decisive_abs_rep_thms =
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                map (fn x => @{thm decisive_abs_rep} OF [x])
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                iso_locale_thms;
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            val n = Free ("n", @{typ nat});
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            fun mk_decisive t = %%: @{const_name decisive} $ t;
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            fun f dn = mk_decisive (dc_take dn $ n);
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            val goal = mk_trp (foldr1 mk_conj (map f dnames));
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            val rules0 = @{thm decisive_bottom} :: take_0_thms;
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            val rules1 =
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                take_Suc_thms @ decisive_abs_rep_thms
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                @ @{thms decisive_ID decisive_ssum_map decisive_sprod_map};
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            val tacs = [
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                rtac @{thm nat.induct} 1,
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                simp_tac (HOL_ss addsimps rules0) 1,
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                asm_simp_tac (HOL_ss addsimps rules1) 1];
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          in pg [] goal (K tacs) end;
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        fun take_enough dn = mk_ex ("n",dc_take dn $ Bound 0 ` %:"x" === %:"x");
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        fun one_finite (dn, decisive_thm) =
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          let
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            val goal = mk_trp (%%:(dn^"_finite") $ %:"x");
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            val tacs = [
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                rtac @{thm lub_ID_finite} 1,
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                resolve_tac chain_take_thms 1,
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                resolve_tac lub_take_thms 1,
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                rtac decisive_thm 1];
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          in pg finite_defs goal (K tacs) end;
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        val _ = trace " Proving finites";
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        val finites = map one_finite (dnames ~~ atomize global_ctxt decisive_lemma);
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        val _ = trace " Proving ind";
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        val ind =
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          let
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            fun concf n dn = %:(P_name n) $ %:(x_name n);
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            fun tacf {prems, context} =
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              let
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                fun finite_tacs (finite, fin_ind) = [
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                  rtac(rewrite_rule finite_defs finite RS exE)1,
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                  etac subst 1,
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                  rtac fin_ind 1,
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                  ind_prems_tac prems];
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              in
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                TRY (safe_tac HOL_cs) ::
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                maps finite_tacs (finites ~~ atomize global_ctxt finite_ind)
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              end;
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          in pg'' thy [] (ind_term concf) tacf end;
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      in (finites, ind) end (* let *)
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   388
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    else (* infinite case *)
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      let
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   391
        fun one_finite n dn =
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          read_instantiate global_ctxt [(("P", 0), dn ^ "_finite " ^ x_name n)] excluded_middle;
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        val finites = mapn one_finite 1 dnames;
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   394
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        val goal =
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          let
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   397
            fun one_adm n _ = mk_trp (mk_adm (%:(P_name n)));
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   398
            fun concf n dn = %:(P_name n) $ %:(x_name n);
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          in Logic.list_implies (mapn one_adm 1 dnames, ind_term concf) end;
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        val cont_rules =
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            @{thms cont_id cont_const cont2cont_Rep_CFun
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                   cont2cont_fst cont2cont_snd};
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   403
        val subgoal =
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   404
          let fun p n dn = %:(P_name n) $ (dc_take dn $ Bound 0 `%(x_name n));
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   405
          in mk_trp (mk_all ("n", foldr1 mk_conj (mapn p 1 dnames))) end;
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   406
        val subgoal' = legacy_infer_term thy subgoal;
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   407
        fun tacf {prems, context} =
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   408
          let
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   409
            val subtac =
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   410
                EVERY [rtac allI 1, rtac finite_ind 1, ind_prems_tac prems];
