isabelle: src/ZF/WF.thy@20f43e0e0958 (annotated)

13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	1	(* Title: ZF/WF.thy
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	2	ID: $Id$
1478 2b8c2a7547ab expanded tabs clasohm parents: 1401 diff changeset	3	Author: Tobias Nipkow and Lawrence C Paulson
435 ca5356bd315a Addition of cardinals and order types, various tidying lcp parents: 124 diff changeset	4	Copyright 1994 University of Cambridge
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	5
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	6	Derived first for transitive relations, and finally for arbitrary WF relations
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	7	via wf_trancl and trans_trancl.
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	8
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	9	It is difficult to derive this general case directly, using r^+ instead of
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	10	r. In is_recfun, the two occurrences of the relation must have the same
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	11	form. Inserting r^+ in the_recfun or wftrec yields a recursion rule with
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	12	r^+ -`` {a} instead of r-``{a}. This recursion rule is stronger in
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	13	principle, but harder to use, especially to prove wfrec_eclose_eq in
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	14	epsilon.ML. Expanding out the definition of wftrec in wfrec would yield
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	15	a mess.
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	16	*)
a5a9c433f639 Initial revision clasohm parents: diff changeset	17
13356 c9cfe1638bf2 improved presentation markup paulson parents: 13269 diff changeset	18	header{Well-Founded Recursion}
c9cfe1638bf2 improved presentation markup paulson parents: 13269 diff changeset	19
16417 9bc16273c2d4 migrated theory headers to new format haftmann parents: 13784 diff changeset	20	theory WF imports Trancl begin
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	21
24893 b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	22	definition
b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	23	wf :: "i=>o" where
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	24	(r is a well-founded relation)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	25	"wf(r) == ALL Z. Z=0 \| (EX x:Z. ALL y. <y,x>:r --> ~ y:Z)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	26
24893 b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	27	definition
b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	28	wf_on :: "[i,i]=>o" ("wf[_]'(_')") where
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	29	(r is well-founded on A)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	30	"wf_on(A,r) == wf(r Int A*A)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	31
24893 b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	32	definition
b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	33	is_recfun :: "[i, i, [i,i]=>i, i] =>o" where
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	34	"is_recfun(r,a,H,f) == (f = (lam x: r-``{a}. H(x, restrict(f, r-``{x}))))"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	35
24893 b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	36	definition
b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	37	the_recfun :: "[i, i, [i,i]=>i] =>i" where
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	38	"the_recfun(r,a,H) == (THE f. is_recfun(r,a,H,f))"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	39
24893 b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	40	definition
b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	41	wftrec :: "[i, i, [i,i]=>i] =>i" where
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	42	"wftrec(r,a,H) == H(a, the_recfun(r,a,H))"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	43
24893 b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	44	definition
b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	45	wfrec :: "[i, i, [i,i]=>i] =>i" where
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	46	(public version. Does not require r to be transitive)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	47	"wfrec(r,a,H) == wftrec(r^+, a, %x f. H(x, restrict(f,r-``{x})))"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	48
24893 b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	49	definition
b8ef7afe3a6b modernized specifications; wenzelm parents: 22710 diff changeset	50	wfrec_on :: "[i, i, i, [i,i]=>i] =>i" ("wfrec[_]'(_,_,_')") where
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	51	"wfrec[A](r,a,H) == wfrec(r Int A*A, a, H)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	52
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	53
13356 c9cfe1638bf2 improved presentation markup paulson parents: 13269 diff changeset	54	subsection{Well-Founded Relations}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	55
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	56	subsubsection{Equivalences between @{term wf} and @{term wf_on}}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	57
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	58	lemma wf_imp_wf_on: "wf(r) ==> wf[A](r)"
13780 af7b79271364 more new-style theories paulson parents: 13634 diff changeset	59	by (unfold wf_def wf_on_def, force)
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	60
13248 ae66c22ed52e new theorems paulson parents: 13219 diff changeset	61	lemma wf_on_imp_wf: "[\|wf[A](r); r <= A*A\|] ==> wf(r)";
ae66c22ed52e new theorems paulson parents: 13219 diff changeset	62	by (simp add: wf_on_def subset_Int_iff)
