author | Fabian Huch <huch@in.tum.de> |
Fri, 22 Jul 2022 14:39:56 +0200 | |
changeset 75669 | 43f5dfb7fa35 |
parent 70180 | 5beca7396282 |
permissions | -rw-r--r-- |
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(* Title: HOL/Order_Relation.thy |
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Author: Tobias Nipkow |
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Author: Andrei Popescu, TU Muenchen |
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*) |
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section \<open>Orders as Relations\<close> |
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|
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theory Order_Relation |
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imports Wfrec |
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begin |
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||
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subsection \<open>Orders on a set\<close> |
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|
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definition "preorder_on A r \<equiv> refl_on A r \<and> trans r" |
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definition "partial_order_on A r \<equiv> preorder_on A r \<and> antisym r" |
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definition "linear_order_on A r \<equiv> partial_order_on A r \<and> total_on A r" |
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definition "strict_linear_order_on A r \<equiv> trans r \<and> irrefl r \<and> total_on A r" |
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definition "well_order_on A r \<equiv> linear_order_on A r \<and> wf(r - Id)" |
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lemmas order_on_defs = |
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preorder_on_def partial_order_on_def linear_order_on_def |
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strict_linear_order_on_def well_order_on_def |
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||
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lemma partial_order_onD: |
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assumes "partial_order_on A r" shows "refl_on A r" and "trans r" and "antisym r" |
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using assms unfolding partial_order_on_def preorder_on_def by auto |
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|
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lemma preorder_on_empty[simp]: "preorder_on {} {}" |
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by (simp add: preorder_on_def trans_def) |
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lemma partial_order_on_empty[simp]: "partial_order_on {} {}" |
|
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by (simp add: partial_order_on_def) |
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|
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lemma lnear_order_on_empty[simp]: "linear_order_on {} {}" |
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by (simp add: linear_order_on_def) |
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|
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lemma well_order_on_empty[simp]: "well_order_on {} {}" |
|
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by (simp add: well_order_on_def) |
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|
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|
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lemma preorder_on_converse[simp]: "preorder_on A (r\<inverse>) = preorder_on A r" |
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by (simp add: preorder_on_def) |
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lemma partial_order_on_converse[simp]: "partial_order_on A (r\<inverse>) = partial_order_on A r" |
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by (simp add: partial_order_on_def) |
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lemma linear_order_on_converse[simp]: "linear_order_on A (r\<inverse>) = linear_order_on A r" |
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by (simp add: linear_order_on_def) |
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lemma partial_order_on_acyclic: |
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"partial_order_on A r \<Longrightarrow> acyclic (r - Id)" |
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by (simp add: acyclic_irrefl partial_order_on_def preorder_on_def trans_diff_Id) |
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||
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lemma partial_order_on_well_order_on: |
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"finite r \<Longrightarrow> partial_order_on A r \<Longrightarrow> wf (r - Id)" |
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by (simp add: finite_acyclic_wf partial_order_on_acyclic) |
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||
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lemma strict_linear_order_on_diff_Id: "linear_order_on A r \<Longrightarrow> strict_linear_order_on A (r - Id)" |
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by (simp add: order_on_defs trans_diff_Id) |
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lemma linear_order_on_singleton [simp]: "linear_order_on {x} {(x, x)}" |
