| author | bulwahn |
| Thu, 07 Jul 2011 23:33:14 +0200 | |
| changeset 43704 | 47b0be18ccbe |
| parent 42459 | 38b9f023cc34 |
| child 45625 | 750c5a47400b |
| permissions | -rw-r--r-- |
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(* Title: ZF/OrdQuant.thy |
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Authors: Krzysztof Grabczewski and L C Paulson |
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*) |
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header {*Special quantifiers*}
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theory OrdQuant imports Ordinal begin |
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subsection {*Quantifiers and union operator for ordinals*}
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definition |
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(* Ordinal Quantifiers *) |
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oall :: "[i, i => o] => o" where |
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"oall(A, P) == ALL x. x<A --> P(x)" |
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definition |
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oex :: "[i, i => o] => o" where |
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"oex(A, P) == EX x. x<A & P(x)" |
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definition |
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(* Ordinal Union *) |
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OUnion :: "[i, i => i] => i" where |
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"OUnion(i,B) == {z: \<Union>x\<in>i. B(x). Ord(i)}"
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syntax |
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"_oall" :: "[idt, i, o] => o" ("(3ALL _<_./ _)" 10)
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"_oex" :: "[idt, i, o] => o" ("(3EX _<_./ _)" 10)
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"_OUNION" :: "[idt, i, i] => i" ("(3UN _<_./ _)" 10)
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translations |
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"ALL x<a. P" == "CONST oall(a, %x. P)" |
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"EX x<a. P" == "CONST oex(a, %x. P)" |
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"UN x<a. B" == "CONST OUnion(a, %x. B)" |
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syntax (xsymbols) |
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"_oall" :: "[idt, i, o] => o" ("(3\<forall>_<_./ _)" 10)
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"_oex" :: "[idt, i, o] => o" ("(3\<exists>_<_./ _)" 10)
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"_OUNION" :: "[idt, i, i] => i" ("(3\<Union>_<_./ _)" 10)
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syntax (HTML output) |
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"_oall" :: "[idt, i, o] => o" ("(3\<forall>_<_./ _)" 10)
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"_oex" :: "[idt, i, o] => o" ("(3\<exists>_<_./ _)" 10)
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"_OUNION" :: "[idt, i, i] => i" ("(3\<Union>_<_./ _)" 10)
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subsubsection {*simplification of the new quantifiers*}
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(*MOST IMPORTANT that this is added to the simpset BEFORE Ord_atomize |
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is proved. Ord_atomize would convert this rule to |
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x < 0 ==> P(x) == True, which causes dire effects!*) |
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lemma [simp]: "(ALL x<0. P(x))" |
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by (simp add: oall_def) |
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lemma [simp]: "~(EX x<0. P(x))" |
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by (simp add: oex_def) |
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lemma [simp]: "(ALL x<succ(i). P(x)) <-> (Ord(i) --> P(i) & (ALL x<i. P(x)))" |
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apply (simp add: oall_def le_iff) |
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apply (blast intro: lt_Ord2) |
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done |
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lemma [simp]: "(EX x<succ(i). P(x)) <-> (Ord(i) & (P(i) | (EX x<i. P(x))))" |
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apply (simp add: oex_def le_iff) |
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apply (blast intro: lt_Ord2) |
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done |
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subsubsection {*Union over ordinals*}
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lemma Ord_OUN [intro,simp]: |
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"[| !!x. x<A ==> Ord(B(x)) |] ==> Ord(\<Union>x<A. B(x))" |
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by (simp add: OUnion_def ltI Ord_UN) |
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lemma OUN_upper_lt: |
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"[| a<A; i < b(a); Ord(\<Union>x<A. b(x)) |] ==> i < (\<Union>x<A. b(x))" |
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by (unfold OUnion_def lt_def, blast ) |
