src/HOL/Enum.thy
author bulwahn
Mon, 22 Nov 2010 11:34:56 +0100
changeset 40650 d40b347d5b0b
parent 40649 dc1b5aa908ff
child 40651 9752ba7348b5
permissions -rw-r--r--
adding Enum to HOL-Main image and removing it from HOL-Library
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(* Author: Florian Haftmann, TU Muenchen *)
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header {* Finite types as explicit enumerations *}
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theory Enum
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imports Map String
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begin
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subsection {* Class @{text enum} *}
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class enum =
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  fixes enum :: "'a list"
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  assumes UNIV_enum: "UNIV = set enum"
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    and enum_distinct: "distinct enum"
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begin
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subclass finite proof
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qed (simp add: UNIV_enum)
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lemma enum_all: "set enum = UNIV" unfolding UNIV_enum ..
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lemma in_enum [intro]: "x \<in> set enum"
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  unfolding enum_all by auto
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lemma enum_eq_I:
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  assumes "\<And>x. x \<in> set xs"
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  shows "set enum = set xs"
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proof -
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  from assms UNIV_eq_I have "UNIV = set xs" by auto
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  with enum_all show ?thesis by simp
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qed
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end
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subsection {* Equality and order on functions *}
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instantiation "fun" :: (enum, equal) equal
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begin
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definition
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  "HOL.equal f g \<longleftrightarrow> (\<forall>x \<in> set enum. f x = g x)"
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instance proof
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qed (simp_all add: equal_fun_def enum_all fun_eq_iff)
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end
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lemma [code nbe]:
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  "HOL.equal (f :: _ \<Rightarrow> _) f \<longleftrightarrow> True"
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  by (fact equal_refl)
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lemma order_fun [code]:
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  fixes f g :: "'a\<Colon>enum \<Rightarrow> 'b\<Colon>order"
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  shows "f \<le> g \<longleftrightarrow> list_all (\<lambda>x. f x \<le> g x) enum"
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    and "f < g \<longleftrightarrow> f \<le> g \<and> list_ex (\<lambda>x. f x \<noteq> g x) enum"
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  by (simp_all add: list_all_iff list_ex_iff enum_all fun_eq_iff le_fun_def order_less_le)
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subsection {* Quantifiers *}
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lemma all_code [code]: "(\<forall>x. P x) \<longleftrightarrow> list_all P enum"
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  by (simp add: list_all_iff enum_all)
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lemma exists_code [code]: "(\<exists>x. P x) \<longleftrightarrow> list_ex P enum"
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  by (simp add: list_ex_iff enum_all)
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subsection {* Default instances *}
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primrec n_lists :: "nat \<Rightarrow> 'a list \<Rightarrow> 'a list list" where
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  "n_lists 0 xs = [[]]"
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  | "n_lists (Suc n) xs = concat (map (\<lambda>ys. map (\<lambda>y. y # ys) xs) (n_lists n xs))"
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lemma n_lists_Nil [simp]: "n_lists n [] = (if n = 0 then [[]] else [])"
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  by (induct n) simp_all
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lemma length_n_lists: "length (n_lists n xs) = length xs ^ n"
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  by (induct n) (auto simp add: length_concat o_def listsum_triv)
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lemma length_n_lists_elem: "ys \<in> set (n_lists n xs) \<Longrightarrow> length ys = n"
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  by (induct n arbitrary: ys) auto
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lemma set_n_lists: "set (n_lists n xs) = {ys. length ys = n \<and> set ys \<subseteq> set xs}"
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proof (rule set_eqI)
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  fix ys :: "'a list"
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  show "ys \<in> set (n_lists n xs) \<longleftrightarrow> ys \<in> {ys. length ys = n \<and> set ys \<subseteq> set xs}"
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  proof -
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    have "ys \<in> set (n_lists n xs) \<Longrightarrow> length ys = n"
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      by (induct n arbitrary: ys) auto
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    moreover have "\<And>x. ys \<in> set (n_lists n xs) \<Longrightarrow> x \<in> set ys \<Longrightarrow> x \<in> set xs"
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      by (induct n arbitrary: ys) auto
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    moreover have "set ys \<subseteq> set xs \<Longrightarrow> ys \<in> set (n_lists (length ys) xs)"