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by (simp add: order_on_defs) |
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lemma linear_order_on_acyclic: |
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assumes "linear_order_on A r" |
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shows "acyclic (r - Id)" |
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using strict_linear_order_on_diff_Id[OF assms] |
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by (auto simp add: acyclic_irrefl strict_linear_order_on_def) |
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lemma linear_order_on_well_order_on: |
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assumes "finite r" |
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shows "linear_order_on A r \<longleftrightarrow> well_order_on A r" |
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unfolding well_order_on_def |
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using assms finite_acyclic_wf[OF _ linear_order_on_acyclic, of r] by blast |
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subsection \<open>Orders on the field\<close> |
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abbreviation "Refl r \<equiv> refl_on (Field r) r" |
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|
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abbreviation "Preorder r \<equiv> preorder_on (Field r) r" |
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||
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abbreviation "Partial_order r \<equiv> partial_order_on (Field r) r" |
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abbreviation "Total r \<equiv> total_on (Field r) r" |
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abbreviation "Linear_order r \<equiv> linear_order_on (Field r) r" |
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||
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abbreviation "Well_order r \<equiv> well_order_on (Field r) r" |
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lemma subset_Image_Image_iff: |
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"Preorder r \<Longrightarrow> A \<subseteq> Field r \<Longrightarrow> B \<subseteq> Field r \<Longrightarrow> |
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r `` A \<subseteq> r `` B \<longleftrightarrow> (\<forall>a\<in>A.\<exists>b\<in>B. (b, a) \<in> r)" |
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apply (simp add: preorder_on_def refl_on_def Image_def subset_eq) |
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apply (simp only: trans_def) |
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apply fast |
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done |
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lemma subset_Image1_Image1_iff: |
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"Preorder r \<Longrightarrow> a \<in> Field r \<Longrightarrow> b \<in> Field r \<Longrightarrow> r `` {a} \<subseteq> r `` {b} \<longleftrightarrow> (b, a) \<in> r" |
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by (simp add: subset_Image_Image_iff) |
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lemma Refl_antisym_eq_Image1_Image1_iff: |
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assumes "Refl r" |
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and as: "antisym r" |
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and abf: "a \<in> Field r" "b \<in> Field r" |
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shows "r `` {a} = r `` {b} \<longleftrightarrow> a = b" |
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(is "?lhs \<longleftrightarrow> ?rhs") |
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proof |
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assume ?lhs |
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then have *: "\<And>x. (a, x) \<in> r \<longleftrightarrow> (b, x) \<in> r" |
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by (simp add: set_eq_iff) |
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have "(a, a) \<in> r" "(b, b) \<in> r" using \<open>Refl r\<close> abf by (simp_all add: refl_on_def) |
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then have "(a, b) \<in> r" "(b, a) \<in> r" using *[of a] *[of b] by simp_all |
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then show ?rhs |
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using \<open>antisym r\<close>[unfolded antisym_def] by blast |
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next |
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assume ?rhs |
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then show ?lhs by fast |
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qed |
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lemma Partial_order_eq_Image1_Image1_iff: |
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"Partial_order r \<Longrightarrow> a \<in> Field r \<Longrightarrow> b \<in> Field r \<Longrightarrow> r `` {a} = r `` {b} \<longleftrightarrow> a = b" |
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by (auto simp: order_on_defs Refl_antisym_eq_Image1_Image1_iff) |
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lemma Total_Id_Field: |
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assumes "Total r" |
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and not_Id: "\<not> r \<subseteq> Id" |