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lemma OUN_upper_le: |
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"[| a<A; i\<le>b(a); Ord(\<Union>x<A. b(x)) |] ==> i \<le> (\<Union>x<A. b(x))" |
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apply (unfold OUnion_def, auto) |
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apply (rule UN_upper_le ) |
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apply (auto simp add: lt_def) |
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done |
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lemma Limit_OUN_eq: "Limit(i) ==> (\<Union>x<i. x) = i" |
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by (simp add: OUnion_def Limit_Union_eq Limit_is_Ord) |
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(* No < version; consider (\<Union>i\<in>nat.i)=nat *) |
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lemma OUN_least: |
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"(!!x. x<A ==> B(x) \<subseteq> C) ==> (\<Union>x<A. B(x)) \<subseteq> C" |
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by (simp add: OUnion_def UN_least ltI) |
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(* No < version; consider (\<Union>i\<in>nat.i)=nat *) |
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lemma OUN_least_le: |
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"[| Ord(i); !!x. x<A ==> b(x) \<le> i |] ==> (\<Union>x<A. b(x)) \<le> i" |
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by (simp add: OUnion_def UN_least_le ltI Ord_0_le) |
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lemma le_implies_OUN_le_OUN: |
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"[| !!x. x<A ==> c(x) \<le> d(x) |] ==> (\<Union>x<A. c(x)) \<le> (\<Union>x<A. d(x))" |
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by (blast intro: OUN_least_le OUN_upper_le le_Ord2 Ord_OUN) |
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lemma OUN_UN_eq: |
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"(!!x. x:A ==> Ord(B(x))) |
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==> (\<Union>z < (\<Union>x\<in>A. B(x)). C(z)) = (\<Union>x\<in>A. \<Union>z < B(x). C(z))" |
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by (simp add: OUnion_def) |
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lemma OUN_Union_eq: |
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"(!!x. x:X ==> Ord(x)) |
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==> (\<Union>z < Union(X). C(z)) = (\<Union>x\<in>X. \<Union>z < x. C(z))" |
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by (simp add: OUnion_def) |
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(*So that rule_format will get rid of ALL x<A...*) |
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lemma atomize_oall [symmetric, rulify]: |
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"(!!x. x<A ==> P(x)) == Trueprop (ALL x<A. P(x))" |
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by (simp add: oall_def atomize_all atomize_imp) |
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subsubsection {*universal quantifier for ordinals*}
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lemma oallI [intro!]: |
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"[| !!x. x<A ==> P(x) |] ==> ALL x<A. P(x)" |
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by (simp add: oall_def) |
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lemma ospec: "[| ALL x<A. P(x); x<A |] ==> P(x)" |
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by (simp add: oall_def) |
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lemma oallE: |
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"[| ALL x<A. P(x); P(x) ==> Q; ~x<A ==> Q |] ==> Q" |
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by (simp add: oall_def, blast) |
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lemma rev_oallE [elim]: |
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"[| ALL x<A. P(x); ~x<A ==> Q; P(x) ==> Q |] ==> Q" |
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by (simp add: oall_def, blast) |
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(*Trival rewrite rule; (ALL x<a.P)<->P holds only if a is not 0!*) |
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lemma oall_simp [simp]: "(ALL x<a. True) <-> True" |
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by blast |
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(*Congruence rule for rewriting*) |
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lemma oall_cong [cong]: |
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"[| a=a'; !!x. x<a' ==> P(x) <-> P'(x) |] |
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==> oall(a, %x. P(x)) <-> oall(a', %x. P'(x))" |
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by (simp add: oall_def) |
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subsubsection {*existential quantifier for ordinals*}
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lemma oexI [intro]: |
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"[| P(x); x<A |] ==> EX x<A. P(x)" |
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apply (simp add: oex_def, blast) |
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done |
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(*Not of the general form for such rules; ~EX has become ALL~ *) |