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      by (induct ys) auto
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    ultimately show ?thesis by auto
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  qed
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qed
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lemma distinct_n_lists:
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  assumes "distinct xs"
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  shows "distinct (n_lists n xs)"
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proof (rule card_distinct)
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  from assms have card_length: "card (set xs) = length xs" by (rule distinct_card)
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  have "card (set (n_lists n xs)) = card (set xs) ^ n"
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  proof (induct n)
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    case 0 then show ?case by simp
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  next
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    case (Suc n)
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    moreover have "card (\<Union>ys\<in>set (n_lists n xs). (\<lambda>y. y # ys) ` set xs)
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      = (\<Sum>ys\<in>set (n_lists n xs). card ((\<lambda>y. y # ys) ` set xs))"
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      by (rule card_UN_disjoint) auto
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    moreover have "\<And>ys. card ((\<lambda>y. y # ys) ` set xs) = card (set xs)"
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      by (rule card_image) (simp add: inj_on_def)
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    ultimately show ?case by auto
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  qed
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  also have "\<dots> = length xs ^ n" by (simp add: card_length)
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  finally show "card (set (n_lists n xs)) = length (n_lists n xs)"
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    by (simp add: length_n_lists)
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qed
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lemma map_of_zip_enum_is_Some:
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  assumes "length ys = length (enum \<Colon> 'a\<Colon>enum list)"
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  shows "\<exists>y. map_of (zip (enum \<Colon> 'a\<Colon>enum list) ys) x = Some y"
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proof -
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  from assms have "x \<in> set (enum \<Colon> 'a\<Colon>enum list) \<longleftrightarrow>
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    (\<exists>y. map_of (zip (enum \<Colon> 'a\<Colon>enum list) ys) x = Some y)"
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    by (auto intro!: map_of_zip_is_Some)
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  then show ?thesis using enum_all by auto
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qed
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lemma map_of_zip_enum_inject:
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  fixes xs ys :: "'b\<Colon>enum list"
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  assumes length: "length xs = length (enum \<Colon> 'a\<Colon>enum list)"
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      "length ys = length (enum \<Colon> 'a\<Colon>enum list)"
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    and map_of: "the \<circ> map_of (zip (enum \<Colon> 'a\<Colon>enum list) xs) = the \<circ> map_of (zip (enum \<Colon> 'a\<Colon>enum list) ys)"
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  shows "xs = ys"
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proof -
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  have "map_of (zip (enum \<Colon> 'a list) xs) = map_of (zip (enum \<Colon> 'a list) ys)"
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  proof
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    fix x :: 'a
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    from length map_of_zip_enum_is_Some obtain y1 y2
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      where "map_of (zip (enum \<Colon> 'a list) xs) x = Some y1"
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        and "map_of (zip (enum \<Colon> 'a list) ys) x = Some y2" by blast
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    moreover from map_of have "the (map_of (zip (enum \<Colon> 'a\<Colon>enum list) xs) x) = the (map_of (zip (enum \<Colon> 'a\<Colon>enum list) ys) x)"
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      by (auto dest: fun_cong)
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    ultimately show "map_of (zip (enum \<Colon> 'a\<Colon>enum list) xs) x = map_of (zip (enum \<Colon> 'a\<Colon>enum list) ys) x"
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      by simp
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  qed
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  with length enum_distinct show "xs = ys" by (rule map_of_zip_inject)
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qed
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instantiation "fun" :: (enum, enum) enum
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begin
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definition
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  "enum = map (\<lambda>ys. the o map_of (zip (enum\<Colon>'a list) ys)) (n_lists (length (enum\<Colon>'a\<Colon>enum list)) enum)"
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   157
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   158
instance proof
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   159
  show "UNIV = set (enum \<Colon> ('a \<Rightarrow> 'b) list)"
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   160
  proof (rule UNIV_eq_I)
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   161
    fix f :: "'a \<Rightarrow> 'b"
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    have "f = the \<circ> map_of (zip (enum \<Colon> 'a\<Colon>enum list) (map f enum))"
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d7728f65b353 renamed lemmas: ext_iff -> fun_eq_iff, set_ext_iff -> set_eq_iff, set_ext -> set_eqI
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   163