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shows "Field r = Field (r - Id)" |
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proof - |
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have "Field r \<subseteq> Field (r - Id)" |
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proof (rule subsetI) |
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fix a assume *: "a \<in> Field r" |
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from not_Id have "r \<noteq> {}" by fast |
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with not_Id obtain b and c where "b \<noteq> c \<and> (b,c) \<in> r" by auto |
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then have "b \<noteq> c \<and> {b, c} \<subseteq> Field r" by (auto simp: Field_def) |
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with * obtain d where "d \<in> Field r" "d \<noteq> a" by auto |
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with * \<open>Total r\<close> have "(a, d) \<in> r \<or> (d, a) \<in> r" by (simp add: total_on_def) |
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with \<open>d \<noteq> a\<close> show "a \<in> Field (r - Id)" unfolding Field_def by blast |
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qed |
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then show ?thesis |
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using mono_Field[of "r - Id" r] Diff_subset[of r Id] by auto |
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qed |
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||
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subsection\<open>Relations given by a predicate and the field\<close> |
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|
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definition relation_of :: "('a \<Rightarrow> 'a \<Rightarrow> bool) \<Rightarrow> 'a set \<Rightarrow> ('a \<times> 'a) set" |
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where "relation_of P A \<equiv> { (a, b) \<in> A \<times> A. P a b }" |
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|
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lemma Field_relation_of: |
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assumes "refl_on A (relation_of P A)" shows "Field (relation_of P A) = A" |
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using assms unfolding refl_on_def Field_def by auto |
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|
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lemma partial_order_on_relation_ofI: |
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assumes refl: "\<And>a. a \<in> A \<Longrightarrow> P a a" |
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and trans: "\<And>a b c. \<lbrakk> a \<in> A; b \<in> A; c \<in> A \<rbrakk> \<Longrightarrow> P a b \<Longrightarrow> P b c \<Longrightarrow> P a c" |
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and antisym: "\<And>a b. \<lbrakk> a \<in> A; b \<in> A \<rbrakk> \<Longrightarrow> P a b \<Longrightarrow> P b a \<Longrightarrow> a = b" |
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shows "partial_order_on A (relation_of P A)" |
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165 |
proof - |
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from refl have "refl_on A (relation_of P A)" |
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unfolding refl_on_def relation_of_def by auto |
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moreover have "trans (relation_of P A)" and "antisym (relation_of P A)" |
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unfolding relation_of_def |
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by (auto intro: transI dest: trans, auto intro: antisymI dest: antisym) |
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ultimately show ?thesis |
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unfolding partial_order_on_def preorder_on_def by simp |
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173 |
qed |
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174 |
|
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lemma Partial_order_relation_ofI: |
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assumes "partial_order_on A (relation_of P A)" shows "Partial_order (relation_of P A)" |
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using Field_relation_of assms partial_order_on_def preorder_on_def by fastforce |
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|
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|
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subsection \<open>Orders on a type\<close> |
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|
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abbreviation "strict_linear_order \<equiv> strict_linear_order_on UNIV" |
|
183 |
||
184 |
abbreviation "linear_order \<equiv> linear_order_on UNIV" |
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||
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abbreviation "well_order \<equiv> well_order_on UNIV" |
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|
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188 |
|
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subsection \<open>Order-like relations\<close> |
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190 |
|
