| author | desharna |
| Sun, 09 Oct 2022 16:10:52 +0200 | |
| changeset 76253 | 08f555c6f3b5 |
| parent 75669 | 43f5dfb7fa35 |
| child 76254 | 7ae89ee919a7 |
| permissions | -rw-r--r-- |
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(* Title: HOL/Relation.thy |
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Author: Lawrence C Paulson, Cambridge University Computer Laboratory |
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Author: Stefan Berghofer, TU Muenchen |
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*) |
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section \<open>Relations -- as sets of pairs, and binary predicates\<close> |
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theory Relation |
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imports Finite_Set |
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begin |
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text \<open>A preliminary: classical rules for reasoning on predicates\<close> |
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declare predicate1I [Pure.intro!, intro!] |
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declare predicate1D [Pure.dest, dest] |
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declare predicate2I [Pure.intro!, intro!] |
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declare predicate2D [Pure.dest, dest] |
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declare bot1E [elim!] |
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declare bot2E [elim!] |
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declare top1I [intro!] |
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declare top2I [intro!] |
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declare inf1I [intro!] |
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declare inf2I [intro!] |
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declare inf1E [elim!] |
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declare inf2E [elim!] |
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declare sup1I1 [intro?] |
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declare sup2I1 [intro?] |
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declare sup1I2 [intro?] |
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declare sup2I2 [intro?] |
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declare sup1E [elim!] |
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declare sup2E [elim!] |
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declare sup1CI [intro!] |
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declare sup2CI [intro!] |
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declare Inf1_I [intro!] |
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declare INF1_I [intro!] |
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declare Inf2_I [intro!] |
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declare INF2_I [intro!] |
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declare Inf1_D [elim] |
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declare INF1_D [elim] |
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declare Inf2_D [elim] |
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declare INF2_D [elim] |
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declare Inf1_E [elim] |
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declare INF1_E [elim] |
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declare Inf2_E [elim] |
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declare INF2_E [elim] |
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declare Sup1_I [intro] |
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declare SUP1_I [intro] |
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declare Sup2_I [intro] |
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declare SUP2_I [intro] |
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declare Sup1_E [elim!] |
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declare SUP1_E [elim!] |
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declare Sup2_E [elim!] |
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declare SUP2_E [elim!] |
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subsection \<open>Fundamental\<close> |
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subsubsection \<open>Relations as sets of pairs\<close> |
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type_synonym 'a rel = "('a \<times> 'a) set"
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lemma subrelI: "(\<And>x y. (x, y) \<in> r \<Longrightarrow> (x, y) \<in> s) \<Longrightarrow> r \<subseteq> s" |
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\<comment> \<open>Version of @{thm [source] subsetI} for binary relations\<close>
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by auto |
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lemma lfp_induct2: |
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"(a, b) \<in> lfp f \<Longrightarrow> mono f \<Longrightarrow> |
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(\<And>a b. (a, b) \<in> f (lfp f \<inter> {(x, y). P x y}) \<Longrightarrow> P a b) \<Longrightarrow> P a b"
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\<comment> \<open>Version of @{thm [source] lfp_induct} for binary relations\<close>
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using lfp_induct_set [of "(a, b)" f "case_prod P"] by auto |
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subsubsection \<open>Conversions between set and predicate relations\<close> |
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lemma pred_equals_eq [pred_set_conv]: "(\<lambda>x. x \<in> R) = (\<lambda>x. x \<in> S) \<longleftrightarrow> R = S" |
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by (simp add: set_eq_iff fun_eq_iff) |
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lemma pred_equals_eq2 [pred_set_conv]: "(\<lambda>x y. (x, y) \<in> R) = (\<lambda>x y. (x, y) \<in> S) \<longleftrightarrow> R = S" |
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by (simp add: set_eq_iff fun_eq_iff) |
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lemma pred_subset_eq [pred_set_conv]: "(\<lambda>x. x \<in> R) \<le> (\<lambda>x. x \<in> S) \<longleftrightarrow> R \<subseteq> S" |
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by (simp add: subset_iff le_fun_def) |
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lemma pred_subset_eq2 [pred_set_conv]: "(\<lambda>x y. (x, y) \<in> R) \<le> (\<lambda>x y. (x, y) \<in> S) \<longleftrightarrow> R \<subseteq> S" |
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by (simp add: subset_iff le_fun_def) |
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lemma bot_empty_eq [pred_set_conv]: "\<bottom> = (\<lambda>x. x \<in> {})"
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by (auto simp add: fun_eq_iff) |
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lemma bot_empty_eq2 [pred_set_conv]: "\<bottom> = (\<lambda>x y. (x, y) \<in> {})"
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by (auto simp add: fun_eq_iff) |
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lemma top_empty_eq [pred_set_conv]: "\<top> = (\<lambda>x. x \<in> UNIV)" |
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by (auto simp add: fun_eq_iff) |
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lemma top_empty_eq2 [pred_set_conv]: "\<top> = (\<lambda>x y. (x, y) \<in> UNIV)" |
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by (auto simp add: fun_eq_iff) |
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lemma inf_Int_eq [pred_set_conv]: "(\<lambda>x. x \<in> R) \<sqinter> (\<lambda>x. x \<in> S) = (\<lambda>x. x \<in> R \<inter> S)" |
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by (simp add: inf_fun_def) |
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lemma inf_Int_eq2 [pred_set_conv]: "(\<lambda>x y. (x, y) \<in> R) \<sqinter> (\<lambda>x y. (x, y) \<in> S) = (\<lambda>x y. (x, y) \<in> R \<inter> S)" |
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by (simp add: inf_fun_def) |
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lemma sup_Un_eq [pred_set_conv]: "(\<lambda>x. x \<in> R) \<squnion> (\<lambda>x. x \<in> S) = (\<lambda>x. x \<in> R \<union> S)" |
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by (simp add: sup_fun_def) |
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lemma sup_Un_eq2 [pred_set_conv]: "(\<lambda>x y. (x, y) \<in> R) \<squnion> (\<lambda>x y. (x, y) \<in> S) = (\<lambda>x y. (x, y) \<in> R \<union> S)" |
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by (simp add: sup_fun_def) |
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lemma INF_INT_eq [pred_set_conv]: "(\<Sqinter>i\<in>S. (\<lambda>x. x \<in> r i)) = (\<lambda>x. x \<in> (\<Inter>i\<in>S. r i))" |
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by (simp add: fun_eq_iff) |
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lemma INF_INT_eq2 [pred_set_conv]: "(\<Sqinter>i\<in>S. (\<lambda>x y. (x, y) \<in> r i)) = (\<lambda>x y. (x, y) \<in> (\<Inter>i\<in>S. r i))" |
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by (simp add: fun_eq_iff) |
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lemma SUP_UN_eq [pred_set_conv]: "(\<Squnion>i\<in>S. (\<lambda>x. x \<in> r i)) = (\<lambda>x. x \<in> (\<Union>i\<in>S. r i))" |
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by (simp add: fun_eq_iff) |
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lemma SUP_UN_eq2 [pred_set_conv]: "(\<Squnion>i\<in>S. (\<lambda>x y. (x, y) \<in> r i)) = (\<lambda>x y. (x, y) \<in> (\<Union>i\<in>S. r i))" |
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by (simp add: fun_eq_iff) |
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lemma Inf_INT_eq [pred_set_conv]: "\<Sqinter>S = (\<lambda>x. x \<in> (\<Inter>(Collect ` S)))" |
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by (simp add: fun_eq_iff) |
| 46833 | 125 |
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lemma INF_Int_eq [pred_set_conv]: "(\<Sqinter>i\<in>S. (\<lambda>x. x \<in> i)) = (\<lambda>x. x \<in> \<Inter>S)" |
|
| 46884 | 127 |
by (simp add: fun_eq_iff) |
| 46833 | 128 |
|
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lemma Inf_INT_eq2 [pred_set_conv]: "\<Sqinter>S = (\<lambda>x y. (x, y) \<in> (\<Inter>(Collect ` case_prod ` S)))" |
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by (simp add: fun_eq_iff) |
| 46833 | 131 |
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lemma INF_Int_eq2 [pred_set_conv]: "(\<Sqinter>i\<in>S. (\<lambda>x y. (x, y) \<in> i)) = (\<lambda>x y. (x, y) \<in> \<Inter>S)" |
|
| 46884 | 133 |
by (simp add: fun_eq_iff) |
| 46833 | 134 |
|
| 69275 | 135 |
lemma Sup_SUP_eq [pred_set_conv]: "\<Squnion>S = (\<lambda>x. x \<in> \<Union>(Collect ` S))" |
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by (simp add: fun_eq_iff) |
| 46833 | 137 |
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lemma SUP_Sup_eq [pred_set_conv]: "(\<Squnion>i\<in>S. (\<lambda>x. x \<in> i)) = (\<lambda>x. x \<in> \<Union>S)" |
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| 46884 | 139 |
by (simp add: fun_eq_iff) |
| 46833 | 140 |
|
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lemma Sup_SUP_eq2 [pred_set_conv]: "\<Squnion>S = (\<lambda>x y. (x, y) \<in> (\<Union>(Collect ` case_prod ` S)))" |
| 46884 | 142 |
by (simp add: fun_eq_iff) |
| 46833 | 143 |
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lemma SUP_Sup_eq2 [pred_set_conv]: "(\<Squnion>i\<in>S. (\<lambda>x y. (x, y) \<in> i)) = (\<lambda>x y. (x, y) \<in> \<Union>S)" |
|
| 46884 | 145 |
by (simp add: fun_eq_iff) |
| 46833 | 146 |
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subsection \<open>Properties of relations\<close> |
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subsubsection \<open>Reflexivity\<close> |
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definition refl_on :: "'a set \<Rightarrow> 'a rel \<Rightarrow> bool" |
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where "refl_on A r \<longleftrightarrow> r \<subseteq> A \<times> A \<and> (\<forall>x\<in>A. (x, x) \<in> r)" |
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abbreviation refl :: "'a rel \<Rightarrow> bool" \<comment> \<open>reflexivity over a type\<close> |
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where "refl \<equiv> refl_on UNIV" |
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definition reflp_on :: "'a set \<Rightarrow> ('a \<Rightarrow> 'a \<Rightarrow> bool) \<Rightarrow> bool"
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where "reflp_on A R \<longleftrightarrow> (\<forall>x\<in>A. R x x)" |
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abbreviation reflp :: "('a \<Rightarrow> 'a \<Rightarrow> bool) \<Rightarrow> bool"
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where "reflp \<equiv> reflp_on UNIV" |
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|
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lemma reflp_def[no_atp]: "reflp R \<longleftrightarrow> (\<forall>x. R x x)" |
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by (simp add: reflp_on_def) |
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text \<open>@{thm [source] reflp_def} is for backward compatibility.\<close>
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| 46694 | 168 |
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lemma reflp_refl_eq [pred_set_conv]: "reflp (\<lambda>x y. (x, y) \<in> r) \<longleftrightarrow> refl r" |
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by (simp add: refl_on_def reflp_def) |
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lemma refl_onI [intro?]: "r \<subseteq> A \<times> A \<Longrightarrow> (\<And>x. x \<in> A \<Longrightarrow> (x, x) \<in> r) \<Longrightarrow> refl_on A r" |