      by (auto simp add: map_of_zip_map fun_eq_iff)
26444
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   164
    then show "f \<in> set enum"
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   165
      by (auto simp add: enum_fun_def set_n_lists)
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   166
  qed
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   167
next
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   168
  from map_of_zip_enum_inject
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   169
  show "distinct (enum \<Colon> ('a \<Rightarrow> 'b) list)"
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   170
    by (auto intro!: inj_onI simp add: enum_fun_def
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      distinct_map distinct_n_lists enum_distinct set_n_lists enum_all)
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qed
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   173
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   174
end
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   175
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lemma enum_fun_code [code]: "enum = (let enum_a = (enum \<Colon> 'a\<Colon>{enum, equal} list)
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  in map (\<lambda>ys. the o map_of (zip enum_a ys)) (n_lists (length enum_a) enum))"
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  by (simp add: enum_fun_def Let_def)
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instantiation unit :: enum
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begin
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definition
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  "enum = [()]"
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instance proof
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   187
qed (simp_all add: enum_unit_def UNIV_unit)
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0f8e23edd357 added theory Library/Enum.thy
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   189
end
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   190
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instantiation bool :: enum
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   192
begin
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   193
0f8e23edd357 added theory Library/Enum.thy
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   194
definition
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  "enum = [False, True]"
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   196
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   197
instance proof
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   198
qed (simp_all add: enum_bool_def UNIV_bool)
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0f8e23edd357 added theory Library/Enum.thy
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   200
end
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   201
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primrec product :: "'a list \<Rightarrow> 'b list \<Rightarrow> ('a \<times> 'b) list" where
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  "product [] _ = []"
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  | "product (x#xs) ys = map (Pair x) ys @ product xs ys"
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   205
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   206
lemma product_list_set:
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  "set (product xs ys) = set xs \<times> set ys"
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   208
  by (induct xs) auto
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   209
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lemma distinct_product:
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  assumes "distinct xs" and "distinct ys"
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   212
  shows "distinct (product xs ys)"
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   213
  using assms by (induct xs)
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   214
    (auto intro: inj_onI simp add: product_list_set distinct_map)
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   215
37678
0040bafffdef "prod" and "sum" replace "*" and "+" respectively
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instantiation prod :: (enum, enum) enum
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   217
begin
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   218
0f8e23edd357 added theory Library/Enum.thy
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definition
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  "enum = product enum enum"
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   221
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instance by default
26444
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   223
  (simp_all add: enum_prod_def product_list_set distinct_product enum_all enum_distinct)
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   224
0f8e23edd357 added theory Library/Enum.thy
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   225
end
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   226
37678
0040bafffdef "prod" and "sum" replace "*" and "+" respectively
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   227
instantiation sum :: (enum, enum) enum
26348
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begin
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   229
0f8e23edd357 added theory Library/Enum.thy
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   230
definition
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  "enum = map Inl enum @ map Inr enum"
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   232
0f8e23edd357 added theory Library/Enum.thy
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   233
instance by default
26444
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   234
  (auto simp add: enum_all enum_sum_def, case_tac x, auto intro: inj_onI simp add: distinct_map enum_distinct)
26348
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   235
0f8e23edd357 added theory Library/Enum.thy
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   236
end
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   237
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   238
primrec sublists :: "'a list \<Rightarrow> 'a list list" where
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   239
  "sublists [] = [[]]"
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   240