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lemma oexCI: |
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"[| ALL x<A. ~P(x) ==> P(a); a<A |] ==> EX x<A. P(x)" |
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apply (simp add: oex_def, blast) |
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done |
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lemma oexE [elim!]: |
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"[| EX x<A. P(x); !!x. [| x<A; P(x) |] ==> Q |] ==> Q" |
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apply (simp add: oex_def, blast) |
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done |
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lemma oex_cong [cong]: |
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"[| a=a'; !!x. x<a' ==> P(x) <-> P'(x) |] |
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==> oex(a, %x. P(x)) <-> oex(a', %x. P'(x))" |
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apply (simp add: oex_def cong add: conj_cong) |
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done |
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subsubsection {*Rules for Ordinal-Indexed Unions*}
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lemma OUN_I [intro]: "[| a<i; b: B(a) |] ==> b: (\<Union>z<i. B(z))" |
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by (unfold OUnion_def lt_def, blast) |
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lemma OUN_E [elim!]: |
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"[| b : (\<Union>z<i. B(z)); !!a.[| b: B(a); a<i |] ==> R |] ==> R" |
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apply (unfold OUnion_def lt_def, blast) |
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done |
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lemma OUN_iff: "b : (\<Union>x<i. B(x)) <-> (EX x<i. b : B(x))" |
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by (unfold OUnion_def oex_def lt_def, blast) |
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lemma OUN_cong [cong]: |
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"[| i=j; !!x. x<j ==> C(x)=D(x) |] ==> (\<Union>x<i. C(x)) = (\<Union>x<j. D(x))" |
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by (simp add: OUnion_def lt_def OUN_iff) |
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lemma lt_induct: |
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"[| i<k; !!x.[| x<k; ALL y<x. P(y) |] ==> P(x) |] ==> P(i)" |
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apply (simp add: lt_def oall_def) |
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apply (erule conjE) |
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apply (erule Ord_induct, assumption, blast) |
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done |
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subsection {*Quantification over a class*}
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definition |
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"rall" :: "[i=>o, i=>o] => o" where |
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"rall(M, P) == ALL x. M(x) --> P(x)" |
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definition |
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"rex" :: "[i=>o, i=>o] => o" where |
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"rex(M, P) == EX x. M(x) & P(x)" |
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syntax |
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"_rall" :: "[pttrn, i=>o, o] => o" ("(3ALL _[_]./ _)" 10)
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"_rex" :: "[pttrn, i=>o, o] => o" ("(3EX _[_]./ _)" 10)
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syntax (xsymbols) |
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"_rall" :: "[pttrn, i=>o, o] => o" ("(3\<forall>_[_]./ _)" 10)
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"_rex" :: "[pttrn, i=>o, o] => o" ("(3\<exists>_[_]./ _)" 10)
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syntax (HTML output) |
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"_rall" :: "[pttrn, i=>o, o] => o" ("(3\<forall>_[_]./ _)" 10)
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"_rex" :: "[pttrn, i=>o, o] => o" ("(3\<exists>_[_]./ _)" 10)
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translations |
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"ALL x[M]. P" == "CONST rall(M, %x. P)" |
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"EX x[M]. P" == "CONST rex(M, %x. P)" |
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subsubsection{*Relativized universal quantifier*}
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lemma rallI [intro!]: "[| !!x. M(x) ==> P(x) |] ==> ALL x[M]. P(x)" |
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by (simp add: rall_def) |
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lemma rspec: "[| ALL x[M]. P(x); M(x) |] ==> P(x)" |
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by (simp add: rall_def) |
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(*Instantiates x first: better for automatic theorem proving?*) |
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lemma rev_rallE [elim]: |
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"[| ALL x[M]. P(x); ~ M(x) ==> Q; P(x) ==> Q |] ==> Q" |