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unfolding refl_on_def by (iprover intro!: ballI) |
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lemma reflp_onI: |
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"(\<And>x y. x \<in> A \<Longrightarrow> R x x) \<Longrightarrow> reflp_on A R" |
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by (simp add: reflp_on_def) |
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lemma reflpI[intro?]: "(\<And>x. R x x) \<Longrightarrow> reflp R" |
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by (rule reflp_onI) |
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|
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lemma refl_onD: "refl_on A r \<Longrightarrow> a \<in> A \<Longrightarrow> (a, a) \<in> r" |
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unfolding refl_on_def by blast |
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lemma refl_onD1: "refl_on A r \<Longrightarrow> (x, y) \<in> r \<Longrightarrow> x \<in> A" |
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unfolding refl_on_def by blast |
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lemma refl_onD2: "refl_on A r \<Longrightarrow> (x, y) \<in> r \<Longrightarrow> y \<in> A" |
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unfolding refl_on_def by blast |
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lemma reflp_onD: |
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"reflp_on A R \<Longrightarrow> x \<in> A \<Longrightarrow> R x x" |
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by (simp add: reflp_on_def) |
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lemma reflpD[dest?]: "reflp R \<Longrightarrow> R x x" |
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by (simp add: reflp_onD) |
| 46694 | 197 |
|
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lemma reflpE: |
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assumes "reflp r" |
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obtains "r x x" |
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using assms by (auto dest: refl_onD simp add: reflp_def) |
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||
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lemma reflp_on_subset: "reflp_on A R \<Longrightarrow> B \<subseteq> A \<Longrightarrow> reflp_on B R" |
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by (auto intro: reflp_onI dest: reflp_onD) |
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205 |
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lemma refl_on_Int: "refl_on A r \<Longrightarrow> refl_on B s \<Longrightarrow> refl_on (A \<inter> B) (r \<inter> s)" |
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unfolding refl_on_def by blast |
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lemma reflp_on_inf: "reflp_on A R \<Longrightarrow> reflp_on B S \<Longrightarrow> reflp_on (A \<inter> B) (R \<sqinter> S)" |
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by (auto intro: reflp_onI dest: reflp_onD) |
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lemma reflp_inf: "reflp r \<Longrightarrow> reflp s \<Longrightarrow> reflp (r \<sqinter> s)" |
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by (rule reflp_on_inf[of UNIV _ UNIV, unfolded Int_absorb]) |
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lemma refl_on_Un: "refl_on A r \<Longrightarrow> refl_on B s \<Longrightarrow> refl_on (A \<union> B) (r \<union> s)" |
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unfolding refl_on_def by blast |
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lemma reflp_on_sup: "reflp_on A R \<Longrightarrow> reflp_on B S \<Longrightarrow> reflp_on (A \<union> B) (R \<squnion> S)" |
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by (auto intro: reflp_onI dest: reflp_onD) |
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lemma reflp_sup: "reflp r \<Longrightarrow> reflp s \<Longrightarrow> reflp (r \<squnion> s)" |
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by (rule reflp_on_sup[of UNIV _ UNIV, unfolded Un_absorb]) |
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lemma refl_on_INTER: "\<forall>x\<in>S. refl_on (A x) (r x) \<Longrightarrow> refl_on (\<Inter>(A ` S)) (\<Inter>(r ` S))" |
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lemma reflp_on_Inf: "\<forall>x\<in>S. reflp_on (A x) (R x) \<Longrightarrow> reflp_on (\<Inter>(A ` S)) (\<Sqinter>(R ` S))" |
228 |
by (auto intro: reflp_onI dest: reflp_onD) |
|
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||
| 69275 | 230 |
lemma refl_on_UNION: "\<forall>x\<in>S. refl_on (A x) (r x) \<Longrightarrow> refl_on (\<Union>(A ` S)) (\<Union>(r ` S))" |
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lemma reflp_on_Sup: "\<forall>x\<in>S. reflp_on (A x) (R x) \<Longrightarrow> reflp_on (\<Union>(A ` S)) (\<Squnion>(R ` S))" |
234 |
by (auto intro: reflp_onI dest: reflp_onD) |
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||
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lemma refl_on_empty [simp]: "refl_on {} {}"
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by (simp add: refl_on_def) |
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238 |
|
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lemma reflp_on_empty [simp]: "reflp_on {} R"
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by (auto intro: reflp_onI) |
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lemma refl_on_singleton [simp]: "refl_on {x} {(x, x)}"
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by (blast intro: refl_onI) |
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lemma refl_on_def' [nitpick_unfold, code]: |
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"refl_on A r \<longleftrightarrow> (\<forall>(x, y) \<in> r. x \<in> A \<and> y \<in> A) \<and> (\<forall>x \<in> A. (x, x) \<in> r)" |
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by (auto intro: refl_onI dest: refl_onD refl_onD1 refl_onD2) |
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|
| 67399 | 249 |
lemma reflp_equality [simp]: "reflp (=)" |
| 63404 | 250 |
by (simp add: reflp_def) |
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|
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lemma reflp_on_mono: |
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"reflp_on A R \<Longrightarrow> (\<And>x y. x \<in> A \<Longrightarrow> y \<in> A \<Longrightarrow> R x y \<Longrightarrow> Q x y) \<Longrightarrow> reflp_on A Q" |
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by (auto intro: reflp_onI dest: reflp_onD) |
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255 |
|
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lemma reflp_mono: "reflp R \<Longrightarrow> (\<And>x y. R x y \<Longrightarrow> Q x y) \<Longrightarrow> reflp Q" |
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by (rule reflp_on_mono[of UNIV R Q]) simp_all |
| 61630 | 258 |
|
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|
| 60758 | 260 |
subsubsection \<open>Irreflexivity\<close> |
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261 |
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definition irrefl :: "'a rel \<Rightarrow> bool" |
| 63404 | 263 |
where "irrefl r \<longleftrightarrow> (\<forall>a. (a, a) \<notin> r)" |
| 56545 | 264 |
|
265 |
definition irreflp :: "('a \<Rightarrow> 'a \<Rightarrow> bool) \<Rightarrow> bool"
|
|
| 63404 | 266 |
where "irreflp R \<longleftrightarrow> (\<forall>a. \<not> R a a)" |
| 56545 | 267 |
|
| 63404 | 268 |
lemma irreflp_irrefl_eq [pred_set_conv]: "irreflp (\<lambda>a b. (a, b) \<in> R) \<longleftrightarrow> irrefl R" |
| 56545 | 269 |
by (simp add: irrefl_def irreflp_def) |
270 |
||
| 63404 | 271 |
lemma irreflI [intro?]: "(\<And>a. (a, a) \<notin> R) \<Longrightarrow> irrefl R" |
| 56545 | 272 |
by (simp add: irrefl_def) |
273 |
||
| 63404 | 274 |
lemma irreflpI [intro?]: "(\<And>a. \<not> R a a) \<Longrightarrow> irreflp R" |
| 56545 | 275 |
by (fact irreflI [to_pred]) |
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276 |
|
| 63404 | 277 |
lemma irrefl_distinct [code]: "irrefl r \<longleftrightarrow> (\<forall>(a, b) \<in> r. a \<noteq> b)" |
| 46694 | 278 |
by (auto simp add: irrefl_def) |
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279 |
|
|
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lemma (in preorder) irreflp_less[simp]: "irreflp (<)" |
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|
281 |
by (simp add: irreflpI) |
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|
282 |
|
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|
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lemma (in preorder) irreflp_greater[simp]: "irreflp (>)" |
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|
284 |
by (simp add: irreflpI) |
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|
285 |
|
| 60758 | 286 |
subsubsection \<open>Asymmetry\<close> |
| 56545 | 287 |
|
288 |
inductive asym :: "'a rel \<Rightarrow> bool" |
|
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289 |
where asymI: "(\<And>a b. (a, b) \<in> R \<Longrightarrow> (b, a) \<notin> R) \<Longrightarrow> asym R" |
| 56545 | 290 |
|
291 |
inductive asymp :: "('a \<Rightarrow> 'a \<Rightarrow> bool) \<Rightarrow> bool"
|
|
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292 |
where asympI: "(\<And>a b. R a b \<Longrightarrow> \<not> R b a) \<Longrightarrow> asymp R" |
| 56545 | 293 |
|
| 63404 | 294 |
lemma asymp_asym_eq [pred_set_conv]: "asymp (\<lambda>a b. (a, b) \<in> R) \<longleftrightarrow> asym R" |
| 56545 | 295 |
by (auto intro!: asymI asympI elim: asym.cases asymp.cases simp add: irreflp_irrefl_eq) |
296 |
||
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lemma asymD: "\<lbrakk>asym R; (x,y) \<in> R\<rbrakk> \<Longrightarrow> (y,x) \<notin> R" |
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298 |
by (simp add: asym.simps) |
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299 |
|
| 74975 | 300 |
lemma asympD: "asymp R \<Longrightarrow> R x y \<Longrightarrow> \<not> R y x" |
301 |
by (rule asymD[to_pred]) |
|
302 |
||
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lemma asym_iff: "asym R \<longleftrightarrow> (\<forall>x y. (x,y) \<in> R \<longrightarrow> (y,x) \<notin> R)" |
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|
304 |
by (blast intro: asymI dest: asymD) |
| 56545 | 305 |
|
| 74975 | 306 |
lemma (in preorder) asymp_less[simp]: "asymp (<)" |
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|
307 |
by (auto intro: asympI dual_order.asym) |
|
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|
308 |
|
| 74975 | 309 |
lemma (in preorder) asymp_greater[simp]: "asymp (>)" |
|
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|
310 |
by (auto intro: asympI dual_order.asym) |
|
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|
311 |
|
|
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|
312 |
|
| 60758 | 313 |
subsubsection \<open>Symmetry\<close> |
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314 |
|
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315 |
definition sym :: "'a rel \<Rightarrow> bool" |
| 63404 | 316 |
where "sym r \<longleftrightarrow> (\<forall>x y. (x, y) \<in> r \<longrightarrow> (y, x) \<in> r)" |
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|
317 |
|
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|
318 |
definition symp :: "('a \<Rightarrow> 'a \<Rightarrow> bool) \<Rightarrow> bool"
|
| 63404 | 319 |
where "symp r \<longleftrightarrow> (\<forall>x y. r x y \<longrightarrow> r y x)" |
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|
320 |
|
| 63404 | 321 |
lemma symp_sym_eq [pred_set_conv]: "symp (\<lambda>x y. (x, y) \<in> r) \<longleftrightarrow> sym r" |
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322 |
by (simp add: sym_def symp_def) |
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|
323 |
|
| 63404 | 324 |
lemma symI [intro?]: "(\<And>a b. (a, b) \<in> r \<Longrightarrow> (b, a) \<in> r) \<Longrightarrow> sym r" |
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|
325 |
by (unfold sym_def) iprover |
| 46694 | 326 |
|
| 63404 | 327 |
lemma sympI [intro?]: "(\<And>a b. r a b \<Longrightarrow> r b a) \<Longrightarrow> symp r" |
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328 |
by (fact symI [to_pred]) |
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changeset
|
329 |
|
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|
330 |
lemma symE: |
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331 |
assumes "sym r" and "(b, a) \<in> r" |
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332 |
obtains "(a, b) \<in> r" |
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333 |
using assms by (simp add: sym_def) |
| 46694 | 334 |
|
335 |
lemma sympE: |
|
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336 |
assumes "symp r" and "r b a" |
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|
337 |
obtains "r a b" |
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|
338 |
using assms by (rule symE [to_pred]) |
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|
339 |
|
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|
340 |
lemma symD [dest?]: |
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|
341 |
assumes "sym r" and "(b, a) \<in> r" |
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|
342 |
shows "(a, b) \<in> r" |
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|
343 |
using assms by (rule symE) |
| 46694 | 344 |
|
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|
345 |
lemma sympD [dest?]: |
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|
346 |