  | "sublists (x#xs) = (let xss = sublists xs in map (Cons x) xss @ xss)"
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   241
26444
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   242
lemma length_sublists:
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   243
  "length (sublists xs) = Suc (Suc (0\<Colon>nat)) ^ length xs"
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   244
  by (induct xs) (simp_all add: Let_def)
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   245
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   246
lemma sublists_powset:
26444
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   247
  "set ` set (sublists xs) = Pow (set xs)"
26348
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   248
proof -
0f8e23edd357 added theory Library/Enum.thy
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   249
  have aux: "\<And>x A. set ` Cons x ` A = insert x ` set ` A"
0f8e23edd357 added theory Library/Enum.thy
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   250
    by (auto simp add: image_def)
26444
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   251
  have "set (map set (sublists xs)) = Pow (set xs)"
26348
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parents:
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   252
    by (induct xs)
33639
603320b93668 New list theorems; added map_map to simpset, this is the prefered direction; allow sorting by a key
hoelzl
parents: 33635
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   253
      (simp_all add: aux Let_def Pow_insert Un_commute comp_def del: map_map)
26444
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   254
  then show ?thesis by simp
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   255
qed
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diff changeset
   256
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   257
lemma distinct_set_sublists:
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   258
  assumes "distinct xs"
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   259
  shows "distinct (map set (sublists xs))"
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   260
proof (rule card_distinct)
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   261
  have "finite (set xs)" by rule
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haftmann
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diff changeset
   262
  then have "card (Pow (set xs)) = Suc (Suc 0) ^ card (set xs)" by (rule card_Pow)
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haftmann
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diff changeset
   263
  with assms distinct_card [of xs]
6a5faa5bcf19 instance for functions, explicit characters
haftmann
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diff changeset
   264
    have "card (Pow (set xs)) = Suc (Suc 0) ^ length xs" by simp
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haftmann
parents: 26348
diff changeset
   265
  then show "card (set (map set (sublists xs))) = length (map set (sublists xs))"
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   266
    by (simp add: sublists_powset length_sublists)
26348
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   267
qed
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   268
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   269
instantiation nibble :: enum
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   270
begin
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   271
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   272
definition
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   273
  "enum = [Nibble0, Nibble1, Nibble2, Nibble3, Nibble4, Nibble5, Nibble6, Nibble7,
0f8e23edd357 added theory Library/Enum.thy
haftmann
parents:
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   274
    Nibble8, Nibble9, NibbleA, NibbleB, NibbleC, NibbleD, NibbleE, NibbleF]"
0f8e23edd357 added theory Library/Enum.thy
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diff changeset
   275
31464
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   276
instance proof
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   277
qed (simp_all add: enum_nibble_def UNIV_nibble)
26348
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haftmann
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   278
0f8e23edd357 added theory Library/Enum.thy
haftmann
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   279
end
0f8e23edd357 added theory Library/Enum.thy
haftmann
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   280
0f8e23edd357 added theory Library/Enum.thy
haftmann
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   281
instantiation char :: enum
0f8e23edd357 added theory Library/Enum.thy
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   282
begin
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diff changeset
   283
0f8e23edd357 added theory Library/Enum.thy
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   284
definition
37765
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   285
  "enum = map (split Char) (product enum enum)"
26444
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   286
31482
7288382fd549 using constant "chars"
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   287
lemma enum_chars [code]:
7288382fd549 using constant "chars"
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   288
  "enum = chars"
7288382fd549 using constant "chars"
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diff changeset
   289
  unfolding enum_char_def chars_def enum_nibble_def by simp
26348
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haftmann
parents:
diff changeset
   290
31464
b2aca38301c4 tuned proofs
haftmann
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diff changeset
   291
instance proof
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   292
qed (auto intro: char.exhaust injI simp add: enum_char_def product_list_set enum_all full_SetCompr_eq [symmetric]
b2aca38301c4 tuned proofs
haftmann
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diff changeset
   293
  distinct_map distinct_product enum_distinct)
26348
0f8e23edd357 added theory Library/Enum.thy
haftmann
parents:
diff changeset
   294
0f8e23edd357 added theory Library/Enum.thy
haftmann
parents:
diff changeset
   295
end
0f8e23edd357 added theory Library/Enum.thy
haftmann
parents:
diff changeset
   296
29024
6cfa380af73b instantiation option :: (enum) enum
huffman