ae66c22ed52e new theorems paulson parents: 13219 diff changeset	63
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	64	lemma wf_on_field_imp_wf: "wf[field(r)](r) ==> wf(r)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	65	by (unfold wf_def wf_on_def, fast)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	66
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	67	lemma wf_iff_wf_on_field: "wf(r) <-> wf[field(r)](r)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	68	by (blast intro: wf_imp_wf_on wf_on_field_imp_wf)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	69
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	70	lemma wf_on_subset_A: "[\| wf[A](r); B<=A \|] ==> wf[B](r)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	71	by (unfold wf_on_def wf_def, fast)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	72
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	73	lemma wf_on_subset_r: "[\| wf[A](r); s<=r \|] ==> wf[A](s)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	74	by (unfold wf_on_def wf_def, fast)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	75
13217 bc5dc2392578 new theorems paulson parents: 13203 diff changeset	76	lemma wf_subset: "[\|wf(s); r<=s\|] ==> wf(r)"
bc5dc2392578 new theorems paulson parents: 13203 diff changeset	77	by (simp add: wf_def, fast)
bc5dc2392578 new theorems paulson parents: 13203 diff changeset	78
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	79	subsubsection{Introduction Rules for @{term wf_on}}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	80
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	81	text{*If every non-empty subset of @{term A} has an @{term r}-minimal element
99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	82	then we have @{term "wf[A](r)"}.*}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	83	lemma wf_onI:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	84	assumes prem: "!!Z u. [\| Z<=A; u:Z; ALL x:Z. EX y:Z. <y,x>:r \|] ==> False"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	85	shows "wf[A](r)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	86	apply (unfold wf_on_def wf_def)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	87	apply (rule equals0I [THEN disjCI, THEN allI])
13784 b9f6154427a4 tidying (by script) paulson parents: 13780 diff changeset	88	apply (rule_tac Z = Z in prem, blast+)
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	89	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	90
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	91	text{*If @{term r} allows well-founded induction over @{term A}
99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	92	then we have @{term "wf[A](r)"}. Premise is equivalent to
22710 f44439cdce77 read prop as prop, not term; wenzelm parents: 16417 diff changeset	93	@{prop "!!B. ALL x:A. (ALL y. <y,x>: r --> y:B) --> x:B ==> A<=B"} *}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	94	lemma wf_onI2:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	95	assumes prem: "!!y B. [\| ALL x:A. (ALL y:A. <y,x>:r --> y:B) --> x:B; y:A \|]
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	96	==> y:B"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	97	shows "wf[A](r)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	98	apply (rule wf_onI)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	99	apply (rule_tac c=u in prem [THEN DiffE])
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	100	prefer 3 apply blast
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	101	apply fast+
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	102	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	103
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	104
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	105	subsubsection{Well-founded Induction}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	106
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	107	text{*Consider the least @{term z} in @{term "domain(r)"} such that
99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	108	@{term "P(z)"} does not hold...*}
13534 ca6debb89d77 avoid duplicate fact bindings; wenzelm parents: 13357 diff changeset	109	lemma wf_induct [induct set: wf]:
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	110	"[\| wf(r);
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	111	!!x.[\| ALL y. <y,x>: r --> P(y) \|] ==> P(x) \|]
99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	112	==> P(a)"
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	113	apply (unfold wf_def)
13252 8c79a0dce4c0 tweaked paulson parents: 13248 diff changeset	114	apply (erule_tac x = "{z : domain(r). ~ P(z)}" in allE)
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	115	apply blast
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	116	done
435 ca5356bd315a Addition of cardinals and order types, various tidying lcp parents: 124 diff changeset	117
13534 ca6debb89d77 avoid duplicate fact bindings; wenzelm parents: 13357 diff changeset	118	lemmas wf_induct_rule = wf_induct [rule_format, induct set: wf]
13203 fac77a839aa2 Tidying up. Mainly moving proofs from Main.thy to other (Isar) theory files. paulson parents: 13175 diff changeset	119
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	120	text{The form of this rule is designed to match @{text wfI}}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	121	lemma wf_induct2:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	122	"[\| wf(r); a:A; field(r)<=A;
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	123	!!x.[\| x: A; ALL y. <y,x>: r --> P(y) \|] ==> P(x) \|]
