isabelle: src/HOL/Library/Accessible_Part.thy@1b3780be6cc2 (annotated)

10248 d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	1	(* Title: HOL/Library/Accessible_Part.thy
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	2	ID: $Id$
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	3	Author: Lawrence C Paulson, Cambridge University Computer Laboratory
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	4	Copyright 1994 University of Cambridge
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	5	*)
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	6
14706 71590b7733b7 tuned document; wenzelm parents: 10734 diff changeset	7	header {* The accessible part of a relation *}
10248 d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	8
15131 c69542757a4d New theory header syntax. nipkow parents: 14706 diff changeset	9	theory Accessible_Part
15140 322485b816ac import -> imports nipkow parents: 15131 diff changeset	10	imports Main
15131 c69542757a4d New theory header syntax. nipkow parents: 14706 diff changeset	11	begin
10248 d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	12
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	13	subsection {* Inductive definition *}
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	14
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	15	text {*
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	16	Inductive definition of the accessible part @{term "acc r"} of a
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	17	relation; see also \cite{paulin-tlca}.
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	18	*}
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	19
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	20	consts
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	21	acc :: "('a \<times> 'a) set => 'a set"
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	22	inductive "acc r"
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	23	intros
10734 66604af28f94 tuned; wenzelm parents: 10388 diff changeset	24	accI: "(!!y. (y, x) \<in> r ==> y \<in> acc r) ==> x \<in> acc r"
10248 d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	25
19086 1b3780be6cc2 new-style definitions/abbreviations; wenzelm parents: 18241 diff changeset	26	abbreviation (output)
10248 d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	27	termi :: "('a \<times> 'a) set => 'a set"
19086 1b3780be6cc2 new-style definitions/abbreviations; wenzelm parents: 18241 diff changeset	28	"termi r == acc (r\<inverse>)"
10248 d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	29
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	30
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	31	subsection {* Induction rules *}
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	32
10734 66604af28f94 tuned; wenzelm parents: 10388 diff changeset	33	theorem acc_induct:
18241 afdba6b3e383 tuned induction proofs; wenzelm parents: 15140 diff changeset	34	assumes major: "a \<in> acc r"
afdba6b3e383 tuned induction proofs; wenzelm parents: 15140 diff changeset	35	assumes hyp: "!!x. x \<in> acc r ==> \<forall>y. (y, x) \<in> r --> P y ==> P x"
afdba6b3e383 tuned induction proofs; wenzelm parents: 15140 diff changeset	36	shows "P a"
afdba6b3e383 tuned induction proofs; wenzelm parents: 15140 diff changeset	37	apply (rule major [THEN acc.induct])
afdba6b3e383 tuned induction proofs; wenzelm parents: 15140 diff changeset	38	apply (rule hyp)
afdba6b3e383 tuned induction proofs; wenzelm parents: 15140 diff changeset	39	apply (rule accI)
afdba6b3e383 tuned induction proofs; wenzelm parents: 15140 diff changeset	40	apply fast
afdba6b3e383 tuned induction proofs; wenzelm parents: 15140 diff changeset	41	apply fast
afdba6b3e383 tuned induction proofs; wenzelm parents: 15140 diff changeset	42	done
10248 d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	43
10734 66604af28f94 tuned; wenzelm parents: 10388 diff changeset	44	theorems acc_induct_rule = acc_induct [rule_format, induct set: acc]
66604af28f94 tuned; wenzelm parents: 10388 diff changeset	45
10248 d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	46	theorem acc_downward: "b \<in> acc r ==> (a, b) \<in> r ==> a \<in> acc r"
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	47	apply (erule acc.elims)
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	48	apply fast
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	49	done
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	50
10388 ac1ae85a5605 tuned notation; wenzelm parents: 10248 diff changeset	51	lemma acc_downwards_aux: "(b, a) \<in> r\<^sup>* ==> a \<in> acc r --> b \<in> acc r"
10248 d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	52	apply (erule rtrancl_induct)
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	53	apply blast
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	54	apply (blast dest: acc_downward)
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	55	done
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	56
10388 ac1ae85a5605 tuned notation; wenzelm parents: 10248 diff changeset	57	theorem acc_downwards: "a \<in> acc r ==> (b, a) \<in> r\<^sup>* ==> b \<in> acc r"
10248 d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	58	apply (blast dest: acc_downwards_aux)
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	59	done
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	60
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	61	theorem acc_wfI: "\<forall>x. x \<in> acc r ==> wf r"
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	62	apply (rule wfUNIVI)
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	63	apply (induct_tac P x rule: acc_induct)
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	64	apply blast
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	65	apply blast
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	66	done
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	67
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	68	theorem acc_wfD: "wf r ==> x \<in> acc r"
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	69	apply (erule wf_induct)
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	70	apply (rule accI)
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	71	apply blast
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	72	done
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	73
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	74	theorem wf_acc_iff: "wf r = (\<forall>x. x \<in> acc r)"
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	75	apply (blast intro: acc_wfI dest: acc_wfD)
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	76	done
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	77
d99e5eeb16f4 The accessible part of a relation (from HOL/Induct/Acc); wenzelm parents: diff changeset	78	end

author	wenzelm
	Thu, 16 Feb 2006 21:12:00 +0100
changeset 19086	1b3780be6cc2
parent 18241	afdba6b3e383
child 19363	667b5ea637dd
permissions	-rw-r--r--