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text \<open> |
192 |
In this subsection, we develop basic concepts and results pertaining |
|
193 |
to order-like relations, i.e., to reflexive and/or transitive and/or symmetric and/or |
|
194 |
total relations. We also further define upper and lower bounds operators. |
|
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\<close> |
|
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196 |
|
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197 |
|
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subsubsection \<open>Auxiliaries\<close> |
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|
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lemma refl_on_domain: "refl_on A r \<Longrightarrow> (a, b) \<in> r \<Longrightarrow> a \<in> A \<and> b \<in> A" |
201 |
by (auto simp add: refl_on_def) |
|
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|
63572 | 203 |
corollary well_order_on_domain: "well_order_on A r \<Longrightarrow> (a, b) \<in> r \<Longrightarrow> a \<in> A \<and> b \<in> A" |
204 |
by (auto simp add: refl_on_domain order_on_defs) |
|
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205 |
|
63572 | 206 |
lemma well_order_on_Field: "well_order_on A r \<Longrightarrow> A = Field r" |
207 |
by (auto simp add: refl_on_def Field_def order_on_defs) |
|
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208 |
|
63572 | 209 |
lemma well_order_on_Well_order: "well_order_on A r \<Longrightarrow> A = Field r \<and> Well_order r" |
210 |
using well_order_on_Field [of A] by auto |
|
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211 |
|
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212 |
lemma Total_subset_Id: |
63572 | 213 |
assumes "Total r" |
214 |
and "r \<subseteq> Id" |
|
215 |
shows "r = {} \<or> (\<exists>a. r = {(a, a)})" |
|
216 |
proof - |
|
217 |
have "\<exists>a. r = {(a, a)}" if "r \<noteq> {}" |
|
218 |
proof - |
|
219 |
from that obtain a b where ab: "(a, b) \<in> r" by fast |
|
220 |
with \<open>r \<subseteq> Id\<close> have "a = b" by blast |
|
221 |
with ab have aa: "(a, a) \<in> r" by simp |
|
222 |
have "a = c \<and> a = d" if "(c, d) \<in> r" for c d |
|
223 |
proof - |
|
224 |
from that have "{a, c, d} \<subseteq> Field r" |
|
225 |
using ab unfolding Field_def by blast |
|
226 |
then have "((a, c) \<in> r \<or> (c, a) \<in> r \<or> a = c) \<and> ((a, d) \<in> r \<or> (d, a) \<in> r \<or> a = d)" |
|
227 |
using \<open>Total r\<close> unfolding total_on_def by blast |
|
228 |
with \<open>r \<subseteq> Id\<close> show ?thesis by blast |
|
229 |
qed |
|
230 |
then have "r \<subseteq> {(a, a)}" by auto |
|
231 |
with aa show ?thesis by blast |
|
232 |
qed |
|
233 |
then show ?thesis by blast |
|
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234 |
qed |
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|
235 |
|
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236 |
lemma Linear_order_in_diff_Id: |
63572 | 237 |
assumes "Linear_order r" |
238 |
and "a \<in> Field r" |
|
239 |
and "b \<in> Field r" |
|
240 |
shows "(a, b) \<in> r \<longleftrightarrow> (b, a) \<notin> r - Id" |
|
241 |
using assms unfolding order_on_defs total_on_def antisym_def Id_def refl_on_def by force |
|
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|
242 |
|
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|
243 |
|
60758 | 244 |
subsubsection \<open>The upper and lower bounds operators\<close> |
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245 |
|
63572 | 246 |
text \<open> |
247 |
Here we define upper (``above") and lower (``below") bounds operators. We |
|
248 |
think of \<open>r\<close> as a \<^emph>\<open>non-strict\<close> relation. The suffix \<open>S\<close> at the names of |
|
249 |
some operators indicates that the bounds are strict -- e.g., \<open>underS a\<close> is |
|
250 |
the set of all strict lower bounds of \<open>a\<close> (w.r.t. \<open>r\<close>). Capitalization of |
|
251 |
the first letter in the name reminds that the operator acts on sets, rather |
|
252 |
than on individual elements. |
|
253 |
\<close> |
|
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254 |
|
63572 | 255 |
definition under :: "'a rel \<Rightarrow> 'a \<Rightarrow> 'a set" |
256 |
where "under r a \<equiv> {b. (b, a) \<in> r}" |
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257 |
|
63572 | 258 |
definition underS :: "'a rel \<Rightarrow> 'a \<Rightarrow> 'a set" |
259 |
where "underS r a \<equiv> {b. b \<noteq> a \<and> (b, a) \<in> r}" |
|
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260 |
|
63572 | 261 |
definition Under :: "'a rel \<Rightarrow> 'a set \<Rightarrow> 'a set" |
262 |
where "Under r A \<equiv> {b \<in> Field r. \<forall>a \<in> A. (b, a) \<in> r}" |
|
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263 |
|
63572 | 264 |
definition UnderS :: "'a rel \<Rightarrow> 'a set \<Rightarrow> 'a set" |
265 |
where "UnderS r A \<equiv> {b \<in> Field r. \<forall>a \<in> A. b \<noteq> a \<and> (b, a) \<in> r}" |
|
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266 |
|
63572 | 267 |
definition above :: "'a rel \<Rightarrow> 'a \<Rightarrow> 'a set" |
268 |
where "above r a \<equiv> {b. (a, b) \<in> r}" |
|
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269 |
|
63572 | 270 |
definition aboveS :: "'a rel \<Rightarrow> 'a \<Rightarrow> 'a set" |
271 |
