isabelle: src/ZF/Constructible/Rec_Separation.thy@99409ccbe04a (annotated)

13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	1	(* Title: ZF/Constructible/Rec_Separation.thy
01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	2	Author: Lawrence C Paulson, Cambridge University Computer Laboratory
01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	3	*)
13429 2232810416fc tuned; wenzelm parents: 13428 diff changeset	4
2232810416fc tuned; wenzelm parents: 13428 diff changeset	5	header {Separation for Facts About Recursion}
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	6
16417 9bc16273c2d4 migrated theory headers to new format haftmann parents: 15766 diff changeset	7	theory Rec_Separation imports Separation Internalize begin
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	8
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	9	text{*This theory proves all instances needed for locales @{text
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13566 diff changeset	10	"M_trancl"} and @{text "M_datatypes"}*}
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	11
13363 c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	12	lemma eq_succ_imp_lt: "[\|i = succ(j); Ord(i)\|] ==> j<i"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	13	by simp
13363 c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	14
13493 5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	15
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	16	subsection{The Locale @{text "M_trancl"}}
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	17
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	18	subsubsection{Separation for Reflexive/Transitive Closure}
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	19
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	20	text{First, The Defining Formula}
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	21
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	22	(* "rtran_closure_mem(M,A,r,p) ==
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	23	\<exists>nnat[M]. \<exists>n[M]. \<exists>n'[M].
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	24	omega(M,nnat) & n\<in>nnat & successor(M,n,n') &
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	25	(\<exists>f[M]. typed_function(M,n',A,f) &
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	26	(\<exists>x[M]. \<exists>y[M]. \<exists>zero[M]. pair(M,x,y,p) & empty(M,zero) &
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	27	fun_apply(M,f,zero,x) & fun_apply(M,f,n,y)) &
46823 57bf0cecb366 More mathematical symbols for ZF examples paulson parents: 30729 diff changeset	28	(\<forall>j[M]. j\<in>n \<longrightarrow>
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	29	(\<exists>fj[M]. \<exists>sj[M]. \<exists>fsj[M]. \<exists>ffp[M].
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	30	fun_apply(M,f,j,fj) & successor(M,j,sj) &
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	31	fun_apply(M,f,sj,fsj) & pair(M,fj,fsj,ffp) & ffp \<in> r)))"*)
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21233 diff changeset	32	definition
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21233 diff changeset	33	rtran_closure_mem_fm :: "[i,i,i]=>i" where
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	34	"rtran_closure_mem_fm(A,r,p) ==
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	35	Exists(Exists(Exists(
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	36	And(omega_fm(2),
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	37	And(Member(1,2),
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	38	And(succ_fm(1,0),
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	39	Exists(And(typed_function_fm(1, A#+4, 0),
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	40	And(Exists(Exists(Exists(
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	41	And(pair_fm(2,1,p#+7),
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	42	And(empty_fm(0),
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	43	And(fun_apply_fm(3,0,2), fun_apply_fm(3,5,1))))))),
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	44	Forall(Implies(Member(0,3),
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	45	Exists(Exists(Exists(Exists(
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	46	And(fun_apply_fm(5,4,3),
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	47	And(succ_fm(4,2),
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	48	And(fun_apply_fm(5,2,1),
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	49	And(pair_fm(3,1,0), Member(0,r#+9))))))))))))))))))))"
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	50
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	51
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	52	lemma rtran_closure_mem_type [TC]:
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	53	"[\| x \<in> nat; y \<in> nat; z \<in> nat \|] ==> rtran_closure_mem_fm(x,y,z) \<in> formula"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	54	by (simp add: rtran_closure_mem_fm_def)
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	55
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	56	lemma sats_rtran_closure_mem_fm [simp]:
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	57	"[\| x \<in> nat; y \<in> nat; z \<in> nat; env \<in> list(A)\|]
46823 57bf0cecb366 More mathematical symbols for ZF examples paulson parents: 30729 diff changeset	58	==> sats(A, rtran_closure_mem_fm(x,y,z), env) \<longleftrightarrow>