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   411
            val subthm = Goal.prove context [] [] subgoal' (K subtac);
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   412
          in
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   413
            map (fn ax_reach => rtac (ax_reach RS subst) 1) axs_reach @ [
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   414
            cut_facts_tac (subthm :: take (length dnames) prems) 1,
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   415
            REPEAT (rtac @{thm conjI} 1 ORELSE
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   416
                    EVERY [etac @{thm admD [OF _ ch2ch_Rep_CFunL]} 1,
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   417
                           resolve_tac chain_take_thms 1,
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   418
                           asm_simp_tac HOL_basic_ss 1])
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   419
            ]
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   420
          end;
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        val ind = (pg'' thy [] goal tacf
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   422
          handle ERROR _ =>
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   423
            (warning "Cannot prove infinite induction rule"; TrueI)
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   424
                  );
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   425
      in (finites, ind) end
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   426
  )
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   427
      handle THM _ =>
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   428
             (warning "Induction proofs failed (THM raised)."; ([], TrueI))
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   429
           | ERROR _ =>
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   430
             (warning "Cannot prove induction rule"; ([], TrueI));
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   431
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   432
val case_ns =
8e562d56d404 add case_names attribute to casedist and ind rules
huffman
parents: 35601
diff changeset
   433
  let
8e562d56d404 add case_names attribute to casedist and ind rules
huffman
parents: 35601
diff changeset
   434
    val bottoms =
8e562d56d404 add case_names attribute to casedist and ind rules
huffman
parents: 35601
diff changeset
   435
        if length dnames = 1 then ["bottom"] else
8e562d56d404 add case_names attribute to casedist and ind rules
huffman
parents: 35601
diff changeset
   436
        map (fn s => "bottom_" ^ Long_Name.base_name s) dnames;
8e562d56d404 add case_names attribute to casedist and ind rules
huffman
parents: 35601
diff changeset
   437
    fun one_eq bot (_,cons) =
8e562d56d404 add case_names attribute to casedist and ind rules
huffman
parents: 35601
diff changeset
   438
          bot :: map (fn (c,_) => Long_Name.base_name c) cons;
8e562d56d404 add case_names attribute to casedist and ind rules
huffman
parents: 35601
diff changeset
   439
  in flat (map2 one_eq bottoms eqs) end;
8e562d56d404 add case_names attribute to casedist and ind rules
huffman
parents: 35601
diff changeset
   440
35585
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   441
val inducts = Project_Rule.projections (ProofContext.init thy) ind;
35630
8e562d56d404 add case_names attribute to casedist and ind rules
huffman
parents: 35601
diff changeset
   442
fun ind_rule (dname, rule) =
8e562d56d404 add case_names attribute to casedist and ind rules
huffman
parents: 35601
diff changeset
   443
    ((Binding.empty, [rule]),
8e562d56d404 add case_names attribute to casedist and ind rules
huffman
parents: 35601
diff changeset
   444
     [Rule_Cases.case_names case_ns, Induct.induct_type dname]);
8e562d56d404 add case_names attribute to casedist and ind rules
huffman
parents: 35601
diff changeset
   445
35585
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   446
val induct_failed = (Thm.prop_of ind = Thm.prop_of TrueI);
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   447
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   448
in thy |> Sign.add_path comp_dnam
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   449
       |> snd o PureThy.add_thmss [
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   450
           ((Binding.name "finites"    , finites     ), []),
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   451
           ((Binding.name "finite_ind" , [finite_ind]), []),
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   452
           ((Binding.name "ind"        , [ind]       ), [])]
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   453
       |> (if induct_failed then I
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   454
           else snd o PureThy.add_thmss (map ind_rule (dnames ~~ inducts)))
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   455
       |> Sign.parent_path
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   456
end; (* prove_induction *)
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   457
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   458
(******************************************************************************)
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   459
(************************ bisimulation and coinduction ************************)
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   460
(******************************************************************************)
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   461
35574
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   462
fun prove_coinduction
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   463
    (comp_dnam, eqs : eq list)
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   464
    (take_lemmas : thm list)
35599
20670f5564e9 skip coinduction proofs for indirect-recursive domain definitions
huffman
parents: 35597
diff changeset
   465
    (thy : theory) : theory =
23152
9497234a2743 moved HOLCF tools to canonical place;
wenzelm
parents:
diff changeset
   466
let
27232
7cd256da0a36 atomize: proper context;
wenzelm
parents: 27208
diff changeset
   467
23152
9497234a2743 moved HOLCF tools to canonical place;
wenzelm
parents:
diff changeset
   468
val dnames = map (fst o fst) eqs;
28965
1de908189869 cleaned up binding module and related code