where "aboveS r a \<equiv> {b. b \<noteq> a \<and> (a, b) \<in> r}" |
|
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272 |
|
63572 | 273 |
definition Above :: "'a rel \<Rightarrow> 'a set \<Rightarrow> 'a set" |
274 |
where "Above r A \<equiv> {b \<in> Field r. \<forall>a \<in> A. (a, b) \<in> r}" |
|
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275 |
|
63572 | 276 |
definition AboveS :: "'a rel \<Rightarrow> 'a set \<Rightarrow> 'a set" |
277 |
where "AboveS r A \<equiv> {b \<in> Field r. \<forall>a \<in> A. b \<noteq> a \<and> (a, b) \<in> r}" |
|
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278 |
|
55173 | 279 |
definition ofilter :: "'a rel \<Rightarrow> 'a set \<Rightarrow> bool" |
63572 | 280 |
where "ofilter r A \<equiv> A \<subseteq> Field r \<and> (\<forall>a \<in> A. under r a \<subseteq> A)" |
55173 | 281 |
|
63572 | 282 |
text \<open> |
283 |
Note: In the definitions of \<open>Above[S]\<close> and \<open>Under[S]\<close>, we bounded |
|
284 |
comprehension by \<open>Field r\<close> in order to properly cover the case of \<open>A\<close> being |
|
285 |
empty. |
|
286 |
\<close> |
|
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287 |
|
63572 | 288 |
lemma underS_subset_under: "underS r a \<subseteq> under r a" |
289 |
by (auto simp add: underS_def under_def) |
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|
290 |
|
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291 |
lemma underS_notIn: "a \<notin> underS r a" |
63572 | 292 |
by (simp add: underS_def) |
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|
293 |
|
63572 | 294 |
lemma Refl_under_in: "Refl r \<Longrightarrow> a \<in> Field r \<Longrightarrow> a \<in> under r a" |
295 |
by (simp add: refl_on_def under_def) |
|
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|
296 |
|
63572 | 297 |
lemma AboveS_disjoint: "A \<inter> (AboveS r A) = {}" |
298 |
by (auto simp add: AboveS_def) |
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|
299 |
|
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|
300 |
lemma in_AboveS_underS: "a \<in> Field r \<Longrightarrow> a \<in> AboveS r (underS r a)" |
63572 | 301 |
by (auto simp add: AboveS_def underS_def) |
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302 |
|
63572 | 303 |
lemma Refl_under_underS: "Refl r \<Longrightarrow> a \<in> Field r \<Longrightarrow> under r a = underS r a \<union> {a}" |
304 |
unfolding under_def underS_def |
|
305 |
using refl_on_def[of _ r] by fastforce |
|
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|
306 |
|
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|
307 |
lemma underS_empty: "a \<notin> Field r \<Longrightarrow> underS r a = {}" |
63572 | 308 |
by (auto simp: Field_def underS_def) |
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309 |
|
63572 | 310 |
lemma under_Field: "under r a \<subseteq> Field r" |
311 |
by (auto simp: under_def Field_def) |
|
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312 |
|
63572 | 313 |
lemma underS_Field: "underS r a \<subseteq> Field r" |
314 |
by (auto simp: underS_def Field_def) |
|
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|
315 |
|
63572 | 316 |
lemma underS_Field2: "a \<in> Field r \<Longrightarrow> underS r a \<subset> Field r" |
317 |
using underS_notIn underS_Field by fast |
|
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|
318 |
|
63572 | 319 |
lemma underS_Field3: "Field r \<noteq> {} \<Longrightarrow> underS r a \<subset> Field r" |
320 |
by (cases "a \<in> Field r") (auto simp: underS_Field2 underS_empty) |
|
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|
321 |
|
63572 | 322 |
lemma AboveS_Field: "AboveS r A \<subseteq> Field r" |
323 |
by (auto simp: AboveS_def Field_def) |
|
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|
324 |
|
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|
325 |
lemma under_incr: |
63572 | 326 |
assumes "trans r" |
327 |
and "(a, b) \<in> r" |
|
328 |
shows "under r a \<subseteq> under r b" |
|
329 |
unfolding under_def |
|
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330 |
proof safe |
63572 | 331 |
fix x assume "(x, a) \<in> r" |
332 |
with assms trans_def[of r] show "(x, b) \<in> r" by blast |
|
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|
333 |
qed |
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changeset
|
334 |
|
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|
335 |
lemma underS_incr: |
63572 | 336 |
assumes "trans r" |
337 |
and "antisym r" |
|
338 |
and ab: "(a, b) \<in> r" |
|
339 |
shows "underS r a \<subseteq> underS r b" |
|
340 |
unfolding underS_def |
|
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|
341 |
proof safe |
63572 | 342 |
assume *: "b \<noteq> a" and **: "(b, a) \<in> r" |
343 |
with \<open>antisym r\<close> antisym_def[of r] ab show False |
|
344 |
by blast |
|
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|
345 |
next |
63572 | 346 |
fix x assume "x \<noteq> a" "(x, a) \<in> r" |
347 |
with ab \<open>trans r\<close> trans_def[of r] show "(x, b) \<in> r" |
|
348 |
by blast |
|
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|
349 |
qed |
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|
350 |
|
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|
351 |
lemma underS_incl_iff: |
63572 | 352 |
assumes LO: "Linear_order r" |
353 |
and INa: "a \<in> Field r" |
|
354 |
and INb: "b \<in> Field r" |
|
355 |