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	124	==> P(a)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	125	apply (erule_tac P="a:A" in rev_mp)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	126	apply (erule_tac a=a in wf_induct, blast)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	127	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	128
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	129	lemma field_Int_square: "field(r Int A*A) <= A"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	130	by blast
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	131
13534 ca6debb89d77 avoid duplicate fact bindings; wenzelm parents: 13357 diff changeset	132	lemma wf_on_induct [consumes 2, induct set: wf_on]:
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	133	"[\| wf[A](r); a:A;
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	134	!!x.[\| x: A; ALL y:A. <y,x>: r --> P(y) \|] ==> P(x)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	135	\|] ==> P(a)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	136	apply (unfold wf_on_def)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	137	apply (erule wf_induct2, assumption)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	138	apply (rule field_Int_square, blast)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	139	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	140
13534 ca6debb89d77 avoid duplicate fact bindings; wenzelm parents: 13357 diff changeset	141	lemmas wf_on_induct_rule =
ca6debb89d77 avoid duplicate fact bindings; wenzelm parents: 13357 diff changeset	142	wf_on_induct [rule_format, consumes 2, induct set: wf_on]
13203 fac77a839aa2 Tidying up. Mainly moving proofs from Main.thy to other (Isar) theory files. paulson parents: 13175 diff changeset	143
fac77a839aa2 Tidying up. Mainly moving proofs from Main.thy to other (Isar) theory files. paulson parents: 13175 diff changeset	144
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	145	text{*If @{term r} allows well-founded induction
99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	146	then we have @{term "wf(r)"}.*}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	147	lemma wfI:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	148	"[\| field(r)<=A;
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	149	!!y B. [\| ALL x:A. (ALL y:A. <y,x>:r --> y:B) --> x:B; y:A\|]
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	150	==> y:B \|]
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	151	==> wf(r)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	152	apply (rule wf_on_subset_A [THEN wf_on_field_imp_wf])
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	153	apply (rule wf_onI2)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	154	prefer 2 apply blast
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	155	apply blast
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	156	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	157
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	158
13356 c9cfe1638bf2 improved presentation markup paulson parents: 13269 diff changeset	159	subsection{Basic Properties of Well-Founded Relations}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	160
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	161	lemma wf_not_refl: "wf(r) ==> <a,a> ~: r"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	162	by (erule_tac a=a in wf_induct, blast)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	163
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	164	lemma wf_not_sym [rule_format]: "wf(r) ==> ALL x. <a,x>:r --> <x,a> ~: r"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	165	by (erule_tac a=a in wf_induct, blast)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	166
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	167	(* [\| wf(r); <a,x> : r; ~P ==> <x,a> : r \|] ==> P *)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	168	lemmas wf_asym = wf_not_sym [THEN swap, standard]
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	169
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	170	lemma wf_on_not_refl: "[\| wf[A](r); a: A \|] ==> <a,a> ~: r"
13269 3ba9be497c33 Tidying and introduction of various new theorems paulson parents: 13252 diff changeset	171	by (erule_tac a=a in wf_on_induct, assumption, blast)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	172
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	173	lemma wf_on_not_sym [rule_format]:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	174	"[\| wf[A](r); a:A \|] ==> ALL b:A. <a,b>:r --> <b,a>~:r"
13269 3ba9be497c33 Tidying and introduction of various new theorems paulson parents: 13252 diff changeset	175	apply (erule_tac a=a in wf_on_induct, assumption, blast)
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	176	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	177
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	178	lemma wf_on_asym:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	179	"[\| wf[A](r); ~Z ==> <a,b> : r;
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	180	<b,a> ~: r ==> Z; ~Z ==> a : A; ~Z ==> b : A \|] ==> Z"
13269 3ba9be497c33 Tidying and introduction of various new theorems paulson parents: 13252 diff changeset	181	by (blast dest: wf_on_not_sym)
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	182
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	183
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	184	(*Needed to prove well_ordI. Could also reason that wf[A](r) means
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	185	wf(r Int AA); thus wf( (r Int AA)^+ ) and use wf_not_refl *)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	186	lemma wf_on_chain3:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	187	"[\| wf[A](r); <a,b>:r; <b,c>:r; <c,a>:r; a:A; b:A; c:A \|] ==> P"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	188	apply (subgoal_tac "ALL y:A. ALL z:A. <a,y>:r --> <y,z>:r --> <z,a>:r --> P",