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	59	rtran_closure_mem(##A, nth(x,env), nth(y,env), nth(z,env))"
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	60	by (simp add: rtran_closure_mem_fm_def rtran_closure_mem_def)
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	61
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	62	lemma rtran_closure_mem_iff_sats:
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	63	"[\| nth(i,env) = x; nth(j,env) = y; nth(k,env) = z;
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	64	i \<in> nat; j \<in> nat; k \<in> nat; env \<in> list(A)\|]
46823 57bf0cecb366 More mathematical symbols for ZF examples paulson parents: 30729 diff changeset	65	==> rtran_closure_mem(##A, x, y, z) \<longleftrightarrow> sats(A, rtran_closure_mem_fm(i,j,k), env)"
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	66	by (simp add: sats_rtran_closure_mem_fm)
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	67
13566 52a419210d5c Streamlined proofs of instances of Separation paulson parents: 13564 diff changeset	68	lemma rtran_closure_mem_reflection:
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	69	"REFLECTS[\<lambda>x. rtran_closure_mem(L,f(x),g(x),h(x)),
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	70	\<lambda>i x. rtran_closure_mem(##Lset(i),f(x),g(x),h(x))]"
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	71	apply (simp only: rtran_closure_mem_def)
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	72	apply (intro FOL_reflections function_reflections fun_plus_reflections)
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	73	done
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	74
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	75	text{Separation for @{term "rtrancl(r)"}.}
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	76	lemma rtrancl_separation:
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	77	"[\| L(r); L(A) \|] ==> separation (L, rtran_closure_mem(L,A,r))"
13687 22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	78	apply (rule gen_separation_multi [OF rtran_closure_mem_reflection, of "{r,A}"],
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	79	auto)
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	80	apply (rule_tac env="[r,A]" in DPow_LsetI)
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	81	apply (rule rtran_closure_mem_iff_sats sep_rules \| simp)+
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	82	done
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	83
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	84
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	85	subsubsection{Reflexive/Transitive Closure, Internalized}
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	86
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	87	(* "rtran_closure(M,r,s) ==
46823 57bf0cecb366 More mathematical symbols for ZF examples paulson parents: 30729 diff changeset	88	\<forall>A[M]. is_field(M,r,A) \<longrightarrow>
57bf0cecb366 More mathematical symbols for ZF examples paulson parents: 30729 diff changeset	89	(\<forall>p[M]. p \<in> s \<longleftrightarrow> rtran_closure_mem(M,A,r,p))" *)
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21233 diff changeset	90	definition
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21233 diff changeset	91	rtran_closure_fm :: "[i,i]=>i" where
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21233 diff changeset	92	"rtran_closure_fm(r,s) ==
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	93	Forall(Implies(field_fm(succ(r),0),
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	94	Forall(Iff(Member(0,succ(succ(s))),
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	95	rtran_closure_mem_fm(1,succ(succ(r)),0)))))"
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	96
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	97	lemma rtran_closure_type [TC]:
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	98	"[\| x \<in> nat; y \<in> nat \|] ==> rtran_closure_fm(x,y) \<in> formula"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	99	by (simp add: rtran_closure_fm_def)
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	100
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	101	lemma sats_rtran_closure_fm [simp]:
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	102	"[\| x \<in> nat; y \<in> nat; env \<in> list(A)\|]
46823 57bf0cecb366 More mathematical symbols for ZF examples paulson parents: 30729 diff changeset	103	==> sats(A, rtran_closure_fm(x,y), env) \<longleftrightarrow>
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	104	rtran_closure(##A, nth(x,env), nth(y,env))"
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	105	by (simp add: rtran_closure_fm_def rtran_closure_def)
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	106
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	107	lemma rtran_closure_iff_sats:
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	108	"[\| nth(i,env) = x; nth(j,env) = y;
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	109	i \<in> nat; j \<in> nat; env \<in> list(A)\|]
46823 57bf0cecb366 More mathematical symbols for ZF examples paulson parents: 30729 diff changeset	110	==> rtran_closure(##A, x, y) \<longleftrightarrow> sats(A, rtran_closure_fm(i,j), env)"
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	111	by simp
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	112
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	113	theorem rtran_closure_reflection:
