| author | wenzelm |
| Fri, 04 Jan 2019 23:22:53 +0100 | |
| changeset 69593 | 3dda49e08b9d |
| parent 61980 | 6b780867d426 |
| child 71085 | 950e1cfe0fe4 |
| permissions | -rw-r--r-- |
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(* Title: ZF/equalities.thy |
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Author: Lawrence C Paulson, Cambridge University Computer Laboratory |
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Copyright 1992 University of Cambridge |
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*) |
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section\<open>Basic Equalities and Inclusions\<close> |
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theory equalities imports pair begin |
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text\<open>These cover union, intersection, converse, domain, range, etc. Philippe |
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de Groote proved many of the inclusions.\<close> |
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lemma in_mono: "A\<subseteq>B ==> x\<in>A \<longrightarrow> x\<in>B" |
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by blast |
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lemma the_eq_0 [simp]: "(THE x. False) = 0" |
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by (blast intro: the_0) |
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subsection\<open>Bounded Quantifiers\<close> |
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text \<open>\medskip |
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The following are not added to the default simpset because |
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(a) they duplicate the body and (b) there are no similar rules for \<open>Int\<close>.\<close> |
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lemma ball_Un: "(\<forall>x \<in> A\<union>B. P(x)) \<longleftrightarrow> (\<forall>x \<in> A. P(x)) & (\<forall>x \<in> B. P(x))" |
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by blast |
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lemma bex_Un: "(\<exists>x \<in> A\<union>B. P(x)) \<longleftrightarrow> (\<exists>x \<in> A. P(x)) | (\<exists>x \<in> B. P(x))" |
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by blast |
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lemma ball_UN: "(\<forall>z \<in> (\<Union>x\<in>A. B(x)). P(z)) \<longleftrightarrow> (\<forall>x\<in>A. \<forall>z \<in> B(x). P(z))" |
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by blast |
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lemma bex_UN: "(\<exists>z \<in> (\<Union>x\<in>A. B(x)). P(z)) \<longleftrightarrow> (\<exists>x\<in>A. \<exists>z\<in>B(x). P(z))" |
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by blast |
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subsection\<open>Converse of a Relation\<close> |
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lemma converse_iff [simp]: "<a,b>\<in> converse(r) \<longleftrightarrow> <b,a>\<in>r" |
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by (unfold converse_def, blast) |
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lemma converseI [intro!]: "<a,b>\<in>r ==> <b,a>\<in>converse(r)" |
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by (unfold converse_def, blast) |
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lemma converseD: "<a,b> \<in> converse(r) ==> <b,a> \<in> r" |
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by (unfold converse_def, blast) |
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lemma converseE [elim!]: |
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"[| yx \<in> converse(r); |
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!!x y. [| yx=<y,x>; <x,y>\<in>r |] ==> P |] |
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==> P" |
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by (unfold converse_def, blast) |
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lemma converse_converse: "r\<subseteq>Sigma(A,B) ==> converse(converse(r)) = r" |
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by blast |
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lemma converse_type: "r\<subseteq>A*B ==> converse(r)\<subseteq>B*A" |
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by blast |
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lemma converse_prod [simp]: "converse(A*B) = B*A" |
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by blast |
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lemma converse_empty [simp]: "converse(0) = 0" |
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by blast |
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lemma converse_subset_iff: |
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"A \<subseteq> Sigma(X,Y) ==> converse(A) \<subseteq> converse(B) \<longleftrightarrow> A \<subseteq> B" |
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by blast |
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subsection\<open>Finite Set Constructions Using \<^term>\<open>cons\<close>\<close> |
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lemma cons_subsetI: "[| a\<in>C; B\<subseteq>C |] ==> cons(a,B) \<subseteq> C" |
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by blast |
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lemma subset_consI: "B \<subseteq> cons(a,B)" |
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by blast |
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lemma cons_subset_iff [iff]: "cons(a,B)\<subseteq>C \<longleftrightarrow> a\<in>C & B\<subseteq>C" |
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by blast |
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(*A safe special case of subset elimination, adding no new variables |
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[| cons(a,B) \<subseteq> C; [| a \<in> C; B \<subseteq> C |] ==> R |] ==> R *) |
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lemmas cons_subsetE = cons_subset_iff [THEN iffD1, THEN conjE] |
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lemma subset_empty_iff: "A\<subseteq>0 \<longleftrightarrow> A=0" |
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by blast |
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lemma subset_cons_iff: "C\<subseteq>cons(a,B) \<longleftrightarrow> C\<subseteq>B | (a\<in>C & C-{a} \<subseteq> B)"
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by blast |
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(* cons_def refers to Upair; reversing the equality LOOPS in rewriting!*) |
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lemma cons_eq: "{a} \<union> B = cons(a,B)"
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by blast |
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lemma cons_commute: "cons(a, cons(b, C)) = cons(b, cons(a, C))" |
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by blast |
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lemma cons_absorb: "a: B ==> cons(a,B) = B" |
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by blast |
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lemma cons_Diff: "a: B ==> cons(a, B-{a}) = B"
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by blast |
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lemma Diff_cons_eq: "cons(a,B) - C = (if a\<in>C then B-C else cons(a,B-C))" |
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by auto |
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lemma equal_singleton [rule_format]: "[| a: C; \<forall>y\<in>C. y=b |] ==> C = {b}"
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by blast |
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lemma [simp]: "cons(a,cons(a,B)) = cons(a,B)" |
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by blast |
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(** singletons **) |
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lemma singleton_subsetI: "a\<in>C ==> {a} \<subseteq> C"
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by blast |
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lemma singleton_subsetD: "{a} \<subseteq> C ==> a\<in>C"
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by blast |
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(** succ **) |
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lemma subset_succI: "i \<subseteq> succ(i)" |
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by blast |
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(*But if j is an ordinal or is transitive, then @{term"i\<in>j"} implies @{term"i\<subseteq>j"}!