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by (simp add: rall_def, blast) |
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lemma rallE: "[| ALL x[M]. P(x); P(x) ==> Q; ~ M(x) ==> Q |] ==> Q" |
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by blast |
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(*Trival rewrite rule; (ALL x[M].P)<->P holds only if A is nonempty!*) |
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lemma rall_triv [simp]: "(ALL x[M]. P) <-> ((EX x. M(x)) --> P)" |
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by (simp add: rall_def) |
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(*Congruence rule for rewriting*) |
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lemma rall_cong [cong]: |
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"(!!x. M(x) ==> P(x) <-> P'(x)) ==> (ALL x[M]. P(x)) <-> (ALL x[M]. P'(x))" |
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by (simp add: rall_def) |
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subsubsection{*Relativized existential quantifier*}
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lemma rexI [intro]: "[| P(x); M(x) |] ==> EX x[M]. P(x)" |
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by (simp add: rex_def, blast) |
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(*The best argument order when there is only one M(x)*) |
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lemma rev_rexI: "[| M(x); P(x) |] ==> EX x[M]. P(x)" |
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by blast |
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(*Not of the general form for such rules; ~EX has become ALL~ *) |
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lemma rexCI: "[| ALL x[M]. ~P(x) ==> P(a); M(a) |] ==> EX x[M]. P(x)" |
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by blast |
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lemma rexE [elim!]: "[| EX x[M]. P(x); !!x. [| M(x); P(x) |] ==> Q |] ==> Q" |
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by (simp add: rex_def, blast) |
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(*We do not even have (EX x[M]. True) <-> True unless A is nonempty!!*) |
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lemma rex_triv [simp]: "(EX x[M]. P) <-> ((EX x. M(x)) & P)" |
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by (simp add: rex_def) |
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lemma rex_cong [cong]: |
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"(!!x. M(x) ==> P(x) <-> P'(x)) ==> (EX x[M]. P(x)) <-> (EX x[M]. P'(x))" |
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by (simp add: rex_def cong: conj_cong) |
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lemma rall_is_ball [simp]: "(\<forall>x[%z. z\<in>A]. P(x)) <-> (\<forall>x\<in>A. P(x))" |
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by blast |
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lemma rex_is_bex [simp]: "(\<exists>x[%z. z\<in>A]. P(x)) <-> (\<exists>x\<in>A. P(x))" |
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by blast |
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lemma atomize_rall: "(!!x. M(x) ==> P(x)) == Trueprop (ALL x[M]. P(x))"; |
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by (simp add: rall_def atomize_all atomize_imp) |
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declare atomize_rall [symmetric, rulify] |
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lemma rall_simps1: |
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"(ALL x[M]. P(x) & Q) <-> (ALL x[M]. P(x)) & ((ALL x[M]. False) | Q)" |
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"(ALL x[M]. P(x) | Q) <-> ((ALL x[M]. P(x)) | Q)" |
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"(ALL x[M]. P(x) --> Q) <-> ((EX x[M]. P(x)) --> Q)" |
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"(~(ALL x[M]. P(x))) <-> (EX x[M]. ~P(x))" |
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by blast+ |
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lemma rall_simps2: |
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"(ALL x[M]. P & Q(x)) <-> ((ALL x[M]. False) | P) & (ALL x[M]. Q(x))" |
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"(ALL x[M]. P | Q(x)) <-> (P | (ALL x[M]. Q(x)))" |
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"(ALL x[M]. P --> Q(x)) <-> (P --> (ALL x[M]. Q(x)))" |
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by blast+ |
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lemmas rall_simps [simp] = rall_simps1 rall_simps2 |
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lemma rall_conj_distrib: |
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"(ALL x[M]. P(x) & Q(x)) <-> ((ALL x[M]. P(x)) & (ALL x[M]. Q(x)))" |
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by blast |
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lemma rex_simps1: |
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"(EX x[M]. P(x) & Q) <-> ((EX x[M]. P(x)) & Q)" |
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"(EX x[M]. P(x) | Q) <-> (EX x[M]. P(x)) | ((EX x[M]. True) & Q)" |
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"(EX x[M]. P(x) --> Q) <-> ((ALL x[M]. P(x)) --> ((EX x[M]. True) & Q))" |