assumes "symp r" and "r b a" |
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|
347 |
shows "r a b" |
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|
348 |
using assms by (rule symD [to_pred]) |
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|
349 |
|
| 63404 | 350 |
lemma sym_Int: "sym r \<Longrightarrow> sym s \<Longrightarrow> sym (r \<inter> s)" |
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|
351 |
by (fast intro: symI elim: symE) |
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|
352 |
|
| 63404 | 353 |
lemma symp_inf: "symp r \<Longrightarrow> symp s \<Longrightarrow> symp (r \<sqinter> s)" |
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|
354 |
by (fact sym_Int [to_pred]) |
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|
355 |
|
| 63404 | 356 |
lemma sym_Un: "sym r \<Longrightarrow> sym s \<Longrightarrow> sym (r \<union> s)" |
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|
357 |
by (fast intro: symI elim: symE) |
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|
358 |
|
| 63404 | 359 |
lemma symp_sup: "symp r \<Longrightarrow> symp s \<Longrightarrow> symp (r \<squnion> s)" |
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|
360 |
by (fact sym_Un [to_pred]) |
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|
361 |
|
| 69275 | 362 |
lemma sym_INTER: "\<forall>x\<in>S. sym (r x) \<Longrightarrow> sym (\<Inter>(r ` S))" |
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|
363 |
by (fast intro: symI elim: symE) |
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|
364 |
|
| 69275 | 365 |
lemma symp_INF: "\<forall>x\<in>S. symp (r x) \<Longrightarrow> symp (\<Sqinter>(r ` S))" |
| 46982 | 366 |
by (fact sym_INTER [to_pred]) |
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|
367 |
|
| 69275 | 368 |
lemma sym_UNION: "\<forall>x\<in>S. sym (r x) \<Longrightarrow> sym (\<Union>(r ` S))" |
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|
369 |
by (fast intro: symI elim: symE) |
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|
370 |
|
| 69275 | 371 |
lemma symp_SUP: "\<forall>x\<in>S. symp (r x) \<Longrightarrow> symp (\<Squnion>(r ` S))" |
| 46982 | 372 |
by (fact sym_UNION [to_pred]) |
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changeset
|
373 |
|
|
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|
374 |
|
| 60758 | 375 |
subsubsection \<open>Antisymmetry\<close> |
| 46694 | 376 |
|
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|
377 |
definition antisym :: "'a rel \<Rightarrow> bool" |
| 63404 | 378 |
where "antisym r \<longleftrightarrow> (\<forall>x y. (x, y) \<in> r \<longrightarrow> (y, x) \<in> r \<longrightarrow> x = y)" |
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|
379 |
|
| 64634 | 380 |
definition antisymp :: "('a \<Rightarrow> 'a \<Rightarrow> bool) \<Rightarrow> bool"
|
381 |
where "antisymp r \<longleftrightarrow> (\<forall>x y. r x y \<longrightarrow> r y x \<longrightarrow> x = y)" |
|
| 63404 | 382 |
|
| 64634 | 383 |
lemma antisymp_antisym_eq [pred_set_conv]: "antisymp (\<lambda>x y. (x, y) \<in> r) \<longleftrightarrow> antisym r" |
384 |
by (simp add: antisym_def antisymp_def) |
|
385 |
||
386 |
lemma antisymI [intro?]: |
|
387 |
"(\<And>x y. (x, y) \<in> r \<Longrightarrow> (y, x) \<in> r \<Longrightarrow> x = y) \<Longrightarrow> antisym r" |
|
| 63404 | 388 |
unfolding antisym_def by iprover |
| 46694 | 389 |
|
| 64634 | 390 |
lemma antisympI [intro?]: |
391 |
"(\<And>x y. r x y \<Longrightarrow> r y x \<Longrightarrow> x = y) \<Longrightarrow> antisymp r" |
|
392 |
by (fact antisymI [to_pred]) |
|
393 |
||
394 |
lemma antisymD [dest?]: |
|
395 |
"antisym r \<Longrightarrow> (a, b) \<in> r \<Longrightarrow> (b, a) \<in> r \<Longrightarrow> a = b" |
|
| 63404 | 396 |
unfolding antisym_def by iprover |
| 46694 | 397 |
|
| 64634 | 398 |
lemma antisympD [dest?]: |
399 |
"antisymp r \<Longrightarrow> r a b \<Longrightarrow> r b a \<Longrightarrow> a = b" |
|
400 |
by (fact antisymD [to_pred]) |
|
| 46694 | 401 |
|
| 64634 | 402 |
lemma antisym_subset: |
403 |
"r \<subseteq> s \<Longrightarrow> antisym s \<Longrightarrow> antisym r" |
|
| 63404 | 404 |
unfolding antisym_def by blast |
| 46694 | 405 |
|
| 64634 | 406 |
lemma antisymp_less_eq: |
407 |
"r \<le> s \<Longrightarrow> antisymp s \<Longrightarrow> antisymp r" |
|
408 |
by (fact antisym_subset [to_pred]) |
|
409 |
||
410 |
lemma antisym_empty [simp]: |
|
411 |
"antisym {}"
|
|
412 |
unfolding antisym_def by blast |
|
| 46694 | 413 |
|
| 64634 | 414 |
lemma antisym_bot [simp]: |
415 |
"antisymp \<bottom>" |
|
416 |
by (fact antisym_empty [to_pred]) |
|
417 |
||
418 |
lemma antisymp_equality [simp]: |
|
419 |
"antisymp HOL.eq" |
|
420 |
by (auto intro: antisympI) |
|
421 |
||
422 |
lemma antisym_singleton [simp]: |
|
423 |
"antisym {x}"
|
|
424 |
by (blast intro: antisymI) |
|
|
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|
425 |
|
|
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|
426 |
|
| 60758 | 427 |
subsubsection \<open>Transitivity\<close> |
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|
428 |
|
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|
429 |
definition trans :: "'a rel \<Rightarrow> bool" |
| 63404 | 430 |
where "trans r \<longleftrightarrow> (\<forall>x y z. (x, y) \<in> r \<longrightarrow> (y, z) \<in> r \<longrightarrow> (x, z) \<in> r)" |
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|
431 |
|
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|
432 |
definition transp :: "('a \<Rightarrow> 'a \<Rightarrow> bool) \<Rightarrow> bool"
|
| 63404 | 433 |
where "transp r \<longleftrightarrow> (\<forall>x y z. r x y \<longrightarrow> r y z \<longrightarrow> r x z)" |
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|
434 |
|
| 63404 | 435 |
lemma transp_trans_eq [pred_set_conv]: "transp (\<lambda>x y. (x, y) \<in> r) \<longleftrightarrow> trans r" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
436 |
by (simp add: trans_def transp_def) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
437 |
|
| 63404 | 438 |
lemma transI [intro?]: "(\<And>x y z. (x, y) \<in> r \<Longrightarrow> (y, z) \<in> r \<Longrightarrow> (x, z) \<in> r) \<Longrightarrow> trans r" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
439 |
by (unfold trans_def) iprover |
| 46694 | 440 |
|
| 63404 | 441 |
lemma transpI [intro?]: "(\<And>x y z. r x y \<Longrightarrow> r y z \<Longrightarrow> r x z) \<Longrightarrow> transp r" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
442 |
by (fact transI [to_pred]) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
443 |
|
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
444 |
lemma transE: |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
445 |
assumes "trans r" and "(x, y) \<in> r" and "(y, z) \<in> r" |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
446 |
obtains "(x, z) \<in> r" |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
447 |
using assms by (unfold trans_def) iprover |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
448 |
|
| 46694 | 449 |
lemma transpE: |
450 |
assumes "transp r" and "r x y" and "r y z" |
|
451 |
obtains "r x z" |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
452 |
using assms by (rule transE [to_pred]) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
453 |
|
|
63376
4c0cc2b356f0
default one-step rules for predicates on relations;
haftmann
parents:
62343
diff
changeset
|
454 |
lemma transD [dest?]: |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
455 |
assumes "trans r" and "(x, y) \<in> r" and "(y, z) \<in> r" |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
456 |
shows "(x, z) \<in> r" |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
457 |
using assms by (rule transE) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
458 |
|
|
63376
4c0cc2b356f0
default one-step rules for predicates on relations;
haftmann
parents:
62343
diff
changeset
|
459 |
lemma transpD [dest?]: |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
460 |
assumes "transp r" and "r x y" and "r y z" |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
461 |
shows "r x z" |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
462 |
using assms by (rule transD [to_pred]) |
| 46694 | 463 |
|
| 63404 | 464 |
lemma trans_Int: "trans r \<Longrightarrow> trans s \<Longrightarrow> trans (r \<inter> s)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
465 |
by (fast intro: transI elim: transE) |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
466 |
|
| 63404 | 467 |
lemma transp_inf: "transp r \<Longrightarrow> transp s \<Longrightarrow> transp (r \<sqinter> s)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
468 |
by (fact trans_Int [to_pred]) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
469 |
|
| 69275 | 470 |
lemma trans_INTER: "\<forall>x\<in>S. trans (r x) \<Longrightarrow> trans (\<Inter>(r ` S))" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
471 |
by (fast intro: transI elim: transD) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
472 |
|
| 69275 | 473 |
lemma transp_INF: "\<forall>x\<in>S. transp (r x) \<Longrightarrow> transp (\<Sqinter>(r ` S))" |
| 64584 | 474 |
by (fact trans_INTER [to_pred]) |
475 |
||
| 63404 | 476 |
lemma trans_join [code]: "trans r \<longleftrightarrow> (\<forall>(x, y1) \<in> r. \<forall>(y2, z) \<in> r. y1 = y2 \<longrightarrow> (x, z) \<in> r)" |
| 46694 | 477 |
by (auto simp add: trans_def) |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
478 |
|
| 63404 | 479 |
lemma transp_trans: "transp r \<longleftrightarrow> trans {(x, y). r x y}"
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
480 |
by (simp add: trans_def transp_def) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
481 |
|
| 67399 | 482 |
lemma transp_equality [simp]: "transp (=)" |
| 63404 | 483 |
by (auto intro: transpI) |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
484 |
|
|
63563
0bcd79da075b
prefer [simp] over [iff] as [iff] break HOL-UNITY
Andreas Lochbihler
parents:
63561
diff
changeset
|
485 |
lemma trans_empty [simp]: "trans {}"
|
| 63612 | 486 |
by (blast intro: transI) |
|
63561
fba08009ff3e
add lemmas contributed by Peter Gammie
Andreas Lochbihler
parents:
63404
diff
changeset
|
487 |
|
|
63563
0bcd79da075b
prefer [simp] over [iff] as [iff] break HOL-UNITY
Andreas Lochbihler
parents:
63561
diff
changeset
|
488 |
lemma transp_empty [simp]: "transp (\<lambda>x y. False)" |
| 63612 | 489 |
using trans_empty[to_pred] by (simp add: bot_fun_def) |
|
63561
fba08009ff3e
add lemmas contributed by Peter Gammie
Andreas Lochbihler
parents:
63404
diff
changeset
|
490 |
|
|
63563
0bcd79da075b
prefer [simp] over [iff] as [iff] break HOL-UNITY
Andreas Lochbihler
parents:
63561
diff
changeset
|
491 |
lemma trans_singleton [simp]: "trans {(a, a)}"
|
| 63612 | 492 |
by (blast intro: transI) |
|
63561
fba08009ff3e
add lemmas contributed by Peter Gammie
Andreas Lochbihler
parents:
63404
diff
changeset
|
493 |
|
|
63563
0bcd79da075b
prefer [simp] over [iff] as [iff] break HOL-UNITY
Andreas Lochbihler
parents:
63561
diff
changeset
|
494 |
lemma transp_singleton [simp]: "transp (\<lambda>x y. x = a \<and> y = a)" |
| 63612 | 495 |
by (simp add: transp_def) |
496 |
||
| 66441 | 497 |
context preorder |
498 |
begin |
|
|
66434
5d7e770c7d5d
added sorted_wrt to List; added Data_Structures/Binomial_Heap.thy
nipkow
parents:
64634
diff
changeset
|
499 |
|
| 67399 | 500 |
lemma transp_le[simp]: "transp (\<le>)" |
| 66441 | 501 |
by(auto simp add: transp_def intro: order_trans) |
|
66434
5d7e770c7d5d
added sorted_wrt to List; added Data_Structures/Binomial_Heap.thy
nipkow
parents:
64634
diff
changeset
|
502 |
|
| 67399 | 503 |
lemma transp_less[simp]: "transp (<)" |
| 66441 | 504 |
by(auto simp add: transp_def intro: less_trans) |
|
66434
5d7e770c7d5d
added sorted_wrt to List; added Data_Structures/Binomial_Heap.thy
nipkow
parents:
64634
diff
changeset
|
505 |
|
| 67399 | 506 |
lemma transp_ge[simp]: "transp (\<ge>)" |
| 66441 | 507 |
by(auto simp add: transp_def intro: order_trans) |
|
66434
5d7e770c7d5d
added sorted_wrt to List; added Data_Structures/Binomial_Heap.thy
nipkow
parents:
64634
diff
changeset
|
508 |
|
| 67399 | 509 |
lemma transp_gr[simp]: "transp (>)" |
| 66441 | 510 |
by(auto simp add: transp_def intro: less_trans) |
511 |
||
512 |
end |
|
|
63376
4c0cc2b356f0
default one-step rules for predicates on relations;
haftmann
parents:
62343
diff
changeset
|
513 |
|
| 60758 | 514 |
subsubsection \<open>Totality\<close> |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
515 |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
516 |
definition total_on :: "'a set \<Rightarrow> 'a rel \<Rightarrow> bool" |
| 63404 | 517 |
where "total_on A r \<longleftrightarrow> (\<forall>x\<in>A. \<forall>y\<in>A. x \<noteq> y \<longrightarrow> (x, y) \<in> r \<or> (y, x) \<in> r)" |
|
29859
33bff35f1335
Moved Order_Relation into Library and moved some of it into Relation.
nipkow
parents:
29609
diff
changeset
|
518 |
|
|
63561
fba08009ff3e
add lemmas contributed by Peter Gammie
Andreas Lochbihler
parents:
63404
diff
changeset
|
519 |
lemma total_onI [intro?]: |
|
fba08009ff3e
add lemmas contributed by Peter Gammie
Andreas Lochbihler
parents:
63404
diff
changeset
|
520 |
"(\<And>x y. \<lbrakk>x \<in> A; y \<in> A; x \<noteq> y\<rbrakk> \<Longrightarrow> (x, y) \<in> r \<or> (y, x) \<in> r) \<Longrightarrow> total_on A r" |
| 63612 | 521 |
unfolding total_on_def by blast |
|
63561
fba08009ff3e
add lemmas contributed by Peter Gammie
Andreas Lochbihler
parents:
63404
diff
changeset
|
522 |
|
|
29859
33bff35f1335
Moved Order_Relation into Library and moved some of it into Relation.
nipkow
parents:
29609
diff
changeset
|
523 |
abbreviation "total \<equiv> total_on UNIV" |
|
33bff35f1335
Moved Order_Relation into Library and moved some of it into Relation.