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	114	"REFLECTS[\<lambda>x. rtran_closure(L,f(x),g(x)),
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	115	\<lambda>i x. rtran_closure(##Lset(i),f(x),g(x))]"
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	116	apply (simp only: rtran_closure_def)
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	117	apply (intro FOL_reflections function_reflections rtran_closure_mem_reflection)
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	118	done
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	119
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	120
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	121	subsubsection{Transitive Closure of a Relation, Internalized}
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	122
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	123	(* "tran_closure(M,r,t) ==
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	124	\<exists>s[M]. rtran_closure(M,r,s) & composition(M,r,s,t)" *)
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21233 diff changeset	125	definition
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21233 diff changeset	126	tran_closure_fm :: "[i,i]=>i" where
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21233 diff changeset	127	"tran_closure_fm(r,s) ==
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	128	Exists(And(rtran_closure_fm(succ(r),0), composition_fm(succ(r),0,succ(s))))"
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	129
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	130	lemma tran_closure_type [TC]:
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	131	"[\| x \<in> nat; y \<in> nat \|] ==> tran_closure_fm(x,y) \<in> formula"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	132	by (simp add: tran_closure_fm_def)
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	133
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	134	lemma sats_tran_closure_fm [simp]:
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	135	"[\| x \<in> nat; y \<in> nat; env \<in> list(A)\|]
46823 57bf0cecb366 More mathematical symbols for ZF examples paulson parents: 30729 diff changeset	136	==> sats(A, tran_closure_fm(x,y), env) \<longleftrightarrow>
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	137	tran_closure(##A, nth(x,env), nth(y,env))"
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	138	by (simp add: tran_closure_fm_def tran_closure_def)
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	139
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	140	lemma tran_closure_iff_sats:
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	141	"[\| nth(i,env) = x; nth(j,env) = y;
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	142	i \<in> nat; j \<in> nat; env \<in> list(A)\|]
46823 57bf0cecb366 More mathematical symbols for ZF examples paulson parents: 30729 diff changeset	143	==> tran_closure(##A, x, y) \<longleftrightarrow> sats(A, tran_closure_fm(i,j), env)"
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	144	by simp
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	145
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	146	theorem tran_closure_reflection:
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	147	"REFLECTS[\<lambda>x. tran_closure(L,f(x),g(x)),
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	148	\<lambda>i x. tran_closure(##Lset(i),f(x),g(x))]"
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	149	apply (simp only: tran_closure_def)
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	150	apply (intro FOL_reflections function_reflections
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	151	rtran_closure_reflection composition_reflection)
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	152	done
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	153
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	154
13506 acc18a5d2b1a Various tweaks of the presentation paulson parents: 13505 diff changeset	155	subsubsection{Separation for the Proof of @{text "wellfounded_on_trancl"}}
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	156
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	157	lemma wellfounded_trancl_reflects:
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	158	"REFLECTS[\<lambda>x. \<exists>w[L]. \<exists>wx[L]. \<exists>rp[L].
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	159	w \<in> Z & pair(L,w,x,wx) & tran_closure(L,r,rp) & wx \<in> rp,
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	160	\<lambda>i x. \<exists>w \<in> Lset(i). \<exists>wx \<in> Lset(i). \<exists>rp \<in> Lset(i).
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	161	w \<in> Z & pair(##Lset(i),w,x,wx) & tran_closure(##Lset(i),r,rp) &
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	162	wx \<in> rp]"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	163	by (intro FOL_reflections function_reflections fun_plus_reflections
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	164	tran_closure_reflection)
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	165
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	166	lemma wellfounded_trancl_separation:
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	167	"[\| L(r); L(Z) \|] ==>
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	168	separation (L, \<lambda>x.
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	169	\<exists>w[L]. \<exists>wx[L]. \<exists>rp[L].