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See @{text"Ord_succ_subsetI}*)
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lemma succ_subsetI: "[| i\<in>j; i\<subseteq>j |] ==> succ(i)\<subseteq>j" |
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by (unfold succ_def, blast) |
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lemma succ_subsetE: |
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"[| succ(i) \<subseteq> j; [| i\<in>j; i\<subseteq>j |] ==> P |] ==> P" |
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by (unfold succ_def, blast) |
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lemma succ_subset_iff: "succ(a) \<subseteq> B \<longleftrightarrow> (a \<subseteq> B & a \<in> B)" |
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by (unfold succ_def, blast) |
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subsection\<open>Binary Intersection\<close> |
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(** Intersection is the greatest lower bound of two sets **) |
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lemma Int_subset_iff: "C \<subseteq> A \<inter> B \<longleftrightarrow> C \<subseteq> A & C \<subseteq> B" |
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by blast |
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lemma Int_lower1: "A \<inter> B \<subseteq> A" |
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by blast |
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lemma Int_lower2: "A \<inter> B \<subseteq> B" |
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by blast |
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lemma Int_greatest: "[| C\<subseteq>A; C\<subseteq>B |] ==> C \<subseteq> A \<inter> B" |
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by blast |
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lemma Int_cons: "cons(a,B) \<inter> C \<subseteq> cons(a, B \<inter> C)" |
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by blast |
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lemma Int_absorb [simp]: "A \<inter> A = A" |
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by blast |
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lemma Int_left_absorb: "A \<inter> (A \<inter> B) = A \<inter> B" |
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by blast |
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lemma Int_commute: "A \<inter> B = B \<inter> A" |
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by blast |
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lemma Int_left_commute: "A \<inter> (B \<inter> C) = B \<inter> (A \<inter> C)" |
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by blast |
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lemma Int_assoc: "(A \<inter> B) \<inter> C = A \<inter> (B \<inter> C)" |
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by blast |
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(*Intersection is an AC-operator*) |
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lemmas Int_ac= Int_assoc Int_left_absorb Int_commute Int_left_commute |
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lemma Int_absorb1: "B \<subseteq> A ==> A \<inter> B = B" |
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by blast |
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lemma Int_absorb2: "A \<subseteq> B ==> A \<inter> B = A" |
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by blast |
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lemma Int_Un_distrib: "A \<inter> (B \<union> C) = (A \<inter> B) \<union> (A \<inter> C)" |
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by blast |
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lemma Int_Un_distrib2: "(B \<union> C) \<inter> A = (B \<inter> A) \<union> (C \<inter> A)" |
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by blast |
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lemma subset_Int_iff: "A\<subseteq>B \<longleftrightarrow> A \<inter> B = A" |
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by (blast elim!: equalityE) |
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lemma subset_Int_iff2: "A\<subseteq>B \<longleftrightarrow> B \<inter> A = A" |
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by (blast elim!: equalityE) |
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lemma Int_Diff_eq: "C\<subseteq>A ==> (A-B) \<inter> C = C-B" |
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by blast |
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lemma Int_cons_left: |
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"cons(a,A) \<inter> B = (if a \<in> B then cons(a, A \<inter> B) else A \<inter> B)" |
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by auto |
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lemma Int_cons_right: |
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"A \<inter> cons(a, B) = (if a \<in> A then cons(a, A \<inter> B) else A \<inter> B)" |
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by auto |
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lemma cons_Int_distrib: "cons(x, A \<inter> B) = cons(x, A) \<inter> cons(x, B)" |
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by auto |
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subsection\<open>Binary Union\<close> |
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(** Union is the least upper bound of two sets *) |
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lemma Un_subset_iff: "A \<union> B \<subseteq> C \<longleftrightarrow> A \<subseteq> C & B \<subseteq> C" |
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by blast |
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lemma Un_upper1: "A \<subseteq> A \<union> B" |
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by blast |
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lemma Un_upper2: "B \<subseteq> A \<union> B" |
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by blast |
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lemma Un_least: "[| A\<subseteq>C; B\<subseteq>C |] ==> A \<union> B \<subseteq> C" |
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by blast |
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lemma Un_cons: "cons(a,B) \<union> C = cons(a, B \<union> C)" |
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by blast |
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lemma Un_absorb [simp]: "A \<union> A = A" |
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by blast |
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lemma Un_left_absorb: "A \<union> (A \<union> B) = A \<union> B" |
