Used trans_tac (see Provers/nat_transitive.ML) to automate arithmetic.
(* Title: HOL/Lambda/Eta.ML
ID: $Id$
Author: Tobias Nipkow
Copyright 1995 TU Muenchen
Eta reduction,
confluence of eta,
commutation of beta/eta,
confluence of beta+eta
*)
open Eta;
Addsimps eta.intrs;
val eta_cases = map (eta.mk_cases db.simps)
["Fun s -e> z","s @ t -e> u","Var i -e> t"];
val beta_cases = map (beta.mk_cases db.simps)
["s @ t -> u","Var i -> t"];
AddIs eta.intrs;
AddSEs (beta_cases@eta_cases);
section "decr and free";
goal Eta.thy "!i k. free (lift t k) i = \
\ (i < k & free t i | k < i & free t (pred i))";
by (db.induct_tac "t" 1);
by (ALLGOALS(asm_full_simp_tac (addsplit (!simpset) addcongs [conj_cong])));
by (fast_tac HOL_cs 2);
by(simp_tac (!simpset addsimps [pred_def]
setloop (split_tac [expand_nat_case])) 1);
by (safe_tac HOL_cs);
by (ALLGOALS trans_tac);
qed "free_lift";
Addsimps [free_lift];
goal Eta.thy "!i k t. free (s[t/k]) i = \
\ (free s k & free t i | free s (if i<k then i else Suc i))";
by (db.induct_tac "s" 1);
by (Asm_simp_tac 2);
by (Fast_tac 2);
by (asm_full_simp_tac (addsplit (!simpset)) 2);
by(simp_tac (!simpset addsimps [pred_def,subst_Var]
setloop (split_tac [expand_if,expand_nat_case])) 1);
by (safe_tac (HOL_cs addSEs [nat_neqE]));
by (ALLGOALS trans_tac);
qed "free_subst";
Addsimps [free_subst];
goal Eta.thy "!!s. s -e> t ==> !i. free t i = free s i";
by (etac eta.induct 1);
by (ALLGOALS(asm_simp_tac (!simpset addsimps [decr_def] addcongs [conj_cong])));
qed_spec_mp "free_eta";
goal Eta.thy "!!s. [| s -e> t; ~free s i |] ==> ~free t i";
by (asm_simp_tac (!simpset addsimps [free_eta]) 1);
qed "not_free_eta";
goal Eta.thy "!i t u. ~free s i --> s[t/i] = s[u/i]";
by (db.induct_tac "s" 1);
by (ALLGOALS(simp_tac (addsplit (!simpset))));
by (fast_tac HOL_cs 1);
by (fast_tac HOL_cs 1);
qed_spec_mp "subst_not_free";
goalw Eta.thy [decr_def] "!!s. ~free s i ==> s[t/i] = decr s i";
by (etac subst_not_free 1);
qed "subst_decr";
goal Eta.thy "!!s. s -e> t ==> !u i. s[u/i] -e> t[u/i]";
by (etac eta.induct 1);
by (ALLGOALS(asm_simp_tac (!simpset addsimps [subst_subst RS sym,decr_def])));
by (asm_simp_tac (!simpset addsimps [subst_decr]) 1);
qed_spec_mp "eta_subst";
Addsimps [eta_subst];
goalw Eta.thy [decr_def] "!!s. s -e> t ==> decr s i -e> decr t i";
by (etac eta_subst 1);
qed "eta_decr";
section "Confluence of -e>";
goalw Eta.thy [square_def,id_def] "square eta eta (eta^=) (eta^=)";
by (rtac (impI RS allI RS allI) 1);
by (Simp_tac 1);
by (etac eta.induct 1);
by (best_tac (!claset addSIs [eta_decr]
addIs [free_eta RS iffD1] addss !simpset) 1);
by (slow_tac (!claset) 1);