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	170	w \<in> Z & pair(L,w,x,wx) & tran_closure(L,r,rp) & wx \<in> rp)"
13687 22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	171	apply (rule gen_separation_multi [OF wellfounded_trancl_reflects, of "{r,Z}"],
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	172	auto)
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	173	apply (rule_tac env="[r,Z]" in DPow_LsetI)
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	174	apply (rule sep_rules tran_closure_iff_sats \| simp)+
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	175	done
374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	176
13363 c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	177
c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	178	subsubsection{Instantiating the locale @{text M_trancl}}
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	179
13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	180	lemma M_trancl_axioms_L: "M_trancl_axioms(L)"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	181	apply (rule M_trancl_axioms.intro)
13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	182	apply (assumption \| rule rtrancl_separation wellfounded_trancl_separation)+
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	183	done
13363 c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	184
13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	185	theorem M_trancl_L: "PROP M_trancl(L)"
19931 fb32b43e7f80 Restructured locales with predicates: import is now an interpretation. ballarin parents: 16417 diff changeset	186	by (rule M_trancl.intro [OF M_basic_L M_trancl_axioms_L])
13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	187
30729 461ee3e49ad3 interpretation/interpret: prefixes are mandatory by default; wenzelm parents: 29223 diff changeset	188	interpretation L?: M_trancl L by (rule M_trancl_L)
13363 c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	189
c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	190
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	191	subsection{@{term L} is Closed Under the Operator @{term list}}
13363 c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	192
13386 f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	193	subsubsection{Instances of Replacement for Lists}
f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	194
13363 c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	195	lemma list_replacement1_Reflects:
c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	196	"REFLECTS
c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	197	[\<lambda>x. \<exists>u[L]. u \<in> B \<and> (\<exists>y[L]. pair(L,u,y,x) \<and>
c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	198	is_wfrec(L, iterates_MH(L, is_list_functor(L,A), 0), memsn, u, y)),
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	199	\<lambda>i x. \<exists>u \<in> Lset(i). u \<in> B \<and> (\<exists>y \<in> Lset(i). pair(##Lset(i), u, y, x) \<and>
a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	200	is_wfrec(##Lset(i),
a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	201	iterates_MH(##Lset(i),
a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	202	is_list_functor(##Lset(i), A), 0), memsn, u, y))]"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	203	by (intro FOL_reflections function_reflections is_wfrec_reflection
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	204	iterates_MH_reflection list_functor_reflection)
13363 c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	205
13441 d6d620639243 better satisfies rules for is_recfun paulson parents: 13440 diff changeset	206
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	207	lemma list_replacement1:
13363 c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	208	"L(A) ==> iterates_replacement(L, is_list_functor(L,A), 0)"
c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	209	apply (unfold iterates_replacement_def wfrec_replacement_def, clarify)
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	210	apply (rule strong_replacementI)
13566 52a419210d5c Streamlined proofs of instances of Separation paulson parents: 13564 diff changeset	211	apply (rule_tac u="{B,A,n,0,Memrel(succ(n))}"
13687 22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	212	in gen_separation_multi [OF list_replacement1_Reflects],
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	213	auto simp add: nonempty)
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	214	apply (rule_tac env="[B,A,n,0,Memrel(succ(n))]" in DPow_LsetI)
13434 78b93a667c01 better sats rules for higher-order operators paulson parents: 13429 diff changeset	215	apply (rule sep_rules is_nat_case_iff_sats list_functor_iff_sats
13441 d6d620639243 better satisfies rules for is_recfun paulson parents: 13440 diff changeset	216	is_wfrec_iff_sats iterates_MH_iff_sats quasinat_iff_sats \| simp)+
13363 c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	217	done
c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	218
13441 d6d620639243 better satisfies rules for is_recfun paulson parents: 13440 diff changeset	219
13363 c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	220	lemma list_replacement2_Reflects:
c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	221	"REFLECTS
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	222	[\<lambda>x. \<exists>u[L]. u \<in> B & u \<in> nat &
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	223	is_iterates(L, is_list_functor(L, A), 0, u, x),
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	224	\<lambda>i x. \<exists>u \<in> Lset(i). u \<in> B & u \<in> nat &
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	225	is_iterates(##Lset(i), is_list_functor(##Lset(i), A), 0, u, x)]"
