theory Classical
imports "../Nominal2"
begin
(* example from Urban's PhD *)
atom_decl name
atom_decl coname
nominal_datatype trm =
Ax "name" "coname"
| Cut c::"coname" t1::"trm" n::"name" t2::"trm" bind n in t1, bind c in t2
("Cut <_>._ '(_')._" [100,100,100,100] 100)
| NotR n::"name" t::"trm" "coname" bind n in t
("NotR '(_')._ _" [100,100,100] 100)
| NotL c::"coname" t::"trm" "name" bind c in t
("NotL <_>._ _" [100,100,100] 100)
| AndR c1::"coname" t1::"trm" c2::"coname" t2::"trm" "coname" bind c1 in t1, bind c2 in t2
("AndR <_>._ <_>._ _" [100,100,100,100,100] 100)
| AndL1 n::"name" t::"trm" "name" bind n in t
("AndL1 '(_')._ _" [100,100,100] 100)
| AndL2 n::"name" t::"trm" "name" bind n in t
("AndL2 '(_')._ _" [100,100,100] 100)
| OrR1 c::"coname" t::"trm" "coname" bind c in t
("OrR1 <_>._ _" [100,100,100] 100)
| OrR2 c::"coname" t::"trm" "coname" bind c in t
("OrR2 <_>._ _" [100,100,100] 100)
| OrL n1::"name" t1::"trm" n2::"name" t2::"trm" "name" bind n1 in t1, bind n2 in t2
("OrL '(_')._ '(_')._ _" [100,100,100,100,100] 100)
| ImpL c::"coname" t1::"trm" n::"name" t2::"trm" "name" bind c in t1, bind n in t2
("ImpL <_>._ '(_')._ _" [100,100,100,100,100] 100)
| ImpR n::"name" c::"coname" t::"trm" "coname" bind n c in t
("ImpR '(_').<_>._ _" [100,100,100,100] 100)
thm trm.distinct
thm trm.induct
thm trm.exhaust
thm trm.strong_exhaust
thm trm.strong_exhaust[simplified]
thm trm.fv_defs
thm trm.bn_defs
thm trm.perm_simps
thm trm.eq_iff
thm trm.fv_bn_eqvt
thm trm.size_eqvt
thm trm.supp
thm trm.supp[simplified]
lemma Abs_lst_fcb2:
fixes as bs :: "atom list"
and x y :: "'b :: fs"
and c::"'c::fs"
assumes eq: "[as]lst. x = [bs]lst. y"
and fcb1: "(set as) \<sharp>* f as x c"
and fresh1: "set as \<sharp>* c"
and fresh2: "set bs \<sharp>* c"
and perm1: "\<And>p. supp p \<sharp>* c \<Longrightarrow> p \<bullet> (f as x c) = f (p \<bullet> as) (p \<bullet> x) c"
and perm2: "\<And>p. supp p \<sharp>* c \<Longrightarrow> p \<bullet> (f bs y c) = f (p \<bullet> bs) (p \<bullet> y) c"
shows "f as x c = f bs y c"
proof -
have "supp (as, x, c) supports (f as x c)"
unfolding supports_def fresh_def[symmetric]
by (simp add: fresh_Pair perm1 fresh_star_def supp_swap swap_fresh_fresh)
then have fin1: "finite (supp (f as x c))"
by (auto intro: supports_finite simp add: finite_supp)
have "supp (bs, y, c) supports (f bs y c)"
unfolding supports_def fresh_def[symmetric]
by (simp add: fresh_Pair perm2 fresh_star_def supp_swap swap_fresh_fresh)
then have fin2: "finite (supp (f bs y c))"
by (auto intro: supports_finite simp add: finite_supp)
obtain q::"perm" where
fr1: "(q \<bullet> (set as)) \<sharp>* (x, c, f as x c, f bs y c)" and
fr2: "supp q \<sharp>* Abs_lst as x" and
inc: "supp q \<subseteq> (set as) \<union> q \<bullet> (set as)"
using at_set_avoiding3[where xs="set as" and c="(x, c, f as x c, f bs y c)" and x="[as]lst. x"]