nipkow
parents:
29609
diff
changeset
|
524 |
|
|
75466
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
525 |
definition totalp_on where |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
526 |
"totalp_on A R \<longleftrightarrow> (\<forall>x \<in> A. \<forall>y \<in> A. x \<noteq> y \<longrightarrow> R x y \<or> R y x)" |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
527 |
|
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
528 |
abbreviation totalp where |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
529 |
"totalp \<equiv> totalp_on UNIV" |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
530 |
|
|
75541
a4fa039a6a60
added lemma totalp_on_total_on_eq[pred_set_conv]
desharna
parents:
75540
diff
changeset
|
531 |
lemma totalp_on_refl_on_eq[pred_set_conv]: "totalp_on A (\<lambda>x y. (x, y) \<in> r) \<longleftrightarrow> total_on A r" |
|
a4fa039a6a60
added lemma totalp_on_total_on_eq[pred_set_conv]
desharna
parents:
75540
diff
changeset
|
532 |
by (simp add: totalp_on_def total_on_def) |
|
a4fa039a6a60
added lemma totalp_on_total_on_eq[pred_set_conv]
desharna
parents:
75540
diff
changeset
|
533 |
|
|
75466
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
534 |
lemma totalp_onI: |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
535 |
"(\<And>x y. x \<in> A \<Longrightarrow> y \<in> A \<Longrightarrow> x \<noteq> y \<Longrightarrow> R x y \<or> R y x) \<Longrightarrow> totalp_on A R" |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
536 |
by (simp add: totalp_on_def) |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
537 |
|
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
538 |
lemma totalpI: "(\<And>x y. x \<noteq> y \<Longrightarrow> R x y \<or> R y x) \<Longrightarrow> totalp R" |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
539 |
by (rule totalp_onI) |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
540 |
|
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
541 |
lemma totalp_onD: |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
542 |
"totalp_on A R \<Longrightarrow> x \<in> A \<Longrightarrow> y \<in> A \<Longrightarrow> x \<noteq> y \<Longrightarrow> R x y \<or> R y x" |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
543 |
by (simp add: totalp_on_def) |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
544 |
|
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
545 |
lemma totalpD: "totalp R \<Longrightarrow> x \<noteq> y \<Longrightarrow> R x y \<or> R y x" |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
546 |
by (simp add: totalp_onD) |
|
5f2a1efd0560
added predicate totalp_on and abbreviation totalp
desharna
parents:
74975
diff
changeset
|
547 |
|
|
75504
75e1b94396c6
added lemmas reflp_on_subset, totalp_on_subset, and total_on_subset
desharna
parents:
75503
diff
changeset
|
548 |
lemma total_on_subset: "total_on A r \<Longrightarrow> B \<subseteq> A \<Longrightarrow> total_on B r" |
|
75e1b94396c6
added lemmas reflp_on_subset, totalp_on_subset, and total_on_subset
desharna
parents:
75503
diff
changeset
|
549 |
by (auto simp: total_on_def) |
|
75e1b94396c6
added lemmas reflp_on_subset, totalp_on_subset, and total_on_subset
desharna
parents:
75503
diff
changeset
|
550 |
|
|
75e1b94396c6
added lemmas reflp_on_subset, totalp_on_subset, and total_on_subset
desharna
parents:
75503
diff
changeset
|
551 |
lemma totalp_on_subset: "totalp_on A R \<Longrightarrow> B \<subseteq> A \<Longrightarrow> totalp_on B R" |
|
75e1b94396c6
added lemmas reflp_on_subset, totalp_on_subset, and total_on_subset
desharna
parents:
75503
diff
changeset
|
552 |
by (auto intro: totalp_onI dest: totalp_onD) |
|
75e1b94396c6
added lemmas reflp_on_subset, totalp_on_subset, and total_on_subset
desharna
parents:
75503
diff
changeset
|
553 |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
554 |
lemma total_on_empty [simp]: "total_on {} r"
|
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
555 |
by (simp add: total_on_def) |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
556 |
|
|
75540
02719bd7b4e6
added lemma reflp_on_empty[simp] and totalp_on_empty[simp]
desharna
parents:
75532
diff
changeset
|
557 |
lemma totalp_on_empty [simp]: "totalp_on {} R"
|
|
76253
08f555c6f3b5
strengthened lemma total_on_singleton and added lemma totalp_on_singleton
desharna
parents:
75669
diff
changeset
|
558 |
by (simp add: totalp_on_def) |
|
75540
02719bd7b4e6
added lemma reflp_on_empty[simp] and totalp_on_empty[simp]
desharna
parents:
75532
diff
changeset
|
559 |
|
|
76253
08f555c6f3b5
strengthened lemma total_on_singleton and added lemma totalp_on_singleton
desharna
parents:
75669
diff
changeset
|
560 |
lemma total_on_singleton [simp]: "total_on {x} r"
|
|
08f555c6f3b5
strengthened lemma total_on_singleton and added lemma totalp_on_singleton
desharna
parents:
75669
diff
changeset
|
561 |
by (simp add: total_on_def) |
|
08f555c6f3b5
strengthened lemma total_on_singleton and added lemma totalp_on_singleton
desharna
parents:
75669
diff
changeset
|
562 |
|
|
08f555c6f3b5
strengthened lemma total_on_singleton and added lemma totalp_on_singleton
desharna
parents:
75669
diff
changeset
|
563 |
lemma totalp_on_singleton [simp]: "totalp_on {x} R"
|
|
08f555c6f3b5
strengthened lemma total_on_singleton and added lemma totalp_on_singleton
desharna
parents:
75669
diff
changeset
|
564 |
by (simp add: totalp_on_def) |
| 63612 | 565 |
|
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
566 |
|
| 60758 | 567 |
subsubsection \<open>Single valued relations\<close> |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
568 |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
569 |
definition single_valued :: "('a \<times> 'b) set \<Rightarrow> bool"
|
| 63404 | 570 |
where "single_valued r \<longleftrightarrow> (\<forall>x y. (x, y) \<in> r \<longrightarrow> (\<forall>z. (x, z) \<in> r \<longrightarrow> y = z))" |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
571 |
|
| 64634 | 572 |
definition single_valuedp :: "('a \<Rightarrow> 'b \<Rightarrow> bool) \<Rightarrow> bool"
|
573 |
where "single_valuedp r \<longleftrightarrow> (\<forall>x y. r x y \<longrightarrow> (\<forall>z. r x z \<longrightarrow> y = z))" |
|
574 |
||
575 |
lemma single_valuedp_single_valued_eq [pred_set_conv]: |
|
576 |
"single_valuedp (\<lambda>x y. (x, y) \<in> r) \<longleftrightarrow> single_valued r" |
|
577 |
by (simp add: single_valued_def single_valuedp_def) |
|
| 46694 | 578 |
|
| 71827 | 579 |
lemma single_valuedp_iff_Uniq: |
580 |
"single_valuedp r \<longleftrightarrow> (\<forall>x. \<exists>\<^sub>\<le>\<^sub>1y. r x y)" |
|
581 |
unfolding Uniq_def single_valuedp_def by auto |
|
582 |
||
| 64634 | 583 |
lemma single_valuedI: |
584 |
"(\<And>x y. (x, y) \<in> r \<Longrightarrow> (\<And>z. (x, z) \<in> r \<Longrightarrow> y = z)) \<Longrightarrow> single_valued r" |
|
585 |
unfolding single_valued_def by blast |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
586 |
|
| 64634 | 587 |
lemma single_valuedpI: |
588 |
"(\<And>x y. r x y \<Longrightarrow> (\<And>z. r x z \<Longrightarrow> y = z)) \<Longrightarrow> single_valuedp r" |
|
589 |
by (fact single_valuedI [to_pred]) |
|
590 |
||
591 |
lemma single_valuedD: |
|
592 |
"single_valued r \<Longrightarrow> (x, y) \<in> r \<Longrightarrow> (x, z) \<in> r \<Longrightarrow> y = z" |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
593 |
by (simp add: single_valued_def) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
594 |
|
| 64634 | 595 |
lemma single_valuedpD: |
596 |
"single_valuedp r \<Longrightarrow> r x y \<Longrightarrow> r x z \<Longrightarrow> y = z" |
|
597 |
by (fact single_valuedD [to_pred]) |
|
598 |
||
599 |
lemma single_valued_empty [simp]: |
|
600 |
"single_valued {}"
|
|
| 63404 | 601 |
by (simp add: single_valued_def) |
| 52392 | 602 |
|
| 64634 | 603 |
lemma single_valuedp_bot [simp]: |
604 |
"single_valuedp \<bottom>" |
|
605 |
by (fact single_valued_empty [to_pred]) |
|
606 |
||
607 |
lemma single_valued_subset: |
|
608 |
"r \<subseteq> s \<Longrightarrow> single_valued s \<Longrightarrow> single_valued r" |
|
| 63404 | 609 |
unfolding single_valued_def by blast |
| 11136 | 610 |
|
| 64634 | 611 |
lemma single_valuedp_less_eq: |
612 |
"r \<le> s \<Longrightarrow> single_valuedp s \<Longrightarrow> single_valuedp r" |
|
613 |
by (fact single_valued_subset [to_pred]) |
|
614 |
||
| 12905 | 615 |
|
| 60758 | 616 |
subsection \<open>Relation operations\<close> |
| 46694 | 617 |
|
| 60758 | 618 |
subsubsection \<open>The identity relation\<close> |
| 12905 | 619 |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
620 |
definition Id :: "'a rel" |
| 69905 | 621 |
where "Id = {p. \<exists>x. p = (x, x)}"
|
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
622 |
|
| 63404 | 623 |
lemma IdI [intro]: "(a, a) \<in> Id" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
624 |
by (simp add: Id_def) |
| 12905 | 625 |
|
| 63404 | 626 |
lemma IdE [elim!]: "p \<in> Id \<Longrightarrow> (\<And>x. p = (x, x) \<Longrightarrow> P) \<Longrightarrow> P" |
627 |
unfolding Id_def by (iprover elim: CollectE) |
|
| 12905 | 628 |
|
| 63404 | 629 |
lemma pair_in_Id_conv [iff]: "(a, b) \<in> Id \<longleftrightarrow> a = b" |
630 |
unfolding Id_def by blast |
|
| 12905 | 631 |
|
| 30198 | 632 |
lemma refl_Id: "refl Id" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
633 |
by (simp add: refl_on_def) |
| 12905 | 634 |
|
635 |
lemma antisym_Id: "antisym Id" |
|
| 61799 | 636 |
\<comment> \<open>A strange result, since \<open>Id\<close> is also symmetric.\<close> |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
637 |
by (simp add: antisym_def) |
| 12905 | 638 |
|
| 19228 | 639 |
lemma sym_Id: "sym Id" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
640 |
by (simp add: sym_def) |
| 19228 | 641 |
|
| 12905 | 642 |
lemma trans_Id: "trans Id" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
643 |
by (simp add: trans_def) |
| 12905 | 644 |
|
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
645 |
lemma single_valued_Id [simp]: "single_valued Id" |
|
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
646 |
by (unfold single_valued_def) blast |
|
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
647 |
|
|
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
648 |
lemma irrefl_diff_Id [simp]: "irrefl (r - Id)" |
| 63404 | 649 |
by (simp add: irrefl_def) |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
650 |
|
|
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
651 |
lemma trans_diff_Id: "trans r \<Longrightarrow> antisym r \<Longrightarrow> trans (r - Id)" |
|
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
652 |
unfolding antisym_def trans_def by blast |
|
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
653 |
|
|
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
654 |
lemma total_on_diff_Id [simp]: "total_on A (r - Id) = total_on A r" |
|
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
655 |
by (simp add: total_on_def) |
|
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
656 |
|
|
62087
44841d07ef1d
revisions to limits and derivatives, plus new lemmas
paulson
parents:
61955
diff
changeset
|
657 |
lemma Id_fstsnd_eq: "Id = {x. fst x = snd x}"
|
|
44841d07ef1d
revisions to limits and derivatives, plus new lemmas
paulson
parents:
61955
diff
changeset
|
658 |
by force |
| 12905 | 659 |
|
|
63376
4c0cc2b356f0
default one-step rules for predicates on relations;
haftmann
parents:
62343
diff
changeset
|
660 |
|
| 60758 | 661 |
subsubsection \<open>Diagonal: identity over a set\<close> |
| 12905 | 662 |
|
| 63612 | 663 |
definition Id_on :: "'a set \<Rightarrow> 'a rel" |
| 63404 | 664 |
where "Id_on A = (\<Union>x\<in>A. {(x, x)})"
|
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
665 |
|
| 30198 | 666 |
lemma Id_on_empty [simp]: "Id_on {} = {}"
|
| 63404 | 667 |
by (simp add: Id_on_def) |
|
13812
91713a1915ee
converting HOL/UNITY to use unconditional fairness
paulson
parents:
13639
diff
changeset
|
668 |
|
| 63404 | 669 |
lemma Id_on_eqI: "a = b \<Longrightarrow> a \<in> A \<Longrightarrow> (a, b) \<in> Id_on A" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
670 |
by (simp add: Id_on_def) |
| 12905 | 671 |
|
| 63404 | 672 |
lemma Id_onI [intro!]: "a \<in> A \<Longrightarrow> (a, a) \<in> Id_on A" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
673 |
by (rule Id_on_eqI) (rule refl) |
| 12905 | 674 |
|
| 63404 | 675 |
lemma Id_onE [elim!]: "c \<in> Id_on A \<Longrightarrow> (\<And>x. x \<in> A \<Longrightarrow> c = (x, x) \<Longrightarrow> P) \<Longrightarrow> P" |
| 61799 | 676 |
\<comment> \<open>The general elimination rule.\<close> |
| 63404 | 677 |
unfolding Id_on_def by (iprover elim!: UN_E singletonE) |
| 12905 | 678 |
|
| 63404 | 679 |
lemma Id_on_iff: "(x, y) \<in> Id_on A \<longleftrightarrow> x = y \<and> x \<in> A" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
680 |
by blast |
| 12905 | 681 |
|