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	226	by (intro FOL_reflections
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	227	is_iterates_reflection list_functor_reflection)
13363 c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	228
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	229	lemma list_replacement2:
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	230	"L(A) ==> strong_replacement(L,
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	231	\<lambda>n y. n\<in>nat & is_iterates(L, is_list_functor(L,A), 0, n, y))"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	232	apply (rule strong_replacementI)
13566 52a419210d5c Streamlined proofs of instances of Separation paulson parents: 13564 diff changeset	233	apply (rule_tac u="{A,B,0,nat}"
13687 22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	234	in gen_separation_multi [OF list_replacement2_Reflects],
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	235	auto simp add: L_nat nonempty)
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	236	apply (rule_tac env="[A,B,0,nat]" in DPow_LsetI)
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	237	apply (rule sep_rules list_functor_iff_sats is_iterates_iff_sats \| simp)+
13363 c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	238	done
c26eeb000470 instantiation of locales M_trancl and M_wfrank; paulson parents: 13352 diff changeset	239
13386 f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	240
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	241	subsection{@{term L} is Closed Under the Operator @{term formula}}
13386 f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	242
f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	243	subsubsection{Instances of Replacement for Formulas}
f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	244
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	245	(*FIXME: could prove a lemma iterates_replacementI to eliminate the
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	246	need to expand iterates_replacement and wfrec_replacement*)
13386 f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	247	lemma formula_replacement1_Reflects:
f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	248	"REFLECTS
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	249	[\<lambda>x. \<exists>u[L]. u \<in> B & (\<exists>y[L]. pair(L,u,y,x) &
13386 f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	250	is_wfrec(L, iterates_MH(L, is_formula_functor(L), 0), memsn, u, y)),
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	251	\<lambda>i x. \<exists>u \<in> Lset(i). u \<in> B & (\<exists>y \<in> Lset(i). pair(##Lset(i), u, y, x) &
a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	252	is_wfrec(##Lset(i),
a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	253	iterates_MH(##Lset(i),
a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	254	is_formula_functor(##Lset(i)), 0), memsn, u, y))]"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	255	by (intro FOL_reflections function_reflections is_wfrec_reflection
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	256	iterates_MH_reflection formula_functor_reflection)
13386 f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	257
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	258	lemma formula_replacement1:
13386 f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	259	"iterates_replacement(L, is_formula_functor(L), 0)"
f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	260	apply (unfold iterates_replacement_def wfrec_replacement_def, clarify)
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	261	apply (rule strong_replacementI)
13566 52a419210d5c Streamlined proofs of instances of Separation paulson parents: 13564 diff changeset	262	apply (rule_tac u="{B,n,0,Memrel(succ(n))}"
13687 22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	263	in gen_separation_multi [OF formula_replacement1_Reflects],
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	264	auto simp add: nonempty)
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	265	apply (rule_tac env="[n,B,0,Memrel(succ(n))]" in DPow_LsetI)
13434 78b93a667c01 better sats rules for higher-order operators paulson parents: 13429 diff changeset	266	apply (rule sep_rules is_nat_case_iff_sats formula_functor_iff_sats
13441 d6d620639243 better satisfies rules for is_recfun paulson parents: 13440 diff changeset	267	is_wfrec_iff_sats iterates_MH_iff_sats quasinat_iff_sats \| simp)+
13386 f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	268	done
f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	269
f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	270	lemma formula_replacement2_Reflects:
f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	271	"REFLECTS
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	272	[\<lambda>x. \<exists>u[L]. u \<in> B & u \<in> nat &
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	273	is_iterates(L, is_formula_functor(L), 0, u, x),
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	274	\<lambda>i x. \<exists>u \<in> Lset(i). u \<in> B & u \<in> nat &
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	275	is_iterates(##Lset(i), is_formula_functor(##Lset(i)), 0, u, x)]"
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	276	by (intro FOL_reflections
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	277	is_iterates_reflection formula_functor_reflection)
13386 f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	278
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	279	lemma formula_replacement2:
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	280	"strong_replacement(L,
