src/ZF/InfDatatype.ML
author paulson
Fri, 16 Feb 1996 18:00:47 +0100
changeset 1512 ce37c64244c0
parent 1461 6bcb44e4d6e5
child 2469 b50b8c0eec01
permissions -rw-r--r--
Elimination of fully-functorial style. Type tactic changed to a type abbrevation (from a datatype). Constructor tactic and function apply deleted.

(*  Title:      ZF/InfDatatype.ML
    ID:         $Id$
    Author:     Lawrence C Paulson, Cambridge University Computer Laboratory
    Copyright   1994  University of Cambridge

Infinite-branching datatype definitions
*)

val fun_Limit_VfromE =
   [apply_funtype, InfCard_csucc RS InfCard_is_Limit] MRS Limit_VfromE 
   |> standard;

goal InfDatatype.thy
    "!!K. [| f: W -> Vfrom(A,csucc(K));  |W| le K;  InfCard(K)  \
\         |] ==> EX j. f: W -> Vfrom(A,j) & j < csucc(K)";
by (res_inst_tac [("x", "UN w:W. LEAST i. f`w : Vfrom(A,i)")] exI 1);
by (rtac conjI 1);
by (rtac le_UN_Ord_lt_csucc 2);
by (rtac ballI 4  THEN
    etac fun_Limit_VfromE 4 THEN REPEAT_SOME assume_tac);
by (fast_tac (ZF_cs addEs [Least_le RS lt_trans1, ltE]) 2);
by (rtac Pi_type 1);
by (rename_tac "w" 2);
by (etac fun_Limit_VfromE 2 THEN REPEAT_SOME assume_tac);
by (subgoal_tac "f`w : Vfrom(A, LEAST i. f`w : Vfrom(A,i))" 1);
by (fast_tac (ZF_cs addEs [LeastI, ltE]) 2);
by (eresolve_tac [[subset_refl, UN_upper] MRS Vfrom_mono RS subsetD] 1);
by (assume_tac 1);
qed "fun_Vcsucc_lemma";

goal InfDatatype.thy
    "!!K. [| W <= Vfrom(A,csucc(K));  |W| le K;  InfCard(K)     \
\         |] ==> EX j. W <= Vfrom(A,j) & j < csucc(K)";
by (asm_full_simp_tac (ZF_ss addsimps [subset_iff_id, fun_Vcsucc_lemma]) 1);
qed "subset_Vcsucc";

(*Version for arbitrary index sets*)
goal InfDatatype.thy
    "!!K. [| |W| le K;  InfCard(K);  W <= Vfrom(A,csucc(K)) |] ==> \
\         W -> Vfrom(A,csucc(K)) <= Vfrom(A,csucc(K))";
by (safe_tac (ZF_cs addSDs [fun_Vcsucc_lemma, subset_Vcsucc]));
by (resolve_tac [Vfrom RS ssubst] 1);
by (dtac fun_is_rel 1);
(*This level includes the function, and is below csucc(K)*)
by (res_inst_tac [("a1", "succ(succ(j Un ja))")] (UN_I RS UnI2) 1);
by (eresolve_tac [subset_trans RS PowI] 2);
by (fast_tac (ZF_cs addIs [Pair_in_Vfrom, Vfrom_UnI1, Vfrom_UnI2]) 2);
by (REPEAT (ares_tac [ltD, InfCard_csucc, InfCard_is_Limit, 
                      Limit_has_succ, Un_least_lt] 1));
qed "fun_Vcsucc";

goal InfDatatype.thy
    "!!K. [| f: W -> Vfrom(A, csucc(K));  |W| le K;  InfCard(K);        \
\            W <= Vfrom(A,csucc(K))                                     \
\         |] ==> f: Vfrom(A,csucc(K))";
by (REPEAT (ares_tac [fun_Vcsucc RS subsetD] 1));
qed "fun_in_Vcsucc";

(*Remove <= from the rule above*)
val fun_in_Vcsucc' = subsetI RSN (4, fun_in_Vcsucc);

(** Version where K itself is the index set **)

goal InfDatatype.thy
    "!!K. InfCard(K) ==> K -> Vfrom(A,csucc(K)) <= Vfrom(A,csucc(K))";
by (forward_tac [InfCard_is_Card RS Card_is_Ord] 1);
by (REPEAT (ares_tac [fun_Vcsucc, Ord_cardinal_le,
                      i_subset_Vfrom,
                      lt_csucc RS leI RS le_imp_subset RS subset_trans] 1));
qed "Card_fun_Vcsucc";

goal InfDatatype.thy
    "!!K. [| f: K -> Vfrom(A, csucc(K));  InfCard(K) \
\         |] ==> f: Vfrom(A,csucc(K))";
by (REPEAT (ares_tac [Card_fun_Vcsucc RS subsetD] 1));
qed "Card_fun_in_Vcsucc";

(*Proved explicitly, in theory InfDatatype, to allow the bind_thm calls below*)
qed_goal "Limit_csucc" InfDatatype.thy
    "!!K. InfCard(K) ==> Limit(csucc(K))"
  (fn _ => [etac (InfCard_csucc RS InfCard_is_Limit) 1]);

bind_thm ("Pair_in_Vcsucc",  Limit_csucc RSN (3, Pair_in_VLimit));
bind_thm ("Inl_in_Vcsucc",   Limit_csucc RSN (2, Inl_in_VLimit));
bind_thm ("Inr_in_Vcsucc",   Limit_csucc RSN (2, Inr_in_VLimit));
bind_thm ("zero_in_Vcsucc",  Limit_csucc RS zero_in_VLimit);
bind_thm ("nat_into_Vcsucc", Limit_csucc RSN (2, nat_into_VLimit));

(*For handling Cardinals of the form  (nat Un |X|) *)

bind_thm ("InfCard_nat_Un_cardinal",
          [InfCard_nat, Card_cardinal] MRS InfCard_Un);

bind_thm ("le_nat_Un_cardinal",
          [Ord_nat, Card_cardinal RS Card_is_Ord] MRS Un_upper2_le);

bind_thm ("UN_upper_cardinal",
          UN_upper RS subset_imp_lepoll RS lepoll_imp_Card_le);

(*For most K-branching datatypes with domain Vfrom(A, csucc(K)) *)
val inf_datatype_intrs =  
    [InfCard_nat, InfCard_nat_Un_cardinal,
     Pair_in_Vcsucc, Inl_in_Vcsucc, Inr_in_Vcsucc, 
     zero_in_Vcsucc, A_into_Vfrom, nat_into_Vcsucc,
     Card_fun_in_Vcsucc, fun_in_Vcsucc', UN_I] @ datatype_intrs;