| 63404 | 682 |
lemma Id_on_def' [nitpick_unfold]: "Id_on {x. A x} = Collect (\<lambda>(x, y). x = y \<and> A x)"
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
683 |
by auto |
|
40923
be80c93ac0a2
adding a nice definition of Id_on for quickcheck and nitpick
bulwahn
parents:
36772
diff
changeset
|
684 |
|
| 30198 | 685 |
lemma Id_on_subset_Times: "Id_on A \<subseteq> A \<times> A" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
686 |
by blast |
| 12905 | 687 |
|
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
688 |
lemma refl_on_Id_on: "refl_on A (Id_on A)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
689 |
by (rule refl_onI [OF Id_on_subset_Times Id_onI]) |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
690 |
|
|
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
691 |
lemma antisym_Id_on [simp]: "antisym (Id_on A)" |
| 63404 | 692 |
unfolding antisym_def by blast |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
693 |
|
|
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
694 |
lemma sym_Id_on [simp]: "sym (Id_on A)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
695 |
by (rule symI) clarify |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
696 |
|
|
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
697 |
lemma trans_Id_on [simp]: "trans (Id_on A)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
698 |
by (fast intro: transI elim: transD) |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
699 |
|
|
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
700 |
lemma single_valued_Id_on [simp]: "single_valued (Id_on A)" |
| 63404 | 701 |
unfolding single_valued_def by blast |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
702 |
|
| 12905 | 703 |
|
| 60758 | 704 |
subsubsection \<open>Composition\<close> |
| 12905 | 705 |
|
| 63404 | 706 |
inductive_set relcomp :: "('a \<times> 'b) set \<Rightarrow> ('b \<times> 'c) set \<Rightarrow> ('a \<times> 'c) set" (infixr "O" 75)
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
707 |
for r :: "('a \<times> 'b) set" and s :: "('b \<times> 'c) set"
|
| 63404 | 708 |
where relcompI [intro]: "(a, b) \<in> r \<Longrightarrow> (b, c) \<in> s \<Longrightarrow> (a, c) \<in> r O s" |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
709 |
|
|
47434
b75ce48a93ee
dropped abbreviation "pred_comp"; introduced infix notation "P OO Q" for "relcompp P Q"
griff
parents:
47433
diff
changeset
|
710 |
notation relcompp (infixr "OO" 75) |
| 12905 | 711 |
|
|
47434
b75ce48a93ee
dropped abbreviation "pred_comp"; introduced infix notation "P OO Q" for "relcompp P Q"
griff
parents:
47433
diff
changeset
|
712 |
lemmas relcomppI = relcompp.intros |
| 12905 | 713 |
|
| 60758 | 714 |
text \<open> |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
715 |
For historic reasons, the elimination rules are not wholly corresponding. |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
716 |
Feel free to consolidate this. |
| 60758 | 717 |
\<close> |
| 46694 | 718 |
|
|
47433
07f4bf913230
renamed "rel_comp" to "relcomp" (to be consistent with, e.g., "relpow")
griff
parents:
47087
diff
changeset
|
719 |
inductive_cases relcompEpair: "(a, c) \<in> r O s" |
|
47434
b75ce48a93ee
dropped abbreviation "pred_comp"; introduced infix notation "P OO Q" for "relcompp P Q"
griff
parents:
47433
diff
changeset
|
720 |
inductive_cases relcomppE [elim!]: "(r OO s) a c" |
| 46694 | 721 |
|
|
47433
07f4bf913230
renamed "rel_comp" to "relcomp" (to be consistent with, e.g., "relpow")
griff
parents:
47087
diff
changeset
|
722 |
lemma relcompE [elim!]: "xz \<in> r O s \<Longrightarrow> |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
723 |
(\<And>x y z. xz = (x, z) \<Longrightarrow> (x, y) \<in> r \<Longrightarrow> (y, z) \<in> s \<Longrightarrow> P) \<Longrightarrow> P" |
| 63404 | 724 |
apply (cases xz) |
725 |
apply simp |
|
726 |
apply (erule relcompEpair) |
|
727 |
apply iprover |
|
728 |
done |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
729 |
|
| 63404 | 730 |
lemma R_O_Id [simp]: "R O Id = R" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
731 |
by fast |
| 46694 | 732 |
|
| 63404 | 733 |
lemma Id_O_R [simp]: "Id O R = R" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
734 |
by fast |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
735 |
|
| 63404 | 736 |
lemma relcomp_empty1 [simp]: "{} O R = {}"
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
737 |
by blast |
| 12905 | 738 |
|
| 63404 | 739 |
lemma relcompp_bot1 [simp]: "\<bottom> OO R = \<bottom>" |
|
47433
07f4bf913230
renamed "rel_comp" to "relcomp" (to be consistent with, e.g., "relpow")
griff
parents:
47087
diff
changeset
|
740 |
by (fact relcomp_empty1 [to_pred]) |
| 12905 | 741 |
|
| 63404 | 742 |
lemma relcomp_empty2 [simp]: "R O {} = {}"
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
743 |
by blast |
| 12905 | 744 |
|
| 63404 | 745 |
lemma relcompp_bot2 [simp]: "R OO \<bottom> = \<bottom>" |
|
47433
07f4bf913230
renamed "rel_comp" to "relcomp" (to be consistent with, e.g., "relpow")
griff
parents:
47087
diff
changeset
|
746 |
by (fact relcomp_empty2 [to_pred]) |
| 23185 | 747 |
|
| 63404 | 748 |
lemma O_assoc: "(R O S) O T = R O (S O T)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
749 |
by blast |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
750 |
|
| 63404 | 751 |
lemma relcompp_assoc: "(r OO s) OO t = r OO (s OO t)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
752 |
by (fact O_assoc [to_pred]) |
| 23185 | 753 |
|
| 63404 | 754 |
lemma trans_O_subset: "trans r \<Longrightarrow> r O r \<subseteq> r" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
755 |
by (unfold trans_def) blast |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
756 |
|
| 63404 | 757 |
lemma transp_relcompp_less_eq: "transp r \<Longrightarrow> r OO r \<le> r " |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
758 |
by (fact trans_O_subset [to_pred]) |
| 12905 | 759 |
|
| 63404 | 760 |
lemma relcomp_mono: "r' \<subseteq> r \<Longrightarrow> s' \<subseteq> s \<Longrightarrow> r' O s' \<subseteq> r O s" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
761 |
by blast |
| 12905 | 762 |
|
| 63404 | 763 |
lemma relcompp_mono: "r' \<le> r \<Longrightarrow> s' \<le> s \<Longrightarrow> r' OO s' \<le> r OO s " |
|
47433
07f4bf913230
renamed "rel_comp" to "relcomp" (to be consistent with, e.g., "relpow")
griff
parents:
47087
diff
changeset
|
764 |
by (fact relcomp_mono [to_pred]) |
| 12905 | 765 |
|
| 63404 | 766 |
lemma relcomp_subset_Sigma: "r \<subseteq> A \<times> B \<Longrightarrow> s \<subseteq> B \<times> C \<Longrightarrow> r O s \<subseteq> A \<times> C" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
767 |
by blast |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
768 |
|
| 63404 | 769 |
lemma relcomp_distrib [simp]: "R O (S \<union> T) = (R O S) \<union> (R O T)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
770 |
by auto |
| 12905 | 771 |
|
| 63404 | 772 |
lemma relcompp_distrib [simp]: "R OO (S \<squnion> T) = R OO S \<squnion> R OO T" |
|
47433
07f4bf913230
renamed "rel_comp" to "relcomp" (to be consistent with, e.g., "relpow")
griff
parents:
47087
diff
changeset
|
773 |
by (fact relcomp_distrib [to_pred]) |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
774 |
|
| 63404 | 775 |
lemma relcomp_distrib2 [simp]: "(S \<union> T) O R = (S O R) \<union> (T O R)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
776 |
by auto |
|
28008
f945f8d9ad4d
added distributivity of relation composition over union [simp]
krauss
parents:
26297
diff
changeset
|
777 |
|
| 63404 | 778 |
lemma relcompp_distrib2 [simp]: "(S \<squnion> T) OO R = S OO R \<squnion> T OO R" |
|
47433
07f4bf913230
renamed "rel_comp" to "relcomp" (to be consistent with, e.g., "relpow")
griff
parents:
47087
diff
changeset
|
779 |
by (fact relcomp_distrib2 [to_pred]) |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
780 |
|
| 69275 | 781 |
lemma relcomp_UNION_distrib: "s O \<Union>(r ` I) = (\<Union>i\<in>I. s O r i) " |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
782 |
by auto |
|
28008
f945f8d9ad4d
added distributivity of relation composition over union [simp]
krauss
parents:
26297
diff
changeset
|
783 |
|
| 69275 | 784 |
lemma relcompp_SUP_distrib: "s OO \<Squnion>(r ` I) = (\<Squnion>i\<in>I. s OO r i)" |
| 64584 | 785 |
by (fact relcomp_UNION_distrib [to_pred]) |
786 |
||
| 69275 | 787 |
lemma relcomp_UNION_distrib2: "\<Union>(r ` I) O s = (\<Union>i\<in>I. r i O s) " |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
788 |
by auto |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
789 |
|
| 69275 | 790 |
lemma relcompp_SUP_distrib2: "\<Squnion>(r ` I) OO s = (\<Squnion>i\<in>I. r i OO s)" |
| 64584 | 791 |
by (fact relcomp_UNION_distrib2 [to_pred]) |
792 |
||
| 63404 | 793 |
lemma single_valued_relcomp: "single_valued r \<Longrightarrow> single_valued s \<Longrightarrow> single_valued (r O s)" |
794 |
unfolding single_valued_def by blast |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
795 |
|
| 63404 | 796 |
lemma relcomp_unfold: "r O s = {(x, z). \<exists>y. (x, y) \<in> r \<and> (y, z) \<in> s}"
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
797 |
by (auto simp add: set_eq_iff) |
| 12905 | 798 |
|
| 58195 | 799 |
lemma relcompp_apply: "(R OO S) a c \<longleftrightarrow> (\<exists>b. R a b \<and> S b c)" |
800 |
unfolding relcomp_unfold [to_pred] .. |
|
801 |
||
| 67399 | 802 |
lemma eq_OO: "(=) OO R = R" |
| 63404 | 803 |
by blast |
| 55083 | 804 |
|
| 67399 | 805 |
lemma OO_eq: "R OO (=) = R" |
| 63404 | 806 |
by blast |
|
46664
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
807 |
|
|
63376
4c0cc2b356f0
default one-step rules for predicates on relations;
haftmann
parents:
62343
diff
changeset
|
808 |
|
| 60758 | 809 |
subsubsection \<open>Converse\<close> |
| 12913 | 810 |
|
|
61955
e96292f32c3c
former "xsymbols" syntax is used by default, and ASCII replacement syntax with print mode "ASCII";
wenzelm
parents:
61799
diff
changeset
|
811 |
inductive_set converse :: "('a \<times> 'b) set \<Rightarrow> ('b \<times> 'a) set" ("(_\<inverse>)" [1000] 999)
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
812 |
for r :: "('a \<times> 'b) set"
|
| 63404 | 813 |
where "(a, b) \<in> r \<Longrightarrow> (b, a) \<in> r\<inverse>" |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
814 |
|
| 63404 | 815 |
notation conversep ("(_\<inverse>\<inverse>)" [1000] 1000)
|
| 46694 | 816 |
|
|
61955
e96292f32c3c
former "xsymbols" syntax is used by default, and ASCII replacement syntax with print mode "ASCII";
wenzelm
parents:
61799
diff
changeset
|
817 |
notation (ASCII) |
|
e96292f32c3c
former "xsymbols" syntax is used by default, and ASCII replacement syntax with print mode "ASCII";
wenzelm
parents:
61799
diff
changeset
|
818 |
converse ("(_^-1)" [1000] 999) and
|
|
e96292f32c3c
former "xsymbols" syntax is used by default, and ASCII replacement syntax with print mode "ASCII";
wenzelm
parents:
61799
diff
changeset
|
819 |
conversep ("(_^--1)" [1000] 1000)
|
| 46694 | 820 |
|
| 63404 | 821 |
lemma converseI [sym]: "(a, b) \<in> r \<Longrightarrow> (b, a) \<in> r\<inverse>" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
822 |
by (fact converse.intros) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
823 |
|
| 63404 | 824 |
lemma conversepI (* CANDIDATE [sym] *): "r a b \<Longrightarrow> r\<inverse>\<inverse> b a" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
825 |
by (fact conversep.intros) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
826 |
|
| 63404 | 827 |
lemma converseD [sym]: "(a, b) \<in> r\<inverse> \<Longrightarrow> (b, a) \<in> r" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
828 |
by (erule converse.cases) iprover |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
829 |
|
| 63404 | 830 |
lemma conversepD (* CANDIDATE [sym] *): "r\<inverse>\<inverse> b a \<Longrightarrow> r a b" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
831 |
by (fact converseD [to_pred]) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
832 |
|
| 63404 | 833 |
lemma converseE [elim!]: "yx \<in> r\<inverse> \<Longrightarrow> (\<And>x y. yx = (y, x) \<Longrightarrow> (x, y) \<in> r \<Longrightarrow> P) \<Longrightarrow> P" |
| 61799 | 834 |
\<comment> \<open>More general than \<open>converseD\<close>, as it ``splits'' the member of the relation.\<close> |
| 63404 | 835 |
apply (cases yx) |
836 |
apply simp |
|
837 |
apply (erule converse.cases) |
|
838 |
apply iprover |
|
839 |
done |
|
| 46694 | 840 |
|
| 46882 | 841 |
lemmas conversepE [elim!] = conversep.cases |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
842 |
|
| 63404 | 843 |
lemma converse_iff [iff]: "(a, b) \<in> r\<inverse> \<longleftrightarrow> (b, a) \<in> r" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
844 |
by (auto intro: converseI) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