by (slow_tac (!claset) 1);
by (slow_tac (!claset addSIs [eta_decr]
addIs [free_eta RS iffD1]) 1);
val lemma = result();
goal Eta.thy "confluent(eta)";
by (rtac (lemma RS square_reflcl_confluent) 1);
qed "eta_confluent";
section "Congruence rules for -e>>";
goal Eta.thy "!!s. s -e>> s' ==> Fun s -e>> Fun s'";
by (etac rtrancl_induct 1);
by (ALLGOALS(fast_tac (!claset addIs [rtrancl_refl,rtrancl_into_rtrancl])));
qed "rtrancl_eta_Fun";
goal Eta.thy "!!s. s -e>> s' ==> s @ t -e>> s' @ t";
by (etac rtrancl_induct 1);
by (ALLGOALS(fast_tac (!claset addIs [rtrancl_refl,rtrancl_into_rtrancl])));
qed "rtrancl_eta_AppL";
goal Eta.thy "!!s. t -e>> t' ==> s @ t -e>> s @ t'";
by (etac rtrancl_induct 1);
by (ALLGOALS(fast_tac (!claset addIs [rtrancl_refl,rtrancl_into_rtrancl])));
qed "rtrancl_eta_AppR";
goal Eta.thy "!!s. [| s -e>> s'; t -e>> t' |] ==> s @ t -e>> s' @ t'";
by (deepen_tac (!claset addSIs [rtrancl_eta_AppL,rtrancl_eta_AppR]
addIs [rtrancl_trans]) 2 1);
qed "rtrancl_eta_App";
section "Commutation of -> and -e>";
goal Eta.thy "!!s t. s -> t ==> (!i. free t i --> free s i)";
by (etac beta.induct 1);
by (ALLGOALS(Asm_full_simp_tac));
qed_spec_mp "free_beta";
goalw Eta.thy [decr_def] "!!s t. s -> t ==> (!i. decr s i -> decr t i)";
by (etac beta.induct 1);
by (ALLGOALS(asm_full_simp_tac (!simpset addsimps [subst_subst RS sym])));
qed_spec_mp "beta_decr";
goalw Eta.thy [decr_def]
"decr (Var i) k = (if i<=k then Var i else Var(pred i))";
by (simp_tac (addsplit (!simpset) addsimps [le_def]) 1);
qed "decr_Var";
Addsimps [decr_Var];
goalw Eta.thy [decr_def] "decr (s@t) i = (decr s i)@(decr t i)";
by (Simp_tac 1);
qed "decr_App";
Addsimps [decr_App];
goalw Eta.thy [decr_def] "decr (Fun s) i = Fun (decr s (Suc i))";
by (Simp_tac 1);
qed "decr_Fun";
Addsimps [decr_Fun];
goal Eta.thy "!i. ~free t (Suc i) --> decr t (Suc i) = decr t i";
by (db.induct_tac "t" 1);
by (ALLGOALS
(asm_simp_tac (addsplit (!simpset) addsimps [le_def, less_Suc_eq])));
qed_spec_mp "decr_not_free";
Addsimps [decr_not_free];
goal Eta.thy "!!s t. s -e> t ==> (!i. lift s i -e> lift t i)";
by (etac eta.induct 1);
by (ALLGOALS(asm_simp_tac (addsplit (!simpset) addsimps [decr_def])));
by (asm_simp_tac (!simpset addsimps [subst_decr]) 1);
qed_spec_mp "eta_lift";
Addsimps [eta_lift];
goal Eta.thy "!s t i. s -e> t --> u[s/i] -e>> u[t/i]";
by (db.induct_tac "u" 1);
by (ALLGOALS(asm_simp_tac (addsplit (!simpset))));
by (fast_tac (!claset addIs [r_into_rtrancl]) 1);
by (fast_tac (!claset addSIs [rtrancl_eta_App]) 1);
by (fast_tac (!claset addSIs [rtrancl_eta_Fun,eta_lift]) 1);
qed_spec_mp "rtrancl_eta_subst";