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by blast |
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lemma Un_commute: "A \<union> B = B \<union> A" |
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by blast |
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lemma Un_left_commute: "A \<union> (B \<union> C) = B \<union> (A \<union> C)" |
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by blast |
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lemma Un_assoc: "(A \<union> B) \<union> C = A \<union> (B \<union> C)" |
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by blast |
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(*Union is an AC-operator*) |
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lemmas Un_ac = Un_assoc Un_left_absorb Un_commute Un_left_commute |
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lemma Un_absorb1: "A \<subseteq> B ==> A \<union> B = B" |
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by blast |
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lemma Un_absorb2: "B \<subseteq> A ==> A \<union> B = A" |
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by blast |
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lemma Un_Int_distrib: "(A \<inter> B) \<union> C = (A \<union> C) \<inter> (B \<union> C)" |
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by blast |
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lemma subset_Un_iff: "A\<subseteq>B \<longleftrightarrow> A \<union> B = B" |
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by (blast elim!: equalityE) |
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lemma subset_Un_iff2: "A\<subseteq>B \<longleftrightarrow> B \<union> A = B" |
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by (blast elim!: equalityE) |
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lemma Un_empty [iff]: "(A \<union> B = 0) \<longleftrightarrow> (A = 0 & B = 0)" |
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by blast |
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lemma Un_eq_Union: "A \<union> B = \<Union>({A, B})"
|
| 13165 | 266 |
by blast |
267 |
||
| 60770 | 268 |
subsection\<open>Set Difference\<close> |
| 13259 | 269 |
|
|
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270 |
lemma Diff_subset: "A-B \<subseteq> A" |
| 13259 | 271 |
by blast |
272 |
||
| 46820 | 273 |
lemma Diff_contains: "[| C\<subseteq>A; C \<inter> B = 0 |] ==> C \<subseteq> A-B" |
| 13259 | 274 |
by blast |
275 |
||
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|
276 |
lemma subset_Diff_cons_iff: "B \<subseteq> A - cons(c,C) \<longleftrightarrow> B\<subseteq>A-C & c \<notin> B" |
| 13259 | 277 |
by blast |
| 13165 | 278 |
|
279 |
lemma Diff_cancel: "A - A = 0" |
|
280 |
by blast |
|
281 |
||
| 46820 | 282 |
lemma Diff_triv: "A \<inter> B = 0 ==> A - B = A" |
| 13165 | 283 |
by blast |
284 |
||
285 |
lemma empty_Diff [simp]: "0 - A = 0" |
|
286 |
by blast |
|
287 |
||
288 |
lemma Diff_0 [simp]: "A - 0 = A" |
|
289 |
by blast |
|
290 |
||
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|
291 |
lemma Diff_eq_0_iff: "A - B = 0 \<longleftrightarrow> A \<subseteq> B" |
| 13165 | 292 |
by (blast elim: equalityE) |
293 |
||
294 |
(*NOT SUITABLE FOR REWRITING since {a} == cons(a,0)*)
|
|
295 |
lemma Diff_cons: "A - cons(a,B) = A - B - {a}"
|
|
296 |
by blast |
|
297 |
||
298 |
(*NOT SUITABLE FOR REWRITING since {a} == cons(a,0)*)
|
|
299 |
lemma Diff_cons2: "A - cons(a,B) = A - {a} - B"
|
|
300 |
by blast |
|
301 |
||
| 46820 | 302 |
lemma Diff_disjoint: "A \<inter> (B-A) = 0" |
| 13165 | 303 |
by blast |
304 |
||
| 46820 | 305 |
lemma Diff_partition: "A\<subseteq>B ==> A \<union> (B-A) = B" |
| 13165 | 306 |
by blast |
307 |
||
| 46820 | 308 |
lemma subset_Un_Diff: "A \<subseteq> B \<union> (A - B)" |
| 13165 | 309 |
by blast |
310 |
||
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|
311 |
lemma double_complement: "[| A\<subseteq>B; B\<subseteq>C |] ==> B-(C-A) = A" |
| 13165 | 312 |
by blast |
313 |
||
| 46820 | 314 |
lemma double_complement_Un: "(A \<union> B) - (B-A) = A" |
| 13165 | 315 |
by blast |
316 |
||
| 46820 | 317 |
lemma Un_Int_crazy: |
318 |
"(A \<inter> B) \<union> (B \<inter> C) \<union> (C \<inter> A) = (A \<union> B) \<inter> (B \<union> C) \<inter> (C \<union> A)" |
|
| 13165 | 319 |
apply blast |
320 |
done |
|
321 |
||
| 46820 | 322 |
lemma Diff_Un: "A - (B \<union> C) = (A-B) \<inter> (A-C)" |
| 13165 | 323 |
by blast |
324 |
||
| 46820 | 325 |
lemma Diff_Int: "A - (B \<inter> C) = (A-B) \<union> (A-C)" |
| 13165 | 326 |
by blast |
327 |
||
| 46820 | 328 |
lemma Un_Diff: "(A \<union> B) - C = (A - C) \<union> (B - C)" |
| 13165 | 329 |
by blast |
330 |
||
| 46820 | 331 |
lemma Int_Diff: "(A \<inter> B) - C = A \<inter> (B - C)" |
| 13165 | 332 |
by blast |
333 |
||
| 46820 | 334 |
lemma Diff_Int_distrib: "C \<inter> (A-B) = (C \<inter> A) - (C \<inter> B)" |
| 13165 | 335 |
by blast |
336 |
||
| 46820 | 337 |
lemma Diff_Int_distrib2: "(A-B) \<inter> C = (A \<inter> C) - (B \<inter> C)" |
| 13165 | 338 |
by blast |
339 |
||
340 |
(*Halmos, Naive Set Theory, page 16.*) |
|
|
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|
341 |
lemma Un_Int_assoc_iff: "(A \<inter> B) \<union> C = A \<inter> (B \<union> C) \<longleftrightarrow> C\<subseteq>A" |
| 13165 | 342 |
by (blast elim!: equalityE) |
343 |
||
344 |
||
| 60770 | 345 |
subsection\<open>Big Union and Intersection\<close> |
| 13259 | 346 |
|
347 |
(** Big Union is the least upper bound of a set **) |
|
348 |
||
|
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|
349 |
lemma Union_subset_iff: "\<Union>(A) \<subseteq> C \<longleftrightarrow> (\<forall>x\<in>A. x \<subseteq> C)" |
| 13259 | 350 |
by blast |
351 |
||
| 46820 | 352 |
lemma Union_upper: "B\<in>A ==> B \<subseteq> \<Union>(A)" |
| 13259 | 353 |
by blast |
354 |
||
| 46820 | 355 |
lemma Union_least: "[| !!x. x\<in>A ==> x\<subseteq>C |] ==> \<Union>(A) \<subseteq> C" |
| 13259 | 356 |
by blast |
| 13165 | 357 |
|
| 46820 | 358 |
lemma Union_cons [simp]: "\<Union>(cons(a,B)) = a \<union> \<Union>(B)" |
| 13165 | 359 |
by blast |
360 |
||
| 46820 | 361 |
lemma Union_Un_distrib: "\<Union>(A \<union> B) = \<Union>(A) \<union> \<Union>(B)" |
| 13165 | 362 |
by blast |
363 |
||
| 46820 | 364 |
lemma Union_Int_subset: "\<Union>(A \<inter> B) \<subseteq> \<Union>(A) \<inter> \<Union>(B)" |
| 13165 | 365 |
by blast |
366 |
||
|
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|
367 |
lemma Union_disjoint: "\<Union>(C) \<inter> A = 0 \<longleftrightarrow> (\<forall>B\<in>C. B \<inter> A = 0)" |