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	189	blast)
13269 3ba9be497c33 Tidying and introduction of various new theorems paulson parents: 13252 diff changeset	190	apply (erule_tac a=a in wf_on_induct, assumption, blast)
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	191	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	192
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	193
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	194
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	195	text{*transitive closure of a WF relation is WF provided
99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	196	@{term A} is downward closed*}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	197	lemma wf_on_trancl:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	198	"[\| wf[A](r); r-``A <= A \|] ==> wf[A](r^+)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	199	apply (rule wf_onI2)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	200	apply (frule bspec [THEN mp], assumption+)
13784 b9f6154427a4 tidying (by script) paulson parents: 13780 diff changeset	201	apply (erule_tac a = y in wf_on_induct, assumption)
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	202	apply (blast elim: tranclE, blast)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	203	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	204
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	205	lemma wf_trancl: "wf(r) ==> wf(r^+)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	206	apply (simp add: wf_iff_wf_on_field)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	207	apply (rule wf_on_subset_A)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	208	apply (erule wf_on_trancl)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	209	apply blast
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	210	apply (rule trancl_type [THEN field_rel_subset])
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	211	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	212
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	213
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	214	text{@{term "r-``{a}"} is the set of everything under @{term a} in @{term r}}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	215
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	216	lemmas underI = vimage_singleton_iff [THEN iffD2, standard]
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	217	lemmas underD = vimage_singleton_iff [THEN iffD1, standard]
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	218
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	219
99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	220	subsection{The Predicate @{term is_recfun}}
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	221
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	222	lemma is_recfun_type: "is_recfun(r,a,H,f) ==> f: r-``{a} -> range(f)"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	223	apply (unfold is_recfun_def)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	224	apply (erule ssubst)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	225	apply (rule lamI [THEN rangeI, THEN lam_type], assumption)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	226	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	227
13269 3ba9be497c33 Tidying and introduction of various new theorems paulson parents: 13252 diff changeset	228	lemmas is_recfun_imp_function = is_recfun_type [THEN fun_is_function]
3ba9be497c33 Tidying and introduction of various new theorems paulson parents: 13252 diff changeset	229
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	230	lemma apply_recfun:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	231	"[\| is_recfun(r,a,H,f); <x,a>:r \|] ==> f`x = H(x, restrict(f,r-``{x}))"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	232	apply (unfold is_recfun_def)
13175 81082cfa5618 new definition of "apply" and new simprule "beta_if" paulson parents: 13165 diff changeset	233	txt{replace f only on the left-hand side}
81082cfa5618 new definition of "apply" and new simprule "beta_if" paulson parents: 13165 diff changeset	234	apply (erule_tac P = "%x.?t(x) = ?u" in ssubst)
13269 3ba9be497c33 Tidying and introduction of various new theorems paulson parents: 13252 diff changeset	235	apply (simp add: underI)
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	236	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	237
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	238	lemma is_recfun_equal [rule_format]:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	239	"[\| wf(r); trans(r); is_recfun(r,a,H,f); is_recfun(r,b,H,g) \|]
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	240	==> <x,a>:r --> <x,b>:r --> f`x=g`x"
13784 b9f6154427a4 tidying (by script) paulson parents: 13780 diff changeset	241	apply (frule_tac f = f in is_recfun_type)
b9f6154427a4 tidying (by script) paulson parents: 13780 diff changeset	242	apply (frule_tac f = g in is_recfun_type)
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	243	apply (simp add: is_recfun_def)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	244	apply (erule_tac a=x in wf_induct)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	245	apply (intro impI)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	246	apply (elim ssubst)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	247	apply (simp (no_asm_simp) add: vimage_singleton_iff restrict_def)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	248	apply (rule_tac t = "%z. H (?x,z) " in subst_context)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	249	apply (subgoal_tac "ALL y : r-``{x}. ALL z. <y,z>:f <-> <y,z>:g")