goalw Eta.thy [square_def] "square beta eta (eta^*) (beta^=)";
by (rtac (impI RS allI RS allI) 1);
by (etac beta.induct 1);
by (strip_tac 1);
by (eresolve_tac eta_cases 1);
by (eresolve_tac eta_cases 1);
by (fast_tac (!claset addss (!simpset addsimps [subst_decr])) 1);
by (slow_tac (!claset addIs [r_into_rtrancl,eta_subst]) 1);
by (slow_tac (!claset addIs [rtrancl_eta_subst]) 1);
by (slow_tac (!claset addIs [r_into_rtrancl,rtrancl_eta_AppL]) 1);
by (slow_tac (!claset addIs [r_into_rtrancl,rtrancl_eta_AppR]) 1);
by (slow_tac (!claset addIs [r_into_rtrancl,rtrancl_eta_Fun,free_beta,beta_decr]
addss (!simpset addsimps[subst_decr,symmetric decr_def])) 1);
qed "square_beta_eta";
goal Eta.thy "confluent(beta Un eta)";
by (REPEAT(ares_tac [square_rtrancl_reflcl_commute,confluent_Un,
beta_confluent,eta_confluent,square_beta_eta] 1));
qed "confluent_beta_eta";
section "Implicit definition of -e>: Fun(lift s 0 @ Var 0) -e> s";
goal Eta.thy "!i. (~free s i) = (? t. s = lift t i)";
by (db.induct_tac "s" 1);
by (simp_tac (!simpset setloop (split_tac [expand_if])) 1);
by (SELECT_GOAL(safe_tac HOL_cs)1);
by (res_inst_tac [("m","nat"),("n","i")] nat_less_cases 1);
by (res_inst_tac [("x","Var nat")] exI 1);
by (Asm_simp_tac 1);
by (fast_tac HOL_cs 1);
by (res_inst_tac [("x","Var(pred nat)")] exI 1);
by (Asm_simp_tac 1);
by (rtac notE 1);
by (assume_tac 2);
by (etac thin_rl 1);
by (res_inst_tac [("db","t")] db_case_distinction 1);
by (simp_tac (!simpset setloop (split_tac [expand_if])) 1);
by (fast_tac (HOL_cs addDs [less_not_refl2]) 1);
by (Simp_tac 1);
by (Simp_tac 1);
by (Asm_simp_tac 1);
by (etac thin_rl 1);
by (etac thin_rl 1);
by (rtac allI 1);
by (rtac iffI 1);
by (REPEAT(eresolve_tac [conjE,exE] 1));
by (rename_tac "u1 u2" 1);
by (res_inst_tac [("x","u1@u2")] exI 1);
by (Asm_simp_tac 1);
by (etac exE 1);
by (etac rev_mp 1);
by (res_inst_tac [("db","t")] db_case_distinction 1);
by (simp_tac (!simpset setloop (split_tac [expand_if])) 1);
by (Simp_tac 1);
by (fast_tac HOL_cs 1);
by (Simp_tac 1);
by (Asm_simp_tac 1);
by (etac thin_rl 1);
by (rtac allI 1);
by (rtac iffI 1);
by (etac exE 1);
by (res_inst_tac [("x","Fun t")] exI 1);
by (Asm_simp_tac 1);
by (etac exE 1);
by (etac rev_mp 1);
by (res_inst_tac [("db","t")] db_case_distinction 1);
by (simp_tac (!simpset setloop (split_tac [expand_if])) 1);
by (Simp_tac 1);
by (Simp_tac 1);
by (fast_tac HOL_cs 1);
qed_spec_mp "not_free_iff_lifted";
goalw Eta.thy [decr_def]
"(!s. (~free s 0) --> R(Fun(s @ Var 0))(decr s 0)) = \
\ (!s. R(Fun(lift s 0 @ Var 0))(s))";
by (fast_tac (HOL_cs addss (!simpset addsimps [lemma,not_free_iff_lifted])) 1);
qed "explicit_is_implicit";