845 |
|
| 63404 | 846 |
lemma conversep_iff [iff]: "r\<inverse>\<inverse> a b = r b a" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
847 |
by (fact converse_iff [to_pred]) |
| 46694 | 848 |
|
| 63404 | 849 |
lemma converse_converse [simp]: "(r\<inverse>)\<inverse> = r" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
850 |
by (simp add: set_eq_iff) |
| 46694 | 851 |
|
| 63404 | 852 |
lemma conversep_conversep [simp]: "(r\<inverse>\<inverse>)\<inverse>\<inverse> = r" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
853 |
by (fact converse_converse [to_pred]) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
854 |
|
| 53680 | 855 |
lemma converse_empty[simp]: "{}\<inverse> = {}"
|
| 63404 | 856 |
by auto |
| 53680 | 857 |
|
858 |
lemma converse_UNIV[simp]: "UNIV\<inverse> = UNIV" |
|
| 63404 | 859 |
by auto |
| 53680 | 860 |
|
| 63404 | 861 |
lemma converse_relcomp: "(r O s)\<inverse> = s\<inverse> O r\<inverse>" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
862 |
by blast |
| 46694 | 863 |
|
| 63404 | 864 |
lemma converse_relcompp: "(r OO s)\<inverse>\<inverse> = s\<inverse>\<inverse> OO r\<inverse>\<inverse>" |
865 |
by (iprover intro: order_antisym conversepI relcomppI elim: relcomppE dest: conversepD) |
|
| 46694 | 866 |
|
| 63404 | 867 |
lemma converse_Int: "(r \<inter> s)\<inverse> = r\<inverse> \<inter> s\<inverse>" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
868 |
by blast |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
869 |
|
| 63404 | 870 |
lemma converse_meet: "(r \<sqinter> s)\<inverse>\<inverse> = r\<inverse>\<inverse> \<sqinter> s\<inverse>\<inverse>" |
| 46694 | 871 |
by (simp add: inf_fun_def) (iprover intro: conversepI ext dest: conversepD) |
872 |
||
| 63404 | 873 |
lemma converse_Un: "(r \<union> s)\<inverse> = r\<inverse> \<union> s\<inverse>" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
874 |
by blast |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
875 |
|
| 63404 | 876 |
lemma converse_join: "(r \<squnion> s)\<inverse>\<inverse> = r\<inverse>\<inverse> \<squnion> s\<inverse>\<inverse>" |
| 46694 | 877 |
by (simp add: sup_fun_def) (iprover intro: conversepI ext dest: conversepD) |
878 |
||
| 69275 | 879 |
lemma converse_INTER: "(\<Inter>(r ` S))\<inverse> = (\<Inter>x\<in>S. (r x)\<inverse>)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
880 |
by fast |
| 19228 | 881 |
|
| 69275 | 882 |
lemma converse_UNION: "(\<Union>(r ` S))\<inverse> = (\<Union>x\<in>S. (r x)\<inverse>)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
883 |
by blast |
| 19228 | 884 |
|
| 63404 | 885 |
lemma converse_mono[simp]: "r\<inverse> \<subseteq> s \<inverse> \<longleftrightarrow> r \<subseteq> s" |
| 52749 | 886 |
by auto |
887 |
||
| 63404 | 888 |
lemma conversep_mono[simp]: "r\<inverse>\<inverse> \<le> s \<inverse>\<inverse> \<longleftrightarrow> r \<le> s" |
| 52749 | 889 |
by (fact converse_mono[to_pred]) |
890 |
||
| 63404 | 891 |
lemma converse_inject[simp]: "r\<inverse> = s \<inverse> \<longleftrightarrow> r = s" |
| 52730 | 892 |
by auto |
893 |
||
| 63404 | 894 |
lemma conversep_inject[simp]: "r\<inverse>\<inverse> = s \<inverse>\<inverse> \<longleftrightarrow> r = s" |
| 52749 | 895 |
by (fact converse_inject[to_pred]) |
896 |
||
| 63612 | 897 |
lemma converse_subset_swap: "r \<subseteq> s \<inverse> \<longleftrightarrow> r \<inverse> \<subseteq> s" |
| 52749 | 898 |
by auto |
899 |
||
| 63612 | 900 |
lemma conversep_le_swap: "r \<le> s \<inverse>\<inverse> \<longleftrightarrow> r \<inverse>\<inverse> \<le> s" |
| 52749 | 901 |
by (fact converse_subset_swap[to_pred]) |
| 52730 | 902 |
|
| 63404 | 903 |
lemma converse_Id [simp]: "Id\<inverse> = Id" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
904 |
by blast |
| 12905 | 905 |
|
| 63404 | 906 |
lemma converse_Id_on [simp]: "(Id_on A)\<inverse> = Id_on A" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
907 |
by blast |
| 12905 | 908 |
|
| 30198 | 909 |
lemma refl_on_converse [simp]: "refl_on A (converse r) = refl_on A r" |
| 63404 | 910 |
by (auto simp: refl_on_def) |
| 12905 | 911 |
|
| 19228 | 912 |
lemma sym_converse [simp]: "sym (converse r) = sym r" |
| 63404 | 913 |
unfolding sym_def by blast |
| 19228 | 914 |
|
915 |
lemma antisym_converse [simp]: "antisym (converse r) = antisym r" |
|
| 63404 | 916 |
unfolding antisym_def by blast |
| 12905 | 917 |
|
| 19228 | 918 |
lemma trans_converse [simp]: "trans (converse r) = trans r" |
| 63404 | 919 |
unfolding trans_def by blast |
| 12905 | 920 |
|
| 63404 | 921 |
lemma sym_conv_converse_eq: "sym r \<longleftrightarrow> r\<inverse> = r" |
922 |
unfolding sym_def by fast |
|
| 19228 | 923 |
|
| 63404 | 924 |
lemma sym_Un_converse: "sym (r \<union> r\<inverse>)" |
925 |
unfolding sym_def by blast |
|
| 19228 | 926 |
|
| 63404 | 927 |
lemma sym_Int_converse: "sym (r \<inter> r\<inverse>)" |
928 |
unfolding sym_def by blast |
|
| 19228 | 929 |
|
| 63404 | 930 |
lemma total_on_converse [simp]: "total_on A (r\<inverse>) = total_on A r" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
931 |
by (auto simp: total_on_def) |
|
29859
33bff35f1335
Moved Order_Relation into Library and moved some of it into Relation.
nipkow
parents:
29609
diff
changeset
|
932 |
|
| 63404 | 933 |
lemma finite_converse [iff]: "finite (r\<inverse>) = finite r" |
| 68455 | 934 |
unfolding converse_def conversep_iff using [[simproc add: finite_Collect]] |
935 |
by (auto elim: finite_imageD simp: inj_on_def) |
|
936 |
||
937 |
lemma card_inverse[simp]: "card (R\<inverse>) = card R" |
|
938 |
proof - |
|
939 |
have *: "\<And>R. prod.swap ` R = R\<inverse>" by auto |
|
940 |
{
|
|
941 |
assume "\<not>finite R" |
|
942 |
hence ?thesis |
|
943 |
by auto |
|
944 |
} moreover {
|
|
945 |
assume "finite R" |
|
946 |
with card_image_le[of R prod.swap] card_image_le[of "R\<inverse>" prod.swap] |
|
947 |
have ?thesis by (auto simp: *) |
|
948 |
} ultimately show ?thesis by blast |
|
949 |
qed |
|
| 12913 | 950 |
|
| 67399 | 951 |
lemma conversep_noteq [simp]: "(\<noteq>)\<inverse>\<inverse> = (\<noteq>)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
952 |
by (auto simp add: fun_eq_iff) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
953 |
|
| 67399 | 954 |
lemma conversep_eq [simp]: "(=)\<inverse>\<inverse> = (=)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
955 |
by (auto simp add: fun_eq_iff) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
956 |
|
| 63404 | 957 |
lemma converse_unfold [code]: "r\<inverse> = {(y, x). (x, y) \<in> r}"
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
958 |
by (simp add: set_eq_iff) |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
959 |
|
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
960 |
|
| 60758 | 961 |
subsubsection \<open>Domain, range and field\<close> |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
962 |
|
| 63404 | 963 |
inductive_set Domain :: "('a \<times> 'b) set \<Rightarrow> 'a set" for r :: "('a \<times> 'b) set"
|
964 |
where DomainI [intro]: "(a, b) \<in> r \<Longrightarrow> a \<in> Domain r" |
|
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
965 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
966 |
lemmas DomainPI = Domainp.DomainI |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
967 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
968 |
inductive_cases DomainE [elim!]: "a \<in> Domain r" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
969 |
inductive_cases DomainpE [elim!]: "Domainp r a" |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
970 |
|
| 63404 | 971 |
inductive_set Range :: "('a \<times> 'b) set \<Rightarrow> 'b set" for r :: "('a \<times> 'b) set"
|
972 |
where RangeI [intro]: "(a, b) \<in> r \<Longrightarrow> b \<in> Range r" |
|
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
973 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
974 |
lemmas RangePI = Rangep.RangeI |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
975 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
976 |
inductive_cases RangeE [elim!]: "b \<in> Range r" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
977 |
inductive_cases RangepE [elim!]: "Rangep r b" |
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
978 |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
979 |
definition Field :: "'a rel \<Rightarrow> 'a set" |
| 63404 | 980 |
where "Field r = Domain r \<union> Range r" |
| 12905 | 981 |
|
|
63561
fba08009ff3e
add lemmas contributed by Peter Gammie
Andreas Lochbihler
parents:
63404
diff
changeset
|
982 |
lemma FieldI1: "(i, j) \<in> R \<Longrightarrow> i \<in> Field R" |
| 63612 | 983 |
unfolding Field_def by blast |
|
63561
fba08009ff3e
add lemmas contributed by Peter Gammie
Andreas Lochbihler
parents:
63404
diff
changeset
|
984 |
|
|
fba08009ff3e
add lemmas contributed by Peter Gammie
Andreas Lochbihler
parents:
63404
diff
changeset
|
985 |
lemma FieldI2: "(i, j) \<in> R \<Longrightarrow> j \<in> Field R" |
|
fba08009ff3e
add lemmas contributed by Peter Gammie
Andreas Lochbihler
parents:
63404
diff
changeset
|
986 |
unfolding Field_def by auto |
|
fba08009ff3e
add lemmas contributed by Peter Gammie
Andreas Lochbihler
parents:
63404
diff
changeset
|
987 |
|
| 63404 | 988 |
lemma Domain_fst [code]: "Domain r = fst ` r" |
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
989 |
by force |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
990 |
|
| 63404 | 991 |
lemma Range_snd [code]: "Range r = snd ` r" |
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
992 |
by force |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
993 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
994 |
lemma fst_eq_Domain: "fst ` R = Domain R" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
995 |
by force |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
996 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
997 |
lemma snd_eq_Range: "snd ` R = Range R" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
998 |
by force |
| 46694 | 999 |
|
|
62087
44841d07ef1d
revisions to limits and derivatives, plus new lemmas
paulson
parents:
61955
diff
changeset
|
1000 |
lemma range_fst [simp]: "range fst = UNIV" |
|
44841d07ef1d
revisions to limits and derivatives, plus new lemmas
paulson
parents:
61955
diff
changeset
|
1001 |
by (auto simp: fst_eq_Domain) |
|
44841d07ef1d
revisions to limits and derivatives, plus new lemmas
paulson
parents:
61955
diff
changeset
|
1002 |
|
|
44841d07ef1d
revisions to limits and derivatives, plus new lemmas
paulson
parents:
61955
diff
changeset
|
1003 |
lemma range_snd [simp]: "range snd = UNIV" |
|
44841d07ef1d
revisions to limits and derivatives, plus new lemmas
paulson
parents:
61955
diff
changeset
|
1004 |
by (auto simp: snd_eq_Range) |
|
44841d07ef1d
revisions to limits and derivatives, plus new lemmas
paulson
parents:
61955
diff
changeset
|
1005 |
|
| 46694 | 1006 |
lemma Domain_empty [simp]: "Domain {} = {}"
|
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1007 |
by auto |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1008 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1009 |
lemma Range_empty [simp]: "Range {} = {}"
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1010 |
by auto |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1011 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1012 |
lemma Field_empty [simp]: "Field {} = {}"
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1013 |
by (simp add: Field_def) |
| 46694 | 1014 |
|
1015 |
lemma Domain_empty_iff: "Domain r = {} \<longleftrightarrow> r = {}"
|
|
1016 |
by auto |
|
1017 |
||
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1018 |
lemma Range_empty_iff: "Range r = {} \<longleftrightarrow> r = {}"
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1019 |
by auto |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1020 |
|
| 46882 | 1021 |
lemma Domain_insert [simp]: "Domain (insert (a, b) r) = insert a (Domain r)" |
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1022 |
by blast |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1023 |
|
| 46882 | 1024 |
lemma Range_insert [simp]: "Range (insert (a, b) r) = insert b (Range r)" |
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1025 |
by blast |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1026 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1027 |
lemma Field_insert [simp]: "Field (insert (a, b) r) = {a, b} \<union> Field r"
|
| 46884 | 1028 |
by (auto simp add: Field_def) |
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1029 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1030 |
lemma Domain_iff: "a \<in> Domain r \<longleftrightarrow> (\<exists>y. (a, y) \<in> r)" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1031 |
by blast |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1032 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1033 |