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diff changeset
   297
instantiation option :: (enum) enum
6cfa380af73b instantiation option :: (enum) enum
huffman
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diff changeset
   298
begin
6cfa380af73b instantiation option :: (enum) enum
huffman
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diff changeset
   299
6cfa380af73b instantiation option :: (enum) enum
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diff changeset
   300
definition
6cfa380af73b instantiation option :: (enum) enum
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   301
  "enum = None # map Some enum"
6cfa380af73b instantiation option :: (enum) enum
huffman
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diff changeset
   302
31464
b2aca38301c4 tuned proofs
haftmann
parents: 31193
diff changeset
   303
instance proof
b2aca38301c4 tuned proofs
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diff changeset
   304
qed (auto simp add: enum_all enum_option_def, rule option.exhaust, auto intro: simp add: distinct_map enum_distinct)
29024
6cfa380af73b instantiation option :: (enum) enum
huffman
parents: 28684
diff changeset
   305
6cfa380af73b instantiation option :: (enum) enum
huffman
parents: 28684
diff changeset
   306
end
6cfa380af73b instantiation option :: (enum) enum
huffman
parents: 28684
diff changeset
   307
40647
6e92ca8e981b adding prototype for finite_type instantiations
bulwahn
parents: 39302
diff changeset
   308
subsection {* Small finite types *}
6e92ca8e981b adding prototype for finite_type instantiations
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diff changeset
   309
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   310
text {* We define small finite types for the use in Quickcheck *}
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diff changeset
   311
6e92ca8e981b adding prototype for finite_type instantiations
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   312
datatype finite_1 = a\<^isub>1
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diff changeset
   313
6e92ca8e981b adding prototype for finite_type instantiations
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diff changeset
   314
instantiation finite_1 :: enum
6e92ca8e981b adding prototype for finite_type instantiations
bulwahn
parents: 39302
diff changeset
   315
begin
6e92ca8e981b adding prototype for finite_type instantiations
bulwahn
parents: 39302
diff changeset
   316
6e92ca8e981b adding prototype for finite_type instantiations
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diff changeset
   317
definition
6e92ca8e981b adding prototype for finite_type instantiations
bulwahn
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diff changeset
   318
  "enum = [a\<^isub>1]"
6e92ca8e981b adding prototype for finite_type instantiations
bulwahn
parents: 39302
diff changeset
   319
6e92ca8e981b adding prototype for finite_type instantiations
bulwahn
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diff changeset
   320
instance proof
6e92ca8e981b adding prototype for finite_type instantiations
bulwahn
parents: 39302
diff changeset
   321
qed (auto simp add: enum_finite_1_def intro: finite_1.exhaust)
6e92ca8e981b adding prototype for finite_type instantiations
bulwahn
parents: 39302
diff changeset
   322
29024
6cfa380af73b instantiation option :: (enum) enum
huffman
parents: 28684
diff changeset
   323
end
40647
6e92ca8e981b adding prototype for finite_type instantiations
bulwahn
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diff changeset
   324
6e92ca8e981b adding prototype for finite_type instantiations
bulwahn
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diff changeset
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datatype finite_2 = a\<^isub>1 | a\<^isub>2
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instantiation finite_2 :: enum
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begin
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definition
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  "enum = [a\<^isub>1, a\<^isub>2]"
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instance proof
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qed (auto simp add: enum_finite_2_def intro: finite_2.exhaust)
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end
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datatype finite_3 = a\<^isub>1 | a\<^isub>2 | a\<^isub>3
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instantiation finite_3 :: enum
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begin
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definition
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  "enum = [a\<^isub>1, a\<^isub>2, a\<^isub>3]"
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instance proof
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qed (auto simp add: enum_finite_3_def intro: finite_3.exhaust)
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end
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datatype finite_4 = a\<^isub>1 | a\<^isub>2 | a\<^isub>3 | a\<^isub>4
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instantiation finite_4 :: enum
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begin
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definition
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  "enum = [a\<^isub>1, a\<^isub>2, a\<^isub>3, a\<^isub>4]"
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instance proof
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qed (auto simp add: enum_finite_4_def intro: finite_4.exhaust)
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end
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datatype finite_5 = a\<^isub>1 | a\<^isub>2 | a\<^isub>3 | a\<^isub>4 | a\<^isub>5
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instantiation finite_5 :: enum
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begin
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definition
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  "enum = [a\<^isub>1, a\<^isub>2, a\<^isub>3, a\<^isub>4, a\<^isub>5]"
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instance proof
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qed (auto simp add: enum_finite_5_def intro: finite_5.exhaust)
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end
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hide_type finite_1 finite_2 finite_3 finite_4 finite_5
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end