| 13165 | 368 |
by (blast elim!: equalityE) |
369 |
||
|
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|
370 |
lemma Union_empty_iff: "\<Union>(A) = 0 \<longleftrightarrow> (\<forall>B\<in>A. B=0)" |
| 13165 | 371 |
by blast |
372 |
||
| 46820 | 373 |
lemma Int_Union2: "\<Union>(B) \<inter> A = (\<Union>C\<in>B. C \<inter> A)" |
|
14084
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paulson
parents:
14077
diff
changeset
|
374 |
by blast |
|
ccb48f3239f7
Removal of UNITY/UNITYMisc, moving its theorems elsewhere.
paulson
parents:
14077
diff
changeset
|
375 |
|
| 13259 | 376 |
(** Big Intersection is the greatest lower bound of a nonempty set **) |
377 |
||
|
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|
378 |
lemma Inter_subset_iff: "A\<noteq>0 ==> C \<subseteq> \<Inter>(A) \<longleftrightarrow> (\<forall>x\<in>A. C \<subseteq> x)" |
| 13259 | 379 |
by blast |
380 |
||
| 46820 | 381 |
lemma Inter_lower: "B\<in>A ==> \<Inter>(A) \<subseteq> B" |
| 13259 | 382 |
by blast |
383 |
||
| 46820 | 384 |
lemma Inter_greatest: "[| A\<noteq>0; !!x. x\<in>A ==> C\<subseteq>x |] ==> C \<subseteq> \<Inter>(A)" |
| 13259 | 385 |
by blast |
386 |
||
387 |
(** Intersection of a family of sets **) |
|
388 |
||
|
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diff
changeset
|
389 |
lemma INT_lower: "x\<in>A ==> (\<Inter>x\<in>A. B(x)) \<subseteq> B(x)" |
| 13259 | 390 |
by blast |
391 |
||
|
14095
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paulson
parents:
14084
diff
changeset
|
392 |
lemma INT_greatest: "[| A\<noteq>0; !!x. x\<in>A ==> C\<subseteq>B(x) |] ==> C \<subseteq> (\<Inter>x\<in>A. B(x))" |
|
a1ba833d6b61
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paulson
parents:
14084
diff
changeset
|
393 |
by force |
| 13259 | 394 |
|
| 46820 | 395 |
lemma Inter_0 [simp]: "\<Inter>(0) = 0" |
| 13165 | 396 |
by (unfold Inter_def, blast) |
397 |
||
| 13259 | 398 |
lemma Inter_Un_subset: |
| 46820 | 399 |
"[| z\<in>A; z\<in>B |] ==> \<Inter>(A) \<union> \<Inter>(B) \<subseteq> \<Inter>(A \<inter> B)" |
| 13165 | 400 |
by blast |
401 |
||
402 |
(* A good challenge: Inter is ill-behaved on the empty set *) |
|
403 |
lemma Inter_Un_distrib: |
|
| 46820 | 404 |
"[| A\<noteq>0; B\<noteq>0 |] ==> \<Inter>(A \<union> B) = \<Inter>(A) \<inter> \<Inter>(B)" |
| 13165 | 405 |
by blast |
406 |
||
| 46820 | 407 |
lemma Union_singleton: "\<Union>({b}) = b"
|
| 13165 | 408 |
by blast |
409 |
||
| 46820 | 410 |
lemma Inter_singleton: "\<Inter>({b}) = b"
|
| 13165 | 411 |
by blast |
412 |
||
413 |
lemma Inter_cons [simp]: |
|
| 46820 | 414 |
"\<Inter>(cons(a,B)) = (if B=0 then a else a \<inter> \<Inter>(B))" |
| 13165 | 415 |
by force |
416 |
||
| 60770 | 417 |
subsection\<open>Unions and Intersections of Families\<close> |
| 13259 | 418 |
|
|
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|
419 |
lemma subset_UN_iff_eq: "A \<subseteq> (\<Union>i\<in>I. B(i)) \<longleftrightarrow> A = (\<Union>i\<in>I. A \<inter> B(i))" |
| 13259 | 420 |
by (blast elim!: equalityE) |
421 |
||
|
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paulson
parents:
46820
diff
changeset
|
422 |
lemma UN_subset_iff: "(\<Union>x\<in>A. B(x)) \<subseteq> C \<longleftrightarrow> (\<forall>x\<in>A. B(x) \<subseteq> C)" |
| 13259 | 423 |
by blast |
424 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
425 |
lemma UN_upper: "x\<in>A ==> B(x) \<subseteq> (\<Union>x\<in>A. B(x))" |
| 13259 | 426 |
by (erule RepFunI [THEN Union_upper]) |
427 |
||
|
14095
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Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
428 |
lemma UN_least: "[| !!x. x\<in>A ==> B(x)\<subseteq>C |] ==> (\<Union>x\<in>A. B(x)) \<subseteq> C" |
| 13259 | 429 |
by blast |
| 13165 | 430 |
|
| 46820 | 431 |
lemma Union_eq_UN: "\<Union>(A) = (\<Union>x\<in>A. x)" |
| 13165 | 432 |
by blast |
433 |
||
| 46820 | 434 |
lemma Inter_eq_INT: "\<Inter>(A) = (\<Inter>x\<in>A. x)" |
| 13165 | 435 |
by (unfold Inter_def, blast) |
436 |
||
|
13615
449a70d88b38
Numerous cosmetic changes, prompted by the new simplifier
paulson
parents:
13611
diff
changeset
|
437 |
lemma UN_0 [simp]: "(\<Union>i\<in>0. A(i)) = 0" |
| 13165 | 438 |
by blast |
439 |
||
|
13615
449a70d88b38
Numerous cosmetic changes, prompted by the new simplifier
paulson
parents:
13611
diff
changeset
|
440 |
lemma UN_singleton: "(\<Union>x\<in>A. {x}) = A"
|
| 13165 | 441 |
by blast |
442 |
||
| 46820 | 443 |
lemma UN_Un: "(\<Union>i\<in> A \<union> B. C(i)) = (\<Union>i\<in> A. C(i)) \<union> (\<Union>i\<in>B. C(i))" |
| 13165 | 444 |
by blast |
445 |
||
| 46820 | 446 |
lemma INT_Un: "(\<Inter>i\<in>I \<union> J. A(i)) = |
447 |
(if I=0 then \<Inter>j\<in>J. A(j) |
|
448 |
else if J=0 then \<Inter>i\<in>I. A(i) |
|
449 |
else ((\<Inter>i\<in>I. A(i)) \<inter> (\<Inter>j\<in>J. A(j))))" |
|
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
450 |
by (simp, blast intro!: equalityI) |
| 13165 | 451 |
|
|
13615
449a70d88b38
Numerous cosmetic changes, prompted by the new simplifier
paulson
parents:
13611
diff
changeset
|
452 |
lemma UN_UN_flatten: "(\<Union>x \<in> (\<Union>y\<in>A. B(y)). C(x)) = (\<Union>y\<in>A. \<Union>x\<in> B(y). C(x))" |
| 13165 | 453 |
by blast |
454 |
||
455 |
(*Halmos, Naive Set Theory, page 35.*) |
|
| 46820 | 456 |
lemma Int_UN_distrib: "B \<inter> (\<Union>i\<in>I. A(i)) = (\<Union>i\<in>I. B \<inter> A(i))" |
| 13165 | 457 |
by blast |
458 |
||
| 46820 | 459 |
lemma Un_INT_distrib: "I\<noteq>0 ==> B \<union> (\<Inter>i\<in>I. A(i)) = (\<Inter>i\<in>I. B \<union> A(i))" |
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
460 |
by auto |
| 13165 | 461 |
|
462 |
lemma Int_UN_distrib2: |
|
| 46820 | 463 |
"(\<Union>i\<in>I. A(i)) \<inter> (\<Union>j\<in>J. B(j)) = (\<Union>i\<in>I. \<Union>j\<in>J. A(i) \<inter> B(j))" |
| 13165 | 464 |
by blast |
465 |
||
| 46820 | 466 |
lemma Un_INT_distrib2: "[| I\<noteq>0; J\<noteq>0 |] ==> |
467 |
(\<Inter>i\<in>I. A(i)) \<union> (\<Inter>j\<in>J. B(j)) = (\<Inter>i\<in>I. \<Inter>j\<in>J. A(i) \<union> B(j))" |
|
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
468 |
by auto |
| 13165 | 469 |
|
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
470 |
lemma UN_constant [simp]: "(\<Union>y\<in>A. c) = (if A=0 then 0 else c)" |
|
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
471 |
by force |
| 13165 | 472 |
|
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
473 |
lemma INT_constant [simp]: "(\<Inter>y\<in>A. c) = (if A=0 then 0 else c)" |
|
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
474 |
by force |
| 13165 | 475 |