lemma Range_iff: "a \<in> Range r \<longleftrightarrow> (\<exists>y. (y, a) \<in> r)" |
| 46694 | 1034 |
by blast |
1035 |
||
1036 |
lemma Domain_Id [simp]: "Domain Id = UNIV" |
|
1037 |
by blast |
|
1038 |
||
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1039 |
lemma Range_Id [simp]: "Range Id = UNIV" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1040 |
by blast |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1041 |
|
| 46694 | 1042 |
lemma Domain_Id_on [simp]: "Domain (Id_on A) = A" |
1043 |
by blast |
|
1044 |
||
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1045 |
lemma Range_Id_on [simp]: "Range (Id_on A) = A" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1046 |
by blast |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1047 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1048 |
lemma Domain_Un_eq: "Domain (A \<union> B) = Domain A \<union> Domain B" |
| 46694 | 1049 |
by blast |
1050 |
||
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1051 |
lemma Range_Un_eq: "Range (A \<union> B) = Range A \<union> Range B" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1052 |
by blast |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1053 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1054 |
lemma Field_Un [simp]: "Field (r \<union> s) = Field r \<union> Field s" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1055 |
by (auto simp: Field_def) |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1056 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1057 |
lemma Domain_Int_subset: "Domain (A \<inter> B) \<subseteq> Domain A \<inter> Domain B" |
| 46694 | 1058 |
by blast |
1059 |
||
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1060 |
lemma Range_Int_subset: "Range (A \<inter> B) \<subseteq> Range A \<inter> Range B" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1061 |
by blast |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1062 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1063 |
lemma Domain_Diff_subset: "Domain A - Domain B \<subseteq> Domain (A - B)" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1064 |
by blast |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1065 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1066 |
lemma Range_Diff_subset: "Range A - Range B \<subseteq> Range (A - B)" |
| 46694 | 1067 |
by blast |
1068 |
||
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1069 |
lemma Domain_Union: "Domain (\<Union>S) = (\<Union>A\<in>S. Domain A)" |
| 46694 | 1070 |
by blast |
1071 |
||
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1072 |
lemma Range_Union: "Range (\<Union>S) = (\<Union>A\<in>S. Range A)" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1073 |
by blast |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1074 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1075 |
lemma Field_Union [simp]: "Field (\<Union>R) = \<Union>(Field ` R)" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1076 |
by (auto simp: Field_def) |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1077 |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1078 |
lemma Domain_converse [simp]: "Domain (r\<inverse>) = Range r" |
|
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1079 |
by auto |
| 46694 | 1080 |
|
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1081 |
lemma Range_converse [simp]: "Range (r\<inverse>) = Domain r" |
| 46694 | 1082 |
by blast |
1083 |
||
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1084 |
lemma Field_converse [simp]: "Field (r\<inverse>) = Field r" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1085 |
by (auto simp: Field_def) |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1086 |
|
| 63404 | 1087 |
lemma Domain_Collect_case_prod [simp]: "Domain {(x, y). P x y} = {x. \<exists>y. P x y}"
|
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1088 |
by auto |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1089 |
|
| 63404 | 1090 |
lemma Range_Collect_case_prod [simp]: "Range {(x, y). P x y} = {y. \<exists>x. P x y}"
|
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1091 |
by auto |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1092 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1093 |
lemma finite_Domain: "finite r \<Longrightarrow> finite (Domain r)" |
| 46884 | 1094 |
by (induct set: finite) auto |
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1095 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1096 |
lemma finite_Range: "finite r \<Longrightarrow> finite (Range r)" |
| 46884 | 1097 |
by (induct set: finite) auto |
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1098 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1099 |
lemma finite_Field: "finite r \<Longrightarrow> finite (Field r)" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1100 |
by (simp add: Field_def finite_Domain finite_Range) |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1101 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1102 |
lemma Domain_mono: "r \<subseteq> s \<Longrightarrow> Domain r \<subseteq> Domain s" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1103 |
by blast |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1104 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1105 |
lemma Range_mono: "r \<subseteq> s \<Longrightarrow> Range r \<subseteq> Range s" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1106 |
by blast |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1107 |
|
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1108 |
lemma mono_Field: "r \<subseteq> s \<Longrightarrow> Field r \<subseteq> Field s" |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1109 |
by (auto simp: Field_def Domain_def Range_def) |
|
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1110 |
|
| 63404 | 1111 |
lemma Domain_unfold: "Domain r = {x. \<exists>y. (x, y) \<in> r}"
|
|
46767
807a5d219c23
more fundamental pred-to-set conversions for range and domain by means of inductive_set
haftmann
parents:
46752
diff
changeset
|
1112 |
by blast |
| 46694 | 1113 |
|
|
63563
0bcd79da075b
prefer [simp] over [iff] as [iff] break HOL-UNITY
Andreas Lochbihler
parents:
63561
diff
changeset
|
1114 |
lemma Field_square [simp]: "Field (x \<times> x) = x" |
| 63612 | 1115 |
unfolding Field_def by blast |
|
63561
fba08009ff3e
add lemmas contributed by Peter Gammie
Andreas Lochbihler
parents:
63404
diff
changeset
|
1116 |
|
| 12905 | 1117 |
|
| 60758 | 1118 |
subsubsection \<open>Image of a set under a relation\<close> |
| 12905 | 1119 |
|
| 63404 | 1120 |
definition Image :: "('a \<times> 'b) set \<Rightarrow> 'a set \<Rightarrow> 'b set" (infixr "``" 90)
|
1121 |
where "r `` s = {y. \<exists>x\<in>s. (x, y) \<in> r}"
|
|
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
1122 |
|
| 63404 | 1123 |
lemma Image_iff: "b \<in> r``A \<longleftrightarrow> (\<exists>x\<in>A. (x, b) \<in> r)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1124 |
by (simp add: Image_def) |
| 12905 | 1125 |
|
| 63404 | 1126 |
lemma Image_singleton: "r``{a} = {b. (a, b) \<in> r}"
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1127 |
by (simp add: Image_def) |
| 12905 | 1128 |
|
| 63404 | 1129 |
lemma Image_singleton_iff [iff]: "b \<in> r``{a} \<longleftrightarrow> (a, b) \<in> r"
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1130 |
by (rule Image_iff [THEN trans]) simp |
| 12905 | 1131 |
|
| 63404 | 1132 |
lemma ImageI [intro]: "(a, b) \<in> r \<Longrightarrow> a \<in> A \<Longrightarrow> b \<in> r``A" |
1133 |
unfolding Image_def by blast |
|
| 12905 | 1134 |
|
| 63404 | 1135 |
lemma ImageE [elim!]: "b \<in> r `` A \<Longrightarrow> (\<And>x. (x, b) \<in> r \<Longrightarrow> x \<in> A \<Longrightarrow> P) \<Longrightarrow> P" |
1136 |
unfolding Image_def by (iprover elim!: CollectE bexE) |
|
| 12905 | 1137 |
|
| 63404 | 1138 |
lemma rev_ImageI: "a \<in> A \<Longrightarrow> (a, b) \<in> r \<Longrightarrow> b \<in> r `` A" |
| 61799 | 1139 |
\<comment> \<open>This version's more effective when we already have the required \<open>a\<close>\<close> |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1140 |
by blast |
| 12905 | 1141 |
|
| 68455 | 1142 |
lemma Image_empty1 [simp]: "{} `` X = {}"
|
1143 |
by auto |
|
1144 |
||
1145 |
lemma Image_empty2 [simp]: "R``{} = {}"
|
|
1146 |
by blast |
|
| 12905 | 1147 |
|
1148 |
lemma Image_Id [simp]: "Id `` A = A" |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1149 |
by blast |
| 12905 | 1150 |
|
| 30198 | 1151 |
lemma Image_Id_on [simp]: "Id_on A `` B = A \<inter> B" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1152 |
by blast |
| 13830 | 1153 |
|
1154 |
lemma Image_Int_subset: "R `` (A \<inter> B) \<subseteq> R `` A \<inter> R `` B" |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1155 |
by blast |
| 12905 | 1156 |
|
| 63404 | 1157 |
lemma Image_Int_eq: "single_valued (converse R) \<Longrightarrow> R `` (A \<inter> B) = R `` A \<inter> R `` B" |
| 63612 | 1158 |
by (auto simp: single_valued_def) |
| 12905 | 1159 |
|
| 13830 | 1160 |
lemma Image_Un: "R `` (A \<union> B) = R `` A \<union> R `` B" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1161 |
by blast |
| 12905 | 1162 |
|
|
13812
91713a1915ee
converting HOL/UNITY to use unconditional fairness
paulson
parents:
13639
diff
changeset
|
1163 |
lemma Un_Image: "(R \<union> S) `` A = R `` A \<union> S `` A" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1164 |
by blast |
|
13812
91713a1915ee
converting HOL/UNITY to use unconditional fairness
paulson
parents:
13639
diff
changeset
|
1165 |
|
| 63404 | 1166 |
lemma Image_subset: "r \<subseteq> A \<times> B \<Longrightarrow> r``C \<subseteq> B" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1167 |
by (iprover intro!: subsetI elim!: ImageE dest!: subsetD SigmaD2) |
| 12905 | 1168 |
|
| 13830 | 1169 |
lemma Image_eq_UN: "r``B = (\<Union>y\<in> B. r``{y})"
|
| 61799 | 1170 |
\<comment> \<open>NOT suitable for rewriting\<close> |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1171 |
by blast |
| 12905 | 1172 |
|
| 63404 | 1173 |
lemma Image_mono: "r' \<subseteq> r \<Longrightarrow> A' \<subseteq> A \<Longrightarrow> (r' `` A') \<subseteq> (r `` A)" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1174 |
by blast |
| 12905 | 1175 |
|
| 69275 | 1176 |
lemma Image_UN: "r `` (\<Union>(B ` A)) = (\<Union>x\<in>A. r `` (B x))" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1177 |
by blast |
| 13830 | 1178 |
|
|
54410
0a578fb7fb73
countability of the image of a reflexive transitive closure
hoelzl
parents:
54147
diff
changeset
|
1179 |
lemma UN_Image: "(\<Union>i\<in>I. X i) `` S = (\<Union>i\<in>I. X i `` S)" |
|
0a578fb7fb73
countability of the image of a reflexive transitive closure
hoelzl
parents:
54147
diff
changeset
|
1180 |
by auto |
|
0a578fb7fb73
countability of the image of a reflexive transitive closure
hoelzl
parents:
54147
diff
changeset
|
1181 |
|
| 69275 | 1182 |
lemma Image_INT_subset: "(r `` (\<Inter>(B ` A))) \<subseteq> (\<Inter>x\<in>A. r `` (B x))" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1183 |
by blast |
| 12905 | 1184 |
|
| 63404 | 1185 |
text \<open>Converse inclusion requires some assumptions\<close> |
|
75669
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
75541
diff
changeset
|
1186 |
lemma Image_INT_eq: |
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
75541
diff
changeset
|
1187 |
assumes "single_valued (r\<inverse>)" |
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
75541
diff
changeset
|
1188 |
and "A \<noteq> {}"
|
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
75541
diff
changeset
|
1189 |
shows "r `` (\<Inter>(B ` A)) = (\<Inter>x\<in>A. r `` B x)" |
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
75541
diff
changeset
|
1190 |
proof(rule equalityI, rule Image_INT_subset) |
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
75541
diff
changeset
|
1191 |
show "(\<Inter>x\<in>A. r `` B x) \<subseteq> r `` \<Inter> (B ` A)" |
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
75541
diff
changeset
|
1192 |
proof |
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
75541
diff
changeset
|
1193 |
fix x |
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
75541
diff
changeset
|
1194 |
assume "x \<in> (\<Inter>x\<in>A. r `` B x)" |
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
75541
diff
changeset
|
1195 |
then show "x \<in> r `` \<Inter> (B ` A)" |
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
75541
diff
changeset
|
1196 |
using assms unfolding single_valued_def by simp blast |
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
75541
diff
changeset
|
1197 |
qed |
|
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
75541
diff
changeset
|
1198 |
qed |
| 12905 | 1199 |
|
| 63404 | 1200 |
lemma Image_subset_eq: "r``A \<subseteq> B \<longleftrightarrow> A \<subseteq> - ((r\<inverse>) `` (- B))" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1201 |