shows "underS r a \<subseteq> underS r b \<longleftrightarrow> (a, b) \<in> r" |
|
356 |
(is "?lhs \<longleftrightarrow> ?rhs") |
|
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|
357 |
proof |
63572 | 358 |
assume ?rhs |
359 |
with \<open>Linear_order r\<close> show ?lhs |
|
360 |
by (simp add: order_on_defs underS_incr) |
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|
361 |
next |
63572 | 362 |
assume *: ?lhs |
363 |
have "(a, b) \<in> r" if "a = b" |
|
364 |
using assms that by (simp add: order_on_defs refl_on_def) |
|
365 |
moreover have False if "a \<noteq> b" "(b, a) \<in> r" |
|
366 |
proof - |
|
367 |
from that have "b \<in> underS r a" unfolding underS_def by blast |
|
368 |
with * have "b \<in> underS r b" by blast |
|
369 |
then show ?thesis by (simp add: underS_notIn) |
|
370 |
qed |
|
371 |
ultimately show "(a,b) \<in> r" |
|
372 |
using assms order_on_defs[of "Field r" r] total_on_def[of "Field r" r] by blast |
|
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|
373 |
qed |
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|
374 |
|
70180 | 375 |
lemma finite_Partial_order_induct[consumes 3, case_names step]: |
376 |
assumes "Partial_order r" |
|
377 |
and "x \<in> Field r" |
|
378 |
and "finite r" |
|
379 |
and step: "\<And>x. x \<in> Field r \<Longrightarrow> (\<And>y. y \<in> aboveS r x \<Longrightarrow> P y) \<Longrightarrow> P x" |
|
380 |
shows "P x" |
|
381 |
using assms(2) |
|
382 |
proof (induct rule: wf_induct[of "r\<inverse> - Id"]) |
|
383 |
case 1 |
|
384 |
from assms(1,3) show "wf (r\<inverse> - Id)" |
|
385 |
using partial_order_on_well_order_on partial_order_on_converse by blast |
|
386 |
next |
|
387 |
case prems: (2 x) |
|
388 |
show ?case |
|
389 |
by (rule step) (use prems in \<open>auto simp: aboveS_def intro: FieldI2\<close>) |
|
390 |
qed |
|
391 |
||
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392 |
lemma finite_Linear_order_induct[consumes 3, case_names step]: |
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|
393 |
assumes "Linear_order r" |
63572 | 394 |
and "x \<in> Field r" |
395 |
and "finite r" |
|
396 |
and step: "\<And>x. x \<in> Field r \<Longrightarrow> (\<And>y. y \<in> aboveS r x \<Longrightarrow> P y) \<Longrightarrow> P x" |
|
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|
397 |
shows "P x" |
63572 | 398 |
using assms(2) |
399 |
proof (induct rule: wf_induct[of "r\<inverse> - Id"]) |
|
400 |
case 1 |
|
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401 |
from assms(1,3) show "wf (r\<inverse> - Id)" |
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|
402 |
using linear_order_on_well_order_on linear_order_on_converse |
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|
403 |
unfolding well_order_on_def by blast |
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|
404 |
next |
63572 | 405 |
case prems: (2 x) |
406 |
show ?case |
|
407 |
by (rule step) (use prems in \<open>auto simp: aboveS_def intro: FieldI2\<close>) |
|
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|
408 |
qed |
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|
409 |
|
55027 | 410 |
|
60758 | 411 |
subsection \<open>Variations on Well-Founded Relations\<close> |
55027 | 412 |
|
60758 | 413 |
text \<open> |
68484 | 414 |
This subsection contains some variations of the results from \<^theory>\<open>HOL.Wellfounded\<close>: |
63572 | 415 |
\<^item> means for slightly more direct definitions by well-founded recursion; |
416 |
\<^item> variations of well-founded induction; |
|
417 |
\<^item> means for proving a linear order to be a well-order. |
|
60758 | 418 |
\<close> |
55027 | 419 |
|
420 |
||
60758 | 421 |
subsubsection \<open>Characterizations of well-foundedness\<close> |
55027 | 422 |
|
63572 | 423 |
text \<open> |
424 |
A transitive relation is well-founded iff it is ``locally'' well-founded, |
|
425 |
i.e., iff its restriction to the lower bounds of of any element is |
|
426 |
well-founded. |
|
427 |
\<close> |
|
55027 | 428 |
|
429 |
lemma trans_wf_iff: |
|
63572 | 430 |
assumes "trans r" |
431 |
shows "wf r \<longleftrightarrow> (\<forall>a. wf (r \<inter> (r\<inverse>``{a} \<times> r\<inverse>``{a})))" |
|
432 |
proof - |
|
433 |
define R where "R a = r \<inter> (r\<inverse>``{a} \<times> r\<inverse>``{a})" for a |
|
434 |
have "wf (R a)" if "wf r" for a |
|
435 |
using that R_def wf_subset[of r "R a"] by auto |
|
55027 | 436 |
moreover |
63572 | 437 |
have "wf r" if *: "\<forall>a. wf(R a)" |
438 |
unfolding wf_def |
|
439 |
proof clarify |
|
440 |
fix phi a |
|
441 |
assume **: "\<forall>a. (\<forall>b. (b, a) \<in> r \<longrightarrow> phi b) \<longrightarrow> phi a" |
|
442 |
define chi where "chi b \<longleftrightarrow> (b, a) \<in> r \<longrightarrow> phi b" for b |
|
443 |
with * have "wf (R a)" by auto |
|
444 |
then have "(\<forall>b. (\<forall>c. (c, b) \<in> R a \<longrightarrow> chi c) \<longrightarrow> chi b) \<longrightarrow> (\<forall>b. chi b)" |
|
445 |
unfolding wf_def by blast |
|
446 |
also have "\<forall>b. (\<forall>c. (c, b) \<in> R a \<longrightarrow> chi c) \<longrightarrow> chi b" |
|
75669
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
447 |
proof safe |
63572 | 448 |
fix b |
75669
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
449 |
assume "\<forall>c. (c, b) \<in> R a \<longrightarrow> chi c" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
450 |