fin1 fin2
by (auto simp add: supp_Pair finite_supp Abs_fresh_star dest: fresh_star_supp_conv)
have "Abs_lst (q \<bullet> as) (q \<bullet> x) = q \<bullet> Abs_lst as x" by simp
also have "\<dots> = Abs_lst as x"
by (simp only: fr2 perm_supp_eq)
finally have "Abs_lst (q \<bullet> as) (q \<bullet> x) = Abs_lst bs y" using eq by simp
then obtain r::perm where
qq1: "q \<bullet> x = r \<bullet> y" and
qq2: "q \<bullet> as = r \<bullet> bs" and
qq3: "supp r \<subseteq> (q \<bullet> (set as)) \<union> set bs"
apply(drule_tac sym)
apply(simp only: Abs_eq_iff2 alphas)
apply(erule exE)
apply(erule conjE)+
apply(drule_tac x="p" in meta_spec)
apply(simp add: set_eqvt)
apply(blast)
done
have "(set as) \<sharp>* f as x c" by (rule fcb1)
then have "q \<bullet> ((set as) \<sharp>* f as x c)"
by (simp add: permute_bool_def)
then have "set (q \<bullet> as) \<sharp>* f (q \<bullet> as) (q \<bullet> x) c"
apply(simp add: fresh_star_eqvt set_eqvt)
apply(subst (asm) perm1)
using inc fresh1 fr1
apply(auto simp add: fresh_star_def fresh_Pair)
done
then have "set (r \<bullet> bs) \<sharp>* f (r \<bullet> bs) (r \<bullet> y) c" using qq1 qq2 by simp
then have "r \<bullet> ((set bs) \<sharp>* f bs y c)"
apply(simp add: fresh_star_eqvt set_eqvt)
apply(subst (asm) perm2[symmetric])
using qq3 fresh2 fr1
apply(auto simp add: set_eqvt fresh_star_def fresh_Pair)
done
then have fcb2: "(set bs) \<sharp>* f bs y c" by (simp add: permute_bool_def)
have "f as x c = q \<bullet> (f as x c)"
apply(rule perm_supp_eq[symmetric])
using inc fcb1 fr1 by (auto simp add: fresh_star_def)
also have "\<dots> = f (q \<bullet> as) (q \<bullet> x) c"
apply(rule perm1)
using inc fresh1 fr1 by (auto simp add: fresh_star_def)
also have "\<dots> = f (r \<bullet> bs) (r \<bullet> y) c" using qq1 qq2 by simp
also have "\<dots> = r \<bullet> (f bs y c)"
apply(rule perm2[symmetric])
using qq3 fresh2 fr1 by (auto simp add: fresh_star_def)
also have "... = f bs y c"
apply(rule perm_supp_eq)
using qq3 fr1 fcb2 by (auto simp add: fresh_star_def)
finally show ?thesis by simp
qed
lemma Abs_lst1_fcb2:
fixes a b :: "atom"
and x y :: "'b :: fs"
and c::"'c :: fs"
assumes e: "(Abs_lst [a] x) = (Abs_lst [b] y)"
and fcb1: "a \<sharp> f a x c"
and fresh: "{a, b} \<sharp>* c"
and perm1: "\<And>p. supp p \<sharp>* c \<Longrightarrow> p \<bullet> (f a x c) = f (p \<bullet> a) (p \<bullet> x) c"
and perm2: "\<And>p. supp p \<sharp>* c \<Longrightarrow> p \<bullet> (f b y c) = f (p \<bullet> b) (p \<bullet> y) c"
shows "f a x c = f b y c"
using e
apply(drule_tac Abs_lst_fcb2[where c="c" and f="\<lambda>(as::atom list) . f (hd as)"])
apply(simp_all)
using fcb1 fresh perm1 perm2
apply(simp_all add: fresh_star_def)
done
lemma supp_zero_perm_zero:
shows "supp (p :: perm) = {} \<longleftrightarrow> p = 0"