|
|
13615
449a70d88b38
Numerous cosmetic changes, prompted by the new simplifier
paulson
parents:
13611
diff
changeset
|
476 |
lemma UN_RepFun [simp]: "(\<Union>y\<in> RepFun(A,f). B(y)) = (\<Union>x\<in>A. B(f(x)))" |
| 13165 | 477 |
by blast |
478 |
||
|
13615
449a70d88b38
Numerous cosmetic changes, prompted by the new simplifier
paulson
parents:
13611
diff
changeset
|
479 |
lemma INT_RepFun [simp]: "(\<Inter>x\<in>RepFun(A,f). B(x)) = (\<Inter>a\<in>A. B(f(a)))" |
| 13165 | 480 |
by (auto simp add: Inter_def) |
481 |
||
482 |
lemma INT_Union_eq: |
|
| 46820 | 483 |
"0 \<notin> A ==> (\<Inter>x\<in> \<Union>(A). B(x)) = (\<Inter>y\<in>A. \<Inter>x\<in>y. B(x))" |
484 |
apply (subgoal_tac "\<forall>x\<in>A. x\<noteq>0") |
|
|
13615
449a70d88b38
Numerous cosmetic changes, prompted by the new simplifier
paulson
parents:
13611
diff
changeset
|
485 |
prefer 2 apply blast |
| 46820 | 486 |
apply (force simp add: Inter_def ball_conj_distrib) |
| 13165 | 487 |
done |
488 |
||
|
13615
449a70d88b38
Numerous cosmetic changes, prompted by the new simplifier
paulson
parents:
13611
diff
changeset
|
489 |
lemma INT_UN_eq: |
| 46820 | 490 |
"(\<forall>x\<in>A. B(x) \<noteq> 0) |
|
13615
449a70d88b38
Numerous cosmetic changes, prompted by the new simplifier
paulson
parents:
13611
diff
changeset
|
491 |
==> (\<Inter>z\<in> (\<Union>x\<in>A. B(x)). C(z)) = (\<Inter>x\<in>A. \<Inter>z\<in> B(x). C(z))" |
| 13165 | 492 |
apply (subst INT_Union_eq, blast) |
493 |
apply (simp add: Inter_def) |
|
494 |
done |
|
495 |
||
496 |
||
| 46820 | 497 |
(** Devlin, Fundamentals of Contemporary Set Theory, page 12, exercise 5: |
| 13165 | 498 |
Union of a family of unions **) |
499 |
||
500 |
lemma UN_Un_distrib: |
|
| 46820 | 501 |
"(\<Union>i\<in>I. A(i) \<union> B(i)) = (\<Union>i\<in>I. A(i)) \<union> (\<Union>i\<in>I. B(i))" |
| 13165 | 502 |
by blast |
503 |
||
504 |
lemma INT_Int_distrib: |
|
| 46820 | 505 |
"I\<noteq>0 ==> (\<Inter>i\<in>I. A(i) \<inter> B(i)) = (\<Inter>i\<in>I. A(i)) \<inter> (\<Inter>i\<in>I. B(i))" |
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
506 |
by (blast elim!: not_emptyE) |
| 13165 | 507 |
|
508 |
lemma UN_Int_subset: |
|
| 46820 | 509 |
"(\<Union>z\<in>I \<inter> J. A(z)) \<subseteq> (\<Union>z\<in>I. A(z)) \<inter> (\<Union>z\<in>J. A(z))" |
| 13165 | 510 |
by blast |
511 |
||
512 |
(** Devlin, page 12, exercise 5: Complements **) |
|
513 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
514 |
lemma Diff_UN: "I\<noteq>0 ==> B - (\<Union>i\<in>I. A(i)) = (\<Inter>i\<in>I. B - A(i))" |
|
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
515 |
by (blast elim!: not_emptyE) |
| 13165 | 516 |
|
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
517 |
lemma Diff_INT: "I\<noteq>0 ==> B - (\<Inter>i\<in>I. A(i)) = (\<Union>i\<in>I. B - A(i))" |
|
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
518 |
by (blast elim!: not_emptyE) |
|
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
519 |
|
| 13165 | 520 |
|
521 |
(** Unions and Intersections with General Sum **) |
|
522 |
||
523 |
(*Not suitable for rewriting: LOOPS!*) |
|
| 46820 | 524 |
lemma Sigma_cons1: "Sigma(cons(a,B), C) = ({a}*C(a)) \<union> Sigma(B,C)"
|
| 13165 | 525 |
by blast |
526 |
||
527 |
(*Not suitable for rewriting: LOOPS!*) |
|
| 46820 | 528 |
lemma Sigma_cons2: "A * cons(b,B) = A*{b} \<union> A*B"
|
| 13165 | 529 |
by blast |
530 |
||
| 46820 | 531 |
lemma Sigma_succ1: "Sigma(succ(A), B) = ({A}*B(A)) \<union> Sigma(A,B)"
|
| 13165 | 532 |
by blast |
533 |
||
| 46820 | 534 |
lemma Sigma_succ2: "A * succ(B) = A*{B} \<union> A*B"
|
| 13165 | 535 |
by blast |
536 |
||
537 |
lemma SUM_UN_distrib1: |
|
| 61980 | 538 |
"(\<Sum>x \<in> (\<Union>y\<in>A. C(y)). B(x)) = (\<Union>y\<in>A. \<Sum>x\<in>C(y). B(x))" |
| 13165 | 539 |
by blast |
540 |
||
541 |
lemma SUM_UN_distrib2: |
|
| 61980 | 542 |
"(\<Sum>i\<in>I. \<Union>j\<in>J. C(i,j)) = (\<Union>j\<in>J. \<Sum>i\<in>I. C(i,j))" |
| 13165 | 543 |
by blast |
544 |
||
545 |
lemma SUM_Un_distrib1: |
|
| 61980 | 546 |
"(\<Sum>i\<in>I \<union> J. C(i)) = (\<Sum>i\<in>I. C(i)) \<union> (\<Sum>j\<in>J. C(j))" |
| 13165 | 547 |
by blast |
548 |
||
549 |
lemma SUM_Un_distrib2: |
|
| 61980 | 550 |
"(\<Sum>i\<in>I. A(i) \<union> B(i)) = (\<Sum>i\<in>I. A(i)) \<union> (\<Sum>i\<in>I. B(i))" |
| 13165 | 551 |
by blast |
552 |
||
553 |
(*First-order version of the above, for rewriting*) |
|
| 46820 | 554 |
lemma prod_Un_distrib2: "I * (A \<union> B) = I*A \<union> I*B" |
| 13165 | 555 |
by (rule SUM_Un_distrib2) |
556 |
||
557 |
lemma SUM_Int_distrib1: |
|
| 61980 | 558 |
"(\<Sum>i\<in>I \<inter> J. C(i)) = (\<Sum>i\<in>I. C(i)) \<inter> (\<Sum>j\<in>J. C(j))" |
| 13165 | 559 |
by blast |
560 |
||
561 |
lemma SUM_Int_distrib2: |
|
| 61980 | 562 |
"(\<Sum>i\<in>I. A(i) \<inter> B(i)) = (\<Sum>i\<in>I. A(i)) \<inter> (\<Sum>i\<in>I. B(i))" |
| 13165 | 563 |
by blast |
564 |
||
565 |
(*First-order version of the above, for rewriting*) |
|
| 46820 | 566 |
lemma prod_Int_distrib2: "I * (A \<inter> B) = I*A \<inter> I*B" |
| 13165 | 567 |
by (rule SUM_Int_distrib2) |
568 |
||
569 |
(*Cf Aczel, Non-Well-Founded Sets, page 115*) |
|
| 61980 | 570 |
lemma SUM_eq_UN: "(\<Sum>i\<in>I. A(i)) = (\<Union>i\<in>I. {i} * A(i))"
|
| 13165 | 571 |
by blast |
572 |
||
| 13544 | 573 |
lemma times_subset_iff: |
|
46821
ff6b0c1087f2
Using mathematical notation for <-> and cardinal arithmetic
paulson
parents:
46820
diff
changeset
|
574 |
"(A'*B' \<subseteq> A*B) \<longleftrightarrow> (A' = 0 | B' = 0 | (A'\<subseteq>A) & (B'\<subseteq>B))" |
| 13544 | 575 |
by blast |
576 |
||
577 |
lemma Int_Sigma_eq: |
|
| 61980 | 578 |
"(\<Sum>x \<in> A'. B'(x)) \<inter> (\<Sum>x \<in> A. B(x)) = (\<Sum>x \<in> A' \<inter> A. B'(x) \<inter> B(x))" |
| 13544 | 579 |
by blast |
580 |
||
| 13165 | 581 |
(** Domain **) |
582 |
||
|
46821
ff6b0c1087f2
Using mathematical notation for <-> and cardinal arithmetic
paulson
parents:
46820
diff
changeset
|
583 |
lemma domain_iff: "a: domain(r) \<longleftrightarrow> (\<exists>y. <a,y>\<in> r)" |
| 13259 | 584 |
by (unfold domain_def, blast) |
585 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
586 |
lemma domainI [intro]: "<a,b>\<in> r ==> a: domain(r)" |
| 13259 | 587 |
by (unfold domain_def, blast) |
588 |
||
589 |
lemma domainE [elim!]: |
|
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
590 |
"[| a \<in> domain(r); !!y. <a,y>\<in> r ==> P |] ==> P" |
| 13259 | 591 |
by (unfold domain_def, blast) |
592 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
593 |
lemma domain_subset: "domain(Sigma(A,B)) \<subseteq> A" |
| 13259 | 594 |
by blast |