haftmann
parents: 28536
diff changeset
   469
val comp_dname = Sign.full_bname thy comp_dnam;
35574
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   470
fun dc_take dn = %%:(dn^"_take");
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   471
val x_name = idx_name dnames "x"; 
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   472
val n_eqs = length eqs;
23152
9497234a2743 moved HOLCF tools to canonical place;
wenzelm
parents:
diff changeset
   473
35574
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   474
val take_rews =
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   475
    maps (fn dn => PureThy.get_thms thy (dn ^ ".take_rews")) dnames;
35497
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   476
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   477
(* ----- define bisimulation predicate -------------------------------------- *)
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   478
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   479
local
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   480
  open HOLCF_Library
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   481
  val dtypes  = map (Type o fst) eqs;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   482
  val relprod = mk_tupleT (map (fn tp => tp --> tp --> boolT) dtypes);
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   483
  val bisim_bind = Binding.name (comp_dnam ^ "_bisim");
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   484
  val bisim_type = relprod --> boolT;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   485
in
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   486
  val (bisim_const, thy) =
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   487
      Sign.declare_const ((bisim_bind, bisim_type), NoSyn) thy;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   488
end;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   489
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   490
local
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   491
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   492
  fun legacy_infer_term thy t =
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   493
      singleton (Syntax.check_terms (ProofContext.init thy)) (Sign.intern_term thy t);
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   494
  fun legacy_infer_prop thy t = legacy_infer_term thy (TypeInfer.constrain propT t);
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   495
  fun infer_props thy = map (apsnd (legacy_infer_prop thy));
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   496
  fun add_defs_i x = PureThy.add_defs false (map Thm.no_attributes x);
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   497
  fun add_defs_infer defs thy = add_defs_i (infer_props thy defs) thy;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   498
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   499
  val comp_dname = Sign.full_bname thy comp_dnam;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   500
  val dnames = map (fst o fst) eqs;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   501
  val x_name = idx_name dnames "x"; 
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   502
35521
47eec4da124a remove unused mixfix component from type cons
huffman
parents: 35514
diff changeset
   503
  fun one_con (con, args) =
35497
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   504
    let
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   505
      val nonrec_args = filter_out is_rec args;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   506
      val    rec_args = filter is_rec args;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   507
      val    recs_cnt = length rec_args;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   508
      val allargs     = nonrec_args @ rec_args
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   509
                        @ map (upd_vname (fn s=> s^"'")) rec_args;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   510
      val allvns      = map vname allargs;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   511
      fun vname_arg s arg = if is_rec arg then vname arg^s else vname arg;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   512
      val vns1        = map (vname_arg "" ) args;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   513
      val vns2        = map (vname_arg "'") args;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   514
      val allargs_cnt = length nonrec_args + 2*recs_cnt;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   515
      val rec_idxs    = (recs_cnt-1) downto 0;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   516
      val nonlazy_idxs = map snd (filter_out (fn (arg,_) => is_lazy arg)
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   517
                                             (allargs~~((allargs_cnt-1) downto 0)));
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   518
      fun rel_app i ra = proj (Bound(allargs_cnt+2)) eqs (rec_of ra) $ 
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   519
                              Bound (2*recs_cnt-i) $ Bound (recs_cnt-i);
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   520
      val capps =
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   521
          List.foldr
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   522
            mk_conj
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   523
            (mk_conj(
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   524
             Bound(allargs_cnt+1)===list_ccomb(%%:con,map (bound_arg allvns) vns1),
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   525
             Bound(allargs_cnt+0)===list_ccomb(%%:con,map (bound_arg allvns) vns2)))
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   526
            (mapn rel_app 1 rec_args);
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   527
    in
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   528
      List.foldr
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   529
        mk_ex
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   530
        (Library.foldr mk_conj
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   531
                       (map (defined o Bound) nonlazy_idxs,capps)) allvns
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   532
    end;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   533
  fun one_comp n (_,cons) =
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   534