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	281	\<lambda>n y. n\<in>nat & is_iterates(L, is_formula_functor(L), 0, n, y))"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	282	apply (rule strong_replacementI)
13566 52a419210d5c Streamlined proofs of instances of Separation paulson parents: 13564 diff changeset	283	apply (rule_tac u="{B,0,nat}"
13687 22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	284	in gen_separation_multi [OF formula_replacement2_Reflects],
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	285	auto simp add: nonempty L_nat)
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	286	apply (rule_tac env="[B,0,nat]" in DPow_LsetI)
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	287	apply (rule sep_rules formula_functor_iff_sats is_iterates_iff_sats \| simp)+
13386 f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	288	done
f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	289
f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	290	text{*NB The proofs for type @{term formula} are virtually identical to those
f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	291	for @{term "list(A)"}. It was a cut-and-paste job! *}
f3e9e8b21aba Formulas (and lists) in M (and L!) paulson parents: 13385 diff changeset	292
13387 b7464ca2ebbb new theorems to support Constructible proofs paulson parents: 13386 diff changeset	293
13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	294	subsubsection{The Formula @{term is_nth}, Internalized}
01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	295
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	296	(* "is_nth(M,n,l,Z) ==
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	297	\<exists>X[M]. is_iterates(M, is_tl(M), l, n, X) & is_hd(M,X,Z)" *)
21404 eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21233 diff changeset	298	definition
eb85850d3eb7 more robust syntax for definition/abbreviation/notation; wenzelm parents: 21233 diff changeset	299	nth_fm :: "[i,i,i]=>i" where
13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	300	"nth_fm(n,l,Z) ==
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	301	Exists(And(is_iterates_fm(tl_fm(1,0), succ(l), succ(n), 0),
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	302	hd_fm(0,succ(Z))))"
13493 5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	303
5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	304	lemma nth_fm_type [TC]:
5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	305	"[\| x \<in> nat; y \<in> nat; z \<in> nat \|] ==> nth_fm(x,y,z) \<in> formula"
5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	306	by (simp add: nth_fm_def)
5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	307
5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	308	lemma sats_nth_fm [simp]:
5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	309	"[\| x < length(env); y \<in> nat; z \<in> nat; env \<in> list(A)\|]
46823 57bf0cecb366 More mathematical symbols for ZF examples paulson parents: 30729 diff changeset	310	==> sats(A, nth_fm(x,y,z), env) \<longleftrightarrow>
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	311	is_nth(##A, nth(x,env), nth(y,env), nth(z,env))"
13493 5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	312	apply (frule lt_length_in_nat, assumption)
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	313	apply (simp add: nth_fm_def is_nth_def sats_is_iterates_fm)
13493 5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	314	done
5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	315
5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	316	lemma nth_iff_sats:
5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	317	"[\| nth(i,env) = x; nth(j,env) = y; nth(k,env) = z;
5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	318	i < length(env); j \<in> nat; k \<in> nat; env \<in> list(A)\|]
46823 57bf0cecb366 More mathematical symbols for ZF examples paulson parents: 30729 diff changeset	319	==> is_nth(##A, x, y, z) \<longleftrightarrow> sats(A, nth_fm(i,j,k), env)"
13493 5aa68c051725 Lots of new results concerning recursive datatypes, towards absoluteness of paulson parents: 13441 diff changeset	320	by (simp add: sats_nth_fm)
13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	321
01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	322	theorem nth_reflection:
01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	323	"REFLECTS[\<lambda>x. is_nth(L, f(x), g(x), h(x)),
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	324	\<lambda>i x. is_nth(##Lset(i), f(x), g(x), h(x))]"
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	325	apply (simp only: is_nth_def)
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	326	apply (intro FOL_reflections is_iterates_reflection
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	327	hd_reflection tl_reflection)
13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	328	done
01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	329
01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	330
13409 d4ea094c650e Relativization and Separation for the function "nth" paulson parents: 13398 diff changeset	331	subsubsection{An Instance of Replacement for @{term nth}}
d4ea094c650e Relativization and Separation for the function "nth" paulson parents: 13398 diff changeset	332
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	333	(*FIXME: could prove a lemma iterates_replacementI to eliminate the
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	334	need to expand iterates_replacement and wfrec_replacement*)
13409 d4ea094c650e Relativization and Separation for the function "nth" paulson parents: 13398 diff changeset	335	lemma nth_replacement_Reflects:
d4ea094c650e Relativization and Separation for the function "nth" paulson parents: 13398 diff changeset	336	"REFLECTS
