| author | paulson |
| Thu, 01 Jul 2004 12:29:53 +0200 | |
| changeset 15013 | 34264f5e4691 |
| parent 14706 | 71590b7733b7 |
| child 15131 | c69542757a4d |
| permissions | -rw-r--r-- |
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The accessible part of a relation (from HOL/Induct/Acc);
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(* Title: HOL/Library/Accessible_Part.thy |
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The accessible part of a relation (from HOL/Induct/Acc);
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ID: $Id$ |
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The accessible part of a relation (from HOL/Induct/Acc);
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Author: Lawrence C Paulson, Cambridge University Computer Laboratory |
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The accessible part of a relation (from HOL/Induct/Acc);
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Copyright 1994 University of Cambridge |
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The accessible part of a relation (from HOL/Induct/Acc);
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*) |
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The accessible part of a relation (from HOL/Induct/Acc);
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header {* The accessible part of a relation *}
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The accessible part of a relation (from HOL/Induct/Acc);
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theory Accessible_Part = Main: |
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The accessible part of a relation (from HOL/Induct/Acc);
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The accessible part of a relation (from HOL/Induct/Acc);
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The accessible part of a relation (from HOL/Induct/Acc);
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subsection {* Inductive definition *}
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The accessible part of a relation (from HOL/Induct/Acc);
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text {*
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The accessible part of a relation (from HOL/Induct/Acc);
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Inductive definition of the accessible part @{term "acc r"} of a
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The accessible part of a relation (from HOL/Induct/Acc);
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relation; see also \cite{paulin-tlca}.
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The accessible part of a relation (from HOL/Induct/Acc);
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*} |
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consts |
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acc :: "('a \<times> 'a) set => 'a set"
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inductive "acc r" |
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intros |
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accI: "(!!y. (y, x) \<in> r ==> y \<in> acc r) ==> x \<in> acc r" |
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The accessible part of a relation (from HOL/Induct/Acc);
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The accessible part of a relation (from HOL/Induct/Acc);
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syntax |
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termi :: "('a \<times> 'a) set => 'a set"
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translations |
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"termi r" == "acc (r\<inverse>)" |
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subsection {* Induction rules *}
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theorem acc_induct: |
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"a \<in> acc r ==> |
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(!!x. x \<in> acc r ==> \<forall>y. (y, x) \<in> r --> P y ==> P x) ==> P a" |
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proof - |
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assume major: "a \<in> acc r" |
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assume hyp: "!!x. x \<in> acc r ==> \<forall>y. (y, x) \<in> r --> P y ==> P x" |
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show ?thesis |
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apply (rule major [THEN acc.induct]) |
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apply (rule hyp) |
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apply (rule accI) |
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apply fast |
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apply fast |
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done |
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qed |
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theorems acc_induct_rule = acc_induct [rule_format, induct set: acc] |
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theorem acc_downward: "b \<in> acc r ==> (a, b) \<in> r ==> a \<in> acc r" |
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apply (erule acc.elims) |
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apply fast |
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done |
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lemma acc_downwards_aux: "(b, a) \<in> r\<^sup>* ==> a \<in> acc r --> b \<in> acc r" |
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apply (erule rtrancl_induct) |
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apply blast |
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apply (blast dest: acc_downward) |
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done |
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theorem acc_downwards: "a \<in> acc r ==> (b, a) \<in> r\<^sup>* ==> b \<in> acc r" |
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apply (blast dest: acc_downwards_aux) |
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done |
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theorem acc_wfI: "\<forall>x. x \<in> acc r ==> wf r" |
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apply (rule wfUNIVI) |
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apply (induct_tac P x rule: acc_induct) |
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apply blast |
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apply blast |
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done |
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theorem acc_wfD: "wf r ==> x \<in> acc r" |
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apply (erule wf_induct) |
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apply (rule accI) |
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apply blast |
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done |
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theorem wf_acc_iff: "wf r = (\<forall>x. x \<in> acc r)" |
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apply (blast intro: acc_wfI dest: acc_wfD) |
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done |
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end |