      mk_all (x_name(n+1),
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   535
      mk_all (x_name(n+1)^"'",
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   536
      mk_imp (proj (Bound 2) eqs n $ Bound 1 $ Bound 0,
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   537
      foldr1 mk_disj (mk_conj(Bound 1 === UU,Bound 0 === UU)
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   538
                      ::map one_con cons))));
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   539
  val bisim_eqn =
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   540
      %%:(comp_dname^"_bisim") ==
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   541
         mk_lam("R", foldr1 mk_conj (mapn one_comp 0 eqs));
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   542
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   543
in
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   544
  val ([ax_bisim_def], thy) =
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   545
      thy
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   546
        |> Sign.add_path comp_dnam
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   547
        |> add_defs_infer [(Binding.name "bisim_def", bisim_eqn)]
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   548
        ||> Sign.parent_path;
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   549
end; (* local *)
979706bd5c16 re-enable bisim code, now in domain_theorems.ML
huffman
parents: 35494
diff changeset
   550
35574
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   551
(* ----- theorem concerning coinduction ------------------------------------- *)
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   552
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   553
local
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   554
  val pg = pg' thy;
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   555
  val xs = mapn (fn n => K (x_name n)) 1 dnames;
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   556
  fun bnd_arg n i = Bound(2*(n_eqs - n)-i-1);
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   557
  val take_ss = HOL_ss addsimps (@{thm Rep_CFun_strict1} :: take_rews);
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   558
  val sproj = prj (fn s => K("fst("^s^")")) (fn s => K("snd("^s^")"));
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   559
  val _ = trace " Proving coind_lemma...";
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   560
  val coind_lemma =
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   561
    let
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   562
      fun mk_prj n _ = proj (%:"R") eqs n $ bnd_arg n 0 $ bnd_arg n 1;
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   563
      fun mk_eqn n dn =
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   564
        (dc_take dn $ %:"n" ` bnd_arg n 0) ===
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   565
        (dc_take dn $ %:"n" ` bnd_arg n 1);
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   566
      fun mk_all2 (x,t) = mk_all (x, mk_all (x^"'", t));
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   567
      val goal =
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   568
        mk_trp (mk_imp (%%:(comp_dname^"_bisim") $ %:"R",
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   569
          Library.foldr mk_all2 (xs,
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   570
            Library.foldr mk_imp (mapn mk_prj 0 dnames,
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   571
              foldr1 mk_conj (mapn mk_eqn 0 dnames)))));
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   572
      fun x_tacs ctxt n x = [
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   573
        rotate_tac (n+1) 1,
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   574
        etac all2E 1,
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   575
        eres_inst_tac ctxt [(("P", 1), sproj "R" eqs n^" "^x^" "^x^"'")] (mp RS disjE) 1,
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   576
        TRY (safe_tac HOL_cs),
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   577
        REPEAT (CHANGED (asm_simp_tac take_ss 1))];
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   578
      fun tacs ctxt = [
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   579
        rtac impI 1,
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   580
        InductTacs.induct_tac ctxt [[SOME "n"]] 1,
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   581
        simp_tac take_ss 1,
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   582
        safe_tac HOL_cs] @
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   583
        flat (mapn (x_tacs ctxt) 0 xs);
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   584
    in pg [ax_bisim_def] goal tacs end;
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   585
in
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   586
  val _ = trace " Proving coind...";
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   587
  val coind = 
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   588
    let
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   589
      fun mk_prj n x = mk_trp (proj (%:"R") eqs n $ %:x $ %:(x^"'"));
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   590
      fun mk_eqn x = %:x === %:(x^"'");
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   591
      val goal =
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   592
        mk_trp (%%:(comp_dname^"_bisim") $ %:"R") ===>
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   593
          Logic.list_implies (mapn mk_prj 0 xs,
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   594
            mk_trp (foldr1 mk_conj (map mk_eqn xs)));
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   595
      val tacs =
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   596
        TRY (safe_tac HOL_cs) ::
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   597
        maps (fn take_lemma => [
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   598
          rtac take_lemma 1,
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   599
          cut_facts_tac [coind_lemma] 1,
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   600
          fast_tac HOL_cs 1])
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   601
        take_lemmas;
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   602