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	337	[\<lambda>x. \<exists>u[L]. u \<in> B & (\<exists>y[L]. pair(L,u,y,x) &
13409 d4ea094c650e Relativization and Separation for the function "nth" paulson parents: 13398 diff changeset	338	is_wfrec(L, iterates_MH(L, is_tl(L), z), memsn, u, y)),
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	339	\<lambda>i x. \<exists>u \<in> Lset(i). u \<in> B & (\<exists>y \<in> Lset(i). pair(##Lset(i), u, y, x) &
a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	340	is_wfrec(##Lset(i),
a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	341	iterates_MH(##Lset(i),
a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	342	is_tl(##Lset(i)), z), memsn, u, y))]"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	343	by (intro FOL_reflections function_reflections is_wfrec_reflection
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	344	iterates_MH_reflection tl_reflection)
13409 d4ea094c650e Relativization and Separation for the function "nth" paulson parents: 13398 diff changeset	345
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	346	lemma nth_replacement:
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	347	"L(w) ==> iterates_replacement(L, is_tl(L), w)"
13409 d4ea094c650e Relativization and Separation for the function "nth" paulson parents: 13398 diff changeset	348	apply (unfold iterates_replacement_def wfrec_replacement_def, clarify)
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	349	apply (rule strong_replacementI)
13687 22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	350	apply (rule_tac u="{B,w,Memrel(succ(n))}"
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	351	in gen_separation_multi [OF nth_replacement_Reflects],
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	352	auto)
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	353	apply (rule_tac env="[B,w,Memrel(succ(n))]" in DPow_LsetI)
13434 78b93a667c01 better sats rules for higher-order operators paulson parents: 13429 diff changeset	354	apply (rule sep_rules is_nat_case_iff_sats tl_iff_sats
13441 d6d620639243 better satisfies rules for is_recfun paulson parents: 13440 diff changeset	355	is_wfrec_iff_sats iterates_MH_iff_sats quasinat_iff_sats \| simp)+
13409 d4ea094c650e Relativization and Separation for the function "nth" paulson parents: 13398 diff changeset	356	done
d4ea094c650e Relativization and Separation for the function "nth" paulson parents: 13398 diff changeset	357
13422 af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	358
af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	359	subsubsection{Instantiating the locale @{text M_datatypes}}
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	360
13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	361	lemma M_datatypes_axioms_L: "M_datatypes_axioms(L)"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	362	apply (rule M_datatypes_axioms.intro)
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	363	apply (assumption \| rule
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	364	list_replacement1 list_replacement2
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	365	formula_replacement1 formula_replacement2
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	366	nth_replacement)+
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	367	done
13422 af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	368
13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	369	theorem M_datatypes_L: "PROP M_datatypes(L)"
01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	370	apply (rule M_datatypes.intro)
19931 fb32b43e7f80 Restructured locales with predicates: import is now an interpretation. ballarin parents: 16417 diff changeset	371	apply (rule M_trancl_L)
fb32b43e7f80 Restructured locales with predicates: import is now an interpretation. ballarin parents: 16417 diff changeset	372	apply (rule M_datatypes_axioms_L)
fb32b43e7f80 Restructured locales with predicates: import is now an interpretation. ballarin parents: 16417 diff changeset	373	done
13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	374
30729 461ee3e49ad3 interpretation/interpret: prefixes are mandatory by default; wenzelm parents: 29223 diff changeset	375	interpretation L?: M_datatypes L by (rule M_datatypes_L)
13422 af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	376
af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	377
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	378	subsection{@{term L} is Closed Under the Operator @{term eclose}}
13422 af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	379
af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	380	subsubsection{Instances of Replacement for @{term eclose}}
af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	381
af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	382	lemma eclose_replacement1_Reflects:
af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	383	"REFLECTS
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	384	[\<lambda>x. \<exists>u[L]. u \<in> B & (\<exists>y[L]. pair(L,u,y,x) &
13422 af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	385	is_wfrec(L, iterates_MH(L, big_union(L), A), memsn, u, y)),
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	386	\<lambda>i x. \<exists>u \<in> Lset(i). u \<in> B & (\<exists>y \<in> Lset(i). pair(##Lset(i), u, y, x) &
a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	387	is_wfrec(##Lset(i),
a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	388	iterates_MH(##Lset(i), big_union(##Lset(i)), A),
13422 af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	389	memsn, u, y))]"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	390	by (intro FOL_reflections function_reflections is_wfrec_reflection