by (metis supp_perm_singleton supp_zero_perm)
lemma permute_atom_list_id:
shows "p \<bullet> l = l \<longleftrightarrow> supp p \<inter> set l = {}"
by (induct l) (auto simp add: supp_Nil supp_perm)
lemma Abs_lst_binder_length:
shows "[xs]lst. T = [ys]lst. S \<Longrightarrow> length xs = length ys"
by (auto simp add: Abs_eq_iff alphas length_eqvt[symmetric] permute_pure)
lemma Abs_lst_binder_eq:
shows "Abs_lst l T = Abs_lst l S \<longleftrightarrow> T = S"
by (rule, simp_all add: Abs_eq_iff2 alphas)
(metis fresh_star_zero inf_absorb1 permute_atom_list_id supp_perm_eq
supp_zero_perm_zero)
nominal_primrec
crename :: "trm \<Rightarrow> coname \<Rightarrow> coname \<Rightarrow> trm" ("_[_\<turnstile>c>_]" [100,100,100] 100)
where
"(Ax x a)[d\<turnstile>c>e] = (if a=d then Ax x e else Ax x a)"
| "atom a \<sharp> (d, e) \<Longrightarrow> (Cut <a>.M (x).N)[d\<turnstile>c>e] = Cut <a>.(M[d\<turnstile>c>e]) (x).(N[d\<turnstile>c>e])"
| "(NotR (x).M a)[d\<turnstile>c>e] = (if a=d then NotR (x).(M[d\<turnstile>c>e]) e else NotR (x).(M[d\<turnstile>c>e]) a)"
| "atom a \<sharp> (d, e) \<Longrightarrow> (NotL <a>.M x)[d\<turnstile>c>e] = (NotL <a>.(M[d\<turnstile>c>e]) x)"
| "\<lbrakk>atom a \<sharp> (d, e); atom b \<sharp> (d, e)\<rbrakk> \<Longrightarrow> (AndR <a>.M <b>.N c)[d\<turnstile>c>e] =
(if c=d then AndR <a>.(M[d\<turnstile>c>e]) <b>.(N[d \<turnstile>c>e]) e else AndR <a>.(M[d\<turnstile>c>e]) <b>.(N[d\<turnstile>c>e]) c)"
| "(AndL1 (x).M y)[d\<turnstile>c>e] = AndL1 (x).(M[d\<turnstile>c>e]) y"
| "(AndL2 (x).M y)[d\<turnstile>c>e] = AndL2 (x).(M[d\<turnstile>c>e]) y"
| "atom a \<sharp> (d, e) \<Longrightarrow> (OrR1 <a>.M b)[d\<turnstile>c>e] =
(if b=d then OrR1 <a>.(M[d\<turnstile>c>e]) e else OrR1 <a>.(M[d\<turnstile>c>e]) b)"
| "atom a \<sharp> (d, e) \<Longrightarrow> (OrR2 <a>.M b)[d\<turnstile>c>e] =
(if b=d then OrR2 <a>.(M[d\<turnstile>c>e]) e else OrR2 <a>.(M[d\<turnstile>c>e]) b)"
| "(OrL (x).M (y).N z)[d\<turnstile>c>e] = OrL (x).(M[d\<turnstile>c>e]) (y).(N[d\<turnstile>c>e]) z"
| "atom a \<sharp> (d, e) \<Longrightarrow> (ImpR (x).<a>.M b)[d\<turnstile>c>e] =
(if b=d then ImpR (x).<a>.(M[d\<turnstile>c>e]) e else ImpR (x).<a>.(M[d\<turnstile>c>e]) b)"
| "atom a \<sharp> (d, e) \<Longrightarrow> (ImpL <a>.M (x).N y)[d\<turnstile>c>e] = ImpL <a>.(M[d\<turnstile>c>e]) (x).(N[d\<turnstile>c>e]) y"
apply(simp only: eqvt_def)
apply(simp only: crename_graph_def)
apply (rule, perm_simp, rule)
apply(rule TrueI)
-- "covered all cases"
apply(case_tac x)
apply(rule_tac y="a" and c="(b, c)" in trm.strong_exhaust)
apply (simp_all add: fresh_star_def)[12]
apply(metis)+
-- "compatibility"
apply(simp_all)
apply(rule conjI)
apply(elim conjE)
apply(erule_tac c="(da,ea)" in Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(elim conjE)