moreover have "(b, a) \<in> r \<Longrightarrow> \<forall>c. (c, b) \<in> r \<and> (c, a) \<in> r \<longrightarrow> phi c \<Longrightarrow> phi b" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
451 |
proof - |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
452 |
assume "(b, a) \<in> r" and "\<forall>c. (c, b) \<in> r \<and> (c, a) \<in> r \<longrightarrow> phi c" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
453 |
then have "\<forall>c. (c, b) \<in> r \<longrightarrow> phi c" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
454 |
using assms trans_def[of r] by blast |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
455 |
with ** show "phi b" by blast |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
456 |
qed |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
457 |
ultimately show "chi b" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
458 |
by (auto simp add: chi_def R_def) |
63572 | 459 |
qed |
460 |
finally have "\<forall>b. chi b" . |
|
461 |
with ** chi_def show "phi a" by blast |
|
462 |
qed |
|
463 |
ultimately show ?thesis unfolding R_def by blast |
|
55027 | 464 |
qed |
465 |
||
63952
354808e9f44b
new material connected with HOL Light measure theory, plus more rationalisation
paulson <lp15@cam.ac.uk>
parents:
63572
diff
changeset
|
466 |
text\<open>A transitive relation is well-founded if all initial segments are finite.\<close> |
354808e9f44b
new material connected with HOL Light measure theory, plus more rationalisation
paulson <lp15@cam.ac.uk>
parents:
63572
diff
changeset
|
467 |
corollary wf_finite_segments: |
354808e9f44b
new material connected with HOL Light measure theory, plus more rationalisation
paulson <lp15@cam.ac.uk>
parents:
63572
diff
changeset
|
468 |
assumes "irrefl r" and "trans r" and "\<And>x. finite {y. (y, x) \<in> r}" |
75669
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
469 |
shows "wf r" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
470 |
proof - |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
471 |
have "\<And>a. acyclic (r \<inter> {x. (x, a) \<in> r} \<times> {x. (x, a) \<in> r})" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
472 |
proof - |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
473 |
fix a |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
474 |
have "trans (r \<inter> ({x. (x, a) \<in> r} \<times> {x. (x, a) \<in> r}))" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
475 |
using assms unfolding trans_def Field_def by blast |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
476 |
then show "acyclic (r \<inter> {x. (x, a) \<in> r} \<times> {x. (x, a) \<in> r})" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
477 |
using assms acyclic_def assms irrefl_def by fastforce |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
478 |
qed |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
479 |
then show ?thesis |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
480 |
by (clarsimp simp: trans_wf_iff wf_iff_acyclic_if_finite converse_def assms) |
63952
354808e9f44b
new material connected with HOL Light measure theory, plus more rationalisation
paulson <lp15@cam.ac.uk>
parents:
63572
diff
changeset
|
481 |
qed |
354808e9f44b
new material connected with HOL Light measure theory, plus more rationalisation
paulson <lp15@cam.ac.uk>
parents:
63572
diff
changeset
|
482 |
|
61799 | 483 |
text \<open>The next lemma is a variation of \<open>wf_eq_minimal\<close> from Wellfounded, |
63572 | 484 |
allowing one to assume the set included in the field.\<close> |
55027 | 485 |
|
63572 | 486 |
lemma wf_eq_minimal2: "wf r \<longleftrightarrow> (\<forall>A. A \<subseteq> Field r \<and> A \<noteq> {} \<longrightarrow> (\<exists>a \<in> A. \<forall>a' \<in> A. (a', a) \<notin> r))" |
55027 | 487 |
proof- |
63572 | 488 |
let ?phi = "\<lambda>A. A \<noteq> {} \<longrightarrow> (\<exists>a \<in> A. \<forall>a' \<in> A. (a',a) \<notin> r)" |
489 |
have "wf r \<longleftrightarrow> (\<forall>A. ?phi A)" |
|
75669
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
490 |
proof |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
491 |
assume "wf r" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
492 |
show "\<forall>A. ?phi A" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
493 |
proof clarify |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
494 |
fix A:: "'a set" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
495 |
assume "A \<noteq> {}" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
496 |
then obtain x where "x \<in> A" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
497 |
by auto |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
498 |
show "\<exists>a\<in>A. \<forall>a'\<in>A. (a', a) \<notin> r" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
499 |
apply (rule wfE_min[of r x A]) |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
500 |
apply fact+ |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
501 |
by blast |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
502 |
qed |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
503 |
next |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
504 |
assume *: "\<forall>A. ?phi A" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
505 |
then show "wf r" |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
506 |
apply (clarsimp simp: ex_in_conv [THEN sym]) |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