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	391	iterates_MH_reflection)
13422 af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	392
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	393	lemma eclose_replacement1:
13422 af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	394	"L(A) ==> iterates_replacement(L, big_union(L), A)"
af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	395	apply (unfold iterates_replacement_def wfrec_replacement_def, clarify)
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	396	apply (rule strong_replacementI)
13566 52a419210d5c Streamlined proofs of instances of Separation paulson parents: 13564 diff changeset	397	apply (rule_tac u="{B,A,n,Memrel(succ(n))}"
13687 22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	398	in gen_separation_multi [OF eclose_replacement1_Reflects], auto)
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	399	apply (rule_tac env="[B,A,n,Memrel(succ(n))]" in DPow_LsetI)
13434 78b93a667c01 better sats rules for higher-order operators paulson parents: 13429 diff changeset	400	apply (rule sep_rules iterates_MH_iff_sats is_nat_case_iff_sats
13441 d6d620639243 better satisfies rules for is_recfun paulson parents: 13440 diff changeset	401	is_wfrec_iff_sats big_union_iff_sats quasinat_iff_sats \| simp)+
13409 d4ea094c650e Relativization and Separation for the function "nth" paulson parents: 13398 diff changeset	402	done
d4ea094c650e Relativization and Separation for the function "nth" paulson parents: 13398 diff changeset	403
13422 af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	404
af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	405	lemma eclose_replacement2_Reflects:
af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	406	"REFLECTS
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	407	[\<lambda>x. \<exists>u[L]. u \<in> B & u \<in> nat &
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	408	is_iterates(L, big_union(L), A, u, x),
95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	409	\<lambda>i x. \<exists>u \<in> Lset(i). u \<in> B & u \<in> nat &
13807 a28a8fbc76d4 changed ** to ## to avoid conflict with new comment syntax paulson parents: 13687 diff changeset	410	is_iterates(##Lset(i), big_union(##Lset(i)), A, u, x)]"
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	411	by (intro FOL_reflections function_reflections is_iterates_reflection)
13422 af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	412
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	413	lemma eclose_replacement2:
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	414	"L(A) ==> strong_replacement(L,
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	415	\<lambda>n y. n\<in>nat & is_iterates(L, big_union(L), A, n, y))"
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	416	apply (rule strong_replacementI)
13566 52a419210d5c Streamlined proofs of instances of Separation paulson parents: 13564 diff changeset	417	apply (rule_tac u="{A,B,nat}"
13687 22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	418	in gen_separation_multi [OF eclose_replacement2_Reflects],
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	419	auto simp add: L_nat)
22dce9134953 simpler separation/replacement proofs paulson parents: 13655 diff changeset	420	apply (rule_tac env="[A,B,nat]" in DPow_LsetI)
13655 95b95cdb4704 Tidying up. New primitives is_iterates and is_iterates_fm. paulson parents: 13651 diff changeset	421	apply (rule sep_rules is_iterates_iff_sats big_union_iff_sats \| simp)+
13422 af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	422	done
af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	423
af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	424
af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	425	subsubsection{Instantiating the locale @{text M_eclose}}
af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	426
13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	427	lemma M_eclose_axioms_L: "M_eclose_axioms(L)"
01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	428	apply (rule M_eclose_axioms.intro)
01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	429	apply (assumption \| rule eclose_replacement1 eclose_replacement2)+
01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	430	done
01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	431
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	432	theorem M_eclose_L: "PROP M_eclose(L)"
99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	433	apply (rule M_eclose.intro)
19931 fb32b43e7f80 Restructured locales with predicates: import is now an interpretation. ballarin parents: 16417 diff changeset	434	apply (rule M_datatypes_L)
13437 01b3fc0cc1b8 separate "axioms" proofs: more flexible for locale reasoning paulson parents: 13434 diff changeset	435	apply (rule M_eclose_axioms_L)
13428 99e52e78eb65 eliminate open locales and special ML code; wenzelm parents: 13422 diff changeset	436	done
13422 af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	437
30729 461ee3e49ad3 interpretation/interpret: prefixes are mandatory by default; wenzelm parents: 29223 diff changeset	438	interpretation L?: M_eclose L by (rule M_eclose_L)
15766 b08feb003f3c Cleaned up, now use interpretation. ballarin parents: 13807 diff changeset	439
13422 af9bc8d87a75 Added the assumption nth_replacement to locale M_datatypes. paulson parents: 13418 diff changeset	440
13348 374d05460db4 Separation/Replacement up to M_wfrank! paulson parents: diff changeset	441	end

author	wenzelm
	Tue, 18 Feb 2014 18:29:02 +0100
changeset 55553	99409ccbe04a
parent 46823	57bf0cecb366
child 58871	c399ae4b836f
permissions	-rw-r--r--