595 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
596 |
lemma domain_of_prod: "b\<in>B ==> domain(A*B) = A" |
| 13165 | 597 |
by blast |
598 |
||
599 |
lemma domain_0 [simp]: "domain(0) = 0" |
|
600 |
by blast |
|
601 |
||
602 |
lemma domain_cons [simp]: "domain(cons(<a,b>,r)) = cons(a, domain(r))" |
|
603 |
by blast |
|
604 |
||
| 46820 | 605 |
lemma domain_Un_eq [simp]: "domain(A \<union> B) = domain(A) \<union> domain(B)" |
| 13165 | 606 |
by blast |
607 |
||
| 46820 | 608 |
lemma domain_Int_subset: "domain(A \<inter> B) \<subseteq> domain(A) \<inter> domain(B)" |
| 13165 | 609 |
by blast |
610 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
611 |
lemma domain_Diff_subset: "domain(A) - domain(B) \<subseteq> domain(A - B)" |
| 13165 | 612 |
by blast |
613 |
||
|
13615
449a70d88b38
Numerous cosmetic changes, prompted by the new simplifier
paulson
parents:
13611
diff
changeset
|
614 |
lemma domain_UN: "domain(\<Union>x\<in>A. B(x)) = (\<Union>x\<in>A. domain(B(x)))" |
| 13165 | 615 |
by blast |
616 |
||
| 46820 | 617 |
lemma domain_Union: "domain(\<Union>(A)) = (\<Union>x\<in>A. domain(x))" |
| 13165 | 618 |
by blast |
619 |
||
620 |
||
621 |
(** Range **) |
|
622 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
623 |
lemma rangeI [intro]: "<a,b>\<in> r ==> b \<in> range(r)" |
| 13259 | 624 |
apply (unfold range_def) |
625 |
apply (erule converseI [THEN domainI]) |
|
626 |
done |
|
627 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
628 |
lemma rangeE [elim!]: "[| b \<in> range(r); !!x. <x,b>\<in> r ==> P |] ==> P" |
| 13259 | 629 |
by (unfold range_def, blast) |
630 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
631 |
lemma range_subset: "range(A*B) \<subseteq> B" |
| 13259 | 632 |
apply (unfold range_def) |
633 |
apply (subst converse_prod) |
|
634 |
apply (rule domain_subset) |
|
635 |
done |
|
636 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
637 |
lemma range_of_prod: "a\<in>A ==> range(A*B) = B" |
| 13165 | 638 |
by blast |
639 |
||
640 |
lemma range_0 [simp]: "range(0) = 0" |
|
641 |
by blast |
|
642 |
||
643 |
lemma range_cons [simp]: "range(cons(<a,b>,r)) = cons(b, range(r))" |
|
644 |
by blast |
|
645 |
||
| 46820 | 646 |
lemma range_Un_eq [simp]: "range(A \<union> B) = range(A) \<union> range(B)" |
| 13165 | 647 |
by blast |
648 |
||
| 46820 | 649 |
lemma range_Int_subset: "range(A \<inter> B) \<subseteq> range(A) \<inter> range(B)" |
| 13165 | 650 |
by blast |
651 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
652 |
lemma range_Diff_subset: "range(A) - range(B) \<subseteq> range(A - B)" |
| 13165 | 653 |
by blast |
654 |
||
| 13259 | 655 |
lemma domain_converse [simp]: "domain(converse(r)) = range(r)" |
656 |
by blast |
|
657 |
||
| 13165 | 658 |
lemma range_converse [simp]: "range(converse(r)) = domain(r)" |
659 |
by blast |
|
660 |
||
661 |
||
662 |
(** Field **) |
|
663 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
664 |
lemma fieldI1: "<a,b>\<in> r ==> a \<in> field(r)" |
| 13259 | 665 |
by (unfold field_def, blast) |
666 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
667 |
lemma fieldI2: "<a,b>\<in> r ==> b \<in> field(r)" |
| 13259 | 668 |
by (unfold field_def, blast) |
669 |
||
| 46820 | 670 |
lemma fieldCI [intro]: |
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
671 |
"(~ <c,a>\<in>r ==> <a,b>\<in> r) ==> a \<in> field(r)" |
| 13259 | 672 |
apply (unfold field_def, blast) |
673 |
done |
|
674 |
||
| 46820 | 675 |
lemma fieldE [elim!]: |
676 |
"[| a \<in> field(r); |
|
677 |
!!x. <a,x>\<in> r ==> P; |
|
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
678 |
!!x. <x,a>\<in> r ==> P |] ==> P" |
| 13259 | 679 |
by (unfold field_def, blast) |
680 |
||
| 46820 | 681 |
lemma field_subset: "field(A*B) \<subseteq> A \<union> B" |
| 13259 | 682 |
by blast |
683 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
684 |
lemma domain_subset_field: "domain(r) \<subseteq> field(r)" |
| 13259 | 685 |
apply (unfold field_def) |
686 |
apply (rule Un_upper1) |
|
687 |
done |
|
688 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
689 |
lemma range_subset_field: "range(r) \<subseteq> field(r)" |
| 13259 | 690 |
apply (unfold field_def) |
691 |
apply (rule Un_upper2) |
|
692 |
done |
|
693 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
694 |
lemma domain_times_range: "r \<subseteq> Sigma(A,B) ==> r \<subseteq> domain(r)*range(r)" |
| 13259 | 695 |
by blast |
696 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
697 |
lemma field_times_field: "r \<subseteq> Sigma(A,B) ==> r \<subseteq> field(r)*field(r)" |
| 13259 | 698 |
by blast |
699 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
700 |
lemma relation_field_times_field: "relation(r) ==> r \<subseteq> field(r)*field(r)" |
| 46820 | 701 |
by (simp add: relation_def, blast) |
| 13259 | 702 |
|
| 13165 | 703 |
lemma field_of_prod: "field(A*A) = A" |
704 |
by blast |
|
705 |
||
706 |
lemma field_0 [simp]: "field(0) = 0" |
|
707 |
by blast |
|
708 |
||
709 |
lemma field_cons [simp]: "field(cons(<a,b>,r)) = cons(a, cons(b, field(r)))" |
|
710 |
by blast |
|
711 |
||
| 46820 | 712 |
lemma field_Un_eq [simp]: "field(A \<union> B) = field(A) \<union> field(B)" |
| 13165 | 713 |
by blast |
714 |
||
| 46820 | 715 |
lemma field_Int_subset: "field(A \<inter> B) \<subseteq> field(A) \<inter> field(B)" |
| 13165 | 716 |
by blast |
717 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
718 |
lemma field_Diff_subset: "field(A) - field(B) \<subseteq> field(A - B)" |
| 13165 | 719 |
by blast |
720 |
||
721 |
lemma field_converse [simp]: "field(converse(r)) = field(r)" |
|
722 |
by blast |
|
723 |
||
| 13259 | 724 |
(** The Union of a set of relations is a relation -- Lemma for fun_Union **) |
| 46820 | 725 |
lemma rel_Union: "(\<forall>x\<in>S. \<exists>A B. x \<subseteq> A*B) ==> |
726 |
\<Union>(S) \<subseteq> domain(\<Union>(S)) * range(\<Union>(S))" |
|
| 13259 | 727 |
by blast |
| 13165 | 728 |
|
| 13259 | 729 |
(** The Union of 2 relations is a relation (Lemma for fun_Un) **) |
| 46820 | 730 |
lemma rel_Un: "[| r \<subseteq> A*B; s \<subseteq> C*D |] ==> (r \<union> s) \<subseteq> (A \<union> C) * (B \<union> D)" |
| 13259 | 731 |
by blast |
732 |
||
| 46820 | 733 |
lemma domain_Diff_eq: "[| <a,c> \<in> r; c\<noteq>b |] ==> domain(r-{<a,b>}) = domain(r)"
|
| 13259 | 734 |
by blast |
735 |
||
| 46820 | 736 |
lemma range_Diff_eq: "[| <c,b> \<in> r; c\<noteq>a |] ==> range(r-{<a,b>}) = range(r)"
|
| 13259 | 737 |
by blast |
738 |
||
739 |
||
| 60770 | 740 |
subsection\<open>Image of a Set under a Function or Relation\<close> |
| 13259 | 741 |
|
|
46821
ff6b0c1087f2