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	250	apply (blast dest: transD)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	251	apply (simp add: apply_iff)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	252	apply (blast dest: transD intro: sym)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	253	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	254
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	255	lemma is_recfun_cut:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	256	"[\| wf(r); trans(r);
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	257	is_recfun(r,a,H,f); is_recfun(r,b,H,g); <b,a>:r \|]
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	258	==> restrict(f, r-``{b}) = g"
13784 b9f6154427a4 tidying (by script) paulson parents: 13780 diff changeset	259	apply (frule_tac f = f in is_recfun_type)
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	260	apply (rule fun_extension)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	261	apply (blast dest: transD intro: restrict_type2)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	262	apply (erule is_recfun_type, simp)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	263	apply (blast dest: transD intro: is_recfun_equal)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	264	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	265
13356 c9cfe1638bf2 improved presentation markup paulson parents: 13269 diff changeset	266	subsection{Recursion: Main Existence Lemma}
435 ca5356bd315a Addition of cardinals and order types, various tidying lcp parents: 124 diff changeset	267
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	268	lemma is_recfun_functional:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	269	"[\| wf(r); trans(r); is_recfun(r,a,H,f); is_recfun(r,a,H,g) \|] ==> f=g"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	270	by (blast intro: fun_extension is_recfun_type is_recfun_equal)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	271
13248 ae66c22ed52e new theorems paulson parents: 13219 diff changeset	272	lemma the_recfun_eq:
ae66c22ed52e new theorems paulson parents: 13219 diff changeset	273	"[\| is_recfun(r,a,H,f); wf(r); trans(r) \|] ==> the_recfun(r,a,H) = f"
ae66c22ed52e new theorems paulson parents: 13219 diff changeset	274	apply (unfold the_recfun_def)
ae66c22ed52e new theorems paulson parents: 13219 diff changeset	275	apply (blast intro: is_recfun_functional)
ae66c22ed52e new theorems paulson parents: 13219 diff changeset	276	done
ae66c22ed52e new theorems paulson parents: 13219 diff changeset	277
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	278	(If some f satisfies is_recfun(r,a,H,-) then so does the_recfun(r,a,H) )
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	279	lemma is_the_recfun:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	280	"[\| is_recfun(r,a,H,f); wf(r); trans(r) \|]
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	281	==> is_recfun(r, a, H, the_recfun(r,a,H))"
13248 ae66c22ed52e new theorems paulson parents: 13219 diff changeset	282	by (simp add: the_recfun_eq)
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	283
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	284	lemma unfold_the_recfun:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	285	"[\| wf(r); trans(r) \|] ==> is_recfun(r, a, H, the_recfun(r,a,H))"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	286	apply (rule_tac a=a in wf_induct, assumption)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	287	apply (rename_tac a1)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	288	apply (rule_tac f = "lam y: r-``{a1}. wftrec (r,y,H)" in is_the_recfun)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	289	apply typecheck
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	290	apply (unfold is_recfun_def wftrec_def)
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	291	--{Applying the substitution: must keep the quantified assumption!}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	292	apply (rule lam_cong [OF refl])
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	293	apply (drule underD)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	294	apply (fold is_recfun_def)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	295	apply (rule_tac t = "%z. H(?x,z)" in subst_context)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	296	apply (rule fun_extension)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	297	apply (blast intro: is_recfun_type)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	298	apply (rule lam_type [THEN restrict_type2])
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	299	apply blast
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	300	apply (blast dest: transD)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	301	apply (frule spec [THEN mp], assumption)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	302	apply (subgoal_tac "<xa,a1> : r")
13784 b9f6154427a4 tidying (by script) paulson parents: 13780 diff changeset	303	apply (drule_tac x1 = xa in spec [THEN mp], assumption)
13175 81082cfa5618 new definition of "apply" and new simprule "beta_if" paulson parents: 13165 diff changeset	304	apply (simp add: vimage_singleton_iff
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	305	apply_recfun is_recfun_cut)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	306	apply (blast dest: transD)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	307	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	308
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	309