apply(erule_tac c="(da,ea)" in Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(elim conjE)
apply(subgoal_tac "eqvt_at crename_sumC (M, da, ea)")
apply(subgoal_tac "eqvt_at crename_sumC (Ma, da, ea)")
apply(erule Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(blast)
apply(blast)
apply(elim conjE)
apply(erule_tac c="(da,ea)" in Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(rule conjI)
apply(elim conjE)
apply(subgoal_tac "eqvt_at crename_sumC (M, da, ea)")
apply(subgoal_tac "eqvt_at crename_sumC (Ma, da, ea)")
apply(erule Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(blast)
apply(blast)
apply(erule conjE)+
apply(subgoal_tac "eqvt_at crename_sumC (N, da, ea)")
apply(subgoal_tac "eqvt_at crename_sumC (Na, da, ea)")
apply(erule Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(blast)
apply(blast)
apply(elim conjE)
apply(erule_tac c="(da,ea)" in Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(elim conjE)
apply(erule_tac c="(da,ea)" in Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(elim conjE)
apply(subgoal_tac "eqvt_at crename_sumC (M, da, ea)")
apply(subgoal_tac "eqvt_at crename_sumC (Ma, da, ea)")
apply(erule Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(blast)
apply(blast)
apply(erule conjE)+
apply(subgoal_tac "eqvt_at crename_sumC (M, da, ea)")
apply(subgoal_tac "eqvt_at crename_sumC (Ma, da, ea)")
apply(erule Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(blast)
apply(blast)
apply(rule conjI)
apply(erule conjE)+
apply(subgoal_tac "eqvt_at crename_sumC (M, da, ea)")
apply(subgoal_tac "eqvt_at crename_sumC (Ma, da, ea)")
apply(erule Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(blast)
apply(blast)
apply(erule conjE)+
apply(subgoal_tac "eqvt_at crename_sumC (N, da, ea)")
apply(subgoal_tac "eqvt_at crename_sumC (Na, da, ea)")
apply(erule Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(blast)
apply(blast)
defer
apply(erule conjE)+
apply(rule conjI)
apply(subgoal_tac "eqvt_at crename_sumC (M, da, ea)")
apply(subgoal_tac "eqvt_at crename_sumC (Ma, da, ea)")
apply(erule Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(blast)
apply(blast)
apply(subgoal_tac "eqvt_at crename_sumC (N, da, ea)")
apply(subgoal_tac "eqvt_at crename_sumC (Na, da, ea)")
apply(erule Abs_lst1_fcb2)
apply(simp add: Abs_fresh_iff)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(blast)
apply(blast)
apply(subgoal_tac "eqvt_at crename_sumC (M, da, ea)")
apply(subgoal_tac "eqvt_at crename_sumC (Ma, da, ea)")
apply(erule conjE)+
apply(erule Abs_lst_fcb2)
apply(simp add: Abs_fresh_star)
apply(simp add: Abs_fresh_star)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: fresh_at_base fresh_star_def fresh_Pair)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(simp add: eqvt_at_def atom_eqvt fresh_star_Pair perm_supp_eq)
apply(blast)
apply(blast)
done
end