Using mathematical notation for <-> and cardinal arithmetic
paulson
parents:
46820
diff
changeset
|
742 |
lemma image_iff: "b \<in> r``A \<longleftrightarrow> (\<exists>x\<in>A. <x,b>\<in>r)" |
| 13259 | 743 |
by (unfold image_def, blast) |
744 |
||
|
46821
ff6b0c1087f2
Using mathematical notation for <-> and cardinal arithmetic
paulson
parents:
46820
diff
changeset
|
745 |
lemma image_singleton_iff: "b \<in> r``{a} \<longleftrightarrow> <a,b>\<in>r"
|
| 13259 | 746 |
by (rule image_iff [THEN iff_trans], blast) |
747 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
748 |
lemma imageI [intro]: "[| <a,b>\<in> r; a\<in>A |] ==> b \<in> r``A" |
| 13259 | 749 |
by (unfold image_def, blast) |
750 |
||
| 46820 | 751 |
lemma imageE [elim!]: |
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
752 |
"[| b: r``A; !!x.[| <x,b>\<in> r; x\<in>A |] ==> P |] ==> P" |
| 13259 | 753 |
by (unfold image_def, blast) |
754 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
755 |
lemma image_subset: "r \<subseteq> A*B ==> r``C \<subseteq> B" |
| 13259 | 756 |
by blast |
| 13165 | 757 |
|
758 |
lemma image_0 [simp]: "r``0 = 0" |
|
759 |
by blast |
|
760 |
||
| 46820 | 761 |
lemma image_Un [simp]: "r``(A \<union> B) = (r``A) \<union> (r``B)" |
| 13165 | 762 |
by blast |
763 |
||
| 14883 | 764 |
lemma image_UN: "r `` (\<Union>x\<in>A. B(x)) = (\<Union>x\<in>A. r `` B(x))" |
765 |
by blast |
|
766 |
||
767 |
lemma Collect_image_eq: |
|
768 |
"{z \<in> Sigma(A,B). P(z)} `` C = (\<Union>x \<in> A. {y \<in> B(x). x \<in> C & P(<x,y>)})"
|
|
769 |
by blast |
|
770 |
||
| 46820 | 771 |
lemma image_Int_subset: "r``(A \<inter> B) \<subseteq> (r``A) \<inter> (r``B)" |
| 13165 | 772 |
by blast |
773 |
||
| 46820 | 774 |
lemma image_Int_square_subset: "(r \<inter> A*A)``B \<subseteq> (r``B) \<inter> A" |
| 13165 | 775 |
by blast |
776 |
||
| 46820 | 777 |
lemma image_Int_square: "B\<subseteq>A ==> (r \<inter> A*A)``B = (r``B) \<inter> A" |
| 13165 | 778 |
by blast |
779 |
||
780 |
||
781 |
(*Image laws for special relations*) |
|
782 |
lemma image_0_left [simp]: "0``A = 0" |
|
783 |
by blast |
|
784 |
||
| 46820 | 785 |
lemma image_Un_left: "(r \<union> s)``A = (r``A) \<union> (s``A)" |
| 13165 | 786 |
by blast |
787 |
||
| 46820 | 788 |
lemma image_Int_subset_left: "(r \<inter> s)``A \<subseteq> (r``A) \<inter> (s``A)" |
| 13165 | 789 |
by blast |
790 |
||
791 |
||
| 60770 | 792 |
subsection\<open>Inverse Image of a Set under a Function or Relation\<close> |
| 13259 | 793 |
|
| 46820 | 794 |
lemma vimage_iff: |
|
46821
ff6b0c1087f2
Using mathematical notation for <-> and cardinal arithmetic
paulson
parents:
46820
diff
changeset
|
795 |
"a \<in> r-``B \<longleftrightarrow> (\<exists>y\<in>B. <a,y>\<in>r)" |
| 13259 | 796 |
by (unfold vimage_def image_def converse_def, blast) |
797 |
||
|
46821
ff6b0c1087f2
Using mathematical notation for <-> and cardinal arithmetic
paulson
parents:
46820
diff
changeset
|
798 |
lemma vimage_singleton_iff: "a \<in> r-``{b} \<longleftrightarrow> <a,b>\<in>r"
|
| 13259 | 799 |
by (rule vimage_iff [THEN iff_trans], blast) |
800 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
801 |
lemma vimageI [intro]: "[| <a,b>\<in> r; b\<in>B |] ==> a \<in> r-``B" |
| 13259 | 802 |
by (unfold vimage_def, blast) |
803 |
||
| 46820 | 804 |
lemma vimageE [elim!]: |
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
805 |
"[| a: r-``B; !!x.[| <a,x>\<in> r; x\<in>B |] ==> P |] ==> P" |
| 13259 | 806 |
apply (unfold vimage_def, blast) |
807 |
done |
|
808 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
809 |
lemma vimage_subset: "r \<subseteq> A*B ==> r-``C \<subseteq> A" |
| 13259 | 810 |
apply (unfold vimage_def) |
811 |
apply (erule converse_type [THEN image_subset]) |
|
812 |
done |
|
| 13165 | 813 |
|
814 |
lemma vimage_0 [simp]: "r-``0 = 0" |
|
815 |
by blast |
|
816 |
||
| 46820 | 817 |
lemma vimage_Un [simp]: "r-``(A \<union> B) = (r-``A) \<union> (r-``B)" |
| 13165 | 818 |
by blast |
819 |
||
| 46820 | 820 |
lemma vimage_Int_subset: "r-``(A \<inter> B) \<subseteq> (r-``A) \<inter> (r-``B)" |
| 13165 | 821 |
by blast |
822 |
||
823 |
(*NOT suitable for rewriting*) |
|
|
13615
449a70d88b38
Numerous cosmetic changes, prompted by the new simplifier
paulson
parents:
13611
diff
changeset
|
824 |
lemma vimage_eq_UN: "f -``B = (\<Union>y\<in>B. f-``{y})"
|
| 13165 | 825 |
by blast |
826 |
||
827 |
lemma function_vimage_Int: |
|
| 46820 | 828 |
"function(f) ==> f-``(A \<inter> B) = (f-``A) \<inter> (f-``B)" |
| 13165 | 829 |
by (unfold function_def, blast) |
830 |
||
831 |
lemma function_vimage_Diff: "function(f) ==> f-``(A-B) = (f-``A) - (f-``B)" |
|
832 |
by (unfold function_def, blast) |
|
833 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
834 |
lemma function_image_vimage: "function(f) ==> f `` (f-`` A) \<subseteq> A" |
| 13165 | 835 |
by (unfold function_def, blast) |
836 |
||
| 46820 | 837 |
lemma vimage_Int_square_subset: "(r \<inter> A*A)-``B \<subseteq> (r-``B) \<inter> A" |
| 13165 | 838 |
by blast |
839 |
||
| 46820 | 840 |
lemma vimage_Int_square: "B\<subseteq>A ==> (r \<inter> A*A)-``B = (r-``B) \<inter> A" |
| 13165 | 841 |
by blast |
842 |
||
843 |
||
844 |
||
845 |
(*Invese image laws for special relations*) |
|
846 |
lemma vimage_0_left [simp]: "0-``A = 0" |
|
847 |
by blast |
|
848 |
||
| 46820 | 849 |
lemma vimage_Un_left: "(r \<union> s)-``A = (r-``A) \<union> (s-``A)" |
| 13165 | 850 |
by blast |
851 |
||
| 46820 | 852 |
lemma vimage_Int_subset_left: "(r \<inter> s)-``A \<subseteq> (r-``A) \<inter> (s-``A)" |
| 13165 | 853 |
by blast |
854 |
||
855 |
||
856 |
(** Converse **) |
|
857 |
||
| 46820 | 858 |
lemma converse_Un [simp]: "converse(A \<union> B) = converse(A) \<union> converse(B)" |
| 13165 | 859 |
by blast |
860 |
||
| 46820 | 861 |
lemma converse_Int [simp]: "converse(A \<inter> B) = converse(A) \<inter> converse(B)" |
| 13165 | 862 |
by blast |
863 |
||
864 |
lemma converse_Diff [simp]: "converse(A - B) = converse(A) - converse(B)" |
|
865 |
by blast |
|
866 |
||
|
13615
449a70d88b38
Numerous cosmetic changes, prompted by the new simplifier
paulson
parents:
13611
diff
changeset
|
867 |
lemma converse_UN [simp]: "converse(\<Union>x\<in>A. B(x)) = (\<Union>x\<in>A. converse(B(x)))" |
| 13165 | 868 |
by blast |
869 |
||
870 |
(*Unfolding Inter avoids using excluded middle on A=0*) |
|
871 |
lemma converse_INT [simp]: |
|
|
13615
449a70d88b38
Numerous cosmetic changes, prompted by the new simplifier
paulson
parents:
13611
diff
changeset
|
872 |
"converse(\<Inter>x\<in>A. B(x)) = (\<Inter>x\<in>A. converse(B(x)))" |
| 13165 | 873 |
apply (unfold Inter_def, blast) |
874 |
done |
|