    in pg [] goal (K tacs) end;
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   603
end; (* local *)
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   604
35599
20670f5564e9 skip coinduction proofs for indirect-recursive domain definitions
huffman
parents: 35597
diff changeset
   605
in thy |> Sign.add_path comp_dnam
20670f5564e9 skip coinduction proofs for indirect-recursive domain definitions
huffman
parents: 35597
diff changeset
   606
       |> snd o PureThy.add_thmss [((Binding.name "coind", [coind]), [])]
20670f5564e9 skip coinduction proofs for indirect-recursive domain definitions
huffman
parents: 35597
diff changeset
   607
       |> Sign.parent_path
20670f5564e9 skip coinduction proofs for indirect-recursive domain definitions
huffman
parents: 35597
diff changeset
   608
end; (* let *)
35574
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   609
35657
0537c34c6067 pass take_induct_info as an argument to comp_theorems
huffman
parents: 35654
diff changeset
   610
fun comp_theorems
0537c34c6067 pass take_induct_info as an argument to comp_theorems
huffman
parents: 35654
diff changeset
   611
    (comp_dnam : string, eqs : eq list)
35659
a78bc1930a7a include take_info within take_induct_info type
huffman
parents: 35658
diff changeset
   612
    (take_info : Domain_Take_Proofs.take_induct_info)
35657
0537c34c6067 pass take_induct_info as an argument to comp_theorems
huffman
parents: 35654
diff changeset
   613
    (thy : theory) =
35574
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   614
let
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   615
val map_tab = Domain_Take_Proofs.get_map_tab thy;
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   616
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   617
val dnames = map (fst o fst) eqs;
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   618
val comp_dname = Sign.full_bname thy comp_dnam;
ee5df989b7c4 move coinduction-related stuff into function prove_coindunction
huffman
parents: 35560
diff changeset
   619
35585
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   620
(* ----- getting the composite axiom and definitions ------------------------ *)
23152
9497234a2743 moved HOLCF tools to canonical place;
wenzelm
parents:
diff changeset
   621
35585
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   622
(* Test for indirect recursion *)
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   623
local
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   624
  fun indirect_arg arg =
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   625
      rec_of arg = ~1 andalso Datatype_Aux.is_rec_type (dtyp_of arg);
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   626
  fun indirect_con (_, args) = exists indirect_arg args;
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   627
  fun indirect_eq (_, cons) = exists indirect_con cons;
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   628
in
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   629
  val is_indirect = exists indirect_eq eqs;
35599
20670f5564e9 skip coinduction proofs for indirect-recursive domain definitions
huffman
parents: 35597
diff changeset
   630
  val _ =
20670f5564e9 skip coinduction proofs for indirect-recursive domain definitions
huffman
parents: 35597
diff changeset
   631
      if is_indirect
20670f5564e9 skip coinduction proofs for indirect-recursive domain definitions
huffman
parents: 35597
diff changeset
   632
      then message "Indirect recursion detected, skipping proofs of (co)induction rules"
20670f5564e9 skip coinduction proofs for indirect-recursive domain definitions
huffman
parents: 35597
diff changeset
   633
      else message ("Proving induction properties of domain "^comp_dname^" ...");
35585
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   634
end;
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   635
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   636
(* theorems about take *)
23152
9497234a2743 moved HOLCF tools to canonical place;
wenzelm
parents:
diff changeset
   637
35659
a78bc1930a7a include take_info within take_induct_info type
huffman
parents: 35658
diff changeset
   638
val take_lemmas = #take_lemma_thms take_info;
a78bc1930a7a include take_info within take_induct_info type
huffman
parents: 35658
diff changeset
   639
val axs_reach = #reach_thms take_info;
23152
9497234a2743 moved HOLCF tools to canonical place;
wenzelm
parents:
diff changeset
   640
35585
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   641
val take_rews =
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   642
    maps (fn dn => PureThy.get_thms thy (dn ^ ".take_rews")) dnames;
23152
9497234a2743 moved HOLCF tools to canonical place;
wenzelm
parents:
diff changeset
   643
35585
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   644
(* prove induction rules, unless definition is indirect recursive *)
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   645
val thy =
555f26f00e47 skip proof of induction rule for indirect-recursive domain definitions
huffman
parents: 35574
diff changeset
   646
    if is_indirect then thy else
35658
3d8da9fac424 pass take_info as an argument to comp_theorems
huffman
parents: 35657
diff changeset
   647
    prove_induction (comp_dnam, eqs) take_lemmas axs_reach take_rews take_info thy;
23152
9497234a2743 moved HOLCF tools to canonical place;
wenzelm
parents:
diff changeset
   648
35599
20670f5564e9 skip coinduction proofs for indirect-recursive domain definitions
huffman
parents: 35597
diff changeset
   649
val thy =
20670f5564e9 skip coinduction proofs for indirect-recursive domain definitions
huffman
parents: 35597
diff changeset
   650
    if is_indirect then thy else
20670f5564e9 skip coinduction proofs for indirect-recursive domain definitions
huffman
parents: 35597
diff changeset
   651
    prove_coinduction (comp_dnam, eqs) take_lemmas thy;
23152
9497234a2743 moved HOLCF tools to canonical place;
wenzelm
parents:
diff changeset
   652
35642
f478d5a9d238 generate separate qualified theorem name for each type's reach and take_lemma
huffman
parents: 35630
diff changeset
   653
in
f478d5a9d238 generate separate qualified theorem name for each type's reach and take_lemma
huffman
parents: 35630
diff changeset
   654
  (take_rews, thy)
23152
9497234a2743 moved HOLCF tools to canonical place;
wenzelm
parents:
diff changeset
   655
end; (* let *)
9497234a2743 moved HOLCF tools to canonical place;
wenzelm
parents:
diff changeset
   656
end; (* struct *)