13356 c9cfe1638bf2 improved presentation markup paulson parents: 13269 diff changeset	310	subsection{Unfolding @{term "wftrec(r,a,H)"}}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	311
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	312	lemma the_recfun_cut:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	313	"[\| wf(r); trans(r); <b,a>:r \|]
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	314	==> restrict(the_recfun(r,a,H), r-``{b}) = the_recfun(r,b,H)"
13269 3ba9be497c33 Tidying and introduction of various new theorems paulson parents: 13252 diff changeset	315	by (blast intro: is_recfun_cut unfold_the_recfun)
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	316
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	317	(NOT SUITABLE FOR REWRITING: it is recursive!)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	318	lemma wftrec:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	319	"[\| wf(r); trans(r) \|] ==>
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	320	wftrec(r,a,H) = H(a, lam x: r-``{a}. wftrec(r,x,H))"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	321	apply (unfold wftrec_def)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	322	apply (subst unfold_the_recfun [unfolded is_recfun_def])
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	323	apply (simp_all add: vimage_singleton_iff [THEN iff_sym] the_recfun_cut)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	324	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	325
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	326
99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	327	subsubsection{Removal of the Premise @{term "trans(r)"}}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	328
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	329	(NOT SUITABLE FOR REWRITING: it is recursive!)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	330	lemma wfrec:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	331	"wf(r) ==> wfrec(r,a,H) = H(a, lam x:r-``{a}. wfrec(r,x,H))"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	332	apply (unfold wfrec_def)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	333	apply (erule wf_trancl [THEN wftrec, THEN ssubst])
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	334	apply (rule trans_trancl)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	335	apply (rule vimage_pair_mono [THEN restrict_lam_eq, THEN subst_context])
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	336	apply (erule r_into_trancl)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	337	apply (rule subset_refl)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	338	done
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	339
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	340	(This form avoids giant explosions in proofs. NOTE USE OF == )
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	341	lemma def_wfrec:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	342	"[\| !!x. h(x)==wfrec(r,x,H); wf(r) \|] ==>
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	343	h(a) = H(a, lam x: r-``{a}. h(x))"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	344	apply simp
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	345	apply (elim wfrec)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	346	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	347
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	348	lemma wfrec_type:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	349	"[\| wf(r); a:A; field(r)<=A;
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	350	!!x u. [\| x: A; u: Pi(r-``{x}, B) \|] ==> H(x,u) : B(x)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	351	\|] ==> wfrec(r,a,H) : B(a)"
13784 b9f6154427a4 tidying (by script) paulson parents: 13780 diff changeset	352	apply (rule_tac a = a in wf_induct2, assumption+)
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	353	apply (subst wfrec, assumption)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	354	apply (simp add: lam_type underD)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	355	done
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	356
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	357
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	358	lemma wfrec_on:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	359	"[\| wf[A](r); a: A \|] ==>
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	360	wfrec[A](r,a,H) = H(a, lam x: (r-``{a}) Int A. wfrec[A](r,x,H))"
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	361	apply (unfold wf_on_def wfrec_on_def)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	362	apply (erule wfrec [THEN trans])
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	363	apply (simp add: vimage_Int_square cons_subset_iff)
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	364	done
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	365
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	366	text{Minimal-element characterization of well-foundedness}
13165 31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	367	lemma wf_eq_minimal:
31d020705aff conversion of equalities and WF to Isar paulson parents: 3840 diff changeset	368	"wf(r) <-> (ALL Q x. x:Q --> (EX z:Q. ALL y. <y,z>:r --> y~:Q))"
13634 99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	369	by (unfold wf_def, blast)
99a593b49b04 Re-organization of Constructible theories paulson parents: 13534 diff changeset	370
0 a5a9c433f639 Initial revision clasohm parents: diff changeset	371	end

author	wenzelm
	Sun, 30 Nov 2008 14:43:29 +0100
changeset 28917	20f43e0e0958
parent 24893	b8ef7afe3a6b
child 35762	af3ff2ba4c54
permissions	-rw-r--r--