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"(~(EX x[M]. P(x))) <-> (ALL x[M]. ~P(x))" |
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by blast+ |
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lemma rex_simps2: |
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"(EX x[M]. P & Q(x)) <-> (P & (EX x[M]. Q(x)))" |
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"(EX x[M]. P | Q(x)) <-> ((EX x[M]. True) & P) | (EX x[M]. Q(x))" |
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"(EX x[M]. P --> Q(x)) <-> (((ALL x[M]. False) | P) --> (EX x[M]. Q(x)))" |
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by blast+ |
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lemmas rex_simps [simp] = rex_simps1 rex_simps2 |
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lemma rex_disj_distrib: |
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"(EX x[M]. P(x) | Q(x)) <-> ((EX x[M]. P(x)) | (EX x[M]. Q(x)))" |
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by blast |
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subsubsection{*One-point rule for bounded quantifiers*}
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lemma rex_triv_one_point1 [simp]: "(EX x[M]. x=a) <-> ( M(a))" |
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by blast |
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lemma rex_triv_one_point2 [simp]: "(EX x[M]. a=x) <-> ( M(a))" |
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by blast |
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lemma rex_one_point1 [simp]: "(EX x[M]. x=a & P(x)) <-> ( M(a) & P(a))" |
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by blast |
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lemma rex_one_point2 [simp]: "(EX x[M]. a=x & P(x)) <-> ( M(a) & P(a))" |
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by blast |
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lemma rall_one_point1 [simp]: "(ALL x[M]. x=a --> P(x)) <-> ( M(a) --> P(a))" |
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by blast |
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lemma rall_one_point2 [simp]: "(ALL x[M]. a=x --> P(x)) <-> ( M(a) --> P(a))" |
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by blast |
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subsubsection{*Sets as Classes*}
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definition |
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setclass :: "[i,i] => o" ("##_" [40] 40) where
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"setclass(A) == %x. x : A" |
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lemma setclass_iff [simp]: "setclass(A,x) <-> x : A" |
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by (simp add: setclass_def) |
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lemma rall_setclass_is_ball [simp]: "(\<forall>x[##A]. P(x)) <-> (\<forall>x\<in>A. P(x))" |
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by auto |
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lemma rex_setclass_is_bex [simp]: "(\<exists>x[##A]. P(x)) <-> (\<exists>x\<in>A. P(x))" |
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by auto |
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ML |
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{*
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val Ord_atomize = |
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atomize ([("OrdQuant.oall", [@{thm ospec}]),("OrdQuant.rall", [@{thm rspec}])]@
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ZF_conn_pairs, |
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ZF_mem_pairs); |
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*} |
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declaration {* fn _ =>
|
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Simplifier.map_ss (fn ss => ss setmksimps (K (map mk_eq o Ord_atomize o gen_all))) |
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*} |
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text {* Setting up the one-point-rule simproc *}
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simproc_setup defined_rex ("EX x[M]. P(x) & Q(x)") = {*
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let |
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val unfold_rex_tac = unfold_tac @{thms rex_def};
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fun prove_rex_tac ss = unfold_rex_tac ss THEN Quantifier1.prove_one_point_ex_tac; |
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in fn _ => fn ss => Quantifier1.rearrange_bex (prove_rex_tac ss) ss end |
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*} |
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simproc_setup defined_rall ("ALL x[M]. P(x) --> Q(x)") = {*
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let |
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val unfold_rall_tac = unfold_tac @{thms rall_def};
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fun prove_rall_tac ss = unfold_rall_tac ss THEN Quantifier1.prove_one_point_all_tac; |
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in fn _ => fn ss => Quantifier1.rearrange_ball (prove_rall_tac ss) ss end |
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*} |
384 |
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end |