875 |
||
| 13356 | 876 |
|
| 60770 | 877 |
subsection\<open>Powerset Operator\<close> |
| 13165 | 878 |
|
879 |
lemma Pow_0 [simp]: "Pow(0) = {0}"
|
|
880 |
by blast |
|
881 |
||
| 46820 | 882 |
lemma Pow_insert: "Pow (cons(a,A)) = Pow(A) \<union> {cons(a,X) . X: Pow(A)}"
|
| 13165 | 883 |
apply (rule equalityI, safe) |
884 |
apply (erule swap) |
|
| 46820 | 885 |
apply (rule_tac a = "x-{a}" in RepFun_eqI, auto)
|
| 13165 | 886 |
done |
887 |
||
| 46820 | 888 |
lemma Un_Pow_subset: "Pow(A) \<union> Pow(B) \<subseteq> Pow(A \<union> B)" |
| 13165 | 889 |
by blast |
890 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
891 |
lemma UN_Pow_subset: "(\<Union>x\<in>A. Pow(B(x))) \<subseteq> Pow(\<Union>x\<in>A. B(x))" |
| 13165 | 892 |
by blast |
893 |
||
| 46820 | 894 |
lemma subset_Pow_Union: "A \<subseteq> Pow(\<Union>(A))" |
| 13165 | 895 |
by blast |
896 |
||
| 46820 | 897 |
lemma Union_Pow_eq [simp]: "\<Union>(Pow(A)) = A" |
| 13165 | 898 |
by blast |
899 |
||
|
46821
ff6b0c1087f2
Using mathematical notation for <-> and cardinal arithmetic
paulson
parents:
46820
diff
changeset
|
900 |
lemma Union_Pow_iff: "\<Union>(A) \<in> Pow(B) \<longleftrightarrow> A \<in> Pow(Pow(B))" |
| 14077 | 901 |
by blast |
902 |
||
| 46820 | 903 |
lemma Pow_Int_eq [simp]: "Pow(A \<inter> B) = Pow(A) \<inter> Pow(B)" |
| 13165 | 904 |
by blast |
905 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
906 |
lemma Pow_INT_eq: "A\<noteq>0 ==> Pow(\<Inter>x\<in>A. B(x)) = (\<Inter>x\<in>A. Pow(B(x)))" |
|
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
907 |
by (blast elim!: not_emptyE) |
| 13165 | 908 |
|
| 13356 | 909 |
|
| 60770 | 910 |
subsection\<open>RepFun\<close> |
| 13259 | 911 |
|
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
912 |
lemma RepFun_subset: "[| !!x. x\<in>A ==> f(x) \<in> B |] ==> {f(x). x\<in>A} \<subseteq> B"
|
| 13259 | 913 |
by blast |
| 13165 | 914 |
|
|
46821
ff6b0c1087f2
Using mathematical notation for <-> and cardinal arithmetic
paulson
parents:
46820
diff
changeset
|
915 |
lemma RepFun_eq_0_iff [simp]: "{f(x).x\<in>A}=0 \<longleftrightarrow> A=0"
|
| 13165 | 916 |
by blast |
917 |
||
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
918 |
lemma RepFun_constant [simp]: "{c. x\<in>A} = (if A=0 then 0 else {c})"
|
|
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
919 |
by force |
|
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
920 |
|
| 13165 | 921 |
|
| 60770 | 922 |
subsection\<open>Collect\<close> |
| 13259 | 923 |
|
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
924 |
lemma Collect_subset: "Collect(A,P) \<subseteq> A" |
| 13259 | 925 |
by blast |
| 2469 | 926 |
|
| 46820 | 927 |
lemma Collect_Un: "Collect(A \<union> B, P) = Collect(A,P) \<union> Collect(B,P)" |
| 13165 | 928 |
by blast |
929 |
||
| 46820 | 930 |
lemma Collect_Int: "Collect(A \<inter> B, P) = Collect(A,P) \<inter> Collect(B,P)" |
| 13165 | 931 |
by blast |
932 |
||
933 |
lemma Collect_Diff: "Collect(A - B, P) = Collect(A,P) - Collect(B,P)" |
|
934 |
by blast |
|
935 |
||
| 46820 | 936 |
lemma Collect_cons: "{x\<in>cons(a,B). P(x)} =
|
|
14095
a1ba833d6b61
Changed many Intersection rules from i:I to I~=0 to avoid introducing a new
paulson
parents:
14084
diff
changeset
|
937 |
(if P(a) then cons(a, {x\<in>B. P(x)}) else {x\<in>B. P(x)})"
|
| 13165 | 938 |
by (simp, blast) |
939 |
||
| 46820 | 940 |
lemma Int_Collect_self_eq: "A \<inter> Collect(A,P) = Collect(A,P)" |
| 13165 | 941 |
by blast |
942 |
||
943 |
lemma Collect_Collect_eq [simp]: |
|
944 |
"Collect(Collect(A,P), Q) = Collect(A, %x. P(x) & Q(x))" |
|
945 |
by blast |
|
946 |
||
947 |
lemma Collect_Int_Collect_eq: |
|
| 46820 | 948 |
"Collect(A,P) \<inter> Collect(A,Q) = Collect(A, %x. P(x) & Q(x))" |
| 13165 | 949 |
by blast |
950 |
||
|
13203
fac77a839aa2
Tidying up. Mainly moving proofs from Main.thy to other (Isar) theory files.
paulson
parents:
13178
diff
changeset
|
951 |
lemma Collect_Union_eq [simp]: |
|
fac77a839aa2
Tidying up. Mainly moving proofs from Main.thy to other (Isar) theory files.
paulson
parents:
13178
diff
changeset
|
952 |
"Collect(\<Union>x\<in>A. B(x), P) = (\<Union>x\<in>A. Collect(B(x), P))" |
|
fac77a839aa2
Tidying up. Mainly moving proofs from Main.thy to other (Isar) theory files.
paulson
parents:
13178
diff
changeset
|
953 |
by blast |
|
fac77a839aa2
Tidying up. Mainly moving proofs from Main.thy to other (Isar) theory files.
paulson
parents:
13178
diff
changeset
|
954 |
|
| 46820 | 955 |
lemma Collect_Int_left: "{x\<in>A. P(x)} \<inter> B = {x \<in> A \<inter> B. P(x)}"
|
|
14084
ccb48f3239f7
Removal of UNITY/UNITYMisc, moving its theorems elsewhere.
paulson
parents:
14077
diff
changeset
|
956 |
by blast |
|
ccb48f3239f7
Removal of UNITY/UNITYMisc, moving its theorems elsewhere.
paulson
parents:
14077
diff
changeset
|
957 |
|
| 46820 | 958 |
lemma Collect_Int_right: "A \<inter> {x\<in>B. P(x)} = {x \<in> A \<inter> B. P(x)}"
|
|
14084
ccb48f3239f7
Removal of UNITY/UNITYMisc, moving its theorems elsewhere.
paulson
parents:
14077
diff
changeset
|
959 |
by blast |
|
ccb48f3239f7
Removal of UNITY/UNITYMisc, moving its theorems elsewhere.
paulson
parents:
14077
diff
changeset
|
960 |
|
| 46820 | 961 |
lemma Collect_disj_eq: "{x\<in>A. P(x) | Q(x)} = Collect(A, P) \<union> Collect(A, Q)"
|
|
14084
ccb48f3239f7
Removal of UNITY/UNITYMisc, moving its theorems elsewhere.
paulson
parents:
14077
diff
changeset
|
962 |
by blast |
|
ccb48f3239f7
Removal of UNITY/UNITYMisc, moving its theorems elsewhere.
paulson
parents:
14077
diff
changeset
|
963 |
|
| 46820 | 964 |
lemma Collect_conj_eq: "{x\<in>A. P(x) & Q(x)} = Collect(A, P) \<inter> Collect(A, Q)"
|
|
14084
ccb48f3239f7
Removal of UNITY/UNITYMisc, moving its theorems elsewhere.
paulson
parents:
14077
diff
changeset
|
965 |
by blast |
|
ccb48f3239f7
Removal of UNITY/UNITYMisc, moving its theorems elsewhere.
paulson
parents:
14077
diff
changeset
|
966 |
|
| 46820 | 967 |
lemmas subset_SIs = subset_refl cons_subsetI subset_consI |
968 |
Union_least UN_least Un_least |
|
| 13259 | 969 |
Inter_greatest Int_greatest RepFun_subset |
970 |
Un_upper1 Un_upper2 Int_lower1 Int_lower2 |
|
971 |
||
| 60770 | 972 |
ML \<open> |
| 42793 | 973 |
val subset_cs = |
| 69593 | 974 |
claset_of (\<^context> |
| 24893 | 975 |
delrules [@{thm subsetI}, @{thm subsetCE}]
|
976 |
addSIs @{thms subset_SIs}
|
|
977 |
addIs [@{thm Union_upper}, @{thm Inter_lower}]
|
|
| 42793 | 978 |
addSEs [@{thm cons_subsetE}]);
|
| 13259 | 979 |
|
| 69593 | 980 |
val ZF_cs = claset_of (\<^context> delrules [@{thm equalityI}]);
|
| 60770 | 981 |
\<close> |
| 46820 | 982 |
|
| 13165 | 983 |
end |
984 |