by blast |
| 12905 | 1202 |
|
| 63404 | 1203 |
lemma Image_Collect_case_prod [simp]: "{(x, y). P x y} `` A = {y. \<exists>x\<in>A. P x y}"
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1204 |
by auto |
| 12905 | 1205 |
|
|
54410
0a578fb7fb73
countability of the image of a reflexive transitive closure
hoelzl
parents:
54147
diff
changeset
|
1206 |
lemma Sigma_Image: "(SIGMA x:A. B x) `` X = (\<Union>x\<in>X \<inter> A. B x)" |
|
0a578fb7fb73
countability of the image of a reflexive transitive closure
hoelzl
parents:
54147
diff
changeset
|
1207 |
by auto |
|
0a578fb7fb73
countability of the image of a reflexive transitive closure
hoelzl
parents:
54147
diff
changeset
|
1208 |
|
|
0a578fb7fb73
countability of the image of a reflexive transitive closure
hoelzl
parents:
54147
diff
changeset
|
1209 |
lemma relcomp_Image: "(X O Y) `` Z = Y `` (X `` Z)" |
|
0a578fb7fb73
countability of the image of a reflexive transitive closure
hoelzl
parents:
54147
diff
changeset
|
1210 |
by auto |
| 12905 | 1211 |
|
| 68455 | 1212 |
lemma finite_Image[simp]: assumes "finite R" shows "finite (R `` A)" |
1213 |
by(rule finite_subset[OF _ finite_Range[OF assms]]) auto |
|
1214 |
||
|
63376
4c0cc2b356f0
default one-step rules for predicates on relations;
haftmann
parents:
62343
diff
changeset
|
1215 |
|
| 60758 | 1216 |
subsubsection \<open>Inverse image\<close> |
| 12905 | 1217 |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1218 |
definition inv_image :: "'b rel \<Rightarrow> ('a \<Rightarrow> 'b) \<Rightarrow> 'a rel"
|
| 63404 | 1219 |
where "inv_image r f = {(x, y). (f x, f y) \<in> r}"
|
|
46692
1f8b766224f6
tuned structure; dropped already existing syntax declarations
haftmann
parents:
46691
diff
changeset
|
1220 |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1221 |
definition inv_imagep :: "('b \<Rightarrow> 'b \<Rightarrow> bool) \<Rightarrow> ('a \<Rightarrow> 'b) \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> bool"
|
| 63404 | 1222 |
where "inv_imagep r f = (\<lambda>x y. r (f x) (f y))" |
| 46694 | 1223 |
|
1224 |
lemma [pred_set_conv]: "inv_imagep (\<lambda>x y. (x, y) \<in> r) f = (\<lambda>x y. (x, y) \<in> inv_image r f)" |
|
1225 |
by (simp add: inv_image_def inv_imagep_def) |
|
1226 |
||
| 63404 | 1227 |
lemma sym_inv_image: "sym r \<Longrightarrow> sym (inv_image r f)" |
1228 |
unfolding sym_def inv_image_def by blast |
|
| 19228 | 1229 |
|
| 63404 | 1230 |
lemma trans_inv_image: "trans r \<Longrightarrow> trans (inv_image r f)" |
1231 |
unfolding trans_def inv_image_def |
|
|
71404
f2b783abfbe7
A few lemmas connected with orderings
paulson <lp15@cam.ac.uk>
parents:
69905
diff
changeset
|
1232 |
by (simp (no_asm)) blast |
|
f2b783abfbe7
A few lemmas connected with orderings
paulson <lp15@cam.ac.uk>
parents:
69905
diff
changeset
|
1233 |
|
|
f2b783abfbe7
A few lemmas connected with orderings
paulson <lp15@cam.ac.uk>
parents:
69905
diff
changeset
|
1234 |
lemma total_inv_image: "\<lbrakk>inj f; total r\<rbrakk> \<Longrightarrow> total (inv_image r f)" |
|
f2b783abfbe7
A few lemmas connected with orderings
paulson <lp15@cam.ac.uk>
parents:
69905
diff
changeset
|
1235 |
unfolding inv_image_def total_on_def by (auto simp: inj_eq) |
| 12905 | 1236 |
|
|
71935
82b00b8f1871
fixed the utterly weird definitions of asym / asymp, and added many asym lemmas
paulson <lp15@cam.ac.uk>
parents:
71827
diff
changeset
|
1237 |
lemma asym_inv_image: "asym R \<Longrightarrow> asym (inv_image R f)" |
|
82b00b8f1871
fixed the utterly weird definitions of asym / asymp, and added many asym lemmas
paulson <lp15@cam.ac.uk>
parents:
71827
diff
changeset
|
1238 |
by (simp add: inv_image_def asym_iff) |
|
82b00b8f1871
fixed the utterly weird definitions of asym / asymp, and added many asym lemmas
paulson <lp15@cam.ac.uk>
parents:
71827
diff
changeset
|
1239 |
|
| 63404 | 1240 |
lemma in_inv_image[simp]: "(x, y) \<in> inv_image r f \<longleftrightarrow> (f x, f y) \<in> r" |
|
71404
f2b783abfbe7
A few lemmas connected with orderings
paulson <lp15@cam.ac.uk>
parents:
69905
diff
changeset
|
1241 |
by (auto simp: inv_image_def) |
|
32463
3a0a65ca2261
moved lemma Wellfounded.in_inv_image to Relation.thy
krauss
parents:
32235
diff
changeset
|
1242 |
|
| 63404 | 1243 |
lemma converse_inv_image[simp]: "(inv_image R f)\<inverse> = inv_image (R\<inverse>) f" |
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1244 |
unfolding inv_image_def converse_unfold by auto |
| 33218 | 1245 |
|
|
46664
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
1246 |
lemma in_inv_imagep [simp]: "inv_imagep r f x y = r (f x) (f y)" |
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
1247 |
by (simp add: inv_imagep_def) |
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
1248 |
|
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
1249 |
|
| 60758 | 1250 |
subsubsection \<open>Powerset\<close> |
|
46664
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
1251 |
|
|
46752
e9e7209eb375
more fundamental pred-to-set conversions, particularly by means of inductive_set; associated consolidation of some theorem names (c.f. NEWS)
haftmann
parents:
46696
diff
changeset
|
1252 |
definition Powp :: "('a \<Rightarrow> bool) \<Rightarrow> 'a set \<Rightarrow> bool"
|
| 63404 | 1253 |
where "Powp A = (\<lambda>B. \<forall>x \<in> B. A x)" |
|
46664
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
1254 |
|
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
1255 |
lemma Powp_Pow_eq [pred_set_conv]: "Powp (\<lambda>x. x \<in> A) = (\<lambda>x. x \<in> Pow A)" |
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
1256 |
by (auto simp add: Powp_def fun_eq_iff) |
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
1257 |
|
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
1258 |
lemmas Powp_mono [mono] = Pow_mono [to_pred] |
|
1f6c140f9c72
moved predicate relations and conversion rules between set and predicate relations from Predicate.thy to Relation.thy; moved Predicate.thy upwards in theory hierarchy
haftmann
parents:
46638
diff
changeset
|
1259 |
|
|
63376
4c0cc2b356f0
default one-step rules for predicates on relations;
haftmann
parents:
62343
diff
changeset
|
1260 |
|
| 69593 | 1261 |
subsubsection \<open>Expressing relation operations via \<^const>\<open>Finite_Set.fold\<close>\<close> |
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1262 |
|
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1263 |
lemma Id_on_fold: |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1264 |
assumes "finite A" |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1265 |
shows "Id_on A = Finite_Set.fold (\<lambda>x. Set.insert (Pair x x)) {} A"
|
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1266 |
proof - |
| 63404 | 1267 |
interpret comp_fun_commute "\<lambda>x. Set.insert (Pair x x)" |
1268 |
by standard auto |
|
1269 |
from assms show ?thesis |
|
1270 |
unfolding Id_on_def by (induct A) simp_all |
|
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1271 |
qed |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1272 |
|
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1273 |
lemma comp_fun_commute_Image_fold: |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1274 |
"comp_fun_commute (\<lambda>(x,y) A. if x \<in> S then Set.insert y A else A)" |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1275 |
proof - |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1276 |
interpret comp_fun_idem Set.insert |
| 63404 | 1277 |
by (fact comp_fun_idem_insert) |
1278 |
show ?thesis |
|
| 63612 | 1279 |
by standard (auto simp: fun_eq_iff comp_fun_commute split: prod.split) |
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1280 |
qed |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1281 |
|
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1282 |
lemma Image_fold: |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1283 |
assumes "finite R" |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1284 |
shows "R `` S = Finite_Set.fold (\<lambda>(x,y) A. if x \<in> S then Set.insert y A else A) {} R"
|
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1285 |
proof - |
| 63404 | 1286 |
interpret comp_fun_commute "(\<lambda>(x,y) A. if x \<in> S then Set.insert y A else A)" |
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1287 |
by (rule comp_fun_commute_Image_fold) |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1288 |
have *: "\<And>x F. Set.insert x F `` S = (if fst x \<in> S then Set.insert (snd x) (F `` S) else (F `` S))" |
| 52749 | 1289 |
by (force intro: rev_ImageI) |
| 63404 | 1290 |
show ?thesis |
1291 |
using assms by (induct R) (auto simp: *) |
|
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1292 |
qed |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1293 |
|
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1294 |
lemma insert_relcomp_union_fold: |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1295 |
assumes "finite S" |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1296 |
shows "{x} O S \<union> X = Finite_Set.fold (\<lambda>(w,z) A'. if snd x = w then Set.insert (fst x,z) A' else A') X S"
|
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1297 |
proof - |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1298 |
interpret comp_fun_commute "\<lambda>(w,z) A'. if snd x = w then Set.insert (fst x,z) A' else A'" |
| 63404 | 1299 |
proof - |
1300 |
interpret comp_fun_idem Set.insert |
|
1301 |
by (fact comp_fun_idem_insert) |
|
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1302 |
show "comp_fun_commute (\<lambda>(w,z) A'. if snd x = w then Set.insert (fst x,z) A' else A')" |
| 63404 | 1303 |
by standard (auto simp add: fun_eq_iff split: prod.split) |
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1304 |
qed |
| 63404 | 1305 |
have *: "{x} O S = {(x', z). x' = fst x \<and> (snd x, z) \<in> S}"
|
1306 |
by (auto simp: relcomp_unfold intro!: exI) |
|
1307 |
show ?thesis |
|
1308 |
unfolding * using \<open>finite S\<close> by (induct S) (auto split: prod.split) |
|
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1309 |
qed |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1310 |
|
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1311 |
lemma insert_relcomp_fold: |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1312 |
assumes "finite S" |
| 63404 | 1313 |
shows "Set.insert x R O S = |
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1314 |
Finite_Set.fold (\<lambda>(w,z) A'. if snd x = w then Set.insert (fst x,z) A' else A') (R O S) S" |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1315 |
proof - |
| 63404 | 1316 |
have "Set.insert x R O S = ({x} O S) \<union> (R O S)"
|
1317 |
by auto |
|
1318 |
then show ?thesis |
|
1319 |
by (auto simp: insert_relcomp_union_fold [OF assms]) |
|
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1320 |
qed |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1321 |
|
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1322 |
lemma comp_fun_commute_relcomp_fold: |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1323 |
assumes "finite S" |
| 63404 | 1324 |
shows "comp_fun_commute (\<lambda>(x,y) A. |
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1325 |
Finite_Set.fold (\<lambda>(w,z) A'. if y = w then Set.insert (x,z) A' else A') A S)" |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1326 |
proof - |
| 63404 | 1327 |
have *: "\<And>a b A. |
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1328 |
Finite_Set.fold (\<lambda>(w, z) A'. if b = w then Set.insert (a, z) A' else A') A S = {(a,b)} O S \<union> A"
|
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1329 |
by (auto simp: insert_relcomp_union_fold[OF assms] cong: if_cong) |
| 63404 | 1330 |
show ?thesis |
1331 |
by standard (auto simp: *) |
|
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1332 |
qed |
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1333 |
|
|
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1334 |
lemma relcomp_fold: |
| 63404 | 1335 |
assumes "finite R" "finite S" |
1336 |
shows "R O S = Finite_Set.fold |
|
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1337 |
(\<lambda>(x,y) A. Finite_Set.fold (\<lambda>(w,z) A'. if y = w then Set.insert (x,z) A' else A') A S) {} R"
|
| 73832 | 1338 |
proof - |
1339 |
interpret commute_relcomp_fold: comp_fun_commute |
|
1340 |
"(\<lambda>(x, y) A. Finite_Set.fold (\<lambda>(w, z) A'. if y = w then insert (x, z) A' else A') A S)" |
|
1341 |
by (fact comp_fun_commute_relcomp_fold[OF \<open>finite S\<close>]) |
|
1342 |
from assms show ?thesis |
|
1343 |
by (induct R) (auto simp: comp_fun_commute_relcomp_fold insert_relcomp_fold cong: if_cong) |
|
1344 |
qed |
|
|
48620
fc9be489e2fb
more relation operations expressed by Finite_Set.fold
kuncar
parents:
48253
diff
changeset
|
1345 |
|
|
1128
64b30e3cc6d4
Trancl is now based on Relation which used to be in Integ.
nipkow
parents:
diff
changeset
|
1346 |
end |