507 |
apply (rule wfI_min) |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
508 |
by fast |
43f5dfb7fa35
tuned (some HOL lints, by Yecine Megdiche);
Fabian Huch <huch@in.tum.de>
parents:
70180
diff
changeset
|
509 |
qed |
63572 | 510 |
also have "(\<forall>A. ?phi A) \<longleftrightarrow> (\<forall>B \<subseteq> Field r. ?phi B)" |
55027 | 511 |
proof |
512 |
assume "\<forall>A. ?phi A" |
|
63572 | 513 |
then show "\<forall>B \<subseteq> Field r. ?phi B" by simp |
55027 | 514 |
next |
63572 | 515 |
assume *: "\<forall>B \<subseteq> Field r. ?phi B" |
55027 | 516 |
show "\<forall>A. ?phi A" |
63572 | 517 |
proof clarify |
518 |
fix A :: "'a set" |
|
519 |
assume **: "A \<noteq> {}" |
|
520 |
define B where "B = A \<inter> Field r" |
|
521 |
show "\<exists>a \<in> A. \<forall>a' \<in> A. (a', a) \<notin> r" |
|
522 |
proof (cases "B = {}") |
|
523 |
case True |
|
524 |
with ** obtain a where a: "a \<in> A" "a \<notin> Field r" |
|
525 |
unfolding B_def by blast |
|
526 |
with a have "\<forall>a' \<in> A. (a',a) \<notin> r" |
|
527 |
unfolding Field_def by blast |
|
528 |
with a show ?thesis by blast |
|
55027 | 529 |
next |
63572 | 530 |
case False |
531 |
have "B \<subseteq> Field r" unfolding B_def by blast |
|
532 |
with False * obtain a where a: "a \<in> B" "\<forall>a' \<in> B. (a', a) \<notin> r" |
|
533 |
by blast |
|
534 |
have "(a', a) \<notin> r" if "a' \<in> A" for a' |
|
535 |
proof |
|
536 |
assume a'a: "(a', a) \<in> r" |
|
537 |
with that have "a' \<in> B" unfolding B_def Field_def by blast |
|
538 |
with a a'a show False by blast |
|
55027 | 539 |
qed |
63572 | 540 |
with a show ?thesis unfolding B_def by blast |
55027 | 541 |
qed |
542 |
qed |
|
543 |
qed |
|
544 |
finally show ?thesis by blast |
|
545 |
qed |
|
546 |
||
547 |
||
60758 | 548 |
subsubsection \<open>Characterizations of well-foundedness\<close> |
55027 | 549 |
|
63572 | 550 |
text \<open> |
551 |
The next lemma and its corollary enable one to prove that a linear order is |
|
552 |
a well-order in a way which is more standard than via well-foundedness of |
|
553 |
the strict version of the relation. |
|
554 |
\<close> |
|
55027 | 555 |
|
556 |
lemma Linear_order_wf_diff_Id: |
|
63572 | 557 |
assumes "Linear_order r" |
558 |
shows "wf (r - Id) \<longleftrightarrow> (\<forall>A \<subseteq> Field r. A \<noteq> {} \<longrightarrow> (\<exists>a \<in> A. \<forall>a' \<in> A. (a, a') \<in> r))" |
|
559 |
proof (cases "r \<subseteq> Id") |
|
560 |
case True |
|
561 |
then have *: "r - Id = {}" by blast |
|
562 |
have "wf (r - Id)" by (simp add: *) |
|
563 |
moreover have "\<exists>a \<in> A. \<forall>a' \<in> A. (a, a') \<in> r" |
|
564 |
if *: "A \<subseteq> Field r" and **: "A \<noteq> {}" for A |
|
565 |
proof - |
|
566 |
from \<open>Linear_order r\<close> True |
|
567 |
obtain a where a: "r = {} \<or> r = {(a, a)}" |
|
568 |
unfolding order_on_defs using Total_subset_Id [of r] by blast |
|
569 |
with * ** have "A = {a} \<and> r = {(a, a)}" |
|
570 |
unfolding Field_def by blast |
|
571 |
with a show ?thesis by blast |
|
572 |
qed |
|
55027 | 573 |
ultimately show ?thesis by blast |
574 |
next |
|
63572 | 575 |
case False |
576 |
with \<open>Linear_order r\<close> have Field: "Field r = Field (r - Id)" |
|
577 |
unfolding order_on_defs using Total_Id_Field [of r] by blast |
|
55027 | 578 |
show ?thesis |
579 |
proof |
|
63572 | 580 |
assume *: "wf (r - Id)" |
581 |
show "\<forall>A \<subseteq> Field r. A \<noteq> {} \<longrightarrow> (\<exists>a \<in> A. \<forall>a' \<in> A. (a, a') \<in> r)" |
|
582 |
proof clarify |
|
583 |
fix A |
|
584 |
assume **: "A \<subseteq> Field r" and ***: "A \<noteq> {}" |
|
585 |
then have "\<exists>a \<in> A. \<forall>a' \<in> A. (a',a) \<notin> r - Id" |
|
586 |
using Field * unfolding wf_eq_minimal2 by simp |
|
587 |
moreover have "\<forall>a \<in> A. \<forall>a' \<in> A. (a, a') \<in> r \<longleftrightarrow> (a', a) \<notin> r - Id" |
|
588 |
using Linear_order_in_diff_Id [OF \<open>Linear_order r\<close>] ** by blast |
|
589 |
ultimately show "\<exists>a \<in> A. \<forall>a' \<in> A. (a, a') \<in> r" by blast |
|
55027 | 590 |
qed |
591 |
next |
|
63572 | 592 |
assume *: "\<forall>A \<subseteq> Field r. A \<noteq> {} \<longrightarrow> (\<exists>a \<in> A. \<forall>a' \<in> A. (a, a') \<in> r)" |
593 |
show "wf (r - Id)" |
|
594 |
unfolding wf_eq_minimal2 |
|
595 |
proof clarify |
|
596 |
fix A |
|
597 |
assume **: "A \<subseteq> Field(r - Id)" and ***: "A \<noteq> {}" |
|
598 |
then have "\<exists>a \<in> A. \<forall>a' \<in> A. (a,a') \<in> r" |
|
599 |
using Field * by simp |
|
600 |
moreover have "\<forall>a \<in> A. \<forall>a' \<in> A. (a, a') \<in> r \<longleftrightarrow> (a', a) \<notin> r - Id" |
|
601 |
using Linear_order_in_diff_Id [OF \<open>Linear_order r\<close>] ** mono_Field[of "r - Id" r] by blast |
|
602 |
ultimately show "\<exists>a \<in> A. \<forall>a' \<in> A. (a',a) \<notin> r - Id" |
|
603 |
by blast |
|
55027 | 604 |
qed |
605 |
qed |
|
606 |
qed |
|
607 |
||
608 |
corollary Linear_order_Well_order_iff: |
|
63572 | 609 |
"Linear_order r \<Longrightarrow> |
610 |
Well_order r \<longleftrightarrow> (\<forall>A \<subseteq> Field r. A \<noteq> {} \<longrightarrow> (\<exists>a \<in> A. \<forall>a' \<in> A. (a, a') \<in> r))" |
|
611 |
unfolding well_order_on_def using Linear_order_wf_diff_Id[of r] by blast |
|
55027 | 612 |
|
26273 | 613 |
end |